BEE-spoke-data/govdocs1-by-extension · Datasets at Hugging Face

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all-txt-docs	078354	Release No. 0077.96 Remarks by Secretary of Agriculture Dan Glickman Agricultural Outlook Forum February 21, 1996 "AGRICULTURE POLICY FOR A NEW CENTURY" I want to welcome you all to USDA's Agricultural Outlook Forum. We'll spend the next 2 days talking about the future of agriculture for 1996 and beyond, and that's more of a challenge than usual. Right now it's difficultto project an outlook for agriculture for the next week, let alone the next century. We're in the middle of a debate over budget and policy which will have far-reaching effects on American agriculture. You know how debates go. It's always easier to find agreement in the abstract than in the specific. Take the preacher who was trying to give his congregation a message about sharing. He looked at one member and said, "Now Henry, if you had 3 houses, you wouldn't mind giving up one so some poor family would have shelter, would you?" "Of course I wouldn't," said Henry. "And if you had 3 Cadillacs, you wouldn't mind giving up one of them...?" "Of course not." "And if you had 3 milk cows..." "Now hold on," said Henry. "I've got 3 milk cows!" There has been progress. The Senate has passed a bill and it's a step in the right direction. It begins to address some of the Administration's concerns about a safety net for farmers, rural development, agricultural research, global competitiveness, and the environment. I am pleased the Senate bill includes a Fund for Rural America -- funding for research and rural development. I have urged the House to take up the bill as soon as possible so we can get a final bill enacted and end the uncertainty for American farmers. OPTIMISM AMIDST UNCERTAINTY Despite the uncertainty of the farm bill, despite tight stocks, despite the complexities of globalization, I'm extremely optimistic about the future of American agriculture. I'm optimistic because I know we have a fundamentally strong farm economy: Farm prices for many commodities are the highest in many years. -more- -2- Cash receipts for farmers are at record highs. Our exports continue to grow. Government spending on farm price and income support programs is the lowest since 1981. I know we must temper this optimism with a reality check: Not all commodities and not all producers are benefitting. Livestock producers are having a particularly difficult time. I'm well aware that grain and soybean stocks -- both in the U.S. and throughout the world -- are tight and that demand continues to increase. And I'm aware of the bad weather in the plains states which has affected and continues to affect total crop production. We'll spend a lot of time at this outlook conference talking about tight global grain and oilseed markets, strong prices, and prospects for 1996 crops. But depleted stocks are only part of the story. The fact that demand is growing is good news for the United States. We're in the business of selling food and other agricultural goods, and we produce a lot more than we can use at home. And 96 percent of the world's consumers live in other countries. Based on current prices and pre-season conditions, we believe there will be a surge in world grain production this year. A rebound in yields and more planted area is expected to raise U.S. grain production and relieve the abnormally tight stocks. Livestock and poultry producers may be squeezed as feed costs rise but generally they are maintaining inventories. Beef, pork, and broiler output are expected to increase in 1996, and meat output most likely will continue to expand in 1997. As the rest of the world becomes more prosperous and as population grows, demand will remain strong, particularly in Asia and Latin America. And U.S. farm prices should remain strong. Because of higher expected prices, producers would have been looking at small deficiency payments and no set asides under a continuation of the 1990 farm bill. As agriculture continues to move away from restrictive government programs to more market-oriented ones, what government does outside the traditional commodity programs will become increasingly important. Investment in infrastructure -- research, conservation, rural development -- will help the transition to a more market-oriented agriculture because it will ensure that farmers have the solid foundation they need to prosper and compete in the world. Let me amplify this point: We at USDA, in Congress, and in the media exclusively focus on commodity programs when we talk about the farm bill. The debate has become almost a fixation on the size of payments to farmers. -more- -3- The farm bill is about commodity programs. But it's also about research, about conservation, about rural development, about trade, and about new opportunities. And they all will have a greater impact on agriculture in the future than any commodity payment. H.L. Mencken was asked the difference between the short term and the long term. The only difference, he said, is that in the long term we're dead. So I understand that commodity programs are important in the short term. The short term matters but it's not all that matters - particularly when we are moving toward an agricultural policy for focused on the long term.. IMPORTANCE OF TRADE There is no doubt that, in the long term, trade, not commodity programs, will define agriculture's future. Today we are releasing our new quarterly forecast for this fiscal year's exports. We expect U.S. agricultural exports to be $60 billion this fiscal year -- up by $2 billion from our last forecast and another record. We are well on track to achieving the long-term agricultural projection for exports of $66 billion the first year of the 21st century. Beyond the numbers are real economic benefits, incomes, and jobs. I just returned from my second trade mission to Asia -- our largest and fastest-growing market. I visited both China and India -- the 2 largest countries in the world where about 40 percent of the world's people live. There are very good opportunities for us in both countries. In China, I saw with my own eyes what I already knew to be true: China is becoming an extremely important customer for a number of U.S. commodities -- particularly wheat and corn. Recently, in 1 week, we sold 2.1 million tons of wheat to the Chinese, raising their total purchases to 4 million tons this marketing year. This year they have bought more than 2.2 million tons of our corn. Two years ago, China exported 12 million tons of corn and imported none. My trip to China was an extremely important visit to me and to the President. Our agriculture relationship with China is important in itself, but it can also be a bridge to help resolve other current issues between our countries. I told the Chinese that the U.S. will continue to be a predictable and reliable supplier of food products to China. But I also strongly suggested that China be a predictable and reliable customer as well, working with us to communicate in a timely fashion what their needs will be. I also stressed that we can't let bad or incomplete science be used as an unfair trade barrier. We're still very concerned with China's 23-year ban on wheat imports from the U.S. Pacific Northwest -- a ban we believe is based on bad science. My father always said, "Respect Thy Customer." China has bought a lot from the U.S., but the U.S. buys 4 times as much from China -- over $30 billion more a year -- in products from electronic equipment, shoes, toys, and clothing. Our desire to see China open its markets and remove unfair or unscientific trade barriers is not an unreasonable request from China's best customer. -more- -4- As important as bulk commodities are to agriculture exports, high-value, consumer-ready, and semi-processed agriculture products are the fastest growing segments of the market. In the 1970s, nearly 80 percent of all our exports were bulk commodities. They now account for less than 50 percent of all exports. Meanwhile, consumer-ready foods went from less than 10 percent of all exports to nearly 40 percent in the same time period. I saw this first-hand in Asia where demand growth has been concentrated in high-value products. While China is expected to be the key source of global growth in bulk trade, it is also a growing market for U.S. consumer-ready products. Obviously Japan, Korea, Indonesia and the other developing Asian markets are growing as well. India has a relatively affluent middle class that is about the size of the entire U.S. population. India is fairly self sufficient now in production of wheat and rice, but I am hopeful we will see increased demand for U.S. exports on the value-added side. Economies in Latin America also are expanding rapidly. And Mexico, although working to recover from the peso devaluation, remains an excellent long-term market for U.S. exports. NEED FOR FREE TRADE The movement toward freer trade must continue. And the scare tactics of those who want to build a wall around our country must be rejected. But in fighting for freer trade, we must understand the response of those who want the U.S. to withdraw from the world. It taps into the very real anxieties of many Americans. People have lost good paying jobs, families need 2 full-time incomes, workers worry that U.S. companies will take advantage of low-paid labor in other parts of the world. But isolationist retreat inevitably leads to a lower standard of living and fewer jobs for people in this country. It reminds me of another H.L. Mencken quote that for every complicated problem there is a simple -- and a wrong -- solution. Pat Buchanan has said his first act as President would be to cancel the GATT and NAFTA agreements. That would be a disaster for agriculture because export growth is a major factor in increasing income to our farmers and ranchers. But the U.S. demands a fair and level playing field. That is why this Administration has been aggressively opening up foreign markets and taking steps against unfair trade practices. One example is the recent announcement of a reduction in Canadian lumber into the U.S. You will hear more details on this and other trade issues in a few minutes from our U.S. Trade Representative Mickey Kantor. -more- -5- Bringing down trade barriers is only part of the battle. As traditional restrictions -- tariffs, quotas, levies -- are eliminated, there will always be efforts to replace them with hidden restrictions. So we have to be vigilant to ensure that our trading partners live up to their obligations and that new non-tariff barriers don't take the place of old tariff barriers. Phony barriers come in many forms. One form they take is that of sanitary or phytosanitary restrictions. The Uruguay Round trade negotiations set new rules which require sound science as the basis for sanitary and phytosanitary trade measures. Those rules must be followed. We have asked the World Trade Organization to intervene on the European Union's hormone ban on beef. This issue is a high personal priority for me as well as for the Administration. We are determined to end this long-standing unfair trade practice and restore access for U.S. meat exporters to this important market. The evidence is overwhelming that proper use of these hormones poses no danger to human health. Another example is the recent effort by Russia to cut off our poultry exports -- again on the basis of unsound science. Let me say it again: using a non-tariff barrier based on unsound science is simply unacceptable to us. American agriculture is currently twice as reliant on international markets as the U.S. economy as a whole, and by the year 2000 it will be 2.5 times as reliant. As this trend continues, foreign economic conditions, policies, and the weather increasingly will affect the economic fortunes of American producers. Long-term market trends are favorable to U.S. producers. But markets -- especially agricultural markets -- are volatile. In the past, the government could moderate the effects on producers with safety nets, acreage set asides, and stock management. That moderating capacity will be much less in the future. BEYOND COMMODITY PROGRAMS Let me repeat: How American producers compete in an increasingly market-driven economy will depend on many factors beyond commodity programs. Even if we simply continued current law, USDA analysts estimate government program payments would account for only 1% of total gross income of farm operators by the year 2000. The Administration supports making agriculture more reliant on market forces. We laid that card on the table -- freeing farmers from planting restrictions -- long before the so-called "Freedom to Farm" plan was talked about. -more- -6- Our policy priority today is to make sure we put enough resources into research, trade development, conservation practices, and rural infrastructure to enable rural areas to participate in the growing global markets. That is why we need a comprehensive farm bill. American agriculture is the most competitive in the world. We remain competitive because of our unequaled marketing system, because we have maintained the productivity of our farms by investing in conserving soil and water. We remain competitive because of the quality of our research. It remains the role of the federal government to keep open access to world trade; to ensure research for new crops; to keep our soil sound, our water safe, our wildlife protected; to inspect food before it goes on American tables, and to make sure no American goes hungry. A true transition program away from the farm programs of the past must protect and maintain these investments. If we do less, we risk eroding the advantage we have won over the years. FUND FOR RURAL AMERICA The need for research and rural development is the reason why the Fund for Rural America is critical -- to bring economic prosperity to every part of the country. The Senate bill authorizes the Secretary of Agriculture to transfer $300 million to this Fund over 3 years -- two-thirds of it to rural development activities and one-third to research grants. This amount represents an important investment -- yet an investment which still falls far short of meeting essential needs in rural America today. The water needs in rural America alone could eat up the authorized funds. It's almost the 21st century and millions of Americans don't have clean drinking water and there are other problems in rural America besides water. There is currently a backlog close to 50,000 applicants for low-income single-family housing loans. That equals about a $2 billion need. CONSERVATION AND ENVIRONMENT Research improves not only the economic quality of rural life, but environmental quality as well. Producing food and fiber to serve our consumers here and around the world puts tremendous pressure on our natural resource base. In my first year as Secretary, I have seen first hand that managing natural resources is a serious and controversial business. Decisions we make today on resource use will have effects on people tomorrow and for decades to come. -more- -7- This is a very sobering experience. It is not like what I was used to in Congress. If we changed the 0/92 program or the Farmer-Owned Reserve Program and it didn't work -- no problem, we fixed it and then that's it: no more problems. But when you make major changes to conservation strategy and lose soil, you can't change the legislation to get it back because it's gone. The same with water quality -- if Congress guts swampbuster and water quality suffers for all Americans, can we ever regain the quality? And if so, at what cost? I don't think many Americans want to test nature this way. Under the Conservation Reserve Program, since 1986 more than 36 million acres of erodible and environmentally fragile cropland have been converted to grasses and trees. We have to continue a sound CRP program with the authority to target and enroll new -- environmentally fragile -- acreage. We have to maintain a strong Wetland Reserve Program that preserves the landowner's ability to choose the length of easements. And we have to make the conservation compliance and swampbuster programs more reasonable, effective, and flexible. CONCLUSION The House needs to build on the progress the Senate has made. It needs to think about the long-term needs of agriculture, not just the short-term budget battle. We have always called this legislation a "Farm Bill." But its actual title in 1990 was "The Food, Agriculture, Conservation, and Trade Act of 1990." We should have called it the "Research, International Trade, Forests, Extension, Nutrition, Rural Development, Conservation, Energy, Food Stamps, Environment, Credit, Food Safety, and Farm Commodity Act of 1990." Or we could just call it the Food Bill. Or the People's Bill. Last year, $6 billion of USDA funds went to commodity programs. This was only 10% of USDA's $62 billion budget. We don't know what the future holds. Crop prices are high now and trade is booming, but conditions can change fast. We've seen it before, and we'll see it again. To think otherwise is to ignore the long-term reality for the short-term fix. That is what worries me about Congress locking in farm payments on a fixed basis for 7 years. Farmers would get payments no matter what happens in world agriculture, no matter what the price of wheat or corn is, no matter what changes there are in weather conditions or political conditions, no matter what the volatility of crop prices. -more- -8- If we go to a system of paying farmers -- even on a transition basis -- without regard to market conditions, then we must recognize that in a period of increased volatility, our research, conservation, and risk management programs must pick up the slack that farm programs have provided. The taxpayers of this country should also be assured that payment will not be made to producers who don't use their land for agricultural purposes. The Congress that will write the next farm bill is, like the society it represents, more urban and suburban than ever. The men and women who will make agriculture policy for the rest of this century generally don't have a rural or farm orientation. So we need to emphasize over and over to Congress and to the public the connection between economically healthy farms and a safe, abundant food supply, and the Nation's overall economic health. While I will not belabor the point here, at the same time we are finalizing a farm bill, we must continue our efforts to promote competition and discourage concentration in American agriculture, particularly in the livestock industry. This months, I established an Advisory Committee on Concentration to consider some of the outstanding concerns and I have asked for their recommendations by June 7. Our concerns have to be more than worrying about the "efficiency" of a market. A monopoly can be very efficient, but offer few avenues for price competition. Farmers, ranchers, producers, processors, and consumers demand that those choices be available. Americans have one natural resource we should take full advantage of: we're an optimistic people. I heard a story about a kid who gets a baseball and goes outside to practice hitting his new ball with his bat. He can't wait to become a player and beat Cal Ripken's record. He throws the ball in the air, swings and misses. He does it a second time and misses again. On his third try, he still doesn't hit the ball. But he's not discouraged. Instead, he smiles and says, "Wow, what a pitcher!" Thank you. # NOTE: USDA news release and media advisories are available on the Internet. Access the USDA Home Page on the World Wide Web at http://www.usda.gov	en
converted_docs	922916	+------------------------+-----------+----------+---------------------+ \| ### Agency \| # Rel \| * \| Web address \| \| \| ease Date \| Closing \| \| \| \| \| Date* \| \| +------------------------+-----------+----------+---------------------+ \| Department of \| June 5, \| August \| <http://ww \| \| Agriculture \| 2002 \| 30, 2002 \| w.reeusda.gov/sbir> \| +------------------------+-----------+----------+---------------------+ \| Department of Commerce \| ## \| January \| <http://www.oar. \| \| \| \| 15, 2003 \| noaa.gov/ORTA/SBIR> \| \| NOAA \| # \| \| \| \| \| # October \| January \| <http:/ \| \| NIST \| 15, 2002 \| 15, 2003 \| /www.nist.gov/sbir> \| \| \| \| \| \| \| \| October \| \| \| \| \| 31, 2002 \| \| \| +------------------------+-----------+----------+---------------------+ \| Department of Defense \| October \| January \| <http://www.acq.o \| \| \| 1, 2002 \| 15, 2003 \| sd.mil/sadbu/sbir/> \| \| SBIR Solicitation 03.1 \| \| \| \| \| \| May 1, \| August \| \| \| SBIR Solicitation 03.2 \| 2003 \| 13,2003 \| \| +------------------------+-----------+----------+---------------------+ \| Department of \| TBD \| TBD \| <http://www.ed.gov \| \| Education \| \| \| /offices/IES/SBIR/> \| \| \| Early \| Late \| \| \| \| Spring \| Spring \| \| \| \| 2003 \| 2003 \| \| +------------------------+-----------+----------+---------------------+ \| Department of Energy \| October \| ## \| [ht \| \| \| 15, 2002 \| January \| tp://sbir.er.doe.go \| \| \| \| 14, 2003 \| v/sbir](http://sb \| \| \| \| \| ir.er.doe.gov/sbir) \| +------------------------+-----------+----------+---------------------+ \| Department of Health \| August 1, \| November \| <http://g \| \| and Human Services \| 2002 \| 8, 2002 \| rants.nih.gov/grant \| \| \| \| \| s/funding/sbir.htm> \| \| National Institutes of \| January \| April 1, \| \| \| Health (PHS 2003-1) \| 2, 2003 \| 2003 \| \| \| \| \| \| \| \| National Institutes of \| \| August \| \| \| Health \| \| 1, 2003 \| \| \| \| \| \| \| \| \| \| December \| \| \| \| \| 1, 2003 \| \| +------------------------+-----------+----------+---------------------+ \| Department of \| February \| May 1, \| <http://www.v \| \| Transportation \| 14, 2003 \| 2003 \| olpe.dot.gov/sbir/> \| +------------------------+-----------+----------+---------------------+ \| EPA \| March 27, \| May \| <http://es \| \| \| 2003 \| 22,2003 \| .epa.gov/ncer/sbir> \| +------------------------+-----------+----------+---------------------+ \| NASA \| July 7, \| S \| <htt \| \| \| 2003 \| eptember \| p://sbir.nasa.gov/> \| \| \| \| 9, 2003 \| \| +------------------------+-----------+----------+---------------------+ \| National Science \| March 1, \| June 12, \| <http://www \| \| Foundation \| 2003 \| 2003 \| .eng.nsf.gov/sbir/> \| \| \| \| \| \| \| Electronics, \| October \| January \| \| \| Information Technology \| 1, 2003 \| 20, 2004 \| \| \| \| \| \| \| \| Adv.Materials, \| \| \| \| \| Manufacturing, & Chem. \| \| \| \| \| Processes \| \| \| \| +------------------------+-----------+----------+---------------------+ +----------------------+-----------+----------+-----------------------+ \| ### Agency \| # Rel \| * \| Web address \| \| \| ease Date \| Closing \| \| \| \| \| Date* \| \| +----------------------+-----------+----------+-----------------------+ \| Department of \| January \| April \| <http://www.acq \| \| Defense \| 2, 2003 \| 16, 2003 \| .osd.mil/sadbu/sbir/> \| +----------------------+-----------+----------+-----------------------+ \| Department of Energy \| October \| January \| <http://s \| \| \| 15, 2002 \| 14, 2003 \| bir.er.doe.gov/sbir/> \| +----------------------+-----------+----------+-----------------------+ \| Department of Health \| August 1, \| November \| <http: \| \| & Human Services \| 2002 \| 8, 2002 \| //grants1.nih.gov/gra \| \| \| \| \| nts/funding/sbir.htm> \| \| \| January \| April 1, \| \| \| \| 2, 2003 \| 2003 \| \| \| \| \| \| \| \| \| \| August \| \| \| \| \| 1, 2003 \| \| \| \| \| \| \| \| \| \| December \| \| \| \| \| 1, 2003 \| \| +----------------------+-----------+----------+-----------------------+ \| NASA \| July 7, \| S \| <http://sbir.nasa. \| \| \| 2003 \| eptember \| gov/SBIR/front1.html> \| \| \| \| 9, 2003 \| \| +----------------------+-----------+----------+-----------------------+ \| National Science \| March 1, \| June 12, \| <http://w \| \| Foundation \| 2003 \| 2003 \| ww.eng.nsf.gov/sbir/> \| \| \| \| \| \| \| Electronics, \| October \| January \| \| \| Information \| 1, 2003 \| 20, 2004 \| \| \| Technology \| \| \| \| \| \| \| \| \| \| Adv.Materials, \| \| \| \| \| Manufacturing, & \| \| \| \| \| Chem. Processes \| \| \| \| +----------------------+-----------+----------+-----------------------+	en
converted_docs	986030	+------------------------------------------------+---------------------+ \| [World Trade]{.smallcaps} \| \| \| \| \| \| [Organization]{.smallcaps} \| \| +------------------------------------------------+---------------------+ \| \| \| +------------------------------------------------+---------------------+ \| \| G/TB \| \| \| T/N/USA/221/Add.2 \| \| \| \| \| \| 16 February 2007 \| +------------------------------------------------+---------------------+ \| \| (07-0672) \| +------------------------------------------------+---------------------+ \| \| \| +------------------------------------------------+---------------------+ \| Committee on Technical Barriers to Trade \| Original: English \| +------------------------------------------------+---------------------+ NOTIFICATION [Addendum]{.underline} The following communication, dated 14 February 2007, has been received from the Delegation of the United States. \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Agency: Federal Aviation Administration (FAA), Department of Transportation (DOT) On October 5, 2006, the Federal Aviation Administration (FAA) issued a Notice of Proposed Rulemaking (NPRM) entitled, Production and Airworthiness Approvals, Part Marking, and Miscellaneous Proposals (71 FR 58915). The Small Business Administration\'s Office of Advocacy has asked us, on behalf of small businesses that may be adversely affected by the proposed rulemaking, to allow additional time for small businesses to comment on the Initial Regulatory Flexibility Analysis associated with the NPRM. We have determined that the additional comment period is consistent with the public interest and that good cause exists for taking this action. Accordingly, we are establishing an additional 45-day comment period on the Initial Regulatory Flexibility Analysis. Dates: Comments must be received by 2 April 2007. Full text of this addendum is available online at Internet URLs: http://a257.g.akamaitech.net/7/257/2422/01jan20071800/edocket.access.gpo.gov/2007/pdf/E7-2537.pdf http://a257.g.akamaitech.net/7/257/2422/01jan20071800/edocket.access.gpo.gov/2007/E7-2537.htm \_\_\_\_\_\_\_\_\_\_	en
all-txt-docs	173095	SUMMARY OF CALIBRATED GPS ANTENNAS ANTENNA ID VENDOR DESIGNATION IGS DESIGNATION JPL D/M+crT DORNE MARGOLIN T DORNE MARGOLIN T AOA D/M+crB DORNE MARGOLIN B DORNE MARGOLIN B JPL D/M+crR DORNE MARGOLIN R DORNE MARGOLIN R TRM 14532.00 4000ST L1/L2 GEOD 4000ST L1/L2 GEOD TRM 14532.10 4000ST L1/L2 GEOD - NO GP - none assigned - TRM 22020.00 TR GEOD L1/L2 GP TR GEOD L1/L2 GP TRM 22020.00-gp TR GEOD L1/L2 W/O GP TR GEOD L1/L2 W/O GP TRM 27947.00-gp RUGGED L1/L2 - NO GP (1) - none assigned - TRM 27947.00+gp RUGGED L1/L2 - GP (1) - none assigned - TRM 23903.00 PERMANENT L1/L2 (1) - none assigned - TRM 29659.00 TRIMBLE CHOKE RING ANTENNA (1) - none assigned - TRM 33429.00 TRIMBLE MICRO CENTER (1) - none assigned - TRM ??? M-PULSE L1/L2 SURVEY M-PULSE L1/L2 SURVEY ASH 700228.A ORIGINAL ASHTECH L1/L2 - none assigned - ASH 700228.B ORIGINAL ASHTECH L1/L2 - none assigned - ASH 700228.C ORIGINAL ASHTECH L1/L2, NO LEVEL - none assigned - ASH 700228.D ASHTECH L1/L2, REV. B - none assigned - ASH 700228.E ASHTECH L1/L2, REV. B - none assigned - ASH 700700.A ASH 700700.B ASH 700718.A ASHTECH GEODETIC III ANTENNA (WHOPPER) - none assigned - ASH 700718.B ASHTECH GEODETIC III ANTENNA (WHOPPER) - none assigned - ASH 700829.2 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.3 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.A ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.A1 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700936.A-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.B-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.C-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.D-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.A ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.B ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.C ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.D ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH LEI AT202 AT202 (1) - none assigned - LEI AT302 AT302 (1) - none assigned - LEI AT303+rd AT303 WITH RD (1) - none assigned - LEI AT303-rd AT303 WITHOUT RD (1) - none assigned - LEI SR299.I SR299 INTERNAL (1) INTERNAL LEI SR399.I SR399 INTERNAL (1) INTERNAL LEI SR299.X-gp SR299 EXTERNAL WITHOUT GP (1) EXTERNAL WITHOUT GP LEI SR399.X-gp SR399 EXTERNAL WITHOUT GP (1) EXTERNAL WITHOUT GP LEI SR299.X+gp SR299 EXTERNAL WITH GP (1) EXTERNAL WITH GP LEI SR399.X+gp SR399 EXTERNAL WITH GP (1) EXTERNAL WITH GP SEN S67157514 SENSOR SYSTEMS L1/L2 PASSIVE (1) - none assigned - SEN S67157514+cr SENSOR SYSTEMS L1/L2 PASSIVE WITH CR (1) - none assigned - SEN S67157549 SENSOR SYSTEMS L1 (1) - none assigned - SEN S67157549+cr SENSOR SYSTEMS L1 WITH CR (1) - none assigned - SEN S67157596 SENSOR SYSTEMS L1/L2 ACTIVE (1) - none assigned - SEN S67157596+cr SENSOR SYSTEMS L1/L2 ACTIVE WITH CR (1) - none assigned - MAC 4647942 MACROMETER X-DIPOLE (1) MACROMETER X-DIPOLE TOP 72110 TOPCON - none assigned - GEO 2200 GEOTRACER (1) - none assigned - (1) This is the NGS designation if no vender's designation was available, or not used, or was modified.	en
converted_docs	187993	Supplemental materials Comments: The growth curves were mainly based on non-labeled L-lactate and 99% 1-^13^C labeled lactate culture (i.e., 1^st^ position labeled lactate). The doubling time for growth is about 8 hours. Measurement of OD~600~ can not be very accurate because the bacteria precipitate metals during the growth. Instead, protein content was measured to capture the growth kinetics. We also did the 3-^13^C labeled lactate culture, but cell can not grow and we have to abandon that experiment (The 3-^13^C lactate product from Cambridge Isotopic Company is contaminated by nitrate). ![](media/image1.wmf){width="5.997222222222222in" height="4.227777777777778in"} Figure S-1. Growth curve of D. vulgaris in defined (LS4D) L-lactate medium. ◊: OD~600~; ■: protein concentration; solid line: Model fitting. ![](media/image2.wmf){width="5.996527777777778in" height="4.6305555555555555in"} Figure S-2. Lactate and sulfate consumption, acetate production curves in defined (LS4D) L-lactate medium. ◊: lactate; □: acetate; ▲: sulfate; solid line: model fitting. ![](media/image3.png){width="6.752083333333333in" height="4.313194444444444in"} Figure S-3. GC-MS spectrum of glutamate of Desulfovibrio vulgaris lysate. *Table S-1. Metabolic reactions for lactate metabolism in Desulfovibrio vulgaris* Hildenborough. ------------ -------------------------------- ------------------------------- Number Reaction (energy balance)\* Gene coding for enzymes. 1 Lactate ↔ PYR (+NADH) ldh DVU0600 2 PYR ↔ PEP (-ATP) ppsA DVU1833 3 PEP ↔ PGA (2 teps) (-ATP) eno DVU0322 + gpmA DVU1619/gpm DVU2935 4 PYR + CO~2~ ↔ OAA (-ATP) pyc DVU1834 5a PYR↔ ACoA + CO~2~ (NADH or lpdA DVU1423 NADPH) 5b ACoA + CO~2~↔ PYR(- NADPH) porA DVU1569/ porB DVU1570/ por DVU3025 5c PYR↔ ACoA + FormateCO~2~ DVU2272, DVU2824 6 Acetate → ACoA(+ATP) acs DVU0748 7 ACoA + OAA ↔ CIT Not annotated 8 PYR + CO~2~ ↔ MAL (-NADH) tme DVU0414 9 CIT ↔ ICT aco DVU1064 10 ICT ↔ OXO + CO~2~ (NADH) icd DVU0477 11 OXO ↔ SUC + CO~2~(NADH) porA DVU1569/ oorA DVU1945/ oorD DVU3350 12 ICT ↔ SUC + Glyoxylate Not annotated (glyoxlate shunt may not exist) 13 FUM ↔ MAL fumC DVU0080/ aspA DVU1766 13 SUC ↔ FUM (-FADH~2~) sdhB DVU2674/ frdC DVU3261 14 MAL ↔ OAA (-NADH) ldh DVU0600 15 ACoA + Glyoxylate ↔ MAL glcB DVU0701 16a PGA ↔ SER Some steps are missing. 16b PYR ↔ SER sda DVU2147 17 SER ↔ GLY + C1 glyA DVU1203 18 PGA ↔ T3P(2 steps)(-ATP-NDAH) pgk DVU2529+gap-1 DVU0565/ gap-2 DVU2144 19 T3P + T3P ↔ F6P (2 steps) (-ATP) fba DVU2143+glpX DVU/ fbp DVU1841 20 S7P + T3P ↔ E4P + F6P DVU1658 21 C5P + E4P ↔ F6P + T3P tkt DVU2530 22 F6P ↔ G6P pgi DVU3222 23 G6P ↔ C5P + CO~2~ (4 steps) (NADPH) Glucose-6-phosphate dehydrogenase/phosphogluconate dehydrogenase are missing. 24 C5P + C5P ↔ S7P +T3P tkt DVU2530 25 Asp + OXO ↔ OAA + Glu aspB DVU3223 26 C5P ↔ His (11 steps) One of reactions (phosphoribosyl-ATP diphosphatase) is missing. 27 PYR ↔ ALA Not annotated 28 2PEP+E4P ↔ Phe (or Try) +CO~2~ One of reactions (9 steps) (3-dehydroquinate synthase) is missing. 29 Asp ↔ Met (4 steps) 30 C5P ↔ RNA and DNA (many steps) Note: A new Acetyl-CoA degradation route: ACoA ↔ C1 pool + \[CO\], which contains some key enzymes. 31a \[CO\] ↔ CO~2~ + \[H\] cooS DVU2098 31b C1 pool ↔ HCOOH (4 steps) folD DVU0323 and (ATP+NADH) metF DVU0997 31c HCOOH ↔ CO~2~ fdnG-1** DVU0587/ DVU0577/DVU0578 ------------ -------------------------------- ------------------------------- \* Energy cost for synthesis of amino acids is listed in Table S-2. Table S-2. Building blocks needed to produce D. vulgaris biomass \. +-------------+--------+------------+----+-----+------+---+----+---+ \| Building \| Yield \| Cost of \| \| \| \| \| \| \| \| block \| coeff \| making 1 \| \| \| \| \| \| \| \| \| icient \| μmol of \| \| \| \| \| \| \| \| \| \| each of \| \| \| \| \| \| \| \| \| (mm \| these \| \| \| \| \| \| \| \| \| ol/mol \| building \| \| \| \| \| \| \| \| \| la \| blocks \| \| \| \| \| \| \| \| \| ctate) \| (mol/mol) \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| \| \| Meta \| A \| N \| N \| 1 \| NH \| S \| \| \| \| bolites^a^ \| TP \| ADH \| ADPH \| - \| ~4 \| \| \| \| \| \| \| \| \| C \| ~^ \| \| \| \| \| \| \| \| \| \| +^ \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Protein \| \| \| \| \| \| \| \| \| \| amino \| \| \| \| \| \| \| \| \| \| acids^\#^* \| \| \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Alanine \| 3.22 \| 1 pyr \| 0 \| 0 \| 1 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Arginine \| 1.56 \| 1 oxo \| 7 \| -1 \| 4 \| 0 \| 4 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Asparagine \| 1.41 \| 1 oaa \| 3 \| 0 \| 1 \| 0 \| 2 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Aspartate \| 1.41 \| 1 oaa \| 0 \| 0 \| 1 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Cysteine \| 0.58 \| 1 pga \| 4 \| -1 \| 5 \| 0 \| 1 \| 1 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Glutamate \| 1.62 \| 1 oxo \| 0 \| 0 \| 1 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Glutamine \| 1.62 \| 1 oxo \| 1 \| 0 \| 1 \| 0 \| 2 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Glycine \| 2.74 \| 1 pga \| 0 \| -1 \| 1 \| - \| 1 \| 0 \| \| \| \| \| \| \| \| 1 \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Histidine \| 0.55 \| 1 C5P \| 6 \| -3 \| 1 \| 1 \| 3 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Isoleucine \| 1.28 \| 1oaa, 1pyr \| 2 \| 0 \| 5 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Leucine \| 2.40 \| 2 pyr, 1 \| 0 \| -1 \| 2 \| 0 \| 1 \| 0 \| \| \| \| acCoA \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Lysine \| 1.65 \| 1 oaa, 1 \| 2 \| 0 \| 4 \| 0 \| 2 \| 0 \| \| \| \| pyr \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Methionine \| 0.68 \| 1 oaa \| 7 \| 0 \| 8 \| 1 \| 1 \| 1 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Ph \| 1.03 \| 1 E4p, 2 \| 1 \| 0 \| 2 \| 0 \| 1 \| 0 \| \| enylalanine \| \| pep \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Proline \| 1.29 \| 1 oxo \| 1 \| 0 \| 3 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Serine \| 1.29 \| 1 pga \| 0 \| -1 \| 1 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Threonine \| 1.42 \| 1 oaa \| 2 \| 0 \| 3 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Tryptophan \| 0.26 \| 1 C5P, 1 \| 5 \| -2 \| 3 \| 0 \| 2 \| 0 \| \| \| \| E4p, \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| 1 pep \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Tyrosine \| 0.68 \| 1 E4p, 2 \| 1 \| -1 \| 2 \| 0 \| 1 \| 0 \| \| \| \| pep \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Valine \| 1.98 \| 2 pyr \| 0 \| 0 \| 2 \| 0 \| 1 \| 0 \| +-------------+--------+------------+----+-----+------+---+----+---+ \| RNA \| \| \| \| \| \| \| \| \| \| nu \| \| \| \| \| \| \| \| \| \| cleotides \| \| \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| ATP \| 0.98 \| 1 C5P, 1 \| 11 \| -3 \| 1 \| 1 \| 5 \| 0 \| \| \| \| pga \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| GTP \| 1.20 \| 1 C5P, 1 \| 13 \| -3 \| 0 \| 1 \| 5 \| 0 \| \| \| \| pga \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| CTP \| 0.75 \| 1 C5P, 1 \| 9 \| 0 \| 1 \| 0 \| 3 \| 0 \| \| \| \| oaa \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| UTP \| 0.81 \| 1 C5P, 1 \| 7 \| 0 \| 1 \| 0 \| 2 \| 0 \| \| \| \| oaa \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| DNA \| \| \| \| \| \| \| \| \| \| nu \| \| \| \| \| \| \| \| \| \| cleotides \| \| \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| dATP \| 0.15 \| 1 C5P, 1 \| 11 \| -3 \| 2 \| 1 \| 5 \| 0 \| \| \| \| pga \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| dGTP \| 0.15 \| 1 C5P, 1 \| 13 \| -3 \| 1 \| 1 \| 5 \| 0 \| \| \| \| pga \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| dCTP \| 0.15 \| 1 C5P, 1 \| 9 \| 0 \| 2 \| 0 \| 3 \| 0 \| \| \| \| oaa \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| dTTP \| 0.15 \| 1 C5P, 1 \| 10 \| 0 \| 3 \| 1 \| 2 \| 0 \| \| \| \| oaa \| .5 \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Average \| 1.6 \| 8.2 acCoA \| 7 \| 0 \| 14 \| 0 \| 0 \| 0 \| \| fatty \| \| \| .2 \| \| \| \| \| \| \| acid \| \| \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \| Average \| \~7 \| 1 G6P \| ND \| ND \| ND \| N \| ND \| N \| \| car \| \| \| \| \| \| D \| \| D \| \| bohydrate \| \| \| \| \| \| \| \| \| +-------------+--------+------------+----+-----+------+---+----+---+ \* part of data are based on "Stephanopoulos, G. N., A. A. Aristidou, and J. Nielsen. 1998. Metabolic Engineering Principles and Methodologies. Academic Press, San Diego." Note: small amount of free amino acids (\<0.1mM) including gln, ala, asp, and cys and phe in cell lyase can also be detected by GC-MS. \# Amino acids derived from hydrolysis of total protein as measured at UC Davis Molecular Structural Facility (see material and methods). Table S-3. Atom mapping matrices. +-------------+-------------+-------------+-------------+-------------+ \| PyrPEP \| PEPPGA \| PGA-\>T3P \| CoA \| C1GLY \| \| \| \| \| Acetate \| \| \| 1 0 0 \| 1 0 0 \| 1 0 0 \| \| 0 \| \| \| \| \| 1 0 \| \| \| 0 1 0 \| 0 1 0 \| 0 1 0 \| \| 1 \| \| \| \| \| 0 1 \| \| \| 0 0 1 \| 0 0 1 \| 0 0 1 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| ICTCO2 \| ACoA  MAL \| OXOCO2 \| OXOGLU \| OXOSUCC \| \| \| \| \| \| \| \| 0 0 0 0 0 1 \| 0 0 \| 1 0 0 0 0 \| 1 0 0 0 0 \| 0 1 0 0 0 \| \| \| \| \| \| \| \| \| 0 0 \| \| 0 1 0 0 0 \| 0 0 1 0 0 \| \| \| \| \| \| \| \| \| 0 1 \| \| 0 0 1 0 0 \| 0 0 0 1 0 \| \| \| \| \| \| \| \| \| 1 0 \| \| 0 0 0 1 0 \| 0 0 0 0 1 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 0 1 \| \| +-------------+-------------+-------------+-------------+-------------+ \| ASPMET \| ACoA  LEU \| PYR LEU \| C1MET \| C1HIS \| \| \| \| \| \| \| \| 1 0 0 0 \| 1 0 \| 0 0 0 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 1 0 0 \| 0 1 \| 0 0 0 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 0 1 0 \| 0 0 \| 0 1 0 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 0 0 1 \| 0 0 \| 0 1 0 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 0 0 0 \| 0 0 \| 0 0 1 \| 1 \| 0 \| \| \| \| \| \| \| \| \| 0 0 \| 0 0 1 \| \| 1 \| +-------------+-------------+-------------+-------------+-------------+ \| E4PTYR \| E4PF6P \| E4PPHE \| E4PS7P \| E4PT3P \| \| \| \| \| \| \| \| 0 0 0 0 \| 0 0 0 0 \| 0 0 0 0 \| 0 0 0 0 \| 0 1 0 0 \| \| \| \| \| \| \| \| 0 0 0 0 \| 0 0 0 0 \| 0 0 0 0 \| 0 0 0 0 \| 0 0 1 0 \| \| \| \| \| \| \| \| 0 0 0 0 \| 1 0 0 0 \| 0 0 0 0 \| 0 0 0 0 \| 0 0 0 1 \| \| \| \| \| \| \| \| 0 0 0 0 \| 0 1 0 0 \| 0 0 0 0 \| 1 0 0 0 \| \| \| \| \| \| \| \| \| 0 0 0 0 \| 0 0 1 0 \| 0 0 0 0 \| 0 1 0 0 \| \| \| \| \| \| \| \| \| 1 0 0 0 \| 0 0 0 1 \| 1 0 0 0 \| 0 0 1 0 \| \| \| \| \| \| \| \| \| 0 1 0 0 \| \| 0 1 0 0 \| 0 0 0 1 \| \| \| \| \| \| \| \| \| 0 0 1 0 \| \| 0 0 1 0 \| \| \| \| \| \| \| \| \| \| 0 0 0 1 \| \| 0 0 0 1 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| CO2OAA \| F6PE4P \| F6PG6P \| F6PS7P \| T3PF6P \| \| \| \| \| \| \| \| 0 \| 0 0 1 0 0 0 \| 1 0 0 0 0 0 \| 1 0 0 0 0 0 \| 0 0 1 \| \| \| \| \| \| \| \| 0 \| 0 0 0 1 0 0 \| 0 1 0 0 0 0 \| 0 1 0 0 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| 0 \| 0 0 0 0 1 0 \| 0 0 1 0 0 0 \| 0 0 1 0 0 0 \| 1 0 0 \| \| \| \| \| \| \| \| 1 \| 0 0 0 0 0 1 \| 0 0 0 1 0 0 \| 0 0 0 0 0 0 \| 1 0 0 \| \| \| \| \| \| \| \| \| \| 0 0 0 0 1 0 \| 0 0 0 0 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| \| \| 0 0 0 0 0 1 \| 0 0 0 0 0 0 \| 0 0 1 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| \| +-------------+-------------+-------------+-------------+-------------+ \| F6PC5P \| ICTOXO \| F6PG6P \| G6PC5P \| GLXMAL \| \| \| \| \| \| \| \| 1 0 0 0 0 0 \| 1 0 0 0 0 0 \| 1 0 0 0 0 0 \| 0 1 0 0 0 0 \| 1 0 \| \| \| \| \| \| \| \| 0 1 0 0 0 0 \| 0 1 0 0 0 0 \| 0 1 0 0 0 0 \| 0 0 1 0 0 0 \| 0 1 \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| 0 0 1 0 0 0 \| 0 0 1 0 0 0 \| 0 0 0 1 0 0 \| 0 0 \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| 0 0 0 1 0 0 \| 0 0 0 1 0 0 \| 0 0 0 0 1 0 \| 0 0 \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| 0 0 0 0 1 0 \| 0 0 0 0 1 0 \| 0 0 0 0 0 1 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 0 0 1 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| GLYC1 \| GLYCO2 \| GLYSER \| PYRCO2 \| PYRCoA \| \| \| \| \| \| \| \| 0 1 \| 1 0 \| 1 0 \| 1 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| \| \| 0 1 \| \| 0 0 1 \| \| \| \| \| \| \| \| \| \| 0 0 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| C1SER \| CO2 MAL \| PYROAA \| ACoAC1 \| ACoACO2 \| \| \| \| \| \| \| \| 0 \| 0 \| 1 0 0 \| 1. 1 \| 2. 0 \| \| \| \| \| \| \| \| 0 \| 0 \| 0 1 0 \| (new \| (new \| \| \| \| \| pathway) \| pathway) \| \| 1 \| 0 \| 0 0 1 \| \| \| \| \| \| \| \| \| \| \| 1 \| 0 0 0 \| \| \| +-------------+-------------+-------------+-------------+-------------+ Table S-3 (Continued) +-------------+-------------+-------------+-------------+-------------+ \| ICTGLX \| ICTSUC \| M \| MALOAA \| PYRMAL \| \| \| \| AL(OAA)CO2 \| \| \| \| 1 0 0 0 0 0 \| 0 0 0 0 1 0 \| \| 1 0 0 0 \| 1 0 0 \| \| \| \| 0 0 0 1 \| \| \| \| 0 1 0 0 0 0 \| 0 0 0 1 0 0 \| \| 0 1 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| \| 0 0 1 0 0 0 \| \| 0 0 1 0 \| 0 0 1 \| \| \| \| \| \| \| \| \| 0 0 0 0 0 1 \| \| 0 0 0 1 \| 0 0 0 \| +-------------+-------------+-------------+-------------+-------------+ \| ACoA  ICT \| ACoA  ICT \| OAA-\>ICT \| OAA-\>ICT \| PYRALA \| \| \| \| \| (E.coli) \| \| \| (DvH) \| (Ecoli) \| (DvH) \| \| 1 0 0 \| \| \| \| \| 0 0 0 1 \| \| \| 1 0 \| 0 0 \| 0 0 0 0 \| \| 0 1 0 \| \| \| \| \| 0 0 1 0 \| \| \| 0 1 \| 0 0 \| 0 0 0 0 \| \| 0 0 1 \| \| \| \| \| 0 1 0 0 \| \| \| 0 0 \| 0 0 \| 0 1 0 0 \| \| \| \| \| \| \| 0 0 0 0 \| \| \| 0 0 \| 0 1 \| 0 0 1 0 \| \| \| \| \| \| \| 0 0 0 0 \| \| \| 0 0 \| 1 0 \| 0 0 0 1 \| \| \| \| \| \| \| 1 0 0 0 \| \| \| 0 0 \| 0 0 \| 1 0 0 0 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| OAAASP \| OAACO2 \| PEPOAA \| OAAPEP \| PEPPYR \| \| \| \| \| \| \| \| 1 0 0 0 \| 0 0 0 1 \| 1 0 0 \| 1 0 0 0 \| 1 0 0 \| \| \| \| \| \| \| \| 0 1 0 0 \| \| 0 1 0 \| 0 1 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| 0 0 1 0 \| \| 0 0 1 \| 0 0 1 0 \| 0 0 1 \| \| \| \| \| \| \| \| 0 0 0 1 \| \| 0 0 0 \| \| \| +-------------+-------------+-------------+-------------+-------------+ \| C5PF6P \| C5PS7P \| G6PCO2 \| PEPTYR \| PEPPHE \| \| \| \| \| \| \| \| 1 0 0 0 0 \| 1 0 0 0 0 \| 1 0 0 0 0 0 \| 1 0 0 \| 1 0 0 \| \| \| \| \| \| \| \| 0 1 0 0 0 \| 0 1 0 0 0 \| \| 0 1 0 \| 0 1 0 \| \| \| \| \| \| \| \| 0 0 0 0 0 \| 1 0 0 0 0 \| \| 0 0 1 \| 0 0 1 \| \| \| \| \| \| \| \| 0 0 0 0 0 \| 0 1 0 0 0 \| \| 0 1 0 \| 0 1 0 \| \| \| \| \| \| \| \| 0 0 0 0 0 \| 0 0 1 0 0 \| \| 0 0 1 \| 0 0 1 \| \| \| \| \| \| \| \| 0 0 0 0 0 \| 0 0 0 1 0 \| \| 0 0 0 \| 0 0 0 \| \| \| \| \| \| \| \| \| 0 0 0 0 1 \| \| 0 0 0 \| 0 0 0 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 \| 0 0 0 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 \| 0 0 0 \| +-------------+-------------+-------------+-------------+-------------+ \| T3PC5P \| PYRLEU \| PYRLYS \| PYRVAL \| C5PHIS \| \| \| \| \| \| \| \| 0 0 0 \| 0 0 0 \| 0 0 0 \| 1 0 0 \| 1 0 0 0 0 \| \| \| \| \| \| \| \| 0 0 0 \| 0 0 0 \| 0 0 0 \| 0 1 0 \| 0 1 0 0 0 \| \| \| \| \| \| \| \| 1 0 0 \| 0 1 0 \| 0 0 0 \| 0 2 0 \| 0 0 1 0 0 \| \| \| \| \| \| \| \| 0 1 0 \| 0 2 0 \| 0 0 0 \| 0 0 2 \| 0 0 0 1 0 \| \| \| \| \| \| \| \| 0 0 1 \| 0 0 2 \| 0 1 0 \| 0 0 1 \| 0 0 0 0 1 \| \| \| \| \| \| \| \| \| 0 0 1 \| 0 0 1 \| \| 0 0 0 0 0 \| +-------------+-------------+-------------+-------------+-------------+ \| C5PS7P \| C5PT3P \| S7PE4P \| S7PF6P \| S7P C5P \| \| \| \| \| \| \| \| 1 0 0 0 0 \| 0 0 1 0 0 \| 0 0 0 1 0 0 \| 1 0 0 0 0 0 \| 1 0 1 0 0 0 \| \| \| \| 0 \| 0 \| 0 \| \| 0 1 0 0 0 \| 0 0 0 1 0 \| \| \| \| \| \| \| 0 0 0 0 1 0 \| 0 1 0 0 0 0 \| 0 1 0 1 0 0 \| \| 1 0 0 0 0 \| 0 0 0 0 1 \| 0 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 1 0 0 0 \| \| 0 0 0 0 0 1 \| 0 0 1 0 0 0 \| 0 0 0 0 1 0 \| \| \| \| 0 \| 0 \| 0 \| \| 0 0 1 0 0 \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| 0 0 0 0 0 0 \| 0 0 0 0 0 1 \| \| 0 0 0 1 0 \| \| 1 \| 0 \| 0 \| \| \| \| \| \| \| \| 0 0 0 0 1 \| \| \| 0 0 0 0 0 0 \| 0 0 0 0 0 0 \| \| \| \| \| 0 \| 1 \| \| \| \| \| \| \| \| \| \| \| 0 0 0 0 0 0 \| \| \| \| \| \| 0 \| \| +-------------+-------------+-------------+-------------+-------------+ \| SERC1 \| SERGLY \| SUCMALATE \| T3PE4P \| PGASER \| \| \| \| \| \| \| \| 0 0 1 \| 1 0 0 \| 1 0 0 0 \| 0 0 0 \| 1 0 0 \| \| \| \| \| \| \| \| \| 0 1 0 \| 0 1 0 0 \| 1 0 0 \| 0 1 0 \| \| \| \| \| \| \| \| \| \| 0 0 1 0 \| 0 1 0 \| 0 0 1 \| \| \| \| \| \| \| \| \| \| 0 0 0 1 \| 0 0 1 \| \| +-------------+-------------+-------------+-------------+-------------+ *Table S-4. Measured mass distribution by GC-MS and FT-ICR (in parenthesis) for ^13^C labeled amino acids from D. vulgaris* hydrolysates. +-----------+--------+--------+--------+--------+---------------------+ \| \| M0 \| M1 \| M2 \| M3 \| Comments of \| \| \| \| \| \| \| measurement \| +-----------+--------+--------+--------+--------+---------------------+ \| Glycine \| 0.1 \| 0.8 \| 0.0 \| \| FT-ICR signal for \| \| \| 7±0.02 \| 2±0.02 \| 1±0.01 \| \| M0 is not \| \| \| \| \| \| \| identified \| \| \| \(0\) \| \(1\) \| \| \| (background noise). \| +-----------+--------+--------+--------+--------+---------------------+ \| Alanine \| 0.1 \| 0.8 \| 0.0 \| \| \| \| \| 7±0.02 \| 1±0.02 \| 2±0.01 \| \| \| \| \| (0.17) \| (0.81) \| \| \| \| \| \| \| \| (0.02) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Serine \| 0.1 \| 0.8 \| 0.02±0 \| \| FT-ICR signal for \| \| \| 7±0.02 \| 1±0.02 \| \| \| M2 is not \| \| \| (0.19) \| (0.81) \| \| \| identified \| \| \| \| \| \| \| (background noise). \| +-----------+--------+--------+--------+--------+---------------------+ \| Proline \| ND \| ND \| ND \| \| GC-MS spectrum \| \| \| \| \| \| \| signal is not \| \| \| (0.23) \| (0.73) \| (0.04) \| \| clear. \| +-----------+--------+--------+--------+--------+---------------------+ \| Valine \| 0.1 \| 0.8 \| 0.02±0 \| 0.01±0 \| \| \| \| 7±0.02 \| 0±0.03 \| \| \| \| \| \| \| (0.78) \| (0.04) \| \(0\) \| \| \| \| (0.18) \| \| \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Threonine \| 0.0 \| 0.2 \| 0.6 \| \| \| \| \| 4±0.03 \| 8±0.03 \| 7±0.04 \| \| \| \| \| (0.05) \| (0.31) \| (0.64) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Leucine \| 0.7 \| 0.2 \| 0.0 \| \| FT-ICR can not \| \| \| 5±0.07 \| 3±0.04 \| 2±0.01 \| \| separate leucine \| \| \| (0.59) \| (0.40) \| (0.01) \| \| and isoleucine \| \| \| \| \| \| \| signals. The \| \| \| \| \| \| \| measured value is \| \| \| \| \| \| \| the addition of two \| \| \| \| \| \| \| amino acids. \| +-----------+--------+--------+--------+--------+---------------------+ \| I \| 0.4 \| 0.5 \| 0.0 \| \| \| \| soleucine \| 7±0.03 \| 1±0.02 \| 1±0.01 \| \| \| \| \| \| \| \| \| \| \| \| (ND) \| (ND) \| (ND) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Asparate \| 0.0 \| 0.2 \| 0.6 \| 0.0 \| \| \| \| 4±0.02 \| 9±0.03 \| 6±0.04 \| 1±0.01 \| \| \| \| (0.06) \| \| \| \| \| \| \| \| (0.30) \| (0.65) \| \(0\) \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Lysine \| 0.0 \| 0.3 \| 0.6 \| 0.01±0 \| GC peak is weak. \| \| \| 9±0.02 \| 0±0.02 \| 0±0.03 \| \| \| \| \| (0.10) \| (0.32) \| (0.58) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Glutamate \| 0.2 \| 0.7 \| 0.0 \| \| \| \| \| 1±0.03 \| 3±0.04 \| 6±0.03 \| \| \| \| \| \| \| \| \| \| \| \| (0.20) \| (0.69) \| (0.10) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| M \| 0.0 \| 0.2 \| 0.6 \| 0.02±0 \| Peak tailing in \| \| ethionine \| 4±0.03 \| 7±0.02 \| 5±0.03 \| \| GC/MS is observed. \| \| \| (0.07) \| \| \| \| \| \| \| \| (0.27) \| (0.66) \| \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Histidine \| 0.1 \| 0.6 \| 0.1 \| 0.1 \| \| \| \| 6±0.05 \| 2±0.08 \| 1±0.04 \| 1±0.04 \| \| \| \| \| \| \| \| \| \| \| (0.19) \| (0.62) \| (0.11) \| (0.08) \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Arginine \| ND \| ND \| ND \| ND \| GC could not have a \| \| \| \| \| \| \| clear peak for \| \| \| (0.07) \| (0.27) \| (0.60) \| (0.06) \| arginine. \| +-----------+--------+--------+--------+--------+---------------------+ \| Phen \| 0.0 \| 0.1 \| 0.3 \| 0.5 \| \| \| ylalanine \| 3±0.02 \| 2±0.04 \| 5±0.07 \| 0±0.08 \| \| \| \| \| \| \| \| \| \| \| (0.05) \| (0.07) \| (0.36) \| (0.54) \| \| +-----------+--------+--------+--------+--------+---------------------+ \| Tyrosine \| 0.0 \| 0.0 \| 0.3 \| 0.5 \| GC peak is weak. \| \| \| 2±0.01 \| 8±0.05 \| 4±0.06 \| 2±0.07 \| \| \| \| (0) \| (0.06) \| (0.38) \| (0.56) \| \| +-----------+--------+--------+--------+--------+---------------------+ Note: ^13^C-Labeled biomass was sampled in the mid-log phase in the LS4D medium. Standard deviation is for mass distributions of GC-MS data is based on two biological replicates. Each biological replicate contained 2 technical replicates. The FT-ICR MS data is based on single measurements. Table S-5. CAD (MS^2^) spectrum of \[^13^C-Aps+H\]^+^ generated by ESI. +---------------------------+------------+----------+----------+-----+ \| Ion structures \| Neutral \| \| The \| * \| \| \| Loss** \| Measured \| oretical \| Er \| \| (abundance of \| \| m/z* \| m/z \| ror \| \| ^13^C/^12^C) \| \| \| \| ( \| \| \| \| \| \| ppm \| \| \| \| \| \| )** \| +---------------------------+------------+----------+----------+-----+ \| ![](media/image4.wmf) \| \| 13 \| 13 \| 1.3 \| \| \| \| 5.047964 \| 5.048139 \| \| \| \[^13^C-Asp + H\]^+^ \| \| \| \| \| +---------------------------+------------+----------+----------+-----+ \| ![](media/image5.wmf) \| H~2~O \| 11 \| 11 \| 1.2 \| \| \| \| 7.037434 \| 7.037574 \| \| +---------------------------+------------+----------+----------+-----+ \| ![](media/image6.wmf) \| H~2~O + CO \| 8 \| 8 \| 0.8 \| \| \| \| 9.042586 \| 9.042660 \| \| \| (Ratio = 1.4) \| H~2~O + \| \| \| 0.9 \| \| \| ^13^CO \| 8 \| 8 \| \| \| \| \| 8.039228 \| 8.039305 \| \| +---------------------------+------------+----------+----------+-----+ \| ![](media/image7.wmf) \| CH~2~CO \| 7 \| 7 \| 0.3 \| \| \| \| 5.026984 \| 5.027010 \| \| \| (Ratio = 0.4) \| C \| \| \| 0.3 \| \| \| H~2~^13^CO \| 7 \| 7 \| \| \| \| \| 4.023636 \| 4.023655 \| \| +---------------------------+------------+----------+----------+-----+ Note: the fragmentation data indicate that two carboxyl groups of aspartic acid should be labeled.	en
markdown	661516	# Presentation: 661516 ## <date/time> ## Session 31 - Default Prevention Strategies ## Agenda - Introduction - ED Overview - Default Plan - LSDA - Questions and Answers - Session 31 ## Default Prevention Strategies Default prevention extends beyond the financial aid office and is key in reducing student loan defaults. Educate the parents and get them involved as a partner with the financial aid office. Promote early awareness. Juniors and seniors in high school must be made aware of what college will cost and the options they have to pay for post secondary education as well as the financial obligation they may make in order to attend. - Session 31 ## Student Eligibility Processes The first line of defense for curtailing fraud and insuring that the student and the school are entitled to participate in student loan programs. Social Security Administration Immigration and Naturalization IRS Selective Service NSLDS - Session 31 ## Tools for Reducing Default Web-tools - www.nsldsfap.ed.gov Repayment Activities Identify the attributes for a potential defaulted borrower Technical Assistance Cohort Default Rate (CDR) Guide National Default Prevention Day Late Stage Delinquency Program - Session 31 ## Default Collections Tools Performance-based contracts with private collection agencies Treasury Offset Program (TOP) Administrative Wage Garnishment (AWG) Federal Defaulted Program (FDP – wage garnishment program for federal employees) Electronic Debit National Directory of New Hires (NDNH) database Review and Monitor Guaranty Agencies and Lenders - Session 31 ## Why Default Prevention? Defaults cost all participants in the student loan program: lenders, guaranty agencies and taxpayers suffer economic losses when a borrower defaults. The Department of Education is focused on mitigating risk and managing the risk that is inherent in a loan portfolio. Improving internal and external controls, communications, and education of the borrower about their student aid obligations are the focus of the Department. - Session 31 ## Official Cohort Default Rates - Session 31 ## Makeup of Cohort Rate - Session 31 ## Reducing Delinquency and Default: Short Term and Long Term Solutions - What steps can I take to treat the causes of delinquency and default? - Treating the symptoms: What can I do immediately? - Session 31 ## The Long Term Solution: Have a Default Prevention Plan - Session 31 ## Creating a Default Prevention Plan - Collect and analyze data and draw conclusions - Create your institution wide Default Prevention Plan - Implement the Plan - Assess effectiveness of the Plan - Session 31 ## What are my available resources? - Institutional student and alumni records and information - Department of Education data: - School Cohort Default Rate History Report (Loan Record Detail Report) - NSLDS School Repayment Loan Detail Report - NSLDS Financial Aid History Report - For more information refer to http://www.ifap.ed.gov/drmaterials/FinalCDRG.html - Servicer and Guaranty Agency Reports - Session 31 ## What am I looking for?What does the data say? - Common characteristics - Defaulters and Non-defaulters - Borrowers and Non-borrowers - Institutional variables - Year in College - Field of Study - Demographic variables - Student Population by County - Student Population by High School - Draw conclusions from the analysis - Session 31 ## Set realistic and attainable goals Assign responsibility for action steps Establish time frames Assess progress: How will you know when your goals are attained? Inform senior management and your institution of progress - Assign responsibility for action steps - Establish time frames - Assess progress: How will you know when your goals are attained? - Inform senior management and your institution of progress *Formulate a Plan* - Session 31 ## One Short Term Solution - Late Stage Delinquency Assistance (LSDA) - Session 31 ## Borrower Delinquency Pattern - Session 31 ## How It Can Work - Identify the Borrower via the web site - Contact the Student and contact Servicer for three way calling to resolve the delinquency - Schools have additional tools to locate Borrowers, i.e. Alumni Association directories - Servicer will ensure Student is provided assistance - Phone script available to help provide a guide on how to counsel the Borrower/Student - Session 31 ## With the Web Site you can see as little or as much as you want - Session 31 ## Summary Information - You can see the delinquency status of your student borrowers - Session 31 ## All Detail Information *All Detail Information* - You can elect to see detail of all borrowers in the 271-360 days delinquent category - 99 - Session 31 ## Cohort Year Delinquency - You can elect to see severely delinquent borrowers for a selected cohort year - Session 31 ## 2002 Cohort Year Delinquency Detail *2002 Cohort Year Delinquency Detail* - You can work as little or as much as you want - Session 31 ## Sample Distribution of Potential 2002 Defaulters - Session 31 ## Why Do It ? - Minimal effort, maximum results - Helps the Borrower/Student - Helps the school - Schools can focus on the most severe delinquencies - Use the web tools to identify the accounts you are able to help collect - Service Center is available to assist 1-888-877-7658 - No financial or contractual commitment - Session 31 ## Contact information Sybil Phillips Sybil.Phillips@ed.gov, Ben Leborys Ben.Leborys@ed.gov or John Pierson John.Pierson@ed.gov - Session 31 ## Questions and Answers - Session 31	en
markdown	372564	# Presentation: 372564 ## Evolving SPDF/SECAA Active-Archive Multi-Mission Services in the Era of Virtual Observatories and LWS - R E McGuire1, R M Candey1, R A Chimiak2, D Han2, B T Harris2, - R C Johnson3, C Klipsch3,T J Kovalick3, H A Leckner3, M. Liu4 - 1Code 630, 2Code 580, 3QSS/Code 630, 4Raytheon/Code 630 - NASA's Goddard Space Flight Center, Greenbelt, MD 20771 ## Multi-Mission Services Today(cf. http://spdf.gsfc.nasa.gov) - CDAWeb: Easy data browse and display, user-specified time and parameter subsets with graphics, listings, file downloads - Data from most currently-important SEC missions - SSCWeb: Multi-mission orbits, with graphics and conjunction logic for coordinated science planning - OMNI2: Field, plasma, particle hourly avgs at 1 AU - CDF standard data format and associated software - Data format translations - ModelWeb: Information, codes, execution I/F ## Unique Community Resources Scope of CDAWeb data holdings and multi-mission service Nature of SSCWeb database and unique functions supported OMNI2 database as near-Earth 40- year interplanetary baseline CDF supports multiple programs (including planned STEREO and THEMIS) Citations to services & data (with NSSDC, >107 in 2003) Resources are heavily used (plots, lists, files, queries) Many regular distinct science users: e.g. ~900 CDAWeb International sharing of data (including CDAWeb mirror sites) Variety of technologies FTP access plus S/W (e.g. CDAWLib and CDFX) Html-based user I/F Web-services application I/F New Java-based clients (with Webstart installations) - Scope of CDAWeb data holdings and multi-mission service - Nature of SSCWeb database and unique functions supported - OMNI2 database as near-Earth 40- year interplanetary baseline - CDF supports multiple programs (including planned STEREO and THEMIS) - Citations to services & data (with NSSDC, >107 in 2003) - Resources are heavily used (plots, lists, files, queries) - Many regular distinct science users: e.g. ~900 CDAWeb - International sharing of data (including CDAWeb mirror sites) - Variety of technologies - FTP access plus S/W (e.g. CDAWLib and CDFX) - Html-based user I/F - Web-services application I/F - New Java-based clients (with Webstart installations) - Years 1990-2010 - CDAWeb Data Sets - (~240 total datasets in this overview, one row per dataset) - _Missions include_ - ACE - Cluster - FAST - Geotail - GOES - IMAGE - Interball - LANL - Polar - TIMED - Ulysses - Wind ## SECAA Services in the Context of VxOs - Virtual Observatory (VO) paradigm for Sun-Space-Geospace research community might be defined as a vision of a future Solar-Terrestrial data environment - Where data, models and services can be highly distributed - While end users see an integrated view, and where - All potentially-useful data are readily findable, accessible, useable - With appropriate services and across mission-instrument boundaries - VO is similar to the Virtual Space Laboratory concept proposed several years ago as a Roadmap effort - VxO strategy to build the new data environment by leveraging existing capabilities, while those capabilities evolve in turn to talk to the new data environment - Want a flexible long-term architecture delivering over time the best services at the lowest effective cost - Technology => hybrid solution with both distributed and centralized service elements whose mix will change ## Short-Term Plans - Retain (+build) excellence & utility of what works now - Must maintain performance and reliability - Access to more (& higher quality/content) (& distributed) data - New services (e.g. FTP Data Finder), functions and I/F flexibility - Data, models, and services through multiple paths - FTP (files+s/w), service user-I/Fs (html, Java), Web Service APIs - Data and capabilities available to early SEC VxOs - Via Web Services with XML/WSDL-SOAP for communications, URL pointers to result files (data files or service products) - Exploit these extensions directly (Java-based clients, using WebStart for easy installation e.g. SSCWeb 3D interactive plots) - Support mapping to evolving SEC data dictionary (SPASE effort) - Enable and partner in the various VxO efforts - Data format translation and other enabling services - Data/service "provider" (and “consumer”) to larger VxO environment - Expect framework and participation will evolve to a range of cooperative and innovative partnerships (e.g. VITMO conversation) - VO concept should be empowering - Wider range of data with much deeper analysis capabilities - Wide range of service approaches - E.g Many interfaces and services evolving over time that are "easy to prove" by attaching to full data environment - Multi-source data coupled to display, models and analysis, - Including accessible computing power ## Virtual Observatory Technical Questions, Concerns and Personal Observations - Technology is only one part of making the right data fully accessible to the required user community - Resource and cultural issues must have ongoing attention - Full data requirements to accomplish a science program (e.g. LWS) needed center-stage early & within effective data policy framework - Software is only one part (if perhaps the most fun) of the problem - Primary consideration in implementing Virtual Observatories must be effective and adequate service to the end users of the data - Users need ability to perform a full range of functions - Users need to be able to accomplish functions quickly - Users need to be able to perform functions predictably - What worked yesterday should work today - Software libraries and simple file finding/retrieval can offer high functional (analysis) capabilities - But software ... takes time to install and learn to operate - May not readily integrate data from different sources - May have issues with platforms and reliance on commercial s/w - Many users want/need more than simple file finding and retrieval (even with supporting s/w) - And need functions across mission / dataset boundaries - Higher-functions hard with too much heterogeneity - Metadata standards vital; data format standards still important ## Not everything may make sense to distribute User “wall-clock”time is the most valuable commodity Plus development and maintenance resources of couse WAN transfer times are still a design issue Often better to store multi-source data at the service host Data service architecture with almost all work done at the server end and talking to thin (very basic browser) clients is fairly robust Can be made to work almost every time for almost everybody ”Duplicated" disk storage is one more tool (and OK if it works) Can allow less complex s/w development and maintenance Allows work offline preparing diverse data for common service NASA science research community uses (and will use) many distinct operating systems (and versions), hardware and software platforms Complex functionality built on distributed data and smart desktop clients will present cross-platform and maintenance challenges E.g. Web services to talk to both Java and .NET clients E.g. Testing for client development and support for easy installation across multiple platforms E.g. Deployed web services infrastructure may become hard to change or evolve (as technology evolves, as new requirements are identified) as more clients are developed We‘re changing our web service I/F but are you able/willing to change your client as we change and evolve over time? KISS will always be important for effective services, software installation/operation and interfaces Critical future science from a diverse research community Options for a few “power” users will confuse many “novice” users We are ALL novices more times than we might care to admit Can there be too much data and too much capability to use? - User “wall-clock”time is the most valuable commodity - Plus development and maintenance resources of couse - WAN transfer times are still a design issue - Often better to store multi-source data at the service host - Data service architecture with almost all work done at the server end and talking to thin (very basic browser) clients is fairly robust - Can be made to work almost every time for almost everybody - ”Duplicated" disk storage is one more tool (and OK if it works) - Can allow less complex s/w development and maintenance - Allows work offline preparing diverse data for common service - NASA science research community uses (and will use) many distinct operating systems (and versions), hardware and software platforms - Complex functionality built on distributed data and smart desktop clients will present cross-platform and maintenance challenges - E.g. Web services to talk to both Java and .NET clients - E.g. Testing for client development and support for easy installation across multiple platforms - E.g. Deployed web services infrastructure may become hard to change or evolve (as technology evolves, as new requirements are identified) as more clients are developed - We‘re changing our web service I/F but are you able/willing to change your client as we change and evolve over time? - KISS will always be important for effective services, software installation/operation and interfaces - Critical future science from a diverse research community - Options for a few “power” users will confuse many “novice” users - We are ALL novices more times than we might care to admit - Can there be too much data and too much capability to use? - Contact information: _[mailto:robert.e.mcguire@nasa.gov](mailto:robert.e.mcguire@nasa.gov)_	en
converted_docs	503666	Page 1 (Front) of Model 0505 (OCT94) <table style="width:100%;"> <colgroup> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 10%" /> <col style="width: 1%" /> <col style="width: 13%" /> <col style="width: 6%" /> <col style="width: 1%" /> <col style="width: 5%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 1%" /> <col style="width: 9%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 12%" /> <col style="width: 4%" /> <col style="width: 6%" /> <col style="width: 0%" /> </colgroup> <tbody> <tr class="odd"> <td colspan="5"><strong>SOLICITATION, OFFER,</strong></td> <td colspan="6">1. SOLICITATION NO.</td> <td colspan="3">2. TYPE OF SOLICITATION</td> <td>3. DATE ISSUED</td> <td colspan="3">PAGE OF PAGES</td> </tr> <tr class="even"> <td colspan="5"><strong>AND AWARD</strong></td> <td colspan="6">DTFAAC-08-R-57413</td> <td colspan="3">NEGOTIATED <em><strong>(RFO)</strong></em></td> <td>2/1/08</td> <td colspan="3">1 of 26</td> </tr> <tr class="odd"> <td colspan="5"><em>(Construction, Alteration, or Repair)</em></td> <td colspan="6"></td> <td colspan="3"></td> <td></td> <td colspan="3"></td> </tr> <tr class="even"> <td colspan="18">IMPORTANT - THE "OFFER" SECTION ON THE REVERSE MUST BE FULLY COMPLETED BY OFFEROR.</td> </tr> <tr class="odd"> <td colspan="5">4. CONTRACT NO.</td> <td colspan="7">5. REQUISITION/PURCHASE REQUEST NO.</td> <td colspan="6">6.PROJECT NO./WORK ORDER NO.</td> </tr> <tr class="even"> <td colspan="5"></td> <td colspan="7">07-57413</td> <td colspan="6"></td> </tr> <tr class="odd"> <td colspan="3">7. ISSUED BY</td> <td colspan="2">CODE</td> <td colspan="4"></td> <td colspan="9">8. ADDRESS OFFER TO <em>(If other than Item 7)</em></td> </tr> <tr class="even"> <td colspan="9"></td> <td colspan="9"></td> </tr> <tr class="odd"> <td colspan="9"><p>FAA, NAS Automation & Facilities Contracting</p> <p>Team (AMQ-210)</p></td> <td colspan="9">FAA, Customer Service Desk (AMQ-100)</td> </tr> <tr class="even"> <td colspan="9">6500 South MacArthur Boulevard</td> <td colspan="9">Room 313, Multi-Purpose Building</td> </tr> <tr class="odd"> <td colspan="9">P.O. Box 25082</td> <td colspan="9">6500 South MacArthur Boulevard (Zip Code 73169)</td> </tr> <tr class="even"> <td colspan="9">Oklahoma City, OK 73125-4929</td> <td colspan="9">P.O. Box 25082</td> </tr> <tr class="odd"> <td colspan="9"></td> <td colspan="9">Oklahoma City, OK 73125-4933</td> </tr> <tr class="even"> <td colspan="9"></td> <td colspan="9"></td> </tr> <tr class="odd"> <td colspan="4">9. FOR INFORMATION</td> <td colspan="7">A. NAME</td> <td colspan="7">B. TELEPHONE NO. <em>(Include area code) (NO COLLECT CALLS)</em></td> </tr> <tr class="even"> <td colspan="4">CALL: <strong></strong></td> <td colspan="7">Connie M. Houpt</td> <td colspan="7">(405) 954-7820</td> </tr> <tr class="odd"> <td colspan="7"><h3 id="firm-fixed-price-construction">FIRM-FIXED-PRICE CONSTRUCTION</h3></td> <td colspan="4"><strong>SOLICITATION</strong></td> <td colspan="7"><h3 id="replace-rcag-tower-sarasota-fl">Replace RCAG Tower, Sarasota, FL</h3></td> </tr> <tr class="even"> <td colspan="18"></td> </tr> <tr class="odd"> <td colspan="18">11. TABLE OF CONTENTS</td> </tr> <tr class="even"> <td>()</td> <td>SEC</td> <td colspan="4">DESCRIPTION</td> <td colspan="2">PAGE(S)</td> <td>()</td> <td>SEC</td> <td colspan="6">DESCRIPTION</td> <td colspan="2">PAGE(S)</td> </tr> <tr class="odd"> <td colspan="8">PART I - THE SCHEDULE</td> <td colspan="10">PART II - CONTRACT CLAUSES</td> </tr> <tr class="even"> <td><strong></strong></td> <td>A</td> <td colspan="4">SOLICITATION/CONTRACT FORM</td> <td colspan="2">1-1a</td> <td><strong></strong></td> <td>I</td> <td colspan="6">CONTRACT CLAUSES</td> <td colspan="2">12-18</td> </tr> <tr class="odd"> <td><strong></strong></td> <td>B</td> <td colspan="4">SUPPLIES OR SERVICES AND PRICES/COSTS</td> <td colspan="2">2</td> <td colspan="10">PART III - LIST OF DOCUMENTS, EXHIBITS AND OTHER ATTACH.</td> </tr> <tr class="even"> <td><strong></strong></td> <td>C</td> <td colspan="4">DESCRIPTION/SPECS./WORK STATEMENT</td> <td colspan="2">3</td> <td><strong></strong></td> <td>J</td> <td colspan="6">LIST OF ATTACHMENTS</td> <td colspan="2">19</td> </tr> <tr class="odd"> <td><strong></strong></td> <td>D</td> <td colspan="4">PACKAGING AND MARKING</td> <td colspan="2">3</td> <td colspan="10">PART IV - REPRESENTATIONS AND INSTRUCTIONS</td> </tr> <tr class="even"> <td><strong></strong></td> <td>E</td> <td colspan="4">INSPECTION AND ACCEPTANCE</td> <td colspan="2">3-4</td> <td><strong></strong></td> <td>K</td> <td colspan="6">REPRESENTATIONS, CERTIFICATIONS AND OTHER</td> <td colspan="2"></td> </tr> <tr class="odd"> <td><strong></strong></td> <td>F</td> <td colspan="4">DELIVERIES OR PERFORMANCE</td> <td colspan="2">5</td> <td><strong></strong></td> <td></td> <td colspan="6">STATEMENTS OF OFFERORS</td> <td colspan="2">20-22</td> </tr> <tr class="even"> <td><strong></strong></td> <td>G</td> <td colspan="4">CONTRACT ADMINISTRATION DATA</td> <td colspan="2">6</td> <td><strong></strong></td> <td>L</td> <td colspan="6">INSTRUCTIONS, CONDITIONS, AND NOTICES TO OFFERORS</td> <td colspan="2">23-25</td> </tr> <tr class="odd"> <td><strong></strong></td> <td>H</td> <td colspan="4">SPECIAL CONTRACT REQUIREMENTS</td> <td colspan="2">7-12</td> <td><strong></strong></td> <td>M</td> <td colspan="6">EVALUATION FACTORS FOR AWARD</td> <td colspan="2">26</td> </tr> <tr class="even"> <td colspan="18">10. The Government requires performance of the work described in these documents (Title, Identifying no., date):</td> </tr> <tr class="odd"> <td colspan="18"></td> </tr> <tr class="even"> <td colspan="18"><ol type="A"> <li><p>Statement Of Work for Sarasota RCAG Towers, 8 pages</p></li> <li><p>Requirements for fixed ladder and ladder safety system, 1 page</p></li> </ol> <p><strong>A SITE VISIT WILL BE HELD ON FEBRUARY 12, 2008 AT 10:00 a.m. AT THE SARASOTA, FL RCAG SITE. SEE SECTION L, PROVISION 3.2.2.3-63 SITE VISIT (CONSTRUCTION), PAGE 24.</strong></p></td> </tr> <tr class="odd"> <td colspan="18">THE ESTIMATED PRICE RANGE OF THIS PROCUREMENT IS: $50,000 to $75,000</td> </tr> <tr class="even"> <td colspan="18"><p>11. The Contractor shall begin performance within <u>10</u> calendar days and complete it within the number of calendar days specified in clause 3.2.2.3-71, after receiving</p> <p>award, notice to proceed. This performance period is mandatory, negotiable.</p></td> </tr> <tr class="odd"> <td colspan="13"><p>12A. THE CONTRACTOR MUST FURNISH ANY REQUIRED PERFORMANCE AND PAYMENT BONDS?</p> <p><em><strong>(If "yes," indicate within how many calendar days after award in item 12B.)</strong></em></p> <p>YES NO</p></td> <td colspan="5"><p>12B. CALENDAR DAYS</p> <p>15</p></td> </tr> <tr class="even"> <td colspan="17">13. ADDITIONAL SOLICITATION REQUIREMENTS:</td> <td></td> </tr> <tr class="odd"> <td colspan="17">A. Sealed offers in <strong>Original</strong> and <u><strong>NO</strong></u> copies to perform the work required are due at the place specified in Item 8 by <u><strong>3:00 p.m</strong>.</u> <em><strong>(hour)</strong></em> local time <strong><u>February 22, 2008</u> <em>(date)</em></strong>. If this is a sealed bid solicitation, offers must be publicly opened at that time. Sealed envelopes containing offers shall be marked to show the offeror's name and address, the solicitation number, and the date and time offers are due.</td> <td></td> </tr> <tr class="even"> <td colspan="17">B. An offer guarantee <span class="math inline"></span> is, is not required. IN THE AMOUNT OF 20% OF THE offered PRICE, WHEN PROPOSAL EXCEEDS $100,000.</td> <td></td> </tr> <tr class="odd"> <td colspan="17">C. All offers are subject to the (1) work requirements, and (2) other provisions and clauses incorporated in the solicitation in full text or by reference.</td> <td></td> </tr> <tr class="even"> <td colspan="17"></td> <td></td> </tr> <tr class="odd"> <td colspan="17">D. Offers providing less than <u>60</u> calendar days for Government acceptance after the date offers are due will not be considered and will be rejected.</td> <td></td> </tr> <tr class="even"> <td colspan="17"></td> <td></td> </tr> <tr class="odd"> <td colspan="17"></td> <td></td> </tr> <tr class="even"> <td colspan="17">NSN 7540-01-155-3212 1442-102 <strong>STANDARD FORM 1442</strong> (REV. 4-85)</td> <td></td> </tr> <tr class="odd"> <td colspan="17">Prescribed by GSA</td> <td></td> </tr> <tr class="even"> <td colspan="17">FAR (48 CFR) 53.2136-1(d)</td> <td></td> </tr> </tbody> </table> Page 1 (Back) of Model 0505 (OCT94) <table> <colgroup> <col style="width: 14%" /> <col style="width: 0%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 0%" /> <col style="width: 0%" /> <col style="width: 8%" /> <col style="width: 1%" /> <col style="width: 7%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 3%" /> <col style="width: 5%" /> <col style="width: 8%" /> </colgroup> <tbody> <tr class="odd"> <td colspan="19"><strong>OFFER <em>(Must be fully completed by offeror)</em> SIR No. DTFAAC-08-R-57413 <em>PAGE 1a</em></strong></td> </tr> <tr class="even"> <td colspan="11">14. NAME AND ADDRESS OF OFFEROR <em>(Include ZIP Code)</em></td> <td colspan="8">15. TELEPHONE NO. <em>(Include area code)</em></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8">16. REMITTANCE ADDRESS <em>(Include only if different than item 14)</em></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"><strong>CODE FACILITY CODE</strong></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="19">17. The offeror agrees to perform the work required at the prices specified below in strict accordance with the terms of this solicitation. If this offer is accepted by the Government in writing within calendar days after the date offers are due. <em>(Insert any number equal to or greater than the minimum requirement stated in Item 13D. Failure to insert any number means the offeror accepts the minimum in Item 13D.)</em></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td></td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td>AMOUNTS</td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td></td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td colspan="19">18. The offeror agrees to furnish any required performance and payment bonds.</td> </tr> <tr class="even"> <td colspan="19"><p>19. ACKNOWLEDGMENT OF AMENDMENTS</p> <p><em>(The offeror acknowledges receipt of amendments to the solicitation - give number and date of each)</em></p></td> </tr> <tr class="odd"> <td colspan="2">AMENDMENT NO.</td> <td></td> <td></td> <td colspan="5"></td> <td></td> <td colspan="2"></td> <td></td> <td></td> <td colspan="2"></td> <td colspan="2"></td> <td></td> </tr> <tr class="even"> <td colspan="2">DATE</td> <td></td> <td></td> <td colspan="5"></td> <td></td> <td colspan="2"></td> <td></td> <td></td> <td colspan="2"></td> <td colspan="2"></td> <td></td> </tr> <tr class="odd"> <td colspan="10"><p>20A. NAME AND TITLE OF PERSON AUTHORIZED TO SIGN OFFER</p> <p><em>(Type or print)</em></p></td> <td colspan="5">20B. SIGNATURE</td> <td colspan="4">20C. OFFER DATE</td> </tr> <tr class="even"> <td colspan="10"></td> <td colspan="5"></td> <td colspan="4"></td> </tr> <tr class="odd"> <td colspan="19"><strong>AWARD <em>(To be completed by Government)</em></strong></td> </tr> <tr class="even"> <td colspan="19">21. ITEMS ACCEPTED:</td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="8">22. AMOUNT</td> <td colspan="11"><p>23. ACCOUNTING AND APPROPRIATION DATA</p> <p>(To be cited on the funding document issued hereunder.)</p></td> </tr> <tr class="odd"> <td colspan="7"><p>24. SUBMIT INVOICES TO ADDRESS SHOWN IN </p> <p><em>(4 copies unless otherwise specified)</em></p></td> <td colspan="4"><p>ITEM</p> <p>27</p></td> <td colspan="8">25. OTHER THAN FULL AND OPEN COMPETITION PURSUANT TO</td> </tr> <tr class="even"> <td colspan="5">26. ADMINISTERED BY CODE</td> <td colspan="6"></td> <td colspan="8">27. PAYMENT WILL BE MADE BY</td> </tr> <tr class="odd"> <td colspan="11"><strong>FAA, NAS, Automation & Facilities Contract</strong></td> <td colspan="8"><strong>FAA, Financial Operations Division (AMZ-100)</strong></td> </tr> <tr class="even"> <td colspan="11"><strong>Management Team (AMQ-240)</strong></td> <td colspan="8"><strong>6500 South MacArthur Boulevard</strong></td> </tr> <tr class="odd"> <td colspan="11"><strong>6500 South MacArthur Boulevard</strong></td> <td colspan="8"><strong>P.O. Box 25710</strong></td> </tr> <tr class="even"> <td colspan="11"><strong>P.O. Box 25082</strong></td> <td colspan="8"><strong>Oklahoma City, OK 73125</strong></td> </tr> <tr class="odd"> <td colspan="11"><strong>Oklahoma City, OK 73125-4929</strong></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="19"><em>CONTRACTING OFFICER WILL COMPLETE ITEM 28 OR 29 AS APPLICABLE</em></td> </tr> <tr class="odd"> <td colspan="11">28. NEGOTIATED AGREEMENT <em>(Contractor is required to sign this</em></td> <td colspan="8">29. AWARD <em>(Contractor is not required to sign this doc.)</em> Your</td> </tr> <tr class="even"> <td colspan="11"><em>document and return copies to issuing office.)</em> Contractor agrees</td> <td colspan="8">offer on this solicitation is hereby accepted as to the items listed. This</td> </tr> <tr class="odd"> <td colspan="11">to furnish and deliver all items or perform all work, requisitions identified</td> <td colspan="8">consummates the contract, which consists of (a) the Government</td> </tr> <tr class="even"> <td colspan="11">on this form and any continuation sheets for the consideration slated in this contract. The rights and obligations of the parties to this contract</td> <td colspan="8"><p>solicitation and your offer, and (b) this contract award. No further</p> <p>contractual document is necessary.</p></td> </tr> <tr class="odd"> <td colspan="11">shall be governed by (a) this contract award, (b) the solicitation, and</td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11">the clauses, representations, certifications, and specifications or</td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11">incorporated by reference in or attached to this contract.</td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11">30A. NAME AND TITLE OF CONTRACT OR PERSON AUTHORIZED TO SIGN (<em>Type or print)</em></td> <td colspan="8">31A. NAME OF CONTRACTING OFFICER <em>Type or print)</em></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="6">30B. NAME OF CONTRACTOR</td> <td colspan="5">30C. DATE SIGNED</td> <td colspan="6">31B. UNITED STATES OF AMERICA</td> <td colspan="2">31C. DATE SIGNED</td> </tr> <tr class="odd"> <td colspan="6">BY <u> </u></td> <td colspan="5"></td> <td colspan="6">BY <u> </u></td> <td colspan="2"></td> </tr> <tr class="even"> <td colspan="6"><em>(Signature of person authorized to sign)</em></td> <td colspan="5"></td> <td colspan="6"><em>(Signature of Contracting Officer)</em></td> <td colspan="2"></td> </tr> <tr class="odd"> <td colspan="19"><strong>STANDARD FORM 1442 BACK (REV. 4-85)</strong></td> </tr> </tbody> </table> PART I - SECTION B SUPPLIES/SERVICES & PRICE/COST The contractor shall furnish all labor, tools, materials, equipment, and supplies, necessary to accomplish the construction project; Replace RCAG tower, Sarasota, FL, set forth below in accordance with the attached project manual, drawings, and the other terms, conditions, and provisions as set forth herein. [ITEM NO. DESCRIPTION TOTAL AMOUNT ]{.underline} Base Bid 0001 Provide all labor and materials to replace FOR-THE-JOB \$\_\_\_\_\_\_\_\_\_\_\_ RCAG tower PART I - SECTION C SCOPE OF WORK C.1 Statement of Work (SOW) The contractor shall furnish all labor, tools, materials, equipment, and supplies necessary to accomplish the construction project set forth, in accordance with the terms, conditions, and provisions as set forth herein. C.2 Bid Vs. Offer References to the terms "bid", "bidder", etc. throughout the specification are intended to mean "offer", "offeror", etc. C.3 Specifications and/or Drawings The following specifications and/or drawings are applicable to this acquisition: (a) Statement of Work for Sarasota RCAG Tower, 9 pages (b) Requirements for Fixed Ladder and Ladder Safety System, 1 page ----------------------------------------------------------------------- ----------------------------------------------------------------------- C.4 Emergency Situations and Exercises during Contract Performance (September 2001) CLA.4548 \(a\) Emergency situations and exercises are temporary exceptions to the prohibition of contractor personnel not being subject to the direction and control of Government personnel when performing non-personal contract services in FAA facilities. \(b\) All contractor personnel at a FAA work site or facility during an actual emergency shall conform to the procedures posted or directed by FAA officials responsible for emergency response at that site or facility. Such officials include evacuation wardens/monitors, security personnel, Emergency Readiness Officers, management, etc. \(c\) Contractor personnel shall participate in all emergency exercises, including evacuations, as part of performance under this contract. On rare occasions and based on advance arrangements that are then announced at the time of an exercise, contractor personnel will be excused from evacuations. \(d\) Contractor management/supervisors shall ensure that each contractor employee assigned work in FAA facilities possesses a general awareness of emergency and evacuation procedures at all locations where the employees might be during an emergency or exercise. Information on emergency procedures may be requested from the Contracting Officer's Technical Representative or a designated FAA contact point at the work site. PART I - SECTION D PACKAGING AND MARKING ####### NOT APPLICABLE PART I - SECTION E INSPECTION AND ACCEPTANCE 3.10.4-10 Inspection of Construction (July 2001) \(a\) \'Work\' includes, but is not limited to, materials, workmanship, and manufacture and fabrication of components. \(b\) The Contractor shall maintain an adequate inspection system and perform such inspections as will ensure that the work performed under the contract conforms to contract requirements. The Contractor shall maintain complete inspection records and make them available to the Government. All work shall be conducted under the general direction of the Contracting Officer and is subject to Government inspection and test at all places and at all reasonable times before acceptance to ensure strict compliance with the terms of the contract. \(c\) Government inspections and tests are for the sole benefit of the Government and do not\-- \(1\) Relieve the Contractor of responsibility for providing adequate quality control measures; \(2\) Relieve the Contractor of responsibility for damage to or loss of the material before acceptance; \(3\) Constitute or imply acceptance; or \(4\) Affect the continuing rights of the Government after acceptance of the completed work under paragraph (i) below. \(d\) The presence or absence of a Government inspector does not relieve the Contractor from any contract requirement, nor is the inspector authorized to change any term or condition of the specification without the Contracting Officer\'s written authorization. \(e\) The Contractor shall promptly furnish, without additional charge, all facilities, labor, and material reasonably needed for performing such safe and convenient inspections and tests as may be required by the Contracting Officer. The Government may charge to the Contractor any additional cost of inspection or test when work is not ready at the time specified by the Contractor for inspection or test, or when prior rejection makes reinspection or retest necessary. The Government shall perform all inspections and tests in a manner that will not unnecessarily delay the work. Special, full size, and performance tests shall be performed as described in the contract. \(f\) The Contractor shall, without charge, replace or correct work found by the Government not to conform to contract requirements, unless the Government determines that it is in the public interest to accept the work with an appropriate adjustment in contract price. The Contractor shall promptly segregate and remove rejected material from the premises. \(g\) If the Contractor does not promptly replace or correct rejected work, the Government may: \(1\) by contract or otherwise, replace or correct the work and charge the cost to the Contractor or \(2\) terminate for default the Contractor\'s right to proceed. \(h\) If, before acceptance of the entire work, the Government decides to examine already completed work by removing it or tearing it out, the Contractor, on request, shall promptly furnish all necessary facilities, labor, and material. If the work is found to be defective or nonconforming in any material respect due to the fault of the Contractor or its subcontractors, the Contractor shall defray the expenses of the examination and of satisfactory reconstruction. However, if the work is found to meet contract requirements, the Contracting Officer shall make an equitable adjustment for the additional services involved in the examination and reconstruction, including, if completion of the work was thereby delayed, an extension of time. \(i\) Unless otherwise specified in the contract, the Government shall accept, as promptly as practicable after completion and inspection, all work required by the contract or that portion of the work the Contracting Officer determines can be accepted separately. Acceptance shall be final and conclusive except for latent defects, fraud, gross mistakes amounting to fraud, or the Government\'s rights under any warranty or guarantee. 3.10.4-11 Inspection\--Dismantling, Demolition, or Removal of Improvements (April 1996) \(a\) Unless otherwise designated by the specifications, all workmanship performed under the contract is subject to Government inspection at all times and places where dismantling or demolition work is being performed. The Contractor shall furnish promptly and without additional charge all reasonable facilities, labor, and materials necessary for safe and convenient inspection by the Government. The Government shall perform inspections in a manner that will not unduly delay the work. \(b\) The Contractor is responsible for damage to property caused by defective workmanship. The Contractor shall promptly segregate and remove from the premises any unsatisfactory facilities, materials, and equipment used in contract performance, and promptly replace them with satisfactory items. If the Contractor fails to proceed at once in a workmanlike manner with performance of the work or with the correction of defective workmanship, the Government may:\ (1) by contract or otherwise, replace the facilities, materials, and equipment or correct the workmanship and charge the cost to the Contractor and\ (2) terminate for default the Contractor\'s right to proceed.\ The Contractor and any surety shall be liable, to the extent specified in the contract for any damage or cost of repair or replacement. PART I - SECTION F DELIVERIES OR PERFORMANCE ### F.1 Working Hours Work at the site shall be accomplished between the hours of 7:30 a.m. and 4:00 p.m., Monday through Friday, excluding federally-established holidays, except when prior approval has been obtained from the Contracting Officer. Approval for overtime work shall not be construed as an agreement for payment of overtime work. ### F.2 Utility Outages and Shutdown Utility outages and shutdown shall be coordinated with the Contracting Officer and Project Manager. Outages affecting FAA operations are required to be accomplished at night, on weekends or designated government holidays. Prior to any outage or shutdown, five (5) working days notification must be made to coordinate scheduling of any work to be performed during any hours. ### F.3 Contractor's Construction Schedule and Material Submittals The contractor shall prepare and submit the construction work schedule to the Contracting Officer (CO) for approval within 15 days of the date established for "Commencement of Work." This period is in lieu of the 5 days set forth in Clause 3.2.2.3-56, which is incorporated by reference. F.4 Accelerated Delivery (January 1997) CLA.1817 Any Schedule for delivery or performance may be expedited at the contractor\'s option, if without additional expense to the Government. 3.2.2.3-71/alt1 Starting, Performing, and Completing Work. Alternate I (July 2004) Revised The Contractor (you) must\ (a) begin work under this contract within 10 calendar days after the date you receive the notice to proceed,\ (b) perform the work diligently, and\ (c) complete the entire work ready for use within 90 days of receipt of Notice to Proceed. The time allowed for completion must include final cleanup of the premises.\ (d) The Notice-To-Proceed with the construction phase will not be granted until the Contractor certifies to the Contracting Officer that all required materials, as approved by the Government, are in his possession and ready for installation. 3.1-1 Clauses and Provisions Incorporated by Reference (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). 3.10.1-9 Stop-Work Order (October 1996) 11. Government Delay of Work (April 1996) 3.10.1-24 Notice of Delay (November 1997) PART I - SECTION G CONTRACT ADMINISTRATION DATA G.1 Release Form (January 1997) CLA.1227 The contractor will be required to execute Contractor\'s Release Form DOT F 4220.4 (2-71) prior to final payment under the contract. (Note: A copy of Form DOT F 4220.4 (2-71) is attached hereto for information purposes.) G.2 Availability and Use of Utility Services (January 1997) CLA.1405 The contractor may use existing utilities without charge, if available; however, the contractor at his own expense and in a workmanlike manner satisfactory to the Contracting Officer, shall furnish, install, and maintain all necessary temporary connections and distribution lines, and shall remove same prior to final acceptance of the construction. G.3 Payment Procedures (January 1997) CLA.2916 \(a\) The contractor shall submit original invoices, including applications for progress payments, directly to: FAA, Mike Monroney Aeronautical Center Financial Operations Division (AMZ-100) P.O. Box 25710 Oklahoma City, OK 73125-4913 \(b\) Payment for work performed or items furnished under this contract is subject to approval by the Contracting Officer. The contractor shall submit 2 copies of all invoices, including applications for progress payments, to: FAA, Mike Monroney Aeronautical Center NAS Automation & Facilities Contract Management Team (AMQ-240) 6500 South MacArthur Boulevard P.O. Box 25082 Oklahoma City, OK 73125 \(c\) Each invoice, including applications for progress payments, must reflect the contract number, delivery order number, and a description of the work, services, or items being invoiced. 3.10.1-23 Contracting Officer\'s Representative\--Construction Contracts (July 2007) \(a\) The Contracting Officer may appoint other Government personnel to accomplish certain contract administration matters. While there shall be various titles and divisions of duties for these individuals, generically they are known as Contracting Officer\'s Technical Representatives (COTRs). The Contracting Officer will provide written notice of COTR appointment(s), setting forth the authorities and limitations, to the Contractor within 15 calendar days prior to the notice to proceed. COTR duties may include, but are not limited to: \(1\) Perform as the authorized representative of the Contracting Officer for technical matters, including interpretation of specifications and drawings, and inspection and review of work performed. \(2\) Perform as the authorized representative of the Contracting Officer for administrative matters, including reviewing payments, and updated delivery schedules. \(b\) These representatives are authorized to act for the Contracting Officer in all specifically delegated matters pertaining to the contract, except: \(1\) contract modifications that change the contract price or cost, technical requirements or time for performance, unless delegated field change order authority; \(2\) suspension or termination of the Contractor\'s right to proceed, either for default or for convenience;\ (3) final decisions on any matters subject to appeal, e.g., disputes under the \"Contract Disputes\" clause; and\ (4) final acceptance under the contract. ##### PART I - SECTION H SPECIAL CONTRACT REQUIREMENTS H.1 Permits and Responsibilities The Contractor shall secure and pay for all permits, licenses, special inspections, etc., required in the execution of the work, whether of a permanent or temporary nature. H.2 Compliance with Copeland Act (Anti-Kickback Act) Requirements The Contractor shall comply with the requirements of 29 CFR Part 3, which are hereby incorporated by reference in this contract. ### H.3 Disputes Concerning Labor Standards The United States Department of Labor has set forth in 29 CFR Parts 5, 6, and 7 procedures for resolving disputes concerning labor standards requirements. Such disputes shall be resolved in accordance with those procedures and not the Disputes clause of this contract. Disputes within the meaning of this clause include disputes between the Contractor (or any of its subcontractors) and the contracting agency, the U.S. Department of Labor, or the employees or their representatives. ### H.4 Strikes or Picketing Affecting Access to a DOT Facility If the Contracting Officer notifies the Contractor in writing that a strike or picketing: (a) is directed at the Contractor or subcontractor or any employee of either; and (b) impedes or threatens to impede access by any person to a DOT facility where the site of the work is located, the Contractor shall take all appropriate action to end such strike or picketing, including, if necessary, the filing of a charge of unfair labor practice with the National Labor Relations Board or the use of other available judicial or administrative remedies. ### H.5 Accident and Fire Reporting \(a\) The Contractor shall report to the Contracting Officer any accident or fire occurring at the site of the work which causes: \(1\) A fatality or as much as one lost workday on the part of any employee of the Contractor or subcontractor at any tier; \(2\) Damage of \$1,000 or more to Federal property, either real or personal; \(3\) Damage of \$1,000 or more to Contractor or subcontractor owned or leased motor vehicles or mobile equipment; or \(4\) Damage for which a contract time extension may be requested. \(b\) Accident and fire reports required by paragraph (a) above shall be accomplished by the following means: \(1\) Accidents or fires resulting in a death, hospitalization of five or more persons, or destruction of Federal property (either real or personal), the total value of which is estimated at \$100,000 or more, shall be reported immediately by telephone to the Contracting Officer or his/her authorized representative and shall be confirmed by telegram or facsimile transmission within 24 hours to the Contracting Officer. Such telegram or facsimile transmission shall state all known facts as to extent of injury and damage and as to cause of the accident or fire. \(2\) Other accident and fire reports required by paragraph (a) above may be reported by the Contractor using a state, private insurance carrier, or Contractor accident report form which provides for the statement of: \(i\) The extent of injury; and \(ii\) The damage and cause of the accident or fire. Such report shall be mailed or otherwise delivered to the Contracting Officer within 48 hours of the occurrence of the accident or fire. \(c\) The Contractor shall assure compliance by subcontractors at all tiers with the requirements of this clause. ### H.6 Definitions \(a\) \"Head of the agency\" (also called \"agency head\") or \"Secretary\" means the Secretary (or Attorney General, Administrator, Governor, Chairperson, or other chief official, as appropriate) of the agency, including any deputy or assistant chief official of the agency; and the term \"authorized representative\" means any person, persons, or board (other than the Contracting Officer) authorized to act for the head of the agency or Secretary. \(b\) \"Contracting Officer\" means a person with the authority to enter into, administer, and/or terminate contracts and make related determinations and findings. The term includes certain authorized representatives of the Contracting Officer acting within the limits of their authority as delegated by the Contracting Officer. ### H.7 Security Requirements The contractor shall provide a listing of employees' names and social security numbers to SSC Manager, Wilberto Torres (941/355-3834 or wilberto.torres@faa.gov) for badging requirements. All contractor access, contractor badges, etc. must be coordinated through the local Security Servicing Element (SSE) or designee. H.8 Environmental, Safety and Health (May 2007) Revised CLA.0090 \(a\) The Contractor shall assure that no person employed on this contract works in surroundings or under conditions that are unsanitary, hazardous, or dangerous to their health or safety. The contractor shall also ensure that all employees received appropriate and required safety, health, environmental, and equipment operational training. In fulfilling these requirements, the Contractor shall comply with: \(1\) Department of Labor Safety and Health Standards for Construction under Section 107 of the Contract Work Hours and Safety Standards Act (40 U.S.C. 327 et seq. and CFR 1960). \(2\) Occupational Safety and Health Act of 1970, (Public Law 91-598 and 29 CFR 1960) (OSHA) and applicable rules and regulations as may have been delegated to the States. \(3\) Applicable Federal and state environmental requirements. This includes, but is not limited to Code of Federal Regulations, U.S. Environmental Protection Agency, Oklahoma Department of Environmental Quality, and the Oklahoma Corporation Commission. \(4\) Supplemental FAA environmental, safety and health requirements contained in FAA and Environmental, Safety and Health Orders, or elsewhere in the contract. Other standards used by FAA include the National Fire Codes, American National Standards Institute (ANSI), American Society of Testing and Materials (ASTM), etc. This list of standards or laws is not inclusive. Other safety and health FAA regulations can be found in the 3900 classification series entitled, "Employee Health and Safety." Other environmental FAA regulations can be found in the 1050 classification series. \(b\) If the Contractor works more than 1000 employee-hours in one quarter on the FAA Campus, the Contractor shall prepare and submit an annual report of injury and illness information regarding this workforce using the attached form. The report shall be submitted to the Contracting Officer not later than November 30 of each government fiscal year (October 1 through September 30) and contain the following information: \(1\) The number of employee-hours worked during the preceding fiscal year; \(2\) The number of OSHA recordable cases (defined as mishaps that result in fatalities, lost workdays, medical treatment, restricted workdays or a loss of consciousness) that occurred during the preceding fiscal year; \(3\) The number of cases which resulted in days away and/or restricted/transferred duty that occurred during the preceding fiscal year. \(c\) If there are conflicts between any of the requirements referenced in this contract, the more stringent requirement will prevail. \(d\) If the Contractor fails or refuses to promptly comply with any environmental, safety or health requirement, the Contracting Officer's Technical Representative (COTR) will notify the Contractor of any such noncompliance and the Contractor shall take immediate corrective action. Such notice, whether oral or written, when served on the Contractor or any of its employees at the site of the work, shall be deemed sufficient. If the Contractor fails or refuses to promptly correct the condition, the COTR may stop all or any portion of the work. When satisfactory corrective action has been taken, the contractor shall request permission to resume work from the COTR. No time extension or additional costs, resulting from the directive to stop work shall be allowed. Failure of the COTR to provide notice of noncompliance or to stop work shall not relieve the Contractor of its responsibility for the safe performance of the work. \(e\) The Contractor shall require contract personnel to wear personal protective equipment when it is necessary because of the hazards on the job and in most instances will provide the equipment, except that which has been specified to be furnished by FAA. All personal protective equipment worn by contractors shall be equal to or exceed the level of protection required of and provided to Government employees. \(f\) Contractors shall include a clause in all subcontracts to require subcontractors to comply with this clause. H.9 Requirement for Screening of Contractor Personnel (June 2001) CLA.1262 \(a\) Contractor Screening of Personnel. The operation of this contract is intended to promote the continued safe and secure operation of Federal Aviation Administration (FAA) facilities, systems and resources that comprise or support the National Aerospace System. Access to most FAA locations, systems and equipment is restricted and controlled by the responsible FAA Servicing Security Element. No rights of access to FAA facilities or resources are conferred to the contractor or contractor personnel by this contract. The contractor is responsible for identifying and providing qualified and acceptable personnel in performance of the contract. To meet this requirement, the contractor shall perform routine personnel screening prior to personnel having access to any FAA facility, resources, or sensitive information. \(1\) The contractor shall obtain a criminal history report of the prospective employee from the appropriate state authority, i.e., the state where the individual was last employed. If the criminal history report reveals an occurrence of activity listed in paragraphs 1 through 6 of the contract attachment entitled \"Screening Standards-CONTRACTOR\" within the preceding 9 years, the prospective employee shall not be allowed access to any FAA facility, resources, or sensitive information. Payment of any fees charged for such criminal history reports shall be the responsibility of the contractor. If the cost is included in the price of the contract, it shall be subject to the usual tests of allocability and reasonableness. \(2\) The Government expects that the contractor will normally contact prospective employees\' previous employer(s) for employment history, and apply the contractor\'s customary standards for employment suitability. If this employment history check reveals a documented occurrence of activity listed in paragraph 7 of the contract attachment entitled \"Screening Standards - CONTRACTOR\" within the preceding 9 years, the prospective employee shall not be allowed access to any FAA facility, resources, or sensitive information. \(3\) When specific experience or educational requirements apply to personnel performing on the contract, the contractor shall verify prospective employees\' claimed experience or educational qualifications. \(b\) Government Screening Standards for Contractor Personnel. \(1\) The Contractor shall inform prospective employees that the FAA will perform background investigations on contractor personnel prior to their gaining access to any Federal Aviation Administration (FAA) facility, resource or sensitive information/system in performance of the contract. \(2\) Prior to placing any employee in a position having access to FAA facilities, resources or sensitive information, the contractor shall provide that employee a copy of the contract attachment entitled \"Adjudicative Standards: Issues\". (Appendix 6, FAA Order 1600.1D). In addition, the contractor must advise the prospective employee of FAA's intent to employ such adjudicative standards in determining employee access as described above. \(3\) Any personnel the contractor employs to work on FAA facilities and resources found to have a conviction history within nine (9) years prior to beginning performance under this contract shall be denied access to any FAA-controlled facility/resource. No access will be granted until the Government's background investigation is complete and a favorable determination made as a result of the adjudication process. \(c\) Upon written request to the CO or his/her designated representative, the FAA may waive the screening requirements with respect to: \(1\) a contractor employee that has had a FAA background investigation within the previous five years, with uninterrupted employment and performance on a FAA facility, and a record of acceptable behavior; or \(2\) a contractor employee that has had a FAA background investigation within the previous 12 months, with interrupted employment and performance on a FAA facility, and a record of acceptable behavior. \(d\) If in unusual circumstances the contractor finds it necessary to utilize a person that does not meet the requirements of paragraph (a), the FAA may at its sole discretion, grant a waiver to this clause. Contractor\'s request for waiver shall be in writing to the contracting officer, providing information about mitigating circumstances to the negative screening results, and explain why the person should have access to FAA facilities, resources or sensitive information. The FAA will grant or deny the waiver request in writing within 15 days following receipt. The decision to grant or deny the waiver is solely the FAA\'s, and is not subject to appeal or to the \"Disputes\" clause of this contract. The contractor understands that access suitability determinations by the responsible Security Servicing Element, although conclusive under this contract, derive legal standing independent of the contract. \(e\) If the contractor fails to perform the required screening, or disregards the results of the screening, and subject personnel are found to be unacceptable as a result of FAA background investigation(s), the contractor shall be responsible for FAA\'s cost of subsequent FAA background investigation(s) of the replacement personnel. The cost of additional FAA background investigation(s) may be deducted from requests for payment under the contract. \(f\) The Contractor shall retain all reports and related documentation pertaining to (a)(1) through (3) for the duration of this contract, and shall make them available for review by the contracting officer, or his/her designated representative, within 10 days of written request. \(g\) Neither the time required to perform the screening, nor the impact of any personnel action(s) required as a consequence of the screening shall be considered an \"excusable delay\" as described in the \"Default\" clause of this contract. \(h\) Notwithstanding the diligent effort of the contractor to provide qualified and acceptable personnel for performance of the contract, the CO may by written notice deny access to FAA facilities, resources, or sensitive information to those personnel who have been deemed incompetent, careless, dangerous, unsuitable or otherwise objectionable, former federal employees in violation of a post-employment restriction, or those whose continued presence on Government property is contrary to the public interest or inconsistent with the interest of national security. The Contractor shall fill out, and cause each of its personnel on the contract to fill out for submission to the Government; such forms as may be necessary for security or other reasons relating to qualifications and suitability for contract work. Upon request of the CO, the Contractor\'s personnel shall be fingerprinted. H.10 Save Harmless and Indemnity Agreement (January 1997) CLA.3211 The contractor shall save and keep harmless and indemnify the Government against any and all liability, claims, and costs of whatsoever kind and nature of injury to or death of any person or persons and for loss or damage to any property (Government or otherwise) occurring in connection with or in any way incident to or arising out of the occupancy, use, service, operations, or performance of work in connection with this contract, resulting in whole or in part from the negligent acts, fault or omissions of the contractor, any subcontractor, or any employee, agent, or representative of the contractor or any subcontractor. H.11 Liability Insurance (January 1997) Revised CLA.3212 \(a\) Pursuant to AMS 3.4.1-10, Insurance\--Work on a Government Installation, the insurance required of the contract during contract performance is: \(1\) Workers\' compensation and employer\'s liability as required by applicable Federal and State workers\' compensation and occupational disease statutes. Employer\'s liability coverage shall be not less than \$100,000. \(2\) General liability coverage written on the comprehensive form of policy providing limits of liability for bodily injury of not less than \$500,000 for each occurrence and property damage limits of liability of not less than \$100,000 for each accident. \(3\) Automobile liability (applicable to vehicles used in connection with contract performance) written on the comprehensive form of policy providing coverage of at least \$200,000 per person and \$500,000 per occurrence for bodily injury and \$100,000 per occurrence for property damage. \(b\) The policy shall name \"The United States of America, acting by and through the Federal Aviation Administration\" as an additional insured with respect to operations performed under this contract. \(c\) The policy shall include the following provision: \"It is a condition of this policy that the insurer shall furnish written notice to the Federal Aviation Administration (certificate holder) 30 days in advance of any reduction in or cancellation of this policy.\" \(d\) Certificate holder address: FAA-Mike Monroney Aeronautical Center NAS Automation & Facilities Contract Management Team (AMQ-240) P. O. Box 25082 Oklahoma City, OK 73l25 \(e\) At any time during contract performance and upon request of the Contracting Officer, the contractor shall provide a certified true copy of the liability policy and manually countersigned endorsements of any changes thereto. H.12 FAA Facility Regulations (October 2006) CLA.3402 Contractor personnel, including employees of subcontractors at any tier, suppliers, etc., working at or visiting an FAA facility, shall abide by all applicable regulations in effect at that facility governing their conduct, including, but not limited to, those regulations pertaining to traffic, parking, security, and airport matters. A non-inclusive list of such regulations is below. The full text of these is available at the website shown or can be obtained by contacting your Contracting Officer (CO)/Contracting Officer's Technical Representative (COTR). [FAA ORDERS/DIRECTIVES]{.underline} Security FAA Order 1600.72 [http://www.faa.gov/about/office_org/headquarters_offices/ash/ash_programs/investigations/isp/media/160072.doc](http://www.faa.gov/about/office_org/headquarters_offices/ash/ash_programs/investigations/isp/media/160072.doc) Harassment FAA Order 1110.125A, > Accountability board > > [https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/1110_125A/](https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/1110_125A/) Smoking FAA Order 3900.47 [https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/390047/](https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/390047/) Safety/OSHA FAA Order 3900.19B [https://employees.faa.gov/employee_services/safety/occ_safety/media/FINAL3900.pdf](https://employees.faa.gov/employee_services/safety/occ_safety/media/FINAL3900.pdf) Ramp/airdrome safety <http://www.faa.gov/runwaysafety/ontheground.cfm> > FAA Order 5200.7A > > [http://www.faa.gov/runwaysafety/pdf/5200.7A.pdf](http://www.faa.gov/runwaysafety/pdf/5200.7A.pdf) Internet use policy FAA Order 1370.79A [http://www.faa.gov/about/office_org/headquarters_offices/aio/documents/](http://www.faa.gov/about/office_org/headquarters_offices/aio/documents/) For orders which are not accessible via the links, or not listed above, contact your Contracting Officer (CO)/Contracting Officer's Technical Representative (COTR). ######### H.13 Agreement to Participate in Alternative Dispute Resolution (April 1998) CLA.4540 \(a\) The Federal Aviation Administration encourages direct communications and negotiations between the contractor and the contracting officer in an attempt to resolve contract disputes. In those situations where the parties are not able to achieve resolution at the contracting officer level, the agency favors the use of alternative dispute resolution (ADR) techniques to resolve disputes. \(b\) The parties hereby agree that, prior to referring a contract dispute to the Office of Disputes Resolution as described in contract clause 3.9.1-1 "Contract Disputes", the parties will discuss whether they are willing to utilize ADR techniques such as mediation or nonbinding evaluation of the dispute by a neutral party. Upon receipt of a contract dispute from the contractor, the contracting officer will explore with the contractor whether the use of ADR techniques would be appropriate to resolve the dispute. Both parties must agree that the use of such techniques is appropriate, and agree to fairly share the associated expenses. If the parties do not mutually agree to utilize ADR to resolve the dispute, the dispute will be processed in accordance with the procedures set forth in clause 3.9.1-1. H.14 Notice of Contractor Testimony (September 2006) CLA.4555 \(a\) The contractor shall notify the Contracting Officer promptly in writing of its intention, or the intention of its employees, subcontractors of any tier, or subcontractor employees, either voluntarily or under compulsion of competent authority, to provide sworn testimony on any matter related to or arising under the work required by and/or performed under, this contract. Such written notification at a minimum shall consist of the date and time of the testimony, identification of the court, board, or other body before which the testimony is made, the nature of the testimony to be given to the extent it is known at the time of this report, the nature of the contractor's involvement in the proceeding and any other circumstances related to the work performed under or related to the contract and the proceeding in which the testimony will be taken. \(b\) The contractor shall include the substance of this clause, including this paragraph (b), in all subcontracts executed under this contract and shall require all subcontractors to provide the required report to the contractor. H.15 Personnel and Supervision (October 2006) CLA.4556 The contractor shall designate sufficient supervisory personnel to meet task outcomes. Contract supervisors will provide day-to-day supervision of contract personnel including, but not limited to, work monitoring, payroll records, leave, etc. At no time will FAA personnel assume any responsibility for the supervision of contractor personnel. Government assistance will be available to provide technical and policy guidance through the assigned COTR. H.16 Strikes or Picketing Affecting Timely Completion of the Contract Work CLA.4557 (September 2006) Notwithstanding any other provision hereof, the Contractor is responsible for delays arising out of labor disputes, including but not limited to strikes, if such strikes are reasonably avoidable. A delay caused by a strike or by picketing which constitutes an unfair labor practice is not excusable unless the Contractor takes all reasonable and appropriate action to end such a strike or picketing, such as the filing of a charge with the National Labor Relations Board, the use of other available Government procedures, and the use of private boards or organizations for the settlement of disputes. PART II - SECTION I CONTRACT CLAUSES 3.2.2.3-41 Performing Work (July 2004) The Contractor (you) must perform, using your own organization, work equivalent to at least fifteen (15) percent of the total amount of work under the contract on the site. The CO may modify this contract to reduce this percentage if you request a reduction and the CO determines that it would be to the Government's advantage to do so. 3.3.1-33 Central Contractor Registration (January 2008) \(a\) Definitions. As used in this clause \"Central Contractor Registration (CCR) database\" means the primary Government repository for Contractor information required for the conduct of business with the Government. \"Data Universal Numbering System (DUNS) number\" means the 9-digit number assigned by Dun and Bradstreet, Inc. (D&B) to identify unique business entities. \"Data Universal Numbering System +4 (DUNS+4) number\" means the DUNS number assigned by D&B plus a 4-character suffix that may be assigned by a business concern. (D&B has no affiliation with this 4-character suffix.) This 4-character suffix may be assigned at the discretion of the business concern to establish additional CCR records for identifying alternative Electronic Funds Transfer (EFT) accounts for the same parent concern. \"Registered in the CCR database\" means that the Contractor has entered all mandatory information, including the DUNS number or the DUNS+4 number, into the CCR database. \(b\) (1) By submission of an offer, the offeror acknowledges the requirement that a prospective awardee shall be registered in the CCR database prior to award, during performance, and through final payment of any contract, basic agreement, basic ordering agreement, or blanket purchasing agreement resulting from this solicitation. > \(2\) The offeror shall enter, in Representations, Certifications and > Other Statements of Offerors Section of the solicitation, the DUNS or DUNS +4 number that identifies the offeror\'s name and address exactly as stated in the offer. The DUNS number will be used by the Contracting Officer to verify that the offeror is registered in the CCR database. > \(c\) If the offeror does not have a DUNS number, it should contact > Dun and Bradstreet directly to obtain one. > > \(1\) An offeror may obtain a DUNS number > > \(i\) If located within the United States, by calling Dun and > Bradstreet at 1-866-705-5711 or via the Internet at <http://fedgov.dnb.com/webform>; or > \(ii\) If located outside the United States, by contacting the local > Dun and Bradstreet office.\ > (2) The offeror should be prepared to provide the following > information: > > \(i\) Company legal business. > > \(ii\) Tradestyle, doing business, or other name by which your entity > is commonly recognized.\ > (iii) Company Physical Street Address, City, State, and ZIP Code.\ > (iv) Company Mailing Address, City, State and ZIP Code (if different > from physical street address). > \(v\) Company Telephone Number.\ > (vi) Date the company was started.\ > (vii) Number of employees at your location.\ > (viii) Chief executive officer/key manager.\ > (ix) Line of business (industry).\ > (x) Company Headquarters name and address (reporting relationship > within your entity). \(d\) If the offeror does not become registered in the CCR database in the time prescribed by the Contracting Officer, the Contracting Officer may proceed to award to the next otherwise successful registered offeror. \(e\) Processing time, which normally takes 48 hours, should be taken into consideration when registering. Offerors who are not registered should consider applying for registration immediately upon receipt of this solicitation. \(f\) The Contractor is responsible for the accuracy and completeness of the data within the CCR database, and for any liability resulting from the Government\'s reliance on inaccurate or incomplete data. To remain registered in the CCR database after the initial registration, the Contractor is required to review and update on an annual basis from the date of initial registration or subsequent updates its information in the CCR database to ensure it is current, accurate and complete. Updating information in the CCR does not alter the terms and conditions of this contract and is not a substitute for a properly executed contractual document. \(g\) (1) (i) If a Contractor has legally changed its business name, \"doing business as\" name, or division name (whichever is shown on the contract), or has transferred the assets used in performing the contract, but has not completed the necessary requirements regarding novation and change-of-name agreements in AMS Procurement Guidance T3.10.1.A-8, the Contractor shall provide the responsible Contracting Officer a minimum of one business day\'s written notification of its intention to: > \(A\) change the name in the CCR database;\ > (B) comply with the requirements of T3.10.1.A-8; and\ > (C) agree in writing to the timeline and procedures specified by the > responsible Contracting Officer. The Contractor must provide the Contracting Officer with the notification, sufficient documentation to support the legally changed name. > \(ii\) If the Contractor fails to comply with the requirements of > paragraph (g)(1)(i) of this clause, or fails to perform the agreement at paragraph (g)(1)(i)(C) of this clause, and, in the absence of a properly executed novation or change-of-name agreement, the CCR information that shows the Contractor to be other than the Contractor indicated in the contract will be considered to be incorrect information within the meaning of the \"Suspension of Payment\" paragraph of the electronic funds transfer (EFT) clause of this contract. > \(2\) The Contractor shall not change the name or address for EFT > payments or manual payments, as appropriate, in the CCR record to reflect an assignee for the purpose of assignment of claims. Assignees shall be separately registered in the CCR database. Information provided to the Contractor\'s CCR record that indicates payments, including those made by EFT, to an ultimate recipient other than that Contractor will be considered to be incorrect information within the meaning of the \"Suspension of payment\" paragraph of the EFT clause of this contract. \(h\) Offerors and Contractors may obtain information on registration and annual confirmation requirements via the internet at [http://www.ccr.gov](http://www.ccr.gov/)/ or by calling 1-888-227-2423, or 269-961-5757. 3.3.1-34 Payment by Electronic Funds Transfer---Central Contractor Registration (October 2005) \(a\) Method of payment. > \(1\) All payments by the Government under this contract shall be made > by electronic funds transfer (EFT), except as provided in paragraph (a)(2) of this clause. As used in this clause, the term \"EFT\" refers to the funds transfer and may also include the payment information transfer. > \(2\) In the event the Government is unable to release one or more > payments by EFT, the Contractor agrees to either--- > \(i\) Accept payment by check or some other mutually agreeable method > of payment; or > \(ii\) Request the Government to extend the payment due date until > such time as the Government can make payment by EFT (but see paragraph (d) of this clause). \(b\) Contractor\'s EFT information. The Government shall make payment to the Contractor using the EFT information contained in the Central Contractor Registration (CCR) database. In the event that the EFT information changes, the Contractor shall be responsible for providing the updated information to the CCR database. \(c\) Mechanisms for EFT payment. The Government may make payment by EFT through either the Automated Clearing House (ACH) network, subject to the rules of the National Automated Clearing House Association, or the Fedwire Transfer System. The rules governing Federal payments through the ACH are contained in 31 CFR Part 210. \(d\) Suspension of payment. If the Contractor\'s EFT information in the CCR database is incorrect, then the Government need not make payment to the Contractor under this contract until correct EFT information is entered into the CCR database; and any invoice or contract financing request shall be deemed not to be a proper invoice for the purpose of prompt payment under this contract. The prompt payment terms of the contract regarding notice of an improper invoice and delays in accrual of interest penalties apply. \(e\) Liability for uncompleted or erroneous transfers. > \(1\) If an uncompleted or erroneous transfer occurs because the > Government used the Contractor\'s EFT information incorrectly, the Government remains responsible for--- > \(i\) Making a correct payment; > > \(ii\) Paying any prompt payment penalty due; and > > \(iii\) Recovering any erroneously directed funds. > > \(2\) If an uncompleted or erroneous transfer occurs because the > Contractor\'s EFT information was incorrect, or was revised within 30 days of Government release of the EFT payment transaction instruction to the Federal Reserve System, and--- > \(i\) If the funds are no longer under the control of the payment > office, the Government is deemed to have made payment and the Contractor is responsible for recovery of any erroneously directed funds; or > \(ii\) If the funds remain under the control of the payment office, > the Government shall not make payment, and the provisions of paragraph (d) of this clause shall apply. \(f\) EFT and prompt payment. A payment shall be deemed to have been made in a timely manner in accordance with the prompt payment terms of this contract if, in the EFT payment transaction instruction released to the Federal Reserve System, the date specified for settlement of the payment is on or before the prompt payment due date, provided the specified payment date is a valid date under the rules of the Federal Reserve System. \(g\) EFT and assignment of claims. If the Contractor assigns the proceeds of this contract as provided for in the assignment of claims terms of this contract, the Contractor shall require as a condition of any such assignment, that the assignee shall register separately in the CCR database and shall be paid by EFT in accordance with the terms of this clause. Notwithstanding any other requirement of this contract, payment to an ultimate recipient other than the Contractor, or a financial institution properly recognized under an assignment of claims, is not permitted. In all respects, the requirements of this clause shall apply to the assignee as if it were the Contractor. EFT information that shows the ultimate recipient of the transfer to be other than the Contractor, in the absence of a proper assignment of claims acceptable to the Government, is incorrect EFT information within the meaning of paragraph (d) of this clause. \(h\) Liability for change of EFT information by financial agent. The Government is not liable for errors resulting from changes to EFT information made by the Contractor\'s financial agent. \(i\) Payment information. The payment or disbursing office shall forward to the Contractor available payment information that is suitable for transmission as of the date of release of the EFT instruction to the Federal Reserve System. The Government may request the Contractor to designate a desired format and method(s) for delivery of payment information from a list of formats and methods the payment office is capable of executing. However, the Government does not guarantee that any particular format or method of delivery is available at any particular payment office and retains the latitude to use the format and delivery method most convenient to the Government. If the Government makes payment by check in accordance with paragraph (a) of this clause, the Government shall mail the payment information to the remittance address contained in the CCR database. 3.6.1-7 Limitations on Subcontracting (August 1997) By submission of an offer and execution of a contract, the Offeror/Contractor agrees that in performance of the contract in the case of a contract for: \(a\) Services (except construction). At least 50 percent of the cost of contract performance incurred for personnel shall be expended for employees of the prime contractor. \(b\) Supplies (other than procurements from a regular dealer in such supplies). The prime contractor shall perform work for at least 50 percent of the cost of manufacturing the supplies, not including the cost of materials. \(c\) General construction. The prime contractor shall perform at least 15 percent of the cost of the contract, not including the cost of materials, with its own employees. \(d\) Construction by special trade contractors. The prime contractor shall perform at least 25 percent of the cost of the contract, not including the cost of materials, with its own employees. Compute small business subcontracting labor cost percentages as follows: Contractor Subcontractor Direct Labor \$ \_\_\_\_\_\_\_\_ \$ \_\_\_\_\_\_\_\_ Allowable Overhead \_\_\_\_\_\_\_\_ \_\_\_\_\_\_\_\_ Subtotal (A) \_\_\_\_\_\_\_\_ (B) \_\_\_\_\_\_\_\_ Labor G&A \@\_\_\_\_\_% \_\_\_\_\_\_\_\_ \_\_\_\_\_\_\_\_ Total Labor Costs (C) \_\_\_\_\_\_\_\_ (D) \_\_\_\_\_\_\_\_ To calculate the subcontracting percentage, first add Direct Labor and Allowable Overhead and enter the figures for the contractor in space (A) and for the subcontractor (if available)\* in space (B). Next, calculate Labor G & A by multiplying the G & A rate by the subtotal figure in space (A). Calculate subcontractor Labor G & A by multiplying the subcontractor's G & A rate by figure (B). Add the Labor G & A to the Subtotal and record that figure in the spaces for Total Labor Costs (C) and (D). Now, using the formula (D)/(C) + (D), calculate the subcontracting labor cost percentage. \You need to be comparing as like figures as possible; therefore, if you have a breakdown of the subcontractor's costs, use it in the formulation above. If you do not have a breakdown of the subcontractors' costs, you should use the Total Subcontracting Amount for item (D), though you should still breakdown the contractor's costs. 3.6.2-24 Affirmative Action Compliance Requirements for Construction* (November 1997) \(a\) Definitions. \(1\) \"Employer identification number,\" as used in this clause, means the Federal Social Security number used on the employer\'s quarterly federal tax return, U.S. Treasury Department Form 941. \(2\) \"Minority,\" as used in this clause, means \(i\) Black (all persons having origins in any of the black African racial groups not of Hispanic origin); \(ii\) Hispanic (all persons of Mexican, Puerto Rican, Cuban, Central or South American, or other Spanish culture or origin, regardless of race); \(iii\) Asian and Pacific Islander (all persons having origins in any of the original peoples of the Far East, Southeast Asia, the Indian Subcontinent, or the Pacific Islands); and \(iv\) American Indian or Alaskan Native (all persons having origins in any of the original peoples of North America and maintaining identifiable tribal affiliations through membership and participation or community identification). \(b\) If the Contractor, or a subcontractor at any tier, subcontracts a portion of the work involving any construction trade, each such subcontract in excess of \$10,000 shall include this clause, including the goals for minority and female participation stated herein. \(c\) The goals for minority and female participation, expressed in percentage terms for the Contractor\'s aggregate work force in each trade on all construction work in the covered area, are as follows: *[Goals for minority participation: 10.2]{.underline}* *[Goals for female participation: 6.9]{.underline}* Compliance with the goals will be measured against the total work hours performed. \(d\) The Contractor shall provide written notification to the Office of Federal Contract Compliance Programs (OFCCP) area office within 10 working days following award of any construction subcontract in excess of \$10,000 at any tier for construction work under the contract resulting from this screening information request. The notification shall list the: \(1\) Name, address, and telephone number of the subcontractor, \(2\) Employer identification number of the subcontractor; \(3\) Estimated dollar amount of the subcontract; \(4\) Estimated starting and completion dates of the subcontract; and \(5\) Geographical area in which the subcontract is to be performed. \(e\) The Contractor shall implement the affirmative action procedures in subparagraphs (f)(1) through (7) of this clause. The goals stated in this contract are expressed as percentages of the total hours of employment and training of minority and female utilization that the Contractor should reasonably be able to achieve in each construction trade in which it has employees in the covered area. If the contractor performs construction work in a geographical area located outside of the covered area, it shall apply the goals established for the geographical area where that work is actually performed. The Contractor is expected to make substantially uniform progress toward its goals in each craft. \(f\) The contractor shall take affirmative action steps at least as extensive as the following: \(1\) Ensure a working environment free of harassment, intimidation, and coercion at all sites, and in all facilities where the Contractor\'s employees are assigned to work. The Contractor, if possible, will assign two or more women to each construction project. The Contractor shall ensure that foremen, superintendents, and other on-site supervision, personnel are aware of and carry out the Contractor\'s obligation to maintain such a working environment, with specific attention to minority or female individuals working at these sites or facilities. \(2\) Immediately notify the OFCCP area office when the union or unions, with which the Contractor has a collective bargaining agreement, has not referred back to the Contractor a minority or woman sent by the Contractor, or when the Contractor has other information that the union referral process has impeded the Contractor\'s efforts to meet its obligations. \(3\) Develop on-the-job training opportunities and/or participate in training programs for the area that expressly include minorities and women, including upgrading programs and apprenticeship and trainee programs relevant to the Contractor\'s employment needs, especially those programs funded or approved by the Department of Labor. The Contractor shall provide notice of these programs to the sources compiled under subparagraph (f)(2) above. \(4\) Review, at least annually, the Contractor\'s equal employment policy and affirmative action obligations with all employees having responsibility for hiring, assignment, layoff, termination, or other employment decisions. Conduct reviews of this policy with all on-site supervision, personnel prior to initiation of construction work at a job site. A written record shall be made and maintained identifying the time and place of these meetings, persons attending, subject matter discussed, and disposition of the subject matter. \(5\) Disseminate the Contractor\'s equal employment policy externally by including it in any advertising in the news media, specifically including minority and female news media. Provide written notification to, and discuss this policy with, other Contractors and subcontractors with which the Contractor does or anticipates doing business. \(6\) Conduct, at least annually, an inventory and evaluation at least of all minority and female personnel for promotional opportunities. Encourage these employees to seek or to prepare for, through appropriate training, etc., opportunities for promotion. \(7\) Maintain a record of solicitations for subcontracts for minority and female construction contractors and suppliers, including circulation of solicitations to minority and -female contractor associations and other business associations. \(g\) The Contractor is encouraged to participate in voluntary associations that may assist in fulfilling one or more of the affirmative action obligations contained in subparagraphs (f)(1) through (7). The efforts of a contractor association, joint contractor-union, contractor-community, or similar group of which the contractor is a member and participant, may be useful in achieving one or more of its obligations under subparagraphs (f)(1) through (7). \(h\) A single goal for minorities and a separate single goal for women shall be established. The Contractor is required to provide equal employment opportunity and to take affirmative action for all minority groups, both male and female, and all women, both minority and non-minority. Consequently, the Contractor may be in violation of Executive Order 11246, as amended, if a particular group is employed in a substantially disparate manner. \(i\) The contractor shall not use goals or affirmative action standards to discriminate against any person because of race, color, religion, sex, or national origin. \(j\) The Contractor shall not enter into any subcontract with any person or firm debarred from Government contracts under Executive Order 11246, as amended. \(k\) The Contractor shall carry out such sanctions and penalties for violation of this clause and of the Nondiscrimination and Affirmative Action clause, including suspension, termination, and cancellation of existing subcontracts, as may be imposed or ordered under Executive Order 11246, as amended, and its implementing regulations, by the OFCCP. Any failure to carry out these sanctions and penalties as ordered shall be a violation of this clause and Executive Order 11246, as amended. \(l\) Nothing contained herein shall be construed as a limitation upon the application of other laws that establish different standards of compliance. 3.1-1 Clauses and Provisions Incorporated by Reference (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). 33. Order of Precedence (July 2004) 3.2.2.3-42 Differing Site Conditions (July 2004) 3.2.2.3-43 Site Investigation and Conditions Affecting the Work (July 2004) 3.2.2.3-45 Material and Workmanship (July 2004) 3.2.2.3-46 Superintendence by the Contractor (July 2004) 3.2.2.3-47 Permits and Responsibilities (July 2004) 3.2.2.3-48 Other Contracts (July 2004) 3.2.2.3-49 Protection of Existing Vegetation, Structures, Equipment, Utilities, and Improvements (July 2004) 3.2.2.3-50 Property Protection (July 2004) 3.2.2.3-51 Operations and Storage Areas (July 2004) 3.2.2.3-52 Use and Possession Prior to Completion (July 2004) 3.2.2.3-53 Cleaning Up and Roadway Maintenance (July 2004) 3.2.2.3-54 Preventing Accidents (July 2004) 3.2.2.3-56 Schedules for Construction Contracts (July 2004) 3.2.2.3-58 Layout of Work (July 2004) 60. Specifications, Drawings, and Material Submittals (July 2004) 3.2.2.3-62 Preconstruction Conference (July 2004) 3.2.2.3-66 Contractor's Daily Log (July 2004) 3.2.2.3-68 Safety and Health (July 2004) 69. Subcontracts - Construction (July 2004) 3.2.2.3-75 Requests for Contract Information (July 2004) 3.2.2.7-6 Protecting the Government's Interest when Subcontracting with Contractors Debarred, Suspended, or Proposed for Debarment (April 1996) 3.2.5-1 Officials Not to Benefit (April 1996) 3.2.5-3 Gratuities or Gifts (January 1999) 3.2.5-4 Contingent Fees (October 1996) 5. Anti-Kickback Procedures (October 1996) 3.2.5-6 Restrictions on Subcontractor Sales to the FAA (April 1996) 3.2.5-7 Disclosure Regarding Payments to Influence Certain Federal Transactions (June 1999) 3.2.5-8 Whistleblower Protection for Contractor Employees (April 1996) 3.3.1-2 Payments under Fixed-Price Construction Contracts (April 1996) 3.3.1-9 Interest (January 2008) 3.3.1-15 Assignment of Claims (April 1996) 3.3.1-19 Prompt Payment for Construction Contracts (January 2003) 3.4.1-7 Notice to Proceed (April 1996) 3.4.1-10 Insurance\--Work on a Government Installation (July 1996) 6. Taxes\--Contracts Performed in U.S. Possessions or Puerto Rico (October 1996) 3.4.2-8 Federal, State, and Local Taxes\--Fixed Price Contract (April 1996) 4. Patent Indemnity\--Construction Contracts (April 1996) 3.6.1-3 Utilization of Small, Small Disadvantaged, Women-Owned, and Service-Disabled Veteran Owned Small Business Concerns (September 2001) 3.6.1-4 Small, Small Disadvantaged, Women-Owned and Service-Disabled Veteran Owned Small Business Subcontracting Plan (September 2001) 1. Contract Work Hours and Safety Standards Act-Overtime Compensation (September 2003) 3.6.2-2 Convict Labor (April 1996) 3.6.2-9 Equal Opportunity (August 1998) 3.6.2-12 Affirmative Action for Special Disabled and Vietnam Era Veterans (January 1998) 3.6.2-13 Affirmative Action for Handicapped Workers (April 2000) 3.6.2-14 Employment Reports on Special Disabled Veterans and Veterans of Vietnam Era (January 1998) 16. Notice to the Government of Labor Disputes (April 1996) 3.6.2-18 Davis Bacon Act (April 1996) 3.6.2-19 Withholding\--Labor Violations (April 1996) 3.6.2-20 Payrolls and Basic Records (June 1999) 3.6.2-21 Apprentices, Trainees, and Helpers (April 1996) 3.6.2-22 Subcontracts (Labor Standards) (April 1996) 23. Certification of Eligibility (April 1996) ```{=html} <!-- --> ``` 35. Prevention of Sexual Harassment (August 1998) 3.6.2-39 Trafficking in Persons (July 2007) 2. Clean Air and Clean Water (April 1996) 3.6.3-12 Asbestos-Free Construction (August 1998) 13. Recycle Content and Environmentally Preferable Products (January 2002) 3.6.3-14 Use Of Environmentally Preferable Products (January 2002) 3.6.3-15 Material Requirements (October 2002) 3.6.3-16 Drug Free Workplace (January 2004) 3.6.4-3 Buy American Act\--Construction Materials (July 1996) 3.6.4-10 Restrictions on Certain Foreign Purchases (April 1996) 1. Contract Disputes (November 2002) 3.9.1-2 Protest After Award (August 1997) 7. Bankruptcy (April 1996) 3.10.1-8 Suspension of Work (August 1998) 3.10.1-15 Changes\--Construction, Dismantling, Demolition, or Removal of Improvements (July 1996) 3.10.1-16 Changes and Changed Conditions (April 1996) 3.10.1-19 Modification Cost Proposal - Price Breakdown (Construction) (April 1996) 3.10.1-20 Warranty\--Construction (April 1996) 3.10.1-25 Novation and Change-Of-Name Agreements (January 2003) 3.10.6-1 Termination for Convenience of the Government (Fixed Price) (October 1996) 6. Default (Fixed Price Construction) (October 1996) 3.13-5 Seat Belt Use by Contractor Employees (January 1999) 3.14-3 Foreign Nationals as Contractor Employees (July 2006) PART III - SECTION J LIST OF ATTACHMENTS [ATTACHMENT]{.underline} [TITLE]{.underline} [DATE]{.underline} [NO. OF PAGES]{.underline} 1 Statement of Work for Sarasota RCAG Towers undated 8 2 Requirements for Fixed Ladder and Ladder undated 1 Safety System 3 Screening Standards-CONTRACTOR 07/01 1 4 Adjudicative Standards: Issues 07/01 1 5 FAA Contractor Injury/Illness Information undated 1 6 General Decision Number: FL070070, 7/20/07 3 State: Florida PART IV - SECTION K REPRESENTATIONS, CERTIFICATIONS, AND OTHER STATEMENTS OF OFFERORS K.1 NAICS CODE AND SMALL BUSINESS SIZE STANDARD (November 2000) CLA.0126 \(a\) The North American Industry Classification System (NAICS) code for this acquisition is 23170. \(b\) The small business size standard is \$13 million. \(c\) The small business size standard for a concern which submits an offer in its own name, other than on a construction or service contract, but which proposes to furnish a product which it did not itself manufacture, is 500 employees. 3.2.2.3-10 Type of Business Organization (July 2004) By checking the applicable box, the offeror (you) represents that\--\ (a) You operate as \[ \] a corporation incorporated under the laws of the State of \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ , \[ \] an individual, \[ \] a partnership, \[ \] a nonprofit organization, \[ \] a joint venture or \[ \] other \_\_\_\_\_\_\_\_\_\_\_\_\[specify what type of organization\].\ (b) If you are a foreign entity, you operate as \[ \] an individual, \[ \] a partnership, \[ \] a nonprofit organization, \[ \] a joint venture, or \[ \] a corporation, registered for business in \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ . (country) 3.2.2.3-15 Authorized Negotiators (July 2004) The offeror states that the following persons are authorized to negotiate on your behalf with the FAA in connection with this offer:\ Name:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ Title:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ Phone number:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ 3.2.2.3-70 Taxpayer Identification (July 2004) \(a\) Definitions.\ (1) \"Common parent,\" as used in this clause, means a corporate entity that owns or controls an affiliated group of corporations that files an offeror's (you, your) Federal income tax returns on a consolidated basis, and of which you are a member.\ (2) \"Corporate status,\" as used in this clause, means a designation as to whether you are a corporate entity, an unincorporated entity (for example, sole proprietorship or partnership), or a corporation providing medical and health care services.\ (3) \"Taxpayer Identification Number (TIN),\" as used in this clause, means the number the Internal Revenue Service (IRS) requires you use in reporting income tax and other returns.\ (b) All offerors must submit the information required in paragraphs (c) through (e) of this provision to comply with reporting requirements of 26 U.S.C. 6041, 6041A, and 6050M and implementing regulations issued by IRS. The FAA will use this information to collect and report on any delinquent amounts arising out of your relation with the Federal Government, under Public Law 104 -134, the Debt Collection Improvement Act of 1996, Section 31001(I)(3). If the resulting contract is subject to the reporting requirements and you refuse or fail to provide the information, the Contracting Officer (CO) may reduce your payments 31 percent under the contract. \(c\) Taxpayer Identification Number (TIN).\ \[ \] TIN: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \[ \] TIN has been applied for.\ \[ \] TIN is not required because:\ \[ \] Offeror is a nonresident alien, foreign corporation, or foreign partnership that does not leave income effectively connected with the conduct of a trade or business in the U.S. and does not have an office or place of business or a fiscal paying agent in the U.S.;\ \[ \] Offeror is an agency or instrumentality of a foreign government;\ \[ \] Offeror is an agency or instrumentality of a Federal, state, or local government;\ \[ \] Other\--State basis. \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_. \(d\) Corporate Status.\ \[ \] Corporation providing medical and health care services, or engaged in the billing and collecting of payments for such services;\ \[ \] Other corporate entity\ \[ \] Not a corporate entity\ \[ \] Sole proprietorship\ \[ \] Partnership\ \[ \] Hospital or extended care facility described in 26 CFR 501(c)(3) that is exempt from taxation under 26 CFR 501(a).\ (e) Common Parent.\ \[ \] A common parent does not own or control the offeror as defined in paragraph (a).\ \[ \] Name and TIN of common parent:\ Name \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ TIN \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ 3.2.2.3-76 Representation- Release of Contract Information (July 2004) \(a\) Any contract resulting from this SIR may be subject to release under the Freedom of Information Act (FOIA), 5 U.S.C. Section 552.\ (b) The offeror's (you, your) position regarding the possible release of information you provide in response to this SIR is as follows:\ (c) REPRESENTATION CONCERNING RELEASE OF CONTRACT INFORMATION\--\ The offeror (you) represents that\--(1)\[ \] You have made a complete review of your offer(s) in response to this SIR and no exemption from mandatory release under FOIA exists, and, (2)\[ \] You have no objection to the release of any contract you may be awarded in whole or in part resulting from this SIR.\ OR\ The offeror (you) represents that \[ \] your offer(s) in response to this SIR contains information that is exempt from mandatory release under FOIA. Accordingly, you represent that\--(1)\[ \] You have identified any sensitive documents you submitted in response to this SIR by placing restrictive markings on them. This may include trade secrets, proprietary information, or commercial or financial information that is privileged or confidential, and (2)\[ \] As the party that provided the information, you have provided the Contracting Officer (by separate letter concurrent with this offer) detailed information listing the page(s) to be withheld complete with any and all legal justifications which would permit the FAA to invoke a FOIA exemption. 3.2.2.7-7 Certification Regarding Debarment, Suspension, Proposed Debarment, and Other Responsibility Matters (April 1996) \(a\) (1) The Offeror certifies, to the best of its knowledge and belief, that\-- \(i\) The Offeror and/or any of its Principals\-- \(A\) Are \[ \] are not \[ \] presently debarred, suspended, proposed for debarment, or declared ineligible for the award of contracts by any Federal agency; \(B\) Have \[ \] have not \[ \] within a three-year period preceding this offer, been convicted of or had a civil judgment rendered against them for: commission of fraud or a criminal offense in connection with obtaining, attempting to obtain, or performing a public (Federal, state, or local) contract or subcontract; violation of Federal or state antitrust statutes relating to the submission of offers: or commission of embezzlement, theft, forgery, bribery, falsification or destruction of records, making false statements, or receiving stolen property; and \(C\) Are \[ \] are not \[ \] presently indicted for, or otherwise criminally or civilly charged by a governmental entity with, commission of any of the offenses enumerated in subdivision (a)(1)(i)(B) of this provision. \(ii\) The Offeror has \[ \] has not \[ \] within a three-year period preceding this offer, had one or more contracts terminated for default by any Federal agency. \(2\) \'Principals,\' for the purposes of this certification, means officers; directors; owners; partners; and, persons having primary management or supervisory responsibilities within a business entity (e.g., general manager; plant manager; head of a subsidiary, division, or business segment, and similar positions). THIS CERTIFICATION CONCERNS A MATTER WITHIN THE JURISDICTION OF AN AGENCY OF THE UNITED STATES AND THE MAKING OF A FALSE, FICTITIOUS, OR FRAUDULENT CERTIFICATION MAY RENDER THE MAKER SUBJECT TO PROSECUTION UNDER SECTION 1001, TITLE 18, UNITED STATES CODE. \(b\) The Offeror shall provide immediate written notice to the Contracting Officer if, at any time prior to contract award, the Offeror learns that its certification was erroneous when submitted or has become erroneous by reason of changed circumstances. \(c\) A certification that any of the items in paragraph (a) of this provision exists will not necessarily result in withholding of an award under this SIR. However, the certification will be considered in connection with a determination of the Offeror\'s responsibility. Failure of the Offeror to furnish a certification or provide such additional information as requested by the Contracting Officer may render the Offeror nonresponsible. \(d\) Nothing contained in the foregoing shall be construed to require establishment of a system of records in order to render, in good faith, the certification required by paragraph (a) of this provision. The knowledge and information of an Offeror is not required to exceed that which is normally possessed by a prudent person in the ordinary course of business dealings. \(e\) The certification in paragraph (a) of this provision is a material representation of fact upon which reliance was placed when making award. If it is later determined that the Offeror knowingly rendered an erroneous certification, in addition to other remedies available to the Government, the Contracting Officer may terminate the contract resulting from this SIR for default. 3.3.1-35 Certification of Registration in Central Contractor Registration (CCR) (April 2006) In accordance with Clause 3.3.1-33, Central Contractor Registration, offeror certifies that they are registered in the CCR Database and have entered all mandatory information including the DUNS or DUNS+4 Number.\ \ Name: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \ Title: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \ Phone Number: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ 3.6.2-6 Previous Contracts and Compliance Reports (April 1996) The offeror represents that\--(a) It \[ \] has, \[ \] has not, participated in a previous contract or subcontract subject either to the \"Equal Opportunity\" clause of this solicitation, the clause originally contained in Section 310 of Executive Order No. 10925, or the clause contained in Section 201 of Executive Order No. 11114; (b) It \[ \] has, \[ \] has not, filed all required compliance reports; and (c) Representations indicating submission of required compliance reports, signed by proposed subcontractors, will be obtained before subcontract awards. 3.1-1 Clauses and Provisions Incorporated by Reference (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). 3.6.2-5 Certification of Nonsegregated Facilities (April 1996) 3.6.3-1 Clean Air and Water Certification (April 2000) PART IV - SECTION L INSTRUCTIONS, CONDITIONS, AND NOTICES TO OFFERORS ### L.1 Instructions to Offerors Certain representations and certifications must be made by the offeror and must be filled in as appropriate. The signature of the offeror on the face page of this SIR/RFO (Standard Form 33 or Standard Form 26, as applicable) constitutes the making of certain representations and certifications, WITH THE EXCEPTION OF THE FEDERAL AVIATION ADMINISTRATION ACQUISITION MANAGEMENT SYSTEM (AMS) BUSINESS DECLARATION, which is specifically required to be completed, signed and submitted with offer. Award of any contract to the offeror shall be considered to have incorporated the applicable representations and certifications by reference. L.2 Prevention of Other Forms of Harassment (May 2002) CLA.4551 \(a\) \'Harassment\', as used in this clause, means any verbal, written, graphic, or physical form of harassment or other misconduct that creates or that may reasonably be expected to create an intimidating, hostile, or offensive work environment based on race, color, religion, gender, sexual orientation, national origin, age, or disability. \(b\) It is FAA policy that harassment as defined in paragraph (a) above will not be tolerated or condoned in the FAA workplace. It is also FAA\'s intent to effectively address inappropriate conduct. \(c\) The Contractor agrees to support this policy in performing work under this contract, and that harassment in any form will not be tolerated in the FAA workplace. \(d\) If the Contractor, or a subcontractor of any tier, subcontracts any portion of the work under this contract, each such subcontract shall include this provision. \(e\) The Contractor shall take whatever corrective action it deems necessary to promptly address harassment in the FAA workplace, or on an FAA site. The Contractor agrees to immediately provide the Contracting Officer all relevant information pertaining to any such conduct, and notify him/her of its planned action. \(f\) The Contracting Officer may require the Contractor to remove employee(s) from the FAA worksite that the Contracting Officer deems to have engaged in harassment as defined in paragraph (a) above. \(g\) Any FAA action under subsection (f) above does not relieve the Contractor of its liability or obligations under the Civil Rights Act of 1964, or any other applicable law or regulation. 3.2.2.3-20 Electronic Offers (July 2004) \(a\) The offeror (you) may submit responses to this SIR by the following electronic means facsimile or e-mail. Your offer must arrive at the place and by the time specified in the SIR. \(b\) Electronic offers must refer to this SIR and include, as applicable, the item or sub-items, quantities, unit prices, time and place of delivery, all representations and other information required and a statement specifying the extent of your agreement with all the FAA\'s (we) terms, conditions, and provisions. \(c\) We may decline to consider electronic offers that do not include required information, or that reject any of the terms, conditions and provisions of the SIR. \(d\) We reserve the right to make award solely on the electronic offer. However, if the CO requests, you must promptly submit the complete original (hard copy) signed proposal. \(e\) Send your offer electronically to fax number 405/954-9219 or e-mail Connie.M.Houpt@faa.gov. \(f\) If you chose to send your offer electronically, we will not be responsible for any failure attributable to transmitting or receiving the offer. 3.2.2.3-38 Requirements for Cost or Pricing Data or Other Information (July 2004) Offerors (you) may submit certificates of current cost or pricing data (CCCPD) or you may request an exception to this requirement. Depending on the option you use, you must submit either the CCCPD shown in paragraph (e) of clause 3.2.2.3-39, \"Requirements for Cost or Pricing Data or Information - Modifications\" (the clause) or request an exception consistent with the information in the clause. Any information in the clause regarding the CCCPD or the exception that is relevant to an offer is incorporated into this provision. 3.2.2.3-63 Site Visit (Construction) (July 2004) \(a\) AMS clauses 3.2.2.3-42, Differing Site Conditions, and 3.2.2.3-43, Site Investigations and Conditions Affecting the Work, will be included in any contract awarded under this SIR. Accordingly, FAA urges and expects offerors to inspect the site where the work will be performed.\ (b) A site visit will be held on *February 12, 2008 at 9:00 a.m.* at the Sarasota, FL RCAG site. Please, contact Wilberto Torres at the RCAG Site, 941/355-3834, for directions to the site prior to 2:00 p.m. February 11, 2008. 3.2.4-1 Type of Contract (April 1996) The FAA contemplates award of a firm-fixed-price type contract resulting from this Screening Information Request. 3.9.1-3 Protest (November 2002) AS A CONDITION OF SUBMITTING AN OFFER OR RESPONSE TO THIS SIR (OR OTHER SOLICITATION, IF APPROPRIATE), THE OFFEROR OR POTENTIAL OFFEROR AGREES TO BE BOUND BY THE FOLLOWING PROVISIONS RELATING TO PROTESTS: \(a\) Protests concerning Federal Aviation Administration Screening Information Requests (SIRs) or awards of contracts shall be resolved through the Federal Aviation Administration (FAA) dispute resolution system at the Office of Dispute Resolution for Acquisition (ODRA) and shall be governed by the procedures set forth in 14 C.F.R. Parts 14 and 17, which are hereby incorporated by reference. Judicial review, where available, will be in accordance with 49 U.S.C. 46110 and shall apply only to final agency decisions. A protestor may seek review of a final FAA decision only after its administrative remedies have been exhausted. \(b\) Offerors initially should attempt to resolve any issues concerning potential protests with the Contracting Officer. The Contracting Officer should make reasonable efforts to answer questions promptly and completely, and, where possible, to resolve concerns or controversies. The protest time limitations, however, will not be extended by attempts to resolve a potential protest with the Contracting Officer. \(c\) The filing of a protest with the ODRA may be accomplished by mail, overnight delivery, hand delivery, or by facsimile. A protest is considered to be filed on the date it is received by the ODRA. \(d\) Only an interested party may file a protest. An interested party is one whose direct economic interest has been or would be affected by the award or failure to award an FAA contract. Proposed subcontractors are not \"interested parties\" within this definition. \(e\) A written protest must be filed with the ODRA within the times set forth below, or the protest shall be dismissed as untimely: \(1\) Protests based upon alleged improprieties in a solicitation or a SIR that are apparent prior to bid opening or the time set for receipt of initial proposals shall be filed prior to bid opening or the time set for the receipt of initial proposals. \(2\) In procurements where proposals are requested, alleged improprieties that do not exist in the initial solicitation, but which are subsequently incorporated into the solicitation, must be protested not later than the next closing time for receipt of proposals following the incorporation. \(3\) For protests other than those related to alleged solicitation improprieties, the protest must be filed on the later of the following two dates: \(i\) Not later than seven (7) business days after the date the protester knew or should have known of the grounds for the protest; or \(ii\) If the protester has requested a post-award debriefing from the FAA Product Team, not later than five (5) business days after the date on which the Product Team holds that debriefing. \(f\) Protests shall be filed at: \(1\) Office of Dispute Resolution for Acquisition, AGC-70, Federal Aviation Administration, 800 Independence Ave., S.W., Room 323, Washington, DC 20591, Telephone: (202) 267-3290, Facsimile: (202) 267-3720; or \(2\) other address as specified in 14 CFR Part 17. \(g\) At the same time as filing the protest with the ODRA, the protester shall serve a copy of the protest on the Contracting Officer and any other official designated in the SIR for receipt of protests by means reasonably calculated to be received by the Contracting Officer on the same day as it is to be received by the ODRA. The protest shall include a signed statement from the protester, certifying to the ODRA the manner of service, date, and time when a copy of the protest was served on the Contracting Officer and other designated official(s). \(h\) Additional information and guidance about the ODRA dispute resolution process for protests can be found on the ODRA Website at [http://www.faa.gov](http://www.faa.gov/). 3.13-4 Contractor Identification Number---Data Universal Numbering System (DUNS) Number (April 2006) \(a\) Definitions. As used in this clause \"Contractor Identification Number,\" as used in this provision, means \"Data Universal Numbering System (DUNS) number, which is a nine-digit number assigned by Dun and Bradstreet Information Services, to identify unique business entities (taken from CCR clause) \"Data Universal Numbering System +4 (DUNS+4) number\" means the DUNS number assigned by D&B plus a 4-character suffix that may be assigned by a business concern. (D&B has no affiliation with this 4-character suffix.) This 4-character suffix may be assigned at the discretion of the business concern to establish additional CCR records for identifying alternative Electronic Funds Transfer. \(b\) Contractor identification is essential for receiving payment and complying with statutory contract reporting requirements. Therefore, the offeror shall provide its DUNS or DUNS+4 number below. The DUNS number will be used by the Contracting Officer to verify that the offeror is registered in the CCR database.\ \ DUNS OR DUNS+4 NUMBER: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ \(c\) If the offeror does not have a DUNS number, it should contact Dun and Bradstreet directly to obtain ne. > \(1\) An offeror may obtain a DUNS number > > \(i\) If located within the United States, by calling Dun and > Bradstreet at 1-866-705-5711 or via the Internet at [http://www.dnb.com](http://www.dnb.com/)/; or > \(ii\) If located outside the United States, by contacting the local > Dun and Bradstreet office.\ > (2) The offeror should be prepared to provide the following > information: > > \(i\) Company legal business.\ > (ii) Tradestyle, doing business, or other name by which your entity is > commonly recognized. > \(iii\) Company Physical Street Address, City, State, and ZIP Code. > > \(iv\) Company Mailing Address, City, State and ZIP Code (if different > from physical street address). > \(v\) Company Telephone Number. > > \(vi\) Date the company was started.\ > (vii) Number of employees at your location.\ > (viii) Chief executive officer/key manager.\ > (ix) Line of business (industry).\ > (x) Company Headquarters name and address (reporting relationship > within your entity). 3.1-1 Clauses and Provisions Incorporated by Reference (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). 3.2.2.3-1 False Statements in Offers (July 2004) 3.2.2.3-11 Unnecessarily Elaborate Submittals (July 2004) 12. Amendments to Screening Information Requests (July 2004) 3.2.2.3-13 Submission of Information/Documentation/Offers (July 2004) 3.2.2.3-14 Late Submissions, Modifications, and Withdrawals of Submittals (July 2004) 3.2.2.3-16 Restriction, Disclosing and Using Data (July 2004) 17. Preparing Offers (July 2004) 3.2.2.3-18 Prospective Offeror\'s Requests for Explanations (July 2004) 3.2.2.3-19 Contract Award (July 2004) PART IV - SECTION M EVALUATION FACTORS FOR AWARDS ### M.1 Evaluation for Award ######## Award will be made to the responsible, acceptable offeror submitting the lowest total offer and whose proposal meets the Government\'s minimum requirements called out in Section B and the documents referred to therein.	en
all-txt-docs	740220	( 171 ) ." the treaty in favour of your enemies," yet, was it an interpretation, advised by all the heads of departments, and the attorney general, with whom the president was in the habit of consulting. You differ from us in the construction. What is to follow ? Nothing I trust and believe between our two governments, which is not cus- tomary and cordial between friends. " In a case like " the present, where the missionary of one government " construes differently from that to which he is sent, " the treaties, which are to form a common rule of " action for both, it would be unjust in either to claim " an exclusive right of construction. Each nation has " an equal right to expound the meaning of their com- " mon rules, and reason and usage have established in " such cases, a convenient and well-understood train of " proceeding. It is the right and duty of the foreign " missionary to urge his own constructions ; to sup- " port them with reasons, which may convince, and " in terms of decency and respect, which may recon- " cile the government of the country to a concurrence, " It is the duty of that government tp listen to his rea- " sonings with attention and candor, and to yield to " thean, when just. But if it shall still appear to them " that reason and right are on their side, it follows " of necessity that exercising tbe sovereign powers of " the country, they have a right to proceed on their " own constructions and conclusions, as to whatever is " to be done within their limits. The minister then " refers the case to his own government; asks new " instructions, and in the mean time acquiesces in the " authority of the country. His government examines " his constructions ; abandons them, if wrong ; in- " sists on them, if right ; and the case then becomes a " matter of ngociation between the two nations." This quotation is from the letter, which conveyed to the French Republic the 'sensations .of our government towards Mr. Genet. To its terms we shall be always willing. to conform, and if, contrary to our present impressions, the treaty with France, which we deem	en
converted_docs	818606	March 17, 2008 Ms. Joy Schnackenbeck USEPA Headquarters\ Ariel Rios Building\ 1200 Pennsylvania Avenue, N. W. *- Mail Code: *7508P\ Washington, DC 20460 Concerning: Active Ingredient: Quinclorac Case number: 7222 > Docket number: EPA-HQ-OPP-2007-1135** Dear Ms. Schnackenbeck: In its Registration Review summary document, EPA has noted that quinclorac does not have a complete environmental risk assessment that is in compliance with EPA's Overview Document for Endangered and Threatened Species Effects Determinations. EPA has also noted that when such a risk assessment is available, it will either consider risk to endangered and threatened (listed) species or move to a more refined risk assessment of listed species and use relationships. In June of 2004, March of 2005, and October 19, 2007, FESTF submitted its Information Management System (FESTF Information Management System (IMS): Documentation of Structure and Function of IMS 1.1, MRID \# 46325901*) and documentation of the beta-tested IMS, NatureServe data ([FESTF Task Force Information Management System (IMS): Beta-Tested IMS 2.0 and Access to NatureServe Data - Final Report](https://www.festf.org/File_Delivery.asp?Name=030105_FESTF-IMS%25202%2520Report%2520Final.pdf), MRID #46486301) and NatureServe Data Evaluation and Review* (MRID #47260101). These data fulfill the data requirements spelled out in Pesticide Registration Notice 2000-2 and provide the best available data necessary for the proximity analysis of quinclorac use and listed species locations. The leading registrant, as identified on the fact sheet included in the Registration Review Summary, is Albaugh, Inc. an FESTF member, is entitled to rely on FESTF data (See Attachment A for our current list of members and companies who have reached an agreement allowing reliance on FESTF data submissions). For those registrants who are not currently eligible to rely on FESTF data, FESTF is making every effort to inform them of the role of FESTF data in listed species assessments, while also affording them various options for reliance on that data, since these data are necessary not only to fulfill EPA data requirements, but also to develop the assessments required to support the Registration Review process. It is imperative for EPA to assure that any company relying upon FESTF data, but not listed in Attachment A, has filed with FESTF a proper offer to pay for data compensation. It is imperative for EPA to assure that any company relying upon FESTF data, but not listed in Attachment A, has filed with FESTF a proper offer to pay for data compensation. Sincerely, ![](media/image1.jpeg){width="3.0in" height="0.6763888888888889in"} (for) William Mahlburg, Chair, Administrative Committee cc Greg Mulhall, Albaugh, Inc. Jim Tompkins, EPA Registration Division Hope Johnson, EPA Registration Division ATTACHMENT A FESTF Member Companies +-------------------------------------+---+------------------------------+ \| Albaugh, Inc.\ \| \| ISK Biosciences \| \| 121 NE 18th\ \| \| Corporation\ \| \| Ankeny, IA 50021 \| \| 7470 Auburn Road, Suite A\ \| \| \| \| Concord, OH 44077 \| +-------------------------------------+---+------------------------------+ \| BASF Corporation - Agricultural \| \| Monsanto Company\ \| \| Products\ \| \| 800 N. Lindbergh Blvd.\ \| \| PO Box 13528\ \| \| St. Louis, MO 63167 \| \| Research Triangle Park, NC \| \| \| \| 27709-3528 \| \| \| +-------------------------------------+---+------------------------------+ \| Bayer CropScience\ \| \| Nichino America, Inc.\ \| \| 2 T.W. Alexander Drive\ \| \| 4550 New Linden Hill Road, \| \| Research Triangle Park, NC 27709 \| \| Suite 501\ \| \| \| \| Wilmington, DE 19808 \| +-------------------------------------+---+------------------------------+ \| Cheminova, Inc.\ \| \| Nissan Chemical \| \| 1620 I Street NW, Suite 615\ \| \| Industries, Ltd.\ \| \| Washington, DC 20006 \| \| 1100 Arlington Heights Road, \| \| \| \| Suite 520\ \| \| \| \| Itasca, IL 60143 \| +-------------------------------------+---+------------------------------+ \| Chemtura Corporation\ \| \| Nufarm Americas, Inc.\ \| \| 199 Benson Road \| \| 1333 Burr Ridge Parkway, \| \| \| \| Suite 125A\ \| \| Middlebury, CT 06749-0001 \| \| Burr Ridge, IL 60527 \| +-------------------------------------+---+------------------------------+ \| Dow AgroSciences, LLC\ \| \| Syngenta Crop Protection, \| \| 9330 L-S-DATAsville Rd.\ \| \| Inc.\ \| \| Indianapolis, IN 46268-1054 \| \| 410 Swing Road\ \| \| \| \| Greensboro, NC 27409 \| +-------------------------------------+---+------------------------------+ \| DuPont Crop Protection\ \| \| Valent USA Corporation\ \| \| Stine-Haskell Research Center\ \| \| 2033 K St. NW, Suite 850\ \| \| PO Box 30\ \| \| Washington, DC 20005 \| \| Newark, DE 19714-0030 \| \| \| +-------------------------------------+---+------------------------------+ \| FMC Corporation, Agricultural \| \| \| \| Products Group\ \| \| \| \| Route 1 & Plainsboro Rd.\ \| \| \| \| Princeton, NJ 08543 \| \| \| +-------------------------------------+---+------------------------------+ Non-Members with Data Reliance Agreements ------------------------------------- --- ------------------------------ Gowan Company, L.L.C.\ PBI Gordon Corporation\ 370 S. Main Street\ 1217 W. 12th Street\ Yuma, AZ 85364 Kansas City, MO 64101 Nisso America, Inc.\ 45 Broadway, Suite 2120\ New York, NY 10006 ------------------------------------- --- ------------------------------	en
converted_docs	776894	Emergency Management Higher Education Project Conference June 8-10, 2004 # Ted Phillips, Division Chair Public Safety Institute Tarrant County College 4801 Marine Creek Parkway Fort Worth, Texas 76179 817.515.7770 (office) 817.515.7425 (fax) [ted.phillips@tccd.edu](mailto:ted.phillips@tccd.edu) In my present position, I am the administrator responsible for all public safety related programs, credit and non-credit. These include Fire Technology, Criminal Justice, and Environmental Technology. Specific programs include the Criminal Justice Training Center, which offers a basic police academy, and in-service training and a Fire Service Training Center, which offers similar training programs. The FSTC is the newest addition to the Northwest Campus. Situated on 23 acres, the center includes a 48,000 sq. ft. administrative/classroom building; and a drill field which is composed of 16 gas-fired, live burn props in 5 buildings in an urban village layout. A railroad derailment scenario with spill fire, trench and confined space rescue and swift water rescue props are integrated into the field. The facilities offer a perfect setting for emergency management exercises. Through collaboration with the University of North Texas Emergency Management program, our goal is to design and implement our degree in emergency Management. My background is in law enforcement, and I have been with the college for 19 years. I am on the "Prepare America" Task Force, which is a national homeland security initiative, which focuses the nationwide community college network. During this conference, I with other task force members will present a session on the initiative	en
converted_docs	060282	[Environmental Support]{.underline} A. [Hazardous Waste Function]{.underline} \(1\) [Staffing]{.underline} The following classifications and numbers reflect current staffing. ---------------------------------------------------------------- ------ Branch Manager 1 Field Supervisor 1 Hazardous Waste Disposal Specialist 1 Hazardous Waste Technician 2 Computer Operator 2 Truck Driver, Light (Half Time) 2 Typist 1 ---------------------------------------------------------------- ------ 2. [Annual Workload for 1996]{.underline} MSFC is a less than 90 day storage, large quantity generator of hazardous waste. ------------------------------------------- ------------ ----------- ---------- Work Element Quantity Unit of Freq for CY96 Measure [Containers Issued]{.underline} 5 gal -DOT Type 1H1 50 each year 15 gal-DOT Type 1H1 10 each year 30 gal-DOT Type 1H1 10 each year 55 gal-DOT Type 1H1 120 each year 30 gal-DOT Type 1H2 110 each year 5 gal -DOT Type 1A1 175 each year 15 gal-DOT Type 1A1 50 each year 55 gal-DOT Type 1A1 560 each year 5 gal -DOT Type 1A2 150 each year 55 gal-DOT Type 1A2 600 each year 1 Liter HDPE Used for Labpacks 40 each year Container Turned in for Pickup 1732 each year Empty Container Turned in for Pickup 700 each year Inspection of HWSF 52 each year Number of manifest tracked 115 each year Containers inspected at Satellite 2570 each year Accumulation Areas TSDR Facilities audited 0 each year Labpacks Turned in for Pickup 160 each year Containers consolidated 950 each year Samples Collected (Containers & Tanks) 190 each year Hazardous Waste Managed in Bulk Storage 12500 gallons year Tanks Controlled Waste Managed in Bulk Storage 9000 gallons year Tanks Used Oil Managed in Bulk Storage Tanks 15000 gallons year Hazardous and Controlled Waste Generator 1 each year Training Preconstruction Conferences Attended 17 each year (Hazardous Waste and Hazardous Material) Technical Assistance to Generating 30 each month Activities Pollution Prevention options 50 each year Chemical Inventory Training 1 each year Hazardous Material Storage Area Inspections 2500 each year (new work - estimated) Technical Assistance to User (Haz material) 100 each year ------------------------------------------- ------------ ----------- ---------- C. Waste Transported and Disposed: --------------- --------------------------- ---------------- --------- --------- PROFILE#: WASTE DESCRIPTION WASTE CODES QTY QTY DSPD FOR DSPD FOR 1996 1995 (lbs) (lbs) 0057B Waste 1,1,1 F001, F002 1750 2647 Trichloroethane, spent solvent, degreaser, toxic 0239 Waste Perchloroethylene, F001 1700 2200 Degreasing Solvent Toxic 0247 Waste Trichloroethylene, F001, F002 1930 2660 Spent Degreaser, Solvent, Toxic 0090 Waste Acid Solutions, Lab D002, D004, 3250 2141 Waste Corrosive, D006, D007, Nitric/Sulfuric Acid D008, D010 0266 Waste Acids, Spent Cleaning D002, D007 5725 8000 Solutions, Corrosive, Nitric, Chromic 0423 Waste Acid Solutions, D002, D004, 2200 0 Electroplating, Corrosive, D006, D007, D008 Sulfuric, Nitric 0102 Waste Cleaning Solution, D002, D006 650 1306 Sodium Hydroxide, Corrosive 0469 Waste Alkaline Solutions, D006, D007, 500 0 Electroplating, Corrosive, D008, D011 Sodium Hydroxide 0153 Waste Gasoline, Vehicle D001 925 1100 Fuel, Flammable 0174 Waste Karl Kischer Reagent, D001, D002 100 50 Lab Waste Flammable Liquid Contains Methanol 0234A Waste Paint & General D001, D007, 20500 14500 Maintenance, Flammable D008, D035, Flammable Solvents/ F002, F003, F005 0419 Waste Petroleum Distillate D001, D039, D018 9800 7650 Washing/Flammable/Mineral Spirits s/Parts 0471 Waste Acids/Alcohol D001, D002 250 180 Solution, Metallurgical Etching, Corrosive, Nitric Acid 0237 Waste Paint Stripper, D002 950 500 Surface Preparations, Corrosive, Toxic 0118 Waste Developer Solution, D006, D007, D011 4400 2100 Film Processing, Toxic Metals (Silver, Chromium) 0265 Waste Stop Bath D002, D006, D011 8300 8650 0113 Waste Component B Urethane D008 5100 3000 Spray-On-Foam Insulation, contains Lead 0409 Waste Solvent-Based Spray F002 1300 1600 Insulation, R&D, Toxic, Methylene Chloride 0422 Waste Paint D005, D006, 71000 43200 Related-Material Debris D007, D008, Various Processes, Toxic D035, D043, F001 0243B Waste Abrasives, Surface D006, D008 1200 600 Preparations, Toxic, Contains Cadmium & lead 0081 Aerosol Cans/Pest N/A 110 0 Control/Non- Flammable Gas/Ant, Roach, Wasp, Hornet 0014A Medical Waste 2830 2984 0018 Used Antifreeze 4525 5996 0027A Dye Penetrant Solution 0 2266 0041 Used Light Ballasts (PCB's) 8825 13384 0081 Non Flammable Aerosols 107 210 (Pesticides) 0086 Ammoniated Cirtic Cleaning 119320 128800 Solution 0105 Used Urethane Foam 4850 4677 (Isocyanate) Used Nickel Plating 5900 2002 Solution 0213 Used Oil Filters 2800 1628 0215 Used Refrigerant Oil 800 1746 0046 Used Detergent Cleaners 4130 653 0438 Used Photo-Processing 18500 23609 Solution 0136 Spent Lead-Acid Batteries 45200 29300 0048A Used Oil 43500 83340 Non-Regulated Adhesives 600 4199 Misc Chemicals (labpacked) 1150 596 0055 Used Abrasives 64 tons 46.6 tons --------------- --------------------------- ---------------- --------- --------- HWSF Description: ----------------- ----------------- ----------------- ----------------- LOCATION BAYS DESCRIPTION VOLUME/AREA Bldg 4635-1 Tank Storage Bays curbed and 3000 gallon Area, Bay 1 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 1500 gallon Area, Bay 2 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 1500 gallon Area, Bay 3 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 4000 gallon high Area, Bay 4 have chemical density resistant sealer. polyethylene Tank Storage Bays curbed and 4000 gall high Area, Bay 5 have chemical density resistant sealer. polyethylene on Tank Storage Bays curbed and 10000 gallon and Area, Bay 6 have chemical 7000 gallon steel resistant sealer. tanks Bldg 4635-2 Flammable Storage Bay curbed and 700 SF Bldg has chemical resistant sealer. Bldg 4635-3 Container Storage Bays available 4200 SF Facility Bay 1, for segregated 2, 3, 4, 5, and 6 container storage. Bays curbed and have chemical resistant sealer. Building 4635-4 Container Storage Bays available 2100 SF Facility Bay 1, for segregated 2, and 3 container storage. Bays curbed and have chemical resistant sealer. Container Storage Bay sloped for 840 SF Facility Bay 4 - drainage to Roll off box center of bay. storage ----------------- ----------------- ----------------- ----------------- ----------------------------------------------------------- ----------- ----------------------------------------------------------- ----------- [Industrial Wastewater Treatment and National Pollutant Discharge Elimination System (NPDES) Support]{.underline} A. [Staffing]{.underline} The following classification and numbers reflect current staffing. 1 Pollution Control Technician Senior 1 Pollution Control Technician Lead Senior B. [Workload/Description of Industrial Wastewater Treatment Facility (IWTF)]{.underline} [General]{.underline}. The Industrial Wastewater Treatment Facility (Building 4761) treats 50,000 gallons per day of metal finishing waste containing cyanide, chrome and heavy metals from Buildings 4760 and 4705, and 5000 gallons per day of paint booth and water blast wastewater. The new IWTF includes two 77,000 gallon effluent tanks, two 77,000 gallon influent tanks, two cyanide reaction tanks, lime silo and slurry feed system, sulfuric acid storage tank, chloride gas feed system, SO~2~ gas feed system, chemical treatment tank, diatomaceous earth slurry tank, paint waste holding tank, metal finishing wastewater flocculator, clarifier, sludge holding tanks, filter press, dryer, and miscellaneous pumps, mixers, etc. [TREATMENT OF METAL FINISHING WASTEWATER]{.underline} General industrial waste waters, general metal finishing waste waters, and waste waters containing hexavalent chromium, from Building 4760 and Building 4705, are transferred by underground piping to the influent pumping station on the west side of the IWTF. Wastewater generated locally at the IWTF from the cyanide treatment process, filter press, return flow from the sand filter, and rainwater collected in the containment areas are also combined in the pumping station. The pumping station consists of a concrete sump with two submersible pumps, which convey wastewater to two influent holding tanks located on the northwest side of the building. Level switches located in the well automatically activate the pumps when a set level is reached, and the pumps operate until a low level switch is activated, which shuts off the pumps. The treatment of metal finishing wastewater occurs in an elevated, four-compartment, flow-through tank. In the first compartment, the pH of the wastewater is lowered to a value of 2 to 3 standard units by the addition of sulfuric acid. A sulfur dioxide solution is injected into the second compartment, which reduces the hexavalent chromium present in the wastewater to trivalent chromium. The sulfur dioxide solution addition is controlled to a value of +300mv by the oxidation-reduction potential (ORP) in the compartment, in order to achieve complete reaction. In the third and fourth compartments, the pH is raised to approximately 9.5 standard units in two increments, by the addition of lime slurry to form metal hydroxide precipitates. After chemical treatment, the treated wastewater flows by gravity to the clarifier, where polymer flocculant is added. The clarifier separates the metal hydroxide precipitates from the treated wastewater. The insoluble metal hydroxides precipitate settles to the bottom of the clarifier, where it is pumped to the sludge holding tank and subsequently to the filter press for removal of excess water. The treated wastewater flows up through the clarifier and onto the sand filter. The sand filter is used as a final step in the separation process, as a \"polisher\", to remove any remaining suspended metal hydroxide particles from the treated wastewater which were not removed by the clarifier. The wastewater flows into the bottom of the filter, up through the sand bed and out through the top, and then to one of the effluent holding tanks located on the northeast side of the building. The sand filter has a continuous backwash system that cleans the sand bed of any metal hydroxide precipitate, and returns the precipitate back to the influent holding tanks for re-treatment. The final pH adjustment of the treated wastewater from the northeast exterior holding tank(s) occurs in a two-compartment, flow-through tank located on the ground elevation in the main floor area. In the first compartment, the pH is lowered from 9.5 to a neutral range of 6.5 to 8.0, by the addition of sulfuric acid. In the event that the pH is lowered below 6.5, lime slurry is automatically added in the second compartment to adjust the pH to the neutral range. After pH adjustment, the treated wastewater flows by gravity to the effluent monitor tank. Flow composite samples are withdrawn by the effluent sampler at prescribed intervals determined by the Environmental Engineering and Management Office (AE01). The composite samples are provided to the MSFC Analytical Contractor for analysis. Daily discharge amounts and pH readings are recorded in the operational log book, maintained in the Control Room. [Sludge Dewatering and Drying]{.underline} Suspended metal hydroxide precipitates and conditioned paint waste particles are collected in the Sludge Holding Tank prior to dewatering and drying. Sludge dewatering is accomplished using a plate filter press. The sludge is pumped through the filter press, with the suspended solids being captured on the filter media, and the filter water is recycled back to the influent pumping station for transfer to the influent holding tanks. After filtering, the dewatered sludge is processed through a dryer system and containerized for off site disposal. [CYANIDE WASTEWATER TREATMENT]{.underline} Segregated cyanide wastewater from Building 4760 is pumped via a force main to cyanide reaction tanks at Building 4761. When the reaction tanks indicate a high level, a sensor will automatically close the valve in the force main, preventing additional cyanide wastewater from being pumped. A hardwired alarm signal will be activated in Building 4760 to alert the operators in the building to stop the discharge of the cyanide wastewater. When the high tank level set point is reached, the cyanide destruction sequence will begin. If the pH of the wastewater is less than 9.0, lime slurry is automatically added until the pH reaches 9.0. Then chlorine solution is added to the reaction tank until the oxidation-reduction-potential (ORP) indicator reaches +400mv. When the ORP is reached, the chlorine solution valve automatically closes. The contents of the tank are reacted for 30 minutes to produce cyanates (CNO). After the reaction time, additional chlorine solution is added to the tank automatically, until an ORP of +600mv is achieved. The contents of the tank are reacted for an additional 60 minutes. At this point, the cyanide destruction process is complete. A sample of the solution is taken by the Industrial Waste Treatment Operator and provided to the MSFC Analytical Contractor for analysis. The results of the test will be logged in the cyanide treatment logbook located in the Control Room. If the cyanide concentration is above 0.65 ppm, the treatment process will be repeated. Once analytical results indicate the cyanide destruction reaction is complete, the treated wastewater is transferred by gravity to the west pumping station through the process drain, and then pumped to the MFW Influent Tanks. [PAINT SPRAY BOOTH WASTEWATER TREATMENT]{.underline} Paint booth wastewater from Building 4760 is pumped directly to the paint wastewater holding tank on the south side exterior of Building 4761. A high level sensor in the tank activates an alarm at Building 4760, to alert the operators to stop the paint waste sump pumps. Paint wastewater is collected in the tank until the level reaches 11 feet, as indicated on the PLC. Diatomaceous Earth (DE) slurry is added, mixed, and the paint wastewater is transferred to the sludge holding tank in Room 101 for dewatering. SID Permit IU084500027 Conditions that are monitored for Permit compliance for the Industrial Wastewater Treatment Facility (Discharge at the IWTF). SID Permit is in Reading Room. +--------+-----------------+--------+---------+-----------+---------+ \| SID \| EFFLUENT \| * \| \| FR \| * \| \| Pe \| C \| DAILY \| UNITS* \| EQUENCY** \| SAMPLE \| \| rmit* \| HARACTERISTIC \| MAX \| \| \| TYPE \| \| \| \| IMUM \| \| \| \| \| (DSN \| \| \| \| \| \| \| 001) \| \| \| \| \| \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Flow \| M \| MGD \| 1/ \| Total \| \| \| \| onitor \| \| discharge \| \| +--------+-----------------+--------+---------+-----------+---------+ \| \| pH \| 6-9 \| s.u. \| 1/ \| grab \| \| \| \| \| \| discharge \| \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Cadmium, Total \| 0.69 \| mg/l \| 2/week \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Chromium, Total \| 2.77 \| mg/l \| 2/week \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Chromium, \| m \| mg/l \| 2/week \| grab \| \| \| Hexavalent \| onitor \| \| \| \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Copper, Total \| 3.38 \| mg/l \| 2/week \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Lead, Total \| 0.69 \| mg/l \| 1/month \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Nickel, Total \| 3.98 \| mg/l \| 2/week \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Silver, Total \| 0.43 \| mg/l \| 1/6 \| batch \| \| \| \| \| \| months \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Zinc, Total \| 2.61 \| mg/l \| 2/week \| batch \| \| \| \| \| \| \| co \| \| \| \| \| \| \| mposite \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Cyanide, Total \| 1.20 \| mg/l \| 2/week \| grab \| +--------+-----------------+--------+---------+-----------+---------+ \| \| Total Toxic \| 2.13 \| mg/l \| 1/6 \| grab \| \| \| Organics \| \| \| months \| \| +--------+-----------------+--------+---------+-----------+---------+ \| \| \| \| \| \| \| +--------+-----------------+--------+---------+-----------+---------+ NPDES Permit AL0000421 Conditions that are monitored for Permit compliance at DSN001 (Near Indian Creek and Rideout Road). NPDES Permit is in Reading Room. ------------ ------------------ ----------- ----------- --------------- ------------ NPDES EFFLUENT DAILY UNITS FREQUENCY SAMPLE Permit CHARACTERISTIC MAXIMUM TYPE (DSN001) Flow Monitor MGD Daily Total pH 6-9 s.u. Daily Grab Oil & Grease 60.0 mg/l 2/mo Grab Total Suspended 60.0 mg/l 2/mo 24-hr Solids Composite ------------ ------------------ ----------- ----------- --------------- ------------ C. [Workload SID/NPDES Support]{.underline} Samples collected for NPDES Permit, Discharge Monitoring Reports, and flows at discharge points by month. (Analyses of samples is by Lab Service Contractor) +--------+----------------------------------------+--------+---------+ \| N \| pH Readings \| 260 \| A \| \| PDES \| \| \| nnually \| \| \| \| \| \| \| DS \| \| \| \| \| N001** \| \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Flow measurements \| 260 \| A \| \| \| \| \| nnually \| +--------+----------------------------------------+--------+---------+ \| \| Samples collected \| 260 \| A \| \| \| \| \| nnually \| +--------+----------------------------------------+--------+---------+ \| \| \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Discharged wastewater for CY 96 at \| \| \| \| \| DSN001 (these wastewaters are not \| \| \| \| \| treated only monitored). \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Jan 96 \| 11.6 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Feb 96 \| 10.0 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| March 96 \| 8.3 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| April 96 \| 5.3 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| May 96 \| 5.5 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| June 96 \| 5.8 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| July 96 \| 8.8 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Aug 96 \| 14.9 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Sept 96 \| 15.4 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Oct 96 \| 7.8 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Nov 96 \| 9.1 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| Dec 96 \| 12.4 \| M \| \| \| \| \| G/month \| +--------+----------------------------------------+--------+---------+ \| \| \| \| \| +--------+----------------------------------------+--------+---------+ \| * \| Samples Collected \| 1000 \| A \| \| SID* \| \| \| nnually \| \| \| \| \| \| \| DS \| \| \| \| \| N001 \| \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Discharge Report for DSN001 and DSN003 \| 1 \| Month \| \| \| to AE01 \| \| \| +--------+----------------------------------------+--------+---------+ \| \| \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Discharged wastewater for CY 96 at \| \| \| \| \| DSN003A (former wastewater treatment \| \| \| \| \| facility at Building 4760) replaced by \| \| \| \| \| SID DSN001. Building 4761 is the new \| \| \| \| \| wastewater treatment facility. \| \| \| +--------+----------------------------------------+--------+---------+ \| \| Jan 96 \| 70000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Feb 96 \| 40000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| March 96 \| 50000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| April 96 \| 80000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| May 96 \| 110000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| June 96 \| 120000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| July 96 \| 100000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Aug 96 \| 100000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Sept 96 \| 120000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Oct 96 \| 140000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Nov 96 \| 140000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ \| \| Dec 96 \| 120000 \| ga \| \| \| \| \| l/month \| +--------+----------------------------------------+--------+---------+ D. Other Related Work Preparing and maintaining standard operating procedures for operation of the IWTF (Building 4761) and Groundwater Treatment System (West Test Area)\[Currently being constructed\]. -------------- -------------- ------------ ---------------------- ------------- Work Location Volume Samples Collected Discharge Element Limit Groundwater West Test Area 2 million one per month for VOC 5 ug/l Treatment gal/day (estimated) System -------------- -------------- ------------ ---------------------- ------------- The following is equipment used to operate and control the Groundwater Treatment System in the West Test Area. ----------------- -------------- ----------------------- -------------- -------------- Description Location Capacity Quantity Unit of Measure Submersible Pump Bldg 4696 Lift 240 gpm \@28' TDH/5 HP 2 EA Station Vertical Turbine Bldg 4670 Lift 1350 gpm \@50' TDH/30 2 EA Pump Station HP Horizontal Split Packed Tower 2100 gpm \@60' TDH/50 1 EA Case Pump Aeration HP (PTA)System Facility Belt-Driven PTA System 10,000 scfm \@2' 1 EA Air-Foil Fan Facility w.c./7.5 HP Equalization Tank PTA System 10,000 gallon 1 EA Facility Fiberglass PTA System 10' Diameter, 20' 1 EA Reinforced Facility Packing, 97.7% Removal Plastic Aeration Vessel Precast Concrete PTA System 8' X 10' 1 EA Building Facility Motor Control PTA System 480-volt/60HZ/3-phase 1 EA Center Facility Lift Station PTA System 480-volt/60HZ/3-phase 1 EA Field Panel Facility ----------------- -------------- ----------------------- -------------- -------------- [Hazardous Material Management]{.underline} A. [Staffing]{.underline} The Hazardous Waste Function staff also performs this function. B. [Workload]{.underline} The workload will include inputting chemical inventory data sheets, inspecting to ensure accuracy of data, and provide reporting as required by MSFC and other regulations. The current MSFC Chemical Inventory Database has approximately 11,000 entries and 13,000 material safety data sheets inputted. The chemical inventory covers 202 buildings at MSFC. Work efforts include corresponding with approximately 150 points of contacts (NASA and other contractors), preparing Tier II report, inspecting/correcting information, inspecting storage areas, attending preconstruction conferences, provide point of contact listing, supplying toxic release reporting information, preparing chemical inventory master list, and preparing training materials. Master list of Chemicals is available in Reading Room. [Spill Response Function]{.underline} A. [Staffing]{.underline} Staff of specially-trained personnel drawn from their regular duties as required when spills occur. B. [Spill Response Supplies]{.underline} Typical Spill Response Supplies and Materials kept on hand is included as an Appendix to the MSFC Spill, Prevention, Control and Countermeasure/RCRA Contingency Plan C. [Workload for CY 96]{.underline} ---------- -------------------- -------------- ----------------------------- Date Spill type Quantity Efforts 1/9/96 Bldg 4612, Room 1308 5 gal (interior) 5 gal hazardous Hazardous Waste waste container swollen due Container to pressure build up. RSA Fire Department on scene and evacuated Bldg. and then relieved pressure from container after Spill Response Contractor sealed room with plastic and tape. Container place in overpack container and turned-in to HWSF for disposal 1/9/96 Bldg 4483, Oil/Water 200 gal (exterior) water leak inside mixture building drained to used oil collect pump and transferred to collection tank that overflowed. Containment pumped into containers and oil solidified with absorbent with wastes with materials turned-in to HWSF for disposal. 2/6/96 Bldg 4653 Degreasing 8 gal (interior/exterior) isolated chemical water flow from the building, absorbent pads and booms used to contain spill, hay bails placed in the ditch, wastes drummed and turned into HWSF for disposal 2/6/96 Bldg 4697 Diesel 15 gal (exterior) Broken supply line Fuel from fuel tank into containment- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/6/96 Bldg 4663/B-Wing 2 gal (exterior) absorbent pads and Diesel Fuel boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/12/96 Bldg 4663/B-Wing less than 10 (exterior) absorbent pads and Diesel Fuel gal boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/14/96 Bldg 4203 Gasoline 3 gal (exterior) vehicle gas leak - absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/21/96 Bldg 4313 Gasoline less than 20 (exterior) gasoline storage gal tank leaked into containment to dispensing unit and overflowed onto ground after rainfall event - absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 3/6/96 Bldg 4699 Hydraulic 2 gal (exterior) leaked into Fluid secondary containment- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 3/13/96 Bldg 4699 Hydraulic 75-100 gal (exterior) Supply line burst Fluid into concrete trench - area flushed with water and Army vacuum truck vacuumed up water/oil mixture and disposed at Army oil/water separator, drummed contaminated soil and gravel from concrete culvert and turned into HWSF for disposal 4/1/96 Test Stand 116 30 gal (exterior) ruptured hydraulic hydraulic fluid line- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 4/24/96 Bldg 4557 Diesel 4 gal (exterior)5 gallon container Fuel leak- container over packed, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 4/26/96 Bldg 4707 Cutting 3 gal (exterior) Southwest parking Fluid area-absorbent pads and boom were used to collect and contain spilled material with waste turned into HSWF for disposal 5/3/96 Bldg 4618 Cutting 1 gal (exterior) North parking Fluid area-absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 5/14/96 Bldg 4699 Hydraulic 20 gal (exterior) User contained and Fluid solidified with absorbent material; contractor was required to pressure wash affected test stand area with absorbent pads below test stand to collect hydraulic fluid and area wiped down with rags to remove remaining fluid with waste turned into HWSF for disposal 7/2/96 Bldg 4674 5 gal (exterior) East parking area- Transformer Oil Army vacuum truck removed oil from transformer, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 7/8/96 Bldg 4487/Room C148 1 pound (interior) leaked from drain Liquid Mercury trap- recovered the material with a mercury vacuum and waste turned into HWSF for disposal 7/12/96 Bldg 4312 Gasoline 15 gal (exterior)liquid pumped from secondary containment, repairs to leaking seal on gasoline dispenser unit with waste turned into HWSF for disposal 7/26/96 Bldg 4612 Hydraulic 3 gal (exterior)forklift rupture- Fluid user washed hydraulic fluid with water off of loading dock, contain and absorbed material with oil dry, contaminated material cleaned up with waste turned into HWSF for disposal 7/26/96 Bldg 4708 Hydraulic ½ gallon (exterior)mobile crane Fluid hydraulic line rupture- absorbed spill material with oil dry and cleaned up area with waste turned into HWSF for disposal 8/5/96 Bldg 4734 Used Oil less than 20 (exterior)used oil collection gal tank overflowed (overflow pipe outside of containment)- assisted user in transferring tank contents to a portable tank, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 8/13/96 Bldg 4705 Gasoline 1 gal (exterior) Gas can in private vehicle leaked- spill solidified with oil absorbent and gas can plugged, area cleaned with waste turned into HWSF for disposal 8/15/96 Bldg 4760 220 gal (interior)Vapor Degreaser Perchloroethylene leak with PCE picked up by sump and pumped into wastewater treatment tanks- Hazardous Waste Contractor ordered TSDF vacuum truck and 20,000 gallons of water collected and shipped off site by Hazardous Waste Contractor 8/26/96 Near Bldg 4760 Oil 2 gal (exterior) off site tanker truck vacuum pump leak- spilled material was solidified with oil absorbent and the area cleaned with waste turned into HWSF for disposal 9/10/96 Bldg 4727 Antifreeze 1 gal (exterior) antifreeze container apparently fell off a vehicle and ruptured. The materials was absorbed and the material turned into the HWSF for disposal 9/10/96 Bldg 4640 Oily Sheen unknown (exterior) paving project at near DSN 018 Bldg 4640 after rainfall event caused oily sheen on water runoff. A boom was placed on drainage ditch to prevent further oil from escaping. 9/17/96 Bldg 4670 Oily sheen unknown (exterior) oily sheen on pond near DSN 019 caused by heavy rainfall over parking lot. Booms were placed in drainage ditch. 9/16/96 Bldg 4744 Anderol approx. 5000 (exterior) sump area Oil gal overflowed into containment. Hazardous Waste Contractor provided on tanker truck which removed the material. 9/26/96 Bldg 4557 Military 5 objects (exterior) excavation work Ordnance uncovered military ordnance in the East Test Area. Army personnel notified and removed objects. 10/7/96 Bldg 4744 Synthetic 7000 gal (exterior) pump malfunctioned Oil causing sump to overflow into secondary containment- Hazardous Waste Contractor provided two tanker trucks which removed the material from containment and storage tank, containment was pressure washed with fluids pumped into sump, and sump pump repaired 10/10/96 Bldg 4702/Room 103B 2 gal (interior) ruptured supply Oil line- absorbent pads and booms were used to collect and contain spilled material with waste turned into HWSF for disposal 10/24/96 Saturn Road 9 battery (exterior) Batteries Battery/Battery Acid containing 30% sulfuric acid fell off flatbed truck onto road- spilled material was neutralized and cleaned up absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 10/24/96 Bldg 4612 Antifreeze 1 gallon (exterior)automobile leak- and transmission bucket placed under vehicle fluid to collect addition leaks, absorbent material solidified spill material and cleaned up with waste turned into HWSF for disposal 10/30/96 Bldg 4656 Hydraulic less than 1000 (interior/exterior) heat Fluid and Water gal exchanger leak that went into trenches that leads to a 300 gallon AST- heat exchanger repaired and Army vacuum truck removed liquid material and treated at Army oil/water separator 11/22/96 Bldg 4612,Room 1106 ½ pound (interior) Spill material was Mercury cleaned up with a mercury vacuum. The collected material was turned-in to the HWSF for disposal 12/11/96 Test Stand 116 50 gal (exterior) hydraulic line Hydraulic Fluid rupture- RSA Fire Department washed down affected area with ditches having floating booms and absorbent pads to contain hydraulic fluid with waste turned into HWSF for disposal, additional booms were placed to capture additional oils from rain events 12/15/96 Bldg 4207 Diesel 900 gal (exterior)fuel line outside Fuel containment ruptured- Containment structure built in ditch with booms and absorbent pads, Hazardous Waste Contractor rented oil/water separator to separate water pumped from subdrain sump collection system from building, clean up efforts stretched one to two months off and on ---------- -------------------- -------------- -----------------------------	en
converted_docs	933295	GRADUATE SCHOOL OF PUBLIC AND INTERNATIONAL AFFAIRS UNIVERSITY OF PITTSBURGH PIA 2096-53 Dr. Louise Comfort Spring Term 2002 Thursday, 9:00-11:59 pm Office Hours: 3R51 Posvar Hall W 2:00-3:00; H 1200-1:00 Tel.: 648-7606 and by appointment E-mail: lkc@pitt.edu THE IMPACT OF INFORMATION TECHNOLOGY UPON DISASTER MANAGEMENT Information technology is transforming the organizations within which we work and live. This process is nowhere more evident than in the difficult, challenging, interesting, sobering field of disaster management. Long a field dominated by command-and-control concepts and hierarchical organizational structures, disaster management is now more clearly conceived as a complex, dynamic field that is multi-disciplinary, multi-organizational, and multi-jurisdictional. In such an environment, the role of information is critical in enabling the participants to assess rapidly changing conditions and to develop constructive strategies of action to meet urgent, as well as evolving, threats. Yet, the policy questions persist: what kinds of information are needed by whom at what time in order to assess threat, reduce risk or mobilize action to avert danger to a community? Further, if we recognize the kinds of information that decision makers need in disaster environments, what means do we use to gather that information, organize and interpret it, and transmit it to the relevant personnel and clientele for action? What form of interactive communication do responsible managers need in order to coordinate their actions in a common strategy to b ring a threatening event under control or to recover from a destructive incident? Increasingly, experienced personnel in the field of disaster management have recognized that the most effective investment they can make to reduce risk to their communities as well as increase their capability for response is in building an information infrastructure that will facilitate collective action to manage their own risk. Such an approach, however, represents a challenge to most public, nonprofit and private managers that have responsibilities for risk reduction and response. Designing and implementing an appropriate information infrastructure requires technical skills that many do not have. To be effective, the information technology used in risk environments needs to fit the goals, missions and operational processes of the organizations involved in managing and responding to the risk. What is needed is a "sociotechnical system" in which the hardware and software is designed to support the decision processes of the organizations engaged in disaster management. This is not an easy task, as the decision requirements change with the evolving conditions of the disaster. Current policy makers in both civilian and military environments are exploring ways to enhance their capacity to identify threats and reduce risk before danger occurs. Advanced uses of information technology offer many possibilities to address complex problems that were not possible before. Yet, these same technologies, inappropriately designed or used, can also increase the chances for error, with devastating results. In this capstone seminar, we will explore some of the dilemmas that policy makers face in designing and maintaining an appropriate information infrastructure to support risk reduction and response. First, we will review the cognitive aspects of "sensemaking" in difficult, urgent environments to understand the shifts in perspective that are essential for managers to move from routine performance to disaster operations. Second, we will explore the concept of "shared risk" and the criteria for organizing collective action to reduce or respond to that risk. Third, we will review a set of current information technologies that are designed to provide decision support to managers operating in disaster environments. Fourth, we will assess the strengths and weaknesses of these technologies in terms of enabling the responsible organizations to improve communication and coordination in their performance under urgent conditions. Finally, we will develop a set of criteria that would assist public managers in designing appropriate information infrastructure to support effective decision making in disaster environments. The purpose of a capstone seminar is to provide an opportunity for students to apply the concepts and skills they have learned in their prior GSPIA courses to an actual policy problem in order to produce a set of policy recommendations that would be constructive to practicing policy makers in the field. In this capstone seminar, we have a range of organizations and jurisdictions that are involved, and a sequence of phases of threat that require different decisions by different policy makers. The challenge is that decisions made in one phase of disaster management, unrelated to other phases or uninformed in reference to actions taken by other organizations, may actually increase the risk to a community, rather than avert or reduce it. For example, keeping a current record of existing policies, strategies and actions by participating organizations and jurisdictions that have responsibilities for risk reduction and disaster operations appears fundamental to any community that is seeking to manage its own risk. Yet, this apparently simply task requires a degree of coordination, information sharing, and collective action that is rarely found among governmental agencies in a single jurisdiction, and even more rarely between jurisdictions, and almost never between public, private and nonprofit organizations in the same community. Information technology, appropriately designed and implemented, can assist communities in building a community-wide knowledge base that is essential to effective risk reduction and management. Since September 11, 2001, the responsibilities of public managers to assess and reduce risk for their communities are being radically redefined. Public safety has become a key criterion in determining allocation of resources, training of personnel, and all aspects of public management. As these responsibilities increase, the information requirements for public managers also increase, and an appropriate infrastructure for decision support becomes critical for daily operations as well as urgent threats. Our seminar will be interactive, and we will have the opportunity to use different information technologies in class to explore aspects of these technologies upon interorganizational decision making for risk reduction and response. Each student will define a research project that addresses the possible uses or misuses of information technology in the public management of risk. There is range of choices for study topics. One could focus on uses of information technology by public agencies at a given jurisdictional level: municipal, county, state, federal or international, or uses that cross such jurisdictional levels in seeking to manage risk. Or, one could address information needs at different phases of risk assessment, response or recovery from a major threat. Or, one could review the design and operation of an existing software program for risk reduction to assess its strengths and weaknesses in meeting the needs of practicing managers. Or, one could examine the fit between technical, organizational and cultural requirements that is most essential in achieving effective management of risk. Selection of a policy problem is an important part of the learning process for the seminar, and I encourage your active inquiry into this area of policy and practice. Preparation of the policy paper and its presentation in class will constitute the major requirements for the seminar. Students may collaborate on related issues in terms of gathering information and analyzing data, but each student will submit an individual paper as the product of the course. There will be a mid-term exam on the readings and a brief final essay in which you evaluate the process, methods, and data that you used in your study relation to the larger problem of building an appropriate information infrastructure for disaster management. Grades will be based upon the mid-term (30%), project report (40%), process evaluation essay (15%) and in-class presentation and participation (10%). Proficiency in writing, grammar, spelling and professional standards of documentation of sources are expected in your written work, and professional formats for presentation, using information technology, are expected in your final presentation. My office is 3E30 Posvar Hall. Office hours are Wednesdays, 2:00 - 3:00 p.m., Thursdays, 2:00 - 1:00 p.m. and by appointment. Telephone:648-7606; e-mail address: lkc@pitt.edu. The following books and reports are required for the seminar: Axelrod, Robert. 1997. The complexity of cooperation: agent-based models of competition and collaboration. Princeton, N.J. : Princeton University Press, c1997. Comfort, L.K. Shared Risk: Complex Systems in Seismic Response. Oxford, NY: Pergamon Press. (Available in class at cost: \$25.00 per copy). Comfort, L.K. ed. Draft ms. "The Impact of Information Technology upon Disaster Management." (Will be available at CopyCat.) Command and Control Research Program. 2001. Final Report, Sensemaking Symposium, 23-25 October. Washington, DC: Office of the Assistant Secretary for Defense. (Available for downloading from the class directory.) FEMA. 2001. Information Technology Architecture, Version 2.0. The Road to e-FEMA. Washington, DC: Federal Emergency Management Agency. May. (Available free from the FEMA Web page: http://www.fema.gov) United Nations. 2001. "Strengthening the coordination of emergency humanitarian assistance of the United Nations: Report of the Secretary General." Geneva, CH: Economic and Social Council, 2-27 July. (Available for downloading from the class directory.) Office for the Coordination of Humanitarian Affairs. 1999. OCHA Orientation Handbook on Complex Emergencies. New York: United Nations. [SCHEDULE OF CLASS ASSIGNMENTS]{.underline} JANUARY 1/10: I. [Introduction to the Seminar]{.underline} The Role of Information Technology in Managing Risk Discussion of course projects, requirements. > Demonstration of a Sociotechnical System: IISIS 1/17: [II.Decision Making in Disaster Environments]{.underline} A. Cognitive Limits, Recognition of Risk, and Coordinated Action Command and Control Research Program, Office of the Assistant Secretary for Defense. Final Report, Sensemaking Symposium, 23-25 October 2001. 1/24: B. Shared Risk: Theory Comfort, L.K. Shared Risk: Complex Systems in Seismic Response. Part I. Statement of sociotechnical policy problem due. 1/31: C. Shared Risk: Practice Comfort, L.K. Shared Risk: Complex Systems in Seismic Response. Parts II and III. 2/7: D. Competition or Collaboration among Agencies and Jurisdictions? > Axelrod, R. The Complexity of Cooperation: Agent-based Models of > Competition and Collaboration. Identification of source materials for analysis of sociotechnical policy problem due. 2/14: III. [Technical Support for Organizational Action]{.underline} > A. The Interdisciplinary Context of Decision Making in Disaster > Environments Comfort, L.K. ed. "The Impact of Information Technology upon Disaster Management" Draft ms. Parts I and II. 2/21: B. Comparing Technical Means of Decision Support to Meet Organizational Needs Comfort, L.K. ed. "The Impact of Information Technology upon Disaster Management" Draft ms. Parts III and IV. Statement on methods of inquiry, data collection, analysis due. Mid-term exams handed out. 2/28: Mid-term exams due. In-class demonstration of IISIS prototype for Pittsburgh Metropolitan Region. 3/7: SPRING BREAK! 3/14: IV. [Current Programs in Information Technology for Disaster Management]{.underline} A. A National Perspective FEMA. 2001. Information Technology Architecture, Version 2.0. The Road to e-FEMA Preliminary outline for project analysis due. 3/21: B. An International Perspective > United Nations. 2001. "Strengthening the coordination of emergency > humanitarian assistance of the United Nations: Report of the Secretary > General." 3/28: C. New Challenges in Disaster Management > Office for the Coordination of Humanitarian Affairs. 1999. OCHA > Orientation Handbook on Complex Emergencies > > Revised outline for project papers due. 4/4: VI. [The Role of Information Technology in Disaster Management]{.underline} > Lab session: feedback on project outlines; in-class discussion, > resolution of problems encountered; review of plans for presentation . 4/11: In-class presentation of student projects 4/18: In-class presentation of student projects. Sociotechnical project papers due. Final exams handed out. 4/25: Final essays due.	en
markdown	527908	# Presentation: 527908 ## Tunable Laser Diode and Optical Phase-Lock Loop E-TEK Dynamics, Inc., San Jose, CA - Innovation - Tunable laser diode and optical phase-locked loop for telecommunications incorporating - applied fiber optic, integrated optic and precision optical coating technologies. - Accomplishments - Developed electronically tunable sources with very narrow line width using innovative - approaches and optical phase-locked loop. - The firm’s wavelength division multiplexers (WDMs) are designed to increase the bandwidth - capacity of fiber optic networks. Other company components, including isolators, couplers - and integrated optics, are critical in enabling optical communications systems. These - products are utilized in terrestrial and submarine long-haul fiber optic networks as well as in - short-haul markets, such as metro and cable. - Commercialization - JDS Uniphase Corporation and E-TEK Dynamics, Inc.) announced on June 22, 2000 that they have reached an agreement with the United States Department of Justice ("DOJ") that will permit JDS Uniphase to complete its merger with E-TEK. The consent decree with the DOJ gives antitrust clearance to the merger, which is now subject only to E-TEK stockholder approval and the other customary closing conditions specified in the merger agreement - JDS Uniphase Corporation (NASDAQ: JDSU; TSE: JDU) and E-TEK Dynamics Inc. (NASDAQ: ETEK) announced today the signing of a definitive merger agreement valued at approximately $15 billion based on January 14, 2000 closing stock prices. - The firm’s headquarters are in San Jose, Calif., it is a leader in the design and manufacturing of high quality passive components and modules for fiber optic systems. The firms wavelength division multiplexers ("WDMs") are designed to increase the bandwidth capacity of new and existing fiber optic networks. - The firm has approximately 2,450 employees and reported revenues of $72.5 million in its second quarter ended January 1, 2000. JDS Uniphase has over 8,200 employees and reported sales of $230.1 million in its first quarter ended September 30, 1999. - The firm was named by Business Week as one of the “Hot Growth Companies of 2000”, in their May 29, 2000 issue. - Government/Science Applications - NASA and DOD communication equipment and networks. - Tracking, ranging, sensing, optical lidar and high-speed signal processing. - Debris detection and avoidance for space vehicles. - Points of Contact: - - NASA Collin Hieger (281)-483-1803 - - Company: (408) 546-4608 or email to: info@e-tek.com - 1986 SBIR Phase II; NAS9-17992 - Johnson Space Center May 31, 2002 09-026 - Title	en
all-txt-docs	438429	Dec. 18, 2008 Steve Cole Headquarters, Washington 202-657-2194 stephen.e.cole@nasa.gov Guy Webster Jet Propulsion Laboratory, Pasadena, Calif. 818-354-6278 guy.webster@jpl.nasa.gov Jennifer Huergo Johns Hopkins University Applied Physics Laboratory, Laurel, Md. 240-228-5618/443-778-5618 jennifer.huergo@jhuapl.edu RELEASE: 08-331 SCIENTISTS FIND 'MISSING' MINERAL AND CLUES TO MARS MYSTERIES SAN FRANCISCO -- Researchers using a powerful instrument aboard NASA's Mars Reconnaissance Orbiter have found a long sought-after mineral on the Martian surface and, with it, unexpected clues to the Red Planet's watery past. Surveying intact bedrock layers with the Compact Reconnaissance Imaging Spectrometer for Mars, or CRISM, scientists found carbonate minerals, indicating that Mars had neutral to alkaline water when the minerals formed at these locations more than 3.6 billion years ago. Carbonates, which on Earth include limestone and chalk, dissolve quickly in acid. Therefore, their survival until today on Mars challenges suggestions that an exclusively acidic environment later dominated the planet. Instead, it indicates that different types of watery environments existed. The greater the variety of wet environments, the greater the chances one or more of them may have supported life. "We're excited to have finally found carbonate minerals because they provide more detail about conditions during specific periods of Mars' history," said Scott Murchie, principal investigator for the instrument at the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. The findings will appear in the Dec. 19 issue of Science magazine and were announced Thursday at a briefing at the American Geophysical Union's Fall Meeting in San Francisco. Carbonate rocks are created when water and carbon dioxide interact with calcium, iron or magnesium in volcanic rocks. Carbon dioxide from the atmosphere becomes trapped within the rocks. If all of the carbon dioxide locked in Earth's carbonates were released, our atmosphere would be thicker than that of Venus. Some researchers believe that a thick, carbon dioxide-rich atmosphere kept ancient Mars warm and kept water liquid on its surface long enough to have carved the valley systems observed today. "The carbonates that CRISM has observed are regional rather than global in nature, and therefore, are too limited to account for enough carbon dioxide to form a thick atmosphere," said Bethany Ehlmann, lead author of the article and a spectrometer team member from Brown University in Providence, R.I. "Although we have not found the types of carbonate deposits which might have trapped an ancient atmosphere," Ehlmann said, "we have found evidence that not all of Mars experienced an intense, acidic weathering environment 3.5 billion years ago, as has been proposed. We've found at least one region that was potentially more hospitable to life." The article reports clearly defined carbonate exposures in bedrock layers surrounding the 925-mile diameter Isidis impact basin, which formed more than 3.6 billion years ago. The best-exposed rocks occur along a trough system called Nili Fossae, which is 414 miles long, at the edge of the basin. The region has rocks enriched in olivine, a mineral that can react with water to form carbonate. "This discovery of carbonates in an intact rock layer, in contact with clays, is an example of how joint observations by CRISM and the telescopic cameras on the Mars Reconnaissance Orbiter are revealing details of distinct environments on Mars," said Sue Smrekar, deputy project scientist for the orbiter at NASA's Jet Propulsion Laboratory in Pasadena, Calif. NASA's Phoenix Mars Lander discovered carbonates in soil samples. Researchers had previously found them in Martian meteorites that fell to Earth and in windblown Mars dust observed from orbit. However, the dust and soil could be mixtures from many areas, so the carbonates' origins have been unclear. The latest observations indicate carbonates may have formed over extended periods on early Mars. They also point to specific locations where future rovers and landers could search for possible evidence of past life. The Applied Physics Laboratory led the effort to build the Compact Reconnaissance Imaging Spectrometer for Mars and operates the instrument in coordination with an international team of researchers from universities, government and the private sector. NASA's Jet Propulsion Laboratory manages the Mars Reconnaissance Orbiter mission for NASA's Science Mission Directorate in Washington. For more information about the Mars Reconnaissance Orbiter, visit: http://www.nasa.gov/mro -end-	en
converted_docs	105023	DSSTox Field Definition File: EPA Fathead Minnow Acute Toxicity Database (EPAFHM) (last updated 15 February 2008) Description: Information in this file is intended to provide a minimum level of annotation to the DSSTox SDF (Structure Data Format) file created for the EPA Fathead Minnow Acute Toxicity Database (EPAFHM) obtained from the Source website. For further explanation of Source-specific fields, a user is encouraged to consult the listed references. Additional information is provided on the DSSTox EPAFHM SDF Download Page <http://www.epa.gov/ncct/dsstox/sdf_epafhm.html>. A number of modifications in fields (and allowable entries) were made to the original EPA Fathead Minnow database to improve consistency in notations, eliminate the need for table addendums, and facilitate use of the DSSTox SDF files in relational searching applications. All modifications are documented in the *Comments* section of the table below. In the course of creating the DSSTox SDF files, it was noted that the Source EPA Fathead Minnow database included a single LC50 test result rather than a geometric mean when multiple (2-10) bioassays were performed on a single chemical. Replicate bioassays were conducted on 98 chemicals in the database. In order to align with the Main Citation - Appendix 2, these replicate experiments are not listed separately in the DSSTox EPAFHM SDF file; rather a single geometric mean of replicate LC50 values for each of the 98 chemicals is reported. As a result of this finding, specific listings of all 137 replicate LC50 experiments for the 98 chemicals were added to the original Source EPA Fathead Minnow database. Description of *DSSTox Standard Chemical Fields* can be found in the Central Field Definition Table located at: <http://www.epa.gov/ncct/dsstox/CentralFieldDef.html> The first section of the Table below lists the *DSSTox Standard Toxicity Fields* employed for this database, followed by the *EPAFHM Source-Specific Fields* containing the toxicity information particular to EPAFHM. The *Field Type* indicates the type of the field, such as numeric, integer, defined text, memo, etc. All *Units* and *Descriptions* are extracted from Source reference materials unless otherwise noted. *Allowable Entries* lists allowed field entries occurring in EPAFHM, separated by slashes for exclusive entries (i.e., cannot occur with another entry) and semicolons or spaces for non-exclusive entries (i.e., can occur with other values). These are defined and explained in the *Description* section. Source Website: <http://www.epa.gov/med/databases/fathead_minnow.htm> Source Contact: Scientific questions pertaining to the EPAFHM database should be directed to Chris Russom, Mid-continent Ecology Division, National Health & Environmental Effects Research Laboratory, US EPA, Duluth, MN; email: russom.chris@epa.gov Main Citation: Publications reporting use of the DSSTox SDF file for the EPA Fathead Minnow database are asked to list the full DSSTox file name, including date stamp, and to cite as primary reference the following: > Russom, C.L., S.P. Bradbury, S.J. Broderius, D.E. Hammermeister, and > R.A. Drummond (1997) Predicting modes of action from chemical > structure: Acute toxicity in the fathead minnow (Pimephales > promelas). Environmental Toxicology and Chemistry 16(5): 948-967. > \* > > \pdf of Main Citation can be downloaded from EPAFHM SDF Download > Page at the central DSSTox website:* > <http://www.epa.gov/ncct/dsstox/sdf_epafhm.html> SDF Usage Notes: Each DSSTox SDF file contains a single STRUCTURE field. For each chemical record, the STRUCTURE field entry directly corresponds to the content of the STRUCTURE\_\... fields. The STRUCTURE_Shown field documents the relationship between what is displayed in the STRUCTURE field and the actual tested chemical substance, i.e. TestSubstance\_\... fields, with the latter corresponding directly to the toxicity data field entries. Commercial chemical relational database (CRD) applications may automatically insert one or more structure identifier fields upon import or export of an SDF file (e.g., Formula, FW or Mol_ID), fields that may augment or duplicate one or more of the DSSTox Standard Chemical Fields. Users are cautioned that fields containing null values in the first record of the SDF will be reordered upon import into most applications; for this reason, the word "blank" has been inserted into null fields in Record 1 of DSSTox SDF files and can be deleted after SDF import. Users are additionally cautioned that some fields (STRUCTURE_SMILES and STRUCTURE_InChI, in particular) may exceed the 200 character limit specified in the MDL CTFiles SDF standard (see <http://www.epa.gov/ncct/dsstox/MoreonSDF.html>), and that some CRD applications may insert a line break or truncate these fields upon SDF import or export. Finally, CRD application-specific molecular header information in the SDF file is deleted in the final DSSTox SDF files; users running CRD applications requiring a unique molecule header upon import of the SDF can specify either DSSTox_RID or the DSSTox_FileID be used. Upon SDF import, DSSTox_CID can be used to identify and manage chemical structure duplicates and DSSTox_Generic_SID can be used to identify common Test Substances across and within DSSTox files (similar to CASRN-substance, but available for all DSSTox substances and further distinguishes among different purity/grade substances). As an MS Word document, the following table is best viewed onscreen using either Normal or Web Layout View in Landscape page orientation. +-------+------+---+--------+----------------------+-----------------+ \| * \| F \| \| **All \| # Description* \| ## Comments \| \| Field \| ield \| * \| owable \| \| \| \| Na \| Typ \| * \| Entr \| \| \| \| me* \| e* \| U \| ies*** \| \| \| \| \| \| n \| \| \| \| \| \| \| i \| \| \| \| \| \| \| t \| \| \| \| \| \| \| s \| \| \| \| \| \| \| * \| \| \| \| \| \| \| * \| \| \| \| \| \| \| * \| \| \| \| +-------+------+---+--------+----------------------+-----------------+ \| \| \| \| \| ##### DSSTox Stan \| \| \| \| \| \| \| dard Toxicity Fields \| \| +-------+------+---+--------+----------------------+-----------------+ \| St \| def \| \| Acute \| Field is used to \| Field names and \| \| udy \| ined \| \| To \| label all records in \| content are \| \| \| text \| \| xicity \| the database, \| being \| \| T \| \| \| \| generally with the \| coordinated \| \| ype \| \| \| \| same entry, and is \| with the public \| \| \| \| \| \| designed to \| ToxML \| \| (no \| \| \| \| facilitate record \| standardization \| \| spa \| \| \| \| identification for \| effort. \| \| ces) \| \| \| \| cross-database \| \| \| \| \| \| \| structure searching. \| \| \| \| \| \| \| Field entry refers \| \| \| \| \| \| \| to the main type of \| \| \| \| \| \| \| toxicity study for \| \| \| \| \| \| \| which data is \| \| \| \| \| \| \| represented in the \| \| \| \| \| \| \| database. \| \| +-------+------+---+--------+----------------------+-----------------+ \| # End \| def \| \| LC50 \| Field is used to \| Field names and \| \| point \| ined \| \| \| label all records in \| content are \| \| \| text \| \| \| the database, \| being \| \| \| \| \| \| generally with the \| coordinated \| \| \| \| \| \| same entry, and is \| with the public \| \| \| \| \| \| designed to \| ToxML \| \| \| \| \| \| facilitate record \| standardization \| \| \| \| \| \| identification for \| effort. \| \| \| \| \| \| cross-database \| \| \| \| \| \| \| structure searching. \| \| \| \| \| \| \| Field entry refers \| \| \| \| \| \| \| to the type of \| \| \| \| \| \| \| toxicity measure \| \| \| \| \| \| \| represented within \| \| \| \| \| \| \| the database. \| \| +-------+------+---+--------+----------------------+-----------------+ \| * \| def \| \| f \| Field is used to \| Field names and \| \| Spec \| ined \| \| athead \| label all records in \| content are \| \| ies* \| text \| \| minnow \| the database, \| being \| \| \| \| \| \| generally with the \| coordinated \| \| \| \| \| \| same entry, and is \| with the public \| \| \| \| \| \| designed to \| ToxML \| \| \| \| \| \| facilitate record \| standardization \| \| \| \| \| \| identification for \| effort. \| \| \| \| \| \| cross-database \| \| \| \| \| \| \| structure searching. \| \| \| \| \| \| \| Field entry refers \| \| \| \| \| \| \| to the species of \| \| \| \| \| \| \| animal(s) listed in \| \| \| \| \| \| \| the data record and \| \| \| \| \| \| \| used in the toxicity \| \| \| \| \| \| \| study or studies. \| \| +-------+------+---+--------+----------------------+-----------------+ \| \| \| \| \| ##### EPAFHM So \| \| \| \| \| \| \| urce-Specific Fields \| \| +-------+------+---+--------+----------------------+-----------------+ \| \| def \| \| Al \| Standard organic \| To facilitate \| \| ChemC \| ined \| \| kanes/ \| chemical class \| use of EPA \| \| lass_ \| text \| \| \| designations of the \| Fathead Minnow \| \| FHM \| \| \| Al \| sort used in \| database in a \| \| \| \| \| kenes/ \| traditional QSAR \| relational \| \| \| \| \| \| studies. These class \| format, we have \| \| \| \| \| Sat \| designations are \| replaced the \| \| \| \| \| urated \| only provided for \| original field \| \| \| \| \| H \| information purposes \| "CODE" with new \| \| \| \| \| ydroca \| in EPAFHM and were \| field \| \| \| \| \| rbons/ \| not used in the \| "ChemClass \| \| \| \| \| \| construction of \| FHM", which \| \| \| \| \| Unsat \| Mode-of-action (MOA) \| contains the \| \| \| \| \| urated \| classes or \| organic \| \| \| \| \| H \| derivation of \| chemical class \| \| \| \| \| ydroca \| quantitative \| referenced in \| \| \| \| \| rbons/ \| structure-activity \| the "CODE" \| \| \| \| \| \| relationships \| field and \| \| \| \| \| Basic \| (QSARs) for this \| listed in a \| \| \| \| \| E \| study. \| Table 2 \| \| \| \| \| thers/ \| \| addendum in the \| \| \| \| \| \| \| original EPA \| \| \| \| \| Di \| \| Fathead Minnow \| \| \| \| \| phenyl \| \| database. \| \| \| \| \| E \| \| \| \| \| \| \| thers/ \| \| DSSTox field \| \| \| \| \| \| \| entries exactly \| \| \| \| \| Cyclic \| \| correspond to \| \| \| \| \| E \| \| original EPA \| \| \| \| \| thers/ \| \| Fathead Minnow \| \| \| \| \| \| \| database CODE \| \| \| \| \| Basic \| \| Table 2 entries \| \| \| \| \| Alc \| \| with the \| \| \| \| \| ohols/ \| \| exception that \| \| \| \| \| \| \| commas are \| \| \| \| \| Alkene \| \| deleted from \| \| \| \| \| Alc \| \| Primary, \| \| \| \| \| ohols/ \| \| Secondary, \| \| \| \| \| \| \| Tertiary, \| \| \| \| \| Alkyne \| \| aliphatic and \| \| \| \| \| Alc \| \| aromatic amines \| \| \| \| \| ohols/ \| \| class names, \| \| \| \| \| \| \| and hyphens are \| \| \| \| \| Diols/ \| \| deleted from \| \| \| \| \| \| \| 5-membered ring \| \| \| \| \| Alde \| \| aliphatics and \| \| \| \| \| hydes/ \| \| aromatics, \| \| \| \| \| \| \| beta-Diketones, \| \| \| \| \| Basic \| \| hetero-atom \| \| \| \| \| Ke \| \| compounds, and \| \| \| \| \| tones/ \| \| DEAS-complex \| \| \| \| \| \| \| structures \| \| \| \| \| beta \| \| class names. \| \| \| \| \| Dike \| \| \| \| \| \| \| tones/ \| \| DEAS stands for \| \| \| \| \| \| \| "Drug \| \| \| \| \| Cyclic \| \| Enforcement \| \| \| \| \| Ke \| \| Agency \| \| \| \| \| tones/ \| \| Structures", a \| \| \| \| \| \| \| broad \| \| \| \| \| Carb \| \| functional \| \| \| \| \| oxylic \| \| categorization. \| \| \| \| \| Acids/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Basic \| \| \| \| \| \| \| E \| \| \| \| \| \| \| sters/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Phtha \| \| \| \| \| \| \| lates/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| A \| \| \| \| \| \| \| mides/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Acry \| \| \| \| \| \| \| lates/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Nit \| \| \| \| \| \| \| riles/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| P \| \| \| \| \| \| \| rimary \| \| \| \| \| \| \| ali \| \| \| \| \| \| \| phatic \| \| \| \| \| \| \| a \| \| \| \| \| \| \| mines/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Sec \| \| \| \| \| \| \| ondary \| \| \| \| \| \| \| ali \| \| \| \| \| \| \| phatic \| \| \| \| \| \| \| a \| \| \| \| \| \| \| mines/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| Te \| \| \| \| \| \| \| rtiary \| \| \| \| \| \| \| ali \| \| \| \| \| \| \| phatic \| \| \| \| \| \| \| a \| \| \| \| \| \| \| mines/ \| \| \| \| \| \| \| \| \| \| \| \| \| \| P \| \| \| \| \| \| \| rimary \| \| \| \| \| \| \| ar \| \| \| \| \| \| \| omatic \| \| \| \| \| \| \| a \| \| \| \| \| \| \| mines/ \| \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| num \| # \| \# \| Logarithm of the \| \| \| CLOGP \| eric \| # \| \| octano/water \| \| \| \| \| # \| \| partition \| \| \| \| \| # \| \| coefficient (LogP) \| \| \| \| \| \| \| computed using the \| \| \| \| \| \| \| semiempirical \| \| \| \| \| \| \| fragment-based \| \| \| \| \| \| \| method applied in \| \| \| \| \| \| \| the CLOGP software \| \| \| \| \| \| \| \[2\], unless \| \| \| \| \| \| \| "measured LogP" \| \| \| \| \| \| \| appears in MLOGP \| \| \| \| \| \| \| field in which case \| \| \| \| \| \| \| the measured LogP \| \| \| \| \| \| \| value is provided in \| \| \| \| \| \| \| the CLOGP field \| \| \| \| \| \| \| from the STARLIST \| \| \| \| \| \| \| database of CLOGP. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| def \| # \| me \| "measured LogP" \| \| \| MLOGP \| ined \| # \| asured \| indicates CLOGP \| \| \| \| text \| # \| LogP/ \| field value is \| \| \| \| \| # \| \| obtained from the \| \| \| \| \| \| * \| STARLIST database of \| \| \| \| \| \| blank* \| experimentally \| \| \| \| \| \| \| measured LogP values \| \| \| \| \| \| \| provided in the \| \| \| \| \| \| \| CLOGP application \| \| \| \| \| \| \| \[2\]; \| \| \| \| \| \| \| \| \| \| \| \| \| \| "blank" or null \| \| \| \| \| \| \| entry indicates the \| \| \| \| \| \| \| CLOGP field value is \| \| \| \| \| \| \| computed from the \| \| \| \| \| \| \| CLOGP semiempirical \| \| \| \| \| \| \| fragment-based \| \| \| \| \| \| \| method. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## LC \| num \| # \| #/ \| 96 hr LC50 \| If insufficient \| \| 50_mg \| eric \| # \| \| (concentration \| mortality was \| \| \| \| # \| * \| producing lethality \| observed, LC50 \| \| \| \| # \| blank* \| in 50% of test \| was assigned a \| \| \| \| \| \| animals after 96 \| value of -99 in \| \| \| \| m \| \| hours exposure) in \| the original \| \| \| \| g \| \| mg/l. Calculated \| EPA Fathead \| \| \| \| / \| \| using \| Minnow \| \| \| \| l \| \| Spearman-Karber \| database. To \| \| \| \| \| \| method \[3\]. \| avoid problems \| \| \| \| \| \| Geometric mean of \| when log(LC50) \| \| \| \| \| \| LC50s presented if \| is used in \| \| \| \| \| \| more than one \| QSAR, we \| \| \| \| \| \| bioassay conducted \| convert these \| \| \| \| \| \| for the chemical; \| to blank \| \| \| \| \| \| \| entry in LC50 \| \| \| \| \| \| "blank" or null \| field. \| \| \| \| \| \| entry indicates no \| Replicate \| \| \| \| \| \| mortality, or less \| experiments \| \| \| \| \| \| than 50% mortality \| used to compute \| \| \| \| \| \| observed at 96hr. \| geometric mean \| \| \| \| \| \| \| LC50 values for \| \| \| \| \| \| \| 98 chemicals \| \| \| \| \| \| \| are listed in \| \| \| \| \| \| \| revised EPA \| \| \| \| \| \| \| Fathead Minnow \| \| \| \| \| \| \| database \| \| \| \| \| \| \| located at \| \| \| \| \| \| \| Source website. \| \| \| \| \| \| \| Geometric mean \| \| \| \| \| \| \| LC50 value for \| \| \| \| \| \| \| pe \| \| \| \| \| \| \| ntachlorophenol \| \| \| \| \| \| \| is reported in \| \| \| \| \| \| \| DSSTox SDF. \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| num \| # \| #/ \| Conversion of \| Field new to \| \| LC50 \| eric \| # \| \| LC50_mg to mmol \| v3a. \| \| _mmol \| \| # \| * \| units: \| \| \| \| \| # \| blank* \| \| \| \| \| \| \| \| LC50_mmol = \| \| \| \| \| m \| \| LC50_mg / \| \| \| \| \| m \| \| STRUCTUR \| \| \| \| \| o \| \| E_MolecularWeight; \| \| \| \| \| l \| \| \| \| \| \| \| / \| \| "blank" or null \| \| \| \| \| l \| \| entry indicates no \| \| \| \| \| \| \| mortality, or less \| \| \| \| \| \| \| than 50% mortality \| \| \| \| \| \| \| observed at 96hr. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## Ac \| def \| # \| a \| Categorical activity \| Summary \| \| tivit \| ined \| # \| ctive/ \| measure based on \| activity for \| \| yOutc \| text \| # \| \| reported \| use in PubChem \| \| ome_E \| \| # \| i \| LC50_mg: \| and \| \| PAFHM \| \| \| nconcl \| \| str \| \| \| \| \| usive/ \| > "active" if an \| ucture-activity \| \| \| \| \| \| > LC50_mg is \| relationship \| \| \| \| \| ina \| > reported; \| studies. \| \| \| \| \| ctive/ \| > \| \| \| \| \| \| \| > \"inconclusive\" \| New field \| \| \| \| \| \| > if only partial \| added to v4b. \| \| \| \| \| \| > mortality was \| \| \| \| \| \| \| > reached at the \| \| \| \| \| \| \| > highest tested \| \| \| \| \| \| \| > dose; and \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > \"inactive\" if no \| \| \| \| \| \| \| > mortality at the \| \| \| \| \| \| \| > highest tested \| \| \| \| \| \| \| > dose. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## Ac \| int \| # \| I \| Mapping of LOG10 \| Summary \| \| tivit \| eger \| # \| NTEGER \| (1/LC50_mmol) \| activity \| \| yScor \| \| # \| \[0 \| activity values \| ranking for use \| \| e\_ E \| \| # \| -100\] \| spanning activity \| in PubChem and \| \| PAFHM \| \| \| \| range \[MIN, MAX\] \| str \| \| \| \| \| \| onto Integer 1-100 \| ucture-activity \| \| \| \| \| \| Activity range, \| relationship \| \| \| \| \| \| where 100 is highest \| studies. \| \| \| \| \| \| potency and 1 is \| \| \| \| \| \| \| lowest. \| New field \| \| \| \| \| \| \| added to v4b. \| \| \| \| \| \| If \| \| \| \| \| \| \| Acti \| \| \| \| \| \| \| vityOutcome_EPAFHM \| \| \| \| \| \| \| is \"active: \| \| \| \| \| \| \| \| \| \| \| \| \| \| > ActivityScore = \| \| \| \| \| \| \| > 100 \* \| \| \| \| \| \| \| > INTEGER\[(log10(1/ \| \| \| \| \| \| \| > LC50_mmol) - \| \| \| \| \| \| \| > MIN)/(MAX -- \| \| \| \| \| \| \| > MIN)\]. \| \| \| \| \| \| \| \| \| \| \| \| \| \| If \| \| \| \| \| \| \| Acti \| \| \| \| \| \| \| vityOutcome_EPAFHM \| \| \| \| \| \| \| is \"inactive\" or \| \| \| \| \| \| \| \"inconclusive\": \| \| \| \| \| \| \| \| \| \| \| \| \| \| > ActivityScore = 0. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| num \| # \| #/ \| Used for \| Text codes \| \| LC50_ \| eric \| # \| \| dose-response \| (r48, r72, NR) \| \| Ratio \| \| # \| * \| assessments in the \| were \| \| \| \| # \| blank \| estimation of \| substituted for \| \| \| \| \| \| Mode-of-Action \| the following \| \| \| \| \| \| (MOA); entry is \| symbol codes \| \| \| \| \| \| ratio of 24hr LC50 \| used in the \| \| \| \| \| \| to 96hr LC50 unless \| original EPA \| \| \| \| \| \| otherwise noted (for \| Fathead Minnow \| \| \| \| \| \| ratios of 48hr or \| database: \| \| \| \| \| \| 72hrs to 96hrs) in \| \| \| \| \| \| \| LC50_Note* field; \| > \* = 48h/96h \| \| \| \| \| \| \| > ratio = r48 \| \| \| \| \| \| "blank" or null \| > \| \| \| \| \| \| entry indicates \| > \# = 72h/96h \| \| \| \| \| \| ratio was not \| > ratio = r72 \| \| \| \| \| \| computed with reason \| > \| \| \| \| \| \| provided in \| > \\ = LC50 \| \| \| \| \| \| LC50_Note field. \| > obtained at \| \| \| \| \| \| \| > 96 h = NR \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NM, NT not \| \| \| \| \| \| \| > defined in \| \| \| \| \| \| \| > original \| \| \| \| \| \| \| > EPAFHM \| \| \| \| \| \| \| > documentation \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > In case of \| \| \| \| \| \| \| > replicate \| \| \| \| \| \| \| > experiments, \| \| \| \| \| \| \| > ratio for a \| \| \| \| \| \| \| > single \| \| \| \| \| \| \| > replicate is \| \| \| \| \| \| \| > reported that \| \| \| \| \| \| \| > approximately \| \| \| \| \| \| \| > represents \| \| \| \| \| \| \| > group. \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > Replaces \| \| \| \| \| \| \| > LC50RATIO \| \| \| \| \| \| \| > field name. \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > Abbreviations \| \| \| \| \| \| \| > used \| \| \| \| \| \| \| > previously \| \| \| \| \| \| \| > have been \| \| \| \| \| \| \| > expanded and \| \| \| \| \| \| \| > moved to \| \| \| \| \| \| \| > LC50_Note \| \| \| \| \| \| \| > field: \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > r48 = 48hr to \| \| \| \| \| \| \| > 96hr \| \| \| \| \| \| \| > \| \| \| \| \| \| \| LC50_Ratio \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > r72 = 72hr to \| \| \| \| \| \| \| > 96hr \| \| \| \| \| \| \| > \| \| \| \| \| \| \| LC50_Ratio \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NM = \| \| \| \| \| \| \| > \| \| \| \| \| \| \| non-monotonical \| \| \| \| \| \| \| > pattern of \| \| \| \| \| \| \| > death (i.e. \| \| \| \| \| \| \| > more deaths \| \| \| \| \| \| \| > at lower \| \| \| \| \| \| \| > \| \| \| \| \| \| \| concentrations \| \| \| \| \| \| \| > than at \| \| \| \| \| \| \| > higher \| \| \| \| \| \| \| > \| \| \| \| \| \| \| concentrations) \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NR = LC50 \| \| \| \| \| \| \| > obtained only \| \| \| \| \| \| \| > at 96hr so no \| \| \| \| \| \| \| > \| \| \| \| \| \| \| LC50_Ratio \| \| \| \| \| \| \| > determined \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NT = not \| \| \| \| \| \| \| > toxic in 96hr \| \| \| \| \| \| \| > exposure so \| \| \| \| \| \| \| > no \| \| \| \| \| \| \| > \| \| \| \| \| \| \| LC50_Ratio \| \| \| \| \| \| \| > determined \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > ND = \| \| \| \| \| \| \| > \| \| \| \| \| \| \| LC50_Ratio \| \| \| \| \| \| \| > not \| \| \| \| \| \| \| > determined \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| def \| # \| ### \| Comments regarding \| Replaces \| \| LC50 \| ined \| # \| # Text \| the LC50_mg \| REMARKS field \| \| _Note \| text \| # \| \| value and \| in original EPA \| \| \| \| # \| \| LC50_Ratio \| Fathead Minnow \| \| \| \| \| \| determination; \| database; \| \| \| \| \| \| \| eliminate use \| \| \| \| \| \| Comments pertain to \| of \| \| \| \| \| \| exceptional \| abbreviations \| \| \| \| \| \| situations, e.g., \| for mortality \| \| \| \| \| \| where: 50% mortality \| and saturation. \| \| \| \| \| \| could not be \| When more than \| \| \| \| \| \| achieved at \| one bioassay \| \| \| \| \| \| saturation \| was performed \| \| \| \| \| \| concentrations, \| on chemical, \| \| \| \| \| \| non-monotonical \| note refers to \| \| \| \| \| \| pattern of death was \| single test \| \| \| \| \| \| observed (i.e., more \| result. A note \| \| \| \| \| \| deaths at lower \| was added to \| \| \| \| \| \| concentrations than \| the DSSTox SDF \| \| \| \| \| \| at higher \| specifying the \| \| \| \| \| \| concentrations), or \| number of \| \| \| \| \| \| exceptions were made \| experiments \| \| \| \| \| \| in terms of pH or \| (2-10) \| \| \| \| \| \| mixtures; \| contributing to \| \| \| \| \| \| \| calculation of \| \| \| \| \| \| If more than one \| the geometric \| \| \| \| \| \| replicate bioassay, \| mean LC50. \| \| \| \| \| \| number of \| \| \| \| \| \| \| experiments \| Replaces \| \| \| \| \| \| contributing to \| LC50NOTE \| \| \| \| \| \| calculation of the \| field name. \| \| \| \| \| \| geometric mean LC50 \| \| \| \| \| \| \| is specified; \| Replaces text \| \| \| \| \| \| \| footnotes in \| \| \| \| \| \| If LC50_Ratio \| LC50_Ratio \| \| \| \| \| \| was other than 24hr \| field. \| \| \| \| \| \| to 96 hr LC50 ratio, \| \| \| \| \| \| \| or was not computed, \| \| \| \| \| \| \| explanation is \| \| \| \| \| \| \| provided here. \| \| +-------+------+---+--------+----------------------+-----------------+ \| # \| def \| # \| Ba \| Mode-of-action (MOA) \| Field content \| \| # MOA \| ined \| # \| seline \| of chemical assigned \| provided in \| \| \| text \| # \| nar \| by authors of study \| Table 3 \| \| \| \| # \| cosis; \| based on joint toxic \| addendum to \| \| \| \| \| \| action studies, \| original EPA \| \| \| \| \| Polar \| establishment of \| Fathead Minnow \| \| \| \| \| nar \| toxicodynamic \| database, \| \| \| \| \| cosis/ \| profiles, and \| referenced to \| \| \| \| \| \| behavioral and \| MOA_NUM codes. \| \| \| \| \| Ac \| dose-response \| The latter \| \| \| \| \| rylate \| interpretation of 96 \| field and \| \| \| \| \| and \| hr LC50 tests. \| codes, used by \| \| \| \| \| ester \| \| the authors for \| \| \| \| \| nar \| Further description \| a specific \| \| \| \| \| cosis/ \| of MOA categories is \| application, \| \| \| \| \| \| provided in Main \| were deemed \| \| \| \| \| Unc \| Citation (Russom et \| unnecessary for \| \| \| \| \| oupler \| al., 1997). \| inclusion in \| \| \| \| \| of \| \| the DSSTox SDF. \| \| \| \| \| oxi \| \| \| \| \| \| \| dative \| \| Original \| \| \| \| \| phos \| \| MOA field \| \| \| \| \| phoryl \| \| entries in the \| \| \| \| \| ation/ \| \| EPA Fathead \| \| \| \| \| \| \| Minnow database \| \| \| \| \| Ac \| \| (e.g., \| \| \| \| \| etylch \| \| REACTIVE_1, \| \| \| \| \| olines \| \| \_2, \_3, \_4) \| \| \| \| \| terase \| \| corresponding \| \| \| \| \| inhib \| \| to a single MOA \| \| \| \| \| ition/ \| \| with different \| \| \| \| \| \| \| levels of \| \| \| \| \| Respi \| \| confidence \| \| \| \| \| ratory \| \| (A,B,C,D) have \| \| \| \| \| b \| \| been collapsed \| \| \| \| \| locker \| \| into a single \| \| \| \| \| or \| \| MOA field for \| \| \| \| \| inhi \| \| the DSSTox SDF \| \| \| \| \| bitor/ \| \| (e.g., \| \| \| \| \| \| \| REACTIVE). The \| \| \| \| \| Electr \| \| level of \| \| \| \| \| ophile \| \| confidence is \| \| \| \| \| or \| \| specified in a \| \| \| \| \| pro \| \| newly added \| \| \| \| \| electr \| \| field, \| \| \| \| \| ophile \| \| MO \| \| \| \| \| react \| \| A_Confidence. \| \| \| \| \| ivity/ \| \| In addition, \| \| \| \| \| \| \| some common MOA \| \| \| \| \| C \| \| categories that \| \| \| \| \| entral \| \| were listed \| \| \| \| \| n \| \| separately for \| \| \| \| \| ervous \| \| chemical \| \| \| \| \| system \| \| classes were \| \| \| \| \| s \| \| combined into \| \| \| \| \| eizure \| \| the single MOA \| \| \| \| \| or \| \| category and \| \| \| \| \| stim \| \| symbols in MOA \| \| \| \| \| ulant/ \| \| names were \| \| \| \| \| \| \| eliminated: \| \| \| \| \| Neur \| \| \| \| \| \| \| odepre \| \| NARC_ACRYLATE = \| \| \| \| \| ssant/ \| \| NARCOSIS III \| \| \| \| \| \| \| \| \| \| \| \| MOA \| \| NARCO_ESTER = \| \| \| \| \| not \| \| NARCOSIS III \| \| \| \| \| dete \| \| \| \| \| \| \| rmined \| \| NARC_AMINE = \| \| \| \| \| due to \| \| NARCOSIS II \| \| \| \| \| insuff \| \| \| \| \| \| \| icient \| \| NARCOSIS_I&II = \| \| \| \| \| evi \| \| NARCOSIS I and \| \| \| \| \| dence/ \| \| II \| \| \| \| \| \| \| \| \| \| \| \| MOA \| \| EMPTY = ND \| \| \| \| \| not \| \| \| \| \| \| \| dete \| \| EPAFHM_v4a \| \| \| \| \| rmined \| \| eliminates \| \| \| \| \| due to \| \| abbreviations \| \| \| \| \| confl \| \| for MOA \| \| \| \| \| icting \| \| Categories: \| \| \| \| \| evi \| \| \| \| \| \| \| dence/ \| \| > NARCOSIS I = \| \| \| \| \| \| \| > Baseline \| \| \| \| \| MOA \| \| > narcosis \| \| \| \| \| not \| \| > \| \| \| \| \| dete \| \| > NARCOSIS II = \| \| \| \| \| rmined \| \| > Polar \| \| \| \| \| either \| \| > narcosis \| \| \| \| \| due to \| \| > \| \| \| \| \| lack \| \| > NARCOSIS III \| \| \| \| \| of \| \| > = Narcosis \| \| \| \| \| to \| \| > III primarily \| \| \| \| \| xicity \| \| > observed in \| \| \| \| \| at \| \| > esters and \| \| \| \| \| satu \| \| > some \| \| \| \| \| ration \| \| > acrylates \| \| \| \| \| or \| \| > \| \| \| \| \| late \| \| > NARCOSIS I \| \| \| \| \| test \| \| > and II = \| \| \| \| \| r \| \| > Identified as \| \| \| \| \| esult/ \| \| > both Narcosis \| \| \| \| \| \| \| > I & II \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > UNCOUPLER = \| \| \| \| \| \| \| > Uncoupler of \| \| \| \| \| \| \| > oxidative \| \| \| \| \| \| \| > \| \| \| \| \| \| \| phosphorylation \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > ACHE = \| \| \| \| \| \| \| > Acety \| \| \| \| \| \| \| lcholinesterase \| \| \| \| \| \| \| > inhibition \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > BLOCKER = \| \| \| \| \| \| \| > Respiratory \| \| \| \| \| \| \| > bl \| \| \| \| \| \| \| ocker/inhibitor \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > REACTIVE = \| \| \| \| \| \| \| > Electrophile/ \| \| \| \| \| \| \| proelectrophile \| \| \| \| \| \| \| > reactivity \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NEUROTOX = \| \| \| \| \| \| \| > Central \| \| \| \| \| \| \| > nervous \| \| \| \| \| \| \| > system \| \| \| \| \| \| \| > se \| \| \| \| \| \| \| izure/stimulant \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NEURODEP = \| \| \| \| \| \| \| > \| \| \| \| \| \| \| Neurodepressant \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > UNSURE = MOA \| \| \| \| \| \| \| > could not be \| \| \| \| \| \| \| > determined - \| \| \| \| \| \| \| > insufficient \| \| \| \| \| \| \| > evidence \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > MIXED = MOA \| \| \| \| \| \| \| > could not be \| \| \| \| \| \| \| > determined - \| \| \| \| \| \| \| > conflicting \| \| \| \| \| \| \| > evidence \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > ND = MOA was \| \| \| \| \| \| \| > not \| \| \| \| \| \| \| > determined \| \| \| \| \| \| \| > either \| \| \| \| \| \| \| > because the \| \| \| \| \| \| \| > chemical was \| \| \| \| \| \| \| > not toxic at \| \| \| \| \| \| \| > saturation or \| \| \| \| \| \| \| > the test \| \| \| \| \| \| \| > result was \| \| \| \| \| \| \| > obtained \| \| \| \| \| \| \| > after the MOA \| \| \| \| \| \| \| > analysis was \| \| \| \| \| \| \| > conducted. \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| def \| # \| High/ \| Level of confidence \| Field added to \| \| MOA_ \| ined \| # \| \| placed in MOA \| DSSTox SDF to \| \| Confi \| text \| # \| Hi \| classification based \| accommodate \| \| dence \| \| # \| gh-Mod \| on available \| information \| \| \| \| \| erate/ \| evidence: \| that had \| \| \| \| \| \| \| previously been \| \| \| \| \| Mod \| > High = \| combined into \| \| \| \| \| erate/ \| > Fish \| MOA field in \| \| \| \| \| \| ActuteToxSyndrome, \| original EPA \| \| \| \| \| Low/ \| > joint toxicity \| Fathead Minnow \| \| \| \| \| \| > ( \| database, e.g.: \| \| \| \| \| #### \| MOA_MixtureTest) \| \| \| \| \| \| \| > determination \| MOA=REACTIVE_1 \| \| \| \| \| \| > and/or \| converts to \| \| \| \| \| \| > chemical-specific \| MOA=REACTIVE, \| \| \| \| \| \| > literature \| MOA_Confidence \| \| \| \| \| \| > confirmation; \| =A \| \| \| \| \| \| > \| \| \| \| \| \| \| > High-Moderate = \| MOA=REACTIVE_2 \| \| \| \| \| \| > * \| converts to \| \| \| \| \| \| FishBehaviorTest, \| MOA=REACTIVE, \| \| \| \| \| \| > LC50_Ratio, \| M \| \| \| \| \| \| > and \| OA_Confidence=B \| \| \| \| \| \| > E \| \| \| \| \| \| \| xcessToxicityIndex* \| etc. \| \| \| \| \| \| > value all \| \| \| \| \| \| \| > consistent with \| Previous \| \| \| \| \| \| > structurally \| ranking A-D \| \| \| \| \| \| > similar chemical \| replaced with \| \| \| \| \| \| > with MOA \| High (A), \| \| \| \| \| \| > assignment and \| High-Moderate \| \| \| \| \| \| > "High" level \| (B), Moderate \| \| \| \| \| \| > confidence; also \| (C), Low (D). \| \| \| \| \| \| > if LC50_Ratio \| \| \| \| \| \| \| > and TOXINDEX \| \| \| \| \| \| \| > consistent with \| \| \| \| \| \| \| > prototypical \| \| \| \| \| \| \| > compound in MOA \| \| \| \| \| \| \| > group; \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > Moderate = less \| \| \| \| \| \| \| > than 3 \| \| \| \| \| \| \| > "High-Moderate" \| \| \| \| \| \| \| > components, but \| \| \| \| \| \| \| > additional \| \| \| \| \| \| \| > supporting \| \| \| \| \| \| \| > information \| \| \| \| \| \| \| > available (such as \| \| \| \| \| \| \| > co \| \| \| \| \| \| \| ncentration/response \| \| \| \| \| \| \| > slope, behavior \| \| \| \| \| \| \| > comments, chemical \| \| \| \| \| \| \| > similarity to \| \| \| \| \| \| \| > prototypical \| \| \| \| \| \| \| > compound); \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > Low = no \| \| \| \| \| \| \| > confidence in MOA \| \| \| \| \| \| \| > classification due \| \| \| \| \| \| \| > to insufficient \| \| \| \| \| \| \| > data; \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > "blank" or null \| \| \| \| \| \| \| > entry indicates no \| \| \| \| \| \| \| > MOA assigned hence \| \| \| \| \| \| \| > no level of \| \| \| \| \| \| \| > confidence listed. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## M \| def \| # \| Ba \| If a mixture test \| Replaces \| \| OA_Mi \| ined \| # \| seline \| was conducted and \| MIXINDEX field \| \| xture \| text \| # \| nar \| the chemical was \| in original EPA \| \| \| \| # \| cosis; \| additive with a \| Fathead Minnow \| \| ## \| \| \| \| chemical of known \| database, with \| \| Test \| \| \| Polar \| MOA as described \| numerical index \| \| \| \| \| nar \| by Broderius et al. \| entry replaced \| \| * \| \| \| cosis/ \| \[4\], an MOA \| by the \| \| (no \| \| \| \| was assigned (see \| corresponding \| \| space \| \| \| Unc \| MOA field \| MOA text as \| \| s)* \| \| \| oupler \| definitions); \| follows: \| \| \| \| \| of \| \| \| \| \| \| \| oxi \| "blank" or null \| > 0= blank \| \| \| \| \| dative \| entry indicates no \| > (no mixture \| \| \| \| \| phos \| mixture test was \| > test) \| \| \| \| \| phoryl \| performed. \| > \| \| \| \| \| ation/ \| \| > 1= NARCOSIS I \| \| \| \| \| \| \| > \| \| \| \| \| Respi \| \| > 2 = NARCOSIS \| \| \| \| \| ratory \| \| > II \| \| \| \| \| b \| \| > \| \| \| \| \| locker \| \| > 12 = NARCOSIS \| \| \| \| \| or \| \| > I and II \| \| \| \| \| inhi \| \| > \| \| \| \| \| bitor/ \| \| > 3= UNCOUPLER \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > 4= BLOCKER \| \| \| \| \| \| \| \| \| \| \| \| \| \| EPAFHM_v4a \| \| \| \| \| \| \| eliminates \| \| \| \| \| \| \| abbreviations \| \| \| \| \| \| \| for MOA \| \| \| \| \| \| \| Categories: \| \| \| \| \| \| \| \| \| \| \| \| \| \| > NARCOSIS I = \| \| \| \| \| \| \| > Baseline \| \| \| \| \| \| \| > narcosis \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NARCOSIS II = \| \| \| \| \| \| \| > Polar \| \| \| \| \| \| \| > narcosis \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NARCOSIS I \| \| \| \| \| \| \| > and II = \| \| \| \| \| \| \| > Identified as \| \| \| \| \| \| \| > both Narcosis \| \| \| \| \| \| \| > I & II \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > UNCOUPLER = \| \| \| \| \| \| \| > Uncoupler of \| \| \| \| \| \| \| > oxidative \| \| \| \| \| \| \| > \| \| \| \| \| \| \| phosphorylation \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > BLOCKER = \| \| \| \| \| \| \| > Respiratory \| \| \| \| \| \| \| > bl \| \| \| \| \| \| \| ocker/inhibitor \| +-------+------+---+--------+----------------------+-----------------+ \| ## \| num \| # \| \# \| Ratio of the \| \| \| Exce \| eric \| # \| \| predicted toxicity \| \| \| ssTox \| \| # \| \| of the compound \| \| \| icity \| \| # \| \| using Baseline \| \| \| \| \| \| \| narcosis (Narcosis \| \| \| ## \| \| \| \| I) QSAR equation of \| \| \| Index \| \| \| \| Veith et al. \[5\]: \| \| \| \| \| \| \| \| \| \| * \| \| \| \| > Log molar LC50 = \| \| \| *(no \| \| \| \| > -0.94 logP* + \| \| \| space \| \| \| \| > log(0.000068\*P \| \| \| s)*** \| \| \| \| > +1) -- 1.25 \| \| \| \| \| \| \| \| \| \| \| \| \| \| (P=octanol/water \| \| \| \| \| \| \| partition coeff), \| \| \| \| \| \| \| divided by the \| \| \| \| \| \| \| actual LC50, used as \| \| \| \| \| \| \| a measure of excess \| \| \| \| \| \| \| toxicity. Values \| \| \| \| \| \| \| greater than 10 are \| \| \| \| \| \| \| considered \| \| \| \| \| \| \| indicative of \| \| \| \| \| \| \| compounds not acting \| \| \| \| \| \| \| by Baseline narcosis \| \| \| \| \| \| \| (Narcosis I) mode of \| \| \| \| \| \| \| action. Contributes \| \| \| \| \| \| \| to determination of \| \| \| \| \| \| \| level of confidence \| \| \| \| \| \| \| of MOA assignment. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## Fi \| def \| # \| Ba \| If a fish acute \| MOA codes used \| \| shAcu \| ined \| # \| seline \| toxicity syndrome \| in the original \| \| teTox \| text \| # \| nar \| (FATS) test was \| EPA Fathead \| \| \| \| # \| cosis/ \| conducted using \| Minnow database \| \| # \| \| \| \| rainbow trout as \| field have been \| \| # Syn \| \| \| Polar \| described by McKim \| replaced with \| \| drome \| \| \| nar \| et al. \[6,7\], the \| the \| \| \| \| \| cosis/ \| MOA that was \| corresponding \| \| * \| \| \| \| determined from that \| MOA name in \| \| (no \| \| \| Unc \| test is listed. FATS \| DSSTox SDF: \| \| space \| \| \| oupler \| MOA assignments \| \| \| s)* \| \| \| of \| consistent with MOA \| > N-1 = \| \| \| \| \| oxi \| assignment of \| > NARCOSIS I \| \| \| \| \| dative \| chemical from other \| > \| \| \| \| \| phos \| indicators for \| > N-2 = \| \| \| \| \| phoryl \| fathead minnow \| > NARCOSIS II \| \| \| \| \| ation/ \| provide the highest \| > \| \| \| \| \| \| level of confidence \| > UNC = \| \| \| \| \| Respi \| (A) to the chemical \| > UNCOUPLER \| \| \| \| \| ratory \| MOA assignment (see \| > \| \| \| \| \| b \| MOA field \| > RBK = \| \| \| \| \| locker \| definitions); \| > (Respiratory) \| \| \| \| \| or \| \| > BLOCKER \| \| \| \| \| inh \| "blank" or null \| > \| \| \| \| \| ibitor \| entry indicates no \| > IRR = \| \| \| \| \| / \| FATS test was \| > (Irritants) \| \| \| \| \| \| performed. \| > REACTIVE \| \| \| \| \| Electr \| \| > \| \| \| \| \| ophile \| \| > ACH = ACHE \| \| \| \| \| or \| \| \| \| \| \| \| pro \| \| EPAFHM_v4a \| \| \| \| \| electr \| \| eliminates \| \| \| \| \| ophile \| \| abbreviations \| \| \| \| \| reac \| \| for MOA \| \| \| \| \| tivity \| \| Categories: \| \| \| \| \| / \| \| \| \| \| \| \| \| \| > NARCOSIS I = \| \| \| \| \| Ac \| \| > Baseline \| \| \| \| \| etylch \| \| > narcosis \| \| \| \| \| olines \| \| > \| \| \| \| \| terase \| \| > NARCOSIS II = \| \| \| \| \| inhib \| \| > Polar \| \| \| \| \| ition/ \| \| > narcosis \| \| \| \| \| \| \| > \| \| \| \| \| * \| \| > NARCOSIS III \| \| \| \| \| blank* \| \| > = Narcosis \| \| \| \| \| \| \| > III primarily \| \| \| \| \| \| \| > observed in \| \| \| \| \| \| \| > esters and \| \| \| \| \| \| \| > some \| \| \| \| \| \| \| > acrylates \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NARCOSIS I \| \| \| \| \| \| \| > and II = \| \| \| \| \| \| \| > Identified as \| \| \| \| \| \| \| > both Narcosis \| \| \| \| \| \| \| > I & II \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > UNCOUPLER = \| \| \| \| \| \| \| > Uncoupler of \| \| \| \| \| \| \| > oxidative \| \| \| \| \| \| \| > \| \| \| \| \| \| \| phosphorylation \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > ACHE = \| \| \| \| \| \| \| > Acety \| \| \| \| \| \| \| lcholinesterase \| \| \| \| \| \| \| > inhibition \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > BLOCKER = \| \| \| \| \| \| \| > Respiratory \| \| \| \| \| \| \| > bl \| \| \| \| \| \| \| ocker/inhibitor \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > REACTIVE = \| \| \| \| \| \| \| > Electrophile/ \| \| \| \| \| \| \| proelectrophile \| \| \| \| \| \| \| > reactivity \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NEUROTOX = \| \| \| \| \| \| \| > Central \| \| \| \| \| \| \| > nervous \| \| \| \| \| \| \| > system \| \| \| \| \| \| \| > se \| \| \| \| \| \| \| izure/stimulant \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > NEURODEP = \| \| \| \| \| \| \| > \| \| \| \| \| \| \| Neurodepressant \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > UNSURE = MOA \| \| \| \| \| \| \| > could not be \| \| \| \| \| \| \| > determined - \| \| \| \| \| \| \| > insufficient \| \| \| \| \| \| \| > evidence \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > MIXED = MOA \| \| \| \| \| \| \| > could not be \| \| \| \| \| \| \| > determined - \| \| \| \| \| \| \| > conflicting \| \| \| \| \| \| \| > evidence \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > ND = MOA was \| \| \| \| \| \| \| > not \| \| \| \| \| \| \| > determined \| \| \| \| \| \| \| > either \| \| \| \| \| \| \| > because the \| \| \| \| \| \| \| > chemical was \| \| \| \| \| \| \| > not toxic at \| \| \| \| \| \| \| > saturation or \| \| \| \| \| \| \| > the test \| \| \| \| \| \| \| > result was \| \| \| \| \| \| \| > obtained \| \| \| \| \| \| \| > after the MOA \| \| \| \| \| \| \| > analysis was \| \| \| \| \| \| \| > conducted. \| +-------+------+---+--------+----------------------+-----------------+ \| ## F \| def \| # \| TYPE I \| Behavior signs of \| Hyphens used in \| \| ishBe \| ined \| # \| Dep \| stress were \| original \| \| havio \| text \| # \| ressed \| identified for \| database have \| \| rTest \| \| # \| motor \| fathead minnows \| been \| \| \| \| \| act \| exposed to toxicants \| eliminated, \| \| * \| \| \| ivity/ \| and were used to \| e.g., \| \| (no \| \| \| \| classify chemicals \| \| \| space \| \| \| TYPE \| into three \| TYPE I-ID \| \| s)* \| \| \| II \| behavioral syndromes \| converts to \| \| \| \| \| Hypera \| as described by \| TYPE I ID \| \| \| \| \| ctive/ \| Drummond and Russom \| \| \| \| \| \| \| \[8\]. These were \| Abbreviations \| \| \| \| \| TYPE \| used to determine \| eliminated in \| \| \| \| \| III \| level of confidence \| v4a: \| \| \| \| \| Spont \| of MOA assignment: \| \| \| \| \| \| aneous \| \| > CONFLICT = \| \| \| \| \| motor \| > TYPE I = depressed \| > conflicting \| \| \| \| \| act \| > locomotor activity \| > information \| \| \| \| \| ivity/ \| > with little or no \| \| \| \| \| \| \| > response to \| EL = refers to \| \| \| \| \| Confl \| > outside stimuli, \| tests conducted \| \| \| \| \| icting \| > darkened body \| in electronic \| \| \| \| \| inform \| > color, most fish \| diluter systems \| \| \| \| \| ation; \| > dead by 24 h \| \| \| \| \| \| \| > \| ID = \| \| \| \| \| Tested \| > TYPE II = \| insufficient \| \| \| \| \| in \| > hyperactive, \| data \| \| \| \| \| elec \| > usually \| \| \| \| \| \| tronic \| > overreactive to \| PHPROB = \| \| \| \| \| d \| > outside stimuli, \| indicates pH \| \| \| \| \| iluter \| > death typically \| problem with \| \| \| \| \| s \| > within several \| study \| \| \| \| \| ystem; \| > days of exposure \| \| \| \| \| \| \| > \| \| \| \| \| \| Insuff \| > TYPE III = \| \| \| \| \| \| icient \| > spontaneous \| \| \| \| \| \| data; \| > locomotor \| \| \| \| \| \| \| > activity, high \| \| \| \| \| \| pH \| > incidence of \| \| \| \| \| \| pr \| > convulsion, \| \| \| \| \| \| oblem/ \| > spasms, tetany, \| \| \| \| \| \| \| > scoliosis, \| \| \| \| \| \| \| > lordosis, and/or \| \| \| \| \| \| \| > hemorrhaging in \| \| \| \| \| \| \| > vertebral column \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > Additional notes \| \| \| \| \| \| \| > provided to \| \| \| \| \| \| \| > indicate problems \| \| \| \| \| \| \| > in determining \| \| \| \| \| \| \| > behavioral \| \| \| \| \| \| \| > syndrome; \| \| \| \| \| \| \| > \| \| \| \| \| \| \| > "blank" or null \| \| \| \| \| \| \| > entry indicates no \| \| \| \| \| \| \| > checklist \| \| \| \| \| \| \| > completed for \| \| \| \| \| \| \| > bioassay. \| \| +-------+------+---+--------+----------------------+-----------------+ \| ## N \| memo \| # \| Text \| Field used to \| EPAFHM-specific \| \| ote_E \| \| # \| \| provide \| information \| \| PAFHM \| \| # \| \| supplementary \| pertaining to \| \| \| \| # \| \| Source-specific \| the chemical \| \| \| \| \| \| information \| record \| \| \| \| \| \| pertaining to the \| previously \| \| \| \| \| \| chemical and \| included in \| \| \| \| \| \| toxicity fields. \| * \| \| \| \| \| \| \| ChemicalNote* \| \| \| \| \| \| \| field has been \| \| \| \| \| \| \| moved to this \| \| \| \| \| \| \| field. \| +-------+------+---+--------+----------------------+-----------------+ \| \| \| \| \| \| \| +-------+------+---+--------+----------------------+-----------------+ Additional EPAFHM references: 1\. Anderson, E., G.D. Veith, and D. Weininger (1987) SMILES: A line notation and computerized interpreter for chemical structure. EPA/600/M-87-021. Technical Report. U.S. Environmental Protection Agency, Environmental Research Laboratory, Duluth, MN, USA. 2\. CLOGP™ program version 3.4 and STARLIST database, respectively, within the UDRIVE system version 3.53, 1988, from Pomona College Medicinal Chemistry Project, Claremont, CA. 3\. Hamilton, M.A., R.C. Russo, and R.V. Thurston (1977) Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays. Environ. Sci. & Technol. 11: 714-719. Correction 12: 417. 4\. Broderius, S., M. Kahl, and M. Hoglund (1995) Use of Joint Toxic Response to define the primary mode of toxic action for diverse industrial organic chemicals. Environ Toxicol Chem 14: 1591-1605. 5\. Veith, G. D., D.J. Call, and L.T. Brooke (1983) Structure-toxicity relationships for the fathead minnow, Pimephales promelas: narcotic industrial chemicals. Can. J. Fish. Aquat. Sci. 40: 743-748. 6\. McKim, J.M., P.K. Schmieder, R.W. Carlson, E.P. Hunt, and G.J. Niemi (1987) Use of respiratory-cardiovascular responses of rainbow trout (Salmo gairdneri) in identifying Fish Acute Toxicity Syndromes. Part I. Pentachlorophenol, 2,4-dinitrophenol, tricaine methanesulfonate, and 1-octanol. Environ. Toxicol. Chem. 6: 295-312. 7\. McKim, J.M., P.K. Schmieder, G.J. Niemi, R.W. Carlson, and T.R. Henry (1987) Use of respiratory-cardiovascular responses of rainbow trout (Salmo gairdneri) in identifying Fish Acute Toxicity Syndromes. Part II. Malathion, carbaryl, acrolein, and benzaldehyde. Environ. Toxicol. Chem. 6: 313-328. 8\. Drummond, R.A. and C.L. Russom (1990) Behavioral toxicity syndromes: A promising tool for assessing toxicity mechanisms in juvenile fathead minnows. Environ. Toxicol. Chem. 9: 37-46.	en
converted_docs	801177	Wafer Probe Test Specifications for the TGL98.V2 Chip (revised 2/22/99 onwards) Overview: The purpose of this document is to outline the wafer probe testing of the TGL98.V2 chip. The TGL98.V2 is a mixed signal chip that has 16 channels of preamplifier-discriminator channels and associated on-chip digital functions for various adjusts and enables. The main functional units of the chip to be tested are the preamplifier-discriminator block, decoder, serial registers, D/A converter and bias values. The steps to test the chip are devised to verify and isolate a known good die by eliminating a bad die as soon as it is detected. In other words, the progressive test steps need take place only if a die passes the previous test. The testing would do the following in order: 1. Determine the quiescent current drawn at the 3 sets of power supply pins. 2. Determine the bias values at the bias reference pins which will indicate the DAC output values as well as the resistor bias values. 3. Clock in serial data to the 3 sets of serial registers and read the data back which will test the decoder and the serial registers 4. Digitally pulse the on-chip charge-pulser for preamplifier/discriminator channels and observe the output current pulse as well as the reference current output. This tests the preamplifier-discriminator block. Special instructions for the testing: The scope of the entire testing includes 1. Design and fabrication of all probing fixtures associated with the chip interface at the wafer probe to the tester. 2. Programming of the tester in accordance with the test specifications 3. Execution of the tests 4. Inking out of "bad dies" 5. Standard dicing of the wafer after placing on sticky film 6. Visual inspection of the die after dicing and 7. Packaging of the good die to Lund (Sweden). The probe card must be designed and fabricated in accordance to the test circuit shown in FIGURE 1. The separate supplies to power supply sets V1, V2 and V3 must be bypassed by capacitors placed as close to the probes as possible. The grounds are common. The bare die is very sensitive to light and care must be taken to eliminate spurious signal pickup at the input pads due to the presence of 60Hz. and other stray fields. The die will be on 6" diameter wafers from Orbit's 1.2u analog CMOS process. The price quotation should be for testing 2 batches of wafers. A first, smaller batch of 5 wafers (4500 chips) and a second batch of 37 wafers (33,300 chips) which will need to be tested in about 6 weeks to 3 months from the first batch. There will be about 900 dies per wafer. Tested wafers will be standard diced. As soon as any die fails it will be identified as defective and any remaining tests for that die can be suspended. Bad die will also be returned to Lund, Sweden, but has to be inked to distinguish it from a good die. Details of the testing: The pad diagram of TGL98.V2 chip is given in Appendix 1 along with a table describing the pin details in Appendix 2. The numbering of the pins starts at the SW corner and proceeds in a clockwise direction. The test circuit, which is to be fabricated as the probe card is given in FIGURE 1. All inputs Vin(x) are left open with no connection for these tests. Iout(x) outputs are 70uA current pulses through 8.2k load resistor (574mV (peak). This means a nominal signal of pulse height \~400 mV (+/- 20%) and a pulse width of 150 ns (+/- 20%) occurring about 100 ns after the test pulse has been issued. All bias pins are to be probed and their voltages measured. The probe on AO will help to setup the test properly. The serial decoder/addressing scheme of the TGL98.V2 is described in Appendix 3. The data register bits are defined in Appendix 4. Logic levels are 5V CMOS. The pad dimensions of the TGL98.V2 chip (fabricated in 1.2u ORBIT process as a SMALL chip) is given in Appendix 5. The control pins and their functions are given briefly in Table 1. # Table 1. Control signal pins and their function +----------+----------------+-------+----------------------------------+ \| Pad \| Pin Name \| Type \| Functional description \| +----------+----------------+-------+----------------------------------+ \| OS(30) \| Operate \| input \| Mode bit: Used to define the \| \| \| (bar)/Serial \| \| shared function pins. \| \| \| mode \| \| \| \| \| \| \| OS = 5V =\> serial data mode; \| \| \| \| \| \| \| \| \| \| OS = 0V =\> operate chip mode. \| +----------+----------------+-------+----------------------------------+ \| SAD (31) \| Serial \| input \| When OS=5V: SAD = 5V =\> address \| \| \| Address/ \| \| register select; and SAD = 0V \| \| \| Data(bar) mode \| \| =\> control register select; \| \| \| \| \| \| \| \| \| \| When OS = 0V: SAD = don't care. \| +----------+----------------+-------+----------------------------------+ \| R \| Reset Disable \| input \| RD = (RD_SC).OS(bar); analog \| \| D_SC(33) \| / \| \| reset \| \| \| \| \| \| \| \| Serial Clock \| \| SC = (RD_SC).OS; serial clock \| \| \| shared \| \| \| \| \| function pin \| \| \| +----------+----------------+-------+----------------------------------+ \| TP_SL \| Test pulse / \| input \| TP = (TP_SL).OS(bar); test \| \| (34) \| Serial latch \| \| pulser \| \| \| shared \| \| \| \| \| function pin \| \| SL = (TP_SL).OS.; serial latch \| +----------+----------------+-------+----------------------------------+ \| SI(35) \| Serial Input \| input \| Serial data input pin. \| +----------+----------------+-------+----------------------------------+ \| SO(36) \| Serial Output \| o \| Serial data output pin -- active \| \| \| \| utput \| when RW bit =1, SAD=0 \| \| \| \| \| \| \| \| \| \| Else tristated. \| +----------+----------------+-------+----------------------------------+ \| SOE \| Transceiver \| o \| SOE = 5V =\> read-back data from \| \| \| direction \| utput \| chip. \| \| \(32\) \| select \| \| \| \| \| \| \| Internally generated chip signal \| \| \| \| \| \| \| \| \| \| Else, tristated \| +----------+----------------+-------+----------------------------------+ Test 1: 1. Quiescent Current Measurement Test The chip requires 3 independent power supplies of 5V DC and a reference voltage of 2.5V to function. Bypass capacitors of shown value need to be placed as close as possible to the chip between probe card needle and ground. Table 2 gives the criteria for the TGL98.V2 power pads and performance. The values in the table are those after the power-up state. # Table 2: Power pads and performance --------- -------- --------- -------------- ------------ ----------------- Pad Supply Bypass Function Current Acceptable margin drawn 20 and 76 5V dc 4.7uF ; (V1)Analog1 4.7mA 4.0mA -- 5.5mA supply 21 and 75 0 Analog1 ground 24 and 70 5V dc 4.7uF; (V2)Analog2 2.8mA 2.0mA -- 3.3mA supply 25 and 69 0 Analog2 ground 37 and 59 5V dc 4.7uF; (V3)Digital 0.28mA 0.2mA -- 0.5mA supply 38 and 58 0 Digital ground 72 2.5V dc 4.7uF (VM)Midpoint [4.7 [+/- 1uA]{.mark} ref. uA]{.mark} --------- -------- --------- -------------- ------------ ----------------- If the current drawn at all pads are within the acceptable margin proceed to the next test Note 1: All grounds are common. Note 2: The input signals at the input pins SI, RD_SC, TP_SL, SAD and OS should be steady 0v for Test1 and Test2. ![](media/image1.wmf) TEST 2: 2. Testing the Bias pin values: > The voltages at the bias reference pins are to be measured just after > the power-up state. If any one of these values is 0V or 5V the chip is > deemed to fail at this point. The bias pads that need to be probed are > given in Table 3. # Table 3: Bias pads and performance +-----+----------------------------+------------+---------------------+ \| Pad \| Function \| Nominal \| Acceptable margin \| \| \| \| Value \| \| \| \| \| \| Min - Max \| +-----+----------------------------+------------+---------------------+ \| 40 \| OS_bias -- oneshot bias \| [3.2 \| [2.56 V -- 3.84 \| \| \| \| V]{.mark} \| V]{.mark} \| +-----+----------------------------+------------+---------------------+ \| 41 \| OR -- Output reference \| 150mV \| 82mV -- 240mV \| \| \| current (\~20uA) thru 8.2K \| \| \| +-----+----------------------------+------------+---------------------+ \| 68 \| DA12_bias \| 1.17 V \| 0..94 V -- 1.4 V \| +-----+----------------------------+------------+---------------------+ \| 71 \| S2_bias \| 3.15 V \| 2.5V -- 3.8V \| +-----+----------------------------+------------+---------------------+ \| 74 \| S1_bias \| 1.8 V \| 1.2V -- 2.5 V \| +-----+----------------------------+------------+---------------------+ If the voltages at all pads are within the acceptable margin proceed to the next test Note: The input signals at the input pins SI, RD_SC, TP_SL, SAD and OS should be steady 0v for Test1 and Test2. TEST 3: Serial and Address Data Communication Test Note: The serial register values are all to be loaded lsb (least significant bit) in first as indicated in the timing diagrams when writing to any register in TGL98.V2. 1. Select serial control mode for this test by setting serial mode pin OS = 5V Note 1: Binary patterns refer '1' to CMOS Logic 5V, '0' to CMOS Logic 0V Note 2: The clock frequency is 10 MHz and is applied to RD_SC pin. Note 3: The data is shifted in on the rising edge of the clock when you write to a register Note 4: The data is shifted out on the rising edge of the clock when you read-back from a register Note 5: Read-back cannot be made with the broadcast bit A6 of address register set to 1. So, read-back should always be done with an address match. TEST 3a: Write to and Read back CR1 even bits (address match test) Refer to timing diagram in FIGURE 3a for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR1) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0010010101 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. ```{=html} <!-- --> ``` 2. Write '1's to even bits of the control register CR1 ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 010b to load CR1 even bits with '1'. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- > c\. Latch the data register by 5V -\> 0V transition on TP_SL line > after serial data is clocked. B. DATA READ-BACK PROCEDURE: ```{=html} <!-- --> ``` 1. Load address register to select control register address (CR1) and mode (read-back) ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 1010 0101 01 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back '1's from the even bits of control register CR1 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue one clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 18 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check the data shifted out on the rising edge of the clock via the SO pin. > It should be 0101 0101 0101 0101 010b TEST 3b: Write to and Read back CR1 odd bits (address match test) Refer to timing diagram in FIGURE 3b for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR1) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0010010101 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` 2. Write '1's to odd bits of control register CR1 ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 101b to load CR1 odd bits with '1'. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` B. DATA READ-BACK PROCEDURE: ```{=html} <!-- --> ``` 1. Load address register to select control register address (CR1) and mode (read-back) ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 1010 0101 01 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. 2\. Read back 1's from odd bits of control register CR1 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue one clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 18 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 1010 101b TEST 3c Write to and Read back CR2 even bits; A6=1 (broadcast mode test- no address match) Refer to timing diagram in FIGURE 3c for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` 2. Write '1's to even bits of CR2 register ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 010 b to load CR2 odd bits with '1'. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data is clocked. ```{=html} <!-- --> ``` B. DATA READ-BACK PROCEDURE: ```{=html} <!-- --> ``` 1. Load address register to select control register address (CR2) and mode (read-back) ```{=html} <!-- --> ``` 1. a\. Select address mode by setting SAD = 5V ```{=html} <!-- --> ``` b. Clock in 1100 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 0 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back 1's from even bits of control register CR2 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. ```{=html} <!-- --> ``` c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 14 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 0101 0101 0101 010 b TEST 3d: Write to and Read back CR2 odd bits; A6=1 (broadcast mode test- no address match) Refer to timing diagram in FIGURE 3d for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b to the address register. ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` 2. Write the control word to the control register (CR2) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 101 b to load CR2 odd bits with '1'. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html} <!-- --> ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (read-back) a. Select address mode by setting SAD = 5V for serial data transfer to address register through SI pad b. Clock in 1100 0101 01b pattern to the address register. ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 0 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. 2\. Read back 1's from odd bits of control register CR2 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 14 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 101 b TEST 3e: Write to and Read back CR3 even bits; A6=1 (broadcast mode test- no address match) Refer to timing diagram in FIGURE 3e for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` 3. Write the control word to the control register (CR3) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 0101 0101 010 b to load 1's in CR3 even bits. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html} <!-- --> ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (read-back) a. Select address mode by setting SAD = 5V b. Clock in 1110 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read 1's from even bits of control register (CR3) a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 26 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 0101 0101 0101 0101 0101 0101 010 b TEST 3f: Write to and Read back CR3 odd bits; A6=1 (broadcast mode test- no address match) Refer to timing diagram in FIGURE 3f for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html} <!-- --> ``` 4. Write the control word to the control register CR3 ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 1010 1010 101 b to load 1's in CR3 odd bits. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html} <!-- --> ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (read-back) a. Select address mode by setting SAD = 5V b. Clock in 1110 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back 1's from odd bits of control register CR3 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 26 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check the data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 1010 1010 1010 101 b TEST 4: Operating mode Test for Amplitude, Attenuator Preamplifier-Discriminator testing for 8 conditions: 1. 2fC(DAC=2) input charge, 3 fC threshold (THR=50), Att=1; four channels pulsed at a time; all channels enabled > 4.1.a. channels 1-4 test pulsed 2. 4.1.b.channels 5-8 test pulsed 4.1.c.channels 9-12 test pulsed 4.1.d.channels 13-16 test pulsed 2. 5 fC (DAC=7)input charge, 3 fC threshold(THR=50), Att=1; four channels pulsed at a time; all channels enabled > 4.2.a. channels 1-4 test pulsed > > 4.2.b. channels 5-8 test pulsed > > 4.2.c. channels 9-12 test pulsed > > 4.2.d. channels 13-16 test pulsed 3. 5 fC (DAC=6)input charge, 7 fC threshold(THR=10), Att=1; four channels pulsed at a time; all channels enabled > 4.3.a. channels 1-4 test pulsed > > 4.3.b. channels 5-8 test pulsed > > 4.3.c. channels 9-12 test pulsed > > 4.3.d. channels 13-16 test pulsed 4. 9fC (DAC=10)input charge, 7 fC threshold (THR=10), Att=1; four channels pulsed at a time; all channels enabled > 4.4.a. channels 1-4 test pulsed > > 4.4.b. channels 5-8 test pulsed > > 4.4.c. channels 9-12 test pulsed > > 4.4.d. channels 13-16 test pulsed 5. All channels at 12fC (DAC=15) input charge, 15 fC threshold (THR=31), Att=1/3;all channels pulsed; all channels enabled 6. All channels at 19fC (DAC=24) input charge, 15 fC threshold(THR=31), Att=1/3;all channels pulsed; all channels enabled 7. All channels at 33 fC (DAC=42)input charge, 44 fC threshold(THR=31), Att=1/9;all channels pulsed; all channels enabled 8. All channels at 58 fC (DAC=73) input charge, 44 fC threshold(THR=31), Att=1/9;all channels pulsed; all channels enabled The tests 4.1 to 4.8 will all have same value in CR3 ( all channels enabled, mux off, Vfb=1.5v(DAC=30) ) The sequence for this will be 1. Set serial mode. 2. Set SAD and TP_SL pins as needed 3. Load address register to write to CR3 4. Load serial control registers CR3 -- for all channels enabled, mux off, Vfb = 1.5V (DAC=30) Then for tests 4.1 to 4.4 first load CR2 with appropriate value for that test 5. Set serial mode. 6. Set SAD and TP_SL pins as needed 7. Load address register to write to CR2 8. Load serial control registers CR2 with appropriate values of threshold and test pulse values For each test 4.1 through 4.4, load appropriate values into CR1 to pulse channels 1-4, then 5-8, then 9-12 and 13-16. After each load of CR1 generate a test pulse and observe the outputs. 1. Set serial mode 2. Load address register to write to CR1 3. load serial control registers CR1 to pulse channels 1-4, steepest slope 4. Setup operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16. Repeat steps 1-7 above changing only step 3 for channels 5-8, 9-12, and 13-16 successively. The sequence for tests 4.5 to 4.8 will be (CR3 is the same as loaded earlier). Now CR1 will be the same for these 4 tests (i.e. all channels pulsed and steepest slope) 1. Set serial mode. 2. Set SAD and TP_SL pins as needed 3. Load address register to write to CR1 4. Load serial control registers CR1 with all channels pulsed Then for each test 4.5 through 4.8, load appropriate values into CR2 5. Set serial mode 6. Load address register to write to CR2 7. load serial control registers CR2 with appropriate threshold and test pulse values 8. Setup operating mode 9. Issue reset 10. Issue test pulse 11. Observe the output at pads iout1 ... iout16. *Note: The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat-top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* Test 4 : For all tests 4.1 to 4.8 (CR3 is same)All channels enabled; mux off; Vfb=1.5v equiv(DAC=30) (Common for all tests 4.1 through 4.8) Refer to the timing diagram in FIGURE 4.0 for this part of the test. 1. Set up serial mode > Set serial mode pin OS = 5V 2. Set SAD pin =5V; set TP_SL pin = 5V ```{=html} <!-- --> ``` 3. Load address register to write to CR3 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR3 -- for all channels enabled, mux disabled; Vfb = 1.5v ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 0000 1000 0011 110 b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.1: All channels at 2 fC (DAC=2) input charge, 3 fC (DAC=50)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.1 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1; threshold = 3fC; pulse amplitude = 2fC ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 0000 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 0 0 0 0 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.1a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.a for this test. 3. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.1b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.b for this test. 9. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.1c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.c for this test. 15. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > No outputs must fire. Test 4.1d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.d for this test. 21. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.2: All channels at 5 fC (DAC=7)input charge, 3 fC (DAC=50)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.2 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1; threshold = 3fC; pulse amplitude = 5fC ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 0000 111 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 0 0 0 0 1 1 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.2a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.a for this test. 3. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 1-4 must fire. Test 4.2b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.b for this test. 9. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 5-8must fire. Test 4.2.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.c for this test. 15. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > Only outputs 9-12must fire. Test 4.2.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.d for this test. 21. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 13-16 must fire. Test 4.3: All channels at 5 fC (DAC=6) input charge, 7 fC (DAC=10)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.3 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1; threshold = 7fC(DAC=10); pulse amplitude = 5fC(DAC=6) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1010 0000 110 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 0 0 1 0 1 0 0 0 0 0 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.3.a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.a for this test. 3. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.3b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.b for this test. 9. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.3.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.c for this test. 15. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > No outputs must fire. Test 4.3.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.d for this test. 21. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.4: All channels at 9 fC (DAC=10)input charge, 7 fC (DAC=10)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.4 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1; threshold = 7fC(DAC=10); pulse amplitude = 9fC(DAC=10) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1010 0001 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 0 0 1 0 1 0 0 0 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.4a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.a for this test. 3. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 1-4 must fire. Test 4.4b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.b for this test. 9. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 5-8must fire. Test 4.4.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.c for this test. 15. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > Only outputs 9-12must fire. Test 4.4.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.d for this test. 21. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 13-16 must fire. Test 4. 5to8: All channels pulsed; steepest leakage slope; all channels enabled, mux off, Vfb=1.5v (DAC=30) (CR1 values common to tests 4.5 through 4.8 ) Refer to the Timing diagram in FIGURE 4.5to8 for this test. (CR3 is already loaded with the right value) 1. Set up serial mode > Set serial mode pin OS = 5V 2. Set SAD pin =5V; set TP_SL pin = 5V 3. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 4. load serial control registers CR1 -- for all channels pulsed, steepest leakage slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 1111 1111 1111 000 b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4. 5: All channels at 12fC input charge (DAC=15), 15 fC threshold (DAC=31), Att=1/3 (01) Refer to the Timing diagram in FIGURE 4.5 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1/3; threshold = 15fC; pulse amplitude = 12fC ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 1111 0001 111 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 1 1 1 1 0 0 0 1 1 1 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.6: All channels at 19fC (DAC=24) input charge, 15 fC threshold (DAC=31), Att=1/3(01);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.6 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1/3; threshold = 15fC; pulse amplitude = 19fC ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 1111 0011 000 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 1 1 1 1 0 0 1 1 0 0 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > All outputs must fire. Test 4.7: All channels at 33fC (DAC=42) input charge, 44 fC threshold (DAC=31), Att=1/9 (10b);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.7 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1/9; threshold = 44fC(DAC=31); pulse amplitude = 33fC(DAC=42) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1001 1111 0101 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 0 1 1 1 1 1 0 1 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.8: All channels at 58fC (DAC=73)input charge, 44 fC threshold (DAC=31), Att=1/9(10b);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.8 for this test. 1. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR2 -- for att=1/9; threshold = 44fC(DAC=31); pulse amplitude = 58fC(DAC=73) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1001 1111 1001 001 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 0 1 1 1 1 1 1 0 0 1 0 0 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > All outputs must fire. TEST 5: Operating mode Test for Cross Talk/ Feedthrough a. All channels at 90 fC input charge, 2 fC threshold, Att=1;odd channels pulsed; all channels enabled b. All channels at 90 fC input charge, 2 fC threshold, Att=1;even channels pulsed; all channels enabled The sequence will be 1. Setup serial mode 2. Set SAD and TP_SL pins 3. Load address register to write to CR2 4. load serial control registers CR2 -- for 90fC charge input, 2fC threshold, att=1 5. Load address register to write to CR3 6. load serial control registers CR3 -- for all channels enabled, mux off, Vfb = 1.5V DAC equivalent Then for each section, load appropriate values into CR1 1. Set serial mode 2. Load address register to write to CR1 3. load serial control registers CR1 to appropriate value 4. Set operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16 (42 -- 57). *Note: The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* Test 5: All channels at 90fC (DAC=110); threshold = 2fC (DAC=50), att=1 (00), steepest leakage; all channels enabled; mux off; Vfb = 1.5v equiv. Refer to the timing diagram in FIGURE 5 for this part of the test. 1. Set up serial mode by OS pin= 0V and TP_SL pin = 5V 2. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 3. Load serial control registers CR2 -- for 90fC charge input (DAC=110), 2fC threshold (DAC=50), att=1 ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 1101 110 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 1 1 0 1 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 4. Load address register to write to CR3 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 5. load serial control registers CR3 -- for all channels enabled, mux disabled; Vfb = 1.5v ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 0000 1000 0011 110 b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ### Test 5a: All channels at 90fC input charge, 2 fC threshold, Att=1;odd channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 5a for this test. 1. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V. Set OS = 5v for serial mode. b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR3 -- for odd channels pulsed, steepest slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only odd channel outputs must fire. Test 5b: All channels at 90fC input charge, 2 fC threshold, Att=1;even channels pulsed; steepest slope; all channels enabled Refer to the Timing diagram in FIGURE 5b for this test. 1. Load address register to write to CR1 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V. Set OS = 5v for serial mode. b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR1 for even channels pulsed ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 000 b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only even channel outputs must fire. TEST 6: Operating mode Test for Cross Talk/ Feedthrough via channel disables ### a. All channels at 90 fC input charge, 2 fC threshold, Att=1;all channels pulsed; odd channels enabled b. All channels at 90 fC input charge, 2 fC threshold, Att=1;all channels pulsed; even channels enabled ### ### The sequence will be 1. Setup OS to serial mode 2. Set SAD and TP_SL pins 3. Load address register to write to CR1 4. load serial control registers CR1 -- for all channels pulsed, steepest leakage slope 5. Load address register to write to CR2 6. load serial control registers CR2 -- for 90fC charge input, 2fC threshold, att=1 Then for each section, load appropriate values into CR3 1. Set up OS to serial mode 2. Load address register to write to CR3 3. load serial control registers CR3 to appropriate value 4. Change OS to operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16 (42 -- 57). *Note: The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat-top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* ### ### Test 6: All channels at 90fC; threshold = 2fC, att=1, maximum leakage slope; all channels pulsed Refer to the Timing diagram in FIGURE 6 for this test. 1. Set up operating mode pin OS = 5V for serial mode and TP_SL pin = 5V 2\. Load address register to write to CR1 a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 5. load serial control registers CR1 -- all channels pulsed and maximum leakage slope ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 1111 1111 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 6. Load address register to write to CR2 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 7. load serial control registers CR2 -- for att=1; charge = 90fC (DAC=110); threshold = 2fC(DAC=50) ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 1101 110b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 1 1 0 1 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ### Test 6a: All channels at 90fC input charge, 2 fC threshold, Att=1;all channels pulsed; steepest leakage slope; odd channels enabled Refer to the Timing diagram in FIGURE 6a for this test. 1. Load address register to write to CR3 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. load serial control registers CR3 -- for odd channels enabled; mux off; VFb=1.5v equiv. ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 1000 0011 110b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only odd channel outputs must fire. Test 6b: All channels at 90fC input charge, 2 fC threshold, Att=1;all channels pulsed; steepest leakage slope; even channels enabled Refer to the Timing diagram in FIGURE 6b for this test. 1. Load address register to write to CR3 ```{=html} <!-- --> ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html} <!-- --> ``` 2. Load serial control registers CR3 -- for odd channels enabled; mux off; VFb=1.4v equiv. ```{=html} <!-- --> ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 1000 0111 110b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td><p><span class="smallcaps">D</span></p> <p><span class="smallcaps">16</span></p></td> <td><span class="smallcaps">D15</span></td> <td><span class="smallcaps">D14</span></td> <td><span class="smallcaps">D13</span></td> <td><span class="smallcaps">D12</span></td> <td><span class="smallcaps">D11</span></td> <td><span class="smallcaps">D10</span></td> <td><span class="smallcaps">D9</span></td> <td><span class="smallcaps">D8</span></td> <td><span class="smallcaps">D7</span></td> <td><span class="smallcaps">D6</span></td> <td><span class="smallcaps">D5</span></td> <td><span class="smallcaps">D4</span></td> <td><span class="smallcaps">D3</span></td> <td><span class="smallcaps">D2</span></td> <td><span class="smallcaps">D1</span></td> <td><span class="smallcaps">M5</span></td> <td><span class="smallcaps">M4</span></td> <td><span class="smallcaps">M3</span></td> <td><span class="smallcaps">M2</span></td> <td><span class="smallcaps">M1</span></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">6</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">5</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">4</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">3</span></p></td> <td><p><span class="smallcaps">F</span></p> <p><span class="smallcaps">2</span></p></td> <td><span class="smallcaps">F1</span></td> </tr> <tr class="even"> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">0</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">1</span></td> <td><span class="smallcaps">0</span></td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html} <!-- --> ``` 3. Change to operating mode by setting OS=0V 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only even channel outputs must fire. ### ### ### ### ### ### ### ## ![](media/image2.wmf){width="4.604861111111111in" height="6.611805555555556in"} {#section-14 .unnumbered} ## APPENDIX 2: TGL98.V2 PIN LIST -------- ----------- ------------------------- --------------------------------- Pin.no Name. Description I/O type 1 Vin16 Input 16 Charge input 2 Vin15 Input 15 Charge input 3 Vin14 Input 14 Charge input 4 Vin13 Input 13 Charge input 5 Vin12 Input 12 Charge input 6 Vin11 Input 11 Charge input 7 Vin10 Input 10 Charge input 8 Vin9 Input 9 Charge input 9 Vin8 Input 8 Charge input 10 Vin7 Input 7 Charge input 11 Vin6 Input 6 Charge input 12 Vin5 Input 5 Charge input 13 Vin4 Input 4 Charge input 14 Vin3 Input 3 Charge input 15 Vin2 Input 2 Charge input 16 Vin1 Input 1 Charge input 17 t Power thru spacer pad 18 t Power thru spacer pad 19 t Power thru spacer pad Corner NW Power thru corner pad 20 V1 Preamp S1 supply Preamp S1 supply, RC iso from LDO 21 Gnd1 Ground Common ground 22 X Ground ring spacer pad 23 THRbias Threshold bias bypass Threshold current ref., bypass cap to gnd. 24 V2 Discriminator/ S2 supply Analog supply to S2, mux and discriminator, RC iso from LDO 25 Gnd2 Ground Common ground 26 AO Analog output Analog output voltage 27 X Ground ring spacer pad 28 RSTS1 S1 reset length adjust/ Reset circuit (1^st^ stage) bypass charging current ref., Bypass cap toV3 29 RSTS2 S2 reset length adjust/ Reset circuit (2^nd^ stage) bypass charging current ref., Bypass cap toV3 30 OS Operate/serial mode Digital input, 489 rcvr 31 SAD Address/data control Digital input, 489 rcvr 32 SOE Serial output enable Digital output, open drain, 485 xcvr, tristate 33 RD/SC Reset-Disable/Serial Digital input, 489 rcvr clock 34 TP/SL Test pulse/ Serial latch Digital input, 489 rcvr 35 SI Serial input Digital input, 485 xcvr 36 SO Serial output Digital output, open drain, 485 xcvr,triatate 37 V3 Digital/switching supply Digital/ Reset/ Switching supply, RC isolated from LDO 38 Gnd3 Ground Common ground Corner NE Power thru corner pad 39 Vfb Power thru spacer pad Feedback adjust thru DAC, bypass cap to gnd. 40 OSbias One shot bias adjust/ Oneshot current bias ref., bypass bypass cap to V3 41 OR Output reference current Current source output 20uA 42 Iout1 Output 1 Current source output, 70uA 43 Iout2 Output 2 Current source output, 70uA 44 Iout3 Output 3 Current source output, 70uA 45 Iout4 Output 4 Current source output, 70uA 46 Iout5 Output 5 Current source output, 70uA 47 Iout6 Output 6 Current source output, 70uA 48 Iout7 Output 7 Current source output, 70uA 49 Iout8 Output 8 Current source output, 70uA 50 Iout9 Output 9 Current source output 70uA 51 Iout10 Output 10 Current source output 70uA 52 Iout11 Output 11 Current source output 70uA 53 Iout12 Output 12 Current source output 70uA 54 Iout13 Output 13 Current source output 70uA 55 Iout14 Output 14 Current source output 70uA 56 Iout15 Output 15 Current source output 70uA 57 Iout16 Output 16 Current source output 70uA Corner SE Power thru corner pad 58 Gnd3a Ground Common ground 59 V3a Digital/ switching supply Digital/ Reset/ Switching supply, RC isolated from LDO 60 V2Ibias Current switch bias V2I cell bias current ref., adjust/ bypass bypass cap to V3 61 A5 Address line 5 CMOS pull-up input, gnd or nc 62 A4 Address line 4 CMOS pull-up input, gnd or nc 63 A3 Address line 3 CMOS pull-up input, gnd or nc 64 A2 Address line 2 CMOS pull-up input, gnd or nc 65 A1 Address line 1 CMOS pull-up input, gnd or nc 66 A0 Address line 0 CMOS pull-up input, gnd or nc 67 X Ground ring spacer pad 68 da12_bias Differential Amp. Bias Diffamp. Stage 1,2 bias current adjust/ bypass ref. , bypass cap to gnd. 69 Gnd2a Ground Common ground 70 V2a Discriminator/ S2 supply Analog supply to S2, mux and discriminator, RC iso from LDO 71 S2bias S2 bias adjust/ bypass S2 current ref. bypass, cap to V2 72 VM Voltage midpoint input 2.5V reference input, w/ bypass to gnd. 73 X Ground ring spacer pad 74 S1bias S1 bias adjust/ bypass S1 current ref. bypass, cap to gnd 75 Gnd1a Ground Common ground 76 V1a Preamp S1 supply Preamp S1 supply, RC iso from LDO Corner SW Power thru corner pad -------- ----------- ------------------------- --------------------------------- # APPENDIX 3 The TGL98.V2 has a 10 bit address register tgl_adreg that stores command data is present in the chip. It qualifies the clocks and latches based on value of OS and SAD signals. It generates the shift register select signal "sel" to either read in data from a serial string or latch back data from the serial register latch based on the value of rw, ro and r1. The address register contents A0..A5 are passed through a decoder that checks if the addresses match with the hardwired chip address. The chip is selected if addresses match or if bit A6 (broadcast bit is 5V). It decodes the commands received only if that chip is being addressed. The address decoder first compares the lowest 5 data bits with A0.. A5 pins (66. 61) to see if they match or checks to see if A6='1'. Only if one of the above mentioned conditions match is the rest of the decoding enabled. The TGL98.V2 has three sets of serial data registers CR1, CR2 and CR3 to do the controls of the TGL98.V2 for different modes of operation and configuration, which are controlled, by a serially loaded address register. CR1 is the test pattern control register. It selects which channel is to be enabled for test pulsing and has 3 bits for adjusting the leakage slope of the preamp. The signal to select a channel is active high (5V). CR2 is the Control register that controls the attenuator, the discriminator threshold and the test amplitude. The test amplitude is a 7 bit DAC input that selects the value of Vtest which varies in steps of 1fC equivalent. The discriminator threshold is a 6 bit DAC input that sets the discriminator level. The attenuator select helps to select the gross charge range of interest. CR3 is the register that enables/disables (0/1) a channel and also sets the bits that control the preamp MUX output and sets the 6 bits that adjust the feedback voltage DAC. The serial data bits of the address register and the 3 data registers is briefly defined in Appendix 4. The data is shifted via pin (SI) and read out via pin (SO). The test patterns to be applied follow the given sequence. SOE is an output pin which enables the 489 transceiver board. It is tristated when data is shifted in and pulled low (0V) when data is being shifted out of the chip. APPENDIX 4: TGL98.V2 SERIAL DATA BITS TGL98.V2 SERIAL ADDRESS REGISTER -------- -------- ------ ------ ------ ------ ------ ------ ------ ------ msb lsb R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 -------- -------- ------ ------ ------ ------ ------ ------ ------ ------ +-------------+--------------------------------------------------------+ \| R0 \| Register address MSB; 00=no register, 01=CR1, 10=CR2 , \| \| \| 11= CR3 \| \| R1 \| \| \| \| Register address LSB; 00=no register, 01=CR1, 10=CR2 , \| \| \| 11= CR3 \| +-------------+--------------------------------------------------------+ \| A6 \| TGL98.V2 address broadcast bit \| \| \| \| \| A5 \| MSB TGL98.V2 address bit \| \| \| \| \| A4 \| 5SB TGL98.V2 address bit \| \| \| \| \| A3 \| 4SB TGL98.V2 address bit \| \| \| \| \| A2 \| 3SB TGL98.V2 address bit \| \| \| \| \| A1 \| 2SB TGL98.V2 address bit \| \| \| \| \| A0 \| LSB TGL98.V2 address bit \| +-------------+--------------------------------------------------------+ CR1: TEST PATTERN AND DECAY SLOPE COMPENSATION CONTROL REGISTER ----- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- msb lsb T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 ----- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- +---------+------------------------------------------------------------+ \| T1 \| 0= disable test pulse, 1= enable test pulse, channel 1 \| \| \| \| \| T2 \| 0= disable test pulse, 1= enable test pulse, channel 2 \| \| \| \| \| T3 \| 0= disable test pulse, 1= enable test pulse, channel 3 \| \| \| \| \| T4 \| 0= disable test pulse, 1= enable test pulse, channel 4 \| \| \| \| \| T5 \| 0= disable test pulse, 1= enable test pulse, channel 5 \| \| \| \| \| T6 \| 0= disable test pulse, 1= enable test pulse, channel 6 \| \| \| \| \| T7 \| 0= disable test pulse, 1= enable test pulse, channel 7 \| \| \| \| \| T8 \| 0= disable test pulse, 1= enable test pulse, channel 8 \| \| \| \| \| T9 \| 0= disable test pulse, 1= enable test pulse, channel 9 \| \| \| \| \| T10 \| 0= disable test pulse, 1= enable test pulse, channel 10 \| \| \| \| \| T11 \| 0= disable test pulse, 1= enable test pulse, channel 11 \| \| \| \| \| T12 \| 0= disable test pulse, 1= enable test pulse, channel 12 \| \| \| \| \| T13 \| 0= disable test pulse, 1= enable test pulse, channel 13 \| \| \| \| \| T14 \| 0= disable test pulse, 1= enable test pulse, channel 14 \| \| \| \| \| T15 \| 0= disable test pulse, 1= enable test pulse, channel 15 \| \| \| \| \| T16 \| 0= disable test pulse, 1= enable test pulse, channel 16 \| +---------+------------------------------------------------------------+ \| DS3 \| MSB, decay slope select MUX, 111 = no decay \| \| \| \| \| DS2 \| 2SB, decay slope select MUX \| \| \| \| \| DS1 \| LSB, decay slope select MUX, 000 = max. decay \| +---------+------------------------------------------------------------+ CR2: ATTENUATOR, DISCRIMINATOR, THRESHOLD, TEST AMPLITUDE CONTROL REGISTER ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- msb lsb At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- +-------+--------------------------------------------------------------+ \| At2 \| MSB, C-R attenuator, 00= no atten, 01=1/3 atten, 10=1/9 \| \| \| atten \| \| At1 \| \| \| \| LSB, C-R attenuator, 00= no atten, 01=1/3 atten, 10=1/9 \| \| \| atten \| +-------+--------------------------------------------------------------+ \| Vt6 \| MSB discriminator voltage threshold DAC input, 111111 = min \| \| \| threshold \| \| Vt5 \| \| \| \| 5SB discriminator voltage threshold DAC input \| \| Vt4 \| \| \| \| 4SB discriminator voltage threshold DAC input \| \| Vt3 \| \| \| \| 3SB discriminator voltage threshold DAC input \| \| Vt2 \| \| \| \| 2SB discriminator voltage threshold DAC input \| \| Vt1 \| \| \| \| LSB discriminator voltage threshold DAC input \| +-------+--------------------------------------------------------------+ \| Ta7 \| MSB Test Pulse Amplitude DAC input, 1111111 = 127 fC \| \| \| \| \| Ta6 \| 6SB Test Pulse Amplitude DAC input \| \| \| \| \| Ta5 \| 5SB Test Pulse Amplitude DAC input \| \| \| \| \| Ta4 \| 4SB Test Pulse Amplitude DAC input \| \| \| \| \| Ta3 \| 3SB Test Pulse Amplitude DAC input \| \| \| \| \| Ta2 \| 2SB Test Pulse Amplitude DAC input \| \| \| \| \| Ta1 \| LSB Test Pulse Amplitude DAC input \| +-------+--------------------------------------------------------------+ CR3: CHANNEL DISABLE, ANALOG OUTPUT MUX SELECT AND FEEDBACK VOLTAGE CONTROL REGISTER <table style="width:100%;"> <colgroup> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>msb</td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td>lsb</td> </tr> <tr class="even"> <td><p>D</p> <p>16</p></td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td><p>F</p> <p>6</p></td> <td><p>F</p> <p>5</p></td> <td><p>F</p> <p>4</p></td> <td><p>F</p> <p>3</p></td> <td><p>F</p> <p>2</p></td> <td>F1</td> </tr> </tbody> </table> +-----------+----------------------------------------------------------+ \| D16 \| MSB, channel 16, 0=enable, 1= disable \| \| \| \| \| D15 -- D2 \| 15SB -- 2SB , channel 15 -- channel 2 , 0= enable, 1 = \| \| \| disable \| \| D1 \| \| \| \| LSB, channel 1 \| +-----------+----------------------------------------------------------+ \| M5 \| Mux enable/disable bit, 0=enable, 1=disable \| \| \| \| \| M4 \| MSB, analog output mux address, 1111 = channel 16 select \| \| \| \| \| M3 \| 3SB analog output mux address \| \| \| \| \| M2 \| 2SB analog output mux address \| \| \| \| \| M1 \| LSB analog output mux address \| +-----------+----------------------------------------------------------+ \| F6 \| MSB, Vfb DAC input, 11111 = 2.5v \| \| \| \| \| F5 \| 5SB, Vfb DAC input \| \| \| \| \| F4 \| 4SB, Vfb DAC input \| \| \| \| \| F3 \| 3SB Vfb DAC input \| \| \| \| \| F2 \| 2SB Vfb DAC input \| \| \| \| \| F1 \| LSB Vfb DAC input \| +-----------+----------------------------------------------------------+ # APPENDIX 5: PAD DIMENSIONS FOR THE TGL98.V2 CHIP Pad dimensions for the TGL98 chip Chip BoundBox \[(0,0), (6224,6224)\] = SW co-ords & NE co-ords lambda 0.6 Note: All dimensions are with reference to the SW most corner of the chip pin name pin no. Side pad SW co-ords pad NE co-ords pad center co-ords in microns in microns in microns (x1, y1) (x2, y2) (x3, y3) \$Vin16 1 W (6.6, 290.4) (94.2, 378) (50.4, 334.2) \$Vin15 2 W (6.6, 459.6) (94.2, 547.2) (50.4, 503.4) \$Vin14 3 W (6.6, 631.2) (94.2, 718.8) (50.4, 675) \$Vin13 4 W (6.6, 800.4) (94.2, 888) (50.4, 844.2) \$Vin12 5 W (6.6, 972) (94.2, 1059.6) (50.4, 1015.8) \$Vin11 6 W (6.6, 1141.2) (94.2, 1228.8) (50.4, 1185) \$Vin10 7 W (6.6, 1312.8) (94.2, 1400.4) (50.4, 1356.6) \$Vin9 8 W (6.6, 1482) (94.2, 1569.6) (50.4, 1525.8) \$Vin8 9 W (6.6, 1653.6) (94.2, 1741.2) (50.4, 1697.4) \$Vin7 10 W (6.6, 1822.8) (94.2, 1910.4) (50.4, 1866.6) \$Vin6 11 W (6.6, 1994.4) (94.2, 2082) (50.4, 2038.2) \$Vin5 12 W (6.6, 2163.6) (94.2, 2251.2) (50.4, 2207.4) \$Vin4 13 W (6.6, 2335.2) (94.2, 2422.8) (50.4, 2379) \$Vin3 14 W (6.6, 2504.4) (94.2, 2592) (50.4, 2548.2) \$Vin2 15 W (6.6, 2676) (94.2, 2763.6) (50.4, 2719.8) \$Vin1 16 W (6.6, 2845.2) (94.2, 2932.8) (50.4, 2889) \$V1 20 N (290.4, 3640.2) (378, 3727.8) (334.2, 3684) \$gnd1 21 N (460.2, 3640.2) (547.8, 3727.8) (504, 3684) \$THR_bias 23 N (800.4, 3640.2) (888, 3727.8) (844.2, 3684) \$V2 24 N (972, 3640.2) (1059.6, 3727.8) (1015.8, 3684) \$gnd2 25 N (1141.8, 3640.2) (1239.4, 3727.8) (1185.6, 3684) \$AO 26 N (1312.8, 3640.2) (1400.4, 3727.8) (1356.6, 3684) \$RSTS1_adj 28 N (1653.6, 3640.2) (1741.2, 3727.8) (1697.4, 3684) \$RSTS2_adj 29 N (1822.8, 3640.2) (1910.4, 3727.8) (1866.6, 3684) \$OS 30 N (1994.4, 3640.2) (2082, 3727.8) (2038.2, 3684) \$SAD 31 N (2163.6, 3640.2) (2251.2, 3727.8) (2207.4, 3684) \$SOE 32 N (2335.2, 3640.2) (2422.8, 3727.8) (2379, 3684) \$RD_SC 33 N (2504.4, 3640.2) (2592, 3727.8) (2548.2, 3684) \$TP_SL 34 N (2676, 3640.2) (2763.6, 3727.8) (2719.8, 3684) \$SI 35 N (2845.2, 3640.2) (2932.8, 3727.8) (2889, 3684) \$SO 36 N (3016.8, 3640.2) (3104.4, 3727.8) (3060.6, 3684) \$V3 37 N (3186, 3640.2) (3273.6, 3727.8) (3229.8, 3684) \$gnd3 38 N (3357, 3640.2) (3445.2, 3727.8) (3400.8, 3684) \$Vfb(PAD) 39 E (3640.2,3357.6) (3727.8,3445.2) (3864, 3401.4) \$OS_bias 40 E (3640.2, 3186) (3727.8, 3273.6) (3684, 3229.8) \$OR 41 E (3640.2, 3016.8) (3727.8, 3104.4) (3684, 3060.6) \$Iout1 42 E (3640.2, 2845.2) (3727.8, 2932.8) (3684, 2889) \$Iout2 43 E (3640.2, 2676) (3727.8, 2763.6) (3684, 2719.8) \$Iout3 44 E (3640.2, 2504.4) (3727.8, 2592) (3684, 2548.2) \$Iout4 45 E (3640.2, 2335.2) (3727.8, 2422.8) (3684, 2379) \$Iout5 46 E (3640.2, 2163.6) (3727.8, 2251.2) (3684, 2207.4) \$Iout6 47 E (3640.2, 1994.4) (3727.8, 2082) (3684, 2038.2) \$Iout7 48 E (3640.2, 1822.8) (3727.8, 1910.4) (3684, 1866.6) \$Iout8 49 E (3640.2, 1653.6) (3727.8, 1741.2) (3684, 1697.4) \$Iout9 50 E (3640.2, 1482) (3727.8, 1569.6) (3684, 1525.8) \$Iout10 51 E (3640.2, 1312.8) (3727.8, 1400.4) (3684, 1356.6) \$Iout11 52 E (3640.2, 1141.2) (3727.8, 1228.8) (3684, 1185) \$Iout12 53 E (3640.2, 972) (3727.8, 1059.6) (3684, 1015.8) \$Iout13 54 E (3640.2, 800.4) (3727.8, 888) (3684, 844.2) \$Iout14 55 E (3640.2, 631.2) (3727.8, 718.8) (3684, 675) \$Iout15 56 E (3640.2, 459.6) (3727.8, 547.2) (3684, 503.4) \$Iout16 57 E (3640.2, 290.4) (3727.8, 378) (3684, 334.2) \$gnd3a 58 S (3357, 6.6) (3444.6, 94.2) (3400.8, 50.4) \$V3a 59 S (3187.2, 6.6) (3274.8, 94.2) (3231, 50.4) \$V2I_bias 60 S (3015.6, 6.6) (3103.2, 94.2) (3059.4, 50.4) \$A5 61 S (2846.4, 6.6) (2934, 94.2) (2890.2, 50.4) \$A4 62 S (2674.8, 6.6) (2762.4, 94.2) (2718.6, 50.4) \$A3 63 S (2505.6, 6.6) (2593.2, 94.2) (2549.4, 50.4) \$A2 64 S (2334, 6.6) (2421.6, 94.2) (2377.8, 50.4) \$A1 65 S (2164.8, 6.6) (2252.4, 94.2) (2208.6, 50.4) \$A0 66 S (1993.2, 6.6) (2080.8, 94.2) (2037, 50.4) \$DA12_bias 68 S (1652.4, 6.6) (1740, 94.2) (1696.2, 50.4) \$gnd2a 69 S (1482.6, 6.6) (1570.2, 94.2) (1526.4, 50.4) \$V2a 70 S (1311.6, 6.6) (1399.2, 94.2) (1355.4, 50.4) \$S2_bias 71 S (1142.4, 6.6) (1230, 94.2) (1186.2, 50.4) \$VM 72 S (970.8, 6.6) (1058.4, 94.2) (1014.6, 50.4) \$S1_bias 74 S (630, 6.6) (717.6, 94.2) (673.8, 50.4) \$gnd1a 75 S (460.2, 6.6) (547.8, 94.2) (504, 50.4) \$V1a 76 S (289.2, 6.6) (376.8, 94.2) (333, 50.4) # # # # #	en
converted_docs	887147	Required Report - public distribution Date: 8/17/2005 GAIN Report Number: PK5012 PK5012 Pakistan Cotton and Products Quarterly Report 2005 Approved by: Howard Anderson, Agriculture Attaché, US Embassy I![](media/image1.wmf)slamabad Prepared by: Mohammad Shafiq Ur Rehman, Agriculture Specialist, US Embassy, Islamabad Report Highlights: The MY 2005/06 cotton harvest is forecast at 1.89 Million Metric Tons (MMT) - a significant decrease from the previous year production of 2.48 MMT. Progressive textile mills are focusing on producing better-quality products, particularly for export, making Pakistan a leading market for U.S. Pima and other grades of cotton. Consumption continues to expand in response to a resurgence in export markets and strong domestic demand. With domestic prices increasing mills are finding the importation of upland cotton increasingly attractive. Includes PSD Changes: Yes Includes Trade Matrix: No Quarterly Report Islamabad \[PK1\] \[PK\] Table of Contents [Executive Summary 3](#executive-summary) [Table 1: Cotton Production, Supply and Demand 3](#table-1-cotton-production-supply-and-demand) [Production 3](#production) [Production Policy 4](#production-policy) [Consumption 4](#consumption) [Table 2: Cotton and Synthetic Fiber Consumption 5](#table-2-cotton-and-synthetic-fiber-consumption) [Table 3: Yarn and Fabric Production 5](#table-3-yarn-and-fabric-production) [Trade 5](#trade) [Stocks 6](#stocks) # Executive Summary The MY 2005/06 crop is forecast to be 1.89 Million Metric Tons (MMT), assuming a normal weather pattern and pest infestation. Progressive textile mills are focusing on producing better-quality products, particularly for the export market, making Pakistan a leading market for U.S. Pima and other grades of medium to long staple cotton. Total consumption continues to expand in response to strong export and domestic demand. Domestic prices are increasing, and are higher than the world rates for comparable grade local lint. Mills are finding the importation of upland cotton increasingly attractive. # # Table 1: Cotton Production, Supply and Demand +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| #### Pakistan \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| \| Cotton \| \| \| \| \| \| \| \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| \| \| \| \| E \| \| F \| * \| \| \| 200 \| Rev \| 200 \| sti \| 200 \| ore \| UO \| \| \| 3* \| ise \| 4 \| mat \| 5 \| cas \| M \| \| \| \| d \| \| e \| \| t \| \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| \| U \| P \| U \| P \| U \| P \| \| \| \| SDA \| ost \| SDA \| ost \| SDA \| ost \| \| \| \| Of \| Es \| Of \| Es \| Of \| Es \| \| \| \| fic \| tim \| fic \| tim \| fic \| tim \| \| \| \| ial \| ate \| ial \| ate \| ial \| ate \| \| \| \| \[O \| \[N \| \[O \| \[N \| \[O \| \[N \| \| \| \| ld\ \| ew\ \| ld\ \| ew\ \| ld\ \| ew\ \| \| \| \| ] \| ] \| ] \| ] \| ] \| ] \| \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| # \| \| 0 \| \| 0 \| \| 0 \| M \| \| #### Market Year Begin \| \| 5/2 \| \| 5/2 \| \| 5/2 \| M/Y \| \| \| \| 003 \| \| 004 \| \| 005 \| YYY \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Area Planted \| 0 \| \| 0 \| \| 0 \| \| \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Area Harvested \| 3 \| 3 \| 3 \| 3 \| 0 \| 3 \| (1 \| \| \| 092 \| 092 \| 200 \| 193 \| \| 000 \| 000 \| \| \| \| \| \| \| \| \| HA) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Beginning Stocks \| 491 \| 491 \| 442 \| 442 \| 808 \| 808 \| (1 \| \| \| \| \| \| \| \| \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Production \| 1 \| 1 \| 2 \| 2 \| 0 \| 1 \| (1 \| \| \| 687 \| 687 \| 504 \| 504 \| \| 890 \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Imports \| 403 \| 403 \| 218 \| 218 \| 0 \| 325 \| (1 \| \| \| \| \| \| \| \| \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| MY Imp. From U.S. \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| (1 \| \| \| \| \| \| \| \| \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| TOTAL SUPPLY \| 2 \| 2 \| 3 \| 3 \| 808 \| 3 \| (1 \| \| \| 581 \| 581 \| 164 \| 164 \| \| 023 \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Exports \| 44 \| 44 \| 131 \| 131 \| 0 \| 34 \| (1 \| \| \| \| \| \| \| \| \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| USE Dom. \| 2 \| 2 \| 2 \| 2 \| 0 \| 2 \| (1 \| \| Consumption \| 090 \| 090 \| 220 \| 220 \| \| 419 \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Loss Dom. \| 5 \| 5 \| 5 \| 5 \| \| 5 \| \| \| Consumption \| \| \| \| \| \| \| \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| TOTAL Dom. \| 2 \| 2 \| 2 \| 2 \| 0 \| 2 \| (1 \| \| Consumption \| 095 \| 095 \| 225 \| 225 \| \| 424 \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| Ending Stocks \| 442 \| 442 \| 808 \| 808 \| 0 \| 565 \| (1 \| \| \| \| \| \| \| \| \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ \| TOTAL DISTRIBUTION \| 2 \| 2 \| 3 \| 3 \| 0 \| 3 \| (1 \| \| \| 581 \| 581 \| 164 \| 164 \| \| 023 \| 000 \| \| \| \| \| \| \| \| \| MT) \| +------------------------+-----+-----+-----+-----+-----+-----+-----+ # Production Pakistan's MY 2005/06 crop did not start well, due, in part, to above normal winter and spring rains that collectively increased surface and ground water. Moreover, cooler and cloudy weather with intermittent rains slowed the planting campaign, especially in Sindh province. Similarly, Punjab province experienced land preparation and planting delays of 15-21 days, especially in areas where rains disrupted and delayed the harvest and threshing of the wheat crop. In addition, the market did not have the capacity to supply significant volumes of certified seed for replanting. A third factor is above normal pest infestation due to the moist weather in a situation where most farmers are not fully equipped to use quality pesticides and other inputs. Thus, cotton yields are forecast to be lower than last year based on crop damages due to floods, rains and pests. The monsoon season, which usually arrives in early July, started in late June and rainfall has remained above normal. During July heavy rains in the catchment areas of rivers and in the cotton belt resulted in flooding and damaged more than one hundred thousand hectares of cotton. Prevailing humid conditions and succulent growth may bring pest infestation above normal levels. Re-sowing may be constrained and have a significant impact on the harvest due to the limited availability of quality seed. Based on these factors MY 2005/06 production is forecast at 1.89 MMT, which assumes a 6 percent decrease in area under cultivation and in the face of uncertain weather for the remainder of the season. This projected drop in production is significant given Pakistan's Ministry of Food, Agriculture and Livestock (MINFAL) estimates placing the MY 2004/05 cotton harvest at 2.48 MMT. ## Production Policy Cotton is the backbone of Pakistan's economy and the government has intervened in the cotton market to support seed cotton prices. Seed cotton prices on average have been between Rs. 800-900 per maund (1 maund = 37.324 kilograms, Rs. 59.50=\$1). The season average open market prices had hovered near the set government intervention price of Rs. 863 per maund (Rs. 925 per 40 kilograms). Despite what turned out to be a record crop in MY 2004/05, initial uncertainty over the size of the crop proved sufficient to spur market speculation early in the year, which in turn, increased farm-gate prices to the benefit of the farmer. The government has continued a policy of placing no restriction on the cotton trade for import and export. In the 90's the government restricted exports at the beginning of the season until the size of the crop could be determined. # Consumption Pakistan's cotton consumption increased sharply, for a third year in a row, in response to export-driven demand. Thru the first 8 months of MY 2004/05, textile exports are running 4 percent (volume basis) above the corresponding period of last year despite around 11 percent decrease in export of cotton yarn. The textile industry has reported a 6.3 percent increase in the use of cotton and 3.2 percent of man-made fiber in first six months of the MY 2004/05, compared to the corresponding periods of last year. The spinning and weaving industries continue to invest heavily in new equipment as well as to renovate existing equipment due to improved profitability over the last several years. Strong domestic demand, with a marginal increase over last year, and stronger export demand underpin the current market surge. Looking toward 2006 the textile industry knows to remain competitive in the global market it must aggressively pursue quality improvements and production diversification to include more value-added products, rather than rely on low-value yarn-based exports. Synthetic fiber continues to gain acceptance among consumers who increasingly seek less expensive blended products to compensate for their shrinking buying power. The long-term trend is for synthetics to comprise an increasing share of domestic consumption. The growth in synthetic fiber use has been slow in 2004/05 due to rising petroleum prices and increases in end product prices. ## Table 2: Cotton and Synthetic Fiber Consumption ------------------- ------------------------ -------------------------- Year 1/ Cotton (MT) Synthetics (MT) 1999/00 1,566,348 404,008 2000/01 1,673,280 405,038 2001/02 1,755,669 409,557 2002/03 1,780,963 406,515 2003/04 1,938,678 468,984 2004/05 2/ 1,194,037 292,670 ------------------- ------------------------ -------------------------- 1/ July/June Marketing Year Data: Based on reporting mills information 2/ July-January Data Only: Based on reporting mills information Source: Ministry of Industries and Ministry of Finance, Government of Pakistan ## Table 3: Yarn and Fabric Production +-------------------+------------------------+-------------------------+ \| Year \| Yarn \| Cotton Cloth \| \| \| \| \| \| \| (MT) \| (Mil. Square meter) \| +-------------------+------------------------+-------------------------+ \| 1999/00 \| 1,669,900 \| 437.2 \| +-------------------+------------------------+-------------------------+ \| 2000/01 \| 1,721,000 \| 490.2 \| +-------------------+------------------------+-------------------------+ \| 2001/02 \| 1,808,600 \| 568.4 \| +-------------------+------------------------+-------------------------+ \| 2002/03 \| 1,915,160 \| 576.6 \| +-------------------+------------------------+-------------------------+ \| 2003/04 2/ \| 1,929,130 \| 683.4 \| +-------------------+------------------------+-------------------------+ \| 2004/05 3/ \| 829,900 \| 283.4 \| +-------------------+------------------------+-------------------------+ 1/ July/June Marketing Year 2/ Preliminary Data 3/ July-Nov Data Only Source: Ministry of Industries and Ministry of Finance, Government of Pakistan # Trade In MY 2004/05 Pakistan is projected to be a net importer of cotton as a result of strong domestic demand for better grades of cotton. During the first 6 months of the MY 2004/05, Pakistan imported 110,000 MT of cotton (about 7 percent lower than the corresponding period a year earlier) and exported 73,021 MT of cotton in the first 8 months (compared to 25,117 MT in the corresponding period a year earlier). Firms often import upland cotton for their export programs due to contamination problems in local cotton, particularly with alien fibers (polypropylene, jute). The problem occurs during the harvest and handling and wreaks havoc in the industry by creating yarn with differential yarn strength and differential dye uptake. Estimates are that contamination increases a mills' cost by 10 percent or more. Some mills have standardized their blend for export markets, with a predefined origin and percentage of imported cotton in the product. In MY 2003/04 and in MY 2004/05 to date, Pakistan is the largest buyer of U.S. Pima/ELS cotton. Progressive firms are focused on producing higher-count yarns and better quality fabrics for the export market. Specialized products demanded in the domestic market thus will continue to turn to quality inputs such as the U.S. Pima cotton. In MY 2005/06 Pakistan's import of US Pima/ELS and a variety of other medium to long staple cotton is expected to be strong. The demand for imported strict middling grade cotton may increase if the forecast of a small domestic crop materializes. # Stocks MY 2005/06 carry out stocks are forecast to decline substantially as a consequence of the decrease in the domestic harvest, higher domestic disappearances, and lower imports of medium staple cotton during the year. Most of the mills will be covered through November and December 2005, when the bulk of domestic crop will come onto the market.	en
markdown	138343	# Presentation: 138343 ## Backsplash - Use of ACD creates a problem of backsplash which mainly is a soft radiation from the shower in a calorimeter. - Backsplash can create a veto-signal in ACD, dramatically reducing efficiency to photons. - Efficiency of EGRET degraded by 50% at 10 GeV already - Segmented ACD is a way to minimize this effect. - Beam test at SLAC and Monte Carlo simulations demonstrate that segmentation of ~1000 cm2 at the top of GLAST is sufficient to maintain >90% efficiency up to 300 GeV - For off-axis events the ACD is closer to the “source” of backsplash; finer segmentation on the sides of ACD is required - 8	en
converted_docs	159288	Excerpted from Transcript provided by NEAL R. GROSS COURT REPORTERS AND TRANSCRIBERS 1323 RHODE ISLAND AVE., N.W. \(202\) 234-4433 WASHINGTON, D.C. 20005-3701 www.nealrgross.com "The physiologic, anatomic, and morphologic characteristics of AAA, with or without iliac involvement" By Dr. Hugh Beebe DR. BEEBE: Okay. Let\'s get started. On the subject of times though, in some of these sessions, we have got an awful lot to cover, and so we are going to need to keep one eye on the clock. John, rather than me saying next slide, if I just point at it, would you please change it. Thanks. Clearly, morphology, which is \-- we are kind of setting the stage for getting into this process here by talking about the standard aneurysm morphology, and how we assess it. And so that is what Barry and I are going to talk about, and that is a big deal in all of these clinical areas, but it is also a big deal for preclinical testing. And the method of assessing the morphology can be separated from understanding the data that we have, and Barry is going to address that subject in a while. But recognizing that there are some great differences here, and one of them from my perspective is that we are trying to solve a three dimensional issue with two dimensional tools in the past, and maybe it is time that we moved on a little bit. Rather than going through a kind of tiresome review of what actually are the morphologic characteristics of aneurysms, which I think everyone in this room probably knows very well, what I am going to try to do is just in a qualitative way review some thoughts about morphology to get us thinking about the difference between clinical and patient selection, and pre-clinic testing. They are not always the same thing, and a lot of the morphology data that we have bears on the clinical issue of patient selection and device selection for a given patient, but maybe doesn\'t describe very well what we need to know for pre-clinical testing purposes. So that the basic thing that we know is to sort of look at, and I have put some examples, striking examples, that aneurysms come in lots of shapes and sizes, just as people do. And I kind of think now that when I look at the classification that we devised in a consensus and that was published in JVS in 1997 is a little bit dated, and perhaps a little naive. That is a personal bias, but I think particularly when you get around to thinking about pre-clinical testing, this classification system doesn\'t serve us particularly well. Can you go back one, John. There was, for example, an enormous preoccupation with the distal neck. Well, today we don\'t care a whole lot about the distal neck. And there was a lot of focus on the simplistic, I think \-- and I think we would all agree \-- notion that there was a meaningful cut point at neck length. And now I think we \-- if we knew how to do it better, we would say, well, it just isn\'t length. It is length plus angulation, plus diameter, and it is a more complex thing than just simple length. Okay. Next, please. And the angulation was described in a way that is a little different from the way that we usually talk about it today, but it is primarily the difference between the super renal axis of the aorta, and the neck end of the body angle, but doesn\'t describe at all the angle within the aneurysm. But they have got lots of different angles, and we didn\'t describe anything. In fact, it is a pretty difficult task to describe iliac tortuosity. But that is turning out to be a big deal in multiple ways. And there is nothing in our data, pretty much nothing, about lumen size. And when you get to thinking about issues that are specific to pre-clinical testing, maybe this is pretty important. Next, please. It may be important what is inside this lumen, and devices may behave differently between the empty aneurysm and what I am calling the full aneurysm, but most of the time we don\'t pay much attention to this, unless it is such a small lumen that we are worried about operating a modular device when it is that small, and that it is so small at the bottom that it is going to pinch the lumen of the endograft. This is essentially absent from the literature and so we don\'t have much data. Well, there are a lot of anatomical factors important in patient selection, and the question is which of these \-- next please \-- are important for pre-clinical testing. And when you boil it down, the meat and potatoes are pretty much proximal neck factors, and all of these may be, and I think are, we would agree, very, very, important. Iliac arteries, we don\'t describe tortuosity very well, and we are not describing the lumen size very well. Calcification I will say something more about in a moment. But all of these are clearly factors that impact on clinical selection, and which of these need to be taken into account for pre-clinical testing to be meaningful. That is really the question. And we need to remember that this is unstable anatomy. It does vary by gender and by age. The older the patient, we are starting with generally a larger and different anatomy than a younger patient\'s. Next, please. Now, there has been proposed a classification method for an aneurysm neck shape. Next please. But most of the literature ignores this. Here is an example of why we do so at our peril. This is a cone shaped neck, but both the top and the bottom of the neck were within the diameter limits of inclusion and exclusion criteria for a clinical trial. We put an endograft in this patient, and 12 months later, it has migrated down 20 millimeters. We were within the perimeters of the trial, but it was a poor patient selection in my opinion. Next, please. When we talk about diameter and I think Barry will probably get into this a bit more, we have been fooling ourselves by measuring diameter simplistically by simply taking the least dimension on an axial slice as recommended in the literature. But if you use 3-D methods and reformat the slice, you find out that these necks are not all round. In fact, they are clinically significant. Here as an example is 6 millimeters. Actually, this is the true shape of this lumen. It is not a round neck. So sometimes we are mistaken, and calcification, we don\'t have a classification system that works in my opinion, and this circumference thing is whacko \-- next, please \--because they are not lined up. The volume averaging effect of the CT slice is misleading us, and we have developed a kind of quirky classification system there that is based on an artifact. Neck filling defects. They come in lots of different sizes and shapes. Next please. Papers have been written about how they don\'t matter. A lot of people think they do matter. For sure, it is not normal aortic wall. Next, please. So what do we do about this in pre-clinical testing? Do we ignore it or what is the deal here. We really don\'t know. Next, please. Type II endoleaks, do they affect device performance, and if they do, how, and should this be taken into account. This is quite different from patient selection. I think that most of us tend to ignore the patent lumbars, and perhaps patent IMAs, and wait to see what happens. Next, please. Well, enough about anatomy. A few thoughts about physiology. Next, please. A long time back, the 19th century, the idea that the aorta is a wind kessel. It is kind of a neat concept, but there is a huge elastic recoil phenomenon and reflected ways that accompany the original left ventricular ejection wave. And these tend to summate where? Right where we are trying to put in endografts, folks. It is in the infrarenal aorta. As a matter of fact, in an experimental animal, with short acting beta blockers, you can move where those waves summate up and down the aorta almost at will by tytrating the animal. It is very interesting. Next, please. If you look at the some of the experimental work that has come from Stanford, both in vitro and more recently exercise in vivo data, you find out that there is some very interesting things that happen in the infrarenal aorta. Here, if you can make it out, with exercise and the solid line is resting data, this is bicycle ergometry on an MR. Look at how aortic flow changes with really not heavy exercise. Most of the endograft patients are not doing heavy exercise, but a lot of them are more active than we tend to think. These are not just people that sit in a chair. They are out doing stuff. And the flow rates change dramatically with very significant changes in shear stress. Next please. So this is a complex stress strain curve in the infrarenal aorta, and there are a lot of factors that impact on it, and which of these are important, and how to take them into account is a big challenge. But to ignore them is no longer tenable. We just can\'t blow it off. Next, please. So in conclusion, I would say that there are many characteristics of aortoiliac morphology and physiology that you can measure. There is tons of stuff. The existing classifications maybe aren\'t quite suited, both to patient selection, but certainly to preclinical testing how. Next, please. So that the preclinical testing methods must select out the really valuable anatomical and physiologic factors that are going to influence the failure mode, inducers and promoters. And we probably should be taking into account from the beginning the usefulness of 3-D methods if we are ever going to get to the point of using computer simulation to help in preclinical testing, and graft performance predictions. So that is my remarks. Now, Barry is going to heighten our awareness about how the imaging data that we are using sometimes needs a lot of interpretation.	en
all-txt-docs	081082	PROGRAM PRIMES !Program: Lists all prime numbers from 2 up to an arbitrarily !chosen number "N". Method used: Ancient "Sieve of Eratosthenes" !and a well known theorem in number theory that every composite !(i.e., not prime) number has a prime number factor less than or !equal to the square root of the number itself. The number !"NMAX=10000000" below is arbitrary and may need to be reduced in !the program because of your specific computer memory and Fortran !compiler limitations. As a note, the code can be easily !re-written to save the numbers in an array and to write that !array to a hard disk file. ! !Author: Dr. Jerry R. Ziemke PARAMETER (NMAX=10000000) REAL Q(NMAX) WRITE(,) 'Enter N (0 < N <= 10,000,000):' READ(,) X N=IFIX(X) WRITE(,) 'Prime numbers:' DO I=1,N Q(I)=1. ENDDO DO I=2,N IF (Q(I).EQ.1.) THEN J=1 DO WHILE ((IJ).LE.N) Q(IJ)=0. j=j+1 ENDDO WRITE(,) I ENDIF ENDDO STOP END	en
all-txt-docs	048756	U. S. DEPARTMENT OF LABOR OFFICE OF THE SOLICITOR WASHINGTON 25 SEP 22 1961 MEMORANDUM # 25 TO: AGENCIES ADMINISTERING STATUTES REFERRED TO IN 29 CFR, SUBTITLE A, PART 5. FROM: James M. Miller Assistant Solicitor SUBJECT: Opinions on application of the Davis-Bacon and related Acts. Enclosed with previous covering memoranda, copies of opinions on the application of the Davis-Bacon and related Acts were furnished you for information and guidance in your enforce- ment programs under those Acts. We are now enclosing a copy of a recent opinion on this same general subject, which we are sure will be of further interest and assistance to you. Enclosure U. S. DEPARTMENT OF LABOR OFFICE OF THE SOLICITOR WASHINGTON 25 August 2, 1961 Mr. Fred R. Wolford Special Assistant to the Commissioner Labor Relations Public Housing Administration Housing and Home Finance Agency Washington 25, D. c. Re: Mexico Lumber Company Central Missouri Component Parts Company . Project M0-10-1 Mexico, Missouri E-61-1307 thru 1309 E-62-87 Dear Mr. Wolford: This is in reply to your letter and enclosures of June 30, 1961 regarding coverage under the labor stand- ards provisions of the Housing Act of 1949, as amended, of the operations of the Central Missouri Component Parts Company, and of the Mexico Lumber Company, both of whom are performing prefabrication work in connection with Housing Project No. MO-10-1, Mexico, Missouri. As you know, a fine line frequently distinguishes the operations of a materialman and a subcontractor for . the purpose of coverage under the Davis-Bacon and related Acts. However, we have reviewed the investigation reports and exhibits submitted by your Fort Worth Regional Office and, in our opinion, the operations of the subject firms on the instant project are clearly distinguishable. The work being performed by the Central Missouri Component Parts Company is the prefabrication of component roof panels. The specifications for this project called for this type of roof panel, and this information was available to all bidders. This type of roof panel is also prefabri- cated by other companies in the area. Because of the Mr. Fred R. Wolford Page.2 requirement of controlled temperature conditions in the plant, and the impracticality of moving plant equipment from job to job, such work cannot normally be done at the site. The firm is located in a permanent building, with ample storage space and equipment, under a three year lease. It also operated a similar plant in Columbia, Missouri which will be closed in November 1961 when its lease expires, and all of its operations will be consoli- dated in Mexico, Missouri. The time has applied for a license with The Plywood Fabricator Service, Inc., and it 1s bidding in the open market for additional work. It is our opinion that the operations of this firm quality as those of a materialman, and that they are not subject to coverage of the labor standards requirements on this project. The work being performed by the Mexico Lumber Company in connection with the project is the prefabri- cation of wall sections. Apparently, the prefabricated wall sections were not specified for the project as were the roof panels. The wall sections consist of 2" x 4" studs cut to size and nailed together. The sections allow openings for windows and-doorways. The prefabrica- tion consists of sawing and nailing and could readily be. performed on the job site. The subject plant was owned and operated by a Mr. Whipple who closed it on January 15, 1961 due to a lack of business. The Mexico Lumber Company held a mortgage on the plant and took it over as of that date. The project contract was awarded on January 31, 1961 and the contract between the successful prime contractor and the Mexico Lumber Company was entered into on approximately February 15, 1961. Mr. Whipple was employed by the com- pany as general foreman to process the prefabrication of wall sections for the subject, project. The bidders could have had no knowledge of any unit prices for this work from the Mexico Lumber Company since the bids were opened Mr. Fred R. Wolford Page 3 on January 5, 1961, ten days before the company took over the plant. The Mexico Lumber Company did no prefabrication work prior to that being performed for the instant project. It states that it has not advertised for or otherwise solicited additional prefabrication work, since the full plant capacity is being utilized on this project. The plant has not been altered to provide for additional space or machinery, and it is presently stocked with lumber for the instant project only. Based on the above described circumstances, The Mexico Lumber Company does not appear to qualify is a materialman on the above project. The prefabrication operations constitute, in our opinion, those of a sub- contractor, and the employees engaged therein would be deemed laborers and mechanics employed in the development of the project here involved - and, hence entitled to the contract wage rates for their classification of work. The Executive Director of the Housing Authority for the City of Mexico should be so advised by your Office so that steps may be taken to secure compliance with the contract labor standards We would appreciate a final report in this matter when appropriate corrective action has been ac- complished. Very truly yours, Charles Donahue Solicitor of Labor By James M. Miller Assistant Solicitor	en
all-txt-docs	241152	ZCZC MIATCPAT3 ALL TTAA00 KNHC DDHHMM BULLETIN HURRICANE MITCH ADVISORY NUMBER 28 NATIONAL WEATHER SERVICE MIAMI FL 10 AM EST WED OCT 28 1998 ...MITCH POUNDING RELENTLESSLY THE COAST AND ISLANDS OF HONDURAS... A HURRICANE WARNING REMAINS IN EFFECT FOR THE CARIBBEAN COAST OF HONDURAS...GUATEMALA...BELIZE...THE YUCATAN PENINSULA OF MEXICO FROM CABO CATOCHE SOUTHWARD...INCLUDING THE OFFSHORE ISLANDS OF THESE AREAS. A TROPICAL STORM WATCH IS IN EFFECT FOR THE CAYMAN ISLANDS. INTERESTS ELSEWHERE IN THE NORTHWESTERN CARIBBEAN SEA SHOULD CLOSELY MONITOR THE PROGRESS OF THIS VERY DANGEROUS HURRICANE. AT 10 AM EST...1500Z...THE CENTER OF HURRICANE MITCH WAS LOCATED NEAR LATITUDE 16.4 NORTH...LONGITUDE 85.6 WEST OR ABOUT 25 MILES...35 KM...EAST OF THE ISLAND OF GUANAJA...AND ABOUT 30 MILES...50 KM...NORTH OF THE COAST OF MAINLAND HONDURAS. MITCH HAS BEEN NEARLY STATIONARY THIS MORNING AND LITTLE MOTION IS EXPECTED THROUGH TONIGHT. THIS MEANS THAT THE CORE OF THE HURRICANE WILL CONTINUE TO BATTER THE COAST AND NEARBY ISLANDS OF HONDURAS TODAY AND THAT MITCH IS LIKELY TO REMAIN A THREAT TO THE ENTIRE NORTHWESTERN CARIBBEAN FOR THE NEXT TWO DAYS...OR LONGER. MAXIMUM SUSTAINED WINDS ARE NEAR 120 MPH...195 KM/HR...WITH HIGHER GUSTS. MITCH REMAINS A DANGEROUS HURRICANE...CATEGORY 3 ON THE SAFFIR/SIMPSON HURRICANE SCALE. SOME ADDITIONAL WEAKENING IS POSSIBLE WHILE MITCH CONTINUES TO INTERACT WITH LAND. HURRICANE FORCE WINDS EXTEND OUTWARD UP TO 105 MILES...165 KM... MAINLY NORTHEAST FROM THE CENTER...AND TROPICAL STORM FORCE WINDS EXTEND OUTWARD UP TO 175 MILES...280 KM. ESTIMATED MINIMUM CENTRAL PRESSURE IS 948 MB...27.99 INCHES. RAINFALL TOTALS OF 15 TO 25 INCHES...WITH LOCALLY HIGHER AMOUNTS... ARE POSSIBLE OVER THE MOUNTAINS OF HONDURAS AND OTHER PARTS OF CENTRAL AMERICA. THESE RAINS COULD CAUSE LIFE-THREATENING FLASH FLOODS AND MUD SLIDES. DANGEROUS COASTAL FLOODING FROM STRONG ONSHORE WINDS AND LARGE BATTERING WAVES IS OCCURRING OVER MUCH OF THE NORTHWEST CARIBBEAN. THE WORST CONDITIONS ARE OCCURRING ALONG THE COAST OF HONDURAS AND THE OFFSHORE ISLANDS. OTHER LOCATIONS IN THE NORTHWESTERN CARIBBEAN ARE ALSO EXPERIENCING DANGEROUS CONDITIONS. REPEATING THE 10 AM EST POSITION...16.4 N... 85.6 W. MOVEMENT ...NEARLY STATIONARY. MAXIMUM SUSTAINED WINDS...120 MPH. MINIMUM CENTRAL PRESSURE... 948 MB. AN INTERMEDIATE ADVISORY WILL BE ISSUED BY THE NATIONAL HURRICANE CENTER AT 1 PM EST FOLLOWED BY THE NEXT COMPLETE ADVISORY AT 4 PM EST. RAPPAPORT STRIKE PROBABILITIES ASSOCIATED WITH THIS ADVISORY NUMBER CAN BE FOUND UNDER AFOS HEADER MIASPFAT3 AND WMO HEADER WTNT73 KNHC. NNNN	en
converted_docs	509918	[References -- 90-day Finding: Petition to List the Pygmy-Owl]{.underline} Abbate, D., A. Ditty, S. Richardson, and R. Olding. 1996. Cactus ferruginous pygmy-owl survey and nest monitoring in the Tucson Basin area, Arizona: 1996. Final Rep. Internal Enhance. #U95503, Arizona Game and Fish Dept., Phoenix. 35 pp. Abbate, D., S. Richardson, R. Wilcox, M. Terrio, and S. Belhumeur. 1999. Cactus ferruginous pygmy-owl investigations in Pima and Pinal counties, Arizona: 1997-1998. Arizona Game and Fish Dept. Reg. 5 Wildl. Prog., Phoenix. 83 pp. Abbate, D.J., W.S. Richardson, R.L. Wilcox, and S. Lantz. 2000. Cactus ferruginous pygmy-owl investigations in Pima and Pinal Counties, Arizona: 1999. Reg. V Wldlf. Prog. Arizona Game and Fish Dept. Tucson. 37 pp. Abouhaider, F. 1989. Influence of livestock grazing on saguaro seedling establishment. M.S. Thesis, Arizona State Univ., Tempe, AZ. 50 pp. American Ornithologists Union (AOU). 1957. 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converted_docs	112801	Close-Out Report on the Department of Energy/ National Science Foundation Committee for the Technical, Cost, Schedule, and Management Review of the U.S. LHC CMS DETECTOR PROJECT May 21, 2003 ![](media/image2.wmf) *U.S. Department of Energy* *and the* *National Science Foundation* U.S. LHC JOINT OVERSIGHT GROUP April 4, 2003 TO: Mr. Daniel Lehman, Director, Construction Management Support Division, SC-81 DATE: March 31, 2003 RE: Request to Conduct a Review of the U.S. ATLAS and U.S. CMS Construction Projects During May 19-23, 2003 The Joint Oversight Group (JOG) for the U.S. LHC Program requests that you conduct a Review of the U.S. ATLAS and U.S. CMS Construction Projects at Brookhaven National Laboratory on May 19-23, 2003. The charge for this review is to assess: - Technical progress in each subsystem; - Schedule progress on completing the U.S. deliverables including installation; - Adequacy of the updated estimated cost to complete; and, - Project contingency budgets. Please provide a report on the review to this office by June 30, 2003. Mini-reviews were conducted of the U.S. ATLAS and U.S. CMS Construction Projects in December 2002. The review committees concluded that both projects were making good technical progress and costs were tracking close to plans, with no major schedule concerns. These reviews also concluded that planning for transition from the construction projects to M&O is well underway. The committee should assess progress on planning for this transition and consider the report from the U.S. LHC Detector M&O Evaluation Group, which will meet for the first time on April 8-10, 2003. We appreciate your assistance in this matter. As you know, these reviews are an important element of the Department of Energy/National Science Foundation (DOE/NSF) joint oversight of the U.S. LHC Program and help to ensure that the U.S. meets our commitments on cost and schedule. \[signed\] \[signed\] John R. O'Fallon John W. Lightbody, Jr. Co-chair Co-chair U.S. LHC Joint Oversight Group U.S. LHC Joint Oversight Group Department of Energy National Science Foundation *U.S. Department of Energy* *and the* *National Science Foundation* cc: James Decker, SC-2 Ken Stanfield, Fermilab Milton Johnson, SC-3 Thomas B.W. Kirk, BNL S. Peter Rosen, SC-20 William Willis, Columbia University Moishe Pripstein, SC-22 Dan Green, Fermilab Aesook Byon-Wagner, SC-223 Jane Monhart, CH/Fermi Area Office Marvin Goldberg, NSF James Yeck, CH/Fermi Area Office Jim Whitmore, NSF Pepin Carolan, CH/Fermi Area Office Steve Meador, SC-81 ![](media/image3.wmf) Department of Energy/National Science Foundation Review Committee on the U.S. CMS Construction Project CONTENTS/WRITING ASSIGNMENTS Executive Summary Meador/Yeck 1\. Introduction Meador/Yeck 2\. Technical Systems Evaluations 2.1 End Cap Muon (WBS 1.1) Foster/Subcommittee 1 2.1.1 Findings 2.1.2 Comments 2.1.3 Recommendations 2.2 Hadron Calorimeter (WBS 1.2) Michael/Subcommittee 2 2.3 Trigger and Data Acquisition (WBS 1.3) Haggerty/Subcommittee 3 2.4 Electromagnetic Calorimeter (WBS 1.4) Schamberger/Subcommittee 4 2.5 Forward Pixels (WBS 1.5) Nelson/Subcommittee 5 2.6 Common Projects (WBS 1.6) Baltay/Subcommittee 6 2.7 Silicon Tracker (WBS 1.8) Nelson/Subcommittee 5 3\. Cost Estimate Kerby (with input from other subcommittees) 4\. Schedule and Funding Kerby (with input from other subcommittees) 5\. Management (WBS 1.7) Baltay (with input from other subcommittees) [Appendices]{.underline} A. Charge Memorandum B. Review Participants C. Review Agenda D. Cost Table E. Schedule and Funding Charts F. Management Chart G. Action Items # 2.1 Endcap Muon (WBS 1.1) (B. Foster) 2.1.1 Findings The Endcap Muon (EMU) system is 77% complete and on schedule to perform above-ground system tests as per CERN's V33 schedule. The assigned contingency on the ETC remains 50 percent, which is adequate for this subproject. Major production of the Cathode Strip Chambers (CSC) at Fermilab finished on the schedule originally established in 1998. Production and testing of the full complement of CSCs for the baseline detector at the four Final Assembly and Test (FAST) sites should be completed by the end of calendar '03. An incoming test and storage facility has been successfully established in the CERN ISR tunnel, and a throughput of production chambers has been established sufficient to support the installation schedule. Production of the on-chamber electronics has been completed and the integration and test of on-chamber electronics has gone relatively smoothly and on schedule. The FAST sites have proven successful at identifying and correcting a number of issues with the on-chamber electronics. The off-chamber electronics are in an advanced prototype stage. A beam test is currently underway to validate the performance of the off-chamber EMU electronics in beam conditions and rates comparable to that expected at the LHC. This effectively responds to a recommendation from last year's review. Successful beam test results will permit a final design review and production start in November '03, slightly ahead of the December '03 milestone. Final chamber mounting on the muon steel structures should commence in mid-June. This represents a slippage since the November '02 date projected at last year's review. Roughly half of this slippage appears to have been due to factors outside of CMS' control. Detailed planning exists for cabling, gas installation, and other infrastructure. Two workable alternatives have been developed for the HV system, with a decision scheduled for this summer following tests. The alignment system design and production is well advanced. The system is in production and on schedule to be available when the magnet test begins in early '05. 2.1.2 Comments The EMU group continues to make excellent progress in all phases of the project. The Scope addition of the ME4/1 CSCs chambers appears not to have adversely affected the project schedule. Production of these chambers is to be completed FY'04 and common electronics has been adopted for these additional chambers. The group continues to exhibit due diligence to avoid major accidents which might derail the EMU project. These include cooling water spillages, "bad gas" incidents, large-scale mechanical or electrical mishaps, etc. The M&O plans are well advanced and reasonable. The question which arose at the April M&O review as to the adequacy of the Engineering and Technical manpower (1 vs. 8 FTEs) was resolved as having been due to miscommunication. An excellent candidate for the on-site M&O manager has been identified. It is important that this position be filled as proposed by summer '04. 2.1.3 Recommendations 1. Early warning systems such as the "wet wire" leak detection system and the gas-gain monitoring tubes used at CDF may be worth considering as modest scope increases. 2. Redundant low-voltage power supplies should be considered for electronics in the collision hall. 3. The EMU group should work with CMS management to ensure that the YE1 cabling design and procurement takes place on a schedule which does not impede the installation of the YE1 chambers 4. It will be most efficient if the off-chamber electronics for the ME4/1 CSCs are incorporated in the main production run of off-chamber electronics. 2.2 HCAL (WBS 1.2) (D. Michael) ### 2.2.1Findings The U.S. HCAL sub-project is 82% complete on an updated estimate at completion of \$42,891k EAC. Important progress has been made in the last year in all of the subsystems, especially on the HF, HPD acquisition and testing and electronics systems. In the last year, a total of \$1.1M of contingency was used. The main uses were: - \$360k increase for overruns in the optics production at Fermilab, \$800k of which was already identified in a previous review. - \$250k increase for optical fiber cables and patch panel to connect the various segments of electronics. - \$267k engineering and \$94k production costs for the Gigabit Optical Links. This is a scope increase for the U.S. HCAL project which was undertaken to avoid possible delays in the previous U.S. responsibilities. - -\$170k for lower cost of production of HPDs The current project schedule shows a negative 8 month variance, primarily for production of the HCAL electronics. An additional negative variance exists for the HPD acquisition and testing. These variances are approximately the same as identified one year ago. However, we note that the planned HCAL vertical slice test has slipped from May 03 to Fall 03. The HCAL sub-project manager reports that they are working to a new schedule which reflects this variance but that U.S. CMS schedules have not yet reflected this new working schedule. Following some additional delays in the last year in starting production, HPD deliveries from DEP now have reached the planned maximum of 40 units per month. The testing capabilities at Minnesota are matched to this production rate. At this point, the acceptance rate of delivered tubes is 62%. At this time, MMM tubes out of a required NNN have been accepted. The yield is smaller than nominally planned. About half of the HPDs which have not yet been accepted do not meet the contract specifications. The other half have some anomalies which may not disqualify them for use but which has kept these tubes from being declared accepted at this time. All HPDs undergo an important two-week burn-in period as part of the testing. Good progress is being made on all of the electronics, including that to be installed in the readout boxes which represents the most critical path. It appears that the XXX ASIC fabrication has been successful after the "engineering" fabrication iteration and that the QIE ASIC is also working well. This will permit electronics fabrication to proceed soon. At this time, the group is waiting for additional assurance from test-beam operation this summer prior to proceeding with the final fabrication. Significant new results were presented on radiation and lifetime aging of the electronic boards and chips. Important progress was shown on the HF systems. Some of the most important progress was in the fabrication of the large mechanical components which is not a direct U.S. responsibility. However, getting this moving forward helps to make the U.S. contribution in the design, fiber acquisition and readout systems a contribution towards a complete system. The new manager for the HF appears to be having a very positive impact. Almost all of the fiber has been acquired, the PMTs have all been purchased and tested and the complete readout system is advancing well. The HCAL group is planning a vertical slice test/burn-in phase. Currently both are defined as part of M&O. Should delays occur in the critical path items the first impact will be a shortening of this test/burn-in phase. The HO RBX still does not have a final design. Although some float remains in the demand for this system, its production is lingering well behind the original schedule. Important progress from the 2002 test beam effort was shown. A 2003 testbeam effort is just now getting underway. Performance from the 2002 running was consistent with expectations for resolution and uniformity for all systems. The measured resolution was roughly 120%/sqrt(E) with a 5-7% constant term. In addition to the measured calorimetry performance, these run periods are also demonstrating a considerable ability of the HCAL group as a whole to meet tight schedule objectives. ### Comments Overall, the HCAL sub-project has made excellent progress in the last year. Particular highlights include successful test-beam operation, important progress on HF fabrication and important advances in design and testing and fabrication of readout box components, including ASIC fabrication and testing and HPD production and testing. Progress in the last year was good but the schedule remains very tight. Importantly, the group appears sufficiently well staffed to succeed in the face of tight schedules and is focused on achieving their installation objective. The main risk is likely not that the group cannot meet the defined installation schedule but that the installed readout box devices (which are very difficult to access) will have had less opportunity for full system burn-in tests than desired given the stringent requirements on failure rates once installed. It is important that management fight slips in order to keep as much of this pre-operational testing phase intact as possible. It is advisable that the group continue to find additional means of increasing the testing, where possible, for the readout boxes as a system. In the last year, the U.S. group decided to take on additional scope for the Gigabit Optical Links. This was a wise use of contingency to avoid possible delays to the completion of the critical readout boxes. The HCAL group is currently working to a schedule which is not represented in the main U.S. HCAL schedule. HCAL and U.S. CMS management should resolve this. The nominal working schedule is tight for completion of work for installation, but there is no action at this point which will significantly recover time from the HCAL working plan. At the same time, HCAL managers must work to avoid additional delays. Getting the electronics into full production is very important. Pushing forward with readout box assembly and testing is critical. Although HPD production and testing are now moving forward, it is possible that increasing the planned HPD "spares" pool to perhaps 20-25% of the total needed might be one way to mitigate risks of using "acceptable, but less than perfect" devices. More time would make such action unnecessary (or demonstrate it is necessary) but this would now delay the critical path. The U.S. HCAL group is responsible for providing optical fiber cables to connect the readout boxes to the main electronics systems. These cables must go through some patch panels and must also have provision for dealing with extra lengths of cable. The definition of this system is the responsibility of the CMS integration group but no final action has been taken yet. This presents a schedule risk for the U.S. groups to provide these cables in time. Decisions must be taken soon. ### Recommendations 1. U.S. CMS management should work with the CMS integration group to define the readout optical cable system for HCAL by Sep. 1 2003. 2. Plan as much burn-in testing time as possible for the completed readout boxes. Where possible, find ways to increase this time before boxes become too inaccessible. 2.3 Trigger and Data Acquisition (WBS 1.3) (J. Haggerty) 72.3.1 Findings Excellent progress has been made on both trigger and data acquisition systems since the last review. The CMS management estimates that 65% of the trigger work is complete, which is consistent with information presented by the calorimeter and muon trigger groups. Many of the final boards are complete in both the calorimeter and muon trigger systems, and design and prototyping is well under way for all of them. The CMS management estimates that 24% of the data acquisition work is complete, consistent with the achievements presented. The data acquisition group completed an extensive document describing the design in the Technical Design Report of December 20002. 2.3.2 Comments The slice test is an important reality check for both the trigger and data acquisition systems, and CMS management is to be commended for recognizing its importance. It is important that both trigger and data acquisition systems use this test to exercise their designs as thoroughly as possible. Significant additions have been made to the Wisconsin, MIT, and UCSD groups, consistent with previous recommendations, and these new hires have filled some essential needs. The data acquisition Technical Design Report describes a present state of the art data acquisition system that appears to be very well grounded in experience and prototyping. 2.3.3 Recommendation Identify adequate manpower to work on the slice test at CERN while testing and production continue in the US, particularly on the muon trigger system. 2.4 Electromagnetic Calorimeter (WBS 1.4) (D. Schanbergr, K. Lang) 2.4.1 Findings The progress on the Electromagnetic Calorimeter (ECAL) of the U.S. CMS since the June 2002 DOE/NSF review has been mixed and included changes in deliverables. The US group is responsible for procurement of 1/3 of Avalanche Photodiodes (APDs) and providing about 4.5 FTEs for APD certification and characterization. The group will also supply a laser-based monitoring system for PWO crystals. Within the last year the scope of the monitoring expanded from using one blue laser to two blue lasers and one red laser as recommended by the 2002 DOE/NSF Review. In addition, the U.S. ECAL has been participating in the development of the front-end FPPA chip for the APDs, but the circuit turned out to be very difficult to fabricate and has only 30% production yield. The collaboration chose to pursue in parallel a more promising multi-gain preamplifier (MGPA) integrated circuit to be fabricated in deep sub-micron (0.25 um) technology. U.S. ECAL will fund 50% of MGPAs and their neutron irradiation testing effort. MGPA is not a baseline chip yet and its certification is underway. The group is also responsible for the delivery of parts of the fiber optic link for the barrel section as well as for the design and delivery of about 50% of the clock/control links. Finally, in response to general CMS needs, the group has recently taken up yet another responsibility of designing and fabricating parts of the low voltage power supply, and due to the early stages of the system specification the exact deliverables of this part are still not completely defined. The US ECAL system has maintained a solid progress in procuring and certification of the Hamamatsu's APDs. About 93,000 (out of 128,000) units have been delivered so far, testing is on schedule and projected to be complete in April 2004. Fermilab's electronics testing facility is being set up to test the MGPA chips. US ECAL would benefit from additional physicist manpower needed in the near future in the beam tests, system monitoring and calibration analysis, and the development of the low voltage power. Production and delivery of the PWO crystals which are not a US ECAL responsibility has slipped about half a year in the past year and is on the critical path. However, US deliverables are mostly decoupled from this potentially serious delay. Due to delays in the choice of preamps, the ADC purchase is still on hold. No participation in the slice test is presently be considered for any ECAL modules. 2.4.2 Comments: It is encouraging to observe that a lot of progress has been made on the front end preamplifier. Both the original and backup plans have made significant progress. While the baseline design is still the original Floating Point Pre-Amp (FPPA) version, which now have working prototypes, it is clear that the system costs will be very high. Every effort should be made to insure that the alternate Deep SubMicron (DSM) Multi-Gain Pre-Amp (MGPA) is made to work. This is a significant change to be making this late in the project, but appears to be appropriate. Having working electronics using this new design in time for next year's beam test which starts in April 2004 is vital for calibrating some supermodules with beam. Given less than a year, and still testing the first submission makes this a very aggressive schedule. Every effort should be made to meet this time scale and resources should be directed towards that end to ensure reliability. The same level of testing and certification as in the APD must be maintained. The low voltage system design for the ECAL is just getting started by a new group. No bottoms up cost estimate is available. It is not possible to evaluate if the contingency is adequate for the US deliverables part of this category. It appears that the design, specification, and the procurement plan of the data and trigger fiber optic links to the outside of the detector is complete and production is ready to start. The 12x receiver module, which is part of the optical link, is not yet budgeted for the barrel ECAL by CMS. The number of clock and control links has recently doubled and the US ECAL has not changed scope to instrument the entire barrel system. The ECAL system will not be a part of the "slice test". This will probably delay the understanding of integration issues associated with running with other detector subsystems. The laser calibration system is in good shape. The expansion from 1 to 3 lasers seems prudent but costly in M&O. In view of changes of US ECAL deliverables the M&O estimates should be re-evaluated. 2.4.3 Recommendations: 1\) Make the MPGA decision no later than the end of Summer 2003. 2\) Consider alternate voltage regulators (or more of the same) which are not run close to their maximum rated current. 3\) Improve the project definition, and define a procedure for the end-game to maximize the use of available resources. 2.5 Forward Pixels (WBS 1.5) (H. Nelson, M. Crisler) 2.5.1 Findings The Forward Pixel subproject is 35% complete, with a contingency of approximately \$1.9M or 40% of the estimated cost to complete of \$4.9M. This subproject is nearing the end of development, and is planned to transition to construction in 2004 or 2005. The pixel cell size has been changed from 150μm by 150μm to 100μm by 150μm, corresponding to the change in the Read Out Chip (ROC) from the DMILL technology to ¼ μm technology. The ROC is responsibility of PSI (the Paul Scherrer Institute) in Switzerland. A set of sensors submitted by U.S. collaborators in 2001 was received in 2002. These sensors have been evaluated with 80% yield measured and radiation tests have been performed. The sensor design for the pixel forward disks is distinct from the design for the barrel pixel. About 300 ROC's, produced in DMILL technology and known as the PSI43 design, have been received and tested, and a yield of about 50% has been measured. These ROC's have and will be used to characterize the detectors, bump bonds, and readout chain. The new ROC design in ¼ μm, known as the PSI46 design, has been finalized at PSI and passed on (on 5/16/03) to CERN for checking and submission. The pixel size for PSI46 was changed, the overall dimensions are smaller than PSI43, and the power consumption is substantially smaller for PSI46 than for PSI43. The sensors are to be bump bonded to the ROC's. Three vendors (MCNC in the U.S., and IZM and VTT in Europe) are presently doing bump bonding. Working sensors bonded to DMILL ROC's are expected to arrive between August, 2003 and October, 2003. The chip that controls the ROC is the Token Bit Manager (TBM). All TBM's, for both the barrel pixel system (mostly a European responsibility) and for the U.S. forward disk pixel system are a responsibility of the U.S. Working TBM's, designed by the U.S. forward pixel group and produced in DMILL technology, were available and characterized last year. The TBM's are now being translated to ¼ micron, with submissions planned in June of 2003 and again in October of 2003. The ROC's sit on a Very High Density Interconnection (VHDI) flexible circuit. Tests of a VHDI populated with 5 ROCs, using one of 8 test stands produced by the forward pixel group, have been undertaken. The test stands simulate the complete readout stream, and allow further design and characterization of the downstream data acquisition system. Mechanical and thermal design and study has been advanced during the past year. Project manpower (less faculty) has increased from 6 FTE in 2001 to 11 FTE in 2002 to 14 FTE in 2003. 2.5.2 Comments 2. This subproject remains on the cutting edge of technology advancement, with many associated risks. This subproject has never been planned to be online when beams are first available at the LHC, which explains the fraction of work completed being small. The pixel systems have been designed for relatively straightforward installation after first operation of the LHC. The high level of contingency is appropriate for this subproject. Communication between the U.S. forward pixel subsystem and European counterparts has improved over the past year. There is particularly close communication between the U.S. chip designers and their counterparts at PSI. The pixel dimensions changed from 150 μm by 150 μm to 150 μm by 100 μm, and the technology for all readout and data acquisition chips have been changed from DMILL to ¼ micron technology. There was no top-to-bottom evaluation of system consequences of these changes, as recommended in earlier reviews. Some consequences identified at this review, include enhanced mechanical clearances, and a reduction in heat production in the detector, appear beneficial. Essentially final mechanical and cooling designs can now be made. The ROC's and TBM's delivered so far have been useful for the development of system aspects of the forward pixel project, but less so than were anticipated. Many test stands are now able to read out a pixel slice, and soon sensors bump-bonded to ROC's will be available. Test beam work and a \`two-blade' system test are planned in the near future. There appears to be adequate technical manpower support for these activities. There is adequate scientific manpower, however, there is inadequate focus on certain tasks, including bump bonding and integration. The success of the system tests over the next two years depends on an increased level or participation from scientists in the subproject. We encourage the forward pixel scientists to exploit the test stands and detectors now available to characterize their systems. This activity is crucial for the timely success of the project. 3. Recommendations ```{=html} <!-- --> ``` 1. Continue to improve communications between International CMS Management, US CMS Management, and the US Forward Pixel group. 2. Focus, in the next year, scientific manpower on system integration activities. 2.6 COMMON PROJECTS (WBS 1.6) (P. Carolan) 2.6.1 Findings and Comments Common Projects is essentially (\~99%) complete. Procurement of superconductor for the CMS magnet has been completed. All Endcap Iron disks have been erected at the CERN CMS SX-5 surface building on budget and schedule. This accomplishment is due to good management, good design, and good workmanship from those who were involved. Cathode Strip Chamber mounts have been located with acceptable accuracy, requiring no corrective adjustment for the CSC mount mechanism. The only remaining costs are for magnet field mapping tasks (design and M&S), and projected costs for this has been incorporated into the latest EAC. There is no need to revise the Common Projects budget figure. 2.6.2 Recommendations None. 7. Silicon Tracker (WBS 1.7) (H. Nelson, M. Crisler) 1. Findings The Silicon Tracker subproject is 33% complete, with a contingency of approximately \$1.2M or 53% of the estimated cost to complete of \$2.3M. This subproject consists of assembly from parts produced outside the U.S., and testing, qualification and installation of the assembled modules. Production facilities have been established at FNAL and UCSB, including functioning assembly robots (gantries), Model 8090 wirebonders, as well as burn-in and well advanced test procedures and facilities. At each site, the planned production rate is about 10 Tracker Outer Barrel (TOB) modules per day. New tasks undertaken include the assembly of hybrids with pitch adapters at UCSB; module diagnostics and repair at UCR, and sensor probing at Rochester. Delays associated with the hybrids have consumed a total compared to the original baseline of 12-15 months, and left little schedule float relative to the v33 schedule, although there is additional capacity that can in principal earn float back. The wirebonds on modules have been damaged during transit. Project manpower (less faculty) has increased from 1 FTE in 2001 to 11 FTE in 2002, to about 25 FTE in 2003. A further increase to 40 FTE is planned in 2004. 2. Comments The consumption of most of the remaining schedule float by more delays in the hybrids is worrisome. A delivery of hundreds of hybrids suitable for production is expected in the next few weeks. We commend the reactions of the silicon tracker group, which include the shouldering of new tasks designed to minimize the impact of further delays, and we also commend them for their ramp-up in manpower. The relationships of the U.S. CMS silicon tracker subgroup with International CMS are close, with good communication an well-coordinated efforts. Nevertheless, the production task that the silicon group faces could prove daunting. Continued adaptation to late arriving parts will be required, and a few delays due to peculiarities in delivered parts would push the project into multishift production to maintain the schedule. At the mid-year review six months from now it will be possible to evaluate whether the delivery of parts and production have achieved the ramp-up needed for timely completion of the project. 3. Recommendations Continue to develop and execute plans to handle the late arrival of parts, particularly the hybrids. Cost, Schedule, Project Management (WBS 1.7) & Common Projects (WBS 1.6) Subcommittee 6: Charles Baltay, Jim Kerby, Steve Meador 3. COST ESTIMATE 3.1 Findings The U.S. CMS total project cost remains at \$167.25 million. As reported at the end of March 2003, the project is 76 percent complete. Contingency as a percentage of remaining work is 49 percent. Table 3-1 compares the cost estimate from the June 2002 review to this review. Table 3-1. U. S. CMS Cost Estimate +------+----------------------------+-----------+---------+----------+ \| \| \| U.S. \| \| \| \| \| \| CMS \| \| \| \| \| \| Baseline \| \| \| \| \| \| Com \| \| \| \| \| \| parison \| \| \| +------+----------------------------+-----------+---------+----------+ \| ## \| ####### System or Item \| April \| March \| Diff \| \| #### \| \| 2002 \| 2003 \| erence \| \| WBS \| \| \| \| \| \| \| \| Base \| Base \| \| \| \| \| Cost \| Cost \| \| \| \| \| (AY\$K) \| (A \| \| \| \| \| \| Y\$K) \| \| +------+----------------------------+-----------+---------+----------+ \| 1.1 \| > End Cap Muon (EMU) \| 38,885 \| 39,786 \| 901 \| +------+----------------------------+-----------+---------+----------+ \| 1.2 \| > Hadron Calorimeter \| 41,082 \| 42,111 \| 1,029 \| \| \| > (HCAL) \| \| \| \| +------+----------------------------+-----------+---------+----------+ \| 1.3 \| > Trigger/Data Acquisition \| 12,391 \| 14,629 \| 2,238 \| \| \| > (Tridas) \| \| \| \| +------+----------------------------+-----------+---------+----------+ \| 1.4 \| > Electromagnetic \| 12,136 \| 10,745 \| -1,391 \| \| \| > Calorimeter (ECAL) \| \| \| \| +------+----------------------------+-----------+---------+----------+ \| 1.5 \| > Forward Pixels (FPIX) \| 7,234 \| 7,366 \| 132 \| +------+----------------------------+-----------+---------+----------+ \| 1.6 \| > Common Projects (CP) \| 23,000 \| 23,349 \| 349 \| +------+----------------------------+-----------+---------+----------+ \| 1.7 \| > Project Office (PO) \| 6,642 \| 7,047 \| 405 \| +------+----------------------------+-----------+---------+----------+ \| 1.8 \| > Silicon Tracker (SiTkr) \| 3,353 \| 3,382 \| 29 \| +------+----------------------------+-----------+---------+----------+ \| > \| \| 144,723 \| 148,415 \| 3,692 \| \| U.S. \| \| \| \| \| \| > \| \| \| \| \| \| CMS \| \| \| \| \| \| > T \| \| \| \| \| \| otal \| \| \| \| \| \| > E \| \| \| \| \| \| stim \| \| \| \| \| \| ated \| \| \| \| \| \| > \| \| \| \| \| \| Cost \| \| \| \| \| \| > (A \| \| \| \| \| \| Y\$) \| \| \| \| \| +------+----------------------------+-----------+---------+----------+ \| > \| \| 22,527 \| 18,835 \| -3,692 \| \| Con \| \| \| \| \| \| ting \| \| \| \| \| \| ency \| \| \| \| \| +------+----------------------------+-----------+---------+----------+ \| > \| \| 167,250 \| 167,250 \| 0 \| \| U.S. \| \| \| \| \| \| > \| \| \| \| \| \| CMS \| \| \| \| \| \| > T \| \| \| \| \| \| otal \| \| \| \| \| \| > \| \| \| \| \| \| Pro \| \| \| \| \| \| ject \| \| \| \| \| \| > \| \| \| \| \| \| Cost \| \| \| \| \| \| > (A \| \| \| \| \| \| Y\$) \| \| \| \| \| +------+----------------------------+-----------+---------+----------+ As of March 2003, the overall project cost variance is reported to be a positive 9,462M\$. At least 70% of this variance is understood by project management to be an artifact of the accounting system, and will be lowered as invoices for completed work are received. The overall project schedule variance is reported as a negative 10,136M\$. Of this, U.S. CMS management recognizes that a small number of these variances are related to critical path items, while the remainder are to U.S. CMS internal milestones or in delays in formally reporting work as complete. The funding profile for the construction project is adequate, and U.S. CMS has done an admirable job husbanding contingency such that it has remained around (or above) 50% of the remaining work for the past 5 years. 2. Comments The U.S. CMS team is commended for their use of project management tools and their understanding of the information provided by those tools. The U.S. CMS overall contingency situation is adequate to complete the project. The first priority of the U.S. CMS project remains the completion of the US deliverables in a timely manner. In the course of the next year, the U.S. CMS team may find itself in a position to use contingency to further assist the International CMS collaboration in completion of other portions of the detector. The committee supports the U.S. CMS construction project in this secondary goal. A contingency analysis was successfully completed by U.S. CMS and presented at the fall 2002 Quarterly Project Review. 3. Recommendation ```{=html} <!-- --> ``` 1. Continue to monitor the contingency situation such that a decision on additional scope may be made within the next year. 4. SCHEDULE and FUNDING 4.1 Findings In 2002 CMS adopted a new schedule, consistent with CERN Installation schedule v33, and U.S. CMS effort is well matched to the new schedule. With the change in CERN schedule, DOE split the CD-4 completion date such that it is expected 95% of U.S. CMS will be complete at the end of FY2005, with the remaining 5% complete at the end of FY2007. The portions moved beyond the original 2005 end date are those U.S. CMS components dependent on items in the CERN schedule. 4.2 Comments Overall the U.S. CMS schedule is reasonable. Frequent schedule updates provide planning and project execution information for U.S. CMS project and subproject teams. The schedule revision has been well used by U.S. CMS to plan detector slice commissioning tests of components above ground at CERN before installation. The current funding profile is provided in Figure 4-1. Figure 4-1. U.S. CMS Funding and Commitments (Needs UPDATE) ![](media/image4.wmf) 4.3 Recommendations 1. Continue to work towards the CD-4A completion date, and closely monitor the CERN schedule for any further potential impacts. 2. Resolve outstanding schedule variances due primarily to administrative issues by September 1, 2003. 5. MANAGEMENT (WBS 1.7) 5.1 Findings The U.S. CMS project is now 76% complete. The completion of the project has been broken into two phases, CD-4a when the project is 95% complete by the end of FY 2005, and CD-4b for the remaining installation part up to FY 2008. The construction project appears on schedule and well within budget to achieve its stated goals. A total of \$28.8M of contingency has been expended so far. The estimate to complete the project is \$36.0M with a remaining contingency of \$18.8M. Management has a plan to maintain this 50% contingency to the end of FY 2005, and to keep a 100% contingency of the remainder of the construction project to FY 2008. The plan outlined by management for the next phase of the project, namely Pre-operations, Maintenance and Operations (M&O), Software and Computing (SWC), and R&D for the future LHC upgrades, seems fairly well advanced. A plan was presented to use the period after FY 2005, when most of the detector components have been completed, and the installation on time, to carry out detector subsystem tests ("slice tests") in the above ground buildings at the CERN site. The purpose of these tests is to increase the probability of an early start of the productive physics program. The Deputy Project Manager, who has been instrumental to keeping the construction project so well on track, is leaving the project in the very near future. 2. Comments The Review Committee feels that the U.S. CMS management has done an excellent job in carrying the construction project close to completion. Keeping such a complex enterprise on schedule and well within budget is a very significant achievement. The Committee feels that separating the completion of the construction project into two parts was very wise in that it separates the construction completion of the project mostly under U.S. control (CD-4a) from the installation (CD-4b) that is much more correlated to the overall CERN schedules. The U.S. CMS management should be given high accolades for their contingency experience of this project. The committee endorses the plan to keep a 50% contingency to close to the end of FY 2005 and 100% beyond. The U.S. CMS management should also be complimented for the initiation of the slice tests, which is a very sensible use of the time window opened up by the slippage of the overall LHC schedule. The M&O Plan presented by the management team seems sensible and sufficiently well thought out for this stage of the procedure. This is clearly a dynamic problem and flexibility should be allowed to adjust to needs and changes as they arise. The plan to keep the Category B efforts and costs specific to the detector components built by the U.S. CMS seems appropriate and practical. The Committee feels strongly that the departing Deputy Project Manager should be replaced by a professional, highly qualified in these areas. Thinking on this issue is naturally coupled to plans of how to change the top level management from a construction project to one that includes completion of the construction as well as looking forward to M&O and the general CMS Research program. An example of the future management structure might be: In this plan the replacement of the Deputy Project Manager could serve as the Construction Project Manager as well as the M&O Manager since efforts on the first will be winding down as the second one builds up, and the two require similar skills. 3. Recommendations ```{=html} <!-- --> ``` 1. Replace the departing Deputy Project Manager with a strong professional by September 1, 2003. 2. Work to maintain the 50% contingency up the end of FY 2005 and a 100% contingency of the remaining construction funds to FY 2008.	en
converted_docs	237919	# Cosmic Times 2006 Glossary acoustic of or relating to sound anisotropy The property of having measurements that differ when measured in a different direction. astrophysicist A person who studies the part of astronomy that deals principally with the physics of the universe, including luminosity, density, temperature, and the chemical composition of stars, galaxies, and the interstellar medium. blackbody radiation Blackbody radiation is produced by an object which is a perfect absorber of heat. Perfect absorbers must also be perfect radiators. For a blackbody at a temperature T, the intensity of radiation emitted I at a particular energy E is given by Plank\'s law: I(E,T) = 2 E^3^\[h^2^c^2^(e^E/kT^ - 1)\]^-1^ where h is Planck\'s constant, k is Boltzmann\'s constant, and c is the speed of light. cosmic microwave background (CMB) The background of radiation mostly in the frequency range 3 x 10^8^ to 3 x 10^11^ Hz discovered in space in 1965. It is believed to be the cosmologically redshifted radiation released by the Big Bang itself. cosmology The astrophysical study of the history, structure, and dynamics of the universe. cosmological constant A constant term (labeled Lambda) which Einstein added to his general theory of relativity in the mistaken belief that the Universe was neither expanding nor contracting. The cosmological constant was found to be unnecessary once observations indicated the Universe was expanding. Had Einstein believed what his equations were telling him, he could have claimed the expansion of the Universe as perhaps the greatest and most convincing prediction of general relativity; he called this the \"greatest blunder of my life\". cosmos The universe as a whole dark energy Dark energy is a hypothesized form of energy in space that exerts a negative pressure. This changes the gravitational effect to account for the differences between the theoretical and observational results of gravitational effects on visible matter. dark matter Name given to the mass whose existence is deduced from the analysis of galaxy rotation curves but which until now, has escaped all detections. There are many theories on what dark matter could be. Not one, at the moment is convincing enough and the question is still a mystery. dwarfed Appearing smaller or inferior fluctuations Variations in the primordial universe Integrated Sachs-Wolfe Effect The Sachs-Wolfe effect, named after Rainer Kurt Sachs and Arthur Michael Wolfe, is a property of the cosmic microwave background radiation (CMB), in which photons are gravitationally redshifted, and the spectrum appears uneven. luminous Emitting light Near-infrared telescopes. Near-infrared telescopes collect light in the region of the electromagnetic spectrum just below visible light. Whereas, most infrared radiation is warm, near-infrared waves are not hot at all -- in fact, you cannot even feel them. These shorter wavelengths are the ones used by your TV\'s remote control. optical telescopes A telescope that collect light in the region of the electromagnetic spectrum that is visible light. polarization A special property of light; light has three properties, brightness, color and polarization. Polarization is a condition in which the planes of vibration of the various rays in a light beam are at least partially aligned. quintessence A hypothetic form of dark energy, a scalar field that accelerated the expansion of the universe. remnant Left over; a surviving trace or vestige Standard candles An object in the universe of known luminosity that can be used to calculate distances. supernova \(a\) The death explosion of a massive star, resulting in a sharp increase in brightness followed by a gradual fading. At peak light output, these type of supernova explosions (called Type II supernovae) can outshine a galaxy. The outer layers of the exploding star are blasted out in a radioactive cloud. This expanding cloud, visible long after the initial explosion fades from view, forms a supernova remnant (SNR). \(b\) The explosion of a white dwarf that has accumulated enough material from a companion star to achieve a mass equal to the Chandrasekhar limit. These types of supernovae (called Type Ia) have approximately the same intrinsic brightness, and can be used to determine distances. Theory of General Relativity The geometric theory of gravitation developed by Albert Einstein, incorporating and extending the theory of special relativity to accelerated frames of reference and introducing the principle that gravitational and inertial forces are equivalent. The theory has consequences for the bending of light by massive objects, the nature of black holes, and the fabric of space and time undulations A wavelike motion in a medium without permanent movement of the particles. Wilkinson Microwave Anisotropy Probe (WMAP) A NASA satellite designed to detect fluctuations in the cosmic microwave background. From its initial results published in Feb 2003, astronomers pinpointed the age of the universe, its geometry, and when the first stars appeared.	en
converted_docs	478252	ATTACHMENT 71111.20 INSPECTABLE AREA: Refueling and Other Outage Activities CORNERSTONES: Initiating Events (20%) > Mitigating Systems (70%) > > Barrier Integrity (10%) INSPECTION BASES: Shutdown risk can be high for deficiencies that occur when vital SSCs are not available. Due to potentially high number of out‑of‑service SSCs during the fuel handling period of a refueling outage and the potential off‑normal plant configurations during non‑fuel handling outage periods, the risk of deficiencies can be high. Times of reduced inventory are the most critical. LEVEL OF EFFORT: The inspection is performed on an outage basis, whether the outage is for refueling or other activities. The inspection should focus on potential deficiencies with: RHR, containment isolation during reduced water inventory, mid‑loop operations (PWR), cooldown/heatup/startup, availability of alternate power sources/switchyard, and refueling operations. All inspection sections are to be conducted for refueling outages, if possible. For non‑refueling outages, the inspectors should perform applicable non‑refueling related sections consistent with the length and scope of the outage. > The requirement to enter IP 71111.20 should be if any shutdown occurs > that requires a plant cool down and/or if the containment is entered > for a shutdown tour. If a non-complicated reactor trip occurs, and the > licensee chooses to conduct a start up without entering the > containment, then IP71153 should be utilized for inspection of the > event, corrective actions, and start up activities. This distinction > also applies to the Resource Estimate and Completion Status sections. 71111.20‑01 INSPECTION OBJECTIVE 01.01 Evaluate licensee outage activities to verify that licensees consider risk in developing outage schedules; adhere to administrative risk reduction methodologies they develop to control plant configuration; have developed mitigation strategies for losses of key safety functions; and adhere to operating license and technical specification requirements that ensure defense‑in‑depth. 01.02 Ensure areas not accessible during at‑power operations are inspected to verify that safety‑related and risk significant SSCs are maintained in an operable condition. 01.03 Evaluate licensee activities during reduced inventory and mid‑loop conditions to ensure that they appropriately manage risk using the commitments in their response to GL 88‑17. 71111.20‑02 INSPECTION REQUIREMENTS 02.01. [Review of Outage Plan]{.underline}. Prior to the outage, review the licensee=s outage risk control plan and verify that the licensee has appropriately considered risk, industry experience and previous site specific problems. Confirm the licensee has mitigation/response strategies for losses of key safety functions. 02.02 [Monitoring of Shutdown Activities]{.underline}. Observe portions of the cooldown process to verify that technical specification cooldown restrictions are followed. If the outage allows an opportunity for containment entry, the inspector should conduct a thorough containment walkdown as soon as reasonably possible after shutdown to verify that structures, piping, and supports in containment do not include stains or deposited material that could indicate previously unidentified leakage from components containing reactor coolant. Consideration should also be given to inspect other plant areas which are inaccessible during power operations for evidence of leakage and integrity of structures, systems, and components. 02.03 [Licensee Control of Outage Activities]{.underline}. Verify that the licensee maintains defense in‑depth commensurate with the outage risk control plan for key safety functions and applicable technical specifications when taking equipment out of service. Verify that configuration changes due to emergent work and unexpected conditions are controlled in accordance with the outage risk control plan. For plants that use remote work centers, verify that control room operators are kept cognizant of plant configuration. Pick several items per week in the following areas based on risk. Reviewing risk significant items or activities should take precedence over completion of the list. a. [Clearance Activities]{.underline}. Verify that tags are properly hung and/or removed, and that associated equipment is appropriately configured to support the function of the clearance. Verify implementation of licensee procedures for foreign material exclusion. b. [Reactor Coolant System Instrumentation]{.underline}. Verify that reactor coolant system (RCS) pressure, level, and temperature instruments are installed and configured to provide accurate indication; and that instrumentation error was accounted for. Verify that instruments track with changes in plant conditions. c. [Electrical Power]{.underline}. Verify that the status and configurations of electrical systems meet technical specifications requirements and the licensee=s outage risk control plan. Verify that switchyard activities are controlled commensurate with safety and are consistent with the licensee=s outage risk control plan assumptions. d. [Decay Heat Removal (DHR) System Monitoring]{.underline}. Observe DHR parameters to verify that the system is properly functioning. For PWRs, when the licensee is relying on the steam generators to provide a backup means of DHR by singlephase natural circulation, verify that the licensee has confirmed the viability of this method of cooling. Verify that training and procedures are in place for BWR alternate decay heat removal systems. e. [Spent Fuel Pool Cooling System Operation]{.underline}. Verify that outage work is not impacting the ability of the operations staff to operate the spent fuel pool cooling system during and after core offload. f. [Inventory Control]{.underline}. Verify that the flow paths, configurations, and alternative means for inventory addition are consistent with the outage risk plan. For activities which have the potential to cause a loss of inventory, verify that there are adequate controls in place to prevent inventory loss. g. [Reactivity Control]{.underline}. Verify that the licensee is controlling reactivity in accordance with the technical specifications. Verify that activities or SSCs which could cause unexpected reactivity changes are identified in the outage risk plan and are controlled accordingly. h. [Containment Closure]{.underline}. For PWRs, verify that licensees control containment penetrations in accordance with the refueling operations technical specifications and can achieve containment closure[^1] at all times. For BWRs, verify that licensees maintain secondary containment as required by technical specifications. 02.04 [Reduced Inventory and Mid‑Loop Conditions]{.underline}. Review the licensee=s commitments from GL 88‑17 and confirm by sampling that they are still in place and adequate. Periodically, during the reduced inventory and mid‑loop conditions, verify that the configurations of the plant systems are in accordance with those commitments. During mid‑loop operations, observe the effect of distractions from unexpected conditions or emergent activities on operator ability to maintain required reactor vessel level. In addition to reduced inventory and mid‑loop conditions, assess outage activities that are planned to be conducted during other periods when there is a short time‑to‑boil, and implement appropriate portions of Section 03.04. 02.05 [Refueling Activities]{.underline}. Verify that fuel handling operations (removal, inspection, sipping, reconstitution, and insertion) and other ongoing activities are being performed in accordance with technical specifications and approved procedures. Verify that refueling seals have been properly installed and tested, and that foreign material exclusion is being maintained in the refueling, spent fuel, and suppression pool areas. Verify that the location of the fuel assemblies is tracked, including new fuel, from core offload through core reload. Verify that fuel assembles were loaded in the reactor core locations specified by the design. Verify that discharged fuel assemblies are placed in allowable locations in the Spent Fuel Pool. 02.06 [Monitoring of Heatup and Startup Activities]{.underline}. If containment was opened, the inspector shall conduct a thorough inspection and walkdown of containment prior to reactor startup. Particular attention should be given to areas where work was completed to verify no evidence of leakage, and to verify that debris has not been left which could affect performance of the containment sumps. Verify on a sampling basis that technical specifications, license conditions, and other requirements, commitments, and administrative procedure prerequisites for mode changes are met prior to changing modes or plant configurations. The inspector should verify RCS integrity by reviewing RCS leakage calculations, and verify containment integrity by reviewing the status of containment penetrations and containment isolation valves. Review reactor physics testing results to verify that core operating limit parameters are consistent with the design. 02.07 [Identification and Resolution of Problems]{.underline}. Verify that the licensee is identifying problems related to refueling outage activities at an appropriate threshold and entering them in the corrective action program. For a sample of significant problems documented in the corrective action program, verify that the licensee has identified and implemented appropriate corrective actions. See Inspection Procedure 71152, AIdentification and Resolution of Problems,@ for additional guidance. 71111.20‑03 INSPECTION GUIDANCE [General Guidance]{.underline} This activity is also addressed in other inspectable areas (i.e., maintenance work prioritization and control, inservice inspection activities). In a refueling or other outage this procedure should take precedence in relation to outage planning and configuration management reviews. The inspector may refer to IMC 0609, Appendix G, AShutdown Operations Significance Determination Process,@ which contains checklists of various plant configurations that ensure licensees are maintaining an adequate mitigation capability. Certain plant configurations have higher risks than others. For these configurations, the checklists have more guidelines for each safety function. The following are examples of high risk configurations for PWRs: (1) RCS boundary is breached and the steam generators cannot be used for DHR; and (2) during mid‑loop conditions, it is more likely that DHR can be lost due to poor RCS level control or poor DHR flow control. Examples for BWRs are: (1) technical specifications allow for more equipment to be inoperable in cold shutdown than in hot shutdown; and (2) technical specifications allow SRVs to be inoperable, but they are needed to provide an alternate decay heat removal path and pressure control if the DHR system is lost. Additional general guidance is provided in the following table. +-------------+---------------------------+----------------------------+ \| CORNERST \| RISK PRIORIT Y \| EXAMPLES \| \| ONE \| \| \| +-------------+---------------------------+----------------------------+ \| INITIATING \| Equipment or actions that \| Inadvertent lowering of \| \| \| could cause \| reactor vessel \| \| EVENTS \| \| \| \| \| a loss of decay heat \| level in mid‑loop due to \| \| \| removal. \| operator \| \| \| \| \| \| \| Actions that could affect \| inattention. \| \| \| reactor \| \| \| \| \| Improper hanging or \| \| \| vessel level. \| restoration of \| \| \| \| \| \| \| Activities that \| clearance tags that could \| \| \| contribute to loss of off \| affect reactor \| \| \| \| \| \| \| site power or station \| vessel level, DHR, or \| \| \| blackout. \| electrical power \| \| \| \| \| \| \| \| availability. \| \| \| \| \| \| \| \| Actions that could cause \| \| \| \| reactor vessel \| \| \| \| \| \| \| \| level indication to be \| \| \| \| inaccurate. \| +-------------+---------------------------+----------------------------+ \| MITIGATING \| Equipment used to \| Activities that affect the \| \| \| mitigate a loss of \| ability of pumps \| \| SYSTEMS \| \| \| \| \| decay heat removal. \| designated in the shutdown \| \| \| \| risk \| \| \| Equipment used to \| \| \| \| mitigate a loss of \| analysis to add water to \| \| \| \| the reactor \| \| \| reactor vessel level. \| \| \| \| \| vessel. \| \| \| \| \| \| \| \| Activities that affect the \| \| \| \| water source \| \| \| \| \| \| \| \| for any of the pumps \| \| \| \| designated in the \| \| \| \| \| \| \| \| shutdown risk analysis. \| \| \| \| \| \| \| \| Activities that affect the \| \| \| \| electrical power \| \| \| \| \| \| \| \| sources designated in the \| \| \| \| shutdown \| \| \| \| \| \| \| \| risk analysis. \| \| \| \| \| \| \| \| Failure to verify \| \| \| \| refueling interlocks. \| +-------------+---------------------------+----------------------------+ \| BARRIER \| Actions that affect the \| Exceeding the required \| \| \| fuel cladding \| heatup or \| \| INTEGRITY \| \| \| \| \| barrier, reactor \| cooldown rates. \| \| \| vessel/reactor coolant \| \| \| \| \| Failure to establish \| \| \| system integrity, or \| containment \| \| \| affect containment \| \| \| \| \| integrity during fuel \| \| \| integrity. \| movement. \| +-------------+---------------------------+----------------------------+ [Specific Guidance]{.underline} 03.01 [Review of Outage Plan]{.underline}. Defense‑in‑depth should be maintained. Backup SSCs should be identified for those taken out of service when removal of the SSC from service affects a key safety function. Consult with the regional SRA to evaluate risk insights regarding the outage plan. Risk should be considered for areas such as overlap of activities, handling of heavy loads, scaffolding erection, and the increased potential for a fire or internal flood. 03.02 [Monitoring of Shutdown Activities]{.underline}. Cooldown rates should be spot checked to verify they meet technical specification requirements, thus avoiding overcooling which can challenge the reactor coolant system boundary. The period during transfer to shutdown cooling can be a time when risk of overcooling is the greatest. Containment should be inspected as soon as practicable after shutdown to verify there is no evidence of RCS leakage (e.g., boric acid residue) which might later become obscured due to licensee outage work. The containment sump should be inspected for damage or debris. Supports, braces, and snubbers should be inspected to verify there is no damage or deformation due to excessive stress, water hammer, or aging. The scope for the containment inspection should be based on inspector judgement and discussions with region management. Items to consider should include plant/containment type, ALARA, industrial/personnel safety (heat stress), duration of the outage, and the amount of unidentified leakage prior to the shutdown. 03.03 [Licensee Control of Outage Activities]{.underline} IP 71111.13, A Maintenance Risk Assessments and Emergent Work Evaluation,@ indicates that IMC 0609, Appendix G checklists are to be used by inspectors to evaluate whether licensee risk assessments (performed in accordance with 10 CFR 50.65(a)(4)) addressed SSCs necessary to support the shutdown key safety functions. Outage configuration management is an important issue related to shutdown risk. The adequacy of the methods used and the operators= understanding of plant configuration are key to controlling shutdown risk. When equipment is taken out of service for maintenance, declaring an SSC available should be consistent with the SSC=s functional requirements. Operators and outage control personnel should be aware of which equipment is relied on for the key safety functions. This extends to the containment sump (PWRs) or the suppression pool (BWRs), and associated water flow paths. Equipment designated to perform a key safety function should not be adversely affected by outage activities. Contingency plans for restoring key safety functions should be available. Contingency plans should include a prioritization of equipment to use. Emergent work (maintenance, surveillance, etc.) or planned work which exceeds scheduled time windows should be controlled to prevent overlap with other activities when such overlap can potentially perturb the plant or affect a key safety function. Risk assessments should be maintained current with respect to emergent work and schedule changes. Licensees should assess overlapping or potentially overlapping activities and the effects of these activities on the key safety functions. Other baseline inspection procedures address observation of some activities during an outage. The following areas should focus on only those functions or components related to shutdown risk. The sampling of the activities should be based on the risk importance of the function or equipment in the particular mode or configuration. See IMC, 0609, Appendix G. a. [Clearance Activities]{.underline}. Improper performance of clearance activities can increase risk by causing internal flooding, causing increased ignition sources, and affecting defense‑in‑depth. Clearance tags for boundaries associated with risk significant maintenance or modifications should be hung on the proper equipment and equipment configured such that they do not increase the risk associated with the relied upon remaining equipment. > Examples of risk significant clearance activities include: 1) > boundaries for a water system that will be open for maintenance in > areas that are inclose proximity to risk important equipment; 2) > clearance removal where return of electrical power to particular > motor‑operated valves could cause the valves to reposition due to > locked in signals, in particular those that have direct interaction > with the reactor coolant system, decay heat removal, or spent fuel > pool cooling. At multi‑unit sites, be aware of wrong unit and common > unit tagging/clearance issues. b. [Reactor Coolant System Instrumentation]{.underline}. Instrumentation plays a key role in risk reduction during shutdown conditions. In particular, level instrumentation is a key factor during reduced inventory and mid‑loop, and pressure indication during loss of decay heat removal. RCS pressure, level and temperature instruments and associated components (including piping, RCS and connected system vents, etc.) should be installed and configured to provide accurate indication. Independent instrumentation for each parameter should be provided to minimize the potential for common cause failure. > For level instruments, tubing runs should not have elevation changes > that could trap either liquid or vapor/gas in the instrument lines > (i.e., loop seals). If normal operating level instrumentation is used, > the effects of changes in water density (due to lower temperature) > should be considered. Operators should be aware of the effect of loss > of DHR on the plant=s level instrumentation due to heatup and > pressurization. > > For temperature instruments, operators should be aware of the effect > of loss of DHR on the plant=s temperature indication and the potential > for discrepancies between the temperature indications and the actual > plant state. Temperature may be measured in the DHR loop in which case > interruption, bypass, or partial bypass of DHR flow could lead to > incorrect and non‑conservative temperature indications. c. [Electrical Power]{.underline}. Loss of offsite power and station black out are major factors in shutdown risk. Control of electrical power to components is critical to risk during outages since components are deenergized and reenergized with systems in unusual/disassembled configuration. This can cause unexpected drops or increases in RCS level, internal flooding, false protective system actuations, as well as significant personnel hazards. The most important are those that would contribute to loss of decay heat removal. In addition, the defense‑in‑depth called for in the outage risk control plan should be maintained. d. [DHR System Monitoring]{.underline}. Loss of decay heat removal is a primary contributor to shutdown risk at PWRs. An important attribute to look at when decay heat removal is lost is RCS pressure relief due to the pressure increase with temperature. When the licensee is relying on the steam generators to provide a backup means of DHR by single‑phase natural circulation, verify: 1. procedures for these methods are derived from analyses and the required equipment is available; 2. RCS pressure boundary is closed; 3. steam generator tubes are full; 4. Pressure control capability in the RCS is maintained to ensure subcooling margin; 5. capability to feed the steam generators; and 6. capability to remove steam from the steam generators (e.g., atmospheric relief valves, condenser with steam dump capability, etc.). > Perform walkdown/inspection when the reactor inventory is lowest and > soon after shutdown, i.e., when the time‑to‑boil is lowest. e. [Spent Fuel Pool Cooling System Operation]{.underline}. Spent Fuel Pool Cooling recovery procedures based on current/bounding heat loads should exist for situations involving loss of spent fuel pool cooling. Operators should be trained on backup equipment and procedures for loss of spent fuel cooling. Equipment designated in the recovery procedures should be readily available, dedicated, not obstructed by outage activities, and compatible with equipment that it must be connected to. Instrumentation, alarms, equipment, instructions, and training should be provided to alert operators for the need and enable them to add water to the spent fuel pool if it becomes necessary. f. [Inventory Control]{.underline}. Problems with the RCS pressure boundary have been found to be significant in analyzing shutdown risk insights. Examples of loss of inventory paths include: 1. DHR to suppression pool on BWRs; 2. main steam line paths including SRV removal, automatic depressurization system testing, main steam isolation valve maintenance, etc. on BWRs; 3. DHR system cross tie valves, thimble tube seals, and steam generator nozzle dams for PWRs; 4. maintenance activities on connected piping or components that are at an elevation lower than the vessel flange on all plants; and 5. paths for inter‑system LOCA such as maintenance and testing on the nonoperating loop Low Pressure Injection (LPI) train or LPI testing on return back to RWST. > For BWRs, automatic isolation on low level should not be disabled. > This signal can mitigate a loss of inventory from the DHR system to > the suppression pool. Maintaining this signal operational is required > by some technical specifications. In addition, main steam line plugs > should be considered for work activities on the main steam system. > Reactor cavity seal should be inspected and maintained to preclude > potential seal failure. Systems required for proper operation of the > reactor cavity seal (e.g., instrument air) should also be maintained > to prevent failure of the seal. Adequate vents should be provided to > accomplish gravity feed and low pressure makeup when relied upon. g. [Reactivity Control]{.underline}. For PWRs, the licensee should identify and implement appropriate administrative controls on potential boron dilution paths. Uniform RCS boron concentration is important, therefore, addition of water with a lesser boron concentration or starting of reactor coolant pumps which could inject water with a lesser boron concentration into the core should be controlled. The licensee should have adequate controls during refueling to preclude improper sequencing of control rods or fuel assemblies, which can allow core regions to approach criticality without early detection by a source range monitor. h. Containment Closure. Verify proper containment configuration during risk‑significant evolutions (e.g., PWR mid‑loop operations, BWR cavity drain down) including provisions for achieving containment closure in a timely manner during periods when containment is permitted to be open. 03.04 Reduced Inventory and Mid‑Loop Conditions. The period of reduced inventory and mid‑loop are the times of greatest risk during shutdown. The inspector should review the planned activities during those conditions and consider the risk effect of those activities on the critical parameters that affect time‑to‑boil. Review unit/outage specific time‑to‑boil curves. The inspector should: a. Review licensee commitments to GL 88‑17. b. Verify the licensee has reviewed their controls and administrative procedures governing mid‑loop operation, and have conducted training for mid‑loop operation. c. Verify that procedures are in use for: 1. Containment closure capability for mitigation of radioactive releases. 2. Identifying unexpected RCS inventory changes and verifying an adequate RCS vent path during RCS draining to mid‑loop. 3. Emergency/abnormal operation during reduced inventory. d. Verify that: 1. Indications of core exit temperature are operable and periodically monitored (typically at least 2 independent and continuous indications). 2. Indications of RCS water level are operable and periodically monitored (typically at least 2 independent and continuous indications). 3. RCS perturbations are avoided. 4. Means of adding inventory to the RCS are available (typically at least 2 means in addition to RHR pumps). 5. Reasonable assurance is obtained that not all hot legs are simultaneously blocked by nozzle dams unless the upper plenum is vented. 6. Contingency plans exist to repower vital electrical busses from an alternate source if the primary source is lost. Time‑to‑boil can be less than 30 minutes when decay heat removal is lost in mid‑loop conditions. During mid‑loop operations the operator provides the only prevention/mitigating function for a loss of reactor vessel level prior to the loss of decay heat removal. There generally are no alarms that provide indication of loss of level in the mid‑loop condition. Operator attention to plant conditions is the key prevention aspect for a loss of decay heat removal event. The inspector should closely observe operator performance during drain down, and frequently observe control room activities while the plant is in reduced inventory or mid‑loop conditions. Specifically, the inspector should observe how distractions, such as unexpected conditions and emergent work, affect operator focus. 03.05 [Refueling Activities]{.underline}. Fuel loading should be performed in a manner to maintain coupling between the instruments used for monitoring reactivity and fuel loaded in any location within the vessel. To verify that the fuel cladding barrier will not be challenged, verification that fuel assembles were loaded in the correct reactor core locations may be accomplished by reviewing licensee videotape and other records of the core loading. Another method is to review physics testing to verify the testing was adequately conducted and that core operating limit parameters are as predicted by the design. 03.06 [Monitoring of Restart Activities]{.underline}. This activity should focus on the licensee having the required equipment available for mode changes to ensure that risk is kept to a minimum. The activity can be conducted by direct observation of system/equipment operation, documentation reviews, or a combination of both. The sampling should be adequate to provide reasonable verification that the licensee is following the administrative program laid out to ensure that risk is maintained at a minimum level. Prior to containment closure, a thorough walkdown of containment shall be completed to verify there is no evidence of leakage, tags are cleared, there is no obvious damage to passive systems, and there is no debris left that might contribute to ECCS sump blockage. The inspector should observe that technical specifications RCS boundary leakage requirements are met prior to the applicable mode changes and that containment integrity is established prior to entering the applicable technical specifications mode. 03.07 [Identification and Resolution of Problems]{.underline}. No guidance provided. 71111.20‑04 RESOURCE ESTIMATE Inspection resources are affected by the length of the outage, amount of risk significant work and the plant configuration. The inspection resources for performing this procedure at each reactor unit is estimated at 70 to 100 hours each refueling outage. Inspection resources are estimated at no more than 70 hours annually for non‑refueling and forced outages, regardless of the number of units. Some testing activities normally occur during refueling outages. These include physics testing, emergency diesel generator time response testing, RCS hydrostatic testing, control rod scram time testing, rod drop time testing, reactor trip breaker testing, and containment sump valve testing. Inspection of these activities that is not related to shutdown risk should be charged to IPs for post‑maintenance and surveillance testing (IP 71111.19 and IP 71111.22). IMC 2515, Appendix D, Plant Status, states that Aduring changing plant conditions (plant refueling or maintenance outages), the frequency and scope of plant status tours may be increased to tour areas not normally accessible and to observe equipment in an abnormal lineup.@ This effort should be charged to IMC 2515, Appendix D. 71111.20‑05 COMPLETION STATUS Inspection of the minimum sample size will constitute completion of this procedure in the Reactor Programs System (RPS). That minimum sample size will consist of 1 sample for each outage at the facility. For refueling outages, the sample consists of all the requirements in this procedure, if possible. For other outages, the sample consists of the applicable portions of this procedure. 71111.20‑06 REFERENCES GL 87‑12, ALoss of Residual Heat Removal (RHR) While the Reactor Coolant System (RCS) is Partially Filled,@ July 9, 1987. NUREG‑1269, ALoss of Residual Heat Removal System, Diablo Canyon, Unit 2, April 10, 1987,@ June 1987. GL 88‑17, ALoss of Decay Heat Removal, 10 CFR 50.54(f),@ October 17,1988. NUREG‑1410, ALoss of Vital AC Power and the Residual Heat Removal System During Mid‑Loop Operations at Vogtle Unit 1 on March 20, 1990,@ June 1990. NUREG‑1449, AShutdown and Low‑Power Operation at Commercial Nuclear Power Plants in the United States,@ September 1993. IN 93‑72, AObservations from Recent Shutdown Risk and Outage Management Pilot Team Inspections,@ September 14, 1993. NUREG‑0700, REV.1, AHuman System Interface Design Review Guideline,@ June, 1996 Generic Letter 98‑02, ALoss of Reactor Coolant Inventory and Associated Potential for Loss of Emergency Mitigation Functions while in a Shutdown Condition,@ May 28, 1998 Information Notice 95‑03, Loss of Coolant Inventory and Associated Potential Loss of Emergency Mitigation Functions while in a Shutdown Condition,@ January 18, 1995 Inspection Manual Chapter 0609, Appendix G, AShutdown Operations Significance Determination Process@ Inspection Procedure 71111.13, AMaintenance Risk Assessments and Emergent Work Control@ Inspection Procedure 71152, AIdentification and Resolution of Problems@ END Revision History for IP 71111.20 +--------+--------+-----------------------+-----+-------+--------------+ \| Comm \| Issue \| Description of Change \| Tr \| Tra \| Comment \| \| itment \| Date \| \| ain \| ining \| Resolution \| \| Tr \| \| \| ing \| Compl \| Accession \| \| acking \| \| \| Nee \| etion \| Number \| \| Number \| \| \| ded \| Date \| \| +--------+--------+-----------------------+-----+-------+--------------+ \| NA \| 01 \| \(1\) clarifies when \| No \| NA \| ML080250276 \| \| \| /31/08 \| outages should be \| \| \| \| \| \| \| addressed via IP \| \| \| \| \| \| CN \| 71111.20 vs IP 71153, \| \| \| \| \| \| 08-005 \| and (2) clarifies \| \| \| \| \| \| \| annual inspection \| \| \| \| \| \| \| resources for \| \| \| \| \| \| \| non-refueling and \| \| \| \| \| \| \| forced outages. \| \| \| \| +--------+--------+-----------------------+-----+-------+--------------+ \| \| \| \| \| \| \| +--------+--------+-----------------------+-----+-------+--------------+ \| \| \| \| \| \| \| +--------+--------+-----------------------+-----+-------+--------------+ [^1]: For PWRs, containment closure is met if all containment penetrations (including temporary penetrations, the equipment hatch, and the personnel hatch) have a differential capability equal to ultimate pressure or would be expected to remain intact following an accident. Leakage requirements as described in Appendix J are not a concern. Results from the RES Surry shutdown PRA show that containment pressure (in a sub‑atmospheric containment) following a core damage event at shutdown can be high.	en
markdown	860138	# Presentation: 860138 ## How do D0 and CDF compare? - Alice Bean (D0) - Univ of Kansas/Fermilab - 1. Designs - 2. M&S Costs - 3. Labor - 4. Schedule - Thanks to CDF for help! ## Comments - 1. Have tried to compare similar things, this may not be completely valid. - 2. Both Collaborations would like a chance to justify their current costs to the committee. - 3. Both groups have leaders at Sidet that talk to each other every day! There is more collaboration between collaborations than one might think. ## 1. Designs - Biggest difference in the detectors is how they handle L1: - * CDF uses 6 staves as part of outer barrel, - * D0 separate infrastructure - CDF can’t split in z - must span support on ISL in z to 1m ## Design - L0 - CDF and D0 designs are quite similar, - The major difference is that CDF gangs together 2 sensors in z by wirebonding - Sensors: 144 with same size and pitch - Analog Cables connect sensors to hybrids - CDF needs 144, D0 needs 288 - Hybrids - each has a 2 chip hybrid - CDF needs 72, D0 needs 144 - Beampipe Flange: - CDF>D0 - L0 radius CDF>D0 - Mechanical designs: - CDF uses Fermilab Engineering - D0 uses Univ. of Washington Engineering ## Design - Sensors - Both use only single sided sensors - All sensors have intermediate strips - The thickness is 320m - Each has 3 types of sensors - CDF: L0, Outer Axial, Outer Stereo - D0: L0, L1, Outer Axial - Comparison of Outer Axial Sensors ## Design - Readout - CDF and D0 both use the SVX4 chip, - CDF uses it in deadtimeless mode, - D0 uses the chip in SVX2 mode - so the downstream DAQ is different. - Outer Layer Hybrids: - CDF uses one-ended hybrids - D0 uses double-ended hybrids - Stave Readout Digital Cable: - CDF wirebonds hybrid to cable on stave core - D0 uses connector on hybrid, cable on top of stave - Outside of active region: - CDF - miniport card  junction card  junction port card FTM - D0 - junction card  adapter card interface board ## 2. M&S Costs - Reported costs without contingency which include all funding sources ## M&S Costs-comp - To make 2 projects look alike: - CDF: take out SVT & ind. costs $567K - D0: take out admin. and labor $894K ## M&S Costs - Sensors - Both assume 20% spares and 30% contingency - Production Sensor costs per sensor: - L0 $300 $222 - L1 [D0] $500 - Outer (A) $675 $460 - Outer (S) [CDF] $484 - Note: D0 has recently received a direct quote from HPK for outer layer sensors of $470 per sensor. The total cost savings would be $450K in the M&S. ## M&S Costs- Electrical - Note that both CDF and D0 get their SVX4 chip costs from Ray Yarema ## M&S Costs- Mechanical - Amounts in kilo-$ ## 3. Labor - CDF and D0 have adopted the same categories for Fermilab labor. - Both groups have based the labor on each task on Run2a experience for the actual times taken. - 1 FTE year = 1456 hours - Our base rates are slightly different, but we just found that out on Monday. ## Labor hours by type - * The SVX4 chip labor is taken out - D0 takes out installation crew to compare - and D0 CMMT and MTSF are grouped ## Module constr. labor hours ## Staves, labor hours ## D0 non-FNAL labor - There is a total of $810K in the M&S cost that is from labor: - $516K is covered by NSF MRI - $334K for sensor masks and probing - $91K for hybrid testing - $33K for database work - $70K for mechicanical on L0 - $131K for KSU electronics engineering - an additional $130K for UW engineering for - L0/L1 (total UW engineering $200K) - In addition, there is off-project labor ($127K): - Hybrid testing at KU - Radiation monitors at NIKHEF - Technician Time at La Tech ## CDF non-FNAL labor - Task group hours in project - Hybrids 11,040 - Power Supplies 976 - Sensor Testing 2,880 - L0 cables 1,760 - Positioning 3,440 - SVX4 chip 1,496 - TOTAL 21,592 - =15 FTE ## 4. Schedule - Some selected milestones - *Note that D0 electrical prototype is made of production parts, the full chain test with prototype parts occurs in Fall 02	en
markdown	888596	# Presentation: 888596 ## EdlBuild – generating edl files - Epics Collaboration Meeting, Slac - 28-Apr-2005 EdlBuild – generating edl files ## Why do we need it? Why do _we_ need it? - remember yesterday’s presentation - For those who fell asleep - We build 1700 device faceplates - Every time an interlock specification changes, we rebuild - Use edd/dm now, prepare for converting to edm - Need solution for edm !! ## Solution: EdlBuild Perl module library syntax like Perl/Tk allows configuration of any widget property configure site-specific “look and feel” extensible ## EdlBuild example ## EdlBuild Internals Perl module Edl.pm Includes all widget modules site-configuration modules Contains code for the Edl object (“screen”, “canvas”) one creation functon per widget code common to all widgets One Perl Module Edl....pm per widget Contains name/value template new() configure() ## Site-specific look and feel - Configure name/value templates in the widget modules - flexible - minimise # of parameters in widget calls - tedious - module EdlDefaults.pm - variables for - common colours i.e. fg, fb, on, off, incons, topShadow, botShadow - default font - widget versions ## Site specific extensions - If you have your own widgets - Create a perl module per widget: - Copy an existing Edl....pm module - use EDMGENDOC to create the name/value template and copy into Edl..pm module - run ConvertEdlTemplate.pl - module EdlSiteUse.pm - includes site-specific Perl modules - module EdlSiteWidgets.pm - defines creation functions for site-specific widgets ## State of things (April 2005) - EdlBuild - Beta >> release candidate - all edm 1.10.1 widgets are supported - gif, png not tested - TRIUMF edd/dm >> edm - all 1700 TRIUMF panels generated - made TRIUMF version of badlfish - converted all existing TRIUMF dm screens - created a “parallel universe” for operators to play and try - need macro expansion for colour rules in edm for interactive screen development - Need ability to dump XY-plot data to ascii file ## Interested??? - http://isacwserv.triumf.ca/epics/edlbuild	en
all-txt-docs	195385	ELIZABETH H. DOLE, SECRETARY OF TRANSPORTATION, ET AL., APPLICANTS V. RAILWAY LABOR EXECUTIVES' ASSOCIATION, ET AL. No. In the Supreme Court of the United States October Term, 1985 Application to Vacate Order Granting a Stay Pending Appeal to the United States Court of Appeals for the Ninth Circuit. Application to Vacate Order Granting a Stay Pending Appeal to the United States Court of Appeals for the Ninth Circuit. Pursuant to Rules 43 and 44 of the Rules of this Court and 28 U.S.C. 1651(a), the Solicitor General, on behalf of Elizabeth H. Dole, Secretary of Transportation, and John H. Riley, Administrator, Federal Railroad Administration, applies for an order vacating a stay entered by the United States Court of Appeals for the Ninth Circuit pending appeal to that court. The court of appeals' order has enjoined the implementation of a comprehensive nationwide regulatory program designed to prevent railroad accidents and resulting injuries and deaths that are caused by the impairment of railroad employees' abilities due to alcohol and/or drug use. The court's order eliminates the program's deterrent to drug and alcohol use -- and thereby endangers the safety of rail operations -- for at least the next several months, despite the fact that the district court upheld the regulations in all respects. The regulations (50 Fed. Reg. 31508, 31568-31579 (to be codified as 40 C.F.R. Part 219) (Attachment A)) prohibit using, possessing, or being under the influence of alcohol or drugs while on the job, and they require that the train crew be tested for the presence of those substances as soon as possible after a serious accident. The regulations also authorize railroad supervisors to require a breath or urine test of an employee when he is believed to have played a causal role in certain less serious accidents, or has been directly involved in major rule violations, or when there is reasonable cause to believe that he is under the influence of alcohol or drugs. The purpose of the regulations is to detect alcohol and drug abuse among railroad operating employees, to reveal the true extent of the problem, and, most important, to save lives by deterring railroad employees from operating trains while impaired by alcohol or drugs. After extensive rulemaking proceedings and full litigation in the district court, the regulations were scheduled to go into effect on January 6, 1986. The district court granted the government's motion for summary judgment on November 26, 1985. On the afternoon of January 3, 1986, the court of appeals, by a 2-1 vote, entered an order staying the implementation of the regulations pending appeal. STATEMENT 1. The regulations at issue here are the product of an extensive investigation and rulemaking proceeding conducted by the Administrator of the Federal Railroad Administration, who has been delegated by the Secretary of Transportation to implement the federal railroad safety laws. An Advance Notice of Proposed Rulemaking was issued on June 30, 1983 (48 Fed. Reg. 30723), and a Notice of Proposed Rulemaking was issued on June 12, 1984. Five days of public hearings were held across the country on the proposed rule and extensive comments were received and considered. The final rule was promulgated on August 2, 1985, with the proviso that it would become effective on November 1, 1985. The rulemaking proceeding demonstrated that the use of alcohol and other drugs by railroad operating personnel is a serious problem that requires immediate attention. The comments on the proposed regulations indicated general agreement that "alcohol and drug use does occur on the railroads with unacceptable frequency." 50 Fed. Reg. 31514. A 1978 study found that 23% of railroad operating personnel were "problem drinkers" and that 5% of workers got "very drunk" on duty at least once during the study year. Id. at 31515. While the rail industry has long had its own prohibition on use, possession, or being under the influence of alcohol while on duty ("Rule G"), the FRA found that enforcement of Rule G "has been hampered by inadequate means of detection, limited incentives for self-referral, and the reluctance of coworkers to identify the offender. Accordingly, most violations do not come to the attention of management and the intended deterrent effect of the (Rule G) is compromised." Id. at 31527. The FRA found that this problem of drug and alcohol abuse has had significant consequences with respect to safety in the railroad industry. Available data showed that between 1975-1984 there were 48 railroad accidents or incidents /1/ in which it was proven that alcohol or drug use by an employee either played a causal role or materially increased the severity; these events resulted in 37 fatalities, 80 injuries, $20.4 million in railroad property damage, and $13.8 million in environmental clean-up costs. 50 Fed. Reg. 31517. The accidents in which alcohol or drug use was proven tended to be the most severe; for example, 15% of the fatalities occurring from rail accidents during a recent 32-month period resulted from accidents in which alcohol use was proven to be a cause. Id. at 31525. And one alcohol-related derailment in Livingston, Louisiana, in 1982 resulted in a life-threatening release of hazardous materials causing the evacuation of 2,700 people. Id. at 31520, 31525. The FRA believes that these statistics concerning accidents proven to be caused by alcohol and drug abuse greatly understate the problem. These data were obtained primarily from reports required to be submitted by the railroads; in the absence of any contemporaneous substance testing, an accident could be ascribed to alcohol or drug abuse only if the symptoms of such abuse were obvious to the observer. /2/ 2. The regulatory program promulgated by the FRA addresses this problem in several ways. It generally prohibits covered employees (defined in Section 219.5(d), (e)) from using, possessing, or being under the influence of alcohol or drugs while on the job (Subpart B). It establishes a procedure for employees with problems to receive voluntary treatment and counseling without fear of dismissal (Subpart E). And it requires urine testing for drugs of all final applicants for covered positions (Subpart F). The provisions called into question here by the plaintiffs concern testing of employees. Subpart C provides that the railroad must attempt to test (through blood and urine samples) all covered employees involved in serious accidents. These are defined as: (1) a train accident that involves a fatality, a release of hazardous materials that causes an injury or evacuation, or $500,000 in damage; (2) a collision resulting in injury or $50,000 in damage; or (3) a train incident that fatally injures any on-duty railroad employee. The testing is to be performed as soon as possible after the accident at an independent medical facility. An employee cannot be forced to undergo these tests, but, if he refuses, the rule requires the railroad to remove him from his operating job for a period of nine months. Subpart D authorizes -- but does not require -- the railroad to subject an employee to a breath or urine test (but not a blood test) in three circumstances (Section 219.301(b), (c): (1) if a supervisor (or, in the case of a urine test, two supervisors) has a reasonable, articulable suspicion that the employee is under the influence of alcohol or drugs; (2) if the employee is involved in an accident or incident that must be reported to the FRA and the supervisor has reasonable suspicion that the employee's actions contributed to the accident; and (3) if the employee is directly involved in a violation of one of a select few of the railroad's most important operating rules, which are listed in the regulations (Section 219.301(b)(3)). 3. The final regulations were promulgated on August 2, 1985, and scheduled to go into effect on November 1, 1985. On October 28, 1985, a request for reconsideration was denied in substantial part. On October 31, 1985, the plaintiffs, an association of national railway unions and various local unions, brought suit in the United States District Court for the Northern District of California to enjoin the implementation of the regulations on statutory and constitutional grounds. /3/ The court entered a temporary restraining order the next day. Afer a hearing, the district court granted the government's motion for summary judgment on November 26, 1985 (Tr. 59-67; Attachment C). On December 9, 1985, the court dissolved the temporary restraining order and denied the plaintiffs' motion for an injunction pending appeal. Thereafter, the FRA announced a new effective date of January 6, 1986, thereby giving the rail industry some time to prepare anew for implementation and allowing for resolution of plaintiffs' expected motion to enjoin the regulations. 50 Fed. Reg. 50888. On December 16, the plaintiffs applied to the Ninth Circuit for an injunction, and the government filed its opposition on December 19. On January 3, 1986, the last business day before the regulations were scheduled to go into effect, the court of appeals (per Nelson and Reinhardt, JJ.), by a 2-1 vote, issued a one sentence order (Attachment B) granting plaintiffs' "motion for a stay pending appeal," citing to its decision in Lopez v. Heckler, 713 F.2d 1432, 1535, rev'd, 463 U.S. 1328 (Rehnquist, Circuit Justice). /4/ Judge Wiggins dissented. ARGUMENT The court of appeals' extraordinary action of enjoining the implementation of an important, carefully crafted, nationwide regulatory program without giving any basis for such action warrants immediate intervention by this Court. While the Court does not lightly grant relief when a matter is pending before a court of appeals (see Atiyeh v. Capps, 449 U.S. 1312, 1313 (1981) (Rehnquist, Circuit Justice)), it has not hesitated to act when a court of appeals has disturbed the status quo by erroneously enjoining the enforcement of valid regulations. See, e.g., Office of Personnel Management v. AFGE, No. A-5 (July 5, 1985) (Burger, Circuit Justice); Coleman v. PACCAR, Inc., 424 U.S. 1301 (1976) (Rehnquist, Circuit Justice); Morton v. Quaker Action Group, 402 U.S. 926 (1971). The standard for the issuance of such relief was summarized in PACCAR, 424 U.S. at 1304: (A) Circuit Justice has jurisdiction to vacate a stay where it appears that the rights of the parties to a case pending in the court of appeals, which case could and very likely would be reviewed here upon final disposition in the court of appeals, may be seriously and irreparably injured by the stay, and the Circuit Justice is of the opinion that the court of appeals is demonstrably wrong in its application of accepted standards in deciding to issue the stay. This standard is plainly satisfied here. The regulations, which come to the court with a presumption of validity, have already been upheld by the district court, and the court of appeals has given no hint as to where the district court erred. The court of appeals' injunctive action is egregiously erroneous; the balance of harms tips sharply in favor of the immediate implementation of the regulations, and there is little prospect that plaintiffs will prevail on the merits. Moreover, because of the importance of the issue and the fact that a reversal by the court of appeals would place it in direct conflict with the Seventh Circuit's decision in Division 241 Amalgamated Transit Union v. Suscy, 538 F.2d 1264, cert. denied, 429 U.S. 1029 (1976), it is likely that this Court would grant certiorari in the event the plaintiffs prevail on their appeal. While the plaintiffs' appeal is pending, the court of appeals' unjustified order exposes the public to a significant additional risk of death and injury from rail accidents caused by employees under the influence of alcohol or drugs. In these circumstances, the Court should vacate that order, which will remain in force for at least several months unless this Court acts. /5/ 1. It is manifest that the balance of harms weighs strongly in favor of immediate implementation of the regulations and that for that reason alone the court of appeals erred in enjoining them. The most severe injury that could conceivably occur to plaintiffs if the regulations are permitted to go into effect is that some employees could be induced to submit to a blood test that they would have been entitled to avoid if it is ultimately held that the regulations violate the Fourth Amendment. While we do not dispute that the drawing of blood may reasonably be viewed as a mildly unpleasant experience that a person would prefer to avoid, this Court has recognized that "(s)uch tests are a commonplace in these days of periodic physical examinations * * * and that for most people the procedure involves virtually no risk, trauma, or pain." Schmerber v. California, 384 U.S. 757, 771 (1966). In short, the possibility of having to undergo an unnecessary blood test is a thin thread on which to hand a decision enjoining implementation of an important, nationwide safety regulatory program. Moreover, the number of employees subject to this testing would be relatively few because only employees involved in the serious accidents identified in Subpart C (estimated at 150-200 per year (50 Fed. Reg. 32543)) would be affected. And even these employees would not be forced to undergo the tests, although they would be subject to disciplinary action if they refused. The "authorized testing" of Subpart D would result in even less injury. The breath and urine tests authorized under that Subpart are not invasive at all and cannot be characterized as anything more than the most minimal of intrusions. And, again, the only employees tested would be those whose job performance -- judging from their direct involvement in the incidents specified in the regulation -- has given rise to questions about their fitness or those reasonably suspected of being under the influence of alcohol or drugs. On the other hand, the important government and public interest in allowing the regulations to go into effect immediately is compelling. An extensive administrative investigation has revealed that numerous rail accidents and fatalities have been caused by alcohol or drug use by operating personnel. Implementation of the regulations will help identify employees who might contribute to such accidents in the future and, more generally, create a strong deterrent to the use of alcohol or drugs on the job that will significantly enhance railroad safety without subjecting anyone to tests. In a very real sense, the order entered by the court of appeals may yield death and destruction in the railroad industry that could be avoided if the order is vacated. The court of appeals gave no clue as to how it balanced the hardships here. We submit, however, that there is no rational justification for treating the possibility of a blood or urine test -- performed under strict safeguards and only in certain specified situations -- as outweighing the possibility of death or injury due to the malfeasance of a railroad employee working while under the influence of alcohol or drugs. 2. In our view, the tremendous imbalance between the serious irreparable harm done to the public interest in rail safety by the court of appeals' order on the one hand and the extremely limited effect on the plaintiffs of allowing the regulations to go into effect on the other is alone sufficient to warrant vacating the court's order. In addition, however, the court's order cannot be supported by reference to the other relevant factor for issuing a stay or an injunction. There is little likelihood that the plaintiffs will prevail on the merits of their appeal. A testing program essentially indistinguishable from this one was upheld by the Seventh Circuit in Division 241 Amalgamated Transit Union v. Suscy, supra. There, the Chicago Transit Authority had instituted a program under which bus and train operators were required to submit to blood and urine tests when they were involved in a serious accident or when two supervisors suspected them of being under the influence of liquor or drugs. The court of appeals found that this program was "reasonable" within the meaning of the Fourth Amendment because the affected public interest in the safety of mass transit outweighed any infringement on individual interests occasioned by the testing. 538 F.2d at 1267. This conclusion is clearly correct. The touchstone of the Fourth Amendment is "reasonableness." Whether a particular search or seizure is reasonable is assessed by "balanc(ing) the nature and quality of the intrusion on the individual's Fourth Amendment interests against the importance of the governmental interests alleged to justify the intrusion." United States v. Place, 462 U.S. 696, 703 (1983). Here, the intrusion on the individual's interests is minimal; the most severe intrusion possible is a "safe, painless, and commonplace" (South Dakota v. Neville, 459 U.S. 553, 562 (1983)) blood test, and even that may occur only when the employee has been involved in a serious accident involving loss of life or major property damage. On the other hand, the intrusion is justified by a paramount government and public interest in rail safety. The regulations are narrowly drawn to deal effectively with a recognized safety problem that has been proven to have led to 37 fatalities in recent years and is suspected of causing more. It is surely reasonable for employees who work in an industry as imbued with public safety concerns as the rail industry to be expected to submit to a blood test when they have been involved in a serious accident. In their papers in the court of appeals the plaintiffs sought to avoid the manifest reasonableness of the regulations by arguing that, under the Fourth Amendment, testing for alcohol and drugs is inherently unreasonable in the absence of probable cause and a warrant. It is true, of course, that certain types of searches normally require probable cause to suspect criminal activity and a warrant, notably the traditional search for evidence of a crime where a suspect is singled out for investigation. We do not dispute that traditional probable cause is required when a blood test is taken in this individualized criminal investigation context. See Schmerber v. California, supra. But it is equally true that the warrant and probable cause requirements do not apply to every intrusion that is covered by the Fourth Amendment. This point was cogently explained by this Court in Delaware v. Prouse, 440 U.S. 648, 653-655 (1979) (footnotes omitted): The essential purpose of the proscriptions in the Fourth Amendment is to impose a standard of "reasonableness" upon the exercise of discretion by government officials, including law enforcement agents, in order "'to safeguard the privacy and security of individuals against arbitrary invasions. . . .'" Marshall v. Barlow's, Inc., 436 U.S. 307, 312 (1978), quoting Camara v. Municipal Court, 387 U.S. 523, 528 (1967). Thus, the permissibility of a particular law enforcement practice is judged by balancing its intrusion on the individual's Fourth Amendment interests against its promotion of legitimate government interests. Implemented in this manner, the reasonableness standard usually requires, at a minimum, that the facts upon which an intrusion is based be capable of measurement against "an objective standard," whether this be probable cause or a less stringent test. In those situations in which the balance of interests precludes insistence upon "some quantum of individualized suspicion," other safeguards are generally relied upon to assure that the individual's reasonable expectation of privacy is not "subject to the discretion of the official in the field," * * . It is clearly inappropriate to require individualized probable cause and a warrant to conduct the testing involved here, and the regulations contain more than adequate safeguards to assure that employees' privacy is protected "against arbitrary invasions" and that employees are not subject to testing "at the unbridled discretion of * * (the responsible) officials." Delaware v. Prouse, 440 U.S. at 654, 661. The post-accident testing mandated by the regulations (Subpart C) is not a search for evidence based on an individualized suspicion. Rather, it is part of a regulatory program designed to promote safety in the railroad industry, which is heavily regulated in the public interest. Such an administrative search, while subject to the Fourth Amendment, is not governed by the traditional probable cause standard applicable to the singling out of individuals for a search for evidence; rather, it is governed by the "administrative probable cause" standard described in Marshall v. Barlow's, supra, and Camara v, Municipal Court, supra. /6/ If the government interest involved reasonably justifies the degree of intrusion (as discussed above), then such an administrative search is permissible "on a showing that 'reasonable legislative or administrative standards for conducting an . . . inspection are satisfied with respect to a particular (establishment).'" Barlow's, 436 U.S. at 320 (quoting Camara, 387 U.S. at 538). Here, the regulations specify in detail the circumstances under which the tests must be conducted -- a defined class of serious accidents -- and it cannot seriously be suggested that these circumstances are not reasonable ones in which to require testing. Clearly, the tests satisfy the standards for administrative searches. /7/ There is absolutely no merit to plaintiffs' suggestion that the testing contemplated by the regulations requires a warrant. Even if probable cause in the criminal law sense were required, it is clear that, because the evidence of alcohol or drugs in the blood quickly dissipates, exigent circumstances exist in this context that make obtaining a warrant not feasible. See Schmerber v. California, 384 U.S. at 770-771. In any event, there is no need here for a magistrate to assess whether a particular test is part of a "neutral * * * administrative plan" of inspection (Barlow's, 436 U.S. at 321); the criteria for identifying the class of employees to be tested are published in the regulations and they are indisputably neutral. See generally United States v. Martinez-Fuerte, 428 U.S. 543, 564-566 (1976). Moreover, no employee is forced to submit to testing, although employees are subject to disciplinary action for refusing to do so. And, of course, employees are exposed to the possibility of testing only if they work in the railroad industry. When an employee chooses to work in a job that so greatly implicates the public safety, it is not unreasonable for him to accept, as a condition of that employment, the possibility that he will be required to submit to a blood test in the event he is involved in a serious accident. /8/ The regulations (Section 219.11) explicitly put an employee on notice that his remaining in such employment is an implied consent to that limited intrusion. Requiring such a consent is a valid regulatory requirement analogous to requiring a motorist to consent to a blood test in appropriate cases as a condition of operating his motor vehicle (see, e.g., South Dakota v. Neville, 459 U.S. at 559; Mackey v. Montrym, 443 U.S. 1, 3-4 (1979)) or requiring an airlines passenger to submit to a search as a condition of boarding a plane (United States v. Davis, 482 F.2d 893, 912-913 (9th Cir. 1973)). See also Wyman v. James, 400 U.S. 309 (1971) (receipt of welfare benefits may be conditioned on consent to home visit). The Fourth Amendment challenge to the "authorized testing" provisions contained in Subpart D is even weaker than the challenge to the mandatory testing. /9/ The intrusion involved in these tests (urine and breath) is truly minimal. No test can be required at all absent specific observations or performance failures that rationally raise questions about the sobriety of the employee or the safety of his performance. See Section 219.301. This scheme clearly satisfies Fourth Amendment standards. The validity of the testing based on performance failures identified in the regulations, viz., a major rule violation or the employee's contributing role in an accident, follows a fortiori from the validity of the more severe intrusion of a blood test upon the occurrence of a specified event (see pages 11-14, supra). The other type of authorized testing, viz., that based on a reasonable suspicion that an employee is presently under the influence of drugs or alcohol, is also reasonable under the Fourth Amendment because of its negligible intrusiveness; breath or urine tests are equivalent to the sorts of intrusions that this Court has recognized can reasonably by required on the basis of articulable suspicion that falls short of probable cause. See, e.g., New Jersey, v. T.L.O., No. 83-712 (Jan. 15, 1985), slip op. 14; Terry v. Ohio, 392 U.S. 1 (1968). /10/ In sum, the regulatory program involved here is a measured response to an important safety problem that plainly satisfies the reasonableness test of the Fourth Amendment. The court of appeals manifestly erred in enjoining it. CONCLUSION The "stay" issued by the court of appeals should be vacated. Respectfully submitted. CHARLES FRIED Solicitor General JANUARY 1986 /1/ For FRA reporting purposes, a train "accident" is an event involving on-track equipment that results in railroad property damage in excess of a periodically updated monetary threshold (currently $4,900). A train "incident" is an event involving the movement of on-track equipment that results in death, a reportable injury, or a reportable illness, but in which railroad property damage does not exceed the reporting threshold for train accidents. See 49 C.F.R. 225. We will use the term "accident" generally to refer to both types of events. /2/ The Southern Pacific Railroad began its own program of drug and alcohol testing and has reported that accidents and injuries attributable to human error dropped by 70% in the year that the testing was begun. The FRA did not rely on these figures because it had not yet had the opportunity to examine the specific procedures followed by the railroad or the manner in which the data were analyzed. 50 Fed. Reg. 31514. /3/ The plaintiffs' primary claim was that the regulations violate the Fourth Amendment. They also claimed a due process violation and that the regulations violate various statutes. These latter claims were summarily dismissed by the district court as without "much merit" (Tr. 61) and were not addressed by plaintiffs in their papers in the court of appeals. /4/ The court misused the term "stay" in its order. Because the district court had ruled in favor of the government there was no order for the court to stay; what it did in effect was to enter an injunction against the implementation of the regulations, which is in fact the relief that the plaintiffs sought. Had the district court entered such an order it would have been required to issue detailed findings under Fed. R. Civ. P. 65. The court of appeals, however, gave no clue as to the basis for its ruling. It also appears that the court of appeals has enjoined every part of the new regulatory program from going into effect even though the plaintiffs' Fourth Amendment objection goes to the validity only of Subparts C and D. /5/ The court of appeals' order states that the appeal is to be "expedited," but it then provides for the ordinary briefing schedule contained in Fed. R. App. P. 31(a). Thus, it will be three months before the case can even be set for oral argument. And it may be many months more until the court of appeals renders its decision. /6/ Even in the criminal law context, when an individual is not singled out for suspicion but instead is searched or seized as part of a group, the absence of individual stigma suggests that there is less reason to require the strict criminal probable cause standard. See Delaware v. Prouse, 440 U.S. at 663 & n.26; United States v. Martinez-Fuerte, 428 U.S. 543, 559 (1976). /7/ The plaintiffs argued below that the administrative search rationale could not apply here because there is no explicit congressional authorization and because it does not apply to searches of persons. There is no support for these supposed limitations on administrative searches; indeed, each is inconsistent with established Ninth Circuit precedent. See Balelo v. Baldrige, 724 F.2d 753, 764-765, cert. denied, No. 83-1734 (June 18, 1984) (en banc) (upholding regulation requiring porpoise fishermen to allow government observers on boat); United States v. Davis, 482 F.2d 893, 910-913 (1973) (pre-boarding search of airline passengers). /8/ Since 1927, the Federal Aviation Administration has required pilots and other flight crew members to undergo periodic physical examinations, which may include blood tests. See 14 C.F.R. Parts 61, 63, and 67. The Federal Highway Administration also requires physical examinations for drivers employed by motor carriers. 49 C.F.R. Part 391. There is no significant difference for Fourth Amendment purposes between regularly scheduled fitness examinations and examinations triggered by neutral criteria relating to the occurrence of specific events that reasonably call into question the fitness of involved employees. /9/ The contention that the Fourth Amendment applies at all to the authorized testing turns on the district court's finding that this testing is "state action" because it is specifically authorized by the regulations. This conclusion is questionable. The rulemaking proceeding explains that the authorized testing provision was included because of concern that the Railway Labor Act would be read to prevent the railroads from imposing such testing unilaterally. See 50 C.F.R. 31528, 31546, 31552. The testing nonetheless is not required by the government, and the employer is free to use or not to use Subpart D authority. The government has merely opened the door to allow such testing. If the employer does choose to test an individual employee under the authority conferred by this section, the test occurs only by private choice and is not governmental action covered by the Fourth Amendment. See, e.g., Blum v. Yaretsky, 457 U.S. 991 (1982); Flagg Bros. v. Brooks, 436 U.S. 149, 164-166 (1978). /10/ The reasonableness of the regulations in this regard is exemplified by the additional safeguard that urine tests cannot be required on the basis of reasonable suspicion unless two supervisors concur that the employee appears to be under the influence of alcohol or drugs. See Section 219.301(c)(2).	en
converted_docs	032392	![](media/image1.jpeg){width="6.5in" height="0.9791666666666666in"} COMMODITY NUTRITION ASSISTANCE PROGRAMS *Background* Over many years, the Nation has built an array of nutrition assistance programs designed to help the most vulnerable populations avoid hunger and make healthy food choices. Taken together, the national nutrition safety net serves one in five Americans over the course of a year. Several components of the national nutrition safety net provide benefits in the form of commodities distributed to program participants. Of the \$50.9 billion in nutrition assistance spending in 2005, \$1.5 billion was for commodities. The commodity programs authorized or addressed by the Nutrition Title of the farm bill include: [The Food Distribution Program on Indian Reservations (FDPIR)]{.underline} FDPIR provides a food package as an alternative to food stamps for low-income families on or near reservations; the FDPIR cost \$78 million in 2005 and provided nearly 100,000 individuals with \$41 in food per month. [The Emergency Food Assistance Program (TEFAP)]{.underline} TEFAP provides purchased and bonus commodities to States for distribution to households and organizations that prepare meals for needy people. The program provided \$140 million for commodity purchases and over \$50 million for administrative expenses in 2005. [The Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} SFMNP provides low-income seniors access to fresh produce and supports farmers markets, roadside stands, and community-supported agriculture programs. The program provided \$15 million to support fruit and vegetable purchases in 2005. [The Commodity Supplemental Food Program (CSFP)]{.underline} CSFP provides supplemental foods to low-income women and their children and the elderly. The program cost about \$150 million in 2005 and served over 500,000 participants and provides funds each month per person valued at about \$18 for elderly individuals and \$25 for women and children. Other components of the national nutrition safety net---including the National School Lunch and Breakfast, Child and Adult Care Food, Summer Food Service, and Special Milk Programs and the Special Supplemental Nutrition Program for Women, Infants, and Children (WIC)---are authorized outside the farm bill, most recently in 2004. These programs complement USDA price and market support goals by providing outlets for the distribution of surplus commodities. They operate in partnership with State and local organizations that interact directly with program participants. States voluntarily enter into agreements with the Federal Government to operate programs according to Federal standards in exchange for program funds that cover all benefit costs and a portion of administrative expenses. *General Opinions Expressed* - General support for preserving commodity programs administered by the Food and Nutrition Service (FNS)---TEFAP, the CSFP, the FDPIR, and the SFMNP---without funding cuts; many supported increased funding to address unmet community needs and to improve infrastructure. - Some commenters recommended a uniform eligibility threshold of 185 percent of poverty for all nutrition programs. - Many commenters proposed a buy-locally-first approach to provide healthier and fresher commodities and to halt rising costs of warehousing, shipping, and reprocessing charges that are limiting services. New programs and policy tools are needed to link vulnerable food producers with vulnerable consumers, including farmers markets, community food projects, and increased procurement of locally grown food by institutions. Many commenters cited experiences with the Department of Defense Fresh Fruit and Vegetable Program and farm-to-school initiatives as a step in this direction. - There was general discussion about making improved nutritional status of Americans a national priority. Many expressed the position that the nutrition profile of food packages and the commodities provided by the Government through its nutrition programs should adhere to the 2005 Dietary Guidelines for Americans and include more whole grains and fresh fruits and vegetables. [Food Distribution Program on Indian Reservations (FDPIR)]{.underline} - Many suggested the need for improvements in the quality of the food package to ensure that it meets dietary guidelines and for improvements in delivery to ensure that food products are distributed before their expiration dates. - Indian tribal leaders suggested the importance of following appropriate Nation-to-Nation protocols and respecting existing treaty agreements when making changes to FDPIR. - Many provided comments on current efforts to establish a more equitable methodology for allocating FDPIR administrative funds among the Independent Tribal Organizations (ITO), with many voicing concerns about potential funding cuts and some proposing provisions to protect against funding cuts. - Many requested a separate allocation, as well as increased funding, for nutrition education to address obesity and diabetes and maintain food preparation skills. - Many Native Americans expressed the view that tribes should set their own eligibility guidelines. - Some discussed their preference for a national multi-food ordering and delivery system (similar to the Prime Vendor Pilots) with improved customer service, Internet-based ordering from actual inventory, reduced time between orders and delivery, and pre-set delivery schedules. - Many proposed coverage of Native Americans who live nearby in urban areas because of the shortage of housing on the reservations and who would rather have commodity foods than food stamp benefits. - Various participants requested additional traditional foods such as Indian corn and bison (accounting for differences among tribes) as permanent items in the food package. [The Emergency Food Assistance Program (TEFAP)]{.underline} - Many forum participants remarked about the important role TEFAP plays in community food banks. - Many said that they are seeing increased numbers of clients at food banks and serving them with reduced supplies of USDA commodities. - Many participants supported an increase in USDA commodity donations to fill local need while others favor augmenting food supplies with purchases from local farmers. - Many conveyed the concern that higher storage and delivery costs are putting a financial strain on emergency food providers, particularly in Western States that deliver to remote, rural locations. They proposed higher TEFAP administrative funding. - Some participants made suggestions for improving the nutritional content of commodities: more protein and dairy items, more foods appropriate for those with health-related or religious dietary restrictions. Others would like more culturally relevant food items. Many requested more variety in the food products made available and, therefore, more choices for food banks and for clients. - Many representatives of food banks spoke about the uncertainty of the content of TEFAP deliveries, leading to the proposal that USDA should share more information with food banks about the availability and distribution of TEFAP foods so that they are able to adequately plan for changes in the TEFAP food supply. [Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} - Many view SFMNP as a cost-effective means to provide low-income seniors resources to purchase locally grown fruits and vegetables and to strengthen community ties, with farmers helping seniors and seniors helping farmers. - Several would increase funding to allow participation by additional low-income seniors in current sites, and expand the program to accommodate all States and Indian Tribal Organizations. - Some requested that USDA set aside or modify proposed rules that establish new requirements for eligibility determination, benefit maximums, notifications, data collection, and reporting on the grounds that such requirements are burdensome compared to the program's modest benefits. - Many are concerned about the lack of administrative funding for the program. Some want a separate administrative fund; others would like the proposed limit for administrative costs raised from 8 percent to anywhere from 12 to 20 percent. - Some suggested adding products such as honey, nuts, eggs, and apple cider to the list of eligible products to improve the market basket and make participation more appealing. [Commodity Supplemental Food Program (CSFP)]{.underline} - Many favored making CSFP a national entitlement, expanding the program to all States or to States with approved State plans (Arkansas, Delaware, New Jersey, Oklahoma, and Utah). Some support was expressed for making the CSFP an elderly-only program. ```{=html} <!-- --> ``` - Many spoke generally of increased funding for caseload and program administration. - Many participants supported increased access to program benefits by low-income elderly persons, setting them as a priority group and aligning elderly eligibility criteria with CSFP for women and children. - Many supported evaluation of CSFP to provide participant profiles and determine outcomes. - A few noted the disproportionate effect of grant reductions and increased administrative requirements on rural service levels and States that are not automated (e.g., New Hampshire). [Miscellaneous]{.underline} ```{=html} <!-- --> ``` - Many participants requested increased funding for the Fresh Fruit and Vegetable Snack Program authorized under the Child Nutrition and WIC Reauthorization Act of 2004 and the Department of Defense Fresh Fruit and Vegetable Program. Some suggested doubling the funding, but the most common suggestion was to expand it to all 50 States and all Indian Tribal Organizations. - Some encouraged USDA to develop a greater role in nutrition research. Specific suggestions included: exploring the relationship between diet and health, examining the impacts of nutrition program participation on diet quality and health, improving the nutritional content of nutrition assistance benefits, understanding consumer behavior regarding the consumption and benefits of fruits and vegetables, creating a database of food safety and the nutrient composition of the food supply. *Detailed Suggestions Expressed* [Food Distribution Program on Indian Reservations (FDPIR)]{.underline} - There have been beneficial improvements in FDPIR that should continue: addition of frozen items, fresh fruits and vegetables, tailgate deliveries, and nutrition education. - Allow the carryover of unobligated administrative funds from one year to the next. ```{=html} <!-- --> ``` - Some programs have difficulty meeting the 25 percent match requirement. Although warehouses cannot be used for in-kind match, the value of the land beneath warehouses or their salvage value should be considered. - Provide funding for bar coding and scanning systems in grocery centers. - Inform tribes that they are eligible to receive both FDPIR commodities and TEFAP commodities. - Provide more guidance to tribes about the tradeoffs between the food stamp program and FDPIR. - Provide technical assistance to tribes that want to develop a community garden. - Provide more food with commercial labels. - Teachers on reservations should be eligible for food packages in summer months. - Vary size of food package by income. Offer a complete package (not supplemental) for those without income. ```{=html} <!-- --> ``` - Reform certification requirements that are a participation barrier for many tribal members. - More Native Americans are applying for food stamp program (FSP) benefits so that they can buy ready-to-eat foods; nutrition education is needed to teach them how to prepare foods. - Develop culturally sensitive nutrition education. - Funds are needed for tribal members to attend meetings and conferences. - Better ways are needed to verify income of applicants (particularly reports of zero income) to comply with program requirements. - Specific considerations proposed for the revision of the FDPIR administrative fund allocation formula are: (a) Funding reductions and reallocations can force some programs to change to tailgate services, increasing distances for participants to receive packages. (b) Allow more representation of other tribes in the group working on this issue. (c) Need to take into consideration the unique needs of various tribes such as geography, need for tailgating, and services needed. (d) Provide for waivers in using the new methodology. (e) Include cost-of-living adjustments in the formula. [The Emergency Food Assistance Program (TEFAP)]{.underline} - USDA should increase the mandatory commodity purchase level to \$500 million. - Administrative reimbursements should be based on the amount of food that food banks receive and distribute (based on a simple \$6 per case, for example). - Use Section 32 funds for increased administrative costs, to support costs associated with handling bonus commodities, and to help move commodities from farms to food banks. Allocate all Section 32 funds for increased TEFAP funding. - Alter the 60/40 allocation formula (based on unemployment and poverty) to better account for the number of people living in areas with chronic unemployment and other factors. - Some rural areas would prefer cash in lieu of commodities (allowing them to directly purchase commodities from vendors) because administrative costs often equal or exceed the cost of commodities. - Streamline and improve the current expense reimbursement process to reduce burden and more adequately cover expenses of nonprofit organizations. - Establish reimbursement limits that address the needs of some food banks for capital improvements, such as the purchase of an additional forklift. - Make USDA programs more accessible to small community and faith-based organizations. - Increase FNS control over food banks with contracts and establish an impartial board to review complaints. - Consider national uniform rules or identify model practices to improve quality and consistency of commodity distribution contracts. - Reduce overly burdensome paperwork requirements. Clients should not need to certify eligibility each time that they receive food. Allow the food distribution organization to monitor clients' eligibility status. - Instruct local providers that FDPIR participants are categorically eligible for TEFAP. - Integrate nutrition education with TEFAP so that nutrition education can occur at food pantries. - Use of commercially labeled commodities should be limited because they make it difficult to track allegations of fraud, sale, or misuse of TEFAP products. - Surplus commodities (bonus buys) should be distributed through the TEFAP network to improve the overall supply of commodities to the program. - Decisions on bonus buys should be based on the nutritional value of food instead of its availability as surplus. - USDA should purchase kosher foods and more protein-rich options for kosher clients, and display the kosher label. - Give programs more choice over commodities they distribute to their clients. - Reinstate the TEFAP cheese waiver in Wisconsin. - Grant waiver authority to allow food banks to turn excess unwanted commodities into useful products that clients will eat and appreciate. [Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} - Adequately fund SFMNP to prevent reductions in the number of seniors served. - Reexamine the distribution of funds to the States. - Expand the program by reallocating program funds that are returned annually by States to FNS for use in subsequent years. - Make the program available year-round. - Provide larger benefits so that elderly can use the farmers markets more often. - Hawaii opposes the proposed rule to limit SFMNP benefits to \$50 per person and prefers a rule that allows them to continue their 2004 benefit levels. - Eliminate barriers that prevent people from accessing the benefits. - Allow self-declaration of income eligibility in SFMNP. - Simplify rules and paperwork requirements so that diverse organizations can help make the program more accessible to participants. - Simplify the application procedures to establish a SFMNP. - Distribution of funds should focus on enhancing access for older adults to food from local farmers. - Use Web-based training and conference calls instead of face-to-face training for farmers. - Allow State farmers market associations to apply for food stamp authorization for members. [Commodity Supplemental Food Program (CSFP)]{.underline} - Rather than increase CSFP, increase the minimum food stamp benefit to \$50 for elderly and disabled persons. - Give each State the authority to set its own priorities in CSFP based on its knowledge of demographics, local needs, services, and food supply. - New requirements for race and ethnic reporting in CSFP are too burdensome. - Develop culturally sensitive nutrition education. - Allow food banks to inventory products by the unpacked case, as in TEFAP. - Designate senior citizens as the first priority when receiving CSFP services and allow States to provide benefits to women and children if extra funds are available. [Miscellaneous]{.underline} ```{=html} <!-- --> ``` - Support faith-based organizations because they are on the front lines of the fight against hunger. - All aspects of the farm bill, not just those deemed nutrition, should be evaluated in terms of the impact on the health and safety of vulnerable communities. - Enact a national fast food surcharge to generate revenues to fund TEFAP, CSFP, and SFMNP expansion. - Allow tribes to administer WIC, FSP, SFMNP, and CSFP as sovereign nations, rather than as a State-sponsored organization. (Note: Tribes already directly administer WIC, SFMNP, and CSFP.) - Increase the Defense Supply Purchasing Network. - Amend laws to provide for in-State or local preference, particularly regarding Department of Defense's farm-to-school purchases. - Increase the fruit and vegetable snack allowance per child to \$60. - Fund the Farm-to-Cafeteria project. - Pilot a farmers market voucher for low-income families to purchase fruits and vegetables in the summer, particularly in areas where there is no summer meal program. - Allow flexible program regulations in WIC, TEFAP, and CSFP to enable situation-variable responses during events like disasters (e.g., getting chilled baby-formula to infants in disaster areas). - Allow WIC participants in federally declared disaster areas to use their benefits in any State. - Increase funding for WIC. - Provide funding to expand EBT to WIC. - Make WIC available to seniors age 55 and older. - Increase spending for the WIC Farmers Market Program. - Improve WIC participants' access to farmers market produce. - Make nutrition education a part of the WIC Farmers Market Program. - Designate Expanded Food and Nutrition Education Program (EFNEP) as the nutrition educators for WIC offices. - Support the Expanded Food and Nutrition Education Program. - Change public perception of the Food Stamp Program, WIC program, and School Lunch Program as being "free handout programs" by continuing nutrition education. - Support Cent\$ible Nutrition Program. - Support continued investment in public education on the importance of nutrition for health, learning, and productivity. - Use listening sessions to inform potential stakeholders of the benefits of USDA programs (i.e., provide informational materials and/or a display of some sort). - Provide additional tax incentives to encourage charitable food donations to food banks and pantries. - Support food banks that purchase local food. - Federal tax law should provide additional incentives to encourage charitable food donations to food banks and pantries. - Increase support for community food projects through the competitive grants program. - Increase technical support to organize community food projects and support food retailers in minority neighborhoods. - Support the development of local and regional infrastructure, such as public wholesale terminals, local distribution systems, and local food reserves that would be available in times of crises and disasters. - Create food-related enterprise zones that build local food systems\--from producing to processing to distribution to retail. - Study the concerns of grandparents and other relatives who are caretakers raising children and identify ways to help them. - Concern was expressed about importation of Milk Protein Concentrate and other potentially "unsafe" imports that affect the U.S. food supply, including those provided to FNS program participants. - Perform research to evaluate health claims for food crops. - USDA agencies working on food and nutrition should be brought together. - Make broader use of the American Dietetic Association's evidence grading system to evaluate nutrition guidelines, claims, and education.	en
all-txt-docs	029406	USGS Digital Spectral Library splib06a Clark and others 2007, USGS, Data Series 231. 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65.622093 0.151088 0.000000 66.463402 0.175135 0.000000 67.326561 0.197550 0.000000 68.212440 0.217979 0.000000 69.121933 0.230534 0.000000 70.056015 0.243515 0.000000 71.015686 0.262029 0.000000 72.002014 0.273591 0.000000 73.016319 0.280329 0.000000 74.059410 0.277492 0.000000 75.132736 0.282812 0.000000 76.237625 0.308987 0.000000 77.375504 0.340907 0.000000 78.547859 0.361123 0.000000 79.756294 0.377650 0.000000 81.002487 0.383892 0.000000 82.288490 0.379495 0.000000 83.615730 0.377367 0.000000 84.986481 0.378643 0.000000 86.402931 0.378927 0.000000 87.867393 0.373181 0.000000 89.382355 0.368571 0.000000 90.950470 0.365804 0.000000 92.574593 0.367932 0.000000 94.257210 0.367010 0.000000 96.002708 0.358356 0.000000 97.814079 0.348284 0.000000 99.695114 0.327287 0.000000 101.649918 0.307071 0.000000 103.682915 0.296502 0.000000 105.798889 0.294020 0.000000 108.003029 0.287068 0.000000 110.301392 0.278840 0.000000 112.699249 0.268342 0.000000 115.203682 0.260326 0.000000 117.821953 0.236492 0.000000 120.562004 0.235783 0.000000 123.432541 0.256921 0.000000 126.443092 0.275080 0.000000 129.604187 0.286004 0.000000 132.926254 0.285224 0.000000 136.424286 0.275009 0.000000 140.111420 0.266426 0.000000 144.003372 0.276428 0.000000 148.117722 0.282812 0.000000 152.474106 0.275506 0.000000 157.094498 0.278485 0.000000 162.003662 0.269122 0.000000 167.230545 0.255857 0.000000 172.804886 0.264724 0.000000 178.763672 0.285295 0.000000 185.148087 0.342183 0.000000 192.005402 0.490151 0.000000 199.390213 0.521007 0.000000 207.365814 0.243870 0.000000 216.006042 0.211098 0.000000 -1.23e34 -1.23e34 -1.23e34	vi
all-txt-docs	019780	U.S. DEPMtTMEWP OF HEALTH, EDUCATION, AND WELFARE. Smok+ and H&th: A Report of the Surgeon Geneml. DHEW Pub. No. 07960066. us. Department of Health, Education, and Welfare, Public Health Serviw, offi~ e the h-t ,%mtmy for Health, Offhx on Smoking and Health, 1979. U.S. DEPARTMENT OF HEALTH AND HUMAN SERVLCES. The Health am ~a- of &noking: Cancer. A hfq.wt of the &q&on &neml. DHHS pub. &. (pHs)8250179. U.S. Department of Health and Human Services, Public I&&b &IV&, office of the Assistant Secretary for Health Office on Smoking w Health, 1932. U.S. DEPARTMENT OF HEALTH AND = s-vK.!E% !t"he Health &- ~uence.g of Smokingz Chmnic Obstrueti~ Lung Disease A Repor of the Sugcon Ged. DEIHS Pub. No. @%S)34-50205. U.S. Department of Health and Hm &WV&S, public Healtb Service, office of the Assistant Secretary for Health, OfIiee on Smoking and Health, 1934. U.S. DEPARTMENT OF TRANSPORTATION and U.S. DEPARTMENT OF HEALTH, EDUCATION, AND WELFARE. Health Aspect.9 of Smoking in 32ane port Aitwaf% U.S. Department of Transportation, Federal Aviation Admi&tm- tion, and U.S. Department of Health, Education, and Welfare, National Inatit& for Occupational Safety and Health, December 1971. U.S. FED- TRADE COIvfIKMION. "Tar, "Nicotine and Gzrbon lldonozide of tke Smoke of 207 V&i&es of Dm&ic Cigarettes. U.S. Federal Trade Comm%m, January 1935. VAINIO, H., HEMMINRI R, WILBOURN, J. Data on the carcinogenici~ of chemicale in the IARC ddonogmphe p rogramme. Cunzinogenesis 6(11~1653-1665, November 1935. VILCINS, G., LEPHAIUYI?, J.O. Aging procewea of cigarette smoke: Formation of methyl nitrite. C&m&y and I&u&y 223974-975, November 15.1975. WADE, W.A. III, COTE, W.A., YOCUM, J.E. A study of indoor air quality. Joumai of Ule Air Pollution Control Association 25(9):93%939, September 1975. WALD, N., RITCHIE, C. Validation of studies on lung cancer in nonmokers married by .sders. (letter). Lamt 1@335):607, May 12,191~. WALLAcE,UpELLIzzARL E.D., HARWEL, T. SPRACINO, C., ZEI.QN, H. Personal exposures indoor-outdoor relationships and breath levels of volatile Ogaaics in New J-y. Atmospheric Envinmment, in press. WALSII, I% BLAcg, A., MORGAN, A., CF&%WSHAW, OH. Absorption of SO, by tppical indoor sllrfacee including wool carpets, wallpaper, and paint. Aanaepheric J%virowieent 11(11):1107-1111,1977* 176 CHAPTER 4 DEPOSITION AND ABSORPTION OF TOBACCO SMOKE CONSTITUENTS CONTENTS Deposition Size Distribution of Cigarette Smoke Mainstream Smoke Sidestream Smoke Particle Deposition in the Respiratory Tract Total Deposition Regional Deposition Respiratory Tract Dose of Environmental Tobacco Smoke Cigarette Smoke Particulate Mass Deposited The Concept of "Cigarette Equivalents" Markers of Absorption Carbon Monoxide Thiocyanate Nicotine C&nine Urinary Mutagenicity Populations in Which Exposure Has Been Demonstrated Experimental Studies Nonexperimental Exposures Quantification of Absorption Evidence of Absorption in Different Populations Quantification of Exposure Comparison of Absorption From Environmental Tobacco Smoke and From Active Smoking Conclusions References Introduction An understanding of the deposition of &arette smoke partick in the respiratory tract is important because many of the toxic cmstituents of cigarette smoke are conbined in the particles. me quantity retained, which c~nstitutea the dose, is some fraction of the quantity inhaled. Meas~reg of tobacco smoke constituents or their metabolites are also important because they reflect the absorption of tobacco smoke by the individual smoker or nonsmoker, and therefore may be more accurate markers of the actual exposure experienced by an individual. There is little experimental information describing the deposition of environmental tobacco smoke in the respiratory tract (Jarvis et al. 1983). However, cigarette smoke particles probably behave in a manner similar to other inhaled particles. I,n contrast, there are a number of observations of different markers in the biological fluids of smokers and nonsmokers. This review begins with a discussion of particle deposition in general and the factors that affect deposition. This understanding is then applied to the existing data on tobacco smoke deposition in the human respiratory tract. Subsequently, a variety of biologic markers of smoke absorp- tion are e namined, and the levels of these markers found in smokers and nonsmokers under a variety of circumstances are presented. ~inal.ly, an attempt is made to qua&it& the exposure of nonsmok- ers relative to that of active smokers using levels of these biologic markers. Deposition The term "deposition" refers to the transfer of a particle from inhaled air to the surface of any portion of the respiratory tract, from nose to alveolus. "Retention" is the quantity of deposited material remaining in the respiratory tract at a specified time following deposition. Retention decreases as clearance mechanisms such as mucociliary action and absorption reduce the respiratory tract burden of inhaled particles. Retention is not discussed in this review. An aerosol is a suspension of particles in a gaseous or vapor medium; cigarette smoke is an aerosol. Aerosols are characterized by such terms as mass median diameter @MD), the diameter below which lies one-half of the particles by mass, and count median diameter (CMD), the diameter below which lies one-half of the particles by number. Most naturally occurring aerosols have a log- normal size distribution, and the magnitude of the spread of particle size is the geometric standard deviation @SD). Particle ma88 is a function of the cube of the diameter; a particle with a diameter of 0.5 pm has one one-thousandth of the mass of a 5 pm particle. Thus, for au aerosol with a large geometric standard deviation, the mass 181 median heter may be considerably greater than the count median hemr. The smaller pdicle~ of an aerosol, despite tbeu relatively small mass, have a large total surface area because of their great number. A monodisperse aerosol has particles of one size, with C&ID equal to M&ID, and a G-SD of 1. For practical purposes, a GSD of 13 or less is accepted as monodisperse. Most naturally oawring mrmb EU-C? p~lydisperse, with GSDs in the 2 range. A lognormally &t&&cl aerosol with a GSD of 2 and a CMD of 0.1 will have an MMD of O.&-Z. In this discussion, when size is referred to, it is the JMI$D unless otherwise stated. Both the total deposition and the `deposition site in the respiratory tract vary substantially with particle size. site wtributlon of Cigarette Smoke m Smoke The size distribution of cigarette smoke hes been of interest to investigators for many years. The important relationship between size and respiratory tract deposition is discussed below. Most studier have been performed using mainstream smoke. Mainstream smoke is the smoke exiting from the butt of the cigarette during puff- drawing, and sidestream smoke is the smoke plume that drifts into the environment from the burning tip of a cigarette between puffk. Environmental tobacco smoke @TS) is the ambient burden of side&ream smoke and the smoke exhaled by a smoker. Involuntary smoking is the consumption of ETS by people, either smokers or nonsmokers, from the environment. One purpose in discus&g the size distribution and respiratory tract deposition of particles is to illustrate the discrepancy between the measured particle size of mamstresm smoke and its measured deposition in the human respiratory tract. The deposition fraction of mainstream smoke is several times higher than would be predicted on the basis of its particulate size. The measured deposition of side&ream smoke is more in keeping with its measured size (Hiller, McCusker et al. 1982). The standard laboratory smoke-generation technique is tc force air through the cigarette as would be done by a smoker, followed by the rapid dilution of the resulting mainstream smoke so that particle size can be measured. A standard 36 cma, 2-second puff is usdY used, although actual puff volume was shown to average 45 cm' in one tidy (Mitchell 1962) and 56 cm3 in mother; for individuals, the Puff vohme can vary from 20 to 30 ems UP to 70 to 80 ems (Hinds et al. 1983). The sire distribution of the diluted mainstream smoke aerosol in then m-u& by one of a variety of techniques such as light scattering devices, microscopic measurement, or impactor collectipg 182 devices. using various diluting and sizing techniques, particle s& measurements of mainstream cigarette smoke have been repor-teo from many laboratories (Table 1). One potential cause of error in measuring the Sk%3 distribution of main&-e&m cigarette smoke & the relative insensitivity to ultrafine particles of some previously used measurement methods. More recent studies using newer measure- ment techniques support the suggestions by the earlier investigators (Sinclair 1950) that there is an ultrafine, (< 0.1 pm) component u-~ the cigarette smoke. Size characteristics have been measured by electron microscopic methods, following rapid fixation of undiluted fresh tobacco smoke, as CMD 0.2 pm and GSD 1.5 (Keith 1982). me sb distribution measured with an electrical aerosol analyzer has been reported as CMD 0.1 pm, GSD 2.0, suggesting more ultrafine particles than previously recognized (Anderson and HjJ,ler 19%). Smaller particles (< 0.4 pm) of tobacco smoke have been shown to have a chemical composition different from that of larger particles (St&x 19&I), possibly because of the large surface area of smaller particles. Laboratory methods, such as rapid dilution, commonly used to study mainstream smoke, are highly artificial and may not accurate- ly duplicate the generation, dilution, and inhalation of mainstream smoke by the smoker. Smoking technique and respiratory tract conditions may promote changes in particle size. Therefore, the particulate sizes in the respiratory tract may differ from the sizes measured when mainstream smoke is diluted for size analysis or when diluted sidestream smoke is inhaled by the involuntary smoker. The smoker's puff is taken as a bolus in a relatively small volume of air into the humid upper respiratory tract. Smoking techniques vary widely (Griffrtbs and Henningfield 1982) and have been shown to vary significantly among groups classified as healthy smokers compared with those with emphysema and also between those with emphysema and those with bronchogenic carcinoma and bronchitis (Medici et al. 1985). Some smokers hold the puff in the mouth for several seconds prior to deep inhalation. The initial puff is highly concentrated, with approximately lo8 particles/ems. At this concentration, particle coagulation can occur rapidly, causing a tenfold to a hundredfold reduction in particle number and an increase in particle size (Hinds 1982). Also, the accumulation of water in or on the particles in the high humidity of the respiratory tract can increase particle diameter (Muir 1974), and may increase the diameter as much as 30 percent (Mitchell 1962). Some evidence suggests, however, that at least for dilute cigarette smoke, hygrc+ scopic growth occurs only under supersaturated conditions (Kousaka et al. 1982). Coagulation and water uptake by particles in the respiratory tract may considerably alter particle size distributions so that measurements under laboratory conditions probably do not 183 !i `l'ABLE L--Size distribution of mainstream tobacco smoke Study Size (pm). concentration [no. particles/cm'] Dilution Method Comment Wells and Gerke (1919) Sinclair (1950) DallaValle et al. (1959) CMD 0.27 Not given Oscillation amplitude CMD 0.0-0.3 fresh CMD 0.4-0.5 aged 0.1-025 Not given Light scattering Electrostatic separation Agedz size increase attributed to water accumulation Langer and Fisher m53 CMD 0.5 filter CMD 0.6 plain 12-6 x 1OY 1431 Microscopic impinger collection Compared with electrostatic precipitation mm 1.75 Keith and Derrick (1960 CMD 0.23 MMD 0.46 29&l Aerosol centrifuge Mic-pio GSD 1.64 C.dOUl&!d Porstendijrfer and ChlD 0.22 Schraub (1972) [5-7 x 108] 1OO,ocQ1 Related rate of deposition of radioactive decay products onto particles to particle 8ir.e Also measured deposition Pomtendiirfer (1973) CMD 0.42 CMD 0.22 lo:1 3,loo:l Radon daughter attached and deposited in spiral centrifuge Okada and Matsunuma (19741 CMD 0.16 MMD 0.29 1,50&l Liiht scattering GSD 1.46 TABLE l.-Continued Size (pm), concentration Study [no. particleelcm'] Dilution Method Comment Hinds (1978) McCusker et al. (19821 Chang et al. MMD 0.38-0.62 CMD 0.4 CMD 0.27 MMD 0.29-4.3 [4.2 x lO] lO:l-7oo:l lo:1 3,loozl 126,000:1 Aermol centrifuge Laser doppler v&&o&y Size distribution decreases as dilution incrensee GSD 1.3-1.6 Aerodynamic diameter OSD 1.4 CMD 0.24-0.26 [3.6 x lay MMD 5.5 secondary mode &l-18:1 Electrical aerosol aaaIyzer (EAA) Anderson Cascade Impactor CD Bimodal distribution ww l-8 I 100 Primary mode @AA) CSD 1.18 Secoad mode (CD Sk-3046 of total mass NOTE: CMD = count median diameter: MMD = mass medii diimeter; GSD = geometric standard deviation. TABLE 2.-&e distribution of sidestream tobacco smoke StudJr size (pd DiIUtkUl comnl~t Keith and Derrick w6u CMD 0.16 296zl AWSOl Nature of sideetxeam centrifuee centrifuge smoke generation pmcmamakeadif6cult exact detednation of wncentration at generation and dilution Pol-sten&rfer and Schraub (1972) CMD0.24 Not given Rewed rate of depceition of mdiwctive decay products onto prticIee taparticIe&e Hiller, Mecusker et al. w32) CMD 0.31 Not &en Laser doppler veIwiIn GED 1.6 NUlECMD=axmtmediMdiamaa;~=geometric etamid deviation represent distributions found in actual mainstream smoking condi- tions. Side&ream Smoke Sidestream smoke is generated by cigarettes burning spontaneous- ly between puffs and is quantitatively the major contributor to ETS. Fit+five percent of the tobacco in a cigarette is burned between puffs, forming sidestream smoke (see Chapter 3). Dilution takes place as smoke rises in the ambient air currents. This dilution with air reduces, but probably does not eliminate entirely, the coagulation that causes the particulate to increase in size, as they may in the highly concentrated state that occurs when a smoker draws a puff of mainstream smoke into the mouth and holds it briefly before inhalation. The size distribution of sidestream smoke might be expected to resemble that of diluted mainstream smoke. The results of several reports of sidestream smoke size measurements (Table 2) support this impression. Particle Deposition in the Respiratory Tract Total Deposition Total deposition haa been studied both theoretically and experi- mentally. Mathematical equations can be used to predict deposition by combining mathematical models of lung anatomy with equations describing the behavior of particles in tubes. The major property to be considered is particle size and its influence on impaction, sedimentation, and diffusion. Inertial impaction is the mechanism 186 that causes Particles moving in an airstream to be tile, because of exceesive mass, to follow the airstream around a bend. Large particles impact at the bend in the aimtmam or m the lung on or near a site of airway branching. The Iarger the particle the greater its chance of depositing by impaction. Impaction ia a relatively unimportant form of deposition for particles smaller than 0.6 pm. The effect of gravily on suspended particles causes them to fall, a process called sedimentation, which also becomes relatively unim- portant for particles less than 0.6 I.Lm in size. Larger particles fall faster, end for all particles, the greater the residence time (in the lung) the greater the likelihood of deposition by sedimentation. Diffusion is the net transport of particles caused by Brownian motion. It becomes increasingly important for particles less than 0.5 pm in size (Hinds 1982). The mass median diameter of aide&ream smoke is in the 0.3 to 0.5 w size range. Total deposition for inhaled particles is in the 10 to 30 percent range for 0.5 pm sixed particles. In Figure 1, Lippmann's review (1977) of the measurements of total deposition of monodisperse aerosols in human subjecta is modified to include more recent data and data on ultrafine particle depcsition. The respiratory pattern clearly affects particle deposition. Most important for all particles, including environmental tobacco smoke, is the residence time in the lung. Deposition increases with slow deep inspiration (Altshuler et al. 1957) and with breath holding (Pahnes et al. 1966, Anderson and Hiller 1985). In hamsters, the deposition of 0.38 pm particles rises in a nearly linear fashion with oxygen consumption (Harbison and Brain 1983). These data indicate that deposition of ETS during involuntary smoking increases with the increasing activity level of the exposed individual. The presence of an electrical charge on particles may increase deposition, Mainstream smoke is highly charged (Corn 1974). The addition of either a positive charge or a negative charge to inhaled particles increases deposition in animals (Fraser 19&l), and neutral- ization of the charge reduces deposition 21 percent in rats (Per-in et al. 1983). There is little information describing the effect of a charge on the deposition of either mainstream or side&ream smoke in human subjects. Particle growth by water absorption may affect deposition. Mathe- matical models that describe the effect of humidity on particle growth indicate the potential for a considerable change in size of some particles during transit in the humid rt -iratory tract (Perron 1977; Cocks and Fernando 1982; Renninger et al. 1981; Martonen and Pate1 1981) and that these changes could ~igniikmtly alter deposition @`err-on 1977). Growth of 0.4 to 0.5 p particles should increase their deposition fraction, but growth of a 0.07 pm particle to 0.1 pm, for example, would reduce its deposition (see Figure 1). Such 187 I I I 0.01 0.02 0.03 0.05 0.1 0.2 0.3 0.5 0.7 1.0 2 3 5 7 10 20 Aerodynembic dim&r-pm an effect has been shown for laboratory-generated aerosols in human subjects (Blanchard and Willeke 1983; Tu and Knudson 1984). While hygroscopic growth has been postulated for tobacco smoke (Muir 1974), it has been demonstrated in the laboratory to occur, at least for dilute smoke, only in supersaturated conditions (Kousaka et al. 1982). Many reports describe measured deposition of mainstream ciga- rette smoke in the human respiratory tract CTable 3). Although few studies of total sidestream smoke deposition are available, those few (Table 3) suggest that sidestream smoke does indeed deposit in a manner similar to that found for laboratoryde&ned research aerosols. The deposition fraction of mainstream smoke diluted 1:30 and inhaled by rata from chamber air containing 1.68 mg/L (assuming a rat tidal vo 1 ume of 1.5 mL and a respiratory rate of 85) is 138 8.1 percent @IUU et d. 1978). &positiop for the side&ream smoke has been measured in mouth-breathing human volunteers at 11 pertint, similar to that for similarly sized polystyrene latex spheres (Hiller, Mazumder et al. 1982). Environmental tobacco smoke exposure frequently occurs with breathing through the nose rather than through the mouth, but inert particles in the size range of ETS (0.2 to 0.4 pm) are not substantially reduced in number by passage through the nose. The fraction of inert 0.2 pm particles deposited in the alveolar region of the lung is similar for mouth breathing and nasal breathing (Raabe 1984). It is possible that the charged or reactive particles of J3TS may behave somewhat differently than inert particles, but it seems unlikely that nasal breathing substan- tially alters the deposition of the small particles of EY.CS in comparison with mouth breathing. Ftegiomd Deposition Total deposition is subdivided into the fractions depositing in the upper respiratory tract (larynx and above), the tracheobronchial region (trachea to and including terminal bronchioles), and the pulmonary region (respiratory bronchioles and beyond) (Figure 2). Deposition in these areas is referred to as regional deposition. Particle size is a major dete rminant of both total and regional deposition. A mathematical model prediction of regional deposition of polydisperse aerosols is shown in Figure 2 (ICRP 1966). Experimental verification of mathematical models of regional deposition is limited. Using isotope-labeled particles, it is possible to quantitate the upper respiratory tract deposition as a fraction of total deposition. By assuming that the aerosol depositing in the tracheobronchial region will be cleared within 24 hours, it is possible to measure alveolar deposition as the fraction of the total initial deposition below the larynx that is remaining at 24 hours and tracheobronchial deposition as the difference between the initial deposition and what is remaining at 24 hours. Using this method, the deposition of 3.5 pm particles was this: total deposition, 0.79; upper respiratory tract, 0.10; tracheobronchial region, 0.24; and pulmonary region (alveolar), 0.45 (Emmett et al. 1982). These measurements are below the estimated regional deposition for upper respiratory tract deposition and higher for the pulmonary deposition than are the measurements calculated by using the Task Group on Lung Dynam- ics model (ICRP 1966). `The regional deposition of mainstream cigarette smoke in smokers ha alSo been studied. Subjects inhaled smoke from cigarettes labeled with radioactive l-iodohexadecane (Black and Pritchard 1984; Pritchard and Black 1984). The results indicate that less than 40 percent of the particulate mass deposited in the pulmonary region, compared with an expected 90 percent deposition in the @I TABLE 3.-R aspiratory tract deposition of mainstream and aide&ream cinarette IWWSQ Study Mainstream smoke Deposition fraction Puff volume CmL) Smoke dilution Respiratory pattern Beumberger (1923) Schmahl et al. (1954 Polydorova (1961) Mitchell (1962) Dalhamn et al. U963) 88% 98% 80% (22-39 range) 32% (70-90 range) 98% + 3.1% SD @6-99 range) Not given 46 f 9.8 SD (33-65 range) 3s Puff time &and) Not given 1.9 f 0.6 SD 2 None None 3OOZl None Hinds et al. 41% m33) (22-75 range) 53 None Inhalation Usual spontaneous smoking pattern "Deep inhalation" Pretrahled shdard~ pattern (not dencried) Ueual epontaneoua smoking pattern Side&ream smoke Binns et al. (1978) Hiller, McCusker et al. (1932) 8% 11% Not applicable Not applicable 3o:l (in cbarnber~ 5I-100 palm' Spontaneous (rata) 1 L tidal volume, 12 breatheJmin Figure Z.-Regional deposition of particles inhaled during nasal breathing, as predicted using the deposition model proposed by the Tack Group on Lung Dynamics pulmonary region for 0.5 pm particles, the size reported for cigarette smoke (Table 1). This finding further supports the concept that mainstream smoke particles increase in size in the respiratory tract by coagulation, hygroscopic growth, or both, and that this growth affects total and regional deposition. The same group studied the effect of switching the tar content of cigarettes on regional deposi- tion. Using. cigarettes with between 16 and 17 mg tar, extrathoracic deposition was found to be 14 percent of the total deposition and intrathoracic deposition to be 86 percent, with 51 percent in the tracheobronchial area and 35 percent in the pulmonary region (Pritchard and Black 1984). After switching to cigarettes with between 8 and 9 mg tar, total deposition was 74 percent of that measured from cigarettes with the higher tar content, the extratho racic deposition was unchanged, the tracheobronchial deposition was from 34 to 42 percent, and the pulmonary deposition was 18 to 25 percent of the total mass deposited with the higher tar cigarettes. With the use of mathematical deposition modeling, the observed deposition pattern was consistent with one predicted for an aerosol with an MMD of 6.5 pm, more than 10 times greater than the MMD described for cigarette smoke (Black and Pritchard 1984). The deposition of particles is probably not uniform within a lung region. The mass deposited in the airways, for instance, may vary 191 widely. -4 deposition at specific anatomic sites may ba eswy important for mme inhalants. For example, the concentra- tion of carcinogenic subetances at a site may favor that site for cancer development. This may be e@ecmhY hW"rtant for carett@ smoke, hm lung mcer my occur at sites of high deposition such 88 my bifurcations. &p&ion of a 0.3 v laboratory-generated stable -1 has been shown to favor right upper lobe deposition, and on t-he ba& of surface density of deposition, the lobar bronchi (wesmger and Lippmann 1978). The deposition per airway genera- &n haa been d&~ for large particles, but has not received sufficient a-eon for p&idea in the size range of main&ream or Bidegtream smoke. A deposition peak has been Predicted, using a lung model for the fourth airway generation (trachea is 0) for 5 q particles, and a peak in airway surface concentration density was predicted for 8 w particles at the fourth generation (Gerrity et al. 1979). Both of these deposition peaks are calculated for particles &&&ially larger than those of cigarette smoke. )3q0&ions may be quite nonuniform even within a single airway generation. An enhanced deposition at bifurcations with highly concentrated deposition on carina ridges within bifurcations has been demonstrated in a five airway generation model of the human respiratory tract for both cigarette smoke (l&u-tonen and Lowe 1983a) and restxnch aerosols (Martonen and Lowe 1983153. Epidemiological studies of the pathophysiologic consequences of involuntary smoking have emphasized, among other things, an increase in the incidence of respiratory illness in children (see Chapter 2). The issue of the respiratory tract deposition of particles in children has been addressed only recently. Using morphometrm measurements from casts of the lungs of children and young adults aged 11 days to 21 years, a mathematical growth model was created. Using this model and conventional methods for predicting the behavior of particles in tubes, the deposition of particles at various ag- c-m be presided. On the basis of these calculations, tracheo- bronchial depositions per kilogram of body weight for 5 p particles Was &h&d b be six times higher in the resting newborn than m a resting adult @halen et al. 19851. Differences are predicted &o for particles the s&e of sidestream smoke, with tracheobroncm deposition m infancy beii twofold to threefold higher in adulthood. Total deposition has also been estimated using mathematical model- ing, with the total deposition estimated at approximately 15 percent at age 6 months and at 10 percent in adults (XU and YU 1936). 192 ResphtoW Tract Dose of EnvIronmental ~-cc0 smoke Cigarette Smoke Particulate lbht3 ~epoeited The dose of environmental tobacco smoke to the respiratory tract is the product of the mass in inhaled air and the deposition fraction. To this point, particle size and deposition fraction, which is related to both size and respiratory pattern as well as to other less understood factors such as particle charge and hygroscopicity have been addressed. To estimate dose, the content of smoke in inhaled air- must be known, as well as the respired minute volume. m content in inhaled air varies widely, as does minute volume, which depends considerably on activity level. Sidestream smoke concentrations have been raised as high as 16.5 mg/m5 in expetiental chambers (Hoegg 1972). High levels, 2 to 4 mg/ms, have also been estimated using measured carbon monoxide concentrations for rooms 146 m' in size containing 50 to 70 persons @ridge and Corn 1972). Such levels far exceed the EPA air quality standards for total suspended particulate of 75 w/m annual average and the 260 w/m* 24-hour average in the United States and the 250 w/ma 24-hour average for the United Kingdom. Measurement8 of environmental smoke concentrations vary wide- ly, depending upon the location and measurement technique (Tables 4 and 5). Levels of total suspended particulates (TSP) measured under realistic circumstances have been found to be from 20 to 60 w/m3 in no-smoking areas, and can range from 100 to 700 &ms in the presence of smokers (Repace and Lowrey 1980). These measure- ments include all suspended particulates, and so could include part&e other than tobacco smoke. However, in a smoky indoor setting where measurements as high as 600 w/m9 have been found, tobacco smoke is the major contributor to particulate mass, with the non-tobaccwmoke contribution being small and similar to that measured for nonsmoking areas, namely in the 20 to 60 @mS range. This concept is supported by studies in which tobacco smoke concentration in the environment was determined by measuring the Gcotme content of suspended particulates. Using this technique (Hinds and First 1975), EI'S levels have been ehimati to be 20 to 4.80 p,g/ms in bus and airline waiting rooms and as bigh as 640 p&m" in cocktail lounges. These calculations of smoke concentrations were based on an average weighted nicotine fraction of 2.6 percent, an approach that may underestimate tobacco smoke particulate concen- tration. The mass deposition in the respiratory tract can be estimated if the atmospheric burden of cigarette smoke particulates, minute volume, and deposition fraction is known. Assuming a smoke concentration of 500 CLg/mS, a minute volume of 12 liters per minute, 193 TABLE 4.--Indoor concentration of total suspended p&cUlates (TSP) meamlred iu OIY%II~ living or work.ing situations Study Just et al. (1972) Hinds and First (1975) Location Coffee shop Conditions of location, owupancy, rmloking (5). nonsmoking @IS) 4 locations TSP pm/m' x &SD 1,160 Rackground pm/m* 670 ' Comments Bus waiting room Restaurant Cocktail lounge Arena A Arena B Arena C Not given Not given 40 m-68 200 (51-450) WE40) Not applicable Suspended paarticulates _ _ collected on filter; nicotine content measured for calculation; TSP = nicotine/O.026 Elliott and Rowe (1975) Attendance 9,660 Air conditioned (S) Attendance 14,300 Air conditioned (S) Attendance 2,900 Not air conditioned 9X Attendance 11,990 Natural ventilation (NS) 224 42 461 42 620 92 143 71 High volume sampler for suspended particulates; also measured Co at all locations and benr4alpyrene in arena A Cuddeback et al. (1976) Tavern 6 air changes/hr Tavern None apparent 0.31 f 0.05 (0.23-0.34) 0.99 8hr air sample collected on filter (6 pm pore size); TSP measured gravimetrically Neal et al. (1976) Hospital intensive care units Independent ventilation 30 66 Anderson personnel sampler systems ussd TABLE 4.-Continued Study Location Conditions of location, occupsncy, smoking 03, nonsmoking (NS) TSP pm/m" x &SD Sackground pm/m3 Comments Weber and Fischer (1930) Repace and Lowrey (1980) 44 offices Residences Libraries, churches, restaurants Restaurants, bars, bingo game Window ventilation; 32144 allowed unrestricted smoking Air conditioned 5 locations, 6 measurements, 10 * 8 persons/l00 m3, all NS 9 locations; 10 f 10 perwns/100 m', all NS 19 locations, 20 samples, 11 + 8 persons/100 ms, all S locations 7 locations with >l smoker/ms (mean 2.2 smokers/mJ) 18 f 7 persons/lo0 ma, with 1 smoker/l00 ma ,202 120 38 f 16 38 f 16 242 f 176 m-697) 406 * 188 (187-697) Subtracted from TSP Same Not done 36 + 10' (4 locations) 47 f 13' (13 locations) 53 f 8' TSP measured with pieeoefectric balance (see above) All samples colfected using pieroelectric balance with very high collection efficiency at 3.6 pm and 10% at 4 (cm; sample the l-60 min, outdoom 6-16 min z TABLE 4.-Continued Study Location Conditions of location, occupancy, smoking 6% nonsmoking (NS) TSP pmhn' I fsD Background pm/m' Comments Spengler et al. (1981) 35 homes 16 homes 5 homes 1 home* No smokers 1 smoker 2 smokers 2 smokers, tightly sealed, central air conditioning 24.4 f 11.6' 36.6 f. 14.6 70.4 f 42.9 144 21.1 zlz 11.9 all 55 homes Annual mean: respirable ma8s collected on filters after removal of nonrespirable fraction; `24-hr sample collected every 6 days ' Ambient prticulate concentration at site, but outdm~~. `This home is one of the !ive homes above. TABLE &-Indoor concentration of total suspended particulates (TPM) generated by smoking cigarettes under laboratory conditions chamber Cigarette TPM Study Test conditions Ventiition Size consumption mg/m' Comment.9 Penkala and Well mixed None 9.2 ma 3 simultan~usly, 2 q 3.0 de Oliveira (19'76) puffs Hoegg Sealed chamber; Portable fans 25 ma 24 simultaneously by 16.66 (1972) experimenter and test circulated air TPM measured gravimetrically machine after collection of suspended equipment in chamber; particulatea on fdten; measured 18 min sidestream smoke mlIected in pcetamoking chamber; mainstream smoke dischaqp?d Same, 150 min Same 4 simultaneously by 1.61 wetsmokina machine Hugod et al. (1978) Sealed room Unventilated 68 mJ 20 simultaneously by machine 6.76 TPM measured gravimetrically from 3hr collection on filter; mainstream smoke in chamber Cain et al. (1983) Muramahm 4-12 occupants Climata-controlled chamber Climatec0ntr0lled 11 ft3/min/oceupant 11 ma 4/hr (by occupants) 0.350 66 ft'lminloccupant 11 mJ 4/hr fby occupants) 0.16 11 ft'/min/occupant 11 ma 16/hr (by occupants) 1.26 68 ft'/min/occupant 11 mJ 16/hr (by GCGU~MW 0.40 16.4 air changes/hr 34 ms l/8 min to 60 min 0.19-0.26 F5ezoelectric balance messwed total mass over 0.01-20 pm Pieaoelectric balance et al. (1963) chamber Climate-controlled chamber 16.4 air changeslhr 30 ma 3 simultaneously, then 2/8 min 0.47-0.622 and a deposition fraction of 11 percent (Hiller, McCusker et al. 1982), mass deposition over an &hour work shift would be 0.317 mg. The Concept of "Cigarette Equivalents" Many investigators have attempted to estimate the potential toxicity of involuntary smoking for the nonsmoker by calculating "cigarette equivalents" (C.E.). To inhale one C.E. by involuntary smoking, the involuntary smoker would inhale the same mass quantity of ETS as is inhaled from one cigarette by a mainstream smoker. This approach has led to estimates from as low as 0.001 C.E. per hour to as high as 27 C.E. per day (Hoegg 1972; Hinds and First 1975; Hugod et al. 1978; Repace and Lowrey 1980). These differences of up to three orders of magnitude seem illogical when most reports of measurements of environmental concentrations of smoke, from the most clean to the most polluted with environmental tobacco smoke, are within tenfold to fiftyfold of each other. The following discussion demonstrates why the C.E. can vary so greatly as a measure of exposure. The calculation of C.E. is as follows: PMIw = TSP (mg/m') x Ox; where PM&,) equals the particulate mass inhaled by passive smoking, TSP equals the total suspended particulate, and VE equals the inhaled volume. C.E. = PMI&PML); where C.E. equals cigarette equivalent and PML) equals the mass inhaled by (mainstream) smoking one cigarette. (This is taken to be the tar content of a cigarette as reported by the U.S. Federal Trade Commission.) Cigarette equivalents can be calculated for any time interval chosen, i.e., per hour, per day. Although the example given is for particulate mass, C.E. can be calculated for any component of cigarette smoke, such as carbon monoxide and benzo[a]pyrene. The following calculations illustrate the different results from two different approaches to the calculation of C.E. Example 1 Example 2 SIB 0.36 mg/hr 20 ma/day PMIw 16.1 mg tar/@ 0.55 mg tar/cig TSP 40 CLg/mS 700 pg/m9 Example 1 PMIcp, = TSP x Ox = 40 P /m9 x 0.36 ms/hr = 14. CLg/hr C.E. = PMI&PM&ms, = (0.0144 mg/hr)/(l6.1 mg/cig) = 0.001 cig/hr 198 Example 2 PM&PI =TSPxOr = 700 w/ma x 20 ma/&y = 14,990 p&day C.E. = PMldwIk4 = (14 mgklay)/(O.65 mghig) = 245 &g/day These caktitiOn8 of C-E. approximate the approach- d h ho ~~rts-Exanw~e 1 by Kinds and Pi.& (1975) and Example 2 by Repace and Lowrey (198O)-and the results are similar. The exam- ples are the extremes used in the two studies, and are at the extremes Of CommOmy cited rep&a of C.E. Even if the Tsp concentration used in the two examples were the me, the multx would differ 24-fold because Example 1 is calculated per hour and Example 2 is calculated per day; 2%fold because of the aerence in inhaled minute volume; and 29-fold because of the difference in what is considered to be a `Wandard" cigarette. Even using the same TSP concentration, the results would be 1.6 x 10" different. If C.E. is to be calculated, all of the factors used in the calculation should be Standardized. The calculation of C.E. is deficient in several other ways. The deposition fraction of the total inhaled particulate mass in the respiratory tract from mainstream smoke is higher than from involuntary smoking. The deposition fraction for involuntary smok- ing is approximately 11 percent for mouth breathing (Hiller, Mazumder et al. 1982). The deposition from mainstream smoke has been reported to vary from 47 to 90 percent (Table 3). The cigarette equivalent calculation considers only the quantity inhaled, and if mm dose depoeited is considered, one C.E. from passive smoking will cause several times less mass to be deposited than the mainstream smoke of one cigarette. The differences in the chemical composition between sidestream smoke and mainstream smoke make the C.E. concept misleading unless C.E. is calculated for each smoke constituent. This has been accomplished (Hugod et al. 1973) using measured levels of various smoke co&ituente in a chamber filled with sidestream smoke. The redts indicate that one C.E. for carbon monoxide could b i&&j 5.5 times faster, and for aldehyde, 2.9 times faster, than for particulate mass. Measurements of total particulate matter and benxc(a]pyrene taken in an arena with active smoking revealed a fivefold rise in TSP above background and an eighteenfold increase in benzo[ajpyrene over background. Using the measured ben- zo[alpyrene concentration of 21.7 ng/ms, an inhaled volume of 2.4 ma, and 3.2 ng benxo[ajpyrene per cigarette, the occupant of such an environment would consume 6.4 C.E. for benzo[ajpyrene (IARC 1986, p. 87). The C.E. TSP would be 1.7. Therefore, a C.E. for the 199 carcinogen bedabyrene would be inhaled 3.6 times more rapidly w a C.E. for `JSP moth and Rowe 1975). me de latitude h the results of C.E. calc~ations demonstrates the &pen&n= of the C.E. c.ahhtiOn On the numerical VahleS of the variables chosen, and correspondingly demonstrates the marked lotion of &e use of C.E. as an atmospheric measure of exposure b the wnb h en&m&d MOROCCO smoke. When the quantifica- con of an w ia needed, it is far more precise to use terms that defiae &e a of exposUre t0 the agent Of interest per unit he. However, the term cigarette equivalent is frequently used, not &ply 88 a mwure of exposure, but 88 a unit of disease risk that ~~them~ured~uresintoatikofdiseaseusingthe known daeresponse relationships between the number of ciga- re#es~~perdayandtheriskofdiseaee.IfC~.istobeusedasa tit of risk, the variables used to convert atmospheric measures into levels of rid for the active smoker need to be determined on the basis of the depcsition and smoke exposure measures for the average smoker. The deposition fraction of individual smoke constituents in t&e population of active smokers is needed rather than the range ob~rved in a few individuals. In addition, the actual average yield of the cigarettes smoked by the subjects in the prospective mortality studies would be needed to compare the dose-reeponse relationships accurately. The yield using the Federal Trade &nmission (Fl'c method may dramatically underestimate the actual yield of a cigarette when the puff volume, rate of draw, or number of puffs is increeeed; therefore, calculations using the Fl'C numbers may be inaccurate, particularly for the low-yield cigarettes. These limita- tions make exlxapolation from atmospheric measurea to c&are equivalent units of disease risk a complex and potentially meanin- BleseP~. lAaiwa of Absorption In contrast, measuma of absorption of environmental tobacco smoke, particularly cotinine levels, can potentially overcome some of the limitations in translating environmental tobacco smoke expc+ sure3 into expected d&ease risk. Urinary cotinine levels are a reLatively accurate dosage measure of exposure to smoke; they have been measured in populations of smokers and nonsmokers, and are not subject to emrs in estimates of the minute ventilation or yield of the average cigarette. Potential differences in the half-life of cotinine in smokers and nonsmokers, differences in the absorption of nicotine relative to other toxic agents in the smoke, and differences in the ratio of nicotine to other toxic agents in mainstream smoke and sidestream smoke remain sources of error, but the accuracy with which active smoking and involuntary smoking exposure can be 200	en
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markdown	512594	# Presentation: 512594 ## Slide 1 ## Status: Needs to be investigated further Priority Rating: High _Issue:_ Limited ability to define and assess well being and stress of animals under production in pasture based systems _Explanation:_ Limited data concerning the well being of animals in pasture based production systems exist. Agreement on defining well being & limited methods for assessing animal stress constrain researchers from developing protocols for reducing this stress. ## Status: New and needs to be investigated Priority Rating: Medium _Issue:_ Limited empirical data concerning how utilization of grazing systems affect productive longevity of animals. _Explanation:_ There is the assumption that animals completing their production cycles in extensive systems have increased productive longevity versus those in intensive systems of production. ## Status: Priority Rating: N/A _Issue:_ Limited information on combining nontraditional and conventional management systems to increase resource utilization. _Explanation:_ Combient Modeling Example: Conventional concentrated dry lot dairy with maxed nutrient credits might consider moving certain aspects of operation to pasture based systems (e.g., dry cows, cows with mastitis, heifers). ## Status: Needs to be investigated further Priority Rating: Medium _Issue:_ There is limited empirical data quantifying the potential synergistic benefits of integrated grazing systems utilizing multiple forage-animal species. _Explanation:_ Empirical data exists concerning the benefits of these systems under limited situations. Synergistic benefits of these systems are still not well defined, thereby limiting development of management protocols to fully capture all resource inputs. ## Status: Needs to be investigated further Priority Rating: High _Issue:_ Consistent product delivery from pasture finished meat animals suffers from a lack of predictability of input (e.g., forages) quantities & qualities. _Explanation:_** Year round delivery of quality meat products from pasture finished meat animals requires improved understanding seasonal forage quality fluctuation & GE interaction impacts on product quality & quantity.* ## Status: New and needs to be investigated Priority Rating: High _Issue:_ Lack of data concerning how to switch from conventional farming to organic farming while maintaining economic viability. _Explanation:_ Farmers considering a transition to organic farming need information to guide them in making appropriate decisions during the transition to ensure sustainability of the new operation. ## Status: Needs to be investigated further Priority Rating: High _Issue:_ Optimum supplementation of grazing dairy animals (includes: cattle, goats, sheep) _Explanation:_ ## Status: New and needs to be investigated Priority Rating: High _Issue:_ Limited empirical data concerning effects of forage-based management and environment on equine health & production. _Explanation:_ Horses are effected by many of the same issues affecting other grazing species (e.g., fescue toxicosis, salmonella, reproductive efficiency, etc.). However, horses have not routinely been recognized by ARS or other agencies for research funding. ## Status: New and needs to be investigated Priority Rating: Medium _Issue:_ Limited empirical data effects of forage-based management and environment on grazing monogastric animal (e.g., chickens, pigs) health and production. _Explanation:_ Much of the information available for grazing ruminant animals does not exist for these animals which are filling a niche market. Thus, development of sustainable production systems for these animals on pasture is particularly difficult. ## Status: Priority Rating: N/A _Issue:_ Animal Identification & Disease Survey _Explanation:_ After discussing this topic, it was decided that it was an APHIS issue & that APHIS would contact ARS if they needed ARS to research particular components. ## Status: Priority Rating: _Issue:_ How do we retain for the producer the value added to niche products? _Explanation:_ This was not fully discussed. May not be a researchable issue - but rather a marketing issue.	en
markdown	111081	# Presentation: 111081 ## Utilization of the Aura HIRDLS Spacecraft Pitch Manoeuvres Utilization of the Aura HIRDLS Spacecraft Pitch Manoeuvres *J. Barnett, J. Craft, J. Gille, H. Lee, C. Halvorson, B. Nardi, T. Eden, C. Hepplewhite*** - Atmospheric, Oceanic, and Planetary Physics, Oxford University - Center for Limb Atmospheric Sounding (CLAS), University of Colorado at Boulder Abstract* During the Aura mission to-date there have been seven Aura spacecraft pitch manoeuvres and an eigth is due in early November 2006. These manoeuvres pitch up the HIRDLS telescope boresight so that the background signal of space is seen over the complete scan range. The spatial and temporal dependent radiance signal from the 21 HIRDLS detectors during the manoeuvere is used to characterize the emission from the obstruction in the telescope and validate the correction method adopted. In the past this has helped in the selection of optimum scan patterns used for the normal science acquisition mode. The salient attributes of the pitch are presented and the main aspects of the data and how they are used is described. Pitch Manoeuvres to date 1 2004/344 16:41:02 to 20:07:00 to -5.25 deg 2 2005/040 17:45:32 to 21:45:00 to -5.25 deg 3 2005/194 14:30:32 to 22:27:00 to -5.25 deg 4a 2005/306 12:38:55 to 14:25:00 to -2.62 deg 4b 2005/306 15:55:32 to 21:50:00 to -5.25 deg 5a 2006/053 12:21:55 to 14:07:00 to -2.62 deg 5b 2006/053 17:20:32 to 22:53:00 to -5.25 deg 6 2006/143 13:27:32 to 15:14:00 to -5.25 deg 7a 2006/191 13:23:55 to 15:05:00 to -2.62 deg 7b 2006/191 16:42:32 to 21:42:00 to -5.25 deg (times are for when the spacecraft is fully pitched) Constraints - Sunlight should not expose dark (+Y) or Earth facing (+Z) sides of satellite to sunlight - - no problem. - Attitude rates and accelerations must not be excessive, to maintain pointing knowledge - - leads to slew times of approx 4 and 5.5 minutes to -2.62 and -5.25 deg respectively. - Real time data available for monitoring slews - Tracking and Data Relay Satellites - enable this at any point in the orbit, but competition for time can be a problem. - Moon must not be in HIRDLS atmospheric view at any point during the orbit - - a few orbits on 2 days per month excluded - Moon must not be in HIRDLS space reference port - a few days per year excluded. - The slews out and back give useful data so preferably located at orbit positions of slow - temperature change - slew out is preferred a few minutes after sun set. - Various temperatures on Day 143 2006. The arrows show the duration of the pitch manoeuvre which was to -5.25 deg. and lasted for 1.1 orbits. The six large peaks occur at sunset on successive orbits. The orbit cycles repeat accurately but small differences can be seen for the pitched orbit. Pitch manoeuvres involve tilting the spacecraft in pitch by -2.62 or -5.25 deg so that the HIRDLS tangent heights at the end of the scan where there is a partial view of the atmosphere are well above the levels for which there is detectable atmospheric emission. This is used to perform a zero radiance calibration at angles which normally never receive zero radiance and is also used to calculate the fraction of beam area obstructed. The pitch angle is a compromise – *Too small* a tilt and some channels will receive atmospheric emission at the bottom of the scan (for the HIRDLS view angle a -5.25 deg pitch rotation moves the scan up by approximately 190 km). *Too big* a tilt and the instrument thermal balance will change enough to affect the behaviour. A smaller tilt of -2.62 deg is also employed as a check on the change on thermal balance (some channels see the atmosphere for part of the time) because a small change attributed to thermal balance is found. The instrument thermal behaviour varies: i) strongly around the orbit – necessitates at least one orbit of data for a given scan sequence ii) moderately with beta angle (angle between the orbit plane and the vector to the sun) – need measurements for different times of the year. iii) weakly from orbit to orbit due to variations in reflected sunlight and emissions from the earth and clouds – can be corrected for using spaceview radiances (from high altitudes). - Example Pitch Manoeuvre scan containing an azimuth raster plus atmospheric elevation scans. Several different scan types are normally used for a manoeuvre including the standard sequence used for taking standard science data. Science scans are made at -23.5 deg azimuth shaft angle, which gives -47 deg view azimuth view direction. Above: Channel 18 standard science scan data (repeated vertical scans through the partially clear aperture at -47 deg azimuth view direction). The data have been high pass filtered to show oscillations caused by the obstruction. 1.8 orbits are plotted, time up the plot, but spacecraft pitched at -5.25 deg for ~49000-55000 sec., i.e. approximately the central 1 orbit. Time relative to bottom of scan is plotted horizontally. The time between about -4 and +4 secs corresponds to channel 18 viewing the atmosphere for normal orientation. During this time the atmospheric radiances mask the oscillations, but the correction process needs to function accurately. While pitched, the oscillations can be tracked all the way across (they undergo various amplitude changes), so correction methods can be devised and checked. Right: As above but for channel 5. The atmosphere is much more opaque for this channel, but the high opacity leads to smooth radiances at low altitudes and the oscillations again become visible but noisy in normal orientation. Where visible, the oscillations closely match those for channel 18. - Data is for day 143 2006. Scan pattern is 50601, standard geophysical scan. Uses of pitch manoeuvre data: - Pitch manoeuvre data are used for three distinct purposes: 1) Development and validation of deoscillation algorithms - As the scan mirror moves it triggers oscillations in the optical blockage which cause oscillating radiance offsets. These are in-phase on all channels because they share a common input beam. Certain channels (notably 18) provide a means to observe these, measure their behaviour in real time, and provide a basis for extrapolating below the level where the channel receives radiation from the atmospheric scene. However these algorithms need to be developed and validated using data with zero scene radiance, which is only obtained for all necessary elevation angles if the spacecraft is pitched. 2) Modelling Radiometric zero - The blockage adds radiance to the signal to be measured from the atmospheric or space scene in proportion to the obstructed area and the Planck function of the material, both of which vary with mirror angles. The gross effect of Planck function variations can be allowed for by subtracting the signal when viewing space at the top of the scan, but vertical variation must be modelled and predicted, partly based on gradients over the space part of the scan, and also using data obtained during pitch manoeuvres. 3) Derivation of the unobstructed area fraction. - Once the blockage emission has been subtracted, the signal still needs to be increased (divided by the unobscured fraction) to allow for the diminished beam area which views the scene. Various methods have been used to derive this area (which varies with mirror position and channel), but these rely upon using radiance signals which include known scene emissions (e.g. zero when pitched). As with (2) the most important mirror angles are those where the atmosphere is in the view, so only a pitch manoeuvre will cause those angles to view space.	en
markdown	6LSZNL3PIAJZY7XWKHW2XXW4HQLVZPLL	# Presentation: 6LSZNL3PIAJZY7XWKHW2XXW4HQLVZPLL ## Tevatron Operational Stability - _A. Valishev_, G. Annala, D. Bollinger, B. Hanna, A. Jansson, - T. Johnson, R.S. Moore, D. Still, C.Y. Tan, J. Volk, X.L. Zhang Fermilab, Batavia IL - All Experimenters’ Meeting, May 18, 2009 ## Outline - Overview of collider operation and issues - Categorization of quenches - Orbit stabilization and optics stability - Losses during low-beta squeeze - Aperture at CDF - Beam-beam effects and chromaticity - Summary and outlook ## Peak Luminosity of the Tevatron ## Integrated Luminosity Performance - * V.Lebedev, MO1BCI02 - * ## Collider Fill Cycle - Limitations: - Np=3 1011/bunch - p=18  mm mrad – upstream machines - Na=1 1011/bunch –accumulation rate - a=7  mm mrad – beam-beam effects * - L0 – experiments - Store 6950 L0=3.5x1032 - Concentrate on repeatability** - * C.Y.Tan, TU6RFP053 - ** C.Gattuso, MO4RAC03 ## Categorization of Quenches - Total quenches since Oct. 2007 - 73 - Distribution - Injection: 4 - Ramp/Flattop: 6 - Squeeze: 21 - Initiate Collisions: 6 - Remove Halo: 5 - HEP: 31 - Most quenches in - squeeze (18) were - caused by a combination - of beam-beam and - orbit issues. - Only 1 beam related - quench in HEP ## Orbit and Tune Stability \| zone \| Hor ave (mm) \| Hor sigma (mm) \| \| --- \| --- \| --- \| \| A \| .29 \| .35 \| \| B \| .29 \| .09 \| \| C \| .15 \| .05 \| - A - B - C - Reference orbit: - 5850, Jan. 16, 2008 - 6138, May 13, 2008 - 06/2006 - 10/2007 - 2/12/2008 - 4/29/2008 ## Aperture Restriction in CDF IR ## Aperture Restriction in CDF IR ## D0 Q4 Quadrupole Rolls ## Beam-Beam Effects at Low-Beta Sequence 14 - a=8  mm mrad, =0.01 - C=12, different antiproton emittances - Beam separations at LB seq. 14 ## Normalized Proton Loss During Low-Beta Squeeze - Red traces – before chromaticity change at sequence 14, blue - after ## Luminosity and Timeline of Events \| store \| date \| comment \| \| --- \| --- \| --- \| \| 5657 \| 10/28 2007 \| End of 2007 shutdown \| \| 5813 \| 12/20 2007 \| Tune adjustment based on Na \| \| 5871 \| 1/17 2008 \| Implemented antiproton blowup \| \| 5891 \| 2/7 2008 \| D0 optics correction \| \| 5903 \| 2/12 2008 \| fixing orbit stabilization \| \| 6099 \| 4/29 2008 \| Orbit stab. to reference \| \| 6489 \| 10/11 2008 \| Fixed CDF aperture. \| \| 6625 \| 12/6 2008 \| Lowered C in squeeze, D0 Q4 \| ## Summary - Stability is the key to successful running in FY08 an FY09 - Orbit stabilization - Controlled antiproton emittance (or a/p ratio) - Controlled proton tune - Monitoring lattice stability - With stable machine and beam parameters beam-beam effects are no problem up to 3.5x1032 - Low-beta squeeze is the most demanding stage of the collider cycle - Losses are caused by long range beam-beam effects - Increase of aperture in the CDF IR improved situation - Chromaticity is a strong factor - Further (though not large) improvements are possible: ## Summary Continued - If beam-beam effects in squeeze are mitigated - Using new sextupole circuits - More work on helix	en
all-txt-docs	546704	SECURITIES ACT REGISTRATIONS June 19, 2008 The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be viewed in person in the Commission's Public Reference Branch at 100 F Street, N.E., Washington, D.C. To obtain paper copies, please refer to information on the Commission's Web site at http://www.sec.gov/answers/publicdocs.htm. In most cases, you can view and download this information by using the search function located at: http://www.sec.gov/edgar/searchedgar/companysearch.html. S-8 BUCKEYE TECHNOLOGIES INC, PO BOX 80407, MEMPHIS, TN, 38108-0407, 9013208174 - 3,500,000 ($33,285,000.00) Equity, (File 333-151724 - Jun. 18) (BR. 09B) S-3ASR CABOT OIL & GAS CORP, 1200 ENCLAVE PARKWAY, HOUSTON, TX, 77077, 2815894600 - 0 ($0.00) Equity, (File 333-151725 - Jun. 18) (BR. 04B) S-8 AVANT IMMUNOTHERAPEUTICS INC, 119 FOURTH AVE, NEEDHAM, MA, 02494, 7814330771 - 0 ($36,339,318.24) Equity, (File 333-151728 - Jun. 18) (BR. 01C) S-8 ZILA INC, 5227 NORTH 7TH STREET, PHOENIX, AZ, 85014-2800, 6022666700 - 3,000,000 ($1,170,000.00) Equity, (File 333-151729 - Jun. 18) (BR. 10C) S-8 SUN LIFE FINANCIAL INC, 150 KING STREET WEST, TORONTO ONTARIO, CANADA M5H 1J9, A6, 00000, 600,000 ($25,923,000.00) Equity, (File 333-151733 - Jun. 18) (BR. 01C) S-8 TRANSCANADA CORP, 450 - 1ST STREET S.W., CALGARY ALBERTA, A0, T2P 5H1, 4039202000 - 0 ($5,000,000.00) Equity, (File 333-151736 - Jun. 18) (BR. 02A) S-8 BARD C R INC /NJ/, 730 CENTRAL AVE, MURRAY HILL, NJ, 07974, 9082778000 - 0 ($242,089,000.00) Equity, (File 333-151740 - Jun. 18) (BR. 10A) S-8 Gamma Pharmaceuticals Inc, 7477 WEST LAKE MEAD BLVD., SUITE 170, LAS VEGAS, NV, 89128, 651-204-2048 - 300,000 ($225,000.00) Equity, (File 333-151741 - Jun. 18) (BR. 01A) F-6 GAZ DE FRANCE, 01133147542020 - 100,000,000 ($5,000,000.00) ADRs/ADSs, (File 333-151742 - Jun. 18) (BR. 02) S-8 ALASKA AIR GROUP INC, 19300 PACIFIC HWY SOUTH, SEATTLE, WA, 98188, 206.392.5040 - 2,179,712 ($40,106,700.00) Equity, (File 333-151743 - Jun. 18) (BR. 05A) S-8 ANTIGENICS INC /DE/, 630 FIFTH AVENUE SUITE 2100, NEW YORK, NY, 10111, 212-994-8200 - 0 ($4,140,000.00) Equity, (File 333-151745 - Jun. 18) (BR. 01B) S-8 FLOWERS FOODS INC, 1919 FLOWERS CIRCLE, THOMASVILLE, GA, 31757, 9122269110 - 1,500,000 ($40,920,000.00) Equity, (File 333-151746 - Jun. 18) (BR. 04B) S-1 OCEAN ENERGY, INC, 1984 ISAAC NEWTON SQUARE WEST, SUITE 202, RESTON, VA 20190, 1984 ISAAC NEWTON SQUARE WEST,, VA, 20190, (703) 227-7165 - 955,000 ($477,500.00) Equity, (File 333-151747 - Jun. 18) (BR. ) S-8 COSTCO WHOLESALE CORP /NEW, 999 LAKE DRIVE, ISSAQUAH, WA, 98027-, 4253138100 - 8,000,000 ($545,600,000.00) Equity, (File 333-151748 - Jun. 18) (BR. 02A) S-3 Pharmasset Inc, 303-A COLLEGE ROAD EAST, PRINCETON, NJ, 08540, 609-613-4100 - 0 ($100,000,000.00) Unallocated (Universal) Shelf, (File 333-151749 - Jun. 18) (BR. 01C) S-8 BION ENVIRONMENTAL TECHNOLOGIES INC, 641 LEXINGTON AVENUE, 17TH FLOOR, NEW YORK, NY, 10022, (212) 758-6622 - 1,000,000 ($2,060,000.00) Equity, (File 333-151751 - Jun. 18) (BR. 05B) S-8 SPACEHAB INC \WA\, 12130 HIGHWAY 3, BUILDING 1, WEBSTER, TX, 77598, 7135585000 - 0 ($3,685,000.00) Equity, (File 333-151752 - Jun. 18) (BR. 05C) S-3ASR PITNEY BOWES INC /DE/, WORLD HEADQUARTERS 61-11, ONE ELMCROFT ROAD, STAMFORD, CT, 06926, 2033565000 - 0 ($0.00) Other, (File 333-151753 - Jun. 18) (BR. 03B) S-8 IBERIABANK CORP, 200 WEST CONGRESS STREET, LAFAYETTE, LA, 70505, 3375214003 - 300,000 ($14,829,000.00) Equity, (File 333-151754 - Jun. 18) (BR. 07A) S-8 CVB FINANCIAL CORP, 701 N HAVEN AVE STE 300, ONTARIO, CA, 91764, 9099804030 - 0 ($42,224,334.79) Equity, (File 333-151755 - Jun. 18) (BR. 07B) S-8 WRIGHT MEDICAL GROUP INC, 5677 AIRLINE ROAD, ARLINGTON, TN, 38002, 9018679971 - 0 ($20,496,000.00) Equity, (File 333-151756 - Jun. 18) (BR. 10C) S-3 RYDER FUNDING II LP, 3600 N W 82ND AVE, RYDER LAW 5C, MIAMI, FL, 33166, 1,000,000 ($1,000,000.00) Asset-Backed Securities, (File 333-151759 - Jun. 18) (BR. ) S-3 PLURISTEM THERAPEUTICS INC, MATAM ADVANCED TECHNOLOGY PARK, BUILDING NO. 20, HAIFA, L3, 31905, 972-4-850-1080 - 0 ($15,000,000.00) Equity, (File 333-151761 - Jun. 18) (BR. 01B) S-8 CHESAPEAKE ENERGY CORP, 6100 N WESTERN AVE, OKLAHOMA CITY, OK, 73118, 4058488000 - 8,000,000 ($468,640,000.00) Equity, (File 333-151762 - Jun. 18) (BR. 04B) S-8 PHOTRONICS INC, 15 SECOR ROAD, PO BOX 5226, BROOKFIELD, CT, 06804, 2037759000 - 3,000,000 ($24,300,000.00) Equity, (File 333-151763 - Jun. 18) (BR. 10C) S-8 IXIA, 26601 W AGOURA RD, CALABASAS, CA, 91302, 8188711800 - 0 ($84,545,000.00) Equity, (File 333-151764 - Jun. 18) (BR. 10B)	en
converted_docs	288493	# DAG Concept Element 6 (Trajectory Negotiation for User-preferred Separation Assurance) # Overview Description # January 31, 2002 # NAS2-98005 # Technical Research in Advanced Air Transportation Technologies Final Overview Description # DAG Concept Element 6 # (Trajectory Negotiation for User-preferred Separation Assurance) CDRL Item 5b # Prepared under # RTO -- 62 # AATT Operational Concept for ATM -- Year 2002 Update #### January 31, 2002 #### Prepared For: NASA Ames Research Center #### Moffett Field, CA 94035-1000 #### Prepared By: Titan Systems Corporation -- SRC Division #### Billerica, MA 01821-4134 ![](media/image1.jpeg){width="5.416666666666667in" height="0.75in"} # DAG CE.6 - Trajectory Negotiation for User-preferred Separation Assurance Overview Description CE-6 operates in en route airspace to increase system flexibility and user preference accommodation through use of ATSP-user trajectory negotiation, augmented by advanced airborne and ground-based decision support automation. The two problems solved by CE-6 address complementary situations that require: (a) Resolution of potential conflicts due to violations of aircraft minimum separation rules (b) Conformance with local TFM constraints Situation "a" is the case in which trajectory negotiation is used to resolve potential aircraft conflicts in the absence of local TFM constraints. Situation "b" is the case in which trajectory negotiation is used to provide conformance with TFM constraints, but this conformance must also satisfy aircraft minimum separation requirements. Both situations may occur simultaneously, or situation "a" may occur in isolation from the other. The approach taken by CE-6 is to implement the general capability to resolve simultaneous potential violations of aircraft separation and local TFM constraints. CE-6 is designed to provide all the functions, processes, procedures and facilities to implement the general solution to the union of both situations. CE-6 enables the resolution of isolated potential aircraft conflicts as a sub-capability in which trajectory negotiation is simplified by the exclusion of TFM constraint factors. #### Overview CE-6 provides an ATSP focus for implementing en route trajectory negotiation within the framework of distributed decision-making between ATS users and providers. ATSP retains full responsibility for separation assurance, but users are integrated into the solution processes. Users are able to exercise initiatives and participate in the en route traffic management decision-making processes pertaining to the prevention of violations to aircraft separation and local TFM constraints. CE-6 provides the mechanisms for dynamically incorporating user-determined trajectory data and preferences into the assessment and the resolution or avoidance of potential violations. These mechanisms include processes for exchanging information, identifying and evaluating complex traffic situations, and determining and implementing solutions. The trajectory negotiation process implemented in CE-6 identifies, reviews and resolves traffic management situations requiring corrective or approval action with respect to potential violations of aircraft separation and local TFM constraints. This process emphasizes the use of continual updates of flight and atmospheric information together with advanced decision support tools to support high-fidelity trajectory prediction and situation assessment and real-time collaboration between users and ATSP. This approach: enables the ATSP, FD and AOC operations to accurately assess situations and formulate resolution options; affords ATSP the opportunity to present information to users describing traffic situation and trajectory constraints; affords users the opportunity to present self-optimization preferences for ATSP consideration; and promotes the application of resolutions that are sensitive to user preferences. The resulting ATSP flexibility in determining airspace use allows aircraft to fly efficient trajectories based on the changing traffic and atmospheric conditions. For effective trajectory negotiation, CE-6 requires development of advanced ATSP, FD and AOC automation, and their [operational and technical integration]{.underline} based on advanced communications capabilities and human-centered pilot and controller pilot procedures and technologies. These functions must be properly structured and integrated to enable users and ATSP to evaluate traffic situations accurately and determine and implement optimal courses of action. The operational integration focuses on the establishment of human-centered processes and interfaces for using the computer-derived information cooperatively among ATSP, FD and AOC to make the best use of trajectory negotiation. The technical integration focuses on derivation, transmission and compilation of valid flight data for use by computerized systems to evaluate and predict actual trajectories, identify and examine constraints and generate trajectory alternatives with high accuracy. #### Operational Integration CE-6 implements trajectory negotiation by providing ATSP and users with the means for exchanging potential conflict, TFM constraint and trajectory information to improve their situation assessment and planning processes. User-provided data enable ATSP automation to predict and evaluate trajectories accurately, and AOC-provided data enable users to determine appropriate trajectory preferences: - AOC provides user flight operations and aircraft performance descriptors to ATSP, and FD provides updates of trajectory status, intent, preference and atmospheric measurements to ATSP. This information is integrated into the ATSP surveillance, flight data and associated computational processes to enhance decision support tool performance. ```{=html} <!-- --> ``` - ATSP provides the users with atmospheric forecasts and local TFM constraints such as required time of arrival (RTA), altitude, speed or spacing restrictions, route restrictions due to special use airspace, weather or sector traffic congestion, and airport acceptance rates and delays. - ATSP provides users with information describing potential violations of aircraft separation and TFM constraints, and may provide information describing ATSP-generated trajectory resolution alternatives or restrictions applicable to user-generated resolutions. These data exchange and trajectory evaluation exercises enable ATSP and users to determine and negotiate clearances that provide efficient resolutions of potential violations of aircraft separation and TFM constraints or permit efficient trajectory changes in response to user requests. The CE-6 operation employs a human-centered operational design that leverages the advanced capabilities of the automation, pilot and controller computer-human interface (CHI), and communication, navigation and surveillance (CNS) functions available in the DAG environment. A key component of these functions is improved trajectory prediction and assessment, which enables extended probing along the projected trajectory to perform aircraft CD&R and TFM constraint infraction detection and resolution. A theoretically perfect CE-6 trajectory prediction and assessment function would support resolution of all potential violations along the entire trajectory prior to each aircraft's entry into en route airspace. The theoretical limit of en route probing would be the implementation of user and ATSP-negotiated, violation-free 4-dimensional flight plans, which would eliminate potential conflicts while satisfying any local TFM constraints. Delays and diversions from the negotiated flight plan would be precluded in this theoretically perfect operation. In the realistic environment of CE-6, trajectory prediction and assessment is not perfect and its accuracy diminishes with longer look-ahead. However, trajectory analysis in the DAG environment would be superior to that of current operations, and CE-6 trajectory accuracy would support reliable aircraft CD&R and local TFM constraint probing well beyond the scope defined by current sector sizing practices. Hence, CE-6 implements trajectory negotiation for airspace that currently would be a multi-sector environment such that ATSP evaluates aircraft separation and local TFM requirements over an extended downstream look-ahead span. Trajectory negotiation is used to establish a reliable violation-free plan for the effective range of the aircraft CD&R and TFM constraint probe. Notionally, ATSP monitors the flight along a previously negotiated trajectory and would not intervene except when or until a violation is projected. This control-by-exception operation is based on a trajectory-centric, rather than sector-centric, concept for distributing separation assurance responsibility. Theoretically, a trajectory-orientated ATSP operation might be established without sectorization in a futuristic environment. However, for planning purposes based on practical considerations, CE-6 is assumed to operate in a sector structure similar to that currently employed. In this operation, the probe examines aircraft separation and local TFM constraints in the multi-sector airspace that includes the current and downstream sectors. Negotiation is used to agree on a violation-free trajectory plan for this extended range, alleviating requirements for subsequent downstream intervention. The CE-6 controller and pilot operating procedures and associated CHI are designed to support trajectory negotiation and dissemination of constraint information for single and multi-sector coverage. ATSP data entry and display, decision support tool and communication systems are structured to facilitate detection and assessment of potential violations and their resolution through ATSP-user negotiation and inter-controller coordination. The CHI allows for the handling of a range of complex potential violation or constraint conformance situations. The aircraft involved in a potential violation may be in the same sector as each other at the time of negotiation or in different sectors, and the location of the potential violation may be the sector containing one or more of the subject aircraft or a downstream sector. Trajectory constraint specifications may pertain to a single reference fix and control parameter, or a sequence of fixes and combinations of parameters defining crossing time, spacing, speed, altitude or other traffic management requirements. Controllers are provided with capabilities to define a trajectory solution or solution options, and to test, evaluate, bound, accept, adjust or reject trajectory options generated by ATSP automation tools and user-generated trajectory change requests. Pilots are provided with capabilities to assess, bound, accept, or reject FD or AOC-generated trajectory change requests and ATSP-generated trajectory resolutions. Dispatchers have analogous capabilities. Controllers, pilots and dispatchers are able to respond to each other's trajectory plans as part of the process of achieving consensus. #### Technical Integration The CE-6 operation is enabled by advanced ATSP, FD and AOC automation coupled with advanced CNS technology. These technologies provide the mechanisms for reliably determining and describing the attributes, state and intent of aircraft and the air traffic system, accurately evaluating aircraft separation and TFM constraint factors, correctly determining trajectory options and preferences, and effectively performing trajectory negotiation. A critical technical integration component is an air-ground and ground-ground data link system, which enables the efficient exchange of data among ATSP, FD and AOC. Automation tools are used in CE-6 to assist controllers, pilots and dispatchers in conducting aircraft separation and local TFM constraint conformance tasks. These automation tools perform trajectory prediction and assessment calculations using highly-accurate information describing aircraft operating characteristics, traffic, TFM constrains, and atmospheric conditions. Data link enables the automatic exchange of [calibration data]{.underline} describing aircraft and system attributes, and facilitates exchange of trajectory [negotiation data]{.underline} between ATSP and users. Calibration information are transmitted between ATSP and user computer operations using automated data link capabilities. These messages contain information used by ATSP, FD and AOC automation to perform high-fidelity modeling of trajectories, traffic situations and atmospheric conditions. Calibration data describe flight operations and aircraft performance factors, aircraft state and trajectory intent, and atmospheric measurements and forecasts. Negotiation transactions between controllers, pilots or dispatchers include trajectory preference and preference interrogation, trajectory change request, trajectory constraint, trajectory trial plan and clearance, and acceptance and rejection messages. ATSP decision support tools and surveillance functions are critical CE-6 components. Trajectory prediction and assessment automation functions assimilate calibration and appropriate negotiation data, evaluate aircraft separation and local TFM constraint conformance factors, generate and assess trial plan options where necessary, and provide controller interface capabilities for conducting trajectory negotiation with users. ATSP automation also processes and transmits atmospheric forecasts by data link. The ATSP surveillance system provides traffic situation data. User-derived aircraft status and intent data is fused with ATSP radar track data to provide the surveillance accuracy required for reliable trajectory prediction and assessment computations. Flight deck avionics systems are integrated into the CE-6 operation. Aircraft flight management systems (FMSs) process calibration and negotiation data. Advanced FMS units generate aircraft status, trajectory intent and atmospheric measurement information for air-ground down linking. FMSs also generate trajectory preference and restriction data, and provide pilot interface capabilities for conducting trajectory negotiation with ATSP. The accuracy of the status and intent data and the capability to maintain trajectory clearance conformance depend on the performance levels of the navigation and guidance systems onboard aircraft. AOCs generate flight plan and operations data that are used in ATSP and FMS trajectory prediction and assessment computations. AOC decision support tools provide dispatcher interface capabilities for conducting trajectory negotiation with ATSP by ground-ground data link and with pilots by air-ground data link. #### BIBLIOGRAPHY 1. Couluris, G. J., Detailed Description for CE-6, En route Trajectory Negotiation, Seagull Technology, Inc., November 2000. 2. Advanced Air Transportation Technologies (AATT) Project, "Concept Definition for Distributed Air/Ground Traffic Management (DAG-TM)," Version 1.0, NASA, Aviation System Capacity Program, September 30, 1999. 3. Advanced Air Transportation Technologies (AATT) Project, "Research Plan for Distributed Air/Ground Traffic Management (DAG-TM)," Version 1.01, NASA, Aviation System Capacity Program, September 30, 1999. 4. Advanced Air Transportation Technologies (AATT) Project, NASA, Aviation System Capacity Program, "ATM Concept Definition," Version 1.0, NASA Ames Research Center, October 1997. 5. Ballin, Mark G.; Wing, David J.; Hughes, Monica F.; and Conway, Sheila R.: Airborne Separation Assurance and Traffic Management: Research of Concepts and Technology. AIAA-99-3989, August 1999. 6. Bilimoria, K., Communication, EDX Phase 2 Data Prioritization meeting, NASA Ames Research Center, Moffett Field, CA, June 30, 1998. 7. Carlson, L. and Rhodes, L., "Operational Concept for Traffic Management Collaborative Routing Coordination Tools," the MITRE Corporation, Center for Advanced Aviation System Development, McLean, VA, MP 98W0000106, July 1998. 8. Cole, R., Green, S., Schwartz, B., Benjamin, S., "Wind Prediction Accuracy for Air Traffic Management Decision Support Tools," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, June 2000. 9. Coppenbarger, R., "En Route Data Exchange Phase 2 Field Evaluation, CTAS Software Requirements, Version 2.0," January 2000. 10. Coppenbarger, R., "En-Route Climb Trajectory Prediction Enhancement Using Airline Flight-Planning Information," AIAA-99-4147, AIAA Guidance, Navigation, and Control Conference, August 1999. 11. Coppenbarger, R., and Salcido, R., "En route Climb Trajectory Prediction Enhancement Using Airline Flight Planning Information," AIAA Paper No. 99-4147, August 1999. 12. Couluris, G. J., Weidner, T., Sorensen, J. A., "Initial Air Traffic Management (ATM) Enhancement Potential Benefits Analysis," TM 96151-01, Seagull Technology, Inc., September 1996. 13. Couluris, G.J., Weidner, T., and Sorensen, J.A., "Final Approach Enhancement and Descent Trajectory Negotiation Potential Benefits Analysis," TM 97142-02, Seagull Technology, Inc., July 1997. 14. Datta, K., and Barrington, C., "Effects of Special Use Airspace on Economic Benefits of Direct Flights," Sverdrup contractor report to NASA's AATT project, 1996. 15. Davidson, T. G., Birtcil, L., Green, S., "Comparison of CTAS/EDA and FMS Time-of-Arrival Control Strategies," AIAA 99-4230, AIAA Guidance, Navigation and Control Conference, August 1999. 16. Davidson, T.G., Birtcil, L., "Comparison of Fuel Optimal, CTAS and FMS Time-of-Arrival Control Strategies for MD-80 Aircraft Trajectories," TM 98178-02, Seagull Technology, Inc., September 1998. 17. Davidson, T.G., Birtcil, L., "Comparison of Fuel Optimal, CTAS and FMS Time-of-Arrival Control Strategies for B-747 Aircraft Trajectories," TM 98178-03, Seagull Technology, Inc., September 1998. 18. Davidson, T.G., Birtcil, L., "Sector Tools Descent Advisor Potential Benefits Analysis," TR98-154-0, Seagull Technology, Inc., April 1998 (draft). 19. Davidson, T.G., Weidner, T., Birtcil, L., "En Route/Descent Advisor Potential Benefits Assessment," TM 98175.6-01, December 1998. 20. Eurocontrol Experimental Centre, "Study of the Acquisition of Data from Aircraft Operators to Aid Trajectory Prediction Calculation," EEC Note No. 18/98, EEC Task R23, EATCHIP Task ODP.ET5.ST03, September 1998. 21. FAA, "Concept of Operations for the National Airspace System in 2005," Revision 1.3, June 1997. 22. FAA/CAASD TFM Architecture and Requirements Team (TFM-ART) reports: 1) Operational Description, 2) Functional Decomposition, and 3) System Architecture, 1993. 23. Favennec, B., Salembier, P., "ESCAPADE: Display of Downlinked Aircraft Parameters," 2^nd^ USA/Europe ATM R&D Seminar, December 1998. 24. FMS-ATM Next Generation (FANG) Team, "FMS-ATM Next Generation (FANG) Operational Concept, Version 2.0" DOT/FAA/AND-98-12, FAA, November 1998. 25. FMS-ATM Next Generation (FANG) Team, "FMS-ATM Next Generation (FANG) Required Capabilities," DOT/FAA/AND-98-13, FAA, November 1998. 26. Green, S., "AATT Concept for Constrained En route Airspace," NASA AATT Milestone 5.11, NASA Ames Research Center, September 1999. 27. Green, S., "En route Spacing Tool: Efficient Conflict-free Spacing to Flow Restricted Airspace," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, June 2000. 28. Green, S., den Braven, W., and Williams, D., "Development and Evaluation of a Profile Negotiation Process for Integrating Aircraft and Air Traffic Control Automation," NASA TM 4360, April 1993. 29. Green, S., Goka, T., and Williams, D., "Enabling User Preferences through Data Exchange," AIAA-97-3682, AIAA Guidance, Navigation, and Control Conference, August 1997. 30. Green, S., Grace, M., "Conflict-free Planning for En Route Spacing: A Concept for Integrating Conflict Probe and Miles-in-Trail," AIAA-99-3988 AIAA Guidance, Navigation, and Control Conference, August 1999. 31. Green, S., Vivona, R., "AATT En route Descent Advisor (EDA) Concept," NASA AATT Milestone 5.10, NASA Ames Research Center, September 30, 1999. 32. Green, S., Vivona, R., "Field Evaluation of Descent Advisor Trajectory Prediction Accuracy," AIAA-96-3764, AIAA Guidance, Navigation, and Control Conference, July 1996. 33. Green, S., Vivona, R., Grace, M., and Fang, T., "Field Evaluation of Descent Advisor Trajectory Prediction Accuracy for En Route Clearance Advisories," AIAA-98-4479, AIAA Guidance, Navigation, and Control Conference, August 1998. 34. Heimerman, Kathryn, "Proceedings of the First FAA Dynamic Density / Air Traffic Control Complexity Technical Exchange Meeting, November 1997," the MITRE Corporation, Center for Advanced Aviation System Development, McLean, VA, MP 98W0000015, November 1998. 35. Honeywell, Inc., "Documentation for En Route Data Exchange (EDX) Phase 2 AMI," NASA Contract No. NAS2-98001, RTO 25, October 1999. 36. Leiden, K., Green, S., "Trajectory Orientation: A Technology-Enabled Concept Requiring a Shift in Controller Roles and Responsibilities," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, Italy, June 2000. 37. NASA, "NASA Strategic Plan," NASA Policy Directive (NPD)-1000.1, 1998. 38. RTCA, \"Operational Concepts and Data Elements Required to Improve Air Traffic Management (ATM)-Aeronautical Operational Control (AOC) Ground-Ground Information Exchange to Facilitate Collaborative Decision Making,\" Document No. RTCA/DO-241, RTCA SC-169 (7 October 1997) 39. Schleicher, D., Weidner, T., "NASA/FAA Initial User-CTAS Data Exchange Field Evaluation, Initial Project Plan," TM 98178-01, Seagull Technology, Inc., September 1998. 40. Schleicher, D., Weidner, T., Coppenbarger, R., "En Route Data Exchange Phase 2 Field Evaluation, CTAS Software Requirements, Version 1.0," TM 99185.01-02, Seagull Technology, Inc., February 1999. 41. Schleicher, D., Weidner, T., Coppenbarger, R., "NASA/FAA Initial User-CTAS Data Exchange (EDX Phase 2) Field Evaluation, Project Plan," TM 98185.01-01, Seagull Technology, Inc., February 1999. 42. Select Committee on Free Flight Implementation, "Joint Government/Industry Operational Concept for the Evolution of Free Flight," RTCA Inc., August 1997. 43. Sridhar, B., Seth, K., and Grabbe, S, "Airspace Complexity and its Application in Air Traffic Management," 2^nd^ USA/Europe Air Traffic Management R&D Seminar, Orlando, Florida, December 1998. 44. Thedford, W.; Vivona, R.; and Hodgdon, C.: En route Constrained Airspace Concept Definition. SRC final report, NASA Contract: RTO-07: NAS2-980005, September 1999. 45. Vivona, R., Ballin, M., Green, S., Bach, R., McNally, D., "A System Concept for Facilitating User Preferences n En Route Airspace," NASA Technical Memorandum 4763, November 1996. 46. Wanke, Craig, "Using Air-Ground Data Link and Operator-Provided Planning Data to Improve ATM Decision Support System Performance," IEEE 0-7803-4150-3/97, March 1997. 47. Weidner, J., Davidson, T.G., Birtcil, L., "Potential Benefits of User Preferred Descent Speed Profile," Seagull Technology, Inc., Report 00188.26-02, July 2000 48. Weidner, J., Davidson, T.G., Dorsky, D., "En Route Descent Advisor (EDA) and En Route Data Exchange (EDX) ATM Interruption Benefits," Seagull Technology, Inc., Report 00188.26-01, July 2000 49. Weidner, J., Green, S., "Modeling ATM Automation Metering Conformance Benefits," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, June 2000. 50. Weidner, J., Mueller, T., "Comprehensive Benefits Assessment of En Route Data Exchange (EDX)," Seagull Technology, Inc., Report 00188.27-01, July 2000 51. Weidner, T., Couluris, G. J., Sorensen, J. A., "Initial Data Link Enhancement to CTAS Build 2 Potential Benefits Analysis," TM 98151-01, FAA Prime Contract No. DTFA01-96-Y-01009, Seagull Technology, Inc., June 1998. 52. Weidner, T., Davidson, T.G., "Fuel-Related Benefits Analysis of En Route Data Exchange," TM 98175.9-01, Seagull Technology, Inc., December 1998. 53. Williams, D.H., and Green, S.M., "Airborne Four-Dimensional Flight Management in a Time-Based Air Traffic Control Environment," NASA TM 4269, March 1991. 54. Williams, D.H., Green, S.M., "Pilot Simulation of an Air-Ground Profile Negotiation Process in a Time-Based air Traffic Control Environment," NASA Technical Memorandum 107748, April 1993. 55. Williams, D.H., Green, S.M., "Flight Evaluation or the Center/TRACON Automation System Trajectory Prediction Process," NASA/TP-1998-208439, July 1998. 56. Williams, D.H., Green, S.M., den Braven, W., Arbuckle, P.D., "Profile Negotiation: An Air/Ground Automation Integration Concept for Managing Arrival Traffic," AGARD Guidance and Control Panel 56^th^ Symposium on Machine Intelligence in Air Traffic Management, Berlin, Germany, May 1993.	en
log-files	613855	********************************************************** * running on : fcdfcaf1326.fnal.gov * command : ./mcProduction/scripts/MCProd -V 1 -l bqcdqc.0001.MCProd.0001.log -J 1 -b cdfpqcd -d bqcdqc -u 1000 -g 200 -x USE_TIKI=1 -x DATASET_DEFINITION_FILE=bqcdqc.0001.definition -x SCRIPT_TO_BE_SOURCED=bqcdqc.0001.mcprod.commands -x N_MCPROD=0 * CDF_USER_NAME : murat * MC_JOB : 1 * JOB_NAME : * EXEFILE : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim * EXE : * TCLFILE : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl * LOGFILE : bqcdqc.0001.MCProd.0001.log * BOOK : cdfpqcd * DATASET : ZZZZZZ * FILESET : * INPUT_FILE : * INPUT_TCL_FILE: * LAST_EVENT : * KEEP_L3 : * KEEP_COT_HITS : * RUN_NUMBER : 151435 * WORK_DIR : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work * NEVENTS : 0 * JOB_NUMBER : 1 * JOB_OUTPUT_DIR: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work * OUTPUT_NAME : * OUTPUT_FILE : * VALGRIND_VER : v1_9_6 * RHOST : * RUSER : * RDIR : * USE_TIKI : 1 ******************************************************** Ticket cache: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/ticket/krb5cc_5849_1186973993 Default principal: snihur/cdf/glidecaf@FNAL.GOV Valid starting Expires Service principal 08/12/07 21:59:53 08/13/07 23:59:53 krbtgt/FNAL.GOV@FNAL.GOV renew until 08/18/07 06:07:48 #----------------------------------------------------------------------- # source some useful TCL files #----------------------------------------------------------------------- source $env(WORK_DIR)/TclUtils/scripts/getenv.tcl #----------------------------------------------------------------------- # variables which either should be substituted by the codegen or # defined in the submitter script #----------------------------------------------------------------------- set JOB_NUMBER $env(JOB_NUMBER) set DATASET_ID $env(DATASET_ID) set RUN_NUMBER $env(RUN_NUMBER) set RUN_SECTION $env(RUN_SECTION) set NEVENTS $env(NEVENTS) set RUNMC_FLAG $env(RUNMC_FLAG) set RANDOM_SEED_INPUT $env(RANDOM_SEED_INPUT) set RANDOM_SEED_OUTPUT $env(RANDOM_SEED_OUTPUT) set BEGIN_EVENT_NUMBER $env(BEGIN_EVENT_NUMBER) set FIRST_EVTS_TO_READ $env(FIRST_EVTS_TO_READ) #----------------------------------------------------------------------- # variables defined in source_me #----------------------------------------------------------------------- set INPUT_FILE $env(INPUT_FILE) set OUTPUT_FILE $env(OUTPUT_FILE) set RUNMC_TCL_DIR $env(RUNMC_TCL_DIR) #----------------------------------------------------------------------- # use official simulation tcl files #----------------------------------------------------------------------- set SIM_TCL_DIR $env(WORK_DIR)/SimulationMods/test set DECAY_PACKAGES_TCL [ getenv DECAY_PACKAGES_TCL "setup_tauola_evtgen.tcl" ] set STORE_USERINFO [ getenv STORE_USERINFO "0" ] #----------------------------------------------------------------------- # no more environment variables below this line #----------------------------------------------------------------------- set REPORT_FREQUENCY 100 #----------------------------------------------------------------------- # Third come all the tcl fragments that are part of this collection: #----------------------------------------------------------------------- if { $RUNMC_FLAG == "GENERATE_ONLY" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl set COT_Matching 0 set SI_Matching 0 } if { $RUNMC_FLAG == "READ_GENERATE_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } if { $RUNMC_FLAG == "GENERATE_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } if { $RUNMC_FLAG == "READ_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } source ${SIM_TCL_DIR}/setup_path.tcl set outputPath cdfSimPath source ${SIM_TCL_DIR}/setup_output.tcl #----------------------------------------------------------------------- # #----------------------------------------------------------------------- path list if { $NEVENTS > 0 } then { begin -nev $NEVENTS } else { begin } exit #----------------------------------------------------------------------- [MCProd]: Using default built-in database iomap file [MCProd]: MODE = 2 [MCProd]: DATASET_NAME = Pythia_dijet_18_MinBias_periods_9_to_11 [MCProd]: RUN_NUMBER = 151435 [MCProd]: JOB_NUMBER = 1 [MCProd]: NEVENTS = 0 [MCProd]: RUN_NUMBER = 222530 [MCProd]: RUN_SECTION = 1 [MCProd]: BEGIN_EVENT_NUMBER = 1 [MCProd]: NEVENTS = 2000 [MCProd]: INST_LUMI = 1.31e+32 [MCProd]: MINBIAS_MEAN = 4.7122141 [MCProd]: RUNMC_FLAG = GENERATE_ONLY [MCProd]: CDFSIM_INPUT = MC_GENERATOR [MCProd]: MC_PROCESS_TCL = mc_pythia_dijet18.tcl [MCProd]: MC_FILTER_TCL = mc_postgenNoFilter.tcl [MCProd]: INPUT_FILE = none [MCProd]: OUTPUT_FILE = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root [MCProd]: MODE = 2 [MCProd]: DATASET_NAME = Pythia_dijet_18_MinBias_periods_9_to_11 [MCProd]: RUN_NUMBER = 222530 [MCProd]: JOB_NUMBER = 1 [MCProd]: NEVENTS = 2000 [MCProd]: . /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl [MCProd]: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mc_pythia_dijet18.tcl # # # tcl file for QCD dijets with Pthat>18 GeV # # # #+++++++++++++++++++++++++++++++++++++++++++++++++++++# module enable Pythia talk Pythia PythiaMenu # # Set MSEL=1 (above) and comment out all the MSUB settings # qq processes [qcd group decides to use msel=1 instead of # msel=0 and msub settings below] msel set 1 commonMenu # kinematics # Ptmin (0, 18, 80, 140 GeV) # # set_ckin -index=3 -value=0.0 set_ckin -index=3 -value=18.0 # set_ckin -index=3 -value=80.0 # set_ckin -index=3 -value=140.0 # exit exit exit source $env(PROJECT_DIR)/mcProduction/tcl/mc_pythia_common.tcl [MCProd]: . /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 12-Aug-2007 22:00:39 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 HERWIG: ALL PARTICLE TYPE WITH A B QUARK SET STABLE, USE QQ HERWIG: ALL PARTICLE TYPE WITH A C QUARK SET STABLE, USE QQ HeavyQuarkGen Version: $Id: HeavyQuarkGenModule.cc,v 1.2 2003/04/15 18:26:09 paulini Exp $ HeavyQuarkGenModule: Constructor Bgenerator Version: $Id: BgeneratorModule.cc,v 1.12 2004/01/14 16:45:10 paus Exp $ BGEN_INI: Bgenerator Initialization CHKLOG: CDFDAB_DIR logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work BGEN_OPEN_SPECTRA: finished successfully. BGEN_INI: Hadrons/properties known to Bgenerator Number Name Mass Lifetime ----------------------[GeV]----[ps]--- 1 Bu+ 5.2776 1.5000 2 Bd0 5.2794 1.5000 3 Bs0 5.3700 1.5000 4 Bc+ 6.3900 1.5000 5 ALamB0 5.6400 1.5000 6 User 0.0000 0.0000 CHKLOG: HEPTBL logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/heptabl.dbt ---> The maximal weight value is: 0.100000E-05 Warning! You have to reinitialize this value with the maximal weight from your VECBOS MC generation ! ---> Default weight bank name is VECB. (eg. PAPA,VECB) ---> MC generrtor init number is: 87926891 HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 #### MODULE #### PythiaInfoModule created - PythiaInfoModule #### #### MODULE #### HepgFilter created - HepgFilter #### ***** PartFilter INITIALIZED ****** #### MODULE #### GenTrigModule created - GenTrigModule #### #### GenTrigXFT created -- XFT #### #### GenTrigXTRP created -- XTRP #### #### GenTrigSVT created -- SVT #### #### GenTrigCMU created -- CMU #### #### GenTrigCMX created -- CMX #### #### GenTrigL1Pair created -- L1Pr #### #### GenTrigL1Pair created -- L1L2Pr #### #### GenTrigL2Pair created -- L2Bs #### #### GenTrigL2Pair created -- L2Bd #### #### GenTrigL1Trip created -- L1Tr #### #### GenTrigL1Trip created -- L1L2Tr #### #### GenTrigL2Trip created -- L2Tr #### #### GenTrigL1DiMu created -- L1DM #### #### GenTrigL1DMuX created -- L1DMX #### #### GenTrigL2DiMu created -- L2DM #### #### GenTrigL1MuSvt created -- L1MS #### #### GenTrigL2MuSvt created -- L2MS #### #### GenTrigFiducial created - Fidu #### #### MODULE #### QuickCdfObjects created - QuickCdfObjects #### #### GenTrigCOT created -- CotHepg #### #### GenTrigCMU created -- CmuHepg #### #### MODULE #### MCInfoModule created - MCInfoModule #### MZSTOR. ZEBRA table base TAB(0) in /MZCC/ at adr 164840879 9D345AF HEX MZSTOR. Initialize Store 0 in /GCBANK/ with Store/Table at absolute adrs 103068549 164840879 HEX 624B385 9D345AF HEX FC516C12 0 relative adrs -61772782 0 with 1 Str. in 2 Links in 5300 Low words in 9999970 words. This store has a fence of 16 words. MZLOGL. Set Log Level 0 for store 0 --------------- HepPDT Version 1.00.01 --------------- 1* GEANT Version 3.21/14 Released on 19032002 0*** Correction Cradle Version 0.1400 MZDIV. Initialize Division Constant in Store 0 NW/NWMAX= 20008000000, MODE/KIND= 1 2 Division 20 initialized. MZLINK. Initialize Link Area /GCLINK/ for Store 0 NL/NS= 20 20 MZLINK. Initialize Link Area /GCSLNK/ for Store 0 NL/NS= 100 100 #### MODULE #### SimpleCotTrkReco created - SimpleCotTrkReco #### #### MODULE #### SimpleSiTrkReco created - SimpleSiTrkReco #### <<<getenv>>> : Name= DECAY_PACKAGES_TCL Default= setup_tauola_evtgen.tcl x= setup_tauola_evtgen.tcl <<<getenv>>> : Name= STORE_USERINFO Default= 0 x= 0 <<<getenv>>> : Name= CDFSIM_INPUT Default= MC_GENERATOR x= MC_GENERATOR <<<getenv>>> : Name= INPUT_FILE Default= undefined x= none Current value of item(s) in the "RandomGenManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of RestoreRandomStreams for this module is true Value of SaveRandomStreams for this module is true Value of OutputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat Value of InputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat Current value of items on the "RandomNumberMenu" menu: Value of RandomSeedGRNDM1 for this module is 3591 Value of RandomSeedGRNDM2 for this module is 2309736 Value of RandomSeedPYTHIA1 for this module is 93453591 Value of RandomSeedPYTHIA2 for this module is 73436 Value of RandomSeedHERWIG1 for this module is 355391 Value of RandomSeedHERWIG2 for this module is 97336 setup_input.tcl:setup_mc_generator_input <<<getenv>>> : Name= REPORT_FREQUENCY Default= 1 x= 1 [setup_input.tcl:setup_mc_generator_input] FIRST_EVENT_OFFSET= 0 [setup_input.tcl:setup_mc_generator_input] RUN_NUMBER = 222530 [setup_input.tcl:setup_mc_generator_input] RUN_SECTION = 1 Current value of item(s) in the "GenInputManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 1 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module GenInputManager has 0 values (minimum 0, maximum 1000): classHideList in module GenInputManager has 0 values (minimum 0, maximum 1000): hideList in module GenInputManager has 0 values (minimum 0, maximum 1000): processDropList in module GenInputManager has 0 values (minimum 0, maximum 1000): keepFromProcessList in module GenInputManager has 0 values (minimum 0, maximum 1000): runSections: : selectEvents: ():() runsTrigs: ():() Value of recordType for this module is SIMPLE Value of run_number for this module is 222530 Value of run_type for this module is MC Value of section_number for this module is 1 Value of first_event for this module is 0 Value of genBeginRun for this module is true Value of specifyRuns for this module is false Value of RunSectionLength for this module is 1000000 Value of RunSectionOffset for this module is 0 Value of LumiWtRunsFromDB for this module is false Value of RewriteLRIH for this module is false Value of runNumberFile for this module is Value of runNumberAndLumiFile for this module is Value of useRunSections for this module is false Value of Nevent for this module is 0 <<<getenv>>> : Name= EVTGEN_USER_DECAY_FILE Default= 0 x= 0 Current value of item(s) in the "EvtGen" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of mode for this module is 0 Value of UseRootParticle for this module is false Value of RootParticlePx for this module is 0 Value of RootParticlePy for this module is 0 Value of RootParticlePz for this module is 0 Value of RootParticleHepID for this module is 0 Value of UseUserDecayFile for this module is false Value of UserDecayFile for this module is dummy Value of AdjustCPAsymm for this module is false Value of DecayPromptCharm for this module is true Value of DecayBMeson for this module is true Value of DecayBBaryon for this module is true Value of RandomSeed1 for this module is 0 Value of RandomSeed2 for this module is 0 Non-zero elements of MSTJ: MSTJ( 1) = 1 MSTJ( 2) = 3 MSTJ( 11) = 4 MSTJ( 12) = 2 MSTJ( 14) = 1 MSTJ( 16) = 2 MSTJ( 17) = 2 MSTJ( 18) = 10 MSTJ( 21) = 2 MSTJ( 22) = 1 MSTJ( 23) = 1 MSTJ( 24) = 2 MSTJ( 25) = 1 MSTJ( 26) = 2 MSTJ( 27) = 2 MSTJ( 41) = 2 MSTJ( 42) = 2 MSTJ( 43) = 4 MSTJ( 44) = 2 MSTJ( 45) = 5 MSTJ( 46) = 3 MSTJ( 47) = 3 MSTJ( 50) = 3 MSTJ( 52) = 3 MSTJ( 54) = 2 MSTJ( 57) = 1 MSTJ(101) = 5 MSTJ(102) = 2 MSTJ(103) = 7 MSTJ(104) = 5 MSTJ(105) = 1 MSTJ(106) = 1 MSTJ(108) = 2 MSTJ(110) = 2 MSTJ(115) = 1 MSTJ(116) = 1 Non-zero elements of MSTP: MSTP( 1) = 3 MSTP( 2) = 1 MSTP( 3) = 2 MSTP( 11) = 1 MSTP( 13) = 1 MSTP( 14) = 30 MSTP( 16) = 1 MSTP( 17) = 4 MSTP( 18) = 3 MSTP( 19) = 4 MSTP( 20) = 3 MSTP( 21) = 1 MSTP( 23) = 1 MSTP( 30) = 1 MSTP( 31) = 1 MSTP( 32) = 8 MSTP( 34) = 1 MSTP( 36) = 2 MSTP( 37) = 1 MSTP( 38) = 5 MSTP( 39) = 2 MSTP( 41) = 2 MSTP( 42) = 1 MSTP( 43) = 3 MSTP( 44) = 7 MSTP( 45) = 3 MSTP( 46) = 1 MSTP( 47) = 1 MSTP( 49) = 1 MSTP( 51) = 4046 MSTP( 52) = 2 MSTP( 53) = 3 MSTP( 54) = 1 MSTP( 55) = 5 MSTP( 56) = 1 MSTP( 57) = 1 MSTP( 58) = 5 MSTP( 59) = 1 MSTP( 60) = 7 MSTP( 61) = 2 MSTP( 62) = 3 MSTP( 63) = 2 MSTP( 64) = 2 MSTP( 65) = 1 MSTP( 66) = 5 MSTP( 67) = 2 MSTP( 68) = 1 MSTP( 71) = 1 MSTP( 81) = 1 MSTP( 82) = 4 MSTP( 83) = 100 MSTP( 86) = 2 MSTP( 91) = 1 MSTP( 92) = 3 MSTP( 93) = 1 MSTP( 94) = 3 MSTP(101) = 3 MSTP(102) = 1 MSTP(111) = 1 MSTP(112) = 1 MSTP(113) = 1 MSTP(122) = 1 MSTP(123) = 2 MSTP(124) = 1 MSTP(125) = 1 MSTP(126) = 100 MSTP(129) = 10 MSTP(132) = 4 MSTP(134) = 1 MSTP(172) = 2 MSTP(181) = 6 MSTP(182) = 216 MSTP(183) = 2003 MSTP(184) = 4 MSTP(185) = 7 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 4.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 2.00 PARP( 83) = 0.500 PARP( 84) = 0.400 PARP( 85) = 0.900 PARP( 86) = 0.950 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.80e+03 PARP( 90) = 0.250 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 <<<getenv>>> : Name= BEAM_SET_BY_HAND Default= 0 x= 0 <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:00:39 CDT run = 0 event = 0 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= BEAM_SIGMA_Z Default= 28.0 x= 28.0 <<<getenv>>> : Name= BEAM_SIGMA_T0 Default= 1.3 x= 1.3 Current value of item(s) in the "GenPrimVert" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of sigma_x for this module is 0.00257 Value of sigma_y for this module is 0.00258 Value of sigma_z for this module is 28 Value of sigma_t for this module is 1.3 Value of n_bunches for this module is 0 Value of bunch_spacing for this module is 400 Value of pv_central_x for this module is 0 Value of pv_central_y for this module is 0 Value of pv_central_z for this module is 0 Value of pv_slope_dxdz for this module is 0 Value of pv_slope_dydz for this module is 0 Value of BeamlineFromDB for this module is true Value of UseBetaStarBeamWidth for this module is true Value of UseBetaStarZVertex for this module is true Current value of items on the "RandomNumberMenu" menu: Value of RandomSeed1 for this module is 922883591 Value of RandomSeed2 for this module is 109735476 Current value of items on the "BeamBetaStarMenu" menu: Value of beamEmittanceX for this module is 1.26e-07 Value of beamEmittanceY for this module is 1.24e-07 Value of beamBetaStarX for this module is 38.6 Value of beamBetaStarY for this module is 38 Value of beamZ0X for this module is 14.2 Value of beamZ0Y for this module is -9.2 Current value of item(s) in the "GeometryManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of enableSimpleSi for this module is false Value of enableB4 for this module is false Value of enableBeamBox for this module is false Value of enableSimpleSvx for this module is false Value of enableSvx for this module is true Value of enableSimpleCot for this module is false Value of enableAlPlate for this module is false Value of enableCot for this module is true Value of enableMuon for this module is true Value of enableCalor for this module is true Value of enableMiniplug for this module is false Value of enableDetailedMiniplug for this module is false Value of enableClc for this module is false Value of enableTof for this module is true Value of enableStripChamber for this module is true Value of enablePassive for this module is true Value of enableBeampipeC for this module is true Value of enableBeampipe for this module is false Value of enableCPR for this module is true Value of enableAll for this module is false Current value of items on the "SiliconGeometryMenu" menu: Value of AlignmentSource for this module is frontier 220050 1 GOOD Value of AlignmentPrint for this module is 3 Value of AlignmentAlignWafers for this module is true Value of L00Alignment for this module is true Value of BuildPassive for this module is true Value of BuildPassivePHA for this module is true DisabledPassiveElements in module GeometryManager has 2 values (minimum 0, maximum 0): svxInnScreen svxBHTap Value of CreateOldPhantomLayer for this module is false Value of OldPhantomLayerThickness for this module is 0.2 Value of OldPhantomLayerHalfLength for this module is 165 Value of OldPhantomLayerMaterial for this module is SILICON Value of CreatePhantomLayer for this module is true PhantomLayerRmin in module GeometryManager has 10 values (minimum 0, maximum 99): 14.8 14.8 14.8 14.8 14.8 20.5 20.5 20.8 20.5 20.5 PhantomLayerZmin in module GeometryManager has 10 values (minimum 0, maximum 99): -60 -45 -15 15.1 45.1 -100 -45 -15 15.1 45.1 PhantomLayerZmax in module GeometryManager has 10 values (minimum 0, maximum 99): -45.1 -15.1 15 45 60 -45.1 -15.1 15 45 100 PhantomLayerThickness in module GeometryManager has 10 values (minimum 0, maximum 99): 0.9 0.9 0.2 0.9 0.9 0.4 0.15 0.1 0.15 0.4 PhantomLayerMaterial in module GeometryManager has 10 values (minimum 0, maximum 99): SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE PhantomLayerContainer in module GeometryManager has 10 values (minimum 0, maximum 99): SVCC SVCC SVCC SVCC SVCC ISLC ISLC ISLC ISLC ISLC Value of ReadSiliMapROOT for this module is false Value of ReadSiliMapROOTFileName for this module is Value of WriteSiliMapROOT for this module is false Value of WriteSiliMapROOTFileName for this module is UNKNOWN Value of ReadSiliMapDB for this module is false Value of SiliMapDBVersion for this module is 0 Value of WriteSiliMapDB for this module is false Value of ReadSiliMapASCII for this module is false Value of ReadSiliMapASCIIFileName for this module is UNKNOWN Value of WriteSiliMapASCII for this module is false Value of WriteSiliMapASCIIFileName for this module is UNKNOWN Value of UseCustomSiliMapDB for this module is false Value of CustomSiliMapDBID for this module is onotl_dev Value of SiliMapDEDxScale for this module is 1 Value of SiliMapI0Scale for this module is 1 Value of SiliMapX0Scale for this module is 1 Current value of items on the "Cot" menu: Value of run1CTCGeometry for this module is false Value of run1CTCData for this module is true Current value of items on the "MuonGeometryMenu" menu: Value of CMPGeometry for this module is true Value of CMUGeometry for this module is true Value of CMXGeometry for this module is true Value of IMUGeometry for this module is true Current value of items on the "CalorGeometryMenu" menu: Value of BuildPhantom for this module is false Value of PhantomThickness for this module is 0.1 Current value of items on the "TofGeometryMenu" menu: Value of GeometryModel for this module is Aligned Value of Verbosity for this module is None Current value of items on the "PrintMenu" menu: Value of printSvx for this module is false Value of printCot for this module is false Value of printMuon for this module is false Value of printCalor for this module is false Value of printTof for this module is false Value of printStripChamber for this module is false Value of printPassive for this module is false Value of printBeampipeC for this module is false Value of printCPR for this module is false Value of printAll for this module is false Value of printTree for this module is false Value of uniformField for this module is false Value of Bfield for this module is 14.1 Value of useCalibDB for this module is true Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of item(s) in the "SimInitManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of items on the "DebugMenu" menu: Value of showMaterials for this module is false Value of showMedia for this module is false Value of showLogicalVolumes for this module is false Value of showPhysicalVolumes for this module is false Value of resetCopyNumber for this module is false Value of applyAlignment for this module is true <<<getenv>>> : Name= CDFSIM_FAST_TRACK Default= false x= false <<<getenv>>> : Name= SHOW_ACTIVE_VOLUMES Default= false x= false <<<getenv>>> : Name= CDFSIM_DEBUG_LEVEL Default= 0 x= 0 Current value of items on the "DetectorMenu" menu: Value of simulateSvx for this module is true Value of simulateCot for this module is true Value of simulateMuon for this module is true Value of simulateCalor for this module is true Value of simulateTof for this module is true Value of simulateStripChamber for this module is false Value of simulatePassive for this module is true Value of simulateBeampipeC for this module is false This factory knows about 20 digitizer types. These types are: CalorDigiBFCoil CalorDigiCcal CalorDigiGeneric CalorDigiNoBFCoil CalorDigiPcal CalorDigiWcal ClcDigitizer CotDigitizer ImuDigiBMUGas ImuDigiBSUPaddle ImuDigiTSUPaddle MuonDigiCMP MuonDigiCMU MuonDigiCMX MuonDigiCSX SimpleCotDigitizer SimpleSiDigitizer SvxDigitizer TofDigi3Pack TofDigiBar Current value of item(s) in the "SimulationControlMod" module: The following detector elements have been configured with digitizers: BFCoil with digitizer CalorDigiBFCoil in group CalorGroup BMUGas with digitizer ImuDigiBMUGas in group ImuGroup BSUPaddle with digitizer ImuDigiBSUPaddle in group ImuGroup CMPPart with digitizer MuonDigiCMP in group MuonCMPdata CMUExtrusion with digitizer MuonDigiCMU in group MuonCMUdata CMXChamber with digitizer MuonDigiCMX in group MuonCMXdata CSXCounter with digitizer MuonDigiCSX in group MuonCSXdata CalorDetectorElement with digitizer CalorDigiGeneric in group CalorGroup CdfHalfLadder with digitizer SvxDigitizer in group SvxGroup CotSuperLayer with digitizer CotDigitizer in group CotGroup NoBFCoil with digitizer CalorDigiNoBFCoil in group CalorGroup TSUPaddle with digitizer ImuDigiTSUPaddle in group ImuGroup Tof3Pack with digitizer TofDigi3Pack in group TofGroup TofBar with digitizer TofDigiBar in group TofGroup <<<getenv>>> : Name= COT_DRIFT_MODEL Default= Garfield x= Garfield <<<getenv>>> : Name= COT_HIT_RESOLUTION_SCALE Default= 0.64 x= 0.64 Current value of items on the "CotGroup_CotSuperLayer" menu: Value of CreateCOTD for this module is true Value of CreateCOTQ for this module is false Value of CreateCOTM for this module is true Value of CreateMCOT for this module is false Value of CreateCotTrueXP for this module is false Value of CreatePropagatedParticleColl for this module is false Value of StepSize for this module is 1 Value of TimingGate for this module is 400 Value of TwoHitSeparation for this module is 10 Value of DriftModel for this module is Garfield Value of LoadExistingRawData for this module is false Value of HitResolutionScale for this module is 0.64 HitEfficiency in module SimulationControlMod has 8 values (minimum 8, maximum 8): 1 1 1 1 1 1 1 1 WidthScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.847 1.01 0.868 1.02 1.05 1.04 1.04 1.04 WidthSigmaScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.813 0.863 0.782 0.821 0.841 0.812 0.815 0.798 Current value of items on the "SvxGroup_CdfHalfLadder" menu: Value of CreateSIXD for this module is true Value of CreatePropagatedSi for this module is false Value of pick_svx_cdm for this module is PARAMETERIZED Value of svx_cdm_delta_rays for this module is ON Value of svx_cdm_magnetic_field for this module is ON Value of svx_cdm_noise for this module is THRESH7 svx_cdm_noise_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_crosstalk_list in module SimulationControlMod has 18 values (minimum 2, maximum 18): 2 0 0 0 0.43 0.2 0.47 0.19 0.49 0.51 0.41 0.24 0.46 0.5 0.355 0.355 0.355 0.355 svx_cdm_fractionlost_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_fractionlostfstrip_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_relgain_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 Value of svx_validation for this module is OFF Value of ToyPulseHeight for this module is 30 Value of GeoElossToADC for this module is 3e+05 Value of ZigZagL7 for this module is true Value of debug for this module is 0 Value of debugNtuple for this module is Value of useNoiseDB for this module is true Value of noiseDBRun for this module is -1 Value of noiseDBVersion for this module is -1 Value of noiseDBStatus for this module is Value of noiseDBName for this module is Value of LoadExistingRawData for this module is false Value of AlignmentAlignWafers for this module is true Current value of items on the "MuonCMPdata_CMPPart" menu: Value of writeHitCollection for this module is false Value of debugLevel for this module is 0 Value of disableBluebeam for this module is false Value of disableKeystone for this module is false Value of disableKeystoneWedge5 for this module is false Value of disableKeystoneWedge6 for this module is false Value of disableMiniskirts for this module is false Value of disableRunDependence for this module is false Value of realisticSmearing for this module is false <<<getenv>>> : Name= RUNMC_FLAG Default= GENERATE_AND_SIMULATE x= GENERATE_ONLY ** Listing of all available paths ** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Min Bias sequence MinBiasSequence() yes on 0 0 mbr yes on 0 0 MIX_FAKE_EVENT yes on 0 0 PythiaMinBias * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * cdfSimPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule ======================================================= Error Log established 12-Aug-2007 22:00:39 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:00:39 CDT run = 0 event = 0 CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() - TOF geometry system of type [ALIGNED] found. - Calibrator: Data ============ TofManager Initialized ============ RandomGenManager: restoring random state from file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat: BGENERATOR - 1234567,86543 EvtGen - 3244768,76744 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 6268819,11876 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 9876540,54798 SVX_SIM - 4756981,20932 TAUOLA - 3958375,47386 WGRAD - 9834262,35354 mbr - 2553412,53245 PythiaModule: Please note the following long lived strange particles have been set stable and cannot be set to decay K_0S, Lambda, Sigma, Xi and Omega. %ERLOG-e [PYTHIA_BMIXOF_R]: /cdf/scratch/beauche/MaxOpt_H/generatorMods/src/PythiaModule.cc : 106 PythiaModule: B-Bbar mixing is disabled and should be done using EvtGen Pythia 12-Aug-2007 22:01:12 CDT run = 0 event = 0 1 **************************************************************************** ************************************************************************** ...... Welcome to the Lund Monte Carlo! :::!!::::::::::: ::::::!!:::::::::::::: PPP Y Y TTTTT H H III A ::::::::!!:::::::::::::::: P P Y Y T H H I A A :::::::::!!::::::::::::::::: PPP Y T HHHHH I AAAAA :::::::::!!::::::::::::::::: P Y T H H I A A ::::::::!!::::::::::::::::! P Y T H H III A A ::::::!!:::::::::::::: !! !! :::!!::::::::::: !! This is PYTHIA version 6.216 !! !* -><- * !! Last date of change: 7 Apr 2003 !! !! !! !! !! !! Now is 12 Aug 2007 at 22:01:12 !! !! !! lh !! Disclaimer: this program comes !! !! without any guarantees. Beware !! hh !! of errors and use common sense !! ll !! when interpreting results. !! !! !! Copyright T. Sjostrand (2003) An archive of program versions and documentation is found on the web: http://www.thep.lu.se/~torbjorn/Pythia.html When you cite this program, currently the official reference is T. Sjostrand, P. Eden, C. Friberg, L. Lonnblad, G. Miu, S. Mrenna and E. Norrbin, Computer Physics Commun. 135 (2001) 238. The large manual is T. Sjostrand, L. Lonnblad and S. Mrenna, LU TP 01-21 [hep-ph/0108264]. Also remember that the program, to a large extent, represents original physics research. Other publications of special relevance to your studies may therefore deserve separate mention. Main author: Torbjorn Sjostrand; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 48 16; e-mail: torbjorn@thep.lu.se Author: Leif Lonnblad; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 77 80; e-mail: leif@thep.lu.se Author: Stephen Mrenna; Computing Division, Simulations Group, Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA; phone: + 1 - 630 - 840 - 2556; e-mail: mrenna@fnal.gov Author: Peter Skands; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 31 92; e-mail: zeiler@thep.lu.se ************************************************************************** ************************************************************************** 1************** PYINIT: initialization of PYTHIA routines ************* * CERN Computer Program Library - Reference: W5051 * * PDFLIB Version: 8.04 Released on 2000-04-17 at 12.24 * PDFLIB : TMAS value Warning : NON standard settings, TMAS value = 175. set by user !! ============================================================================== I I I PYTHIA will be initialized for a p on pbar collider I I at 1960.000 GeV center-of-mass energy I I I ============================================================================== Nucleon PDFs : CTEQ Set 5L (LO) Structure Functions Ngroup = 4, Nset = 46 -------------------------------------------------------------------------------------- **** PYMAXI: summary of differential cross-section maximum search **** ========================================================== I I I I ISUB Subprocess name I Maximum value I I I I ========================================================== I I I I 11 f + f' -> f + f' (QCD) I 2.2206E-02 I I 12 f + fbar -> f' + fbar' I 1.8438E-04 I I 13 f + fbar -> g + g I 2.6731E-04 I I 28 f + g -> f + g I 1.6649E-01 I I 53 g + g -> f + fbar I 2.9355E-03 I I 68 g + g -> g + g I 1.2621E-01 I I 96 Semihard QCD 2 -> 2 I 7.0421E+03 I I I I ========================================================== ** PYMULT: initialization of multiple interactions for MSTP(82) = 4 ** pT0 = 2.04 GeV gives sigma(parton-parton) = 3.16E+02 mb: accepted ****************** PYINIT: initialization completed ******************** List of KF codes in program 1 d -1 dbar 2 u -2 ubar 3 s -3 sbar 4 c -4 cbar 5 b -5 bbar 6 t -6 tbar 7 b' -7 b'bar 8 t' -8 t'bar 11 e- -11 e+ 12 nu_e -12 nu_ebar 13 mu- -13 mu+ 14 nu_mu -14 nu_mubar 15 tau- -15 tau+ 16 nu_tau -16 nu_taubar 17 tau'- -17 tau'+ 18 nu'_tau -18 nu'_taubar 21 g 22 gamma 23 Z0 24 W+ -24 W- 25 h0 32 Z'0 33 Z"0 34 W'+ -34 W'- 35 H0 36 A0 37 H+ -37 H- 39 Graviton 41 R0 -41 Rbar0 42 LQ_ue -42 LQ_uebar 2101 ud_0 -2101 ud_0bar 3101 sd_0 -3101 sd_0bar 3201 su_0 -3201 su_0bar 4101 cd_0 -4101 cd_0bar 4201 cu_0 -4201 cu_0bar 4301 cs_0 -4301 cs_0bar 5101 bd_0 -5101 bd_0bar 5201 bu_0 -5201 bu_0bar 5301 bs_0 -5301 bs_0bar 5401 bc_0 -5401 bc_0bar 1103 dd_1 -1103 dd_1bar 2103 ud_1 -2103 ud_1bar 2203 uu_1 -2203 uu_1bar 3103 sd_1 -3103 sd_1bar 3203 su_1 -3203 su_1bar 3303 ss_1 -3303 ss_1bar 4103 cd_1 -4103 cd_1bar 4203 cu_1 -4203 cu_1bar 4303 cs_1 -4303 cs_1bar 4403 cc_1 -4403 cc_1bar 5103 bd_1 -5103 bd_1bar 5203 bu_1 -5203 bu_1bar 5303 bs_1 -5303 bs_1bar 5403 bc_1 -5403 bc_1bar 5503 bb_1 -5503 bb_1bar 111 pi0 211 pi+ -211 pi- 221 eta 311 K0 -311 Kbar0 130 K_L0 310 K_S0 321 K+ -321 K- 331 eta' 411 D+ -411 D- 421 D0 -421 Dbar0 431 D_s+ -431 D_s- 441 eta_c 511 B0 -511 Bbar0 521 B+ -521 B- 531 B_s0 -531 B_sbar0 541 B_c+ -541 B_c- 551 eta_b 113 rho0 213 rho+ -213 rho- 223 omega 313 K0 -313 Kbar0 323 K+ -323 K- 333 phi 413 D+ -413 D- 423 D0 -423 Dbar0 433 D_s+ -433 D_s- 443 J/psi 513 B0 -513 Bbar0 523 B+ -523 B- 533 B_s0 -533 B_sbar0 543 B_c+ -543 B_c- 553 Upsilon 10113 b_10 10213 b_1+ -10213 b_1- 10223 h_1 10313 K_10 -10313 K_1bar0 10323 K_1+ -10323 K_1- 10333 h'_1 10413 D_1+ -10413 D_1- 10423 D_10 -10423 D_1bar0 10433 D_1s+ -10433 D_1s- 10443 h_1c 10513 B_10 -10513 B_1bar0 10523 B_1+ -10523 B_1- 10533 B_1s0 -10533 B_1sbar0 10543 B_1c+ -10543 B_1c- 10553 h_1b 10111 a_00 10211 a_0+ -10211 a_0- 10221 f_0 10311 K_00 -10311 K_0bar0 10321 K_0+ -10321 K_0- 10331 f'_0 10411 D_0+ -10411 D_0- 10421 D_00 -10421 D_0bar0 10431 D_0s+ -10431 D_0s- 10441 chi_0c 10511 B_00 -10511 B_0bar0 10521 B_0+ -10521 B_0- 10531 B_0s0 -10531 B_0sbar0 10541 B_0c+ -10541 B_0c- 10551 chi_0b 20113 a_10 20213 a_1+ -20213 a_1- 20223 f_1 20313 K_10 -20313 K_1bar0 20323 K_1+ -20323 K_1- 20333 f'_1 20413 D_1+ -20413 D_1- 20423 D_10 -20423 D_1bar0 20433 D_1s+ -20433 D_1s- 20443 chi_1c 20513 B_10 -20513 B_1bar0 20523 B_1+ -20523 B_1- 20533 B_1s0 -20533 B_1sbar0 20543 B_1c+ -20543 B_1c- 20553 chi_1b 115 a_20 215 a_2+ -215 a_2- 225 f_2 315 K_20 -315 K_2bar0 325 K_2+ -325 K_2- 335 f'_2 415 D_2+ -415 D_2- 425 D_20 -425 D_2bar0 435 D_2s+ -435 D_2s- 445 chi_2c 515 B_20 -515 B_2bar0 525 B_2+ -525 B_2- 535 B_2s0 -535 B_2sbar0 545 B_2c+ -545 B_2c- 555 chi_2b 100443 psi' 100553 Upsilon' 3122 Lambda0 -3122 Lambdabar0 4122 Lambda_c+ -4122 Lambda_cbar- 4132 Xi_c0 -4132 Xi_cbar0 4232 Xi_c+ -4232 Xi_cbar- 5122 Lambda_b0 -5122 Lambda_bbar0 5132 Xi_b- -5132 Xi_bbar+ 5232 Xi_b0 -5232 Xi_bbar0 5142 Xi_bc0 -5142 Xi_bcbar0 5242 Xi_bc+ -5242 Xi_bcbar- 5342 Omega_bc0 -5342 Omega_bcbar0 2112 n0 -2112 nbar0 2212 p+ -2212 pbar- 3112 Sigma- -3112 Sigmabar+ 3212 Sigma0 -3212 Sigmabar0 3222 Sigma+ -3222 Sigmabar- 3312 Xi- -3312 Xibar+ 3322 Xi0 -3322 Xibar0 4112 Sigma_c0 -4112 Sigma_cbar0 4212 Sigma_c+ -4212 Sigma_cbar- 4222 Sigma_c++ -4222 Sigma_cbar-- 4312 Xi'_c0 -4312 Xi'_cbar0 4322 Xi'_c+ -4322 Xi'_cbar- 4332 Omega_c0 -4332 Omega_cbar0 4412 Xi_cc+ -4412 Xi_ccbar- 4422 Xi_cc++ -4422 Xi_ccbar-- 4432 Omega_cc+ -4432 Omega_ccbar- 5112 Sigma_b- -5112 Sigma_bbar+ 5212 Sigma_b0 -5212 Sigma_bbar0 5222 Sigma_b+ -5222 Sigma_bbar- 5312 Xi'_b- -5312 Xi'_bbar+ 5322 Xi'_b0 -5322 Xi'_bbar0 5332 Omega_b- -5332 Omega_bbar+ 5412 Xi'_bc0 -5412 Xi'_bcbar0 5422 Xi'_bc+ -5422 Xi'_bcbar- 5432 Omega'_bc0 -5432 Omega'_bcba 5442 Omega_bcc+ -5442 Omega_bccbar- 5512 Xi_bb- -5512 Xi_bbbar+ 5522 Xi_bb0 -5522 Xi_bbbar0 5532 Omega_bb- -5532 Omega_bbbar+ 5542 Omega_bbc0 -5542 Omega_bbcbar0 1114 Delta- -1114 Deltabar+ 2114 Delta0 -2114 Deltabar0 2214 Delta+ -2214 Deltabar- 2224 Delta++ -2224 Deltabar-- 3114 Sigma- -3114 Sigmabar+ 3214 Sigma0 -3214 Sigmabar0 3224 Sigma+ -3224 Sigmabar- 3314 Xi- -3314 Xibar+ 3324 Xi0 -3324 Xibar0 3334 Omega- -3334 Omegabar+ 4114 Sigma_c0 -4114 Sigma_cbar0 4214 Sigma_c+ -4214 Sigma_cbar- 4224 Sigma_c++ -4224 Sigma_cbar-- 4314 Xi_c0 -4314 Xi_cbar0 4324 Xi_c+ -4324 Xi_cbar- 4334 Omega_c0 -4334 Omega_cbar0 4414 Xi_cc+ -4414 Xi_ccbar- 4424 Xi_cc++ -4424 Xi_ccbar-- 4434 Omega_cc+ -4434 Omega_ccbar- 4444 Omega_ccc++ -4444 Omega_cccbar- 5114 Sigma_b- -5114 Sigma_bbar+ 5214 Sigma_b0 -5214 Sigma_bbar0 5224 Sigma_b+ -5224 Sigma_bbar- 5314 Xi_b- -5314 Xi_bbar+ 5324 Xi_b0 -5324 Xi_bbar0 5334 Omega_b- -5334 Omega_bbar+ 5414 Xi_bc0 -5414 Xi_bcbar0 5424 Xi_bc+ -5424 Xi_bcbar- 5434 Omega_bc0 -5434 Omega_bcbar0 5444 Omega_bcc+ -5444 Omega_bccbar- 5514 Xi_bb- -5514 Xi_bbbar+ 5524 Xi_bb0 -5524 Xi_bbbar0 5534 Omega_bb- -5534 Omega_bbbar+ 5544 Omega_bbc0 -5544 Omega_bbcbar0 5554 Omega_bbb- -5554 Omega_bbbbar+ 1000001 ~d_L -1000001 ~d_Lbar 1000002 ~u_L -1000002 ~u_Lbar 1000003 ~s_L -1000003 ~s_Lbar 1000004 ~c_L -1000004 ~c_Lbar 1000005 ~b_1 -1000005 ~b_1bar 1000006 ~t_1 -1000006 ~t_1bar 1000011 ~e_L- -1000011 ~e_L+ 1000012 ~nu_eL -1000012 ~nu_eLbar 1000013 ~mu_L- -1000013 ~mu_L+ 1000014 ~nu_muL -1000014 ~nu_muLbar 1000015 ~tau_1- -1000015 ~tau_1+ 1000016 ~nu_tauL -1000016 ~nu_tauLbar 1000021 ~g 1000022 ~chi_10 1000023 ~chi_20 1000024 ~chi_1+ -1000024 ~chi_1- 1000025 ~chi_30 1000035 ~chi_40 1000037 ~chi_2+ -1000037 ~chi_2- 1000039 ~Gravitino 2000001 ~d_R -2000001 ~d_Rbar 2000002 ~u_R -2000002 ~u_Rbar 2000003 ~s_R -2000003 ~s_Rbar 2000004 ~c_R -2000004 ~c_Rbar 2000005 ~b_2 -2000005 ~b_2bar 2000006 ~t_2 -2000006 ~t_2bar 2000011 ~e_R- -2000011 ~e_R+ 2000012 ~nu_eR -2000012 ~nu_eRbar 2000013 ~mu_R- -2000013 ~mu_R+ 2000014 ~nu_muR -2000014 ~nu_muRbar 2000015 ~tau_2- -2000015 ~tau_2+ 2000016 ~nu_tauR -2000016 ~nu_tauRbar 3000111 pi_tc0 3000211 pi_tc+ -3000211 pi_tc- 3000221 pi'_tc0 3000331 eta_tc0 3000113 rho_tc0 3000213 rho_tc+ -3000213 rho_tc- 3000223 omega_tc 3100021 V8_tc 3100111 pi_22_1_tc 3200111 pi_22_8_tc 3100113 rho_11_tc 3200113 rho_12_tc 3300113 rho_21_tc 3400113 rho_22_tc 4000001 d* -4000001 dbar 4000002 u -4000002 ubar 4000011 e- -4000011 ebar+ 4000012 nu_e0 -4000012 nu_ebar0 5000039 Graviton 9900012 nu_Re 9900014 nu_Rmu 9900016 nu_Rtau 9900023 Z_R0 9900024 W_R+ -9900024 W_R- 9900041 H_L++ -9900041 H_L-- 9900042 H_R++ -9900042 H_R-- 9900110 rho_diff0 9900210 pi_diffr+ -9900210 pi_diffr- 9900220 omega_di 9900330 phi_diff 9900440 J/psi_di 9902110 n_diffr0 -9902110 n_diffrbar0 9902210 p_diffr+ -9902210 p_diffrbar- Event list level 1 ******************************************************** * STDHEP version 5.01 - June 10, 2002 * ******************************************************** Masses, Widths 0 - tauola par EvtGen:EvtGen version: alpha-00-14-05 plus bug fixes EvtGen:CDF Revision: 2.00 EvtGen:Initializing EvtGen EvtGen:Storing known decay models Will register EvtJetSet EvtGen:Registering CDF specific decay models EvtGen:Main decay file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:PDT table file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/pdt.table EvtGen:Initializing RadCorr=PHOTOS EvtGen:No RadCorr engine given in EvtGen::EvtGen constructor, will use default EvtPHOTOS. EvtGen:In readDecayFile, reading:/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:As requested, PHOTOS will be turned on. EvtGen:VSS_BMIXCPT will generate mixing and CPT/CP effects in mixing: Upsilon(4S) --> B0 + anti-B0 using parameters: delta(m) = 0.502 hbar/ps _freq = 1.67 hbar/mm dgog = 0.00 dGamma = 0.00 hbar/mm q/p = (1.00,0.00) z = (0.00,0.00) tau = 1.53 ps x = 0.770 chi(B0->B0bar) = 0.186 chi(B0bar->B0) = 0.186 Af = (1.00,0.00) Abarf = (0.00,0.00) Afbar = (0.00,0.00) Abarfbar = (1.00,0.00) EvtGen:Redefined Partial wave for D_1+ to D+ pi0 (2) EvtGen:Redefined Partial wave for D_1+ to D0 pi+ (2) EvtGen:Redefined Partial wave for D_1- to D- pi0 (2) EvtGen:Redefined Partial wave for D_1- to anti-D0 pi- (2) EvtGen:Redefined Partial wave for D_10 to D0 pi0 (2) EvtGen:Redefined Partial wave for D_10 to D+ pi- (2) EvtGen:Redefined Partial wave for anti-D_10 to anti-D0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_10 to D- pi+ (2) EvtGen:Redefined Partial wave for D_2+ to D+ pi0 (2) EvtGen:Redefined Partial wave for D_2+ to D0 pi+ (2) EvtGen:Redefined Partial wave for D_2- to D- pi0 (2) EvtGen:Redefined Partial wave for D_2- to anti-D0 pi- (2) EvtGen:Redefined Partial wave for D_20 to D0 pi0 (2) EvtGen:Redefined Partial wave for D_20 to D+ pi- (2) EvtGen:Redefined Partial wave for anti-D_20 to anti-D0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_20 to D- pi+ (2) EvtGen:Given allowed decays, resetting minMass B_s00 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s00 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s20 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B_s20 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c+ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.25 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.25 to 2.42 EvtGen:Done initializing EvtGen : EvtGenInterface:************************************************************************** EvtGenInterface:************************************************************************ EvtGenInterface: EvtGen will correct particle energies if the mass calculated from the EvtGenInterface: 4-vector differs from the hepevt mass by more than 500 keV. EvtGenInterface:************************************************************************ EvtGenInterface:************************************************************************ : \| GENERATORS: generator configuration check PASSED \|* SiAlignmentManager will take alignments from frontier 220050 1 GOOD SiAlignmentManager opening db: frontier run: 220050 version: 1 status: GOOD CdfCalibDbFrontier(SiAlignFrame:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483739 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483741 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483743 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483745 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 MZLINK. Initialize Link Area /GCHVIR/ for Store 0 NL/NS= 4 1 MZLINK. Initialize Link Area /GCDINA/ for Store 0 NL/NS= 4 4 1********************************************************** * * * G E A N T Version 3.2114 DATE/TIME1070812/**** * * * * R U N 1 * * * ************************************************************ * * * Data structure Date Time GVERSN ZVERSN * * -------------- ---- ---- ------ ------ * * * * INIT 1070812 **** 3.2114 3.79 * * * * KINE 1070812 **** 3.2114 3.79 * * * * HITS 1070812 **** 3.2114 3.79 * * * * DIGI 1070812 **** 3.2114 3.79 * * * * Random number seeds: 9876 54321 * * -------------------- * * * ---------------------------------------------------------- * * * Standard TPAR for this run are * * ------------------------------ * * * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 1. ICOMP = 1. IPHOT = 1. * * IPFIS = 0. IDRAY = 0. IANNI = 1. * * IBREM = 1. IHADR = 1. IMUNU = 1. * * IDCAY = 1. ILOSS = 2. IMULS = 1. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 34 VACUUM B 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 38 VACUUM NoB 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0.*** * Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root on Sun Aug 12 22:01:17 2007 *** GenInputManager Begin processing 1th record. Run 222530, Trigger 0 ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 53 VACUUM B 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 58 VACUUM NoB 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * ********************************************************** CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMUPosition:1.2,47603) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMPPosition:1.3,91693) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMXPosition:1.2,49871) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. MediumType: 0 Media ID: 41 MediumType: 9 Media ID: 41 MediumType: 8 Media ID: 42 MediumType: 9 Media ID: 43 MediumType: 3 Media ID: 44 MediumType: 0 Media ID: 41 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 0 Media ID: 41 MediumType: 4 Media ID: 46 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 47 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 48 MediumType: 0 Media ID: 48 MediumType: 10 Media ID: 49 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 2 Media ID: 51 MediumType: 5 Media ID: 52 **************************************************** **** GFLASH-14 * Parameters ********** **************************************************** ************ GFLASH STEERING ***************** PEM PHA CEM CHA WHA MPA ISSAMP 1 1 1 1 1 1 1 1 1 1 IFLASH1 4 4 4 4 4 4 4 4 4 4 IFLASH2 0 0 0 0 0 0 0 0 0 0 GFCNEU 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 GFCGAM 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 GFCPRO 0.0500 0.2500 0.0500 0.2500 0.2500 0.0500 0.2500 0.0500 0.2500 0.2500 CFLASH1 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH3 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH4 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 **************************************************** ************ SHOWER RESPONSE ***************** PEM PHA CEM CHA WHA MPA RSPMIP 0.0776 0.0181 0.1658 0.0534 0.0534 0.1600 1.0000 1.0000 1.0000 0.0160 EBYMIP 0.7110 0.8950 0.6490 0.8840 0.8840 0.5000 1.0000 1.0000 1.0000 1.0000 PBYMIP 1.8200 3.2000 1.8500 2.3000 2.3000 2.2000 3.9000 3.9000 3.9000 3.9000 SAMELM1 0.1270 0.1800 0.1350 0.1900 0.1900 0.1800 0.1000 0.1000 0.1000 0.1800 SAMELM2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMELM3 0.0137 0.1000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD1 0.1600 0.1610 0.1500 0.1300 0.1300 0.0000 0.3600 0.3600 0.3600 0.3600 FLUHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD3 0.0440 0.0440 0.0530 0.0400 0.0400 0.4000 0.0000 0.0000 0.0000 0.0440 SAMHAD1 0.1200 0.3500 0.1800 0.2300 0.2300 0.4000 0.4000 0.4000 0.4000 0.4000 SAMHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMHAD3 0.0100 0.0320 0.0380 0.0430 0.0430 0.0000 0.0000 0.0000 0.0000 0.0000 RLTHAD 32.7000 23.7000 32.7000 23.7000 23.7000 32.7000 23.7000 23.7000 23.7000 23.7000 ECRIT 9.6600 22.0000 9.4800 22.0000 22.0000 10.0000 79.0000 22.0000 52.0000 22.0000 SFREQ 0.8775 0.0000 0.8890 0.0000 0.0000 0.8000 0.2000 0.0000 0.0000 0.0000 EBM 0.2960 0.1050 0.3500 0.1100 0.1100 0.3000 0.0000 0.0000 0.0000 0.0000 **************************************************** ******** PMT simulation package *********** version 0.0600 simulation mode 7 sw_light 1 sw_gain 1 sw_pedestal 1 light yield 7.00 # of pes/mip pedestal sigma 0.100 snglpe sigma 0.170 mip energy 0.00240 GeV ************************************************* GenInputManager Begin processing 2th record. Run 222530, Trigger 1 GenInputManager Begin processing 3th record. Run 222530, Trigger 2 EvtGenFinding B Mesons and about to enter DecayAll PYEVNT event no. 2 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !d! 21 1 1 -2.338 -0.534 408.544 408.551 0.000 4 !u! 21 2 2 0.277 -0.370 -86.344 86.345 0.000 5 !g! 21 21 3 -1.186 0.278 46.239 46.255 0.000 6 !u! 21 2 4 0.353 0.615 -83.594 83.597 0.000 7 !g! 21 21 0 -8.017 -19.256 42.413 47.265 0.000 8 !u! 21 2 0 7.184 20.148 -79.768 82.587 0.330 ============================================================================== 9 pbar- 1 -2212 2 0.184 0.322 -539.224 539.225 0.938 10 (d) A 12 1 3 0.685 0.140 32.049 32.059 0.330 11 (g) I 12 21 3 0.557 -0.153 6.563 6.589 0.000 12 (g) I 12 21 0 -0.524 -0.072 81.503 81.504 0.000 13 (g) I 12 21 0 1.359 -0.116 29.986 30.017 0.000 14 (g) I 12 21 0 -0.379 1.188 14.886 14.938 0.000 15 (g) I 12 21 0 0.387 3.468 17.029 17.383 0.000 16 (g) I 12 21 0 0.742 0.320 1.299 1.530 0.000 17 (g) I 12 21 0 1.354 1.372 2.785 3.387 0.000 18 (g) I 12 21 0 -0.272 1.520 1.120 1.908 0.000 19 (g) I 12 21 0 0.165 0.518 -0.072 0.548 0.000 20 (g) I 12 21 0 -0.314 2.204 -2.562 3.394 0.000 21 (g) I 12 21 0 0.524 0.072 -1.359 1.458 0.000 22 (g) I 12 21 0 0.411 0.303 -1.248 1.349 0.000 23 (g) I 12 21 0 0.522 0.337 -3.042 3.105 0.000 24 (g) I 12 21 0 1.105 -0.133 -18.686 18.719 0.000 25 (g) I 12 21 0 -1.105 0.133 -56.246 56.257 0.000 26 (g) I 12 21 0 1.834 0.628 -94.285 94.305 0.000 27 (g) I 12 21 4 -0.079 -0.985 -2.577 2.760 0.000 28 (ubar) V 11 -2 2 -0.461 0.048 -157.510 157.511 0.330 29 (dbar) A 12 -1 3 -1.617 -1.005 104.112 104.130 0.330 30 (g) I 12 21 3 -0.139 0.231 120.828 120.829 0.000 31 (d) V 11 1 3 -1.505 -0.499 92.770 92.784 0.330 32 (u) A 12 2 8 4.910 15.523 -61.476 63.597 0.330 33 (g) I 12 21 8 2.259 4.582 -18.127 18.833 0.000 34 (g) I 12 21 0 -0.520 0.356 -3.043 3.107 0.000 35 (g) I 12 21 0 -0.522 -0.337 -2.688 2.759 0.000 36 (g) I 12 21 0 -0.742 -0.320 -1.865 2.032 0.000 37 (g) I 12 21 0 -0.305 -0.227 -0.500 0.629 0.000 38 (g) I 12 21 0 -0.411 -0.303 -0.705 0.871 0.000 39 (g) I 12 21 0 -1.834 -0.628 -1.739 2.604 0.000 40 (g) I 12 21 0 -0.387 -3.468 -3.419 4.885 0.000 41 (g) I 12 21 0 -0.165 -0.518 0.086 0.550 0.000 42 (g) I 12 21 7 -7.699 -18.743 37.347 42.490 0.000 43 (g) I 12 21 7 -0.303 -0.469 4.901 4.933 0.000 44 (g) I 12 21 0 0.314 -2.204 2.213 3.139 0.000 45 (g) I 12 21 0 0.520 -0.356 0.368 0.729 0.000 46 (g) I 12 21 0 0.541 -0.084 0.070 0.551 0.000 47 (g) I 12 21 0 -1.359 0.116 4.932 5.117 0.000 48 (g) I 12 21 0 0.379 -1.188 17.058 17.104 0.000 49 (g) I 12 21 0 0.272 -1.520 14.967 15.047 0.000 50 (g) I 12 21 0 -1.354 -1.372 15.857 15.973 0.000 51 (g) I 12 21 3 0.868 0.476 5.810 5.894 0.000 52 (uu_1) V 11 2203 1 2.338 0.534 356.836 356.845 0.771 53 (d) A 12 1 0 -0.560 -0.090 -0.434 0.714 0.000 54 (g) I 12 21 0 -0.541 0.084 0.192 0.580 0.000 55 (g) I 12 21 0 0.305 0.227 2.799 2.824 0.000 56 (dbar) V 11 -1 0 0.560 0.090 2.440 2.505 0.000 ============================================================================== 57 (string) 11 92 10 6.511 10.792 -150.366 528.721 506.731 58 (Sigma0) 11 3212 57 0.246 -0.534 54.668 54.685 1.193 59 Sigmabar- 1 -3222 57 1.241 0.510 40.329 40.369 1.189 60 (pi0) 11 111 57 -0.077 0.173 6.425 6.429 0.135 61 (Delta++) 11 2224 57 0.211 0.529 21.290 21.334 1.245 62 (pi0) 11 111 57 -0.761 0.450 12.541 12.573 0.135 63 (Deltabar--) 11 -2224 57 0.582 0.095 22.282 22.322 1.216 64 p+ 1 2212 57 0.094 1.638 9.878 10.058 0.938 65 nbar0 1 -2112 57 1.401 0.801 9.480 9.662 0.940 66 (Delta-) 11 1114 57 0.306 1.336 5.623 5.924 1.265 67 (Deltabar+) 11 -1114 57 0.047 1.937 2.253 3.267 1.359 68 (K0) 11 311 57 0.345 -0.244 1.030 1.219 0.498 69 (K-) 11 -323 57 0.719 0.681 0.418 1.391 0.884 70 (K+) 11 323 57 0.020 1.186 -1.534 2.132 0.885 71 (Kbar0) 11 -311 57 -0.131 0.347 0.486 0.789 0.498 72 pi- 1 -211 57 0.632 1.064 -2.146 2.481 0.140 73 (omega) 11 223 57 -0.380 0.735 -2.418 2.671 0.776 74 (rho+) 11 213 57 0.512 -0.187 -14.028 14.058 0.739 75 pi- 1 -211 57 -0.351 0.274 -2.976 3.012 0.140 76 pi+ 1 211 57 0.550 -0.248 -2.219 2.304 0.140 77 (K0) 11 313 57 0.603 0.672 -13.836 13.894 0.894 78 (K-) 11 -323 57 -0.164 -0.170 -10.940 10.976 0.852 79 pi+ 1 211 57 0.791 0.448 -74.861 74.866 0.140 80 (pi0) 11 111 57 -0.773 -0.033 -7.614 7.654 0.135 81 (omega) 11 223 57 0.215 -0.283 -9.359 9.398 0.780 82 (rho0) 11 113 57 0.979 -0.220 -45.876 45.894 0.782 83 (pi0) 11 111 57 -0.028 0.090 -1.870 1.877 0.135 84 (rho0) 11 113 57 0.301 0.376 -17.021 17.046 0.783 85 (K0) 11 313 57 -0.594 -0.266 -11.544 11.599 0.919 86 (Kbar0) 11 -311 57 -0.409 -0.166 -37.820 37.826 0.498 87 (rho-) 11 -213 57 0.387 -0.197 -81.005 81.010 0.740 88 (string) 11 92 29 -3.260 -1.273 317.710 317.742 2.883 89 pi+ 1 211 88 -1.250 -0.142 74.466 74.477 0.140 90 K- 1 -321 88 0.036 -0.329 103.053 103.054 0.494 91 (K0) 11 313 88 -2.045 -0.802 140.191 140.211 0.865 92 (string) 11 92 32 -3.200 -10.153 366.884 567.689 433.074 93 (K+) 11 323 92 2.363 7.489 -29.813 30.843 0.885 94 K- 1 -321 92 3.325 7.839 -32.522 33.622 0.494 95 (rho+) 11 213 92 0.515 4.029 -14.620 15.198 0.845 96 (pi0) 11 111 92 0.063 0.163 -2.747 2.756 0.135 97 (eta) 11 221 92 -0.228 -0.354 -1.232 1.413 0.547 98 pi- 1 -211 92 0.022 0.122 -0.541 0.573 0.140 99 (eta) 11 221 92 -0.489 0.659 -1.123 1.495 0.547 100 (K+) 11 323 92 -0.105 -0.084 -2.161 2.341 0.888 101 K- 1 -321 92 -1.198 -0.784 -3.415 3.736 0.494 102 (K+) 11 323 92 -1.469 -1.019 -2.514 3.207 0.877 103 (Kbar0) 11 -313 92 -0.225 -1.799 -1.671 2.639 0.940 104 (omega) 11 223 92 0.213 -0.975 -0.471 1.351 0.779 105 pi- 1 -211 92 -0.284 -0.327 -0.190 0.493 0.140 106 (eta') 11 331 92 -1.116 -2.816 4.731 5.699 0.958 107 (rho+) 11 213 92 -2.280 -4.078 8.663 9.869 0.719 108 pi- 1 -211 92 -0.849 -3.667 7.352 8.260 0.140 109 (rho+) 11 213 92 -0.567 -3.320 5.039 6.145 1.012 110 (pi0) 11 111 92 -1.106 -0.480 1.857 2.218 0.135 111 (rho0) 11 113 92 -1.927 -3.605 8.301 9.280 0.717 112 pi- 1 -211 92 0.199 -0.447 1.784 1.855 0.140 113 (rho+) 11 213 92 0.557 -2.276 2.181 3.292 0.769 114 (rho-) 11 -213 92 -0.810 -0.888 4.581 4.866 1.118 115 (Delta0) 11 2114 92 0.061 -0.603 3.403 3.677 1.254 116 (rho+) 11 213 92 -0.040 -0.589 3.307 3.538 1.111 117 (Deltabar0) 11 -2114 92 0.465 -0.037 2.612 2.908 1.189 118 (Delta0) 11 2114 92 -1.054 -1.290 23.049 23.142 1.239 119 pi- 1 -211 92 -0.057 -0.180 2.317 2.329 0.140 120 (Deltabar0) 11 -2114 92 -0.184 -1.878 18.401 18.543 1.304 121 p+ 1 2212 92 0.489 0.359 19.709 19.740 0.938 122 (rho-) 11 -213 92 0.261 0.098 22.308 22.329 0.905 123 (Deltabar+) 11 -1114 92 0.949 0.411 109.491 109.502 1.209 124 n0 1 2112 92 0.749 -0.130 144.775 144.780 0.940 125 pi+ 1 211 92 0.556 0.303 66.047 66.050 0.140 126 (string) 11 92 53 -0.235 0.312 4.997 6.624 4.330 127 (rho-) 11 -213 126 -0.344 0.151 0.284 0.918 0.788 128 pi+ 1 211 126 -0.314 -0.082 0.640 0.731 0.140 129 (pi0) 11 111 126 0.434 0.362 0.739 0.941 0.135 130 pi- 1 -211 126 -0.415 -0.701 0.423 0.929 0.140 131 (rho+) 11 213 126 0.404 0.582 2.910 3.105 0.819 132 Lambda0 1 3122 58 0.160 -0.522 51.627 51.642 1.116 133 gamma 1 22 58 0.086 -0.013 3.042 3.043 0.000 134 gamma 1 22 60 -0.096 0.108 2.943 2.946 0.000 135 gamma 1 22 60 0.019 0.065 3.482 3.483 0.000 136 p+ 1 2212 61 0.400 0.484 17.253 17.290 0.938 137 pi+ 1 211 61 -0.189 0.045 4.037 4.044 0.140 138 gamma 1 22 62 -0.596 0.284 9.201 9.224 0.000 139 gamma 1 22 62 -0.165 0.166 3.340 3.348 0.000 140 pbar- 1 -2212 63 0.592 0.205 16.693 16.731 0.938 141 pi- 1 -211 63 -0.011 -0.110 5.589 5.591 0.140 142 n0 1 2112 66 0.201 1.064 5.186 5.381 0.940 143 pi- 1 -211 66 0.105 0.272 0.437 0.543 0.140 144 nbar0 1 -2112 67 0.079 1.851 2.294 3.095 0.940 145 pi+ 1 211 67 -0.032 0.086 -0.042 0.172 0.140 146 K_L0 1 130 68 0.345 -0.244 1.030 1.219 0.498 147 (Kbar0) 11 -311 69 0.813 0.493 0.369 1.135 0.498 148 pi- 1 -211 69 -0.094 0.187 0.048 0.256 0.140 149 (K0) 11 311 70 0.023 0.339 -0.470 0.764 0.498 150 pi+ 1 211 70 -0.003 0.848 -1.064 1.367 0.140 151 K_L0 1 130 71 -0.131 0.347 0.486 0.789 0.498 152 pi- 1 -211 73 -0.281 0.306 -0.593 0.738 0.140 153 pi+ 1 211 73 -0.038 0.382 -0.816 0.913 0.140 154 (pi0) 11 111 73 -0.061 0.047 -1.009 1.021 0.135 155 pi+ 1 211 74 0.118 -0.408 -6.825 6.840 0.140 156 (pi0) 11 111 74 0.394 0.221 -7.203 7.219 0.135 157 (K0) 11 311 77 0.425 0.162 -5.816 5.855 0.498 158 (pi0) 11 111 77 0.178 0.510 -8.020 8.039 0.135 159 (Kbar0) 11 -311 78 -0.331 -0.225 -6.939 6.969 0.498 160 pi- 1 -211 78 0.167 0.056 -4.001 4.007 0.140 161 gamma 1 22 80 -0.261 0.028 -2.106 2.122 0.000 162 gamma 1 22 80 -0.512 -0.062 -5.508 5.532 0.000 163 pi- 1 -211 81 0.088 -0.188 -3.930 3.938 0.140 164 pi+ 1 211 81 -0.149 0.022 -3.252 3.258 0.140 165 (pi0) 11 111 81 0.277 -0.117 -2.177 2.202 0.135 166 pi+ 1 211 82 0.957 0.046 -36.150 36.163 0.140 167 pi- 1 -211 82 0.022 -0.266 -9.726 9.730 0.140 168 gamma 1 22 83 0.013 -0.031 -0.586 0.587 0.000 169 gamma 1 22 83 -0.040 0.121 -1.284 1.290 0.000 170 pi- 1 -211 84 0.066 -0.131 -1.439 1.453 0.140 171 pi+ 1 211 84 0.234 0.507 -15.583 15.593 0.140 172 K+ 1 321 85 -0.057 -0.272 -6.336 6.361 0.494 173 pi- 1 -211 85 -0.537 0.006 -5.209 5.238 0.140 174 K_L0 1 130 86 -0.409 -0.166 -37.820 37.826 0.498 175 pi- 1 -211 87 0.072 -0.132 -5.625 5.629 0.140 176 (pi0) 11 111 87 0.315 -0.065 -75.380 75.381 0.135 177 K+ 1 321 91 -0.779 -0.291 48.893 48.903 0.494 178 pi- 1 -211 91 -1.266 -0.511 91.298 91.308 0.140 179 K+ 1 321 93 1.606 5.520 -20.847 21.631 0.494 180 (pi0) 11 111 93 0.757 1.968 -8.966 9.211 0.135 181 pi+ 1 211 95 0.173 3.476 -12.443 12.922 0.140 182 (pi0) 11 111 95 0.341 0.553 -2.177 2.276 0.135 183 gamma 1 22 96 0.095 0.157 -2.486 2.493 0.000 184 gamma 1 22 96 -0.033 0.007 -0.261 0.263 0.000 185 gamma 1 22 97 0.045 -0.364 -0.428 0.563 0.000 186 gamma 1 22 97 -0.272 0.010 -0.805 0.849 0.000 187 pi+ 1 211 99 -0.341 0.338 -0.625 0.800 0.140 188 pi- 1 -211 99 -0.144 0.135 -0.177 0.299 0.140 189 (pi0) 11 111 99 -0.004 0.186 -0.322 0.395 0.135 190 K+ 1 321 100 -0.232 -0.190 -1.973 2.056 0.494 191 (pi0) 11 111 100 0.128 0.105 -0.189 0.285 0.135 192 K+ 1 321 102 -1.032 -0.454 -1.285 1.780 0.494 193 (pi0) 11 111 102 -0.437 -0.564 -1.229 1.428 0.135 194 (Kbar0) 11 -311 103 0.060 -1.512 -1.146 1.962 0.498 195 (pi0) 11 111 103 -0.285 -0.287 -0.525 0.677 0.135 196 pi- 1 -211 104 -0.002 -0.576 -0.359 0.693 0.140 197 pi+ 1 211 104 -0.006 -0.312 0.041 0.345 0.140 198 (pi0) 11 111 104 0.221 -0.086 -0.153 0.313 0.135 199 pi+ 1 211 106 -0.135 -0.202 0.300 0.410 0.140 200 pi- 1 -211 106 -0.165 -0.449 0.608 0.786 0.140 201 (eta) 11 221 106 -0.816 -2.165 3.824 4.503 0.547 202 pi+ 1 211 107 -1.656 -2.480 5.038 5.856 0.140 203 (pi0) 11 111 107 -0.624 -1.598 3.625 4.013 0.135 204 pi+ 1 211 109 -0.281 -1.305 1.213 1.809 0.140 205 (pi0) 11 111 109 -0.286 -2.015 3.827 4.336 0.135 206 gamma 1 22 110 -0.204 -0.048 0.390 0.442 0.000 207 gamma 1 22 110 -0.902 -0.432 1.467 1.775 0.000 208 pi+ 1 211 111 -0.613 -1.765 3.422 3.902 0.140 209 pi- 1 -211 111 -1.314 -1.840 4.878 5.378 0.140 210 pi+ 1 211 113 -0.129 -0.459 0.635 0.807 0.140 211 (pi0) 11 111 113 0.686 -1.817 1.545 2.486 0.135 212 pi- 1 -211 114 -0.391 -0.638 4.093 4.164 0.140 213 (pi0) 11 111 114 -0.419 -0.250 0.488 0.703 0.135 214 n0 1 2112 115 0.231 -0.592 2.458 2.707 0.940 215 (pi0) 11 111 115 -0.171 -0.011 0.945 0.970 0.135 216 pi+ 1 211 116 -0.468 -0.490 1.235 1.416 0.140 217 (pi0) 11 111 116 0.428 -0.099 2.072 2.122 0.135 218 pbar- 1 -2212 117 0.394 -0.204 2.269 2.495 0.938 219 pi+ 1 211 117 0.071 0.167 0.344 0.413 0.140 220 p+ 1 2212 118 -0.741 -1.017 20.074 20.135 0.938 221 pi- 1 -211 118 -0.312 -0.273 2.974 3.006 0.140 222 pbar- 1 -2212 120 -0.207 -1.695 17.659 17.766 0.938 223 pi+ 1 211 120 0.023 -0.183 0.742 0.777 0.140 224 pi- 1 -211 122 -0.046 -0.264 15.180 15.183 0.140 225 (pi0) 11 111 122 0.307 0.362 7.129 7.146 0.135 226 nbar0 1 -2112 123 0.923 0.385 105.550 105.559 0.940 227 pi+ 1 211 123 0.026 0.026 3.941 3.943 0.140 228 pi- 1 -211 127 -0.503 0.087 -0.036 0.530 0.140 229 (pi0) 11 111 127 0.159 0.065 0.320 0.388 0.135 230 gamma 1 22 129 0.371 0.237 0.539 0.696 0.000 231 gamma 1 22 129 0.063 0.125 0.200 0.245 0.000 232 pi+ 1 211 131 0.262 0.230 0.350 0.513 0.140 233 (pi0) 11 111 131 0.142 0.351 2.560 2.591 0.135 234 K_S0 1 310 147 0.813 0.493 0.369 1.135 0.498 235 K_S0 1 310 149 0.023 0.339 -0.470 0.764 0.498 236 gamma 1 22 154 -0.048 -0.030 -0.192 0.200 0.000 237 gamma 1 22 154 -0.013 0.077 -0.817 0.820 0.000 238 gamma 1 22 156 0.005 0.004 -0.011 0.013 0.000 239 gamma 1 22 156 0.389 0.217 -7.192 7.206 0.000 240 K_S0 1 310 157 0.425 0.162 -5.816 5.855 0.498 241 gamma 1 22 158 0.116 0.214 -4.379 4.386 0.000 242 gamma 1 22 158 0.062 0.296 -3.641 3.653 0.000 243 K_S0 1 310 159 -0.331 -0.225 -6.939 6.969 0.498 244 gamma 1 22 165 -0.013 -0.018 -0.188 0.189 0.000 245 gamma 1 22 165 0.290 -0.099 -1.989 2.013 0.000 246 gamma 1 22 176 -0.012 -0.006 -1.418 1.419 0.000 247 gamma 1 22 176 0.327 -0.060 -73.962 73.962 0.000 248 gamma 1 22 180 0.167 0.524 -2.126 2.197 0.000 249 gamma 1 22 180 0.590 1.444 -6.839 7.015 0.000 250 gamma 1 22 182 0.021 0.023 -0.250 0.252 0.000 251 gamma 1 22 182 0.320 0.530 -1.927 2.024 0.000 252 gamma 1 GenInputManager Begin processing 4th record. Run 222530, Trigger 3 22 189 0.023 0.197 -0.292 0.353 0.000 253 gamma 1 22 189 -0.028 -0.012 -0.030 0.042 0.000 254 gamma 1 22 191 -0.013 0.047 -0.092 0.105 0.000 255 gamma 1 22 191 0.141 0.058 -0.096 0.180 0.000 256 gamma 1 22 193 -0.395 -0.531 -1.054 1.245 0.000 257 gamma 1 22 193 -0.042 -0.033 -0.175 0.183 0.000 258 K_L0 1 130 194 0.060 -1.512 -1.146 1.962 0.498 259 gamma 1 22 195 -0.151 -0.155 -0.386 0.443 0.000 260 gamma 1 22 195 -0.134 -0.132 -0.139 0.234 0.000 261 gamma 1 22 198 0.052 0.037 -0.034 0.072 0.000 262 gamma 1 22 198 0.169 -0.123 -0.119 0.241 0.000 263 (pi0) 11 111 201 -0.338 -0.763 1.309 1.558 0.135 264 (pi0) 11 111 201 -0.233 -0.992 1.826 2.095 0.135 265 (pi0) 11 111 201 -0.245 -0.411 0.689 0.849 0.135 266 gamma 1 22 203 -0.546 -1.448 3.178 3.535 0.000 267 gamma 1 22 203 -0.078 -0.149 0.447 0.478 0.000 268 gamma 1 22 205 -0.143 -1.041 1.832 2.112 0.000 269 gamma 1 22 205 -0.143 -0.974 1.995 2.224 0.000 270 gamma 1 22 211 0.235 -0.625 0.615 0.908 0.000 271 gamma 1 22 211 0.451 -1.192 0.931 1.578 0.000 272 gamma 1 22 213 -0.029 -0.025 0.106 0.113 0.000 273 gamma 1 22 213 -0.390 -0.224 0.382 0.590 0.000 274 gamma 1 22 215 -0.113 -0.052 0.367 0.387 0.000 275 gamma 1 22 215 -0.058 0.041 0.578 0.583 0.000 276 gamma 1 22 217 0.090 -0.070 0.683 0.692 0.000 277 gamma 1 22 217 0.339 -0.029 1.389 1.430 0.000 278 gamma 1 22 225 0.087 0.204 3.376 3.384 0.000 279 gamma 1 22 225 0.221 0.158 3.752 3.762 0.000 280 gamma 1 22 229 0.104 -0.027 0.195 0.223 0.000 281 gamma 1 22 229 0.055 0.092 0.125 0.165 0.000 282 gamma 1 22 233 0.168 0.287 2.176 2.201 0.000 283 gamma 1 22 233 -0.025 0.064 0.384 0.390 0.000 284 gamma 1 22 263 -0.088 -0.112 0.295 0.327 0.000 285 gamma 1 22 263 -0.250 -0.651 1.014 1.231 0.000 286 gamma 1 22 264 -0.029 -0.410 0.725 0.833 0.000 287 gamma 1 22 264 -0.205 -0.581 1.101 1.262 0.000 288 gamma 1 22 265 -0.245 -0.417 0.691 0.843 0.000 289 gamma 1 22 265 -0.001 0.006 -0.002 0.006 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGenFinding B Mesons and about to enter DecayAll PYEVNT event no. 3 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.215 -0.644 95.720 95.722 0.000 4 !g! 21 21 2 1.200 0.093 -99.875 99.883 0.000 5 !g! 21 21 3 3.471 15.514 27.984 32.184 0.000 6 !g! 21 21 4 -1.130 4.568 -26.420 26.836 0.000 7 !g! 21 21 0 20.944 19.724 -16.435 33.133 0.000 8 !g! 21 21 0 -18.602 0.359 17.999 25.887 0.000 ============================================================================== 9 (s) A 12 3 7 2.359 -0.093 -0.305 2.433 0.500 10 (g) I 12 21 7 -0.157 0.033 -0.146 0.217 0.000 11 (g) I 12 21 4 1.563 -1.506 -2.717 3.478 0.000 12 (g) I 12 21 4 -0.762 0.071 -12.815 12.838 0.000 13 (g) I 12 21 4 -0.171 -0.974 -5.527 5.615 0.000 14 (g) I 12 21 4 0.441 -3.741 -16.125 16.560 0.000 15 (g) I 12 21 4 -0.052 -0.026 0.080 0.099 0.000 16 (g) I 12 21 4 0.927 0.567 -18.431 18.463 0.000 17 (g) I 12 21 4 0.652 1.046 -13.423 13.480 0.000 18 (dbar) V 11 -1 2 -0.586 0.142 -19.301 19.314 0.330 19 (sbar) A 12 -3 7 12.016 12.611 -9.422 19.811 0.500 20 (g) I 12 21 7 6.126 7.055 -6.007 11.108 0.000 21 (g) I 12 21 8 -7.215 0.413 5.927 9.346 0.000 22 (g) I 12 21 8 -10.343 -0.707 10.554 14.794 0.000 23 (g) I 12 21 8 -0.445 0.771 0.964 1.312 0.000 24 (g) I 12 21 0 -2.193 -0.530 108.760 108.784 0.000 25 (g) I 12 21 0 2.193 0.530 7.875 8.192 0.000 26 (g) I 12 21 0 0.086 0.505 1.943 2.010 0.000 27 (g) I 12 21 3 -2.272 -4.770 29.877 30.341 0.000 28 (g) I 12 21 3 0.920 -8.339 25.263 26.620 0.000 29 (g) I 12 21 3 -0.381 -1.276 2.312 2.668 0.000 30 (g) I 12 21 3 -2.222 -1.685 5.787 6.423 0.000 31 (d) V 11 1 1 0.095 0.513 58.099 58.102 0.330 32 (uu_1) A 12 2203 1 0.119 0.130 707.240 707.240 0.771 33 (g) I 12 21 0 -0.086 -0.505 -0.300 0.594 0.000 34 (uu_1bar) V 11 -2203 2 -0.614 -0.235 -860.160 860.161 0.771 ============================================================================== 35 (string) 11 92 9 4.216 -4.482 -88.712 92.495 25.450 36 (K-) 11 -323 35 1.878 -0.807 -0.461 2.265 0.858 37 pi+ 1 211 35 0.394 -0.056 -0.856 0.954 0.140 38 (pi0) 11 111 35 0.318 0.719 -1.000 1.279 0.135 39 (eta) 11 221 35 0.531 -0.531 -1.641 1.886 0.547 40 (eta') 11 331 35 0.463 -0.168 -1.284 1.676 0.958 41 (pi0) 11 111 35 0.084 -0.044 -0.587 0.610 0.135 42 (omega) 11 223 35 -0.307 -1.335 -6.472 6.658 0.754 43 n0 1 2112 35 0.048 -0.601 -9.735 9.799 0.940 44 pbar- 1 -2212 35 -0.135 -1.026 -5.503 5.677 0.938 45 (rho+) 11 213 35 -0.090 -0.879 -4.944 5.078 0.747 46 (eta') 11 331 35 0.583 -1.450 -8.505 8.700 0.958 47 (rho0) 11 113 35 -0.201 0.111 -5.397 5.453 0.745 48 (rho-) 11 -213 35 0.324 -0.200 -9.505 9.556 0.916 49 (pi0) 11 111 35 0.697 1.600 -20.542 20.617 0.135 50 pi+ 1 211 35 -0.371 0.184 -12.279 12.287 0.140 51 (string) 11 92 19 -3.635 5.092 241.932 299.510 176.454 52 K+ 1 321 51 10.219 11.346 -8.599 17.531 0.494 53 (rho-) 11 -213 51 2.067 1.709 -0.858 2.926 0.795 54 pi+ 1 211 51 5.537 5.477 -5.074 9.296 0.140 55 pi- 1 -211 51 -0.168 1.105 -0.899 1.442 0.140 56 (pi0) 11 111 51 -2.527 0.169 2.602 3.633 0.135 57 pi+ 1 211 51 -1.466 -0.143 2.169 2.626 0.140 58 (Deltabar--) 11 -2224 51 -4.712 0.415 3.742 6.148 1.195 59 pi+ 1 211 51 -4.257 -0.119 3.491 5.508 0.140 60 (Delta0) 11 2114 51 -1.930 0.673 2.691 3.589 1.211 61 (pi0) 11 111 51 -2.256 -1.018 4.181 4.860 0.135 62 (Kbar0) 11 -313 51 -0.151 0.440 3.175 3.330 0.887 63 K+ 1 321 51 -0.297 0.039 2.178 2.253 0.494 64 (omega) 11 223 51 -1.013 -0.620 46.272 46.294 0.779 65 (rho-) 11 -213 51 -0.867 0.300 21.198 21.224 0.509 66 pi+ 1 211 51 0.456 -0.301 26.477 26.483 0.140 67 (rho-) 11 -213 51 0.361 0.871 6.577 6.690 0.780 68 (pi0) 11 111 51 0.027 -0.197 0.888 0.920 0.135 69 (rho+) 11 213 51 0.779 0.032 4.958 5.106 0.939 70 pi- 1 -211 51 -0.039 -0.747 5.035 5.092 0.140 71 (omega) 11 223 51 -0.202 0.205 6.515 6.568 0.778 72 pi+ 1 211 51 -0.076 -0.344 1.802 1.841 0.140 73 pi- 1 -211 51 -0.386 0.204 2.179 2.227 0.140 74 (pi0) 11 111 51 -0.232 -4.939 17.781 18.456 0.135 75 pi+ 1 211 51 0.013 -0.234 2.820 2.833 0.140 76 (rho-) 11 -213 51 -0.318 -2.080 9.081 9.341 0.603 77 pi+ 1 211 51 -0.271 -1.156 3.850 4.031 0.140 78 (pi0) 11 111 51 -0.180 -0.867 2.030 2.219 0.135 79 (omega) 11 223 51 0.300 -2.174 8.932 9.230 0.774 80 (omega) 11 223 51 -0.952 -1.163 3.054 3.492 0.779 81 (rho-) 11 -213 51 -0.235 -1.811 3.846 4.339 0.837 82 (pi0) 11 111 51 -0.331 -0.120 1.919 1.955 0.135 83 (rho+) 11 213 51 -0.496 -0.491 11.398 11.440 0.696 84 (pi0) 11 111 51 0.075 0.750 18.182 18.198 0.135 85 (rho-) 11 -213 51 -0.443 0.081 14.398 14.428 0.801 86 (eta) 11 221 51 0.336 -0.203 13.943 13.959 0.547 87 (string) 11 92 32 -0.581 -0.609 -153.220 1567.995 1560.490 88 (rho+) 11 213 87 -0.230 0.015 352.800 352.802 0.898 89 p+ 1 2212 87 0.256 -0.667 201.383 201.386 0.938 90 (rho0) 11 113 87 -0.129 0.956 67.411 67.422 0.758 91 (K-) 11 -323 87 0.183 -0.173 21.097 21.115 0.841 92 (K0) 11 311 87 0.453 0.464 34.373 34.383 0.498 93 (rho+) 11 213 87 -0.521 -0.650 16.329 16.357 0.482 94 pi- 1 -211 87 0.096 -0.005 7.307 7.309 0.140 95 (rho+) 11 213 87 -0.108 0.480 5.045 5.132 0.807 96 (pi0) 11 111 87 0.006 -0.534 1.103 1.233 0.135 97 (rho-) 11 -213 87 0.061 -0.021 -0.222 0.692 0.652 98 pi+ 1 211 87 0.336 0.265 -0.912 1.017 0.140 99 (rho-) 11 -213 87 -0.338 -0.659 -4.013 4.130 0.632 100 (omega) 11 223 87 -0.281 -0.072 -18.692 18.710 0.786 101 (rho+) 11 213 87 0.281 0.606 -7.265 7.321 0.612 102 (K-) 11 -323 87 -0.173 -0.353 -95.414 95.419 0.935 103 (K0) 11 313 87 0.172 0.009 -63.558 63.565 0.899 104 pi+ 1 211 87 -0.150 -0.092 -73.698 73.698 0.140 105 (pi0) 11 111 87 -0.245 0.115 -11.812 11.816 0.135 106 pbar- 1 -2212 87 0.269 -0.442 -316.515 316.517 0.938 107 (rho-) 11 -213 87 -0.521 0.150 -267.966 267.969 0.974 108 (Kbar0) 11 -311 36 1.810 -0.814 -0.496 2.105 0.498 109 pi- 1 -211 36 0.068 0.007 0.034 0.159 0.140 110 gamma 1 22 38 0.146 0.489 -0.639 0.818 0.000 111 gamma 1 22 38 0.172 0.230 -0.361 0.461 0.000 112 gamma 1 22 39 0.115 -0.486 -0.742 0.894 0.000 113 gamma 1 22 39 0.416 -0.045 -0.899 0.991 0.000 114 (pi0) 11 111 40 0.275 -0.007 -0.326 0.447 0.135 115 (pi0) 11 111 40 0.031 -0.107 -0.112 0.208 0.135 116 (eta) 11 221 40 0.157 -0.055 -0.846 1.021 0.547 117 gamma 1 22 41 0.036 -0.087 -0.266 0.282 0.000 118 gamma 1 22 41 0.048 0.043 -0.321 0.328 0.000 119 pi+ 1 211 42 -0.202 -0.226 -1.918 1.947 0.140 120 pi- 1 -211 42 -0.040 -0.388 -1.009 1.091 0.140 121 (pi0) 11 111 42 -0.065 -0.721 -3.545 3.620 0.135 122 pi+ 1 211 45 -0.363 -0.692 -3.643 3.729 0.140 123 (pi0) 11 111 45 0.273 -0.186 -1.301 1.349 0.135 124 pi- 1 -211 46 0.074 -0.091 -0.526 0.557 0.140 125 pi+ 1 211 46 0.074 -0.482 -2.521 2.572 0.140 126 (eta) 11 221 46 0.434 -0.876 -5.457 5.571 0.547 127 pi+ 1 211 47 -0.349 0.304 -3.915 3.944 0.140 128 pi- 1 -211 47 0.148 -0.193 -1.483 1.509 0.140 129 pi- 1 -211 48 0.319 -0.518 -7.052 7.080 0.140 130 (pi0) 11 111 48 0.006 0.317 -2.453 2.477 0.135 131 gamma 1 22 49 0.580 1.379 -18.068 18.129 0.000 132 gamma 1 22 49 0.118 0.221 -2.475 2.488 0.000 133 pi- 1 -211 53 1.557 0.939 -0.798 1.990 0.140 134 (pi0) 11 111 53 0.511 0.770 -0.060 0.936 0.135 135 gamma 1 22 56 -0.466 -0.021 0.482 0.671 0.000 136 gamma 1 22 56 -2.061 0.190 2.120 2.962 0.000 137 pbar- 1 -2212 58 -3.435 0.154 2.626 4.427 0.938 138 pi- 1 -211 58 -1.276 0.261 1.116 1.721 0.140 139 n0 1 2112 60 -1.650 0.700 2.525 3.236 0.940 140 (pi0) 11 111 60 -0.280 -0.027 0.165 0.353 0.135 141 gamma 1 22 61 -2.043 -0.933 3.716 4.342 0.000 142 gamma 1 22 61 -0.212 -0.085 0.465 0.518 0.000 143 K- 1 -321 62 -0.156 0.594 2.357 2.486 0.494 144 pi+ 1 211 62 0.004 -0.154 0.818 0.844 0.140 145 pi+ 1 211 64 -0.357 -0.004 9.627 9.635 0.140 146 pi- 1 -211 64 -0.653 -0.561 31.940 31.952 0.140 147 (pi0) 11 111 64 -0.002 -0.055 4.705 4.707 0.135 148 pi- 1 -211 65 -0.247 0.245 10.764 10.770 0.140 149 (pi0) 11 111 65 -0.620 0.055 10.434 10.453 0.135 150 pi- 1 -211 67 -0.207 0.160 1.316 1.349 0.140 151 (pi0) 11 111 67 0.569 0.712 5.261 5.341 0.135 152 gamma 1 22 68 -0.051 -0.040 0.223 0.232 0.000 153 gamma 1 22 68 0.078 -0.157 0.666 0.688 0.000 154 pi+ 1 211 69 0.914 -0.130 3.316 3.445 0.140 155 (pi0) 11 111 69 -0.135 0.162 1.642 1.661 0.135 156 pi- 1 -211 71 0.120 0.198 4.106 4.115 0.140 157 pi+ 1 211 71 -0.266 0.058 1.540 1.570 0.140 158 (pi0) 11 111 71 -0.056 -0.051 0.868 0.882 0.135 159 gamma 1 22 74 -0.239 -4.031 14.463 15.016 0.000 160 gamma 1 22 74 0.008 -0.908 3.318 3.440 0.000 161 pi- 1 -211 76 -0.243 -1.368 4.817 5.016 0.140 162 (pi0) 11 111 76 -0.075 -0.712 4.264 4.325 0.135 163 gamma 1 22 78 -0.165 -0.739 1.604 1.774 0.000 164 gamma 1 22 78 -0.016 -0.127 0.426 0.445 0.000 165 pi+ 1 211 79 0.017 -0.804 2.757 2.875 0.140 166 pi- 1 -211 79 0.222 -0.967 5.095 5.193 0.140 167 (pi0) 11 111 79 0.061 -0.404 1.080 1.163 0.135 168 pi+ 1 211 80 -0.345 -0.585 0.987 1.206 0.140 169 pi- 1 -211 80 -0.081 0.026 0.359 0.394 0.140 170 (pi0) 11 111 80 -0.526 -0.604 1.708 1.891 0.135 171 pi- 1 -211 81 -0.322 -1.259 3.286 3.537 0.140 172 (pi0) 11 111 81 0.086 -0.552 0.559 0.802 0.135 173 gamma 1 22 82 -0.226 -0.042 0.922 0.950 0.000 174 gamma 1 22 82 -0.106 -0.078 0.997 1.006 0.000 175 pi+ 1 211 83 -0.132 -0.557 6.430 6.457 0.140 176 (pi0) 11 111 83 -0.365 0.066 4.968 4.984 0.135 177 gamma 1 22 84 0.052 0.459 12.638 12.646 0.000 178 gamma 1 22 84 0.023 0.291 5.544 5.552 0.000 179 pi- 1 -211 85 -0.354 0.142 13.771 13.777 0.140 180 (pi0) 11 111 85 -0.089 -0.061 0.627 0.651 0.135 181 gamma 1 22 86 0.110 -0.373 7.590 7.600 0.000 182 gamma 1 22 86 0.226 0.170 6.353 6.359 0.000 183 pi+ 1 211 88 -0.538 -0.100 195.892 195.893 0.140 184 (pi0) 11 111 88 0.309 0.115 156.909 156.909 0.135 185 pi- 1 -211 90 -0.134 0.458 52.197 52.199 0.140 186 pi+ 1 211 90 0.006 0.498 15.214 15.223 0.140 187 (Kbar0) 11 -311 91 0.337 -0.099 18.056 18.066 0.498 188 pi- 1 -211 91 -0.154 -0.074 3.041 3.049 0.140 189 K_L0 1 130 92 0.453 0.464 34.373 34.383 0.498 190 pi+ 1 211 93 -0.049 -0.200 7.115 7.120 0.140 191 (pi0) 11 111 93 -0.471 -0.449 9.213 9.237 0.135 192 pi+ 1 211 95 0.179 -0.127 1.411 1.435 0.140 193 (pi0) 11 111 95 -0.287 0.607 3.633 3.697 0.135 194 gamma 1 22 96 0.033 -0.191 0.276 0.337 0.000 195 gamma 1 22 96 -0.027 -0.344 0.828 0.897 0.000 196 pi- 1 -211 97 -0.113 0.151 0.109 0.259 0.140 197 (pi0) 11 111 97 0.173 -0.172 -0.332 0.433 0.135 198 pi- 1 -211 99 -0.256 -0.106 -2.336 2.356 0.140 199 (pi0) 11 111 99 -0.081 -0.553 -1.678 1.774 0.135 200 pi+ 1 211 100 -0.094 -0.091 -1.968 1.977 0.140 201 pi- 1 -211 100 -0.107 -0.215 -7.342 7.347 0.140 202 (pi0) 11 111 100 -0.079 0.235 -9.382 9.386 0.135 203 pi+ 1 211 101 0.230 0.616 -6.826 6.859 0.140 204 (pi0) 11 111 101 0.051 -0.010 -0.439 0.462 0.135 205 (Kbar0) 11 -311 102 -0.134 -0.561 -70.784 70.789 0.498 206 pi- 1 -211 102 -0.038 0.207 -24.629 24.631 0.140 207 K+ 1 321 103 0.130 0.117 -59.721 59.724 0.494 208 pi- 1 -211 103 0.042 -0.108 -3.837 3.841 0.140 209 gamma 1 22 105 -0.035 -0.016 -3.393 3.393 0.000 210 gamma 1 22 105 -0.210 0.132 -8.419 8.423 0.000 211 pi- 1 -211 107 -0.500 0.275 -257.526 257.526 0.140 212 (pi0) 11 111 107 -0.020 -0.125 -10.441 10.442 0.135 213 K_S0 1 310 108 1.810 -0.814 -0.496 2.105 0.498 214 gamma 1 22 114 0.280 0.018 -0.300 0.411 0.000 215 gamma 1 22 114 -0.006 -0.024 -0.026 0.036 0.000 216 gamma 1 22 115 0.062 0.001 -0.053 0.081 0.000 217 gamma 1 22 115 -0.031 -0.107 -0.059 0.126 0.000 218 gamma 1 22 116 0.100 -0.167 -0.870 0.892 0.000 219 gamma 1 22 116 0.058 0.113 0.025 0.129 0.000 220 gamma 1 22 121 0.004 -0.319 -1.848 1.875 0.000 221 gamma 1 22 121 -0.069 -0.402 -1.697 1.745 0.000 222 gamma 1 22 123 0.255 -0.171 -1.284 1.320 0.000 223 gamma 1 22 123 0.018 -0.015 -0.017 0.029 0.000 224 pi+ 1 211 126 0.037 -0.084 -0.603 0.626 0.140 225 pi- 1 -211 126 0.061 -0.214 -1.305 1.331 0.140 226 (pi0) 11 111 126 0.336 -0.578 -3.549 3.614 0.135 227 gamma 1 22 130 -0.049 0.066 -0.431 0.439 0.000 228 gamma 1 22 130 0.055 0.251 -2.021 2.038 0.000 229 gamma 1 22 134 0.429 0.702 -0.083 0.827 0.000 230 gamma 1 22 134 0.081 0.068 0.023 0.108 0.000 231 gamma 1 22 140 -0.122 0.008 0.001 0.122 0.000 232 gamma 1 22 140 -0.158 -0.035 0.165 0.231 0.000 233 gamma 1 22 147 -0.007 -0.063 4.682 4.682 0.000 234 gamma 1 22 147 0.004 0.008 0.023 0.025 0.000 235 gamma 1 22 149 -0.359 -0.005 6.874 6.884 0.000 236 gamma 1 22 149 -0.261 0.059 3.560 3.570 0.000 237 gamma 1 22 151 0.307 0.278 2.330 2.366 0.000 238 gamma 1 22 151 0.261 0.434 2.931 2.975 0.000 239 gamma 1 22 155 -0.066 0.125 1.389 1.396 0.000 240 gamma 1 22 155 -0.069 0.037 0.253 0.265 0.000 241 gamma 1 22 158 0.036 0.015 0.302 0.305 0.000 242 gamma 1 22 158 -0.092 -0.066 0.566 0.578 0.000 243 gamma 1 22 162 -0.011 -0.154 1.292 1.301 0.000 244 gamma 1 22 162 -0.064 -0.558 2.971 3.024 0.000 245 gamma 1 22 167 -0.020 -0.070 0.098 0.122 0.000 246 gamma 1 22 167 0.081 -0.334 0.982 1.040 0.000 247 gamma 1 22 170 -0.362 -0.503 1.308 1.447 0.000 248 gamma 1 22 170 -0.164 -0.101 0.400 0.444 0.000 249 gamma 1 22 172 0.057 -0.383 0.294 0.486 0.000 250 gamma 1 22 172 0.029 -0.169 0.265 0.316 0.000 251 gamma 1 22 176 -0.346 0.074 4.063 4.078 0.000 252 gamma 1 GenInputManager Begin processing 5th record. Run 222530, Trigger 4 22 176 -0.018 -0.008 0.905 0.905 0.000 253 gamma 1 22 180 0.023 -0.013 0.302 0.303 0.000 254 gamma 1 22 180 -0.112 -0.047 0.325 0.347 0.000 255 gamma 1 22 184 0.284 0.054 132.307 132.307 0.000 256 gamma 1 22 184 0.024 0.061 24.602 24.602 0.000 257 K_L0 1 130 187 0.337 -0.099 18.056 18.066 0.498 258 gamma 1 22 191 -0.249 -0.162 3.612 3.624 0.000 259 gamma 1 22 191 -0.222 -0.287 5.602 5.614 0.000 260 gamma 1 22 193 0.013 0.034 0.137 0.141 0.000 261 gamma 1 22 193 -0.300 0.573 3.497 3.556 0.000 262 gamma 1 22 197 0.136 -0.141 -0.154 0.249 0.000 263 gamma 1 22 197 0.038 -0.031 -0.178 0.185 0.000 264 gamma 1 22 199 -0.096 -0.531 -1.503 1.597 0.000 265 gamma 1 22 199 0.014 -0.022 -0.175 0.177 0.000 266 gamma 1 22 202 -0.078 0.139 -3.708 3.712 0.000 267 gamma 1 22 202 -0.001 0.095 -5.673 5.674 0.000 268 gamma 1 22 204 0.032 0.034 -0.042 0.062 0.000 269 gamma 1 22 204 0.020 -0.043 -0.397 0.400 0.000 270 K_S0 1 310 205 -0.134 -0.561 -70.784 70.789 0.498 271 gamma 1 22 212 -0.035 -0.007 -5.782 5.782 0.000 272 gamma 1 22 212 0.015 -0.119 -4.658 4.660 0.000 273 gamma 1 22 226 0.315 -0.547 -3.463 3.520 0.000 274 gamma 1 22 226 0.021 -0.031 -0.086 0.093 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 4 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -1.606 0.155 19.460 19.527 0.000 4 !dbar! 21 -1 2 0.072 -1.243 -113.151 113.158 0.000 5 !g! 21 21 3 -0.467 -2.514 10.022 10.343 0.000 6 !dbar! 21 -1 4 0.071 -1.215 -110.646 110.652 0.000 7 !g! 21 21 0 -17.069 -15.914 -5.935 24.080 0.000 8 !dbar! 21 -1 0 16.673 12.185 -94.689 96.915 0.330 ============================================================================== 9 (dbar) A 12 -1 8 16.354 11.952 -92.878 95.062 0.330 10 (g) I 12 21 0 0.513 0.973 -3.803 3.959 0.000 11 (d) V 11 1 7 -6.659 -4.304 -1.148 8.019 0.330 12 (dbar) A 12 -1 7 -9.927 -11.652 -4.821 16.052 0.330 13 (g) I 12 21 7 -0.168 0.064 -0.191 0.262 0.000 14 (g) I 12 21 7 0.003 0.212 -1.586 1.600 0.000 15 (g) I 12 21 3 -1.036 -0.602 -0.500 1.298 0.000 16 (g) I 12 21 3 -0.618 1.264 3.184 3.481 0.000 17 (g) I 12 21 3 1.000 0.204 4.866 4.971 0.000 18 (u) V 11 2 1 1.117 -0.098 18.868 18.905 0.330 19 (ud_0) A 12 2101 1 0.489 -0.057 920.084 920.085 0.579 20 (g) I 12 21 3 -0.483 1.775 -0.616 1.940 0.000 21 (g) I 12 21 0 -0.513 -0.973 -5.286 5.399 0.000 22 (g) I 12 21 0 -0.934 0.293 -23.549 23.570 0.000 23 (g) I 12 21 0 0.934 -0.293 -700.558 700.559 0.000 24 (uu_1bar) V 11 -2203 2 -0.072 1.243 -132.608 132.616 0.771 25 (g) A 12 21 0 1.778 0.731 20.175 20.267 0.000 26 (g) V 11 21 0 -1.778 -0.731 0.367 1.957 0.000 ============================================================================== 27 (string) 11 92 9 10.208 8.620 -97.829 107.039 41.332 28 (rho0) 11 113 27 12.560 9.285 -72.284 73.954 0.545 29 (Kbar0) 11 -311 27 2.088 1.815 -10.571 10.939 0.498 30 (K0) 11 313 27 0.884 0.811 -8.330 8.464 0.899 31 nbar0 1 -2112 27 0.572 0.475 -2.647 2.906 0.940 32 n0 1 2112 27 0.500 -0.243 -2.369 2.609 0.940 33 (eta) 11 221 27 -0.691 0.152 -0.328 0.953 0.547 34 pi+ 1 211 27 -2.030 -1.187 -0.553 2.420 0.140 35 (omega) 11 223 27 -1.385 -1.491 0.019 2.180 0.782 36 pi- 1 -211 27 -2.289 -0.997 -0.765 2.615 0.140 37 (string) 11 92 12 -9.628 -10.607 19.820 46.569 39.631 38 (eta) 11 221 37 -0.847 -1.530 -0.409 1.877 0.547 39 (eta) 11 221 37 -3.827 -3.361 -1.964 5.486 0.547 40 (rho+) 11 213 37 -1.720 -2.556 -1.139 3.353 0.673 41 (omega) 11 223 37 -1.315 -0.938 -0.877 1.996 0.780 42 (rho0) 11 113 37 -0.245 -0.950 -0.122 1.157 0.600 43 (rho-) 11 -213 37 -2.040 -2.036 -1.479 3.413 1.074 44 (eta) 11 221 37 -0.799 -0.402 -0.093 1.053 0.547 45 pi+ 1 211 37 0.139 0.396 -0.270 0.518 0.140 46 (rho-) 11 -213 37 -0.261 0.727 1.875 2.097 0.535 47 (rho0) 11 113 37 0.138 -0.645 0.655 1.234 0.812 48 (pi0) 11 111 37 0.006 0.329 0.183 0.400 0.135 49 pi+ 1 211 37 0.264 -0.443 1.240 1.350 0.140 50 (pi0) 11 111 37 0.240 0.101 0.196 0.353 0.135 51 pi- 1 -211 37 -0.320 0.208 0.776 0.876 0.140 52 (rho+) 11 213 37 -0.352 -0.175 8.456 8.489 0.634 53 (rho0) 11 113 37 1.310 0.667 12.792 12.918 1.042 54 (string) 11 92 19 -0.580 1.988 57.467 1784.168 1783.242 55 p+ 1 2212 54 -0.084 -0.072 229.693 229.695 0.938 56 pi- 1 -211 54 0.320 0.313 153.292 153.293 0.140 57 (rho+) 11 213 54 0.082 -0.462 402.013 402.015 0.839 58 (omega) 11 223 54 -0.443 0.290 64.830 64.838 0.801 59 (rho-) 11 -213 54 1.054 -0.120 50.723 50.740 0.775 60 (eta') 11 331 54 -0.669 0.184 6.497 6.604 0.958 61 (Deltabar+) 11 -1114 54 -0.153 0.205 5.324 5.473 1.242 62 Sigma- 1 3112 54 0.039 0.024 6.959 7.062 1.197 63 (K0) 11 311 54 0.178 -0.060 0.553 0.767 0.498 64 (rho0) 11 113 54 -0.768 0.859 -0.577 1.471 0.709 65 pi+ 1 211 54 0.403 -0.293 -1.257 1.359 0.140 66 (pi0) 11 111 54 0.201 0.356 -1.475 1.536 0.135 67 (rho0) 11 113 54 -0.986 0.068 -4.906 5.066 0.791 68 pbar- 1 -2212 54 -0.070 -0.654 -59.149 59.160 0.938 69 n0 1 2112 54 -0.420 0.308 -48.112 48.124 0.940 70 (rho0) 11 113 54 0.396 0.313 -66.715 66.722 0.804 71 pi+ 1 211 54 -0.032 -0.880 -99.029 99.033 0.140 72 (rho0) 11 113 54 -0.062 0.428 -109.308 109.311 0.694 73 (rho-) 11 -213 54 0.072 0.453 -170.925 170.928 0.980 74 (Deltabar0) 11 -2114 54 0.325 0.544 -291.056 291.060 1.286 75 pi- 1 -211 54 0.036 0.185 -9.911 9.913 0.140 76 (string) 11 92 25 0.000 0.000 20.542 22.223 8.479 77 (rho-) 11 -213 76 -0.283 0.173 1.259 1.390 0.486 78 (rho0) 11 113 76 0.802 0.518 5.275 5.428 0.854 79 (Delta0) 11 2114 76 -0.096 -0.659 3.888 4.138 1.252 80 nbar0 1 -2112 76 0.044 0.574 3.020 3.215 0.940 81 (omega) 11 223 76 0.073 -0.261 2.564 2.697 0.789 82 (rho+) 11 213 76 -0.530 -0.286 1.027 1.474 0.868 83 (rho0) 11 113 76 0.251 0.349 2.340 2.435 0.516 84 pi- 1 -211 76 -0.473 -0.259 0.810 0.983 0.140 85 pi+ 1 211 76 0.212 -0.149 0.359 0.464 0.140 86 pi- 1 -211 28 9.554 6.831 -54.482 55.734 0.140 87 pi+ 1 211 28 3.006 2.454 -17.802 18.220 0.140 88 K_L0 1 130 29 2.088 1.815 -10.571 10.939 0.498 89 (K0) 11 311 30 0.474 0.730 -4.592 4.700 0.498 90 (pi0) 11 111 30 0.410 0.081 -3.738 3.764 0.135 91 gamma 1 22 33 -0.619 0.107 -0.472 0.786 0.000 92 gamma 1 22 33 -0.072 0.045 0.144 0.167 0.000 93 pi- 1 -211 35 -0.858 -0.672 0.122 1.105 0.140 94 pi+ 1 211 35 -0.114 -0.233 -0.173 0.341 0.140 95 (pi0) 11 111 35 -0.413 -0.586 0.071 0.733 0.135 96 (pi0) 11 111 38 -0.350 -0.667 -0.355 0.844 0.135 97 (pi0) 11 111 38 -0.269 -0.424 -0.028 0.521 0.135 98 (pi0) 11 111 38 -0.228 -0.438 -0.027 0.513 0.135 99 gamma 1 22 39 -0.316 -0.381 -0.044 0.497 0.000 100 gamma 1 22 39 -3.511 -2.980 -1.919 4.989 0.000 101 pi+ 1 211 40 -0.212 -0.538 -0.425 0.731 0.140 102 (pi0) 11 111 40 -1.507 -2.018 -0.714 2.621 0.135 103 pi- 1 -211 41 -0.540 -0.529 -0.213 0.798 0.140 104 pi+ 1 211 41 -0.446 -0.434 -0.475 0.795 0.140 105 (pi0) 11 111 41 -0.330 0.025 -0.188 0.404 0.135 106 pi+ 1 211 42 -0.185 -0.187 -0.223 0.372 0.140 107 pi- 1 -211 42 -0.060 -0.763 0.101 0.785 0.140 108 pi- 1 -211 43 -1.636 -2.077 -1.276 2.939 0.140 109 (pi0) 11 111 43 -0.404 0.041 -0.203 0.473 0.135 110 pi- 1 -211 44 -0.085 -0.071 0.042 0.183 0.140 111 pi+ 1 211 44 -0.168 -0.059 -0.090 0.243 0.140 112 (pi0) 11 111 44 -0.547 -0.272 -0.045 0.627 0.135 113 pi- 1 -211 46 -0.105 0.660 1.119 1.311 0.140 114 (pi0) 11 111 46 -0.155 0.067 0.756 0.787 0.135 115 pi+ 1 211 47 0.367 -0.312 0.064 0.506 0.140 116 pi- 1 -211 47 -0.229 -0.332 0.590 0.729 0.140 117 gamma 1 22 48 0.049 0.293 0.134 0.326 0.000 118 gamma 1 22 48 -0.042 0.036 0.049 0.074 0.000 119 gamma 1 22 50 0.121 0.024 0.168 0.208 0.000 120 gamma 1 22 50 0.119 0.077 0.028 0.145 0.000 121 pi+ 1 211 52 0.109 -0.074 1.110 1.126 0.140 122 (pi0) 11 111 52 -0.461 -0.101 7.347 7.363 0.135 123 pi+ 1 211 53 0.479 -0.158 6.164 6.186 0.140 124 pi- 1 -211 53 0.831 0.825 6.627 6.732 0.140 125 pi+ 1 211 57 -0.343 -0.296 168.875 168.876 0.140 126 (pi0) 11 111 57 0.425 -0.166 233.138 233.139 0.135 127 pi+ 1 211 58 -0.122 0.248 10.928 10.932 0.140 128 pi- 1 -211 58 -0.258 0.174 31.038 31.040 0.140 129 (pi0) 11 111 58 -0.064 -0.132 22.865 22.866 0.135 130 pi- 1 -211 59 0.110 -0.194 4.916 4.923 0.140 131 (pi0) 11 111 59 0.945 0.074 45.807 45.817 0.135 132 gamma 1 22 60 -0.582 0.465 2.879 2.974 0.000 133 gamma 1 22 60 -0.087 -0.281 3.619 3.631 0.000 134 nbar0 1 -2112 61 0.075 0.287 3.968 4.088 0.940 135 pi+ 1 211 61 -0.229 -0.081 1.356 1.385 0.140 136 K_L0 1 130 63 0.178 -0.060 0.553 0.767 0.498 137 pi+ 1 211 64 -0.080 -0.075 -0.128 0.219 0.140 138 pi- 1 -211 64 -0.688 0.934 -0.448 1.252 0.140 139 gamma 1 22 66 0.197 0.225 -1.001 1.045 0.000 140 gamma 1 22 66 0.004 0.131 -0.473 0.491 0.000 141 pi- 1 -211 67 -0.380 -0.302 -1.442 1.528 0.140 142 pi+ 1 211 67 -0.606 0.370 -3.463 3.538 0.140 143 pi- 1 -211 70 0.283 -0.150 -13.750 13.755 0.140 144 pi+ 1 211 70 0.114 0.463 -52.965 52.967 0.140 145 pi- 1 -211 72 -0.348 0.260 -57.399 57.401 0.140 146 pi+ 1 211 72 0.286 0.168 -51.908 51.910 0.140 147 pi- 1 -211 73 -0.085 -0.101 -117.277 117.277 0.140 148 (pi0) 11 111 73 0.157 0.555 -53.648 53.651 0.135 149 nbar0 1 -2112 74 0.316 0.660 -212.883 212.886 0.940 150 (pi0) 11 111 74 0.009 -0.115 -78.174 78.174 0.135 151 pi- 1 -211 77 -0.180 -0.102 0.712 0.754 0.140 152 (pi0) 11 111 77 -0.103 0.275 0.547 0.636 0.135 153 pi+ 1 211 78 0.868 0.323 4.818 4.908 0.140 154 pi- 1 -211 78 -0.066 0.194 0.458 0.521 0.140 155 p+ 1 2212 79 0.024 -0.283 3.008 3.164 0.938 156 pi- 1 -211 79 -0.120 -0.377 0.879 0.974 0.140 157 pi- 1 -211 81 -0.100 -0.153 0.401 0.463 0.140 158 pi+ 1 211 81 0.251 0.093 1.276 1.312 0.140 159 (pi0) 11 111 81 -0.079 -0.201 0.887 0.923 0.135 160 pi+ 1 211 82 -0.682 -0.302 1.017 1.269 0.140 161 (pi0) 11 111 82 0.152 0.016 0.010 0.204 0.135 162 pi- 1 -211 83 -0.055 0.121 0.318 0.372 0.140 163 pi+ 1 211 83 0.307 0.228 2.022 2.063 0.140 164 K_L0 1 130 89 0.474 0.730 -4.592 4.700 0.498 165 gamma 1 22 90 -0.003 0.003 -0.004 0.006 0.000 166 gamma 1 22 90 0.414 0.078 -3.734 3.757 0.000 167 gamma 1 22 95 -0.335 -0.462 0.110 0.581 0.000 168 gamma 1 22 95 -0.078 -0.125 -0.039 0.152 0.000 169 gamma 1 22 96 -0.285 -0.575 -0.350 0.731 0.000 170 gamma 1 22 96 -0.065 -0.092 -0.005 0.113 0.000 171 gamma 1 22 97 0.010 -0.006 -0.014 0.018 0.000 172 gamma 1 22 97 -0.279 -0.418 -0.013 0.503 0.000 173 gamma 1 22 98 -0.105 -0.329 0.005 0.345 0.000 174 gamma 1 22 98 -0.123 -0.110 -0.032 0.168 0.000 175 gamma 1 22 102 -0.429 -0.500 -0.146 0.674 0.000 176 gamma 1 22 102 -1.079 -1.518 -0.568 1.947 0.000 177 gamma 1 22 105 -0.322 0.042 -0.200 0.382 0.000 178 gamma 1 22 105 -0.007 -0.017 0.012 0.022 0.000 179 gamma 1 22 109 -0.069 -0.044 -0.050 0.095 0.000 180 gamma 1 22 109 -0.335 0.085 -0.154 0.378 0.000 181 gamma 1 22 112 -0.336 -0.207 0.026 0.395 0.000 182 gamma 1 22 112 -0.211 -0.065 -0.070 0.231 0.000 183 gamma 1 22 114 -0.112 0.072 0.713 0.725 0.000 184 gamma 1 22 114 -0.043 -0.005 0.044 0.062 0.000 185 gamma 1 22 122 -0.394 -0.034 6.093 6.106 0.000 186 gamma 1 22 122 -0.067 -0.067 1.254 1.257 0.000 187 gamma 1 22 126 -0.008 -0.012 11.875 11.875 0.000 188 gamma 1 22 126 0.433 -0.154 221.263 221.263 0.000 189 gamma 1 22 129 -0.081 -0.118 12.023 12.024 0.000 190 gamma 1 22 129 0.017 -0.014 10.842 10.842 0.000 191 gamma 1 22 131 0.306 -0.038 14.301 14.304 0.000 192 gamma 1 22 131 0.638 0.112 31.507 31.513 0.000 193 gamma 1 22 148 0.164 0.506 -51.247 51.250 0.000 194 gamma 1 22 148 -0.007 0.049 -2.401 2.401 0.000 195 gamma 1 22 150 -0.016 -0.120 -74.934 74.935 0.000 196 gamma 1 22 150 0.025 0.005 -3.239 3.239 0.000 197 gamma 1 22 152 -0.116 0.122 0.315 0.357 0.000 198 gamma 1 22 152 0.013 0.153 0.233 0.279 0.000 199 gamma 1 22 159 -0.088 -0.151 0.819 0.838 0.000 200 gamma 1 22 159 0.010 -0.051 0.068 0.085 0.000 201 gammGenInputManager Begin processing 6th record. Run 222530, Trigger 5 a 1 22 161 0.092 -0.054 0.028 0.110 0.000 202 gamma 1 22 161 0.060 0.070 -0.018 0.094 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 5 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 0.383 0.334 20.327 20.333 0.000 4 !ubar! 21 -2 2 0.567 -0.256 -480.123 480.123 0.000 5 !g! 21 21 3 -0.952 -0.161 13.161 13.197 0.000 6 !g! 21 21 4 2.462 17.298 -31.203 35.762 0.000 7 !g! 21 21 0 -9.538 -6.374 -19.841 22.919 0.000 8 !g! 21 21 0 11.048 23.511 1.799 26.039 0.000 ============================================================================== 9 (u) A 12 2 4 -0.725 -16.398 -87.917 89.437 0.330 10 (g) I 12 21 4 -0.245 -0.147 -1.471 1.499 0.000 11 (g) I 12 21 4 -0.413 0.166 -0.289 0.531 0.000 12 (g) I 12 21 0 -2.530 5.260 5.630 8.110 0.000 13 (g) I 12 21 0 -0.263 0.790 0.653 1.058 0.000 14 (g) I 12 21 0 -0.417 0.753 0.693 1.105 0.000 15 (g) I 12 21 0 -1.230 0.907 1.107 1.887 0.000 16 (g) I 12 21 0 -1.680 1.592 4.029 4.646 0.000 17 (g) I 12 21 8 0.968 0.426 -0.248 1.087 0.000 18 (cbar) V 11 -4 8 9.511 19.633 1.184 21.899 1.500 19 (ubar) A 12 -2 4 -1.398 -3.279 -17.960 18.314 0.330 20 (g) I 12 21 4 -2.272 0.599 -1.022 2.562 0.000 21 (g) I 12 21 4 -2.124 1.164 -2.088 3.197 0.000 22 (g) I 12 21 4 1.167 -0.828 -82.342 82.354 0.000 23 (ud_1bar) V 11 -2103 2 -0.567 0.256 -327.508 327.509 0.771 24 (ubar) A 12 -2 4 2.987 0.684 -231.885 231.906 0.330 25 (g) I 12 21 4 0.762 0.087 -12.350 12.374 0.000 26 (g) I 12 21 4 -0.329 0.012 -6.065 6.074 0.000 27 (g) I 12 21 4 0.306 0.046 -0.191 0.364 0.000 28 (g) I 12 21 0 0.564 3.536 -1.119 3.751 0.000 29 (g) I 12 21 0 -0.293 1.242 -2.128 2.481 0.000 30 (g) I 12 21 0 1.041 0.881 -2.482 2.832 0.000 31 (g) I 12 21 0 0.722 0.634 -2.475 2.655 0.000 32 (g) I 12 21 0 1.740 1.570 -7.390 7.753 0.000 33 (g) I 12 21 0 -0.443 1.880 -9.655 9.847 0.000 34 (g) I 12 21 0 -1.740 -1.570 -32.369 32.454 0.000 35 (g) I 12 21 0 2.530 -5.260 -17.057 18.028 0.000 36 (g) I 12 21 0 0.443 -1.880 -7.076 7.335 0.000 37 (g) I 12 21 0 0.208 -1.052 -4.454 4.581 0.000 38 (g) I 12 21 0 -0.564 -3.536 -10.545 11.136 0.000 39 (g) I 12 21 0 1.680 -1.592 0.414 2.351 0.000 40 (g) I 12 21 0 0.111 -3.180 -0.343 3.201 0.000 41 (g) I 12 21 0 -1.469 0.523 0.027 1.559 0.000 42 (g) I 12 21 0 -0.401 0.024 -0.026 0.403 0.000 43 (g) I 12 21 0 -4.133 -1.068 0.375 4.285 0.000 44 (s) V 11 3 7 -0.062 -0.302 -0.029 0.588 0.500 45 (c) A 12 4 8 -0.324 2.046 0.070 2.559 1.500 46 (g) I 12 21 0 4.133 1.068 21.212 21.638 0.000 47 (g) I 12 21 0 0.401 -0.024 2.339 2.373 0.000 48 (g) I 12 21 0 1.469 -0.523 14.577 14.660 0.000 49 (g) I 12 21 0 0.808 0.121 10.197 10.230 0.000 50 (g) I 12 21 0 -0.111 3.180 35.409 35.552 0.000 51 (g) I 12 21 0 1.161 3.251 236.674 236.700 0.000 52 (g) I 12 21 0 -0.208 1.052 90.985 90.991 0.000 53 (g) I 12 21 0 -0.808 -0.121 79.689 79.693 0.000 54 (g) I 12 21 3 0.741 -0.172 0.982 1.242 0.000 55 (ud_1) V 11 2103 1 -0.301 -0.172 329.946 329.947 0.771 56 (sbar) A 12 -3 7 0.562 -0.556 -1.765 1.998 0.500 57 (g) I 12 21 7 -4.609 -1.310 -5.419 7.233 0.000 58 (g) I 12 21 7 -1.200 0.491 -1.249 1.800 0.000 59 (g) I 12 21 7 -1.024 0.168 -2.092 2.335 0.000 60 (g) I 12 21 7 -2.314 -3.460 -8.494 9.459 0.000 61 (g) I 12 21 0 0.299 -0.084 0.202 0.370 0.000 62 (g) I 12 21 0 1.230 -0.907 2.443 2.881 0.000 63 (g) I 12 21 0 0.293 -1.242 3.463 3.691 0.000 64 (g) I 12 21 0 0.263 -0.790 2.334 2.478 0.000 65 (g) I 12 21 0 0.417 -0.753 5.750 5.814 0.000 66 (g) I 12 21 0 -1.041 -0.881 8.860 8.965 0.000 67 (g) I 12 21 0 -1.161 -3.251 32.987 33.167 0.000 68 (g) I 12 21 0 -0.722 -0.634 12.308 12.345 0.000 69 (g) I 12 21 3 0.984 1.010 0.845 1.644 0.000 70 (u) V 11 2 1 -0.082 -0.162 41.851 41.852 0.330 71 (g) A 12 21 0 1.230 0.463 -1.379 1.905 0.000 72 (g) V 11 21 0 -1.230 -0.463 3.014 3.289 0.000 73 (g) A 12 21 0 -0.558 0.686 -44.991 45.000 0.000 74 (g) I 12 21 0 -0.299 0.084 -16.108 16.111 0.000 75 (g) V 11 21 0 0.558 -0.686 -0.265 0.923 0.000 ============================================================================== 76 (string) 11 92 9 2.976 12.982 -76.631 131.259 105.732 77 pi+ 1 211 76 0.348 -5.663 -29.819 30.354 0.140 78 (K0) 11 313 76 -0.937 -5.042 -30.612 31.054 0.970 79 (Kbar0) 11 -311 76 -0.199 -2.659 -10.361 10.711 0.498 80 (pi0) 11 111 76 -0.298 -1.149 -8.486 8.569 0.135 81 (K0) 11 313 76 0.078 -1.364 -7.959 8.122 0.872 82 (Kbar0) 11 -313 76 -0.098 -0.810 -1.542 1.947 0.866 83 (Sigma-) 11 3114 76 -0.484 2.690 1.505 3.407 1.370 84 (rho0) 11 113 76 -1.725 0.743 1.556 2.540 0.711 85 (Sigmabar0) 11 -3212 76 -1.628 3.082 2.529 4.468 1.193 86 pi+ 1 211 76 -0.512 1.356 2.347 2.762 0.140 87 (omega) 11 223 76 -0.743 0.964 1.081 1.808 0.787 88 (rho-) 11 -213 76 -0.298 0.091 0.504 0.713 0.397 89 pi+ 1 211 76 -0.343 0.050 1.149 1.208 0.140 90 (omega) 11 223 76 0.647 2.387 0.402 2.621 0.770 91 (pi0) 11 111 76 0.108 0.135 0.127 0.253 0.135 92 (Sigma0) 11 3212 76 5.019 10.106 0.548 11.360 1.193 93 (Xi_cbar-) 11 -4232 76 4.040 8.065 0.400 9.360 2.466 94 (string) 11 92 19 -5.194 -2.089 -430.919 433.937 50.780 95 (rho-) 11 -213 94 -1.379 -1.938 -12.760 13.008 0.851 96 (eta') 11 331 94 -0.812 -0.549 -1.236 1.845 0.958 97 (rho0) 11 113 94 0.085 0.014 -2.996 3.082 0.715 98 (rho+) 11 213 94 -1.900 0.077 -1.886 2.787 0.770 99 (K-) 11 -323 94 -0.939 0.535 -2.186 2.578 0.835 100 (K0) 11 313 94 -0.871 -0.033 -0.506 1.249 0.737 101 pi+ 1 211 94 -0.131 -0.163 -20.048 20.050 0.140 102 (rho-) 11 -213 94 0.840 0.122 -23.256 23.286 0.846 103 pi+ 1 211 94 0.104 0.084 -3.530 3.535 0.140 104 (Deltabar-) 11 -2214 94 -0.191 -0.239 -362.515 362.517 1.261 105 (string) 11 92 24 3.660 -8.322 -346.825 365.958 116.424 106 (omega) 11 223 105 0.841 0.214 -67.401 67.412 0.783 107 (rho0) 11 113 105 0.715 0.137 -61.584 61.595 0.909 108 (pi0) 11 111 105 0.091 0.101 -2.932 2.938 0.135 109 (rho-) 11 -213 105 0.940 0.261 -36.834 36.854 0.713 110 (eta) 11 221 105 0.153 -0.276 -45.917 45.922 0.547 111 (rho0) 11 113 105 0.410 0.667 -26.216 26.242 0.869 112 (rho+) 11 213 105 0.640 -0.094 -7.522 7.579 0.670 113 pbar- 1 -2212 105 -0.091 0.238 -2.161 2.370 0.938 114 n0 1 2112 105 0.018 1.257 -0.771 1.748 0.940 115 (eta') 11 331 105 0.376 2.009 -1.518 2.720 0.958 116 (eta') 11 331 105 0.315 0.693 -2.205 2.522 0.958 117 (eta) 11 221 105 1.034 0.931 -2.302 2.745 0.547 118 pi+ 1 211 105 0.194 0.075 -0.018 0.251 0.140 119 pi- 1 -211 105 0.784 1.863 -5.979 6.313 0.140 120 (pi0) 11 111 105 0.149 -0.170 -0.699 0.747 0.135 121 pi+ 1 211 105 -0.065 0.733 -3.316 3.400 0.140 122 (rho0) 11 113 105 0.468 0.272 -2.871 3.059 0.908 123 (rho-) 11 -213 105 -0.176 1.109 -8.693 8.796 0.738 124 (Kbar0) 11 -313 105 -0.324 -0.539 -9.027 9.087 0.832 125 (K0) 11 311 105 -0.292 0.370 -5.247 5.292 0.498 126 (pi0) 11 111 105 -0.006 -0.311 -2.181 2.207 0.135 127 (rho+) 11 213 105 -0.323 -0.631 -10.546 10.607 0.881 128 pi- 1 -211 105 0.027 -0.150 -1.858 1.869 0.140 129 (Kbar0) 11 -313 105 0.463 -3.735 -13.229 13.789 0.987 130 (phi) 11 333 105 0.697 -3.233 -12.005 12.494 1.024 131 (K+) 11 323 105 1.282 -1.950 -4.660 5.279 0.843 132 (rho-) 11 -213 105 -0.374 -1.660 -5.931 6.206 0.662 133 (omega) 11 223 105 0.413 -0.496 -0.565 1.161 0.782 134 (Kbar0) 11 -313 105 0.510 -1.375 -0.604 1.809 0.871 135 (eta) 11 221 105 -0.216 -0.730 -1.527 1.792 0.547 136 (phi) 11 333 105 0.470 -0.519 -0.592 1.372 1.020 137 K+ 1 321 105 -0.039 -0.196 -0.009 0.533 0.494 138 (pi0) 11 111 105 0.134 -0.073 -0.511 0.550 0.135 139 (rho-) 11 -213 105 0.056 -0.565 0.610 1.199 0.862 140 pi+ 1 211 105 -1.085 -0.715 -0.040 1.308 0.140 141 (pi0) 11 111 105 -0.236 -1.217 0.086 1.249 0.135 142 (rho-) 11 -213 105 -1.184 -0.197 0.011 1.525 0.940 143 (Kbar0) 11 -311 105 -1.957 0.140 -0.069 2.025 0.498 144 (eta) 11 221 105 -1.151 -0.557 0.009 1.391 0.547 145 (string) 11 92 45 6.961 9.706 822.081 825.584 75.029 146 (D+) 11 413 145 0.370 1.604 1.380 2.942 2.010 147 (K0) 11 311 145 -0.509 -0.211 0.265 0.788 0.498 148 (Kbar0) 11 -311 145 0.299 0.577 0.593 1.010 0.498 149 pi- 1 -211 145 1.322 0.524 5.892 6.063 0.140 150 (pi0) 11 111 145 0.590 -0.208 3.850 3.903 0.135 151 (K+) 11 323 145 2.268 0.732 19.851 20.018 0.988 152 (Kbar0) 11 -311 145 0.776 0.163 5.513 5.592 0.498 153 pi- 1 -211 145 0.381 -0.223 2.408 2.452 0.140 154 pi+ 1 211 145 -0.137 0.146 0.672 0.715 0.140 155 (K0) 11 311 145 1.080 1.131 28.197 28.245 0.498 156 (Kbar0) 11 -313 145 -0.354 0.824 11.332 11.397 0.823 157 (eta) 11 221 145 0.437 0.658 37.214 37.227 0.547 158 (pi0) 11 111 145 0.093 1.304 34.628 34.653 0.135 159 (rho-) 11 -213 145 0.308 0.659 71.201 71.209 0.725 160 pi+ 1 211 145 -0.128 -0.248 19.410 19.413 0.140 161 pi- 1 -211 145 0.062 0.545 46.413 46.417 0.140 162 (rho0) 11 113 145 0.081 1.061 38.579 38.601 0.734 163 (K+) 11 323 145 0.118 1.026 112.560 112.569 0.922 164 (K-) 11 -323 145 -0.291 0.225 21.646 21.666 0.877 165 (Delta+) 11 2214 145 0.503 0.239 11.287 11.374 1.291 166 (pi0) 11 111 145 -0.354 -0.759 33.013 33.024 0.135 167 (Deltabar-) 11 -2214 145 0.513 0.307 14.987 15.048 1.212 168 (eta) 11 221 145 -0.344 -0.430 9.908 9.938 0.547 169 (Delta++) 11 2224 145 0.227 0.419 35.804 35.827 1.174 170 (Deltabar--) 11 -2224 145 -0.053 -0.308 72.917 72.927 1.180 171 (Delta++) 11 2224 145 -0.022 -0.142 109.668 109.675 1.237 172 pi- 1 -211 145 -0.275 0.092 72.890 72.891 0.140 173 (string) 11 92 56 -8.105 -12.361 92.023 136.034 99.089 174 (K0) 11 313 173 -0.736 -0.527 -1.521 1.952 0.824 175 (rho0) 11 113 173 -0.699 -0.382 -1.807 2.124 0.782 176 pi+ 1 211 173 0.048 -0.035 0.006 0.152 0.140 177 (rho0) 11 113 173 -0.719 0.609 -1.082 1.621 0.755 178 (eta') 11 331 173 -4.200 -1.226 -6.141 7.601 0.958 179 (K-) 11 -323 173 -1.506 -2.117 -6.830 7.365 0.915 180 (K0) 11 311 173 -0.117 -0.379 -0.095 0.643 0.498 181 (rho+) 11 213 173 -0.107 -0.612 -0.775 1.267 0.786 182 (rho0) 11 113 173 0.176 -0.197 0.204 0.987 0.929 183 pi- 1 -211 173 -0.243 0.146 0.388 0.501 0.140 184 (Kbar0) 11 -313 173 0.750 -1.502 2.635 3.252 0.901 185 K+ 1 321 173 0.338 -0.506 2.400 2.524 0.494 186 (omega) 11 223 173 0.157 -0.821 2.993 3.204 0.783 187 (rho0) 11 113 173 0.018 -1.640 12.324 12.455 0.745 188 (rho-) 11 -213 173 -0.764 -1.381 20.102 20.190 1.017 189 pi+ 1 211 173 -0.269 -0.466 3.122 3.171 0.140 190 (pi0) 11 111 173 0.003 0.011 1.283 1.291 0.135 191 (pi0) 11 111 173 -0.048 -1.179 4.387 4.545 0.135 192 (rho-) 11 -213 173 -0.182 -0.068 6.342 6.373 0.602 193 (Kbar0) 11 -313 173 -0.328 -0.065 2.165 2.367 0.895 194 (K0) 11 313 173 0.377 -0.349 4.677 4.788 0.889 195 (pi0) 11 111 173 -0.232 -0.282 9.118 9.127 0.135 196 pi+ 1 211 173 -0.225 0.092 0.304 0.413 0.140 197 (rho-) 11 -213 173 0.200 0.623 2.156 2.363 0.710 198 (Kbar0) 11 -313 173 0.120 -0.362 6.221 6.297 0.899 199 (K+) 11 323 173 0.083 0.254 29.447 29.461 0.877 200 (string) 11 92 71 0.000 0.000 1.636 5.193 4.929 201 (rho+) 11 213 200 -0.456 -0.128 0.958 1.323 0.779 202 (rho-) 11 -213 200 -0.226 -0.038 1.273 1.453 0.664 203 (rho+) 11 213 200 0.189 0.079 -0.382 1.065 0.973 204 (omega) 11 223 200 0.042 -0.089 0.076 0.770 0.760 205 pi- 1 -211 200 0.451 0.175 -0.290 0.581 0.140 206 (string) 11 92 73 -0.299 0.084 -61.364 62.035 9.090 207 pi+ 1 211 206 0.100 -0.014 -1.070 1.084 0.140 208 pi- 1 -211 206 -0.129 -0.138 0.039 0.238 0.140 209 pi+ 1 211 206 0.334 -0.327 -0.455 0.667 0.140 210 pi- 1 -211 206 0.031 0.167 -0.332 0.399 0.140 211 pi+ 1 211 206 -0.062 -0.149 -7.489 7.492 0.140 212 pi- 1 -211 206 -0.446 0.717 -22.617 22.633 0.140 213 (pi0) 11 111 206 -0.386 -0.751 -11.152 11.185 0.135 214 (rho+) 11 213 206 0.186 0.510 -17.694 17.720 0.781 215 pi- 1 -211 206 0.073 0.070 -0.594 0.618 0.140 216 (K0) 11 311 78 -0.438 -2.250 -15.631 15.806 0.498 217 (pi0) 11 111 78 -0.499 -2.792 -14.981 15.248 0.135 218 K_S0 1 310 79 -0.199 -2.659 -10.361 10.711 0.498 219 gamma 1 22 80 -0.064 -0.344 -2.920 2.941 0.000 220 gamma 1 22 80 -0.234 -0.805 -5.565 5.628 0.000 221 (K0) 11 311 81 0.111 -1.374 -7.525 7.666 0.498 222 (pi0) 11 111 81 -0.033 0.011 -0.434 0.456 0.135 223 K- 1 -321 82 0.009 -0.759 -0.889 1.269 0.494 224 pi+ 1 211 82 -0.107 -0.050 -0.653 0.678 0.140 225 Lambda0 1 3122 83 -0.547 2.381 1.469 3.061 1.116 226 pi- 1 -211 83 0.063 0.308 0.036 0.346 0.140 227 pi+ 1 211 84 -1.345 0.369 1.367 1.958 0.140 228 pi- 1 -211 84 -0.380 0.374 0.189 0.582 0.140 229 Lambdabar0 1 -3122 85 -1.492 2.833 2.415 4.162 1.116 230 gamma 1 22 85 -0.136 0.249 0.114 0.306 0.000 231 pi+ 1 211 87 -0.533 0.310 0.421 0.760 0.140 232 pi- 1 -211 87 0.066 0.120 0.198 0.278 0.140 233 (pi0) 11 111 87 -0.275 0.534 0.462 0.770 0.135 234 pi- 1 -211 88 0.002 0.106 0.181 0.252 0.140 235 (pi0) 11 111 88 -0.300 -0.015 0.323 0.461 0.135 236 pi+ 1 211 90 0.152 0.289 -0.103 0.370 0.140 237 pi- 1 -211 90 0.095 1.055 0.230 1.093 0.140 238 (pi0) 11 111 90 0.401 1.043 0.276 1.158 0.135 239 gamma 1 22 91 0.014 0.066 -0.016 0.069 0.000 240 gamma 1 22 91 0.094 0.069 0.143 0.185 0.000 241 Lambda0 1 3122 92 4.563 9.058 0.485 10.215 1.116 242 gamma 1 22 92 0.456 1.048 0.063 1.145 0.000 243 (rho-) 11 -213 93 1.144 2.642 0.076 2.969 0.722 244 Sigmabar- 1 -3222 93 1.976 3.994 0.275 4.620 1.189 245 K+ 1 321 93 0.920 1.430 0.049 1.771 0.494 246 pi- 1 -211 95 0.009 -0.455 -1.922 1.981 0.140 247 (pi0) 11 111 95 -1.388 -1.483 -10.838 11.027 0.135 248 (pi0) 11 111 96 -0.252 -0.214 -0.368 0.513 0.135 249 (pi0) 11 111 96 -0.320 -0.089 -0.238 0.430 0.135 250 (eta) 11 221 96 -0.240 -0.246 -0.629 0.902 0.547 251 pi+ 1 211 97 -0.230 -0.038 -0.581 0.642 0.140 252 pi- 1 -211 97 0.315 0.051 -2.415 2.440 0.140 253 pi+ 1 211 98 -0.128 -0.171 -0.279 0.378 0.140 254 (pi0) 11 111 98 -1.772 0.248 -1.608 2.409 0.135 255 K- 1 -321 99 -0.665 0.213 -1.025 1.335 0.494 256 (pi0) 11 111 99 -0.274 0.322 -1.161 1.243 0.135 257 (K0) 11 311 100 -0.861 -0.008 -0.495 1.111 0.498 258 (pi0) 11 111 100 -0.010 -0.024 -0.011 0.138 0.135 259 pi- 1 -211 102 0.211 -0.323 -9.036 9.045 0.140 260 (pi0) 11 111 102 0.629 0.446 -14.219 14.241 0.135 261 nbar0 1 -2112 104 -0.251 -0.108 -219.481 219.483 0.940 262 pi- 1 -211 104 0.060 -0.131 -143.034 143.034 0.140 263 pi- 1 -211 106 0.332 0.434 -25.479 25.485 0.140 264 pi+ 1 211 106 0.509 -0.220 -41.923 41.927 0.140 265 pi+ 1 211 107 -0.071 0.300 -14.226 14.230 0.140 266 pi- 1 -211 107 0.786 -0.163 -47.358 47.365 0.140 267 gamma 1 22 108 0.008 0.095 -1.023 1.027 0.000 268 gamma 1 22 108 0.083 0.006 -1.909 1.911 0.000 269 pi- 1 -211 109 0.458 -0.072 -8.744 8.758 0.140 270 (pi0) 11 111 109 0.483 0.333 -28.090 28.097 0.135 271 (pi0) 11 111 110 0.144 -0.272 -30.965 30.967 0.135 272 (pi0) 11 111 110 -0.009 0.018 -7.476 7.477 0.135 273 (pi0) 11 111 110 0.018 -0.022 -7.476 7.478 0.135 274 pi- 1 -211 111 0.060 0.468 -21.811 21.817 0.140 275 pi+ 1 211 111 0.350 0.199 -4.405 4.426 0.140 276 pi+ 1 211 112 0.431 -0.230 -6.472 6.492 0.140 277 (pi0) 11 111 112 0.209 0.136 -1.050 1.088 0.135 278 pi+ 1 211 115 0.215 0.404 -0.426 0.640 0.140 279 pi- 1 -211 115 0.075 0.176 -0.154 0.282 0.140 280 (eta) 11 221 115 0.086 1.429 -0.938 1.797 0.547 281 gamma 1 22 116 0.172 -0.064 -0.221 0.287 0.000 282 (rho0) 11 113 116 0.144 0.757 -1.984 2.234 0.681 283 gamma 1 22 117 0.653 0.400 -1.664 1.832 0.000 284 gamma 1 22 117 0.381 0.531 -0.638 0.913 0.000 285 gamma 1 22 120 0.083 -0.034 -0.127 0.155 0.000 286 gamma 1 22 120 0.067 -0.137 -0.573 0.592 0.000 287 pi- 1 -211 122 -0.172 -0.159 -0.744 0.793 0.140 288 pi+ 1 211 122 0.640 0.431 -2.126 2.266 0.140 289 pi- 1 -211 123 0.000 0.161 -3.871 3.877 0.140 290 (pi0) 11 111 123 -0.176 0.948 -4.822 4.919 0.135 291 K- 1 -321 124 -0.090 -0.238 -6.851 6.873 0.494 292 pi+ 1 211 124 -0.234 -0.301 -2.176 2.213 0.140 293 K_S0 1 310 125 -0.292 0.370 -5.247 5.292 0.498 294 gamma 1 22 126 0.026 -0.006 -0.318 0.319 0.000 295 gamma 1 22 126 -0.032 -0.305 -1.863 1.888 0.000 296 pi+ 1 211 127 0.196 -0.477 -6.559 6.581 0.140 297 (pi0) 11 111 127 -0.518 -0.154 -3.987 4.026 0.135 298 K- 1 -321 129 0.116 -3.117 -10.351 10.822 0.494 299 pi+ 1 211 129 0.347 -0.618 -2.878 2.967 0.140 300 K_L0 1 130 130 0.490 -1.734 -6.506 6.770 0.498 301 K_S0 1 310 130 0.207 -1.500 -5.498 5.724 0.498 302 (K0) 11 311 131 1.125 -1.546 -4.145 4.592 0.498 303 pi+ 1 211 131 0.157 -0.404 -0.515 0.688 0.140 304 pi- 1 -211 132 -0.361 -0.428 -2.192 2.266 0.140 305 (pi0) 11 111 132 -0.014 -1.233 -3.739 3.939 0.135 306 pi- 1 -211 133 0.265 -0.235 -0.404 0.555 0.140 307 pi+ 1 211 133 0.062 -0.127 -0.296 0.357 0.140 308 (pi0) 11 111 133 0.086 -0.135 0.135 0.249 0.135 309 K- 1 -321 134 0.125 -0.446 -0.132 0.690 0.494 310 pi+ 1 211 134 0.384 -0.929 -0.472 1.120 0.140 311 (pi0) 11 111 135 -0.134 -0.536 -0.868 1.038 0.135 312 (pi0) 11 111 135 -0.055 -0.175 -0.404 0.464 0.135 313 (pi0) 11 111 135 -0.027 -0.019 -0.255 0.291 0.135 314 K_L0 1 130 136 0.337 -0.217 -0.271 0.694 0.498 315 K_S0 1 310 136 0.134 -0.302 -0.321 0.678 0.498 316 gamma 1 22 138 0.027 -0.002 -0.312 0.313 0.000 317 gamma 1 22 138 0.107 -0.071 -0.199 0.237 0.000 318 pi- 1 -211 139 -0.056 -0.298 -0.156 0.369 0.140 319 (pi0) 11 111 139 0.112 -0.267 0.766 0.830 0.135 320 gamma 1 22 141 -0.234 -0.904 0.074 0.937 0.000 321 gamma 1 22 141 -0.002 -0.312 0.011 0.313 0.000 322 pi- 1 -211 142 -0.294 0.268 -0.235 0.483 0.140 323 (pi0) 11 111 142 -0.890 -0.464 0.246 1.042 0.135 324 K_S0 1 310 143 -1.957 0.140 -0.069 2.025 0.498 325 pi- 1 -211 144 -0.282 -0.132 -0.047 0.345 0.140 326 pi+ 1 211 144 -0.264 -0.023 -0.038 0.302 0.140 327 (pi0) 11 111 144 -0.604 -0.402 0.094 0.744 0.135 328 (D0) 11 421 146 0.358 1.469 1.238 2.701 1.865 329 pi+ 1 211 146 0.012 0.135 0.142 0.241 0.140 330 K_L0 1 130 147 -0.509 -0.211 0.265 0.788 0.498 331 K_L0 1 130 148 0.299 0.577 0.593 1.010 0.498 332 gamma 1 22 150 0.047 -0.007 0.580 0.582 0.000 333 gamma 1 22 150 0.543 -0.201 3.270 3.321 0.000 334 (K0) 11 311 151 1.025 0.682 10.327 10.412 0.498 335 pi+ 1 211 151 1.243 0.050 9.524 9.606 0.140 336 K_S0 1 310 152 0.776 0.163 5.513 5.592 0.498 337 K_S0 1 310 155 1.080 1.131 28.197 28.245 0.498 338 (Kbar0) 11 -311 156 -0.014 0.412 5.069 5.110 0.498 339 (pi0) 11 111 156 -0.340 0.412 6.263 6.287 0.135 340 gamma 1 22 157 0.568 0.559 30.756 30.766 0.000 341 gamma 1 22 157 -0.131 0.099 6.459 6.461 0.000 342 gamma 1 22 158 0.035 1.123 29.965 29.986 0.000 343 gamma 1 22 158 0.058 0.181 4.664 4.668 0.000 344 pi- 1 -211 159 0.503 0.549 56.623 56.629 0.140 345 (pi0) 11 111 159 -0.195 0.110 14.578 14.580 0.135 346 pi+ 1 211 162 0.026 0.714 33.375 33.383 0.140 347 pi- 1 -211 162 0.055 0.347 5.204 5.217 0.140 348 K+ 1 321 163 0.336 0.940 89.142 89.149 0.494 349 (pi0) 11 111 163 -0.218 0.087 23.418 23.420 0.135 350 (Kbar0) 11 -311 164 -0.338 -0.086 13.886 13.899 0.498 351 pi- 1 -211 164 0.047 0.311 7.760 7.767 0.140 352 p+ 1 2212 165 0.212 0.406 8.369 8.434 0.938 353 (pi0) 11 111 165 0.291 -0.168 2.918 2.940 0.135 354 gamma 1 22 166 -0.061 -0.255 11.559 11.562 0.000 355 gamma 1 22 166 -0.294 -0.504 21.454 21.462 0.000 356 pbar- 1 -2212 167 0.583 0.391 12.498 12.552 0.938 357 (pi0) 11 111 167 -0.070 -0.084 2.489 2.495 0.135 358 pi+ 1 211 168 -0.172 -0.045 2.415 2.425 0.140 359 pi- 1 -211 168 -0.103 -0.066 3.191 3.196 0.140 360 (pi0) 11 111 168 -0.070 -0.319 4.303 4.317 0.135 361 p+ 1 2212 169 0.184 0.177 25.527 25.545 0.938 362 pi+ 1 211 169 0.043 0.242 10.277 10.281 0.140 363 pbar- 1 -2212 170 0.028 -0.284 49.874 49.883 0.938 364 pi- 1 -211 170 -0.081 -0.024 23.043 23.044 0.140 365 p+ 1 2212 171 -0.111 -0.224 102.835 102.839 0.938 366 pi+ 1 211 171 0.089 0.082 6.834 6.836 0.140 367 (K0) 11 311 174 -0.668 -0.250 -0.877 1.235 0.498 368 (pi0) 11 111 174 -0.068 -0.278 -0.644 0.717 0.135 369 pi+ 1 211 175 0.026 -0.295 -0.859 0.919 0.140 370 pi- 1 -211 175 -0.725 -0.088 -0.948 1.205 0.140 371 pi+ 1 211 177 -0.750 0.699 -0.974 1.421 0.140 372 pi- 1 -211 177 0.031 -0.090 -0.107 0.200 0.140 373 (pi0) 11 111 178 -1.553 -0.415 -2.237 2.758 0.135 374 (pi0) 11 111 178 -0.703 -0.124 -0.861 1.126 0.135 375 (eta) 11 221 178 -1.945 -0.687 -3.044 3.717 0.547 376 K- 1 -321 179 -0.719 -0.910 -2.515 2.813 0.494 377 (pi0) 11 111 179 -0.786 -1.207 -4.315 4.551 0.135 378 K_L0 1 130 180 -0.117 -0.379 -0.095 0.643 0.498 379 pi+ 1 211 181 0.269 -0.047 -0.187 0.359 0.140 380 (pi0) 11 111 181 -0.376 -0.565 -0.588 0.908 0.135 381 pi+ 1 211 182 -0.104 0.288 -0.077 0.345 0.140 382 pi- 1 -211 182 0.280 -0.485 0.281 0.642 0.140 383 (Kbar0) 11 -311 184 0.188 -0.602 1.433 1.643 0.498 384 (pi0) 11 111 184 0.562 -0.901 1.202 1.609 0.135 385 pi- 1 -211 186 -0.037 0.078 0.462 0.491 0.140 386 pi+ 1 211 186 0.155 -0.572 1.348 1.479 0.140 387 (pi0) 11 111 186 0.038 -0.327 1.182 1.235 0.135 388 pi+ 1 211 187 -0.129 -0.893 4.434 4.527 0.140 389 pi- 1 -211 187 0.148 -0.746 7.890 7.928 0.140 390 pi- 1 -211 188 -0.251 -0.769 5.098 5.164 0.140 391 (pi0) 11 111 188 -0.513 -0.612 15.004 15.026 0.135 392 gamma 1 22 190 -0.033 0.019 1.179 1.180 0.000 393 gamma 1 22 190 0.037 -0.008 0.104 0.111 0.000 394 gamma 1 22 191 -0.056 -0.368 1.570 1.614 0.000 395 gamma 1 22 191 0.008 -0.810 2.817 2.931 0.000 396 pi- 1 -211 192 0.153 0.060 1.376 1.393 0.140 397 (pi0) 11 111 192 -0.334 -0.128 4.966 4.981 0.135 398 K- 1 -321 193 -0.340 -0.286 1.790 1.909 0.494 399 pi+ 1 211 193 0.012 0.221 0.375 0.457 0.140 400 K+ 1 321 194 0.233 -0.357 1.995 2.099 0.494 401 pi- 1 -211 194 0.144 0.008 2.682 2.689 0.140 402 gamma 1 22 195 -0.075 -0.125 5.187 5.189 0.000 403 gamma 1 22 195 -0.156 -0.158 3.932 3.938 0.000 404 pi- 1 -211 197 0.432 0.399 1.180 1.326 0.140 405 (pi0) 11 111 197 -0.232 0.224 0.976 1.037 0.135 406 K- 1 -321 198 -0.198 -0.121 3.101 3.148 0.494 407 pi+ 1 211 198 0.319 -0.240 3.120 3.148 0.140 408 (K0) 11 311 199 0.161 0.201 27.796 27.802 0.498 409 pi+ 1 211 199 -0.078 0.054 1.651 1.659 0.140 410 pi+ 1 211 201 -0.621 0.041 0.621 0.890 0.140 411 (pi0) 11 111 201 0.165 -0.168 0.337 0.433 0.135 412 pi- 1 -211 202 -0.019 -0.107 0.024 0.179 0.140 413 (pi0) 11 111 202 -0.207 0.069 1.249 1.275 0.135 414 pi+ 1 211 203 -0.138 -0.351 -0.025 0.403 0.140 415 (pi0) 11 111 203 0.327 0.431 -0.357 0.662 0.135 416 pi- 1 -211 204 -0.170 -0.240 0.079 0.335 0.140 417 pi+ 1 211 204 0.164 0.109 0.093 0.258 0.140 418 (pi0) 11 111 204 0.048 0.041 -0.095 0.177 0.135 419 gamma 1 22 213 -0.022 -0.018 -0.768 0.769 0.000 420 gamma 1 22 213 -0.365 -0.734 -10.384 10.416 0.000 421 pi+ 1 211 214 -0.074 0.609 -10.458 10.477 0.140 422 (pi0) 11 111 214 0.260 -0.100 -7.236 7.243 0.135 423 K_L0 1 130 216 -0.438 -2.250 -15.631 15.806 0.498 424 gamma 1 22 217 -0.239 -0.996 -5.275 5.374 0.000 425 gamma 1 22 217 -0.260 -1.796 -9.706 9.875 0.000 426 K_S0 1 310 221 0.111 -1.374 -7.525 7.666 0.498 427 gamma 1 22 222 0.045 -0.017 -0.241 0.246 0.000 428 gamma 1 22 222 -0.078 0.027 -0.193 0.210 0.000 429 gamma 1 22 233 -0.135 0.356 0.350 0.517 0.000 430 gamma 1 22 233 -0.140 0.178 0.112 0.253 0.000 431 gamma 1 22 235 -0.313 -0.023 0.310 0.441 0.000 432 gamma 1 22 235 0.013 0.008 0.013 0.020 0.000 433 gamma 1 22 238 0.209 0.499 0.066 0.545 0.000 434 gamma 1 22 238 0.192 0.543 0.210 0.613 0.000 435 pi- 1 -211 243 0.932 2.126 0.317 2.347 0.140 436 (pi0) 11 111 243 0.213 0.516 -0.240 0.622 0.135 437 gamma 1 22 247 -0.531 -0.611 -4.641 4.712 0.000 438 gamma 1 22 247 -0.857 -0.872 -6.196 6.316 0.000 439 gamma 1 22 248 -0.232 -0.140 -0.330 0.427 0.000 440 gamma 1 22 248 -0.020 -0.074 -0.038 0.086 0.000 441 gamma 1 22 249 -0.070 -0.013 0.008 0.071 0.000 442 gamma 1 22 249 -0.250 -0.076 -0.246 0.359 0.000 443 gamma 1 22 250 0.056 0.125 -0.034 0.141 0.000 444 gamma 1 22 250 -0.297 -0.370 -0.595 0.761 0.000 445 gamma 1 22 254 -1.168 0.228 -1.066 1.597 0.000 446 gamma 1 22 254 -0.604 0.020 -0.542 0.812 0.000 447 gamma 1 22 256 -0.019 0.029 -0.253 0.255 0.000 448 gamma 1 22 256 -0.255 0.293 -0.908 0.988 0.000 449 K_L0 1 130 257 -0.861 -0.008 -0.495 1.111 0.498 450 gamma 1 22 258 0.046 -0.057 -0.011 0.074 0.000 451 gamma 1 22 258 -0.056 0.032 0.000 0.064 0.000 452 gamma 1 22 260 0.346 0.253 -6.662 6.676 0.000 453 gamma 1 22 260 0.283 0.193 -7.558 7.565 0.000 454 gamma 1 22 270 0.462 0.306 -27.397 27.403 0.000 455 gamma 1 22 270 0.021 0.027 -0.693 0.694 0.000 456 gamma 1 22 271 0.132 -0.250 -22.326 22.327 0.000 457 gamma 1 22 271 0.012 -0.022 -8.639 8.639 0.000 458 gamma 1 22 272 -0.025 0.015 -7.361 7.361 0.000 459 gamma 1 22 272 0.016 0.003 -0.115 0.116 0.000 460 gamma 1 22 273 0.062 -0.020 -6.456 6.456 0.000 461 gamma 1 22 273 -0.044 -0.002 -1.020 1.021 0.000 462 gamma 1 22 277 0.208 0.132 -0.788 0.825 0.000 463 gamma 1 22 277 0.001 0.004 -0.262 0.262 0.000 464 (pi0) 11 111 280 0.085 0.693 -0.532 0.888 0.135 465 (pi0) 11 111 280 -0.005 0.363 -0.321 0.503 0.135 466 (pi0) 11 111 280 0.006 0.374 -0.085 0.407 0.135 467 pi+ 1 211 282 0.110 -0.037 -0.166 0.246 0.140 468 pi- 1 -211 282 0.034 0.794 -1.818 1.989 0.140 469 gamma 1 22 290 -0.146 0.798 -3.771 3.857 0.000 470 gamma 1 22 290 -0.030 0.151 -1.051 1.062 0.000 471 gamma 1 22 297 -0.425 -0.171 -3.091 3.124 0.000 472 gamma 1 22 297 -0.093 0.017 -0.897 0.902 0.000 473 K_L0 1 130 302 1.125 -1.546 -4.145 4.592 0.498 474 gamma 1 22 305 0.004 -0.044 -0.234 0.238 0.000 475 gamma 1 22 305 -0.018 -1.189 -3.506 3.702 0.000 476 gamma 1 22 308 0.051 -0.024 0.119 0.131 0.000 477 gamma 1 22 308 0.035 -0.112 0.017 0.118 0.000 478 gamma 1 22 311 -0.044 -0.233 -0.495 0.549 0.000 479 gamma 1 22 311 -0.089 -0.303 -0.373 0.489 0.000 480 gamma 1 22 312 -0.091 -0.065 -0.218 0.244 0.000 481 gamma 1 22 312 0.035 -0.110 -0.187 0.220 0.000 482 gamma 1 22 313 0.008 0.042 -0.189 0.194 0.000 483 gamma 1 22 313 -0.035 -0.061 -0.067 0.097 0.000 484 gamma 1 22 319 0.015 -0.197 0.521 0.557 0.000 485 gamma 1 22 319 0.097 -0.070 0.245 0.273 0.000 486 gamma 1 22 323 -0.011 -0.014 0.024 0.030 0.000 487 gamma 1 22 323 -0.879 -0.451 0.222 1.013 0.000 488 gamma 1 22 327 -0.259 -0.099 0.058 0.283 0.000 489 gamma 1 22 327 -0.345 -0.303 0.036 0.460 0.000 490 K- 1 -321 328 -0.007 0.945 -0.015 1.066 0.494 491 (rho+) 11 213 328 0.365 0.524 1.254 1.635 0.833 492 K_S0 1 310 334 1.025 0.682 10.327 10.412 0.498 493 K_L0 1 130 338 -0.014 0.412 5.069 5.110 0.498 494 gamma 1 22 339 -0.310 0.411 6.082 6.103 0.000 495 gamma 1 22 339 -0.030 0.001 0.182 0.184 0.000 496 gamma 1 22 345 -0.197 0.071 10.110 10.113 0.000 497 gamma 1 22 345 0.002 0.039 4.467 4.468 0.000 498 gamma 1 22 349 0.009 -0.003 0.160 0.161 0.000 499 gamma 1 22 349 -0.227 0.090 23.258 23.259 0.000 500 K_L0 1 130 350 -0.338 -0.086 13.886 13.899 0.498 501 gamma 1 22 353 0.290 -0.175 2.560 2.582 0.000 502 gamma 1 22 353 0.001 0.008 0.358 0.358 0.000 503 gamma 1 22 357 -0.027 0.009 1.586 1.587 0.000 504 gamma 1 22 357 -0.042 -0.093 0.903 0.909 0.000 505 gamma 1 22 360 -0.099 -0.288 3.987 3.999 0.000 506 gamma 1 22 360 0.029 -0.030 0.316 0.319 0.000 507 K_S0 1 310 367 -0.668 -0.250 -0.877 1.235 0.498 508 gamma 1 22 368 -0.104 -0.142 -0.357 0.399 0.000 509 gamma 1 22 368 0.036 -0.135 -0.286 0.319 0.000 510 gamma 1 22 373 -0.076 0.006 -0.086 0.115 0.000 511 gamma 1 22 373 -1.477 -0.421 -2.151 2.643 0.000 512 gamma 1 22 374 -0.165 -0.001 -0.282 0.327 0.000 513 gamma 1 22 374 -0.537 -0.123 -0.578 0.799 0.000 514 gamma 1 22 375 -1.514 -0.340 -1.956 2.497 0.000 515 gamma 1 22 375 -0.430 -0.347 -1.088 1.221 0.000 516 gamma 1 22 377 -0.761 -1.191 -4.167 4.400 0.000 517 gamma 1 22 377 -0.025 -0.016 -0.148 0.151 0.000 518 gamma 1 22 380 -0.200 -0.217 -0.317 0.433 0.000 519 gamma 1 22 380 -0.176 -0.348 -0.271 0.475 0.000 520 K_S0 1 310 383 0.188 -0.602 1.433 1.643 0.498 521 gamma 1 22 384 0.415 -0.606 0.746 1.047 0.000 522 gamma 1 22 384 0.147 -0.294 0.456 0.563 0.000 523 gamma 1 22 387 0.067 -0.074 0.292 0.308 0.000 524 gamma 1 22 387 -0.029 -0.253 0.890 0.926 0.000 525 gamma 1 22 391 -0.492 -0.610 14.220 14.242 0.000 526 gamma 1 22 391 -0.022 -0.002 0.784 0.784 0.000 527 gamma 1 22 397 -0.285 -0.110 4.678 4.688 0.000 528 gamma 1 22 397 -0.049 -0.018 0.288 0.293 0.000 529 gamma 1 22 405 -0.165 0.188 0.878 0.913 0.000 530 gamma 1 22 405 -0.066 0.036 0.098 0.124 0.000 531 K_S0 1 310 408 0.161 0.201 27.796 27.802 0.498 532 gamma 1 22 411 0.079 -0.017 0.184 0.201 0.000 533 gamma 1 22 411 0.086 -0.152 0.153 0.232 0.000 534 gamma 1 22 413 -0.137 0.099 0.666 0.687 0.000 535 gamma 1 22 413 -0.069 -0.030 0.583 0.588 0.000 536 gamma 1 22 415 0.317 0.334 -0.289 0.543 0.000 537 gamma 1 22 415 0.011 0.097 -0.068 0.119 0.000 538 gamma 1 22 418 0.014 0.003 -0.119 0.120 0.000 539 gamma 1 22 418 0.034 0.039 0.024 0.057 0.000 540 gamma 1 22 422 0.099 -0.029 -1.334 1.338 0.000 541 gamma 1 22 422 0.161 -0.071 -5.903 5.905 0.000 542 gamma 1 22 436 0.037 0.016 -0.038 0.055 0.000 543 gamma 1 22 436 0.176 0.500 -0.202 0.567 0.000 544 gamma 1 22 464 0.100 0.689 -0.523 0.871 0.000 545 gamma 1 22 464 -0.014 0.004 -0.008 0.017 0.000 546 gamma 1 22 465 0.011 0.324 -0.327 0.461 0.000 547 gamma 1 22 465 -0.016 0.038 0.006 0.042 0.000 548 gamma 1 22 466 0.034 0.047 0.021 0.062 0.000 549 gamma 1 22 466 -0.029 0.327 -0.106 0.345 0.000 550 pi+ 1 211 491 0.170 -0.048 0.887 0.915 0.140 551 (pi0) 11 111 491 0.195 0.572 0.367 0.720 0.135 552 gamma 1 22 551 0.110 0.450 0.228 0.516 0.000 553 gamma 1 22 551 0.085 0.122 0.139 0.203 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGen:Will initialize JetSet. 1 **************************************************************************** ************************************************************************** PPP Y Y TTTTT H H III A JJJJ EEEE TTTTT SSS EEEE TTTTT P P Y Y T H H I A A J E T S E T PPP Y T HHHHH I AAAAA J EEE T SSS EEE T P Y T H H I A A J J E T S E T P Y T H H III A A JJ EEEE T SSS EEEE T ...... Welcome to the Lund Monte Carlo! :::!!::::::::::: ::::::!!:::::::::::::: Warning: this is jetset7.4_fkw ::::::::!!:::::::::::::::: All refs to pythia were excised! :::::::::!!::::::::::::::::: PYTHIA !!! :::::::::!!::::::::::::::::: it was altered by fkw 7.410 ::::::::!!::::::::::::::::! on 3.29.00 20 Jan 1997 ::::::!!:::::::::::::: !! to this effect !!! !! :::!!::::::::::: !! Main author: !! !* -><- * !! Torbjorn Sjostrand !! !! !! Dept. of theoretical physics 2 !! !! !! University of Lund !! !! Solvegatan 14A !! ep !! S-223 62 Lund, Sweden !! !! phone: +46 - 46 - 222 48 16 !! pp !! E-mail: torbjorn@thep.lu.se !! e+e- !! !! !! Copyright Torbjorn Sjostrand !! and CERN, Geneva 1993 The latest program versions and documentation is found on WWW address http://thep.lu.se/tf2/staff/torbjorn/Welcome.html This is fkw version !!! When you cite these programs, priority should always be given to the latest published description. Currently this is T. Sjostrand, Computer Physics Commun. 82 (1994) 74. The most recent long description (unpublished) is T. Sjostrand, LU TP 95-20 and CERN-TH.7112/93 (revised August 1995). Also remember that the programs, to a large extent, represent original physics research. Other publications of special relevance to your studies may therefore deserve separate mention. ************************************************************************** ************************************************************************** Warning: Jetset7.4_fkw independent of PYTHIA! MSTJ(104) changed from 5 to 5 MSTJ(107) changed from 0 to 1 MSTJ(11) changed from 4 to 4 PARJ(41) changed from 0.30000 to 0.30000 PARJ(42) changed from 0.58000 to 0.58000 PARJ(43) changed from 0.50000 to 0.50000 PARJ(44) changed from 0.90000 to 0.90000 PARJ(54) changed from -0.05000 to -0.04000 PARJ(55) changed from -0.00500 to -0.00400 MSTJ(26) changed from 2 to 0 PARJ(13) changed from 0.75000 to 0.40000 PARJ(26) changed from 0.40000 to 0.10000 PARJ(25) changed from 1.00000 to 0.60000 PARJ(2) changed from 0.30000 to 0.26000 PARJ(12) changed from 0.60000 to 0.55000 PARJ(11) changed from 0.50000 to 0.40000 PARJ(1) changed from 0.10000 to 0.06500 PARJ(14) changed from 0.00000 to 0.05000 PARJ(15) changed from 0.00000 to 0.05000 PARJ(16) changed from 0.00000 to 0.05000 PARJ(17) changed from 0.00000 to 0.05000 PARJ(33) changed from 0.80000 to 0.30000 EvtGen:Done initializing JetSet. GenInputManager Begin processing 7th record. Run 222530, Trigger 6 1 ****************************************************************************** * * * ========================== * * PHOTOS, Version: 2. 2 * * Released at: 15/ 3/99 * * ========================== * * * * PHOTOS QED Corrections in Particle Decays * * * * Monte Carlo Program - by E. Barberio, B. van Eijk and Z. Was * * From version 2.0 on - by E.B. and Z.W. * * * ******************************************************************************** * * * Internal input parameters: * * * * INTERF= T ISEC= T IFTOP= T * * ALPHA_QED= 0.00730 XPHCUT= 0.01000 * * * * option with interference is active * * option with double photons is active * * emision in t tbar production is active * * * * WARNING (1): /HEPEVT/ is not anymore the standard common block * * This version of PHOTOS uses /XHEPEVT/ with double * * precision (REAL8) variables * WARNING (2): check dims. of /hepevt/ /phoqed/ /ph_hepevt/. * * HERE: d_h_nmxhep=4000 and NMXHEP=10000 * * * ****************************************************************************** Message from PHCORK(MODCOR):: initialization MODOP=1 -- no corrections on event: DEFAULT ****************************************************************************** * * * PHOTOS: Available Phase Space below Cut-off: 0.005930 GeV/c^2 * * * ******************************************************************************** PYEVNT event no. 6 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 -0.500 0.624 189.906 189.908 0.000 4 !u! 21 2 2 -0.039 0.473 -86.921 86.922 0.000 5 !g! 21 21 3 -2.301 -0.414 120.493 120.516 0.000 6 !g! 21 21 4 0.446 3.547 -3.778 5.202 0.000 7 !g! 21 21 0 -16.980 16.237 85.245 88.423 0.000 8 !g! 21 21 0 15.126 -13.104 31.470 37.294 0.000 ============================================================================== 9 (Deltabar--) 11 -2224 2 0.147 -0.441 -302.156 302.160 1.357 10 (u) A 12 2 3 0.406 1.509 33.654 33.692 0.330 11 (g) I 12 21 3 0.852 0.311 19.829 19.850 0.000 12 (g) I 12 21 3 0.659 -0.712 10.108 10.154 0.000 13 (g) I 12 21 0 -2.135 -0.064 31.765 31.837 0.000 14 (g) I 12 21 0 -0.857 -0.710 12.279 12.329 0.000 15 (g) I 12 21 0 -0.660 -0.157 5.423 5.465 0.000 16 (g) I 12 21 0 -1.075 -0.052 6.067 6.162 0.000 17 (g) I 12 21 0 -0.169 -1.617 5.603 5.834 0.000 18 (g) I 12 21 0 -0.327 -1.085 2.329 2.590 0.000 19 (g) I 12 21 0 2.135 0.064 13.253 13.424 0.000 20 (g) I 12 21 0 1.473 0.141 10.040 10.148 0.000 21 (g) I 12 21 0 0.338 0.206 1.421 1.475 0.000 22 (g) I 12 21 0 0.660 0.157 1.957 2.071 0.000 23 (g) I 12 21 0 0.169 1.617 2.480 2.966 0.000 24 (g) I 12 21 0 0.327 1.085 1.902 2.214 0.000 25 (g) I 12 21 0 0.083 1.792 2.658 3.207 0.000 26 (g) I 12 21 0 -2.244 -0.056 -0.582 2.319 0.000 27 (g) I 12 21 0 -1.031 1.685 -0.159 1.982 0.000 28 (g) I 12 21 4 0.009 0.680 0.014 0.680 0.000 29 (g) I 12 21 4 0.694 -2.945 2.738 4.080 0.000 30 (g) I 12 21 4 0.311 2.625 -69.358 69.408 0.000 31 (g) I 12 21 4 -0.013 -0.983 -2.235 2.442 0.000 32 (dbar) V 11 -1 2 -0.107 -0.031 -280.106 280.107 0.330 33 (u) A 12 2 4 0.678 -2.584 -7.521 7.988 0.330 34 (g) I 12 21 4 -1.087 -0.562 -0.801 1.463 0.000 35 (g) I 12 21 4 -1.194 0.624 -0.158 1.356 0.000 36 (g) I 12 21 0 0.212 0.677 -1.943 2.068 0.000 37 (g) I 12 21 0 -2.635 1.247 -10.261 10.667 0.000 38 (g) I 12 21 0 0.763 0.773 -22.266 22.293 0.000 39 (g) I 12 21 0 0.243 0.502 -88.551 88.553 0.000 40 (g) I 12 21 0 2.635 -1.247 -124.229 124.263 0.000 41 (g) I 12 21 0 -0.243 -0.502 -13.954 13.965 0.000 42 (g) I 12 21 0 -0.212 -0.677 -4.254 4.313 0.000 43 (g) I 12 21 0 -0.409 -0.938 -4.799 4.907 0.000 44 (g) I 12 21 0 0.245 -3.871 -8.718 9.542 0.000 45 (g) I 12 21 0 1.002 0.470 -2.872 3.078 0.000 46 (g) I 12 21 0 1.682 0.765 -2.121 2.813 0.000 47 (g) I 12 21 0 0.637 0.453 -0.822 1.134 0.000 48 (g) I 12 21 0 1.075 0.052 -0.882 1.391 0.000 49 (g) I 12 21 0 2.244 0.056 -1.560 2.734 0.000 50 (g) I 12 21 0 0.857 0.710 -0.057 1.115 0.000 51 (g) I 12 21 8 0.230 0.188 0.105 0.315 0.000 52 (g) I 12 21 8 4.250 -4.304 8.987 10.833 0.000 53 (g) I 12 21 8 1.575 -1.114 4.758 5.135 0.000 54 (g) I 12 21 0 1.031 -1.685 2.431 3.133 0.000 55 (g) I 12 21 0 0.519 -0.048 0.756 0.918 0.000 56 (g) I 12 21 0 0.384 -0.533 1.126 1.303 0.000 57 (g) I 12 21 0 -0.083 -1.792 1.239 2.180 0.000 58 (g) I 12 21 0 -1.682 -0.765 2.713 3.282 0.000 59 (g) I 12 21 0 -1.002 -0.470 1.439 1.815 0.000 60 (g) I 12 21 0 -1.473 -0.141 2.849 3.210 0.000 61 (g) I 12 21 7 0.544 6.242 4.879 7.941 0.000 62 (g) I 12 21 7 0.445 1.966 2.731 3.395 0.000 63 (g) I 12 21 7 -1.249 4.351 6.477 7.902 0.000 64 (g) I 12 21 7 -0.383 0.734 1.632 1.830 0.000 65 (g) I 12 21 7 -0.876 0.174 4.444 4.533 0.000 66 (g) I 12 21 7 -1.947 3.382 21.910 22.255 0.000 67 (g) I 12 21 7 -0.277 -1.927 14.246 14.378 0.000 68 (g) I 12 21 7 -3.111 -5.479 38.986 39.492 0.000 69 (g) I 12 21 7 -1.056 -1.080 7.560 7.709 0.000 70 (g) I 12 21 0 -0.384 0.533 1.750 1.869 0.000 71 (g) I 12 21 0 -0.245 3.871 27.008 27.285 0.000 72 (g) I 12 21 0 0.409 0.938 7.567 7.636 0.000 73 (g) I 12 21 0 -0.519 0.048 33.759 33.763 0.000 74 (g) I 12 21 0 -0.338 -0.206 45.907 45.909 0.000 75 (ud_1) V 11 2103 1 0.500 -0.624 496.444 496.445 0.771 76 (u) A 12 2 0 0.920 0.031 -0.569 1.082 0.000 77 (ubar) V 11 -2 0 -0.920 -0.031 -0.526 1.060 0.000 78 (g) A 12 21 0 -1.650 0.021 -1.069 1.966 0.000 79 (g) I 12 21 0 1.650 -0.021 -1.906 2.521 0.000 80 (g) I 12 21 0 -0.763 -0.773 -0.795 1.346 0.000 81 (g) V 11 21 0 -0.637 -0.453 -1.079 1.332 0.000 82 (g) A 12 21 0 -0.569 -0.810 -7.414 7.480 0.000 83 (g) V 11 21 0 0.569 0.810 58.502 58.510 0.000 ============================================================================== 84 pbar- 1 -2212 9 -0.134 -0.359 -266.777 266.779 0.938 85 pi- 1 -211 9 0.280 -0.082 -35.380 35.381 0.140 86 (string) 11 92 10 -0.503 3.462 -188.920 524.436 489.214 87 pi+ 1 211 86 0.191 0.121 2.319 2.335 0.140 88 pi- 1 -211 86 0.852 0.014 21.908 21.925 0.140 89 (K+) 11 323 86 -0.409 0.346 12.519 12.563 0.898 90 (Kbar0) 11 -311 86 -0.156 0.507 13.162 13.182 0.498 91 (omega) 11 223 86 0.649 0.321 21.602 21.629 0.781 92 pi- 1 -211 86 -1.961 -0.525 18.683 18.794 0.140 93 (rho+) 11 213 86 -0.176 -0.246 7.435 7.470 0.651 94 (eta) 11 221 86 -0.123 -0.663 7.324 7.375 0.547 95 (pi0) 11 111 86 -0.990 -0.003 8.831 8.887 0.135 96 pi- 1 -211 86 -0.134 -0.152 4.634 4.641 0.140 97 K+ 1 321 86 -0.789 -0.499 2.191 2.432 0.494 98 (Kbar0) 11 -313 86 1.299 -1.345 10.580 10.782 0.898 99 (K0) 11 311 86 -0.397 -0.100 3.761 3.816 0.498 100 (K-) 11 -323 86 0.973 0.067 5.165 5.340 0.942 101 (eta) 11 221 86 0.320 0.289 1.612 1.756 0.547 102 (K+) 11 323 86 0.637 0.590 4.503 4.660 0.827 103 K- 1 -321 86 0.165 0.147 1.912 1.987 0.494 104 (rho+) 11 213 86 0.403 0.489 1.908 2.143 0.743 105 pi- 1 -211 86 0.066 0.382 3.475 3.500 0.140 106 (rho+) 11 213 86 0.615 0.339 2.118 2.311 0.602 107 (rho0) 11 113 86 0.639 0.422 1.211 1.623 0.763 108 (pi0) 11 111 86 0.378 -0.067 1.710 1.758 0.135 109 (rho0) 11 113 86 -0.352 0.998 0.972 1.626 0.762 110 (omega) 11 223 86 -0.915 0.607 0.672 1.497 0.763 111 (eta) 11 221 86 -0.304 1.006 0.256 1.212 0.547 112 (K0) 11 313 86 -0.746 0.450 -0.147 1.242 0.873 113 (K-) 11 -323 86 -0.208 -0.859 0.457 1.343 0.903 114 (rho+) 11 213 86 0.169 0.466 -0.121 0.794 0.608 115 (rho-) 11 -213 86 -0.652 0.138 0.249 1.149 0.903 116 pi+ 1 211 86 -0.008 -0.095 0.488 0.517 0.140 117 (eta') 11 331 86 0.109 -0.040 -0.035 0.965 0.958 118 (pi0) 11 111 86 -0.115 -0.378 0.107 0.431 0.135 119 pi- 1 -211 86 -0.258 -0.397 -0.478 0.687 0.140 120 (rho+) 11 213 86 0.264 -0.172 0.344 0.835 0.693 121 (rho-) 11 -213 86 0.208 -0.329 -2.050 2.200 0.697 122 (omega) 11 223 86 -0.367 0.856 -2.987 3.226 0.788 123 pi+ 1 211 86 0.184 -0.470 -2.596 2.648 0.140 124 (rho-) 11 -213 86 -0.126 0.561 -2.067 2.260 0.710 125 (omega) 11 223 86 0.573 0.048 -16.430 16.458 0.779 126 pi+ 1 211 86 0.236 0.026 -7.517 7.522 0.140 127 pi- 1 -211 86 -0.479 0.049 -0.618 0.796 0.140 128 (rho+) 11 213 86 1.008 0.798 -43.636 43.660 0.656 129 (rho-) 11 -213 86 -0.618 -0.309 -4.559 4.662 0.694 130 (K+) 11 323 86 -0.442 -0.006 -177.289 177.292 0.907 131 (Kbar0) 11 -311 86 0.390 0.316 -67.844 67.847 0.498 132 (pi0) 11 111 86 -0.104 -0.239 -22.655 22.657 0.135 133 (string) 11 92 33 1.756 -1.795 445.934 1058.107 959.546 134 pi+ 1 211 133 0.556 -1.936 -5.651 6.001 0.140 135 pi- 1 -211 133 -0.621 -0.403 -0.700 1.028 0.140 136 (K+) 11 323 133 -0.044 -0.388 -2.039 2.260 0.892 137 (phi) 11 333 133 -0.415 0.232 -0.590 1.269 1.018 138 (Kbar0) 11 -313 133 -0.880 0.501 -1.212 1.839 0.940 139 pi- 1 -211 133 0.144 -0.168 -0.385 0.465 0.140 140 p+ 1 2212 133 -1.495 0.829 -6.213 6.512 0.938 141 pbar- 1 -2212 133 -0.024 -0.238 -6.881 6.949 0.938 142 (Delta++) 11 2224 133 0.138 1.011 -11.399 11.500 1.136 143 (omega) 11 223 133 -0.727 0.346 -6.180 6.281 0.781 144 (Deltabar--) 11 -2224 133 0.104 0.248 -28.570 28.596 1.205 145 (rho0) 11 113 133 0.226 0.228 -32.617 32.626 0.667 146 (rho+) 11 213 133 1.557 -0.448 -83.016 83.036 0.853 147 (rho-) 11 -213 133 0.696 -0.364 -42.714 42.730 0.839 148 (pi0) 11 111 133 -0.107 -0.357 -10.544 10.551 0.135 149 (rho+) 11 213 133 0.050 -0.376 -24.746 24.761 0.772 150 pi- 1 -211 133 0.454 -0.597 -5.746 5.796 0.140 151 (rho+) 11 213 133 -0.359 -1.343 -2.995 3.407 0.842 152 pi- 1 -211 133 0.018 -0.397 -2.534 2.569 0.140 153 K+ 1 321 133 -0.375 -1.650 -14.620 14.726 0.494 154 K- 1 -321 133 1.673 -0.329 -1.256 2.174 0.494 155 (rho0) 11 113 133 1.556 0.111 -1.835 2.555 0.853 156 pi+ 1 211 133 0.145 0.119 -0.181 0.295 0.140 157 (omega) 11 223 133 1.551 0.901 -1.703 2.608 0.829 158 (K0) 11 313 133 1.934 -0.445 0.164 2.172 0.868 159 (K-) 11 -323 133 0.653 0.262 -0.413 1.207 0.890 160 (rho0) 11 113 133 0.468 -0.043 0.259 0.772 0.556 161 pi+ 1 211 133 0.265 -0.032 0.160 0.341 0.140 162 (K0) 11 313 133 0.755 -0.707 1.640 2.144 0.916 163 (K-) 11 -323 133 1.331 -0.979 1.773 2.587 0.903 164 (rho+) 11 213 133 0.251 -0.880 2.398 2.683 0.783 165 (K0) 11 313 133 0.903 -0.652 1.899 2.399 0.954 166 K- 1 -321 133 2.754 -2.986 5.831 7.124 0.494 167 (rho+) 11 213 133 0.785 -0.694 1.708 2.177 0.851 168 (pi0) 11 111 133 -0.143 -0.499 1.824 1.901 0.135 169 (eta) 11 221 133 -0.007 -0.175 0.220 0.615 0.547 170 pi- 1 -211 133 0.408 -0.750 1.698 1.905 0.140 171 pi+ 1 211 133 -1.997 -0.897 2.328 3.199 0.140 172 (eta) 11 221 133 -0.504 0.395 1.100 1.386 0.547 173 pi- 1 -211 133 0.226 0.359 0.024 0.447 0.140 174 (eta) 11 221 133 -0.472 0.175 1.062 1.297 0.547 175 K+ 1 321 133 0.141 0.442 0.742 1.005 0.494 176 Sigma- 1 3112 133 0.119 1.126 1.956 2.558 1.197 177 (rho+) 11 213 133 -0.808 2.024 2.974 3.803 0.934 178 nbar0 1 -2112 133 -0.743 0.955 2.899 3.279 0.940 179 pi- 1 -211 133 -0.033 1.825 1.383 2.295 0.140 180 p+ 1 2212 133 0.200 1.232 2.093 2.611 0.938 181 nbar0 1 -2112 133 -0.325 2.160 2.952 3.791 0.940 182 (rho-) 11 -213 133 -0.200 0.904 2.295 2.590 0.764 183 p+ 1 2212 133 -1.640 1.422 9.989 10.265 0.938 184 (rho+) 11 213 133 0.311 1.250 5.609 5.820 0.873 185 (Deltabar--) 11 -2224 133 -1.310 -0.780 6.714 6.991 1.212 186 (Delta++) 11 2224 133 -0.257 -0.867 9.502 9.621 1.210 187 pi- 1 -211 133 -0.045 -0.975 4.616 4.720 0.140 188 (Sigmabar0) 11 -3214 133 -2.439 0.426 21.208 21.397 1.389 189 (phi) 11 333 133 -0.237 -0.713 10.215 10.294 1.028 190 (Kbar0) 11 -313 133 -1.003 -2.495 13.833 14.120 0.891 191 (rho-) 11 -213 133 -0.740 0.639 14.237 14.289 0.732 192 pi+ 1 211 133 -0.429 0.451 4.207 4.255 0.140 193 (eta) 11 221 133 0.510 0.558 4.466 4.563 0.547 194 (rho-) 11 -213 133 -0.431 0.183 7.010 7.064 0.740 195 (rho+) 11 213 133 -0.353 -0.066 10.146 10.183 0.798 196 pi- 1 -211 133 0.102 -0.033 4.503 4.506 0.140 197 (rho+) 11 213 133 -0.219 1.112 11.421 11.483 0.376 198 (rho-) 11 -213 133 0.095 0.175 8.377 8.422 0.852 199 (K+) 11 323 133 0.313 1.072 27.271 27.308 0.892 200 (Kbar0) 11 -313 133 -0.393 -0.506 110.002 110.007 0.892 201 n0 1 2112 133 0.407 0.155 135.329 135.333 0.940 202 (eta) 11 221 133 -0.267 -0.455 280.636 280.637 0.547 203 (string) 11 92 76 0.000 0.000 -1.095 2.142 1.841 204 (pi0) 11 111 203 0.820 0.148 -0.504 0.983 0.135 205 (eta) 11 221 203 -0.820 -0.148 -0.591 1.159 0.547 206 (string) 11 92 78 -1.399 -1.226 -4.848 7.164 4.936 207 (eta) 11 221 206 0.208 -0.463 -1.085 1.317 0.547 208 pi- 1 -211 206 0.000 -0.151 -0.270 0.339 0.140 209 (pi0) 11 111 206 -0.372 -0.341 -0.748 0.912 0.135 210 (rho+) 11 213 206 -0.304 0.401 -0.399 1.004 0.772 211 pi- 1 -211 206 -0.244 -0.967 -1.534 1.835 0.140 212 pi+ 1 211 206 -0.469 0.070 -0.278 0.568 0.140 213 (rho-) 11 -213 206 -0.039 0.175 -0.563 0.954 0.748 214 pi+ 1 211 206 -0.180 0.050 0.029 0.235 0.140 215 (string) 11 92 82 0.000 0.000 51.087 65.990 41.771 216 (omega) 11 223 215 -0.018 0.161 1.705 1.896 0.815 217 (eta) 11 221 215 0.119 -0.313 -2.464 2.547 0.547 218 (rho-) 11 -213 215 -0.539 -0.310 -1.285 1.618 0.762 219 pi+ 1 211 215 0.291 0.083 -1.211 1.256 0.140 220 pbar- 1 -2212 215 -0.051 0.488 -1.005 1.460 0.938 221 p+ 1 2212 215 -0.426 -0.421 0.135 1.121 0.938 222 (pi0) 11 111 215 -0.176 -0.289 0.031 0.366 0.135 223 pi- 1 -211 215 -0.054 0.378 2.330 2.365 0.140 224 (Kbar0) 11 -311 215 0.181 -0.214 9.984 10.001 0.498 225 (eta) 11 221 215 0.493 0.184 14.234 14.254 0.547 226 (K+) 11 323 215 0.090 0.343 16.551 16.578 0.885 227 (rho-) 11 -213 215 -0.288 -0.404 4.904 4.990 0.777 228 (rho0) 11 113 215 0.406 0.846 2.296 2.574 0.685 229 (rho+) 11 213 215 -0.027 -0.531 4.883 4.966 0.733 230 (K0) 11 311 89 -0.391 0.326 12.085 12.106 0.498 231 pi+ 1 211 89 -0.018 0.020 0.435 0.457 0.140 232 K_S0 1 310 90 -0.156 0.507 13.162 13.182 0.498 233 pi+ 1 211 91 0.083 -0.081 8.766 8.768 0.140 234 pi- 1 -211 91 0.203 0.049 3.050 3.060 0.140 235 (pi0) 11 111 91 0.364 0.353 9.787 9.801 0.135 236 pi+ 1 211 93 0.197 -0.069 3.898 3.906 0.140 237 (pi0) 11 111 93 -0.373 -0.177 3.538 3.564 0.135 238 (pi0) 11 111 94 -0.056 -0.357 2.942 2.967 0.135 239 (pi0) 11 111 94 -0.110 -0.288 3.046 3.064 0.135 240 (pi0) 11 111 94 0.043 -0.018 1.336 1.344 0.135 241 gamma 1 22 95 -0.816 -0.021 7.662 7.706 0.000 242 gamma 1 22 95 -0.173 0.018 1.169 1.182 0.000 243 K- 1 -321 98 1.327 -1.297 9.961 10.144 0.494 244 pi+ 1 211 98 -0.028 -0.048 0.620 0.638 0.140 245 K_L0 1 130 99 -0.397 -0.100 3.761 3.816 0.498 246 (Kbar0) 11 -311 100 0.731 0.323 4.179 4.284 0.498 247 pi- 1 -211 100 0.242 -0.256 0.986 1.056 0.140 248 gamma 1 22 101 0.344 0.351 1.617 1.690 0.000 249 gamma 1 22 101 -0.024 -0.062 -0.004 0.067 0.000 250 (K0) 11 311 102 0.554 0.283 2.411 2.539 0.498 251 pi+ 1 211 102 0.082 0.307 2.093 2.121 0.140 252 pi+ 1 211 104 0.454 0.135 0.583 0.764 0.140 253 (pi0) 11 111 104 -0.052 0.354 1.325 1.379 0.135 254 pi+ 1 211 106 0.406 0.057 0.557 0.705 0.140 255 (pi0) 11 111 106 0.209 0.283 1.561 1.605 0.135 256 pi+ 1 211 107 0.382 -0.128 0.305 0.524 0.140 257 pi- 1 -211 107 0.257 0.550 0.905 1.099 0.140 258 gamma 1 22 108 0.367 -0.058 1.702 1.742 0.000 259 gamma 1 22 108 0.011 -0.009 0.009 0.016 0.000 260 pi+ 1 211 109 -0.166 0.416 0.874 0.992 0.140 261 pi- 1 -211 109 -0.186 0.582 0.098 0.635 0.140 262 gamma 1 22 110 -0.853 0.273 0.234 0.926 0.000 263 (pi0) 11 111 110 -0.062 0.334 0.439 0.571 0.135 264 gamma 1 22 111 -0.068 0.425 0.379 0.573 0.000 265 gamma 1 22 111 -0.236 0.581 -0.123 0.639 0.000 266 K+ 1 321 112 -0.359 0.419 0.121 0.750 0.494 267 pi- 1 -211 112 -0.387 0.031 -0.268 0.492 0.140 268 (Kbar0) 11 -311 113 0.113 -0.334 0.352 0.704 0.498 269 pi- 1 -211 113 -0.321 -0.524 0.104 0.639 0.140 270 pi+ 1 211 114 0.125 -0.052 0.094 0.216 0.140 271 (pi0) 11 111 114 0.044 0.518 -0.215 0.578 0.135 272 pi- 1 -211 115 -0.658 -0.004 -0.164 0.692 0.140 273 (pi0) 11 111 115 0.006 0.142 0.412 0.457 0.135 274 gamma 1 22 117 0.003 0.090 0.158 0.181 0.000 275 (rho0) 11 113 117 0.105 -0.129 -0.192 0.784 0.741 276 gamma 1 22 118 0.009 -0.110 0.076 0.134 0.000 277 gamma 1 22 118 -0.124 -0.267 0.031 0.296 0.000 278 pi+ 1 211 120 0.408 -0.277 0.136 0.530 0.140 279 (pi0) 11 111 120 -0.144 0.105 0.208 0.305 0.135 280 pi- 1 -211 121 0.114 0.175 -0.467 0.531 0.140 281 (pi0) 11 111 121 0.094 -0.504 -1.583 1.669 0.135 282 pi+ 1 211 122 -0.013 0.051 -0.836 0.850 0.140 283 pi- 1 -211 122 -0.420 0.585 -1.732 1.881 0.140 284 (pi0) 11 111 122 0.065 0.220 -0.418 0.496 0.135 285 pi- 1 -211 124 0.124 0.017 -0.131 0.229 0.140 286 (pi0) 11 111 124 -0.250 0.544 -1.936 2.031 0.135 287 pi+ 1 211 125 -0.031 -0.134 -3.125 3.132 0.140 288 pi- 1 -211 125 0.229 0.217 -7.892 7.900 0.140 289 (pi0) 11 111 125 0.376 -0.035 -5.412 5.427 0.135 290 pi+ 1 211 128 0.632 0.254 -28.966 28.974 0.140 291 (pi0) 11 111 128 0.376 0.544 -14.670 14.685 0.135 292 pi- 1 -211 129 -0.246 0.045 -3.047 3.061 0.140 293 (pi0) 11 111 129 -0.371 -0.354 -1.511 1.602 0.135 294 (K0) 11 311 130 -0.107 0.242 -109.086 109.087 0.498 295 pi+ 1 211 130 -0.335 -0.247 -68.204 68.205 0.140 296 K_S0 1 310 131 0.390 0.316 -67.844 67.847 0.498 297 gamma 1 22 132 -0.038 -0.107 -5.036 5.038 0.000 298 gamma 1 22 132 -0.066 -0.132 -17.619 17.619 0.000 299 (K0) 11 311 136 -0.136 -0.504 -1.236 1.431 0.498 300 pi+ 1 211 136 0.092 0.116 -0.804 0.829 0.140 301 K- 1 -321 137 -0.329 0.104 -0.372 0.708 0.494 302 K+ 1 321 137 -0.087 0.128 -0.218 0.561 0.494 303 K- 1 -321 138 -0.945 0.556 -0.965 1.542 0.494 304 pi+ 1 211 138 0.065 -0.055 -0.247 0.296 0.140 305 p+ 1 2212 142 0.081 0.974 -9.594 9.689 0.938 306 pi+ 1 211 142 0.057 0.037 -1.805 1.811 0.140 307 pi- 1 -211 143 -0.101 -0.050 -1.689 1.698 0.140 308 pi+ 1 211 143 -0.594 0.161 -3.380 3.439 0.140 309 (pi0) 11 111 143 -0.032 0.235 -1.111 1.144 0.135 310 pbar- 1 -2212 144 0.093 -0.009 -21.794 21.814 0.938 311 pi- 1 -211 144 0.011 0.256 -6.776 6.782 0.140 312 pi+ 1 211 145 0.362 0.335 -24.335 24.340 0.140 313 pi- 1 -211 145 -0.136 -0.107 -8.283 8.286 0.140 314 pi+ 1 211 146 0.093 0.082 -19.764 19.764 0.140 315 (pi0) 11 111 146 1.464 -0.531 -63.252 63.271 0.135 316 pi- 1 -211 147 -0.117 0.078 -10.510 10.512 0.140 317 (pi0) 11 111 147 0.813 -0.442 -32.204 32.218 0.135 318 gamma 1 22 148 -0.044 -0.223 -4.620 4.626 0.000 319 gamma 1 22 148 -0.063 -0.133 -5.924 5.926 0.000 320 pi+ 1 211 149 0.127 0.045 -17.493 17.494 0.140 321 (pi0) 11 111 149 -0.077 -0.421 -7.253 7.267 0.135 322 pi+ 1 211 151 -0.579 -0.635 -1.530 1.761 0.140 323 (pi0) 11 111 151 0.220 -0.708 -1.464 1.647 0.135 324 pi- 1 -211 155 1.286 -0.221 -1.210 1.785 0.140 325 pi+ 1 211 155 0.270 0.331 -0.625 0.770 0.140 326 pi+ 1 211 157 0.658 0.569 -0.553 1.040 0.140 327 pi- 1 -211 157 0.201 -0.034 -0.142 0.285 0.140 328 (pi0) 11 111 157 0.692 0.365 -1.008 1.283 0.135 329 K+ 1 321 158 1.613 -0.570 0.228 1.795 0.494 330 pi- 1 -211 158 0.321 0.125 -0.064 0.377 0.140 331 K- 1 -321 159 0.671 0.406 -0.400 1.009 0.494 332 (pi0) 11 111 159 -0.017 -0.144 -0.013 0.198 0.135 333 pi+ 1 211 160 0.396 -0.227 0.226 0.528 0.140 334 pi- 1 -211 160 0.072 0.184 0.033 0.244 0.140 335 (K0) 11 311 162 0.229 -0.086 0.524 0.763 0.498 336 gamma 1 22 162 0.526 -0.621 1.116 1.381 0.000 337 K- 1 -321 163 0.762 -0.741 1.487 1.893 0.494 338 (pi0) 11 111 163 0.569 -0.238 0.287 0.694 0.135 339 pi+ 1 211 164 0.392 -0.186 0.664 0.806 0.140 340 (pi0) 11 111 164 -0.141 -0.694 1.733 1.877 0.135 341 K+ 1 321 165 0.582 -0.782 1.449 1.815 0.494 342 pi- 1 -211 165 0.321 0.130 0.450 0.585 0.140 343 pi+ 1 211 167 -0.073 0.054 0.078 0.184 0.140 344 (pi0) 11 111 167 0.858 -0.748 1.630 1.993 0.135 345 gamma 1 22 168 -0.081 -0.379 1.143 1.207 0.000 346 gamma 1 22 168 -0.063 -0.120 0.680 0.694 0.000 347 gamma 1 22 169 0.006 -0.230 0.090 0.247 0.000 348 pi- 1 -211 169 -0.009 -0.070 0.070 0.171 0.140 349 pi+ 1 211 169 -0.004 0.125 0.060 0.197 0.140 350 gamma 1 22 172 -0.285 -0.095 0.474 0.561 0.000 351 gamma 1 22 172 -0.219 0.490 0.626 0.825 0.000 352 gamma 1 22 174 -0.041 0.152 0.745 0.761 0.000 353 gamma 1 22 174 -0.431 0.023 0.318 0.536 0.000 354 pi+ 1 211 177 -0.164 0.232 1.037 1.084 0.140 355 (pi0) 11 111 177 -0.644 1.791 1.937 2.719 0.135 356 pi- 1 -211 182 0.172 0.237 1.233 1.275 0.140 357 (pi0) 11 111 182 -0.372 0.667 1.062 1.315 0.135 358 pi+ 1 211 184 0.060 -0.058 0.258 0.305 0.140 359 (pi0) 11 111 184 0.251 1.308 5.350 5.515 0.135 360 pbar- 1 -2212 185 -0.919 -0.550 4.272 4.503 0.938 361 pi- 1 -211 185 -0.391 -0.231 2.443 2.488 0.140 362 p+ 1 2212 186 0.003 -0.652 6.979 7.072 0.938 363 pi+ 1 211 186 -0.261 -0.215 2.523 2.549 0.140 364 Lambdabar0 1 -3122 188 -2.136 0.180 18.672 18.828 1.116 365 (pi0) 11 111 188 -0.303 0.247 2.536 2.569 0.135 366 K_L0 1 130 189 -0.099 -0.213 4.841 4.872 0.498 367 K_S0 1 310 189 -0.138 -0.500 5.374 5.422 0.498 368 (Kbar0) 11 -311 190 -0.971 -1.735 10.575 10.772 0.498 369 (pi0) 11 111 190 -0.032 -0.759 3.258 3.348 0.135 370 pi- 1 -211 191 -0.830 0.504 12.697 12.735 0.140 371 (pi0) 11 111 191 0.090 0.135 1.539 1.554 0.135 372 gamma 1 22 193 0.401 0.631 3.039 3.130 0.000 373 gamma 1 22 193 0.108 -0.072 1.427 1.433 0.000 374 pi- 1 -211 194 -0.171 0.397 5.106 5.127 0.140 375 (pi0) 11 111 194 -0.260 -0.214 1.903 1.938 0.135 376 pi+ 1 211 195 -0.475 0.099 3.869 3.902 0.140 377 (pi0) 11 111 195 0.122 -0.165 6.277 6.282 0.135 378 pi+ 1 211 197 -0.121 0.924 8.865 8.915 0.140 379 (pi0) 11 111 197 -0.098 0.189 2.556 2.569 0.135 380 pi- 1 -211 198 0.303 0.345 6.818 6.835 0.140 381 (pi0) 11 111 198 -0.208 -0.170 1.558 1.587 0.135 382 K+ 1 321 199 0.429 0.502 17.248 17.268 0.494 383 (pi0) 11 111 199 -0.116 0.569 10.023 10.040 0.135 384 K- 1 -321 200 -0.317 -0.087 79.113 79.115 0.494 385 pi+ 1 211 200 -0.076 -0.420 30.889 30.892 0.140 386 gamma 1 22 202 -0.309 -0.030 152.419 152.419 0.000 387 gamma 1 22 202 0.043 -0.425 128.217 128.218 0.000 388 gamma 1 22 204 0.401 0.106 -0.181 0.452 0.000 389 gamma 1 22 204 0.419 0.043 -0.323 0.531 0.000 390 gamma 1 22 205 -0.183 0.180 -0.274 0.375 0.000 391 gamma 1 22 205 -0.637 -0.328 -0.317 0.784 0.000 392 gamma 1 22 207 0.106 0.045 -0.586 0.597 0.000 393 gamma 1 22 207 0.102 -0.509 -0.499 0.720 0.000 394 gamma 1 22 209 -0.319 -0.330 -0.606 0.760 0.000 395 gamma 1 22 209 -0.052 -0.011 -0.142 0.152 0.000 396 pi+ 1 211 210 -0.086 0.197 -0.577 0.631 0.140 397 (pi0) 11 111 210 -0.219 0.204 0.178 0.373 0.135 398 pi- 1 -211 213 -0.091 -0.231 -0.061 0.292 0.140 399 (pi0) 11 111 213 0.053 0.406 -0.502 0.662 0.135 400 pi+ 1 211 216 0.061 0.065 0.893 0.908 0.140 401 pi- 1 -211 216 -0.035 -0.134 0.088 0.215 0.140 402 (pi0) 11 111 216 -0.043 0.230 0.724 0.773 0.135 403 gamma 1 22 217 0.269 -0.341 -2.186 2.229 0.000 404 gamma 1 22 217 -0.150 0.028 -0.278 0.317 0.000 405 pi- 1 -211 218 -0.050 0.209 -0.306 0.399 0.140 406 (pi0) 11 111 218 -0.489 -0.519 -0.979 1.219 0.135 407 gamma 1 22 222 -0.021 0.000 -0.025 0.033 0.000 408 gamma 1 22 222 -0.155 -0.289 0.057 0.333 0.000 409 K_L0 1 130 224 0.181 -0.214 9.984 10.001 0.498 410 pi+ 1 211 225 0.132 0.153 3.380 3.389 0.140 411 pi- 1 -211 225 0.287 -0.047 7.388 7.395 0.140 412 (pi0) 11 111 225 0.074 0.077 3.466 3.470 0.135 413 K+ 1 321 226 -0.166 0.377 9.733 9.755 0.494 414 (pi0) 11 111 226 0.256 -0.034 6.818 6.824 0.135 415 pi- 1 -211 227 0.038 -0.044 3.405 3.409 0.140 416 (pi0) 11 111 227 -0.326 -0.360 1.498 1.581 0.135 417 pi- 1 -211 228 -0.158 0.276 0.647 0.734 0.140 418 pi+ 1 211 228 0.564 0.570 1.650 1.840 0.140 419 pi+ 1 211 229 0.125 -0.504 4.497 4.529 0.140 420 (pi0) 11 111 229 -0.152 -0.028 0.386 0.437 0.135 421 K_L0 1 130 230 -0.391 0.326 12.085 12.106 0.498 422 gamma 1 22 235 0.080 0.015 1.852 1.854 0.000 423 gamma 1 22 235 0.285 0.338 7.935 7.947 0.000 424 gamma 1 22 237 -0.194 -0.153 1.732 1.750 0.000 425 e- 1 11 237 -0.068 -0.009 0.688 0.691 0.001 426 e+ 1 -11 237 -0.110 -0.015 1.118 1.124 0.001 427 gamma 1 22 238 -0.002 -0.304 2.532 2.550 0.000 428 gamma 1 22 238 -0.055 -0.053 0.410 0.417 0.000 429 gamma 1 22 239 -0.142 -0.236 2.469 2.485 0.000 430 gamma 1 22 239 0.032 -0.052 0.576 0.580 0.000 431 gamma 1 22 240 0.087 -0.028 0.682 0.688 0.000 432 gamma 1 22 240 -0.044 0.010 0.655 0.656 0.000 433 K_S0 1 310 246 0.731 0.323 4.179 4.284 0.498 434 K_S0 1 310 250 0.554 0.283 2.411 2.539 0.498 435 gamma 1 22 253 -0.062 0.358 1.313 1.363 0.000 436 gamma 1 22 253 0.011 -0.004 0.012 0.016 0.000 437 gamma 1 22 255 0.118 0.114 0.990 1.004 0.000 438 gamma 1 22 255 0.091 0.168 0.571 0.602 0.000 439 gamma 1 22 263 -0.013 0.296 0.401 0.499 0.000 440 gamma 1 22 263 -0.049 0.038 0.037 0.072 0.000 441 K_L0 1 130 268 0.113 -0.334 0.352 0.704 0.498 442 gamma 1 22 271 -0.048 0.178 -0.083 0.203 0.000 443 gamma 1 22 271 0.092 0.339 -0.131 0.375 0.000 444 gamma 1 22 273 -0.009 0.021 -0.003 0.023 0.000 445 gamma 1 22 273 0.016 0.121 0.416 0.433 0.000 446 pi- 1 -211 275 -0.234 -0.186 -0.242 0.409 0.140 447 pi+ 1 211 275 0.340 0.056 0.049 0.375 0.140 448 gamma 1 22 279 -0.141 0.131 0.157 0.248 0.000 449 gamma 1 22 279 -0.003 -0.026 0.050 0.057 0.000 450 gamma 1 22 281 0.031 -0.015 -0.150 0.154 0.000 451 gamma 1 22 281 0.063 -0.489 -1.433 1.516 0.000 452 gamma 1 22 284 -0.033 0.080 -0.087 0.123 0.000 453 gamma 1 22 284 0.098 0.139 -0.331 0.373 0.000 454 gamma 1 22 286 -0.092 0.358 -1.184 1.240 0.000 455 gamma 1 22 286 -0.158 0.186 -0.753 0.791 0.000 456 gamma 1 22 289 0.359 -0.004 -4.573 4.587 0.000 457 gamma 1 22 289 0.017 -0.032 -0.839 0.840 0.000 458 gamma 1 22 291 0.265 0.475 -12.023 12.035 0.000 459 gamma 1 22 291 0.111 0.069 -2.647 2.650 0.000 460 gamma 1 22 293 -0.025 -0.061 -0.326 0.332 0.000 461 gamma 1 22 293 -0.346 -0.294 -1.186 1.269 0.000 462 K_L0 1 130 294 -0.107 0.242 -109.086 109.087 0.498 463 K_L0 1 130 299 -0.136 -0.504 -1.236 1.431 0.498 464 gamma 1 22 309 0.024 -0.002 -0.054 0.060 0.000 465 gamma 1 22 309 -0.057 0.238 -1.056 1.084 0.000 466 gamma 1 22 315 0.171 -0.100 -7.012 7.015 0.000 467 gamma 1 22 315 1.293 -0.430 -56.240 56.257 0.000 468 gamma 1 22 317 0.644 -0.387 -27.370 27.380 0.000 469 gamma 1 22 317 0.169 -0.056 -4.834 4.837 0.000 470 gamma 1 22 321 -0.099 -0.238 -4.832 4.838 0.000 471 gamma 1 22 321 0.022 -0.183 -2.422 2.429 0.000 472 gamma 1 22 323 0.089 -0.365 -0.601 0.709 0.000 473 gamma 1 22 323 0.130 -0.343 -0.863 0.938 0.000 474 gamma 1 22 328 0.325 0.141 -0.357 0.503 0.000 475 gamma 1 22 328 0.367 0.224 -0.651 0.780 0.000 476 gamma 1 22 332 0.046 -0.008 0.008 0.047 0.000 477 gamma 1 22 332 -0.063 -0.136 -0.021 0.152 0.000 478 K_L0 1 130 335 0.229 -0.086 0.524 0.763 0.498 479 gamma 1 22 338 0.551 -0.226 0.301 0.667 0.000 480 gamma 1 22 338 0.018 -0.012 -0.015 0.026 0.000 481 gamma 1 22 340 -0.043 -0.108 0.420 0.436 0.000 482 gamma 1 22 340 -0.098 -0.586 1.313 1.441 0.000 483 gamma 1 22 344 0.831 -0.730 1.614 1.956 0.000 484 gamma 1 22 344 0.027 -0.018 0.017 0.037 0.000 485 gamma 1 22 355 -0.446 1.158 1.179 1.711 0.000 486 gamma 1 22 355 -0.198 0.633 0.758 1.008 0.000 487 gamma 1 22 357 -0.215 0.469 0.792 0.945 0.000 488 gamma 1 22 357 -0.157 0.199 0.270 0.370 0.000 489 gamma 1 22 359 0.156 0.470 1.943 2.006 0.000 490 gamma 1 22 359 0.095 0.837 3.407 3.510 0.000 491 gamma 1 22 365 -0.163 0.204 1.410 1.434 0.000 492 gamma 1 22 365 -0.140 0.042 1.125 1.135 0.000 493 K_L0 1 130 368 -0.971 -1.735 10.575 10.772 0.498 494 gamma 1 22 369 0.047 -0.325 1.270 1.312 0.000 495 gamma 1 22 369 -0.079 -0.434 1.988 2.037 0.000 496 gamma 1 22 371 -0.029 0.019 0.127 0.131 0.000 497 gamma 1 22 371 0.119 0.117 1.413 1.422 0.000 498 gamma 1 22 375 -0.153 -0.134 1.475 1.489 0.000 499 gamma 1 22 375 -0.107 -0.080 0.428 0.448 0.000 500 gamma 1 22 377 0.147 -0.144 5.828 5.832 0.000 501 gamma 1 22 377 -0.025 -0.022 0.449 0.450 0.000 502 gamma 1 22 379 -0.035 0.182 2.069 2.078 0.000 503 gamma 1 22 379 -0.063 0.006 0.487 0.491 0.000 504 gamma 1 22 381 -0.155 -0.116 0.729 0.754 0.000 505 gamma 1 22 381 -0.053 -0.054 0.829 0.833 0.000 506 gamma 1 22 383 -0.102 0.234 3.663 3.672 0.000 507 gamma 1 22 383 -0.014 0.335 6.360 6.368 0.000 508 gamma 1 GenInputManager Begin processing 8th record. Run 222530, Trigger 7 22 397 -0.040 0.126 0.058 0.144 0.000 509 gamma 1 22 397 -0.179 0.078 0.120 0.229 0.000 510 gamma 1 22 399 -0.025 0.082 -0.174 0.194 0.000 511 gamma 1 22 399 0.078 0.325 -0.328 0.468 0.000 512 gamma 1 22 402 0.036 0.065 0.332 0.340 0.000 513 gamma 1 22 402 -0.079 0.165 0.392 0.433 0.000 514 gamma 1 22 406 -0.208 -0.318 -0.526 0.649 0.000 515 gamma 1 22 406 -0.282 -0.201 -0.453 0.570 0.000 516 gamma 1 22 412 0.079 0.002 0.997 1.000 0.000 517 gamma 1 22 412 -0.005 0.075 2.469 2.470 0.000 518 gamma 1 22 414 0.258 -0.024 6.779 6.784 0.000 519 gamma 1 22 414 -0.003 -0.010 0.038 0.039 0.000 520 gamma 1 22 416 -0.091 -0.145 0.358 0.397 0.000 521 gamma 1 22 416 -0.235 -0.215 1.140 1.184 0.000 522 gamma 1 22 420 -0.079 -0.076 0.155 0.190 0.000 523 gamma 1 22 420 -0.073 0.049 0.230 0.246 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 7 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !d! 21 1 1 0.954 -0.184 413.610 413.611 0.000 4 !dbar! 21 -1 2 0.936 -0.899 -218.962 218.966 0.000 5 !g! 21 21 3 -0.572 0.893 233.010 233.012 0.000 6 !c! 21 4 4 4.869 1.428 -15.906 16.696 0.000 7 !g! 21 21 0 10.080 16.198 229.423 230.215 0.000 8 !c! 21 4 0 -5.783 -13.876 -12.319 19.494 1.500 ============================================================================== 9 (cbar) A 12 -4 4 -2.687 -1.366 -12.040 12.502 1.500 10 (uu_1bar) V 11 -2203 2 -0.936 0.899 -554.407 554.409 0.771 11 (d) A 12 1 3 1.199 -1.763 164.805 164.819 0.330 12 (g) I 12 21 3 0.334 0.683 14.717 14.736 0.000 13 (g) I 12 21 0 0.889 1.134 58.068 58.086 0.000 14 (g) I 12 21 7 0.923 0.761 10.461 10.529 0.000 15 (g) I 12 21 7 5.963 7.313 110.390 110.793 0.000 16 (g) I 12 21 7 2.876 7.610 101.462 101.788 0.000 17 (g) I 12 21 0 1.230 0.457 10.036 10.122 0.000 18 (g) I 12 21 0 0.649 -0.068 1.204 1.370 0.000 19 (g) I 12 21 0 0.164 0.210 0.457 0.529 0.000 20 (g) I 12 21 0 0.880 0.316 0.591 1.106 0.000 21 (g) I 12 21 0 -0.649 0.068 -0.629 0.907 0.000 22 (g) I 12 21 0 -0.164 -0.210 -22.241 22.243 0.000 23 (g) I 12 21 0 -0.343 -0.696 -111.711 111.714 0.000 24 (g) I 12 21 0 -0.289 0.681 -47.894 47.900 0.000 25 (g) I 12 21 0 0.325 0.228 -12.535 12.542 0.000 26 (g) I 12 21 0 0.343 0.696 -7.248 7.289 0.000 27 (g) I 12 21 0 0.681 0.076 -2.307 2.407 0.000 28 (g) I 12 21 4 -0.169 0.557 0.034 0.583 0.000 29 (g) I 12 21 4 -1.004 0.443 -2.375 2.616 0.000 30 (g) I 12 21 4 -0.569 -1.181 -134.770 134.776 0.000 31 (dbar) V 11 -1 4 0.488 -0.777 -52.828 52.837 0.330 32 (c) A 12 4 8 -3.954 -2.671 -3.632 6.181 1.500 33 (g) I 12 21 8 -7.934 -4.280 -4.376 10.020 0.000 34 (g) I 12 21 8 -0.262 -1.294 0.014 1.321 0.000 35 (g) I 12 21 8 0.969 -0.794 -0.279 1.283 0.000 36 (g) I 12 21 8 5.715 -4.323 3.063 7.793 0.000 37 (g) I 12 21 0 0.289 -0.681 -1.162 1.377 0.000 38 (g) I 12 21 0 -0.325 -0.228 0.512 0.648 0.000 39 (g) I 12 21 0 -0.880 -0.316 3.780 3.894 0.000 40 (g) I 12 21 0 -1.230 -0.457 32.362 32.388 0.000 41 (g) I 12 21 0 -0.889 -1.134 155.858 155.865 0.000 42 (g) I 12 21 0 -0.681 -0.076 58.138 58.142 0.000 43 (uu_1) V 11 2203 1 -0.954 0.184 244.483 244.486 0.771 ============================================================================== 44 (string) 11 92 9 -3.623 -0.467 -566.447 566.911 22.637 45 (D-) 11 -413 44 -2.976 -1.663 -17.982 18.412 2.010 46 (pi0) 11 111 44 0.152 0.292 -4.386 4.401 0.135 47 (omega) 11 223 44 0.123 0.028 -54.578 54.584 0.778 48 (Deltabar-) 11 -2214 44 -0.156 -0.032 -66.958 66.969 1.210 49 (rho0) 11 113 44 -0.766 0.908 -422.543 422.545 0.756 50 (string) 11 92 11 13.758 16.538 77.686 869.690 865.946 51 (K0) 11 313 50 0.655 -0.423 77.483 77.492 0.874 52 (Kbar0) 11 -313 50 0.491 -0.434 55.586 55.597 0.912 53 pi- 1 -211 50 0.463 0.118 19.005 19.012 0.140 54 (pi0) 11 111 50 0.041 0.129 4.755 4.759 0.135 55 pi+ 1 211 50 -0.171 -0.156 21.898 21.899 0.140 56 (rho0) 11 113 50 0.956 0.255 27.866 27.894 0.752 57 (omega) 11 223 50 0.525 1.171 16.893 16.960 0.782 58 (rho-) 11 -213 50 1.646 2.104 45.075 45.163 0.885 59 (rho+) 11 213 50 1.614 1.908 36.032 36.130 0.885 60 pi- 1 -211 50 0.851 2.188 23.562 23.679 0.140 61 (rho0) 11 113 50 2.770 4.313 68.756 68.952 0.834 62 K+ 1 321 50 2.491 2.790 41.988 42.157 0.494 63 (K-) 11 -323 50 0.112 1.339 21.593 21.653 0.888 64 (eta) 11 221 50 0.502 0.692 1.669 1.953 0.547 65 pi+ 1 211 50 1.317 0.204 7.608 7.725 0.140 66 (rho0) 11 113 50 0.240 0.374 1.027 1.389 0.822 67 (K0) 11 313 50 -0.169 -0.171 0.794 1.211 0.881 68 (Kbar0) 11 -313 50 0.343 0.624 -0.214 1.201 0.943 69 (K0) 11 313 50 -0.170 -0.303 -3.541 3.679 0.936 70 (Kbar0) 11 -313 50 0.035 0.035 -73.600 73.605 0.889 71 p+ 1 2212 50 0.164 0.428 -25.528 25.550 0.938 72 pi- 1 -211 50 -0.028 -0.368 -21.060 21.064 0.140 73 (Deltabar-) 11 -2214 50 -0.453 0.477 -58.215 58.233 1.264 74 (rho0) 11 113 50 0.290 -0.253 -5.624 5.696 0.813 75 (rho+) 11 213 50 0.096 -0.086 -9.711 9.749 0.860 76 n0 1 2112 50 -0.046 0.884 -4.234 4.426 0.940 77 pi- 1 -211 50 -0.047 0.520 -0.562 0.780 0.140 78 nbar0 1 -2112 50 -0.082 -0.003 -2.750 2.907 0.940 79 K+ 1 321 50 -0.094 -0.444 -2.826 2.905 0.494 80 (phi) 11 333 50 -0.025 0.176 -3.488 3.638 1.020 81 (phi) 11 333 50 -0.917 0.643 -19.130 19.190 1.022 82 K- 1 -321 50 0.276 -1.308 -65.921 65.936 0.494 83 (rho+) 11 213 50 0.082 -0.882 -97.502 97.508 0.597 84 (string) 11 92 32 -10.135 -16.071 488.761 523.399 186.273 85 (D0) 11 423 84 -8.462 -4.867 -6.146 11.708 2.007 86 K+ 1 321 84 -2.361 -2.136 -1.018 3.379 0.494 87 (K-) 11 -323 84 0.096 -0.663 -0.159 1.129 0.895 88 (omega) 11 223 84 -0.055 -0.036 -0.495 0.929 0.783 89 (pi0) 11 111 84 -0.208 -0.076 -0.219 0.339 0.135 90 pi+ 1 211 84 0.656 -0.878 1.155 1.599 0.140 91 (pi0) 11 111 84 0.137 -0.725 -0.275 0.799 0.135 92 pi- 1 -211 84 1.359 -1.300 0.309 1.911 0.140 93 (pi0) 11 111 84 0.251 0.045 0.246 0.379 0.135 94 K+ 1 321 84 0.398 -0.760 0.173 1.005 0.494 95 (Kbar0) 11 -311 84 2.024 -2.279 -0.139 3.091 0.498 96 (rho0) 11 113 84 0.520 -0.110 0.782 1.357 0.974 97 (omega) 11 223 84 -0.271 -0.133 1.276 1.535 0.798 98 (rho-) 11 -213 84 -0.322 -0.253 1.184 1.483 0.795 99 (eta') 11 331 84 0.062 0.213 2.329 2.528 0.958 100 (rho+) 11 213 84 0.084 -0.661 2.754 2.900 0.617 101 (rho0) 11 113 84 0.264 0.169 1.969 2.111 0.693 102 pi- 1 -211 84 -0.436 -0.033 6.832 6.847 0.140 103 pi+ 1 211 84 0.129 -0.088 2.564 2.572 0.140 104 (Sigma0) 11 3212 84 -0.471 -0.196 10.849 10.927 1.193 105 Lambdabar0 1 -3122 84 -0.076 -0.722 32.483 32.510 1.116 106 pi- 1 -211 84 -0.578 -0.323 29.679 29.687 0.140 107 (K+) 11 323 84 -0.965 0.500 35.353 35.381 0.891 108 K- 1 -321 84 -0.358 -0.346 49.227 49.232 0.494 109 (Delta++) 11 2224 84 -0.894 -0.631 170.545 170.553 1.271 110 (rho0) 11 113 84 -0.658 0.217 147.506 147.509 0.710 111 (D-) 11 -411 45 -2.710 -1.538 -16.584 16.977 1.869 112 (pi0) 11 111 45 -0.266 -0.125 -1.399 1.435 0.135 113 gamma 1 22 46 0.120 0.171 -1.944 1.956 0.000 114 gamma 1 22 46 0.031 0.122 -2.442 2.445 0.000 115 pi- 1 -211 47 0.020 0.065 -34.866 34.866 0.140 116 pi+ 1 211 47 -0.048 0.127 -7.134 7.137 0.140 117 (pi0) 11 111 47 0.151 -0.163 -12.578 12.581 0.135 118 nbar0 1 -2112 48 -0.199 0.164 -55.019 55.028 0.940 119 pi- 1 -211 48 0.042 -0.196 -11.939 11.941 0.140 120 pi+ 1 211 49 0.116 0.135 -74.328 74.328 0.140 121 pi- 1 -211 49 -0.882 0.772 -348.215 348.217 0.140 122 (K0) 11 311 51 0.207 -0.423 39.072 39.078 0.498 123 (pi0) 11 111 51 0.448 0.000 38.412 38.414 0.135 124 K- 1 -321 52 0.276 -0.120 44.789 44.792 0.494 125 pi+ 1 211 52 0.216 -0.314 10.797 10.805 0.140 126 gamma 1 22 54 -0.019 0.000 0.106 0.108 0.000 127 gamma 1 22 54 0.060 0.129 4.649 4.651 0.000 128 pi- 1 -211 56 0.979 0.290 20.209 20.236 0.140 129 pi+ 1 211 56 -0.024 -0.036 7.657 7.658 0.140 130 pi+ 1 211 57 0.384 0.546 9.343 9.368 0.140 131 pi- 1 -211 57 0.189 0.215 2.032 2.057 0.140 132 (pi0) 11 111 57 -0.048 0.409 5.519 5.536 0.135 133 pi- 1 -211 58 1.376 1.107 28.012 28.068 0.140 134 (pi0) 11 111 58 0.269 0.998 17.063 17.095 0.135 135 pi+ 1 211 59 -0.049 0.066 2.711 2.716 0.140 136 (pi0) 11 111 59 1.663 1.842 33.321 33.414 0.135 137 pi+ 1 211 61 1.779 3.393 51.152 51.295 0.140 138 pi- 1 -211 61 0.990 0.920 17.605 17.657 0.140 139 (Kbar0) 11 -311 63 0.292 0.606 10.302 10.336 0.498 140 pi- 1 -211 63 -0.180 0.733 11.290 11.316 0.140 141 (pi0) 11 111 64 0.190 0.445 0.995 1.115 0.135 142 (pi0) 11 111 64 0.059 0.075 0.220 0.276 0.135 143 (pi0) 11 111 64 0.252 0.171 0.453 0.563 0.135 144 pi+ 1 211 66 -0.256 0.286 0.506 0.650 0.140 145 pi- 1 -211 66 0.496 0.089 0.521 0.738 0.140 146 K+ 1 321 67 0.154 -0.129 0.613 0.812 0.494 147 pi- 1 -211 67 -0.323 -0.042 0.181 0.398 0.140 148 K- 1 -321 68 0.098 0.721 -0.118 0.887 0.494 149 pi+ 1 211 68 0.245 -0.097 -0.096 0.313 0.140 150 K+ 1 321 69 -0.085 -0.165 -3.354 3.395 0.494 151 pi- 1 -211 69 -0.084 -0.138 -0.187 0.283 0.140 152 (Kbar0) 11 -311 70 0.120 0.205 -64.656 64.658 0.498 153 (pi0) 11 111 70 -0.085 -0.170 -8.944 8.947 0.135 154 pbar- 1 -2212 73 -0.144 0.201 -35.525 35.538 0.938 155 (pi0) 11 111 73 -0.309 0.276 -22.691 22.695 0.135 156 pi- 1 -211 74 -0.087 0.168 -2.922 2.932 0.140 157 pi+ 1 211 74 0.377 -0.421 -2.702 2.764 0.140 158 pi+ 1 211 75 0.126 -0.188 -9.306 9.310 0.140 159 (pi0) 11 111 75 -0.030 0.102 -0.404 0.439 0.135 160 K+ 1 321 80 0.004 0.201 -1.598 1.685 0.494 161 K- 1 -321 80 -0.029 -0.026 -1.890 1.953 0.494 162 K_L0 1 130 81 -0.356 0.234 -9.211 9.234 0.498 163 K_S0 1 310 81 -0.561 0.409 -9.919 9.956 0.498 164 pi+ 1 211 83 -0.097 -0.020 -20.130 20.131 0.140 165 (pi0) 11 111 83 0.179 -0.862 -77.372 77.377 0.135 166 (D0) 11 421 85 -7.405 -4.184 -5.397 10.244 1.865 167 gamma 1 22 85 -1.057 -0.683 -0.749 1.465 0.000 168 (Kbar0) 11 -311 87 -0.196 -0.243 -0.082 0.593 0.498 169 pi- 1 -211 87 0.292 -0.421 -0.076 0.536 0.140 170 pi- 1 -211 88 -0.091 0.109 0.115 0.230 0.140 171 pi+ 1 211 88 0.036 -0.135 -0.295 0.355 0.140 172 (pi0) 11 111 88 -0.001 -0.010 -0.316 0.344 0.135 173 gamma 1 22 89 -0.131 -0.109 -0.114 0.205 0.000 174 gamma 1 22 89 -0.076 0.033 -0.105 0.134 0.000 175 gamma 1 22 91 0.113 -0.344 -0.184 0.406 0.000 176 gamma 1 22 91 0.023 -0.381 -0.090 0.393 0.000 177 gamma 1 22 93 0.139 0.038 0.049 0.152 0.000 178 gamma 1 22 93 0.112 0.007 0.197 0.227 0.000 179 K_L0 1 130 95 2.024 -2.279 -0.139 3.091 0.498 180 pi- 1 -211 96 0.041 -0.306 0.747 0.820 0.140 181 pi+ 1 211 96 0.479 0.196 0.035 0.537 0.140 182 pi+ 1 211 97 0.101 -0.104 0.077 0.216 0.140 183 pi- 1 -211 97 -0.106 0.123 0.539 0.580 0.140 184 (pi0) 11 111 97 -0.265 -0.152 0.659 0.739 0.135 185 pi- 1 -211 98 0.143 0.135 0.171 0.296 0.140 186 (pi0) 11 111 98 -0.465 -0.388 1.013 1.188 0.135 187 pi- 1 -211 99 0.001 0.220 0.843 0.883 0.140 188 pi+ 1 211 99 0.052 0.019 0.222 0.268 0.140 189 (eta) 11 221 99 0.010 -0.026 1.263 1.377 0.547 190 pi+ 1 211 100 0.180 -0.251 0.508 0.611 0.140 191 (pi0) 11 111 100 -0.096 -0.410 2.246 2.289 0.135 192 pi+ 1 211 101 0.120 -0.228 0.546 0.620 0.140 193 pi- 1 -211 101 0.144 0.397 1.423 1.491 0.140 194 Lambda0 1 3122 104 -0.376 -0.199 9.665 9.739 1.116 195 gamma 1 22 104 -0.094 0.003 1.184 1.188 0.000 196 (K0) 11 311 107 -0.629 0.033 22.474 22.488 0.498 197 pi+ 1 211 107 -0.336 0.467 12.879 12.893 0.140 198 p+ 1 2212 109 -0.840 -0.362 152.420 152.425 0.938 199 pi+ 1 211 109 -0.054 -0.269 18.125 18.128 0.140 200 pi- 1 -211 110 -0.091 0.354 54.961 54.963 0.140 201 pi+ 1 211 110 -0.568 -0.137 92.544 92.546 0.140 202 mu- 1 13 111 -0.884 -0.996 -6.983 7.110 0.106 203 nu_mubar 1 -14 111 -1.647 -0.436 -6.466 6.687 0.000 204 (K0) 11 311 111 -0.179 -0.105 -3.135 3.181 0.498 205 gamma 1 22 112 -0.095 0.015 -0.302 0.316 0.000 206 gamma 1 22 112 -0.172 -0.140 -1.097 1.119 0.000 207 gamma 1 22 117 0.173 -0.128 -9.726 9.728 0.000 208 gamma 1 22 117 -0.022 -0.035 -2.852 2.853 0.000 209 K_S0 1 310 122 0.207 -0.423 39.072 39.078 0.498 210 gamma 1 22 123 0.207 0.067 17.223 17.224 0.000 211 e+ 1 -11 123 0.205 -0.057 18.020 18.021 0.001 212 e- 1 11 123 0.036 -0.010 3.169 3.169 0.001 213 gamma 1 22 132 -0.003 0.322 4.736 4.747 0.000 214 gamma 1 22 132 -0.044 0.087 0.783 0.789 0.000 215 gamma 1 22 134 -0.014 0.057 1.144 1.145 0.000 216 gamma 1 22 134 0.283 0.941 15.919 15.949 0.000 217 gamma 1 22 136 1.632 1.784 32.229 32.320 0.000 218 gamma 1 22 136 0.031 0.057 1.092 1.094 0.000 219 K_L0 1 130 139 0.292 0.606 10.302 10.336 0.498 220 gamma 1 22 141 0.044 0.014 0.118 0.126 0.000 221 gamma 1 22 141 0.147 0.431 0.877 0.988 0.000 222 gamma 1 22 142 0.001 0.066 0.204 0.214 0.000 223 gamma 1 22 142 0.059 0.010 0.017 0.062 0.000 224 gamma 1 22 143 0.107 0.154 0.251 0.313 0.000 225 gamma 1 22 143 0.145 0.018 0.202 0.250 0.000 226 K_L0 1 130 152 0.120 0.205 -64.656 64.658 0.498 227 gamma 1 22 153 -0.001 0.008 -2.510 2.510 0.000 228 gamma 1 22 153 -0.084 -0.178 -6.434 6.437 0.000 229 gamma 1 22 155 -0.157 0.117 -14.134 14.135 0.000 230 gamma 1 22 155 -0.152 0.159 -8.557 8.560 0.000 231 gamma 1 22 159 0.030 0.062 -0.074 0.101 0.000 232 gamma 1 22 159 -0.060 0.040 -0.331 0.339 0.000 233 gamma 1 22 165 0.009 -0.059 -9.031 9.031 0.000 234 gamma 1 22 165 0.170 -0.803 -68.341 68.346 0.000 235 (Kbar0) 11 -311 166 -3.195 -1.340 -1.693 3.888 0.498 236 pi+ 1 211 166 -0.696 -0.502 -0.713 1.125 0.140 237 pi- 1 -211 166 -1.347 -0.826 -1.008 1.879 0.140 238 (pi0) 11 111 166 -1.566 -1.036 -1.650 2.503 0.135 239 (pi0) 11 111 166 -0.601 -0.480 -0.333 0.849 0.135 240 K_L0 1 130 168 -0.196 -0.243 -0.082 0.593 0.498 241 gamma 1 22 172 0.027 0.028 -0.020 0.044 0.000 242 gamma 1 22 172 -0.028 -0.038 -0.296 0.300 0.000 243 gamma 1 22 184 -0.152 -0.103 0.529 0.560 0.000 244 gamma 1 22 184 -0.113 -0.049 0.131 0.179 0.000 245 gamma 1 22 186 -0.254 -0.285 0.691 0.789 0.000 246 gamma 1 22 186 -0.211 -0.103 0.322 0.399 0.000 247 gamma 1 22 189 0.151 0.130 1.080 1.098 0.000 248 gamma 1 22 189 -0.141 -0.156 0.183 0.279 0.000 249 gamma 1 22 191 -0.125 -0.292 1.737 1.766 0.000 250 gamma 1 22 191 0.029 -0.117 0.509 0.523 0.000 251 K_L0 1 130 196 -0.629 0.033 22.474 22.488 0.498 252 K_L0 1 GenInputManager Begin processing 9th record. Run 222530, Trigger 8 130 204 -0.179 -0.105 -3.135 3.181 0.498 253 K_L0 1 130 235 -3.195 -1.340 -1.693 3.888 0.498 254 gamma 1 22 238 -1.260 -0.787 -1.252 1.943 0.000 255 gamma 1 22 238 -0.305 -0.250 -0.397 0.560 0.000 256 gamma 1 22 239 -0.061 -0.082 -0.005 0.102 0.000 257 gamma 1 22 239 -0.541 -0.398 -0.327 0.747 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 8 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 -0.173 -0.182 196.250 196.250 0.000 4 !dbar! 21 -1 2 0.523 -0.358 -132.080 132.082 0.000 5 !u! 21 2 3 11.565 0.459 128.837 129.355 0.000 6 !g! 21 21 4 -3.678 -3.459 -22.370 22.933 0.000 7 !u! 21 2 0 25.438 27.306 110.878 116.990 0.330 8 !g! 21 21 0 -17.551 -30.306 -4.412 35.298 0.000 ============================================================================== 9 (d) A 12 1 4 6.188 5.687 2.032 8.653 0.330 10 (g) I 12 21 4 2.952 1.781 0.740 3.527 0.000 11 (g) I 12 21 0 0.520 -1.196 -30.546 30.574 0.000 12 (g) I 12 21 0 -0.512 -0.156 -28.111 28.116 0.000 13 (g) I 12 21 0 1.366 1.191 -71.239 71.262 0.000 14 (g) I 12 21 0 0.089 -3.074 -6.725 7.395 0.000 15 (g) I 12 21 0 -1.366 -1.191 -0.812 1.986 0.000 16 (dbar) V 11 -1 8 2.560 -4.957 -1.131 5.702 0.330 17 (dbar) A 12 -1 4 -0.894 -1.938 0.870 2.329 0.330 18 (g) I 12 21 4 -2.630 -1.705 5.445 6.283 0.000 19 (g) I 12 21 4 1.092 0.654 -5.584 5.727 0.000 20 (g) I 12 21 4 0.159 -1.130 -7.452 7.539 0.000 21 (uu_1bar) V 11 -2203 2 -0.523 0.358 -642.915 642.916 0.771 22 (dbar) A 12 -1 4 0.486 0.969 -82.384 82.392 0.330 23 (g) I 12 21 4 -0.939 -0.386 -2.901 3.073 0.000 24 (g) I 12 21 0 -5.217 -0.619 -25.395 25.933 0.000 25 (g) I 12 21 0 -1.041 -0.264 -7.747 7.821 0.000 26 (g) I 12 21 0 -1.583 0.105 -9.326 9.460 0.000 27 (g) I 12 21 0 -1.523 1.208 -2.354 3.053 0.000 28 (g) I 12 21 0 -0.520 1.196 -1.778 2.205 0.000 29 (g) I 12 21 0 0.512 0.156 -0.558 0.773 0.000 30 (g) I 12 21 0 1.200 1.783 0.964 2.356 0.000 31 (g) I 12 21 0 0.837 0.189 1.579 1.797 0.000 32 (g) I 12 21 7 1.665 1.864 2.777 3.736 0.000 33 (g) I 12 21 7 1.658 2.334 8.372 8.848 0.000 34 (g) I 12 21 7 6.899 6.269 23.079 24.891 0.000 35 (g) I 12 21 7 1.638 1.948 6.836 7.294 0.000 36 (u) V 11 2 7 12.501 13.633 65.789 68.341 0.330 37 (s) A 12 3 8 -2.029 0.272 2.090 2.968 0.500 38 (g) I 12 21 0 -0.401 -0.220 0.289 0.541 0.000 39 (g) I 12 21 0 -1.200 -1.783 1.633 2.699 0.000 40 (g) I 12 21 0 2.243 -4.250 2.708 5.516 0.000 41 (g) I 12 21 0 2.400 -1.822 7.280 7.879 0.000 42 (g) I 12 21 0 -0.089 3.074 21.134 21.357 0.000 43 (g) I 12 21 0 -2.243 4.250 47.770 48.011 0.000 44 (g) I 12 21 0 -1.057 0.520 21.605 21.637 0.000 45 (g) I 12 21 0 -0.499 0.379 11.501 11.518 0.000 46 (g) I 12 21 0 -0.837 -0.189 17.087 17.108 0.000 47 (g) I 12 21 0 -2.400 1.822 177.547 177.573 0.000 48 (g) I 12 21 0 0.116 0.558 16.936 16.946 0.000 49 (g) I 12 21 0 1.861 -0.258 40.744 40.788 0.000 50 (g) I 12 21 0 5.217 0.619 89.248 89.402 0.000 51 (g) I 12 21 0 0.499 -0.379 6.164 6.196 0.000 52 (g) I 12 21 0 -0.116 -0.558 6.993 7.016 0.000 53 (g) I 12 21 0 1.057 -0.520 10.431 10.497 0.000 54 (g) I 12 21 3 0.038 0.168 0.147 0.226 0.000 55 (g) I 12 21 3 -0.648 0.371 1.527 1.700 0.000 56 (g) I 12 21 3 -12.016 -1.513 4.894 13.062 0.000 57 (g) I 12 21 3 0.174 -0.021 -0.099 0.201 0.000 58 (g) I 12 21 3 -0.040 -1.786 8.182 8.375 0.000 59 (g) I 12 21 3 -3.359 1.721 13.896 14.399 0.000 60 (g) I 12 21 3 0.934 0.000 3.261 3.392 0.000 61 (g) I 12 21 3 0.968 -0.411 15.128 15.164 0.000 62 (ud_0) V 11 2101 1 0.173 0.182 286.741 286.742 0.579 63 (sbar) A 12 -3 8 -0.031 -0.753 0.755 1.178 0.500 64 (g) I 12 21 8 -0.271 -0.126 -0.116 0.320 0.000 65 (g) I 12 21 8 -0.830 -2.291 -0.110 2.439 0.000 66 (g) I 12 21 8 -3.889 -4.469 -0.592 5.954 0.000 67 (d) V 11 1 8 -11.987 -16.722 -1.283 20.617 0.330 68 (d) A 12 1 0 -1.856 3.380 3.306 5.079 0.000 69 (g) I 12 21 0 -1.861 0.258 1.587 2.459 0.000 70 (g) I 12 21 0 1.041 0.264 0.469 1.171 0.000 71 (g) I 12 21 0 0.401 0.220 -0.031 0.458 0.000 72 (g) I 12 21 0 1.583 -0.105 0.220 1.602 0.000 73 (g) I 12 21 0 1.523 -1.208 -0.225 1.957 0.000 74 (dbar) V 11 -1 0 1.856 -3.380 -4.604 6.006 0.000 75 (s) A 12 3 0 0.524 0.284 -2.306 2.381 0.000 76 (sbar) V 11 -3 0 -0.524 -0.284 -3.433 3.484 0.000 77 (cluster) 11 91 75 0.000 0.000 -5.738 5.865 1.214 78 (eta') 11 331 77 0.000 0.000 -4.527 4.627 0.958 79 (dbar) A 12 -1 22 0.486 0.969 -82.384 82.392 0.330 80 (g) I 12 21 77 0.000 0.000 -1.211 1.238 0.256 81 (g) I 12 21 23 -0.939 -0.386 -2.901 3.073 0.000 82 (g) I 12 21 24 -5.217 -0.619 -25.395 25.933 0.000 83 (g) I 12 21 25 -1.041 -0.264 -7.747 7.821 0.000 84 (g) I 12 21 26 -1.583 0.105 -9.326 9.460 0.000 85 (g) I 12 21 27 -1.523 1.208 -2.354 3.053 0.000 86 (g) I 12 21 28 -0.520 1.196 -1.778 2.205 0.000 87 (g) I 12 21 29 0.512 0.156 -0.558 0.773 0.000 88 (g) I 12 21 30 1.200 1.783 0.964 2.356 0.000 89 (g) I 12 21 31 0.837 0.189 1.579 1.797 0.000 90 (g) I 12 21 32 1.665 1.864 2.777 3.736 0.000 91 (g) I 12 21 33 1.658 2.334 8.372 8.848 0.000 92 (g) I 12 21 34 6.899 6.269 23.079 24.891 0.000 93 (g) I 12 21 35 1.638 1.948 6.836 7.294 0.000 94 (u) V 11 2 36 12.501 13.633 65.789 68.341 0.330 ============================================================================== 95 (string) 11 92 9 11.798 -1.915 -135.791 157.215 78.322 96 pi- 1 -211 95 2.255 1.594 0.202 2.773 0.140 97 pi+ 1 211 95 2.675 2.241 1.045 3.645 0.140 98 (rho-) 11 -213 95 2.834 2.255 1.389 3.956 0.773 99 pi+ 1 211 95 0.942 1.358 -0.410 1.709 0.140 100 (eta) 11 221 95 0.430 -0.463 -0.737 1.115 0.547 101 (rho-) 11 -213 95 -0.321 0.211 -5.751 5.804 0.678 102 (eta) 11 221 95 0.171 -0.408 -1.811 1.943 0.547 103 pi+ 1 211 95 0.559 0.087 -2.612 2.677 0.140 104 (pi0) 11 111 95 -0.388 0.282 -12.662 12.672 0.135 105 (eta) 11 221 95 0.713 -0.091 -16.347 16.372 0.547 106 n0 1 2112 95 0.242 0.388 -27.792 27.812 0.940 107 (eta) 11 221 95 -0.132 -0.265 -10.432 10.450 0.547 108 Lambdabar0 1 -3122 95 0.092 -0.301 -38.414 38.431 1.116 109 K- 1 -321 95 0.488 0.269 -4.097 4.164 0.494 110 (K+) 11 323 95 -0.553 -1.334 -5.869 6.115 0.926 111 K- 1 -321 95 1.183 -0.199 -5.020 5.185 0.494 112 (rho+) 11 213 95 -1.447 -1.172 -2.642 3.275 0.526 113 pi- 1 -211 95 0.492 -0.738 -1.966 2.162 0.140 114 (pi0) 11 111 95 -0.282 -0.900 -0.691 1.177 0.135 115 p+ 1 2212 95 -0.025 -1.398 -0.024 1.684 0.938 116 nbar0 1 -2112 95 1.870 -3.327 -1.150 4.095 0.940 117 (string) 11 92 17 -2.796 -3.762 -649.635 664.793 141.077 118 (rho+) 11 213 117 -0.494 -1.278 0.932 1.798 0.698 119 (rho-) 11 -213 117 -1.339 -1.232 2.591 3.340 1.064 120 pi+ 1 211 117 -1.012 0.044 0.422 1.106 0.140 121 pbar- 1 -2212 117 0.222 -0.740 0.767 1.437 0.938 122 n0 1 2112 117 -0.180 -0.116 0.338 1.021 0.940 123 (eta) 11 221 117 -0.194 0.043 0.196 0.615 0.547 124 pi+ 1 211 117 -0.172 -0.283 -1.769 1.805 0.140 125 (pi0) 11 111 117 -0.162 0.247 -0.527 0.619 0.135 126 pbar- 1 -2212 117 0.592 -0.394 -1.870 2.210 0.938 127 n0 1 2112 117 0.340 0.068 -8.520 8.579 0.940 128 (Kbar0) 11 -311 117 0.308 -0.402 -5.684 5.728 0.498 129 (K+) 11 323 117 -0.077 0.247 -19.761 19.783 0.911 130 (Deltabar--) 11 -2224 117 -0.628 0.035 -616.750 616.752 1.263 131 (string) 11 92 37 -11.255 0.225 814.837 830.913 162.270 132 (phi) 11 333 131 -1.414 -0.633 1.430 2.341 1.019 133 (Kbar0) 11 -311 131 -1.062 -0.107 1.489 1.898 0.498 134 (K0) 11 313 131 0.040 -0.820 0.778 1.505 0.993 135 (K-) 11 -323 131 0.177 -1.233 0.840 1.778 0.951 136 (rho+) 11 213 131 0.331 -1.542 1.819 2.561 0.872 137 (Delta-) 11 1114 131 0.864 -1.874 2.622 3.575 1.284 138 pi+ 1 211 131 0.095 0.730 2.583 2.690 0.140 139 nbar0 1 -2112 131 0.979 -0.872 1.832 2.442 0.940 140 (omega) 11 223 131 0.755 -0.405 3.315 3.511 0.778 141 (rho0) 11 113 131 -0.138 0.435 6.215 6.285 0.819 142 (rho-) 11 -213 131 0.126 1.460 15.806 15.894 0.792 143 pi+ 1 211 131 -0.804 0.875 13.103 13.158 0.140 144 (rho-) 11 -213 131 -0.285 1.045 10.274 10.372 0.921 145 (K+) 11 323 131 -0.620 1.491 18.759 18.851 0.932 146 K- 1 -321 131 -1.308 0.801 16.622 16.700 0.494 147 pi+ 1 211 131 -0.568 0.889 22.208 22.233 0.140 148 n0 1 2112 131 -0.526 0.467 45.988 46.003 0.940 149 nbar0 1 -2112 131 -0.669 0.050 31.998 32.019 0.940 150 (eta') 11 331 131 -0.457 0.772 39.957 39.979 0.958 151 (rho-) 11 -213 131 -0.516 -0.036 50.972 50.981 0.815 152 (rho+) 11 213 131 -0.648 0.306 35.012 35.027 0.733 153 (pi0) 11 111 131 3.829 0.350 81.027 81.118 0.135 154 n0 1 2112 131 2.164 0.433 44.096 44.161 0.940 155 (rho-) 11 -213 131 1.216 -0.542 16.123 16.195 0.739 156 (Deltabar+) 11 -1114 131 0.158 0.201 9.018 9.117 1.314 157 (Delta-) 11 1114 131 0.322 0.289 3.905 4.140 1.306 158 pi+ 1 211 131 -0.821 -0.545 2.804 2.975 0.140 159 pbar- 1 -2212 131 -0.025 -0.443 1.536 1.854 0.938 160 K+ 1 321 131 -1.126 -0.523 1.385 1.924 0.494 161 (phi) 11 333 131 -3.275 0.591 0.980 3.616 1.020 162 K- 1 -321 131 -1.035 -0.208 0.636 1.327 0.494 163 (pi0) 11 111 131 -5.208 -0.790 1.912 5.606 0.135 164 pi+ 1 211 131 -0.049 -0.250 0.251 0.384 0.140 165 pi- 1 -211 131 -0.456 -0.504 3.648 3.714 0.140 166 (rho+) 11 213 131 -0.359 0.276 2.616 2.871 1.095 167 pi- 1 -211 131 -0.378 -0.707 2.338 2.476 0.140 168 pi+ 1 211 131 -0.535 0.804 2.534 2.715 0.140 169 (rho-) 11 -213 131 -0.116 -0.684 4.750 4.853 0.714 170 (omega) 11 223 131 -1.209 0.452 6.697 6.866 0.793 171 K+ 1 321 131 0.118 -0.069 2.220 2.278 0.494 172 (Kbar0) 11 -313 131 0.523 -0.278 12.250 12.298 0.911 173 n0 1 2112 131 -0.595 0.745 12.760 12.830 0.940 174 Lambdabar0 1 -3122 131 0.446 -0.016 19.222 19.259 1.116 175 (Kbar0) 11 -313 131 0.417 -0.292 22.347 22.370 0.873 176 n0 1 2112 131 0.385 0.133 236.161 236.163 0.940 177 (string) 11 92 63 -17.007 -24.361 -1.346 30.509 6.802 178 (K0) 11 313 177 -0.686 -0.846 0.272 1.440 0.903 179 (omega) 11 223 177 -1.522 -2.901 -0.204 3.372 0.774 180 (Deltabar0) 11 -2114 177 -1.945 -3.718 -0.143 4.342 1.106 181 pi- 1 -211 177 -6.126 -7.473 -0.358 9.671 0.140 182 (Delta+) 11 2214 177 -6.728 -9.424 -0.913 11.684 1.266 183 (string) 11 92 68 2.685 -0.571 0.721 18.732 18.516 184 n0 1 2112 183 -1.190 1.298 1.560 2.533 0.940 185 pbar- 1 -2212 183 -1.332 2.385 2.875 4.076 0.938 186 (rho+) 11 213 183 -0.353 0.257 0.574 1.164 0.914 187 (pi0) 11 111 183 -0.379 -0.132 0.186 0.462 0.135 188 pi- 1 -211 183 2.181 -0.314 -0.111 2.211 0.140 189 pi+ 1 211 183 1.418 0.461 0.068 1.500 0.140 190 (rho0) 11 113 183 2.340 -4.527 -4.430 6.787 0.691 191 pi+ 1 211 78 -0.005 -0.024 -0.348 0.376 0.140 192 pi- 1 -211 78 0.058 0.141 -1.496 1.510 0.140 193 (eta) 11 221 78 -0.053 -0.116 -2.682 2.741 0.547 194 (string) 11 92 79 16.575 30.383 -24.259 253.212 249.659 195 pi+ 1 211 194 0.329 -0.236 -8.778 8.788 0.140 196 (rho-) 11 -213 194 0.280 1.091 -54.387 54.404 0.779 197 (Kbar0) 11 -313 194 -0.226 -0.139 -12.426 12.461 0.884 198 Lambdabar0 1 -3122 194 -1.389 -0.152 -7.317 7.533 1.116 199 pi- 1 -211 194 -2.579 0.246 -25.540 25.672 0.140 200 (Delta++) 11 2224 194 -5.232 -0.979 -19.140 19.911 1.327 201 (rho-) 11 -213 194 0.041 0.756 -2.607 2.868 0.924 202 (omega) 11 223 194 0.183 1.094 -0.762 1.562 0.793 203 (pi0) 11 111 194 0.214 -0.188 -0.259 0.408 0.135 204 pi+ 1 211 194 -1.349 1.066 -0.961 1.974 0.140 205 pi- 1 -211 194 -0.013 0.698 -0.459 0.847 0.140 206 pi+ 1 211 194 0.475 -0.285 -0.371 0.681 0.140 207 (K-) 11 -323 194 1.287 1.625 3.076 3.815 0.894 208 (K0) 11 313 194 0.773 0.414 1.346 1.802 0.817 209 (rho+) 11 213 194 0.877 1.307 2.191 2.817 0.812 210 pi- 1 -211 194 2.430 1.991 7.608 8.232 0.140 211 (omega) 11 223 194 4.261 5.193 19.968 21.082 0.771 212 pi+ 1 211 194 0.796 0.788 1.796 2.121 0.140 213 (K-) 11 -323 194 2.002 1.670 6.053 6.653 0.911 214 (phi) 11 333 194 7.518 7.521 35.660 37.225 1.011 215 K+ 1 321 194 5.896 6.903 31.051 32.355 0.494 216 pi- 1 -211 98 0.349 0.587 0.150 0.713 0.140 217 (pi0) 11 111 98 2.486 1.668 1.240 3.243 0.135 218 pi+ 1 211 100 0.177 -0.045 -0.307 0.383 0.140 219 pi- 1 -211 100 0.098 -0.167 -0.076 0.250 0.140 220 (pi0) 11 111 100 0.155 -0.252 -0.355 0.481 0.135 221 pi- 1 -211 101 -0.238 0.428 -3.560 3.596 0.140 222 (pi0) 11 111 101 -0.084 -0.217 -2.191 2.207 0.135 223 gamma 1 22 102 0.292 -0.156 -1.446 1.483 0.000 224 gamma 1 22 102 -0.121 -0.252 -0.365 0.460 0.000 225 gamma 1 22 104 -0.326 0.190 -8.591 8.599 0.000 226 gamma 1 22 104 -0.062 0.091 -4.071 4.073 0.000 227 pi- 1 -211 105 0.129 -0.032 -6.125 6.128 0.140 228 pi+ 1 211 105 0.298 0.005 -6.353 6.361 0.140 229 (pi0) 11 111 105 0.286 -0.064 -3.869 3.883 0.135 230 (pi0) 11 111 107 0.003 -0.123 -2.469 2.476 0.135 231 (pi0) 11 111 107 -0.102 0.020 -5.483 5.485 0.135 232 (pi0) 11 111 107 -0.033 -0.162 -2.480 2.489 0.135 233 (K0) 11 311 110 -0.632 -0.751 -4.100 4.245 0.498 234 pi+ 1 211 110 0.079 -0.583 -1.769 1.870 0.140 235 pi+ 1 211 112 -1.297 -0.869 -2.219 2.717 0.140 236 (pi0) 11 111 112 -0.150 -0.303 -0.423 0.558 0.135 237 gamma 1 22 114 -0.108 -0.176 -0.122 0.240 0.000 238 gamma 1 22 114 -0.174 -0.724 -0.569 0.937 0.000 239 pi+ 1 211 118 -0.352 -1.233 0.941 1.596 0.140 240 (pi0) 11 111 118 -0.143 -0.046 -0.009 0.202 0.135 241 pi- 1 -211 119 0.122 -0.288 0.268 0.435 0.140 242 (pi0) 11 111 119 -1.461 -0.943 2.323 2.905 0.135 243 gamma 1 22 123 -0.277 -0.121 0.281 0.413 0.000 244 gamma 1 22 123 0.083 0.164 -0.085 0.202 0.000 245 gamma 1 22 125 -0.136 0.239 -0.525 0.592 0.000 246 gamma 1 22 125 -0.025 0.008 -0.002 0.027 0.000 247 K_L0 1 130 128 0.308 -0.402 -5.684 5.728 0.498 248 (K0) 11 311 129 -0.227 0.229 -8.431 8.452 0.498 249 pi+ 1 211 129 0.150 0.018 -11.329 11.331 0.140 250 pbar- 1 -2212 130 -0.340 0.181 -516.661 516.662 0.938 251 pi- 1 -211 130 -0.289 -0.146 -100.089 100.090 0.140 252 K_L0 1 130 132 -0.525 -0.240 0.577 0.956 0.498 253 K_S0 1 310 132 -0.889 -0.393 0.853 1.386 0.498 254 K_L0 1 130 133 -1.062 -0.107 1.489 1.898 0.498 255 K+ 1 321 134 0.015 -0.088 0.132 0.519 0.494 256 pi- 1 -211 134 0.025 -0.731 0.646 0.986 0.140 257 (Kbar0) 11 -311 135 0.188 -1.126 0.954 1.569 0.498 258 pi- 1 -211 135 -0.011 -0.107 -0.114 0.210 0.140 259 pi+ 1 211 136 0.586 -1.132 1.133 1.711 0.140 260 (pi0) 11 111 136 -0.255 -0.411 0.686 0.850 0.135 261 n0 1 2112 137 0.378 -1.392 1.710 2.426 0.940 262 pi- 1 -211 137 0.486 -0.482 0.912 1.149 0.140 263 pi+ 1 211 140 0.363 -0.016 0.614 0.727 0.140 264 pi- 1 -211 140 0.367 -0.328 1.830 1.900 0.140 265 (pi0) 11 111 140 0.025 -0.061 0.871 0.884 0.135 266 pi- 1 -211 141 -0.082 0.409 6.027 6.043 0.140 267 pi+ 1 211 141 -0.056 0.026 0.188 0.242 0.140 268 pi- 1 -211 142 0.012 1.225 14.607 14.659 0.140 269 (pi0) 11 111 142 0.114 0.235 1.200 1.235 0.135 270 pi- 1 -211 144 0.090 0.011 3.809 3.813 0.140 271 (pi0) 11 111 144 -0.375 1.033 6.465 6.559 0.135 272 K+ 1 321 145 -0.343 0.388 6.658 6.696 0.494 273 (pi0) 11 111 145 -0.277 1.103 12.101 12.155 0.135 274 pi+ 1 211 150 -0.043 0.119 11.542 11.544 0.140 275 pi- 1 -211 150 -0.091 0.120 8.938 8.940 0.140 276 (eta) 11 221 150 -0.322 0.533 19.477 19.495 0.547 277 pi- 1 -211 151 -0.545 0.198 43.695 43.699 0.140 278 (pi0) 11 111 151 0.028 -0.234 7.277 7.282 0.135 279 pi+ 1 211 152 0.078 0.135 3.750 3.756 0.140 280 (pi0) 11 111 152 -0.726 0.172 31.262 31.271 0.135 281 gamma 1 22 153 2.586 0.250 56.038 56.098 0.000 282 gamma 1 22 153 1.243 0.100 24.989 25.020 0.000 283 pi- 1 -211 155 0.377 -0.078 8.595 8.604 0.140 284 (pi0) 11 111 155 0.839 -0.464 7.529 7.591 0.135 285 nbar0 1 -2112 156 0.105 -0.113 7.457 7.517 0.940 286 pi+ 1 211 156 0.053 0.314 1.561 1.599 0.140 287 n0 1 2112 157 0.089 0.465 3.003 3.181 0.940 288 pi- 1 -211 157 0.233 -0.176 0.902 0.958 0.140 289 K_L0 1 130 161 -1.271 0.223 0.374 1.433 0.498 290 K_S0 1 310 161 -2.003 0.368 0.606 2.183 0.498 291 gamma 1 22 163 -0.734 -0.099 0.221 0.773 0.000 292 gamma 1 22 163 -4.474 -0.691 1.690 4.833 0.000 293 pi+ 1 211 166 0.360 -0.008 0.674 0.777 0.140 294 (pi0) 11 111 166 -0.720 0.284 1.941 2.094 0.135 295 pi- 1 -211 169 -0.178 -0.066 2.614 2.625 0.140 296 (pi0) 11 111 169 0.062 -0.618 2.136 2.229 0.135 297 pi+ 1 211 170 -0.592 0.437 3.497 3.576 0.140 298 pi- 1 -211 170 -0.347 -0.005 0.972 1.041 0.140 299 (pi0) 11 111 170 -0.270 0.021 2.228 2.249 0.135 300 (Kbar0) 11 -311 172 0.583 -0.007 9.526 9.557 0.498 301 (pi0) 11 111 172 -0.059 -0.271 2.723 2.741 0.135 302 K- 1 -321 175 0.313 -0.029 18.735 18.744 0.494 303 pi+ 1 211 175 0.103 -0.263 3.612 3.626 0.140 304 (K0) 11 311 178 -0.748 -0.620 0.054 1.093 0.498 305 (pi0) 11 111 178 0.062 -0.226 0.218 0.347 0.135 306 pi- 1 -211 179 -0.368 -0.428 -0.113 0.593 0.140 307 pi+ 1 211 179 -1.022 -2.186 -0.183 2.424 0.140 308 (pi0) 11 111 179 -0.132 -0.286 0.093 0.355 0.135 309 pbar- 1 -2212 180 -1.749 -3.246 -0.057 3.805 0.938 310 pi+ 1 211 180 -0.196 -0.472 -0.086 0.537 0.140 311 n0 1 2112 182 -3.982 -5.853 -0.579 7.165 0.940 312 pi+ 1 211 182 -2.746 -3.571 -0.333 4.519 0.140 313 pi+ 1 211 186 0.025 -0.177 0.523 0.570 0.140 314 (pi0) 11 111 186 -0.378 0.434 0.050 0.594 0.135 315 gamma 1 22 187 -0.027 0.024 0.003 0.036 0.000 316 gamma 1 22 187 -0.352 -0.156 0.183 0.426 0.000 317 pi+ 1 211 190 0.232 -0.907 -0.704 1.180 0.140 318 pi- 1 -211 190 2.107 -3.620 -3.726 5.608 0.140 319 gamma 1 22 193 -0.068 0.141 -0.949 0.962 0.000 320 pi- 1 -211 193 -0.031 -0.075 -0.599 0.620 0.140 321 pi+ 1 211 193 0.047 -0.183 -1.134 1.158 0.140 322 pi- 1 -211 196 0.090 0.958 -29.992 30.008 0.140 323 (pi0) 11 111 196 0.190 0.133 -24.394 24.396 0.135 324 K- 1 -321 197 -0.182 0.173 -6.184 6.209 0.494 325 pi+ 1 211 197 -0.044 -0.312 -6.242 6.252 0.140 326 p+ 1 2212 200 -5.142 -0.978 -18.461 19.211 0.938 327 pi+ 1 211 200 -0.090 -0.001 -0.679 0.699 0.140 328 pi- 1 -211 201 0.056 0.061 -1.743 1.750 0.140 329 (pi0) 11 111 201 -0.014 0.695 -0.864 1.118 0.135 330 pi- 1 -211 202 0.120 0.646 -0.211 0.704 0.140 331 pi+ 1 211 202 0.132 0.434 -0.515 0.701 0.140 332 (pi0) 11 111 202 -0.070 0.014 -0.036 0.157 0.135 333 gamma 1 22 203 0.038 0.019 -0.046 0.063 0.000 334 gamma 1 22 203 0.176 -0.207 -0.213 0.345 0.000 335 K- 1 -321 207 0.412 0.443 1.066 1.321 0.494 336 (pi0) 11 111 207 0.874 1.182 2.010 2.494 0.135 337 K+ 1 321 208 0.330 0.327 0.535 0.863 0.494 338 pi- 1 -211 208 0.443 0.087 0.811 0.939 0.140 339 pi+ 1 211 209 0.461 0.156 0.407 0.650 0.140 340 (pi0) 11 111 209 0.416 1.150 1.785 2.168 0.135 341 gamma 1 22 211 3.859 4.900 18.134 19.177 0.000 342 (pi0) 11 111 211 0.402 0.293 1.834 1.906 0.135 343 (Kbar0) 11 -311 213 1.361 0.808 4.036 4.363 0.498 344 pi- 1 -211 213 0.640 0.862 2.018 2.290 0.140 345 K_L0 1 130 214 3.912 3.892 18.196 19.021 0.498 346 K_S0 1 310 214 3.606 3.630 17.463 18.204 0.498 347 gamma 1 22 217 1.703 1.217 0.866 2.265 0.000 348 gamma 1 22 217 0.783 0.451 0.374 0.978 0.000 349 gamma 1 22 220 -0.024 -0.020 -0.042 0.052 0.000 350 gamma 1 22 220 0.179 -0.232 -0.313 0.429 0.000 351 gamma 1 22 222 -0.097 -0.210 -1.646 1.663 0.000 352 gamma 1 22 222 0.013 -0.006 -0.545 0.545 0.000 353 gamma 1 22 229 0.087 -0.055 -0.750 0.757 0.000 354 gamma 1 22 229 0.198 -0.008 -3.119 3.125 0.000 355 gamma 1 22 230 0.036 0.006 -0.244 0.246 0.000 356 gamma 1 22 230 -0.034 -0.129 -2.225 2.229 0.000 357 gamma 1 22 231 -0.076 -0.036 -4.480 4.481 0.000 358 gamma 1 22 231 -0.026 0.055 -1.003 1.004 0.000 359 gamma 1 22 232 -0.081 -0.119 -1.441 1.448 0.000 360 gamma 1 22 232 0.048 -0.043 -1.039 1.041 0.000 361 K_L0 1 130 233 -0.632 -0.751 -4.100 4.245 0.498 362 gamma 1 22 236 -0.088 -0.280 -0.377 0.478 0.000 363 gamma 1 22 236 -0.062 -0.023 -0.046 0.080 0.000 364 gamma 1 22 240 -0.118 -0.088 0.013 0.148 0.000 365 gamma 1 22 240 -0.025 0.043 -0.022 0.054 0.000 366 gamma 1 22 242 -0.199 -0.132 0.401 0.466 0.000 367 gamma 1 22 242 -1.262 -0.812 1.922 2.439 0.000 368 K_L0 1 130 248 -0.227 0.229 -8.431 8.452 0.498 369 K_S0 1 310 257 0.188 -1.126 0.954 1.569 0.498 370 gamma 1 22 260 -0.166 -0.207 0.472 0.542 0.000 371 gamma 1 22 260 -0.089 -0.203 0.214 0.308 0.000 372 gamma 1 22 265 -0.014 -0.093 0.514 0.523 0.000 373 e- 1 11 265 0.024 0.031 0.232 0.235 0.001 374 e+ 1 -11 265 0.015 0.002 0.125 0.126 0.001 375 gamma 1 22 269 0.109 0.147 0.552 0.581 0.000 376 gamma 1 22 269 0.005 0.088 0.648 0.654 0.000 377 gamma 1 22 271 -0.306 0.748 5.026 5.091 0.000 378 gamma 1 22 271 -0.069 0.285 1.439 1.469 0.000 379 gamma 1 22 273 -0.040 0.081 0.678 0.684 0.000 380 e- 1 11 273 -0.202 0.875 9.785 9.826 0.001 381 e+ 1 -11 273 -0.034 0.147 1.638 1.645 0.001 382 gamma 1 22 276 0.138 0.216 4.562 4.570 0.000 383 gamma 1 22 276 -0.460 0.317 14.915 14.925 0.000 384 gamma 1 22 278 -0.010 -0.116 5.249 5.250 0.000 385 gamma 1 22 278 0.038 -0.118 2.028 2.032 0.000 386 gamma 1 22 280 -0.068 -0.006 4.515 4.515 0.000 387 gamma 1 22 280 -0.657 0.177 26.747 26.756 0.000 388 gamma 1 22 284 0.252 -0.083 2.356 2.370 0.000 389 gamma 1 22 284 0.588 -0.380 5.173 5.220 0.000 390 gamma 1 22 294 -0.381 0.187 0.904 0.999 0.000 391 gamma 1 22 294 -0.339 0.097 1.037 1.095 0.000 392 gamma 1 22 296 -0.006 -0.003 0.003 0.008 0.000 393 gamma 1 22 296 0.068 -0.615 2.133 2.221 0.000 394 gamma 1 22 299 -0.236 -0.024 1.546 1.564 0.000 395 gamma 1 22 299 -0.033 0.045 0.682 0.685 0.000 396 K_L0 1 130 300 0.583 -0.007 9.526 9.557 0.498 397 gamma 1 22 301 0.010 -0.195 2.091 2.100 0.000 398 gamma 1 22 301 -0.070 -0.075 0.632 0.640 0.000 399 K_L0 1 130 304 -0.748 -0.620 0.054 1.093 0.498 400 gamma 1 22 305 0.012 -0.219 0.184 0.286 0.000 401 gamma 1 22 305 0.050 -0.007 0.034 0.061 0.000 402 gamma 1 22 308 -0.151 -0.273 0.104 0.329 0.000 403 gamma 1 22 308 0.020 -0.014 -0.011 0.026 0.000 404 gamma 1 22 314 -0.090 0.087 0.067 0.142 0.000 405 gamma 1 22 314 -0.288 0.347 -0.017 0.451 GenInputManager Begin processing 10th record. Run 222530, Trigger 9 0.000 406 gamma 1 22 323 -0.002 0.047 -7.736 7.736 0.000 407 gamma 1 22 323 0.193 0.086 -16.659 16.660 0.000 408 gamma 1 22 329 0.050 0.449 -0.592 0.745 0.000 409 gamma 1 22 329 -0.065 0.246 -0.272 0.372 0.000 410 gamma 1 22 332 -0.073 0.005 -0.082 0.110 0.000 411 gamma 1 22 332 0.003 0.009 0.046 0.047 0.000 412 gamma 1 22 336 0.764 1.086 1.849 2.277 0.000 413 gamma 1 22 336 0.111 0.096 0.160 0.217 0.000 414 gamma 1 22 340 0.092 0.427 0.683 0.811 0.000 415 gamma 1 22 340 0.324 0.723 1.102 1.357 0.000 416 gamma 1 22 342 -0.001 0.015 0.014 0.020 0.000 417 gamma 1 22 342 0.403 0.278 1.821 1.885 0.000 418 K_S0 1 310 343 1.361 0.808 4.036 4.363 0.498 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.001 1960.001 PYEVNT event no. 9 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.999 -0.356 302.150 302.152 0.000 4 !d! 21 1 2 -0.358 -0.414 -160.588 160.589 0.000 5 !g! 21 21 3 -0.319 -2.935 17.494 17.741 0.000 6 !d! 21 1 4 -0.353 -0.408 -158.050 158.051 0.000 7 !g! 21 21 0 -25.267 -14.279 3.508 29.234 0.000 8 !d! 21 1 0 24.596 10.937 -144.064 146.557 0.330 ============================================================================== 9 nbar0 1 -2112 2 -0.237 0.165 -306.399 306.400 0.940 10 (d) A 12 1 8 22.720 11.632 -131.334 133.792 0.330 11 (g) I 12 21 8 1.760 -0.757 -12.544 12.690 0.000 12 (g) I 12 21 3 0.472 1.865 3.337 3.852 0.000 13 (g) I 12 21 3 -0.341 -0.756 0.886 1.214 0.000 14 (g) I 12 21 3 -1.229 -0.026 2.550 2.831 0.000 15 (g) I 12 21 3 -0.966 0.659 0.809 1.422 0.000 16 (ud_0) V 11 2101 1 0.502 -0.011 462.583 462.584 0.579 17 (u) A 12 2 1 0.497 0.367 215.263 215.264 0.330 18 (g) I 12 21 3 -0.282 -0.053 0.864 0.910 0.000 19 (g) I 12 21 3 -0.164 0.024 2.100 2.106 0.000 20 (g) I 12 21 3 0.671 -0.277 31.924 31.932 0.000 21 (g) I 12 21 3 -0.958 2.576 229.413 229.430 0.000 22 (g) I 12 21 3 -0.778 0.060 9.464 9.496 0.000 23 (g) I 12 21 3 0.192 0.333 0.238 0.452 0.000 24 (g) I 12 21 3 2.697 -1.833 0.533 3.304 0.000 25 (g) I 12 21 7 -7.741 -3.618 0.333 8.551 0.000 26 (g) I 12 21 7 -7.002 -4.637 2.116 8.661 0.000 27 (g) I 12 21 7 -7.400 -3.693 0.983 8.329 0.000 28 (g) I 12 21 7 -3.008 -2.269 -0.110 3.769 0.000 29 (ubar) V 11 -2 2 0.595 0.249 -513.010 513.010 0.330 ============================================================================== 30 (string) 11 92 10 22.918 12.605 326.287 618.384 524.644 31 n0 1 2112 30 10.176 5.175 -57.455 58.586 0.940 32 nbar0 1 -2112 30 3.333 1.320 -22.440 22.744 0.940 33 (K0) 11 311 30 9.055 4.446 -51.648 52.626 0.498 34 (K-) 11 -323 30 0.041 0.093 -1.079 1.435 0.940 35 (omega) 11 223 30 1.817 0.331 -9.585 9.793 0.794 36 (eta') 11 331 30 0.217 -0.107 -0.673 1.195 0.958 37 pi+ 1 211 30 -0.517 -0.285 -0.051 0.609 0.140 38 (rho0) 11 113 30 0.505 0.758 0.736 1.361 0.692 39 (pi0) 11 111 30 0.010 -0.033 0.448 0.470 0.135 40 (rho0) 11 113 30 0.368 -0.059 1.687 1.894 0.775 41 pi- 1 -211 30 -1.146 0.621 1.147 1.742 0.140 42 (pi0) 11 111 30 -0.332 0.083 1.428 1.474 0.135 43 (rho+) 11 213 30 -0.283 -0.135 0.759 1.066 0.679 44 (pi0) 11 111 30 -0.262 0.320 1.561 1.620 0.135 45 pi- 1 -211 30 -0.402 0.424 1.510 1.625 0.140 46 (rho+) 11 213 30 -0.046 -0.305 4.104 4.199 0.834 47 pi- 1 -211 30 0.148 -0.133 2.020 2.035 0.140 48 (rho0) 11 113 30 -0.611 -0.199 10.540 10.595 0.871 49 (omega) 11 223 30 0.211 -0.301 43.085 43.094 0.790 50 pi+ 1 211 30 0.275 0.382 63.067 63.069 0.140 51 pi- 1 -211 30 0.186 0.611 36.789 36.795 0.140 52 (pi0) 11 111 30 -0.075 -0.306 3.027 3.046 0.135 53 p+ 1 2212 30 0.250 -0.098 297.309 297.311 0.938 54 (string) 11 92 17 -22.680 -12.770 -19.889 1035.215 1034.697 55 (eta) 11 221 54 0.113 0.023 94.111 94.113 0.547 56 (eta) 11 221 54 0.202 0.134 40.143 40.148 0.547 57 (pi0) 11 111 54 0.085 0.021 3.430 3.433 0.135 58 (rho+) 11 213 54 -0.165 -0.039 69.450 69.454 0.685 59 (K0) 11 313 54 0.504 -0.447 19.840 19.868 0.806 60 (Kbar0) 11 -313 54 -0.277 0.716 43.752 43.768 0.893 61 (K0) 11 313 54 -0.519 0.664 58.134 58.146 0.871 62 K- 1 -321 54 0.042 0.669 85.435 85.439 0.494 63 pi+ 1 211 54 0.079 -0.083 2.057 2.065 0.140 64 (Delta-) 11 1114 54 -0.219 0.199 16.824 16.870 1.206 65 (pi0) 11 111 54 -0.025 0.540 5.524 5.552 0.135 66 (Deltabar+) 11 -1114 54 -0.407 -0.462 18.273 18.323 1.209 67 (rho-) 11 -213 54 -0.073 0.921 21.474 21.521 1.079 68 (rho0) 11 113 54 -0.147 0.132 7.915 7.940 0.606 69 pi+ 1 211 54 0.301 0.044 1.718 1.750 0.140 70 pi- 1 -211 54 -0.046 -0.310 1.568 1.605 0.140 71 (pi0) 11 111 54 1.003 -0.585 -0.120 1.175 0.135 72 pi+ 1 211 54 0.082 0.030 -0.405 0.437 0.140 73 (pi0) 11 111 54 0.047 -0.231 0.679 0.732 0.135 74 (Delta0) 11 2114 54 -2.287 -2.190 0.063 3.409 1.261 75 pi- 1 -211 54 -0.257 0.233 0.244 0.447 0.140 76 (Deltabar+) 11 -1114 54 -1.237 -1.266 0.060 2.156 1.229 77 pi- 1 -211 54 -0.729 -0.289 0.141 0.809 0.140 78 p+ 1 2212 54 -2.026 -1.673 0.693 2.875 0.938 79 pbar- 1 -2212 54 -6.931 -3.587 0.283 7.865 0.938 80 (pi0) 11 111 54 -1.739 -0.822 0.530 2.000 0.135 81 p+ 1 2212 54 -2.170 -1.588 0.361 2.871 0.938 82 nbar0 1 -2112 54 -6.358 -3.679 0.631 7.432 0.940 83 (pi0) 11 111 54 0.415 0.087 -1.408 1.477 0.135 84 n0 1 2112 54 -0.384 -0.388 -3.972 4.118 0.940 85 pbar- 1 -2212 54 0.140 0.132 -6.624 6.693 0.938 86 pi+ 1 211 54 0.061 0.394 -34.450 34.452 0.140 87 n0 1 2112 54 -0.549 -0.033 -78.294 78.302 0.940 88 nbar0 1 -2112 54 0.111 -0.261 -38.063 38.076 0.940 89 pi- 1 -211 54 0.655 0.428 -59.509 59.514 0.140 90 pi+ 1 211 54 -0.254 -0.562 -96.152 96.154 0.140 91 pi- 1 -211 54 0.280 0.356 -194.224 194.225 0.140 92 K_S0 1 310 33 9.055 4.446 -51.648 52.626 0.498 93 K- 1 -321 34 -0.021 0.330 -0.965 1.134 0.494 94 (pi0) 11 111 34 0.062 -0.236 -0.114 0.302 0.135 95 pi- 1 -211 35 0.759 0.188 -3.265 3.360 0.140 96 pi+ 1 211 35 0.155 0.114 -0.692 0.731 0.140 97 (pi0) 11 111 35 0.902 0.030 -5.628 5.702 0.135 98 gamma 1 22 36 0.104 -0.152 -0.061 0.194 0.000 99 (rho0) 11 113 36 0.113 0.045 -0.612 1.001 0.783 100 pi- 1 -211 38 0.369 0.090 0.458 0.611 0.140 101 pi+ 1 211 38 0.136 0.668 0.278 0.750 0.140 102 gamma 1 22 39 -0.012 0.050 0.137 0.146 0.000 103 gamma 1 22 39 0.022 -0.083 0.311 0.323 0.000 104 pi+ 1 211 40 0.094 -0.380 0.837 0.935 0.140 105 pi- 1 -211 40 0.273 0.321 0.850 0.959 0.140 106 gamma 1 22 42 -0.319 0.084 1.422 1.459 0.000 107 gamma 1 22 42 -0.014 -0.002 0.006 0.015 0.000 108 pi+ 1 211 43 0.155 -0.021 0.464 0.509 0.140 109 (pi0) 11 111 43 -0.438 -0.114 0.295 0.557 0.135 110 gamma 1 22 44 -0.247 0.213 1.141 1.187 0.000 111 gamma 1 22 44 -0.015 0.108 0.420 0.434 0.000 112 pi+ 1 211 46 0.074 -0.369 0.855 0.945 0.140 113 (pi0) 11 111 46 -0.120 0.064 3.249 3.255 0.135 114 pi+ 1 211 48 -0.329 -0.295 9.335 9.347 0.140 115 pi- 1 -211 48 -0.281 0.096 1.205 1.249 0.140 116 pi- 1 -211 49 -0.158 -0.063 9.206 9.209 0.140 117 pi+ 1 211 49 0.118 -0.262 23.718 23.720 0.140 118 (pi0) 11 111 49 0.251 0.025 10.161 10.165 0.135 119 gamma 1 22 52 0.000 -0.201 1.409 1.424 0.000 120 gamma 1 22 52 -0.074 -0.106 1.618 1.623 0.000 121 gamma 1 22 55 0.122 0.246 72.285 72.285 0.000 122 gamma 1 22 55 -0.009 -0.223 21.827 21.828 0.000 123 (pi0) 11 111 56 0.028 0.135 23.542 23.543 0.135 124 (pi0) 11 111 56 0.139 -0.039 7.877 7.879 0.135 125 (pi0) 11 111 56 0.035 0.038 8.725 8.726 0.135 126 gamma 1 22 57 0.114 -0.015 2.402 2.405 0.000 127 gamma 1 22 57 -0.029 0.036 1.028 1.029 0.000 128 pi+ 1 211 58 -0.319 0.054 20.226 20.229 0.140 129 (pi0) 11 111 58 0.154 -0.092 49.224 49.225 0.135 130 K+ 1 321 59 0.542 -0.476 14.929 14.955 0.494 131 pi- 1 -211 59 -0.038 0.029 4.911 4.914 0.140 132 (Kbar0) 11 -311 60 -0.054 0.343 15.057 15.069 0.498 133 (pi0) 11 111 60 -0.224 0.373 28.695 28.699 0.135 134 K+ 1 321 61 -0.224 0.087 25.498 25.503 0.494 135 pi- 1 -211 61 -0.295 0.577 32.636 32.643 0.140 136 n0 1 2112 64 -0.292 0.307 15.134 15.169 0.940 137 pi- 1 -211 64 0.073 -0.107 1.690 1.701 0.140 138 gamma 1 22 65 -0.021 0.208 1.522 1.537 0.000 139 gamma 1 22 65 -0.004 0.332 4.002 4.015 0.000 140 nbar0 1 -2112 66 -0.205 -0.207 11.967 12.007 0.940 141 pi+ 1 211 66 -0.202 -0.255 6.306 6.316 0.140 142 pi- 1 -211 67 0.065 1.075 13.657 13.700 0.140 143 (pi0) 11 111 67 -0.138 -0.153 7.817 7.821 0.135 144 pi- 1 -211 68 0.129 0.039 1.037 1.055 0.140 145 pi+ 1 211 68 -0.277 0.093 6.877 6.885 0.140 146 gamma 1 22 71 0.122 -0.035 -0.041 0.133 0.000 147 gamma 1 22 71 0.881 -0.551 -0.079 1.042 0.000 148 gamma 1 22 73 0.079 -0.148 0.318 0.360 0.000 149 gamma 1 22 73 -0.032 -0.083 0.361 0.372 GenInputManager Begin processing 11th record. Run 222530, Trigger 10 0.000 150 p+ 1 2212 74 -2.199 -1.895 -0.054 3.052 0.938 151 pi- 1 -211 74 -0.088 -0.295 0.117 0.358 0.140 152 nbar0 1 -2112 76 -0.817 -1.034 -0.124 1.623 0.940 153 pi+ 1 211 76 -0.420 -0.233 0.184 0.533 0.140 154 gamma 1 22 80 -0.427 -0.139 0.120 0.465 0.000 155 gamma 1 22 80 -1.312 -0.683 0.411 1.535 0.000 156 gamma 1 22 83 0.399 0.048 -1.283 1.345 0.000 157 gamma 1 22 83 0.015 0.039 -0.125 0.132 0.000 158 gamma 1 22 94 0.048 -0.106 0.015 0.117 0.000 159 gamma 1 22 94 0.014 -0.131 -0.129 0.184 0.000 160 gamma 1 22 97 0.542 -0.048 -3.383 3.427 0.000 161 gamma 1 22 97 0.360 0.078 -2.245 2.275 0.000 162 pi- 1 -211 99 0.402 -0.090 -0.414 0.600 0.140 163 pi+ 1 211 99 -0.289 0.136 -0.198 0.401 0.140 164 gamma 1 22 109 -0.305 -0.079 0.127 0.340 0.000 165 gamma 1 22 109 -0.133 -0.035 0.168 0.217 0.000 166 gamma 1 22 113 0.016 0.016 1.348 1.349 0.000 167 gamma 1 22 113 -0.136 0.049 1.901 1.906 0.000 168 gamma 1 22 118 0.233 0.025 10.032 10.035 0.000 169 gamma 1 22 118 0.018 0.000 0.129 0.130 0.000 170 gamma 1 22 123 0.023 0.069 20.244 20.244 0.000 171 gamma 1 22 123 0.005 0.066 3.298 3.299 0.000 172 gamma 1 22 124 0.141 0.013 6.465 6.466 0.000 173 gamma 1 22 124 -0.002 -0.051 1.412 1.413 0.000 174 gamma 1 22 125 0.025 0.087 6.515 6.516 0.000 175 gamma 1 22 125 0.010 -0.049 2.210 2.210 0.000 176 gamma 1 22 129 0.130 -0.001 29.461 29.462 0.000 177 gamma 1 22 129 0.024 -0.091 19.763 19.763 0.000 178 K_S0 1 310 132 -0.054 0.343 15.057 15.069 0.498 179 gamma 1 22 133 -0.118 0.090 7.559 7.561 0.000 180 gamma 1 22 133 -0.106 0.283 21.136 21.138 0.000 181 gamma 1 22 143 -0.083 -0.031 4.918 4.919 0.000 182 gamma 1 22 143 -0.055 -0.122 2.899 2.902 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 10 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 1.396 0.056 387.812 387.814 0.000 4 !ubar! 21 -2 2 0.058 1.209 -395.799 395.800 0.000 5 !g! 21 21 3 -8.778 6.556 24.087 26.462 0.000 6 !g! 21 21 4 5.645 -4.900 -46.483 47.080 0.000 7 !s! 21 3 0 -20.358 30.076 -16.030 39.702 0.500 8 !sbar! 21 -3 0 17.225 -28.420 -6.366 33.840 0.500 ============================================================================== 9 gamma 1 22 4 0.037 0.015 -0.017 0.043 0.000 10 gamma 1 22 3 3.031 -0.099 98.827 98.874 0.000 11 (u) A 12 2 3 12.639 -16.215 39.774 44.775 0.330 12 (g) I 12 21 3 -0.408 -0.267 2.947 2.987 0.000 13 (sbar) V 11 -3 3 -1.551 4.639 27.190 27.631 0.500 14 (s) A 12 3 3 -1.577 6.326 46.025 46.488 0.500 15 (g) I 12 21 3 -0.647 0.257 0.964 1.189 0.000 16 (g) I 12 21 3 -0.133 0.049 -0.065 0.156 0.000 17 (g) I 12 21 0 -0.311 1.382 3.448 3.728 0.000 18 (g) I 12 21 0 0.969 1.274 2.405 2.889 0.000 19 (g) I 12 21 0 1.403 -0.008 0.862 1.647 0.000 20 (g) I 12 21 0 2.479 1.886 -2.824 4.204 0.000 21 (g) I 12 21 0 0.607 0.560 -1.381 1.609 0.000 22 (g) I 12 21 0 0.443 1.007 -30.189 30.209 0.000 23 (g) I 12 21 0 -0.443 -1.007 -30.098 30.119 0.000 24 (g) I 12 21 4 0.391 -0.144 -0.601 0.731 0.000 25 (g) I 12 21 4 0.228 -0.125 -1.123 1.152 0.000 26 (g) I 12 21 4 -0.646 -0.193 -6.910 6.943 0.000 27 (ubar) V 11 -2 4 -5.113 6.932 -255.282 255.427 0.330 28 (s) A 12 3 7 -20.371 26.840 -13.569 36.328 0.500 29 (g) I 12 21 7 -0.084 1.755 -1.555 2.346 0.000 30 (g) I 12 21 7 0.531 0.790 -0.897 1.308 0.000 31 (g) I 12 21 0 -0.969 -1.274 0.313 1.631 0.000 32 (g) I 12 21 0 -1.403 0.008 0.658 1.550 0.000 33 (g) I 12 21 3 -0.431 -0.291 7.934 7.951 0.000 34 (g) I 12 21 3 -0.475 -0.364 92.063 92.065 0.000 35 (g) I 12 21 3 0.451 -1.141 43.130 43.148 0.000 36 (ud_0) V 11 2101 1 -1.396 -0.056 417.800 417.803 0.579 37 (sbar) A 12 -3 8 13.342 -22.920 -4.145 26.847 0.500 38 (g) I 12 21 8 1.390 -2.145 0.120 2.559 0.000 39 (g) I 12 21 8 0.604 -0.976 -0.475 1.242 0.000 40 (g) I 12 21 8 1.455 -1.689 -1.874 2.912 0.000 41 (g) I 12 21 0 -0.607 -0.560 -2.762 2.883 0.000 42 (g) I 12 21 4 -0.203 0.148 -1.448 1.470 0.000 43 (g) I 12 21 4 -1.391 0.385 -74.580 74.594 0.000 44 (g) I 12 21 4 0.386 -0.302 -4.421 4.448 0.000 45 (ud_0bar) V 11 -2101 2 -0.058 -1.209 -513.007 513.009 0.579 46 (u) A 12 2 0 -0.265 3.164 14.801 15.138 0.000 47 (g) I 12 21 0 -2.479 -1.886 5.568 6.380 0.000 48 (ubar) V 11 -2 0 0.265 -3.164 5.827 6.636 0.000 49 (g) A 12 21 0 1.599 -2.567 28.480 28.640 0.000 50 (g) I 12 21 0 0.311 -1.382 86.967 86.979 0.000 51 (g) V 11 21 0 -1.599 2.567 21.119 21.334 0.000 ============================================================================== 52 (string) 11 92 11 10.680 -11.843 69.911 75.393 23.284 53 (rho+) 11 213 52 8.032 -10.401 25.129 28.370 0.823 54 (eta) 11 221 52 2.551 -2.568 7.366 8.226 0.547 55 (rho-) 11 -213 52 1.702 -3.019 7.585 8.369 0.708 56 (eta') 11 331 52 0.219 0.696 5.250 5.386 0.958 57 (rho0) 11 113 52 0.184 -0.050 0.874 0.990 0.423 58 K+ 1 321 52 -2.006 3.499 23.707 24.052 0.494 59 (string) 11 92 14 -2.351 18.194 -274.767 386.491 271.185 60 (Kbar0) 11 -313 59 -1.397 4.533 32.393 32.753 0.965 61 (rho-) 11 -213 59 -0.437 1.336 8.262 8.446 1.049 62 pi+ 1 211 59 0.129 -0.020 0.176 0.260 0.140 63 (rho0) 11 113 59 -0.438 1.130 3.932 4.193 0.804 64 (rho-) 11 -213 59 -0.196 0.471 3.920 4.007 0.658 65 (rho+) 11 213 59 0.701 0.426 0.806 1.350 0.707 66 pi- 1 -211 59 0.330 -0.055 0.114 0.380 0.140 67 (K+) 11 323 59 0.133 1.360 3.289 3.677 0.917 68 (Kbar0) 11 -313 59 1.538 0.702 -0.360 1.936 0.873 69 pi- 1 -211 59 0.612 0.565 -1.560 1.774 0.140 70 (rho+) 11 213 59 0.507 0.320 -0.114 1.052 0.857 71 (rho-) 11 -213 59 0.929 0.615 -1.888 2.301 0.698 72 p+ 1 2212 59 0.090 0.114 -3.324 3.456 0.938 73 nbar0 1 -2112 59 0.095 0.249 -9.056 9.108 0.940 74 pi- 1 -211 59 -0.053 0.155 -2.171 2.182 0.140 75 (rho+) 11 213 59 0.378 -0.125 -8.741 8.787 0.800 76 pi- 1 -211 59 0.086 0.588 -5.540 5.574 0.140 77 (omega) 11 223 59 -0.061 -0.635 -8.887 8.944 0.782 78 (Delta0) 11 2114 59 -0.191 0.047 -19.091 19.134 1.266 79 (eta) 11 221 59 0.742 -0.414 -5.994 6.078 0.547 80 (Deltabar+) 11 -1114 59 -4.095 4.271 -155.576 155.693 1.142 81 (rho-) 11 -213 59 -1.752 2.561 -105.357 105.406 0.809 82 (string) 11 92 28 -24.147 26.268 545.877 604.129 256.353 83 Xi- 1 3312 82 -13.688 18.074 -9.256 24.524 1.321 84 Xibar+ 1 -3312 82 -3.513 5.400 -2.991 7.224 1.321 85 K- 1 -321 82 -1.126 1.357 -0.588 1.924 0.494 86 (Sigma+) 11 3224 82 -0.871 2.208 -1.670 3.213 1.379 87 (Sigmabar-) 11 -3224 82 -1.046 1.581 -1.032 2.571 1.397 88 (omega) 11 223 82 -0.188 0.003 0.200 0.830 0.783 89 pi+ 1 211 82 -0.253 -0.193 -0.294 0.455 0.140 90 (pi0) 11 111 82 -0.004 0.371 0.277 0.483 0.135 91 (rho-) 11 -213 82 -0.909 -0.196 0.341 1.255 0.770 92 pi+ 1 211 82 0.008 -0.581 0.173 0.622 0.140 93 (omega) 11 223 82 -0.696 -0.131 3.717 3.864 0.782 94 n0 1 2112 82 -0.214 0.149 6.630 6.702 0.940 95 (omega) 11 223 82 -0.459 -0.535 50.316 50.327 0.828 96 nbar0 1 -2112 82 0.334 -0.040 11.395 11.439 0.940 97 pi- 1 -211 82 -0.131 -0.407 6.009 6.026 0.140 98 p+ 1 2212 82 -0.003 0.011 57.259 57.266 0.938 99 pbar- 1 -2212 82 0.148 -0.848 102.036 102.044 0.938 100 p+ 1 2212 82 -1.535 0.044 323.356 323.361 0.938 101 (string) 11 92 37 14.917 -29.267 -602.594 629.964 180.711 102 (K0) 11 313 101 7.675 -13.017 -2.117 15.275 0.706 103 nbar0 1 -2112 101 2.257 -3.544 -1.084 4.439 0.940 104 n0 1 2112 101 1.841 -2.825 -0.892 3.612 0.940 105 (pi0) 11 111 101 0.459 -0.942 -0.290 1.095 0.135 106 pi+ 1 211 101 2.079 -4.140 -0.928 4.726 0.140 107 (rho0) 11 113 101 1.054 -1.936 -0.496 2.403 0.819 108 K- 1 -321 101 0.014 -0.463 -0.108 0.685 0.494 109 K+ 1 321 101 -0.244 0.232 -0.635 0.871 0.494 110 pbar- 1 -2212 101 0.763 -1.114 -4.128 4.443 0.938 111 p+ 1 2212 101 0.334 0.120 -1.508 1.812 0.938 112 pi- 1 -211 101 0.340 -0.067 -5.218 5.232 0.140 113 (Kbar0) 11 -313 101 -0.805 -0.542 -6.630 6.761 0.903 114 (K+) 11 323 101 -0.903 0.414 -45.592 45.609 0.788 115 pi- 1 -211 101 0.324 -0.566 -22.754 22.763 0.140 116 (eta) 11 221 101 -0.241 0.339 -19.711 19.723 0.547 117 pi+ 1 211 101 0.419 -0.030 -40.645 40.647 0.140 118 (Deltabar--) 11 -2224 101 -0.449 -1.102 -232.872 232.878 1.256 119 pi+ 1 211 101 0.000 -0.085 -216.987 216.987 0.140 120 (string) 11 92 46 -2.479 -1.886 26.196 28.153 9.833 121 (omega) 11 223 120 -0.222 2.369 13.976 14.198 0.784 122 pi+ 1 211 120 -0.877 0.194 1.975 2.174 0.140 123 (pi0) 11 111 120 -0.422 -0.250 0.187 0.542 0.135 124 (omega) 11 223 120 0.024 -1.399 4.928 5.182 0.781 125 (rho0) 11 113 120 -1.050 -2.582 4.749 5.592 0.973 126 pi- 1 -211 120 0.068 -0.217 0.381 0.465 0.140 127 (string) 11 92 49 0.311 -1.382 136.566 136.953 10.192 128 pi- 1 -211 127 0.043 0.073 17.582 17.582 0.140 129 pi+ 1 211 127 0.308 0.075 2.351 2.377 0.140 130 (rho-) 11 -213 127 -0.751 0.398 9.768 9.821 0.566 131 (K+) 11 323 127 0.407 -0.432 17.605 17.632 0.793 132 (eta') 11 331 127 -0.085 0.025 6.237 6.311 0.957 133 (Kbar0) 11 -311 127 -0.038 -0.153 5.690 5.714 0.498 134 (rho-) 11 -213 127 0.684 -0.895 56.161 56.180 0.970 135 pi+ 1 211 127 -0.235 0.189 2.047 2.074 0.140 136 pi- 1 -211 127 -0.133 -0.193 0.412 0.494 0.140 137 (rho0) 11 113 127 0.210 -0.122 10.989 11.033 0.959 138 pi+ 1 211 127 -0.099 -0.345 7.724 7.733 0.140 139 pi+ 1 211 53 2.884 -4.295 10.225 11.460 0.140 140 (pi0) 11 111 53 5.148 -6.106 14.904 16.910 0.135 141 gamma 1 22 54 1.229 -1.218 4.139 4.487 0.000 142 gamma 1 22 54 1.321 -1.350 3.227 3.739 0.000 143 pi- 1 -211 55 1.151 -2.463 5.467 6.107 0.140 144 (pi0) 11 111 55 0.551 -0.556 2.118 2.262 0.135 145 gamma 1 22 56 -0.079 0.010 0.208 0.223 0.000 146 (rho0) 11 113 56 0.297 0.686 5.041 5.163 0.826 147 pi- 1 -211 57 0.262 -0.014 0.502 0.583 0.140 148 pi+ 1 211 57 -0.077 -0.036 0.373 0.407 0.140 149 K- 1 -321 60 -0.645 2.626 16.494 16.722 0.494 150 pi+ 1 211 60 -0.752 1.907 15.899 16.031 0.140 151 pi- 1 -211 61 -0.033 1.312 5.894 6.040 0.140 152 (pi0) 11 111 61 -0.404 0.023 2.368 2.406 0.135 153 pi+ 1 211 63 -0.234 1.166 3.083 3.308 0.140 154 pi- 1 -211 63 -0.204 -0.036 0.849 0.885 0.140 155 pi- 1 -211 64 -0.311 0.513 2.448 2.524 0.140 156 (pi0) 11 111 64 0.115 -0.042 1.472 1.483 0.135 157 pi+ 1 211 65 0.537 0.248 0.873 1.064 0.140 158 (pi0) 11 111 65 0.165 0.179 -0.068 0.286 0.135 159 (K0) 11 311 67 -0.121 0.539 1.878 2.020 0.498 160 pi+ 1 211 67 0.254 0.821 1.410 1.657 0.140 161 K- 1 -321 68 0.496 0.411 -0.132 0.823 0.494 162 pi+ 1 211 68 1.041 0.291 -0.229 1.114 0.140 163 pi+ 1 211 70 0.084 0.289 0.297 0.446 0.140 164 (pi0) 11 111 70 0.423 0.031 -0.411 0.606 0.135 165 pi- 1 -211 71 0.241 -0.113 -0.367 0.474 0.140 166 (pi0) 11 111 71 0.688 0.728 -1.521 1.827 0.135 167 pi+ 1 211 75 0.590 -0.036 -5.160 5.196 0.140 168 (pi0) 11 111 75 -0.212 -0.089 -3.581 3.591 0.135 169 pi- 1 -211 77 -0.065 -0.289 -2.618 2.638 0.140 170 pi+ 1 211 77 0.089 0.090 -1.104 1.120 0.140 171 (pi0) 11 111 77 -0.084 -0.437 -5.164 5.185 0.135 172 n0 1 2112 78 0.076 -0.026 -15.971 15.999 0.940 173 (pi0) 11 111 78 -0.267 0.074 -3.120 3.135 0.135 174 (pi0) 11 111 79 0.437 -0.190 -3.701 3.734 0.135 175 (pi0) 11 111 79 0.184 -0.105 -1.562 1.582 0.135 176 (pi0) 11 111 79 0.121 -0.119 -0.730 0.762 0.135 177 nbar0 1 -2112 80 -3.406 3.632 -133.964 134.059 0.940 178 pi+ 1 211 80 -0.689 0.640 -21.612 21.633 0.140 179 pi- 1 -211 81 -0.433 0.974 -26.765 26.786 0.140 180 (pi0) 11 111 81 -1.320 1.587 -78.593 78.620 0.135 181 Lambda0 1 3122 86 -0.710 2.089 -1.372 2.828 1.116 182 pi+ 1 211 86 -0.161 0.119 -0.298 0.385 0.140 183 Lambdabar0 1 -3122 87 -0.662 0.972 -0.702 1.766 1.116 184 pi- 1 -211 87 -0.384 0.609 -0.330 0.804 0.140 185 pi- 1 -211 88 0.061 0.095 0.144 0.230 0.140 186 pi+ 1 211 88 -0.074 -0.258 0.103 0.319 0.140 187 (pi0) 11 111 88 -0.175 0.165 -0.047 0.280 0.135 188 gamma 1 22 90 -0.038 0.129 0.167 0.214 0.000 189 gamma 1 22 90 0.033 0.242 0.111 0.268 0.000 190 pi- 1 -211 91 -0.881 -0.177 0.504 1.040 0.140 191 (pi0) 11 111 91 -0.028 -0.018 -0.163 0.215 0.135 192 pi+ 1 211 93 -0.068 0.052 1.275 1.285 0.140 193 pi- 1 -211 93 -0.276 0.122 0.801 0.867 0.140 194 (pi0) 11 111 93 -0.352 -0.305 1.642 1.712 0.135 195 gamma 1 22 95 -0.453 -0.502 19.996 20.008 0.000 196 (pi0) 11 111 95 -0.006 -0.033 30.319 30.320 0.135 197 K+ 1 321 102 4.259 -7.200 -1.233 8.470 0.494 198 pi- 1 -211 102 3.417 -5.817 -0.884 6.806 0.140 199 gamma 1 22 105 0.237 -0.587 -0.226 0.672 0.000 200 gamma 1 22 105 0.222 -0.355 -0.065 0.423 0.000 201 pi+ 1 211 107 0.148 -0.385 0.190 0.475 0.140 202 pi- 1 -211 107 0.906 -1.551 -0.686 1.928 0.140 203 K- 1 -321 113 -0.508 -0.556 -5.783 5.853 0.494 204 pi+ 1 211 113 -0.297 0.015 -0.846 0.908 0.140 205 K+ 1 321 114 -0.725 0.500 -39.568 39.581 0.494 206 (pi0) 11 111 114 -0.177 -0.086 -6.024 6.029 0.135 207 gamma 1 22 116 -0.082 0.001 -1.190 1.193 0.000 208 pi+ 1 211 116 -0.263 0.204 -11.189 11.194 0.140 209 pi- 1 -211 116 0.105 0.134 -7.332 7.335 0.140 210 pbar- 1 -2212 118 -0.171 -0.962 -164.415 164.420 0.938 211 pi- 1 -211 118 -0.278 -0.141 -68.457 68.458 0.140 212 pi+ 1 211 121 0.018 0.482 3.713 3.747 0.140 213 pi- 1 -211 121 -0.126 0.176 1.235 1.262 0.140 214 (pi0) 11 111 121 -0.114 1.710 9.027 9.189 0.135 215 gamma 1 22 123 -0.333 -0.189 0.082 0.392 0.000 216 gamma 1 22 123 -0.089 -0.062 0.105 0.150 0.000 217 pi- 1 -211 124 -0.274 -0.538 1.324 1.462 0.140 218 pi+ 1 211 124 0.298 -0.861 3.604 3.720 0.140 219 pi- 1 -211 125 -0.063 -0.449 0.309 0.566 0.140 220 pi+ 1 211 125 -0.987 -2.133 4.440 5.026 0.140 221 pi- 1 -211 130 -0.603 0.401 8.893 8.923 0.140 222 (pi0) 11 111 130 -0.148 -0.003 0.875 0.898 0.135 223 (K0) 11 311 131 0.479 -0.460 14.500 14.523 0.498 224 pi+ 1 211 131 -0.072 0.027 3.105 3.109 0.140 225 pi+ 1 211 132 0.011 -0.042 0.955 0.967 0.140 226 pi- 1 -211 132 -0.175 -0.015 2.268 2.279 0.140 227 (eta) 11 221 132 0.079 0.082 3.014 3.065 0.547 228 K_L0 1 130 133 -0.038 -0.153 5.690 5.714 0.498 229 pi- 1 -211 134 0.335 -0.821 49.885 49.893 0.140 230 (pi0) 11 111 134 0.349 -0.075 6.275 6.287 0.135 231 pi+ 1 211 137 -0.339 -0.195 4.259 4.279 0.140 232 pi- 1 -211 137 0.549 0.074 6.730 6.754 0.140 233 gamma 1 22 140 0.966 -1.114 2.651 3.033 0.000 234 e+ 1 -11 140 3.468 -4.139 10.163 11.509 0.001 235 e- 1 11 140 0.714 -0.853 2.090 2.368 0.001 236 gamma 1 22 144 0.032 -0.089 0.305 0.320 0.000 237 gamma 1 22 144 0.518 -0.467 1.813 1.942 0.000 238 pi+ 1 211 146 0.508 0.407 2.253 2.349 0.140 239 pi- 1 -211 146 -0.211 0.279 2.789 2.814 0.140 240 gamma 1 22 152 -0.034 0.025 0.503 0.505 0.000 241 gamma 1 22 152 -0.370 -0.001 1.865 1.902 0.000 242 gamma 1 22 156 0.099 0.034 0.808 0.815 0.000 243 gamma 1 22 156 0.016 -0.076 0.664 0.668 0.000 244 gamma 1 22 158 -0.011 -0.007 -0.023 0.027 0.000 245 gamma 1 22 158 0.176 0.186 -0.045 0.260 0.000 246 K_S0 1 310 159 -0.121 0.539 1.878 2.020 0.498 247 gamma 1 22 164 0.037 0.044 -0.039 0.070 0.000 248 gamma 1 22 164 0.386 -0.013 -0.372 0.536 0.000 249 gamma 1 22 166 0.367 0.472 -0.959 1.131 0.000 250 gamma 1 22 166 0.322 0.256 -0.562 0.696 0.000 251 gamma 1 22 168 -0.056 -0.069 -0.694 0.700 0.000 252 gamma 1 GenInputManager Begin processing 12th record. Run 222530, Trigger 11 22 168 -0.156 -0.021 -2.887 2.891 0.000 253 gamma 1 22 171 -0.083 -0.415 -5.094 5.112 0.000 254 gamma 1 22 171 -0.001 -0.022 -0.070 0.074 0.000 255 gamma 1 22 173 -0.151 0.022 -1.021 1.032 0.000 256 gamma 1 22 173 -0.116 0.051 -2.099 2.103 0.000 257 gamma 1 22 174 0.088 -0.101 -1.131 1.139 0.000 258 gamma 1 22 174 0.349 -0.089 -2.570 2.595 0.000 259 gamma 1 22 175 0.000 -0.020 -0.025 0.032 0.000 260 e+ 1 -11 175 0.050 -0.024 -0.462 0.465 0.001 261 e- 1 11 175 0.134 -0.061 -1.076 1.086 0.001 262 gamma 1 22 176 0.096 -0.135 -0.700 0.719 0.000 263 gamma 1 22 176 0.026 0.015 -0.030 0.042 0.000 264 gamma 1 22 180 -0.981 1.136 -55.058 55.078 0.000 265 gamma 1 22 180 -0.338 0.451 -23.535 23.542 0.000 266 gamma 1 22 187 -0.082 0.157 -0.004 0.178 0.000 267 gamma 1 22 187 -0.093 0.008 -0.043 0.102 0.000 268 gamma 1 22 191 -0.072 -0.047 -0.095 0.128 0.000 269 gamma 1 22 191 0.044 0.028 -0.068 0.086 0.000 270 gamma 1 22 194 -0.236 -0.271 1.324 1.373 0.000 271 gamma 1 22 194 -0.116 -0.034 0.317 0.339 0.000 272 gamma 1 22 196 0.023 0.048 11.148 11.148 0.000 273 gamma 1 22 196 -0.030 -0.080 19.172 19.172 0.000 274 gamma 1 22 206 -0.122 -0.057 -2.127 2.132 0.000 275 gamma 1 22 206 -0.056 -0.029 -3.897 3.897 0.000 276 gamma 1 22 214 0.029 0.291 1.619 1.646 0.000 277 gamma 1 22 214 -0.143 1.419 7.408 7.544 0.000 278 gamma 1 22 222 -0.093 0.062 0.421 0.436 0.000 279 gamma 1 22 222 -0.055 -0.066 0.454 0.462 0.000 280 K_S0 1 310 223 0.479 -0.460 14.500 14.523 0.498 281 gamma 1 22 227 0.248 0.131 2.606 2.621 0.000 282 gamma 1 22 227 -0.169 -0.049 0.408 0.444 0.000 283 gamma 1 22 230 0.101 -0.044 3.016 3.018 0.000 284 gamma 1 22 230 0.249 -0.031 3.259 3.269 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 11 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.154 0.883 29.946 29.959 0.000 4 !dbar! 21 -1 2 0.324 0.505 -189.834 189.835 0.000 5 !g! 21 21 3 -0.331 1.083 9.075 9.145 0.000 6 !g! 21 21 4 0.597 1.875 -156.983 156.995 0.000 7 !g! 21 21 0 -18.456 -3.730 -2.057 18.941 0.000 8 !g! 21 21 0 18.722 6.688 -145.851 147.199 0.000 ============================================================================== 9 (dbar) A 12 -1 4 -0.399 0.533 -1.063 1.297 0.330 10 (g) I 12 21 4 -0.081 -0.367 -1.994 2.029 0.000 11 (g) I 12 21 0 -0.256 0.033 -11.562 11.565 0.000 12 (g) I 12 21 0 -0.983 0.566 -4.881 5.011 0.000 13 (g) I 12 21 0 -3.804 2.279 -13.749 14.446 0.000 14 (g) I 12 21 7 -4.383 -0.752 -0.592 4.486 0.000 15 (g) I 12 21 7 -9.823 -1.804 -3.343 10.532 0.000 16 (g) I 12 21 7 -3.255 -0.792 0.807 3.446 0.000 17 (g) I 12 21 7 -0.883 -0.347 0.465 1.056 0.000 18 (g) I 12 21 0 -0.900 -5.253 40.902 41.248 0.000 19 (g) I 12 21 0 -0.852 -3.520 31.420 31.628 0.000 20 (g) I 12 21 0 0.983 -0.566 12.541 12.593 0.000 21 (g) I 12 21 0 -2.289 -1.185 107.043 107.074 0.000 22 (u) V 11 2 1 -0.087 -0.559 82.402 82.405 0.330 23 (c) A 12 4 3 0.899 0.635 15.312 15.424 1.500 24 (ud_0) V 11 2101 1 0.241 -0.324 637.023 637.023 0.579 25 (cbar) A 12 -4 3 -0.714 -0.855 5.114 5.445 1.500 26 (g) I 12 21 0 0.852 3.520 16.170 16.570 0.000 27 (g) I 12 21 0 0.256 -0.033 0.635 0.685 0.000 28 (g) I 12 21 0 3.804 -2.279 1.499 4.681 0.000 29 (g) I 12 21 0 2.289 1.185 1.147 2.821 0.000 30 (g) I 12 21 0 0.900 5.253 -4.128 6.741 0.000 31 (g) I 12 21 8 17.669 6.276 -141.608 142.844 0.000 32 (g) I 12 21 8 0.940 0.377 -3.638 3.776 0.000 33 (g) I 12 21 4 0.061 -1.046 -7.317 7.391 0.000 34 (g) I 12 21 4 0.547 -0.560 -12.184 12.210 0.000 35 (g) I 12 21 4 -0.410 0.090 -9.849 9.857 0.000 36 (uu_1bar) V 11 -2203 2 -0.324 -0.505 -750.115 750.116 0.771 37 (u) A 12 2 0 -0.096 1.053 14.273 14.313 0.000 38 (ubar) V 11 -2 0 0.096 -1.053 -0.734 1.287 0.000 ============================================================================== 39 (string) 11 92 9 -27.011 -11.735 238.398 328.816 224.541 40 (eta) 11 221 39 -0.027 0.145 -0.975 1.128 0.547 41 pi+ 1 211 39 -0.789 0.124 -6.399 6.450 0.140 42 (rho0) 11 113 39 -0.221 0.624 -3.960 4.033 0.372 43 pi- 1 -211 39 0.109 -0.362 -0.933 1.016 0.140 44 (rho+) 11 213 39 -2.220 1.438 -10.148 10.513 0.748 45 pi- 1 -211 39 0.036 0.004 -0.601 0.618 0.140 46 (rho+) 11 213 39 -0.833 0.371 -4.473 4.688 1.067 47 (Deltabar--) 11 -2224 39 -1.545 -0.064 -4.324 4.757 1.241 48 pi+ 1 211 39 -1.114 0.402 -1.400 1.839 0.140 49 (Delta0) 11 2114 39 -2.260 -0.075 -0.518 2.647 1.275 50 (pi0) 11 111 39 -0.431 -0.180 -0.109 0.498 0.135 51 (Kbar0) 11 -313 39 -3.068 -1.012 -1.158 3.532 0.836 52 (K0) 11 313 39 -6.209 -0.964 0.064 6.344 0.877 53 (pi0) 11 111 39 0.321 0.082 -0.095 0.370 0.135 54 (omega) 11 223 39 -4.046 -0.929 -0.928 4.339 0.859 55 (rho0) 11 113 39 -0.976 -0.345 3.100 3.356 0.765 56 (eta) 11 221 39 -0.407 0.197 0.119 0.720 0.547 57 (rho0) 11 113 39 0.066 -0.916 4.603 4.749 0.724 58 nbar0 1 -2112 39 -0.410 -1.919 11.410 11.616 0.940 59 n0 1 2112 39 -0.726 -1.351 16.992 17.087 0.940 60 pi+ 1 211 39 -0.392 -2.886 23.811 23.989 0.140 61 pi- 1 -211 39 0.310 -0.237 2.085 2.126 0.140 62 (Kbar0) 11 -311 39 -0.620 -1.082 13.852 13.917 0.498 63 (K0) 11 313 39 -0.299 -0.424 25.887 25.908 0.898 64 (rho0) 11 113 39 -0.764 -0.762 25.293 25.326 0.724 65 pi+ 1 211 39 0.097 0.213 8.245 8.249 0.140 66 pi- 1 -211 39 0.378 -1.023 33.761 33.779 0.140 67 pi+ 1 211 39 -0.035 0.386 11.978 11.985 0.140 68 (rho0) 11 113 39 -0.937 -1.190 93.220 93.235 0.735 69 (string) 11 92 23 1.140 0.311 652.335 652.448 12.085 70 (D_s+) 11 431 69 0.811 0.178 28.203 28.284 1.968 71 (Kbar0) 11 -311 69 0.062 0.450 12.244 12.262 0.498 72 pi- 1 -211 69 -0.393 0.163 131.105 131.106 0.140 73 pi+ 1 211 69 0.613 0.315 44.517 44.523 0.140 74 pi- 1 -211 69 -0.198 -0.552 69.637 69.639 0.140 75 pi+ 1 211 69 0.630 -0.419 112.436 112.439 0.140 76 n0 1 2112 69 -0.386 0.175 254.192 254.194 0.940 77 (string) 11 92 25 25.872 11.424 -904.272 963.137 330.339 78 (Dbar0) 11 -421 77 -0.018 0.772 6.187 6.508 1.865 79 pi- 1 -211 77 -0.237 0.040 2.116 2.134 0.140 80 (rho+) 11 213 77 -0.429 0.114 3.068 3.155 0.590 81 pi- 1 -211 77 -0.142 0.388 1.372 1.440 0.140 82 (rho+) 11 213 77 1.061 0.300 4.709 4.894 0.749 83 (Deltabar--) 11 -2224 77 0.299 -0.278 1.884 2.236 1.133 84 pi+ 1 211 77 -0.107 -0.028 0.026 0.180 0.140 85 (Delta+) 11 2214 77 1.426 0.642 2.111 2.921 1.278 86 pi- 1 -211 77 0.037 -0.391 0.142 0.440 0.140 87 (Deltabar0) 11 -2114 77 1.337 0.305 1.524 2.397 1.241 88 (eta) 11 221 77 1.615 -0.524 -0.001 1.784 0.547 89 p+ 1 2212 77 0.264 0.249 0.159 1.019 0.938 90 (rho-) 11 -213 77 1.548 0.686 0.713 1.977 0.730 91 (rho+) 11 213 77 0.535 3.366 -3.541 4.979 0.799 92 K- 1 -321 77 0.262 0.777 -0.479 1.070 0.494 93 (K+) 11 323 77 0.914 0.057 -4.278 4.470 0.914 94 (eta) 11 221 77 0.673 1.223 -9.882 9.995 0.547 95 (K-) 11 -323 77 6.888 2.138 -56.900 57.362 0.838 96 (K0) 11 313 77 2.909 1.101 -14.972 15.319 0.909 97 pi+ 1 211 77 1.776 1.017 -21.234 21.333 0.140 98 (omega) 11 223 77 3.087 0.504 -18.578 18.856 0.775 99 pi- 1 -211 77 0.948 0.162 -13.104 13.140 0.140 100 (eta') 11 331 77 0.902 -0.457 -13.019 13.094 0.958 101 (rho+) 11 213 77 0.646 -0.141 -6.567 6.696 1.130 102 pi- 1 -211 77 -0.052 -0.086 -44.095 44.095 0.140 103 (Kbar0) 11 -313 77 -0.044 -0.338 -137.998 138.002 0.892 104 K+ 1 321 77 0.070 0.169 -48.882 48.885 0.494 105 pi- 1 -211 77 -0.306 0.217 -24.845 24.848 0.140 106 nbar0 1 -2112 77 -0.085 -0.316 -189.297 189.299 0.940 107 pi- 1 -211 77 0.095 -0.245 -320.610 320.610 0.140 108 (string) 11 92 37 0.000 0.000 13.540 15.600 7.748 109 (rho+) 11 213 108 -0.319 -0.144 1.661 1.852 0.739 110 pi- 1 -211 108 0.257 0.396 2.404 2.454 0.140 111 (K+) 11 323 108 -0.361 0.499 7.262 7.335 0.835 112 (Kbar0) 11 -313 108 0.192 -0.301 1.952 2.161 0.856 113 (rho-) 11 -213 108 -0.016 0.264 0.213 0.817 0.743 114 pi+ 1 211 108 -0.078 -0.325 -0.183 0.406 0.140 115 pi- 1 -211 108 0.325 -0.388 0.231 0.574 0.140 116 gamma 1 22 40 0.148 -0.009 -0.026 0.151 0.000 117 gamma 1 22 40 -0.175 0.154 -0.949 0.977 0.000 118 pi+ 1 211 42 -0.030 0.264 -2.191 2.211 0.140 119 pi- 1 -211 42 -0.191 0.360 -1.769 1.821 0.140 120 pi+ 1 211 44 -1.955 1.002 -8.641 8.917 0.140 121 (pi0) 11 111 44 -0.265 0.436 -1.507 1.597 0.135 122 pi+ 1 211 46 0.193 0.073 -0.372 0.448 0.140 123 (pi0) 11 111 46 -1.026 0.298 -4.101 4.240 0.135 124 pbar- 1 -2212 47 -0.849 0.033 -2.811 3.083 0.938 125 pi- 1 -211 47 -0.696 -0.097 -1.513 1.674 0.140 126 n0 1 2112 49 -1.844 0.050 -0.176 2.078 0.940 127 (pi0) 11 111 49 -0.416 -0.125 -0.342 0.569 0.135 128 gamma 1 22 50 -0.421 -0.195 -0.090 0.472 0.000 129 gamma 1 22 50 -0.010 0.015 -0.018 0.026 0.000 130 K- 1 -321 51 -1.175 -0.488 -0.548 1.471 0.494 131 pi+ 1 211 51 -1.893 -0.524 -0.610 2.061 0.140 132 K+ 1 321 52 -3.453 -0.299 0.158 3.504 0.494 133 pi- 1 -211 52 -2.756 -0.665 -0.094 2.840 0.140 134 gamma 1 22 53 0.035 0.057 0.004 0.067 0.000 135 gamma 1 22 53 0.286 0.026 -0.099 0.304 0.000 136 pi+ 1 211 54 -1.878 -0.356 -0.263 1.935 0.140 137 pi- 1 -211 54 -0.242 -0.009 -0.191 0.339 0.140 138 (pi0) 11 111 54 -1.926 -0.564 -0.474 2.066 0.135 139 pi+ 1 211 55 -0.161 -0.326 0.537 0.663 0.140 140 pi- 1 -211 55 -0.815 -0.019 2.563 2.693 0.140 141 pi- 1 -211 56 -0.034 0.037 -0.051 0.157 0.140 142 pi+ 1 211 56 -0.063 -0.018 0.045 0.161 0.140 143 (pi0) 11 111 56 -0.310 0.178 0.126 0.402 0.135 144 pi- 1 -211 57 0.319 -0.745 2.959 3.071 0.140 145 pi+ 1 211 57 -0.253 -0.170 1.645 1.679 0.140 146 K_S0 1 310 62 -0.620 -1.082 13.852 13.917 0.498 147 K+ 1 321 63 -0.142 -0.237 23.029 23.036 0.494 148 pi- 1 -211 63 -0.157 -0.187 2.858 2.872 0.140 149 pi- 1 -211 64 -0.618 -0.155 11.433 11.452 0.140 150 pi+ 1 211 64 -0.145 -0.607 13.860 13.875 0.140 151 pi- 1 -211 68 0.002 -0.474 26.374 26.379 0.140 152 pi+ 1 211 68 -0.939 -0.716 66.845 66.856 0.140 153 (eta) 11 221 70 0.163 0.951 15.941 15.980 0.547 154 pi+ 1 211 70 0.649 -0.773 12.262 12.304 0.140 155 K_L0 1 130 71 0.062 0.450 12.244 12.262 0.498 156 K+ 1 321 78 -0.559 0.379 2.964 3.080 0.494 157 pi- 1 -211 78 0.310 -0.117 1.844 1.879 0.140 158 (pi0) 11 111 78 -0.049 0.288 0.565 0.651 0.135 159 (pi0) 11 111 78 0.280 0.222 0.814 0.899 0.135 160 pi+ 1 211 80 -0.529 0.056 2.527 2.586 0.140 161 (pi0) 11 111 80 0.100 0.058 0.541 0.569 0.135 162 pi+ 1 211 82 0.388 -0.137 2.551 2.588 0.140 163 (pi0) 11 111 82 0.672 0.437 2.157 2.306 0.135 164 pbar- 1 -2212 83 0.229 -0.352 1.669 1.960 0.938 165 pi- 1 -211 83 0.071 0.074 0.215 0.276 0.140 166 p+ 1 2212 85 1.211 0.787 1.871 2.543 0.938 167 (pi0) 11 111 85 0.215 -0.145 0.240 0.378 0.135 168 nbar0 1 -2112 87 1.387 0.286 1.450 2.234 0.940 169 (pi0) 11 111 87 -0.050 0.019 0.075 0.163 0.135 170 (pi0) 11 111 88 0.995 -0.209 -0.014 1.026 0.135 171 (pi0) 11 111 88 0.417 -0.251 0.028 0.506 0.135 172 (pi0) 11 111 88 0.203 -0.064 -0.015 0.253 0.135 173 pi- 1 -211 90 0.542 0.597 0.400 0.911 0.140 174 (pi0) 11 111 90 1.006 0.089 0.313 1.066 0.135 175 pi+ 1 211 91 0.253 1.905 -2.509 3.164 0.140 176 (pi0) 11 111 91 0.283 1.461 -1.032 1.815 0.135 177 K+ 1 321 93 0.802 0.165 -4.055 4.166 0.494 178 (pi0) 11 111 93 0.112 -0.108 -0.224 0.304 0.135 179 (pi0) 11 111 94 0.379 0.578 -4.991 5.040 0.135 180 (pi0) 11 111 94 0.078 0.088 -1.148 1.162 0.135 181 (pi0) 11 111 94 0.216 0.557 -3.743 3.793 0.135 182 K- 1 -321 95 3.269 0.842 -25.964 26.187 0.494 183 (pi0) 11 111 95 3.620 1.296 -30.936 31.174 0.135 184 K+ 1 321 96 2.174 1.092 -11.985 12.240 0.494 185 pi- 1 -211 96 0.734 0.008 -2.987 3.079 0.140 186 pi+ 1 211 98 0.640 -0.057 -3.645 3.704 0.140 187 pi- 1 -211 98 0.466 0.123 -2.140 2.198 0.140 188 (pi0) 11 111 98 1.982 0.439 -12.793 12.954 0.135 189 gamma 1 22 100 0.481 -0.576 -8.440 8.474 0.000 190 (rho0) 11 113 100 0.421 0.119 -4.579 4.620 0.431 191 pi+ 1 211 101 0.766 0.245 -5.212 5.275 0.140 192 (pi0) 11 111 101 -0.120 -0.387 -1.355 1.421 0.135 193 K- 1 -321 103 -0.276 -0.154 -106.164 106.166 0.494 194 pi+ 1 211 103 0.232 -0.184 -31.834 31.836 0.140 195 pi+ 1 211 109 -0.324 -0.070 1.659 1.698 0.140 196 (pi0) 11 111 109 0.005 -0.073 0.002 0.154 0.135 197 (K0) 11 311 111 -0.325 0.595 6.505 6.559 0.498 198 pi+ 1 211 111 -0.036 -0.096 0.757 0.777 0.140 199 K- 1 -321 112 0.314 -0.385 1.687 1.827 0.494 200 pi+ 1 211 112 -0.123 0.084 0.265 0.334 0.140 201 pi- 1 -211 113 0.126 0.139 -0.223 0.323 0.140 202 (pi0) 11 111 113 -0.142 0.125 0.436 0.494 0.135 203 gamma 1 22 121 -0.073 0.165 -0.725 0.748 0.000 204 gamma 1 22 121 -0.192 0.271 -0.782 0.849 0.000 205 gamma 1 22 123 -0.743 0.236 -3.198 3.291 0.000 206 gamma 1 22 123 -0.284 0.062 -0.903 0.949 0.000 207 gamma 1 22 127 -0.318 -0.094 -0.326 0.465 0.000 208 gamma 1 22 127 -0.098 -0.032 -0.016 0.104 0.000 209 gamma 1 22 138 -1.139 -0.267 -0.294 1.206 0.000 210 gamma 1 22 138 -0.787 -0.297 -0.180 0.860 0.000 211 gamma 1 22 143 -0.227 0.151 0.151 0.311 0.000 212 gamma 1 22 143 -0.083 0.028 -0.025 0.091 0.000 213 gamma 1 22 153 0.072 0.932 11.614 11.651 0.000 214 gamma 1 22 153 0.091 0.019 4.327 4.328 0.000 215 gamma 1 22 158 -0.056 0.300 0.554 0.632 0.000 216 gamma 1 22 158 0.007 -0.012 0.012 0.018 0.000 217 gamma 1 22 159 0.242 0.178 0.530 0.610 0.000 218 gamma 1 22 159 0.037 0.044 0.283 0.289 0.000 219 gamma 1 22 161 0.091 -0.013 0.408 0.419 0.000 220 gamma 1 22 161 0.009 0.071 0.132 0.150 0.000 221 gamma 1 22 163 0.506 0.364 1.795 1.900 0.000 222 gamma 1 22 163 0.167 0.073 0.362 0.406 0.000 223 gamma 1 22 167 0.037 -0.048 -0.005 0.060 0.000 224 gamma 1 22 167 0.179 -0.098 0.244 0.318 0.000 225 gamma 1 22 169 -0.052 0.071 0.067 0.110 0.000 226 gamma 1 22 169 0.002 -0.052 0.008 0.053 0.000 227 gamma 1 22 170 0.630 -0.074 0.024 0.635 0.000 228 gamma 1 22 170 0.365 -0.135 -0.038 0.391 0.000 229 gamma 1 22 171 0.024 -0.003 0.033 0.041 0.000 230 gamma 1 22 171 0.393 -0.248 -0.005 0.465 0.000 231 gamma 1 22 172 0.032 -0.045 0.044 0.071 0.000 232 gamma 1 22 172 0.171 -0.019 -0.059 0.182 0.000 233 gamma 1 22 174 0.699 0.017 0.261 0.746 0.000 234 gamma 1 22 174 0.306 0.072 0.052 0.319 0.000 235 gamma 1 22 176 0.093 0.719 -0.563 0.918 0.000 236 gamma 1 22 176 0.190 0.741 -0.469 0.897 0.000 237 gamma 1 22 178 0.094 -0.138 -0.160 0.231 0.000 238 gamma 1 22 178 0.018 0.030 -0.064 0.073 0.000 239 gamma 1 22 179 0.069 0.176 -1.704 1.714 0.000 240 gamma 1 22 179 0.311 0.402 -3.287 3.326 0.000 241 gamma 1 22 180 0.083 0.037 -0.329 0.341 0.000 242 gamma 1 22 180 -0.005 0.050 -0.820 0.821 0.000 243 gamma 1 22 181 0.147 0.215 -1.414 1.438 0.000 244 gamma 1 22 181 0.069 0.342 -2.329 2.355 0.000 245 gamma 1 22 183 1.988 0.767 -16.788 16.922 0.000 246 gamma 1 22 183 1.632 0.530 -14.148 14.252 0.000 247 gamma 1 22 188 0.177 0.077 -1.299 1.313 0.000 248 gamma 1 22 188 1.805 0.362 -11.494 11.641 0.000 249 pi+ 1 211 190 0.345 0.199 -2.717 2.749 0.140 250 pi- 1 -211 190 0.076 -0.080 -1.862 1.871 0.140 251 gamma 1 22 192 -0.099 -0.264 -0.714 0.768 0.000 252 gamma 1 GenInputManager Begin processing 13th record. Run 222530, Trigger 12 GenInputManager Begin processing 14th record. Run 222530, Trigger 13 GenInputManager Begin processing 15th record. Run 222530, Trigger 14 GenInputManager Begin processing 16th record. Run 222530, Trigger 15 GenInputManager Begin processing 17th record. Run 222530, Trigger 16 GenInputManager Begin processing 18th record. Run 222530, Trigger 17 GenInputManager Begin processing 19th record. Run 222530, Trigger 18 GenInputManager Begin processing 20th record. Run 222530, Trigger 19 GenInputManager Begin processing 21th record. Run 222530, Trigger 20 GenInputManager Begin processing 22th record. Run 222530, Trigger 21 GenInputManager Begin processing 23th record. Run 222530, Trigger 22 GenInputManager Begin processing 24th record. Run 222530, Trigger 23 GenInputManager Begin processing 25th record. Run 222530, Trigger 24 GenInputManager Begin processing 26th record. Run 222530, Trigger 25 GenInputManager Begin processing 27th record. Run 222530, Trigger 26 GenInputManager Begin processing 28th record. Run 222530, Trigger 27 GenInputManager Begin processing 29th record. Run 222530, Trigger 28 GenInputManager Begin processing 30th record. Run 222530, Trigger 29 GenInputManager Begin processing 31th record. Run 222530, Trigger 30 GenInputManager Begin processing 32th record. Run 222530, Trigger 31 GenInputManager Begin processing 33th record. Run 222530, Trigger 32 GenInputManager Begin processing 34th record. Run 222530, Trigger 33 GenInputManager Begin processing 35th record. Run 222530, Trigger 34 GenInputManager Begin processing 36th record. Run 222530, Trigger 35 GenInputManager Begin processing 37th record. Run 222530, Trigger 36 GenInputManager Begin processing 38th record. Run 222530, Trigger 37 GenInputManager Begin processing 39th record. Run 222530, Trigger 38 GenInputManager Begin processing 40th record. Run 222530, Trigger 39 22 192 -0.021 -0.123 -0.641 0.653 0.000 253 gamma 1 22 196 0.038 -0.063 -0.052 0.090 0.000 254 gamma 1 22 196 -0.033 -0.011 0.054 0.064 0.000 255 K_L0 1 130 197 -0.325 0.595 6.505 6.559 0.498 256 gamma 1 22 202 -0.032 0.099 0.298 0.316 0.000 257 gamma 1 22 202 -0.110 0.026 0.138 0.178 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 HEPEVT before cleanup... nhep = 530 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99955 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99955 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31462 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73473 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62262 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47567 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90258 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38796 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05627 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64448 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61500 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06993 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12388 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86794 823.44418 371.20283 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54096 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87997 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72384 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26348 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09527 51.10336 0.76516 138 (K(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67202 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10473 147.10482 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04882 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12830 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68107 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37455 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85889 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59479 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52031 273.22718 19.54095 203 (K(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69916 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84070 0.82764 209 (Sigma~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10520 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 406 408 -0.10884 0.18046 2.30472 2.91785 1.77700 220 (D(2010)+) 2 413 82 0 409 410 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 411 412 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 413 414 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 415 416 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 417 418 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 419 420 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18817 51.18845 0.13957 233 (pi0) 2 111 90 0 421 422 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 423 425 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 426 427 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 428 429 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 430 431 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 432 433 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 434 435 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 436 437 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 438 439 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 440 441 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 442 443 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 444 445 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 446 447 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 448 449 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 450 451 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 452 452 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 453 454 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 455 456 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 457 458 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 459 460 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 461 462 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 463 464 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 465 466 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 467 467 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 468 469 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 470 471 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 472 473 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 474 475 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 476 477 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 478 479 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 480 481 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 482 483 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 484 485 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 486 487 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 488 489 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 490 491 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 492 493 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 494 495 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 496 497 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 498 499 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 500 501 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 502 503 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 504 505 -0.95497 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82218 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 506 507 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77375 0.93957 393 (pi0) 2 111 207 0 508 509 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 510 511 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 512 513 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 514 515 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 516 518 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 nu_tau 1 16 219 0 0 0 -0.23628 0.02637 1.44739 1.46679 0.00000 407 pi- 1 -211 219 0 0 0 0.01213 -0.18753 0.55974 0.60672 0.13957 408 (rho(770)0) 2 113 219 0 519 520 0.11531 0.34161 0.29758 0.84435 0.70312 409 (D0) 2 421 220 0 521 522 0.69438 -1.18628 11.80284 12.02800 1.86450 410 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 411 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 412 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 413 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 414 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 415 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 416 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 417 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 418 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 419 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 420 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 421 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 422 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 423 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 424 (tau+) 2 -15 234 0 523 524 -1.44889 0.55040 0.81388 2.49446 1.77700 425 (Lambda_c~-) 2 -4122 234 0 525 526 -1.49060 4.46748 2.53316 5.81531 2.28490 426 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 427 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 428 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 429 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 430 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 431 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 432 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 433 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 434 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 435 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 436 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 437 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 438 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 439 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 440 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 441 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 442 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 443 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 444 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 445 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 446 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 447 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 448 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 449 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 450 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 451 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 452 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 453 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 454 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 455 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 456 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 457 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 458 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 459 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 460 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 461 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 462 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 463 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 464 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 465 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 466 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 467 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 468 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 469 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 470 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 471 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 472 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 473 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 474 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 475 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 476 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 477 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 478 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 479 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 480 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 481 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 482 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 483 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 484 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 485 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 486 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 487 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 488 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 489 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 490 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 491 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 492 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 493 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 494 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 495 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 496 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 497 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 498 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 499 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 500 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 501 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 502 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 503 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 504 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 505 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 506 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 507 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 508 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 509 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 510 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 511 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 512 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 513 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 514 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 515 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 516 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 517 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 518 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 519 pi- 1 -211 408 0 0 0 0.05012 0.47239 0.01296 0.49529 0.13957 520 pi+ 1 211 408 0 0 0 0.06519 -0.13077 0.28463 0.34906 0.13957 521 K- 1 -321 409 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 522 pi+ 1 211 409 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 523 nu_tau~ 1 -16 424 0 0 0 0.08018 -0.03499 0.84640 0.85091 0.00000 524 pi+ 1 211 424 0 0 0 -1.52907 0.58539 -0.03252 1.64355 0.13957 525 Lambda~0 1 -3122 425 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 526 (rho(770)-) 2 -213 425 0 527 528 -1.41388 2.84843 1.25656 3.46975 0.58963 527 pi- 1 -211 526 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 528 (pi0) 2 111 526 0 529 530 -0.47338 1.14869 0.74949 1.45723 0.13498 529 gamma 1 22 528 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 530 gamma 1 22 528 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 Remove particles : 1 406 Remove particles : 2 407 Remove particles : 3 408 Remove particles : 4 519 Remove particles : 5 520 Remove particles : 6 523 Remove particles : 7 524 HEPEVT after cleanup: nhep= 523 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31464 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73474 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62261 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47566 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90257 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38795 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05626 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64447 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61501 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06992 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12387 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86792 823.44421 371.20282 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54097 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87996 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72383 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26349 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09528 51.10336 0.76516 138 (K(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67203 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10472 147.10481 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04881 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12829 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68106 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37454 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85888 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59480 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52032 273.22717 19.54095 203 (K(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69915 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84069 0.82764 209 (Sigma~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10519 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 0 0 -0.10884 0.18046 2.30472 2.91785 1.77700 220 (D(2010)+) 2 413 82 0 406 407 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 408 409 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 410 411 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 412 413 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 414 415 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 416 417 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18818 51.18845 0.13957 233 (pi0) 2 111 90 0 418 419 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 420 422 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 423 424 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 425 426 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 427 428 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 429 430 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 431 432 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 433 434 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 435 436 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 437 438 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 439 440 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 441 442 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 443 444 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 445 446 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 447 448 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 449 449 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 450 451 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 452 453 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 454 455 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 456 457 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 458 459 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 460 461 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 462 463 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 464 464 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 465 466 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 467 468 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 469 470 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 471 472 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 473 474 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 475 476 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 477 478 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 479 480 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 481 482 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 483 484 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 485 486 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 487 488 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 489 490 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 491 492 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 493 494 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 495 496 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 497 498 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 499 500 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 501 502 -0.95496 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82217 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 503 504 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77376 0.93957 393 (pi0) 2 111 207 0 505 506 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 507 508 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 509 510 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 511 512 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 513 515 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 (D0) 2 421 220 0 516 517 0.69438 -1.18628 11.80284 12.02800 1.86450 407 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 408 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 409 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 410 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 411 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 412 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 413 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 414 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 415 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 416 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 417 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 418 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 419 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 420 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 421 (tau+) 2 -15 234 0 0 0 -1.44889 0.55040 0.81388 2.49446 1.77700 422 (Lambda_c~-) 2 -4122 234 0 518 519 -1.49060 4.46748 2.53316 5.81531 2.28490 423 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 424 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 425 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 426 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 427 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 428 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 429 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 430 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 431 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 432 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 433 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 434 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 435 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 436 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 437 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 438 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 439 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 440 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 441 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 442 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 443 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 444 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 445 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 446 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 447 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 448 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 449 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 450 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 451 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 452 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 453 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 454 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 455 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 456 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 457 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 458 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 459 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 460 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 461 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 462 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 463 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 464 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 465 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 466 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 467 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 468 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 469 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 470 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 471 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 472 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 473 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 474 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 475 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 476 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 477 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 478 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 479 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 480 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 481 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 482 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 483 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 484 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 485 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 486 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 487 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 488 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 489 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 490 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 491 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 492 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 493 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 494 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 495 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 496 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 497 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 498 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 499 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 500 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 501 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 502 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 503 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 504 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 505 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 506 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 507 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 508 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 509 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 510 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 511 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 512 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 513 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 514 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 515 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 516 K- 1 -321 406 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 517 pi+ 1 211 406 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 518 Lambda~0 1 -3122 422 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 519 (rho(770)-) 2 -213 422 0 520 521 -1.41388 2.84843 1.25656 3.46975 0.58963 520 pi- 1 -211 519 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 521 (pi0) 2 111 519 0 522 523 -0.47338 1.14869 0.74949 1.45723 0.13498 522 gamma 1 22 521 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 523 gamma 1 22 521 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 Will redecay tau # 219 ID = 15 Mother particle #. 82 ID = -511 TAUCHI : Tau mother is not W,Z,H..random polarity *************************************************************************** * ***TAUOLA LIBRARY: VERSION 2.6 **** * * *********August 1995************* * * AUTHORS: S.JADACH, Z.WAS*********** * * R. DECKER, M. JEZABEK, J.H.KUEHN*** * * AVAILABLE FROM: WASM AT CERNVM **** * * *** PUBLISHED IN COMP. PHYS. COMM.* * * *****CERN-TH-5856 SEPTEMBER 1990*** * * *****CERN-TH-6195 SEPTEMBER 1991*** * * *****CERN-TH-6793 NOVEMBER 1992*** * * *5 or more pi dec.: precision limited * ****DEXAY ROUTINE: INITIALIZATION** * * 0 JAK1 = DECAY MODE FERMION1 (TAU+) * * 0 JAK2 = DECAY MODE FERMION2 (TAU-) * ************************************************************************* *********************************************** YOU ARE USING THE 4 PION DECAY MODE FORM FACTORS WHICH HAVE BEEN DESCRIBED IN: R. DECKER, M. FINKEMEIER, P. HEILIGER AND H.H. JONSSON "TAU DECAYS INTO FOUR PIONS" UNIVERSITAET KARLSRUHE PREPRINT TTP 94-13 (1994); LNF-94/066(IR); HEP-PH/9410260 PLEASE NOTE THAT THIS ROUTINE IS USING PARAMETERS RELATED TO THE 3 PION DECAY MODE (A1 MODE), SUCH AS THE A1 MASS AND WIDTH (TAKEN FROM THE COMMON /PARMAS/) AND THE 2 PION VECTOR RESONANCE FORM FACTOR (BY USING THE ROUTINE FPIKM) THUS IF YOU DECIDE TO CHANGE ANY OF THESE, YOU WILL HAVE TO REFIT THE 4 PION PARAMETERS IN THE COMMON BLOCK /TAU4PI/, OR YOU MIGHT GET A BAD DISCRIPTION OF TAU -> 4 PIONS for these formfactors set in routine CHOICE for mnum.eq.102 -- AMRX=1.42 and GAMRX=.21 mnum.eq.101 -- AMRX=1.3 and GAMRX=.46 PROB1,PROB2=0.2 to optimize phase space parametrization ************************************************* coded by M. Finkemeier and P. Heiliger, 29. sept. 1994 incorporated to TAUOLA by Z. Was 17. jan. 1995 changed by: Z. Was on 17.01.95 changes by: M. Finkemeier on 30.01.95 Will redecay tau # 421 ID = -15 Mother particle #. 234 ID = -5122 TAUCHI : Tau mother is not W,Z,H..random polarity HEPEVT after TAUOLA decays: NHEP= 538 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31464 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73474 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62261 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47566 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90257 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38795 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05626 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64447 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61501 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06992 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12387 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86792 823.44421 371.20282 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54097 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87996 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72383 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26349 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09528 51.10336 0.76516 138 (K(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67203 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10472 147.10481 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04881 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12829 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68106 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37454 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85888 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59480 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52032 273.22717 19.54095 203 (K(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69915 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84069 0.82764 209 (Sigma~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10519 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 524 525 -0.10884 0.18046 2.30472 2.91787 1.77703 220 (D(2010)+) 2 413 82 0 406 407 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 408 409 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 410 411 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 412 413 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 414 415 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 416 417 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18818 51.18845 0.13957 233 (pi0) 2 111 90 0 418 419 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 420 422 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 423 424 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 425 426 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 427 428 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 429 430 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 431 432 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 433 434 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 435 436 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 437 438 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 439 440 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 441 442 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 443 444 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 445 446 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 447 448 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 449 449 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 450 451 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 452 453 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 454 455 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 456 457 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 458 459 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 460 461 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 462 463 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 464 464 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 465 466 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 467 468 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 469 470 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 471 472 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 473 474 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 475 476 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 477 478 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 479 480 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 481 482 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 483 484 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 485 486 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 487 488 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 489 490 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 491 492 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 493 494 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 495 496 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 497 498 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 499 500 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 501 502 -0.95496 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82217 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 503 504 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77376 0.93957 393 (pi0) 2 111 207 0 505 506 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 507 508 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 509 510 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 511 512 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 513 515 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 (D0) 2 421 220 0 516 517 0.69438 -1.18628 11.80284 12.02800 1.86450 407 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 408 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 409 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 410 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 411 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 412 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 413 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 414 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 415 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 416 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 417 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 418 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 419 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 420 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 421 (tau+) 2 -15 234 0 533 534 -1.44889 0.55040 0.81388 2.49449 1.77703 422 (Lambda_c~-) 2 -4122 234 0 518 519 -1.49060 4.46748 2.53316 5.81531 2.28490 423 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 424 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 425 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 426 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 427 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 428 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 429 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 430 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 431 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 432 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 433 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 434 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 435 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 436 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 437 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 438 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 439 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 440 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 441 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 442 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 443 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 444 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 445 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 446 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 447 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 448 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 449 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 450 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 451 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 452 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 453 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 454 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 455 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 456 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 457 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 458 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 459 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 460 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 461 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 462 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 463 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 464 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 465 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 466 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 467 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 468 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 469 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 470 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 471 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 472 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 473 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 474 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 475 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 476 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 477 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 478 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 479 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 480 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 481 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 482 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 483 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 484 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 485 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 486 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 487 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 488 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 489 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 490 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 491 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 492 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 493 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 494 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 495 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 496 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 497 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 498 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 499 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 500 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 501 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 502 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 503 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 504 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 505 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 506 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 507 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 508 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 509 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 510 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 511 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 512 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 513 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 514 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 515 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 516 K- 1 -321 406 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 517 pi+ 1 211 406 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 518 Lambda~0 1 -3122 422 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 519 (rho(770)-) 2 -213 422 0 520 521 -1.41388 2.84843 1.25656 3.46975 0.58963 520 pi- 1 -211 519 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 521 (pi0) 2 111 519 0 522 523 -0.47338 1.14869 0.74949 1.45723 0.13498 522 gamma 1 22 521 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 523 gamma 1 22 521 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 524 nu_tau 1 16 219 219 0 0 0.00209 0.32455 0.39791 0.51358 0.01000 525 (a_1(1260)-) 2 -20213 219 219 526 528 -0.11093 -0.14409 1.90681 2.40429 1.45314 526 (pi0) 2 111 525 525 529 530 -0.09210 0.03910 -0.00800 0.16821 0.13498 527 (pi0) 2 111 525 525 531 532 0.02268 0.33223 0.14581 0.38778 0.13498 528 pi- 1 -211 525 525 0 0 -0.04150 -0.51542 1.76900 1.84830 0.13957 529 gamma 1 22 526 526 0 0 -0.05254 0.08680 -0.02386 0.10423 0.00000 530 gamma 1 22 526 526 0 0 -0.03956 -0.04771 0.01586 0.06398 0.00000 531 gamma 1 22 527 527 0 0 0.06130 0.18681 0.13172 0.23666 0.00000 532 gamma 1 22 527 527 0 0 -0.03862 0.14542 0.01408 0.15112 0.00000 533 nu_tau~ 1 -16 421 421 GenInputManager Begin processing 41th record. 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Run 222530, Trigger 54 GenInputManager Begin processing 56th record. Run 222530, Trigger 55 GenInputManager Begin processing 57th record. Run 222530, Trigger 56 GenInputManager Begin processing 58th record. Run 222530, Trigger 57 GenInputManager Begin processing 59th record. Run 222530, Trigger 58 GenInputManager Begin processing 60th record. Run 222530, Trigger 59 GenInputManager Begin processing 61th record. Run 222530, Trigger 60 GenInputManager Begin processing 62th record. Run 222530, Trigger 61 GenInputManager Begin processing 63th record. Run 222530, Trigger 62 GenInputManager Begin processing 64th record. Run 222530, Trigger 63 GenInputManager Begin processing 65th record. Run 222530, Trigger 64 GenInputManager Begin processing 66th record. Run 222530, Trigger 65 GenInputManager Begin processing 67th record. Run 222530, Trigger 66 GenInputManager Begin processing 68th record. Run 222530, Trigger 67 GenInputManager Begin processing 69th record. Run 222530, Trigger 68 GenInputManager Begin processing 70th record. Run 222530, Trigger 69 GenInputManager Begin processing 71th record. Run 222530, Trigger 70 GenInputManager Begin processing 72th record. Run 222530, Trigger 71 GenInputManager Begin processing 73th record. Run 222530, Trigger 72 GenInputManager Begin processing 74th record. Run 222530, Trigger 73 GenInputManager Begin processing 75th record. Run 222530, Trigger 74 GenInputManager Begin processing 76th record. Run 222530, Trigger 75 GenInputManager Begin processing 77th record. Run 222530, Trigger 76 GenInputManager Begin processing 78th record. Run 222530, Trigger 77 GenInputManager Begin processing 79th record. Run 222530, Trigger 78 GenInputManager Begin processing 80th record. Run 222530, Trigger 79 GenInputManager Begin processing 81th record. Run 222530, Trigger 80 GenInputManager Begin processing 82th record. Run 222530, Trigger 81 GenInputManager Begin processing 83th record. Run 222530, Trigger 82 GenInputManager Begin processing 84th record. Run 222530, Trigger 83 GenInputManager Begin processing 85th record. Run 222530, Trigger 84 GenInputManager Begin processing 86th record. Run 222530, Trigger 85 GenInputManager Begin processing 87th record. Run 222530, Trigger 86 GenInputManager Begin processing 88th record. Run 222530, Trigger 87 GenInputManager Begin processing 89th record. Run 222530, Trigger 88 GenInputManager Begin processing 90th record. Run 222530, Trigger 89 GenInputManager Begin processing 91th record. Run 222530, Trigger 90 GenInputManager Begin processing 92th record. Run 222530, Trigger 91 GenInputManager Begin processing 93th record. Run 222530, Trigger 92 GenInputManager Begin processing 94th record. Run 222530, Trigger 93 GenInputManager Begin processing 95th record. Run 222530, Trigger 94 GenInputManager Begin processing 96th record. Run 222530, Trigger 95 GenInputManager Begin processing 97th record. Run 222530, Trigger 96 GenInputManager Begin processing 98th record. Run 222530, Trigger 97 GenInputManager Begin processing 99th record. Run 222530, Trigger 98 GenInputManager Begin processing 100th record. Run 222530, Trigger 99 GenInputManager Begin processing 101th record. Run 222530, Trigger 100 GenInputManager Begin processing 102th record. Run 222530, Trigger 101 GenInputManager Begin processing 103th record. Run 222530, Trigger 102 GenInputManager Begin processing 104th record. Run 222530, Trigger 103 GenInputManager Begin processing 105th record. Run 222530, Trigger 104 GenInputManager Begin processing 106th record. Run 222530, Trigger 105 GenInputManager Begin processing 107th record. Run 222530, Trigger 106 GenInputManager Begin processing 108th record. Run 222530, Trigger 107 GenInputManager Begin processing 109th record. Run 222530, Trigger 108 GenInputManager Begin processing 110th record. Run 222530, Trigger 109 GenInputManager Begin processing 111th record. Run 222530, Trigger 110 GenInputManager Begin processing 112th record. Run 222530, Trigger 111 GenInputManager Begin processing 113th record. Run 222530, Trigger 112 GenInputManager Begin processing 114th record. Run 222530, Trigger 113 GenInputManager Begin processing 115th record. Run 222530, Trigger 114 GenInputManager Begin processing 116th record. Run 222530, Trigger 115 GenInputManager Begin processing 117th record. Run 222530, Trigger 116 GenInputManager Begin processing 118th record. Run 222530, Trigger 117 GenInputManager Begin processing 119th record. Run 222530, Trigger 118 GenInputManager Begin processing 120th record. Run 222530, Trigger 119 GenInputManager Begin processing 121th record. Run 222530, Trigger 120 GenInputManager Begin processing 122th record. Run 222530, Trigger 121 GenInputManager Begin processing 123th record. Run 222530, Trigger 122 GenInputManager Begin processing 124th record. Run 222530, Trigger 123 GenInputManager Begin processing 125th record. Run 222530, Trigger 124 GenInputManager Begin processing 126th record. Run 222530, Trigger 125 GenInputManager Begin processing 127th record. Run 222530, Trigger 126 GenInputManager Begin processing 128th record. Run 222530, Trigger 127 GenInputManager Begin processing 129th record. Run 222530, Trigger 128 GenInputManager Begin processing 130th record. Run 222530, Trigger 129 GenInputManager Begin processing 131th record. Run 222530, Trigger 130 GenInputManager Begin processing 132th record. Run 222530, Trigger 131 GenInputManager Begin processing 133th record. Run 222530, Trigger 132 GenInputManager Begin processing 134th record. Run 222530, Trigger 133 GenInputManager Begin processing 135th record. Run 222530, Trigger 134 GenInputManager Begin processing 136th record. Run 222530, Trigger 135 GenInputManager Begin processing 137th record. Run 222530, Trigger 136 GenInputManager Begin processing 138th record. Run 222530, Trigger 137 GenInputManager Begin processing 139th record. Run 222530, Trigger 138 GenInputManager Begin processing 140th record. Run 222530, Trigger 139 GenInputManager Begin processing 141th record. Run 222530, Trigger 140 GenInputManager Begin processing 142th record. Run 222530, Trigger 141 GenInputManager Begin processing 143th record. Run 222530, Trigger 142 GenInputManager Begin processing 144th record. Run 222530, Trigger 143 GenInputManager Begin processing 145th record. Run 222530, Trigger 144 GenInputManager Begin processing 146th record. Run 222530, Trigger 145 GenInputManager Begin processing 147th record. Run 222530, Trigger 146 GenInputManager Begin processing 148th record. Run 222530, Trigger 147 GenInputManager Begin processing 149th record. Run 222530, Trigger 148 GenInputManager Begin processing 150th record. Run 222530, Trigger 149 GenInputManager Begin processing 151th record. Run 222530, Trigger 150 GenInputManager Begin processing 152th record. Run 222530, Trigger 151 GenInputManager Begin processing 153th record. Run 222530, Trigger 152 GenInputManager Begin processing 154th record. Run 222530, Trigger 153 GenInputManager Begin processing 155th record. Run 222530, Trigger 154 GenInputManager Begin processing 156th record. Run 222530, Trigger 155 GenInputManager Begin processing 157th record. Run 222530, Trigger 156 GenInputManager Begin processing 158th record. Run 222530, Trigger 157 GenInputManager Begin processing 159th record. Run 222530, Trigger 158 GenInputManager Begin processing 160th record. Run 222530, Trigger 159 GenInputManager Begin processing 161th record. Run 222530, Trigger 160 GenInputManager Begin processing 162th record. Run 222530, Trigger 161 GenInputManager Begin processing 163th record. Run 222530, Trigger 162 GenInputManager Begin processing 164th record. Run 222530, Trigger 163 GenInputManager Begin processing 165th record. Run 222530, Trigger 164 GenInputManager Begin processing 166th record. Run 222530, Trigger 165 GenInputManager Begin processing 167th record. Run 222530, Trigger 166 GenInputManager Begin processing 168th record. Run 222530, Trigger 167 GenInputManager Begin processing 169th record. Run 222530, Trigger 168 GenInputManager Begin processing 170th record. Run 222530, Trigger 169 GenInputManager Begin processing 171th record. Run 222530, Trigger 170 GenInputManager Begin processing 172th record. Run 222530, Trigger 171 GenInputManager Begin processing 173th record. Run 222530, Trigger 172 GenInputManager Begin processing 174th record. Run 222530, Trigger 173 GenInputManager Begin processing 175th record. Run 222530, Trigger 174 GenInputManager Begin processing 176th record. Run 222530, Trigger 175 GenInputManager Begin processing 177th record. Run 222530, Trigger 176 GenInputManager Begin processing 178th record. Run 222530, Trigger 177 GenInputManager Begin processing 179th record. Run 222530, Trigger 178 GenInputManager Begin processing 180th record. Run 222530, Trigger 179 GenInputManager Begin processing 181th record. Run 222530, Trigger 180 GenInputManager Begin processing 182th record. Run 222530, Trigger 181 GenInputManager Begin processing 183th record. Run 222530, Trigger 182 GenInputManager Begin processing 184th record. Run 222530, Trigger 183 GenInputManager Begin processing 185th record. Run 222530, Trigger 184 GenInputManager Begin processing 186th record. Run 222530, Trigger 185 GenInputManager Begin processing 187th record. Run 222530, Trigger 186 GenInputManager Begin processing 188th record. Run 222530, Trigger 187 GenInputManager Begin processing 189th record. Run 222530, Trigger 188 GenInputManager Begin processing 190th record. Run 222530, Trigger 189 GenInputManager Begin processing 191th record. Run 222530, Trigger 190 GenInputManager Begin processing 192th record. Run 222530, Trigger 191 GenInputManager Begin processing 193th record. Run 222530, Trigger 192 GenInputManager Begin processing 194th record. Run 222530, Trigger 193 GenInputManager Begin processing 195th record. Run 222530, Trigger 194 GenInputManager Begin processing 196th record. Run 222530, Trigger 195 GenInputManager Begin processing 197th record. Run 222530, Trigger 196 GenInputManager Begin processing 198th record. Run 222530, Trigger 197 GenInputManager Begin processing 199th record. Run 222530, Trigger 198 GenInputManager Begin processing 200th record. Run 222530, Trigger 199 GenInputManager Begin processing 201th record. Run 222530, Trigger 200 GenInputManager Begin processing 202th record. Run 222530, Trigger 201 GenInputManager Begin processing 203th record. Run 222530, Trigger 202 GenInputManager Begin processing 204th record. Run 222530, Trigger 203 GenInputManager Begin processing 205th record. Run 222530, Trigger 204 GenInputManager Begin processing 206th record. Run 222530, Trigger 205 GenInputManager Begin processing 207th record. Run 222530, Trigger 206 GenInputManager Begin processing 208th record. Run 222530, Trigger 207 GenInputManager Begin processing 209th record. Run 222530, Trigger 208 GenInputManager Begin processing 210th record. Run 222530, Trigger 209 GenInputManager Begin processing 211th record. Run 222530, Trigger 210 GenInputManager Begin processing 212th record. Run 222530, Trigger 211 GenInputManager Begin processing 213th record. Run 222530, Trigger 212 GenInputManager Begin processing 214th record. Run 222530, Trigger 213 GenInputManager Begin processing 215th record. Run 222530, Trigger 214 GenInputManager Begin processing 216th record. Run 222530, Trigger 215 GenInputManager Begin processing 217th record. Run 222530, Trigger 216 GenInputManager Begin processing 218th record. Run 222530, Trigger 217 GenInputManager Begin processing 219th record. Run 222530, Trigger 218 GenInputManager Begin processing 220th record. Run 222530, Trigger 219 GenInputManager Begin processing 221th record. Run 222530, Trigger 220 GenInputManager Begin processing 222th record. Run 222530, Trigger 221 GenInputManager Begin processing 223th record. Run 222530, Trigger 222 GenInputManager Begin processing 224th record. Run 222530, Trigger 223 GenInputManager Begin processing 225th record. Run 222530, Trigger 224 GenInputManager Begin processing 226th record. Run 222530, Trigger 225 GenInputManager Begin processing 227th record. Run 222530, Trigger 226 GenInputManager Begin processing 228th record. Run 222530, Trigger 227 GenInputManager Begin processing 229th record. Run 222530, Trigger 228 GenInputManager Begin processing 230th record. Run 222530, Trigger 229 GenInputManager Begin processing 231th record. Run 222530, Trigger 230 GenInputManager Begin processing 232th record. Run 222530, Trigger 231 GenInputManager Begin processing 233th record. Run 222530, Trigger 232 GenInputManager Begin processing 234th record. Run 222530, Trigger 233 GenInputManager Begin processing 235th record. Run 222530, Trigger 234 GenInputManager Begin processing 236th record. Run 222530, Trigger 235 GenInputManager Begin processing 237th record. Run 222530, Trigger 236 GenInputManager Begin processing 238th record. Run 222530, Trigger 237 GenInputManager Begin processing 239th record. Run 222530, Trigger 238 GenInputManager Begin processing 240th record. Run 222530, Trigger 239 GenInputManager Begin processing 241th record. Run 222530, Trigger 240 GenInputManager Begin processing 242th record. Run 222530, Trigger 241 GenInputManager Begin processing 243th record. Run 222530, Trigger 242 GenInputManager Begin processing 244th record. Run 222530, Trigger 243 GenInputManager Begin processing 245th record. Run 222530, Trigger 244 GenInputManager Begin processing 246th record. Run 222530, Trigger 245 GenInputManager Begin processing 247th record. Run 222530, Trigger 246 GenInputManager Begin processing 248th record. Run 222530, Trigger 247 GenInputManager Begin processing 249th record. Run 222530, Trigger 248 GenInputManager Begin processing 250th record. Run 222530, Trigger 249 GenInputManager Begin processing 251th record. Run 222530, Trigger 250 GenInputManager Begin processing 252th record. Run 222530, Trigger 251 GenInputManager Begin processing 253th record. Run 222530, Trigger 252 GenInputManager Begin processing 254th record. Run 222530, Trigger 253 GenInputManager Begin processing 255th record. Run 222530, Trigger 254 GenInputManager Begin processing 256th record. Run 222530, Trigger 255 GenInputManager Begin processing 257th record. Run 222530, Trigger 256 GenInputManager Begin processing 258th record. Run 222530, Trigger 257 GenInputManager Begin processing 259th record. Run 222530, Trigger 258 GenInputManager Begin processing 260th record. Run 222530, Trigger 259 GenInputManager Begin processing 261th record. Run 222530, Trigger 260 GenInputManager Begin processing 262th record. Run 222530, Trigger 261 GenInputManager Begin processing 263th record. Run 222530, Trigger 262 GenInputManager Begin processing 264th record. Run 222530, Trigger 263 GenInputManager Begin processing 265th record. Run 222530, Trigger 264 GenInputManager Begin processing 266th record. Run 222530, Trigger 265 GenInputManager Begin processing 267th record. Run 222530, Trigger 266 GenInputManager Begin processing 268th record. Run 222530, Trigger 267 GenInputManager Begin processing 269th record. Run 222530, Trigger 268 GenInputManager Begin processing 270th record. Run 222530, Trigger 269 GenInputManager Begin processing 271th record. Run 222530, Trigger 270 GenInputManager Begin processing 272th record. Run 222530, Trigger 271 GenInputManager Begin processing 273th record. Run 222530, Trigger 272 GenInputManager Begin processing 274th record. Run 222530, Trigger 273 GenInputManager Begin processing 275th record. Run 222530, Trigger 274 GenInputManager Begin processing 276th record. Run 222530, Trigger 275 GenInputManager Begin processing 277th record. Run 222530, Trigger 276 GenInputManager Begin processing 278th record. Run 222530, Trigger 277 GenInputManager Begin processing 279th record. Run 222530, Trigger 278 GenInputManager Begin processing 280th record. Run 222530, Trigger 279 GenInputManager Begin processing 281th record. Run 222530, Trigger 280 GenInputManager Begin processing 282th record. Run 222530, Trigger 281 GenInputManager Begin processing 283th record. Run 222530, Trigger 282 GenInputManager Begin processing 284th record. Run 222530, Trigger 283 GenInputManager Begin processing 285th record. Run 222530, Trigger 284 GenInputManager Begin processing 286th record. Run 222530, Trigger 285 GenInputManager Begin processing 287th record. Run 222530, Trigger 286 GenInputManager Begin processing 288th record. Run 222530, Trigger 287 GenInputManager Begin processing 289th record. Run 222530, Trigger 288 GenInputManager Begin processing 290th record. Run 222530, Trigger 289 GenInputManager Begin processing 291th record. Run 222530, Trigger 290 GenInputManager Begin processing 292th record. Run 222530, Trigger 291 GenInputManager Begin processing 293th record. Run 222530, Trigger 292 GenInputManager Begin processing 294th record. Run 222530, Trigger 293 GenInputManager Begin processing 295th record. Run 222530, Trigger 294 GenInputManager Begin processing 296th record. Run 222530, Trigger 295 GenInputManager Begin processing 297th record. Run 222530, Trigger 296 GenInputManager Begin processing 298th record. Run 222530, Trigger 297 GenInputManager Begin processing 299th record. Run 222530, Trigger 298 GenInputManager Begin processing 300th record. Run 222530, Trigger 299 GenInputManager Begin processing 301th record. Run 222530, Trigger 300 GenInputManager Begin processing 302th record. Run 222530, Trigger 301 GenInputManager Begin processing 303th record. Run 222530, Trigger 302 GenInputManager Begin processing 304th record. Run 222530, Trigger 303 GenInputManager Begin processing 305th record. Run 222530, Trigger 304 GenInputManager Begin processing 306th record. Run 222530, Trigger 305 GenInputManager Begin processing 307th record. Run 222530, Trigger 306 GenInputManager Begin processing 308th record. Run 222530, Trigger 307 GenInputManager Begin processing 309th record. Run 222530, Trigger 308 GenInputManager Begin processing 310th record. Run 222530, Trigger 309 GenInputManager Begin processing 311th record. Run 222530, Trigger 310 GenInputManager Begin processing 312th record. Run 222530, Trigger 311 GenInputManager Begin processing 313th record. Run 222530, Trigger 312 GenInputManager Begin processing 314th record. Run 222530, Trigger 313 GenInputManager Begin processing 315th record. Run 222530, Trigger 314 GenInputManager Begin processing 316th record. Run 222530, Trigger 315 GenInputManager Begin processing 317th record. Run 222530, Trigger 316 GenInputManager Begin processing 318th record. Run 222530, Trigger 317 GenInputManager Begin processing 319th record. Run 222530, Trigger 318 GenInputManager Begin processing 320th record. Run 222530, Trigger 319 GenInputManager Begin processing 321th record. Run 222530, Trigger 320 GenInputManager Begin processing 322th record. Run 222530, Trigger 321 GenInputManager Begin processing 323th record. Run 222530, Trigger 322 GenInputManager Begin processing 324th record. Run 222530, Trigger 323 GenInputManager Begin processing 325th record. Run 222530, Trigger 324 GenInputManager Begin processing 326th record. Run 222530, Trigger 325 GenInputManager Begin processing 327th record. Run 222530, Trigger 326 GenInputManager Begin processing 328th record. Run 222530, Trigger 327 GenInputManager Begin processing 329th record. Run 222530, Trigger 328 GenInputManager Begin processing 330th record. Run 222530, Trigger 329 GenInputManager Begin processing 331th record. Run 222530, Trigger 330 GenInputManager Begin processing 332th record. Run 222530, Trigger 331 GenInputManager Begin processing 333th record. Run 222530, Trigger 332 GenInputManager Begin processing 334th record. Run 222530, Trigger 333 GenInputManager Begin processing 335th record. Run 222530, Trigger 334 GenInputManager Begin processing 336th record. Run 222530, Trigger 335 GenInputManager Begin processing 337th record. Run 222530, Trigger 336 GenInputManager Begin processing 338th record. Run 222530, Trigger 337 GenInputManager Begin processing 339th record. Run 222530, Trigger 338 GenInputManager Begin processing 340th record. Run 222530, Trigger 339 GenInputManager Begin processing 341th record. Run 222530, Trigger 340 GenInputManager Begin processing 342th record. Run 222530, Trigger 341 GenInputManager Begin processing 343th record. Run 222530, Trigger 342 GenInputManager Begin processing 344th record. Run 222530, Trigger 343 GenInputManager Begin processing 345th record. Run 222530, Trigger 344 GenInputManager Begin processing 346th record. Run 222530, Trigger 345 GenInputManager Begin processing 347th record. Run 222530, Trigger 346 GenInputManager Begin processing 348th record. Run 222530, Trigger 347 GenInputManager Begin processing 349th record. Run 222530, Trigger 348 GenInputManager Begin processing 350th record. Run 222530, Trigger 349 GenInputManager Begin processing 351th record. Run 222530, Trigger 350 GenInputManager Begin processing 352th record. Run 222530, Trigger 351 GenInputManager Begin processing 353th record. Run 222530, Trigger 352 GenInputManager Begin processing 354th record. Run 222530, Trigger 353 GenInputManager Begin processing 355th record. Run 222530, Trigger 354 GenInputManager Begin processing 356th record. Run 222530, Trigger 355 GenInputManager Begin processing 357th record. Run 222530, Trigger 356 GenInputManager Begin processing 358th record. Run 222530, Trigger 357 GenInputManager Begin processing 359th record. Run 222530, Trigger 358 GenInputManager Begin processing 360th record. Run 222530, Trigger 359 GenInputManager Begin processing 361th record. Run 222530, Trigger 360 GenInputManager Begin processing 362th record. Run 222530, Trigger 361 GenInputManager Begin processing 363th record. Run 222530, Trigger 362 GenInputManager Begin processing 364th record. Run 222530, Trigger 363 GenInputManager Begin processing 365th record. Run 222530, Trigger 364 GenInputManager Begin processing 366th record. Run 222530, Trigger 365 GenInputManager Begin processing 367th record. Run 222530, Trigger 366 GenInputManager Begin processing 368th record. Run 222530, Trigger 367 GenInputManager Begin processing 369th record. Run 222530, Trigger 368 GenInputManager Begin processing 370th record. Run 222530, Trigger 369 GenInputManager Begin processing 371th record. Run 222530, Trigger 370 GenInputManager Begin processing 372th record. Run 222530, Trigger 371 GenInputManager Begin processing 373th record. Run 222530, Trigger 372 GenInputManager Begin processing 374th record. Run 222530, Trigger 373 GenInputManager Begin processing 375th record. Run 222530, Trigger 374 GenInputManager Begin processing 376th record. Run 222530, Trigger 375 GenInputManager Begin processing 377th record. Run 222530, Trigger 376 GenInputManager Begin processing 378th record. Run 222530, Trigger 377 GenInputManager Begin processing 379th record. Run 222530, Trigger 378 GenInputManager Begin processing 380th record. Run 222530, Trigger 379 GenInputManager Begin processing 381th record. Run 222530, Trigger 380 GenInputManager Begin processing 382th record. Run 222530, Trigger 381 GenInputManager Begin processing 383th record. Run 222530, Trigger 382 GenInputManager Begin processing 384th record. Run 222530, Trigger 383 GenInputManager Begin processing 385th record. Run 222530, Trigger 384 GenInputManager Begin processing 386th record. Run 222530, Trigger 385 GenInputManager Begin processing 387th record. Run 222530, Trigger 386 GenInputManager Begin processing 388th record. Run 222530, Trigger 387 GenInputManager Begin processing 389th record. Run 222530, Trigger 388 GenInputManager Begin processing 390th record. Run 222530, Trigger 389 GenInputManager Begin processing 391th record. Run 222530, Trigger 390 GenInputManager Begin processing 392th record. Run 222530, Trigger 391 GenInputManager Begin processing 393th record. Run 222530, Trigger 392 GenInputManager Begin processing 394th record. Run 222530, Trigger 393 GenInputManager Begin processing 395th record. Run 222530, Trigger 394 GenInputManager Begin processing 396th record. Run 222530, Trigger 395 GenInputManager Begin processing 397th record. Run 222530, Trigger 396 GenInputManager Begin processing 398th record. Run 222530, Trigger 397 GenInputManager Begin processing 399th record. Run 222530, Trigger 398 GenInputManager Begin processing 400th record. Run 222530, Trigger 399 GenInputManager Begin processing 401th record. Run 222530, Trigger 400 GenInputManager Begin processing 402th record. Run 222530, Trigger 401 GenInputManager Begin processing 403th record. Run 222530, Trigger 402 GenInputManager Begin processing 404th record. Run 222530, Trigger 403 GenInputManager Begin processing 405th record. Run 222530, Trigger 404 GenInputManager Begin processing 406th record. Run 222530, Trigger 405 GenInputManager Begin processing 407th record. Run 222530, Trigger 406 GenInputManager Begin processing 408th record. Run 222530, Trigger 407 GenInputManager Begin processing 409th record. Run 222530, Trigger 408 GenInputManager Begin processing 410th record. Run 222530, Trigger 409 GenInputManager Begin processing 411th record. Run 222530, Trigger 410 GenInputManager Begin processing 412th record. Run 222530, Trigger 411 GenInputManager Begin processing 413th record. Run 222530, Trigger 412 GenInputManager Begin processing 414th record. Run 222530, Trigger 413 GenInputManager Begin processing 415th record. Run 222530, Trigger 414 GenInputManager Begin processing 416th record. Run 222530, Trigger 415 GenInputManager Begin processing 417th record. Run 222530, Trigger 416 GenInputManager Begin processing 418th record. Run 222530, Trigger 417 GenInputManager Begin processing 419th record. Run 222530, Trigger 418 GenInputManager Begin processing 420th record. Run 222530, Trigger 419 GenInputManager Begin processing 421th record. Run 222530, Trigger 420 GenInputManager Begin processing 422th record. Run 222530, Trigger 421 GenInputManager Begin processing 423th record. Run 222530, Trigger 422 GenInputManager Begin processing 424th record. Run 222530, Trigger 423 GenInputManager Begin processing 425th record. Run 222530, Trigger 424 GenInputManager Begin processing 426th record. Run 222530, Trigger 425 GenInputManager Begin processing 427th record. Run 222530, Trigger 426 GenInputManager Begin processing 428th record. Run 222530, Trigger 427 GenInputManager Begin processing 429th record. Run 222530, Trigger 428 GenInputManager Begin processing 430th record. Run 222530, Trigger 429 GenInputManager Begin processing 431th record. Run 222530, Trigger 430 GenInputManager Begin processing 432th record. Run 222530, Trigger 431 GenInputManager Begin processing 433th record. Run 222530, Trigger 432 GenInputManager Begin processing 434th record. Run 222530, Trigger 433 GenInputManager Begin processing 435th record. Run 222530, Trigger 434 GenInputManager Begin processing 436th record. Run 222530, Trigger 435 GenInputManager Begin processing 437th record. Run 222530, Trigger 436 GenInputManager Begin processing 438th record. Run 222530, Trigger 437 GenInputManager Begin processing 439th record. Run 222530, Trigger 438 GenInputManager Begin processing 440th record. Run 222530, Trigger 439 GenInputManager Begin processing 441th record. Run 222530, Trigger 440 GenInputManager Begin processing 442th record. Run 222530, Trigger 441 GenInputManager Begin processing 443th record. Run 222530, Trigger 442 GenInputManager Begin processing 444th record. Run 222530, Trigger 443 GenInputManager Begin processing 445th record. Run 222530, Trigger 444 GenInputManager Begin processing 446th record. Run 222530, Trigger 445 GenInputManager Begin processing 447th record. Run 222530, Trigger 446 GenInputManager Begin processing 448th record. Run 222530, Trigger 447 GenInputManager Begin processing 449th record. Run 222530, Trigger 448 GenInputManager Begin processing 450th record. Run 222530, Trigger 449 GenInputManager Begin processing 451th record. Run 222530, Trigger 450 GenInputManager Begin processing 452th record. Run 222530, Trigger 451 GenInputManager Begin processing 453th record. Run 222530, Trigger 452 GenInputManager Begin processing 454th record. Run 222530, Trigger 453 GenInputManager Begin processing 455th record. Run 222530, Trigger 454 GenInputManager Begin processing 456th record. Run 222530, Trigger 455 GenInputManager Begin processing 457th record. Run 222530, Trigger 456 GenInputManager Begin processing 458th record. Run 222530, Trigger 457 GenInputManager Begin processing 459th record. Run 222530, Trigger 458 GenInputManager Begin processing 460th record. Run 222530, Trigger 459 GenInputManager Begin processing 461th record. Run 222530, Trigger 460 GenInputManager Begin processing 462th record. Run 222530, Trigger 461 GenInputManager Begin processing 463th record. Run 222530, Trigger 462 GenInputManager Begin processing 464th record. Run 222530, Trigger 463 GenInputManager Begin processing 465th record. Run 222530, Trigger 464 GenInputManager Begin processing 466th record. Run 222530, Trigger 465 GenInputManager Begin processing 467th record. Run 222530, Trigger 466 GenInputManager Begin processing 468th record. Run 222530, Trigger 467 GenInputManager Begin processing 469th record. Run 222530, Trigger 468 GenInputManager Begin processing 470th record. Run 222530, Trigger 469 GenInputManager Begin processing 471th record. Run 222530, Trigger 470 GenInputManager Begin processing 472th record. Run 222530, Trigger 471 GenInputManager Begin processing 473th record. Run 222530, Trigger 472 GenInputManager Begin processing 474th record. Run 222530, Trigger 473 GenInputManager Begin processing 475th record. Run 222530, Trigger 474 GenInputManager Begin processing 476th record. Run 222530, Trigger 475 GenInputManager Begin processing 477th record. Run 222530, Trigger 476 GenInputManager Begin processing 478th record. Run 222530, Trigger 477 GenInputManager Begin processing 479th record. Run 222530, Trigger 478 GenInputManager Begin processing 480th record. Run 222530, Trigger 479 GenInputManager Begin processing 481th record. Run 222530, Trigger 480 GenInputManager Begin processing 482th record. Run 222530, Trigger 481 GenInputManager Begin processing 483th record. Run 222530, Trigger 482 GenInputManager Begin processing 484th record. Run 222530, Trigger 483 GenInputManager Begin processing 485th record. Run 222530, Trigger 484 GenInputManager Begin processing 486th record. Run 222530, Trigger 485 GenInputManager Begin processing 487th record. Run 222530, Trigger 486 GenInputManager Begin processing 488th record. Run 222530, Trigger 487 GenInputManager Begin processing 489th record. Run 222530, Trigger 488 GenInputManager Begin processing 490th record. Run 222530, Trigger 489 GenInputManager Begin processing 491th record. Run 222530, Trigger 490 GenInputManager Begin processing 492th record. Run 222530, Trigger 491 GenInputManager Begin processing 493th record. Run 222530, Trigger 492 GenInputManager Begin processing 494th record. Run 222530, Trigger 493 GenInputManager Begin processing 495th record. Run 222530, Trigger 494 GenInputManager Begin processing 496th record. Run 222530, Trigger 495 GenInputManager Begin processing 497th record. Run 222530, Trigger 496 GenInputManager Begin processing 498th record. Run 222530, Trigger 497 GenInputManager Begin processing 499th record. Run 222530, Trigger 498 GenInputManager Begin processing 500th record. Run 222530, Trigger 499 GenInputManager Begin processing 501th record. Run 222530, Trigger 500 GenInputManager Begin processing 502th record. Run 222530, Trigger 501 GenInputManager Begin processing 503th record. Run 222530, Trigger 502 GenInputManager Begin processing 504th record. Run 222530, Trigger 503 GenInputManager Begin processing 505th record. Run 222530, Trigger 504 GenInputManager Begin processing 506th record. Run 222530, Trigger 505 GenInputManager Begin processing 507th record. Run 222530, Trigger 506 GenInputManager Begin processing 508th record. Run 222530, Trigger 507 GenInputManager Begin processing 509th record. Run 222530, Trigger 508 GenInputManager Begin processing 510th record. Run 222530, Trigger 509 GenInputManager Begin processing 511th record. Run 222530, Trigger 510 GenInputManager Begin processing 512th record. Run 222530, Trigger 511 GenInputManager Begin processing 513th record. Run 222530, Trigger 512 GenInputManager Begin processing 514th record. Run 222530, Trigger 513 GenInputManager Begin processing 515th record. Run 222530, Trigger 514 GenInputManager Begin processing 516th record. Run 222530, Trigger 515 GenInputManager Begin processing 517th record. Run 222530, Trigger 516 GenInputManager Begin processing 518th record. Run 222530, Trigger 517 GenInputManager Begin processing 519th record. Run 222530, Trigger 518 GenInputManager Begin processing 520th record. Run 222530, Trigger 519 GenInputManager Begin processing 521th record. Run 222530, Trigger 520 GenInputManager Begin processing 522th record. Run 222530, Trigger 521 GenInputManager Begin processing 523th record. Run 222530, Trigger 522 GenInputManager Begin processing 524th record. Run 222530, Trigger 523 GenInputManager Begin processing 525th record. Run 222530, Trigger 524 GenInputManager Begin processing 526th record. Run 222530, Trigger 525 GenInputManager Begin processing 527th record. Run 222530, Trigger 526 GenInputManager Begin processing 528th record. Run 222530, Trigger 527 GenInputManager Begin processing 529th record. Run 222530, Trigger 528 GenInputManager Begin processing 530th record. Run 222530, Trigger 529 GenInputManager Begin processing 531th record. Run 222530, Trigger 530 GenInputManager Begin processing 532th record. Run 222530, Trigger 531 GenInputManager Begin processing 533th record. Run 222530, Trigger 532 GenInputManager Begin processing 534th record. Run 222530, Trigger 533 GenInputManager Begin processing 535th record. Run 222530, Trigger 534 GenInputManager Begin processing 536th record. Run 222530, Trigger 535 GenInputManager Begin processing 537th record. Run 222530, Trigger 536 GenInputManager Begin processing 538th record. Run 222530, Trigger 537 GenInputManager Begin processing 539th record. Run 222530, Trigger 538 GenInputManager Begin processing 540th record. Run 222530, Trigger 539 GenInputManager Begin processing 541th record. Run 222530, Trigger 540 GenInputManager Begin processing 542th record. Run 222530, Trigger 541 GenInputManager Begin processing 543th record. Run 222530, Trigger 542 GenInputManager Begin processing 544th record. Run 222530, Trigger 543 GenInputManager Begin processing 545th record. Run 222530, Trigger 544 GenInputManager Begin processing 546th record. Run 222530, Trigger 545 GenInputManager Begin processing 547th record. Run 222530, Trigger 546 GenInputManager Begin processing 548th record. Run 222530, Trigger 547 GenInputManager Begin processing 549th record. Run 222530, Trigger 548 GenInputManager Begin processing 550th record. Run 222530, Trigger 549 GenInputManager Begin processing 551th record. Run 222530, Trigger 550 GenInputManager Begin processing 552th record. Run 222530, Trigger 551 GenInputManager Begin processing 553th record. Run 222530, Trigger 552 GenInputManager Begin processing 554th record. Run 222530, Trigger 553 GenInputManager Begin processing 555th record. Run 222530, Trigger 554 GenInputManager Begin processing 556th record. Run 222530, Trigger 555 GenInputManager Begin processing 557th record. Run 222530, Trigger 556 GenInputManager Begin processing 558th record. Run 222530, Trigger 557 GenInputManager Begin processing 559th record. Run 222530, Trigger 558 GenInputManager Begin processing 560th record. Run 222530, Trigger 559 GenInputManager Begin processing 561th record. Run 222530, Trigger 560 GenInputManager Begin processing 562th record. Run 222530, Trigger 561 GenInputManager Begin processing 563th record. Run 222530, Trigger 562 GenInputManager Begin processing 564th record. Run 222530, Trigger 563 GenInputManager Begin processing 565th record. Run 222530, Trigger 564 GenInputManager Begin processing 566th record. Run 222530, Trigger 565 GenInputManager Begin processing 567th record. Run 222530, Trigger 566 GenInputManager Begin processing 568th record. Run 222530, Trigger 567 GenInputManager Begin processing 569th record. Run 222530, Trigger 568 GenInputManager Begin processing 570th record. Run 222530, Trigger 569 GenInputManager Begin processing 571th record. Run 222530, Trigger 570 GenInputManager Begin processing 572th record. Run 222530, Trigger 571 GenInputManager Begin processing 573th record. Run 222530, Trigger 572 GenInputManager Begin processing 574th record. Run 222530, Trigger 573 GenInputManager Begin processing 575th record. Run 222530, Trigger 574 GenInputManager Begin processing 576th record. Run 222530, Trigger 575 GenInputManager Begin processing 577th record. Run 222530, Trigger 576 GenInputManager Begin processing 578th record. Run 222530, Trigger 577 GenInputManager Begin processing 579th record. Run 222530, Trigger 578 GenInputManager Begin processing 580th record. Run 222530, Trigger 579 GenInputManager Begin processing 581th record. Run 222530, Trigger 580 GenInputManager Begin processing 582th record. Run 222530, Trigger 581 GenInputManager Begin processing 583th record. Run 222530, Trigger 582 GenInputManager Begin processing 584th record. Run 222530, Trigger 583 GenInputManager Begin processing 585th record. Run 222530, Trigger 584 GenInputManager Begin processing 586th record. Run 222530, Trigger 585 GenInputManager Begin processing 587th record. Run 222530, Trigger 586 GenInputManager Begin processing 588th record. Run 222530, Trigger 587 GenInputManager Begin processing 589th record. Run 222530, Trigger 588 GenInputManager Begin processing 590th record. Run 222530, Trigger 589 GenInputManager Begin processing 591th record. Run 222530, Trigger 590 GenInputManager Begin processing 592th record. Run 222530, Trigger 591 GenInputManager Begin processing 593th record. Run 222530, Trigger 592 GenInputManager Begin processing 594th record. Run 222530, Trigger 593 GenInputManager Begin processing 595th record. Run 222530, Trigger 594 GenInputManager Begin processing 596th record. Run 222530, Trigger 595 GenInputManager Begin processing 597th record. Run 222530, Trigger 596 GenInputManager Begin processing 598th record. Run 222530, Trigger 597 GenInputManager Begin processing 599th record. Run 222530, Trigger 598 GenInputManager Begin processing 600th record. Run 222530, Trigger 599 GenInputManager Begin processing 601th record. Run 222530, Trigger 600 GenInputManager Begin processing 602th record. Run 222530, Trigger 601 GenInputManager Begin processing 603th record. Run 222530, Trigger 602 GenInputManager Begin processing 604th record. Run 222530, Trigger 603 GenInputManager Begin processing 605th record. Run 222530, Trigger 604 GenInputManager Begin processing 606th record. Run 222530, Trigger 605 GenInputManager Begin processing 607th record. Run 222530, Trigger 606 GenInputManager Begin processing 608th record. Run 222530, Trigger 607 GenInputManager Begin processing 609th record. Run 222530, Trigger 608 GenInputManager Begin processing 610th record. Run 222530, Trigger 609 GenInputManager Begin processing 611th record. Run 222530, Trigger 610 GenInputManager Begin processing 612th record. Run 222530, Trigger 611 GenInputManager Begin processing 613th record. Run 222530, Trigger 612 GenInputManager Begin processing 614th record. Run 222530, Trigger 613 GenInputManager Begin processing 615th record. Run 222530, Trigger 614 GenInputManager Begin processing 616th record. Run 222530, Trigger 615 GenInputManager Begin processing 617th record. Run 222530, Trigger 616 GenInputManager Begin processing 618th record. Run 222530, Trigger 617 GenInputManager Begin processing 619th record. Run 222530, Trigger 618 GenInputManager Begin processing 620th record. Run 222530, Trigger 619 GenInputManager Begin processing 621th record. Run 222530, Trigger 620 GenInputManager Begin processing 622th record. Run 222530, Trigger 621 GenInputManager Begin processing 623th record. Run 222530, Trigger 622 GenInputManager Begin processing 624th record. Run 222530, Trigger 623 GenInputManager Begin processing 625th record. Run 222530, Trigger 624 GenInputManager Begin processing 626th record. Run 222530, Trigger 625 GenInputManager Begin processing 627th record. Run 222530, Trigger 626 GenInputManager Begin processing 628th record. Run 222530, Trigger 627 GenInputManager Begin processing 629th record. Run 222530, Trigger 628 GenInputManager Begin processing 630th record. Run 222530, Trigger 629 GenInputManager Begin processing 631th record. Run 222530, Trigger 630 GenInputManager Begin processing 632th record. Run 222530, Trigger 631 GenInputManager Begin processing 633th record. Run 222530, Trigger 632 GenInputManager Begin processing 634th record. Run 222530, Trigger 633 GenInputManager Begin processing 635th record. Run 222530, Trigger 634 GenInputManager Begin processing 636th record. Run 222530, Trigger 635 GenInputManager Begin processing 637th record. Run 222530, Trigger 636 GenInputManager Begin processing 638th record. Run 222530, Trigger 637 GenInputManager Begin processing 639th record. Run 222530, Trigger 638 GenInputManager Begin processing 640th record. Run 222530, Trigger 639 GenInputManager Begin processing 641th record. Run 222530, Trigger 640 GenInputManager Begin processing 642th record. Run 222530, Trigger 641 GenInputManager Begin processing 643th record. Run 222530, Trigger 642 GenInputManager Begin processing 644th record. Run 222530, Trigger 643 GenInputManager Begin processing 645th record. Run 222530, Trigger 644 GenInputManager Begin processing 646th record. Run 222530, Trigger 645 GenInputManager Begin processing 647th record. Run 222530, Trigger 646 GenInputManager Begin processing 648th record. Run 222530, Trigger 647 GenInputManager Begin processing 649th record. Run 222530, Trigger 648 GenInputManager Begin processing 650th record. Run 222530, Trigger 649 GenInputManager Begin processing 651th record. Run 222530, Trigger 650 GenInputManager Begin processing 652th record. Run 222530, Trigger 651 GenInputManager Begin processing 653th record. Run 222530, Trigger 652 GenInputManager Begin processing 654th record. Run 222530, Trigger 653 GenInputManager Begin processing 655th record. Run 222530, Trigger 654 GenInputManager Begin processing 656th record. Run 222530, Trigger 655 GenInputManager Begin processing 657th record. Run 222530, Trigger 656 GenInputManager Begin processing 658th record. Run 222530, Trigger 657 GenInputManager Begin processing 659th record. Run 222530, Trigger 658 GenInputManager Begin processing 660th record. Run 222530, Trigger 659 GenInputManager Begin processing 661th record. Run 222530, Trigger 660 GenInputManager Begin processing 662th record. Run 222530, Trigger 661 GenInputManager Begin processing 663th record. Run 222530, Trigger 662 GenInputManager Begin processing 664th record. Run 222530, Trigger 663 GenInputManager Begin processing 665th record. Run 222530, Trigger 664 GenInputManager Begin processing 666th record. Run 222530, Trigger 665 GenInputManager Begin processing 667th record. Run 222530, Trigger 666 GenInputManager Begin processing 668th record. Run 222530, Trigger 667 GenInputManager Begin processing 669th record. Run 222530, Trigger 668 GenInputManager Begin processing 670th record. Run 222530, Trigger 669 GenInputManager Begin processing 671th record. Run 222530, Trigger 670 GenInputManager Begin processing 672th record. Run 222530, Trigger 671 GenInputManager Begin processing 673th record. Run 222530, Trigger 672 GenInputManager Begin processing 674th record. Run 222530, Trigger 673 GenInputManager Begin processing 675th record. Run 222530, Trigger 674 GenInputManager Begin processing 676th record. Run 222530, Trigger 675 GenInputManager Begin processing 677th record. Run 222530, Trigger 676 GenInputManager Begin processing 678th record. Run 222530, Trigger 677 GenInputManager Begin processing 679th record. Run 222530, Trigger 678 GenInputManager Begin processing 680th record. Run 222530, Trigger 679 GenInputManager Begin processing 681th record. Run 222530, Trigger 680 GenInputManager Begin processing 682th record. Run 222530, Trigger 681 GenInputManager Begin processing 683th record. Run 222530, Trigger 682 GenInputManager Begin processing 684th record. Run 222530, Trigger 683 GenInputManager Begin processing 685th record. Run 222530, Trigger 684 GenInputManager Begin processing 686th record. Run 222530, Trigger 685 GenInputManager Begin processing 687th record. Run 222530, Trigger 686 GenInputManager Begin processing 688th record. Run 222530, Trigger 687 GenInputManager Begin processing 689th record. Run 222530, Trigger 688 GenInputManager Begin processing 690th record. Run 222530, Trigger 689 GenInputManager Begin processing 691th record. Run 222530, Trigger 690 GenInputManager Begin processing 692th record. Run 222530, Trigger 691 GenInputManager Begin processing 693th record. Run 222530, Trigger 692 GenInputManager Begin processing 694th record. Run 222530, Trigger 693 GenInputManager Begin processing 695th record. Run 222530, Trigger 694 GenInputManager Begin processing 696th record. Run 222530, Trigger 695 GenInputManager Begin processing 697th record. Run 222530, Trigger 696 GenInputManager Begin processing 698th record. Run 222530, Trigger 697 GenInputManager Begin processing 699th record. Run 222530, Trigger 698 GenInputManager Begin processing 700th record. Run 222530, Trigger 699 GenInputManager Begin processing 701th record. Run 222530, Trigger 700 GenInputManager Begin processing 702th record. Run 222530, Trigger 701 GenInputManager Begin processing 703th record. Run 222530, Trigger 702 GenInputManager Begin processing 704th record. Run 222530, Trigger 703 GenInputManager Begin processing 705th record. Run 222530, Trigger 704 GenInputManager Begin processing 706th record. Run 222530, Trigger 705 GenInputManager Begin processing 707th record. Run 222530, Trigger 706 GenInputManager Begin processing 708th record. Run 222530, Trigger 707 GenInputManager Begin processing 709th record. Run 222530, Trigger 708 GenInputManager Begin processing 710th record. Run 222530, Trigger 709 GenInputManager Begin processing 711th record. Run 222530, Trigger 710 GenInputManager Begin processing 712th record. Run 222530, Trigger 711 GenInputManager Begin processing 713th record. Run 222530, Trigger 712 GenInputManager Begin processing 714th record. Run 222530, Trigger 713 GenInputManager Begin processing 715th record. Run 222530, Trigger 714 GenInputManager Begin processing 716th record. Run 222530, Trigger 715 GenInputManager Begin processing 717th record. Run 222530, Trigger 716 GenInputManager Begin processing 718th record. Run 222530, Trigger 717 GenInputManager Begin processing 719th record. Run 222530, Trigger 718 GenInputManager Begin processing 720th record. Run 222530, Trigger 719 GenInputManager Begin processing 721th record. Run 222530, Trigger 720 GenInputManager Begin processing 722th record. Run 222530, Trigger 721 GenInputManager Begin processing 723th record. Run 222530, Trigger 722 GenInputManager Begin processing 724th record. Run 222530, Trigger 723 GenInputManager Begin processing 725th record. Run 222530, Trigger 724 GenInputManager Begin processing 726th record. Run 222530, Trigger 725 GenInputManager Begin processing 727th record. Run 222530, Trigger 726 GenInputManager Begin processing 728th record. Run 222530, Trigger 727 GenInputManager Begin processing 729th record. Run 222530, Trigger 728 GenInputManager Begin processing 730th record. Run 222530, Trigger 729 GenInputManager Begin processing 731th record. Run 222530, Trigger 730 GenInputManager Begin processing 732th record. Run 222530, Trigger 731 GenInputManager Begin processing 733th record. Run 222530, Trigger 732 GenInputManager Begin processing 734th record. Run 222530, Trigger 733 GenInputManager Begin processing 735th record. Run 222530, Trigger 734 GenInputManager Begin processing 736th record. Run 222530, Trigger 735 GenInputManager Begin processing 737th record. Run 222530, Trigger 736 GenInputManager Begin processing 738th record. Run 222530, Trigger 737 GenInputManager Begin processing 739th record. Run 222530, Trigger 738 GenInputManager Begin processing 740th record. Run 222530, Trigger 739 GenInputManager Begin processing 741th record. Run 222530, Trigger 740 GenInputManager Begin processing 742th record. Run 222530, Trigger 741 GenInputManager Begin processing 743th record. Run 222530, Trigger 742 GenInputManager Begin processing 744th record. Run 222530, Trigger 743 GenInputManager Begin processing 745th record. Run 222530, Trigger 744 GenInputManager Begin processing 746th record. Run 222530, Trigger 745 GenInputManager Begin processing 747th record. Run 222530, Trigger 746 GenInputManager Begin processing 748th record. Run 222530, Trigger 747 GenInputManager Begin processing 749th record. Run 222530, Trigger 748 GenInputManager Begin processing 750th record. Run 222530, Trigger 749 GenInputManager Begin processing 751th record. Run 222530, Trigger 750 GenInputManager Begin processing 752th record. Run 222530, Trigger 751 GenInputManager Begin processing 753th record. Run 222530, Trigger 752 GenInputManager Begin processing 754th record. Run 222530, Trigger 753 GenInputManager Begin processing 755th record. Run 222530, Trigger 754 GenInputManager Begin processing 756th record. Run 222530, Trigger 755 GenInputManager Begin processing 757th record. Run 222530, Trigger 756 GenInputManager Begin processing 758th record. Run 222530, Trigger 757 GenInputManager Begin processing 759th record. Run 222530, Trigger 758 GenInputManager Begin processing 760th record. Run 222530, Trigger 759 GenInputManager Begin processing 761th record. Run 222530, Trigger 760 GenInputManager Begin processing 762th record. Run 222530, Trigger 761 GenInputManager Begin processing 763th record. Run 222530, Trigger 762 GenInputManager Begin processing 764th record. Run 222530, Trigger 763 GenInputManager Begin processing 765th record. Run 222530, Trigger 764 GenInputManager Begin processing 766th record. Run 222530, Trigger 765 GenInputManager Begin processing 767th record. Run 222530, Trigger 766 GenInputManager Begin processing 768th record. Run 222530, Trigger 767 GenInputManager Begin processing 769th record. Run 222530, Trigger 768 GenInputManager Begin processing 770th record. Run 222530, Trigger 769 GenInputManager Begin processing 771th record. Run 222530, Trigger 770 GenInputManager Begin processing 772th record. Run 222530, Trigger 771 GenInputManager Begin processing 773th record. Run 222530, Trigger 772 GenInputManager Begin processing 774th record. Run 222530, Trigger 773 GenInputManager Begin processing 775th record. Run 222530, Trigger 774 GenInputManager Begin processing 776th record. Run 222530, Trigger 775 GenInputManager Begin processing 777th record. Run 222530, Trigger 776 GenInputManager Begin processing 778th record. Run 222530, Trigger 777 GenInputManager Begin processing 779th record. Run 222530, Trigger 778 GenInputManager Begin processing 780th record. Run 222530, Trigger 779 GenInputManager Begin processing 781th record. Run 222530, Trigger 780 GenInputManager Begin processing 782th record. Run 222530, Trigger 781 GenInputManager Begin processing 783th record. Run 222530, Trigger 782 GenInputManager Begin processing 784th record. Run 222530, Trigger 783 GenInputManager Begin processing 785th record. Run 222530, Trigger 784 GenInputManager Begin processing 786th record. Run 222530, Trigger 785 GenInputManager Begin processing 787th record. Run 222530, Trigger 786 GenInputManager Begin processing 788th record. Run 222530, Trigger 787 GenInputManager Begin processing 789th record. Run 222530, Trigger 788 GenInputManager Begin processing 790th record. Run 222530, Trigger 789 GenInputManager Begin processing 791th record. Run 222530, Trigger 790 GenInputManager Begin processing 792th record. Run 222530, Trigger 791 GenInputManager Begin processing 793th record. Run 222530, Trigger 792 GenInputManager Begin processing 794th record. Run 222530, Trigger 793 GenInputManager Begin processing 795th record. Run 222530, Trigger 794 GenInputManager Begin processing 796th record. Run 222530, Trigger 795 GenInputManager Begin processing 797th record. Run 222530, Trigger 796 GenInputManager Begin processing 798th record. Run 222530, Trigger 797 GenInputManager Begin processing 799th record. Run 222530, Trigger 798 GenInputManager Begin processing 800th record. Run 222530, Trigger 799 GenInputManager Begin processing 801th record. Run 222530, Trigger 800 GenInputManager Begin processing 802th record. Run 222530, Trigger 801 GenInputManager Begin processing 803th record. Run 222530, Trigger 802 GenInputManager Begin processing 804th record. Run 222530, Trigger 803 GenInputManager Begin processing 805th record. Run 222530, Trigger 804 GenInputManager Begin processing 806th record. Run 222530, Trigger 805 GenInputManager Begin processing 807th record. Run 222530, Trigger 806 GenInputManager Begin processing 808th record. Run 222530, Trigger 807 GenInputManager Begin processing 809th record. Run 222530, Trigger 808 GenInputManager Begin processing 810th record. Run 222530, Trigger 809 GenInputManager Begin processing 811th record. Run 222530, Trigger 810 GenInputManager Begin processing 812th record. Run 222530, Trigger 811 GenInputManager Begin processing 813th record. Run 222530, Trigger 812 GenInputManager Begin processing 814th record. Run 222530, Trigger 813 GenInputManager Begin processing 815th record. Run 222530, Trigger 814 GenInputManager Begin processing 816th record. Run 222530, Trigger 815 GenInputManager Begin processing 817th record. Run 222530, Trigger 816 GenInputManager Begin processing 818th record. Run 222530, Trigger 817 GenInputManager Begin processing 819th record. Run 222530, Trigger 818 GenInputManager Begin processing 820th record. Run 222530, Trigger 819 GenInputManager Begin processing 821th record. Run 222530, Trigger 820 GenInputManager Begin processing 822th record. Run 222530, Trigger 821 GenInputManager Begin processing 823th record. Run 222530, Trigger 822 GenInputManager Begin processing 824th record. Run 222530, Trigger 823 GenInputManager Begin processing 825th record. Run 222530, Trigger 824 GenInputManager Begin processing 826th record. Run 222530, Trigger 825 GenInputManager Begin processing 827th record. Run 222530, Trigger 826 GenInputManager Begin processing 828th record. Run 222530, Trigger 827 GenInputManager Begin processing 829th record. Run 222530, Trigger 828 GenInputManager Begin processing 830th record. Run 222530, Trigger 829 GenInputManager Begin processing 831th record. Run 222530, Trigger 830 GenInputManager Begin processing 832th record. Run 222530, Trigger 831 GenInputManager Begin processing 833th record. Run 222530, Trigger 832 GenInputManager Begin processing 834th record. Run 222530, Trigger 833 GenInputManager Begin processing 835th record. Run 222530, Trigger 834 GenInputManager Begin processing 836th record. Run 222530, Trigger 835 GenInputManager Begin processing 837th record. Run 222530, Trigger 836 GenInputManager Begin processing 838th record. Run 222530, Trigger 837 GenInputManager Begin processing 839th record. Run 222530, Trigger 838 GenInputManager Begin processing 840th record. Run 222530, Trigger 839 GenInputManager Begin processing 841th record. Run 222530, Trigger 840 GenInputManager Begin processing 842th record. Run 222530, Trigger 841 GenInputManager Begin processing 843th record. Run 222530, Trigger 842 GenInputManager Begin processing 844th record. Run 222530, Trigger 843 GenInputManager Begin processing 845th record. Run 222530, Trigger 844 GenInputManager Begin processing 846th record. Run 222530, Trigger 845 GenInputManager Begin processing 847th record. Run 222530, Trigger 846 GenInputManager Begin processing 848th record. Run 222530, Trigger 847 GenInputManager Begin processing 849th record. Run 222530, Trigger 848 GenInputManager Begin processing 850th record. Run 222530, Trigger 849 GenInputManager Begin processing 851th record. Run 222530, Trigger 850 GenInputManager Begin processing 852th record. Run 222530, Trigger 851 GenInputManager Begin processing 853th record. Run 222530, Trigger 852 GenInputManager Begin processing 854th record. Run 222530, Trigger 853 GenInputManager Begin processing 855th record. Run 222530, Trigger 854 GenInputManager Begin processing 856th record. Run 222530, Trigger 855 GenInputManager Begin processing 857th record. Run 222530, Trigger 856 GenInputManager Begin processing 858th record. Run 222530, Trigger 857 GenInputManager Begin processing 859th record. Run 222530, Trigger 858 GenInputManager Begin processing 860th record. Run 222530, Trigger 859 GenInputManager Begin processing 861th record. Run 222530, Trigger 860 GenInputManager Begin processing 862th record. Run 222530, Trigger 861 GenInputManager Begin processing 863th record. Run 222530, Trigger 862 GenInputManager Begin processing 864th record. Run 222530, Trigger 863 GenInputManager Begin processing 865th record. Run 222530, Trigger 864 GenInputManager Begin processing 866th record. Run 222530, Trigger 865 GenInputManager Begin processing 867th record. Run 222530, Trigger 866 GenInputManager Begin processing 868th record. Run 222530, Trigger 867 GenInputManager Begin processing 869th record. Run 222530, Trigger 868 GenInputManager Begin processing 870th record. Run 222530, Trigger 869 GenInputManager Begin processing 871th record. Run 222530, Trigger 870 GenInputManager Begin processing 872th record. Run 222530, Trigger 871 GenInputManager Begin processing 873th record. Run 222530, Trigger 872 GenInputManager Begin processing 874th record. Run 222530, Trigger 873 GenInputManager Begin processing 875th record. Run 222530, Trigger 874 GenInputManager Begin processing 876th record. Run 222530, Trigger 875 GenInputManager Begin processing 877th record. Run 222530, Trigger 876 GenInputManager Begin processing 878th record. Run 222530, Trigger 877 GenInputManager Begin processing 879th record. Run 222530, Trigger 878 GenInputManager Begin processing 880th record. Run 222530, Trigger 879 GenInputManager Begin processing 881th record. Run 222530, Trigger 880 GenInputManager Begin processing 882th record. Run 222530, Trigger 881 GenInputManager Begin processing 883th record. Run 222530, Trigger 882 GenInputManager Begin processing 884th record. Run 222530, Trigger 883 GenInputManager Begin processing 885th record. Run 222530, Trigger 884 GenInputManager Begin processing 886th record. Run 222530, Trigger 885 GenInputManager Begin processing 887th record. Run 222530, Trigger 886 GenInputManager Begin processing 888th record. Run 222530, Trigger 887 GenInputManager Begin processing 889th record. Run 222530, Trigger 888 GenInputManager Begin processing 890th record. Run 222530, Trigger 889 GenInputManager Begin processing 891th record. Run 222530, Trigger 890 GenInputManager Begin processing 892th record. Run 222530, Trigger 891 GenInputManager Begin processing 893th record. Run 222530, Trigger 892 GenInputManager Begin processing 894th record. Run 222530, Trigger 893 GenInputManager Begin processing 895th record. Run 222530, Trigger 894 GenInputManager Begin processing 896th record. Run 222530, Trigger 895 GenInputManager Begin processing 897th record. Run 222530, Trigger 896 GenInputManager Begin processing 898th record. Run 222530, Trigger 897 GenInputManager Begin processing 899th record. Run 222530, Trigger 898 GenInputManager Begin processing 900th record. Run 222530, Trigger 899 GenInputManager Begin processing 901th record. Run 222530, Trigger 900 GenInputManager Begin processing 902th record. Run 222530, Trigger 901 GenInputManager Begin processing 903th record. Run 222530, Trigger 902 GenInputManager Begin processing 904th record. Run 222530, Trigger 903 GenInputManager Begin processing 905th record. Run 222530, Trigger 904 GenInputManager Begin processing 906th record. Run 222530, Trigger 905 GenInputManager Begin processing 907th record. Run 222530, Trigger 906 GenInputManager Begin processing 908th record. Run 222530, Trigger 907 GenInputManager Begin processing 909th record. Run 222530, Trigger 908 GenInputManager Begin processing 910th record. Run 222530, Trigger 909 GenInputManager Begin processing 911th record. Run 222530, Trigger 910 GenInputManager Begin processing 912th record. Run 222530, Trigger 911 GenInputManager Begin processing 913th record. Run 222530, Trigger 912 GenInputManager Begin processing 914th record. Run 222530, Trigger 913 GenInputManager Begin processing 915th record. Run 222530, Trigger 914 GenInputManager Begin processing 916th record. Run 222530, Trigger 915 GenInputManager Begin processing 917th record. Run 222530, Trigger 916 GenInputManager Begin processing 918th record. Run 222530, Trigger 917 GenInputManager Begin processing 919th record. Run 222530, Trigger 918 GenInputManager Begin processing 920th record. Run 222530, Trigger 919 GenInputManager Begin processing 921th record. Run 222530, Trigger 920 GenInputManager Begin processing 922th record. Run 222530, Trigger 921 GenInputManager Begin processing 923th record. Run 222530, Trigger 922 GenInputManager Begin processing 924th record. Run 222530, Trigger 923 GenInputManager Begin processing 925th record. Run 222530, Trigger 924 GenInputManager Begin processing 926th record. Run 222530, Trigger 925 GenInputManager Begin processing 927th record. Run 222530, Trigger 926 GenInputManager Begin processing 928th record. Run 222530, Trigger 927 GenInputManager Begin processing 929th record. Run 222530, Trigger 928 GenInputManager Begin processing 930th record. Run 222530, Trigger 929 GenInputManager Begin processing 931th record. Run 222530, Trigger 930 GenInputManager Begin processing 932th record. Run 222530, Trigger 931 GenInputManager Begin processing 933th record. Run 222530, Trigger 932 GenInputManager Begin processing 934th record. Run 222530, Trigger 933 GenInputManager Begin processing 935th record. Run 222530, Trigger 934 GenInputManager Begin processing 936th record. Run 222530, Trigger 935 GenInputManager Begin processing 937th record. Run 222530, Trigger 936 GenInputManager Begin processing 938th record. Run 222530, Trigger 937 GenInputManager Begin processing 939th record. Run 222530, Trigger 938 GenInputManager Begin processing 940th record. Run 222530, Trigger 939 GenInputManager Begin processing 941th record. Run 222530, Trigger 940 GenInputManager Begin processing 942th record. Run 222530, Trigger 941 GenInputManager Begin processing 943th record. Run 222530, Trigger 942 GenInputManager Begin processing 944th record. Run 222530, Trigger 943 GenInputManager Begin processing 945th record. Run 222530, Trigger 944 GenInputManager Begin processing 946th record. Run 222530, Trigger 945 GenInputManager Begin processing 947th record. Run 222530, Trigger 946 GenInputManager Begin processing 948th record. Run 222530, Trigger 947 GenInputManager Begin processing 949th record. Run 222530, Trigger 948 GenInputManager Begin processing 950th record. Run 222530, Trigger 949 GenInputManager Begin processing 951th record. Run 222530, Trigger 950 GenInputManager Begin processing 952th record. Run 222530, Trigger 951 GenInputManager Begin processing 953th record. Run 222530, Trigger 952 GenInputManager Begin processing 954th record. Run 222530, Trigger 953 GenInputManager Begin processing 955th record. Run 222530, Trigger 954 GenInputManager Begin processing 956th record. Run 222530, Trigger 955 GenInputManager Begin processing 957th record. Run 222530, Trigger 956 GenInputManager Begin processing 958th record. Run 222530, Trigger 957 GenInputManager Begin processing 959th record. Run 222530, Trigger 958 GenInputManager Begin processing 960th record. Run 222530, Trigger 959 GenInputManager Begin processing 961th record. Run 222530, Trigger 960 GenInputManager Begin processing 962th record. Run 222530, Trigger 961 GenInputManager Begin processing 963th record. Run 222530, Trigger 962 GenInputManager Begin processing 964th record. Run 222530, Trigger 963 GenInputManager Begin processing 965th record. Run 222530, Trigger 964 GenInputManager Begin processing 966th record. Run 222530, Trigger 965 GenInputManager Begin processing 967th record. Run 222530, Trigger 966 GenInputManager Begin processing 968th record. Run 222530, Trigger 967 GenInputManager Begin processing 969th record. Run 222530, Trigger 968 GenInputManager Begin processing 970th record. Run 222530, Trigger 969 GenInputManager Begin processing 971th record. Run 222530, Trigger 970 GenInputManager Begin processing 972th record. Run 222530, Trigger 971 GenInputManager Begin processing 973th record. Run 222530, Trigger 972 GenInputManager Begin processing 974th record. Run 222530, Trigger 973 GenInputManager Begin processing 975th record. Run 222530, Trigger 974 GenInputManager Begin processing 976th record. Run 222530, Trigger 975 GenInputManager Begin processing 977th record. Run 222530, Trigger 976 GenInputManager Begin processing 978th record. Run 222530, Trigger 977 GenInputManager Begin processing 979th record. Run 222530, Trigger 978 GenInputManager Begin processing 980th record. Run 222530, Trigger 979 GenInputManager Begin processing 981th record. Run 222530, Trigger 980 GenInputManager Begin processing 982th record. Run 222530, Trigger 981 GenInputManager Begin processing 983th record. Run 222530, Trigger 982 GenInputManager Begin processing 984th record. Run 222530, Trigger 983 GenInputManager Begin processing 985th record. Run 222530, Trigger 984 GenInputManager Begin processing 986th record. Run 222530, Trigger 985 GenInputManager Begin processing 987th record. Run 222530, Trigger 986 GenInputManager Begin processing 988th record. Run 222530, Trigger 987 GenInputManager Begin processing 989th record. Run 222530, Trigger 988 GenInputManager Begin processing 990th record. Run 222530, Trigger 989 GenInputManager Begin processing 991th record. Run 222530, Trigger 990 GenInputManager Begin processing 992th record. Run 222530, Trigger 991 GenInputManager Begin processing 993th record. Run 222530, Trigger 992 GenInputManager Begin processing 994th record. Run 222530, Trigger 993 GenInputManager Begin processing 995th record. Run 222530, Trigger 994 GenInputManager Begin processing 996th record. Run 222530, Trigger 995 GenInputManager Begin processing 997th record. Run 222530, Trigger 996 GenInputManager Begin processing 998th record. Run 222530, Trigger 997 GenInputManager Begin processing 999th record. Run 222530, Trigger 998 GenInputManager Begin processing 1000th record. Run 222530, Trigger 999 GenInputManager Begin processing 1001th record. Run 222530, Trigger 1000 GenInputManager Begin processing 1002th record. Run 222530, Trigger 1001 GenInputManager Begin processing 1003th record. Run 222530, Trigger 1002 GenInputManager Begin processing 1004th record. Run 222530, Trigger 1003 GenInputManager Begin processing 1005th record. Run 222530, Trigger 1004 GenInputManager Begin processing 1006th record. Run 222530, Trigger 1005 GenInputManager Begin processing 1007th record. Run 222530, Trigger 1006 GenInputManager Begin processing 1008th record. Run 222530, Trigger 1007 GenInputManager Begin processing 1009th record. Run 222530, Trigger 1008 GenInputManager Begin processing 1010th record. Run 222530, Trigger 1009 GenInputManager Begin processing 1011th record. Run 222530, Trigger 1010 GenInputManager Begin processing 1012th record. Run 222530, Trigger 1011 GenInputManager Begin processing 1013th record. Run 222530, Trigger 1012 GenInputManager Begin processing 1014th record. Run 222530, Trigger 1013 GenInputManager Begin processing 1015th record. Run 222530, Trigger 1014 GenInputManager Begin processing 1016th record. Run 222530, Trigger 1015 GenInputManager Begin processing 1017th record. Run 222530, Trigger 1016 GenInputManager Begin processing 1018th record. Run 222530, Trigger 1017 GenInputManager Begin processing 1019th record. Run 222530, Trigger 1018 GenInputManager Begin processing 1020th record. Run 222530, Trigger 1019 GenInputManager Begin processing 1021th record. Run 222530, Trigger 1020 GenInputManager Begin processing 1022th record. Run 222530, Trigger 1021 GenInputManager Begin processing 1023th record. Run 222530, Trigger 1022 GenInputManager Begin processing 1024th record. Run 222530, Trigger 1023 GenInputManager Begin processing 1025th record. Run 222530, Trigger 1024 GenInputManager Begin processing 1026th record. Run 222530, Trigger 1025 GenInputManager Begin processing 1027th record. Run 222530, Trigger 1026 GenInputManager Begin processing 1028th record. Run 222530, Trigger 1027 GenInputManager Begin processing 1029th record. Run 222530, Trigger 1028 GenInputManager Begin processing 1030th record. Run 222530, Trigger 1029 GenInputManager Begin processing 1031th record. Run 222530, Trigger 1030 GenInputManager Begin processing 1032th record. Run 222530, Trigger 1031 GenInputManager Begin processing 1033th record. Run 222530, Trigger 1032 GenInputManager Begin processing 1034th record. Run 222530, Trigger 1033 GenInputManager Begin processing 1035th record. Run 222530, Trigger 1034 GenInputManager Begin processing 1036th record. Run 222530, Trigger 1035 GenInputManager Begin processing 1037th record. Run 222530, Trigger 1036 GenInputManager Begin processing 1038th record. Run 222530, Trigger 1037 GenInputManager Begin processing 1039th record. Run 222530, Trigger 1038 GenInputManager Begin processing 1040th record. Run 222530, Trigger 1039 GenInputManager Begin processing 1041th record. Run 222530, Trigger 1040 GenInputManager Begin processing 1042th record. Run 222530, Trigger 1041 GenInputManager Begin processing 1043th record. Run 222530, Trigger 1042 GenInputManager Begin processing 1044th record. Run 222530, Trigger 1043 GenInputManager Begin processing 1045th record. Run 222530, Trigger 1044 GenInputManager Begin processing 1046th record. Run 222530, Trigger 1045 GenInputManager Begin processing 1047th record. Run 222530, Trigger 1046 GenInputManager Begin processing 1048th record. Run 222530, Trigger 1047 GenInputManager Begin processing 1049th record. Run 222530, Trigger 1048 GenInputManager Begin processing 1050th record. Run 222530, Trigger 1049 GenInputManager Begin processing 1051th record. Run 222530, Trigger 1050 GenInputManager Begin processing 1052th record. Run 222530, Trigger 1051 GenInputManager Begin processing 1053th record. Run 222530, Trigger 1052 GenInputManager Begin processing 1054th record. Run 222530, Trigger 1053 GenInputManager Begin processing 1055th record. Run 222530, Trigger 1054 GenInputManager Begin processing 1056th record. Run 222530, Trigger 1055 GenInputManager Begin processing 1057th record. Run 222530, Trigger 1056 GenInputManager Begin processing 1058th record. Run 222530, Trigger 1057 GenInputManager Begin processing 1059th record. Run 222530, Trigger 1058 GenInputManager Begin processing 1060th record. Run 222530, Trigger 1059 GenInputManager Begin processing 1061th record. Run 222530, Trigger 1060 GenInputManager Begin processing 1062th record. Run 222530, Trigger 1061 GenInputManager Begin processing 1063th record. Run 222530, Trigger 1062 GenInputManager Begin processing 1064th record. Run 222530, Trigger 1063 GenInputManager Begin processing 1065th record. Run 222530, Trigger 1064 GenInputManager Begin processing 1066th record. Run 222530, Trigger 1065 GenInputManager Begin processing 1067th record. Run 222530, Trigger 1066 GenInputManager Begin processing 1068th record. Run 222530, Trigger 1067 GenInputManager Begin processing 1069th record. Run 222530, Trigger 1068 GenInputManager Begin processing 1070th record. Run 222530, Trigger 1069 GenInputManager Begin processing 1071th record. Run 222530, Trigger 1070 GenInputManager Begin processing 1072th record. Run 222530, Trigger 1071 GenInputManager Begin processing 1073th record. Run 222530, Trigger 1072 GenInputManager Begin processing 1074th record. Run 222530, Trigger 1073 GenInputManager Begin processing 1075th record. Run 222530, Trigger 1074 GenInputManager Begin processing 1076th record. Run 222530, Trigger 1075 GenInputManager Begin processing 1077th record. Run 222530, Trigger 1076 GenInputManager Begin processing 1078th record. Run 222530, Trigger 1077 GenInputManager Begin processing 1079th record. Run 222530, Trigger 1078 GenInputManager Begin processing 1080th record. Run 222530, Trigger 1079 GenInputManager Begin processing 1081th record. Run 222530, Trigger 1080 GenInputManager Begin processing 1082th record. Run 222530, Trigger 1081 GenInputManager Begin processing 1083th record. Run 222530, Trigger 1082 GenInputManager Begin processing 1084th record. Run 222530, Trigger 1083 GenInputManager Begin processing 1085th record. Run 222530, Trigger 1084 GenInputManager Begin processing 1086th record. Run 222530, Trigger 1085 GenInputManager Begin processing 1087th record. Run 222530, Trigger 1086 GenInputManager Begin processing 1088th record. Run 222530, Trigger 1087 GenInputManager Begin processing 1089th record. Run 222530, Trigger 1088 GenInputManager Begin processing 1090th record. Run 222530, Trigger 1089 GenInputManager Begin processing 1091th record. Run 222530, Trigger 1090 GenInputManager Begin processing 1092th record. Run 222530, Trigger 1091 GenInputManager Begin processing 1093th record. Run 222530, Trigger 1092 GenInputManager Begin processing 1094th record. Run 222530, Trigger 1093 GenInputManager Begin processing 1095th record. Run 222530, Trigger 1094 GenInputManager Begin processing 1096th record. Run 222530, Trigger 1095 GenInputManager Begin processing 1097th record. Run 222530, Trigger 1096 GenInputManager Begin processing 1098th record. Run 222530, Trigger 1097 GenInputManager Begin processing 1099th record. Run 222530, Trigger 1098 GenInputManager Begin processing 1100th record. Run 222530, Trigger 1099 GenInputManager Begin processing 1101th record. Run 222530, Trigger 1100 GenInputManager Begin processing 1102th record. Run 222530, Trigger 1101 GenInputManager Begin processing 1103th record. Run 222530, Trigger 1102 GenInputManager Begin processing 1104th record. Run 222530, Trigger 1103 GenInputManager Begin processing 1105th record. Run 222530, Trigger 1104 GenInputManager Begin processing 1106th record. Run 222530, Trigger 1105 GenInputManager Begin processing 1107th record. Run 222530, Trigger 1106 GenInputManager Begin processing 1108th record. Run 222530, Trigger 1107 GenInputManager Begin processing 1109th record. Run 222530, Trigger 1108 GenInputManager Begin processing 1110th record. Run 222530, Trigger 1109 GenInputManager Begin processing 1111th record. Run 222530, Trigger 1110 GenInputManager Begin processing 1112th record. Run 222530, Trigger 1111 GenInputManager Begin processing 1113th record. Run 222530, Trigger 1112 GenInputManager Begin processing 1114th record. Run 222530, Trigger 1113 GenInputManager Begin processing 1115th record. Run 222530, Trigger 1114 GenInputManager Begin processing 1116th record. Run 222530, Trigger 1115 GenInputManager Begin processing 1117th record. Run 222530, Trigger 1116 GenInputManager Begin processing 1118th record. Run 222530, Trigger 1117 GenInputManager Begin processing 1119th record. Run 222530, Trigger 1118 GenInputManager Begin processing 1120th record. Run 222530, Trigger 1119 GenInputManager Begin processing 1121th record. Run 222530, Trigger 1120 GenInputManager Begin processing 1122th record. Run 222530, Trigger 1121 GenInputManager Begin processing 1123th record. Run 222530, Trigger 1122 GenInputManager Begin processing 1124th record. Run 222530, Trigger 1123 GenInputManager Begin processing 1125th record. Run 222530, Trigger 1124 GenInputManager Begin processing 1126th record. Run 222530, Trigger 1125 GenInputManager Begin processing 1127th record. Run 222530, Trigger 1126 GenInputManager Begin processing 1128th record. Run 222530, Trigger 1127 GenInputManager Begin processing 1129th record. Run 222530, Trigger 1128 GenInputManager Begin processing 1130th record. Run 222530, Trigger 1129 GenInputManager Begin processing 1131th record. Run 222530, Trigger 1130 GenInputManager Begin processing 1132th record. Run 222530, Trigger 1131 GenInputManager Begin processing 1133th record. Run 222530, Trigger 1132 GenInputManager Begin processing 1134th record. Run 222530, Trigger 1133 GenInputManager Begin processing 1135th record. Run 222530, Trigger 1134 GenInputManager Begin processing 1136th record. Run 222530, Trigger 1135 GenInputManager Begin processing 1137th record. Run 222530, Trigger 1136 GenInputManager Begin processing 1138th record. Run 222530, Trigger 1137 GenInputManager Begin processing 1139th record. Run 222530, Trigger 1138 GenInputManager Begin processing 1140th record. Run 222530, Trigger 1139 GenInputManager Begin processing 1141th record. Run 222530, Trigger 1140 GenInputManager Begin processing 1142th record. Run 222530, Trigger 1141 GenInputManager Begin processing 1143th record. Run 222530, Trigger 1142 GenInputManager Begin processing 1144th record. Run 222530, Trigger 1143 GenInputManager Begin processing 1145th record. Run 222530, Trigger 1144 GenInputManager Begin processing 1146th record. Run 222530, Trigger 1145 GenInputManager Begin processing 1147th record. Run 222530, Trigger 1146 GenInputManager Begin processing 1148th record. Run 222530, Trigger 1147 GenInputManager Begin processing 1149th record. Run 222530, Trigger 1148 GenInputManager Begin processing 1150th record. Run 222530, Trigger 1149 GenInputManager Begin processing 1151th record. Run 222530, Trigger 1150 GenInputManager Begin processing 1152th record. Run 222530, Trigger 1151 GenInputManager Begin processing 1153th record. Run 222530, Trigger 1152 GenInputManager Begin processing 1154th record. Run 222530, Trigger 1153 GenInputManager Begin processing 1155th record. Run 222530, Trigger 1154 GenInputManager Begin processing 1156th record. Run 222530, Trigger 1155 GenInputManager Begin processing 1157th record. Run 222530, Trigger 1156 GenInputManager Begin processing 1158th record. Run 222530, Trigger 1157 GenInputManager Begin processing 1159th record. Run 222530, Trigger 1158 GenInputManager Begin processing 1160th record. Run 222530, Trigger 1159 GenInputManager Begin processing 1161th record. Run 222530, Trigger 1160 GenInputManager Begin processing 1162th record. Run 222530, Trigger 1161 GenInputManager Begin processing 1163th record. Run 222530, Trigger 1162 GenInputManager Begin processing 1164th record. Run 222530, Trigger 1163 GenInputManager Begin processing 1165th record. Run 222530, Trigger 1164 GenInputManager Begin processing 1166th record. Run 222530, Trigger 1165 GenInputManager Begin processing 1167th record. Run 222530, Trigger 1166 GenInputManager Begin processing 1168th record. Run 222530, Trigger 1167 GenInputManager Begin processing 1169th record. Run 222530, Trigger 1168 GenInputManager Begin processing 1170th record. Run 222530, Trigger 1169 GenInputManager Begin processing 1171th record. Run 222530, Trigger 1170 GenInputManager Begin processing 1172th record. Run 222530, Trigger 1171 GenInputManager Begin processing 1173th record. Run 222530, Trigger 1172 GenInputManager Begin processing 1174th record. Run 222530, Trigger 1173 GenInputManager Begin processing 1175th record. Run 222530, Trigger 1174 GenInputManager Begin processing 1176th record. Run 222530, Trigger 1175 GenInputManager Begin processing 1177th record. Run 222530, Trigger 1176 GenInputManager Begin processing 1178th record. Run 222530, Trigger 1177 GenInputManager Begin processing 1179th record. Run 222530, Trigger 1178 GenInputManager Begin processing 1180th record. Run 222530, Trigger 1179 GenInputManager Begin processing 1181th record. Run 222530, Trigger 1180 GenInputManager Begin processing 1182th record. Run 222530, Trigger 1181 GenInputManager Begin processing 1183th record. Run 222530, Trigger 1182 GenInputManager Begin processing 1184th record. Run 222530, Trigger 1183 GenInputManager Begin processing 1185th record. Run 222530, Trigger 1184 GenInputManager Begin processing 1186th record. Run 222530, Trigger 1185 GenInputManager Begin processing 1187th record. Run 222530, Trigger 1186 GenInputManager Begin processing 1188th record. Run 222530, Trigger 1187 GenInputManager Begin processing 1189th record. Run 222530, Trigger 1188 GenInputManager Begin processing 1190th record. Run 222530, Trigger 1189 GenInputManager Begin processing 1191th record. Run 222530, Trigger 1190 GenInputManager Begin processing 1192th record. Run 222530, Trigger 1191 GenInputManager Begin processing 1193th record. Run 222530, Trigger 1192 GenInputManager Begin processing 1194th record. Run 222530, Trigger 1193 GenInputManager Begin processing 1195th record. Run 222530, Trigger 1194 GenInputManager Begin processing 1196th record. Run 222530, Trigger 1195 GenInputManager Begin processing 1197th record. Run 222530, Trigger 1196 GenInputManager Begin processing 1198th record. Run 222530, Trigger 1197 GenInputManager Begin processing 1199th record. Run 222530, Trigger 1198 GenInputManager Begin processing 1200th record. Run 222530, Trigger 1199 GenInputManager Begin processing 1201th record. Run 222530, Trigger 1200 GenInputManager Begin processing 1202th record. Run 222530, Trigger 1201 GenInputManager Begin processing 1203th record. Run 222530, Trigger 1202 GenInputManager Begin processing 1204th record. Run 222530, Trigger 1203 GenInputManager Begin processing 1205th record. Run 222530, Trigger 1204 GenInputManager Begin processing 1206th record. Run 222530, Trigger 1205 GenInputManager Begin processing 1207th record. Run 222530, Trigger 1206 GenInputManager Begin processing 1208th record. Run 222530, Trigger 1207 GenInputManager Begin processing 1209th record. Run 222530, Trigger 1208 GenInputManager Begin processing 1210th record. Run 222530, Trigger 1209 GenInputManager Begin processing 1211th record. Run 222530, Trigger 1210 GenInputManager Begin processing 1212th record. Run 222530, Trigger 1211 GenInputManager Begin processing 1213th record. Run 222530, Trigger 1212 GenInputManager Begin processing 1214th record. Run 222530, Trigger 1213 GenInputManager Begin processing 1215th record. Run 222530, Trigger 1214 GenInputManager Begin processing 1216th record. Run 222530, Trigger 1215 GenInputManager Begin processing 1217th record. Run 222530, Trigger 1216 GenInputManager Begin processing 1218th record. Run 222530, Trigger 1217 GenInputManager Begin processing 1219th record. Run 222530, Trigger 1218 GenInputManager Begin processing 1220th record. Run 222530, Trigger 1219 GenInputManager Begin processing 1221th record. Run 222530, Trigger 1220 GenInputManager Begin processing 1222th record. Run 222530, Trigger 1221 GenInputManager Begin processing 1223th record. Run 222530, Trigger 1222 GenInputManager Begin processing 1224th record. Run 222530, Trigger 1223 GenInputManager Begin processing 1225th record. Run 222530, Trigger 1224 GenInputManager Begin processing 1226th record. Run 222530, Trigger 1225 GenInputManager Begin processing 1227th record. Run 222530, Trigger 1226 GenInputManager Begin processing 1228th record. Run 222530, Trigger 1227 GenInputManager Begin processing 1229th record. Run 222530, Trigger 1228 GenInputManager Begin processing 1230th record. Run 222530, Trigger 1229 GenInputManager Begin processing 1231th record. Run 222530, Trigger 1230 GenInputManager Begin processing 1232th record. Run 222530, Trigger 1231 GenInputManager Begin processing 1233th record. Run 222530, Trigger 1232 GenInputManager Begin processing 1234th record. Run 222530, Trigger 1233 GenInputManager Begin processing 1235th record. Run 222530, Trigger 1234 GenInputManager Begin processing 1236th record. Run 222530, Trigger 1235 GenInputManager Begin processing 1237th record. Run 222530, Trigger 1236 GenInputManager Begin processing 1238th record. Run 222530, Trigger 1237 GenInputManager Begin processing 1239th record. Run 222530, Trigger 1238 GenInputManager Begin processing 1240th record. Run 222530, Trigger 1239 GenInputManager Begin processing 1241th record. Run 222530, Trigger 1240 GenInputManager Begin processing 1242th record. Run 222530, Trigger 1241 GenInputManager Begin processing 1243th record. Run 222530, Trigger 1242 GenInputManager Begin processing 1244th record. Run 222530, Trigger 1243 GenInputManager Begin processing 1245th record. Run 222530, Trigger 1244 GenInputManager Begin processing 1246th record. Run 222530, Trigger 1245 GenInputManager Begin processing 1247th record. Run 222530, Trigger 1246 GenInputManager Begin processing 1248th record. Run 222530, Trigger 1247 GenInputManager Begin processing 1249th record. Run 222530, Trigger 1248 GenInputManager Begin processing 1250th record. Run 222530, Trigger 1249 GenInputManager Begin processing 1251th record. Run 222530, Trigger 1250 GenInputManager Begin processing 1252th record. Run 222530, Trigger 1251 GenInputManager Begin processing 1253th record. Run 222530, Trigger 1252 GenInputManager Begin processing 1254th record. Run 222530, Trigger 1253 GenInputManager Begin processing 1255th record. Run 222530, Trigger 1254 GenInputManager Begin processing 1256th record. Run 222530, Trigger 1255 GenInputManager Begin processing 1257th record. Run 222530, Trigger 1256 GenInputManager Begin processing 1258th record. Run 222530, Trigger 1257 GenInputManager Begin processing 1259th record. Run 222530, Trigger 1258 GenInputManager Begin processing 1260th record. Run 222530, Trigger 1259 GenInputManager Begin processing 1261th record. Run 222530, Trigger 1260 GenInputManager Begin processing 1262th record. Run 222530, Trigger 1261 GenInputManager Begin processing 1263th record. Run 222530, Trigger 1262 GenInputManager Begin processing 1264th record. Run 222530, Trigger 1263 GenInputManager Begin processing 1265th record. Run 222530, Trigger 1264 GenInputManager Begin processing 1266th record. Run 222530, Trigger 1265 GenInputManager Begin processing 1267th record. Run 222530, Trigger 1266 GenInputManager Begin processing 1268th record. Run 222530, Trigger 1267 GenInputManager Begin processing 1269th record. Run 222530, Trigger 1268 GenInputManager Begin processing 1270th record. Run 222530, Trigger 1269 GenInputManager Begin processing 1271th record. Run 222530, Trigger 1270 GenInputManager Begin processing 1272th record. Run 222530, Trigger 1271 GenInputManager Begin processing 1273th record. Run 222530, Trigger 1272 GenInputManager Begin processing 1274th record. Run 222530, Trigger 1273 GenInputManager Begin processing 1275th record. Run 222530, Trigger 1274 GenInputManager Begin processing 1276th record. Run 222530, Trigger 1275 GenInputManager Begin processing 1277th record. Run 222530, Trigger 1276 GenInputManager Begin processing 1278th record. Run 222530, Trigger 1277 GenInputManager Begin processing 1279th record. Run 222530, Trigger 1278 GenInputManager Begin processing 1280th record. Run 222530, Trigger 1279 GenInputManager Begin processing 1281th record. Run 222530, Trigger 1280 GenInputManager Begin processing 1282th record. Run 222530, Trigger 1281 GenInputManager Begin processing 1283th record. Run 222530, Trigger 1282 GenInputManager Begin processing 1284th record. Run 222530, Trigger 1283 GenInputManager Begin processing 1285th record. Run 222530, Trigger 1284 GenInputManager Begin processing 1286th record. Run 222530, Trigger 1285 GenInputManager Begin processing 1287th record. Run 222530, Trigger 1286 GenInputManager Begin processing 1288th record. Run 222530, Trigger 1287 GenInputManager Begin processing 1289th record. Run 222530, Trigger 1288 GenInputManager Begin processing 1290th record. Run 222530, Trigger 1289 GenInputManager Begin processing 1291th record. Run 222530, Trigger 1290 GenInputManager Begin processing 1292th record. Run 222530, Trigger 1291 GenInputManager Begin processing 1293th record. Run 222530, Trigger 1292 GenInputManager Begin processing 1294th record. Run 222530, Trigger 1293 GenInputManager Begin processing 1295th record. Run 222530, Trigger 1294 GenInputManager Begin processing 1296th record. Run 222530, Trigger 1295 GenInputManager Begin processing 1297th record. Run 222530, Trigger 1296 GenInputManager Begin processing 1298th record. Run 222530, Trigger 1297 GenInputManager Begin processing 1299th record. Run 222530, Trigger 1298 GenInputManager Begin processing 1300th record. Run 222530, Trigger 1299 GenInputManager Begin processing 1301th record. Run 222530, Trigger 1300 GenInputManager Begin processing 1302th record. Run 222530, Trigger 1301 GenInputManager Begin processing 1303th record. Run 222530, Trigger 1302 GenInputManager Begin processing 1304th record. Run 222530, Trigger 1303 GenInputManager Begin processing 1305th record. Run 222530, Trigger 1304 GenInputManager Begin processing 1306th record. Run 222530, Trigger 1305 GenInputManager Begin processing 1307th record. Run 222530, Trigger 1306 GenInputManager Begin processing 1308th record. Run 222530, Trigger 1307 GenInputManager Begin processing 1309th record. Run 222530, Trigger 1308 GenInputManager Begin processing 1310th record. Run 222530, Trigger 1309 GenInputManager Begin processing 1311th record. Run 222530, Trigger 1310 GenInputManager Begin processing 1312th record. Run 222530, Trigger 1311 GenInputManager Begin processing 1313th record. Run 222530, Trigger 1312 GenInputManager Begin processing 1314th record. Run 222530, Trigger 1313 GenInputManager Begin processing 1315th record. Run 222530, Trigger 1314 GenInputManager Begin processing 1316th record. Run 222530, Trigger 1315 GenInputManager Begin processing 1317th record. Run 222530, Trigger 1316 GenInputManager Begin processing 1318th record. Run 222530, Trigger 1317 GenInputManager Begin processing 1319th record. Run 222530, Trigger 1318 GenInputManager Begin processing 1320th record. Run 222530, Trigger 1319 GenInputManager Begin processing 1321th record. Run 222530, Trigger 1320 GenInputManager Begin processing 1322th record. Run 222530, Trigger 1321 GenInputManager Begin processing 1323th record. Run 222530, Trigger 1322 GenInputManager Begin processing 1324th record. Run 222530, Trigger 1323 GenInputManager Begin processing 1325th record. Run 222530, Trigger 1324 GenInputManager Begin processing 1326th record. Run 222530, Trigger 1325 GenInputManager Begin processing 1327th record. Run 222530, Trigger 1326 GenInputManager Begin processing 1328th record. Run 222530, Trigger 1327 GenInputManager Begin processing 1329th record. Run 222530, Trigger 1328 GenInputManager Begin processing 1330th record. Run 222530, Trigger 1329 GenInputManager Begin processing 1331th record. Run 222530, Trigger 1330 GenInputManager Begin processing 1332th record. Run 222530, Trigger 1331 GenInputManager Begin processing 1333th record. Run 222530, Trigger 1332 GenInputManager Begin processing 1334th record. Run 222530, Trigger 1333 GenInputManager Begin processing 1335th record. Run 222530, Trigger 1334 GenInputManager Begin processing 1336th record. Run 222530, Trigger 1335 GenInputManager Begin processing 1337th record. Run 222530, Trigger 1336 GenInputManager Begin processing 1338th record. Run 222530, Trigger 1337 GenInputManager Begin processing 1339th record. Run 222530, Trigger 1338 GenInputManager Begin processing 1340th record. Run 222530, Trigger 1339 GenInputManager Begin processing 1341th record. Run 222530, Trigger 1340 GenInputManager Begin processing 1342th record. Run 222530, Trigger 1341 GenInputManager Begin processing 1343th record. Run 222530, Trigger 1342 GenInputManager Begin processing 1344th record. Run 222530, Trigger 1343 GenInputManager Begin processing 1345th record. Run 222530, Trigger 1344 GenInputManager Begin processing 1346th record. Run 222530, Trigger 1345 GenInputManager Begin processing 1347th record. Run 222530, Trigger 1346 GenInputManager Begin processing 1348th record. Run 222530, Trigger 1347 GenInputManager Begin processing 1349th record. Run 222530, Trigger 1348 GenInputManager Begin processing 1350th record. Run 222530, Trigger 1349 GenInputManager Begin processing 1351th record. Run 222530, Trigger 1350 GenInputManager Begin processing 1352th record. Run 222530, Trigger 1351 GenInputManager Begin processing 1353th record. Run 222530, Trigger 1352 GenInputManager Begin processing 1354th record. Run 222530, Trigger 1353 GenInputManager Begin processing 1355th record. Run 222530, Trigger 1354 GenInputManager Begin processing 1356th record. Run 222530, Trigger 1355 GenInputManager Begin processing 1357th record. Run 222530, Trigger 1356 GenInputManager Begin processing 1358th record. Run 222530, Trigger 1357 GenInputManager Begin processing 1359th record. Run 222530, Trigger 1358 GenInputManager Begin processing 1360th record. Run 222530, Trigger 1359 GenInputManager Begin processing 1361th record. Run 222530, Trigger 1360 GenInputManager Begin processing 1362th record. Run 222530, Trigger 1361 GenInputManager Begin processing 1363th record. Run 222530, Trigger 1362 GenInputManager Begin processing 1364th record. Run 222530, Trigger 1363 GenInputManager Begin processing 1365th record. Run 222530, Trigger 1364 GenInputManager Begin processing 1366th record. Run 222530, Trigger 1365 GenInputManager Begin processing 1367th record. Run 222530, Trigger 1366 GenInputManager Begin processing 1368th record. Run 222530, Trigger 1367 GenInputManager Begin processing 1369th record. Run 222530, Trigger 1368 GenInputManager Begin processing 1370th record. Run 222530, Trigger 1369 GenInputManager Begin processing 1371th record. Run 222530, Trigger 1370 GenInputManager Begin processing 1372th record. Run 222530, Trigger 1371 GenInputManager Begin processing 1373th record. Run 222530, Trigger 1372 GenInputManager Begin processing 1374th record. Run 222530, Trigger 1373 GenInputManager Begin processing 1375th record. Run 222530, Trigger 1374 GenInputManager Begin processing 1376th record. Run 222530, Trigger 1375 GenInputManager Begin processing 1377th record. Run 222530, Trigger 1376 GenInputManager Begin processing 1378th record. Run 222530, Trigger 1377 GenInputManager Begin processing 1379th record. Run 222530, Trigger 1378 GenInputManager Begin processing 1380th record. Run 222530, Trigger 1379 GenInputManager Begin processing 1381th record. Run 222530, Trigger 1380 GenInputManager Begin processing 1382th record. Run 222530, Trigger 1381 GenInputManager Begin processing 1383th record. Run 222530, Trigger 1382 GenInputManager Begin processing 1384th record. Run 222530, Trigger 1383 GenInputManager Begin processing 1385th record. Run 222530, Trigger 1384 GenInputManager Begin processing 1386th record. Run 222530, Trigger 1385 GenInputManager Begin processing 1387th record. Run 222530, Trigger 1386 GenInputManager Begin processing 1388th record. Run 222530, Trigger 1387 GenInputManager Begin processing 1389th record. Run 222530, Trigger 1388 GenInputManager Begin processing 1390th record. Run 222530, Trigger 1389 GenInputManager Begin processing 1391th record. Run 222530, Trigger 1390 GenInputManager Begin processing 1392th record. Run 222530, Trigger 1391 GenInputManager Begin processing 1393th record. Run 222530, Trigger 1392 GenInputManager Begin processing 1394th record. Run 222530, Trigger 1393 GenInputManager Begin processing 1395th record. Run 222530, Trigger 1394 GenInputManager Begin processing 1396th record. Run 222530, Trigger 1395 GenInputManager Begin processing 1397th record. Run 222530, Trigger 1396 GenInputManager Begin processing 1398th record. Run 222530, Trigger 1397 GenInputManager Begin processing 1399th record. Run 222530, Trigger 1398 GenInputManager Begin processing 1400th record. Run 222530, Trigger 1399 GenInputManager Begin processing 1401th record. Run 222530, Trigger 1400 GenInputManager Begin processing 1402th record. Run 222530, Trigger 1401 GenInputManager Begin processing 1403th record. Run 222530, Trigger 1402 GenInputManager Begin processing 1404th record. Run 222530, Trigger 1403 GenInputManager Begin processing 1405th record. Run 222530, Trigger 1404 GenInputManager Begin processing 1406th record. Run 222530, Trigger 1405 GenInputManager Begin processing 1407th record. Run 222530, Trigger 1406 GenInputManager Begin processing 1408th record. Run 222530, Trigger 1407 GenInputManager Begin processing 1409th record. Run 222530, Trigger 1408 GenInputManager Begin processing 1410th record. Run 222530, Trigger 1409 GenInputManager Begin processing 1411th record. Run 222530, Trigger 1410 GenInputManager Begin processing 1412th record. Run 222530, Trigger 1411 GenInputManager Begin processing 1413th record. Run 222530, Trigger 1412 GenInputManager Begin processing 1414th record. Run 222530, Trigger 1413 GenInputManager Begin processing 1415th record. Run 222530, Trigger 1414 GenInputManager Begin processing 1416th record. Run 222530, Trigger 1415 GenInputManager Begin processing 1417th record. Run 222530, Trigger 1416 GenInputManager Begin processing 1418th record. Run 222530, Trigger 1417 GenInputManager Begin processing 1419th record. Run 222530, Trigger 1418 GenInputManager Begin processing 1420th record. Run 222530, Trigger 1419 GenInputManager Begin processing 1421th record. Run 222530, Trigger 1420 GenInputManager Begin processing 1422th record. Run 222530, Trigger 1421 GenInputManager Begin processing 1423th record. Run 222530, Trigger 1422 GenInputManager Begin processing 1424th record. Run 222530, Trigger 1423 GenInputManager Begin processing 1425th record. Run 222530, Trigger 1424 GenInputManager Begin processing 1426th record. Run 222530, Trigger 1425 GenInputManager Begin processing 1427th record. Run 222530, Trigger 1426 GenInputManager Begin processing 1428th record. Run 222530, Trigger 1427 GenInputManager Begin processing 1429th record. Run 222530, Trigger 1428 GenInputManager Begin processing 1430th record. Run 222530, Trigger 1429 GenInputManager Begin processing 1431th record. Run 222530, Trigger 1430 GenInputManager Begin processing 1432th record. Run 222530, Trigger 1431 GenInputManager Begin processing 1433th record. Run 222530, Trigger 1432 GenInputManager Begin processing 1434th record. Run 222530, Trigger 1433 GenInputManager Begin processing 1435th record. Run 222530, Trigger 1434 GenInputManager Begin processing 1436th record. Run 222530, Trigger 1435 GenInputManager Begin processing 1437th record. Run 222530, Trigger 1436 GenInputManager Begin processing 1438th record. Run 222530, Trigger 1437 GenInputManager Begin processing 1439th record. Run 222530, Trigger 1438 GenInputManager Begin processing 1440th record. Run 222530, Trigger 1439 GenInputManager Begin processing 1441th record. Run 222530, Trigger 1440 GenInputManager Begin processing 1442th record. Run 222530, Trigger 1441 GenInputManager Begin processing 1443th record. Run 222530, Trigger 1442 GenInputManager Begin processing 1444th record. Run 222530, Trigger 1443 GenInputManager Begin processing 1445th record. Run 222530, Trigger 1444 GenInputManager Begin processing 1446th record. Run 222530, Trigger 1445 GenInputManager Begin processing 1447th record. Run 222530, Trigger 1446 GenInputManager Begin processing 1448th record. Run 222530, Trigger 1447 GenInputManager Begin processing 1449th record. Run 222530, Trigger 1448 GenInputManager Begin processing 1450th record. Run 222530, Trigger 1449 GenInputManager Begin processing 1451th record. Run 222530, Trigger 1450 GenInputManager Begin processing 1452th record. Run 222530, Trigger 1451 GenInputManager Begin processing 1453th record. Run 222530, Trigger 1452 GenInputManager Begin processing 1454th record. Run 222530, Trigger 1453 GenInputManager Begin processing 1455th record. Run 222530, Trigger 1454 GenInputManager Begin processing 1456th record. Run 222530, Trigger 1455 GenInputManager Begin processing 1457th record. Run 222530, Trigger 1456 GenInputManager Begin processing 1458th record. Run 222530, Trigger 1457 GenInputManager Begin processing 1459th record. Run 222530, Trigger 1458 GenInputManager Begin processing 1460th record. Run 222530, Trigger 1459 GenInputManager Begin processing 1461th record. Run 222530, Trigger 1460 GenInputManager Begin processing 1462th record. Run 222530, Trigger 1461 GenInputManager Begin processing 1463th record. Run 222530, Trigger 1462 GenInputManager Begin processing 1464th record. Run 222530, Trigger 1463 GenInputManager Begin processing 1465th record. Run 222530, Trigger 1464 GenInputManager Begin processing 1466th record. Run 222530, Trigger 1465 GenInputManager Begin processing 1467th record. Run 222530, Trigger 1466 GenInputManager Begin processing 1468th record. Run 222530, Trigger 1467 GenInputManager Begin processing 1469th record. Run 222530, Trigger 1468 GenInputManager Begin processing 1470th record. Run 222530, Trigger 1469 GenInputManager Begin processing 1471th record. Run 222530, Trigger 1470 GenInputManager Begin processing 1472th record. Run 222530, Trigger 1471 GenInputManager Begin processing 1473th record. Run 222530, Trigger 1472 GenInputManager Begin processing 1474th record. Run 222530, Trigger 1473 GenInputManager Begin processing 1475th record. Run 222530, Trigger 1474 GenInputManager Begin processing 1476th record. Run 222530, Trigger 1475 GenInputManager Begin processing 1477th record. Run 222530, Trigger 1476 GenInputManager Begin processing 1478th record. Run 222530, Trigger 1477 GenInputManager Begin processing 1479th record. Run 222530, Trigger 1478 GenInputManager Begin processing 1480th record. Run 222530, Trigger 1479 GenInputManager Begin processing 1481th record. Run 222530, Trigger 1480 GenInputManager Begin processing 1482th record. Run 222530, Trigger 1481 GenInputManager Begin processing 1483th record. Run 222530, Trigger 1482 GenInputManager Begin processing 1484th record. Run 222530, Trigger 1483 GenInputManager Begin processing 1485th record. Run 222530, Trigger 1484 GenInputManager Begin processing 1486th record. Run 222530, Trigger 1485 GenInputManager Begin processing 1487th record. Run 222530, Trigger 1486 GenInputManager Begin processing 1488th record. Run 222530, Trigger 1487 GenInputManager Begin processing 1489th record. Run 222530, Trigger 1488 GenInputManager Begin processing 1490th record. Run 222530, Trigger 1489 GenInputManager Begin processing 1491th record. Run 222530, Trigger 1490 GenInputManager Begin processing 1492th record. Run 222530, Trigger 1491 GenInputManager Begin processing 1493th record. Run 222530, Trigger 1492 GenInputManager Begin processing 1494th record. Run 222530, Trigger 1493 GenInputManager Begin processing 1495th record. Run 222530, Trigger 1494 GenInputManager Begin processing 1496th record. Run 222530, Trigger 1495 GenInputManager Begin processing 1497th record. Run 222530, Trigger 1496 GenInputManager Begin processing 1498th record. Run 222530, Trigger 1497 GenInputManager Begin processing 1499th record. Run 222530, Trigger 1498 GenInputManager Begin processing 1500th record. Run 222530, Trigger 1499 GenInputManager Begin processing 1501th record. Run 222530, Trigger 1500 GenInputManager Begin processing 1502th record. Run 222530, Trigger 1501 GenInputManager Begin processing 1503th record. Run 222530, Trigger 1502 GenInputManager Begin processing 1504th record. Run 222530, Trigger 1503 GenInputManager Begin processing 1505th record. Run 222530, Trigger 1504 GenInputManager Begin processing 1506th record. Run 222530, Trigger 1505 GenInputManager Begin processing 1507th record. Run 222530, Trigger 1506 GenInputManager Begin processing 1508th record. Run 222530, Trigger 1507 GenInputManager Begin processing 1509th record. Run 222530, Trigger 1508 GenInputManager Begin processing 1510th record. Run 222530, Trigger 1509 GenInputManager Begin processing 1511th record. Run 222530, Trigger 1510 GenInputManager Begin processing 1512th record. Run 222530, Trigger 1511 GenInputManager Begin processing 1513th record. Run 222530, Trigger 1512 GenInputManager Begin processing 1514th record. Run 222530, Trigger 1513 GenInputManager Begin processing 1515th record. Run 222530, Trigger 1514 GenInputManager Begin processing 1516th record. Run 222530, Trigger 1515 GenInputManager Begin processing 1517th record. Run 222530, Trigger 1516 GenInputManager Begin processing 1518th record. Run 222530, Trigger 1517 GenInputManager Begin processing 1519th record. Run 222530, Trigger 1518 GenInputManager Begin processing 1520th record. Run 222530, Trigger 1519 GenInputManager Begin processing 1521th record. Run 222530, Trigger 1520 GenInputManager Begin processing 1522th record. Run 222530, Trigger 1521 GenInputManager Begin processing 1523th record. Run 222530, Trigger 1522 GenInputManager Begin processing 1524th record. Run 222530, Trigger 1523 GenInputManager Begin processing 1525th record. Run 222530, Trigger 1524 GenInputManager Begin processing 1526th record. Run 222530, Trigger 1525 GenInputManager Begin processing 1527th record. Run 222530, Trigger 1526 GenInputManager Begin processing 1528th record. Run 222530, Trigger 1527 GenInputManager Begin processing 1529th record. Run 222530, Trigger 1528 GenInputManager Begin processing 1530th record. Run 222530, Trigger 1529 GenInputManager Begin processing 1531th record. Run 222530, Trigger 1530 GenInputManager Begin processing 1532th record. Run 222530, Trigger 1531 GenInputManager Begin processing 1533th record. Run 222530, Trigger 1532 GenInputManager Begin processing 1534th record. Run 222530, Trigger 1533 GenInputManager Begin processing 1535th record. Run 222530, Trigger 1534 GenInputManager Begin processing 1536th record. Run 222530, Trigger 1535 GenInputManager Begin processing 1537th record. Run 222530, Trigger 1536 GenInputManager Begin processing 1538th record. Run 222530, Trigger 1537 GenInputManager Begin processing 1539th record. Run 222530, Trigger 1538 GenInputManager Begin processing 1540th record. Run 222530, Trigger 1539 GenInputManager Begin processing 1541th record. Run 222530, Trigger 1540 GenInputManager Begin processing 1542th record. Run 222530, Trigger 1541 GenInputManager Begin processing 1543th record. Run 222530, Trigger 1542 GenInputManager Begin processing 1544th record. Run 222530, Trigger 1543 GenInputManager Begin processing 1545th record. Run 222530, Trigger 1544 GenInputManager Begin processing 1546th record. Run 222530, Trigger 1545 GenInputManager Begin processing 1547th record. Run 222530, Trigger 1546 GenInputManager Begin processing 1548th record. Run 222530, Trigger 1547 GenInputManager Begin processing 1549th record. Run 222530, Trigger 1548 GenInputManager Begin processing 1550th record. Run 222530, Trigger 1549 GenInputManager Begin processing 1551th record. Run 222530, Trigger 1550 GenInputManager Begin processing 1552th record. Run 222530, Trigger 1551 GenInputManager Begin processing 1553th record. Run 222530, Trigger 1552 GenInputManager Begin processing 1554th record. Run 222530, Trigger 1553 GenInputManager Begin processing 1555th record. Run 222530, Trigger 1554 GenInputManager Begin processing 1556th record. Run 222530, Trigger 1555 GenInputManager Begin processing 1557th record. Run 222530, Trigger 1556 GenInputManager Begin processing 1558th record. Run 222530, Trigger 1557 GenInputManager Begin processing 1559th record. Run 222530, Trigger 1558 GenInputManager Begin processing 1560th record. Run 222530, Trigger 1559 GenInputManager Begin processing 1561th record. Run 222530, Trigger 1560 GenInputManager Begin processing 1562th record. Run 222530, Trigger 1561 GenInputManager Begin processing 1563th record. Run 222530, Trigger 1562 GenInputManager Begin processing 1564th record. Run 222530, Trigger 1563 GenInputManager Begin processing 1565th record. Run 222530, Trigger 1564 GenInputManager Begin processing 1566th record. Run 222530, Trigger 1565 GenInputManager Begin processing 1567th record. Run 222530, Trigger 1566 GenInputManager Begin processing 1568th record. Run 222530, Trigger 1567 GenInputManager Begin processing 1569th record. Run 222530, Trigger 1568 GenInputManager Begin processing 1570th record. Run 222530, Trigger 1569 GenInputManager Begin processing 1571th record. Run 222530, Trigger 1570 GenInputManager Begin processing 1572th record. Run 222530, Trigger 1571 GenInputManager Begin processing 1573th record. Run 222530, Trigger 1572 GenInputManager Begin processing 1574th record. Run 222530, Trigger 1573 GenInputManager Begin processing 1575th record. Run 222530, Trigger 1574 GenInputManager Begin processing 1576th record. Run 222530, Trigger 1575 GenInputManager Begin processing 1577th record. Run 222530, Trigger 1576 GenInputManager Begin processing 1578th record. Run 222530, Trigger 1577 GenInputManager Begin processing 1579th record. Run 222530, Trigger 1578 GenInputManager Begin processing 1580th record. Run 222530, Trigger 1579 GenInputManager Begin processing 1581th record. Run 222530, Trigger 1580 GenInputManager Begin processing 1582th record. Run 222530, Trigger 1581 GenInputManager Begin processing 1583th record. Run 222530, Trigger 1582 GenInputManager Begin processing 1584th record. Run 222530, Trigger 1583 GenInputManager Begin processing 1585th record. Run 222530, Trigger 1584 GenInputManager Begin processing 1586th record. Run 222530, Trigger 1585 GenInputManager Begin processing 1587th record. Run 222530, Trigger 1586 GenInputManager Begin processing 1588th record. Run 222530, Trigger 1587 GenInputManager Begin processing 1589th record. Run 222530, Trigger 1588 GenInputManager Begin processing 1590th record. Run 222530, Trigger 1589 GenInputManager Begin processing 1591th record. Run 222530, Trigger 1590 GenInputManager Begin processing 1592th record. Run 222530, Trigger 1591 GenInputManager Begin processing 1593th record. Run 222530, Trigger 1592 GenInputManager Begin processing 1594th record. Run 222530, Trigger 1593 GenInputManager Begin processing 1595th record. Run 222530, Trigger 1594 GenInputManager Begin processing 1596th record. Run 222530, Trigger 1595 GenInputManager Begin processing 1597th record. Run 222530, Trigger 1596 GenInputManager Begin processing 1598th record. Run 222530, Trigger 1597 GenInputManager Begin processing 1599th record. Run 222530, Trigger 1598 GenInputManager Begin processing 1600th record. Run 222530, Trigger 1599 GenInputManager Begin processing 1601th record. Run 222530, Trigger 1600 GenInputManager Begin processing 1602th record. Run 222530, Trigger 1601 GenInputManager Begin processing 1603th record. Run 222530, Trigger 1602 GenInputManager Begin processing 1604th record. Run 222530, Trigger 1603 GenInputManager Begin processing 1605th record. Run 222530, Trigger 1604 GenInputManager Begin processing 1606th record. Run 222530, Trigger 1605 GenInputManager Begin processing 1607th record. Run 222530, Trigger 1606 GenInputManager Begin processing 1608th record. Run 222530, Trigger 1607 GenInputManager Begin processing 1609th record. Run 222530, Trigger 1608 GenInputManager Begin processing 1610th record. Run 222530, Trigger 1609 GenInputManager Begin processing 1611th record. Run 222530, Trigger 1610 GenInputManager Begin processing 1612th record. Run 222530, Trigger 1611 GenInputManager Begin processing 1613th record. Run 222530, Trigger 1612 GenInputManager Begin processing 1614th record. Run 222530, Trigger 1613 GenInputManager Begin processing 1615th record. Run 222530, Trigger 1614 GenInputManager Begin processing 1616th record. Run 222530, Trigger 1615 GenInputManager Begin processing 1617th record. Run 222530, Trigger 1616 GenInputManager Begin processing 1618th record. Run 222530, Trigger 1617 GenInputManager Begin processing 1619th record. Run 222530, Trigger 1618 GenInputManager Begin processing 1620th record. Run 222530, Trigger 1619 GenInputManager Begin processing 1621th record. Run 222530, Trigger 1620 GenInputManager Begin processing 1622th record. Run 222530, Trigger 1621 GenInputManager Begin processing 1623th record. Run 222530, Trigger 1622 GenInputManager Begin processing 1624th record. Run 222530, Trigger 1623 GenInputManager Begin processing 1625th record. Run 222530, Trigger 1624 GenInputManager Begin processing 1626th record. Run 222530, Trigger 1625 GenInputManager Begin processing 1627th record. Run 222530, Trigger 1626 GenInputManager Begin processing 1628th record. Run 222530, Trigger 1627 GenInputManager Begin processing 1629th record. Run 222530, Trigger 1628 GenInputManager Begin processing 1630th record. Run 222530, Trigger 1629 GenInputManager Begin processing 1631th record. Run 222530, Trigger 1630 GenInputManager Begin processing 1632th record. Run 222530, Trigger 1631 GenInputManager Begin processing 1633th record. Run 222530, Trigger 1632 GenInputManager Begin processing 1634th record. Run 222530, Trigger 1633 GenInputManager Begin processing 1635th record. Run 222530, Trigger 1634 GenInputManager Begin processing 1636th record. Run 222530, Trigger 1635 GenInputManager Begin processing 1637th record. Run 222530, Trigger 1636 GenInputManager Begin processing 1638th record. Run 222530, Trigger 1637 GenInputManager Begin processing 1639th record. Run 222530, Trigger 1638 GenInputManager Begin processing 1640th record. Run 222530, Trigger 1639 GenInputManager Begin processing 1641th record. Run 222530, Trigger 1640 GenInputManager Begin processing 1642th record. Run 222530, Trigger 1641 GenInputManager Begin processing 1643th record. Run 222530, Trigger 1642 GenInputManager Begin processing 1644th record. Run 222530, Trigger 1643 GenInputManager Begin processing 1645th record. Run 222530, Trigger 1644 GenInputManager Begin processing 1646th record. Run 222530, Trigger 1645 GenInputManager Begin processing 1647th record. Run 222530, Trigger 1646 GenInputManager Begin processing 1648th record. Run 222530, Trigger 1647 GenInputManager Begin processing 1649th record. Run 222530, Trigger 1648 GenInputManager Begin processing 1650th record. Run 222530, Trigger 1649 GenInputManager Begin processing 1651th record. Run 222530, Trigger 1650 GenInputManager Begin processing 1652th record. Run 222530, Trigger 1651 GenInputManager Begin processing 1653th record. Run 222530, Trigger 1652 GenInputManager Begin processing 1654th record. Run 222530, Trigger 1653 GenInputManager Begin processing 1655th record. Run 222530, Trigger 1654 GenInputManager Begin processing 1656th record. Run 222530, Trigger 1655 GenInputManager Begin processing 1657th record. Run 222530, Trigger 1656 GenInputManager Begin processing 1658th record. Run 222530, Trigger 1657 GenInputManager Begin processing 1659th record. Run 222530, Trigger 1658 GenInputManager Begin processing 1660th record. Run 222530, Trigger 1659 GenInputManager Begin processing 1661th record. Run 222530, Trigger 1660 GenInputManager Begin processing 1662th record. Run 222530, Trigger 1661 GenInputManager Begin processing 1663th record. Run 222530, Trigger 1662 GenInputManager Begin processing 1664th record. Run 222530, Trigger 1663 GenInputManager Begin processing 1665th record. Run 222530, Trigger 1664 GenInputManager Begin processing 1666th record. Run 222530, Trigger 1665 GenInputManager Begin processing 1667th record. Run 222530, Trigger 1666 GenInputManager Begin processing 1668th record. Run 222530, Trigger 1667 GenInputManager Begin processing 1669th record. Run 222530, Trigger 1668 GenInputManager Begin processing 1670th record. Run 222530, Trigger 1669 GenInputManager Begin processing 1671th record. Run 222530, Trigger 1670 GenInputManager Begin processing 1672th record. Run 222530, Trigger 1671 GenInputManager Begin processing 1673th record. Run 222530, Trigger 1672 GenInputManager Begin processing 1674th record. Run 222530, Trigger 1673 GenInputManager Begin processing 1675th record. Run 222530, Trigger 1674 GenInputManager Begin processing 1676th record. Run 222530, Trigger 1675 GenInputManager Begin processing 1677th record. Run 222530, Trigger 1676 GenInputManager Begin processing 1678th record. Run 222530, Trigger 1677 GenInputManager Begin processing 1679th record. Run 222530, Trigger 1678 GenInputManager Begin processing 1680th record. Run 222530, Trigger 1679 GenInputManager Begin processing 1681th record. Run 222530, Trigger 1680 GenInputManager Begin processing 1682th record. Run 222530, Trigger 1681 GenInputManager Begin processing 1683th record. Run 222530, Trigger 1682 GenInputManager Begin processing 1684th record. Run 222530, Trigger 1683 GenInputManager Begin processing 1685th record. Run 222530, Trigger 1684 GenInputManager Begin processing 1686th record. Run 222530, Trigger 1685 GenInputManager Begin processing 1687th record. Run 222530, Trigger 1686 GenInputManager Begin processing 1688th record. Run 222530, Trigger 1687 GenInputManager Begin processing 1689th record. Run 222530, Trigger 1688 GenInputManager Begin processing 1690th record. Run 222530, Trigger 1689 GenInputManager Begin processing 1691th record. Run 222530, Trigger 1690 GenInputManager Begin processing 1692th record. Run 222530, Trigger 1691 GenInputManager Begin processing 1693th record. Run 222530, Trigger 1692 GenInputManager Begin processing 1694th record. Run 222530, Trigger 1693 GenInputManager Begin processing 1695th record. Run 222530, Trigger 1694 GenInputManager Begin processing 1696th record. Run 222530, Trigger 1695 GenInputManager Begin processing 1697th record. Run 222530, Trigger 1696 GenInputManager Begin processing 1698th record. Run 222530, Trigger 1697 GenInputManager Begin processing 1699th record. Run 222530, Trigger 1698 GenInputManager Begin processing 1700th record. Run 222530, Trigger 1699 GenInputManager Begin processing 1701th record. Run 222530, Trigger 1700 GenInputManager Begin processing 1702th record. Run 222530, Trigger 1701 GenInputManager Begin processing 1703th record. Run 222530, Trigger 1702 GenInputManager Begin processing 1704th record. Run 222530, Trigger 1703 GenInputManager Begin processing 1705th record. Run 222530, Trigger 1704 GenInputManager Begin processing 1706th record. Run 222530, Trigger 1705 GenInputManager Begin processing 1707th record. Run 222530, Trigger 1706 GenInputManager Begin processing 1708th record. Run 222530, Trigger 1707 GenInputManager Begin processing 1709th record. Run 222530, Trigger 1708 GenInputManager Begin processing 1710th record. Run 222530, Trigger 1709 GenInputManager Begin processing 1711th record. Run 222530, Trigger 1710 GenInputManager Begin processing 1712th record. Run 222530, Trigger 1711 GenInputManager Begin processing 1713th record. Run 222530, Trigger 1712 GenInputManager Begin processing 1714th record. Run 222530, Trigger 1713 GenInputManager Begin processing 1715th record. Run 222530, Trigger 1714 GenInputManager Begin processing 1716th record. Run 222530, Trigger 1715 GenInputManager Begin processing 1717th record. Run 222530, Trigger 1716 GenInputManager Begin processing 1718th record. Run 222530, Trigger 1717 GenInputManager Begin processing 1719th record. Run 222530, Trigger 1718 GenInputManager Begin processing 1720th record. Run 222530, Trigger 1719 GenInputManager Begin processing 1721th record. Run 222530, Trigger 1720 GenInputManager Begin processing 1722th record. Run 222530, Trigger 1721 GenInputManager Begin processing 1723th record. Run 222530, Trigger 1722 GenInputManager Begin processing 1724th record. Run 222530, Trigger 1723 GenInputManager Begin processing 1725th record. Run 222530, Trigger 1724 GenInputManager Begin processing 1726th record. Run 222530, Trigger 1725 GenInputManager Begin processing 1727th record. Run 222530, Trigger 1726 GenInputManager Begin processing 1728th record. Run 222530, Trigger 1727 GenInputManager Begin processing 1729th record. Run 222530, Trigger 1728 GenInputManager Begin processing 1730th record. Run 222530, Trigger 1729 GenInputManager Begin processing 1731th record. Run 222530, Trigger 1730 GenInputManager Begin processing 1732th record. Run 222530, Trigger 1731 GenInputManager Begin processing 1733th record. Run 222530, Trigger 1732 GenInputManager Begin processing 1734th record. Run 222530, Trigger 1733 GenInputManager Begin processing 1735th record. Run 222530, Trigger 1734 GenInputManager Begin processing 1736th record. Run 222530, Trigger 1735 GenInputManager Begin processing 1737th record. Run 222530, Trigger 1736 GenInputManager Begin processing 1738th record. Run 222530, Trigger 1737 GenInputManager Begin processing 1739th record. Run 222530, Trigger 1738 GenInputManager Begin processing 1740th record. Run 222530, Trigger 1739 GenInputManager Begin processing 1741th record. Run 222530, Trigger 1740 GenInputManager Begin processing 1742th record. Run 222530, Trigger 1741 GenInputManager Begin processing 1743th record. Run 222530, Trigger 1742 GenInputManager Begin processing 1744th record. Run 222530, Trigger 1743 GenInputManager Begin processing 1745th record. Run 222530, Trigger 1744 GenInputManager Begin processing 1746th record. Run 222530, Trigger 1745 GenInputManager Begin processing 1747th record. Run 222530, Trigger 1746 GenInputManager Begin processing 1748th record. Run 222530, Trigger 1747 GenInputManager Begin processing 1749th record. Run 222530, Trigger 1748 GenInputManager Begin processing 1750th record. Run 222530, Trigger 1749 GenInputManager Begin processing 1751th record. Run 222530, Trigger 1750 GenInputManager Begin processing 1752th record. Run 222530, Trigger 1751 GenInputManager Begin processing 1753th record. Run 222530, Trigger 1752 GenInputManager Begin processing 1754th record. Run 222530, Trigger 1753 GenInputManager Begin processing 1755th record. Run 222530, Trigger 1754 GenInputManager Begin processing 1756th record. Run 222530, Trigger 1755 GenInputManager Begin processing 1757th record. Run 222530, Trigger 1756 GenInputManager Begin processing 1758th record. Run 222530, Trigger 1757 GenInputManager Begin processing 1759th record. Run 222530, Trigger 1758 GenInputManager Begin processing 1760th record. Run 222530, Trigger 1759 GenInputManager Begin processing 1761th record. Run 222530, Trigger 1760 GenInputManager Begin processing 1762th record. Run 222530, Trigger 1761 GenInputManager Begin processing 1763th record. Run 222530, Trigger 1762 GenInputManager Begin processing 1764th record. Run 222530, Trigger 1763 GenInputManager Begin processing 1765th record. Run 222530, Trigger 1764 GenInputManager Begin processing 1766th record. Run 222530, Trigger 1765 GenInputManager Begin processing 1767th record. Run 222530, Trigger 1766 GenInputManager Begin processing 1768th record. Run 222530, Trigger 1767 GenInputManager Begin processing 1769th record. Run 222530, Trigger 1768 GenInputManager Begin processing 1770th record. Run 222530, Trigger 1769 GenInputManager Begin processing 1771th record. Run 222530, Trigger 1770 GenInputManager Begin processing 1772th record. Run 222530, Trigger 1771 GenInputManager Begin processing 1773th record. Run 222530, Trigger 1772 GenInputManager Begin processing 1774th record. Run 222530, Trigger 1773 GenInputManager Begin processing 1775th record. Run 222530, Trigger 1774 GenInputManager Begin processing 1776th record. Run 222530, Trigger 1775 GenInputManager Begin processing 1777th record. Run 222530, Trigger 1776 GenInputManager Begin processing 1778th record. Run 222530, Trigger 1777 GenInputManager Begin processing 1779th record. Run 222530, Trigger 1778 GenInputManager Begin processing 1780th record. Run 222530, Trigger 1779 GenInputManager Begin processing 1781th record. Run 222530, Trigger 1780 GenInputManager Begin processing 1782th record. Run 222530, Trigger 1781 GenInputManager Begin processing 1783th record. Run 222530, Trigger 1782 GenInputManager Begin processing 1784th record. Run 222530, Trigger 1783 GenInputManager Begin processing 1785th record. Run 222530, Trigger 1784 GenInputManager Begin processing 1786th record. Run 222530, Trigger 1785 GenInputManager Begin processing 1787th record. Run 222530, Trigger 1786 GenInputManager Begin processing 1788th record. Run 222530, Trigger 1787 GenInputManager Begin processing 1789th record. Run 222530, Trigger 1788 GenInputManager Begin processing 1790th record. Run 222530, Trigger 1789 GenInputManager Begin processing 1791th record. Run 222530, Trigger 1790 GenInputManager Begin processing 1792th record. Run 222530, Trigger 1791 GenInputManager Begin processing 1793th record. Run 222530, Trigger 1792 GenInputManager Begin processing 1794th record. Run 222530, Trigger 1793 GenInputManager Begin processing 1795th record. Run 222530, Trigger 1794 GenInputManager Begin processing 1796th record. Run 222530, Trigger 1795 GenInputManager Begin processing 1797th record. Run 222530, Trigger 1796 GenInputManager Begin processing 1798th record. Run 222530, Trigger 1797 GenInputManager Begin processing 1799th record. Run 222530, Trigger 1798 GenInputManager Begin processing 1800th record. Run 222530, Trigger 1799 GenInputManager Begin processing 1801th record. Run 222530, Trigger 1800 GenInputManager Begin processing 1802th record. Run 222530, Trigger 1801 GenInputManager Begin processing 1803th record. Run 222530, Trigger 1802 GenInputManager Begin processing 1804th record. Run 222530, Trigger 1803 GenInputManager Begin processing 1805th record. Run 222530, Trigger 1804 GenInputManager Begin processing 1806th record. Run 222530, Trigger 1805 GenInputManager Begin processing 1807th record. Run 222530, Trigger 1806 GenInputManager Begin processing 1808th record. Run 222530, Trigger 1807 GenInputManager Begin processing 1809th record. Run 222530, Trigger 1808 GenInputManager Begin processing 1810th record. Run 222530, Trigger 1809 GenInputManager Begin processing 1811th record. Run 222530, Trigger 1810 GenInputManager Begin processing 1812th record. Run 222530, Trigger 1811 GenInputManager Begin processing 1813th record. Run 222530, Trigger 1812 GenInputManager Begin processing 1814th record. Run 222530, Trigger 1813 GenInputManager Begin processing 1815th record. Run 222530, Trigger 1814 GenInputManager Begin processing 1816th record. Run 222530, Trigger 1815 GenInputManager Begin processing 1817th record. Run 222530, Trigger 1816 GenInputManager Begin processing 1818th record. Run 222530, Trigger 1817 GenInputManager Begin processing 1819th record. Run 222530, Trigger 1818 GenInputManager Begin processing 1820th record. Run 222530, Trigger 1819 GenInputManager Begin processing 1821th record. Run 222530, Trigger 1820 GenInputManager Begin processing 1822th record. Run 222530, Trigger 1821 GenInputManager Begin processing 1823th record. Run 222530, Trigger 1822 GenInputManager Begin processing 1824th record. Run 222530, Trigger 1823 GenInputManager Begin processing 1825th record. Run 222530, Trigger 1824 GenInputManager Begin processing 1826th record. Run 222530, Trigger 1825 GenInputManager Begin processing 1827th record. Run 222530, Trigger 1826 GenInputManager Begin processing 1828th record. Run 222530, Trigger 1827 GenInputManager Begin processing 1829th record. Run 222530, Trigger 1828 GenInputManager Begin processing 1830th record. Run 222530, Trigger 1829 GenInputManager Begin processing 1831th record. Run 222530, Trigger 1830 GenInputManager Begin processing 1832th record. Run 222530, Trigger 1831 GenInputManager Begin processing 1833th record. Run 222530, Trigger 1832 GenInputManager Begin processing 1834th record. Run 222530, Trigger 1833 GenInputManager Begin processing 1835th record. Run 222530, Trigger 1834 GenInputManager Begin processing 1836th record. Run 222530, Trigger 1835 GenInputManager Begin processing 1837th record. Run 222530, Trigger 1836 GenInputManager Begin processing 1838th record. Run 222530, Trigger 1837 GenInputManager Begin processing 1839th record. Run 222530, Trigger 1838 GenInputManager Begin processing 1840th record. Run 222530, Trigger 1839 GenInputManager Begin processing 1841th record. Run 222530, Trigger 1840 GenInputManager Begin processing 1842th record. Run 222530, Trigger 1841 GenInputManager Begin processing 1843th record. Run 222530, Trigger 1842 GenInputManager Begin processing 1844th record. Run 222530, Trigger 1843 GenInputManager Begin processing 1845th record. Run 222530, Trigger 1844 GenInputManager Begin processing 1846th record. Run 222530, Trigger 1845 GenInputManager Begin processing 1847th record. Run 222530, Trigger 1846 GenInputManager Begin processing 1848th record. Run 222530, Trigger 1847 GenInputManager Begin processing 1849th record. Run 222530, Trigger 1848 GenInputManager Begin processing 1850th record. Run 222530, Trigger 1849 GenInputManager Begin processing 1851th record. Run 222530, Trigger 1850 GenInputManager Begin processing 1852th record. Run 222530, Trigger 1851 GenInputManager Begin processing 1853th record. Run 222530, Trigger 1852 GenInputManager Begin processing 1854th record. Run 222530, Trigger 1853 GenInputManager Begin processing 1855th record. Run 222530, Trigger 1854 GenInputManager Begin processing 1856th record. Run 222530, Trigger 1855 GenInputManager Begin processing 1857th record. Run 222530, Trigger 1856 GenInputManager Begin processing 1858th record. Run 222530, Trigger 1857 GenInputManager Begin processing 1859th record. Run 222530, Trigger 1858 GenInputManager Begin processing 1860th record. Run 222530, Trigger 1859 GenInputManager Begin processing 1861th record. Run 222530, Trigger 1860 GenInputManager Begin processing 1862th record. Run 222530, Trigger 1861 GenInputManager Begin processing 1863th record. Run 222530, Trigger 1862 GenInputManager Begin processing 1864th record. Run 222530, Trigger 1863 GenInputManager Begin processing 1865th record. Run 222530, Trigger 1864 GenInputManager Begin processing 1866th record. Run 222530, Trigger 1865 GenInputManager Begin processing 1867th record. Run 222530, Trigger 1866 GenInputManager Begin processing 1868th record. Run 222530, Trigger 1867 GenInputManager Begin processing 1869th record. Run 222530, Trigger 1868 GenInputManager Begin processing 1870th record. Run 222530, Trigger 1869 GenInputManager Begin processing 1871th record. Run 222530, Trigger 1870 GenInputManager Begin processing 1872th record. Run 222530, Trigger 1871 GenInputManager Begin processing 1873th record. Run 222530, Trigger 1872 GenInputManager Begin processing 1874th record. Run 222530, Trigger 1873 GenInputManager Begin processing 1875th record. Run 222530, Trigger 1874 GenInputManager Begin processing 1876th record. Run 222530, Trigger 1875 GenInputManager Begin processing 1877th record. Run 222530, Trigger 1876 GenInputManager Begin processing 1878th record. Run 222530, Trigger 1877 GenInputManager Begin processing 1879th record. Run 222530, Trigger 1878 GenInputManager Begin processing 1880th record. Run 222530, Trigger 1879 GenInputManager Begin processing 1881th record. Run 222530, Trigger 1880 GenInputManager Begin processing 1882th record. Run 222530, Trigger 1881 GenInputManager Begin processing 1883th record. Run 222530, Trigger 1882 GenInputManager Begin processing 1884th record. Run 222530, Trigger 1883 GenInputManager Begin processing 1885th record. Run 222530, Trigger 1884 GenInputManager Begin processing 1886th record. Run 222530, Trigger 1885 GenInputManager Begin processing 1887th record. Run 222530, Trigger 1886 GenInputManager Begin processing 1888th record. Run 222530, Trigger 1887 GenInputManager Begin processing 1889th record. Run 222530, Trigger 1888 GenInputManager Begin processing 1890th record. Run 222530, Trigger 1889 GenInputManager Begin processing 1891th record. Run 222530, Trigger 1890 GenInputManager Begin processing 1892th record. Run 222530, Trigger 1891 GenInputManager Begin processing 1893th record. Run 222530, Trigger 1892 GenInputManager Begin processing 1894th record. Run 222530, Trigger 1893 GenInputManager Begin processing 1895th record. Run 222530, Trigger 1894 GenInputManager Begin processing 1896th record. Run 222530, Trigger 1895 GenInputManager Begin processing 1897th record. Run 222530, Trigger 1896 GenInputManager Begin processing 1898th record. Run 222530, Trigger 1897 GenInputManager Begin processing 1899th record. Run 222530, Trigger 1898 GenInputManager Begin processing 1900th record. Run 222530, Trigger 1899 GenInputManager Begin processing 1901th record. Run 222530, Trigger 1900 GenInputManager Begin processing 1902th record. Run 222530, Trigger 1901 GenInputManager Begin processing 1903th record. Run 222530, Trigger 1902 GenInputManager Begin processing 1904th record. Run 222530, Trigger 1903 GenInputManager Begin processing 1905th record. Run 222530, Trigger 1904 GenInputManager Begin processing 1906th record. Run 222530, Trigger 1905 GenInputManager Begin processing 1907th record. Run 222530, Trigger 1906 GenInputManager Begin processing 1908th record. Run 222530, Trigger 1907 GenInputManager Begin processing 1909th record. Run 222530, Trigger 1908 GenInputManager Begin processing 1910th record. Run 222530, Trigger 1909 GenInputManager Begin processing 1911th record. Run 222530, Trigger 1910 GenInputManager Begin processing 1912th record. Run 222530, Trigger 1911 GenInputManager Begin processing 1913th record. Run 222530, Trigger 1912 GenInputManager Begin processing 1914th record. Run 222530, Trigger 1913 GenInputManager Begin processing 1915th record. Run 222530, Trigger 1914 GenInputManager Begin processing 1916th record. Run 222530, Trigger 1915 GenInputManager Begin processing 1917th record. Run 222530, Trigger 1916 GenInputManager Begin processing 1918th record. Run 222530, Trigger 1917 GenInputManager Begin processing 1919th record. Run 222530, Trigger 1918 GenInputManager Begin processing 1920th record. Run 222530, Trigger 1919 GenInputManager Begin processing 1921th record. Run 222530, Trigger 1920 GenInputManager Begin processing 1922th record. Run 222530, Trigger 1921 GenInputManager Begin processing 1923th record. Run 222530, Trigger 1922 GenInputManager Begin processing 1924th record. Run 222530, Trigger 1923 GenInputManager Begin processing 1925th record. Run 222530, Trigger 1924 GenInputManager Begin processing 1926th record. Run 222530, Trigger 1925 GenInputManager Begin processing 1927th record. Run 222530, Trigger 1926 GenInputManager Begin processing 1928th record. Run 222530, Trigger 1927 GenInputManager Begin processing 1929th record. Run 222530, Trigger 1928 GenInputManager Begin processing 1930th record. Run 222530, Trigger 1929 GenInputManager Begin processing 1931th record. Run 222530, Trigger 1930 GenInputManager Begin processing 1932th record. Run 222530, Trigger 1931 GenInputManager Begin processing 1933th record. Run 222530, Trigger 1932 GenInputManager Begin processing 1934th record. Run 222530, Trigger 1933 GenInputManager Begin processing 1935th record. Run 222530, Trigger 1934 GenInputManager Begin processing 1936th record. Run 222530, Trigger 1935 GenInputManager Begin processing 1937th record. Run 222530, Trigger 1936 GenInputManager Begin processing 1938th record. Run 222530, Trigger 1937 GenInputManager Begin processing 1939th record. Run 222530, Trigger 1938 GenInputManager Begin processing 1940th record. Run 222530, Trigger 1939 GenInputManager Begin processing 1941th record. Run 222530, Trigger 1940 GenInputManager Begin processing 1942th record. Run 222530, Trigger 1941 GenInputManager Begin processing 1943th record. Run 222530, Trigger 1942 GenInputManager Begin processing 1944th record. Run 222530, Trigger 1943 GenInputManager Begin processing 1945th record. Run 222530, Trigger 1944 GenInputManager Begin processing 1946th record. Run 222530, Trigger 1945 GenInputManager Begin processing 1947th record. Run 222530, Trigger 1946 GenInputManager Begin processing 1948th record. Run 222530, Trigger 1947 GenInputManager Begin processing 1949th record. Run 222530, Trigger 1948 GenInputManager Begin processing 1950th record. Run 222530, Trigger 1949 GenInputManager Begin processing 1951th record. Run 222530, Trigger 1950 GenInputManager Begin processing 1952th record. Run 222530, Trigger 1951 GenInputManager Begin processing 1953th record. Run 222530, Trigger 1952 GenInputManager Begin processing 1954th record. Run 222530, Trigger 1953 GenInputManager Begin processing 1955th record. Run 222530, Trigger 1954 GenInputManager Begin processing 1956th record. Run 222530, Trigger 1955 GenInputManager Begin processing 1957th record. Run 222530, Trigger 1956 GenInputManager Begin processing 1958th record. Run 222530, Trigger 1957 GenInputManager Begin processing 1959th record. Run 222530, Trigger 1958 GenInputManager Begin processing 1960th record. Run 222530, Trigger 1959 GenInputManager Begin processing 1961th record. Run 222530, Trigger 1960 GenInputManager Begin processing 1962th record. Run 222530, Trigger 1961 GenInputManager Begin processing 1963th record. Run 222530, Trigger 1962 GenInputManager Begin processing 1964th record. Run 222530, Trigger 1963 GenInputManager Begin processing 1965th record. Run 222530, Trigger 1964 GenInputManager Begin processing 1966th record. Run 222530, Trigger 1965 GenInputManager Begin processing 1967th record. Run 222530, Trigger 1966 GenInputManager Begin processing 1968th record. Run 222530, Trigger 1967 GenInputManager Begin processing 1969th record. Run 222530, Trigger 1968 GenInputManager Begin processing 1970th record. Run 222530, Trigger 1969 GenInputManager Begin processing 1971th record. Run 222530, Trigger 1970 GenInputManager Begin processing 1972th record. Run 222530, Trigger 1971 GenInputManager Begin processing 1973th record. Run 222530, Trigger 1972 GenInputManager Begin processing 1974th record. Run 222530, Trigger 1973 GenInputManager Begin processing 1975th record. Run 222530, Trigger 1974 GenInputManager Begin processing 1976th record. Run 222530, Trigger 1975 GenInputManager Begin processing 1977th record. Run 222530, Trigger 1976 GenInputManager Begin processing 1978th record. Run 222530, Trigger 1977 GenInputManager Begin processing 1979th record. Run 222530, Trigger 1978 GenInputManager Begin processing 1980th record. Run 222530, Trigger 1979 GenInputManager Begin processing 1981th record. Run 222530, Trigger 1980 GenInputManager Begin processing 1982th record. Run 222530, Trigger 1981 GenInputManager Begin processing 1983th record. Run 222530, Trigger 1982 GenInputManager Begin processing 1984th record. Run 222530, Trigger 1983 GenInputManager Begin processing 1985th record. Run 222530, Trigger 1984 GenInputManager Begin processing 1986th record. Run 222530, Trigger 1985 GenInputManager Begin processing 1987th record. Run 222530, Trigger 1986 GenInputManager Begin processing 1988th record. Run 222530, Trigger 1987 GenInputManager Begin processing 1989th record. Run 222530, Trigger 1988 GenInputManager Begin processing 1990th record. Run 222530, Trigger 1989 GenInputManager Begin processing 1991th record. Run 222530, Trigger 1990 GenInputManager Begin processing 1992th record. Run 222530, Trigger 1991 GenInputManager Begin processing 1993th record. Run 222530, Trigger 1992 GenInputManager Begin processing 1994th record. Run 222530, Trigger 1993 GenInputManager Begin processing 1995th record. Run 222530, Trigger 1994 GenInputManager Begin processing 1996th record. Run 222530, Trigger 1995 GenInputManager Begin processing 1997th record. Run 222530, Trigger 1996 GenInputManager Begin processing 1998th record. Run 222530, Trigger 1997 GenInputManager Begin processing 1999th record. Run 222530, Trigger 1998 GenInputManager Begin processing 2000th record. Run 222530, Trigger 1999 GenInputManager Begin processing 2001th record. Run 222530, Trigger 2000 0 0 -0.91530 0.20019 1.12849 1.46678 0.01000 534 (rho(770)+) 2 213 421 421 535 536 -0.53359 0.35021 -0.31460 1.02771 0.74152 535 pi+ 1 211 534 534 0 0 0.01965 0.19901 0.14209 0.28224 0.13957 536 (pi0) 2 111 534 534 537 538 -0.55324 0.15120 -0.45669 0.74547 0.13498 537 gamma 1 22 536 536 0 0 -0.42918 0.13689 -0.28465 0.53288 0.00000 538 gamma 1 22 536 536 0 0 -0.12406 0.01430 -0.17204 0.21258 0.00000 RandomGenManager: saving current random state in/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat BGENERATOR - 1234567,86543 EvtGen - 1608285037,1700756471 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 1091226588,36144207 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 922813451,356767476 SVX_SIM - 4756981,20932 TAUOLA - 1141736869,932929770 WGRAD - 9834262,35354 mbr - 2553412,53245 Call PYSTAT at endJob 1****** PYSTAT: Statistics on Number of Events and Cross-sections ***** ============================================================================== I I I I I Subprocess I Number of points I Sigma I I I I I I----------------------------------I----------------------------I (mb) I I I I I I N:o Type I Generated Tried I I I I I I ============================================================================== I I I I I 0 All included subprocesses I 2000 13073 I 5.044E-02 I I 11 f + f' -> f + f' (QCD) I 157 944 I 3.594E-03 I I 12 f + fbar -> f' + fbar' I 3 6 I 7.615E-05 I I 13 f + fbar -> g + g I 0 6 I 3.736E-05 I I 28 f + g -> f + g I 909 6825 I 2.299E-02 I I 53 g + g -> f + fbar I 38 115 I 8.769E-04 I I 68 g + g -> g + g I 893 5177 I 2.286E-02 I I I I I ============================================================================== ***** Fraction of events that fail fragmentation cuts = 0.00050 ***** GOODBYE from TauolaModule * CotqModule Summary: In 0 Out 0 * SvxqModule Summary: In 0 Out 0 * * Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root * after 2001 records, with a total size of 22443kBytes written. * 2000 of those records were phyics events, * whose average size is: 12.0kBytes/event *** #### SVT Summary - SVT #### Tracks in cracks: 0 Physical Barrel crossers: 0 Electrical Barrel crossers: 0 Wedge crossers: 0 Tracks in dead areas: 0 Number of selected tracks: 0 Total number of tracks: 0 #### End of SVT Summary - SVT #### Termination Summary Process cdfSim type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DEBUG .. DBEventLogger 71* 71 2 Geant3GeometryInterf .. GlobalLibraryLog 1199* 1199 3 SimulatorGeometryInt .. GlobalLibraryLog 74292* 74292 4 [CDFHEPEVT_NEW_HEPG] .. GlobalLibraryLog AppFileBasedStre 2000* 2000 5 [CDFTAUEVT_NEW_TAUG] .. GlobalLibraryLog AppFileBasedStre 2000* 2000 6 [G3_DECLARE_PHYS] .. GlobalLibraryLog 15832* 15832 7 [G3_INIT_PAWC] .. GlobalLibraryLog 1* 1 8 [G3_VOL_ORDER_Z] .. GlobalLibraryLog 1* 1 9 DBACC_G -! DBEventLogger 31* 31 10 [G3_DECLARE_LVOL] -! GlobalLibraryLog 1191* 1191 11 [G3_DECLARE_MAT] -! GlobalLibraryLog 34* 34 12 [G3_DECLARE_PHYS] -! GlobalLibraryLog 15831* 15831 13 [G3_DECLARE_ROT] -! GlobalLibraryLog 3311* 3311 14 [G3_DECLARE_TMED] -! GlobalLibraryLog 58* 58 15 Bfield::setUniform -i GlobalLibraryLog 1* 1 16 DBCON_J -i DBEventLogger 2* 2 17 DBCON_O -i DBEventLogger 48* 48 18 DEPRECATED -i CalibDB 15* 15 19 SiPassiveMaterial::S -i GlobalLibraryLog 1* 1 20 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 21 [G3_DECLARE_TANG] -i GlobalLibraryLog 5857* 5857 22 [G3_OLD_ROT] -i GlobalLibraryLog 10598* 10598 23 [G3_PHYS_NO_PARENT] -i GlobalLibraryLog 1* 1 24 [G3_ROT_IDENTITY] -i GlobalLibraryLog 1922* 1922 25 [SIMINIT:BEGINJOB] -i SimInitManager 2* 2 26 [SIMINIT:FINISHED_IN -i SimInitManager 2* 2 27 RCP put failure -w CalibrationManag 2 2 28 [PYTHIA_BMIXOF_R] -e Pythia 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DEBUG 0/0 0/0 222530/0 2 Geant3GeometryInterf 0/0 0/0 0/0 3 SimulatorGeometryInt 0/0 0/0 0/0 4 [CDFHEPEVT_NEW_HEPG] 222530/1 222530/2 222530/2000 5 [CDFTAUEVT_NEW_TAUG] 222530/1 222530/2 222530/2000 6 [G3_DECLARE_PHYS] 0/0 0/0 0/0 7 [G3_INIT_PAWC] 0/0 8 [G3_VOL_ORDER_Z] 0/0 9 DBACC_G 0/0 0/0 222530/0 10 [G3_DECLARE_LVOL] 0/0 0/0 0/0 11 [G3_DECLARE_MAT] 0/0 0/0 0/0 12 [G3_DECLARE_PHYS] 0/0 0/0 0/0 13 [G3_DECLARE_ROT] 0/0 0/0 0/0 14 [G3_DECLARE_TMED] 0/0 0/0 0/0 15 Bfield::setUniform 0/0 16 DBCON_J 0/0 222530/2000 17 DBCON_O 0/0 0/0 222530/0 18 DEPRECATED 0/0 0/0 0/0 19 SiPassiveMaterial::S 0/0 20 SiPassiveMaterial::c 0/0 0/0 0/0 21 [G3_DECLARE_TANG] 0/0 0/0 0/0 22 [G3_OLD_ROT] 0/0 0/0 0/0 23 [G3_PHYS_NO_PARENT] 0/0 24 [G3_ROT_IDENTITY] 0/0 0/0 0/0 25 [SIMINIT:BEGINJOB] 0/0 0/0 26 [SIMINIT:FINISHED_IN 0/0 0/0 27 RCP put failure 0/0 0/0 28 [PYTHIA_BMIXOF_R] 0/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 95396 95396 Success 20456 20456 Info 18454 18454 Warning 2 2 Error 1 1 [MCProd]: RUNMC_FLAG=GENERATE_ONLY EXEFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim TCLFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl rc=0 [MCProd]: ######################################################## [MCProd]: # MODE 2, step 2 [MCProd]: ######################################################## [MCProd]: RUNMC_FLAG=READ_GENERATE_AND_SIMULATE [MCProd]: CDFSIM_INPUT=HEPG_FILE [MCProd]: INPUT_FILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root [MCProd]: OUTPUT_FILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root [MCProd]: MC_PROCESS_TCL=mc_Pythia_Minbias.tcl [MCProd]: MC_FILTER_TCL=mc_postgenNoFilter.tcl [MCProd]: source /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl [MCProd]: ############## MC_PROCESS_TCL ################### #----------------------------------------------------------------------- # generate minbias events with Pythia #----------------------------------------------------------------------- mod enable Pythia mod talk Pythia MODE set [ getenv MINBIAS_MODE FIXED ] MEAN set [ getenv MINBIAS_MEAN 1 ] PythiaMenu msel set 2 cmEnergy set 1960. listFirst set 1 listLast set 10 commonMenu set_msub -index=91 -value=0 ; # switch ppbar elastic OFF set_ckin -index=3 -value=0.0 ; # Pt(min) = 0 show_parp exit exit list exit #----------------------------------------------------------------------- # Pythia tunings #----------------------------------------------------------------------- source $env(RUNMC_TCL_DIR)/mc_Pythia_pdf_CTEQ5L.tcl source $env(RUNMC_TCL_DIR)/mc_Pythia_underlying_event_A.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 12-Aug-2007 22:01:51 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 HERWIG: ALL PARTICLE TYPE WITH A B QUARK SET STABLE, USE QQ HERWIG: ALL PARTICLE TYPE WITH A C QUARK SET STABLE, USE QQ HeavyQuarkGen Version: $Id: HeavyQuarkGenModule.cc,v 1.2 2003/04/15 18:26:09 paulini Exp $ HeavyQuarkGenModule: Constructor Bgenerator Version: $Id: BgeneratorModule.cc,v 1.12 2004/01/14 16:45:10 paus Exp $ BGEN_INI: Bgenerator Initialization CHKLOG: CDFDAB_DIR logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work BGEN_OPEN_SPECTRA: finished successfully. BGEN_INI: Hadrons/properties known to Bgenerator Number Name Mass Lifetime ----------------------[GeV]----[ps]--- 1 Bu+ 5.2776 1.5000 2 Bd0 5.2794 1.5000 3 Bs0 5.3700 1.5000 4 Bc+ 6.3900 1.5000 5 ALamB0 5.6400 1.5000 6 User 0.0000 0.0000 CHKLOG: HEPTBL logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/heptabl.dbt ---> The maximal weight value is: 0.100000E-05 Warning! You have to reinitialize this value with the maximal weight from your VECBOS MC generation ! ---> Default weight bank name is VECB. (eg. PAPA,VECB) ---> MC generrtor init number is: 87926891 HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 #### MODULE #### PythiaInfoModule created - PythiaInfoModule #### #### MODULE #### HepgFilter created - HepgFilter #### ******* PartFilter INITIALIZED ****** #### MODULE #### GenTrigModule created - GenTrigModule #### #### GenTrigXFT created -- XFT #### #### GenTrigXTRP created -- XTRP #### #### GenTrigSVT created -- SVT #### #### GenTrigCMU created -- CMU #### #### GenTrigCMX created -- CMX #### #### GenTrigL1Pair created -- L1Pr #### #### GenTrigL1Pair created -- L1L2Pr #### #### GenTrigL2Pair created -- L2Bs #### #### GenTrigL2Pair created -- L2Bd #### #### GenTrigL1Trip created -- L1Tr #### #### GenTrigL1Trip created -- L1L2Tr #### #### GenTrigL2Trip created -- L2Tr #### #### GenTrigL1DiMu created -- L1DM #### #### GenTrigL1DMuX created -- L1DMX #### #### GenTrigL2DiMu created -- L2DM #### #### GenTrigL1MuSvt created -- L1MS #### #### GenTrigL2MuSvt created -- L2MS #### #### GenTrigFiducial created - Fidu #### #### MODULE #### QuickCdfObjects created - QuickCdfObjects #### #### GenTrigCOT created -- CotHepg #### #### GenTrigCMU created -- CmuHepg #### #### MODULE #### MCInfoModule created - MCInfoModule #### MZSTOR. ZEBRA table base TAB(0) in /MZCC/ at adr 164840879 9D345AF HEX MZSTOR. Initialize Store 0 in /GCBANK/ with Store/Table at absolute adrs 103068549 164840879 HEX 624B385 9D345AF HEX FC516C12 0 relative adrs -61772782 0 with 1 Str. in 2 Links in 5300 Low words in 9999970 words. This store has a fence of 16 words. MZLOGL. Set Log Level 0 for store 0 --------------- HepPDT Version 1.00.01 --------------- 1* GEANT Version 3.21/14 Released on 19032002 0*** Correction Cradle Version 0.1400 MZDIV. Initialize Division Constant in Store 0 NW/NWMAX= 20008000000, MODE/KIND= 1 2 Division 20 initialized. MZLINK. Initialize Link Area /GCLINK/ for Store 0 NL/NS= 20 20 MZLINK. Initialize Link Area /GCSLNK/ for Store 0 NL/NS= 100 100 #### MODULE #### SimpleCotTrkReco created - SimpleCotTrkReco #### #### MODULE #### SimpleSiTrkReco created - SimpleSiTrkReco #### <<<getenv>>> : Name= DECAY_PACKAGES_TCL Default= setup_tauola_evtgen.tcl x= setup_tauola_evtgen.tcl <<<getenv>>> : Name= STORE_USERINFO Default= 0 x= 0 <<<getenv>>> : Name= CDFSIM_INPUT Default= MC_GENERATOR x= HEPG_FILE <<<getenv>>> : Name= INPUT_FILE Default= undefined x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root Current value of item(s) in the "RandomGenManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of RestoreRandomStreams for this module is true Value of SaveRandomStreams for this module is true Value of OutputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat Value of InputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat Current value of items on the "RandomNumberMenu" menu: Value of RandomSeedGRNDM1 for this module is 3591 Value of RandomSeedGRNDM2 for this module is 2309736 Value of RandomSeedPYTHIA1 for this module is 93453591 Value of RandomSeedPYTHIA2 for this module is 73436 Value of RandomSeedHERWIG1 for this module is 355391 Value of RandomSeedHERWIG2 for this module is 97336 Current value of item(s) in the "FileInput" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 100 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module FileInput has 0 values (minimum 0, maximum 1000): classHideList in module FileInput has 0 values (minimum 0, maximum 1000): hideList in module FileInput has 0 values (minimum 0, maximum 1000): processDropList in module FileInput has 0 values (minimum 0, maximum 1000): keepFromProcessList in module FileInput has 0 values (minimum 0, maximum 1000): runSections: : selectEvents: ():() runsTrigs: ():() Value of recordType for this module is SIMPLE Listing of current input sources and their status: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root Value of timeout for this module is 86400 Value of rawRS for this module is false Value of luminosityLog for this module is NONE Value of requireCatalog for this module is true Value of dropInput for this module is false Value of useBlockIO for this module is false Value of primaryBasketSz for this module is 131072 Value of readRawTrig for this module is true Value of readRawTrack for this module is true Value of readRawCalor for this module is true Value of readTrack for this module is true Value of readCalor for this module is true Value of readMuon for this module is true Value of readElectron for this module is true Value of readPadCalor for this module is true Value of readPadTrack for this module is true Value of readL3 for this module is true Value of blockIORawTrig for this module is false Value of blockIORawTrack for this module is false Value of blockIORawCalor for this module is false Value of blockIOTrack for this module is false Value of blockIOCalor for this module is false Value of blockIOMuon for this module is false Value of blockIOElectron for this module is false Value of blockIOPadCalor for this module is false Value of blockIOPadTrack for this module is false Value of blockIOL3 for this module is false Value of skipOver for this module is -1 There are no run/event requests for FileInput <<<getenv>>> : Name= EVTGEN_USER_DECAY_FILE Default= 0 x= 0 Current value of item(s) in the "EvtGen" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of mode for this module is 0 Value of UseRootParticle for this module is false Value of RootParticlePx for this module is 0 Value of RootParticlePy for this module is 0 Value of RootParticlePz for this module is 0 Value of RootParticleHepID for this module is 0 Value of UseUserDecayFile for this module is false Value of UserDecayFile for this module is dummy Value of AdjustCPAsymm for this module is false Value of DecayPromptCharm for this module is true Value of DecayBMeson for this module is true Value of DecayBBaryon for this module is true Value of RandomSeed1 for this module is 0 Value of RandomSeed2 for this module is 0 <<<getenv>>> : Name= MINBIAS_MODE Default= FIXED x= POISSON <<<getenv>>> : Name= MINBIAS_MEAN Default= 1 x= 4.7122141 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 1.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 1.90 PARP( 83) = 0.500 PARP( 84) = 0.200 PARP( 85) = 0.330 PARP( 86) = 0.660 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.00e+03 PARP( 90) = 0.160 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 Non-zero elements of MSTJ: MSTJ( 1) = 1 MSTJ( 2) = 3 MSTJ( 11) = 4 MSTJ( 12) = 2 MSTJ( 14) = 1 MSTJ( 16) = 2 MSTJ( 17) = 2 MSTJ( 18) = 10 MSTJ( 21) = 2 MSTJ( 22) = 1 MSTJ( 23) = 1 MSTJ( 24) = 2 MSTJ( 25) = 1 MSTJ( 26) = 2 MSTJ( 27) = 2 MSTJ( 41) = 2 MSTJ( 42) = 2 MSTJ( 43) = 4 MSTJ( 44) = 2 MSTJ( 45) = 5 MSTJ( 46) = 3 MSTJ( 47) = 3 MSTJ( 50) = 3 MSTJ( 52) = 3 MSTJ( 54) = 2 MSTJ( 57) = 1 MSTJ(101) = 5 MSTJ(102) = 2 MSTJ(103) = 7 MSTJ(104) = 5 MSTJ(105) = 1 MSTJ(106) = 1 MSTJ(108) = 2 MSTJ(110) = 2 MSTJ(115) = 1 MSTJ(116) = 1 Non-zero elements of MSTP: MSTP( 1) = 3 MSTP( 2) = 1 MSTP( 3) = 2 MSTP( 11) = 1 MSTP( 13) = 1 MSTP( 14) = 30 MSTP( 16) = 1 MSTP( 17) = 4 MSTP( 18) = 3 MSTP( 19) = 4 MSTP( 20) = 3 MSTP( 21) = 1 MSTP( 23) = 1 MSTP( 30) = 1 MSTP( 31) = 1 MSTP( 32) = 8 MSTP( 34) = 1 MSTP( 36) = 2 MSTP( 37) = 1 MSTP( 38) = 5 MSTP( 39) = 2 MSTP( 41) = 2 MSTP( 42) = 1 MSTP( 43) = 3 MSTP( 44) = 7 MSTP( 45) = 3 MSTP( 46) = 1 MSTP( 47) = 1 MSTP( 49) = 1 MSTP( 51) = 4046 MSTP( 52) = 2 MSTP( 53) = 3 MSTP( 54) = 1 MSTP( 55) = 5 MSTP( 56) = 1 MSTP( 57) = 1 MSTP( 58) = 5 MSTP( 59) = 1 MSTP( 60) = 7 MSTP( 61) = 2 MSTP( 62) = 3 MSTP( 63) = 2 MSTP( 64) = 2 MSTP( 65) = 1 MSTP( 66) = 5 MSTP( 67) = 2 MSTP( 68) = 1 MSTP( 71) = 1 MSTP( 81) = 1 MSTP( 82) = 4 MSTP( 83) = 100 MSTP( 86) = 2 MSTP( 91) = 1 MSTP( 92) = 3 MSTP( 93) = 1 MSTP( 94) = 3 MSTP(101) = 3 MSTP(102) = 1 MSTP(111) = 1 MSTP(112) = 1 MSTP(113) = 1 MSTP(122) = 1 MSTP(123) = 2 MSTP(124) = 1 MSTP(125) = 1 MSTP(126) = 100 MSTP(129) = 10 MSTP(132) = 4 MSTP(134) = 1 MSTP(172) = 2 MSTP(181) = 6 MSTP(182) = 216 MSTP(183) = 2003 MSTP(184) = 4 MSTP(185) = 7 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 4.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 2.00 PARP( 83) = 0.500 PARP( 84) = 0.400 PARP( 85) = 0.900 PARP( 86) = 0.950 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.80e+03 PARP( 90) = 0.250 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 <<<getenv>>> : Name= BEAM_SET_BY_HAND Default= 0 x= 0 <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:01:51 CDT run = 0 event = 0 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= BEAM_SIGMA_Z Default= 28.0 x= 28.0 <<<getenv>>> : Name= BEAM_SIGMA_T0 Default= 1.3 x= 1.3 Current value of item(s) in the "GenPrimVert" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of sigma_x for this module is 0.00257 Value of sigma_y for this module is 0.00258 Value of sigma_z for this module is 28 Value of sigma_t for this module is 1.3 Value of n_bunches for this module is 0 Value of bunch_spacing for this module is 400 Value of pv_central_x for this module is 0 Value of pv_central_y for this module is 0 Value of pv_central_z for this module is 0 Value of pv_slope_dxdz for this module is 0 Value of pv_slope_dydz for this module is 0 Value of BeamlineFromDB for this module is true Value of UseBetaStarBeamWidth for this module is true Value of UseBetaStarZVertex for this module is true Current value of items on the "RandomNumberMenu" menu: Value of RandomSeed1 for this module is 922883591 Value of RandomSeed2 for this module is 109735476 Current value of items on the "BeamBetaStarMenu" menu: Value of beamEmittanceX for this module is 1.26e-07 Value of beamEmittanceY for this module is 1.24e-07 Value of beamBetaStarX for this module is 38.6 Value of beamBetaStarY for this module is 38 Value of beamZ0X for this module is 14.2 Value of beamZ0Y for this module is -9.2 Current value of item(s) in the "GeometryManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of enableSimpleSi for this module is false Value of enableB4 for this module is false Value of enableBeamBox for this module is false Value of enableSimpleSvx for this module is false Value of enableSvx for this module is true Value of enableSimpleCot for this module is false Value of enableAlPlate for this module is false Value of enableCot for this module is true Value of enableMuon for this module is true Value of enableCalor for this module is true Value of enableMiniplug for this module is false Value of enableDetailedMiniplug for this module is false Value of enableClc for this module is false Value of enableTof for this module is true Value of enableStripChamber for this module is true Value of enablePassive for this module is true Value of enableBeampipeC for this module is true Value of enableBeampipe for this module is false Value of enableCPR for this module is true Value of enableAll for this module is false Current value of items on the "SiliconGeometryMenu" menu: Value of AlignmentSource for this module is frontier 220050 1 GOOD Value of AlignmentPrint for this module is 3 Value of AlignmentAlignWafers for this module is true Value of L00Alignment for this module is true Value of BuildPassive for this module is true Value of BuildPassivePHA for this module is true DisabledPassiveElements in module GeometryManager has 2 values (minimum 0, maximum 0): svxInnScreen svxBHTap Value of CreateOldPhantomLayer for this module is false Value of OldPhantomLayerThickness for this module is 0.2 Value of OldPhantomLayerHalfLength for this module is 165 Value of OldPhantomLayerMaterial for this module is SILICON Value of CreatePhantomLayer for this module is true PhantomLayerRmin in module GeometryManager has 10 values (minimum 0, maximum 99): 14.8 14.8 14.8 14.8 14.8 20.5 20.5 20.8 20.5 20.5 PhantomLayerZmin in module GeometryManager has 10 values (minimum 0, maximum 99): -60 -45 -15 15.1 45.1 -100 -45 -15 15.1 45.1 PhantomLayerZmax in module GeometryManager has 10 values (minimum 0, maximum 99): -45.1 -15.1 15 45 60 -45.1 -15.1 15 45 100 PhantomLayerThickness in module GeometryManager has 10 values (minimum 0, maximum 99): 0.9 0.9 0.2 0.9 0.9 0.4 0.15 0.1 0.15 0.4 PhantomLayerMaterial in module GeometryManager has 10 values (minimum 0, maximum 99): SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE PhantomLayerContainer in module GeometryManager has 10 values (minimum 0, maximum 99): SVCC SVCC SVCC SVCC SVCC ISLC ISLC ISLC ISLC ISLC Value of ReadSiliMapROOT for this module is false Value of ReadSiliMapROOTFileName for this module is Value of WriteSiliMapROOT for this module is false Value of WriteSiliMapROOTFileName for this module is UNKNOWN Value of ReadSiliMapDB for this module is false Value of SiliMapDBVersion for this module is 0 Value of WriteSiliMapDB for this module is false Value of ReadSiliMapASCII for this module is false Value of ReadSiliMapASCIIFileName for this module is UNKNOWN Value of WriteSiliMapASCII for this module is false Value of WriteSiliMapASCIIFileName for this module is UNKNOWN Value of UseCustomSiliMapDB for this module is false Value of CustomSiliMapDBID for this module is onotl_dev Value of SiliMapDEDxScale for this module is 1 Value of SiliMapI0Scale for this module is 1 Value of SiliMapX0Scale for this module is 1 Current value of items on the "Cot" menu: Value of run1CTCGeometry for this module is false Value of run1CTCData for this module is true Current value of items on the "MuonGeometryMenu" menu: Value of CMPGeometry for this module is true Value of CMUGeometry for this module is true Value of CMXGeometry for this module is true Value of IMUGeometry for this module is true Current value of items on the "CalorGeometryMenu" menu: Value of BuildPhantom for this module is false Value of PhantomThickness for this module is 0.1 Current value of items on the "TofGeometryMenu" menu: Value of GeometryModel for this module is Aligned Value of Verbosity for this module is None Current value of items on the "PrintMenu" menu: Value of printSvx for this module is false Value of printCot for this module is false Value of printMuon for this module is false Value of printCalor for this module is false Value of printTof for this module is false Value of printStripChamber for this module is false Value of printPassive for this module is false Value of printBeampipeC for this module is false Value of printCPR for this module is false Value of printAll for this module is false Value of printTree for this module is false Value of uniformField for this module is false Value of Bfield for this module is 14.1 Value of useCalibDB for this module is true Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of item(s) in the "SimInitManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of items on the "DebugMenu" menu: Value of showMaterials for this module is false Value of showMedia for this module is false Value of showLogicalVolumes for this module is false Value of showPhysicalVolumes for this module is false Value of resetCopyNumber for this module is false Value of applyAlignment for this module is true <<<getenv>>> : Name= CDFSIM_FAST_TRACK Default= false x= false <<<getenv>>> : Name= SHOW_ACTIVE_VOLUMES Default= false x= false <<<getenv>>> : Name= CDFSIM_DEBUG_LEVEL Default= 0 x= 0 Current value of items on the "DetectorMenu" menu: Value of simulateSvx for this module is true Value of simulateCot for this module is true Value of simulateMuon for this module is true Value of simulateCalor for this module is true Value of simulateTof for this module is true Value of simulateStripChamber for this module is false Value of simulatePassive for this module is true Value of simulateBeampipeC for this module is false This factory knows about 20 digitizer types. These types are: CalorDigiBFCoil CalorDigiCcal CalorDigiGeneric CalorDigiNoBFCoil CalorDigiPcal CalorDigiWcal ClcDigitizer CotDigitizer ImuDigiBMUGas ImuDigiBSUPaddle ImuDigiTSUPaddle MuonDigiCMP MuonDigiCMU MuonDigiCMX MuonDigiCSX SimpleCotDigitizer SimpleSiDigitizer SvxDigitizer TofDigi3Pack TofDigiBar Current value of item(s) in the "SimulationControlMod" module: The following detector elements have been configured with digitizers: BFCoil with digitizer CalorDigiBFCoil in group CalorGroup BMUGas with digitizer ImuDigiBMUGas in group ImuGroup BSUPaddle with digitizer ImuDigiBSUPaddle in group ImuGroup CMPPart with digitizer MuonDigiCMP in group MuonCMPdata CMUExtrusion with digitizer MuonDigiCMU in group MuonCMUdata CMXChamber with digitizer MuonDigiCMX in group MuonCMXdata CSXCounter with digitizer MuonDigiCSX in group MuonCSXdata CalorDetectorElement with digitizer CalorDigiGeneric in group CalorGroup CdfHalfLadder with digitizer SvxDigitizer in group SvxGroup CotSuperLayer with digitizer CotDigitizer in group CotGroup NoBFCoil with digitizer CalorDigiNoBFCoil in group CalorGroup TSUPaddle with digitizer ImuDigiTSUPaddle in group ImuGroup Tof3Pack with digitizer TofDigi3Pack in group TofGroup TofBar with digitizer TofDigiBar in group TofGroup <<<getenv>>> : Name= COT_DRIFT_MODEL Default= Garfield x= Garfield <<<getenv>>> : Name= COT_HIT_RESOLUTION_SCALE Default= 0.64 x= 0.64 Current value of items on the "CotGroup_CotSuperLayer" menu: Value of CreateCOTD for this module is true Value of CreateCOTQ for this module is false Value of CreateCOTM for this module is true Value of CreateMCOT for this module is false Value of CreateCotTrueXP for this module is false Value of CreatePropagatedParticleColl for this module is false Value of StepSize for this module is 1 Value of TimingGate for this module is 400 Value of TwoHitSeparation for this module is 10 Value of DriftModel for this module is Garfield Value of LoadExistingRawData for this module is false Value of HitResolutionScale for this module is 0.64 HitEfficiency in module SimulationControlMod has 8 values (minimum 8, maximum 8): 1 1 1 1 1 1 1 1 WidthScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.847 1.01 0.868 1.02 1.05 1.04 1.04 1.04 WidthSigmaScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.813 0.863 0.782 0.821 0.841 0.812 0.815 0.798 Current value of items on the "SvxGroup_CdfHalfLadder" menu: Value of CreateSIXD for this module is true Value of CreatePropagatedSi for this module is false Value of pick_svx_cdm for this module is PARAMETERIZED Value of svx_cdm_delta_rays for this module is ON Value of svx_cdm_magnetic_field for this module is ON Value of svx_cdm_noise for this module is THRESH7 svx_cdm_noise_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_crosstalk_list in module SimulationControlMod has 18 values (minimum 2, maximum 18): 2 0 0 0 0.43 0.2 0.47 0.19 0.49 0.51 0.41 0.24 0.46 0.5 0.355 0.355 0.355 0.355 svx_cdm_fractionlost_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_fractionlostfstrip_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_relgain_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 Value of svx_validation for this module is OFF Value of ToyPulseHeight for this module is 30 Value of GeoElossToADC for this module is 3e+05 Value of ZigZagL7 for this module is true Value of debug for this module is 0 Value of debugNtuple for this module is Value of useNoiseDB for this module is true Value of noiseDBRun for this module is -1 Value of noiseDBVersion for this module is -1 Value of noiseDBStatus for this module is Value of noiseDBName for this module is Value of LoadExistingRawData for this module is false Value of AlignmentAlignWafers for this module is true Current value of items on the "MuonCMPdata_CMPPart" menu: Value of writeHitCollection for this module is false Value of debugLevel for this module is 0 Value of disableBluebeam for this module is false Value of disableKeystone for this module is false Value of disableKeystoneWedge5 for this module is false Value of disableKeystoneWedge6 for this module is false Value of disableMiniskirts for this module is false Value of disableRunDependence for this module is false Value of realisticSmearing for this module is false <<<getenv>>> : Name= RUNMC_FLAG Default= GENERATE_AND_SIMULATE x= READ_GENERATE_AND_SIMULATE ** Listing of all available paths ** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Min Bias sequence MinBiasSequence() yes on 0 0 mbr yes on 0 0 MIX_FAKE_EVENT yes on 0 0 PythiaMinBias * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * cdfSimPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule yes on 0 0 PythiaMinBias * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule ======================================================= Error Log established 12-Aug-2007 22:01:51 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:01:51 CDT run = 0 event = 0 CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() - TOF geometry system of type [ALIGNED] found. - Calibrator: Data ============ TofManager Initialized ============ RandomGenManager: restoring random state from file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat: BGENERATOR - 1234567,86543 EvtGen - 3244768,76744 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 6268819,11876 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 9876540,54798 SVX_SIM - 4756981,20932 TAUOLA - 3958375,47386 WGRAD - 9834262,35354 mbr - 2553412,53245 PythiaModule: Please note the following long lived strange particles have been set stable and cannot be set to decay K_0S, Lambda, Sigma, Xi and Omega. %ERLOG-e [PYTHIA_BMIXOF_R]: /cdf/scratch/beauche/MaxOpt_H/generatorMods/src/PythiaModule.cc : 106 PythiaModule: B-Bbar mixing is disabled and should be done using EvtGen Pythia 12-Aug-2007 22:01:53 CDT run = 0 event = 0 1 **************************************************************************** ************************************************************************** ...... Welcome to the Lund Monte Carlo! :::!!::::::::::: ::::::!!:::::::::::::: PPP Y Y TTTTT H H III A ::::::::!!:::::::::::::::: P P Y Y T H H I A A :::::::::!!::::::::::::::::: PPP Y T HHHHH I AAAAA :::::::::!!::::::::::::::::: P Y T H H I A A ::::::::!!::::::::::::::::! P Y T H H III A A ::::::!!:::::::::::::: !! !! :::!!::::::::::: !! This is PYTHIA version 6.216 !! !* -><- * !! Last date of change: 7 Apr 2003 !! !! !! !! !! !! Now is 12 Aug 2007 at 22:01:53 !! !! !! lh !! Disclaimer: this program comes !! !! without any guarantees. Beware !! hh !! of errors and use common sense !! ll !! when interpreting results. !! !! !! Copyright T. Sjostrand (2003) An archive of program versions and documentation is found on the web: http://www.thep.lu.se/~torbjorn/Pythia.html When you cite this program, currently the official reference is T. Sjostrand, P. Eden, C. Friberg, L. Lonnblad, G. Miu, S. Mrenna and E. Norrbin, Computer Physics Commun. 135 (2001) 238. The large manual is T. Sjostrand, L. Lonnblad and S. Mrenna, LU TP 01-21 [hep-ph/0108264]. Also remember that the program, to a large extent, represents original physics research. Other publications of special relevance to your studies may therefore deserve separate mention. Main author: Torbjorn Sjostrand; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 48 16; e-mail: torbjorn@thep.lu.se Author: Leif Lonnblad; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 77 80; e-mail: leif@thep.lu.se Author: Stephen Mrenna; Computing Division, Simulations Group, Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA; phone: + 1 - 630 - 840 - 2556; e-mail: mrenna@fnal.gov Author: Peter Skands; Department of Theoretical Physics 2, Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; phone: + 46 - 46 - 222 31 92; e-mail: zeiler@thep.lu.se ************************************************************************** ************************************************************************** 1************** PYINIT: initialization of PYTHIA routines ************* * CERN Computer Program Library - Reference: W5051 * * PDFLIB Version: 8.04 Released on 2000-04-17 at 12.24 * PDFLIB : TMAS value Warning : NON standard settings, TMAS value = 175. set by user !! ============================================================================== I I I PYTHIA will be initialized for a p on pbar collider I I at 1960.000 GeV center-of-mass energy I I I ============================================================================== Nucleon PDFs : CTEQ Set 5L (LO) Structure Functions Ngroup = 4, Nset = 46 -------------------------------------------------------------------------------------- **** PYMAXI: summary of differential cross-section maximum search **** ========================================================== I I I I ISUB Subprocess name I Maximum value I I I I ========================================================== I I I I 91 Elastic scattering I 1.5021E+01 I I 92 Single diffractive (XB) I 6.2365E+00 I I 93 Single diffractive (AX) I 6.2365E+00 I I 94 Double diffractive I 6.9541E+00 I I 95 Low-pT scattering I 3.9529E+01 I I 96 Semihard QCD 2 -> 2 I 7.0421E+03 I I I I ========================================================== ** PYMULT: initialization of multiple interactions for MSTP(82) = 4 ** pT0 = 2.04 GeV gives sigma(parton-parton) = 3.16E+02 mb: accepted ****************** PYINIT: initialization completed ******************** List of KF codes in program 1 d -1 dbar 2 u -2 ubar 3 s -3 sbar 4 c -4 cbar 5 b -5 bbar 6 t -6 tbar 7 b' -7 b'bar 8 t' -8 t'bar 11 e- -11 e+ 12 nu_e -12 nu_ebar 13 mu- -13 mu+ 14 nu_mu -14 nu_mubar 15 tau- -15 tau+ 16 nu_tau -16 nu_taubar 17 tau'- -17 tau'+ 18 nu'_tau -18 nu'_taubar 21 g 22 gamma 23 Z0 24 W+ -24 W- 25 h0 32 Z'0 33 Z"0 34 W'+ -34 W'- 35 H0 36 A0 37 H+ -37 H- 39 Graviton 41 R0 -41 Rbar0 42 LQ_ue -42 LQ_uebar 2101 ud_0 -2101 ud_0bar 3101 sd_0 -3101 sd_0bar 3201 su_0 -3201 su_0bar 4101 cd_0 -4101 cd_0bar 4201 cu_0 -4201 cu_0bar 4301 cs_0 -4301 cs_0bar 5101 bd_0 -5101 bd_0bar 5201 bu_0 -5201 bu_0bar 5301 bs_0 -5301 bs_0bar 5401 bc_0 -5401 bc_0bar 1103 dd_1 -1103 dd_1bar 2103 ud_1 -2103 ud_1bar 2203 uu_1 -2203 uu_1bar 3103 sd_1 -3103 sd_1bar 3203 su_1 -3203 su_1bar 3303 ss_1 -3303 ss_1bar 4103 cd_1 -4103 cd_1bar 4203 cu_1 -4203 cu_1bar 4303 cs_1 -4303 cs_1bar 4403 cc_1 -4403 cc_1bar 5103 bd_1 -5103 bd_1bar 5203 bu_1 -5203 bu_1bar 5303 bs_1 -5303 bs_1bar 5403 bc_1 -5403 bc_1bar 5503 bb_1 -5503 bb_1bar 111 pi0 211 pi+ -211 pi- 221 eta 311 K0 -311 Kbar0 130 K_L0 310 K_S0 321 K+ -321 K- 331 eta' 411 D+ -411 D- 421 D0 -421 Dbar0 431 D_s+ -431 D_s- 441 eta_c 511 B0 -511 Bbar0 521 B+ -521 B- 531 B_s0 -531 B_sbar0 541 B_c+ -541 B_c- 551 eta_b 113 rho0 213 rho+ -213 rho- 223 omega 313 K0 -313 Kbar0 323 K+ -323 K- 333 phi 413 D+ -413 D- 423 D0 -423 Dbar0 433 D_s+ -433 D_s- 443 J/psi 513 B0 -513 Bbar0 523 B+ -523 B- 533 B_s0 -533 B_sbar0 543 B_c+ -543 B_c- 553 Upsilon 10113 b_10 10213 b_1+ -10213 b_1- 10223 h_1 10313 K_10 -10313 K_1bar0 10323 K_1+ -10323 K_1- 10333 h'_1 10413 D_1+ -10413 D_1- 10423 D_10 -10423 D_1bar0 10433 D_1s+ -10433 D_1s- 10443 h_1c 10513 B_10 -10513 B_1bar0 10523 B_1+ -10523 B_1- 10533 B_1s0 -10533 B_1sbar0 10543 B_1c+ -10543 B_1c- 10553 h_1b 10111 a_00 10211 a_0+ -10211 a_0- 10221 f_0 10311 K_00 -10311 K_0bar0 10321 K_0+ -10321 K_0- 10331 f'_0 10411 D_0+ -10411 D_0- 10421 D_00 -10421 D_0bar0 10431 D_0s+ -10431 D_0s- 10441 chi_0c 10511 B_00 -10511 B_0bar0 10521 B_0+ -10521 B_0- 10531 B_0s0 -10531 B_0sbar0 10541 B_0c+ -10541 B_0c- 10551 chi_0b 20113 a_10 20213 a_1+ -20213 a_1- 20223 f_1 20313 K_10 -20313 K_1bar0 20323 K_1+ -20323 K_1- 20333 f'_1 20413 D_1+ -20413 D_1- 20423 D_10 -20423 D_1bar0 20433 D_1s+ -20433 D_1s- 20443 chi_1c 20513 B_10 -20513 B_1bar0 20523 B_1+ -20523 B_1- 20533 B_1s0 -20533 B_1sbar0 20543 B_1c+ -20543 B_1c- 20553 chi_1b 115 a_20 215 a_2+ -215 a_2- 225 f_2 315 K_20 -315 K_2bar0 325 K_2+ -325 K_2- 335 f'_2 415 D_2+ -415 D_2- 425 D_20 -425 D_2bar0 435 D_2s+ -435 D_2s- 445 chi_2c 515 B_20 -515 B_2bar0 525 B_2+ -525 B_2- 535 B_2s0 -535 B_2sbar0 545 B_2c+ -545 B_2c- 555 chi_2b 100443 psi' 100553 Upsilon' 3122 Lambda0 -3122 Lambdabar0 4122 Lambda_c+ -4122 Lambda_cbar- 4132 Xi_c0 -4132 Xi_cbar0 4232 Xi_c+ -4232 Xi_cbar- 5122 Lambda_b0 -5122 Lambda_bbar0 5132 Xi_b- -5132 Xi_bbar+ 5232 Xi_b0 -5232 Xi_bbar0 5142 Xi_bc0 -5142 Xi_bcbar0 5242 Xi_bc+ -5242 Xi_bcbar- 5342 Omega_bc0 -5342 Omega_bcbar0 2112 n0 -2112 nbar0 2212 p+ -2212 pbar- 3112 Sigma- -3112 Sigmabar+ 3212 Sigma0 -3212 Sigmabar0 3222 Sigma+ -3222 Sigmabar- 3312 Xi- -3312 Xibar+ 3322 Xi0 -3322 Xibar0 4112 Sigma_c0 -4112 Sigma_cbar0 4212 Sigma_c+ -4212 Sigma_cbar- 4222 Sigma_c++ -4222 Sigma_cbar-- 4312 Xi'_c0 -4312 Xi'_cbar0 4322 Xi'_c+ -4322 Xi'_cbar- 4332 Omega_c0 -4332 Omega_cbar0 4412 Xi_cc+ -4412 Xi_ccbar- 4422 Xi_cc++ -4422 Xi_ccbar-- 4432 Omega_cc+ -4432 Omega_ccbar- 5112 Sigma_b- -5112 Sigma_bbar+ 5212 Sigma_b0 -5212 Sigma_bbar0 5222 Sigma_b+ -5222 Sigma_bbar- 5312 Xi'_b- -5312 Xi'_bbar+ 5322 Xi'_b0 -5322 Xi'_bbar0 5332 Omega_b- -5332 Omega_bbar+ 5412 Xi'_bc0 -5412 Xi'_bcbar0 5422 Xi'_bc+ -5422 Xi'_bcbar- 5432 Omega'_bc0 -5432 Omega'_bcba 5442 Omega_bcc+ -5442 Omega_bccbar- 5512 Xi_bb- -5512 Xi_bbbar+ 5522 Xi_bb0 -5522 Xi_bbbar0 5532 Omega_bb- -5532 Omega_bbbar+ 5542 Omega_bbc0 -5542 Omega_bbcbar0 1114 Delta- -1114 Deltabar+ 2114 Delta0 -2114 Deltabar0 2214 Delta+ -2214 Deltabar- 2224 Delta++ -2224 Deltabar-- 3114 Sigma- -3114 Sigmabar+ 3214 Sigma0 -3214 Sigmabar0 3224 Sigma+ -3224 Sigmabar- 3314 Xi- -3314 Xibar+ 3324 Xi0 -3324 Xibar0 3334 Omega- -3334 Omegabar+ 4114 Sigma_c0 -4114 Sigma_cbar0 4214 Sigma_c+ -4214 Sigma_cbar- 4224 Sigma_c++ -4224 Sigma_cbar-- 4314 Xi_c0 -4314 Xi_cbar0 4324 Xi_c+ -4324 Xi_cbar- 4334 Omega_c0 -4334 Omega_cbar0 4414 Xi_cc+ -4414 Xi_ccbar- 4424 Xi_cc++ -4424 Xi_ccbar-- 4434 Omega_cc+ -4434 Omega_ccbar- 4444 Omega_ccc++ -4444 Omega_cccbar- 5114 Sigma_b- -5114 Sigma_bbar+ 5214 Sigma_b0 -5214 Sigma_bbar0 5224 Sigma_b+ -5224 Sigma_bbar- 5314 Xi_b- -5314 Xi_bbar+ 5324 Xi_b0 -5324 Xi_bbar0 5334 Omega_b- -5334 Omega_bbar+ 5414 Xi_bc0 -5414 Xi_bcbar0 5424 Xi_bc+ -5424 Xi_bcbar- 5434 Omega_bc0 -5434 Omega_bcbar0 5444 Omega_bcc+ -5444 Omega_bccbar- 5514 Xi_bb- -5514 Xi_bbbar+ 5524 Xi_bb0 -5524 Xi_bbbar0 5534 Omega_bb- -5534 Omega_bbbar+ 5544 Omega_bbc0 -5544 Omega_bbcbar0 5554 Omega_bbb- -5554 Omega_bbbbar+ 1000001 ~d_L -1000001 ~d_Lbar 1000002 ~u_L -1000002 ~u_Lbar 1000003 ~s_L -1000003 ~s_Lbar 1000004 ~c_L -1000004 ~c_Lbar 1000005 ~b_1 -1000005 ~b_1bar 1000006 ~t_1 -1000006 ~t_1bar 1000011 ~e_L- -1000011 ~e_L+ 1000012 ~nu_eL -1000012 ~nu_eLbar 1000013 ~mu_L- -1000013 ~mu_L+ 1000014 ~nu_muL -1000014 ~nu_muLbar 1000015 ~tau_1- -1000015 ~tau_1+ 1000016 ~nu_tauL -1000016 ~nu_tauLbar 1000021 ~g 1000022 ~chi_10 1000023 ~chi_20 1000024 ~chi_1+ -1000024 ~chi_1- 1000025 ~chi_30 1000035 ~chi_40 1000037 ~chi_2+ -1000037 ~chi_2- 1000039 ~Gravitino 2000001 ~d_R -2000001 ~d_Rbar 2000002 ~u_R -2000002 ~u_Rbar 2000003 ~s_R -2000003 ~s_Rbar 2000004 ~c_R -2000004 ~c_Rbar 2000005 ~b_2 -2000005 ~b_2bar 2000006 ~t_2 -2000006 ~t_2bar 2000011 ~e_R- -2000011 ~e_R+ 2000012 ~nu_eR -2000012 ~nu_eRbar 2000013 ~mu_R- -2000013 ~mu_R+ 2000014 ~nu_muR -2000014 ~nu_muRbar 2000015 ~tau_2- -2000015 ~tau_2+ 2000016 ~nu_tauR -2000016 ~nu_tauRbar 3000111 pi_tc0 3000211 pi_tc+ -3000211 pi_tc- 3000221 pi'_tc0 3000331 eta_tc0 3000113 rho_tc0 3000213 rho_tc+ -3000213 rho_tc- 3000223 omega_tc 3100021 V8_tc 3100111 pi_22_1_tc 3200111 pi_22_8_tc 3100113 rho_11_tc 3200113 rho_12_tc 3300113 rho_21_tc 3400113 rho_22_tc 4000001 d* -4000001 dbar 4000002 u -4000002 ubar 4000011 e- -4000011 ebar+ 4000012 nu_e0 -4000012 nu_ebar0 5000039 Graviton 9900012 nu_Re 9900014 nu_Rmu 9900016 nu_Rtau 9900023 Z_R0 9900024 W_R+ -9900024 W_R- 9900041 H_L++ -9900041 H_L-- 9900042 H_R++ -9900042 H_R-- 9900110 rho_diff0 9900210 pi_diffr+ -9900210 pi_diffr- 9900220 omega_di 9900330 phi_diff 9900440 J/psi_di 9902110 n_diffr0 -9902110 n_diffrbar0 9902210 p_diffr+ -9902210 p_diffrbar- Event list level 1 ******************************************************** * STDHEP version 5.01 - June 10, 2002 * ******************************************************** Masses, Widths 0 - tauola par EvtGen:EvtGen version: alpha-00-14-05 plus bug fixes EvtGen:CDF Revision: 2.00 EvtGen:Initializing EvtGen EvtGen:Storing known decay models Will register EvtJetSet EvtGen:Registering CDF specific decay models EvtGen:Main decay file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:PDT table file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/pdt.table EvtGen:Initializing RadCorr=PHOTOS EvtGen:No RadCorr engine given in EvtGen::EvtGen constructor, will use default EvtPHOTOS. EvtGen:In readDecayFile, reading:/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:As requested, PHOTOS will be turned on. EvtGen:VSS_BMIXCPT will generate mixing and CPT/CP effects in mixing: Upsilon(4S) --> B0 + anti-B0 using parameters: delta(m) = 0.502 hbar/ps _freq = 1.67 hbar/mm dgog = 0.00 dGamma = 0.00 hbar/mm q/p = (1.00,0.00) z = (0.00,0.00) tau = 1.53 ps x = 0.770 chi(B0->B0bar) = 0.186 chi(B0bar->B0) = 0.186 Af = (1.00,0.00) Abarf = (0.00,0.00) Afbar = (0.00,0.00) Abarfbar = (1.00,0.00) EvtGen:Redefined Partial wave for D_1+ to D+ pi0 (2) EvtGen:Redefined Partial wave for D_1+ to D0 pi+ (2) EvtGen:Redefined Partial wave for D_1- to D- pi0 (2) EvtGen:Redefined Partial wave for D_1- to anti-D0 pi- (2) EvtGen:Redefined Partial wave for D_10 to D0 pi0 (2) EvtGen:Redefined Partial wave for D_10 to D+ pi- (2) EvtGen:Redefined Partial wave for anti-D_10 to anti-D0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_10 to D- pi+ (2) EvtGen:Redefined Partial wave for D_2+ to D+ pi0 (2) EvtGen:Redefined Partial wave for D_2+ to D0 pi+ (2) EvtGen:Redefined Partial wave for D_2- to D- pi0 (2) EvtGen:Redefined Partial wave for D_2- to anti-D0 pi- (2) EvtGen:Redefined Partial wave for D_20 to D0 pi0 (2) EvtGen:Redefined Partial wave for D_20 to D+ pi- (2) EvtGen:Redefined Partial wave for anti-D_20 to anti-D0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_20 to D- pi+ (2) EvtGen:Given allowed decays, resetting minMass B_s00 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s00 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s20 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B_s20 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c+ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.25 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.25 to 2.42 EvtGen:Done initializing EvtGen : EvtGenInterface:************************************************************************** EvtGenInterface:************************************************************************ EvtGenInterface: EvtGen will correct particle energies if the mass calculated from the EvtGenInterface: 4-vector differs from the hepevt mass by more than 500 keV. EvtGenInterface:************************************************************************ EvtGenInterface:************************************************************************ : \| GENERATORS: generator configuration check PASSED \|* SiAlignmentManager will take alignments from frontier 220050 1 GOOD SiAlignmentManager opening db: frontier run: 220050 version: 1 status: GOOD CdfCalibDbFrontier(SiAlignFrame:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483739 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483741 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483743 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483745 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 MZLINK. Initialize Link Area /GCHVIR/ for Store 0 NL/NS= 4 1 MZLINK. Initialize Link Area /GCDINA/ for Store 0 NL/NS= 4 4 1********************************************************** * * * G E A N T Version 3.2114 DATE/TIME1070812/**** * * * * R U N 1 * * * ************************************************************ * * * Data structure Date Time GVERSN ZVERSN * * -------------- ---- ---- ------ ------ * * * * INIT 1070812 **** 3.2114 3.79 * * * * KINE 1070812 **** 3.2114 3.79 * * * * HITS 1070812 **** 3.2114 3.79 * * * * DIGI 1070812 **** 3.2114 3.79 * * * * Random number seeds: 9876 54321 * * -------------------- * * * ---------------------------------------------------------- * * * Standard TPAR for this run are * * ------------------------------ * * * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 1. ICOMP = 1. IPHOT = 1. * * IPFIS = 0. IDRAY = 0. IANNI = 1. * * IBREM = 1. IHADR = 1. IMUNU = 1. * * IDCAY = 1. ILOSS = 2. IMULS = 1. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 34 VACUUM B 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 38 VACUUM NoB 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 53 VACUUM B 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 58 VACUUM NoB 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * ********************************************************** * * Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root * * * Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root on Sun Aug 12 22:01:58 2007 * CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMUPosition:1.2,47603) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMPPosition:1.3,91693) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMXPosition:1.2,49871) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. MediumType: 0 Media ID: 41 MediumType: 9 Media ID: 41 MediumType: 8 Media ID: 42 MediumType: 9 Media ID: 43 MediumType: 3 Media ID: 44 MediumType: 0 Media ID: 41 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 0 Media ID: 41 MediumType: 4 Media ID: 46 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 47 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 48 MediumType: 0 Media ID: 48 MediumType: 10 Media ID: 49 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 2 Media ID: 51 MediumType: 5 Media ID: 52 **************************************************** **** GFLASH-14 * Parameters ********** **************************************************** ************ GFLASH STEERING ***************** PEM PHA CEM CHA WHA MPA ISSAMP 1 1 1 1 1 1 1 1 1 1 IFLASH1 4 4 4 4 4 4 4 4 4 4 IFLASH2 0 0 0 0 0 0 0 0 0 0 GFCNEU 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 GFCGAM 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 GFCPRO 0.0500 0.2500 0.0500 0.2500 0.2500 0.0500 0.2500 0.0500 0.2500 0.2500 CFLASH1 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH3 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH4 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 **************************************************** ************ SHOWER RESPONSE ***************** PEM PHA CEM CHA WHA MPA RSPMIP 0.0776 0.0181 0.1658 0.0534 0.0534 0.1600 1.0000 1.0000 1.0000 0.0160 EBYMIP 0.7110 0.8950 0.6490 0.8840 0.8840 0.5000 1.0000 1.0000 1.0000 1.0000 PBYMIP 1.8200 3.2000 1.8500 2.3000 2.3000 2.2000 3.9000 3.9000 3.9000 3.9000 SAMELM1 0.1270 0.1800 0.1350 0.1900 0.1900 0.1800 0.1000 0.1000 0.1000 0.1800 SAMELM2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMELM3 0.0137 0.1000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD1 0.1600 0.1610 0.1500 0.1300 0.1300 0.0000 0.3600 0.3600 0.3600 0.3600 FLUHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD3 0.0440 0.0440 0.0530 0.0400 0.0400 0.4000 0.0000 0.0000 0.0000 0.0440 SAMHAD1 0.1200 0.3500 0.1800 0.2300 0.2300 0.4000 0.4000 0.4000 0.4000 0.4000 SAMHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMHAD3 0.0100 0.0320 0.0380 0.0430 0.0430 0.0000 0.0000 0.0000 0.0000 0.0000 RLTHAD 32.7000 23.7000 32.7000 23.7000 23.7000 32.7000 23.7000 23.7000 23.7000 23.7000 ECRIT 9.6600 22.0000 9.4800 22.0000 22.0000 10.0000 79.0000 22.0000 52.0000 22.0000 SFREQ 0.8775 0.0000 0.8890 0.0000 0.0000 0.8000 0.2000 0.0000 0.0000 0.0000 EBM 0.2960 0.1050 0.3500 0.1100 0.1100 0.3000 0.0000 0.0000 0.0000 0.0000 **************************************************** ******** PMT simulation package *********** version 0.0600 simulation mode 7 sw_light 1 sw_gain 1 sw_pedestal 1 light yield 7.00 # of pes/mip pedestal sigma 0.100 snglpe sigma 0.170 mip energy 0.00240 GeV ************************************************* PYEVNT event no. 2 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 0.301 -0.136 979.836 980.162 25.282 4 !p_diffrbar? 21-9902210 2 -0.301 0.136 -979.836 979.838 1.592 ============================================================================== 5 (ud_0) A 12 2101 3 0.301 -0.136 979.832 979.832 0.579 6 (u) V 11 2 3 0.000 0.000 0.004 0.330 0.330 7 (pi0) 11 111 4 -0.331 0.408 -535.659 535.659 0.135 8 pbar- 1 -2212 4 0.030 -0.272 -444.177 444.178 0.938 ============================================================================== 9 (string) 11 92 5 0.301 -0.136 979.836 980.162 25.282 10 n0 1 2112 9 0.110 0.014 612.011 612.012 0.940 11 pi+ 1 211 9 0.613 -0.436 114.420 114.423 0.140 12 pi- 1 -211 9 -0.252 0.752 83.212 83.216 0.140 13 (Sigmabar0) 11 -3212 9 -0.164 -0.432 51.659 51.675 1.193 14 Sigma+ 1 3222 9 0.052 0.440 74.120 74.131 1.189 15 pi- 1 -211 9 -0.257 -0.234 17.777 17.781 0.140 16 pi+ 1 211 9 0.329 -0.193 1.649 1.698 0.140 17 (rho-) 11 -213 9 -0.307 -0.010 2.593 2.700 0.687 18 (pi0) 11 111 9 0.221 0.496 21.236 21.243 0.135 19 pi+ 1 211 9 -0.044 -0.532 1.159 1.284 0.140 20 gamma 1 22 7 -0.288 0.408 -492.942 492.942 0.000 21 gamma 1 22 7 -0.043 0.000 -42.717 42.717 0.000 22 Lambdabar0 1 -3122 13 -0.159 -0.337 49.048 49.062 1.116 23 gamma 1 22 13 -0.005 -0.095 2.611 2.613 0.000 24 pi- 1 -211 17 -0.020 0.250 1.604 1.629 0.140 25 (pi0) 11 111 17 -0.287 -0.259 0.989 1.070 0.135 26 gamma 1 22 18 0.213 0.344 16.297 16.302 0.000 27 gamma 1 22 18 0.008 0.152 4.939 4.941 0.000 28 gamma 1 22 25 -0.124 -0.202 0.568 0.616 0.000 29 e- 1 11 25 -0.043 -0.015 0.115 0.124 0.001 30 e+ 1 -11 25 -0.119 -0.042 0.306 0.331 0.001 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 3 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 -0.110 -0.304 979.999 980.000 0.938 4 !pbar-! 21 -2212 2 0.110 0.304 -979.999 980.000 0.938 ============================================================================== 5 p+ 1 2212 3 -0.110 -0.304 979.999 980.000 0.938 6 pbar- 1 -2212 4 0.110 0.304 -979.999 980.000 0.938 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 4 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 -0.134 0.017 980.000 980.000 0.938 4 !pbar-! 21 -2212 2 0.134 -0.017 -980.000 980.000 0.938 ============================================================================== 5 p+ 1 2212 3 -0.134 0.017 980.000 980.000 0.938 6 pbar- 1 -2212 4 0.134 -0.017 -980.000 980.000 0.938 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGenFinding B Mesons and about to enter DecayAll EvtGenFinding B Mesons and about to enter DecayAll CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) mxgkin 250 CHKLOG: ces_data:Frz_5_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_5_set1_31stp_2.dab CHKLOG: ces_data:Frz_10_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_10_set1_31stp_2.dab CHKLOG: ces_data:Frz_25_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_25_set1_31stp_2.dab CHKLOG: ces_data:Frz_50_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_50_set1_31stp_2.dab CHKLOG: ces_data:Frz_100_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_100_set1_31stp_2.dab CHKLOG: ces_data:Frz_150_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_150_set1_31stp_2.dab %MostRecent: creating a 100% full SiDBInfoSet with dummy SiDBInfos. This may take a while. %MostRecent: done with creating a full SiDBInfoSet. CdfCalibDbFrontier(SiChipPed:1.2,489475) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Pedestals are present for run 222530 Retrieved run=222529 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiStripDH:1.2,482699) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Dead channels are present for run 222530 Retrieved run=221805 version=1 status=COMPLETE from the database. PYEVNT event no. 5 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.179 0.066 70.392 70.392 0.000 4 !g! 21 21 2 -0.044 1.039 -83.759 83.765 0.000 5 !g! 21 21 3 0.813 0.752 49.753 49.766 0.000 6 !g! 21 21 4 2.359 2.419 2.610 4.270 0.000 7 !g! 21 21 0 7.857 3.577 33.471 34.566 0.000 8 !g! 21 21 0 -4.685 -0.406 18.893 19.469 0.000 ============================================================================== 9 (ud_0) A 12 2101 1 -0.553 0.204 765.243 765.244 0.579 10 (g) I 12 21 7 1.831 0.465 11.049 11.209 0.000 11 (g) I 12 21 7 4.134 1.590 14.753 15.403 0.000 12 (g) I 12 21 7 1.281 1.313 6.633 6.882 0.000 13 (ud_0bar) V 11 -2101 2 -0.048 -0.321 -856.778 856.778 0.579 14 (u) A 12 2 1 0.732 -0.270 115.669 115.672 0.330 15 (g) I 12 21 3 -0.975 -0.663 17.113 17.154 0.000 16 (g) I 12 21 0 -0.676 0.802 26.369 26.390 0.000 17 (g) I 12 21 8 0.138 0.258 0.890 0.937 0.000 18 (g) I 12 21 8 -0.190 0.501 1.948 2.021 0.000 19 (g) I 12 21 8 -4.022 -0.956 17.091 17.584 0.000 20 (g) I 12 21 0 0.676 -0.802 1.894 2.165 0.000 21 (g) I 12 21 0 -1.048 -1.317 -5.051 5.324 0.000 22 (g) I 12 21 0 1.048 1.317 -32.825 32.868 0.000 23 (g) I 12 21 4 -1.735 -0.331 -67.035 67.059 0.000 24 (g) I 12 21 4 -0.963 -0.513 -12.017 12.067 0.000 25 (g) I 12 21 4 0.278 -0.560 -3.791 3.843 0.000 26 (ubar) V 11 -2 2 0.092 -0.718 -1.154 1.402 0.330 ============================================================================== 27 (string) 11 92 9 6.645 3.252 -59.100 1655.516 1654.444 28 pi- 1 -211 27 -0.518 0.389 637.132 637.132 0.140 29 (Delta++) 11 2224 27 0.024 0.120 66.367 66.380 1.301 30 (rho-) 11 -213 27 0.268 -0.144 51.359 51.365 0.664 31 (omega) 11 223 27 0.388 0.199 7.141 7.197 0.782 32 (pi0) 11 111 27 0.599 -0.259 3.134 3.205 0.135 33 (omega) 11 223 27 0.503 0.092 4.694 4.787 0.790 34 (rho+) 11 213 27 1.847 1.552 13.488 13.726 0.798 35 pi- 1 -211 27 0.338 0.020 0.830 0.907 0.140 36 (rho+) 11 213 27 2.055 0.556 5.779 6.242 1.015 37 pi- 1 -211 27 -0.370 -0.035 1.727 1.772 0.140 38 pi+ 1 211 27 0.332 0.135 0.394 0.551 0.140 39 (omega) 11 223 27 0.659 0.226 3.144 3.313 0.780 40 (pi0) 11 111 27 0.398 0.774 0.606 1.069 0.135 41 (eta) 11 221 27 -0.228 -0.354 0.678 0.968 0.547 42 K- 1 -321 27 0.399 0.519 -0.464 0.942 0.494 43 (K0) 11 313 27 -0.086 -0.378 -0.609 1.133 0.873 44 (rho+) 11 213 27 -0.025 -0.159 -2.855 2.975 0.823 45 (rho-) 11 -213 27 0.211 0.365 -1.763 1.929 0.659 46 pi+ 1 211 27 -0.044 -0.235 -3.750 3.761 0.140 47 (omega) 11 223 27 0.104 -0.208 -13.845 13.869 0.771 48 (omega) 11 223 27 -0.137 0.596 -93.256 93.261 0.776 49 (eta) 11 221 27 -0.116 -0.027 -103.468 103.469 0.547 50 pi- 1 -211 27 -0.035 -0.386 -88.643 88.644 0.140 51 nbar0 1 -2112 27 0.081 -0.106 -546.921 546.922 0.940 52 (string) 11 92 14 -6.645 -3.252 59.100 304.484 298.602 53 (eta) 11 221 52 -0.043 -0.270 40.343 40.348 0.547 54 (pi0) 11 111 52 0.161 0.027 23.999 24.000 0.135 55 (pi0) 11 111 52 0.574 -0.132 17.158 17.169 0.135 56 (K+) 11 323 52 -0.771 0.033 36.018 36.037 0.877 57 (K-) 11 -323 52 0.098 0.034 17.058 17.083 0.926 58 (omega) 11 223 52 -0.248 0.202 5.176 5.245 0.784 59 pi+ 1 211 52 -0.680 -0.427 19.225 19.242 0.140 60 (omega) 11 223 52 -2.116 0.455 9.865 10.130 0.784 61 pi- 1 -211 52 0.232 -0.075 1.179 1.212 0.140 62 (K+) 11 323 52 -0.791 0.236 4.448 4.603 0.848 63 (phi) 11 333 52 -0.666 -0.516 3.391 3.639 1.016 64 (Kbar0) 11 -313 52 -0.120 -0.212 2.601 2.756 0.878 65 (rho-) 11 -213 52 -0.302 -0.800 -2.551 2.790 0.737 66 (rho+) 11 213 52 0.259 -0.157 0.121 0.804 0.734 67 (rho-) 11 -213 52 -0.399 0.206 -7.871 7.919 0.746 68 pi+ 1 211 52 0.331 -0.204 -7.309 7.321 0.140 69 pi- 1 -211 52 -0.614 -0.199 -4.727 4.773 0.140 70 (omega) 11 223 52 0.176 0.202 -23.785 23.799 0.780 71 pi+ 1 211 52 -0.240 0.040 -2.391 2.408 0.140 72 (K0) 11 313 52 -0.577 -0.072 -23.449 23.474 0.909 73 (Sigma-) 11 3114 52 0.001 -0.676 -19.174 19.234 1.358 74 pi+ 1 211 52 0.147 0.511 -3.860 3.899 0.140 75 pbar- 1 -2212 52 -1.399 -0.752 -21.631 21.709 0.938 76 (eta') 11 331 52 0.344 -0.706 -4.731 4.891 0.958 77 p+ 1 2212 29 -0.084 0.360 51.644 51.653 0.938 78 pi+ 1 211 29 0.108 -0.240 14.723 14.726 0.140 79 pi- 1 -211 30 0.192 0.163 11.148 11.152 0.140 80 (pi0) 11 111 30 0.075 -0.307 40.211 40.213 0.135 81 pi- 1 -211 31 0.070 -0.062 1.762 1.770 0.140 82 pi+ 1 211 31 0.093 0.288 1.395 1.434 0.140 83 (pi0) 11 111 31 0.225 -0.027 3.984 3.992 0.135 84 gamma 1 22 32 0.544 -0.274 2.831 2.896 0.000 85 gamma 1 22 32 0.055 0.015 0.303 0.308 0.000 86 pi- 1 -211 33 0.075 0.175 1.660 1.677 0.140 87 pi+ 1 211 33 0.491 0.008 2.313 2.369 0.140 88 (pi0) 11 111 33 -0.064 -0.091 0.721 0.742 0.135 89 pi+ 1 211 34 0.036 0.283 2.078 2.102 0.140 90 (pi0) 11 111 34 1.812 1.269 11.410 11.623 0.135 91 pi+ 1 211 36 1.598 0.135 3.159 3.546 0.140 92 (pi0) 11 111 36 0.457 0.422 2.620 2.696 0.135 93 pi- 1 -211 39 0.002 0.100 0.341 0.382 0.140 94 pi+ 1 211 39 0.456 0.266 1.435 1.535 0.140 95 (pi0) 11 111 39 0.201 -0.140 1.368 1.396 0.135 96 gamma 1 22 40 0.010 0.073 0.090 0.116 0.000 97 gamma 1 22 40 0.388 0.700 0.517 0.953 0.000 98 gamma 1 22 41 0.014 -0.395 0.584 0.705 0.000 99 gamma 1 22 41 -0.241 0.041 0.094 0.262 0.000 100 K+ 1 321 43 -0.187 -0.054 -0.545 0.760 0.494 101 pi- 1 -211 43 0.100 -0.324 -0.064 0.373 0.140 102 pi+ 1 211 44 0.036 -0.194 -2.805 2.815 0.140 103 (pi0) 11 111 44 -0.061 0.035 -0.050 0.160 0.135 104 pi- 1 -211 45 0.005 -0.027 -1.157 1.166 0.140 105 (pi0) 11 111 45 0.207 0.392 -0.606 0.763 0.135 106 pi+ 1 211 47 -0.217 -0.115 -4.762 4.771 0.140 107 pi- 1 -211 47 0.148 -0.177 -3.652 3.662 0.140 108 (pi0) 11 111 47 0.173 0.083 -5.432 5.437 0.135 109 pi- 1 -211 48 -0.099 0.324 -21.603 21.606 0.140 110 pi+ 1 211 48 -0.082 -0.015 -43.554 43.554 0.140 111 (pi0) 11 111 48 0.043 0.287 -28.099 28.101 0.135 112 gamma 1 22 49 -0.064 0.211 -79.099 79.099 0.000 113 gamma 1 22 49 -0.053 -0.237 -24.368 24.370 0.000 114 gamma 1 22 53 0.059 -0.414 23.367 23.370 0.000 115 gamma 1 22 53 -0.102 0.143 16.976 16.977 0.000 116 gamma 1 22 54 0.121 -0.031 19.225 19.225 0.000 117 gamma 1 22 54 0.040 0.059 4.774 4.774 0.000 118 gamma 1 22 55 0.418 -0.060 10.670 10.678 0.000 119 gamma 1 22 55 0.155 -0.073 6.488 6.490 0.000 120 (K0) 11 311 56 -0.350 -0.090 27.170 27.177 0.498 121 pi+ 1 211 56 -0.421 0.123 8.848 8.860 0.140 122 K- 1 -321 57 0.117 -0.055 5.343 5.367 0.494 123 (pi0) 11 111 57 -0.019 0.089 11.715 11.716 0.135 124 pi- 1 -211 58 -0.061 -0.050 0.365 0.399 0.140 125 pi+ 1 211 58 -0.196 -0.007 3.179 3.188 0.140 126 (pi0) 11 111 58 0.009 0.260 1.632 1.658 0.135 127 pi+ 1 211 60 -0.659 0.054 2.265 2.364 0.140 128 pi- 1 -211 60 -0.321 0.023 2.586 2.609 0.140 129 (pi0) 11 111 60 -1.137 0.377 5.014 5.157 0.135 130 K+ 1 321 62 -0.209 0.233 2.305 2.378 0.494 131 (pi0) 11 111 62 -0.583 0.003 2.143 2.225 0.135 132 K- 1 -321 63 -0.423 -0.274 2.088 2.204 0.494 133 K+ 1 321 63 -0.243 -0.242 1.304 1.435 0.494 134 K- 1 -321 64 -0.347 -0.185 2.016 2.113 0.494 135 pi+ 1 211 64 0.227 -0.028 0.584 0.643 0.140 136 pi- 1 -211 65 -0.010 -0.795 -1.829 1.999 0.140 137 (pi0) 11 111 65 -0.293 -0.006 -0.722 0.791 0.135 138 pi+ 1 211 66 0.296 -0.121 -0.234 0.420 0.140 139 (pi0) 11 111 66 -0.036 -0.037 0.356 0.384 0.135 140 pi- 1 -211 67 -0.250 0.067 -7.181 7.187 0.140 141 (pi0) 11 111 67 -0.150 0.139 -0.691 0.733 0.135 142 pi- 1 -211 70 -0.018 0.277 -12.640 12.644 0.140 143 pi+ 1 211 70 0.078 0.085 -2.262 2.269 0.140 144 (pi0) 11 111 70 0.116 -0.160 -8.882 8.886 0.135 145 K+ 1 321 72 -0.254 -0.242 -18.288 18.298 0.494 146 pi- 1 -211 72 -0.323 0.170 -5.161 5.176 0.140 147 Lambda0 1 3122 73 0.092 -0.736 -16.753 16.807 1.116 148 pi- 1 -211 73 -0.090 0.060 -2.421 2.428 0.140 149 pi+ 1 211 76 0.107 -0.061 -0.319 0.370 0.140 150 pi- 1 -211 76 0.023 -0.057 -0.569 0.589 0.140 151 (eta) 11 221 76 0.213 -0.588 -3.843 3.932 0.547 152 gamma 1 22 80 -0.031 -0.026 3.241 3.241 0.000 153 gamma 1 22 80 0.106 -0.281 36.970 36.971 0.000 154 gamma 1 22 83 0.012 0.032 0.988 0.988 0.000 155 gamma 1 22 83 0.213 -0.059 2.996 3.004 0.000 156 gamma 1 22 88 -0.053 -0.094 0.722 0.730 0.000 157 gamma 1 22 88 -0.011 0.003 -0.002 0.011 0.000 158 gamma 1 22 90 1.547 1.023 9.558 9.736 0.000 159 gamma 1 22 90 0.264 0.246 1.852 1.887 0.000 160 gamma 1 22 92 0.106 0.116 0.933 0.946 0.000 161 gamma 1 22 92 0.351 0.306 1.687 1.750 0.000 162 gamma 1 22 95 0.095 -0.033 0.876 0.882 0.000 163 gamma 1 22 95 0.106 -0.107 0.491 0.514 0.000 164 gamma 1 22 103 0.042 -0.005 -0.014 0.044 0.000 165 gamma 1 22 103 -0.102 0.041 -0.036 0.116 0.000 166 gamma 1 22 105 0.022 0.157 -0.271 0.314 0.000 167 gamma 1 22 105 0.184 0.236 -0.335 0.449 0.000 168 gamma 1 22 108 0.116 -0.008 -1.998 2.001 0.000 169 gamma 1 22 108 0.057 0.092 -3.434 3.435 0.000 170 gamma 1 22 111 0.013 0.261 -19.762 19.763 0.000 171 gamma 1 22 111 0.031 0.026 -8.337 8.337 0.000 172 K_L0 1 130 120 -0.350 -0.090 27.170 27.177 0.498 173 gamma 1 22 123 -0.042 -0.007 1.396 1.397 0.000 174 gamma 1 22 123 0.023 0.096 10.319 10.319 0.000 175 gamma 1 22 126 -0.002 0.253 1.228 1.254 0.000 176 gamma 1 22 126 0.010 0.006 0.404 0.404 0.000 177 gamma 1 22 129 -0.177 0.079 1.026 1.044 0.000 178 gamma 1 22 129 -0.959 0.299 3.988 4.113 0.000 179 gamma 1 22 131 -0.452 -0.047 1.735 1.793 0.000 180 gamma 1 22 131 -0.130 0.050 0.408 0.431 0.000 181 gamma 1 22 137 -0.282 0.032 -0.636 0.696 0.000 182 gamma 1 22 137 -0.011 -0.037 -0.087 0.095 0.000 183 gamma 1 22 139 -0.087 -0.015 0.197 0.216 0.000 184 gamma 1 22 139 0.051 -0.022 0.159 0.168 0.000 185 gamma 1 22 141 -0.154 0.143 -0.694 0.726 0.000 186 gamma 1 22 141 0.004 -0.004 0.004 0.007 0.000 187 gamma 1 22 144 0.083 -0.010 -2.698 2.700 0.000 188 gamma 1 22 144 0.032 -0.150 -6.184 6.186 0.000 189 pi- 1 -211 151 -0.072 -0.204 -1.528 1.550 0.140 190 pi+ 1 211 151 0.181 -0.181 -1.043 1.083 0.140 191 (pi0) 11 111 151 0.104 -0.203 -1.273 1.300 0.135 192 gamma 1 22 191 0.117 -0.185 -0.885 0.912 0.000 193 gamma 1 22 191 -0.013 -0.018 -0.387 0.388 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 6 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.903 0.397 60.766 60.774 0.000 4 !ubar! 21 -2 2 0.501 -0.833 -79.857 79.863 0.000 5 !g! 21 21 3 -0.799 0.351 53.733 53.741 0.000 6 !g! 21 21 4 1.392 1.285 1.761 2.586 0.000 7 !g! 21 21 0 1.352 -1.254 50.302 50.335 0.000 8 !g! 21 21 0 -0.759 2.891 5.193 5.992 0.000 ============================================================================== 9 (ubar) A 12 -2 4 0.722 -2.233 -78.753 78.789 0.330 10 (g) I 12 21 4 -0.712 0.091 3.957 4.021 0.000 11 (g) I 12 21 8 0.634 0.589 0.699 1.113 0.000 12 (g) I 12 21 8 -1.250 2.061 8.163 8.511 0.000 13 (g) I 12 21 0 -0.263 -0.001 4.360 4.368 0.000 14 (g) I 12 21 0 -1.388 0.254 65.701 65.716 0.000 15 (g) I 12 21 0 -1.721 -1.256 119.458 119.477 0.000 16 (u) V 11 2 1 0.366 0.129 291.335 291.336 0.330 17 (ud_0) A 12 2101 1 0.538 -0.526 435.314 435.315 0.579 18 (g) I 12 21 7 1.696 -0.977 32.427 32.486 0.000 19 (g) I 12 21 7 -0.272 -0.095 11.065 11.069 0.000 20 (g) I 12 21 7 -0.215 0.058 3.141 3.149 0.000 21 (g) I 12 21 0 -0.121 -0.452 -1.179 1.268 0.000 22 (g) I 12 21 0 0.263 0.001 -1.677 1.697 0.000 23 (g) I 12 21 0 -0.194 -0.178 -2.391 2.406 0.000 24 (g) I 12 21 0 -1.639 0.273 -78.328 78.346 0.000 25 (g) I 12 21 0 0.121 0.452 -1.054 1.153 0.000 26 (g) I 12 21 0 1.721 1.256 -2.245 3.095 0.000 27 (g) I 12 21 0 1.639 -0.273 0.329 1.694 0.000 28 (g) I 12 21 0 1.388 -0.254 0.883 1.665 0.000 29 (g) I 12 21 0 0.194 0.178 0.121 0.290 0.000 30 (g) I 12 21 4 -0.095 -0.419 -0.058 0.433 0.000 31 (g) I 12 21 4 -0.910 0.488 0.269 1.067 0.000 32 (ud_0bar) V 11 -2101 2 -0.501 0.833 -811.536 811.537 0.579 ============================================================================== 33 (string) 11 92 9 -3.613 -0.366 414.919 573.330 395.646 34 (omega) 11 223 33 0.557 -1.352 -52.144 52.170 0.785 35 (Deltabar--) 11 -2224 33 0.277 -0.611 -17.891 17.947 1.235 36 (rho0) 11 113 33 -0.177 -0.036 -2.249 2.384 0.769 37 p+ 1 2212 33 0.087 -0.378 -2.733 2.916 0.938 38 pi+ 1 211 33 -0.347 0.277 -0.363 0.590 0.140 39 (rho-) 11 -213 33 0.106 -0.498 -1.062 1.411 0.778 40 (omega) 11 223 33 0.050 0.737 -1.212 1.617 0.776 41 (rho+) 11 213 33 -0.147 -0.121 -0.130 0.683 0.643 42 (rho-) 11 -213 33 0.118 0.051 1.739 1.898 0.749 43 (rho+) 11 213 33 -0.354 0.384 2.765 2.920 0.782 44 pi- 1 -211 33 0.343 0.848 1.329 1.620 0.140 45 (Kbar0) 11 -313 33 -1.348 0.634 11.960 12.088 0.932 46 (K0) 11 311 33 0.019 0.401 1.801 1.911 0.498 47 (omega) 11 223 33 -0.657 0.055 31.955 31.972 0.779 48 (eta) 11 221 33 -0.476 0.043 11.986 12.008 0.547 49 (rho+) 11 213 33 -0.216 -0.408 52.090 52.093 0.369 50 (rho-) 11 -213 33 -0.675 0.300 55.523 55.533 0.800 51 (Kbar0) 11 -313 33 -0.579 -0.510 89.632 89.640 0.929 52 (K0) 11 313 33 -0.606 0.086 191.428 191.431 0.878 53 pi+ 1 211 33 0.410 -0.270 40.496 40.499 0.140 54 (string) 11 92 17 3.613 0.366 -414.919 1386.670 1323.134 55 (omega) 11 223 54 0.333 -0.012 325.184 325.185 0.779 56 n0 1 2112 54 1.138 -0.873 90.088 90.104 0.940 57 (Deltabar+) 11 -1114 54 -0.385 0.026 30.420 30.448 1.257 58 (pi0) 11 111 54 0.309 -0.282 20.932 20.937 0.135 59 (Sigma-) 11 3114 54 0.436 -0.445 11.038 11.143 1.392 60 (K0) 11 311 54 0.023 -0.230 0.497 0.740 0.498 61 (rho+) 11 213 54 -0.109 0.183 1.582 1.713 0.622 62 pi- 1 -211 54 -0.153 -0.414 1.044 1.142 0.140 63 nbar0 1 -2112 54 0.088 0.122 -0.391 1.029 0.940 64 n0 1 2112 54 0.423 -0.107 -0.343 1.091 0.940 65 (rho0) 11 113 54 -0.257 0.368 -0.890 1.303 0.838 66 (rho+) 11 213 54 0.139 -1.014 -13.215 13.273 0.706 67 (rho0) 11 113 54 -0.959 0.016 -15.041 15.088 0.703 68 pi- 1 -211 54 -0.259 0.468 -12.206 12.219 0.140 69 pi+ 1 211 54 0.088 0.274 -12.393 12.397 0.140 70 K- 1 -321 54 -0.220 0.242 -6.758 6.783 0.494 71 (K+) 11 323 54 -0.105 -0.118 -3.814 3.923 0.908 72 (K-) 11 -323 54 0.394 0.444 -14.931 14.970 0.911 73 (K+) 11 323 54 0.158 0.143 -1.217 1.430 0.720 74 K- 1 -321 54 0.024 0.060 0.160 0.523 0.494 75 (K0) 11 313 54 0.832 0.011 -2.404 2.698 0.899 76 (rho+) 11 213 54 -0.094 0.260 -0.854 1.194 0.788 77 (rho-) 11 -213 54 1.259 0.325 -0.792 1.804 0.967 78 pi+ 1 211 54 -0.040 0.088 0.217 0.276 0.140 79 (pi0) 11 111 54 -0.032 0.086 0.037 0.168 0.135 80 (rho-) 11 -213 54 1.297 -0.561 0.360 1.656 0.786 81 pi+ 1 211 54 0.551 -0.160 0.286 0.656 0.140 82 pi- 1 -211 54 -0.829 0.617 -1.677 1.974 0.140 83 (rho+) 11 213 54 0.316 0.050 -0.562 1.087 0.874 84 (omega) 11 223 54 -0.269 -0.156 -0.875 1.219 0.789 85 (rho0) 11 113 54 0.149 0.215 -4.839 4.928 0.896 86 (eta) 11 221 54 -0.677 0.501 -599.450 599.451 0.547 87 pbar- 1 -2212 54 0.043 0.239 -204.115 204.117 0.938 88 pi+ 1 211 34 0.084 -0.411 -19.888 19.893 0.140 89 pi- 1 -211 34 0.365 -0.920 -26.431 26.450 0.140 90 (pi0) 11 111 34 0.108 -0.021 -5.824 5.827 0.135 91 pbar- 1 -2212 35 0.223 -0.264 -14.432 14.466 0.938 92 pi- 1 -211 35 0.054 -0.346 -3.460 3.480 0.140 93 pi- 1 -211 36 -0.061 0.289 -1.625 1.657 0.140 94 pi+ 1 211 36 -0.115 -0.325 -0.625 0.727 0.140 95 pi- 1 -211 39 0.293 -0.056 -0.129 0.353 0.140 96 (pi0) 11 111 39 -0.187 -0.442 -0.933 1.058 0.135 97 pi+ 1 211 40 -0.008 -0.091 -0.211 0.269 0.140 98 pi- 1 -211 40 0.140 0.434 -0.478 0.675 0.140 99 (pi0) 11 111 40 -0.082 0.393 -0.523 0.673 0.135 100 pi+ 1 211 41 -0.274 -0.285 -0.046 0.422 0.140 101 (pi0) 11 111 41 0.127 0.164 -0.084 0.261 0.135 102 pi- 1 -211 42 -0.215 -0.034 1.294 1.320 0.140 103 (pi0) 11 111 42 0.333 0.084 0.445 0.578 0.135 104 pi+ 1 211 43 0.146 0.135 1.633 1.651 0.140 105 (pi0) 11 111 43 -0.500 0.249 1.132 1.269 0.135 106 K- 1 -321 45 -1.263 0.338 8.793 8.903 0.494 107 pi+ 1 211 45 -0.085 0.296 3.167 3.185 0.140 108 K_S0 1 310 46 0.019 0.401 1.801 1.911 0.498 109 gamma 1 22 47 -0.386 -0.037 28.287 28.290 0.000 110 (pi0) 11 111 47 -0.271 0.092 3.668 3.682 0.135 111 (pi0) 11 111 48 -0.330 0.055 5.184 5.197 0.135 112 (pi0) 11 111 48 -0.036 0.081 2.858 2.863 0.135 113 (pi0) 11 111 48 -0.110 -0.093 3.944 3.949 0.135 114 pi+ 1 211 49 -0.139 -0.380 35.036 35.038 0.140 115 (pi0) 11 111 49 -0.077 -0.027 17.054 17.055 0.135 116 pi- 1 -211 50 -0.233 0.485 36.205 36.209 0.140 117 (pi0) 11 111 50 -0.441 -0.185 19.318 19.324 0.135 118 K- 1 -321 51 -0.179 -0.522 67.592 67.596 0.494 119 pi+ 1 211 51 -0.400 0.013 22.040 22.044 0.140 120 (K0) 11 311 52 -0.162 0.121 135.209 135.210 0.498 121 (pi0) 11 111 52 -0.444 -0.035 56.219 56.221 0.135 122 gamma 1 22 55 0.346 0.010 56.164 56.165 0.000 123 (pi0) 11 111 55 -0.013 -0.022 269.020 269.020 0.135 124 nbar0 1 -2112 57 -0.226 0.257 23.624 23.645 0.940 125 pi+ 1 211 57 -0.159 -0.232 6.795 6.803 0.140 126 gamma 1 22 58 0.133 -0.063 9.637 9.638 0.000 127 gamma 1 22 58 0.176 -0.219 11.295 11.299 0.000 128 Lambda0 1 3122 59 0.275 -0.156 8.845 8.921 1.116 129 pi- 1 -211 59 0.161 -0.289 2.193 2.222 0.140 130 K_S0 1 310 60 0.023 -0.230 0.497 0.740 0.498 131 pi+ 1 211 61 0.051 0.353 1.025 1.095 0.140 132 (pi0) 11 111 61 -0.160 -0.170 0.556 0.618 0.135 133 pi+ 1 211 65 -0.446 0.026 -0.709 0.850 0.140 134 pi- 1 -211 65 0.190 0.342 -0.182 0.453 0.140 135 pi+ 1 211 66 0.313 -0.195 -4.017 4.036 0.140 136 (pi0) 11 111 66 -0.174 -0.820 -9.198 9.237 0.135 137 pi- 1 -211 67 0.015 0.060 -0.912 0.925 0.140 138 pi+ 1 211 67 -0.974 -0.043 -14.128 14.163 0.140 139 (K0) 11 311 71 0.043 -0.077 -1.206 1.308 0.498 140 pi+ 1 211 71 -0.148 -0.042 -2.607 2.616 0.140 141 (Kbar0) 11 -311 72 0.193 0.020 -5.227 5.254 0.498 142 pi- 1 -211 72 0.201 0.424 -9.704 9.716 0.140 143 (K0) 11 311 73 0.180 0.038 -0.666 0.851 0.498 144 pi+ 1 211 73 -0.022 0.105 -0.551 0.578 0.140 145 K+ 1 321 75 0.298 -0.136 -1.641 1.745 0.494 146 pi- 1 -211 75 0.535 0.147 -0.763 0.953 0.140 147 pi+ 1 211 76 -0.289 -0.078 -0.117 0.350 0.140 148 (pi0) 11 111 76 0.194 0.338 -0.737 0.844 0.135 149 pi- 1 -211 77 0.832 -0.156 -0.124 0.866 0.140 150 (pi0) 11 111 77 0.428 0.480 -0.668 0.937 0.135 151 gamma 1 22 79 0.036 -0.004 0.041 0.055 0.000 152 gamma 1 22 79 -0.067 0.091 -0.004 0.113 0.000 153 pi- 1 -211 80 -0.027 -0.172 0.103 0.246 0.140 154 (pi0) 11 111 80 1.324 -0.388 0.257 1.410 0.135 155 pi+ 1 211 83 0.201 0.290 0.073 0.386 0.140 156 (pi0) 11 111 83 0.115 -0.240 -0.635 0.701 0.135 157 pi- 1 -211 84 0.018 -0.151 -0.532 0.571 0.140 158 pi+ 1 211 84 -0.001 0.117 -0.026 0.184 0.140 159 (pi0) 11 111 84 -0.287 -0.122 -0.316 0.464 0.135 160 pi+ 1 211 85 -0.294 -0.084 -1.157 1.205 0.140 161 pi- 1 -211 85 0.443 0.300 -3.682 3.723 0.140 162 pi+ 1 211 86 -0.433 0.256 -335.635 335.635 0.140 163 pi- 1 -211 86 -0.214 0.135 -192.773 192.773 0.140 164 (pi0) 11 111 86 -0.030 0.110 -71.043 71.043 0.135 165 gamma 1 22 90 -0.030 0.011 -1.272 1.272 0.000 166 gamma 1 22 90 0.138 -0.032 -4.553 4.555 0.000 167 gamma 1 22 96 -0.165 -0.446 -0.887 1.007 0.000 168 gamma 1 22 96 -0.022 0.005 -0.046 0.051 0.000 169 gamma 1 22 99 0.031 0.148 -0.154 0.215 0.000 170 gamma 1 22 99 -0.113 0.246 -0.369 0.458 0.000 171 gamma 1 22 101 0.142 0.173 -0.062 0.233 0.000 172 gamma 1 22 101 -0.016 -0.009 -0.022 0.029 0.000 173 gamma 1 22 103 0.189 -0.005 0.302 0.356 0.000 174 gamma 1 22 103 0.144 0.089 0.143 0.222 0.000 175 gamma 1 22 105 -0.498 0.249 1.056 1.194 0.000 176 gamma 1 22 105 -0.002 0.001 0.075 0.075 0.000 177 gamma 1 22 110 -0.105 -0.025 0.962 0.968 0.000 178 gamma 1 22 110 -0.166 0.117 2.706 2.713 0.000 179 gamma 1 22 111 -0.004 -0.022 0.525 0.525 0.000 180 gamma 1 22 111 -0.326 0.077 4.659 4.671 0.000 181 gamma 1 22 112 0.016 0.028 0.142 0.146 0.000 182 gamma 1 22 112 -0.052 0.053 2.716 2.717 0.000 183 gamma 1 22 113 -0.052 -0.008 0.393 0.397 0.000 184 gamma 1 22 113 -0.059 -0.085 3.551 3.552 0.000 185 gamma 1 22 115 -0.058 0.021 14.851 14.851 0.000 186 gamma 1 22 115 -0.019 -0.048 2.203 2.204 0.000 187 gamma 1 22 117 -0.206 -0.095 11.801 11.804 0.000 188 gamma 1 22 117 -0.235 -0.090 7.516 7.520 0.000 189 K_S0 1 310 120 -0.162 0.121 135.209 135.210 0.498 190 gamma 1 22 121 -0.436 -0.030 49.929 49.931 0.000 191 gamma 1 22 121 -0.007 -0.005 6.290 6.290 0.000 192 gamma 1 22 123 -0.038 -0.031 36.334 36.334 0.000 193 gamma 1 22 123 0.025 0.009 232.686 232.686 0.000 194 gamma 1 22 132 0.020 -0.044 0.132 0.140 0.000 195 gamma 1 22 132 -0.180 -0.126 0.425 0.478 0.000 196 gamma 1 22 136 -0.038 -0.278 -2.456 2.472 0.000 197 gamma 1 22 136 -0.136 -0.541 -6.741 6.765 0.000 198 K_L0 1 130 139 0.043 -0.077 -1.206 1.308 0.498 199 K_S0 1 310 141 0.193 0.020 -5.227 5.254 0.498 200 K_L0 1 130 143 0.180 0.038 -0.666 0.851 0.498 201 gamma 1 22 148 0.143 0.308 -0.533 0.632 0.000 202 gamma 1 22 148 0.051 0.029 -0.204 0.212 0.000 203 gamma 1 22 150 0.202 0.231 -0.223 0.380 0.000 204 gamma 1 22 150 0.225 0.250 -0.445 0.558 0.000 205 gamma 1 22 154 0.304 -0.083 0.117 0.336 0.000 206 e+ 1 -11 154 0.100 -0.030 0.014 0.105 0.001 207 e- 1 11 154 0.921 -0.276 0.126 0.970 0.001 208 gamma 1 22 156 0.103 -0.093 -0.407 0.430 0.000 209 gamma 1 22 156 0.012 -0.147 -0.228 0.271 0.000 210 gamma 1 22 159 -0.083 -0.021 -0.179 0.199 0.000 211 gamma 1 22 159 -0.204 -0.101 -0.137 0.265 0.000 212 gamma 1 22 164 -0.046 0.134 -50.990 50.990 0.000 213 gamma 1 22 164 0.016 -0.025 -20.053 20.053 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 7 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.432 0.622 25.993 26.004 0.000 4 !ubar! 21 -2 2 -0.565 -1.024 -0.228 1.191 0.000 5 !u! 21 2 3 1.549 -1.251 7.182 7.453 0.000 6 !ubar! 21 -2 4 -0.290 -0.526 -0.117 0.612 0.000 7 !u! 21 2 0 0.520 -0.348 6.139 6.180 0.330 8 !ubar! 21 -2 0 0.739 -1.430 0.926 1.886 0.330 ============================================================================== 9 (u) A 12 2 7 0.520 -0.348 6.139 6.180 0.330 10 (g) I 12 21 0 0.654 -0.560 18.878 18.898 0.000 11 (g) I 12 21 0 0.422 -0.905 0.320 1.049 0.000 12 (ubar) V 11 -2 8 0.739 -1.430 0.926 1.886 0.330 13 (ubar) A 12 -2 3 -1.361 2.086 8.440 8.806 0.330 14 (d) V 11 1 1 -0.253 -0.643 194.854 194.856 0.330 15 (uu_1) A 12 2203 1 0.685 0.022 738.531 738.531 0.771 16 (g) I 12 21 3 -0.895 -0.711 10.261 10.324 0.000 17 (g) I 12 21 0 -0.654 0.560 0.214 0.887 0.000 18 (g) I 12 21 0 -0.422 0.905 -24.844 24.864 0.000 19 (ud_1bar) V 11 -2103 2 0.565 1.024 -953.719 953.720 0.771 ============================================================================== 20 (string) 11 92 9 2.334 -3.242 26.264 28.012 8.884 21 (eta) 11 221 20 0.201 -1.008 12.546 12.600 0.547 22 (K+) 11 323 20 0.534 -0.369 1.774 2.130 0.985 23 (Kbar0) 11 -313 20 0.671 0.380 5.857 5.974 0.892 24 (rho-) 11 -213 20 0.516 -1.114 3.067 3.429 0.919 25 pi+ 1 211 20 -0.110 0.247 1.859 1.883 0.140 26 (rho-) 11 -213 20 0.521 -1.378 1.161 1.995 0.678 27 (string) 11 92 13 -1.614 1.443 203.295 203.662 12.038 28 (eta) 11 221 27 -0.595 1.172 5.020 5.219 0.547 29 (rho-) 11 -213 27 -1.071 0.366 9.788 9.889 0.848 30 pi+ 1 211 27 0.296 0.272 2.752 2.785 0.140 31 pi- 1 -211 27 0.478 -0.209 40.536 40.539 0.140 32 (pi0) 11 111 27 -0.384 0.277 5.886 5.906 0.135 33 pi+ 1 211 27 -0.376 -0.562 87.140 87.142 0.140 34 (rho-) 11 -213 27 0.037 0.126 52.174 52.182 0.918 35 (string) 11 92 15 -0.720 1.800 -229.558 1728.326 1713.012 36 pi+ 1 211 35 -0.186 -0.281 254.497 254.497 0.140 37 p+ 1 2212 35 0.980 0.322 415.650 415.652 0.938 38 (rho-) 11 -213 35 -0.792 -0.435 34.941 34.958 0.614 39 (pi0) 11 111 35 -0.128 -0.065 15.423 15.424 0.135 40 pi+ 1 211 35 0.150 0.056 0.286 0.356 0.140 41 (pi0) 11 111 35 0.161 0.164 0.746 0.792 0.135 42 (rho0) 11 113 35 -0.053 0.004 13.830 13.844 0.619 43 (K-) 11 -323 35 -0.577 -0.009 8.417 8.486 0.914 44 (K0) 11 313 35 0.409 0.484 3.419 3.592 0.899 45 (rho+) 11 213 35 -0.257 0.037 0.497 1.090 0.934 46 pi- 1 -211 35 -0.201 -0.703 0.293 0.800 0.140 47 (pi0) 11 111 35 -0.118 -0.199 0.171 0.317 0.135 48 (rho+) 11 213 35 -0.024 0.546 -1.325 1.628 0.773 49 (pi0) 11 111 35 0.273 -0.340 -1.827 1.883 0.135 50 pi- 1 -211 35 -0.114 0.103 -0.389 0.441 0.140 51 (Kbar0) 11 -311 35 -0.088 -0.025 -1.795 1.865 0.498 52 K+ 1 321 35 -0.528 0.557 -3.461 3.580 0.494 53 (Deltabar-) 11 -2214 35 0.142 -0.017 -6.069 6.176 1.138 54 (Sigma0) 11 3212 35 -0.028 0.188 -18.110 18.150 1.193 55 (K0) 11 313 35 -0.084 0.034 -12.344 12.376 0.889 56 pi+ 1 211 35 -0.330 -0.297 -33.697 33.700 0.140 57 (omega) 11 223 35 0.754 1.120 -246.336 246.341 0.773 58 (Deltabar--) 11 -2224 35 -0.445 0.336 -397.125 397.128 1.279 59 pi+ 1 211 35 0.363 0.221 -255.250 255.250 0.140 60 gamma 1 22 21 0.041 -0.831 7.083 7.131 0.000 61 gamma 1 22 21 0.160 -0.177 5.463 5.468 0.000 62 K+ 1 321 22 0.201 -0.378 1.605 1.733 0.494 63 (pi0) 11 111 22 0.334 0.008 0.169 0.398 0.135 64 K- 1 -321 23 0.674 0.120 4.930 5.002 0.494 65 pi+ 1 211 23 -0.003 0.260 0.927 0.973 0.140 66 pi- 1 -211 24 0.357 0.006 0.601 0.713 0.140 67 (pi0) 11 111 24 0.160 -1.120 2.466 2.716 0.135 68 pi- 1 -211 26 0.536 -1.308 1.172 1.842 0.140 69 (pi0) 11 111 26 -0.014 -0.070 -0.011 0.153 0.135 70 (pi0) 11 111 28 -0.357 0.711 3.080 3.184 0.135 71 (pi0) 11 111 28 -0.088 0.079 0.581 0.608 0.135 72 (pi0) 11 111 28 -0.150 0.382 1.359 1.426 0.135 73 pi- 1 -211 29 -0.876 0.467 5.286 5.380 0.140 74 (pi0) 11 111 29 -0.194 -0.101 4.502 4.509 0.135 75 gamma 1 22 32 -0.220 0.107 3.627 3.635 0.000 76 gamma 1 22 32 -0.164 0.170 2.258 2.271 0.000 77 pi- 1 -211 34 -0.227 -0.131 41.438 41.439 0.140 78 (pi0) 11 111 34 0.264 0.257 10.736 10.743 0.135 79 pi- 1 -211 38 -0.565 -0.347 15.183 15.198 0.140 80 (pi0) 11 111 38 -0.227 -0.088 19.758 19.760 0.135 81 gamma 1 22 39 -0.016 0.005 8.426 8.426 0.000 82 gamma 1 22 39 -0.112 -0.070 6.997 6.998 0.000 83 gamma 1 22 41 0.110 0.114 0.289 0.330 0.000 84 gamma 1 22 41 0.051 0.050 0.457 0.463 0.000 85 pi- 1 -211 42 -0.066 0.233 10.261 10.265 0.140 86 pi+ 1 211 42 0.013 -0.230 3.568 3.579 0.140 87 (Kbar0) 11 -311 43 -0.669 0.057 5.459 5.522 0.498 88 pi- 1 -211 43 0.092 -0.066 2.959 2.964 0.140 89 K+ 1 321 44 0.148 0.475 2.984 3.065 0.494 90 pi- 1 -211 44 0.261 0.009 0.435 0.526 0.140 91 pi+ 1 211 45 -0.304 -0.099 0.715 0.795 0.140 92 (pi0) 11 111 45 0.047 0.136 -0.218 0.294 0.135 93 gamma 1 22 47 -0.105 -0.194 0.094 0.239 0.000 94 gamma 1 22 47 -0.013 -0.005 0.077 0.078 0.000 95 pi+ 1 211 48 0.014 0.071 -1.051 1.063 0.140 96 (pi0) 11 111 48 -0.038 0.475 -0.274 0.566 0.135 97 gamma 1 22 49 0.284 -0.321 -1.653 1.707 0.000 98 gamma 1 22 49 -0.012 -0.019 -0.174 0.175 0.000 99 K_L0 1 130 51 -0.088 -0.025 -1.795 1.865 0.498 100 pbar- 1 -2212 53 0.063 -0.122 -4.717 4.811 0.938 101 (pi0) 11 111 53 0.078 0.105 -1.352 1.365 0.135 102 Lambda0 1 3122 54 -0.018 0.157 -18.008 18.043 1.116 103 gamma 1 22 54 -0.010 0.031 -0.102 0.107 0.000 104 (K0) 11 311 55 0.062 0.221 -10.241 10.255 0.498 105 (pi0) 11 111 55 -0.146 -0.187 -2.103 2.120 0.135 106 pi- 1 -211 57 0.353 0.705 -119.001 119.004 0.140 107 pi+ 1 211 57 0.222 0.417 -103.205 103.206 0.140 108 (pi0) 11 111 57 0.179 -0.002 -24.130 24.131 0.135 109 pbar- 1 -2212 58 -0.408 0.501 -359.567 359.569 0.938 110 pi- 1 -211 58 -0.037 -0.166 -37.558 37.558 0.140 111 gamma 1 22 63 0.059 0.020 -0.018 0.065 0.000 112 gamma 1 22 63 0.275 -0.012 0.187 0.333 0.000 113 gamma 1 22 67 0.155 -0.987 2.066 2.295 0.000 114 gamma 1 22 67 0.005 -0.133 0.399 0.421 0.000 115 gamma 1 22 69 0.051 0.006 0.009 0.052 0.000 116 gamma 1 22 69 -0.065 -0.076 -0.020 0.101 0.000 117 gamma 1 22 70 -0.330 0.637 2.581 2.679 0.000 118 gamma 1 22 70 -0.027 0.075 0.499 0.505 0.000 119 gamma 1 22 71 -0.003 -0.025 0.245 0.246 0.000 120 gamma 1 22 71 -0.084 0.104 0.336 0.362 0.000 121 gamma 1 22 72 -0.039 0.274 0.848 0.892 0.000 122 gamma 1 22 72 -0.111 0.107 0.511 0.534 0.000 123 gamma 1 22 74 0.003 0.021 0.676 0.677 0.000 124 gamma 1 22 74 -0.197 -0.122 3.825 3.832 0.000 125 gamma 1 22 78 0.097 0.051 1.871 1.874 0.000 126 gamma 1 22 78 0.167 0.206 8.865 8.869 0.000 127 gamma 1 22 80 -0.172 -0.011 15.294 15.295 0.000 128 gamma 1 22 80 -0.055 -0.076 4.464 4.465 0.000 129 K_L0 1 130 87 -0.669 0.057 5.459 5.522 0.498 130 gamma 1 22 92 -0.007 0.076 -0.196 0.210 0.000 131 gamma 1 22 92 0.054 0.061 -0.022 0.084 0.000 132 gamma 1 22 96 -0.024 0.095 -0.122 0.157 0.000 133 gamma 1 22 96 -0.014 0.379 -0.152 0.409 0.000 134 gamma 1 22 101 0.044 -0.017 -0.642 0.643 0.000 135 gamma 1 22 101 0.035 0.123 -0.710 0.721 0.000 136 K_L0 1 130 104 0.062 0.221 -10.241 10.255 0.498 137 gamma 1 22 105 -0.114 -0.072 -0.727 0.739 0.000 138 gamma 1 22 105 -0.031 -0.115 -1.376 1.381 0.000 139 gamma 1 22 108 0.175 -0.040 -17.251 17.252 0.000 140 gamma 1 22 108 0.004 0.038 -6.879 6.879 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 8 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 -0.265 -0.211 979.997 980.002 3.229 4 !pbar-! 21 -2212 2 0.265 0.211 -979.997 979.998 0.938 ============================================================================== 5 (ud_0) A 12 2101 3 -0.262 -0.208 969.420 969.420 0.579 6 (u) V 11 2 3 -0.003 -0.002 10.577 10.582 0.330 7 pbar- 1 -2212 4 0.265 0.211 -979.997 979.998 0.938 ============================================================================== 8 (string) 11 92 5 -0.265 -0.211 979.997 980.002 3.229 9 (rho0) 11 113 8 -0.147 -0.230 373.346 373.347 0.813 10 n0 1 2112 8 -0.127 -0.030 603.633 603.633 0.940 11 pi+ 1 211 8 0.009 0.050 3.018 3.022 0.140 12 pi- 1 -211 9 -0.318 0.110 96.570 96.570 0.140 13 pi+ 1 211 9 0.171 -0.341 276.777 276.777 0.140 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 9 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -1.320 0.358 61.406 61.421 0.000 4 !d! 21 1 2 -0.246 -0.380 -10.537 10.547 0.000 5 !g! 21 21 3 -2.002 1.535 30.192 30.298 0.000 6 !d! 21 1 4 -0.238 -0.368 -10.204 10.213 0.000 7 !g! 21 21 0 0.452 1.882 30.026 30.088 0.000 8 !d! 21 1 0 -2.693 -0.714 -10.038 10.423 0.330 ============================================================================== 9 nbar0 1 -2112 2 0.266 0.160 -561.126 561.127 0.940 10 (d) A 12 1 8 -1.278 0.036 -9.109 9.204 0.330 11 (g) I 12 21 8 -1.408 -0.723 -0.491 1.657 0.000 12 (g) I 12 21 3 0.724 -0.880 9.628 9.696 0.000 13 (g) I 12 21 3 0.045 -0.892 21.142 21.161 0.000 14 (ud_0) V 11 2101 1 0.612 -0.123 892.021 892.022 0.579 15 (u) A 12 2 1 0.708 -0.234 26.554 26.566 0.330 16 (g) I 12 21 3 -0.096 0.582 0.110 0.600 0.000 17 (g) I 12 21 7 0.446 1.854 29.588 29.650 0.000 18 (ubar) V 11 -2 2 -0.020 0.219 -408.317 408.317 0.330 ============================================================================== 19 (string) 11 92 10 -1.305 -2.582 913.192 933.740 194.787 20 (pi0) 11 111 19 -1.060 0.251 -3.916 4.067 0.135 21 (omega) 11 223 19 -0.433 -0.814 -3.860 4.045 0.784 22 pi- 1 -211 19 -0.017 0.156 0.185 0.280 0.140 23 (eta) 11 221 19 -0.233 -0.131 0.208 0.644 0.547 24 (Delta++) 11 2224 19 -0.491 0.029 -0.081 1.299 1.199 25 (rho-) 11 -213 19 0.324 0.406 0.108 0.906 0.734 26 (Deltabar0) 11 -2114 19 0.500 -0.265 0.760 1.500 1.164 27 (K0) 11 313 19 -0.465 -0.419 2.026 2.264 0.792 28 (Kbar0) 11 -311 19 -0.910 -0.098 0.470 1.143 0.498 29 (rho0) 11 113 19 0.468 -0.727 6.521 6.630 0.830 30 n0 1 2112 19 0.140 0.031 8.889 8.939 0.940 31 pbar- 1 -2212 19 0.026 -0.086 5.317 5.399 0.938 32 (pi0) 11 111 19 0.307 0.428 40.399 40.403 0.135 33 (pi0) 11 111 19 -0.417 -0.472 15.653 15.666 0.135 34 (K+) 11 323 19 0.113 -0.441 19.243 19.270 0.912 35 (K-) 11 -323 19 -0.140 -0.197 47.943 47.951 0.834 36 (pi0) 11 111 19 0.329 0.206 31.441 31.443 0.135 37 (Delta0) 11 2114 19 0.591 -0.430 548.724 548.726 1.327 38 pi+ 1 211 19 0.065 -0.008 193.165 193.165 0.140 39 (string) 11 92 15 1.039 2.421 -352.066 465.133 303.960 40 pi+ 1 211 39 0.143 -0.165 8.916 8.920 0.140 41 pi- 1 -211 39 0.185 0.612 7.475 7.504 0.140 42 (pi0) 11 111 39 0.558 -0.840 2.676 2.863 0.135 43 (omega) 11 223 39 -0.732 0.970 15.262 15.332 0.809 44 (rho+) 11 213 39 0.424 0.253 2.718 2.853 0.716 45 (rho-) 11 -213 39 0.667 0.541 4.158 4.368 1.028 46 (eta) 11 221 39 -0.511 0.179 3.241 3.331 0.547 47 (rho+) 11 213 39 -0.527 0.289 11.472 11.513 0.760 48 (pi0) 11 111 39 0.944 0.149 -2.343 2.533 0.135 49 pi- 1 -211 39 0.188 0.113 -0.245 0.357 0.140 50 n0 1 2112 39 -0.587 -0.293 -5.275 5.398 0.940 51 (Deltabar+) 11 -1114 39 0.457 0.341 -25.340 25.378 1.260 52 (rho-) 11 -213 39 -0.170 0.272 -374.781 374.782 0.747 53 gamma 1 22 20 -0.076 0.015 -0.435 0.441 0.000 54 gamma 1 22 20 -0.984 0.236 -3.482 3.626 0.000 55 pi- 1 -211 21 -0.366 -0.355 -1.132 1.249 0.140 56 pi+ 1 211 21 0.051 -0.196 -0.676 0.720 0.140 57 (pi0) 11 111 21 -0.119 -0.263 -2.052 2.076 0.135 58 pi- 1 -211 23 -0.145 -0.104 0.000 0.227 0.140 59 pi+ 1 211 23 0.026 0.045 0.163 0.221 0.140 60 (pi0) 11 111 23 -0.114 -0.072 0.046 0.196 0.135 61 p+ 1 2212 24 -0.476 0.157 0.055 1.065 0.938 62 pi+ 1 211 24 -0.015 -0.128 -0.136 0.234 0.140 63 pi- 1 -211 25 0.464 0.472 0.158 0.695 0.140 64 (pi0) 11 111 25 -0.141 -0.065 -0.050 0.211 0.135 65 pbar- 1 -2212 26 0.355 -0.195 0.781 1.287 0.938 66 pi+ 1 211 26 0.144 -0.070 -0.022 0.214 0.140 67 (K0) 11 311 27 -0.440 -0.142 1.590 1.729 0.498 68 (pi0) 11 111 27 -0.025 -0.277 0.436 0.535 0.135 69 K_L0 1 130 28 -0.910 -0.098 0.470 1.143 0.498 70 pi- 1 -211 29 -0.116 -0.343 3.714 3.735 0.140 71 pi+ 1 211 29 0.584 -0.385 2.807 2.896 0.140 72 gamma 1 22 32 0.162 0.188 23.736 23.737 0.000 73 gamma 1 22 32 0.144 0.241 16.663 16.665 0.000 74 gamma 1 22 33 0.006 -0.035 0.811 0.812 0.000 75 gamma 1 22 33 -0.423 -0.437 14.842 14.854 0.000 76 (K0) 11 311 34 0.268 -0.457 10.831 10.856 0.498 77 pi+ 1 211 34 -0.155 0.016 8.411 8.414 0.140 78 (Kbar0) 11 -311 35 -0.293 -0.280 37.549 37.554 0.498 79 pi- 1 -211 35 0.153 0.083 10.394 10.396 0.140 80 gamma 1 22 36 0.159 0.039 16.170 16.171 0.000 81 gamma 1 22 36 0.170 0.167 15.271 15.273 0.000 82 p+ 1 2212 37 0.134 -0.367 408.166 408.167 0.938 83 pi- 1 -211 37 0.457 -0.062 140.558 140.559 0.140 84 gamma 1 22 42 0.340 -0.427 1.578 1.669 0.000 85 gamma 1 22 42 0.218 -0.413 1.099 1.194 0.000 86 pi+ 1 211 43 -0.520 0.610 6.133 6.187 0.140 87 pi- 1 -211 43 -0.168 0.097 4.388 4.395 0.140 88 (pi0) 11 111 43 -0.044 0.264 4.741 4.750 0.135 89 pi+ 1 211 44 -0.059 0.090 1.680 1.689 0.140 90 (pi0) 11 111 44 0.484 0.162 1.038 1.164 0.135 91 pi- 1 -211 45 0.620 0.763 2.509 2.698 0.140 92 (pi0) 11 111 45 0.047 -0.222 1.649 1.670 0.135 93 gamma 1 22 46 0.066 0.179 0.945 0.964 0.000 94 gamma 1 22 46 -0.576 0.001 2.296 2.367 0.000 95 pi+ 1 211 47 -0.603 -0.018 7.990 8.013 0.140 96 (pi0) 11 111 47 0.076 0.307 3.483 3.499 0.135 97 gamma 1 22 48 0.652 0.161 -1.570 1.707 0.000 98 gamma 1 22 48 0.292 -0.012 -0.773 0.826 0.000 99 nbar0 1 -2112 51 0.123 0.133 -18.926 18.950 0.940 100 pi+ 1 211 51 0.333 0.208 -6.415 6.428 0.140 101 pi- 1 -211 52 0.015 -0.056 -17.346 17.346 0.140 102 (pi0) 11 111 52 -0.185 0.328 -357.435 357.436 0.135 103 gamma 1 22 57 -0.088 -0.083 -0.528 0.542 0.000 104 gamma 1 22 57 -0.031 -0.180 -1.524 1.535 0.000 105 gamma 1 22 60 -0.132 -0.094 0.033 0.165 0.000 106 gamma 1 22 60 0.018 0.022 0.013 0.031 0.000 107 gamma 1 22 64 0.000 -0.009 -0.059 0.060 0.000 108 gamma 1 22 64 -0.140 -0.057 0.010 0.152 0.000 109 K_L0 1 130 67 -0.440 -0.142 1.590 1.729 0.498 110 gamma 1 22 68 0.043 -0.194 0.244 0.314 0.000 111 gamma 1 22 68 -0.068 -0.083 0.193 0.220 0.000 112 K_S0 1 310 76 0.268 -0.457 10.831 10.856 0.498 113 K_S0 1 310 78 -0.293 -0.280 37.549 37.554 0.498 114 gamma 1 22 88 0.027 0.198 3.507 3.513 0.000 115 gamma 1 22 88 -0.070 0.065 1.234 1.238 0.000 116 gamma 1 22 90 0.322 0.077 0.788 0.854 0.000 117 gamma 1 22 90 0.162 0.085 0.250 0.310 0.000 118 gamma 1 22 92 0.067 -0.034 0.482 0.488 0.000 119 gamma 1 22 92 -0.020 -0.188 1.167 1.182 0.000 120 gamma 1 22 96 -0.022 0.115 1.685 1.689 0.000 121 gamma 1 22 96 0.098 0.192 1.798 1.810 0.000 122 gamma 1 22 102 -0.011 0.141 -105.790 105.790 0.000 123 gamma 1 22 102 -0.174 0.187 -251.645 251.645 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 10 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 -0.204 0.619 962.919 997.079 258.752 4 !p_diffrbar? 21-9902210 2 0.204 -0.619 -962.919 962.921 1.584 ============================================================================== 5 (uu_1) A 12 2203 3 -0.191 0.579 901.017 901.018 0.771 6 (g) I 12 21 3 0.004 -0.011 -17.079 17.079 0.000 7 (d) V 11 1 3 -0.017 0.051 78.982 78.982 0.330 8 pi+ 1 211 4 0.080 0.031 -47.100 47.100 0.140 9 (Deltabar--) 11 -2224 4 0.124 -0.650 -915.820 915.821 1.352 ============================================================================== 10 (string) 11 92 5 -0.204 0.619 962.919 997.079 258.752 11 (rho+) 11 213 10 0.255 0.251 340.963 340.964 0.665 12 (Delta0) 11 2114 10 -0.191 -0.319 256.653 256.656 1.221 13 (rho+) 11 213 10 -0.232 0.873 125.877 125.882 0.689 14 pi- 1 -211 10 -0.310 -0.117 55.072 55.073 0.140 15 (Kbar0) 11 -313 10 0.489 -0.265 95.292 95.297 0.896 16 (eta') 11 331 10 -0.114 0.431 17.786 17.818 0.958 17 (K0) 11 313 10 -0.224 -0.202 3.472 3.610 0.941 18 (pi0) 11 111 10 0.469 -0.012 1.235 1.328 0.135 19 (rho+) 11 213 10 -0.518 -0.093 0.632 1.125 0.768 20 (eta') 11 331 10 -0.279 0.156 0.235 1.037 0.958 21 pi- 1 -211 10 0.542 -0.579 1.307 1.535 0.140 22 (rho0) 11 113 10 0.082 0.345 -0.378 0.954 0.801 23 (omega) 11 223 10 -0.321 0.081 -0.134 0.861 0.783 24 (rho+) 11 213 10 0.097 0.497 -1.379 1.626 0.698 25 K- 1 -321 10 0.606 -0.596 0.109 0.988 0.494 26 (phi) 11 333 10 -0.667 0.255 -2.743 3.013 1.021 27 Sigmabar+ 1 -3112 10 0.026 0.205 -1.959 2.306 1.197 28 (rho0) 11 113 10 -0.120 0.077 -1.985 2.084 0.616 29 (Delta0) 11 2114 10 0.677 -0.226 -5.091 5.291 1.252 30 (rho-) 11 -213 10 0.027 -0.015 -0.087 0.719 0.714 31 (rho+) 11 213 10 -1.175 -0.200 1.975 2.479 0.909 32 pi- 1 -211 10 0.592 -0.394 0.704 1.010 0.140 33 (Kbar0) 11 -313 10 0.161 0.137 18.119 18.143 0.904 34 (K0) 11 311 10 -0.412 0.384 11.883 11.907 0.498 35 (eta') 11 331 10 0.336 -0.056 45.360 45.371 0.958 36 pbar- 1 -2212 9 0.319 -0.226 -642.251 642.252 0.938 37 pi- 1 -211 9 -0.195 -0.424 -273.568 273.569 0.140 38 pi+ 1 211 11 0.314 -0.102 131.328 131.328 0.140 39 (pi0) 11 111 11 -0.058 0.353 209.635 209.636 0.135 40 p+ 1 2212 12 -0.370 -0.246 210.543 210.546 0.938 41 pi- 1 -211 12 0.179 -0.073 46.110 46.111 0.140 42 pi+ 1 211 13 -0.029 -0.016 38.538 38.538 0.140 43 (pi0) 11 111 13 -0.203 0.889 87.340 87.344 0.135 44 (Kbar0) 11 -311 15 0.150 0.097 41.181 41.185 0.498 45 (pi0) 11 111 15 0.340 -0.362 54.110 54.113 0.135 46 gamma 1 22 16 -0.215 0.012 1.071 1.093 0.000 47 (rho0) 11 113 16 0.101 0.419 16.715 16.725 0.380 48 K+ 1 321 17 -0.017 -0.366 2.902 2.966 0.494 49 pi- 1 -211 17 -0.208 0.164 0.570 0.644 0.140 50 gamma 1 22 18 0.189 -0.068 0.563 0.598 0.000 51 gamma 1 22 18 0.280 0.056 0.672 0.730 0.000 52 pi+ 1 211 19 -0.244 -0.095 0.743 0.800 0.140 53 (pi0) 11 111 19 -0.274 0.002 -0.111 0.325 0.135 54 pi- 1 -211 20 -0.116 0.093 -0.027 0.206 0.140 55 pi+ 1 211 20 -0.192 0.005 0.084 0.252 0.140 56 (eta) 11 221 20 0.029 0.058 0.178 0.579 0.547 57 pi+ 1 211 22 -0.323 0.057 -0.195 0.407 0.140 58 pi- 1 -211 22 0.405 0.288 -0.183 0.548 0.140 59 pi+ 1 211 23 -0.286 -0.091 0.017 0.332 0.140 60 pi- 1 -211 23 -0.134 0.134 0.073 0.247 0.140 61 (pi0) 11 111 23 0.099 0.038 -0.224 0.282 0.135 62 pi+ 1 211 24 0.368 0.337 -0.879 1.020 0.140 63 (pi0) 11 111 24 -0.271 0.160 -0.500 0.606 0.135 64 K- 1 -321 26 -0.274 0.085 -1.563 1.664 0.494 65 K+ 1 321 26 -0.392 0.170 -1.180 1.349 0.494 66 pi+ 1 211 28 0.083 0.089 -1.686 1.696 0.140 67 pi- 1 -211 28 -0.202 -0.012 -0.300 0.388 0.140 68 p+ 1 2212 29 0.518 -0.421 -4.171 4.327 0.938 69 pi- 1 -211 29 0.159 0.195 -0.920 0.964 0.140 70 pi- 1 -211 30 0.238 -0.033 -0.286 0.399 0.140 71 (pi0) 11 111 30 -0.211 0.018 0.199 0.321 0.135 72 pi+ 1 211 31 -0.601 0.204 1.460 1.598 0.140 73 (pi0) 11 111 31 -0.573 -0.405 0.515 0.881 0.135 74 (Kbar0) 11 -311 33 0.323 -0.088 13.647 13.660 0.498 75 (pi0) 11 111 33 -0.162 0.225 4.473 4.483 0.135 76 K_S0 1 310 34 -0.412 0.384 11.883 11.907 0.498 77 gamma 1 22 35 0.000 0.011 12.063 12.063 0.000 78 (omega) 11 223 35 0.337 -0.067 33.297 33.308 0.800 79 gamma 1 22 39 0.004 0.298 157.765 157.765 0.000 80 gamma 1 22 39 -0.063 0.055 51.870 51.870 0.000 81 gamma 1 22 43 -0.153 0.692 72.741 72.744 0.000 82 gamma 1 22 43 -0.050 0.196 14.599 14.600 0.000 83 K_L0 1 130 44 0.150 0.097 41.181 41.185 0.498 84 gamma 1 22 45 0.190 -0.194 22.330 22.332 0.000 85 gamma 1 22 45 0.150 -0.168 31.780 31.781 0.000 86 pi- 1 -211 47 -0.083 0.178 6.921 6.925 0.140 87 pi+ 1 211 47 0.184 0.241 9.794 9.800 0.140 88 gamma 1 22 53 -0.162 0.039 -0.123 0.207 0.000 89 gamma 1 22 53 -0.112 -0.036 0.011 0.119 0.000 90 (pi0) 11 111 56 0.037 -0.048 0.051 0.157 0.135 91 (pi0) 11 111 56 0.006 0.118 0.200 0.268 0.135 92 (pi0) 11 111 56 -0.015 -0.012 -0.073 0.154 0.135 93 gamma 1 22 61 0.107 0.036 -0.240 0.265 0.000 94 gamma 1 22 61 -0.008 0.002 0.016 0.017 0.000 95 gamma 1 22 63 -0.049 0.018 -0.200 0.207 0.000 96 gamma 1 22 63 -0.222 0.142 -0.300 0.399 0.000 97 gamma 1 22 71 -0.200 0.057 0.147 0.255 0.000 98 gamma 1 22 71 -0.012 -0.039 0.052 0.066 0.000 99 gamma 1 22 73 -0.063 -0.103 0.107 0.161 0.000 100 gamma 1 22 73 -0.510 -0.302 0.408 0.720 0.000 101 K_L0 1 130 74 0.323 -0.088 13.647 13.660 0.498 102 gamma 1 22 75 -0.006 0.109 1.253 1.258 0.000 103 gamma 1 22 75 -0.156 0.115 3.220 3.226 0.000 104 pi- 1 -211 78 0.124 -0.171 19.502 19.504 0.140 105 pi+ 1 211 78 -0.058 0.082 7.961 7.963 0.140 106 (pi0) 11 111 78 0.271 0.021 5.834 5.841 0.135 107 gamma 1 22 90 0.038 -0.048 -0.035 0.071 0.000 108 gamma 1 22 90 -0.001 0.000 0.086 0.086 0.000 109 gamma 1 22 91 0.068 0.077 0.096 0.141 0.000 110 gamma 1 22 91 -0.062 0.041 0.104 0.128 0.000 111 gamma 1 22 92 0.035 -0.058 -0.030 0.074 0.000 112 gamma 1 22 92 -0.050 0.046 -0.042 0.080 0.000 113 gamma 1 22 106 0.185 0.046 4.884 4.888 0.000 114 gamma 1 22 106 0.085 -0.025 0.949 0.954 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 11 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 0.074 0.269 977.607 977.607 0.938 4 !p_diffrbar? 21-9902210 2 -0.074 -0.269 -977.607 982.393 96.855 ============================================================================== 5 p+ 1 2212 3 0.074 0.269 977.607 977.607 0.938 6 (uu_1bar) A 12 -2203 4 -0.066 -0.237 -860.927 860.927 0.771 7 (g) I 12 21 4 0.000 0.001 2.393 2.393 0.000 8 (dbar) V 11 -1 4 -0.009 -0.033 -119.073 119.073 0.330 ============================================================================== 9 (string) 11 92 6 -0.074 -0.269 -977.607 982.393 96.855 10 (rho-) 11 -213 9 0.026 -0.120 -391.405 391.406 0.795 11 nbar0 1 -2112 9 -0.387 -0.016 -214.919 214.921 0.940 12 pi- 1 -211 9 0.444 -0.108 -229.330 229.331 0.140 13 pi+ 1 211 9 0.089 0.168 -10.415 10.418 0.140 14 (omega) 11 223 9 -0.028 -0.297 -3.298 3.403 0.785 15 (omega) 11 223 9 -0.011 0.260 -8.090 8.132 0.780 16 (K0) 11 311 9 0.295 0.069 0.112 0.594 0.498 17 K- 1 -321 9 -0.472 0.025 -0.663 0.952 0.494 18 (omega) 11 223 9 -0.170 -0.022 -1.472 1.679 0.790 19 (Delta0) 11 2114 9 0.006 0.133 -0.451 1.375 1.292 20 (eta') 11 331 9 0.681 -0.416 -1.024 1.614 0.958 21 (Deltabar+) 11 -1114 9 -0.686 0.167 -0.325 1.470 1.248 22 pi- 1 -211 9 0.348 -0.321 0.081 0.500 0.140 23 pi+ 1 211 9 -0.137 0.025 -4.007 4.012 0.140 24 (rho-) 11 -213 9 -0.047 0.410 -7.294 7.336 0.662 25 pi+ 1 211 9 -0.387 -0.309 -4.544 4.573 0.140 26 (rho0) 11 113 9 0.331 0.139 -14.328 14.354 0.786 27 (pi0) 11 111 9 -0.095 0.254 -2.242 2.263 0.135 28 pi- 1 -211 9 0.246 -0.322 -3.253 3.282 0.140 29 (rho+) 11 213 9 -0.698 0.403 -38.982 38.998 0.799 30 (rho-) 11 -213 9 0.605 -0.438 -15.697 15.721 0.434 31 pi+ 1 211 9 -0.028 0.050 -26.060 26.060 0.140 32 pi- 1 -211 10 0.328 0.067 -266.642 266.643 0.140 33 (pi0) 11 111 10 -0.302 -0.187 -124.762 124.763 0.135 34 gamma 1 22 14 -0.274 -0.444 -2.118 2.181 0.000 35 (pi0) 11 111 14 0.246 0.147 -1.180 1.222 0.135 36 pi+ 1 211 15 0.172 -0.127 -2.310 2.324 0.140 37 pi- 1 -211 15 -0.167 0.278 -2.738 2.761 0.140 38 (pi0) 11 111 15 -0.016 0.109 -3.042 3.047 0.135 39 K_S0 1 310 16 0.295 0.069 0.112 0.594 0.498 40 pi+ 1 211 18 0.207 -0.097 -0.389 0.472 0.140 41 pi- 1 -211 18 -0.340 -0.005 -0.679 0.773 0.140 42 (pi0) 11 111 18 -0.037 0.080 -0.403 0.434 0.135 43 n0 1 2112 19 -0.053 0.349 -0.224 1.028 0.940 44 (pi0) 11 111 19 0.059 -0.216 -0.227 0.346 0.135 45 gamma 1 22 20 -0.064 0.042 -0.063 0.099 0.000 46 (rho0) 11 113 20 0.745 -0.458 -0.961 1.515 0.778 47 nbar0 1 -2112 21 -0.618 0.357 -0.328 1.225 0.940 48 pi+ 1 211 21 -0.068 -0.190 0.003 0.245 0.140 49 pi- 1 -211 24 0.113 0.235 -1.218 1.253 0.140 50 (pi0) 11 111 24 -0.160 0.174 -6.077 6.083 0.135 51 pi+ 1 211 26 0.409 -0.178 -5.847 5.865 0.140 52 pi- 1 -211 26 -0.078 0.316 -8.482 8.489 0.140 53 gamma 1 22 27 -0.055 0.011 -0.467 0.470 0.000 54 gamma 1 22 27 -0.041 0.243 -1.776 1.793 0.000 55 pi+ 1 211 29 -0.119 0.202 -3.384 3.395 0.140 56 (pi0) 11 111 29 -0.580 0.201 -35.598 35.604 0.135 57 pi- 1 -211 30 0.095 -0.029 -5.002 5.005 0.140 58 (pi0) 11 111 30 0.510 -0.409 -10.695 10.715 0.135 59 gamma 1 22 33 -0.234 -0.169 -112.966 112.966 0.000 60 gamma 1 22 33 -0.068 -0.018 -11.796 11.797 0.000 61 gamma 1 22 35 0.091 0.003 -0.542 0.549 0.000 62 gamma 1 22 35 0.155 0.144 -0.638 0.672 0.000 63 gamma 1 22 38 0.056 0.070 -1.835 1.837 0.000 64 gamma 1 22 38 -0.072 0.040 -1.207 1.210 0.000 65 gamma 1 22 42 -0.041 0.016 -0.025 0.050 0.000 66 gamma 1 22 42 0.004 0.065 -0.378 0.384 0.000 67 gamma 1 22 44 -0.016 0.013 -0.014 0.024 0.000 68 gamma 1 22 44 0.075 -0.229 -0.213 0.322 0.000 69 pi- 1 -211 46 0.826 -0.332 -0.550 1.055 0.140 70 pi+ 1 211 46 -0.080 -0.126 -0.411 0.459 0.140 71 gamma 1 22 50 0.019 0.026 -1.337 1.338 0.000 72 gamma 1 22 50 -0.179 0.148 -4.739 4.745 0.000 73 gamma 1 22 56 -0.292 0.104 -21.778 21.780 0.000 74 gamma 1 22 56 -0.288 0.097 -13.820 13.824 0.000 75 gamma 1 22 58 0.452 -0.409 -9.827 9.846 0.000 76 gamma 1 22 58 0.059 -0.001 -0.868 0.870 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGen:Will initialize JetSet. 1 **************************************************************************** ************************************************************************** PPP Y Y TTTTT H H III A JJJJ EEEE TTTTT SSS EEEE TTTTT P P Y Y T H H I A A J E T S E T PPP Y T HHHHH I AAAAA J EEE T SSS EEE T P Y T H H I A A J J E T S E T P Y T H H III A A JJ EEEE T SSS EEEE T ...... Welcome to the Lund Monte Carlo! :::!!::::::::::: ::::::!!:::::::::::::: Warning: this is jetset7.4_fkw ::::::::!!:::::::::::::::: All refs to pythia were excised! :::::::::!!::::::::::::::::: PYTHIA !!! :::::::::!!::::::::::::::::: it was altered by fkw 7.410 ::::::::!!::::::::::::::::! on 3.29.00 20 Jan 1997 ::::::!!:::::::::::::: !! to this effect !!! !! :::!!::::::::::: !! Main author: !! !* -><- * !! Torbjorn Sjostrand !! !! !! Dept. of theoretical physics 2 !! !! !! University of Lund !! !! Solvegatan 14A !! ep !! S-223 62 Lund, Sweden !! !! phone: +46 - 46 - 222 48 16 !! pp !! E-mail: torbjorn@thep.lu.se !! e+e- !! !! !! Copyright Torbjorn Sjostrand !! and CERN, Geneva 1993 The latest program versions and documentation is found on WWW address http://thep.lu.se/tf2/staff/torbjorn/Welcome.html This is fkw version !!! When you cite these programs, priority should always be given to the latest published description. Currently this is T. Sjostrand, Computer Physics Commun. 82 (1994) 74. The most recent long description (unpublished) is T. Sjostrand, LU TP 95-20 and CERN-TH.7112/93 (revised August 1995). Also remember that the programs, to a large extent, represent original physics research. Other publications of special relevance to your studies may therefore deserve separate mention. ************************************************************************** ************************************************************************** Warning: Jetset7.4_fkw independent of PYTHIA! MSTJ(104) changed from 5 to 5 MSTJ(107) changed from 0 to 1 MSTJ(11) changed from 4 to 4 PARJ(41) changed from 0.30000 to 0.30000 PARJ(42) changed from 0.58000 to 0.58000 PARJ(43) changed from 0.50000 to 0.50000 PARJ(44) changed from 0.90000 to 0.90000 PARJ(54) changed from -0.05000 to -0.04000 PARJ(55) changed from -0.00500 to -0.00400 MSTJ(26) changed from 2 to 0 PARJ(13) changed from 0.75000 to 0.40000 PARJ(26) changed from 0.40000 to 0.10000 PARJ(25) changed from 1.00000 to 0.60000 PARJ(2) changed from 0.30000 to 0.26000 PARJ(12) changed from 0.60000 to 0.55000 PARJ(11) changed from 0.50000 to 0.40000 PARJ(1) changed from 0.10000 to 0.06500 PARJ(14) changed from 0.00000 to 0.05000 PARJ(15) changed from 0.00000 to 0.05000 PARJ(16) changed from 0.00000 to 0.05000 PARJ(17) changed from 0.00000 to 0.05000 PARJ(33) changed from 0.80000 to 0.30000 EvtGen:Done initializing JetSet. FileInput Begin processing 100th record. Run 222530, Trigger 99 1 ****************************************************************************** * * * ========================== * * PHOTOS, Version: 2. 2 * * Released at: 15/ 3/99 * * ========================== * * * * PHOTOS QED Corrections in Particle Decays * * * * Monte Carlo Program - by E. Barberio, B. van Eijk and Z. Was * * From version 2.0 on - by E.B. and Z.W. * * * ******************************************************************************** * * * Internal input parameters: * * * * INTERF= T ISEC= T IFTOP= T * * ALPHA_QED= 0.00730 XPHCUT= 0.01000 * * * * option with interference is active * * option with double photons is active * * emision in t tbar production is active * * * * WARNING (1): /HEPEVT/ is not anymore the standard common block * * This version of PHOTOS uses /XHEPEVT/ with double * * precision (REAL8) variables * WARNING (2): check dims. of /hepevt/ /phoqed/ /ph_hepevt/. * * HERE: d_h_nmxhep=4000 and NMXHEP=10000 * * * ****************************************************************************** Message from PHCORK(MODCOR):: initialization MODOP=1 -- no corrections on event: DEFAULT ****************************************************************************** * * * PHOTOS: Available Phase Space below Cut-off: 0.005930 GeV/c^2 * * * ****************************************************************************** ******************************************************** =====> TRACK 296 STACK NR 25 NTMULT= 12770 POSITRON TOFG = 9.120 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS 120.9112 74.3787 -157.1351 141.9567 TOF3 14.1629 0.8807 0.0 eV 10.855 MeV NULL * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 62 Random Seeds = 9876 54321 Track 903 stack 126 NTMULT 5491 EM_Shower Time of flight 9.541 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 71 Random Seeds = 9876 54321 Track 1307 stack 140 NTMULT 12309 GAMMA Time of flight 5.664 ns Track 1307 stack 140 NTMULT 12309 GAMMA Time of flight 5.664 ns =====> TRACK 856 STACK NR 0 NTMULT= 6072 PION + TOFG = 0.289 NS X Y Z R FileInput Begin processing 200th record. Run 222530, Trigger 199 FileInput Begin processing 300th record. Run 222530, Trigger 299 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:27:05 CDT run = 222530 event = 366 FileInput Begin processing 400th record. Run 222530, Trigger 399 FileInput Begin processing 500th record. Run 222530, Trigger 499 FileInput Begin processing 600th record. Run 222530, Trigger 599 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:46:47 CDT run = 222530 event = 630 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:49:15 CDT run = 222530 event = 667 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:50:57 CDT run = 222530 event = 690 FileInput Begin processing 700th record. Run 222530, Trigger 699 FileInput Begin processing 800th record. Run 222530, Trigger 799 FileInput Begin processing 900th record. Run 222530, Trigger 899 NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -7.4117 -12.8104 -36.1129 14.8000 PCBC 549 1.1528 8.0032 0.0 eV 34.000 MeV NULL * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 175 Random Seeds = 9876 54321 Track 1302 stack 121 NTMULT 9953 GAMMA Time of flight 7.074 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 270 Random Seeds = 9876 54321 Track 744 stack 183 NTMULT 4897 EM_Shower Time of flight 8.744 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 288 Random Seeds = 9876 54321 Track 344 stack 27 NTMULT 11517 GAMMA Time of flight 71.367 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 321 Random Seeds = 9876 54321 Track 192 stack 10 NTMULT 9920 GAMMA Time of flight 8.821 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 450 Random Seeds = 9876 54321 Track 372 stack 228 NTMULT 94 GAMMA Time of flight 6.656 ns Track 372 stack 228 NTMULT 94 GAMMA Time of flight 6.656 ns =====> TRACK 989 STACK NR 71 NTMULT= 2162 POSITRON TOFG = 11.165 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -7.4985 -12.7598 -37.9533 14.8000 PCBC 549 0.2175 1.7177 0.0 eV 21.641 MeV NULL -7.4985 -12.7598 -37.9533 14.8000 PCBC 549 0.2175 1.7177 0.0 eV 21.641 MeV NULL -7.4985 -12.7598 -37.9534 14.8000 PCBC 549 0.2176 1.7177 0.0 eV 21.641 MeV NULL * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 535 Random Seeds = 9876 54321 Track 182 stack 183 NTMULT 1085 GAMMA Time of flight 7.421 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 907 Random Seeds = 9876 54321 Track 69 stack 79 NTMULT 5194 GAMMA Time of flight 43.333 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 926 Random Seeds = 9876 54321 Track 524 stack 156 NTMULT 324 GAMMA Time of flight 50.960 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 932 Random Seeds = 9876 54321 Track 95 stack 99 NTMULT 2333 GAMMA Time of flight 7.817 ns Track 95 stack 99 NTMULT 2333 GAMMA Time of flight 7.817 ns =====> TRACK 90 STACK NR 91 NTMULT= 3615 GAMMA TOFG = 119.491 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -65.8355 -124.0343 -157.6360 140.4237 TOFN 88.2000****** 0.0 eV 6.577 MeV NULL * GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 963 Random Seeds = 9876 54321 Track 650 stack 240 NTMULT 514 EM_Shower Time of flight 7.299 ns HEPEVT before cleanup... nhep = 235 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99955 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99955 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57943 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61011 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20736 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97442 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20015 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40544 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87129 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95429 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66792 325.61189 136.38540 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63198 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90324 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83381 1266.46364 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03327 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47724 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79810 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84075 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93006 187.93241 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39089 286.39379 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59980 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15629 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21571 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 219 220 -1.58096 1.15562 -5.00465 5.66032 1.77700 182 (D(2010)+) 2 413 113 0 221 222 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36062 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 223 224 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K(892)~0) 2 -313 174 0 225 226 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 227 228 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 nu_tau 1 16 181 0 0 0 -0.29089 0.17232 -3.24674 3.26430 0.00000 220 pi- 1 -211 181 0 0 0 -1.29007 0.98330 -1.75791 2.39602 0.13957 221 (D0) 2 421 182 0 229 233 -0.75426 0.61140 -3.63763 4.20136 1.86450 222 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 223 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 224 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 225 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 226 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 227 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 228 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 229 pi+ 1 211 221 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 230 pi+ 1 211 221 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 231 pi- 1 -211 221 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 232 pi- 1 -211 221 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 233 (pi0) 2 111 221 0 234 235 -0.42541 0.12855 -1.28055 1.36217 0.13498 234 gamma 1 22 233 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 235 gamma 1 22 233 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 Remove particles : 1 219 Remove particles : 2 220 HEPEVT after cleanup: nhep= 233 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57942 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61012 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20737 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97441 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20014 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40546 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87128 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95428 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66791 325.61191 136.38539 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63197 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90323 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83386 1266.46362 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03326 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47723 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79811 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84076 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93007 187.93240 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39090 286.39380 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59979 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15630 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21570 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 0 0 -1.58096 1.15562 -5.00465 5.66032 1.77700 182 (D(2010)+) 2 413 113 0 219 220 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36061 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 221 222 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K(892)~0) 2 -313 174 0 223 224 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 225 226 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 (D0) 2 421 182 0 227 231 -0.75426 0.61140 -3.63763 4.20136 1.86450 220 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 221 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 222 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 223 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 224 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 225 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 226 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 227 pi+ 1 211 219 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 228 pi+ 1 211 219 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 229 pi- 1 -211 219 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 230 pi- 1 -211 219 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 231 (pi0) 2 111 219 0 232 233 -0.42541 0.12855 -1.28055 1.36217 0.13498 232 gamma 1 22 231 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 233 gamma 1 22 231 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 Will redecay tau # 181 ID = 15 Mother particle #. 113 ID = -511 TAUCHI : Tau mother is not W,Z,H..random polarity *************************************************************************** * ***TAUOLA LIBRARY: VERSION 2.6 **** * * *********August 1995************* * * AUTHORS: S.JADACH, Z.WAS*********** * * R. DECKER, M. JEZABEK, J.H.KUEHN*** * * AVAILABLE FROM: WASM AT CERNVM **** * * *** PUBLISHED IN COMP. PHYS. COMM.* * * *****CERN-TH-5856 SEPTEMBER 1990*** * * *****CERN-TH-6195 SEPTEMBER 1991*** * * *****CERN-TH-6793 NOVEMBER 1992*** * * *5 or more pi dec.: precision limited * ****DEXAY ROUTINE: INITIALIZATION** * * 0 JAK1 = DECAY MODE FERMION1 (TAU+) * * 0 JAK2 = DECAY MODE FERMION2 (TAU-) * ************************************************************************* *********************************************** YOU ARE USING THE 4 PION DECAY MODE FORM FACTORS WHICH HAVE BEEN DESCRIBED IN: R. DECKER, M. FINKEMEIER, P. HEILIGER AND H.H. JONSSON "TAU DECAYS INTO FOUR PIONS" UNIVERSITAET KARLSRUHE PREPRINT TTP 94-13 (1994); LNF-94/066(IR); HEP-PH/9410260 PLEASE NOTE THAT THIS ROUTINE IS USING PARAMETERS RELATED TO THE 3 PION DECAY MODE (A1 MODE), SUCH AS THE A1 MASS AND WIDTH (TAKEN FROM THE COMMON /PARMAS/) AND THE 2 PION VECTOR RESONANCE FORM FACTOR (BY USING THE ROUTINE FPIKM) THUS IF YOU DECIDE TO CHANGE ANY OF THESE, YOU WILL HAVE TO REFIT THE 4 PION PARAMETERS IN THE COMMON BLOCK /TAU4PI/, OR YOU MIGHT GET A BAD DISCRIPTION OF TAU -> 4 PIONS for these formfactors set in routine CHOICE for mnum.eq.102 -- AMRX=1.42 and GAMRX=.21 mnum.eq.101 -- AMRX=1.3 and GAMRX=.46 PROB1,PROB2=0.2 to optimize phase space parametrization ************************************************* coded by M. Finkemeier and P. Heiliger, 29. sept. 1994 incorporated to TAUOLA by Z. Was 17. jan. 1995 changed by: Z. Was on 17.01.95 changes by: M. Finkemeier on 30.01.95 HEPEVT after TAUOLA decays: NHEP= 242 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57942 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61012 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20737 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97441 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20014 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40546 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87128 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95428 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66791 325.61191 136.38539 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63197 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90323 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83386 1266.46362 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03326 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47723 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79811 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84076 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93007 187.93240 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39090 286.39380 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59979 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15630 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21570 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 234 235 -1.58096 1.15562 -5.00465 5.66032 1.77703 182 (D(2010)+) 2 413 113 0 219 220 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36061 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 221 222 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K(892)~0) 2 -313 174 0 223 224 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 225 226 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 (D0) 2 421 182 0 227 231 -0.75426 0.61140 -3.63763 4.20136 1.86450 220 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 221 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 222 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 223 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 224 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 225 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 226 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 227 pi+ 1 211 219 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 228 pi+ 1 211 219 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 229 pi- 1 -211 219 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 230 pi- 1 -211 219 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 231 (pi0) 2 111 219 0 232 233 -0.42541 0.12855 -1.28055 1.36217 0.13498 232 gamma 1 22 231 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 233 gamma 1 22 231 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 234 nu_tau 1 16 181 181 0 0 -0.91853 0.96889 -2.63278 2.95196 0.01000 235 (a_1(1260)-) 2 -20213 181 181 236 238 -0.66243 0.18673 -2.37187 2.70836 1.11165 236 (pi0) 2 111 235 FileInput Begin processing 1000th record. Run 222530, Trigger 999 FileInput Begin processing 1100th record. Run 222530, Trigger 1099 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:23:09 CDT run = 222530 event = 1134 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:24:44 CDT run = 222530 event = 1156 FileInput Begin processing 1200th record. Run 222530, Trigger 1199 FileInput Begin processing 1300th record. Run 222530, Trigger 1299 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:40:33 CDT run = 222530 event = 1386 FileInput Begin processing 1400th record. Run 222530, Trigger 1399 235 239 240 -0.25015 -0.29127 -0.62275 0.74394 0.13498 237 (pi0) 2 111 235 235 241 242 -0.45113 0.15724 -1.31473 1.40534 0.13498 238 pi- 1 -211 235 235 0 0 0.03885 0.32076 -0.43439 0.55908 0.13957 239 gamma 1 22 236 236 0 0 -0.23260 -0.26217 -0.61683 0.70945 0.00000 240 gamma 1 22 236 236 0 0 -0.01755 -0.02910 -0.00592 0.03450 0.00000 241 gamma 1 22 237 237 0 0 -0.17488 0.13189 -0.57973 0.61973 0.00000 242 gamma 1 22 237 237 0 0 -0.27626 0.02535 -0.73500 0.78561 0.00000 * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1042 Random Seeds = 9876 54321 Track 399 stack 74 NTMULT 13417 EM_Shower Time of flight 11.742 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1118 Random Seeds = 9876 54321 Track 971 stack 83 NTMULT 3755 GAMMA Time of flight 27.409 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1213 Random Seeds = 9876 54321 Track 1726 stack 23 NTMULT 16943 GAMMA Time of flight 8.367 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1257 Random Seeds = 9876 54321 Track 425 stack 47 NTMULT 3035 EM_Shower Time of flight 8.925 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1378 Random Seeds = 9876 54321 Track 2484 stack 31 NTMULT 19920 GAMMA Time of flight 10.663 ns Track 2484 stack 31 NTMULT 19920 GAMMA Time of flight 10.663 ns =====> TRACK 602 STACK NR 89 NTMULT= 14621 NEUTRINO TOFG = 833.100 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -120.9080 69.4648 157.7454 139.4422 TOFR ** 51.6234****** 0.0 eV 46.011 MeV NULL -120.9080 69.4648 157.7454 139.4422 TOFR 51.6234****** 0.0 eV 46.011 MeV NULL -120.9098 69.4658 157.7454 139.4441 TOFR 51.6254****** 0.0 eV 46.011 MeV NULL -120.9098 69.4658 157.7454 139.4441 TOFR 51.6254****** 0.0 eV 46.011 MeV NULL -120.9116 69.4667 157.7454 139.4461 TOFR 51.6274****** 0.0 eV 46.011 MeV NULL -120.9116 69.4667 157.7454 139.4461 TOFR 51.6274****** 0.0 eV 46.011 MeV NULL -120.9133 69.4676 157.7454 139.4481 TOFR 51.6294****** 0.0 eV 46.011 MeV NULL -120.9133 69.4676 157.7454 139.4481 TOFR 51.6294****** 0.0 eV 46.011 MeV NULL -120.9151 69.4685 157.7454 139.4501 TOFR 51.6314****** 0.0 eV 46.011 MeV NULL -120.9151 69.4685 157.7454 139.4501 TOFR 51.6314****** 0.0 eV 46.011 MeV NULL -120.9169 69.4694 157.7454 139.4521 TOFR 51.6334****** 0.0 eV 46.011 MeV NULL -120.9169 69.4694 157.7454 139.4521 TOFR 51.6334****** 0.0 eV 46.011 MeV NULL -120.9186 69.4703 157.7454 139.4541 TOFR 51.6354****** 0.0 eV 46.011 MeV NULL -120.9186 69.4703 157.7454 139.4541 TOFR 51.6354****** 0.0 eV 46.011 MeV NULL -120.9204 69.4713 157.7454 139.4561 TOFR 51.6374****** 0.0 eV 46.011 MeV NULL -120.9204 69.4713 157.7454 139.4561 TOFR 51.6374****** 0.0 eV 46.011 MeV NULL -120.9222 69.4722 157.7454 139.4581 TOFR 51.6394****** 0.0 eV 46.011 MeV NULL -120.9222 69.4722 157.7454 139.4581 TOFR 51.6394****** 0.0 eV 46.011 MeV NULL -120.9240 69.4731 157.7454 139.4601 TOFR 51.6414****** 0.0 eV 46.011 MeV NULL -120.9240 69.4731 157.7454 139.4601 TOFR 51.6414****** 0.0 eV 46.011 MeV NULL -120.9257 69.4740 157.7454 139.4621 TOFR 51.6434****** 0.0 eV 46.011 MeV NULL -120.9257 69.4740 157.7454 139.4621 TOFR 51.6434****** 0.0 eV 46.011 MeV NULL -120.9275 69.4749 157.7454 139.4641 TOFR 51.6454****** 0.0 eV 46.011 MeV NULL -120.9275 69.4749 157.7454 139.4641 TOFR 51.6454****** 0.0 eV 46.011 MeV NULL -120.9293 69.4758 157.7454 139.4660 TOFR 51.6474****** 0.0 eV 46.011 MeV NULL -120.9293 69.4758 157.7454 139.4660 TOFR 51.6474****** 0.0 eV 46.011 MeV NULL -120.9310 69.4767 157.7454 139.4680 TOFR 51.6494****** 0.0 eV 46.011 MeV NULL -120.9310 69.4767 157.7454 139.4680 TOFR 51.6494****** 0.0 eV 46.011 MeV NULL -120.9328 69.4777 157.7454 139.4700 TOFR 51.6514****** 0.0 eV 46.011 MeV NULL -120.9328 69.4777 157.7454 139.4700 TOFR 51.6514****** 0.0 eV 46.011 MeV NULL -120.9346 69.4786 157.7454 139.4720 TOFR 51.6534****** 0.0 eV 46.011 MeV NULL -120.9346 69.4786 157.7454 139.4720 TOFR 51.6534****** 0.0 eV 46.011 MeV NULL -120.9363 69.4795 157.7454 139.4740 TOFR 51.6554****** 0.0 eV 46.011 MeV NULL -120.9363 69.4795 157.7454 139.4740 TOFR 51.6554****** 0.0 eV 46.011 MeV NULL -120.9381 69.4804 157.7454 139.4760 TOFR 51.6574****** 0.0 eV 46.011 MeV NULL -120.9381 69.4804 157.7454 139.4760 TOFR 51.6574****** 0.0 eV 46.011 MeV NULL -120.9399 69.4813 157.7454 139.4780 TOFR 51.6594****** 0.0 eV 46.011 MeV NULL -120.9399 69.4813 157.7454 139.4780 TOFR 51.6594****** 0.0 eV 46.011 MeV NULL -120.9417 69.4822 157.7454 139.4800 TOFR 51.6614****** 0.0 eV 46.011 MeV NULL -120.9417 69.4822 157.7454 139.4800 TOFR 51.6614****** 0.0 eV 46.011 MeV NULL -120.9434 69.4832 157.7454 139.4820 TOFR 51.6634****** 0.0 eV 46.011 MeV NULL -120.9434 69.4832 157.7454 139.4820 TOFR 51.6634****** 0.0 eV 46.011 MeV NULL -120.9452 69.4841 157.7454 139.4840 TOFR 51.6654****** 0.0 eV 46.011 MeV NULL -120.9452 69.4841 157.7454 139.4840 TOFR 51.6654****** 0.0 eV 46.011 MeV NULL -120.9470 69.4850 157.7454 139.4859 TOFR 51.6674****** 0.0 eV 46.011 MeV NULL -120.9470 69.4850 157.7454 139.4859 TOFR 51.6674****** 0.0 eV 46.011 MeV NULL -120.9487 69.4859 157.7454 139.4879 TOFR 51.6694****** 0.0 eV 46.011 MeV NULL -120.9487 69.4859 157.7454 139.4879 TOFR 51.6694****** 0.0 eV 46.011 MeV NULL -120.9505 69.4868 157.7454 139.4899 TOFR 51.6714****** 0.0 eV 46.011 MeV NULL -120.9505 69.4868 157.7454 139.4899 TOFR 51.6714****** 0.0 eV 46.011 MeV NULL -120.9523 69.4877 157.7454 139.4919 TOFR 51.6734****** 0.0 eV 46.011 MeV NULL -120.9523 69.4877 157.7454 139.4919 TOFR 51.6734****** 0.0 eV 46.011 MeV NULL -120.9540 69.4886 157.7454 139.4939 TOFR 51.6754****** 0.0 eV 46.011 MeV NULL -120.9540 69.4886 157.7454 139.4939 TOFR 51.6754****** 0.0 eV 46.011 MeV NULL -120.9558 69.4896 157.7454 139.4959 TOFR 51.677FileInput Begin processing 1500th record. Run 222530, Trigger 1499 FileInput Begin processing 1600th record. Run 222530, Trigger 1599 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 FileInput Begin processing 1700th record. Run 222530, Trigger 1699 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:03:16 CDT run = 222530 event = 1717 FileInput Begin processing 1800th record. Run 222530, Trigger 1799 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:09:07 CDT run = 222530 event = 1803 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:10:11 CDT run = 222530 event = 1818 FileInput Begin processing 1900th record. Run 222530, Trigger 1899 FileInput Begin processing 2000th record. Run 222530, Trigger 1999 4****** 0.0 eV 46.011 MeV NULL -120.9558 69.4896 157.7454 139.4959 TOFR 51.6774****** 0.0 eV 46.011 MeV NULL -120.9576 69.4905 157.7454 139.4979 TOFR 51.6794****** 0.0 eV 46.011 MeV NULL -120.9576 69.4905 157.7454 139.4979 TOFR 51.6794****** 0.0 eV 46.011 MeV NULL -120.9594 69.4914 157.7454 139.4999 TOFR 51.6814****** 0.0 eV 46.011 MeV NULL -120.9594 69.4914 157.7454 139.4999 TOFR 51.6814****** 0.0 eV 46.011 MeV NULL -120.9611 69.4923 157.7454 139.5019 TOFR 51.6834****** 0.0 eV 46.011 MeV NULL -120.9611 69.4923 157.7454 139.5019 TOFR 51.6834****** 0.0 eV 46.011 MeV NULL -120.9629 69.4932 157.7454 139.5039 TOFR 51.6854****** 0.0 eV 46.011 MeV NULL * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1474 Random Seeds = 9876 54321 Track 608 stack 0 NTMULT 5513 MUON + Time of flight 414.684 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1512 Random Seeds = 9876 54321 Track 562 stack 79 NTMULT 4345 GAMMA Time of flight 11.666 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1531 Random Seeds = 9876 54321 Track 928 stack 55 NTMULT 7827 EM_Shower Time of flight 12.567 ns * GTRACK * More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1817 Random Seeds = 9876 54321 Track 968 stack 25 NTMULT 10715 EM_Shower Time of flight 9.505 ns RandomGenManager: saving current random state in/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat BGENERATOR - 1234567,86543 EvtGen - 454180350,623759606 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 588236872,1677473255 GRNDM - 665170008,1599803492 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 566322028,1646755273 QFL - 1364966998,1393215880 QQModule - 3721993,69470 SIMULATION - 434384655,1795091344 SVX_SIM - 1371400684,565566478 TAUOLA - 1054757888,1382485712 WGRAD - 9834262,35354 mbr - 2553412,53245 Call PYSTAT at endJob 1***** PYSTAT: Statistics on Number of Events and Cross-sections ***** ============================================================================== I I I I I Subprocess I Number of points I Sigma I I I I I I----------------------------------I----------------------------I (mb) I I I I I I N:o Type I Generated Tried I I I I I I ============================================================================== I I I I I 0 All included subprocesses I 9366 891336 I 7.392E+01 I I 11 f + f' -> f + f' (QCD) I 1405 0 I 1.119E+01 I I 12 f + fbar -> f' + fbar' I 0 0 I 0.000E+00 I I 13 f + fbar -> g + g I 1 0 I 7.961E-03 I I 28 f + g -> f + g I 1170 0 I 9.315E+00 I I 53 g + g -> f + fbar I 52 0 I 4.140E-01 I I 68 g + g -> g + g I 2337 0 I 1.861E+01 I I 91 Elastic scattering I 1958 1958 I 1.502E+01 I I 92 Single diffractive (XB) I 780 780 I 6.236E+00 I I 93 Single diffractive (AX) I 767 767 I 6.236E+00 I I 94 Double diffractive I 896 904 I 6.893E+00 I I 95 Low-pT scattering I 0 4999 I 0.000E+00 I I I I I ============================================================================== ***** Fraction of events that fail fragmentation cuts = 0.00362 ***** GOODBYE from TauolaModule Output run section ranges: (222530,1):(222530,2) Input run section ranges: (222530,1):(222530,2) * CotqModule Summary: In 76869572 Out 38525884 Compression 1.995 * SvxqModule Summary: In 124015024 Out 66651868 Compression 1.861 * * Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root * after 2001 records, with a total size of 286464kBytes written. * 2000 of those records were phyics events, * whose average size is: 144.kBytes/event *** #### SVT Summary - SVT #### Tracks in cracks: 0 Physical Barrel crossers: 0 Electrical Barrel crossers: 0 Wedge crossers: 0 Tracks in dead areas: 0 Number of selected tracks: 0 Total number of tracks: 0 #### End of SVT Summary - SVT #### Termination Summary Process cdfSim type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DEBUG .. DBEventLogger 146* 146 2 Geant3GeometryInterf .. GlobalLibraryLog 1199* 1199 3 SimulatorGeometryInt .. GlobalLibraryLog 74292* 74292 4 [CDFHEPEVT_NEW_HEPG] .. GlobalLibraryLog AppFileBasedStre 9366* 9366 5 [CDFTAUEVT_NEW_TAUG] .. GlobalLibraryLog AppFileBasedStre 9366* 9366 6 [G3_DECLARE_PHYS] .. GlobalLibraryLog 15832* 15832 7 [G3_INIT_PAWC] .. GlobalLibraryLog 1* 1 8 [G3_VOL_ORDER_Z] .. GlobalLibraryLog 1* 1 9 DBACC_G -! DBEventLogger 84* 84 10 [G3_DECLARE_LVOL] -! GlobalLibraryLog 1191* 1191 11 [G3_DECLARE_MAT] -! GlobalLibraryLog 34* 34 12 [G3_DECLARE_PHYS] -! GlobalLibraryLog 15831* 15831 13 [G3_DECLARE_ROT] -! GlobalLibraryLog 3311* 3311 14 [G3_DECLARE_TMED] -! GlobalLibraryLog 58* 58 15 Bfield::setUniform -i GlobalLibraryLog 1* 1 16 DBCON_J -i DBEventLogger 2* 2 17 DBCON_O -i DBEventLogger 98* 98 18 DEPRECATED -i CalibDB 26* 26 19 ParameterizedDeposit -i GlobalLibraryLog AppFileBasedStre 420* 420 20 SiPassiveMaterial::S -i GlobalLibraryLog 1* 1 21 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 22 [G3_DECLARE_TANG] -i GlobalLibraryLog 5857* 5857 23 [G3_OLD_ROT] -i GlobalLibraryLog 10598* 10598 24 [G3_PHYS_NO_PARENT] -i GlobalLibraryLog 1* 1 25 [G3_ROT_IDENTITY] -i GlobalLibraryLog 1922* 1922 26 [SIMINIT:BEGINJOB] -i SimInitManager 2* 2 27 [SIMINIT:FINISHED_IN -i SimInitManager 2* 2 28 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 1* 1 29 generateBeginFileFra -i FileInput openNextFile 1* 1 30 generateBeginRunSect -i FileInput nextEvent 1* 1 31 RCP put failure -w CalibrationManag 2 2 32 time out of bounds i -w GlobalLibraryLog AppFileBasedStre 4 4 33 CAFE word -e GlobalLibraryLog AppFileBasedStre 10 10 34 [PYTHIA_BMIXOF_R] -e Pythia 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DEBUG 0/0 0/0 222530/1 2 Geant3GeometryInterf 0/0 0/0 0/0 3 SimulatorGeometryInt 0/0 0/0 0/0 4 [CDFHEPEVT_NEW_HEPG] 222530/1 222530/1 222530/2000 5 [CDFTAUEVT_NEW_TAUG] 222530/1 222530/1 222530/2000 6 [G3_DECLARE_PHYS] 0/0 0/0 0/0 7 [G3_INIT_PAWC] 0/0 8 [G3_VOL_ORDER_Z] 0/0 9 DBACC_G 0/0 0/0 222530/1 10 [G3_DECLARE_LVOL] 0/0 0/0 0/0 11 [G3_DECLARE_MAT] 0/0 0/0 0/0 12 [G3_DECLARE_PHYS] 0/0 0/0 0/0 13 [G3_DECLARE_ROT] 0/0 0/0 0/0 14 [G3_DECLARE_TMED] 0/0 0/0 0/0 15 Bfield::setUniform 0/0 16 DBCON_J 0/0 222530/2000 17 DBCON_O 0/0 0/0 222530/1 18 DEPRECATED 0/0 0/0 222530/1 19 ParameterizedDeposit 222530/9 222530/20 222530/1999 20 SiPassiveMaterial::S 0/0 21 SiPassiveMaterial::c 0/0 0/0 0/0 22 [G3_DECLARE_TANG] 0/0 0/0 0/0 23 [G3_OLD_ROT] 0/0 0/0 0/0 24 [G3_PHYS_NO_PARENT] 0/0 25 [G3_ROT_IDENTITY] 0/0 0/0 0/0 26 [SIMINIT:BEGINJOB] 0/0 0/0 27 [SIMINIT:FINISHED_IN 0/0 0/0 28 calor::Calib: 222530/1 29 generateBeginFileFra 0/0 30 generateBeginRunSect 222530/1 31 RCP put failure 0/0 0/0 32 time out of bounds i 222530/1654 222530/1654 222530/1654 33 CAFE word 222530/366 222530/630 222530/1818 34 [PYTHIA_BMIXOF_R] 0/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 110203 110203 Success 20509 20509 Info 18938 18938 Warning 6 6 Error 11 11 [MCProd]: RUNMC_FLAG=READ_GENERATE_AND_SIMULATE EXEFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim rc=0 [MCProd]: before if [mode == 1] [MCProd]: before if [MODE == 0] MODE=2 [MCProd]: finally print TRGSim++ [MCProd]: ########################################################## [MCProd]: # TRGSim++ input TCL file: [MCProd]: ########################################################## ############################################################### # # this is an example script to run TRGSim # This example can the Consumer Interface so it connects # to the Consumer Server and requests events # # Tell the calibrarion manager the used set # you need TclUtils package available / in the tarball (it is there by default) #------------------------------------------------------------------------------ source $env(WORK_DIR)/TclUtils/scripts/getenv.tcl #------------------------------------------------------------------------------ set run [ getenv RUN_NUMBER 151435 ] set TRIGSIM_INPUT_FILE [ getenv TRIGSIM_INPUT_FILE trigsim.input ] set TRIGSIM_OUTPUT_FILE [ getenv TRIGSIM_OUTPUT_FILE trigsim.output ] #------------------------------------------------------------------------------ creator set TRG path enable AllPath path list show path ################################################### # ErrorLoggerManager ################################################### module talk ErrorLoggerManager errfile set TrgSimError.log limit set 10 severity set ERROR exit ################################################### # PuffModule ################################################### module talk PuffModule puffOnly add CalData exit ############################################################################# # puffing --- this is to be used with 5.3.1pre1 onward if there are Pad banks ############################################################################# # enable the following 2 modules if you have: PadSqz::COTQ,PadSqz::SVXQ, # otherwise disable module disable CalqModule module disable SmxqModule #module disable CotqModule #module disable SvxqModule ############################################################################### # CalorimetryModule - to be used when CalData needs to be repuffed # into D-banks and the following banks are NOT present in the event record # CEMD, CHAD, PHAD, PEMD, WHAD -- NB they could be puffed by CalqModule, # so if you use CalqModule, don't use CalorimetryModule ############################################################################### module talk CalorimetryModule makeDbanks set f show exit ################################################### # FileInput ################################################### module input DHInput module talk DHInput requireCatalog set t include file $TRIGSIM_INPUT_FILE show #include file root://fcdfsgi2.fnal.gov//cdf/data38a/s2/exotic/rolli/LQ/mc/signal/cdfsim/cdfSim_LQ_200_mumu_5000evt_531pre1.root #include file root://fcdfsgi2.fnal.gov//cdf/data38a/s2/exotic/rolli/LQ/mc/signal/cdfsim/cdfSim_LQ_200_5000evt_491.root_1 #input file /home/rolli/software/jan14/jh021cb9.0001bot0.sim #input file /mnt/firewire/simona/LQ/varie/top_herwig_1.root_1 #input file /mnt/firewire/simona/software/data/anakin/jh021cb9.0001bot0.sim #selectEvents exclude run=151435 event=1 #selectEvents exclude run=151435 event=2 #selectEvents exclude run=151435 event=19 exit ################################################### # FileOutput ################################################### module output FileOutput module talk FileOutput # output create test_stream TRGSim_MC_anakin_sim_prereq.root # output create test_stream TRGSim_MC_anakin_sim_prereqBit23.root # output create test_stream TRGSim_MC_anakin_sim_prereqBit48.root output create test_stream $TRIGSIM_OUTPUT_FILE # output create test_stream TRGSim_MC_LQ_4.9.1_XFTSimCorrected.root output path test_stream AllPath output keepList test_stream EVCL_StorableBank output keepList test_stream LRIH_StorableBank output keepList test_stream HEPG_StorableBank output keepList test_stream PESD_StorableBank output keepList test_stream CESD_StorableBank output keepList test_stream CPRD_StorableBank # Calo banks output keepList test_stream CEMD_StorableBank output keepList test_stream CHAD_StorableBank output keepList test_stream PEMD_StorableBank output keepList test_stream PHAD_StorableBank output keepList test_stream WHAD_StorableBank # for release prior 5.3.x #output keepList test_stream COTQ #output keepList test_stream COTD_StorableBank #output keepList test_stream SIXD_StorableBank # for releases posterior to 5.3.x check with the Production tcl switch... output keepList test_stream -add PadSqz::COTQ output keepList test_stream -add PadSqz::SVXQ output keepList test_stream COTM_StorableObject output keepList test_stream MuonXZHitColl output keepList test_stream MuonTHitColl output keepList test_stream IMUE_StorableBank #Muon banks output keepList test_stream CMPD_StorableBank output keepList test_stream CSPD_StorableBank output keepList test_stream CMUD_StorableBank output keepList test_stream CMXD_StorableBank output keepList test_stream SIXD_StorableBank output keepList test_stream MSVX_StorableBank output keepList test_stream ISLD_StorableBank output keepList test_stream MISL_StorableBank output keepList test_stream TOFD_StorableBank output keepList test_stream OBSP_StorableBank output keepList test_stream OBSV_StorableBank output keepList test_stream FastZVertexColl output keepList test_stream CdfTrackIdManager output keepList test_stream CdfTrackColl output keepList test_stream XFFD_StorableBank output keepList test_stream XFLD_StorableBank output keepList test_stream XTRD_StorableBank output keepList test_stream XTRPMatchboxData output keepList test_stream SVTD_StorableBank output keepList test_stream TC2D_StorableBank output keepList test_stream TC1D_StorableBank output keepList test_stream TL1D_StorableBank output keepList test_stream TL2D_StorableBank output keepList test_stream TCMD_StorableBank output keepList test_stream TFRD_StorableBank output keepList test_stream TL2D_StorableBank # IMPORTANT!!!!! KEEP THE LINE BELOW !!!! output dropList test_stream TL1D_StorableBank:CalTrig_Simulated_Trigger_Bank \ TL2D_StorableBank:Calorimeter_TL2D_Bank exit ################################################### # CalibrationManager ################################################### source $env(CDFSOFT2_DIR)/Production/setup_calibration.tcl # database options if { $USE_FRONTIER_DB } { set dbname "frontier" } else { set dbname "ofotl_prd_read" } ############################################################################### # TrigSimModule: this is the monitoring module, producing several of the # sets of histos of TrigMon ############################################################################### # see menu and change options: module talk TrigSimModule verbose set f # turns display server on/off startServer set f # turns TrigSim.map on/off saveMemoryMapFile set f saveROOTFile set t updateFreq set 10 jobName set TrigSim CalTriggerMonitor CalTriggerMonitor set t # Check_Freq set t exit XFTTriggerMonitor2 XFTTriggerMonitor2 set f # XFT_Check_Freq set f exit XTRDMonitor XTRDMonitor set f exit exit ###################################################### # TRGSim++ -- this is the main trigger emulation code ###################################################### module disable TrigSimModule #module disable svtsim #module disable XFTSim #module disable XTRPSim #module disable MuonTriggerMaker #module disable CalTriggerDataMaker #module disable L2Sim #module disable FredSim ################################################ #XFT # manual setting (without DB access) module talk XFTSim # to run on simulated data: # data_flag set false # useCOTQ set true data_flag set false # with 5.3.1pre1 onward CotqModule will puff a COTD back, for previous releasese activete the line below # useCOTQ set true # MCPedestalCorrection, it has been introduced for COTD in releases 5.x. onward # to be set to 0 for older MC data MCPedestalCorr set 1 DEBUG set true # debug_xfld set true # printlvl set 4 dataLinker_flag set false # minHitsReq set 5 5 5 5 # # patch for 1-miss 2-miss from run number # if {$run < 152636} then { minHitsReq set 10 10 10 10 puts "setting XFTSim for 2-miss" } else { minHitsReq set 11 11 11 11 } # # this is also run-dependant # startBrdShift set 11 shiftedBeam set true if {$run < 174770} then { beamOffset set r_0p4 } else { if {$run < 176574} then { beamOffset set r_0p55 } else { beamOffset set r_0p25 } } if {$run > 179056} then { puts "COT problems in this run ?" } # shiftedBeam set true # beamOffset set r_0p4 # startBrdShift set 11 monitoring set false debug_level set 1. useOnlineDB set false # summaryFile set false exit ################################################ #XTRP #To showcase the XTRPSimModule, we're going to set each talk-to, # even though some of the values are default # only assign boards to the first two slots # assign serial numbers 1-12 # specify REAL_MAP lookup talk XTRPSim # to run on simulated data: data_flag set false # to overwrite the run number for simulated data with a physical run number ( and access TriggerDB) # run_Number set $run # run_Number list # to get input from simulated XFLD standalone set false readMaps set false slot6 set true slot7 set true slot8 set true slot9 set true slot10 set true slot11 set true slot12 set true slot13 set true slot14 set true slot15 set true slot16 set true slot17 set true serialNum0 set 1 serialNum1 set 2 serialNum2 set 3 serialNum3 set 4 serialNum4 set 5 serialNum5 set 6 serialNum6 set 7 serialNum7 set 8 serialNum8 set 9 serialNum9 set 10 serialNum10 set 11 serialNum11 set 12 lookupVar set 3 corkSeed set 0 # not really needed, we're using REAL_MAPS # 1 for real data - 0 for simulated # data_flag set f DataDB set $dbname exit ################################################ ##svtsim module talk svtsim ################################################ # is using realistic simulation ################ ############################################### dataFileDir set "$env(CDFSOFT2_DIR)/svtsim/svtdata" # this is from Simona's page # DBRunNumber set 142110 writeBank set true useDB set true dbConn set $dbname debugPrint set f sixdProcessName set "NSIM" sixdDescription set "CORRECTED" BeamMenu useBeamLineFromDatabase set false useBeamLineFromAsciiFile set true beamDatabaseFileName set "$env(CDFSOFT2_DIR)/svtsim/test/testSVTBeam" exit show exit ################################################ #MuonTrigger module talk MuonTriggerMaker show exit ################################################ ################################################### # CalTriggerDataMaker ################################################### module talk CalTriggerDataMaker online set t online list debug_level set 0.0 debug_level list DEBUG set f use_hardware_L1 set f use_software_CAL_banks set t run_Number set $run run_Number list use_xtrp set t use_hardware_xtrd set f # database manager set to f when using CalibrationManager ( THIS CASE) databaseManager set f databaseManager list # commissioning run flag ( scale factors) #commissioning_run set f #commissioning_run list new_sum_rule_run set 137164 #need this for frontier DataDB set $dbname exit ################################################ filter -path AllPath SpikeFilter off ################################################ talk FredSim debug_DBAccess set f debug_Prefred set t debug_TFRD set t #turn this off for real data use_simTL1D set t check_TSID set f check_SL1D set f fill_SimTFRD set t #fake run number for mc data run_Number set $run #need this for frontier DataDB set $dbname exit module talk L2Sim standalone set false #need this for frontier DataDB set $dbname ### need to set runNumber when the MC file does NOT have a physical run number in the data stream # ex: if run number from data stream is 142110 DO NOT set runNumber # if run number from data stream is 0 then set it... #runNumber set $run exit ###################################################### #### Prereq - the following talk-to passes everything ###################################################### module enable Prereq module talk Prereq bankType set "Simulated Trigger Bank" bankType list printTriggerMap set true printTriggerSummary set true UseUnprescaledBits set true GetL1TriggerBitsFromTFRD set false GetL1TriggerBitsFromTL2D set true L1Accept set true # L1Accept set false # L1TriggerNames set L1_JET5_PS20 # L1TriggerBits set 21 48 L2Accept set true L3Accept set true production set false debug set false verbose set true show exit ################################################ #### Start running ################################################ #action on "Name Action" begin show path show timer exit [MCProd]: source /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/TRGSim++ /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/TriggerMods/test/run_TRGSim++_MC.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/TRGSim++ tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/TriggerMods/test/run_TRGSim++_MC.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 13-Aug-2007 00:24:23 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM <<<getenv>>> : Name= RUN_NUMBER Default= 151435 x= 222530 <<<getenv>>> : Name= TRIGSIM_INPUT_FILE Default= trigsim.input x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root <<<getenv>>> : Name= TRIGSIM_OUTPUT_FILE Default= trigsim.output x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root ** Listing of all available paths ** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 EventDump * no on 0 0 CalqModule * no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 CalorimetryModule * no on 0 0 XFTSim * no on 0 0 XTRPSim * no on 0 0 svtsim * no on 0 0 CalTriggerDataMaker * no on 0 0 MuonTriggerMaker * no on 0 0 TL1DMaker * no on 0 0 FredSim * yes on 0 0 SpikeFilter * no on 0 0 L2Sim * no on 0 0 TrigSimModule * yes on 0 0 Prereq ** Listing of all available paths ** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 EventDump * no on 0 0 CalqModule * no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 CalorimetryModule * no on 0 0 XFTSim * no on 0 0 XTRPSim * no on 0 0 svtsim * no on 0 0 CalTriggerDataMaker * no on 0 0 MuonTriggerMaker * no on 0 0 TL1DMaker * no on 0 0 FredSim * yes on 0 0 SpikeFilter * no on 0 0 L2Sim * no on 0 0 TrigSimModule * yes on 0 0 Prereq Current value of item(s) in the "CalorimetryModule" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of thresholds for this module is true Value of spikeKiller for this module is 0 Value of minEtTower for this module is 0 Value of plugGain for this module is 0 Value of useMPALumiCalib for this module is true Value of accessDB for this module is true Value of makeDbanks for this module is false Value of makeOfflineLers for this module is true Value of createCalData for this module is true Value of useOffScl for this module is true Current value of item(s) in the "DHInput" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 100 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module DHInput has 0 values (minimum 0, maximum 1000): classHideList in module DHInput has 0 values (minimum 0, maximum 1000): hideList in module DHInput has 0 values (minimum 0, maximum 1000): processDropList in module DHInput has 0 values (minimum 0, maximum 1000): keepFromProcessList in module DHInput has 0 values (minimum 0, maximum 1000): runSections: : selectEvents: ():() runsTrigs: ():() Value of recordType for this module is SIMPLE Value of timeout for this module is 86400 Value of rawRS for this module is false Value of luminosityLog for this module is NONE Value of requireCatalog for this module is true Value of dropInput for this module is false Value of useBlockIO for this module is false Value of primaryBasketSz for this module is 131072 Value of readRawTrig for this module is true Value of readRawTrack for this module is true Value of readRawCalor for this module is true Value of readTrack for this module is true Value of readCalor for this module is true Value of readMuon for this module is true Value of readElectron for this module is true Value of readPadCalor for this module is true Value of readPadTrack for this module is true Value of readL3 for this module is true Value of blockIORawTrig for this module is false Value of blockIORawTrack for this module is false Value of blockIORawCalor for this module is false Value of blockIOTrack for this module is false Value of blockIOCalor for this module is false Value of blockIOMuon for this module is false Value of blockIOElectron for this module is false Value of blockIOPadCalor for this module is false Value of blockIOPadTrack for this module is false Value of blockIOL3 for this module is false Value of skipOver for this module is -1 There are no run/event requests for DHInput Data not processed yet: Static Files: ------------- /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root Catalog files: -------------- No DataSets Read files: 0 of maximum requested: unlimited Elapsed clock time: 0 of maximum requested: 2592000 (2592000 seconds left) This job processes section 1 of total 1 of input data Value of maxFiles for this module is 0 Value of maxTime for this module is 2592000 parameter in module DHInput has 0 values (minimum 0, maximum 0): Current value of items on the "sam" menu: Value of project for this module is Value of station for this module is Value of group for this module is test Value of cache for this module is DCACHE <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:24:23 CDT run = 0 event = 0 COT problems in this run ? Current value of item(s) in the "svtsim" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of dataFileDir for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/svtdata Value of useDB for this module is true Value of dbConn for this module is frontier Value of mapSet for this module is svt Value of hwSet for this module is svt Value of debugPrint for this module is false Value of writeBank for this module is true Value of DBRunNumber for this module is 0 Value of sixdProcessName for this module is NSIM Value of sixdDescription for this module is CORRECTED Current value of items on the "ExpertMenu" menu: Value of L1BitXTFMaskLow for this module is -1 Value of L1BitXTFMaskHigh for this module is -1 Value of ImposeL1BitMaskFromTalkTo for this module is false Current value of items on the "BeamMenu" menu: Value of subtractBeamLine for this module is true Value of useBeamLineFromTalkTo for this module is false Value of useBeamLineFromSVDD for this module is true Value of useBeamLineFromDatabase for this module is false Value of useBeamLineFromAsciiFile for this module is true Value of beamDatabaseFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/test/testSVTBeam Value of BeamlinedbConn for this module is ofotl_prd_read Value of BeamlinedbStatus for this module is TEST Value of BeamlinedbVersion for this module is -1 Value of BeamlinedbExpert for this module is false Value of X0b0 for this module is 0 Value of Y0b0 for this module is 0 Value of X0b1 for this module is 0 Value of Y0b1 for this module is 0 Value of X0b2 for this module is 0 Value of Y0b2 for this module is 0 Value of X0b3 for this module is 0 Value of Y0b3 for this module is 0 Value of X0b4 for this module is 0 Value of Y0b4 for this module is 0 Value of X0b5 for this module is 0 Value of Y0b5 for this module is 0 Current value of item(s) in the "MuonTriggerMaker" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of cmu for this module is true Value of cmx for this module is true Value of cmp for this module is true Value of bmu for this module is true Value of bsu for this module is true Value of tsu for this module is true Value of hat for this module is true Value of BMU_LoPt_Threshold for this module is 128 Value of BMU_MedPt_Threshold for this module is 128 Value of BMU_HiPt_Threshold for this module is 50 Value of CMU_LoPt_Threshold for this module is 396 Value of CMU_MedPt_Threshold for this module is 396 Value of CMU_HiPt_Threshold for this module is 124 Value of CMX_LoPt_Threshold for this module is 396 Value of CMX_MedPt_Threshold for this module is 396 Value of CMX_HiPt_Threshold for this module is 124 Value of BSU_Gate_min for this module is 98 Value of BSU_Gate_max for this module is 181 Value of TSU_Gate_min for this module is 98 Value of TSU_Gate_max for this module is 181 Value of HAT_Gate_min for this module is 500 Value of HAT_Gate_max for this module is 600 Value of BMU_mask_east0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_west0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_east0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_west0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_east1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_west1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_east1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_west1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of online for this module is true Value of debug_level for this module is 0 Value of run_Number for this module is 222530 Value of databaseManager for this module is false Value of bankType for this module is Simulated Trigger Bank Current value of item(s) in the "Prereq" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is true Value of production for this module is false Value of GetL1TriggerBitsFromTFRD for this module is false Value of GetL1TriggerBitsFromTL2D for this module is true Value of GetL3TriggerBitsFromTL3D for this module is false Value of UseUnprescaledBits for this module is true Value of CompareFullName for this module is false L1TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L1TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): Value of databaseForTrigger for this module is ofotl_prd_read Value of printTriggerMap for this module is true Value of printTriggerSummary for this module is true L1TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): TriggerTableNames in module Prereq has 0 values (minimum 0, maximum 0): Value of L1Accept for this module is true Value of L2Accept for this module is true Value of L3Accept for this module is true Value of debug for this module is false Value of useEvclBits for this module is false Value of integralPrescale for this module is 1 Value of randomPrescale for this module is 1 Value of RandomSeed for this module is 1485669224 Value of bankType for this module is Simulated Trigger Bank ======================================================= Error Log established 13-Aug-2007 00:24:23 CDT ======================================================= CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() svtsimmodule::beginJob Read 2793 lines from input beam file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/test/testSVTBeam DB Identifier = frontier FredSim begin Job DHInputModule_2.cc: releasing file *** * Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root * * * Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root on Mon Aug 13 00:27:22 2007 * CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) GOT startBrdShiftDB 0 GOT beamOffsetDB r_0p25 Initializing the XFT System.... Done New Run 222530 detected file name = 222530XTRPSim_Summary.txt XTRPSimModule::getFromD applying conditions from run 222530 CdfRoDbFrontier::init(PHYSICSTABLES:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) physics_table = PHYSICS_4_00_v6, table number = 4.0006 %ERLOG-e Error fetching TrgSimRows, return code : /cdf/scratch/beauche/MaxOpt_H/XTRPSim/src/XTRPSimModule.cc : 1949 IOModuleNotFound XTRPSim XTRPSimModule::getFromDB() 13-Aug-2007 00:28:56 CDT run = 222530 event = 0 XTRPSim: Generating lookup tables...done. svtsimmodule::beginRun: run=222530 run=222530 m=512kpatt_20060701205806 mc=1850820936 h=20060731141716 hc=1917088578 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) dataFileDir = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/svtdata usedb = 1 mapSet = 512kpatt_20060701205806 hwSet = 20060731141716 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfloading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 ofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xloading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 svtsim_gb_useMaps: mk=gb_final unique=1 svtsim_rw_useMaps: mk=rw_w00 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w01 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w02 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w03 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w04 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w05 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w06 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w07 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w08 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w09 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w10 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w11 passthru=1 version=0 xxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 * Kill On Bit 18 enabled! * * Hit Sorting enabled! * TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 applying conditions from run 222530 to simulated data! CalTrigger : beginRun() 222530 file name = 222530CalTrigger_Summary.txt in begin run, call load_LUT LUT filename = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/CalTrigger/memories/LUTblock.file load_lut Pair 0 load_lut Pair 1 load_lut Pair 2 myonline is =1 CalTriggerDataMaker::dirac_files_database(): nRun = 222530 physics_table_name = PHYSICS_4_00 physics_table_tag = 6 sql_string2 = WHERE PHYSICS_TABLE_NAME = 'PHYSICS_4_00' and PHYSICS_TABLE_TAG = '6' CdfRoDbFrontier::init(TRIGGER_FILES_VIEW:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) TriggerResource = DIRAC_CENTRAL_TT File Name = PHYSICS_4_00_v-6.dirac_central_tt PHYSICS_4_00_v-6.dirac_central_tt TriggerResource = DIRAC_CENTRAL_TR File Name = PHYSICS_4_00_v-6.dirac_central_tr PHYSICS_4_00_v-6.dirac_central_tr TriggerResource = DIRAC_PLUG_TT File Name = PHYSICS_4_00_v-6.dirac_plug_tt PHYSICS_4_00_v-6.dirac_plug_tt TriggerResource = DIRAC_PLUG_TR File Name = PHYSICS_4_00_v-6.dirac_plug_tr PHYSICS_4_00_v-6.dirac_plug_tr TriggerResource = DIRAC_CSUM_MUX File Name = PHYSICS_4_00_v-6.dirac_csum_mux PHYSICS_4_00_v-6.dirac_csum_mux CalTriggerDataMaker::accessDB database_access_result files = 1 CalTriggerDataMaker::dirac_masks_database(): nRun = 222530 CdfRoDbFrontier::init(DIRAC_CONFIGURATIONS:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) TYPE[0]=1 AUX_EN0[0]=0 AUX_EN1[0]=0 ET_THRESHOLD[0]=0 CSUM_MUX_INT_REG[0]=0 EM_MASKS[0]=0 HAD_MASKS[0]=0 TYPE[1]=0 AUX_EN0[1]=0 AUX_EN1[1]=1 ET_THRESHOLD[1]=0 CSUM_MUX_INT_REG[1]=0 EM_MASKS[1]=0 HAD_MASKS[1]=0 TYPE[2]=0 AUX_EN0[2]=1 AUX_EN1[2]=0 ET_THRESHOLD[2]=0 CSUM_MUX_INT_REG[2]=0 EM_MASKS[2]=0 HAD_MASKS[2]=0 TYPE[3]=1 AUX_EN0[3]=0 AUX_EN1[3]=0 ET_THRESHOLD[3]=0 CSUM_MUX_INT_REG[3]=0 EM_MASKS[3]=0 HAD_MASKS[3]=0 TYPE[4]=1 AUX_EN0[4]=0 AUX_EN1[4]=0 ET_THRESHOLD[4]=0 CSUM_MUX_INT_REG[4]=0 EM_MASKS[4]=0 HAD_MASKS[4]=0 TYPE[5]=0 AUX_EN0[5]=0 AUX_EN1[5]=1 ET_THRESHOLD[5]=0 CSUM_MUX_INT_REG[5]=0 EM_MASKS[5]=0 HAD_MASKS[5]=0 TYPE[6]=0 AUX_EN0[6]=1 AUX_EN1[6]=0 ET_THRESHOLD[6]=0 CSUM_MUX_INT_REG[6]=0 EM_MASKS[6]=0 HAD_MASKS[6]=0 TYPE[7]=1 AUX_EN0[7]=0 AUX_EN1[7]=0 ET_THRESHOLD[7]=0 CSUM_MUX_INT_REG[7]=0 EM_MASKS[7]=0 HAD_MASKS[7]=0 TYPE[8]=1 AUX_EN0[8]=0 AUX_EN1[8]=0 ET_THRESHOLD[8]=0 CSUM_MUX_INT_REG[8]=0 EM_MASKS[8]=0 HAD_MASKS[8]=0 TYPE[9]=0 AUX_EN0[9]=0 AUX_EN1[9]=1 ET_THRESHOLD[9]=0 CSUM_MUX_INT_REG[9]=0 EM_MASKS[9]=0 HAD_MASKS[9]=0 TYPE[10]=0 AUX_EN0[10]=1 AUX_EN1[10]=0 ET_THRESHOLD[10]=0 CSUM_MUX_INT_REG[10]=0 EM_MASKS[10]=0 HAD_MASKS[10]=0 TYPE[11]=1 AUX_EN0[11]=0 AUX_EN1[11]=0 ET_THRESHOLD[11]=0 CSUM_MUX_INT_REG[11]=0 EM_MASKS[11]=0 HAD_MASKS[11]=0 TYPE[12]=1 AUX_EN0[12]=0 AUX_EN1[12]=0 ET_THRESHOLD[12]=0 CSUM_MUX_INT_REG[12]=0 EM_MASKS[12]=0 HAD_MASKS[12]=0 TYPE[13]=0 AUX_EN0[13]=0 AUX_EN1[13]=1 ET_THRESHOLD[13]=0 CSUM_MUX_INT_REG[13]=0 EM_MASKS[13]=0 HAD_MASKS[13]=0 TYPE[14]=0 AUX_EN0[14]=1 AUX_EN1[14]=0 ET_THRESHOLD[14]=0 CSUM_MUX_INT_REG[14]=0 EM_MASKS[14]=0 HAD_MASKS[14]=0 TYPE[15]=1 AUX_EN0[15]=0 AUX_EN1[15]=0 ET_THRESHOLD[15]=0 CSUM_MUX_INT_REG[15]=0 EM_MASKS[15]=0 HAD_MASKS[15]=0 TYPE[16]=1 AUX_EN0[16]=0 AUX_EN1[16]=0 ET_THRESHOLD[16]=0 CSUM_MUX_INT_REG[16]=0 EM_MASKS[16]=0 HAD_MASKS[16]=0 TYPE[17]=0 AUX_EN0[17]=0 AUX_EN1[17]=1 ET_THRESHOLD[17]=0 CSUM_MUX_INT_REG[17]=0 EM_MASKS[17]=0 HAD_MASKS[17]=0 TYPE[18]=0 AUX_EN0[18]=1 AUX_EN1[18]=0 ET_THRESHOLD[18]=0 CSUM_MUX_INT_REG[18]=0 EM_MASKS[18]=0 HAD_MASKS[18]=0 TYPE[19]=1 AUX_EN0[19]=0 AUX_EN1[19]=0 ET_THRESHOLD[19]=0 CSUM_MUX_INT_REG[19]=0 EM_MASKS[19]=0 HAD_MASKS[19]=0 TYPE[20]=1 AUX_EN0[20]=0 AUX_EN1[20]=0 ET_THRESHOLD[20]=0 CSUM_MUX_INT_REG[20]=0 EM_MASKS[20]=0 HAD_MASKS[20]=0 TYPE[21]=0 AUX_EN0[21]=0 AUX_EN1[21]=1 ET_THRESHOLD[21]=0 CSUM_MUX_INT_REG[21]=0 EM_MASKS[21]=0 HAD_MASKS[21]=0 TYPE[22]=0 AUX_EN0[22]=1 AUX_EN1[22]=0 ET_THRESHOLD[22]=0 CSUM_MUX_INT_REG[22]=0 EM_MASKS[22]=0 HAD_MASKS[22]=0 TYPE[23]=1 AUX_EN0[23]=0 AUX_EN1[23]=0 ET_THRESHOLD[23]=0 CSUM_MUX_INT_REG[23]=0 EM_MASKS[23]=0 HAD_MASKS[23]=0 TYPE[24]=1 AUX_EN0[24]=0 AUX_EN1[24]=0 ET_THRESHOLD[24]=0 CSUM_MUX_INT_REG[24]=0 EM_MASKS[24]=0 HAD_MASKS[24]=0 TYPE[25]=0 AUX_EN0[25]=0 AUX_EN1[25]=1 ET_THRESHOLD[25]=0 CSUM_MUX_INT_REG[25]=0 EM_MASKS[25]=0 HAD_MASKS[25]=0 TYPE[26]=0 AUX_EN0[26]=1 AUX_EN1[26]=0 ET_THRESHOLD[26]=0 CSUM_MUX_INT_REG[26]=0 EM_MASKS[26]=0 HAD_MASKS[26]=0 TYPE[27]=1 AUX_EN0[27]=0 AUX_EN1[27]=0 ET_THRESHOLD[27]=0 CSUM_MUX_INT_REG[27]=0 EM_MASKS[27]=0 HAD_MASKS[27]=0 TYPE[28]=1 AUX_EN0[28]=0 AUX_EN1[28]=0 ET_THRESHOLD[28]=0 CSUM_MUX_INT_REG[28]=0 EM_MASKS[28]=0 HAD_MASKS[28]=0 TYPE[29]=0 AUX_EN0[29]=0 AUX_EN1[29]=1 ET_THRESHOLD[29]=0 CSUM_MUX_INT_REG[29]=0 EM_MASKS[29]=0 HAD_MASKS[29]=0 TYPE[30]=0 AUX_EN0[30]=1 AUX_EN1[30]=0 ET_THRESHOLD[30]=0 CSUM_MUX_INT_REG[30]=0 EM_MASKS[30]=0 HAD_MASKS[30]=0 TYPE[31]=1 AUX_EN0[31]=0 AUX_EN1[31]=0 ET_THRESHOLD[31]=0 CSUM_MUX_INT_REG[31]=0 EM_MASKS[31]=0 HAD_MASKS[31]=0 TYPE[32]=1 AUX_EN0[32]=0 AUX_EN1[32]=0 ET_THRESHOLD[32]=0 CSUM_MUX_INT_REG[32]=0 EM_MASKS[32]=0 HAD_MASKS[32]=0 TYPE[33]=0 AUX_EN0[33]=0 AUX_EN1[33]=1 ET_THRESHOLD[33]=0 CSUM_MUX_INT_REG[33]=0 EM_MASKS[33]=0 HAD_MASKS[33]=0 TYPE[34]=0 AUX_EN0[34]=1 AUX_EN1[34]=0 ET_THRESHOLD[34]=0 CSUM_MUX_INT_REG[34]=0 EM_MASKS[34]=0 HAD_MASKS[34]=0 TYPE[35]=1 AUX_EN0[35]=0 AUX_EN1[35]=0 ET_THRESHOLD[35]=0 CSUM_MUX_INT_REG[35]=0 EM_MASKS[35]=0 HAD_MASKS[35]=0 TYPE[36]=1 AUX_EN0[36]=0 AUX_EN1[36]=0 ET_THRESHOLD[36]=0 CSUM_MUX_INT_REG[36]=0 EM_MASKS[36]=0 HAD_MASKS[36]=0 TYPE[37]=0 AUX_EN0[37]=0 AUX_EN1[37]=1 ET_THRESHOLD[37]=0 CSUM_MUX_INT_REG[37]=0 EM_MASKS[37]=0 HAD_MASKS[37]=0 TYPE[38]=0 AUX_EN0[38]=1 AUX_EN1[38]=0 ET_THRESHOLD[38]=0 CSUM_MUX_INT_REG[38]=0 EM_MASKS[38]=0 HAD_MASKS[38]=0 TYPE[39]=1 AUX_EN0[39]=0 AUX_EN1[39]=0 ET_THRESHOLD[39]=0 CSUM_MUX_INT_REG[39]=0 EM_MASKS[39]=0 HAD_MASKS[39]=0 TYPE[40]=1 AUX_EN0[40]=0 AUX_EN1[40]=0 ET_THRESHOLD[40]=0 CSUM_MUX_INT_REG[40]=0 EM_MASKS[40]=0 HAD_MASKS[40]=0 TYPE[41]=0 AUX_EN0[41]=0 AUX_EN1[41]=1 ET_THRESHOLD[41]=0 CSUM_MUX_INT_REG[41]=0 EM_MASKS[41]=0 HAD_MASKS[41]=0 TYPE[42]=0 AUX_EN0[42]=1 AUX_EN1[42]=0 ET_THRESHOLD[42]=0 CSUM_MUX_INT_REG[42]=0 EM_MASKS[42]=0 HAD_MASKS[42]=0 TYPE[43]=1 AUX_EN0[43]=0 AUX_EN1[43]=0 ET_THRESHOLD[43]=0 CSUM_MUX_INT_REG[43]=0 EM_MASKS[43]=0 HAD_MASKS[43]=0 TYPE[44]=1 AUX_EN0[44]=0 AUX_EN1[44]=0 ET_THRESHOLD[44]=0 CSUM_MUX_INT_REG[44]=0 EM_MASKS[44]=0 HAD_MASKS[44]=0 TYPE[45]=0 AUX_EN0[45]=0 AUX_EN1[45]=1 ET_THRESHOLD[45]=0 CSUM_MUX_INT_REG[45]=0 EM_MASKS[45]=0 HAD_MASKS[45]=0 TYPE[46]=0 AUX_EN0[46]=1 AUX_EN1[46]=0 ET_THRESHOLD[46]=0 CSUM_MUX_INT_REG[46]=0 EM_MASKS[46]=0 HAD_MASKS[46]=0 TYPE[47]=1 AUX_EN0[47]=0 AUX_EN1[47]=0 ET_THRESHOLD[47]=0 CSUM_MUX_INT_REG[47]=0 EM_MASKS[47]=0 HAD_MASKS[47]=0 TYPE[48]=1 AUX_EN0[48]=0 AUX_EN1[48]=0 ET_THRESHOLD[48]=0 CSUM_MUX_INT_REG[48]=0 EM_MASKS[48]=0 HAD_MASKS[48]=0 TYPE[49]=0 AUX_EN0[49]=0 AUX_EN1[49]=1 ET_THRESHOLD[49]=0 CSUM_MUX_INT_REG[49]=0 EM_MASKS[49]=0 HAD_MASKS[49]=0 TYPE[50]=0 AUX_EN0[50]=1 AUX_EN1[50]=0 ET_THRESHOLD[50]=0 CSUM_MUX_INT_REG[50]=0 EM_MASKS[50]=0 HAD_MASKS[50]=0 TYPE[51]=1 AUX_EN0[51]=0 AUX_EN1[51]=0 ET_THRESHOLD[51]=0 CSUM_MUX_INT_REG[51]=0 EM_MASKS[51]=0 HAD_MASKS[51]=0 TYPE[52]=1 AUX_EN0[52]=0 AUX_EN1[52]=0 ET_THRESHOLD[52]=0 CSUM_MUX_INT_REG[52]=0 EM_MASKS[52]=0 HAD_MASKS[52]=0 TYPE[53]=0 AUX_EN0[53]=0 AUX_EN1[53]=1 ET_THRESHOLD[53]=0 CSUM_MUX_INT_REG[53]=0 EM_MASKS[53]=0 HAD_MASKS[53]=0 TYPE[54]=0 AUX_EN0[54]=1 AUX_EN1[54]=0 ET_THRESHOLD[54]=0 CSUM_MUX_INT_REG[54]=0 EM_MASKS[54]=0 HAD_MASKS[54]=0 TYPE[55]=1 AUX_EN0[55]=0 AUX_EN1[55]=0 ET_THRESHOLD[55]=0 CSUM_MUX_INT_REG[55]=0 EM_MASKS[55]=0 HAD_MASKS[55]=0 TYPE[56]=1 AUX_EN0[56]=0 AUX_EN1[56]=0 ET_THRESHOLD[56]=0 CSUM_MUX_INT_REG[56]=0 EM_MASKS[56]=0 HAD_MASKS[56]=0 TYPE[57]=0 AUX_EN0[57]=0 AUX_EN1[57]=1 ET_THRESHOLD[57]=0 CSUM_MUX_INT_REG[57]=0 EM_MASKS[57]=0 HAD_MASKS[57]=0 TYPE[58]=0 AUX_EN0[58]=1 AUX_EN1[58]=0 ET_THRESHOLD[58]=0 CSUM_MUX_INT_REG[58]=0 EM_MASKS[58]=0 HAD_MASKS[58]=0 TYPE[59]=1 AUX_EN0[59]=0 AUX_EN1[59]=0 ET_THRESHOLD[59]=0 CSUM_MUX_INT_REG[59]=0 EM_MASKS[59]=0 HAD_MASKS[59]=0 TYPE[60]=1 AUX_EN0[60]=0 AUX_EN1[60]=0 ET_THRESHOLD[60]=0 CSUM_MUX_INT_REG[60]=0 EM_MASKS[60]=0 HAD_MASKS[60]=0 TYPE[61]=0 AUX_EN0[61]=0 AUX_EN1[61]=1 ET_THRESHOLD[61]=0 CSUM_MUX_INT_REG[61]=0 EM_MASKS[61]=0 HAD_MASKS[61]=0 TYPE[62]=0 AUX_EN0[62]=1 AUX_EN1[62]=0 ET_THRESHOLD[62]=0 CSUM_MUX_INT_REG[62]=0 EM_MASKS[62]=0 HAD_MASKS[62]=0 TYPE[63]=1 AUX_EN0[63]=0 AUX_EN1[63]=0 ET_THRESHOLD[63]=0 CSUM_MUX_INT_REG[63]=0 EM_MASKS[63]=0 HAD_MASKS[63]=0 TYPE[64]=1 AUX_EN0[64]=0 AUX_EN1[64]=0 ET_THRESHOLD[64]=0 CSUM_MUX_INT_REG[64]=0 EM_MASKS[64]=0 HAD_MASKS[64]=0 TYPE[65]=0 AUX_EN0[65]=0 AUX_EN1[65]=1 ET_THRESHOLD[65]=0 CSUM_MUX_INT_REG[65]=0 EM_MASKS[65]=0 HAD_MASKS[65]=0 TYPE[66]=0 AUX_EN0[66]=1 AUX_EN1[66]=0 ET_THRESHOLD[66]=0 CSUM_MUX_INT_REG[66]=0 EM_MASKS[66]=0 HAD_MASKS[66]=0 TYPE[67]=1 AUX_EN0[67]=0 AUX_EN1[67]=0 ET_THRESHOLD[67]=0 CSUM_MUX_INT_REG[67]=0 EM_MASKS[67]=0 HAD_MASKS[67]=0 TYPE[68]=1 AUX_EN0[68]=0 AUX_EN1[68]=0 ET_THRESHOLD[68]=0 CSUM_MUX_INT_REG[68]=0 EM_MASKS[68]=0 HAD_MASKS[68]=0 TYPE[69]=0 AUX_EN0[69]=0 AUX_EN1[69]=1 ET_THRESHOLD[69]=0 CSUM_MUX_INT_REG[69]=0 EM_MASKS[69]=0 HAD_MASKS[69]=0 TYPE[70]=0 AUX_EN0[70]=1 AUX_EN1[70]=0 ET_THRESHOLD[70]=0 CSUM_MUX_INT_REG[70]=0 EM_MASKS[70]=0 HAD_MASKS[70]=0 TYPE[71]=1 AUX_EN0[71]=0 AUX_EN1[71]=0 ET_THRESHOLD[71]=0 CSUM_MUX_INT_REG[71]=0 EM_MASKS[71]=0 HAD_MASKS[71]=0 TYPE[72]=1 AUX_EN0[72]=0 AUX_EN1[72]=0 ET_THRESHOLD[72]=0 CSUM_MUX_INT_REG[72]=0 EM_MASKS[72]=0 HAD_MASKS[72]=0 TYPE[73]=0 AUX_EN0[73]=0 AUX_EN1[73]=1 ET_THRESHOLD[73]=0 CSUM_MUX_INT_REG[73]=0 EM_MASKS[73]=0 HAD_MASKS[73]=0 TYPE[74]=0 AUX_EN0[74]=1 AUX_EN1[74]=0 ET_THRESHOLD[74]=0 CSUM_MUX_INT_REG[74]=0 EM_MASKS[74]=0 HAD_MASKS[74]=1 TYPE[75]=1 AUX_EN0[75]=0 AUX_EN1[75]=0 ET_THRESHOLD[75]=0 CSUM_MUX_INT_REG[75]=0 EM_MASKS[75]=0 HAD_MASKS[75]=0 TYPE[76]=1 AUX_EN0[76]=0 AUX_EN1[76]=0 ET_THRESHOLD[76]=0 CSUM_MUX_INT_REG[76]=0 EM_MASKS[76]=0 HAD_MASKS[76]=0 TYPE[77]=0 AUX_EN0[77]=0 AUX_EN1[77]=1 ET_THRESHOLD[77]=0 CSUM_MUX_INT_REG[77]=0 EM_MASKS[77]=0 HAD_MASKS[77]=0 TYPE[78]=0 AUX_EN0[78]=1 AUX_EN1[78]=0 ET_THRESHOLD[78]=0 CSUM_MUX_INT_REG[78]=0 EM_MASKS[78]=0 HAD_MASKS[78]=0 TYPE[79]=1 AUX_EN0[79]=0 AUX_EN1[79]=0 ET_THRESHOLD[79]=0 CSUM_MUX_INT_REG[79]=0 EM_MASKS[79]=0 HAD_MASKS[79]=0 TYPE[80]=1 AUX_EN0[80]=0 AUX_EN1[80]=0 ET_THRESHOLD[80]=0 CSUM_MUX_INT_REG[80]=0 EM_MASKS[80]=0 HAD_MASKS[80]=0 TYPE[81]=0 AUX_EN0[81]=0 AUX_EN1[81]=1 ET_THRESHOLD[81]=0 CSUM_MUX_INT_REG[81]=0 EM_MASKS[81]=0 HAD_MASKS[81]=0 TYPE[82]=0 AUX_EN0[82]=1 AUX_EN1[82]=0 ET_THRESHOLD[82]=0 CSUM_MUX_INT_REG[82]=0 EM_MASKS[82]=0 HAD_MASKS[82]=0 TYPE[83]=1 AUX_EN0[83]=0 AUX_EN1[83]=0 ET_THRESHOLD[83]=0 CSUM_MUX_INT_REG[83]=0 EM_MASKS[83]=0 HAD_MASKS[83]=0 TYPE[84]=1 AUX_EN0[84]=0 AUX_EN1[84]=0 ET_THRESHOLD[84]=0 CSUM_MUX_INT_REG[84]=0 EM_MASKS[84]=0 HAD_MASKS[84]=0 TYPE[85]=0 AUX_EN0[85]=0 AUX_EN1[85]=1 ET_THRESHOLD[85]=0 CSUM_MUX_INT_REG[85]=0 EM_MASKS[85]=0 HAD_MASKS[85]=0 TYPE[86]=0 AUX_EN0[86]=1 AUX_EN1[86]=0 ET_THRESHOLD[86]=0 CSUM_MUX_INT_REG[86]=0 EM_MASKS[86]=0 HAD_MASKS[86]=0 TYPE[87]=1 AUX_EN0[87]=0 AUX_EN1[87]=0 ET_THRESHOLD[87]=0 CSUM_MUX_INT_REG[87]=0 EM_MASKS[87]=0 HAD_MASKS[87]=0 TYPE[88]=1 AUX_EN0[88]=0 AUX_EN1[88]=0 ET_THRESHOLD[88]=0 CSUM_MUX_INT_REG[88]=0 EM_MASKS[88]=0 HAD_MASKS[88]=0 TYPE[89]=0 AUX_EN0[89]=0 AUX_EN1[89]=1 ET_THRESHOLD[89]=0 CSUM_MUX_INT_REG[89]=0 EM_MASKS[89]=0 HAD_MASKS[89]=0 TYPE[90]=0 AUX_EN0[90]=1 AUX_EN1[90]=0 ET_THRESHOLD[90]=0 CSUM_MUX_INT_REG[90]=0 EM_MASKS[90]=0 HAD_MASKS[90]=0 TYPE[91]=1 AUX_EN0[91]=0 AUX_EN1[91]=0 ET_THRESHOLD[91]=0 CSUM_MUX_INT_REG[91]=0 EM_MASKS[91]=0 HAD_MASKS[91]=0 TYPE[92]=1 AUX_EN0[92]=0 AUX_EN1[92]=0 ET_THRESHOLD[92]=0 CSUM_MUX_INT_REG[92]=0 EM_MASKS[92]=0 HAD_MASKS[92]=0 TYPE[93]=0 AUX_EN0[93]=0 AUX_EN1[93]=1 ET_THRESHOLD[93]=0 CSUM_MUX_INT_REG[93]=0 EM_MASKS[93]=0 HAD_MASKS[93]=0 TYPE[94]=0 AUX_EN0[94]=1 AUX_EN1[94]=0 ET_THRESHOLD[94]=0 CSUM_MUX_INT_REG[94]=0 EM_MASKS[94]=0 HAD_MASKS[94]=0 TYPE[95]=1 AUX_EN0[95]=0 AUX_EN1[95]=0 ET_THRESHOLD[95]=0 CSUM_MUX_INT_REG[95]=0 EM_MASKS[95]=0 HAD_MASKS[95]=0 TYPE[0]=1 AUX_EN0[0]=0 AUX_EN1[0]=0 ET_THRESHOLD[0]=0 CSUM_MUX_INT_REG[0]=0 EM_MASKS[0]=0 HAD_MASKS[0]=0 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::load_dirac_masks() , TOW_GRAN = 0.5 CalTriggerDB::load_dirac_masks() , HAD_EM_SEL = 0.25 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) HAD_EM_SEL[0]=1 TOW_GRAN[0]=1 HAD_EM_SEL[1]=1 TOW_GRAN[1]=1 HAD_EM_SEL[2]=1 TOW_GRAN[2]=1 HAD_EM_SEL[3]=1 TOW_GRAN[3]=1 HAD_EM_SEL[4]=1 TOW_GRAN[4]=1 HAD_EM_SEL[5]=1 TOW_GRAN[5]=1 HAD_EM_SEL[6]=1 TOW_GRAN[6]=1 HAD_EM_SEL[7]=1 TOW_GRAN[7]=1 HAD_EM_SEL[8]=1 TOW_GRAN[8]=1 HAD_EM_SEL[9]=1 TOW_GRAN[9]=1 HAD_EM_SEL[10]=1 TOW_GRAN[10]=1 HAD_EM_SEL[11]=1 TOW_GRAN[11]=1 HAD_EM_SEL[12]=1 TOW_GRAN[12]=1 HAD_EM_SEL[13]=1 TOW_GRAN[13]=1 HAD_EM_SEL[14]=1 TOW_GRAN[14]=1 HAD_EM_SEL[15]=1 TOW_GRAN[15]=1 HAD_EM_SEL[16]=1 TOW_GRAN[16]=1 HAD_EM_SEL[17]=1 TOW_GRAN[17]=1 HAD_EM_SEL[18]=1 TOW_GRAN[18]=1 HAD_EM_SEL[19]=1 TOW_GRAN[19]=1 HAD_EM_SEL[20]=1 TOW_GRAN[20]=1 HAD_EM_SEL[21]=1 TOW_GRAN[21]=1 HAD_EM_SEL[22]=1 TOW_GRAN[22]=1 HAD_EM_SEL[23]=1 TOW_GRAN[23]=1 HAD_EM_SEL[24]=1 TOW_GRAN[24]=1 HAD_EM_SEL[25]=1 TOW_GRAN[25]=1 HAD_EM_SEL[26]=1 TOW_GRAN[26]=1 HAD_EM_SEL[27]=1 TOW_GRAN[27]=1 HAD_EM_SEL[28]=1 TOW_GRAN[28]=1 HAD_EM_SEL[29]=1 TOW_GRAN[29]=1 HAD_EM_SEL[30]=1 TOW_GRAN[30]=1 HAD_EM_SEL[31]=1 TOW_GRAN[31]=1 HAD_EM_SEL[32]=1 TOW_GRAN[32]=1 HAD_EM_SEL[33]=1 TOW_GRAN[33]=1 HAD_EM_SEL[34]=1 TOW_GRAN[34]=1 HAD_EM_SEL[35]=1 TOW_GRAN[35]=1 HAD_EM_SEL[36]=1 TOW_GRAN[36]=1 HAD_EM_SEL[37]=1 TOW_GRAN[37]=1 HAD_EM_SEL[38]=1 TOW_GRAN[38]=1 HAD_EM_SEL[39]=1 TOW_GRAN[39]=1 HAD_EM_SEL[40]=1 TOW_GRAN[40]=1 HAD_EM_SEL[41]=1 TOW_GRAN[41]=1 HAD_EM_SEL[42]=1 TOW_GRAN[42]=1 HAD_EM_SEL[43]=1 TOW_GRAN[43]=1 HAD_EM_SEL[44]=1 TOW_GRAN[44]=1 HAD_EM_SEL[45]=1 TOW_GRAN[45]=1 HAD_EM_SEL[46]=1 TOW_GRAN[46]=1 HAD_EM_SEL[47]=1 TOW_GRAN[47]=1 HAD_EM_SEL[48]=1 TOW_GRAN[48]=1 HAD_EM_SEL[49]=1 TOW_GRAN[49]=1 HAD_EM_SEL[50]=1 TOW_GRAN[50]=1 HAD_EM_SEL[51]=1 TOW_GRAN[51]=1 HAD_EM_SEL[52]=1 TOW_GRAN[52]=1 HAD_EM_SEL[53]=1 TOW_GRAN[53]=1 HAD_EM_SEL[54]=1 TOW_GRAN[54]=1 HAD_EM_SEL[55]=1 TOW_GRAN[55]=1 HAD_EM_SEL[56]=1 TOW_GRAN[56]=1 HAD_EM_SEL[57]=1 TOW_GRAN[57]=1 HAD_EM_SEL[58]=1 TOW_GRAN[58]=1 HAD_EM_SEL[59]=1 TOW_GRAN[59]=1 HAD_EM_SEL[60]=1 TOW_GRAN[60]=1 HAD_EM_SEL[61]=1 TOW_GRAN[61]=1 HAD_EM_SEL[62]=1 TOW_GRAN[62]=1 HAD_EM_SEL[63]=1 TOW_GRAN[63]=1 HAD_EM_SEL[64]=1 TOW_GRAN[64]=1 HAD_EM_SEL[65]=1 TOW_GRAN[65]=1 HAD_EM_SEL[66]=1 TOW_GRAN[66]=1 HAD_EM_SEL[67]=1 TOW_GRAN[67]=1 HAD_EM_SEL[68]=1 TOW_GRAN[68]=1 HAD_EM_SEL[69]=1 TOW_GRAN[69]=1 HAD_EM_SEL[70]=1 TOW_GRAN[70]=1 HAD_EM_SEL[71]=1 TOW_GRAN[71]=1 HAD_EM_SEL[72]=1 TOW_GRAN[72]=1 HAD_EM_SEL[73]=1 TOW_GRAN[73]=1 HAD_EM_SEL[74]=1 TOW_GRAN[74]=1 HAD_EM_SEL[75]=1 TOW_GRAN[75]=1 HAD_EM_SEL[76]=1 TOW_GRAN[76]=1 HAD_EM_SEL[77]=1 TOW_GRAN[77]=1 HAD_EM_SEL[78]=1 TOW_GRAN[78]=1 HAD_EM_SEL[79]=1 TOW_GRAN[79]=1 HAD_EM_SEL[80]=1 TOW_GRAN[80]=1 HAD_EM_SEL[81]=1 TOW_GRAN[81]=1 HAD_EM_SEL[82]=1 TOW_GRAN[82]=1 HAD_EM_SEL[83]=1 TOW_GRAN[83]=1 HAD_EM_SEL[84]=1 TOW_GRAN[84]=1 HAD_EM_SEL[85]=1 TOW_GRAN[85]=1 HAD_EM_SEL[86]=1 TOW_GRAN[86]=1 HAD_EM_SEL[87]=1 TOW_GRAN[87]=1 HAD_EM_SEL[88]=1 TOW_GRAN[88]=1 HAD_EM_SEL[89]=1 TOW_GRAN[89]=1 HAD_EM_SEL[90]=1 TOW_GRAN[90]=1 HAD_EM_SEL[91]=1 TOW_GRAN[91]=1 HAD_EM_SEL[92]=1 TOW_GRAN[92]=1 HAD_EM_SEL[93]=1 TOW_GRAN[93]=1 HAD_EM_SEL[94]=1 TOW_GRAN[94]=1 HAD_EM_SEL[95]=1 TOW_GRAN[95]=1 CalTriggerDataMaker::accessDB database_access_result = 1 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerPatterns.cc : 166 CalTriggerDataMaker CalTriggerDataMaker::Construct_TTMEM_Central() 13-Aug-2007 00:31:35 CDT run = 222530 event = 0 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerPatterns.cc : 543 CalTriggerDataMaker CalTriggerDataMaker::Construct_TTMEM_Plug() 13-Aug-2007 00:31:35 CDT run = 222530 event = 0 CalTriggerData::memory_load(): something = -1 CalTriggerDataMaker::load_PreFredTh(): nRun = 222530 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::load_PreFredTh() , TOW_GRAN = 0.5 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerDB.cc : 2168 CalTriggerDataMaker CalTriggerDataMaker::load_PreFredTh() 13-Aug-2007 00:31:36 CDT run = 222530 event = 0 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) getting scale factors Printout from CalibL1 - valid for data Only! Calorimeter ADMEM SCLs: CEM = 0.003496 CHA = 0.003184 WHA = 0.003062 PEM = 0.00444 PHA = 0.003931 Calorimeter ADMEM PEDs: CEM = 50 CHA = 50 WHA = 50 PEM = 50 PHA = 50 End of printout from CalibL1 - valid for data Only! CEM_SCL = 3.496 CHAD_SCL = 3.184 WHAD_SCL = 3.062 PHAD_SCL = 3.931 PEM_SCL = 4.44 Printout from CalTriggerDB - valid for MC Only ! CEM_SCL = 3.496 CHAD_SCL = 3.184 WHAD_SCL = 3.062 PEM_SCL = 4.44 PHAD_SCL = 3.931 End of printout from CalTriggerDB - valid for MC Only ! accessing scale factors, result = 1 getting trigger weights CdfCalibDbFrontier(CALTrigWeights:1.5,33755) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Weight 11: 0.99178 Weight 10: 0.93235 Weight 9: 0.83916 Weight 8: 0.73966 Weight 7: 0.6457 Weight 6: 0.55064 Weight 5: 0.45865 Weight 4: 0.37299 Weight 3: 0.28402 Weight 2: 0.21559 Weight 1: 0.16935 Weight 0: 0.09932 trigger weight[0]: 0.09932 trigger weight[1]: 0.16935 trigger weight[2]: 0.21559 trigger weight[3]: 0.28402 trigger weight[4]: 0.37299 trigger weight[5]: 0.45865 trigger weight[6]: 0.55064 trigger weight[7]: 0.6457 trigger weight[8]: 0.73966 trigger weight[9]: 0.83916 trigger weight[10]: 0.93235 trigger weight[11]: 0.99178 trigger weight[12]: 0.99178 trigger weight[13]: 0.93235 trigger weight[14]: 0.83916 trigger weight[15]: 0.73966 trigger weight[16]: 0.6457 trigger weight[17]: 0.55064 trigger weight[18]: 0.45865 trigger weight[19]: 0.37299 trigger weight[20]: 0.28402 trigger weight[21]: 0.21559 trigger weight[22]: 0.16935 trigger weight[23]: 0.09932 accessing trigger weights, result = 1 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::getSpikeKillerFlag(), SpikeKillerFlag = 1 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) accessing spikeKillerFlag, result = 1 TL1DMaker::Begin Run! L1GlobalTriggerMaker Begin Run ! run number 222530 file name = 222530FredSim_Summary.txt accessing Trigger Database Retrieving physics table from Trigger DB, run 222530 CdfRoDbFrontier::init(PHYSICSTABLES:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) L2DecisionMaker: Fetching trigger table: PHYSICS_4_00_v-6 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) nontrack mask 231924342254796799 nontrack2 mask 979699219388415 track mask 1155184342891233280 track2 mask 75439691805665280 L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) * XFTTriggerMonitor::event * Run = 222530 Event = 1 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 * XFTTriggerMonitor::event * Run = 222530 Event = 2 * XFTTriggerMonitor::event * Run = 222530 Event = 3 * XFTTriggerMonitor::event * Run = 222530 Event = 4 * XFTTriggerMonitor::event * Run = 222530 Event = 5 * XFTTriggerMonitor::event * Run = 222530 Event = 6 * XFTTriggerMonitor::event * Run = 222530 Event = 7 * XFTTriggerMonitor::event * Run = 222530 Event = 8 * XFTTriggerMonitor::event * Run = 222530 Event = 9 * XFTTriggerMonitor::event * Run = 222530 Event = 10 * XFTTriggerMonitor::event * Run = 222530 Event = 11 * XFTTriggerMonitor::event * Run = 222530 Event = 12 * XFTTriggerMonitor::event * Run = 222530 Event = 13 * XFTTriggerMonitor::event * Run = 222530 Event = 14 * XFTTriggerMonitor::event * Run = 222530 Event = 15 * XFTTriggerMonitor::event * Run = 222530 Event = 16 * XFTTriggerMonitor::event * Run = 222530 Event = 17 * XFTTriggerMonitor::event * Run = 222530 Event = 18 * XFTTriggerMonitor::event * Run = 222530 Event = 19 * XFTTriggerMonitor::event * Run = 222530 Event = 20 * XFTTriggerMonitor::event * Run = 222530 Event = 21 * XFTTriggerMonitor::event * Run = 222530 Event = 22 * XFTTriggerMonitor::event * Run = 222530 Event = 23 * XFTTriggerMonitor::event * Run = 222530 Event = 24 * XFTTriggerMonitor::event * Run = 222530 Event = 25 * XFTTriggerMonitor::event * Run = 222530 Event = 26 * XFTTriggerMonitor::event * Run = 222530 Event = 27 * XFTTriggerMonitor::event * Run = 222530 Event = 28 * XFTTriggerMonitor::event * Run = 222530 Event = 29 * XFTTriggerMonitor::event * Run = 222530 Event = 30 * XFTTriggerMonitor::event * Run = 222530 Event = 31 * XFTTriggerMonitor::event * Run = 222530 Event = 32 * XFTTriggerMonitor::event * Run = 222530 Event = 33 * XFTTriggerMonitor::event * Run = 222530 Event = 34 * XFTTriggerMonitor::event * Run = 222530 Event = 35 * XFTTriggerMonitor::event * Run = 222530 Event = 36 * XFTTriggerMonitor::event * Run = 222530 Event = 37 * XFTTriggerMonitor::event * Run = 222530 Event = 38 * XFTTriggerMonitor::event * Run = 222530 Event = 39 * XFTTriggerMonitor::event * Run = 222530 Event = 40 * XFTTriggerMonitor::event * Run = 222530 Event = 41 * XFTTriggerMonitor::event * Run = 222530 Event = 42 * XFTTriggerMonitor::event * Run = 222530 Event = 43 * XFTTriggerMonitor::event * Run = 222530 Event = 44 * XFTTriggerMonitor::event * Run = 222530 Event = 45 * XFTTriggerMonitor::event * Run = 222530 Event = 46 * XFTTriggerMonitor::event * Run = 222530 Event = 47 * XFTTriggerMonitor::event * Run = 222530 Event = 48 * XFTTriggerMonitor::event * Run = 222530 Event = 49 * XFTTriggerMonitor::event * Run = 222530 Event = 50 * XFTTriggerMonitor::event * Run = 222530 Event = 51 * XFTTriggerMonitor::event * Run = 222530 Event = 52 * XFTTriggerMonitor::event * Run = 222530 Event = 53 * XFTTriggerMonitor::event * Run = 222530 Event = 54 * XFTTriggerMonitor::event * Run = 222530 Event = 55 * XFTTriggerMonitor::event * Run = 222530 Event = 56 * XFTTriggerMonitor::event * Run = 222530 Event = 57 * XFTTriggerMonitor::event * Run = 222530 Event = 58 * XFTTriggerMonitor::event * Run = 222530 Event = 59 * XFTTriggerMonitor::event * Run = 222530 Event = 60 * XFTTriggerMonitor::event * Run = 222530 Event = 61 * XFTTriggerMonitor::event * Run = 222530 Event = 62 * XFTTriggerMonitor::event * Run = 222530 Event = 63 * XFTTriggerMonitor::event * Run = 222530 Event = 64 * XFTTriggerMonitor::event * Run = 222530 Event = 65 * XFTTriggerMonitor::event * Run = 222530 Event = 66 * XFTTriggerMonitor::event * Run = 222530 Event = 67 * XFTTriggerMonitor::event * Run = 222530 Event = 68 * XFTTriggerMonitor::event * Run = 222530 Event = 69 * XFTTriggerMonitor::event * Run = 222530 Event = 70 * XFTTriggerMonitor::event * Run = 222530 Event = 71 * XFTTriggerMonitor::event * Run = 222530 Event = 72 * XFTTriggerMonitor::event * Run = 222530 Event = 73 * XFTTriggerMonitor::event * Run = 222530 Event = 74 * XFTTriggerMonitor::event * Run = 222530 Event = 75 * XFTTriggerMonitor::event * Run = 222530 Event = 76 * XFTTriggerMonitor::event * Run = 222530 Event = 77 * XFTTriggerMonitor::event * Run = 222530 Event = 78 * XFTTriggerMonitor::event * Run = 222530 Event = 79 * XFTTriggerMonitor::event * Run = 222530 Event = 80 * XFTTriggerMonitor::event * Run = 222530 Event = 81 * XFTTriggerMonitor::event * Run = 222530 Event = 82 * XFTTriggerMonitor::event * Run = 222530 Event = 83 * XFTTriggerMonitor::event * Run = 222530 Event = 84 * XFTTriggerMonitor::event * Run = 222530 Event = 85 * XFTTriggerMonitor::event * Run = 222530 Event = 86 * XFTTriggerMonitor::event * Run = 222530 Event = 87 * XFTTriggerMonitor::event * Run = 222530 Event = 88 * XFTTriggerMonitor::event * Run = 222530 Event = 89 * XFTTriggerMonitor::event * Run = 222530 Event = 90 * XFTTriggerMonitor::event * Run = 222530 Event = 91 * XFTTriggerMonitor::event * Run = 222530 Event = 92 * XFTTriggerMonitor::event * Run = 222530 Event = 93 * XFTTriggerMonitor::event * Run = 222530 Event = 94 * XFTTriggerMonitor::event * Run = 222530 Event = 95 * XFTTriggerMonitor::event * Run = 222530 Event = 96 * XFTTriggerMonitor::event * Run = 222530 Event = 97 * XFTTriggerMonitor::event * Run = 222530 Event = 98 DHInput Begin processing 100th record. Run 222530, Trigger 99 * XFTTriggerMonitor::event * Run = 222530 Event = 99 * XFTTriggerMonitor::event * Run = 222530 Event = 100 * XFTTriggerMonitor::event * Run = 222530 Event = 101 * XFTTriggerMonitor::event * Run = 222530 Event = 102 * XFTTriggerMonitor::event * Run = 222530 Event = 103 * XFTTriggerMonitor::event * Run = 222530 Event = 104 * XFTTriggerMonitor::event * Run = 222530 Event = 105 * XFTTriggerMonitor::event * Run = 222530 Event = 106 * XFTTriggerMonitor::event * Run = 222530 Event = 107 * XFTTriggerMonitor::event * Run = 222530 Event = 108 * XFTTriggerMonitor::event * Run = 222530 Event = 109 * XFTTriggerMonitor::event * Run = 222530 Event = 110 * XFTTriggerMonitor::event * Run = 222530 Event = 111 * XFTTriggerMonitor::event * Run = 222530 Event = 112 * XFTTriggerMonitor::event * Run = 222530 Event = 113 * XFTTriggerMonitor::event * Run = 222530 Event = 114 * XFTTriggerMonitor::event * Run = 222530 Event = 115 * XFTTriggerMonitor::event * Run = 222530 Event = 116 * XFTTriggerMonitor::event * Run = 222530 Event = 117 * XFTTriggerMonitor::event * Run = 222530 Event = 118 * XFTTriggerMonitor::event * Run = 222530 Event = 119 * XFTTriggerMonitor::event * Run = 222530 Event = 120 * XFTTriggerMonitor::event * Run = 222530 Event = 121 * XFTTriggerMonitor::event * Run = 222530 Event = 122 * XFTTriggerMonitor::event * Run = 222530 Event = 123 * XFTTriggerMonitor::event * Run = 222530 Event = 124 * XFTTriggerMonitor::event * Run = 222530 Event = 125 * XFTTriggerMonitor::event * Run = 222530 Event = 126 * XFTTriggerMonitor::event * Run = 222530 Event = 127 * XFTTriggerMonitor::event * Run = 222530 Event = 128 * XFTTriggerMonitor::event * Run = 222530 Event = 129 * XFTTriggerMonitor::event * Run = 222530 Event = 130 * XFTTriggerMonitor::event * Run = 222530 Event = 131 * XFTTriggerMonitor::event * Run = 222530 Event = 132 * XFTTriggerMonitor::event * Run = 222530 Event = 133 * XFTTriggerMonitor::event * Run = 222530 Event = 134 * XFTTriggerMonitor::event * Run = 222530 Event = 135 * XFTTriggerMonitor::event * Run = 222530 Event = 136 * XFTTriggerMonitor::event * Run = 222530 Event = 137 * XFTTriggerMonitor::event * Run = 222530 Event = 138 * XFTTriggerMonitor::event * Run = 222530 Event = 139 * XFTTriggerMonitor::event * Run = 222530 Event = 140 * XFTTriggerMonitor::event * Run = 222530 Event = 141 * XFTTriggerMonitor::event * Run = 222530 Event = 142 * XFTTriggerMonitor::event * Run = 222530 Event = 143 * XFTTriggerMonitor::event * Run = 222530 Event = 144 * XFTTriggerMonitor::event * Run = 222530 Event = 145 * XFTTriggerMonitor::event * Run = 222530 Event = 146 * XFTTriggerMonitor::event * Run = 222530 Event = 147 * XFTTriggerMonitor::event * Run = 222530 Event = 148 * XFTTriggerMonitor::event * Run = 222530 Event = 149 * XFTTriggerMonitor::event * Run = 222530 Event = 150 * XFTTriggerMonitor::event * Run = 222530 Event = 151 * XFTTriggerMonitor::event * Run = 222530 Event = 152 * XFTTriggerMonitor::event * Run = 222530 Event = 153 * XFTTriggerMonitor::event * Run = 222530 Event = 154 * XFTTriggerMonitor::event * Run = 222530 Event = 155 * XFTTriggerMonitor::event * Run = 222530 Event = 156 * XFTTriggerMonitor::event * Run = 222530 Event = 157 * XFTTriggerMonitor::event * Run = 222530 Event = 158 * XFTTriggerMonitor::event * Run = 222530 Event = 159 * XFTTriggerMonitor::event * Run = 222530 Event = 160 * XFTTriggerMonitor::event * Run = 222530 Event = 161 * XFTTriggerMonitor::event * Run = 222530 Event = 162 * XFTTriggerMonitor::event * Run = 222530 Event = 163 * XFTTriggerMonitor::event * Run = 222530 Event = 164 * XFTTriggerMonitor::event * Run = 222530 Event = 165 * XFTTriggerMonitor::event * Run = 222530 Event = 166 * XFTTriggerMonitor::event * Run = 222530 Event = 167 * XFTTriggerMonitor::event * Run = 222530 Event = 168 * XFTTriggerMonitor::event * Run = 222530 Event = 169 * XFTTriggerMonitor::event * Run = 222530 Event = 170 * XFTTriggerMonitor::event * Run = 222530 Event = 171 * XFTTriggerMonitor::event * Run = 222530 Event = 172 * XFTTriggerMonitor::event * Run = 222530 Event = 173 * XFTTriggerMonitor::event * Run = 222530 Event = 174 * XFTTriggerMonitor::event * Run = 222530 Event = 175 * XFTTriggerMonitor::event * Run = 222530 Event = 176 * XFTTriggerMonitor::event * Run = 222530 Event = 177 * XFTTriggerMonitor::event * Run = 222530 Event = 178 * XFTTriggerMonitor::event * Run = 222530 Event = 179 * XFTTriggerMonitor::event * Run = 222530 Event = 180 * XFTTriggerMonitor::event * Run = 222530 Event = 181 * XFTTriggerMonitor::event * Run = 222530 Event = 182 * XFTTriggerMonitor::event * Run = 222530 Event = 183 * XFTTriggerMonitor::event * Run = 222530 Event = 184 * XFTTriggerMonitor::event * Run = 222530 Event = 185 * XFTTriggerMonitor::event * Run = 222530 Event = 186 * XFTTriggerMonitor::event * Run = 222530 Event = 187 * XFTTriggerMonitor::event * Run = 222530 Event = 188 * XFTTriggerMonitor::event * Run = 222530 Event = 189 * XFTTriggerMonitor::event * Run = 222530 Event = 190 * XFTTriggerMonitor::event * Run = 222530 Event = 191 * XFTTriggerMonitor::event * Run = 222530 Event = 192 * XFTTriggerMonitor::event * Run = 222530 Event = 193 * XFTTriggerMonitor::event * Run = 222530 Event = 194 * XFTTriggerMonitor::event * Run = 222530 Event = 195 * XFTTriggerMonitor::event * Run = 222530 Event = 196 * XFTTriggerMonitor::event * Run = 222530 Event = 197 * XFTTriggerMonitor::event * Run = 222530 Event = 198 DHInput Begin processing 200th record. Run 222530, Trigger 199 * XFTTriggerMonitor::event * Run = 222530 Event = 199 * XFTTriggerMonitor::event * Run = 222530 Event = 200 * XFTTriggerMonitor::event * Run = 222530 Event = 201 * XFTTriggerMonitor::event * Run = 222530 Event = 202 * XFTTriggerMonitor::event * Run = 222530 Event = 203 * XFTTriggerMonitor::event * Run = 222530 Event = 204 * XFTTriggerMonitor::event * Run = 222530 Event = 205 * XFTTriggerMonitor::event * Run = 222530 Event = 206 * XFTTriggerMonitor::event * Run = 222530 Event = 207 * XFTTriggerMonitor::event * Run = 222530 Event = 208 * XFTTriggerMonitor::event * Run = 222530 Event = 209 * XFTTriggerMonitor::event * Run = 222530 Event = 210 * XFTTriggerMonitor::event * Run = 222530 Event = 211 * XFTTriggerMonitor::event * Run = 222530 Event = 212 * XFTTriggerMonitor::event * Run = 222530 Event = 213 * XFTTriggerMonitor::event * Run = 222530 Event = 214 * XFTTriggerMonitor::event * Run = 222530 Event = 215 * XFTTriggerMonitor::event * Run = 222530 Event = 216 * XFTTriggerMonitor::event * Run = 222530 Event = 217 * XFTTriggerMonitor::event * Run = 222530 Event = 218 * XFTTriggerMonitor::event * Run = 222530 Event = 219 * XFTTriggerMonitor::event * Run = 222530 Event = 220 * XFTTriggerMonitor::event * Run = 222530 Event = 221 * XFTTriggerMonitor::event * Run = 222530 Event = 222 * XFTTriggerMonitor::event * Run = 222530 Event = 223 * XFTTriggerMonitor::event * Run = 222530 Event = 224 * XFTTriggerMonitor::event * Run = 222530 Event = 225 * XFTTriggerMonitor::event * Run = 222530 Event = 226 * XFTTriggerMonitor::event * Run = 222530 Event = 227 * XFTTriggerMonitor::event * Run = 222530 Event = 228 * XFTTriggerMonitor::event * Run = 222530 Event = 229 * XFTTriggerMonitor::event * Run = 222530 Event = 230 * XFTTriggerMonitor::event * Run = 222530 Event = 231 * XFTTriggerMonitor::event * Run = 222530 Event = 232 * XFTTriggerMonitor::event * Run = 222530 Event = 233 * XFTTriggerMonitor::event * Run = 222530 Event = 234 * XFTTriggerMonitor::event * Run = 222530 Event = 235 * XFTTriggerMonitor::event * Run = 222530 Event = 236 * XFTTriggerMonitor::event * Run = 222530 Event = 237 * XFTTriggerMonitor::event * Run = 222530 Event = 238 * XFTTriggerMonitor::event * Run = 222530 Event = 239 * XFTTriggerMonitor::event * Run = 222530 Event = 240 * XFTTriggerMonitor::event * Run = 222530 Event = 241 * XFTTriggerMonitor::event * Run = 222530 Event = 242 * XFTTriggerMonitor::event * Run = 222530 Event = 243 * XFTTriggerMonitor::event * Run = 222530 Event = 244 * XFTTriggerMonitor::event * Run = 222530 Event = 245 * XFTTriggerMonitor::event * Run = 222530 Event = 246 * XFTTriggerMonitor::event * Run = 222530 Event = 247 * XFTTriggerMonitor::event * Run = 222530 Event = 248 * XFTTriggerMonitor::event * Run = 222530 Event = 249 * XFTTriggerMonitor::event * Run = 222530 Event = 250 * XFTTriggerMonitor::event * Run = 222530 Event = 251 * XFTTriggerMonitor::event * Run = 222530 Event = 252 * XFTTriggerMonitor::event * Run = 222530 Event = 253 * XFTTriggerMonitor::event * Run = 222530 Event = 254 * XFTTriggerMonitor::event * Run = 222530 Event = 255 * XFTTriggerMonitor::event * Run = 222530 Event = 256 * XFTTriggerMonitor::event * Run = 222530 Event = 257 * XFTTriggerMonitor::event * Run = 222530 Event = 258 * XFTTriggerMonitor::event * Run = 222530 Event = 259 * XFTTriggerMonitor::event * Run = 222530 Event = 260 * XFTTriggerMonitor::event * Run = 222530 Event = 261 * XFTTriggerMonitor::event * Run = 222530 Event = 262 * XFTTriggerMonitor::event * Run = 222530 Event = 263 * XFTTriggerMonitor::event * Run = 222530 Event = 264 * XFTTriggerMonitor::event * Run = 222530 Event = 265 * XFTTriggerMonitor::event * Run = 222530 Event = 266 * XFTTriggerMonitor::event * Run = 222530 Event = 267 * XFTTriggerMonitor::event * Run = 222530 Event = 268 * XFTTriggerMonitor::event * Run = 222530 Event = 269 * XFTTriggerMonitor::event * Run = 222530 Event = 270 * XFTTriggerMonitor::event * Run = 222530 Event = 271 * XFTTriggerMonitor::event * Run = 222530 Event = 272 * XFTTriggerMonitor::event * Run = 222530 Event = 273 * XFTTriggerMonitor::event * Run = 222530 Event = 274 * XFTTriggerMonitor::event * Run = 222530 Event = 275 * XFTTriggerMonitor::event * Run = 222530 Event = 276 * XFTTriggerMonitor::event * Run = 222530 Event = 277 * XFTTriggerMonitor::event * Run = 222530 Event = 278 * XFTTriggerMonitor::event * Run = 222530 Event = 279 * XFTTriggerMonitor::event * Run = 222530 Event = 280 * XFTTriggerMonitor::event * Run = 222530 Event = 281 * XFTTriggerMonitor::event * Run = 222530 Event = 282 * XFTTriggerMonitor::event * Run = 222530 Event = 283 * XFTTriggerMonitor::event * Run = 222530 Event = 284 * XFTTriggerMonitor::event * Run = 222530 Event = 285 * XFTTriggerMonitor::event * Run = 222530 Event = 286 * XFTTriggerMonitor::event * Run = 222530 Event = 287 * XFTTriggerMonitor::event * Run = 222530 Event = 288 * XFTTriggerMonitor::event * Run = 222530 Event = 289 * XFTTriggerMonitor::event * Run = 222530 Event = 290 * XFTTriggerMonitor::event * Run = 222530 Event = 291 * XFTTriggerMonitor::event * Run = 222530 Event = 292 * XFTTriggerMonitor::event * Run = 222530 Event = 293 * XFTTriggerMonitor::event * Run = 222530 Event = 294 * XFTTriggerMonitor::event * Run = 222530 Event = 295 * XFTTriggerMonitor::event * Run = 222530 Event = 296 * XFTTriggerMonitor::event * Run = 222530 Event = 297 * XFTTriggerMonitor::event * Run = 222530 Event = 298 DHInput Begin processing 300th record. Run 222530, Trigger 299 * XFTTriggerMonitor::event * Run = 222530 Event = 299 * XFTTriggerMonitor::event * Run = 222530 Event = 300 * XFTTriggerMonitor::event * Run = 222530 Event = 301 * XFTTriggerMonitor::event * Run = 222530 Event = 302 * XFTTriggerMonitor::event * Run = 222530 Event = 303 * XFTTriggerMonitor::event * Run = 222530 Event = 304 * XFTTriggerMonitor::event * Run = 222530 Event = 305 * XFTTriggerMonitor::event * Run = 222530 Event = 306 * XFTTriggerMonitor::event * Run = 222530 Event = 307 * XFTTriggerMonitor::event * Run = 222530 Event = 308 * XFTTriggerMonitor::event * Run = 222530 Event = 309 * XFTTriggerMonitor::event * Run = 222530 Event = 310 * XFTTriggerMonitor::event * Run = 222530 Event = 311 * XFTTriggerMonitor::event * Run = 222530 Event = 312 * XFTTriggerMonitor::event * Run = 222530 Event = 313 * XFTTriggerMonitor::event * Run = 222530 Event = 314 * XFTTriggerMonitor::event * Run = 222530 Event = 315 * XFTTriggerMonitor::event * Run = 222530 Event = 316 * XFTTriggerMonitor::event * Run = 222530 Event = 317 * XFTTriggerMonitor::event * Run = 222530 Event = 318 * XFTTriggerMonitor::event * Run = 222530 Event = 319 * XFTTriggerMonitor::event * Run = 222530 Event = 320 * XFTTriggerMonitor::event * Run = 222530 Event = 321 * XFTTriggerMonitor::event * Run = 222530 Event = 322 * XFTTriggerMonitor::event * Run = 222530 Event = 323 * XFTTriggerMonitor::event * Run = 222530 Event = 324 * XFTTriggerMonitor::event * Run = 222530 Event = 325 * XFTTriggerMonitor::event * Run = 222530 Event = 326 * XFTTriggerMonitor::event * Run = 222530 Event = 327 * XFTTriggerMonitor::event * Run = 222530 Event = 328 * XFTTriggerMonitor::event * Run = 222530 Event = 329 * XFTTriggerMonitor::event * Run = 222530 Event = 330 * XFTTriggerMonitor::event * Run = 222530 Event = 331 * XFTTriggerMonitor::event * Run = 222530 Event = 332 * XFTTriggerMonitor::event * Run = 222530 Event = 333 * XFTTriggerMonitor::event * Run = 222530 Event = 334 * XFTTriggerMonitor::event * Run = 222530 Event = 335 * XFTTriggerMonitor::event * Run = 222530 Event = 336 * XFTTriggerMonitor::event * Run = 222530 Event = 337 * XFTTriggerMonitor::event * Run = 222530 Event = 338 * XFTTriggerMonitor::event * Run = 222530 Event = 339 * XFTTriggerMonitor::event * Run = 222530 Event = 340 * XFTTriggerMonitor::event * Run = 222530 Event = 341 * XFTTriggerMonitor::event * Run = 222530 Event = 342 * XFTTriggerMonitor::event * Run = 222530 Event = 343 * XFTTriggerMonitor::event * Run = 222530 Event = 344 * XFTTriggerMonitor::event * Run = 222530 Event = 345 * XFTTriggerMonitor::event * Run = 222530 Event = 346 * XFTTriggerMonitor::event * Run = 222530 Event = 347 * XFTTriggerMonitor::event * Run = 222530 Event = 348 * XFTTriggerMonitor::event * Run = 222530 Event = 349 * XFTTriggerMonitor::event * Run = 222530 Event = 350 * XFTTriggerMonitor::event * Run = 222530 Event = 351 * XFTTriggerMonitor::event * Run = 222530 Event = 352 * XFTTriggerMonitor::event * Run = 222530 Event = 353 * XFTTriggerMonitor::event * Run = 222530 Event = 354 * XFTTriggerMonitor::event * Run = 222530 Event = 355 * XFTTriggerMonitor::event * Run = 222530 Event = 356 * XFTTriggerMonitor::event * Run = 222530 Event = 357 * XFTTriggerMonitor::event * Run = 222530 Event = 358 * XFTTriggerMonitor::event * Run = 222530 Event = 359 * XFTTriggerMonitor::event * Run = 222530 Event = 360 * XFTTriggerMonitor::event * Run = 222530 Event = 361 * XFTTriggerMonitor::event * Run = 222530 Event = 362 * XFTTriggerMonitor::event * Run = 222530 Event = 363 * XFTTriggerMonitor::event * Run = 222530 Event = 364 * XFTTriggerMonitor::event * Run = 222530 Event = 365 * XFTTriggerMonitor::event * Run = 222530 Event = 366 * XFTTriggerMonitor::event * Run = 222530 Event = 367 * XFTTriggerMonitor::event * Run = 222530 Event = 368 * XFTTriggerMonitor::event * Run = 222530 Event = 369 * XFTTriggerMonitor::event * Run = 222530 Event = 370 * XFTTriggerMonitor::event * Run = 222530 Event = 371 * XFTTriggerMonitor::event * Run = 222530 Event = 372 * XFTTriggerMonitor::event * Run = 222530 Event = 373 * XFTTriggerMonitor::event * Run = 222530 Event = 374 * XFTTriggerMonitor::event * Run = 222530 Event = 375 * XFTTriggerMonitor::event * Run = 222530 Event = 376 * XFTTriggerMonitor::event * Run = 222530 Event = 377 * XFTTriggerMonitor::event * Run = 222530 Event = 378 * XFTTriggerMonitor::event * Run = 222530 Event = 379 * XFTTriggerMonitor::event * Run = 222530 Event = 380 * XFTTriggerMonitor::event * Run = 222530 Event = 381 * XFTTriggerMonitor::event * Run = 222530 Event = 382 * XFTTriggerMonitor::event * Run = 222530 Event = 383 * XFTTriggerMonitor::event * Run = 222530 Event = 384 * XFTTriggerMonitor::event * Run = 222530 Event = 385 * XFTTriggerMonitor::event * Run = 222530 Event = 386 * XFTTriggerMonitor::event * Run = 222530 Event = 387 * XFTTriggerMonitor::event * Run = 222530 Event = 388 * XFTTriggerMonitor::event * Run = 222530 Event = 389 * XFTTriggerMonitor::event * Run = 222530 Event = 390 * XFTTriggerMonitor::event * Run = 222530 Event = 391 * XFTTriggerMonitor::event * Run = 222530 Event = 392 * XFTTriggerMonitor::event * Run = 222530 Event = 393 * XFTTriggerMonitor::event * Run = 222530 Event = 394 * XFTTriggerMonitor::event * Run = 222530 Event = 395 * XFTTriggerMonitor::event * Run = 222530 Event = 396 * XFTTriggerMonitor::event * Run = 222530 Event = 397 * XFTTriggerMonitor::event * Run = 222530 Event = 398 DHInput Begin processing 400th record. Run 222530, Trigger 399 * XFTTriggerMonitor::event * Run = 222530 Event = 399 * XFTTriggerMonitor::event * Run = 222530 Event = 400 * XFTTriggerMonitor::event * Run = 222530 Event = 401 * XFTTriggerMonitor::event * Run = 222530 Event = 402 * XFTTriggerMonitor::event * Run = 222530 Event = 403 * XFTTriggerMonitor::event * Run = 222530 Event = 404 * XFTTriggerMonitor::event * Run = 222530 Event = 405 * XFTTriggerMonitor::event * Run = 222530 Event = 406 * XFTTriggerMonitor::event * Run = 222530 Event = 407 * XFTTriggerMonitor::event * Run = 222530 Event = 408 * XFTTriggerMonitor::event * Run = 222530 Event = 409 * XFTTriggerMonitor::event * Run = 222530 Event = 410 * XFTTriggerMonitor::event * Run = 222530 Event = 411 * XFTTriggerMonitor::event * Run = 222530 Event = 412 * XFTTriggerMonitor::event * Run = 222530 Event = 413 * XFTTriggerMonitor::event * Run = 222530 Event = 414 * XFTTriggerMonitor::event * Run = 222530 Event = 415 * XFTTriggerMonitor::event * Run = 222530 Event = 416 * XFTTriggerMonitor::event * Run = 222530 Event = 417 * XFTTriggerMonitor::event * Run = 222530 Event = 418 * XFTTriggerMonitor::event * Run = 222530 Event = 419 * XFTTriggerMonitor::event * Run = 222530 Event = 420 * XFTTriggerMonitor::event * Run = 222530 Event = 421 * XFTTriggerMonitor::event * Run = 222530 Event = 422 * XFTTriggerMonitor::event * Run = 222530 Event = 423 * XFTTriggerMonitor::event * Run = 222530 Event = 424 * XFTTriggerMonitor::event * Run = 222530 Event = 425 * XFTTriggerMonitor::event * Run = 222530 Event = 426 * XFTTriggerMonitor::event * Run = 222530 Event = 427 * XFTTriggerMonitor::event * Run = 222530 Event = 428 * XFTTriggerMonitor::event * Run = 222530 Event = 429 * XFTTriggerMonitor::event * Run = 222530 Event = 430 * XFTTriggerMonitor::event * Run = 222530 Event = 431 * XFTTriggerMonitor::event * Run = 222530 Event = 432 * XFTTriggerMonitor::event * Run = 222530 Event = 433 * XFTTriggerMonitor::event * Run = 222530 Event = 434 * XFTTriggerMonitor::event * Run = 222530 Event = 435 * XFTTriggerMonitor::event * Run = 222530 Event = 436 * XFTTriggerMonitor::event * Run = 222530 Event = 437 * XFTTriggerMonitor::event * Run = 222530 Event = 438 * XFTTriggerMonitor::event * Run = 222530 Event = 439 * XFTTriggerMonitor::event * Run = 222530 Event = 440 * XFTTriggerMonitor::event * Run = 222530 Event = 441 * XFTTriggerMonitor::event * Run = 222530 Event = 442 * XFTTriggerMonitor::event * Run = 222530 Event = 443 * XFTTriggerMonitor::event * Run = 222530 Event = 444 * XFTTriggerMonitor::event * Run = 222530 Event = 445 * XFTTriggerMonitor::event * Run = 222530 Event = 446 * XFTTriggerMonitor::event * Run = 222530 Event = 447 * XFTTriggerMonitor::event * Run = 222530 Event = 448 * XFTTriggerMonitor::event * Run = 222530 Event = 449 * XFTTriggerMonitor::event * Run = 222530 Event = 450 * XFTTriggerMonitor::event * Run = 222530 Event = 451 * XFTTriggerMonitor::event * Run = 222530 Event = 452 * XFTTriggerMonitor::event * Run = 222530 Event = 453 * XFTTriggerMonitor::event * Run = 222530 Event = 454 * XFTTriggerMonitor::event * Run = 222530 Event = 455 * XFTTriggerMonitor::event * Run = 222530 Event = 456 * XFTTriggerMonitor::event * Run = 222530 Event = 457 * XFTTriggerMonitor::event * Run = 222530 Event = 458 * XFTTriggerMonitor::event * Run = 222530 Event = 459 * XFTTriggerMonitor::event * Run = 222530 Event = 460 * XFTTriggerMonitor::event * Run = 222530 Event = 461 * XFTTriggerMonitor::event * Run = 222530 Event = 462 * XFTTriggerMonitor::event * Run = 222530 Event = 463 * XFTTriggerMonitor::event * Run = 222530 Event = 464 * XFTTriggerMonitor::event * Run = 222530 Event = 465 * XFTTriggerMonitor::event * Run = 222530 Event = 466 * XFTTriggerMonitor::event * Run = 222530 Event = 467 * XFTTriggerMonitor::event * Run = 222530 Event = 468 * XFTTriggerMonitor::event * Run = 222530 Event = 469 * XFTTriggerMonitor::event * Run = 222530 Event = 470 * XFTTriggerMonitor::event * Run = 222530 Event = 471 * XFTTriggerMonitor::event * Run = 222530 Event = 472 * XFTTriggerMonitor::event * Run = 222530 Event = 473 * XFTTriggerMonitor::event * Run = 222530 Event = 474 * XFTTriggerMonitor::event * Run = 222530 Event = 475 * XFTTriggerMonitor::event * Run = 222530 Event = 476 * XFTTriggerMonitor::event * Run = 222530 Event = 477 * XFTTriggerMonitor::event * Run = 222530 Event = 478 * XFTTriggerMonitor::event * Run = 222530 Event = 479 * XFTTriggerMonitor::event * Run = 222530 Event = 480 * XFTTriggerMonitor::event * Run = 222530 Event = 481 * XFTTriggerMonitor::event * Run = 222530 Event = 482 * XFTTriggerMonitor::event * Run = 222530 Event = 483 * XFTTriggerMonitor::event * Run = 222530 Event = 484 * XFTTriggerMonitor::event * Run = 222530 Event = 485 * XFTTriggerMonitor::event * Run = 222530 Event = 486 * XFTTriggerMonitor::event * Run = 222530 Event = 487 * XFTTriggerMonitor::event * Run = 222530 Event = 488 * XFTTriggerMonitor::event * Run = 222530 Event = 489 * XFTTriggerMonitor::event * Run = 222530 Event = 490 * XFTTriggerMonitor::event * Run = 222530 Event = 491 * XFTTriggerMonitor::event * Run = 222530 Event = 492 * XFTTriggerMonitor::event * Run = 222530 Event = 493 * XFTTriggerMonitor::event * Run = 222530 Event = 494 * XFTTriggerMonitor::event * Run = 222530 Event = 495 * XFTTriggerMonitor::event * Run = 222530 Event = 496 * XFTTriggerMonitor::event * Run = 222530 Event = 497 * XFTTriggerMonitor::event * Run = 222530 Event = 498 DHInput Begin processing 500th record. Run 222530, Trigger 499 * XFTTriggerMonitor::event * Run = 222530 Event = 499 * XFTTriggerMonitor::event * Run = 222530 Event = 500 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 * XFTTriggerMonitor::event * Run = 222530 Event = 501 * XFTTriggerMonitor::event * Run = 222530 Event = 502 * XFTTriggerMonitor::event * Run = 222530 Event = 503 * XFTTriggerMonitor::event * Run = 222530 Event = 504 * XFTTriggerMonitor::event * Run = 222530 Event = 505 * XFTTriggerMonitor::event * Run = 222530 Event = 506 * XFTTriggerMonitor::event * Run = 222530 Event = 507 * XFTTriggerMonitor::event * Run = 222530 Event = 508 * XFTTriggerMonitor::event * Run = 222530 Event = 509 * XFTTriggerMonitor::event * Run = 222530 Event = 510 * XFTTriggerMonitor::event * Run = 222530 Event = 511 * XFTTriggerMonitor::event * Run = 222530 Event = 512 * XFTTriggerMonitor::event * Run = 222530 Event = 513 * XFTTriggerMonitor::event * Run = 222530 Event = 514 * XFTTriggerMonitor::event * Run = 222530 Event = 515 * XFTTriggerMonitor::event * Run = 222530 Event = 516 * XFTTriggerMonitor::event * Run = 222530 Event = 517 * XFTTriggerMonitor::event * Run = 222530 Event = 518 * XFTTriggerMonitor::event * Run = 222530 Event = 519 * XFTTriggerMonitor::event * Run = 222530 Event = 520 * XFTTriggerMonitor::event * Run = 222530 Event = 521 * XFTTriggerMonitor::event * Run = 222530 Event = 522 * XFTTriggerMonitor::event * Run = 222530 Event = 523 * XFTTriggerMonitor::event * Run = 222530 Event = 524 * XFTTriggerMonitor::event * Run = 222530 Event = 525 * XFTTriggerMonitor::event * Run = 222530 Event = 526 * XFTTriggerMonitor::event * Run = 222530 Event = 527 * XFTTriggerMonitor::event * Run = 222530 Event = 528 * XFTTriggerMonitor::event * Run = 222530 Event = 529 * XFTTriggerMonitor::event * Run = 222530 Event = 530 * XFTTriggerMonitor::event * Run = 222530 Event = 531 * XFTTriggerMonitor::event * Run = 222530 Event = 532 * XFTTriggerMonitor::event * Run = 222530 Event = 533 * XFTTriggerMonitor::event * Run = 222530 Event = 534 * XFTTriggerMonitor::event * Run = 222530 Event = 535 * XFTTriggerMonitor::event * Run = 222530 Event = 536 * XFTTriggerMonitor::event * Run = 222530 Event = 537 * XFTTriggerMonitor::event * Run = 222530 Event = 538 * XFTTriggerMonitor::event * Run = 222530 Event = 539 * XFTTriggerMonitor::event * Run = 222530 Event = 540 * XFTTriggerMonitor::event * Run = 222530 Event = 541 * XFTTriggerMonitor::event * Run = 222530 Event = 542 * XFTTriggerMonitor::event * Run = 222530 Event = 543 * XFTTriggerMonitor::event * Run = 222530 Event = 544 * XFTTriggerMonitor::event * Run = 222530 Event = 545 * XFTTriggerMonitor::event * Run = 222530 Event = 546 * XFTTriggerMonitor::event * Run = 222530 Event = 547 * XFTTriggerMonitor::event * Run = 222530 Event = 548 * XFTTriggerMonitor::event * Run = 222530 Event = 549 * XFTTriggerMonitor::event * Run = 222530 Event = 550 * XFTTriggerMonitor::event * Run = 222530 Event = 551 * XFTTriggerMonitor::event * Run = 222530 Event = 552 * XFTTriggerMonitor::event * Run = 222530 Event = 553 * XFTTriggerMonitor::event * Run = 222530 Event = 554 * XFTTriggerMonitor::event * Run = 222530 Event = 555 * XFTTriggerMonitor::event * Run = 222530 Event = 556 * XFTTriggerMonitor::event * Run = 222530 Event = 557 * XFTTriggerMonitor::event * Run = 222530 Event = 558 * XFTTriggerMonitor::event * Run = 222530 Event = 559 * XFTTriggerMonitor::event * Run = 222530 Event = 560 * XFTTriggerMonitor::event * Run = 222530 Event = 561 * XFTTriggerMonitor::event * Run = 222530 Event = 562 * XFTTriggerMonitor::event * Run = 222530 Event = 563 * XFTTriggerMonitor::event * Run = 222530 Event = 564 * XFTTriggerMonitor::event * Run = 222530 Event = 565 * XFTTriggerMonitor::event * Run = 222530 Event = 566 * XFTTriggerMonitor::event * Run = 222530 Event = 567 * XFTTriggerMonitor::event * Run = 222530 Event = 568 * XFTTriggerMonitor::event * Run = 222530 Event = 569 * XFTTriggerMonitor::event * Run = 222530 Event = 570 * XFTTriggerMonitor::event * Run = 222530 Event = 571 * XFTTriggerMonitor::event * Run = 222530 Event = 572 * XFTTriggerMonitor::event * Run = 222530 Event = 573 * XFTTriggerMonitor::event * Run = 222530 Event = 574 * XFTTriggerMonitor::event * Run = 222530 Event = 575 * XFTTriggerMonitor::event * Run = 222530 Event = 576 * XFTTriggerMonitor::event * Run = 222530 Event = 577 * XFTTriggerMonitor::event * Run = 222530 Event = 578 * XFTTriggerMonitor::event * Run = 222530 Event = 579 * XFTTriggerMonitor::event * Run = 222530 Event = 580 * XFTTriggerMonitor::event * Run = 222530 Event = 581 * XFTTriggerMonitor::event * Run = 222530 Event = 582 * XFTTriggerMonitor::event * Run = 222530 Event = 583 * XFTTriggerMonitor::event * Run = 222530 Event = 584 * XFTTriggerMonitor::event * Run = 222530 Event = 585 * XFTTriggerMonitor::event * Run = 222530 Event = 586 * XFTTriggerMonitor::event * Run = 222530 Event = 587 * XFTTriggerMonitor::event * Run = 222530 Event = 588 * XFTTriggerMonitor::event * Run = 222530 Event = 589 * XFTTriggerMonitor::event * Run = 222530 Event = 590 * XFTTriggerMonitor::event * Run = 222530 Event = 591 * XFTTriggerMonitor::event * Run = 222530 Event = 592 * XFTTriggerMonitor::event * Run = 222530 Event = 593 * XFTTriggerMonitor::event * Run = 222530 Event = 594 * XFTTriggerMonitor::event * Run = 222530 Event = 595 * XFTTriggerMonitor::event * Run = 222530 Event = 596 * XFTTriggerMonitor::event * Run = 222530 Event = 597 * XFTTriggerMonitor::event * Run = 222530 Event = 598 DHInput Begin processing 600th record. Run 222530, Trigger 599 * XFTTriggerMonitor::event * Run = 222530 Event = 599 * XFTTriggerMonitor::event * Run = 222530 Event = 600 * XFTTriggerMonitor::event * Run = 222530 Event = 601 * XFTTriggerMonitor::event * Run = 222530 Event = 602 * XFTTriggerMonitor::event * Run = 222530 Event = 603 * XFTTriggerMonitor::event * Run = 222530 Event = 604 * XFTTriggerMonitor::event * Run = 222530 Event = 605 * XFTTriggerMonitor::event * Run = 222530 Event = 606 * XFTTriggerMonitor::event * Run = 222530 Event = 607 * XFTTriggerMonitor::event * Run = 222530 Event = 608 * XFTTriggerMonitor::event * Run = 222530 Event = 609 * XFTTriggerMonitor::event * Run = 222530 Event = 610 * XFTTriggerMonitor::event * Run = 222530 Event = 611 * XFTTriggerMonitor::event * Run = 222530 Event = 612 * XFTTriggerMonitor::event * Run = 222530 Event = 613 * XFTTriggerMonitor::event * Run = 222530 Event = 614 * XFTTriggerMonitor::event * Run = 222530 Event = 615 * XFTTriggerMonitor::event * Run = 222530 Event = 616 * XFTTriggerMonitor::event * Run = 222530 Event = 617 * XFTTriggerMonitor::event * Run = 222530 Event = 618 * XFTTriggerMonitor::event * Run = 222530 Event = 619 * XFTTriggerMonitor::event * Run = 222530 Event = 620 * XFTTriggerMonitor::event * Run = 222530 Event = 621 * XFTTriggerMonitor::event * Run = 222530 Event = 622 * XFTTriggerMonitor::event * Run = 222530 Event = 623 * XFTTriggerMonitor::event * Run = 222530 Event = 624 * XFTTriggerMonitor::event * Run = 222530 Event = 625 * XFTTriggerMonitor::event * Run = 222530 Event = 626 * XFTTriggerMonitor::event * Run = 222530 Event = 627 * XFTTriggerMonitor::event * Run = 222530 Event = 628 * XFTTriggerMonitor::event * Run = 222530 Event = 629 * XFTTriggerMonitor::event * Run = 222530 Event = 630 * XFTTriggerMonitor::event * Run = 222530 Event = 631 * XFTTriggerMonitor::event * Run = 222530 Event = 632 * XFTTriggerMonitor::event * Run = 222530 Event = 633 * XFTTriggerMonitor::event * Run = 222530 Event = 634 * XFTTriggerMonitor::event * Run = 222530 Event = 635 * XFTTriggerMonitor::event * Run = 222530 Event = 636 * XFTTriggerMonitor::event * Run = 222530 Event = 637 * XFTTriggerMonitor::event * Run = 222530 Event = 638 * XFTTriggerMonitor::event * Run = 222530 Event = 639 * XFTTriggerMonitor::event * Run = 222530 Event = 640 * XFTTriggerMonitor::event * Run = 222530 Event = 641 * XFTTriggerMonitor::event * Run = 222530 Event = 642 * XFTTriggerMonitor::event * Run = 222530 Event = 643 * XFTTriggerMonitor::event * Run = 222530 Event = 644 * XFTTriggerMonitor::event * Run = 222530 Event = 645 * XFTTriggerMonitor::event * Run = 222530 Event = 646 * XFTTriggerMonitor::event * Run = 222530 Event = 647 * XFTTriggerMonitor::event * Run = 222530 Event = 648 * XFTTriggerMonitor::event * Run = 222530 Event = 649 * XFTTriggerMonitor::event * Run = 222530 Event = 650 * XFTTriggerMonitor::event * Run = 222530 Event = 651 * XFTTriggerMonitor::event * Run = 222530 Event = 652 * XFTTriggerMonitor::event * Run = 222530 Event = 653 * XFTTriggerMonitor::event * Run = 222530 Event = 654 * XFTTriggerMonitor::event * Run = 222530 Event = 655 * XFTTriggerMonitor::event * Run = 222530 Event = 656 * XFTTriggerMonitor::event * Run = 222530 Event = 657 * XFTTriggerMonitor::event * Run = 222530 Event = 658 * XFTTriggerMonitor::event * Run = 222530 Event = 659 * XFTTriggerMonitor::event * Run = 222530 Event = 660 * XFTTriggerMonitor::event * Run = 222530 Event = 661 * XFTTriggerMonitor::event * Run = 222530 Event = 662 * XFTTriggerMonitor::event * Run = 222530 Event = 663 * XFTTriggerMonitor::event * Run = 222530 Event = 664 * XFTTriggerMonitor::event * Run = 222530 Event = 665 * XFTTriggerMonitor::event * Run = 222530 Event = 666 * XFTTriggerMonitor::event * Run = 222530 Event = 667 * XFTTriggerMonitor::event * Run = 222530 Event = 668 * XFTTriggerMonitor::event * Run = 222530 Event = 669 * XFTTriggerMonitor::event * Run = 222530 Event = 670 * XFTTriggerMonitor::event * Run = 222530 Event = 671 * XFTTriggerMonitor::event * Run = 222530 Event = 672 * XFTTriggerMonitor::event * Run = 222530 Event = 673 * XFTTriggerMonitor::event * Run = 222530 Event = 674 * XFTTriggerMonitor::event * Run = 222530 Event = 675 * XFTTriggerMonitor::event * Run = 222530 Event = 676 * XFTTriggerMonitor::event * Run = 222530 Event = 677 * XFTTriggerMonitor::event * Run = 222530 Event = 678 * XFTTriggerMonitor::event * Run = 222530 Event = 679 * XFTTriggerMonitor::event * Run = 222530 Event = 680 * XFTTriggerMonitor::event * Run = 222530 Event = 681 * XFTTriggerMonitor::event * Run = 222530 Event = 682 * XFTTriggerMonitor::event * Run = 222530 Event = 683 * XFTTriggerMonitor::event * Run = 222530 Event = 684 * XFTTriggerMonitor::event * Run = 222530 Event = 685 * XFTTriggerMonitor::event * Run = 222530 Event = 686 * XFTTriggerMonitor::event * Run = 222530 Event = 687 * XFTTriggerMonitor::event * Run = 222530 Event = 688 * XFTTriggerMonitor::event * Run = 222530 Event = 689 * XFTTriggerMonitor::event * Run = 222530 Event = 690 * XFTTriggerMonitor::event * Run = 222530 Event = 691 * XFTTriggerMonitor::event * Run = 222530 Event = 692 * XFTTriggerMonitor::event * Run = 222530 Event = 693 * XFTTriggerMonitor::event * Run = 222530 Event = 694 * XFTTriggerMonitor::event * Run = 222530 Event = 695 * XFTTriggerMonitor::event * Run = 222530 Event = 696 * XFTTriggerMonitor::event * Run = 222530 Event = 697 * XFTTriggerMonitor::event * Run = 222530 Event = 698 DHInput Begin processing 700th record. Run 222530, Trigger 699 * XFTTriggerMonitor::event * Run = 222530 Event = 699 * XFTTriggerMonitor::event * Run = 222530 Event = 700 * XFTTriggerMonitor::event * Run = 222530 Event = 701 * XFTTriggerMonitor::event * Run = 222530 Event = 702 * XFTTriggerMonitor::event * Run = 222530 Event = 703 * XFTTriggerMonitor::event * Run = 222530 Event = 704 * XFTTriggerMonitor::event * Run = 222530 Event = 705 * XFTTriggerMonitor::event * Run = 222530 Event = 706 * XFTTriggerMonitor::event * Run = 222530 Event = 707 * XFTTriggerMonitor::event * Run = 222530 Event = 708 * XFTTriggerMonitor::event * Run = 222530 Event = 709 * XFTTriggerMonitor::event * Run = 222530 Event = 710 * XFTTriggerMonitor::event * Run = 222530 Event = 711 * XFTTriggerMonitor::event * Run = 222530 Event = 712 * XFTTriggerMonitor::event * Run = 222530 Event = 713 * XFTTriggerMonitor::event * Run = 222530 Event = 714 * XFTTriggerMonitor::event * Run = 222530 Event = 715 * XFTTriggerMonitor::event * Run = 222530 Event = 716 * XFTTriggerMonitor::event * Run = 222530 Event = 717 * XFTTriggerMonitor::event * Run = 222530 Event = 718 * XFTTriggerMonitor::event * Run = 222530 Event = 719 * XFTTriggerMonitor::event * Run = 222530 Event = 720 * XFTTriggerMonitor::event * Run = 222530 Event = 721 * XFTTriggerMonitor::event * Run = 222530 Event = 722 * XFTTriggerMonitor::event * Run = 222530 Event = 723 * XFTTriggerMonitor::event * Run = 222530 Event = 724 * XFTTriggerMonitor::event * Run = 222530 Event = 725 * XFTTriggerMonitor::event * Run = 222530 Event = 726 * XFTTriggerMonitor::event * Run = 222530 Event = 727 * XFTTriggerMonitor::event * Run = 222530 Event = 728 * XFTTriggerMonitor::event * Run = 222530 Event = 729 * XFTTriggerMonitor::event * Run = 222530 Event = 730 * XFTTriggerMonitor::event * Run = 222530 Event = 731 * XFTTriggerMonitor::event * Run = 222530 Event = 732 * XFTTriggerMonitor::event * Run = 222530 Event = 733 * XFTTriggerMonitor::event * Run = 222530 Event = 734 * XFTTriggerMonitor::event * Run = 222530 Event = 735 * XFTTriggerMonitor::event * Run = 222530 Event = 736 * XFTTriggerMonitor::event * Run = 222530 Event = 737 * XFTTriggerMonitor::event * Run = 222530 Event = 738 * XFTTriggerMonitor::event * Run = 222530 Event = 739 * XFTTriggerMonitor::event * Run = 222530 Event = 740 * XFTTriggerMonitor::event * Run = 222530 Event = 741 * XFTTriggerMonitor::event * Run = 222530 Event = 742 * XFTTriggerMonitor::event * Run = 222530 Event = 743 * XFTTriggerMonitor::event * Run = 222530 Event = 744 * XFTTriggerMonitor::event * Run = 222530 Event = 745 * XFTTriggerMonitor::event * Run = 222530 Event = 746 * XFTTriggerMonitor::event * Run = 222530 Event = 747 * XFTTriggerMonitor::event * Run = 222530 Event = 748 * XFTTriggerMonitor::event * Run = 222530 Event = 749 * XFTTriggerMonitor::event * Run = 222530 Event = 750 * XFTTriggerMonitor::event * Run = 222530 Event = 751 * XFTTriggerMonitor::event * Run = 222530 Event = 752 * XFTTriggerMonitor::event * Run = 222530 Event = 753 * XFTTriggerMonitor::event * Run = 222530 Event = 754 * XFTTriggerMonitor::event * Run = 222530 Event = 755 * XFTTriggerMonitor::event * Run = 222530 Event = 756 * XFTTriggerMonitor::event * Run = 222530 Event = 757 * XFTTriggerMonitor::event * Run = 222530 Event = 758 * XFTTriggerMonitor::event * Run = 222530 Event = 759 * XFTTriggerMonitor::event * Run = 222530 Event = 760 * XFTTriggerMonitor::event * Run = 222530 Event = 761 * XFTTriggerMonitor::event * Run = 222530 Event = 762 * XFTTriggerMonitor::event * Run = 222530 Event = 763 * XFTTriggerMonitor::event * Run = 222530 Event = 764 * XFTTriggerMonitor::event * Run = 222530 Event = 765 * XFTTriggerMonitor::event * Run = 222530 Event = 766 * XFTTriggerMonitor::event * Run = 222530 Event = 767 * XFTTriggerMonitor::event * Run = 222530 Event = 768 * XFTTriggerMonitor::event * Run = 222530 Event = 769 * XFTTriggerMonitor::event * Run = 222530 Event = 770 * XFTTriggerMonitor::event * Run = 222530 Event = 771 * XFTTriggerMonitor::event * Run = 222530 Event = 772 * XFTTriggerMonitor::event * Run = 222530 Event = 773 * XFTTriggerMonitor::event * Run = 222530 Event = 774 * XFTTriggerMonitor::event * Run = 222530 Event = 775 * XFTTriggerMonitor::event * Run = 222530 Event = 776 * XFTTriggerMonitor::event * Run = 222530 Event = 777 * XFTTriggerMonitor::event * Run = 222530 Event = 778 * XFTTriggerMonitor::event * Run = 222530 Event = 779 * XFTTriggerMonitor::event * Run = 222530 Event = 780 * XFTTriggerMonitor::event * Run = 222530 Event = 781 * XFTTriggerMonitor::event * Run = 222530 Event = 782 * XFTTriggerMonitor::event * Run = 222530 Event = 783 * XFTTriggerMonitor::event * Run = 222530 Event = 784 * XFTTriggerMonitor::event * Run = 222530 Event = 785 * XFTTriggerMonitor::event * Run = 222530 Event = 786 * XFTTriggerMonitor::event * Run = 222530 Event = 787 * XFTTriggerMonitor::event * Run = 222530 Event = 788 * XFTTriggerMonitor::event * Run = 222530 Event = 789 * XFTTriggerMonitor::event * Run = 222530 Event = 790 * XFTTriggerMonitor::event * Run = 222530 Event = 791 * XFTTriggerMonitor::event * Run = 222530 Event = 792 * XFTTriggerMonitor::event * Run = 222530 Event = 793 * XFTTriggerMonitor::event * Run = 222530 Event = 794 * XFTTriggerMonitor::event * Run = 222530 Event = 795 * XFTTriggerMonitor::event * Run = 222530 Event = 796 * XFTTriggerMonitor::event * Run = 222530 Event = 797 * XFTTriggerMonitor::event * Run = 222530 Event = 798 DHInput Begin processing 800th record. Run 222530, Trigger 799 * XFTTriggerMonitor::event * Run = 222530 Event = 799 * XFTTriggerMonitor::event * Run = 222530 Event = 800 * XFTTriggerMonitor::event * Run = 222530 Event = 801 * XFTTriggerMonitor::event * Run = 222530 Event = 802 * XFTTriggerMonitor::event * Run = 222530 Event = 803 * XFTTriggerMonitor::event * Run = 222530 Event = 804 * XFTTriggerMonitor::event * Run = 222530 Event = 805 * XFTTriggerMonitor::event * Run = 222530 Event = 806 * XFTTriggerMonitor::event * Run = 222530 Event = 807 * XFTTriggerMonitor::event * Run = 222530 Event = 808 * XFTTriggerMonitor::event * Run = 222530 Event = 809 * XFTTriggerMonitor::event * Run = 222530 Event = 810 * XFTTriggerMonitor::event * Run = 222530 Event = 811 * XFTTriggerMonitor::event * Run = 222530 Event = 812 * XFTTriggerMonitor::event * Run = 222530 Event = 813 * XFTTriggerMonitor::event * Run = 222530 Event = 814 * XFTTriggerMonitor::event * Run = 222530 Event = 815 * XFTTriggerMonitor::event * Run = 222530 Event = 816 * XFTTriggerMonitor::event * Run = 222530 Event = 817 * XFTTriggerMonitor::event * Run = 222530 Event = 818 * XFTTriggerMonitor::event * Run = 222530 Event = 819 * XFTTriggerMonitor::event * Run = 222530 Event = 820 * XFTTriggerMonitor::event * Run = 222530 Event = 821 * XFTTriggerMonitor::event * Run = 222530 Event = 822 * XFTTriggerMonitor::event * Run = 222530 Event = 823 * XFTTriggerMonitor::event * Run = 222530 Event = 824 * XFTTriggerMonitor::event * Run = 222530 Event = 825 * XFTTriggerMonitor::event * Run = 222530 Event = 826 * XFTTriggerMonitor::event * Run = 222530 Event = 827 * XFTTriggerMonitor::event * Run = 222530 Event = 828 * XFTTriggerMonitor::event * Run = 222530 Event = 829 * XFTTriggerMonitor::event * Run = 222530 Event = 830 * XFTTriggerMonitor::event * Run = 222530 Event = 831 * XFTTriggerMonitor::event * Run = 222530 Event = 832 * XFTTriggerMonitor::event * Run = 222530 Event = 833 * XFTTriggerMonitor::event * Run = 222530 Event = 834 * XFTTriggerMonitor::event * Run = 222530 Event = 835 * XFTTriggerMonitor::event * Run = 222530 Event = 836 * XFTTriggerMonitor::event * Run = 222530 Event = 837 * XFTTriggerMonitor::event * Run = 222530 Event = 838 * XFTTriggerMonitor::event * Run = 222530 Event = 839 * XFTTriggerMonitor::event * Run = 222530 Event = 840 * XFTTriggerMonitor::event * Run = 222530 Event = 841 * XFTTriggerMonitor::event * Run = 222530 Event = 842 * XFTTriggerMonitor::event * Run = 222530 Event = 843 * XFTTriggerMonitor::event * Run = 222530 Event = 844 * XFTTriggerMonitor::event * Run = 222530 Event = 845 * XFTTriggerMonitor::event * Run = 222530 Event = 846 * XFTTriggerMonitor::event * Run = 222530 Event = 847 * XFTTriggerMonitor::event * Run = 222530 Event = 848 * XFTTriggerMonitor::event * Run = 222530 Event = 849 * XFTTriggerMonitor::event * Run = 222530 Event = 850 * XFTTriggerMonitor::event * Run = 222530 Event = 851 * XFTTriggerMonitor::event * Run = 222530 Event = 852 * XFTTriggerMonitor::event * Run = 222530 Event = 853 * XFTTriggerMonitor::event * Run = 222530 Event = 854 * XFTTriggerMonitor::event * Run = 222530 Event = 855 * XFTTriggerMonitor::event * Run = 222530 Event = 856 * XFTTriggerMonitor::event * Run = 222530 Event = 857 * XFTTriggerMonitor::event * Run = 222530 Event = 858 * XFTTriggerMonitor::event * Run = 222530 Event = 859 * XFTTriggerMonitor::event * Run = 222530 Event = 860 * XFTTriggerMonitor::event * Run = 222530 Event = 861 * XFTTriggerMonitor::event * Run = 222530 Event = 862 * XFTTriggerMonitor::event * Run = 222530 Event = 863 * XFTTriggerMonitor::event * Run = 222530 Event = 864 * XFTTriggerMonitor::event * Run = 222530 Event = 865 * XFTTriggerMonitor::event * Run = 222530 Event = 866 * XFTTriggerMonitor::event * Run = 222530 Event = 867 * XFTTriggerMonitor::event * Run = 222530 Event = 868 * XFTTriggerMonitor::event * Run = 222530 Event = 869 * XFTTriggerMonitor::event * Run = 222530 Event = 870 * XFTTriggerMonitor::event * Run = 222530 Event = 871 * XFTTriggerMonitor::event * Run = 222530 Event = 872 * XFTTriggerMonitor::event * Run = 222530 Event = 873 * XFTTriggerMonitor::event * Run = 222530 Event = 874 * XFTTriggerMonitor::event * Run = 222530 Event = 875 * XFTTriggerMonitor::event * Run = 222530 Event = 876 * XFTTriggerMonitor::event * Run = 222530 Event = 877 * XFTTriggerMonitor::event * Run = 222530 Event = 878 * XFTTriggerMonitor::event * Run = 222530 Event = 879 * XFTTriggerMonitor::event * Run = 222530 Event = 880 * XFTTriggerMonitor::event * Run = 222530 Event = 881 * XFTTriggerMonitor::event * Run = 222530 Event = 882 * XFTTriggerMonitor::event * Run = 222530 Event = 883 * XFTTriggerMonitor::event * Run = 222530 Event = 884 * XFTTriggerMonitor::event * Run = 222530 Event = 885 * XFTTriggerMonitor::event * Run = 222530 Event = 886 * XFTTriggerMonitor::event * Run = 222530 Event = 887 * XFTTriggerMonitor::event * Run = 222530 Event = 888 * XFTTriggerMonitor::event * Run = 222530 Event = 889 * XFTTriggerMonitor::event * Run = 222530 Event = 890 * XFTTriggerMonitor::event * Run = 222530 Event = 891 * XFTTriggerMonitor::event * Run = 222530 Event = 892 * XFTTriggerMonitor::event * Run = 222530 Event = 893 * XFTTriggerMonitor::event * Run = 222530 Event = 894 * XFTTriggerMonitor::event * Run = 222530 Event = 895 * XFTTriggerMonitor::event * Run = 222530 Event = 896 * XFTTriggerMonitor::event * Run = 222530 Event = 897 * XFTTriggerMonitor::event * Run = 222530 Event = 898 DHInput Begin processing 900th record. Run 222530, Trigger 899 * XFTTriggerMonitor::event * Run = 222530 Event = 899 * XFTTriggerMonitor::event * Run = 222530 Event = 900 * XFTTriggerMonitor::event * Run = 222530 Event = 901 * XFTTriggerMonitor::event * Run = 222530 Event = 902 * XFTTriggerMonitor::event * Run = 222530 Event = 903 * XFTTriggerMonitor::event * Run = 222530 Event = 904 * XFTTriggerMonitor::event * Run = 222530 Event = 905 * XFTTriggerMonitor::event * Run = 222530 Event = 906 * XFTTriggerMonitor::event * Run = 222530 Event = 907 * XFTTriggerMonitor::event * Run = 222530 Event = 908 * XFTTriggerMonitor::event * Run = 222530 Event = 909 * XFTTriggerMonitor::event * Run = 222530 Event = 910 * XFTTriggerMonitor::event * Run = 222530 Event = 911 * XFTTriggerMonitor::event * Run = 222530 Event = 912 * XFTTriggerMonitor::event * Run = 222530 Event = 913 * XFTTriggerMonitor::event * Run = 222530 Event = 914 * XFTTriggerMonitor::event * Run = 222530 Event = 915 * XFTTriggerMonitor::event * Run = 222530 Event = 916 * XFTTriggerMonitor::event * Run = 222530 Event = 917 * XFTTriggerMonitor::event * Run = 222530 Event = 918 * XFTTriggerMonitor::event * Run = 222530 Event = 919 * XFTTriggerMonitor::event * Run = 222530 Event = 920 * XFTTriggerMonitor::event * Run = 222530 Event = 921 * XFTTriggerMonitor::event * Run = 222530 Event = 922 * XFTTriggerMonitor::event * Run = 222530 Event = 923 * XFTTriggerMonitor::event * Run = 222530 Event = 924 * XFTTriggerMonitor::event * Run = 222530 Event = 925 * XFTTriggerMonitor::event * Run = 222530 Event = 926 * XFTTriggerMonitor::event * Run = 222530 Event = 927 * XFTTriggerMonitor::event * Run = 222530 Event = 928 * XFTTriggerMonitor::event * Run = 222530 Event = 929 * XFTTriggerMonitor::event * Run = 222530 Event = 930 * XFTTriggerMonitor::event * Run = 222530 Event = 931 * XFTTriggerMonitor::event * Run = 222530 Event = 932 * XFTTriggerMonitor::event * Run = 222530 Event = 933 * XFTTriggerMonitor::event * Run = 222530 Event = 934 * XFTTriggerMonitor::event * Run = 222530 Event = 935 * XFTTriggerMonitor::event * Run = 222530 Event = 936 * XFTTriggerMonitor::event * Run = 222530 Event = 937 * XFTTriggerMonitor::event * Run = 222530 Event = 938 * XFTTriggerMonitor::event * Run = 222530 Event = 939 * XFTTriggerMonitor::event * Run = 222530 Event = 940 * XFTTriggerMonitor::event * Run = 222530 Event = 941 * XFTTriggerMonitor::event * Run = 222530 Event = 942 * XFTTriggerMonitor::event * Run = 222530 Event = 943 * XFTTriggerMonitor::event * Run = 222530 Event = 944 * XFTTriggerMonitor::event * Run = 222530 Event = 945 * XFTTriggerMonitor::event * Run = 222530 Event = 946 * XFTTriggerMonitor::event * Run = 222530 Event = 947 * XFTTriggerMonitor::event * Run = 222530 Event = 948 * XFTTriggerMonitor::event * Run = 222530 Event = 949 * XFTTriggerMonitor::event * Run = 222530 Event = 950 * XFTTriggerMonitor::event * Run = 222530 Event = 951 * XFTTriggerMonitor::event * Run = 222530 Event = 952 * XFTTriggerMonitor::event * Run = 222530 Event = 953 * XFTTriggerMonitor::event * Run = 222530 Event = 954 * XFTTriggerMonitor::event * Run = 222530 Event = 955 * XFTTriggerMonitor::event * Run = 222530 Event = 956 * XFTTriggerMonitor::event * Run = 222530 Event = 957 * XFTTriggerMonitor::event * Run = 222530 Event = 958 * XFTTriggerMonitor::event * Run = 222530 Event = 959 * XFTTriggerMonitor::event * Run = 222530 Event = 960 * XFTTriggerMonitor::event * Run = 222530 Event = 961 * XFTTriggerMonitor::event * Run = 222530 Event = 962 * XFTTriggerMonitor::event * Run = 222530 Event = 963 * XFTTriggerMonitor::event * Run = 222530 Event = 964 * XFTTriggerMonitor::event * Run = 222530 Event = 965 * XFTTriggerMonitor::event * Run = 222530 Event = 966 * XFTTriggerMonitor::event * Run = 222530 Event = 967 * XFTTriggerMonitor::event * Run = 222530 Event = 968 * XFTTriggerMonitor::event * Run = 222530 Event = 969 * XFTTriggerMonitor::event * Run = 222530 Event = 970 * XFTTriggerMonitor::event * Run = 222530 Event = 971 * XFTTriggerMonitor::event * Run = 222530 Event = 972 * XFTTriggerMonitor::event * Run = 222530 Event = 973 * XFTTriggerMonitor::event * Run = 222530 Event = 974 * XFTTriggerMonitor::event * Run = 222530 Event = 975 * XFTTriggerMonitor::event * Run = 222530 Event = 976 * XFTTriggerMonitor::event * Run = 222530 Event = 977 * XFTTriggerMonitor::event * Run = 222530 Event = 978 * XFTTriggerMonitor::event * Run = 222530 Event = 979 * XFTTriggerMonitor::event * Run = 222530 Event = 980 * XFTTriggerMonitor::event * Run = 222530 Event = 981 * XFTTriggerMonitor::event * Run = 222530 Event = 982 * XFTTriggerMonitor::event * Run = 222530 Event = 983 * XFTTriggerMonitor::event * Run = 222530 Event = 984 * XFTTriggerMonitor::event * Run = 222530 Event = 985 * XFTTriggerMonitor::event * Run = 222530 Event = 986 * XFTTriggerMonitor::event * Run = 222530 Event = 987 * XFTTriggerMonitor::event * Run = 222530 Event = 988 * XFTTriggerMonitor::event * Run = 222530 Event = 989 * XFTTriggerMonitor::event * Run = 222530 Event = 990 * XFTTriggerMonitor::event * Run = 222530 Event = 991 * XFTTriggerMonitor::event * Run = 222530 Event = 992 * XFTTriggerMonitor::event * Run = 222530 Event = 993 * XFTTriggerMonitor::event * Run = 222530 Event = 994 * XFTTriggerMonitor::event * Run = 222530 Event = 995 * XFTTriggerMonitor::event * Run = 222530 Event = 996 * XFTTriggerMonitor::event * Run = 222530 Event = 997 * XFTTriggerMonitor::event * Run = 222530 Event = 998 DHInput Begin processing 1000th record. Run 222530, Trigger 999 * XFTTriggerMonitor::event * Run = 222530 Event = 999 * XFTTriggerMonitor::event * Run = 222530 Event = 1000 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 * XFTTriggerMonitor::event * Run = 222530 Event = 1001 * XFTTriggerMonitor::event * Run = 222530 Event = 1002 * XFTTriggerMonitor::event * Run = 222530 Event = 1003 * XFTTriggerMonitor::event * Run = 222530 Event = 1004 * XFTTriggerMonitor::event * Run = 222530 Event = 1005 * XFTTriggerMonitor::event * Run = 222530 Event = 1006 * XFTTriggerMonitor::event * Run = 222530 Event = 1007 * XFTTriggerMonitor::event * Run = 222530 Event = 1008 * XFTTriggerMonitor::event * Run = 222530 Event = 1009 * XFTTriggerMonitor::event * Run = 222530 Event = 1010 * XFTTriggerMonitor::event * Run = 222530 Event = 1011 * XFTTriggerMonitor::event * Run = 222530 Event = 1012 * XFTTriggerMonitor::event * Run = 222530 Event = 1013 * XFTTriggerMonitor::event * Run = 222530 Event = 1014 * XFTTriggerMonitor::event * Run = 222530 Event = 1015 * XFTTriggerMonitor::event * Run = 222530 Event = 1016 * XFTTriggerMonitor::event * Run = 222530 Event = 1017 * XFTTriggerMonitor::event * Run = 222530 Event = 1018 * XFTTriggerMonitor::event * Run = 222530 Event = 1019 * XFTTriggerMonitor::event * Run = 222530 Event = 1020 * XFTTriggerMonitor::event * Run = 222530 Event = 1021 * XFTTriggerMonitor::event * Run = 222530 Event = 1022 * XFTTriggerMonitor::event * Run = 222530 Event = 1023 * XFTTriggerMonitor::event * Run = 222530 Event = 1024 * XFTTriggerMonitor::event * Run = 222530 Event = 1025 * XFTTriggerMonitor::event * Run = 222530 Event = 1026 * XFTTriggerMonitor::event * Run = 222530 Event = 1027 * XFTTriggerMonitor::event * Run = 222530 Event = 1028 * XFTTriggerMonitor::event * Run = 222530 Event = 1029 * XFTTriggerMonitor::event * Run = 222530 Event = 1030 * XFTTriggerMonitor::event * Run = 222530 Event = 1031 * XFTTriggerMonitor::event * Run = 222530 Event = 1032 * XFTTriggerMonitor::event * Run = 222530 Event = 1033 * XFTTriggerMonitor::event * Run = 222530 Event = 1034 * XFTTriggerMonitor::event * Run = 222530 Event = 1035 * XFTTriggerMonitor::event * Run = 222530 Event = 1036 * XFTTriggerMonitor::event * Run = 222530 Event = 1037 * XFTTriggerMonitor::event * Run = 222530 Event = 1038 * XFTTriggerMonitor::event * Run = 222530 Event = 1039 * XFTTriggerMonitor::event * Run = 222530 Event = 1040 * XFTTriggerMonitor::event * Run = 222530 Event = 1041 * XFTTriggerMonitor::event * Run = 222530 Event = 1042 * XFTTriggerMonitor::event * Run = 222530 Event = 1043 * XFTTriggerMonitor::event * Run = 222530 Event = 1044 * XFTTriggerMonitor::event * Run = 222530 Event = 1045 * XFTTriggerMonitor::event * Run = 222530 Event = 1046 * XFTTriggerMonitor::event * Run = 222530 Event = 1047 * XFTTriggerMonitor::event * Run = 222530 Event = 1048 * XFTTriggerMonitor::event * Run = 222530 Event = 1049 * XFTTriggerMonitor::event * Run = 222530 Event = 1050 * XFTTriggerMonitor::event * Run = 222530 Event = 1051 * XFTTriggerMonitor::event * Run = 222530 Event = 1052 * XFTTriggerMonitor::event * Run = 222530 Event = 1053 * XFTTriggerMonitor::event * Run = 222530 Event = 1054 * XFTTriggerMonitor::event * Run = 222530 Event = 1055 * XFTTriggerMonitor::event * Run = 222530 Event = 1056 * XFTTriggerMonitor::event * Run = 222530 Event = 1057 * XFTTriggerMonitor::event * Run = 222530 Event = 1058 * XFTTriggerMonitor::event * Run = 222530 Event = 1059 * XFTTriggerMonitor::event * Run = 222530 Event = 1060 * XFTTriggerMonitor::event * Run = 222530 Event = 1061 * XFTTriggerMonitor::event * Run = 222530 Event = 1062 * XFTTriggerMonitor::event * Run = 222530 Event = 1063 * XFTTriggerMonitor::event * Run = 222530 Event = 1064 * XFTTriggerMonitor::event * Run = 222530 Event = 1065 * XFTTriggerMonitor::event * Run = 222530 Event = 1066 * XFTTriggerMonitor::event * Run = 222530 Event = 1067 * XFTTriggerMonitor::event * Run = 222530 Event = 1068 * XFTTriggerMonitor::event * Run = 222530 Event = 1069 * XFTTriggerMonitor::event * Run = 222530 Event = 1070 * XFTTriggerMonitor::event * Run = 222530 Event = 1071 * XFTTriggerMonitor::event * Run = 222530 Event = 1072 * XFTTriggerMonitor::event * Run = 222530 Event = 1073 * XFTTriggerMonitor::event * Run = 222530 Event = 1074 * XFTTriggerMonitor::event * Run = 222530 Event = 1075 * XFTTriggerMonitor::event * Run = 222530 Event = 1076 * XFTTriggerMonitor::event * Run = 222530 Event = 1077 * XFTTriggerMonitor::event * Run = 222530 Event = 1078 * XFTTriggerMonitor::event * Run = 222530 Event = 1079 * XFTTriggerMonitor::event * Run = 222530 Event = 1080 * XFTTriggerMonitor::event * Run = 222530 Event = 1081 * XFTTriggerMonitor::event * Run = 222530 Event = 1082 * XFTTriggerMonitor::event * Run = 222530 Event = 1083 * XFTTriggerMonitor::event * Run = 222530 Event = 1084 * XFTTriggerMonitor::event * Run = 222530 Event = 1085 * XFTTriggerMonitor::event * Run = 222530 Event = 1086 * XFTTriggerMonitor::event * Run = 222530 Event = 1087 * XFTTriggerMonitor::event * Run = 222530 Event = 1088 * XFTTriggerMonitor::event * Run = 222530 Event = 1089 * XFTTriggerMonitor::event * Run = 222530 Event = 1090 * XFTTriggerMonitor::event * Run = 222530 Event = 1091 * XFTTriggerMonitor::event * Run = 222530 Event = 1092 * XFTTriggerMonitor::event * Run = 222530 Event = 1093 * XFTTriggerMonitor::event * Run = 222530 Event = 1094 * XFTTriggerMonitor::event * Run = 222530 Event = 1095 * XFTTriggerMonitor::event * Run = 222530 Event = 1096 * XFTTriggerMonitor::event * Run = 222530 Event = 1097 * XFTTriggerMonitor::event * Run = 222530 Event = 1098 DHInput Begin processing 1100th record. Run 222530, Trigger 1099 * XFTTriggerMonitor::event * Run = 222530 Event = 1099 * XFTTriggerMonitor::event * Run = 222530 Event = 1100 * XFTTriggerMonitor::event * Run = 222530 Event = 1101 * XFTTriggerMonitor::event * Run = 222530 Event = 1102 * XFTTriggerMonitor::event * Run = 222530 Event = 1103 * XFTTriggerMonitor::event * Run = 222530 Event = 1104 * XFTTriggerMonitor::event * Run = 222530 Event = 1105 * XFTTriggerMonitor::event * Run = 222530 Event = 1106 * XFTTriggerMonitor::event * Run = 222530 Event = 1107 * XFTTriggerMonitor::event * Run = 222530 Event = 1108 * XFTTriggerMonitor::event * Run = 222530 Event = 1109 * XFTTriggerMonitor::event * Run = 222530 Event = 1110 * XFTTriggerMonitor::event * Run = 222530 Event = 1111 * XFTTriggerMonitor::event * Run = 222530 Event = 1112 * XFTTriggerMonitor::event * Run = 222530 Event = 1113 * XFTTriggerMonitor::event * Run = 222530 Event = 1114 * XFTTriggerMonitor::event * Run = 222530 Event = 1115 * XFTTriggerMonitor::event * Run = 222530 Event = 1116 * XFTTriggerMonitor::event * Run = 222530 Event = 1117 * XFTTriggerMonitor::event * Run = 222530 Event = 1118 * XFTTriggerMonitor::event * Run = 222530 Event = 1119 * XFTTriggerMonitor::event * Run = 222530 Event = 1120 * XFTTriggerMonitor::event * Run = 222530 Event = 1121 * XFTTriggerMonitor::event * Run = 222530 Event = 1122 * XFTTriggerMonitor::event * Run = 222530 Event = 1123 * XFTTriggerMonitor::event * Run = 222530 Event = 1124 * XFTTriggerMonitor::event * Run = 222530 Event = 1125 * XFTTriggerMonitor::event * Run = 222530 Event = 1126 * XFTTriggerMonitor::event * Run = 222530 Event = 1127 * XFTTriggerMonitor::event * Run = 222530 Event = 1128 * XFTTriggerMonitor::event * Run = 222530 Event = 1129 * XFTTriggerMonitor::event * Run = 222530 Event = 1130 * XFTTriggerMonitor::event * Run = 222530 Event = 1131 * XFTTriggerMonitor::event * Run = 222530 Event = 1132 * XFTTriggerMonitor::event * Run = 222530 Event = 1133 * XFTTriggerMonitor::event * Run = 222530 Event = 1134 * XFTTriggerMonitor::event * Run = 222530 Event = 1135 * XFTTriggerMonitor::event * Run = 222530 Event = 1136 * XFTTriggerMonitor::event * Run = 222530 Event = 1137 * XFTTriggerMonitor::event * Run = 222530 Event = 1138 * XFTTriggerMonitor::event * Run = 222530 Event = 1139 * XFTTriggerMonitor::event * Run = 222530 Event = 1140 * XFTTriggerMonitor::event * Run = 222530 Event = 1141 * XFTTriggerMonitor::event * Run = 222530 Event = 1142 * XFTTriggerMonitor::event * Run = 222530 Event = 1143 * XFTTriggerMonitor::event * Run = 222530 Event = 1144 * XFTTriggerMonitor::event * Run = 222530 Event = 1145 * XFTTriggerMonitor::event * Run = 222530 Event = 1146 * XFTTriggerMonitor::event * Run = 222530 Event = 1147 * XFTTriggerMonitor::event * Run = 222530 Event = 1148 * XFTTriggerMonitor::event * Run = 222530 Event = 1149 * XFTTriggerMonitor::event * Run = 222530 Event = 1150 * XFTTriggerMonitor::event * Run = 222530 Event = 1151 * XFTTriggerMonitor::event * Run = 222530 Event = 1152 * XFTTriggerMonitor::event * Run = 222530 Event = 1153 * XFTTriggerMonitor::event * Run = 222530 Event = 1154 * XFTTriggerMonitor::event * Run = 222530 Event = 1155 * XFTTriggerMonitor::event * Run = 222530 Event = 1156 * XFTTriggerMonitor::event * Run = 222530 Event = 1157 * XFTTriggerMonitor::event * Run = 222530 Event = 1158 * XFTTriggerMonitor::event * Run = 222530 Event = 1159 * XFTTriggerMonitor::event * Run = 222530 Event = 1160 * XFTTriggerMonitor::event * Run = 222530 Event = 1161 * XFTTriggerMonitor::event * Run = 222530 Event = 1162 * XFTTriggerMonitor::event * Run = 222530 Event = 1163 * XFTTriggerMonitor::event * Run = 222530 Event = 1164 * XFTTriggerMonitor::event * Run = 222530 Event = 1165 * XFTTriggerMonitor::event * Run = 222530 Event = 1166 * XFTTriggerMonitor::event * Run = 222530 Event = 1167 * XFTTriggerMonitor::event * Run = 222530 Event = 1168 * XFTTriggerMonitor::event * Run = 222530 Event = 1169 * XFTTriggerMonitor::event * Run = 222530 Event = 1170 * XFTTriggerMonitor::event * Run = 222530 Event = 1171 * XFTTriggerMonitor::event * Run = 222530 Event = 1172 * XFTTriggerMonitor::event * Run = 222530 Event = 1173 * XFTTriggerMonitor::event * Run = 222530 Event = 1174 * XFTTriggerMonitor::event * Run = 222530 Event = 1175 * XFTTriggerMonitor::event * Run = 222530 Event = 1176 * XFTTriggerMonitor::event * Run = 222530 Event = 1177 * XFTTriggerMonitor::event * Run = 222530 Event = 1178 * XFTTriggerMonitor::event * Run = 222530 Event = 1179 * XFTTriggerMonitor::event * Run = 222530 Event = 1180 * XFTTriggerMonitor::event * Run = 222530 Event = 1181 * XFTTriggerMonitor::event * Run = 222530 Event = 1182 * XFTTriggerMonitor::event * Run = 222530 Event = 1183 * XFTTriggerMonitor::event * Run = 222530 Event = 1184 * XFTTriggerMonitor::event * Run = 222530 Event = 1185 * XFTTriggerMonitor::event * Run = 222530 Event = 1186 * XFTTriggerMonitor::event * Run = 222530 Event = 1187 * XFTTriggerMonitor::event * Run = 222530 Event = 1188 * XFTTriggerMonitor::event * Run = 222530 Event = 1189 * XFTTriggerMonitor::event * Run = 222530 Event = 1190 * XFTTriggerMonitor::event * Run = 222530 Event = 1191 * XFTTriggerMonitor::event * Run = 222530 Event = 1192 * XFTTriggerMonitor::event * Run = 222530 Event = 1193 * XFTTriggerMonitor::event * Run = 222530 Event = 1194 * XFTTriggerMonitor::event * Run = 222530 Event = 1195 * XFTTriggerMonitor::event * Run = 222530 Event = 1196 * XFTTriggerMonitor::event * Run = 222530 Event = 1197 * XFTTriggerMonitor::event * Run = 222530 Event = 1198 DHInput Begin processing 1200th record. Run 222530, Trigger 1199 * XFTTriggerMonitor::event * Run = 222530 Event = 1199 * XFTTriggerMonitor::event * Run = 222530 Event = 1200 * XFTTriggerMonitor::event * Run = 222530 Event = 1201 * XFTTriggerMonitor::event * Run = 222530 Event = 1202 * XFTTriggerMonitor::event * Run = 222530 Event = 1203 * XFTTriggerMonitor::event * Run = 222530 Event = 1204 * XFTTriggerMonitor::event * Run = 222530 Event = 1205 * XFTTriggerMonitor::event * Run = 222530 Event = 1206 * XFTTriggerMonitor::event * Run = 222530 Event = 1207 * XFTTriggerMonitor::event * Run = 222530 Event = 1208 * XFTTriggerMonitor::event * Run = 222530 Event = 1209 * XFTTriggerMonitor::event * Run = 222530 Event = 1210 * XFTTriggerMonitor::event * Run = 222530 Event = 1211 * XFTTriggerMonitor::event * Run = 222530 Event = 1212 * XFTTriggerMonitor::event * Run = 222530 Event = 1213 * XFTTriggerMonitor::event * Run = 222530 Event = 1214 * XFTTriggerMonitor::event * Run = 222530 Event = 1215 * XFTTriggerMonitor::event * Run = 222530 Event = 1216 * XFTTriggerMonitor::event * Run = 222530 Event = 1217 * XFTTriggerMonitor::event * Run = 222530 Event = 1218 * XFTTriggerMonitor::event * Run = 222530 Event = 1219 * XFTTriggerMonitor::event * Run = 222530 Event = 1220 * XFTTriggerMonitor::event * Run = 222530 Event = 1221 * XFTTriggerMonitor::event * Run = 222530 Event = 1222 * XFTTriggerMonitor::event * Run = 222530 Event = 1223 * XFTTriggerMonitor::event * Run = 222530 Event = 1224 * XFTTriggerMonitor::event * Run = 222530 Event = 1225 * XFTTriggerMonitor::event * Run = 222530 Event = 1226 * XFTTriggerMonitor::event * Run = 222530 Event = 1227 * XFTTriggerMonitor::event * Run = 222530 Event = 1228 * XFTTriggerMonitor::event * Run = 222530 Event = 1229 * XFTTriggerMonitor::event * Run = 222530 Event = 1230 * XFTTriggerMonitor::event * Run = 222530 Event = 1231 * XFTTriggerMonitor::event * Run = 222530 Event = 1232 * XFTTriggerMonitor::event * Run = 222530 Event = 1233 * XFTTriggerMonitor::event * Run = 222530 Event = 1234 * XFTTriggerMonitor::event * Run = 222530 Event = 1235 * XFTTriggerMonitor::event * Run = 222530 Event = 1236 * XFTTriggerMonitor::event * Run = 222530 Event = 1237 * XFTTriggerMonitor::event * Run = 222530 Event = 1238 * XFTTriggerMonitor::event * Run = 222530 Event = 1239 * XFTTriggerMonitor::event * Run = 222530 Event = 1240 * XFTTriggerMonitor::event * Run = 222530 Event = 1241 * XFTTriggerMonitor::event * Run = 222530 Event = 1242 * XFTTriggerMonitor::event * Run = 222530 Event = 1243 * XFTTriggerMonitor::event * Run = 222530 Event = 1244 * XFTTriggerMonitor::event * Run = 222530 Event = 1245 * XFTTriggerMonitor::event * Run = 222530 Event = 1246 * XFTTriggerMonitor::event * Run = 222530 Event = 1247 * XFTTriggerMonitor::event * Run = 222530 Event = 1248 * XFTTriggerMonitor::event * Run = 222530 Event = 1249 * XFTTriggerMonitor::event * Run = 222530 Event = 1250 * XFTTriggerMonitor::event * Run = 222530 Event = 1251 * XFTTriggerMonitor::event * Run = 222530 Event = 1252 * XFTTriggerMonitor::event * Run = 222530 Event = 1253 * XFTTriggerMonitor::event * Run = 222530 Event = 1254 * XFTTriggerMonitor::event * Run = 222530 Event = 1255 * XFTTriggerMonitor::event * Run = 222530 Event = 1256 * XFTTriggerMonitor::event * Run = 222530 Event = 1257 * XFTTriggerMonitor::event * Run = 222530 Event = 1258 * XFTTriggerMonitor::event * Run = 222530 Event = 1259 * XFTTriggerMonitor::event * Run = 222530 Event = 1260 * XFTTriggerMonitor::event * Run = 222530 Event = 1261 * XFTTriggerMonitor::event * Run = 222530 Event = 1262 * XFTTriggerMonitor::event * Run = 222530 Event = 1263 * XFTTriggerMonitor::event * Run = 222530 Event = 1264 * XFTTriggerMonitor::event * Run = 222530 Event = 1265 * XFTTriggerMonitor::event * Run = 222530 Event = 1266 * XFTTriggerMonitor::event * Run = 222530 Event = 1267 * XFTTriggerMonitor::event * Run = 222530 Event = 1268 * XFTTriggerMonitor::event * Run = 222530 Event = 1269 * XFTTriggerMonitor::event * Run = 222530 Event = 1270 * XFTTriggerMonitor::event * Run = 222530 Event = 1271 * XFTTriggerMonitor::event * Run = 222530 Event = 1272 * XFTTriggerMonitor::event * Run = 222530 Event = 1273 * XFTTriggerMonitor::event * Run = 222530 Event = 1274 * XFTTriggerMonitor::event * Run = 222530 Event = 1275 * XFTTriggerMonitor::event * Run = 222530 Event = 1276 * XFTTriggerMonitor::event * Run = 222530 Event = 1277 * XFTTriggerMonitor::event * Run = 222530 Event = 1278 * XFTTriggerMonitor::event * Run = 222530 Event = 1279 * XFTTriggerMonitor::event * Run = 222530 Event = 1280 * XFTTriggerMonitor::event * Run = 222530 Event = 1281 * XFTTriggerMonitor::event * Run = 222530 Event = 1282 * XFTTriggerMonitor::event * Run = 222530 Event = 1283 * XFTTriggerMonitor::event * Run = 222530 Event = 1284 * XFTTriggerMonitor::event * Run = 222530 Event = 1285 * XFTTriggerMonitor::event * Run = 222530 Event = 1286 * XFTTriggerMonitor::event * Run = 222530 Event = 1287 * XFTTriggerMonitor::event * Run = 222530 Event = 1288 * XFTTriggerMonitor::event * Run = 222530 Event = 1289 * XFTTriggerMonitor::event * Run = 222530 Event = 1290 * XFTTriggerMonitor::event * Run = 222530 Event = 1291 * XFTTriggerMonitor::event * Run = 222530 Event = 1292 * XFTTriggerMonitor::event * Run = 222530 Event = 1293 * XFTTriggerMonitor::event * Run = 222530 Event = 1294 * XFTTriggerMonitor::event * Run = 222530 Event = 1295 * XFTTriggerMonitor::event * Run = 222530 Event = 1296 * XFTTriggerMonitor::event * Run = 222530 Event = 1297 * XFTTriggerMonitor::event * Run = 222530 Event = 1298 DHInput Begin processing 1300th record. Run 222530, Trigger 1299 * XFTTriggerMonitor::event * Run = 222530 Event = 1299 * XFTTriggerMonitor::event * Run = 222530 Event = 1300 * XFTTriggerMonitor::event * Run = 222530 Event = 1301 * XFTTriggerMonitor::event * Run = 222530 Event = 1302 * XFTTriggerMonitor::event * Run = 222530 Event = 1303 * XFTTriggerMonitor::event * Run = 222530 Event = 1304 * XFTTriggerMonitor::event * Run = 222530 Event = 1305 * XFTTriggerMonitor::event * Run = 222530 Event = 1306 * XFTTriggerMonitor::event * Run = 222530 Event = 1307 * XFTTriggerMonitor::event * Run = 222530 Event = 1308 * XFTTriggerMonitor::event * Run = 222530 Event = 1309 * XFTTriggerMonitor::event * Run = 222530 Event = 1310 * XFTTriggerMonitor::event * Run = 222530 Event = 1311 * XFTTriggerMonitor::event * Run = 222530 Event = 1312 * XFTTriggerMonitor::event * Run = 222530 Event = 1313 * XFTTriggerMonitor::event * Run = 222530 Event = 1314 * XFTTriggerMonitor::event * Run = 222530 Event = 1315 * XFTTriggerMonitor::event * Run = 222530 Event = 1316 * XFTTriggerMonitor::event * Run = 222530 Event = 1317 * XFTTriggerMonitor::event * Run = 222530 Event = 1318 * XFTTriggerMonitor::event * Run = 222530 Event = 1319 * XFTTriggerMonitor::event * Run = 222530 Event = 1320 * XFTTriggerMonitor::event * Run = 222530 Event = 1321 * XFTTriggerMonitor::event * Run = 222530 Event = 1322 * XFTTriggerMonitor::event * Run = 222530 Event = 1323 * XFTTriggerMonitor::event * Run = 222530 Event = 1324 * XFTTriggerMonitor::event * Run = 222530 Event = 1325 * XFTTriggerMonitor::event * Run = 222530 Event = 1326 * XFTTriggerMonitor::event * Run = 222530 Event = 1327 * XFTTriggerMonitor::event * Run = 222530 Event = 1328 * XFTTriggerMonitor::event * Run = 222530 Event = 1329 * XFTTriggerMonitor::event * Run = 222530 Event = 1330 * XFTTriggerMonitor::event * Run = 222530 Event = 1331 * XFTTriggerMonitor::event * Run = 222530 Event = 1332 * XFTTriggerMonitor::event * Run = 222530 Event = 1333 * XFTTriggerMonitor::event * Run = 222530 Event = 1334 * XFTTriggerMonitor::event * Run = 222530 Event = 1335 * XFTTriggerMonitor::event * Run = 222530 Event = 1336 * XFTTriggerMonitor::event * Run = 222530 Event = 1337 * XFTTriggerMonitor::event * Run = 222530 Event = 1338 * XFTTriggerMonitor::event * Run = 222530 Event = 1339 * XFTTriggerMonitor::event * Run = 222530 Event = 1340 * XFTTriggerMonitor::event * Run = 222530 Event = 1341 * XFTTriggerMonitor::event * Run = 222530 Event = 1342 * XFTTriggerMonitor::event * Run = 222530 Event = 1343 * XFTTriggerMonitor::event * Run = 222530 Event = 1344 * XFTTriggerMonitor::event * Run = 222530 Event = 1345 * XFTTriggerMonitor::event * Run = 222530 Event = 1346 * XFTTriggerMonitor::event * Run = 222530 Event = 1347 * XFTTriggerMonitor::event * Run = 222530 Event = 1348 * XFTTriggerMonitor::event * Run = 222530 Event = 1349 * XFTTriggerMonitor::event * Run = 222530 Event = 1350 * XFTTriggerMonitor::event * Run = 222530 Event = 1351 * XFTTriggerMonitor::event * Run = 222530 Event = 1352 * XFTTriggerMonitor::event * Run = 222530 Event = 1353 * XFTTriggerMonitor::event * Run = 222530 Event = 1354 * XFTTriggerMonitor::event * Run = 222530 Event = 1355 * XFTTriggerMonitor::event * Run = 222530 Event = 1356 * XFTTriggerMonitor::event * Run = 222530 Event = 1357 * XFTTriggerMonitor::event * Run = 222530 Event = 1358 * XFTTriggerMonitor::event * Run = 222530 Event = 1359 * XFTTriggerMonitor::event * Run = 222530 Event = 1360 * XFTTriggerMonitor::event * Run = 222530 Event = 1361 * XFTTriggerMonitor::event * Run = 222530 Event = 1362 * XFTTriggerMonitor::event * Run = 222530 Event = 1363 * XFTTriggerMonitor::event * Run = 222530 Event = 1364 * XFTTriggerMonitor::event * Run = 222530 Event = 1365 * XFTTriggerMonitor::event * Run = 222530 Event = 1366 * XFTTriggerMonitor::event * Run = 222530 Event = 1367 * XFTTriggerMonitor::event * Run = 222530 Event = 1368 * XFTTriggerMonitor::event * Run = 222530 Event = 1369 * XFTTriggerMonitor::event * Run = 222530 Event = 1370 * XFTTriggerMonitor::event * Run = 222530 Event = 1371 * XFTTriggerMonitor::event * Run = 222530 Event = 1372 * XFTTriggerMonitor::event * Run = 222530 Event = 1373 * XFTTriggerMonitor::event * Run = 222530 Event = 1374 * XFTTriggerMonitor::event * Run = 222530 Event = 1375 * XFTTriggerMonitor::event * Run = 222530 Event = 1376 * XFTTriggerMonitor::event * Run = 222530 Event = 1377 * XFTTriggerMonitor::event * Run = 222530 Event = 1378 * XFTTriggerMonitor::event * Run = 222530 Event = 1379 * XFTTriggerMonitor::event * Run = 222530 Event = 1380 * XFTTriggerMonitor::event * Run = 222530 Event = 1381 * XFTTriggerMonitor::event * Run = 222530 Event = 1382 * XFTTriggerMonitor::event * Run = 222530 Event = 1383 * XFTTriggerMonitor::event * Run = 222530 Event = 1384 * XFTTriggerMonitor::event * Run = 222530 Event = 1385 * XFTTriggerMonitor::event * Run = 222530 Event = 1386 * XFTTriggerMonitor::event * Run = 222530 Event = 1387 * XFTTriggerMonitor::event * Run = 222530 Event = 1388 * XFTTriggerMonitor::event * Run = 222530 Event = 1389 * XFTTriggerMonitor::event * Run = 222530 Event = 1390 * XFTTriggerMonitor::event * Run = 222530 Event = 1391 * XFTTriggerMonitor::event * Run = 222530 Event = 1392 * XFTTriggerMonitor::event * Run = 222530 Event = 1393 * XFTTriggerMonitor::event * Run = 222530 Event = 1394 * XFTTriggerMonitor::event * Run = 222530 Event = 1395 * XFTTriggerMonitor::event * Run = 222530 Event = 1396 * XFTTriggerMonitor::event * Run = 222530 Event = 1397 * XFTTriggerMonitor::event * Run = 222530 Event = 1398 DHInput Begin processing 1400th record. Run 222530, Trigger 1399 * XFTTriggerMonitor::event * Run = 222530 Event = 1399 * XFTTriggerMonitor::event * Run = 222530 Event = 1400 * XFTTriggerMonitor::event * Run = 222530 Event = 1401 * XFTTriggerMonitor::event * Run = 222530 Event = 1402 * XFTTriggerMonitor::event * Run = 222530 Event = 1403 * XFTTriggerMonitor::event * Run = 222530 Event = 1404 * XFTTriggerMonitor::event * Run = 222530 Event = 1405 * XFTTriggerMonitor::event * Run = 222530 Event = 1406 * XFTTriggerMonitor::event * Run = 222530 Event = 1407 * XFTTriggerMonitor::event * Run = 222530 Event = 1408 * XFTTriggerMonitor::event * Run = 222530 Event = 1409 * XFTTriggerMonitor::event * Run = 222530 Event = 1410 * XFTTriggerMonitor::event * Run = 222530 Event = 1411 * XFTTriggerMonitor::event * Run = 222530 Event = 1412 * XFTTriggerMonitor::event * Run = 222530 Event = 1413 * XFTTriggerMonitor::event * Run = 222530 Event = 1414 * XFTTriggerMonitor::event * Run = 222530 Event = 1415 * XFTTriggerMonitor::event * Run = 222530 Event = 1416 * XFTTriggerMonitor::event * Run = 222530 Event = 1417 * XFTTriggerMonitor::event * Run = 222530 Event = 1418 * XFTTriggerMonitor::event * Run = 222530 Event = 1419 * XFTTriggerMonitor::event * Run = 222530 Event = 1420 * XFTTriggerMonitor::event * Run = 222530 Event = 1421 * XFTTriggerMonitor::event * Run = 222530 Event = 1422 * XFTTriggerMonitor::event * Run = 222530 Event = 1423 * XFTTriggerMonitor::event * Run = 222530 Event = 1424 * XFTTriggerMonitor::event * Run = 222530 Event = 1425 * XFTTriggerMonitor::event * Run = 222530 Event = 1426 * XFTTriggerMonitor::event * Run = 222530 Event = 1427 * XFTTriggerMonitor::event * Run = 222530 Event = 1428 * XFTTriggerMonitor::event * Run = 222530 Event = 1429 * XFTTriggerMonitor::event * Run = 222530 Event = 1430 * XFTTriggerMonitor::event * Run = 222530 Event = 1431 * XFTTriggerMonitor::event * Run = 222530 Event = 1432 * XFTTriggerMonitor::event * Run = 222530 Event = 1433 * XFTTriggerMonitor::event * Run = 222530 Event = 1434 * XFTTriggerMonitor::event * Run = 222530 Event = 1435 * XFTTriggerMonitor::event * Run = 222530 Event = 1436 * XFTTriggerMonitor::event * Run = 222530 Event = 1437 * XFTTriggerMonitor::event * Run = 222530 Event = 1438 * XFTTriggerMonitor::event * Run = 222530 Event = 1439 * XFTTriggerMonitor::event * Run = 222530 Event = 1440 * XFTTriggerMonitor::event * Run = 222530 Event = 1441 * XFTTriggerMonitor::event * Run = 222530 Event = 1442 * XFTTriggerMonitor::event * Run = 222530 Event = 1443 * XFTTriggerMonitor::event * Run = 222530 Event = 1444 * XFTTriggerMonitor::event * Run = 222530 Event = 1445 * XFTTriggerMonitor::event * Run = 222530 Event = 1446 * XFTTriggerMonitor::event * Run = 222530 Event = 1447 * XFTTriggerMonitor::event * Run = 222530 Event = 1448 * XFTTriggerMonitor::event * Run = 222530 Event = 1449 * XFTTriggerMonitor::event * Run = 222530 Event = 1450 * XFTTriggerMonitor::event * Run = 222530 Event = 1451 * XFTTriggerMonitor::event * Run = 222530 Event = 1452 * XFTTriggerMonitor::event * Run = 222530 Event = 1453 * XFTTriggerMonitor::event * Run = 222530 Event = 1454 * XFTTriggerMonitor::event * Run = 222530 Event = 1455 * XFTTriggerMonitor::event * Run = 222530 Event = 1456 * XFTTriggerMonitor::event * Run = 222530 Event = 1457 * XFTTriggerMonitor::event * Run = 222530 Event = 1458 * XFTTriggerMonitor::event * Run = 222530 Event = 1459 * XFTTriggerMonitor::event * Run = 222530 Event = 1460 * XFTTriggerMonitor::event * Run = 222530 Event = 1461 * XFTTriggerMonitor::event * Run = 222530 Event = 1462 * XFTTriggerMonitor::event * Run = 222530 Event = 1463 * XFTTriggerMonitor::event * Run = 222530 Event = 1464 * XFTTriggerMonitor::event * Run = 222530 Event = 1465 * XFTTriggerMonitor::event * Run = 222530 Event = 1466 * XFTTriggerMonitor::event * Run = 222530 Event = 1467 * XFTTriggerMonitor::event * Run = 222530 Event = 1468 * XFTTriggerMonitor::event * Run = 222530 Event = 1469 * XFTTriggerMonitor::event * Run = 222530 Event = 1470 * XFTTriggerMonitor::event * Run = 222530 Event = 1471 * XFTTriggerMonitor::event * Run = 222530 Event = 1472 * XFTTriggerMonitor::event * Run = 222530 Event = 1473 * XFTTriggerMonitor::event * Run = 222530 Event = 1474 * XFTTriggerMonitor::event * Run = 222530 Event = 1475 * XFTTriggerMonitor::event * Run = 222530 Event = 1476 * XFTTriggerMonitor::event * Run = 222530 Event = 1477 * XFTTriggerMonitor::event * Run = 222530 Event = 1478 * XFTTriggerMonitor::event * Run = 222530 Event = 1479 * XFTTriggerMonitor::event * Run = 222530 Event = 1480 * XFTTriggerMonitor::event * Run = 222530 Event = 1481 * XFTTriggerMonitor::event * Run = 222530 Event = 1482 * XFTTriggerMonitor::event * Run = 222530 Event = 1483 * XFTTriggerMonitor::event * Run = 222530 Event = 1484 * XFTTriggerMonitor::event * Run = 222530 Event = 1485 * XFTTriggerMonitor::event * Run = 222530 Event = 1486 * XFTTriggerMonitor::event * Run = 222530 Event = 1487 * XFTTriggerMonitor::event * Run = 222530 Event = 1488 * XFTTriggerMonitor::event * Run = 222530 Event = 1489 * XFTTriggerMonitor::event * Run = 222530 Event = 1490 * XFTTriggerMonitor::event * Run = 222530 Event = 1491 * XFTTriggerMonitor::event * Run = 222530 Event = 1492 * XFTTriggerMonitor::event * Run = 222530 Event = 1493 * XFTTriggerMonitor::event * Run = 222530 Event = 1494 * XFTTriggerMonitor::event * Run = 222530 Event = 1495 * XFTTriggerMonitor::event * Run = 222530 Event = 1496 * XFTTriggerMonitor::event * Run = 222530 Event = 1497 * XFTTriggerMonitor::event * Run = 222530 Event = 1498 DHInput Begin processing 1500th record. Run 222530, Trigger 1499 * XFTTriggerMonitor::event * Run = 222530 Event = 1499 * XFTTriggerMonitor::event * Run = 222530 Event = 1500 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 * XFTTriggerMonitor::event * Run = 222530 Event = 1501 * XFTTriggerMonitor::event * Run = 222530 Event = 1502 * XFTTriggerMonitor::event * Run = 222530 Event = 1503 * XFTTriggerMonitor::event * Run = 222530 Event = 1504 * XFTTriggerMonitor::event * Run = 222530 Event = 1505 * XFTTriggerMonitor::event * Run = 222530 Event = 1506 * XFTTriggerMonitor::event * Run = 222530 Event = 1507 * XFTTriggerMonitor::event * Run = 222530 Event = 1508 * XFTTriggerMonitor::event * Run = 222530 Event = 1509 * XFTTriggerMonitor::event * Run = 222530 Event = 1510 * XFTTriggerMonitor::event * Run = 222530 Event = 1511 * XFTTriggerMonitor::event * Run = 222530 Event = 1512 * XFTTriggerMonitor::event * Run = 222530 Event = 1513 * XFTTriggerMonitor::event * Run = 222530 Event = 1514 * XFTTriggerMonitor::event * Run = 222530 Event = 1515 * XFTTriggerMonitor::event * Run = 222530 Event = 1516 * XFTTriggerMonitor::event * Run = 222530 Event = 1517 * XFTTriggerMonitor::event * Run = 222530 Event = 1518 * XFTTriggerMonitor::event * Run = 222530 Event = 1519 * XFTTriggerMonitor::event * Run = 222530 Event = 1520 * XFTTriggerMonitor::event * Run = 222530 Event = 1521 * XFTTriggerMonitor::event * Run = 222530 Event = 1522 * XFTTriggerMonitor::event * Run = 222530 Event = 1523 * XFTTriggerMonitor::event * Run = 222530 Event = 1524 * XFTTriggerMonitor::event * Run = 222530 Event = 1525 * XFTTriggerMonitor::event * Run = 222530 Event = 1526 * XFTTriggerMonitor::event * Run = 222530 Event = 1527 * XFTTriggerMonitor::event * Run = 222530 Event = 1528 * XFTTriggerMonitor::event * Run = 222530 Event = 1529 * XFTTriggerMonitor::event * Run = 222530 Event = 1530 * XFTTriggerMonitor::event * Run = 222530 Event = 1531 * XFTTriggerMonitor::event * Run = 222530 Event = 1532 * XFTTriggerMonitor::event * Run = 222530 Event = 1533 * XFTTriggerMonitor::event * Run = 222530 Event = 1534 * XFTTriggerMonitor::event * Run = 222530 Event = 1535 * XFTTriggerMonitor::event * Run = 222530 Event = 1536 * XFTTriggerMonitor::event * Run = 222530 Event = 1537 * XFTTriggerMonitor::event * Run = 222530 Event = 1538 * XFTTriggerMonitor::event * Run = 222530 Event = 1539 * XFTTriggerMonitor::event * Run = 222530 Event = 1540 * XFTTriggerMonitor::event * Run = 222530 Event = 1541 * XFTTriggerMonitor::event * Run = 222530 Event = 1542 * XFTTriggerMonitor::event * Run = 222530 Event = 1543 * XFTTriggerMonitor::event * Run = 222530 Event = 1544 * XFTTriggerMonitor::event * Run = 222530 Event = 1545 * XFTTriggerMonitor::event * Run = 222530 Event = 1546 * XFTTriggerMonitor::event * Run = 222530 Event = 1547 * XFTTriggerMonitor::event * Run = 222530 Event = 1548 * XFTTriggerMonitor::event * Run = 222530 Event = 1549 * XFTTriggerMonitor::event * Run = 222530 Event = 1550 * XFTTriggerMonitor::event * Run = 222530 Event = 1551 * XFTTriggerMonitor::event * Run = 222530 Event = 1552 * XFTTriggerMonitor::event * Run = 222530 Event = 1553 * XFTTriggerMonitor::event * Run = 222530 Event = 1554 * XFTTriggerMonitor::event * Run = 222530 Event = 1555 * XFTTriggerMonitor::event * Run = 222530 Event = 1556 * XFTTriggerMonitor::event * Run = 222530 Event = 1557 * XFTTriggerMonitor::event * Run = 222530 Event = 1558 * XFTTriggerMonitor::event * Run = 222530 Event = 1559 * XFTTriggerMonitor::event * Run = 222530 Event = 1560 * XFTTriggerMonitor::event * Run = 222530 Event = 1561 * XFTTriggerMonitor::event * Run = 222530 Event = 1562 * XFTTriggerMonitor::event * Run = 222530 Event = 1563 * XFTTriggerMonitor::event * Run = 222530 Event = 1564 * XFTTriggerMonitor::event * Run = 222530 Event = 1565 * XFTTriggerMonitor::event * Run = 222530 Event = 1566 * XFTTriggerMonitor::event * Run = 222530 Event = 1567 * XFTTriggerMonitor::event * Run = 222530 Event = 1568 * XFTTriggerMonitor::event * Run = 222530 Event = 1569 * XFTTriggerMonitor::event * Run = 222530 Event = 1570 * XFTTriggerMonitor::event * Run = 222530 Event = 1571 * XFTTriggerMonitor::event * Run = 222530 Event = 1572 * XFTTriggerMonitor::event * Run = 222530 Event = 1573 * XFTTriggerMonitor::event * Run = 222530 Event = 1574 * XFTTriggerMonitor::event * Run = 222530 Event = 1575 * XFTTriggerMonitor::event * Run = 222530 Event = 1576 * XFTTriggerMonitor::event * Run = 222530 Event = 1577 * XFTTriggerMonitor::event * Run = 222530 Event = 1578 * XFTTriggerMonitor::event * Run = 222530 Event = 1579 * XFTTriggerMonitor::event * Run = 222530 Event = 1580 * XFTTriggerMonitor::event * Run = 222530 Event = 1581 * XFTTriggerMonitor::event * Run = 222530 Event = 1582 * XFTTriggerMonitor::event * Run = 222530 Event = 1583 * XFTTriggerMonitor::event * Run = 222530 Event = 1584 * XFTTriggerMonitor::event * Run = 222530 Event = 1585 * XFTTriggerMonitor::event * Run = 222530 Event = 1586 * XFTTriggerMonitor::event * Run = 222530 Event = 1587 * XFTTriggerMonitor::event * Run = 222530 Event = 1588 * XFTTriggerMonitor::event * Run = 222530 Event = 1589 * XFTTriggerMonitor::event * Run = 222530 Event = 1590 * XFTTriggerMonitor::event * Run = 222530 Event = 1591 * XFTTriggerMonitor::event * Run = 222530 Event = 1592 * XFTTriggerMonitor::event * Run = 222530 Event = 1593 * XFTTriggerMonitor::event * Run = 222530 Event = 1594 * XFTTriggerMonitor::event * Run = 222530 Event = 1595 * XFTTriggerMonitor::event * Run = 222530 Event = 1596 * XFTTriggerMonitor::event * Run = 222530 Event = 1597 * XFTTriggerMonitor::event * Run = 222530 Event = 1598 DHInput Begin processing 1600th record. Run 222530, Trigger 1599 * XFTTriggerMonitor::event * Run = 222530 Event = 1599 * XFTTriggerMonitor::event * Run = 222530 Event = 1600 * XFTTriggerMonitor::event * Run = 222530 Event = 1601 * XFTTriggerMonitor::event * Run = 222530 Event = 1602 * XFTTriggerMonitor::event * Run = 222530 Event = 1603 * XFTTriggerMonitor::event * Run = 222530 Event = 1604 * XFTTriggerMonitor::event * Run = 222530 Event = 1605 * XFTTriggerMonitor::event * Run = 222530 Event = 1606 * XFTTriggerMonitor::event * Run = 222530 Event = 1607 * XFTTriggerMonitor::event * Run = 222530 Event = 1608 * XFTTriggerMonitor::event * Run = 222530 Event = 1609 * XFTTriggerMonitor::event * Run = 222530 Event = 1610 * XFTTriggerMonitor::event * Run = 222530 Event = 1611 * XFTTriggerMonitor::event * Run = 222530 Event = 1612 * XFTTriggerMonitor::event * Run = 222530 Event = 1613 * XFTTriggerMonitor::event * Run = 222530 Event = 1614 * XFTTriggerMonitor::event * Run = 222530 Event = 1615 * XFTTriggerMonitor::event * Run = 222530 Event = 1616 * XFTTriggerMonitor::event * Run = 222530 Event = 1617 * XFTTriggerMonitor::event * Run = 222530 Event = 1618 * XFTTriggerMonitor::event * Run = 222530 Event = 1619 * XFTTriggerMonitor::event * Run = 222530 Event = 1620 * XFTTriggerMonitor::event * Run = 222530 Event = 1621 * XFTTriggerMonitor::event * Run = 222530 Event = 1622 * XFTTriggerMonitor::event * Run = 222530 Event = 1623 * XFTTriggerMonitor::event * Run = 222530 Event = 1624 * XFTTriggerMonitor::event * Run = 222530 Event = 1625 * XFTTriggerMonitor::event * Run = 222530 Event = 1626 * XFTTriggerMonitor::event * Run = 222530 Event = 1627 * XFTTriggerMonitor::event * Run = 222530 Event = 1628 * XFTTriggerMonitor::event * Run = 222530 Event = 1629 * XFTTriggerMonitor::event * Run = 222530 Event = 1630 * XFTTriggerMonitor::event * Run = 222530 Event = 1631 * XFTTriggerMonitor::event * Run = 222530 Event = 1632 * XFTTriggerMonitor::event * Run = 222530 Event = 1633 * XFTTriggerMonitor::event * Run = 222530 Event = 1634 * XFTTriggerMonitor::event * Run = 222530 Event = 1635 * XFTTriggerMonitor::event * Run = 222530 Event = 1636 * XFTTriggerMonitor::event * Run = 222530 Event = 1637 * XFTTriggerMonitor::event * Run = 222530 Event = 1638 * XFTTriggerMonitor::event * Run = 222530 Event = 1639 * XFTTriggerMonitor::event * Run = 222530 Event = 1640 * XFTTriggerMonitor::event * Run = 222530 Event = 1641 * XFTTriggerMonitor::event * Run = 222530 Event = 1642 * XFTTriggerMonitor::event * Run = 222530 Event = 1643 * XFTTriggerMonitor::event * Run = 222530 Event = 1644 * XFTTriggerMonitor::event * Run = 222530 Event = 1645 * XFTTriggerMonitor::event * Run = 222530 Event = 1646 * XFTTriggerMonitor::event * Run = 222530 Event = 1647 * XFTTriggerMonitor::event * Run = 222530 Event = 1648 * XFTTriggerMonitor::event * Run = 222530 Event = 1649 * XFTTriggerMonitor::event * Run = 222530 Event = 1650 * XFTTriggerMonitor::event * Run = 222530 Event = 1651 * XFTTriggerMonitor::event * Run = 222530 Event = 1652 * XFTTriggerMonitor::event * Run = 222530 Event = 1653 * XFTTriggerMonitor::event * Run = 222530 Event = 1654 * XFTTriggerMonitor::event * Run = 222530 Event = 1655 * XFTTriggerMonitor::event * Run = 222530 Event = 1656 * XFTTriggerMonitor::event * Run = 222530 Event = 1657 * XFTTriggerMonitor::event * Run = 222530 Event = 1658 * XFTTriggerMonitor::event * Run = 222530 Event = 1659 * XFTTriggerMonitor::event * Run = 222530 Event = 1660 * XFTTriggerMonitor::event * Run = 222530 Event = 1661 * XFTTriggerMonitor::event * Run = 222530 Event = 1662 * XFTTriggerMonitor::event * Run = 222530 Event = 1663 * XFTTriggerMonitor::event * Run = 222530 Event = 1664 * XFTTriggerMonitor::event * Run = 222530 Event = 1665 * XFTTriggerMonitor::event * Run = 222530 Event = 1666 * XFTTriggerMonitor::event * Run = 222530 Event = 1667 * XFTTriggerMonitor::event * Run = 222530 Event = 1668 * XFTTriggerMonitor::event * Run = 222530 Event = 1669 * XFTTriggerMonitor::event * Run = 222530 Event = 1670 * XFTTriggerMonitor::event * Run = 222530 Event = 1671 * XFTTriggerMonitor::event * Run = 222530 Event = 1672 * XFTTriggerMonitor::event * Run = 222530 Event = 1673 * XFTTriggerMonitor::event * Run = 222530 Event = 1674 * XFTTriggerMonitor::event * Run = 222530 Event = 1675 * XFTTriggerMonitor::event * Run = 222530 Event = 1676 * XFTTriggerMonitor::event * Run = 222530 Event = 1677 * XFTTriggerMonitor::event * Run = 222530 Event = 1678 * XFTTriggerMonitor::event * Run = 222530 Event = 1679 * XFTTriggerMonitor::event * Run = 222530 Event = 1680 * XFTTriggerMonitor::event * Run = 222530 Event = 1681 * XFTTriggerMonitor::event * Run = 222530 Event = 1682 * XFTTriggerMonitor::event * Run = 222530 Event = 1683 * XFTTriggerMonitor::event * Run = 222530 Event = 1684 * XFTTriggerMonitor::event * Run = 222530 Event = 1685 * XFTTriggerMonitor::event * Run = 222530 Event = 1686 * XFTTriggerMonitor::event * Run = 222530 Event = 1687 * XFTTriggerMonitor::event * Run = 222530 Event = 1688 * XFTTriggerMonitor::event * Run = 222530 Event = 1689 * XFTTriggerMonitor::event * Run = 222530 Event = 1690 * XFTTriggerMonitor::event * Run = 222530 Event = 1691 * XFTTriggerMonitor::event * Run = 222530 Event = 1692 * XFTTriggerMonitor::event * Run = 222530 Event = 1693 * XFTTriggerMonitor::event * Run = 222530 Event = 1694 * XFTTriggerMonitor::event * Run = 222530 Event = 1695 * XFTTriggerMonitor::event * Run = 222530 Event = 1696 * XFTTriggerMonitor::event * Run = 222530 Event = 1697 * XFTTriggerMonitor::event * Run = 222530 Event = 1698 DHInput Begin processing 1700th record. Run 222530, Trigger 1699 * XFTTriggerMonitor::event * Run = 222530 Event = 1699 * XFTTriggerMonitor::event * Run = 222530 Event = 1700 * XFTTriggerMonitor::event * Run = 222530 Event = 1701 * XFTTriggerMonitor::event * Run = 222530 Event = 1702 * XFTTriggerMonitor::event * Run = 222530 Event = 1703 * XFTTriggerMonitor::event * Run = 222530 Event = 1704 * XFTTriggerMonitor::event * Run = 222530 Event = 1705 * XFTTriggerMonitor::event * Run = 222530 Event = 1706 * XFTTriggerMonitor::event * Run = 222530 Event = 1707 * XFTTriggerMonitor::event * Run = 222530 Event = 1708 * XFTTriggerMonitor::event * Run = 222530 Event = 1709 * XFTTriggerMonitor::event * Run = 222530 Event = 1710 * XFTTriggerMonitor::event * Run = 222530 Event = 1711 * XFTTriggerMonitor::event * Run = 222530 Event = 1712 * XFTTriggerMonitor::event * Run = 222530 Event = 1713 * XFTTriggerMonitor::event * Run = 222530 Event = 1714 * XFTTriggerMonitor::event * Run = 222530 Event = 1715 * XFTTriggerMonitor::event * Run = 222530 Event = 1716 * XFTTriggerMonitor::event * Run = 222530 Event = 1717 * XFTTriggerMonitor::event * Run = 222530 Event = 1718 * XFTTriggerMonitor::event * Run = 222530 Event = 1719 * XFTTriggerMonitor::event * Run = 222530 Event = 1720 * XFTTriggerMonitor::event * Run = 222530 Event = 1721 * XFTTriggerMonitor::event * Run = 222530 Event = 1722 * XFTTriggerMonitor::event * Run = 222530 Event = 1723 * XFTTriggerMonitor::event * Run = 222530 Event = 1724 * XFTTriggerMonitor::event * Run = 222530 Event = 1725 * XFTTriggerMonitor::event * Run = 222530 Event = 1726 * XFTTriggerMonitor::event * Run = 222530 Event = 1727 * XFTTriggerMonitor::event * Run = 222530 Event = 1728 * XFTTriggerMonitor::event * Run = 222530 Event = 1729 * XFTTriggerMonitor::event * Run = 222530 Event = 1730 * XFTTriggerMonitor::event * Run = 222530 Event = 1731 * XFTTriggerMonitor::event * Run = 222530 Event = 1732 * XFTTriggerMonitor::event * Run = 222530 Event = 1733 * XFTTriggerMonitor::event * Run = 222530 Event = 1734 * XFTTriggerMonitor::event * Run = 222530 Event = 1735 * XFTTriggerMonitor::event * Run = 222530 Event = 1736 * XFTTriggerMonitor::event * Run = 222530 Event = 1737 * XFTTriggerMonitor::event * Run = 222530 Event = 1738 * XFTTriggerMonitor::event * Run = 222530 Event = 1739 * XFTTriggerMonitor::event * Run = 222530 Event = 1740 * XFTTriggerMonitor::event * Run = 222530 Event = 1741 * XFTTriggerMonitor::event * Run = 222530 Event = 1742 * XFTTriggerMonitor::event * Run = 222530 Event = 1743 * XFTTriggerMonitor::event * Run = 222530 Event = 1744 * XFTTriggerMonitor::event * Run = 222530 Event = 1745 * XFTTriggerMonitor::event * Run = 222530 Event = 1746 * XFTTriggerMonitor::event * Run = 222530 Event = 1747 * XFTTriggerMonitor::event * Run = 222530 Event = 1748 * XFTTriggerMonitor::event * Run = 222530 Event = 1749 * XFTTriggerMonitor::event * Run = 222530 Event = 1750 * XFTTriggerMonitor::event * Run = 222530 Event = 1751 * XFTTriggerMonitor::event * Run = 222530 Event = 1752 * XFTTriggerMonitor::event * Run = 222530 Event = 1753 * XFTTriggerMonitor::event * Run = 222530 Event = 1754 * XFTTriggerMonitor::event * Run = 222530 Event = 1755 * XFTTriggerMonitor::event * Run = 222530 Event = 1756 * XFTTriggerMonitor::event * Run = 222530 Event = 1757 * XFTTriggerMonitor::event * Run = 222530 Event = 1758 * XFTTriggerMonitor::event * Run = 222530 Event = 1759 * XFTTriggerMonitor::event * Run = 222530 Event = 1760 * XFTTriggerMonitor::event * Run = 222530 Event = 1761 * XFTTriggerMonitor::event * Run = 222530 Event = 1762 * XFTTriggerMonitor::event * Run = 222530 Event = 1763 * XFTTriggerMonitor::event * Run = 222530 Event = 1764 * XFTTriggerMonitor::event * Run = 222530 Event = 1765 * XFTTriggerMonitor::event * Run = 222530 Event = 1766 * XFTTriggerMonitor::event * Run = 222530 Event = 1767 * XFTTriggerMonitor::event * Run = 222530 Event = 1768 * XFTTriggerMonitor::event * Run = 222530 Event = 1769 * XFTTriggerMonitor::event * Run = 222530 Event = 1770 * XFTTriggerMonitor::event * Run = 222530 Event = 1771 * XFTTriggerMonitor::event * Run = 222530 Event = 1772 * XFTTriggerMonitor::event * Run = 222530 Event = 1773 * XFTTriggerMonitor::event * Run = 222530 Event = 1774 * XFTTriggerMonitor::event * Run = 222530 Event = 1775 * XFTTriggerMonitor::event * Run = 222530 Event = 1776 * XFTTriggerMonitor::event * Run = 222530 Event = 1777 * XFTTriggerMonitor::event * Run = 222530 Event = 1778 * XFTTriggerMonitor::event * Run = 222530 Event = 1779 * XFTTriggerMonitor::event * Run = 222530 Event = 1780 * XFTTriggerMonitor::event * Run = 222530 Event = 1781 * XFTTriggerMonitor::event * Run = 222530 Event = 1782 * XFTTriggerMonitor::event * Run = 222530 Event = 1783 * XFTTriggerMonitor::event * Run = 222530 Event = 1784 * XFTTriggerMonitor::event * Run = 222530 Event = 1785 * XFTTriggerMonitor::event * Run = 222530 Event = 1786 * XFTTriggerMonitor::event * Run = 222530 Event = 1787 * XFTTriggerMonitor::event * Run = 222530 Event = 1788 * XFTTriggerMonitor::event * Run = 222530 Event = 1789 * XFTTriggerMonitor::event * Run = 222530 Event = 1790 * XFTTriggerMonitor::event * Run = 222530 Event = 1791 * XFTTriggerMonitor::event * Run = 222530 Event = 1792 * XFTTriggerMonitor::event * Run = 222530 Event = 1793 * XFTTriggerMonitor::event * Run = 222530 Event = 1794 * XFTTriggerMonitor::event * Run = 222530 Event = 1795 * XFTTriggerMonitor::event * Run = 222530 Event = 1796 * XFTTriggerMonitor::event * Run = 222530 Event = 1797 * XFTTriggerMonitor::event * Run = 222530 Event = 1798 DHInput Begin processing 1800th record. Run 222530, Trigger 1799 * XFTTriggerMonitor::event * Run = 222530 Event = 1799 * XFTTriggerMonitor::event * Run = 222530 Event = 1800 * XFTTriggerMonitor::event * Run = 222530 Event = 1801 * XFTTriggerMonitor::event * Run = 222530 Event = 1802 * XFTTriggerMonitor::event * Run = 222530 Event = 1803 * XFTTriggerMonitor::event * Run = 222530 Event = 1804 * XFTTriggerMonitor::event * Run = 222530 Event = 1805 * XFTTriggerMonitor::event * Run = 222530 Event = 1806 * XFTTriggerMonitor::event * Run = 222530 Event = 1807 * XFTTriggerMonitor::event * Run = 222530 Event = 1808 * XFTTriggerMonitor::event * Run = 222530 Event = 1809 * XFTTriggerMonitor::event * Run = 222530 Event = 1810 * XFTTriggerMonitor::event * Run = 222530 Event = 1811 * XFTTriggerMonitor::event * Run = 222530 Event = 1812 * XFTTriggerMonitor::event * Run = 222530 Event = 1813 * XFTTriggerMonitor::event * Run = 222530 Event = 1814 * XFTTriggerMonitor::event * Run = 222530 Event = 1815 * XFTTriggerMonitor::event * Run = 222530 Event = 1816 * XFTTriggerMonitor::event * Run = 222530 Event = 1817 * XFTTriggerMonitor::event * Run = 222530 Event = 1818 * XFTTriggerMonitor::event * Run = 222530 Event = 1819 * XFTTriggerMonitor::event * Run = 222530 Event = 1820 * XFTTriggerMonitor::event * Run = 222530 Event = 1821 * XFTTriggerMonitor::event * Run = 222530 Event = 1822 * XFTTriggerMonitor::event * Run = 222530 Event = 1823 * XFTTriggerMonitor::event * Run = 222530 Event = 1824 * XFTTriggerMonitor::event * Run = 222530 Event = 1825 * XFTTriggerMonitor::event * Run = 222530 Event = 1826 * XFTTriggerMonitor::event * Run = 222530 Event = 1827 * XFTTriggerMonitor::event * Run = 222530 Event = 1828 * XFTTriggerMonitor::event * Run = 222530 Event = 1829 * XFTTriggerMonitor::event * Run = 222530 Event = 1830 * XFTTriggerMonitor::event * Run = 222530 Event = 1831 * XFTTriggerMonitor::event * Run = 222530 Event = 1832 * XFTTriggerMonitor::event * Run = 222530 Event = 1833 * XFTTriggerMonitor::event * Run = 222530 Event = 1834 * XFTTriggerMonitor::event * Run = 222530 Event = 1835 * XFTTriggerMonitor::event * Run = 222530 Event = 1836 * XFTTriggerMonitor::event * Run = 222530 Event = 1837 * XFTTriggerMonitor::event * Run = 222530 Event = 1838 * XFTTriggerMonitor::event * Run = 222530 Event = 1839 * XFTTriggerMonitor::event * Run = 222530 Event = 1840 * XFTTriggerMonitor::event * Run = 222530 Event = 1841 * XFTTriggerMonitor::event * Run = 222530 Event = 1842 * XFTTriggerMonitor::event * Run = 222530 Event = 1843 * XFTTriggerMonitor::event * Run = 222530 Event = 1844 * XFTTriggerMonitor::event * Run = 222530 Event = 1845 * XFTTriggerMonitor::event * Run = 222530 Event = 1846 * XFTTriggerMonitor::event * Run = 222530 Event = 1847 * XFTTriggerMonitor::event * Run = 222530 Event = 1848 * XFTTriggerMonitor::event * Run = 222530 Event = 1849 * XFTTriggerMonitor::event * Run = 222530 Event = 1850 * XFTTriggerMonitor::event * Run = 222530 Event = 1851 * XFTTriggerMonitor::event * Run = 222530 Event = 1852 * XFTTriggerMonitor::event * Run = 222530 Event = 1853 * XFTTriggerMonitor::event * Run = 222530 Event = 1854 * XFTTriggerMonitor::event * Run = 222530 Event = 1855 * XFTTriggerMonitor::event * Run = 222530 Event = 1856 * XFTTriggerMonitor::event * Run = 222530 Event = 1857 * XFTTriggerMonitor::event * Run = 222530 Event = 1858 * XFTTriggerMonitor::event * Run = 222530 Event = 1859 * XFTTriggerMonitor::event * Run = 222530 Event = 1860 * XFTTriggerMonitor::event * Run = 222530 Event = 1861 * XFTTriggerMonitor::event * Run = 222530 Event = 1862 * XFTTriggerMonitor::event * Run = 222530 Event = 1863 * XFTTriggerMonitor::event * Run = 222530 Event = 1864 * XFTTriggerMonitor::event * Run = 222530 Event = 1865 * XFTTriggerMonitor::event * Run = 222530 Event = 1866 * XFTTriggerMonitor::event * Run = 222530 Event = 1867 * XFTTriggerMonitor::event * Run = 222530 Event = 1868 * XFTTriggerMonitor::event * Run = 222530 Event = 1869 * XFTTriggerMonitor::event * Run = 222530 Event = 1870 * XFTTriggerMonitor::event * Run = 222530 Event = 1871 * XFTTriggerMonitor::event * Run = 222530 Event = 1872 * XFTTriggerMonitor::event * Run = 222530 Event = 1873 * XFTTriggerMonitor::event * Run = 222530 Event = 1874 * XFTTriggerMonitor::event * Run = 222530 Event = 1875 * XFTTriggerMonitor::event * Run = 222530 Event = 1876 * XFTTriggerMonitor::event * Run = 222530 Event = 1877 * XFTTriggerMonitor::event * Run = 222530 Event = 1878 * XFTTriggerMonitor::event * Run = 222530 Event = 1879 * XFTTriggerMonitor::event * Run = 222530 Event = 1880 * XFTTriggerMonitor::event * Run = 222530 Event = 1881 * XFTTriggerMonitor::event * Run = 222530 Event = 1882 * XFTTriggerMonitor::event * Run = 222530 Event = 1883 * XFTTriggerMonitor::event * Run = 222530 Event = 1884 * XFTTriggerMonitor::event * Run = 222530 Event = 1885 * XFTTriggerMonitor::event * Run = 222530 Event = 1886 * XFTTriggerMonitor::event * Run = 222530 Event = 1887 * XFTTriggerMonitor::event * Run = 222530 Event = 1888 * XFTTriggerMonitor::event * Run = 222530 Event = 1889 * XFTTriggerMonitor::event * Run = 222530 Event = 1890 * XFTTriggerMonitor::event * Run = 222530 Event = 1891 * XFTTriggerMonitor::event * Run = 222530 Event = 1892 * XFTTriggerMonitor::event * Run = 222530 Event = 1893 * XFTTriggerMonitor::event * Run = 222530 Event = 1894 * XFTTriggerMonitor::event * Run = 222530 Event = 1895 * XFTTriggerMonitor::event * Run = 222530 Event = 1896 * XFTTriggerMonitor::event * Run = 222530 Event = 1897 * XFTTriggerMonitor::event * Run = 222530 Event = 1898 DHInput Begin processing 1900th record. Run 222530, Trigger 1899 * XFTTriggerMonitor::event * Run = 222530 Event = 1899 * XFTTriggerMonitor::event * Run = 222530 Event = 1900 * XFTTriggerMonitor::event * Run = 222530 Event = 1901 * XFTTriggerMonitor::event * Run = 222530 Event = 1902 * XFTTriggerMonitor::event * Run = 222530 Event = 1903 * XFTTriggerMonitor::event * Run = 222530 Event = 1904 * XFTTriggerMonitor::event * Run = 222530 Event = 1905 * XFTTriggerMonitor::event * Run = 222530 Event = 1906 * XFTTriggerMonitor::event * Run = 222530 Event = 1907 * XFTTriggerMonitor::event * Run = 222530 Event = 1908 * XFTTriggerMonitor::event * Run = 222530 Event = 1909 * XFTTriggerMonitor::event * Run = 222530 Event = 1910 * XFTTriggerMonitor::event * Run = 222530 Event = 1911 * XFTTriggerMonitor::event * Run = 222530 Event = 1912 * XFTTriggerMonitor::event * Run = 222530 Event = 1913 * XFTTriggerMonitor::event * Run = 222530 Event = 1914 * XFTTriggerMonitor::event * Run = 222530 Event = 1915 * XFTTriggerMonitor::event * Run = 222530 Event = 1916 * XFTTriggerMonitor::event * Run = 222530 Event = 1917 * XFTTriggerMonitor::event * Run = 222530 Event = 1918 * XFTTriggerMonitor::event * Run = 222530 Event = 1919 * XFTTriggerMonitor::event * Run = 222530 Event = 1920 * XFTTriggerMonitor::event * Run = 222530 Event = 1921 * XFTTriggerMonitor::event * Run = 222530 Event = 1922 * XFTTriggerMonitor::event * Run = 222530 Event = 1923 * XFTTriggerMonitor::event * Run = 222530 Event = 1924 * XFTTriggerMonitor::event * Run = 222530 Event = 1925 * XFTTriggerMonitor::event * Run = 222530 Event = 1926 * XFTTriggerMonitor::event * Run = 222530 Event = 1927 * XFTTriggerMonitor::event * Run = 222530 Event = 1928 * XFTTriggerMonitor::event * Run = 222530 Event = 1929 * XFTTriggerMonitor::event * Run = 222530 Event = 1930 * XFTTriggerMonitor::event * Run = 222530 Event = 1931 * XFTTriggerMonitor::event * Run = 222530 Event = 1932 * XFTTriggerMonitor::event * Run = 222530 Event = 1933 * XFTTriggerMonitor::event * Run = 222530 Event = 1934 * XFTTriggerMonitor::event * Run = 222530 Event = 1935 * XFTTriggerMonitor::event * Run = 222530 Event = 1936 * XFTTriggerMonitor::event * Run = 222530 Event = 1937 * XFTTriggerMonitor::event * Run = 222530 Event = 1938 * XFTTriggerMonitor::event * Run = 222530 Event = 1939 * XFTTriggerMonitor::event * Run = 222530 Event = 1940 * XFTTriggerMonitor::event * Run = 222530 Event = 1941 * XFTTriggerMonitor::event * Run = 222530 Event = 1942 * XFTTriggerMonitor::event * Run = 222530 Event = 1943 * XFTTriggerMonitor::event * Run = 222530 Event = 1944 * XFTTriggerMonitor::event * Run = 222530 Event = 1945 * XFTTriggerMonitor::event * Run = 222530 Event = 1946 * XFTTriggerMonitor::event * Run = 222530 Event = 1947 * XFTTriggerMonitor::event * Run = 222530 Event = 1948 * XFTTriggerMonitor::event * Run = 222530 Event = 1949 * XFTTriggerMonitor::event * Run = 222530 Event = 1950 * XFTTriggerMonitor::event * Run = 222530 Event = 1951 * XFTTriggerMonitor::event * Run = 222530 Event = 1952 * XFTTriggerMonitor::event * Run = 222530 Event = 1953 * XFTTriggerMonitor::event * Run = 222530 Event = 1954 * XFTTriggerMonitor::event * Run = 222530 Event = 1955 * XFTTriggerMonitor::event * Run = 222530 Event = 1956 * XFTTriggerMonitor::event * Run = 222530 Event = 1957 * XFTTriggerMonitor::event * Run = 222530 Event = 1958 * XFTTriggerMonitor::event * Run = 222530 Event = 1959 * XFTTriggerMonitor::event * Run = 222530 Event = 1960 * XFTTriggerMonitor::event * Run = 222530 Event = 1961 * XFTTriggerMonitor::event * Run = 222530 Event = 1962 * XFTTriggerMonitor::event * Run = 222530 Event = 1963 * XFTTriggerMonitor::event * Run = 222530 Event = 1964 * XFTTriggerMonitor::event * Run = 222530 Event = 1965 * XFTTriggerMonitor::event * Run = 222530 Event = 1966 * XFTTriggerMonitor::event * Run = 222530 Event = 1967 * XFTTriggerMonitor::event * Run = 222530 Event = 1968 * XFTTriggerMonitor::event * Run = 222530 Event = 1969 * XFTTriggerMonitor::event * Run = 222530 Event = 1970 * XFTTriggerMonitor::event * Run = 222530 Event = 1971 * XFTTriggerMonitor::event * Run = 222530 Event = 1972 * XFTTriggerMonitor::event * Run = 222530 Event = 1973 * XFTTriggerMonitor::event * Run = 222530 Event = 1974 * XFTTriggerMonitor::event * Run = 222530 Event = 1975 * XFTTriggerMonitor::event * Run = 222530 Event = 1976 * XFTTriggerMonitor::event * Run = 222530 Event = 1977 * XFTTriggerMonitor::event * Run = 222530 Event = 1978 * XFTTriggerMonitor::event * Run = 222530 Event = 1979 * XFTTriggerMonitor::event * Run = 222530 Event = 1980 * XFTTriggerMonitor::event * Run = 222530 Event = 1981 * XFTTriggerMonitor::event * Run = 222530 Event = 1982 * XFTTriggerMonitor::event * Run = 222530 Event = 1983 * XFTTriggerMonitor::event * Run = 222530 Event = 1984 * XFTTriggerMonitor::event * Run = 222530 Event = 1985 * XFTTriggerMonitor::event * Run = 222530 Event = 1986 * XFTTriggerMonitor::event * Run = 222530 Event = 1987 * XFTTriggerMonitor::event * Run = 222530 Event = 1988 * XFTTriggerMonitor::event * Run = 222530 Event = 1989 * XFTTriggerMonitor::event * Run = 222530 Event = 1990 * XFTTriggerMonitor::event * Run = 222530 Event = 1991 * XFTTriggerMonitor::event * Run = 222530 Event = 1992 * XFTTriggerMonitor::event * Run = 222530 Event = 1993 * XFTTriggerMonitor::event * Run = 222530 Event = 1994 * XFTTriggerMonitor::event * Run = 222530 Event = 1995 * XFTTriggerMonitor::event * Run = 222530 Event = 1996 * XFTTriggerMonitor::event * Run = 222530 Event = 1997 * XFTTriggerMonitor::event * Run = 222530 Event = 1998 DHInput Begin processing 2000th record. Run 222530, Trigger 1999 * XFTTriggerMonitor::event * Run = 222530 Event = 1999 * XFTTriggerMonitor::event * Run = 222530 Event = 2000 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 * Closing Input File: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root after 2001 records read. * DHInputModule_2.cc: releasing file Listing of all available paths ** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * no on 2000 2000 EventDump no on 0 0 CalqModule no on 0 0 SmxqModule * no on 2000 2000 CotqModule * no on 2000 2000 SvxqModule * no on 2000 2000 CalorimetryModule * no on 2000 2000 XFTSim * no on 2000 2000 XTRPSim * no on 2000 2000 svtsim * no on 2000 2000 CalTriggerDataMaker * no on 2000 2000 MuonTriggerMaker * no on 2000 2000 TL1DMaker * no on 2000 2000 FredSim * yes off 2000 2000 SpikeFilter * no on 2000 2000 L2Sim no on 0 0 TrigSimModule * yes on 2000 2000 Prereq ** Execution Times for all Modules Run so Far During Begin Job: ================= Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: CalTriggerDataM 1 0.000000 0.000113 0.000000 CalibrationMana 1 0.030000 178.426654 0.000000 CalorimetryModu 1 0.000000 0.000054 0.000000 CotqModule 1 0.010000 0.007450 0.000000 DHInput 1 0.000000 0.000031 0.000000 DummyInput 1 0.000000 0.008593 0.000000 DummyOutput 1 0.010000 0.008156 0.000000 ErrorLoggerMana 1 0.000000 0.002500 0.000000 EventDump 1 0.000000 0.002505 0.000000 FileInput 1 0.010000 0.011639 0.000000 FileOutput 1 0.000000 0.000003 0.000000 FredSim 1 0.000000 0.000009 0.000000 GeometryManager 1 0.120000 0.316655 0.000000 L2Sim 1 0.000000 0.000003 0.000000 MuonTriggerMake 1 0.000000 0.000003 0.000000 OldDHInput 1 0.000000 0.009196 0.000000 OldDHOutput 1 0.000000 0.008140 0.000000 Prereq 1 0.000000 0.000056 0.000000 PuffModule 1 0.000000 0.000002 0.000000 SignalManager 1 0.000000 0.012942 0.000000 SpikeFilter 1 0.000000 0.000111 0.000000 SvxqModule 1 0.000000 0.002311 0.000000 TL1DMaker 1 0.010000 0.005898 0.000000 XFTSim 1 0.000000 0.000004 0.000000 XTRPSim 1 0.000000 0.000002 0.000000 XXXDiskFileInpu 1 0.000000 0.001914 0.000000 YbosDiskFileInp 1 0.010000 0.001703 0.000000 svtsim 1 0.140000 0.160602 0.000000 During Begin Run: ================= Module name: Calls: Mean cpu time: Mean clk time: Cpu StdDev: CalTriggerDataM 1 0.190000 1.171573 0.000000 CalibrationMana 1 0.000000 92.084285 0.000000 CalorimetryModu 1 0.020000 0.123217 0.000000 CotqModule 1 0.000000 0.000001 0.000000 DHInput 1 0.000000 0.000081 0.000000 DummyInput 1 0.000000 0.000002 0.000000 DummyOutput 1 0.000000 0.000002 0.000000 ErrorLoggerMana 1 0.000000 0.000009 0.000000 EventDump 1 0.000000 0.000002 0.000000 FileInput 1 0.000000 0.000005 0.000000 FileOutput 1 0.000000 0.000010 0.000000 FredSim 1 0.060000 0.886461 0.000000 GeometryManager 1 0.090000 0.103910 0.000000 L2Sim 1 0.000000 0.357000 0.000000 MuonTriggerMake 1 0.000000 0.000002 0.000000 OldDHInput 1 0.000000 0.000003 0.000000 OldDHOutput 1 0.000000 0.000002 0.000000 Prereq 1 0.010000 0.213858 0.000000 PuffModule 1 0.000000 0.000001 0.000000 SignalManager 1 0.000000 0.000002 0.000000 SpikeFilter 1 0.000000 0.000002 0.000000 SvxqModule 1 0.000000 0.000001 0.000000 TL1DMaker 1 0.000000 0.000006 0.000000 XFTSim 1 0.900000 0.993805 0.000000 XTRPSim 1 2.250000 2.269718 0.000000 XXXDiskFileInpu 1 0.000000 0.000003 0.000000 YbosDiskFileInp 1 0.000000 0.000003 0.000000 svtsim 1 11.530000 157.043256 0.000000 During End Job: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During End Run: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During Event Processing: ======================== Module name: # Calls: Mean cpu time: Mean clk time: Total Cpu: ----------------------------------------------------------------------------------- CalTriggerDataMaker 2000 0.002825+/-0.000101 0.002794+/-0.000011 5.650 CalibrationManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 CalorimetryModule 2000 0.006440+/-0.000107 0.006492+/-0.000024 12.880 CotqModule 2000 0.003025+/-0.000103 0.003055+/-0.000020 6.050 DHInput 4004 0.002925+/-0.000077 0.003842+/-0.000141 11.710 ErrorLoggerManager 2000 0.000010+/-0.000007 0.000002+/-0.000000 0.020 EventDump 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 FileOutput 4002 0.011754+/-0.000221 0.012164+/-0.000263 47.040 FredSim 2000 0.000695+/-0.000057 0.000758+/-0.000045 1.390 GeometryManager 2000 0.000005+/-0.000005 0.000002+/-0.000000 0.010 L2Sim 2000 0.000420+/-0.000045 0.000433+/-0.000038 0.840 MuonTriggerMaker 2000 0.000580+/-0.000052 0.000522+/-0.000013 1.160 Prereq 2000 0.000060+/-0.000017 0.000072+/-0.000000 0.120 PuffModule 2000 0.000040+/-0.000014 0.000034+/-0.000000 0.080 SignalManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 SpikeFilter 2000 0.000060+/-0.000017 0.000071+/-0.000000 0.120 SvxqModule 2000 0.004235+/-0.000111 0.004204+/-0.000018 8.470 TL1DMaker 2000 0.000045+/-0.000015 0.000045+/-0.000002 0.090 XFTSim 2000 0.080925+/-0.000432 0.081370+/-0.000430 161.850 XTRPSim 2000 0.000320+/-0.000039 0.000299+/-0.000006 0.640 svtsim 2000 0.029710+/-0.000151 0.030222+/-0.000130 59.420 ----------------------------------------------------------------------------------- Mean Cpu total = 0.144074; Mean Clock total = 0.146388 Sum total Cpu = 288.147397; Sum total Clock = 292.775298 * CotqModule Summary: In 0 Out 0 * SvxqModule Summary: In 0 Out 0 CalTrigger ending ! FredSim end Job Prereq: L1 trigger bits, names and events passing: 0 L1_EM8_&_CMU1.5_PT1.5_v-7 0 1 L1_JET5_PS50_v-1 0 2 L1_CMU1.5_PT1.5_&_CMX1.5_PT2_CSX_v-3 4 3 L1_TWO_GAP_&_JET5_PS100_v-1 0 4 L1_EM8_&_CEM4_PT4_v-2 0 5 L1_CEM4_PT4_&_TRK2_DPHI100_LUMI_140_v-1 0 6 L1_CEM4_PT4_&_CMX1.5_PT2_CSX_v-3 0 7 L1_CEM4_PT4_&_CMU1.5_PT1.5_v-1 0 8 L1_TWO_GAP_&_CMU1.5_PT1.5_v-1 0 9 L1_CEM4_PT4_PS250_v-1 0 10 L1_TWO_TRK2_DPHI90_&_CMU1.5_PT1.5_LUMI_100_v-1 10 11 L1_TWO_TRK2_DPHI90_&_CMU1.5_PT1.5_NCLC64_v-1 0 12 L1_EM8_&_CMX1.5_PT2_CSX_v-8 0 13 L1_TWO_TRK2_DPHI90_&_CMX1.5_PT2_LUMI_100_v-1 11 14 L1_TWO_TRK2_DPHI90_&_CMX1.5_PT2_NCLC64_v-1 0 15 L1_EM8_PS250_v-2 0 18 L1_TWO_TRK2_&_TWO_CJET5_v-4 0 19 L1_TWO_TRK6_DPHI30_&_TWO_CJET5_v-3 0 20 L1_JET10_&_SUMET90_v-5 0 21 L1_TWO_TRK2_PS20K_v-1 303 22 L1_TRK5.5_TRK2.5_&_CJET5_LUMI_150_v-1 0 23 L1_MB_XING_PS1M_v-2 2000 25 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_NCLC64_LUMI_130_v-1 0 27 L1_TWO_TRK2_OPPQ_DPHI135_SUMPT5.5_LUMI_60_v-2 303 28 L1_TWO_TRK2_DPHI90_LUMI_35_v-1 303 29 L1_CEM8_PT8_v-5 0 30 L1_CMUP6_PT4_v-2 0 31 L1_CMX6_PT8_CSX_v-2 0 32 L1_MET25_v-6 2000 33 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_PS2_LUMI_70_v-1 303 34 L1_JET20_v-1 0 35 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_PS250_v-1 303 36 L1_EM12_v-2 0 37 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_NCLC64_PS50_v-1 0 38 L1_COT_SPIKE_v-1 0 39 L1_JET10_PS8_v-1 0 40 L1_TAU0_TRK10_LUMI_0_40_v-1 0 41 L1_TEN_TRK2_PS250_v-1 303 42 L1_TAU10_PT10_v-1 0 43 L1_TWO_TRK2_DPHI90_PS2_LUMI_50_v-1 303 44 L1_TEST_CEM8_PT8_3D_v-1 0 45 L1_TEST_MUON_PHI_GAP_PT15_v-1 32 46 L1_TOF20_PT0_v-1 1809 47 L1_TWO_CEM4_PT4_v-2 0 48 L1_BMU10_BSUR_TSUO_&_CLC_v-1 0 49 L1_TWO_CMU1.5_PT1.5_v-4 0 50 L1_TWO_EM8_v-2 0 51 L1_TWO_TRK10_DPHI20_LUMI_0_60_v-1 303 52 L1_TWO_GAP_&_EM2_v-2 0 53 L1_MB_CLC_PS100K_v-1 0 56 L1_MET15_&_JET5_&_TWO_TRK2_v-7 0 57 L1_EM8_&_MET15_v-10 0 60 L1_TWO_TRK2_OPPQ_DPHI135_SUMPT5.5_UPS_v-1 9 L1 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 4 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 1 0 0 1 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 10 0 0 1 11 0 0 0 12 0 0 13 11 Bit # 14 15 18 19 20 21 22 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 1 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 10 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 11 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 18 0 0 0 0 0 19 0 0 0 0 20 0 0 0 21 303 0 22 0 Bit # 23 25 27 28 29 30 31 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 0 1 1 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 0 10 10 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 0 11 11 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 0 303 303 0 0 0 22 0 0 0 0 0 0 0 23 2000 0 303 303 0 0 0 25 0 0 0 0 0 0 27 303 303 0 0 0 28 303 0 0 0 29 0 0 0 30 0 0 31 0 Bit # 32 33 34 35 36 37 38 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 1 0 1 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 10 0 10 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 11 0 11 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 303 0 303 0 0 0 22 0 0 0 0 0 0 0 23 2000 303 0 303 0 0 0 25 0 0 0 0 0 0 0 27 303 303 0 303 0 0 0 28 303 303 0 303 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 2000 303 0 303 0 0 0 33 303 0 303 0 0 0 34 0 0 0 0 0 35 303 0 0 0 36 0 0 0 37 0 0 38 0 Bit # 39 40 41 42 43 44 45 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 1 0 1 0 4 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 10 0 10 0 10 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 11 0 11 0 1 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 303 0 303 0 12 22 0 0 0 0 0 0 0 23 0 0 303 0 303 0 32 25 0 0 0 0 0 0 0 27 0 0 303 0 303 0 12 28 0 0 303 0 303 0 12 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 303 0 303 0 32 33 0 0 303 0 303 0 12 34 0 0 0 0 0 0 0 35 0 0 303 0 303 0 12 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 41 303 0 303 0 12 42 0 0 0 0 43 303 0 12 44 0 0 45 32 Bit # 46 47 48 49 50 51 52 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 0 0 0 0 1 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 0 0 0 0 10 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 0 0 0 0 11 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 0 0 0 0 303 0 22 0 0 0 0 0 0 0 23 1809 0 0 0 0 303 0 25 0 0 0 0 0 0 0 27 303 0 0 0 0 303 0 28 303 0 0 0 0 303 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 1809 0 0 0 0 303 0 33 303 0 0 0 0 303 0 34 0 0 0 0 0 0 0 35 303 0 0 0 0 303 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 303 0 0 0 0 303 0 42 0 0 0 0 0 0 0 43 303 0 0 0 0 303 0 44 0 0 0 0 0 0 0 45 32 0 0 0 0 12 0 46 1809 0 0 0 0 303 0 47 0 0 0 0 0 0 48 0 0 0 0 0 49 0 0 0 0 50 0 0 0 51 303 0 52 0 Bit # 53 56 57 60 0 0 0 0 0 1 0 0 0 0 2 0 0 0 1 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 8 0 0 0 0 9 0 0 0 0 10 0 0 0 1 11 0 0 0 0 12 0 0 0 0 13 0 0 0 9 14 0 0 0 0 15 0 0 0 0 18 0 0 0 0 19 0 0 0 0 20 0 0 0 0 21 0 0 0 9 22 0 0 0 0 23 0 0 0 9 25 0 0 0 0 27 0 0 0 9 28 0 0 0 9 29 0 0 0 0 30 0 0 0 0 31 0 0 0 0 32 0 0 0 9 33 0 0 0 9 34 0 0 0 0 35 0 0 0 9 36 0 0 0 0 37 0 0 0 0 38 0 0 0 0 39 0 0 0 0 40 0 0 0 0 41 0 0 0 9 42 0 0 0 0 43 0 0 0 9 44 0 0 0 0 45 0 0 0 1 46 0 0 0 9 47 0 0 0 0 48 0 0 0 0 49 0 0 0 0 50 0 0 0 0 51 0 0 0 9 52 0 0 0 0 53 0 0 0 0 56 0 0 0 57 0 0 60 9 Prereq: L2 trigger bits, names and events passing: 0 L2_AUTO_L1_COT_SPIKE_v-1 0 1 L2_AUTO_L1_MB_XING_v-2 0 2 L2_AUTO_L1_TOF20_PT0_v-1 0 3 L2_AUTO_L1_TWO_GAP_&_CMU1.5_PT1.5_v-1 0 4 L2_AUTO_L1_TWO_GAP_&_JET5_v-2 0 5 L2_BJET15_D120_DPS_v-2 0 6 L2_BJET15_D120_JET10_ETA1.8_v-1 0 7 L2_B_CHARM_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 8 L2_B_CHARM_HIGHPT_L1_CLCM_PS50_v-1 0 9 L2_B_CHARM_HIGHPT_L1_LUMI_70_v-1 0 10 L2_B_CHARM_HIGHPT_L1_PS250_v-1 0 11 L2_B_CHARM_L1_SCENA_LUMI_60_v-1 0 12 L2_B_CHARM_L1_SCENA_UPS_v-1 0 13 L2_B_CHARM_LOWPT_CMU_DPS_L1_CLCM_v-1 0 14 L2_B_CHARM_LOWPT_CMU_L1_LUMI_100_v-1 0 15 L2_B_CHARM_LOWPT_CMX_DPS_L1_CLCM_v-1 0 16 L2_B_CHARM_LOWPT_CMX_L1_LUMI_100_v-1 0 17 L2_B_CHARM_LOWPT_L1_SCENLOW_v-1 0 18 L2_B_CHARM_LOWPT_L1_SCENLOW_PS2_v-1 0 19 L2_B_CHARM_PHI_L1_SCENLOW_v-1 0 20 L2_B_CHARM_PHI_L1_SCENLOW_PS2_v-1 0 21 L2_B_PIPI_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 22 L2_B_PIPI_HIGHPT_L1_CLCM_PS50_v-1 0 23 L2_B_PIPI_HIGHPT_L1_LUMI_70_v-1 0 24 L2_B_PIPI_HIGHPT_L1_PS250_v-1 0 25 L2_B_PIPI_L1_SCENA_LUMI_60_v-1 0 26 L2_B_PIPI_L1_SCENA_UPS_v-1 0 27 L2_CEM12_ISO_&_SUMET20_&_TWO_JET3_ETA1.8_v-4 0 28 L2_CEM12_ISO_&_TRK2_D120_v-3 0 29 L2_CEM12_ISO_DPS_v-6 0 30 L2_CEM16_PT8_v-4 0 31 L2_CEM20_L1_MET15_v-1 0 32 L2_CEM4_PT4_CES3_&_CMUP6_PT4_v-1 0 33 L2_CEM4_PT4_CES3_&_CMUP6_PT8_v-1 0 34 L2_CEM4_PT4_CES3_&_CMX1.5_PT4_CSX_v-1 0 35 L2_CEM4_PT4_CES3_&_PEM8_v-1 0 36 L2_CEM4_PT4_CES3_PS5_v-1 0 37 L2_CEM8_PT8_CES3_&_TRK8_v-1 0 38 L2_CEM8_PT8_CES3_DPS_v-3 0 39 L2_CJET10_JET10_L1_MET25_v-4 0 40 L2_CJET15_L1_BMU10_BSUR_TSUO_v-5 0 41 L2_CJET15_PS24_v-4 0 42 L2_CMU1.5_PT1.5_&_CMX1.5_PT2_DPHI120_OPPQ_DPS_v-2 0 43 L2_CMU1.5_PT2_&_CMX1.5_PT2_DPHI120_OPPQ_PS2_v-1 0 44 L2_CMUP1.5_PT3_&_CMU1.5_PT1.5_DPS_v-1 0 45 L2_CMUP1.5_PT3_&_CMX1.5_PT2_CSX_DPS_v-1 0 46 L2_CMUP6_PT15_v-1 0 47 L2_CMUP6_PT4_&_CMX1.5_PT4_CSX_v-1 0 48 L2_CMUP6_PT4_&_TRK2_D120_DPHI90_DPS_v-3 0 49 L2_CMUP6_PT4_SVT_&_TRK2_D120_DPHI90_v-2 0 50 L2_CMUP6_PT8_&_TRK5_v-1 0 51 L2_CMUP6_PT8_&_TRK8_v-1 0 52 L2_CMUP6_PT8_DPS_v-2 0 53 L2_CMX6_PT15_v-1 0 54 L2_CMX6_PT8_&_TRK5_v-1 0 55 L2_CMX6_PT8_&_TRK8_v-1 0 56 L2_DPS_L1_CMUP6_PT4_v-3 0 57 L2_EM10_ISO_PS6_v-1 0 58 L2_EM12_ISO_&_CMUP1.5_PT3_v-1 0 59 L2_EM12_ISO_&_CMX1.5_PT2_CSX_v-1 0 60 L2_EM21_ISO_PASS4_v-1 0 61 L2_EM40_v-2 0 62 L2_EM70_v-4 0 63 L2_ERROR_v-2 0 64 L2_FOUR_JET15_SUMET175_v-4 0 65 L2_INCLUSIVE_NOTRACK_1HZ_v-1 0 66 L2_INCLUSIVE_TRACK_1HZ_v-1 0 67 L2_JET15_PS25_v-4 0 68 L2_JET40_v-5 0 69 L2_JET60_v-2 0 70 L2_JET90_v-6 0 71 L2_JPSI_TWO_CEM2_v-3 0 72 L2_MET35_v-1 0 73 L2_PEM20_L1_EM8_&_MET15_v-2 0 74 L2_PEM20_PS25_v-1 0 75 L2_PEM8_&_CMUP6_PT4_v-3 0 76 L2_PEM8_&_CMX1.5_PT4_CSX_v-1 0 77 L2_PEM8_ISO_&_TAU4_PT5_DPS_v-1 0 78 L2_PS0_L1_TEN_TRK2_v-1 0 79 L2_PS1000_L1_JET5_v-1 0 80 L2_PS100_L1_CEM8_PT8_v-2 0 81 L2_PS100_L1_CEM8_PT8_ROXFT_v-1 0 82 L2_PS100_L1_EM8_&_MET15_v-1 0 83 L2_PS10_L1_EM8_v-1 0 84 L2_PS125_L1_JET10_v-1 0 85 L2_PS200_L1_CMU1.5_PT1.5_&_CMX1.5_PT2_CSX_v-1 0 86 L2_PS200_L1_MET25_v-1 0 87 L2_PS200_L1_TWO_CMU1.5_PT1.5_v-1 0 88 L2_PS20K_L1_CLCM_LUMI_130_v-1 0 89 L2_PS20K_L1_SCENC_PS2_LUMI_70_v-1 0 90 L2_PS2500_L1_CEM4_PT4_&_TRK2_DPHI100_v-1 0 91 L2_PS250_L1_CMUP6_PT4_v-1 0 92 L2_PS40_TRK2_D120_L1_CMUP6_PT4_v-1 0 93 L2_PS4K_L1_MET15_&_JET5_&_TWO_TRK2_v-1 0 94 L2_PS4K_L1_SCENC_PS250_v-1 0 95 L2_PS50_L1_CMX6_PT8_CSX_v-1 0 96 L2_PS50_L1_TWO_TRK2_v-1 0 97 L2_PS5_L1_CEM4_PT4_v-1 0 98 L2_RL3HZ_L1_MB_CLC_v-1 0 99 L2_TAU10_PT10_&_MET20_v-7 0 100 L2_TAU4_PT5_&_L1_BMU10_BSUR_TSUO_v-1 0 101 L2_TAU4_PT5_CEM8_PT8_CES3_v-1 0 102 L2_TEST_CEM16_PT8_3D_v-2 0 103 L2_TEST_CEM16_PT8_3D_L13D_v-2 0 104 L2_TEST_CEM16_PT8_L13D_v-2 0 105 L2_TEST_CEM4_PT4_CES3_&_CEM8_PT8_CES3_v-1 0 106 L2_TEST_CEM4_PT4_CES3_&_CMX6_PT8_CSX_v-1 0 107 L2_TEST_CEM8_PT8_CES3_&_CMUP6_PT4_v-3 0 108 L2_TEST_CEM8_PT8_CES3_&_CMX1.5_PT4_CSX_v-1 0 109 L2_TEST_CMP3_PT15_v-1 0 110 L2_TEST_CMU1.5_PT1.7_&_CMU1.5_PT2.5_1.7MT4.5_v-1 0 111 L2_TEST_CMUP6_PT4_&_CMUP6_PT8_v-1 0 112 L2_TEST_PEM20_L1_EM8_&_MET15_v-1 0 113 L2_TEST_PS1K_L1_JET10_v-1 0 114 L2_THREE_EM10_v-2 0 115 L2_TRK15_TRKISO30_&_TRK15_D0_v-1 0 116 L2_TRK2_D120_&_CEM4_PT4_CES3_2DPHI90_DPS_v-4 0 117 L2_TRK2_D120_&_CEM4_PT4_SVT_CES3_2DPHI90_v-2 0 118 L2_TRK2_D120_PS4_L1_CEM4_PT4_v-2 0 119 L2_TRK8_PS100_L1_CMUP6_PT4_v-1 0 120 L2_TWO_CEM4_PT4_CES3_v-1 0 121 L2_TWO_CMU1.5_PT1.5_DPHI120_OPPQ_DPS_v-2 0 122 L2_TWO_CMU1.5_PT2_DPHI120_OPPQ_PS2_v-1 0 123 L2_TWO_CMUP6_PT4_v-1 0 124 L2_TWO_EM10_ISO_v-2 0 125 L2_TWO_EM16_v-2 0 126 L2_TWO_EM2_v-1 0 127 L2_TWO_JET15_ETA1.5_&_TWO_TRK2_D100_DPS_v-8 0 128 L2_TWO_PEM20_v-2 0 129 L2_TWO_TAU10_PT10_v-1 0 130 L2_TWO_TAU10_PT6_&_MET10_v-1 0 131 L2_TWO_TRK10_D0_DPHI20_L1_LUMI_60_v-1 0 132 L2_TWO_TRK2_D100_v-5 0 133 L2_TWO_TRK2_D100_&_BJET15_&_MET15_DPS_v-2 0 134 L2_TWO_TRK2_D120_&_THREE_JET10_SUMET90_DPS_v-3 0 135 L2_Z_BB_BJET_OS_v-1 0 136 L2_Z_BB_BJET_SS_v-1 0 L2 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 0 0 0 0 11 0 0 0 12 0 0 13 0 Bit # 14 15 16 17 18 19 20 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 16 0 0 0 0 0 17 0 0 0 0 18 0 0 0 19 0 0 20 0 Bit # 21 22 23 24 25 26 27 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 23 0 0 0 0 0 24 0 0 0 0 25 0 0 0 26 0 0 27 0 Bit # 28 29 30 31 32 33 34 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 30 0 0 0 0 0 31 0 0 0 0 32 0 0 0 33 0 0 34 0 Bit # 35 36 37 38 39 40 41 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 37 0 0 0 0 0 38 0 0 0 0 39 0 0 0 40 0 0 41 0 Bit # 42 43 44 45 46 47 48 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 44 0 0 0 0 0 45 0 0 0 0 46 0 0 0 47 0 0 48 0 Bit # 49 50 51 52 53 54 55 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 0 44 0 0 0 0 0 0 0 45 0 0 0 0 0 0 0 46 0 0 0 0 0 0 0 47 0 0 0 0 0 0 0 48 0 0 0 0 0 0 0 49 0 0 0 0 0 0 0 50 0 0 0 0 0 0 51 0 0 0 0 0 52 0 0 0 0 53 0 0 0 54 0 0 55 0 Bit # 56 57 58 59 60 61 62 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 0 44 0 0 0 0 0 0 0 45 0 0 0 0 0 0 0 46 0 0 0 0 0 0 0 47 0 0 0 0 0 0 0 48 0 0 0 0 0 0 0 49 0 0 0 0 0 0 0 50 0 0 0 0 0 0 0 51 0 0 0 0 0 0 0 52 0 0 0 0 0 0 0 53 0 0 0 0 0 0 0 54 0 0 0 0 0 0 0 55 0 0 0 0 0 0 0 56 0 0 0 0 0 0 0 57 0 0 0 0 0 0 58 0 0 0 0 0 59 0 0 0 0 60 0 0 0 61 0 0 62 0 Bit # 63 64 65 66 67 68 69 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 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0 0 0 0 7 0 0 0 0 8 0 0 0 0 9 0 0 0 0 10 0 0 0 0 11 0 0 0 0 12 0 0 0 0 13 0 0 0 0 14 0 0 0 0 15 0 0 0 0 16 0 0 0 0 17 0 0 0 0 18 0 0 0 0 19 0 0 0 0 20 0 0 0 0 21 0 0 0 0 22 0 0 0 0 23 0 0 0 0 24 0 0 0 0 25 0 0 0 0 26 0 0 0 0 27 0 0 0 0 28 0 0 0 0 29 0 0 0 0 30 0 0 0 0 31 0 0 0 0 32 0 0 0 0 33 0 0 0 0 34 0 0 0 0 35 0 0 0 0 36 0 0 0 0 37 0 0 0 0 38 0 0 0 0 39 0 0 0 0 40 0 0 0 0 41 0 0 0 0 42 0 0 0 0 43 0 0 0 0 44 0 0 0 0 45 0 0 0 0 46 0 0 0 0 47 0 0 0 0 48 0 0 0 0 49 0 0 0 0 50 0 0 0 0 51 0 0 0 0 52 0 0 0 0 53 0 0 0 0 54 0 0 0 0 55 0 0 0 0 56 0 0 0 0 57 0 0 0 0 58 0 0 0 0 59 0 0 0 0 60 0 0 0 0 61 0 0 0 0 62 0 0 0 0 63 0 0 0 0 64 0 0 0 0 65 0 0 0 0 66 0 0 0 0 67 0 0 0 0 68 0 0 0 0 69 0 0 0 0 70 0 0 0 0 71 0 0 0 0 72 0 0 0 0 73 0 0 0 0 74 0 0 0 0 75 0 0 0 0 76 0 0 0 0 77 0 0 0 0 78 0 0 0 0 79 0 0 0 0 80 0 0 0 0 81 0 0 0 0 82 0 0 0 0 83 0 0 0 0 84 0 0 0 0 85 0 0 0 0 86 0 0 0 0 87 0 0 0 0 88 0 0 0 0 89 0 0 0 0 90 0 0 0 0 91 0 0 0 0 92 0 0 0 0 93 0 0 0 0 94 0 0 0 0 95 0 0 0 0 96 0 0 0 0 97 0 0 0 0 98 0 0 0 0 99 0 0 0 0 100 0 0 0 0 101 0 0 0 0 102 0 0 0 0 103 0 0 0 0 104 0 0 0 0 105 0 0 0 0 106 0 0 0 0 107 0 0 0 0 108 0 0 0 0 109 0 0 0 0 110 0 0 0 0 111 0 0 0 0 112 0 0 0 0 113 0 0 0 0 114 0 0 0 0 115 0 0 0 0 116 0 0 0 0 117 0 0 0 0 118 0 0 0 0 119 0 0 0 0 120 0 0 0 0 121 0 0 0 0 122 0 0 0 0 123 0 0 0 0 124 0 0 0 0 125 0 0 0 0 126 0 0 0 0 127 0 0 0 0 128 0 0 0 0 129 0 0 0 0 130 0 0 0 0 131 0 0 0 0 132 0 0 0 0 133 0 0 0 0 134 0 0 0 135 0 0 136 0 Prereq: L3 trigger bits, names and events passing: 0 AAAAA_ALL_RECO_5.1_NOCOMP_v-1 0 1 BBBAR_CMUP3_CMU1.5_DPS_v-1 0 2 BBBAR_CMUP3_CMX2_DPS_v-1 0 3 BBBAR_TWO_CMUP3_DPS_v-1 0 4 B_CHARM_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 5 B_CHARM_HIGHPT_L1_CLCM_PS50_v-1 0 6 B_CHARM_HIGHPT_L1_PS250_v-1 0 7 B_CHARM_HIGHPT_L1_PS2_LUMI_70_v-2 0 8 B_CHARM_L1_SCENA_LUMI_60_v-1 0 9 B_CHARM_L1_SCENA_UPS_v-1 0 10 B_CHARM_LOWPT_CMU_DPS_L1_CLCM_v-1 0 11 B_CHARM_LOWPT_CMU_L1_LUMI100_v-1 0 12 B_CHARM_LOWPT_CMX_DPS_L1_CLCM_v-1 0 13 B_CHARM_LOWPT_CMX_L1_LUMI100_v-1 0 14 B_CHARM_LOWPT_L1_SCENLOW_LUMI_35_v-1 0 15 B_CHARM_LOWPT_L1_SCENLOW_PS2_LUMI_50_v-1 0 16 B_CHARM_PHI_L1_SCENLOW_LUMI_35_v-1 0 17 B_CHARM_PHI_L1_SCENLOW_PS2_LUMI_50_v-1 0 18 B_D0_L1_PS250_v-1 0 19 B_D0_L1_PS2_LUMI_70_v-2 0 20 B_HAD_L3TAG_L1_SCENC_CLCM_LUMI_130_v-1 0 21 B_HAD_L3TAG_L1_SCENC_PS250_v-1 0 22 B_HAD_L3TAG_L1_SCENC_PS2_LUMI_70_v-2 0 23 B_HAD_L3TAG_L1_TWO_TRK2_v-10 0 24 B_HAD_L3TAG_L2_TWO_TRK2_D100_v-11 0 25 B_PIPI_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 26 B_PIPI_HIGHPT_L1_CLCM_PS50_v-1 0 27 B_PIPI_HIGHPT_L1_PS250_v-1 0 28 B_PIPI_HIGHPT_L1_PS2_LUMI_70_v-2 0 29 B_PIPI_L1_SCENA_LUMI_60_v-1 0 30 B_PIPI_L1_SCENA_UPS_v-1 0 31 B_SEMI_CEM4_SVT_TRACK2_D120_L1_LUMI_140_v-1 0 32 B_SEMI_CEM4_TRACK2_D120_DPS_L1_LUMI_140_v-1 0 33 B_SEMI_CMUP4_SVT_TRACK2_D120_v-3 0 34 B_SEMI_CMUP4_TRACK2_D120_DPS_v-4 0 35 B_SEMI_L2_TRK2_D120_L1_CEM_4_PT4_v-4 0 36 B_SEMI_L3PS10_L2_TRK2_D120_L1_CMUP6_PT4_v-1 0 37 CEM4_CMUP4_v-9 0 38 CEM4_CMX4_v-11 0 39 CEM4_PEM8_v-8 0 40 CMUP4_PEM8_v-13 0 41 CMX4_PEM8_v-14 0 42 DIELECTRON_CENTRAL_2_4_NOL2_L1_LUMI_140_v-1 0 43 DIELECTRON_CENTRAL_4_v-7 0 44 DIFF_CHIC_CMU1.5_PT1.5_TRK_v-2 0 45 DIFF_DIPHOTON2_v-1 0 46 DIFF_GAP_GAP_ST5_v-6 0 47 DIMUON_CMUP4_CMX4_v-9 0 48 DIMUON_CMUPCMUP4_v-6 0 49 DIMUON_L2PS200_L1_CMU1.5_PT1.5_&_CMX1.5_PT2_v-1 0 50 DIMUON_L2PS200_L1_TWO_CMU1.5_PT1.5_v-1 0 51 DIPHOTON_12_v-14 0 52 DIPHOTON_18_v-13 0 53 DITAU_L2_PT10_v-1 0 54 DITAU_MET_v-1 0 55 ELECTRON70_L2_JET_v-8 0 56 ELECTRON_20_VOLUNTEER_v-2 0 57 ELECTRON_CENTRAL_16_v-2 0 58 ELECTRON_CENTRAL_18_v-9 0 59 ELECTRON_CENTRAL_18_LOOSE_L3PS50_v-2 0 60 ELECTRON_CENTRAL_18_NO_L2_v-10 0 61 ELECTRON_CENTRAL_4_v-13 0 62 ELECTRON_CENTRAL_4_NOL2_v-7 0 63 ELECTRON_CENTRAL_8_&_TRACK8_v-2 0 64 ELECTRON_CENTRAL_8_L2_DPS_v-5 0 65 ELECTRON_CENTRAL_8_NO_L2_v-9 0 66 ELECTRON_CENTRAL_PS2K_L1_CEM8_PT8_v-2 0 67 ELECTRON_CENTRAL_PS50_L1_CEM4_PT4_v-1 0 68 EXO_TWO_TRACK_L1_LUMI_60_v-1 0 69 EXPRESS_ELECTRON_CENTRAL_20_v-3 0 70 EXPRESS_MET_PEM_v-10 0 71 EXPRESS_MUON_CMUP22_L2_PT15_v-1 0 72 EXPRESS_MUON_CMX22_L2_PT15_v-1 0 73 EXPRESS_W_v-6 0 74 EXPRESS_W_NOTRACK_v-10 0 75 EXPRESS_Z_v-7 0 76 HIGGS_HIGH_PT_BJET_v-1 0 77 HIGGS_MULTI_JET_DPS_v-8 0 78 HIGH_PT_BJET_DPS_v-2 0 79 HIGH_PT_BJET_LOOSE_DPS_v-10 0 80 JET_100_v-9 0 81 JET_20_v-12 0 82 JET_20_CENTRAL_v-6 0 83 JET_20_NO_L2_v-11 0 84 JET_50_v-8 0 85 JET_70_v-9 0 86 JET_70_NO_L2_v-9 0 87 JET_CAL_SINGLETOWER_10_v-3 0 88 JET_CAL_SINGLETOWER_5_v-4 0 89 JET_CAL_TRK15_D0_L2ISO_v-3 0 90 JPSI_CEM4CEM2_L1_LUMI_140_v-1 0 91 JPSI_CMU1.5_CMX2_DPS_v-2 0 92 JPSI_CMU1.5_CMX2_NOL2_v-5 0 93 JPSI_CMU2_CMX2_PS2_v-1 0 94 JPSI_CMUCMU1.5_DPS_v-3 0 95 JPSI_CMUCMU1.5_NOL2_v-4 0 96 JPSI_CMUCMU2_PS2_v-1 0 97 JPSI_CMUP4_CMU_L2_DPS_v-4 0 98 JPSI_CMUP4_CMX_L2_DPS_v-4 0 99 JPSI_CMUPCMU_HIGHPT_DPS_v-2 0 100 JPSI_CMUPCMX_HIGHPT_DPS_v-2 0 101 MET35_&_CJET_&_JET_v-9 0 102 MET45_v-11 0 103 MET_BJET_DPS_v-14 0 104 MET_L2PS200_L1_MET25_v-1 0 105 MET_L2PS4K_L1_MET15_&_JET5_&_TWO_TRK2_v-1 0 106 MET_PEM_v-20 0 107 MET_PEM_L1_EM8_&_MET15_v-15 0 108 MINBIAS_1HZ_v-4 0 109 MINBIAS_3HZ_EXTRA_v-1 0 110 MONITOR_COT_SPIKE_v-1 0 111 MONITOR_DAQ_ERROR_v-1 0 112 MONITOR_L1_TEN_TRK2_PS250_v-1 0 113 MONITOR_L2_ERROR_v-2 0 114 MONITOR_L2_INCLUSIVE_NOTRACK_v-1 0 115 MONITOR_L2_INCLUSIVE_TRACK_v-1 0 116 MONITOR_L3TAG_PS200_v-1 0 117 MONOPOLE_v-2 0 118 MUON_CENTRAL_JET20_L1_BMU10_BSUR_v-7 0 119 MUON_CMUP15_v-1 0 120 MUON_CMUP18_L2_PT15_v-1 0 121 MUON_CMUP18_VOLUNTEER_v-2 0 122 MUON_CMUP4_v-8 0 123 MUON_CMUP8_&_TRACK8_v-1 0 124 MUON_CMUP8_DPS_v-2 0 125 MUON_CMUP8_NOL2_v-2 0 126 MUON_CMX15_v-1 0 127 MUON_CMX18_L2_PT15_v-1 0 128 MUON_CMX8_v-2 0 129 MUON_CMX8_&_TRACK8_v-1 0 130 MUON_PS1000_L1_CMUP6_PT4_v-3 0 131 PHOTON_10_ISO_v-12 0 132 PHOTON_15_TIGHT_L2_DPS_v-13 0 133 PHOTON_25_ISO_PASS4_v-7 0 134 PHOTON_25_ISO_TRACK_5_ISO_v-11 0 135 PHOTON_B_JET_v-18 0 136 PHOTON_CMUP_v-13 0 137 PHOTON_CMX_v-15 0 138 PHOTON_DIJET_v-20 0 139 PHOTON_L1_EM8_v-10 0 140 PHOTON_L3PS100_L2_EM21_ISO_PASS4_v-7 0 141 PLUG_ELECTRON_20_v-13 0 142 PLUG_Z_v-10 0 143 RAREB_CMU2CMX_LXY_PS2_v-1 0 144 RAREB_CMU2CMX_SUMPT_PS2_v-1 0 145 RAREB_CMUCMU1.5_LXY_DPS_v-2 0 146 RAREB_CMUCMU1.5_SUMPT_DPS_v-2 0 147 RAREB_CMUCMU_LXY_PS2_v-1 0 148 RAREB_CMUCMU_SUMPT_PS2_v-1 0 149 RAREB_CMUCMX_LXY_DPS_v-2 0 150 RAREB_CMUCMX_SUMPT_DPS_v-2 0 151 RAREB_CMUPCMU_DPS_v-1 0 152 RAREB_CMUPCMX_DPS_v-1 0 153 SUPER_PHOTON70_L2_EM_v-7 0 154 SUPER_PHOTON70_L2_JET_v-10 0 155 TAU_BMUR8_v-1 0 156 TAU_CMUP8_v-1 0 157 TAU_CMUP8_TRACK5_ISO_v-9 0 158 TAU_CMX8_v-1 0 159 TAU_CMX8_TRACK5_ISO_v-8 0 160 TAU_ELECTRON8_v-2 0 161 TAU_ELECTRON8_TRACK5_ISO_v-10 0 162 TAU_MET_v-11 0 163 TAU_PEM8_L2TAU4_PT5_DPS_v-5 0 164 TEST_CEM4_CMUP8_v-2 0 165 TEST_CEM4_CMX8_v-1 0 166 TEST_CEM8_CMUP4_v-2 0 167 TEST_CEM8_CMX4_v-1 0 168 TEST_DIELECTRON_CEM4CEM8_v-1 0 169 TEST_DIMUON_CMUP4CMUP8_v-1 0 170 TEST_ELECTRON_CENTRAL_18_L13D_v-3 0 171 TEST_ELECTRON_CENTRAL_18_L13D_L23D_v-3 0 172 TEST_ELECTRON_CENTRAL_18_L23D_v-2 0 173 TEST_ELECTRON_CENTRAL_L13D_L2CEM16_L3PS10_v-3 0 174 TEST_ELECTRON_CENTRAL_L23D_L2CEM16_L3PS10_v-2 0 175 TEST_EVB_JET_70_NO_L2_v-2 0 176 TEST_JPSI_CMUCMU_L2_MT_v-2 0 177 TEST_MET_PEM_v-6 0 178 TEST_MUON_CMP18_PHIGAP_v-1 0 179 TEST_MUON_CMP18_PHIGAP_L3TAG_v-1 0 180 TOP_MULTI_JET_v-9 0 181 TRIPHOTON_v-14 0 182 ULTRA_PHOTON50_v-13 0 183 UPSILON_CMUP_CMU_DPS_v-1 0 184 UPSILON_CMUP_CMX_DPS_v-1 0 185 W_NOTRACK_v-20 0 186 W_NOTRACK_NO_L2_v-15 0 187 ZEROBIAS_NOL3FILT_L1_MB_XING_PS1M_v-3 0 188 Z_BB_L2_BJET_OS_L1_LUMI_150_v-1 0 189 Z_BB_L2_BJET_SS_L1_LUMI_150_v-1 0 190 Z_NOTRACK_v-10 0 191 _MULTIPLICITY_20_v-1 0 192 _Z_COMPRESSION_v-1 0 L3 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 0 0 0 0 11 0 0 0 12 0 0 13 0 Bit # 14 15 16 17 18 19 20 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 16 0 0 0 0 0 17 0 0 0 0 18 0 0 0 19 0 0 20 0 Bit # 21 22 23 24 25 26 27 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 23 0 0 0 0 0 24 0 0 0 0 25 0 0 0 26 0 0 27 0 Bit # 28 29 30 31 32 33 34 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 30 0 0 0 0 0 31 0 0 0 0 32 0 0 0 33 0 0 34 0 Bit # 35 36 37 38 39 40 41 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 37 0 0 0 0 0 38 0 0 0 0 39 0 0 0 40 0 0 41 0 Bit # 42 43 44 45 46 47 48 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 44 0 0 0 0 0 45 0 0 0 0 46 0 0 0 47 0 0 48 0 Bit # 49 50 51 52 53 54 55 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 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/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root * after 2001 records, with a total size of 393121kBytes written. * 2000 of those records were phyics events, * whose average size is: 198kBytes/event * ****************************** RUN NUMBER = 222530 TRGSim SUMMARY AFTER 0 EVENTS ****************************** ****** DIRAC SUMMARY ****** ****** DIRAC BOUNCH COUNTER SUMMARY ****** ****** CRATESUM SUMMARY ****** ****** CRATESUM BOUNCH COUNTER SUMMARY ****** ****** CRATESUM/DIRAC BC SUMMARY ****** ****** HOT CABLES SUMMARY ******* ****** DCAS SUMMARY ********* L2SimModule destructor! XFTTriggerMonitor destructor Termination Summary Process TRGSim++ type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DBSQL_O .. DBEventLogger 941* 941 2 DEBUG .. DBEventLogger 2294* 2294 3 DBACC_G -! DBEventLogger 102* 102 4 DBACC_O -! DBEventLogger 941* 941 5 Bfield::setUniform -i GlobalLibraryLog 1* 1 6 DBCON_A -i DBEventLogger 187* 187 7 DBCON_J -i DBEventLogger 2* 2 8 DBCON_O -i DBEventLogger 278* 278 9 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 10 There are no more fi -i DHInput openNextFile 1* 1 11 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 2* 2 12 calor::CalibL1: -i GlobalLibraryLog AppFileBasedStre 1* 1 13 generateBeginFileFra -i DHInput openNextFile 1* 1 14 generateBeginRunSect -i DHInput nextEvent 1* 1 15 RCP put failure -w CalibrationManag 2* 2 16 RCP put failure -w SpikeFilter 1* 1 17 more_chances -w DBObjects::dbOTL 5* 5 18 svtsim: -w svtsim 2000* 2000 19 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 20 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 21 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 22 Error fetching TrgSi -e XTRPSim XTRPSimModule::g 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DBSQL_O 222530/0 222530/0 222530/0 2 DEBUG 0/0 0/0 222530/0 3 DBACC_G 0/0 0/0 222530/0 4 DBACC_O 222530/0 222530/0 222530/0 5 Bfield::setUniform 0/0 6 DBCON_A 222530/0 222530/0 222530/0 7 DBCON_J 0/0 222530/2000 8 DBCON_O 0/0 0/0 222530/0 9 SiPassiveMaterial::c 0/0 0/0 0/0 10 There are no more fi 222530/2000 11 calor::Calib: 222530/0 222530/0 12 calor::CalibL1: 222530/0 13 generateBeginFileFra 0/0 14 generateBeginRunSect 222530/1 15 RCP put failure 0/0 0/0 16 RCP put failure 0/0 17 more_chances 222530/0 222530/0 222530/0 18 svtsim: 222530/1 222530/2 222530/2000 19 Error fetching TrgSi 222530/0 20 Error fetching TrgSi 222530/0 21 Error fetching TrgSi 222530/0 22 Error fetching TrgSi 222530/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 3235 3235 Success 1043 1043 Info 479 479 Warning 2008 2008 Error 4 4 [MCProd]: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/ProductionExe /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/Production/ProductionExe.tcl -i /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root -o /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 13-Aug-2007 00:37:07 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM Using $Id: TimingCollMaker.cc,v 1.21 2005/07/13 01:37:42 maxi Exp $ instance TimingCollMaker ************************************** ****** CES CLUSTER************** ************************************** Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule Using $Id: CesMatchingModule.cc,v 1.19 2005/05/12 00:01:13 aa Exp $ instance CesMatchingModule Using $Id: Pi0ReconstructionModule.cc,v 1.17 2005/09/16 19:17:08 aa Exp $ instance Pi0ReconstructionModule Using $Id: TauFinderModule.cc,v 1.23 2002/11/22 07:22:41 ratnikov Exp $ instance TauFinderModule <<<getenv>>> : Name= RAW_STREAM Default= b x= <<<getenv>>> : Name= NEVENTS Default= 0 x= 2000 <<<getenv>>> : Name= PASS Default= 0c x= 0c <<<getenv>>> : Name= PROD_on_MC Default= x= 1 <<<getenv>>> : Name= USING_PRODUCTIONEXE_TCL Default= 1 x= 1 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= TheFile Default= x= <<<getenv>>> : Name= TheFileList Default= x= <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Running PhoenixElectrons::PhoenixElectrons(const char* const theName,const char* const theDescription) Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is true Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 %ERLOG-w RCP put failure: unable to store RCP for GeometryManager write failed. GeometryManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone0.4 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone1.0 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone0.7 ************************************** ****** CES CLUSTER************** ************************************** Using $Id: TimingCollMaker.cc,v 1.21 2005/07/13 01:37:42 maxi Exp $ instance TimingCollMaker-RAW Current value of item(s) in the "TauFinderModule" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "makeTauFromClusters" menu: Value of InUse for this module is true Value of CaloSeedEt for this module is 4 Value of CaloShoulderEt for this module is 1 Value of CaloNumberOfTowers for this module is 6 Value of CaloEta for this module is 1.3 Value of SeedTrackPt for this module is 4.5 Value of ShoulderTrackPt for this module is 1 Value of Pi0Et for this module is 0.5 Value of TrackIsolationNumberOfTracks for this module is 999 Value of TrackIsolation for this module is 999 Value of TrackMass for this module is 999 Value of VertexStrategy for this module is 1 Value of SeedToVertexDist for this module is 1e-06 Value of TrackToVertexDist for this module is 5 Value of CollectionName for this module is CdfTauCollection Value of Pi0CollectionName for this module is Pi0CandidateCollection Value of TrackAssociationAlgorithm for this module is 2 Current value of items on the "makeTauFromTracks" menu: Value of InUse for this module is false Value of CaloSeedEt for this module is 4 Value of CaloShoulderEt for this module is 1 Value of CaloNumberOfTowers for this module is 6 Value of Seed2ClusterCone for this module is 0.4 Value of SeedTrackPt for this module is 4.5 Value of SeedTrackEta for this module is 1 Value of ShoulderTrackPt for this module is 1 Value of Pi0Et for this module is 0.5 Value of TrackIsolationNumberOfTracks for this module is 0 Value of TrackIsolation for this module is 999 Value of TrackMass for this module is 1.8 Value of VertexStrategy for this module is 0 Value of SeedToVertexDist for this module is 1e-06 Value of TrackToVertexDist for this module is 5 Value of CollectionName for this module is CdfSeededTauCollection Value of Pi0CollectionName for this module is Pi0CandidateCollection Value of TrackAssociationAlgorithm for this module is 1 <<<getenv>>> : Name= SUEN Default= 0 x= 0 <<<getenv>>> : Name= ONE_TO_ONE Default= 0 x= 0 <<<getenv>>> : Name= OUTPUT_DATASET Default= xtst0b x= xtst0b <<<getenv>>> : Name= OUTPUT_FILE Default= undefined x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root <<<get_output_file>>>: output file = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root Listing of current output destinations and their associated paths: stream: File: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root Paths: AllPath Production Objects Dropped: CT_HitSet:* CdfTrackColl:COT_Global_Tracking CdfTrackColl:COT_Global_Tracking_HL CdfTrackColl:COT_Global_Tracking_SL CdfTrackColl:GlobalSI_Tracking CdfTrackColl:IOTracks CdfTrackHits:COT Hits for CdfTrack ISLD_StorableBank:* PhysicsTowerData:* SIXD_StorableBank:* SiClusterSet:* StorableRun2SiStripSet ZVertexColl:ZVerCollCotStand Processes Dropped: (none) Objects Kept From Processes: (none) Objects Kept: CC2Q:* CC2Q_Storable:* CEMTowerCorrColl:* CHATowerCorrColl:* COTQ:* CP2Q:* CP2Q_Storable:* CalData:* CalorTdcTowerColl:* CdfEmClusterColl:* CdfEmObjectColl:* CdfEmObjectView:* CdfJetColl:* CdfMet:* CdfMuon:* CdfMuonColl:* CdfMuonView:* CdfTauCollection:* CdfTrack:* CdfTrackColl:* CdfTrackHits:* CdfTrackIdManager:* CdfTrackMatch:* CdfTrackView:* CesClusterColl:* CesMatchCollection:* ClcData:* CosmicRayInfo:* CprClusterColl:* DBUsedSetInfoList:* ErrorSummary:* FastZVertexColl:* GrowResultList:* ISLD_StorableBank:* L3SummaryObject:* LRIH_StorableBank:* Level3ModuleMap:* MPATowerCorrColl:* MuonStubColl:* MuonTHitColl:* MuonXHitColl:* MuonXZHitColl:* PEMTowerCorrColl:* PHATowerCorrColl:* PPRTowerCorrColl:* PadSqz::CALQ:* PadSqz::COTQ:* PadSqz::SMXQ:* PadSqz::SVXQ:* Pes2dClusterColl:* PesClusterColl:* Pi0CandidateCollection:* PlugStripColl:* ReleaseHistory:* SIXD_StorableBank:* SiClusterSet:* SiHitSet:* StorableRun2SiStripSet:* TofHitBarColl:* TofMatchesColl:* TofPulsesColl:* TofT0Coll:* TofTrackPulseColl:* TofTrackView:* TopSummary:* UniverseRegion:* Vertex:* VertexColl:* VertexFitCommand:* VertexFitResults:* WHATowerCorrColl:* WorldRegion:* ZVertexColl:* ======================================================= Error Log established 13-Aug-2007 00:37:08 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 Processes Kept: (none) CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. %ERLOG-w RCP put failure: unable to store RCP for GeometryManager write failed. GeometryManager 13-Aug-2007 00:40:01 CDT run = 0 event = 0 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() ************************************** Parameters used in the strip collection ************************************ * Seed Threshold (strip)* 0.15 * * Seed Threshold (wire)* 0.06 * * Strip Threshold * 0.15 * * Wire Threshold * 0.06 * * Printout * 0 * * Using Q banks * 0 * * Number of strips for unbiased clusters* 11 * * Number of wires for unbiased clusters* 11 * * Number of strips for track-based clusters* 7 * * Number of wires for track-based clusters* 7 * * Collection Strategy * 2 * * Pt(track) Cut * 1 * * Eta(track) Min * -1.2 * * Eta(track) Max * 1.2 * ************************************ ************************************ Parameters used in the strip collection ************************************ * Seed Threshold (strip) * 0.15 * * Seed Threshold (wire) * 0.06 * * Strip Threshold * 0.15 * * Wire Threshold * 0.06 * * Printout * 0 * * Number of strips in unbiased collection * 11 * * Number of wires in unbiased collection * 11 * * Number of strips in track collection * 7 * * Number of wires in track collection * 7 * * Minimum Number of strips in unbiased collection * 2 * * Minimum Number of wires in unbiased collection * 2 * * Minimum Number of strips in track collection* 1 * * Minimum Number of wires in track collection* 1 * * Chi2 cut * 100 * * Energy cut * 0 * **************************************** TofGeometricHitFinder(0xe8a5530) instantiated. - TOF geometry system of type [ALIGNED] found. ++++++++++++++++++++++++++++++++++++++++++++++++++ + TrackingKal is running on DETAILED geometry. + ++++++++++++++++++++++++++++++++++++++++++++++++++ KalConverter: KalDetector: got geometry information for 728 wafers (1456 codes) KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). KalOIStrategy around ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 3 nominate, pursue and accept timers. CdfMetModule::beginJob Starting PhoenixElectrons::beginJob(AbsEvent* aJob) Creating HepFileManager...OK Booking Histograms...OK Finishing PhoenixElectrons::beginJob(AbsEvent* aJob) ************************************** Parameters used in the strip collection ************************************ * Seed Threshold (strip)* 0.15 * * Seed Threshold (wire)* 0.06 * * Strip Threshold * 0.15 * * Wire Threshold * 0.06 * * Printout * 0 * * Using Q banks * 0 * * Number of strips for unbiased clusters* 5 * * Number of wires for unbiased clusters* 5 * * Number of strips for track-based clusters* 7 * * Number of wires for track-based clusters* 7 * * Collection Strategy * 0 * * Pt(track) Cut * 1 * * Eta(track) Min * -1.2 * * Eta(track) Max * 1.2 * ************************************ ************************************ Parameters used in the strip collection ************************************ * Seed Threshold (strip) * 0.15 * * Seed Threshold (wire) * 0.06 * * Strip Threshold * 0.15 * * Wire Threshold * 0.06 * * Printout * 0 * * Number of strips in unbiased collection * 5 * * Number of wires in unbiased collection * 5 * * Number of strips in track collection * 7 * * Number of wires in track collection * 7 * * Minimum Number of strips in unbiased collection * 2 * * Minimum Number of wires in unbiased collection * 2 * * Minimum Number of strips in track collection* 1 * * Minimum Number of wires in track collection* 1 * * Chi2 cut * 100 * * Energy cut * 0 * ************************************** KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 2 nominate, pursue and accept timers. KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 2 nominate, pursue and accept timers. DHInputModule_2.cc: releasing file * * Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root * * * Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root on Mon Aug 13 00:40:04 2007 * CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) SiAlignmentManager will use db default alignment CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) %ERLOG-w PlugStripMaker::setMonte: /home/cdfsoft/dist/packages/ShowerMax/V00-01-07/src/PlugStripMaker.cc : 373 Plug Showermax: not applying calibrations to MC; Using raw values. GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:40:04 CDT run = 222530 event = 0 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) MostRecentSiCalibration:: ChipStatus DB set to frontier %MostRecent: creating a 100% full SiDBInfoSet with dummy SiDBInfos. This may take a while. %MostRecent: done with creating a full SiDBInfoSet. CdfCalibDbFrontier(SiChipPed:1.2,489475) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Pedestals are present for run 222530 Retrieved run=222529 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiStripDH:1.2,482699) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Dead channels are present for run 222530 Retrieved run=221805 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiChipOn:1.1,489745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiStripMask:1.1,80436) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfMetModule::beginRun DEBUG ChipStatus::ChipStatus dbname = frontier CdfRoDbFrontier::init(SVX_Rundate_ViewByRunnumber:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(SVX_ConfigurationsByRunnumber:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX CTVMFT First call in program XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX VtxsMax 6 TrksMax 50 ConsMax 4 DimsMax 189 ItrsMax 10 UDim: 3713 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMLinEResponse:1.4,314129) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMLinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=495059 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMLinEResponse:1.4,469429) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMLinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=622735 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHALinEResponse:1.4,469439) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=615763 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHALinEResponse:1.4,469955) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=520583 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHALinEResponse:1.4,469431) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=622737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcCemSlewing:1.3,518269) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CdfCalibDbFrontier(TdcPemSlewing:1.3,518273) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcChaSlewing:1.1,518275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcWhaSlewing:1.1,518277) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPhaSlewing:1.1,518279) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcCemEfficiency:1.3,518281) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPemEfficiency:1.3,518283) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcChaEfficiency:1.1,518285) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcWhaEfficiency:1.1,518287) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPhaEfficiency:1.1,518289) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) --------------- HepPDT Version 1.00.01 --------------- %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:37 CDT run = 222530 event = 10 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:39 CDT run = 222530 event = 12 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:39 CDT run = 222530 event = 12 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:41 CDT run = 222530 event = 16 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:43 CDT run = 222530 event = 20 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:44 CDT run = 222530 event = 22 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:48 CDT run = 222530 event = 30 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:50 CDT run = 222530 event = 33 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:46:01 CDT run = 222530 event = 50 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:46:03 CDT run = 222530 event = 53 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:46:05 CDT run = 222530 event = 56 Warning: inversion of error matrix failed %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:46:24 CDT run = 222530 event = 90 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:46:28 CDT run = 222530 event = 98 DHInput Begin processing 100th record. Run 222530, Trigger 99 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:46:30 CDT run = 222530 event = 102 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:46:39 CDT run = 222530 event = 117 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:47:01 CDT run = 222530 event = 156 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:47:03 CDT run = 222530 event = 160 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:47:09 CDT run = 222530 event = 170 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:47:24 CDT run = 222530 event = 193 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:47:25 CDT run = 222530 event = 194 DHInput Begin processing 200th record. Run 222530, Trigger 199 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:47:57 CDT run = 222530 event = 254 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:48:24 CDT run = 222530 event = 293 DHInput Begin processing 300th record. Run 222530, Trigger 299 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:48:31 CDT run = 222530 event = 304 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:48:31 CDT run = 222530 event = 304 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:48:45 CDT run = 222530 event = 330 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:49:26 CDT run = 222530 event = 392 DHInput Begin processing 400th record. Run 222530, Trigger 399 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:50:29 CDT run = 222530 event = 489 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:50:29 CDT run = 222530 event = 489 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:50:33 CDT run = 222530 event = 496 DHInput Begin processing 500th record. Run 222530, Trigger 499 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:51:04 CDT run = 222530 event = 547 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:51:12 CDT run = 222530 event = 561 DHInput Begin processing 600th record. Run 222530, Trigger 599 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:51:48 CDT run = 222530 event = 613 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:51:48 CDT run = 222530 event = 613 Warning: couldn't invert error matrix, skipping. %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:52:01 CDT run = 222530 event = 634 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:52:12 CDT run = 222530 event = 650 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:52:36 CDT run = 222530 event = 689 DHInput Begin processing 700th record. Run 222530, Trigger 699 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:53:22 CDT run = 222530 event = 760 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 800th record. Run 222530, Trigger 799 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 DHInput Begin processing 900th record. Run 222530, Trigger 899 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:54:45 CDT run = 222530 event = 899 Warning: couldn't invert error matrix, skipping. %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:55:15 CDT run = 222530 event = 945 DHInput Begin processing 1000th record. Run 222530, Trigger 999 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:56:48 CDT run = 222530 event = 1088 DHInput Begin processing 1100th record. Run 222530, Trigger 1099 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1200th record. Run 222530, Trigger 1199 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:58:36 CDT run = 222530 event = 1269 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:58:36 CDT run = 222530 event = 1269 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:58:47 CDT run = 222530 event = 1290 DHInput Begin processing 1300th record. Run 222530, Trigger 1299 Warning: couldn't invert error matrix, skipping. Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1400th record. Run 222530, Trigger 1399 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 01:00:41 CDT run = 222530 event = 1479 DHInput Begin processing 1500th record. Run 222530, Trigger 1499 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 01:01:13 CDT run = 222530 event = 1531 DHInput Begin processing 1600th record. Run 222530, Trigger 1599 Warning: couldn't invert error matrix, skipping. Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1700th record. Run 222530, Trigger 1699 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1800th record. Run 222530, Trigger 1799 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1900th record. Run 222530, Trigger 1899 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 01:05:44 CDT run = 222530 event = 1977 DHInput Begin processing 2000th record. Run 222530, Trigger 1999 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) Execution Times for all Modules Run so Far During Begin Job: ================= Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: BMU_DtoEModule 1 0.0000 0.0126 0.0000 BMU_StubModule 1 0.0000 0.0011 0.0000 BSU_DtoEModule 1 0.0000 0.0037 0.0000 BscModule 1 0.0000 0.0034 0.0000 CC2QModule 1 0.0000 0.0009 0.0000 CMP_DtoEModule 1 0.0000 0.0022 0.0000 CMU_DtoEModule 1 0.0000 0.0129 0.0000 CMX_DtoEModule 1 0.0000 0.0020 0.0000 CMX_EtoSModule 1 0.0000 0.0005 0.0000 COTQ_Module 1 0.0100 0.0027 0.0000 CP2QModule 1 0.0000 0.0011 0.0000 CSP_DtoEModule 1 0.0000 0.0050 0.0000 CSX_DtoEModule 1 0.0100 0.0041 0.0000 CT_TrackingModu 1 0.0000 0.0001 0.0000 CalibrationMana 1 0.0400 173.6161 0.0000 CalorimetryModu 1 0.0100 0.0156 0.0000 CdfEmObjectModu 1 0.0000 0.0041 0.0000 CdfMetModule 1 0.0100 0.0125 0.0000 CentralStripClu 1 0.0000 0.0077 0.0000 CentralStripClu 1 0.0000 0.0014 0.0000 CesMatchingModu 1 0.0000 0.0000 0.0000 CotqModule 1 0.0000 0.0101 0.0000 CprClusterModul 1 0.0000 0.0000 0.0000 DHInput 1 0.0000 0.0000 0.0000 DummyInput 1 0.0100 0.0145 0.0000 DummyOutput 1 0.0100 0.0082 0.0000 EmClusterModule 1 0.0000 0.0040 0.0000 ErrorLoggerMana 1 0.0000 0.0111 0.0000 FileInput 1 0.0000 0.0000 0.0000 FileOutput 1 0.0000 0.0000 0.0000 GeometryManager 1 0.1200 0.1432 0.0000 IOTrackModule 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0038 0.0000 JetCluModule-co 1 0.0100 0.0038 0.0000 JetCluModule-co 1 0.0000 0.0038 0.0000 Level3SummaryWr 1 0.0000 0.0000 0.0000 MPAQModule 1 0.0100 0.0032 0.0000 MuonLinkerModul 1 0.0000 0.0000 0.0000 MuonStubModule 1 0.0000 0.0000 0.0000 PESQ_Module 1 0.0000 0.0020 0.0000 PVFinder 1 0.1200 0.1173 0.0000 PadTrackMaker 1 0.0000 0.0000 0.0000 PesDtoEModule 1 0.0000 0.0010 0.0000 PhoenixElectron 1 0.0000 0.0000 0.0000 PhoenixTracking 1 0.0000 0.0001 0.0000 Pi0Reconstructi 1 0.0000 0.0000 0.0000 PlugStripCluste 1 0.0000 0.0010 0.0000 Prereq 1 0.0000 0.0012 0.0000 PrimeVtxModule 1 0.0000 0.0075 0.0000 PuffModule 1 0.0000 0.0000 0.0000 SiClusteringMod 1 0.0000 0.0799 0.0000 SiPatternRecMod 1 0.0000 0.0026 0.0000 SiPatternRecMod 1 0.0000 0.0002 0.0000 SiPatternRecMod 1 0.0000 0.0003 0.0000 SignalManager 1 0.0000 0.0116 0.0000 SvxqModule 1 0.0000 0.0023 0.0000 TauFinderModule 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0006 0.0000 TofModule 1 0.0000 0.0003 0.0000 TrackObspMatch 1 0.0100 0.0083 0.0000 ZVertexModule 1 0.0000 0.0001 0.0000 ZVertexModule-C 1 0.0000 0.0001 0.0000 vxprim 1 0.0000 0.0001 0.0000 During Begin Run: ================= Module name: Calls: Mean cpu time: Mean clk time: Cpu StdDev: BMU_DtoEModule 1 0.0000 0.0000 0.0000 BMU_StubModule 1 0.0000 0.0000 0.0000 BSU_DtoEModule 1 0.0000 0.0000 0.0000 BscModule 1 0.0000 0.0000 0.0000 CC2QModule 1 0.0000 0.0012 0.0000 CMP_DtoEModule 1 0.0000 0.0000 0.0000 CMU_DtoEModule 1 0.0000 0.0000 0.0000 CMX_DtoEModule 1 0.0000 0.0000 0.0000 CMX_EtoSModule 1 0.0000 0.0024 0.0000 COTQ_Module 1 0.0000 0.0000 0.0000 CP2QModule 1 0.0000 0.0012 0.0000 CSP_DtoEModule 1 0.0000 0.0000 0.0000 CSX_DtoEModule 1 0.0000 0.0000 0.0000 CT_TrackingModu 1 0.0000 0.0003 0.0000 CalibrationMana 1 0.0000 0.0406 0.0000 CalorimetryModu 1 0.0200 0.1186 0.0000 CdfEmObjectModu 1 0.0000 0.0000 0.0000 CdfMetModule 1 0.0000 0.0001 0.0000 CentralStripClu 1 0.0100 0.0012 0.0000 CentralStripClu 1 0.0100 0.0011 0.0000 CesMatchingModu 1 0.0000 0.0000 0.0000 CotqModule 1 0.0000 0.0000 0.0000 CprClusterModul 1 0.0000 0.0011 0.0000 DHInput 1 0.0000 0.0001 0.0000 DummyInput 1 0.0000 0.0000 0.0000 DummyOutput 1 0.0000 0.0000 0.0000 EmClusterModule 1 0.0000 0.0000 0.0000 ErrorLoggerMana 1 0.0000 0.0000 0.0000 FileInput 1 0.0000 0.0000 0.0000 FileOutput 1 0.0000 0.0000 0.0000 GeometryManager 1 0.0800 0.1051 0.0000 IOTrackModule 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 Level3SummaryWr 1 0.0000 0.0000 0.0000 MPAQModule 1 0.0000 0.0000 0.0000 MuonLinkerModul 1 0.0000 0.0000 0.0000 MuonStubModule 1 0.0000 0.0000 0.0000 PESQ_Module 1 0.0000 0.0000 0.0000 PVFinder 1 0.0000 0.0000 0.0000 PadTrackMaker 1 0.0000 0.0000 0.0000 PesDtoEModule 1 0.0000 0.0002 0.0000 PhoenixElectron 1 0.0000 0.0000 0.0000 PhoenixTracking 1 0.0000 0.0000 0.0000 Pi0Reconstructi 1 0.0000 0.0000 0.0000 PlugStripCluste 1 0.0000 0.0084 0.0000 Prereq 1 0.0000 0.0000 0.0000 PrimeVtxModule 1 0.0000 0.0001 0.0000 PuffModule 1 0.0000 0.0000 0.0000 SiClusteringMod 1 0.5300 0.8292 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SignalManager 1 0.0000 0.0000 0.0000 SvxqModule 1 0.0000 0.0000 0.0000 TauFinderModule 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TofModule 1 0.0100 0.0282 0.0000 TrackObspMatch 1 0.0000 0.0000 0.0000 ZVertexModule 1 0.0000 0.0001 0.0000 ZVertexModule-C 1 0.0000 0.0001 0.0000 vxprim 1 0.0000 0.0000 0.0000 During End Job: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During End Run: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During Event Processing: ======================== Module name: # Calls: Mean cpu time: Mean clk time: Total Cpu: ----------------------------------------------------------------------------------- BMU_DtoEModule 2000 0.0000+/-0.0000 0.0000+/-0.0000 0.040 BMU_StubModule 2000 0.000015+/-0.000009 0.000032+/-0.000002 0.030 BSU_DtoEModule 2000 0.000025+/-0.000011 0.000035+/-0.000000 0.050 BscModule 2000 0.000040+/-0.000014 0.000045+/-0.000000 0.080 CC2QModule 2000 0.000020+/-0.000010 0.000022+/-0.000000 0.040 CMP_DtoEModule 2000 0.000015+/-0.000009 0.000019+/-0.000000 0.030 CMU_DtoEModule 2000 0.000025+/-0.000011 0.000022+/-0.000000 0.050 CMX_DtoEModule 2000 0.000020+/-0.000010 0.000019+/-0.000000 0.040 CMX_EtoSModule 2000 0.000045+/-0.000015 0.000021+/-0.000000 0.090 CP2QModule 2000 0.000110+/-0.000023 0.000065+/-0.000000 0.220 CSP_DtoEModule 2000 0.000025+/-0.000011 0.000019+/-0.000000 0.050 CSX_DtoEModule 2000 0.000010+/-0.000007 0.000020+/-0.000001 0.020 CT_TrackingModule 2000 0.229615+/-0.002077 0.231990+/-0.002108 459.230 CalibrationManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 CalorimetryModule 2000 0.006590+/-0.000106 0.006541+/-0.000040 13.180 CdfEmObjectModule 2000 0.000625+/-0.000054 0.000597+/-0.000014 1.250 CdfMetModule 2000 0.001195+/-0.000073 0.001120+/-0.000014 2.390 CentralStripClusterModu 2000 0.001535+/-0.000081 0.001647+/-0.000015 3.070 CentralStripClu-pi0reco 2000 0.000660+/-0.000056 0.000642+/-0.000005 1.320 CesMatchingModule 2000 0.000080+/-0.000020 0.000048+/-0.000000 0.160 CotqModule 2000 0.003375+/-0.000106 0.003186+/-0.000028 6.750 CprClusterModule 2000 0.000340+/-0.000041 0.000385+/-0.000007 0.680 DHInput 4002 0.006327+/-0.000115 0.006562+/-0.000116 25.320 EmClusterModule 2000 0.003610+/-0.000109 0.003801+/-0.000055 7.220 ErrorLoggerManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 FileOutput 4001 0.018610+/-0.000339 0.019184+/-0.000370 74.460 GeometryManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 IOTrackModule 2000 0.022790+/-0.000406 0.022951+/-0.000402 45.580 JetCluModule-cone0.4 2000 0.004880+/-0.000113 0.004859+/-0.000042 9.760 JetCluModule-cone0.7 2000 0.008925+/-0.000106 0.009279+/-0.000070 17.850 JetCluModule-cone1.0 2000 0.006715+/-0.000138 0.006830+/-0.000098 13.430 Level3SummaryWriterModu 2000 0.000125+/-0.000025 0.000123+/-0.000000 0.250 MuonLinkerModule 2000 0.001915+/-0.000098 0.001889+/-0.000083 3.830 MuonStubModule 2000 0.000050+/-0.000016 0.000052+/-0.000001 0.100 PVFinder 2000 0.010445+/-0.000152 0.010682+/-0.000125 20.890 PadTrackMaker 2000 0.022785+/-0.000217 0.023110+/-0.000206 45.570 PesDtoEModule 2000 0.007990+/-0.000092 0.008133+/-0.000044 15.980 PhoenixElectrons 2000 0.000075+/-0.000019 0.000077+/-0.000000 0.150 PhoenixTracking 2000 0.000205+/-0.000032 0.000148+/-0.000002 0.410 Pi0ReconstructionModule 2000 0.008610+/-0.000093 0.008655+/-0.000049 17.220 PlugStripClusterModule 2000 0.001230+/-0.000073 0.001215+/-0.000017 2.460 PrimeVtxModule 2000 0.004445+/-0.000121 0.004565+/-0.000073 8.890 PuffModule 2000 0.000025+/-0.000011 0.000029+/-0.000000 0.050 SiClusteringModule 2000 0.029470+/-0.000133 0.029736+/-0.000118 58.940 SiPatternRecModule 2000 0.056880+/-0.000590 0.057334+/-0.000592 113.760 SiPatternRecMod-Phoenix 2000 0.000295+/-0.000038 0.000354+/-0.000004 0.590 SiPatternRecModu-StVert 2000 0.084205+/-0.002117 0.085371+/-0.002139 168.410 SignalManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 SvxqModule 2000 0.004130+/-0.000110 0.004417+/-0.000024 8.260 TauFinderModule 2000 0.006790+/-0.000160 0.006816+/-0.000130 13.580 TimingCollMaker 2000 0.000090+/-0.000039 0.000631+/-0.000576 0.180 TimingCollMaker-RAW 2000 0.000535+/-0.000052 0.163528+/-0.162982 1.070 TofModule 2000 0.003465+/-0.000106 0.003443+/-0.000028 6.930 TrackObspMatch 2000 0.009230+/-0.000099 0.009196+/-0.000061 18.460 ZVertexModule 2000 0.000950+/-0.000066 0.000883+/-0.000010 1.900 ZVertexModule-CotSt 2000 0.000985+/-0.000067 0.000864+/-0.000010 1.970 vxprim 2000 0.009640+/-0.000288 0.009810+/-0.000280 19.280 ----------------------------------------------------------------------------------- Mean Cpu total = 0.580807; Mean Clock total = 0.751031 Sum total Cpu = 1161.614368; Sum total Clock = 1502.062790 Listing of all available paths ** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * yes on 0 0 Level3SummaryWriterModule no on 0 0 CalqModule no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 TimingCollMaker * no on 0 0 CalorimetryModule * no on 0 0 CprClusterModule * Muon Reconstruction sequence MuonRecoSequence * no on 2000 2000 CMU_DtoEModule * no on 2000 2000 CMP_DtoEModule * no on 2000 2000 CMX_DtoEModule * no on 2000 2000 BMU_DtoEModule * no on 2000 2000 CSP_DtoEModule * no on 2000 2000 CSX_DtoEModule * no on 2000 2000 BSU_DtoEModule * no on 2000 2000 MuonStubModule * no on 2000 2000 CMX_EtoSModule * no on 2000 2000 BMU_StubModule * no on 2000 2000 MuonLinkerModule * no on 0 0 CentralStripClusterModule * no on 0 0 PesDtoEModule * no on 0 0 PlugStripClusterModule * no on 0 0 TofModule * no on 0 0 SiClusteringModule * no on 0 0 PVFinder * no on 0 0 CT_TrackingModule * no on 0 0 SiPatternRecModule * no on 0 0 IOTrackModule * no on 0 0 TrackObspMatch * no on 0 0 ZVertexModule * no on 0 0 vxprim * no on 0 0 PrimeVtxModule no on 0 0 JetCluModule * no on 0 0 CdfMetModule * no on 0 0 EmClusterModule * no on 0 0 CdfEmObjectModule * no on 0 0 CesMatchingModule * no on 0 0 Pi0ReconstructionModule * no on 0 0 TauFinderModule * yes on 0 0 PhoenixTracking * yes on 0 0 PhoenixElectrons * yes on 0 0 Prereq * no on 0 0 COTQ_Module * no on 0 0 CP2QModule * no on 0 0 CC2QModule * no on 0 0 PESQ_Module * no on 0 0 PadTrackMaker * no on 0 0 BscModule * no on 0 0 MPAQModule * no on 0 0 JetCluModule-cone0.4 * no on 0 0 JetCluModule-cone1.0 * no on 0 0 JetCluModule-cone0.7 * no on 0 0 CentralStripClusterModule-pi0reco * no on 0 0 TimingCollMaker-RAW * no on 0 0 SiPatternRecModule-StVert * no on 0 0 ZVertexModule-CotSt * no on 0 0 SiPatternRecModule-Phoenix * Null Filter? Mask nQuery nPassed * no on 2000 2000 PuffModule * Production Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * yes on 2000 2000 Level3SummaryWriterModule * no on 2000 2000 CotqModule * no on 2000 2000 SvxqModule no on 0 0 CalqModule no on 0 0 SmxqModule * no on 2000 2000 CP2QModule * no on 2000 2000 CC2QModule * no on 2000 2000 SiClusteringModule * no on 2000 2000 PVFinder * no on 2000 2000 CT_TrackingModule * no on 2000 2000 SiPatternRecModule * no on 2000 2000 ZVertexModule-CotSt * no on 2000 2000 SiPatternRecModule-StVert * no on 2000 2000 IOTrackModule * no on 2000 2000 PadTrackMaker * no on 2000 2000 ZVertexModule * no on 2000 2000 vxprim * no on 2000 2000 PrimeVtxModule * no on 2000 2000 CalorimetryModule * no on 2000 2000 TimingCollMaker-RAW * no on 2000 2000 TimingCollMaker * no on 2000 2000 PesDtoEModule * no on 2000 2000 BscModule * Muon Reconstruction sequence MuonRecoSequence * no on 2000 2000 CMU_DtoEModule * no on 2000 2000 CMP_DtoEModule * no on 2000 2000 CMX_DtoEModule * no on 2000 2000 BMU_DtoEModule * no on 2000 2000 CSP_DtoEModule * no on 2000 2000 CSX_DtoEModule * no on 2000 2000 BSU_DtoEModule * no on 2000 2000 MuonStubModule * no on 2000 2000 CMX_EtoSModule * no on 2000 2000 BMU_StubModule * no on 2000 2000 MuonLinkerModule * no on 2000 2000 CprClusterModule * no on 2000 2000 CentralStripClusterModule * no on 2000 2000 PlugStripClusterModule * no on 2000 2000 CentralStripClusterModule-pi0reco * no on 2000 2000 TofModule * no on 2000 2000 CdfMetModule * no on 2000 2000 JetCluModule-cone0.7 * no on 2000 2000 JetCluModule-cone0.4 * no on 2000 2000 JetCluModule-cone1.0 * no on 2000 2000 EmClusterModule * no on 2000 2000 CdfEmObjectModule * no on 2000 2000 CesMatchingModule * no on 2000 2000 Pi0ReconstructionModule * no on 2000 2000 TauFinderModule * yes on 2000 2000 PhoenixTracking * no on 2000 2000 SiPatternRecModule-Phoenix * yes on 2000 2000 PhoenixElectrons * no on 2000 2000 TrackObspMatch Unprocessed data are: Static Files: ------------- /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root Catalog files: -------------- No DataSets %ERLOG-w DHInputDataList->: Not all requested data were processed. Probably job was interrupted or data delivery failed. GlobalLibraryLogger DHInputDataList::endJob() 13-Aug-2007 01:05:59 CDT run = 222530 event = 2000 * CotqModule Summary: In 0 Out 0 * SvxqModule Summary: In 0 Out 0 SiClusteringModule end job Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 2.00000e-05 2.63815e-05 2.18500e-02 2.20671e-02 1.00000e-05 8.92550e-06 1 5.00000e-06 1.87430e-05 2.24500e-02 2.24965e-02 4.00000e-05 2.28475e-05 2 5.00000e-06 1.95080e-05 1.16450e-02 1.17239e-02 0.00000e+00 5.89600e-06 vxprim: calls:2000 efficiency:96.20000% mean number of discarded tracks:17.56450 Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 0.00000e+00 3.52050e-06 0.00000e+00 1.85770e-05 0.00000e+00 1.14650e-06 1 8.39100e-02 8.49457e-02 0.00000e+00 1.64950e-06 5.00000e-06 4.42650e-06 Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 5.00000e-06 1.92500e-06 1.50000e-05 2.32030e-05 0.00000e+00 1.44650e-06 1 0.00000e+00 2.33150e-06 1.00000e-05 7.44300e-06 0.00000e+00 1.50150e-06 Output run section ranges: (222530,1):(222530,2) Input run section ranges: (222530,1):(222530,2) *** * Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root * after 2001 records, with a total size of 440141kBytes written. * 2000 of those records were phyics events, * whose average size is: 223.00000kBytes/event *** Goodbye from CentralStripClusterModule GOODBYE from Module SiPatternRec Running PhoenixElectrons::~PhoenixElectrons() Goodbye from CentralStripClusterModule GOODBYE from Module SiPatternRec GOODBYE from Module SiPatternRec Termination Summary Process ProductionExe type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DBSQL_O .. DBEventLogger 52* 52 2 DEBUG .. DBEventLogger 301* 301 3 DBACC_G -! DBEventLogger 288* 288 4 DBACC_O -! DBEventLogger 52* 52 5 Bfield::setUniform -i GlobalLibraryLog 1* 1 6 DBCON_A -i DBEventLogger 2* 2 7 DBCON_J -i DBEventLogger 2* 2 8 DBCON_O -i DBEventLogger 132* 132 9 DEPRECATED -i CalibDB 26* 26 10 Pes2dCluster collect -i GlobalLibraryLog CalDrivenCdfEmOb 495* 495 11 ROOT-XTRPMatchboxDat -i GlobalLibraryLog TClass::Load 2000* 2000 12 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 13 TrackingSI -i GlobalLibraryLog AppFileBasedStre 2* 2 14 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 7* 7 15 generateBeginFileFra -i DHInput openNextFile 1* 1 16 generateBeginRunSect -i DHInput nextEvent 1* 1 17 no primary vertex fo -i vxprim 70* 70 18 not enough tracks -i vxprim 6* 6 19 DHInputDataList-> -w GlobalLibraryLog DHInputDataList: 1 1 20 JetCluModule -w JetCluModule-con 4 4 21 JetCluModule -w JetCluModule-con 4 4 22 JetCluModule -w JetCluModule-con 4 4 23 List of dead PES str -w GlobalLibraryLog PlugStripCluster 2000* 2000 24 PlugStripMaker::setM -w GlobalLibraryLog AppFileBasedStre 1 1 25 RCP put failure -w CalibrationManag 2 2 26 RCP put failure -w GeometryManager 2 2 27 grid seed error -w GlobalLibraryLog PEMChiSquare::Dp 26* 26 28 CprWireCollectionMak -e GlobalLibraryLog TClass::Load 12* 12 29 CprWireCollectionMak -e GlobalLibraryLog chi2wrtVertex 3328* 3328 30 CprWireCollectionMak -e GlobalLibraryLog vxfit0 660* 660 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DBSQL_O 222530/1 222530/1 222530/1 2 DEBUG 0/0 0/0 222530/1 3 DBACC_G 0/0 0/0 222530/1 4 DBACC_O 222530/1 222530/1 222530/1 5 Bfield::setUniform 0/0 6 DBCON_A 222530/1 222530/1 7 DBCON_J 0/0 222530/2000 8 DBCON_O 0/0 0/0 222530/1 9 DEPRECATED 222530/0 222530/0 222530/0 10 Pes2dCluster collect 222530/21 222530/32 222530/1996 11 ROOT-XTRPMatchboxDat 222530/0 222530/1 222530/1999 12 SiPassiveMaterial::c 0/0 0/0 0/0 13 TrackingSI 222530/0 222530/0 14 calor::Calib: 222530/0 222530/0 222530/0 15 generateBeginFileFra 0/0 16 generateBeginRunSect 222530/1 17 no primary vertex fo 222530/23 222530/36 222530/1993 18 not enough tracks 222530/304 222530/489 222530/1473 19 DHInputDataList-> 222530/2000 20 JetCluModule 222530/96 222530/518 222530/1473 21 JetCluModule 222530/96 222530/518 222530/1473 22 JetCluModule 222530/96 222530/518 222530/1473 23 List of dead PES str 222530/1 222530/2 222530/2000 24 PlugStripMaker::setM 222530/0 25 RCP put failure 0/0 0/0 26 RCP put failure 0/0 0/0 27 grid seed error 222530/117 222530/156 222530/1687 28 CprWireCollectionMak 222530/304 222530/304 222530/1473 29 CprWireCollectionMak 222530/1 222530/1 222530/2000 30 CprWireCollectionMak 222530/3 222530/3 222530/1997 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 353 353 Success 340 340 Info 2750 2750 Warning 2044 2044 Error 4000 4000 DFC_COMPATIBLE_NAME bc036542.0001qcdq processor : 0 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 0 siblings : 2 core id : 0 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4658.27 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 1 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 3 siblings : 2 core id : 6 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4655.03 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 2 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 0 siblings : 2 core id : 1 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4654.99 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 3 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 3 siblings : 2 core id : 7 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4655.04 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: fcdfcaf1326.fnal.gov [MCProd]: END OF THE JOB rc=0 [run1segment] [Mon Aug 13 01:06:00 CDT 2007] 0 MCProd success ---------------------------------	en
markdown	406730	# Presentation: 406730 ## Automating One-loop Amplitudes For the LHC - Darren Forde (SLAC) - In collaboration with C. Berger, Z. Bern, L. Dixon, F. Febres Cordero, T. Gleisberg, D. Maitre, H. Ita & D. Kosower. ## Overview ## What’s the problem? - The LHC - Maximise its discovery potential ## Switch On - A major event, even google commemorated it! - Celebrations, Swiss embassy annex in San Francisco. ## Started With A Bang - First beams successful circulated! Ran for 9 days. - Unfortunate incident caused by bad solder joint. - Delayed until Oct 2009. ## New Physics - Use the LHC to discover new physics. - many possibilities: Higgs? SUSY? Extra-dimensions? ... - “New” particles typically decay into Standard Model (SM) particles and/or missing energy. - Will we be able to distinguish this new physics from the SM? ## Avoid “Discovering” SUSY - No new physics. A precise understanding of the Standard Model accounted for this. - Need to be careful when claiming a discovery! ## Searching for SUSY - Outline of a SUSY Search (Early ATLAS TDR). - Predict background using PYTHIA. - Compute background at Leading Order (ALPGEN)  better prediction. ## Is Leading Order Good Enough? - Look at data/theory. - CDF data for W + n jet cross sections. Theory Monte-Carlo + Parton Showers (incl. LO) and NLO computation. [T. Aaltonen et al. [CDF Collaboration]] Notes: Useful for verifying theory backgrounds in high multiplicity events ## Normalisation & Shapes - Examine data/theory for the Et distribution of the first jet. [T. Aaltonen et al. [CDF Collaboration]] - LO does not get the shape correct here, NLO does. ## Shapes & Scale Dependence - Shapes of distributions become more accurate and scale dependence reduces at NLO. - Rapidity Distribution for an on-shell Z at the LHC. [Anastasiou,Dixon,Melnikov,Petriello] - Complete result independent of scale choice. ## Beyond NLO - Change of shape  K-factor differs for different rapidity's, [Anastasiou,Dixon,Melnikov,Petriello] - Also precise theory knowledge needed for luminosity determination, PDF measurements, extract couplings, etc. ## NLO Corrections - Example : W + n jets, an important process at the LHC, (backgrounds in searches etc.) - Loop amplitudes are the bottleneck. - “State of the art” using standard (Feynman) techniques is generally 5-point (limited 6-point results i.e. six quarks). ## A History of One-Loop (W + n jets) - What about W+4 jets, another 15 years? No, within reach. \| \| \| \| \| \| --- \| --- \| --- \| --- \| \| Amplitudes : \| Early 80’s [Ellis, Martinelli, Petronzio] \| 1996 [Bern, Dixon, Kosower], \| 2008 \| \| NLO Corrections : \| Mid 80’s [Arnold, Ellis, Reno], \| MCFM 2002 [Campbell, Ellis] \| 2009 \| ## Automation - We want to go from ## Towards Automated Tools - Want numerical methods, let the computer do the hard work! - Numerical approaches using Feynman diagrams for high multiplicity amplitudes (n>5) difficult. - Challenge to preserve numerical stability. - New generation of automatic programs from new methods. - “BlackHat”- n-gluons, first computation of leading colour W+3 jet amplitudes. [Berger, Bern, Dixon, Febres Cordero, DF, Ita, Kosower, Maître] - “Rocket”- n-gluons, complete W+3 jets, tt+3 gluons. [Ellis, Giele, Kunszt, Melnikov, Zanderighi], ## Why do we need new methods? - Schwinger and Feynman showed us how to compute loop amplitudes, so what’s the problem? - Use Passarino-Veltman to decompose a tensor one-loop integral into a sum of scalar integrals (one of many terms in an amplitude) ## Complicated results - A Factorial growth in the number of terms. - “Each term effectively carries the same complexity as the combination of all the diagrams.” ## On-shell Off-shell - Propagators go off shell, all four components are free. - In a loop the loop momentum is off-shell. - Want to work with on-shell quantities only i.e. amplitudes. ## Spinor helicity - Appropriate choice of variables gives simpler/more compact results. - Describe all momenta using spinors carrying +’ve or -’ve helicity. - Rewrite all vectors in terms of spinors e.g. polarisation vectors. - Products of spinors are related to Lorentz products. ## Simple results! - Calculated amplitudes much simpler than expected. - Look at different spin components of an amplitude (textbooks usually teach us to sum them all together). - Amazing simplifications! e.g. all gluon amplitudes. [Parke, Taylor] (proved using Berends-Giele recursion relations) - Need a better computational technique. ## New techniques & the Complex Plane - A key feature of new developments is the use of complex momenta. - We can then, for example, define a non-zero on-shell three-point function, - All other tree amplitudes can be built from just this. (For most field theories this is not obvious at all!) - Take better advantage of the analytic structure of amplitudes. ## Amplitudes and the Complex Plane - An amplitude is a function of its external momenta (and helicity). - Shift the momentum of two external legs so that they become complex. [Britto, Cachazo, Feng, Witten] - Keeps both legs on-shell. - Conserves momentum in the amplitude. - Introduces poles into the amplitude. ## A simple idea - Tree amplitude contains only simple poles - Amplitude given by the sum of the residues at these poles. An(0), the amplitude with real momentum. - This is what we want. - Cauchy’s Theorem ## A simple idea - Amplitude is a sum of residues of poles. - Location of these poles given by factorisations of the amplitude. ## On-shell recursion relations - Build larger amplitudes from smaller. - Reuse existing results  Compact efficient forms. - Build up from just the 3-pt vertex. - Everything is On-shell  Good. ## What about one-loop amplitudes? - A “simple” 5 gluon amplitude, [Bern, Dixon, Kosower] - More complicated analytic structure. ## Structure of a 1-loop Amplitude - Trees, completely rational, only simple poles. - Divide a One-loop amplitude into two parts. - Use knowledge from tree level to compute? ## One-loop integral basis - Cut pieces described by a basis of one-loop integrals - Decomposition of any - one-loop amplitude ## Unitarity cutting techniques - Unitarity cutting techniques - Basic idea, “glue” together tree amplitudes to form a loop. [Bern,Dixon,Dunbar,Kosower] - Relate product of cut amplitudes to known basis structure. - Compute coefficients of integral basis. - Only computes terms with Branch Cuts, - 4 dimensional cuts will miss rational terms. ## Box Coefficients - Quadruple cuts freeze the box integral  coefficient [Britto, Cachazo, Feng] ## Two-particle and triple cuts - What about bubble and triangle terms? - Triple cut  Scalar triangle coefficients? - Two-particle cut  Scalar bubble coefficients? - How do we extract these unique coefficients? ## Extracting coefficients - Two-particle Cut Unitarity technique. [Bern, Dixon, Dunbar, Kosower] - OPP method - Solve for all the coefficients of the general structure of a one-loop integrand. [Ossola, Papadopoulos, Pittau] - Use the large parameter behaviour of the integrand. [DF] - Approach is very general. - Applied even to computing gravity and super gravity amplitudes. [Bern, Carrasco, DF, Ita, Johansson], [Arkani-Hamed, Cachazo, Kaplan] ## Triangle Coefficietns - Apply a triple cut to an amplitude. ## Large Parameter Behaviour - Which piece of the integrand corresponds to the scalar triangle coefficient? - Choose parameterization of lμ(t) so that all integrals over t vanish. - Coefficient given by piece independent of t. - Analytically : Limit in large t isolates this term. - Numerically : Discrete Fourier Projection around t=0. - Similar approach for bubbles. ## Rational Terms - What about the remaining rational pieces. - Two approaches - implemented in BlackHat - Unitarity cuts not in 4 dimensions - Compute rational terms from cuts. - [Bern, Morgan], [Anastasiou, Britto, Feng, Kunszt, Mastrolia], - [Ellis, Giele, Kunszt, Melnikov, Zanderighi], [Badger], [Ossola, Papadopoulos, Pittau] ## Loops, Branch cuts & Rational Terms - One-loop amplitude on the complex plane  more complicated structure. - Shift external momenta by z. ## Loop On-shell recursion relations - Very similar to tree level recursion. - At one-loop recursion using on-shell tree amplitudes, T, and rational pieces of one-loop amplitudes, L. ## BlackHat BlackHat - Numerical implementation of the unitarity bootstrap approach in c++. - Much fewer terms to compute - & no large cancelations compared - with Feynman diagrams. ## Numerical Stability - How can we know that we can trust our results? - Rare exceptional momentum configurations, lead to numerical instabilities. - Caused by spurious singularities (Gramm determinants) in pieces that cancel in the sum of terms. - Rare but will occur when evaluating 100,000’s of points. - BlackHat Strategy : - Use double precision for majority of points  good precision. - For a small number of exceptional points use higher precision (up to ~32 or ~64 digits.) ## Testing Numerical Stability - Need to know when you have a “bad” point. - Detect exceptional points using three tests, - Bubble coefficients in the cut must satisfy, - For each spurious pole, zs, the sum of all bubbles must be zero, - Large cancellation between cut and rational terms. ## 6 Gluon amplitude - Precision tests using 100,000 phase space points with some simple “standard” cuts. ET>0.01√s, Pseudo-rapidity η>3, ΔR>4, ## W+3 jet amplitudes - First computation of Leading colour contribution for W+3jets. - The dominant terms in NLO corrections. - Precision - Log10 number of points ## Next Steps - BlackHat computes amplitudes, use these to compute observables and cross sections. - Interface with automated programs for the tree level pieces of an NLO computation. - Example : Use SHERPA - BlackHat produces one-loop amplitudes. (virtual part) - SHERPA computes tree amplitudes for the NLO term (real part). - SHERPA does the phase space integration of real and virtual. Including automatic subtraction of IR poles. (Catani-Seymour dipole subtraction) ## W+3 jets at NLO - Compute all Leading Colour (large Nc) sub-processes. - From W+1 and 2 jets expect remaining sub-leading terms to contribute a few %. - Single sub-process. [Ellis, Melnikov, Zanderighi] ## W+3 jets at NLO : Et of third jet - Cuts : ETe > 20 GeV, \|ηe\| < 1.1, E T  > 30 GeV, MWT > 20 GeV, and Etjet > 20 GeV. ## Transverse Energy distribution, Ht - Total transverse energy ## Di-jet Mass Distribution - Di-jet mass of - leading two jets. ## Further Steps... - Produce more NLO results. (Full Colour W+3 jets, W+4 jets,...) - Interface with other phase space integration codes, e.g. MadGraph. - Incorporate BlackHat Amplitudes into NLO Parton shower programs. - Also expand the processes we can deal with, i.e. include more masses. - Straightforward to do, the procedure is completely general. ## Conclusion	en
markdown	613747	# Presentation: 613747 ## Nerve agents - Ziad Kazzi, MD - Medical Toxicology Fellow - Centers for Disease Control and Prevention ## Introduction - “Nerve agents” are aptly named, since they affect the nervous system. - Structural name for these agents is organic phosphorous compounds (OPCs) - Term “nerve agents” commonly used to refer to a specific military class of OPCs - soman, sarin, tabun, VX ## Introduction (continued) - In fact, the OPCs also include several hundred “nonmilitary” OPCs. - Malathion - Parathion - Others - Used commonly as insecticides, where military OPCs are used to kill humans - Both can kill humans, just differently. ## Introduction (continued) - Carbamates have similar mechanism of action. They are separate from organophosphates. - Reversible enzyme binding - Nerve agents are used in the treatment of myasthenia gravis and anticholinergic drug poisoning. ## Background - Developed in pre-World War II Germany by Gerhardt Schrader, who discovered tabun in 1934. - Germany later developed sarin and soman. These are the G agents. - Never used by the Germans. The British (R. Gosh) synthesized VX (the acronym allegedly stands for venomous) after WWII. ## Background (continued) - Iraq reportedly used tabun and maybe sarin in the Iran-Iraq war (1984–1988). - Iranian soldiers had atropine auto-injectors. - Many had atropine overdoses from misuse of their auto-injectors. ## Background (continued) - Sarin gas was released in the Tokyo subway system by the Aum Shinrikyo Cult, creating more than 5,000 victims and causing 12 deaths. - The same cult had released sarin in an apartment complex in Matsumoto in 1994, killing seven and injuring more than 600 people. - In Tokyo, sarin was concealed in lunch boxes and bags. The terrorists punctured the bags with umbrellas and ran out of the subway tunnel. ## Background (continued) - The United States has over 30,000 tons of VX and sarin. - The government is planning the destruction of this stock and has already destroyed small batches. - Dupont Chemical is negotiating for the contract to destroy 1,200 tons of VX stored in the Newport chemical depot. - There is an ongoing discussion about the best way to dispose of the end products. ## Military Designations - Tabun= GA - Sarin= GB - Soman= GD - Cyclosarin= GF - VX ## Physical Properties - Liquids with varying volatility and persistence - VX is the least volatile but the most persistent; “oily.” Soman is odorless. - Tabun, sarin, and soman have significant volatility. Sarin is the most volatile. - Absorbed via skin, mucus membranes, lungs, and gastrointestinal system. ## Toxicity - Dermal toxicity: One drop of VX,1–10 ml of the G agents may be fatal. - Onset of symptoms may be delayed several hours from exposure to the liquid form, especially VX (up to 18 hours). - Rapid development of symptoms after exposure is more likely. ## Lethality of VX - An amount of VX equal in size to one column of the building depicted on the back of this penny would be lethal. ## Mechanism of Action - Nerve agents bind and inhibit acetylcholine esterases. - Acetylcholine esterase breaks down acetylcholine (ACh). - ACh mediates neurotransmission at - nicotinic muscular junctions, - autonomic nicotinic synaptic junctions (sympathetic and parasympathetic), and - muscarinic end-organ synapses (GI tract, glands, bladder, pupils). ## Autonomic Nervous System Somatic Central - N Autonomic Nervous System Somatic Central - Parasympathetic Sympathetic - N - N - N - ACh - ACh - ACh - ACh - ACh - M - M - ACh - ACh - A - A - Epinephrine - Norepinephrine - N - ACh Sweat Glands Glands Bladder Gut Heart Heart Blood Pressure - Neuromuscular Junction - Brain - AutonomicGanglia - End Organ - M ## Mechanism of Action (continued) - Enzyme inhibition is reversible within a certain period of time that is agent dependent. - This time period in which structural changes to the enzyme occur is called “aging.” - Soman ages within minutes, whereas sarin takes hours. - After aging occurs, the enzyme is inactivated. Enzyme regeneration usually takes several weeks. - Excess ACh at all these synapses accounts for the clinical presentation. ## Clinical Presentation - Muscarinic: - SLUDGE— BBBs— Salivation Bradycardia Lacrimation Bronchorrhea Urination Bronchospasm Diaphoresis GI distress (diarrhea, vomiting) Emesis *Miosis* ## Clinical Presentation (continued) Nicotinic: MTWThF Mydriasis Tachycardia Weakness Hyperthermia Fasciculation ## Clinical Presentation (continued) - Military class OPCs (sarin, soman, etc.) - Preferential affinity for nicotinic receptors - Muscle paralysis - Effective battlefield weapon - Insecticide class OPCs (malathion) - Preferential affinity for muscarinic receptors - SLUDGE - BBBs ## Clinical Presentation (continued) - Dim vision and eye pain from ciliary spasm or direct cortical effect? - Cardiovascular effects are less predictable and range from bradycardia with AV blocks to tachycardia. ## Clinical Presentation (continued) - Compared with adults, children exposed to nerve agents are thought to be less likely to have miosis and more likely to have increased secretions. - Children are also thought to have more seizures, hypotonia, and weakness than adults. - No studies have been done on nerve agents and children, even though historical incidents have affected children. - Assumptions about children and nerve agents are based on knowledge of organophosphates and of characteristics of children such as lower weight, less active metabolism (paroxanase activity), and greater ventilatory rate. ## Differential Diagnosis for Nerve Agent Poisoning - Gastroenteritis - Ingestion of muscarinic mushrooms (Amanita muscaria, Clytocybe, Inocybe) - Pesticide poisoning - Carbamate overdose - Metal ingestion ## Diagnostic Workup - No lab workup is useful for acute nerve agent poisoning. - RBC and plasma cholinesterase (butylcholinesterase) levels may be checked. These results are usually not immediately available. ## Prehospital Care and Decontamination - First responders: Respirators, goggles, protective clothing - Self-contained breathing apparatus (SCBA) is recommended in response to any nerve agent vapor or liquid. - Butyl rubber gloves (most agents are lipophilic) - 20% of healthcare workers in Tokyo had mild symptoms after taking care of patients. These symptoms included nausea, eye pain, and headache. ## Prehospital Care and Decontamination (continued) - Inhalation exposure: removal from exposure - Dermal: wash with soap and water or mild (0.5%) sodium hypochlorite (bleach) solution if availability of water is limited - Ingestion: no charcoal as these patients are at risk for vomiting and aspiration ## Antidotes: Atropine - Muscarinic receptor antagonist. - Only treats muscarinic symptoms. - Given IV, IM, or by ET tube. - Dose is 2 mg every 5–10 minutes. End point is resolution of bronchorrhea. - For children, give 0.5–1.0 mg IM/IV every 5–20 minutes. For children < 6 months old, the dose is 0.05 mg/kg, with the minimum dose being 0.1 mg. Same end point. - If given early, atropine may prevent seizures. - Glycopyrrolate may also be used but does not penetrate the CNS. ## Antidotes: Oximes - Reverses the binding of the nerve agent to the enzyme, especially if given prior to aging. Also acts as a scavenger and inactivates circulating nerve agents. - Pralidoxime: Slow IV bolus. Dose is 25–50 mg/kg in children or 2 g in adults, targeting a serum level of > 4 mg/L. If given IM using the auto-injector, level is achieved in 8 minutes. - May repeat dose in 1 h. Effect is lost after 3 h of exposure to sarin because of aging. ## Antidotes: Oximes (continued) - Side effect: elevated BP and EKG abnormalities - Other oximes (such as obidoxime and P2S) are used in other countries and have variable efficacy. - There is ongoing research to develop better agents. ## Antidotes: Benzodiazepines - Used to treat the seizures - Diazepam IM/IV appears to be better than other benzodiazepines. - Dose is 5 mg IV/IM. May be repeated every 5–15 minutes. ## Antidotes: Pyridostygmine - Subjects pretreated with pyridostigmine will be less vulnerable to nerve agents. - The U.S Army used pyridostigmine during the Gulf War. - Pyridostigmine is a carbamate that binds reversibly to AChE. It does not cross the CNS. - Pretreated individuals will have a store of AChE that is bound to pyridostigmine and is protected from the nerve agent. ## Antidotes: Pyridostygmine (continued) - Bound pyridostigmine-AChE spontaneously breaks after several hours, releasing normal AChE. Administration of 2-PAM stimulates release of AChE that was protected from the nerve agent by pyridostigmine. ## Antidotes: Pyridostigmine ## Antidotes: MARK I Kit - Contains pralidoxime (600 mg) and atropine (2 mg) self injectors ## Psychological Impact - Psychological impact has been seen after exposure to nerve agents as well as other terrorist attacks. - Post traumatic stress disorder seen in 60% of victims of the Tokyo sarin gas attack at 6 months. - Fear of riding the subway, nightmares, and depression were some of the common symptoms (Kawana N, Ishimatsu S, Kanda K. Psycho-physiological effects of the terrorist sarin attack on the Tokyo subway system. Military Medicine 166(12 Suppl):23–6, 2001 Dec.). ## Experimental Therapies for Nerve Agent Exposure - Exogenous choline esterases to bind the nerve agents - Paroxinases that degrade the nerve agents - Hl-6 thought to work better than pralidoxime for exposure to soman, which ages quickly. HI-6 has been shown to work when it is administered to rats up to 2 hours before exposure (Kassa J, Fusek J. The influence of oxime selection on the efficacy of antidotal treatment of soman-poisoned rats. Acta Medica 45(1):19–27, 2002). ## Helpful Resources - _[http://www.bt.cdc.gov/agent](http://www.bt.cdc.gov/agent)_ - Your regional poison center - Medical Management of Chemical Casualties Handbook (_[http://www.fas.org/nuke/guide/usa/doctrine/army/mmcch/NervAgnt.htm](http://www.fas.org/nuke/guide/usa/doctrine/army/mmcch/NervAgnt.htm)_) ## Acknowledgments - Edwin M. Kilbourne, MD - Joshua Schier, MD	en
all-txt-docs	401300	Douglas Isbell Headquarters, Washington, DC October 5, 1995 (Phone: 202/358-1547) Fred Brown Goddard Space Flight Center, Greenbelt, MD (Phone: 301/286-7277) RELEASE: 95-194 (170) IUE OPERATIONS TRANSFERRED TO EUROPE, ENDING AN ERA After nearly two decades of continuous operations support, NASA has transferred primary control of the International Ultraviolet Explorer (IUE) to a partnership of the European Space Agency (ESA) and the Particle Physics and Astronomy Research Council (PPARC) of the United Kingdom. As part of the U.S. space agency's continuing cost reduction efforts, day-to-day operational control of IUE was fully transferred to ESA on October 1. IUE-related science programs will be combined, and NASA will concentrate on the completion of the IUE data archive. NASA's Goddard Space Flight Center, Greenbelt, MD, has operated the IUE in collaboration with ESA and the PPARC since the spacecraft's launch on Jan. 26, 1978. This arrangement allowed astronomers and astrophysicists in both the U.S. and Europe to make around-the-clock observations using IUE, in much the same way as telescopes at ground- based observatories are operated. The new mission design enables scientists world wide to continue to use the IUE for ongoing science programs. The IUE is a great NASA success story and has had a tremendous impact on the astronomical community, said Dr. Andrea Dupree, the President-Elect of the American Astronomical Society. "The IUE marked the first true space observatory to be used by professional astronomers and students all over the world. The various IUE programs demonstrate superb cooperation among scientists from many different nations to address challenging problems, and the spacecraft was operated with care and ingenuity by NASA. " A past winner of the U.S. Presidential Award for Design Excellence, IUE uses spectrographic instruments to study astronomical and cosmic phenomena visible in ultraviolet light. The observatory has observed nearly 100,000 astronomical sources, including planets, comets, stars and galaxies. The spacecraft was designed for a three-year lifetime. According to Dr. Andrew Michalitsianos, the IUE deputy project manager at Goddard, IUE results have been used as the basis for more than 100 Ph.D. and master's degree theses in the U.S. alone. "IUE has been and continues to be used as a central facility in most multiwavelength observations," said Michalitsianos. "Multiwavelength observation is an important modern approach in astrophysical research. In fact, the forthcoming X-Ray Timing Explorer mission is counting on the continued availability of IUE -- not to mention some observers using the Hubble Space Telescope," he said. Some of IUE's discoveries and research results are: Comparative studies of aurorae on Jupiter, Saturn, and Uranus Discovery of molecular sulfur emission from the nucleus of a comet Identification of many stars with magnetic fields and surface activity Identification of previously unknown stellar companions to cool stars Measurements of stellar "winds" Mapping of low-density gas bubbles around the Sun and nearby stars Supernova observations in the Large Magellanic Cloud (a nearby galaxy) Measurements of the composition of planetary nebulae Discovery of hot (180,000 degrees Fahrenheit) gas surrounding the Milky Way Estimates of active galaxy sizes Even after almost 18 years of operation, the demand for IUE observation time exceeds the time available. "More than 2,000 astronomers have used the NASA observatory at Goddard and the ESA observatory in Spain as guest observers," Michalitsianos said. "The results of these observations have been described in more than 3,000 scientific papers that appeared in major peer-reviewed astronomical journals by the end of 1994. This makes IUE the most productive and successful telescope of all time." More information on IUE is available on the Internet at URL: http://iuewww.gsfc.nasa.gov/iuedac/iuedac_homepage.html -end- NASA press releases and other information are available automatically by sending an Internet electronic mail message to domo@hq.nasa.gov. In the body of the message (not the subject line) users should type the words "subscribe press- release" (no quotes). The system will reply with a confirmation via E-mail of each subscription. A second automatic message will include additional information on the service. Questions should be directed to (202) 358-4043.	en
markdown	502570	# Presentation: 502570 ## Preventing Chronic Homelessness What Works? - Deborah Dennis - Policy Research Associates, Inc. - Delmar, NY - Policy Academy on Chronic Homelessness - Olympia, WA - April 29, 2004 ## Why Address Prevention? - Until we address the role of mainstream systems in creating and resolving chronic homelessness, we will never be able to end chronic homelessness. ## Why Focus on Mainstream Programs? - People who experience chronic homelessness are heavy users of expensive mainstream services. - Levels of disability and poverty make them likely to be eligible for mainstream programs. - Approaches that work for this subgroup may make mainstream services more accessible for others. ## How Can Chronic Homelessness Be Prevented? - Identify risk and protective factors to help prevent chronic homelessness among persons at risk. - Use evidence-based practices to prevent chronic homelessness. ## Some Individual Risk Factors... - Chronic health conditions, mental illness and/or substance use disorders - Limited or no social support networks - Domestic violence and other victimization or trauma-related factors - Family instability as a child (out-of-home placement, family homelessness, incarceration of a parent) - Combat experiences for veterans. ## Some System-Based Risk Factors... - Lack of permanent affordable housing - Very low or no income - Discharge from jail, prison, hospitals, detox and residential substance abuse treatment, and foster care. ## Discharge from Institutions - Data from Massachusetts Housing and Shelter Alliance showed that people coming into shelters were well-known to the state’s mainstream systems: - 18-24 year olds aging out of state services - Ex-offenders released from state or county facilities with no place to go - People from detox at the beginning of their recovery - People with mental or serious physical illnesses released directly from a hospital. ## Discharges from Jails and Prisons - Arrangements for housing are seldom considered - Benefits have often been lost - Inmates with mental illness (16% of all inmates nationally) incarcerated for more than a year must reapply for SSI benefits upon release - Often lose Medicaid upon incarceration even though federal regulations allow for suspension rather than termination of this benefit. ## Transition from Foster Care - People who are chronically homeless are 7-13 times more likely to have had an out of home placement than the general population (Burt et al., 2001). - 30 percent of youth leaving foster care experience homelessness within 2 years of discharge (Schwab Foundation, 2003). ## Evidence-Based Prevention Practices - Few evidence-based interventions - Several promising practices - Housing subsidies - Eviction prevention - Discharge/transition planning. ## Housing Subsidies - Studies find housing subsidies one of the most effective interventions to prevent housing loss. - Receipt of subsidized housing is the primary predictor of housing stability among homeless families. (Shinn and Weitzman) - SAMHSA’s multi-site homelessness prevention study found access to housing subsidies or supported housing was the strongest predictor of residential stability for people with mental illnesses or co-occurring disorders. ## A State Example... Missouri Department of Mental Health provides funding for temporary vouchers for people with serious mental illness who are on the Section 8 waiting list. Minnesota Department of Human Services has had a similar program since 1992 that is now providing $1.7M in temporary rental vouchers per year. ## Eviction Prevention - Promising practices include: - Representative payees and other money management interventions - Emergency rent and utility payments - Landlord/tenant mediation services - Respite for family caregivers. ## Local and State Examples... Pathways to Housing in NYC, a housing first model, uses money management―one of two key tools (the other being ACT teams)―to keep people who were chronically homeless in housing of their choice. - In Minnesota, the legislature created a $424K annual fund to pay rent, mortgage and/or utilities for up to 90 days while an individual with serious mental illness is in inpatient psychiatric or substance abuse treatment. - The Alaska Department of Mental Health and Developmental Disabilities provides flexible service funds of up to $2,000 per person for any expense needed to keep a client in community-based housing. ## What Mainstream Systems Can Do - Adopt protocols to assess housing needs and resources of clients - Adopt practices to help individuals and families in crisis retain their housing through financial assistance, mediation or case management. ## Discharge or Transition Planning... - Must be linked to affordable housing and aftercare - Is a strategy to prevent chronic homelessness - Is critical for people with health and behavioral health disorders. ## Systems Change Examples... Massachusetts uses homelessness and housing outcomes to evaluate contractors in their mental health, corrections, youth services, and substance abuse treatment systems. These outcomes are then tied to contract penalties and incentives in each system. Philadelphia is applying this same principle with shelter providers. Shelters are given incentives to place people in housing and provide services to keep them there―shelter beds have decreased by 5% annually as a result. ## Program-level Examples... Critical Time Intervention and Short-term ACT Services―are intensive clinical services for 6-12 months during and following transition from shelters, hospitals or jails. Proven effective in maintaining residential stability and linkage to mainstream treatment and support services after intervention is scaled back or withdrawn. Respite Care―Boston Health Care for the Homeless operates 90 recuperative care beds that bridge the period following hospital discharge for people who are homeless. Similar effort in Savannah, GA, is estimated to have saved two local hospitals $1.8 million, more than doubling their individual $250K investments. Transition Planning in Correctionsemphasize access to housing and clinical case management upon release. Youth in Transition―federal Independent Living Program funds can be used to provide housing and services for youth transitioning from foster care until they reach the age of 21. ## Conclusions... - Preventing chronic homelessness is not the same as ending poverty or promoting economic self-sufficiency. ## Conclusions... - Providing housing subsidies that target the worst-case housing needs is an effective strategy. - Eviction prevention programs and discharge planning efforts are promising practices. - Services to support people who have been chronically homeless in housing―particularly during periods of transition are critical.	en
markdown	709348	# Presentation: 709348 ## VIRTUAL ACCELERATOR MANAGER ## Motivation - At this time we have “Trace3D”,”Parmila”, and “Transport” as existing and possible engines for virtual accelerator. - Common: - FORTRAN - Input ASCII file with input parameters - Tracking particles or beam center through the lattice elements at a stage of dynamics calculation - Having huge main program - We can write one C/C++ and FORTRAN interface to these programs that will deal with the CAS. We can call this interface as “Virtual Accelerator Manager”. It enable users to work only with FORTRAN code of engines during developing the virtual accelerator. ## The Structure of the Model - LAN - Portable CAS - with real and model dependent PVs - CA client - with an interface to - the FORTRAN code - CA Client - MATLAB or JAVA - scripts with CA - commands - Trace3D, Parmila, or Transport ## The Manager Structure - The Class baseFileTranslator - Reads input file, change it and write as a temporary input file - caDefinition.cc - CA functions and structures - CInterface2model.cc - C interface to the FORTRAN subroutines and functions - The Class modelManager.cc - Puts and gets PVs from CAS - Starts and restarts the model - Modified FORTRAN Code of the Model ## File Translator - line 1 ========= 0.111 === - line 2 ========= MEBT_Mag:DCH_1:FieldSet === - line 3 ========= 0.333 === - line 4 ========= 0.444 === - Input - File: - line 1 ========= 0.111 === - line 2 ========= 0.00407 === - line 3 ========= 0.333 === - line 4 ========= 0.444 === - Output - File: - MEBT_Mag:DCH_1:FieldSet MEBT_Mag:DCH_1:FieldRB 0.00407 - MEBT_Mag:DCH_4:FieldSet MEBT_Mag:DCH_4:FieldRB 3700.0 - MEBT_Mag:DCH_5:FieldSet NULL 0.099403 - MEBT_Mag:DCH_10:FieldSet MEBT_Mag:DCH_10:FieldRB 0.05 - MEBT_Mag:DCH_11:FieldSet NULL 0.040178 - According to the file: ## The C Interface to the FORTRAN Subroutines - //Calls main subroutine in the Model initial code - extern "C" void submain_(const char* file_name, int length_of_name); - //Disables output for the Model code - extern "C" void dsblout_(); - //Permits output for the Model code - extern "C" void prmtout_(); - //Initializes interface variables - extern "C" void intrini_(); - //Restores information for interface variables to repeat run - extern "C" void intrres_(); - //Defines how to calculate PV values inside the model - extern "C" void pvinit_(int* i_cell,int* i_type); - //Returns the calculated values of PVs - extern "C" void pvget_(int* i_n, int* i_cell, int* i_type, double* value); ## FORTRAN Interface Subroutines - C+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ - C-----These subroutines are called from C to manage the Model - C+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ - subroutine submain(p_in_file) - c---------------------------------------------------- - c-----p_in_file - name of input file for Model - c---------------------------------------------------- - implicit real8 (a-h,o-z) - character p_in_file64 - call mainParmila(p_in_file) - return - end - subroutine pvget(i_n,i_cell,i_type,value) - c---------------------------------------------------------------------- - c-----returns the output PV calculated values - c-----i_status = 0 means the value was not calculated - c---------------------------------------------------------------------- - implicit real8 (a-h,o-z) - parameter (max_n_pv=100) - common - /com_int_2/ n_pv,i_cellA(max_n_pv), - * i_typeA(max_n_pv), - * i_status(max_n_pv) - /com_int_3/ pv_val(max_n_pv) - value = pv_val(i_n) - return - end ## FORTRAN Interface Subroutines (next) - subroutine pv_setup(i_cell) - implicit real8 (a-h,o-z) - c---------------------------------------------------------------------- - c-----calculates the output PV values - c-----i_status = 0 means the value was not calculated - c---------------------------------------------------------------------- - parameter (max_n_pv=100) - common - /com_int_2/ n_pv,i_cellA(max_n_pv), - i_typeA(max_n_pv), - * i_status(max_n_pv) - /com_int_3/ pv_val(max_n_pv) - do i = 1,n_pv - if(i_cellA(i) .eq. i_cell) then - i_type = i_typeA(i) - i_status(i) = 0 - select case (i_type) - case (1) - C---------this place for pv_val(i) calculation as x BPM position - pv_val(i) = x_bpm_f() - i_status(i) = 1 - case (2) - C---------this place for pv_val(i) calculation as y BPM position - pv_val(i) = y_bpm_f() - i_status(i) = 1 - endselect - endif - enddo - return - end ## Main Program of Virtual Accelerator * **int counter = 0; int i_start = 0; double time_delay = 0.5; *modelManager manager = new modelManager::modelManager(); **manager->initialization( file_in_parmila, file_in_param, file_calc_PV); manager->defineNameOfTmpFile("parmila_input.tmp"); manager->defineNameOfStartPV("MODEL:Parmila:SimStart"); manager->sendInitialPVtoCAS(time_delay); manager->disableModelOutGraph(); manager->startModel(); //Main loop for calculation while(1){ i_start = manager->getStartPV(time_delay); if(i_start == 1){ manager->getPVfromCAS(time_delay); manager->startModel(); manager->sendPVtoCAS(time_delay); i_start = 0; manager->setStartPV(i_start,time_delay); counter++; cout << "The Parmila's run N = "<< counter <<endl; } } ## How to Find the Source Code - On Linux1 - /work2/ca_client_Parmila/ - Here you can find source files, Make file, and examples	en
markdown	788753	# Presentation: 788753 ## TIME IS LIFE - Update of diagnosis and - treatment of - Acute Coronary Syndromes (ACS) - Stephanie Allen, MSN, MS, RN Nurse Educator - Doreen A. Mays, NP, MS, Program Manager, Urgent Care - Kathleen Smith, RN Case Manager, Cardiology - Kathleen Woods, RN, MSN, NP Clinical Cardiology DEPARTMENT OF VETERANS AFFAIRS Hudson Valley Health Care System Montrose and Castle Point Medical Centers ## Objectives - Apply knowledge to effectively identify and treat veterans with signs and symptoms of Acute Coronary Syndrome - Increase knowledge of the VA’s _Time is Life_ Heart Attack Program in order to reinforce the education of patients in: - Recognizing signs and symptoms of a heart attack - Calling 911 - Preparing an action plan in the case of a heart attack ## Objectives - Recognize the importance of timely interventions for the diagnosis and treatment of ACS. ## Acute Coronary Syndrome * _Definition_ - ACS includes myocardial infarction (MI) and the various patterns of unstable angina: new-onset angina, rest angina, or crescendo-pattern angina (more frequent, prolonged, or severe episodes in a patient with known angina). * * These entities should be identified quickly so that immediate treatment to prevent MI or salvage the myocardium can be initiated. ## Did You Know? - 931,108 people died in 2001 from acute coronary syndrome (AHA, 2004) - Mortality related to Acute Coronary Syndromes is divided almost equally between males and females - More than half of these deaths occurred suddenly, within one hour of the onset of symptoms and outside of the hospital setting ## Study Reported in The New England Journal of Medicine - The VA contracted with researchers from the Harvard Medical School, Price Waterhouse Coopers, IBM, and the Lewin Group to evaluate outcomes of patients treated for heart attacks. The study used administrative data to compare mortality data for VA and Medicare patients who had suffered heart attacks. ## New England Journal StudyResults - From 1997-1999, there was a statistically significant higher mortality rate among VA patients at 30 days after their heart attack and at 1, 2, and 3 year points. ## New England Journal StudyResults - Veterans were less likely than Medicare patients to undergo invasive cardiac procedures such as angiography, angioplasty and surgery. - On average, veterans traveled twice as far for VA cardiac care compared to Medicare patients. ## We can MAKE A DIFFERENCE !!! _Goals for patients with _ _Chest Pain_ - 1. Immediate assessment of patients - with chest pain. - 2. Timely initiation of treatment. - 3. Rapid determination of need for transfer to another facility. ## CBOC PATIENTS - Call 911 - Obtain 12 lead EKG - EMT’s will administer medications and treatments per their protocol - Determine cardiac rhythm on monitor. - Labs – CBC, SMA7, CK-MB, PT, PTT, U/A - Troponin with results within 1 hour of draw - Aspirin 325 mg chewable, if no ASA taken in - past 3 hours. - Nitroglycerine 0.4 mg sl if BP>100 systolic. - Repeat x 2 five minutes apart if needed. - Insert saline lock. - Monitor vital signs q 15 minutes. - Morphine IV as per provider if chest pain not relieved by nitroglycerine. - Beta blockers as per provider if deemed beneficial. - Orders for Immediate Treatment ## If EKG shows – ST elevation or new LBBB - Provider to call ER to obtain accepting physician: - Vassar- 454-8500 for Castle Point pts - HVH- 737-9000 for Montrose pts - Initiate immediate ACLS transport. - Start lovenox 1mg/kg sq if no contraindications. ## If EKG shows - No ST elevation: - Determine TIMI Score - Page cardiology at Castle Point for consultation or call Manhattan VA during WHEN hours. - Determine disposition based on provider assessment, and TIMI score recommendations. ** * ## What is a TIMI Score? - TIMI is the Thrombolysis in Myocardial Infarction risk score. This score is a simple prognostic tool used to categorize a patient’s risk of death and ischemic events, and provides a basis for therapeutic decision-making. _Score _ _Risk Factor_ - 0-1 4.7% - 2 8.3% - 3 13.2% - 4 19.9% - 5 26.2% - 6-7 40.9% ## TIMI Score - ___ Age over 65 - ___ 3 or more risk factors for coronary disease* - ___ Established CAD - ___ 2 or more angina events in past 24 hours - ___ Use of ASA in past 7 days - ___ Elevated enzymes - ___ ST depression _>_ 0.5mm - Number of checks = TIMI Score ______ - Risk Factors = hypertension, cigarette smoking, obesity, physical inactivity, dislipidemia, DM, micro-albuminuria, - GFR <60/min, family h/o premature CVD ## “Time is Life” Heart Attack Education Program - This program was developed to assist clinicians in encouraging veterans to develop a personal acute myocardial infarction survival plan, and to seek medical attention as quickly as possible after symptoms first appear. ## Key Objectives of the Patient Education Program - Recognize the signs and/or symptoms of a heart attack - Call 911 for initiation of early treatment and emergency transport to the nearest hospital facility - Develop a personal survival plan ## Recognize the Signs and/or Symptoms of a Heart Attack - Reinforce the common warning signs (chest pain/pressure/squeezing, neck/shoulder/ back/arm pain, chest discomfort with lightheadedness/fainting/ sweating/ nausea/vomiting/shortness of breath, or chest discomfort with feeling of doom or imminent death) - Instruct that women may also experience fatigue, shortness of breath without chest pain, or lower chest pain ## Call 911 for theInitiation of Early Treatment - If the patient is having signs/symptoms of a heart attack, instruct him/her: - Don’t delay - Call 911 immediately - Tell the ambulance driver s/he is having chest pain - Take 1 regular aspirin unless allergic - Don’t drive to the hospital ## Develop a Personal Survival Plan - Emphasize the need for the patient to know the importance of: - Learning the heart attack warning signs - Reducing the risks of heart attack - Completing a Survival Plan Wallet Card - Sharing the plan with family and friends ## Modalities of Patient Education - Patients will have access to and be exposed to the “Time is Life” Education Program through: - Clinicians - “Combat Heart Attack and Survive: Time is Life” video - “Time is Life” brochure, poster, and wallet card - Risk Assessment Action Plan ## WE CAN MAKE A DIFFERENCE !!! - Remember, for patients with chest pain: - Start oxygen, get a 12-lead EKG and have it read within 10 minutes! - If ST changes are present, initiate immediate transfer to nearest private hospital. - If no ST changes are present, include the TIMI score in determining disposition of the patient. - Educate your patients on action to take if chest pain occurs.	en
converted_docs	722228	CHAPTER 400 - INVESTIGATIONS (400)- 420 [Foreign Language Award Program]{.underline} 1. [Overview.]{.underline} This Section establishes TIGTA policy and procedures for granting cash awards to law enforcement officers who possess and make substantial use of one or more foreign languages in the performance of their official duties. This Section contains information regarding: - [Authorities](#Authorities) - [Definitions](#Definitions) - [Qualifying Foreign Languages](#QualifyingForeignLanguages) - [Foreign Language Capability](#ForeignLanguageCapability) - [Foreign Language Proficiency Testing](#ForeignLanguageProficiencyTesting) - [Eligibility Requirements](#EligibilityRequiriements) - [Cash Award Amounts](#CashAwardAmounts) - [Employee Responsibilities](#EmployeeResponsibilities) - [Manager Responsibilities](#ManagerResponsibilities) - [Approving Official Responsibilities](#ApprovingOfficialResponsibilities) - [Reconsideration Procedures](#ReconsiderationProcedures) - [Program Timetable](#ProgramTimetable) 420.1.1 [Acronyms Table.](../../../../../../../../I:/chapter400-inv/acronyms-table/acronyms-table.doc) 420.2 []{#Authorities .anchor}[Authorities.]{.underline} The following authorities authorize payment of a cash award and establish policy and procedures for granting a cash award to law enforcement officers who possess and substantially use one or more foreign languages in the performance of official duties: - [5 U.S.C. §§ 4521- 4523](http://assembler.law.cornell.edu/uscode/search/display.html?terms=4521&url=/uscode/html/uscode05/usc_sec_05_00004521----000-.html) - Treasury Personnel Manual, Chapter 451.1 420.3 []{#Definitions .anchor}[Definitions.]{.underline} The following are definitions of terms used in the application of the TIGTA Foreign Language Award Program (FLAP). Law Enforcement Officer -- a law enforcement officer as defined by [5 U.S.C. § 8331(20)](http://assembler.law.cornell.edu/uscode/html/uscode05/usc_sec_05_00008331----000-.html) and [5 U.S.C. § 8401(17)](http://assembler.law.cornell.edu/uscode/html/uscode05/usc_sec_05_00008401----000-.html). TIGTA employees eligible for this award are employees in the ES/GS-1811 series. Basic Pay -- the rate of pay fixed by law or administrative action for the position held by an employee before deductions and exclusive of additional pay of any kind. Basic pay does not include: - Overtime pay - scheduled or administratively uncontrollable - Law Enforcement Availability Pay (LEAP) - Sunday or holiday pay - Night differential - Post differentials or cost of living allowances - Interim geographic adjustments - Special pay adjustments for law enforcement officers in selected cities under § 404 of the Federal Law Enforcement Reform Act of 1990, [5 U.S.C. § 5305, note](http://assembler.law.cornell.edu/uscode/search/display.html?terms=5305&url=/uscode/html/uscode05/usc_sec_05_00005305----000-notes.html). - Locality-based comparability payments for GS employees in locality pay areas Basic pay does include the higher minimum rates for law enforcement officers under § 403 of the Federal Law Enforcement Reform Act of 1990, [5 U.S.C. § 5305, note](http://assembler.law.cornell.edu/uscode/search/display.html?terms=5305&url=/uscode/html/uscode05/usc_sec_05_00005305----000-notes.html) and the special salary rates. The foreign language cash award is computed on a Special Agent's (S/A) basic pay in effect during the last pay period of the calendar year in which the S/A's foreign language use is being reviewed. The cash award is considered part of an S/A's annual aggregate pay and therefore is subject to a limitation. Specifically, total aggregate pay cannot exceed the annual rate of basic pay for Level V of the Executive Schedule for any calendar year. The cash award is in addition to basic pay and does not increase a S/A's base salary for purposes of retirement or life insurance. The cash award is subject to income tax withholding. Possesses a Foreign Language -- achieving a specified speaking skill level using the Federal Interagency Language Roundtable (FILR) proficiency testing and rating system. To be eligible for an award under the FLAP, S/A's must possess a minimum proficiency rating of S-2 or above. See [420.6.1](#RequestingProficiencyTesting) of this Section for proficiency ratings. Substantial Use -- the usage of one or more foreign languages in the performance of official duties for at least 10 percent of the scheduled duty hours in a calendar year. For full-time S/A's, substantial use equates to 209 hours or more of foreign language use while performing official duties ([e.g.]{.underline} 10 percent of a 2087-hour work year). Use of a foreign language during LEAP hours worked in the same calendar year are included in the computation for substantial use. For part-time S/A's, substantial use is determined by calculating the percentage of a 40-hour week that a S/A is scheduled to work, and multiplying that percentage by 209 hours (the minimum number of hours a full-time S/A would have to use a foreign language in order to meet the substantial use requirement). For example, a S/A scheduled to work 24 hours per week would have to use a foreign language for 125 hours during the calendar year (24/40 = 60%, 209 x .60 = 125.4 or 125 hours). S/A's who do not meet the full-time or prorated part-time substantial use requirements may not be considered for an award under the FLAP. If a S/A meets these requirements while using a foreign language for official duties for only a portion of the award year ([e.g.]{.underline}, 6 months or 9 months as a result of retiring or resigning), the amount of the award will be prorated based on that portion of the calendar year that the foreign language was used in the performance of official duties. S/A's who do not meet the requirements for a foreign language award ([e.g.]{.underline} incidents of one-time or short term use) may be considered for a Special Act Award. See [Chapter 600, Section 70.9.1](../../../../../../../../I:/chapter600-ms/600-70/chapter600-70.doc#PMPpurp7091051st) of the TIGTA Operations Manual for award guidelines. Official Duties - normally relate to the duties and responsibilities described in a S/A\'s position description. Examples include, but are not limited to, the following: - Teaching - Speaking - Reading - Writing - Surveillance - Protection assignments - Conducting or being a witness to an interview - Official public relations work Hours spent learning a foreign language, attending class as a student, or taking the proficiency test to participate in the FLAP are not official duties for the purpose of qualifying for an award in the FLAP. The Deputy Inspector General for Investigations (DIGI) makes the final decision on what constitutes use of a foreign language in the performance of official duties. 4. []{#QualifyingForeignLanguages .anchor}[Qualifying Foreign Languages.]{.underline} Foreign languages that qualify for the FLAP are those recognized as a method of speech and communication by the FILR and are generally not restricted. Sign language where a foreign language is not involved does not qualify for the FLAP. Where English is not the primary language used in performing the S/A's official duties, substantial use of English does not qualify for the FLAP. For example, if Spanish is the primary language used in performing official duties and a S/A speaks English only occasionally during the performance of his/her responsibilities, the S/A cannot receive an award for use of the English language under the FLAP. Additionally, using a foreign language as a matter of personal preference rather than as a work requirement does not qualify for an award. The DIGI makes the final decision on whether the use of a foreign language in the performance of official duties qualifies for the FLAP. 5. []{#ForeignLanguageCapability .anchor}[Foreign Language Capability.]{.underline} S/A's applying for the FLAP must report their foreign language capability to their Special Agent in Charge (SAC) through their Assistant Special Agent in Charge (ASAC). S/A's must complete a Foreign Language Award Program Application (Form OI 9731) indicating each language for which the S/A wishes to be tested and recognized as well as a brief self-assessment of the estimated proficiency level for each foreign language identified. The abbreviated descriptions of the foreign language proficiency levels attached to the application may be used as a guide for writing the self-assessment or the S/A may identify the speaking level ([e.g.]{.underline} speaking S-2+, S-3) that is closest to the S/A's estimated skill level. S/A's applying for the FLAP who already possess FILR proficiency ratings must identify the following on the Form OI 9731: - Foreign language - Proficiency rating - Date and place of last rating Attach a copy of the test results to the Form OI 9731, if available. The completed Form OI 9731 is filed in the S/A's or ASAC's Employee Personnel File (EPF). 4. []{#ForeignLanguageProficiencyTesting .anchor}[Foreign Language Proficiency Testing.]{.underline} To be eligible for the program, S/A's must demonstrate their foreign language(s) proficiency by attaining a tested FILR foreign language proficiency rating of at least a Speaking Level 2 (S-2). S/A's without a current FILR rating will be tested in the foreign language(s) for which they claim proficiency. S/A's who have been tested must have a current FILR proficiency rating based on the testing schedule listed in [420.6.3](#TestingSchedule) of this Section. Proficiency testing is required to participate in the FLAP. An outside testing agency conducts the proficiency testing. The testing agency uses the FILR proficiency testing/rating system as required by Treasury Personnel Manual, Chapter 451.1 and when necessary, is responsible for justifying the validity and reliability of the testing procedures. All speaking proficiency tests are conducted over the telephone and are taped by the testing agency. No cellular telephones shall be used for testing purposes. The National Training Program Coordinator provides the test result to the SAC. The SAC provides the S/A with a copy of the test result through his/her ASAC. The test result is used to determine eligibility for participation in the FLAP. The SAC notifies the Performance and Results Information System (PARIS) Coordinator of the S/A's certification. The PARIS Coordinator updates the S/A's PARIS employee record to indicate the certification, the foreign language the S/A is certified to use, and the expiration date of the certification. 420.6.1 []{#RequestingProficiencyTesting .anchor}[Requesting Proficiency Testing.]{.underline} The SAC must coordinate testing through the National Training Program Coordinator. During the first quarter of each year, the SAC of each division must submit a Request, Authorization, Agreement and Certification of Training (SF 182) that identifies all S/A's in the division who request to be tested or require retesting. See the retest schedule in [420.6.3](#TestingSchedule) of this Section. Each SF 182 must contain a roster with the following information for each S/A to be tested: - S/A name - SSN - Office location - Test type - speaking proficiency - Foreign language to be tested Submit the completed SF 182 with attached roster and Privacy Act statements to the National Training Program Coordinator for submission to, payment of, and scheduling with the testing agency. The National Training Program Coordinator notifies the SAC of the test schedules for their divisions. 420.6.2 []{#ProficiencyRatings .anchor}[Proficiency Ratings.]{.underline} The following are abbreviated descriptions of the speaking skill levels established by the FILR: > [Speaking 0, No Proficiency (S-0)]{.underline} -- Employee is unable > to function in the spoken language. Oral production is limited to > occasional isolated words. Has essentially no communicative ability. > > [Speaking 0+, Memorized Proficiency (S-0+)]{.underline} -- Employee > is able to satisfy immediate needs using rehearsed utterances. Shows > little real autonomy of expression, flexibility or spontaneity. Can > ask questions or make statements with reasonable accuracy only with > memorized utterances or formulae. Attempts at creating speech are > usually unsuccessful. > > [Speaking 1, Elementary Proficiency (S-1)]{.underline} -- Employee > is able to satisfy minimum courtesy requirements and maintain very > simple face-to-face conversations on familiar topics. > > [Speaking 1+, Elementary Proficiency, Plus (S-1+)]{.underline} -- > Employee can initiate and maintain predictable face-to-face > conversations and satisfy limited social demands. > > [Speaking 2, Limited Working Proficiency (S-2)]{.underline} -- > Employee is able to satisfy routine social demands and limited work > requirements. Can handle routine work-related interactions that are > limited in scope. > > [Speaking 2+, Limited Working Proficiency, Plus (S-2+)]{.underline} > -- Employee is able to satisfy most work requirements with language > usage that is often, but not always, acceptable and effective. The > individual shows considerable ability to communicate effectively on > topics relating to particular interests and special fields of > competence. > > [Speaking 3, General Professional Proficiency (S-3)]{.underline} -- > Employee is able to speak the language with sufficient structural > accuracy and vocabulary to participate effectively in most formal and > informal conversations on practical, social and professional topics. > > [Speaking 3+, Professional Proficiency, Plus (S-3+)]{.underline} -- > Employee is often able to use the language to satisfy professional > needs in a wide range of sophisticated and demanding tasks. > > [Speaking 4, Advanced Professional Proficiency (S-4)]{.underline} -- > Employee is able to use the language fluently and accurately on all > levels normally pertinent to professional needs. > > [Speaking 4+, Advanced Professional Proficiency, Plus > (S-4+)]{.underline} -- Employee's speaking proficiency is regularly > superior in all respects, usually equivalent to that of a > well-educated, highly articulate native speaker. > > [Speaking 5, Functionally Native Proficiency (S-5)]{.underline} -- > Employee's speaking proficiency is functionally equivalent to that of > a highly articulate, well-educated native speaker and reflects the > cultural standards of the country where the language is natively > spoken. 420.6.3 []{#TestingSchedule .anchor}[Testing Schedule.]{.underline} All applicants will be tested as they enter the program and are retested according to their FILR rating: > Less than S-2 - may be retested on a yearly basis > > S-2 through S-3+ - must be retested every two years > > S-4 and above - must be retested every four years 4. []{#EligibilityRequiriements .anchor}[Eligibility Requirements.]{.underline} S/A's who apply to participate in the FLAP must meet the following eligibility requirements to be admitted into the FLAP: - A permanent full-time or part-time S/A. - A "Successful" rating on their most recent rating of record. The ASAC or SAC must confirm this requirement before a S/A is scheduled for testing or, if the S/A has a current FILR proficiency rating, before the S/A is admitted into the FLAP. - Attained a tested proficiency rating of at least a Speaking Level 2 (S-2). See proficiency rating definitions in [420.6.2](#ProficiencyRatings) of this Section. 420.8 []{#CashAwardAmounts .anchor}[Cash Award Amounts.]{.underline} Pursuant to [5 U.S.C. § 4523](http://assembler.law.cornell.edu/uscode/search/display.html?terms=4523&url=/uscode/html/uscode05/usc_sec_05_00004523----000-.html), the cash award is based on both proficiency and substantial use of a foreign language in the performance of official duties. The amount of the award may be up to five percent of basic pay for the calendar year. In order to improve proficiency and use, S/A's with a higher proficiency rating level and/or greater use in the performance of official duties may be eligible for larger awards. All awards are subject to the availability of funds. 420.8.1 []{#SingleForeignLanguageAwards .anchor}[Single Foreign Language Awards.]{.underline} Single foreign language award percentages are computed based on the table below. To compute an award percentage, identify the tested FILR speaking skill level and the number of qualifying hours of annual foreign language use. Use the table below to determine the award percentage. For example, a full-time S/A with a speaking proficiency rating of S-2+ and 390 hours of foreign language use may be eligible for an award of 2 percent of his/her basic pay. ### CASH AWARD COMPUTATION TABLE +------------+---------------+-----------+-------------+------------+ \| \| Qualifying \| \| \| \| \| \| Hours for \| \| \| \| \| \| Foreign \| \| \| \| \| \| Language \| \| \| \| \| \| Awards \| \| \| \| \| \| \| \| \| \| \| \| and Awards \| \| \| \| \| \| Percentages \| \| \| \| +------------+---------------+-----------+-------------+------------+ \| Tested \| Level 1 \| Level \| Level 3 \| Level \| \| Skill \| \| 2 \| \| 4 \| \| \| 209-311 \| \| 416-519 \| \| \| Levels \| \| 312-415 \| \| 520+ \| \| \| hours used \| \| hours used \| \| \| \| \| hours \| \| hours used \| \| \| \| used \| \| \| +------------+---------------+-----------+-------------+------------+ \| S-3 & \| 2% award \| 3% award \| 4% award \| 5% award \| \| above \| \| \| \| \| +------------+---------------+-----------+-------------+------------+ \| S-2 & S-2+ \| 1% award \| 2% award \| 3% award \| 4% award \| +------------+---------------+-----------+-------------+------------+ 420.8.2 [Multiple Foreign Language Awards.]{.underline} S/A's who have qualifying proficiency ratings and substantial use in more than one foreign language, must submit supporting documentation for each foreign language used. An award percentage is computed for each foreign language. The award percentages for each foreign language are added together to determine the total award percentage, however, the total award may not exceed five percent of the S/A's basic pay for the calendar year. 420.8.3 [Part-Time Special Agent Awards.]{.underline} A part-time S/A who meets the eligibility requirements shall also be considered for a foreign language award. First, the ASAC must determine if the S/A's hours of foreign language use for the calendar year meet the part-time substantial use requirement as defined in [420.3](#Definitions) of this Section. If the hours of use do not meet the part-time substantial use requirement, then the S/A is not eligible for an award. If the part-time substantial use requirement is met, the award percentage is computed by determining the appropriate range of qualifying hours in the table in [420.8.1](#SingleForeignLanguageAwards) of this Section and prorating the hours by the percentage calculated for the part-time substantial use requirement. For example, a S/A who works 16 hours per week, with a S-2 speaking proficiency rating and 110 hours of foreign language use for the calendar year, the award percentage shall be calculated as follows: - Determine the percentage of the work week for the part-time S/A\ (e.g. 16 hours divided by 40 hours = 40%). - Prorate the first range of qualifying hours in the table to determine where the 110 hours of foreign language use will fall by multiplying 209 and 311 hours by 40% (209 hours x .40 = 83.6 or 84 hours; 311 hours x .40 = 124.4 or 124 hours). The prorated range becomes 84-124 hours. Since the S/A's 110 hours of foreign language use falls within this level, no further calculations are required. If the hours of foreign language use exceed the first level, prorate the second and third levels, as necessary. - Apply the qualifying prorated hours and the S/A's S-2 tested proficiency rating to the table. The S/A may be eligible for an award of one percent of basic pay for the calendar year. 420.8.4 [Development and Maintenance Costs.]{.underline} Foreign language training, development, and/or maintenance costs will not be deducted from foreign language award amounts. 420.9 []{#EmployeeResponsibilities .anchor}[Employee Responsibilities.]{.underline} Since the amount of the award depends on the foreign language proficiency rating and substantial use in the performance of official duties for the calendar year, the number of hours of foreign language use must be verifiable and documented. S/A's who participate in the FLAP must document their foreign language use in their bi- weekly PARIS time reports. The hours of foreign language use must be entered in the "FL" column of the PARIS time report. The foreign language hours are the total number of hours a foreign language was used for specific activities. Foreign language hours are a portion of the Regular and LEAP hours worked each day. S/A's must also document the official duties for which the foreign language was used by entering the activities in the "Comments" column of the PARIS time report. If a S/A is tracking use of two or more foreign languages, in addition to documenting the activity in the "Comments" column, he/she must also document the foreign language used and the number of hours the foreign language was used for each activity. 420.10 []{#ManagerResponsibilities .anchor}[Manager Responsibilities.]{.underline} ASAC's and SAC's must review and approve authorized foreign language use that is documented in the bi-weekly PARIS time report. Use the foreign language PARIS time report as the supporting documentation for calendar year-end FLAP award recommendations. Within 30 days following the end of each calendar year, initiate FALP award recommendations using HR Connect and forward to the SAC or appropriate Assistant Inspector General for Investigations (AIGI) for approval. Use the following procedures to submit the FLAP award through HR Connect: - Type of Award: Foreign Language (Law Enforcement) - Award Amount - Account Code: Current fiscal year DIGI accounting code ```{=html} <!-- --> ``` - Justification: "Other" and in the Justification Box, prepare a short justification that includes the following information: ```{=html} <!-- --> ``` - Why the award is being recommended. - The S/A's certification to participate in the FLAP. - The number of foreign language hours as documented in approved > bi-weekly PARIS time reports. - Any special projects or enhancements to investigations in which the foreign language was used. - Comments: Enter any additional information the Bureau of Public Debt (BPD) should be aware of in processing the award. - Sign the award recommendation as Initiating Official. - Attach the applicable PARIS time reports. The SAC retains a copy of each award recommendation. 420.11 []{#ApprovingOfficialResponsibilities .anchor}[Approving Official Responsibilities.]{.underline} The SAC is the approving official for award recommendations submitted for a S/A. The appropriate AIGI is the approving official for award recommendations submitted for an ASAC. The SAC must certify the availability of award funds with the Office of Investigations National Budget Coordinator. After review, approval and certification of funds, the SAC or AIGI submits the award through HR Connect for processing by the BPD. The SAC forwards a copy of the approved award package to the respective ASAC for retention in the S/A's EPF or for ASAC's, retains a copy in the ASAC's EPF. The ASAC is responsible for ensuring the S/A receives a copy of the award package. 430.12 []{#ReconsiderationProcedures .anchor}[Reconsideration Procedures.]{.underline} Since an outside testing agency administers the foreign language proficiency test, test results may not be grieved. If a S/A disagrees with the test result and the SAC cannot immediately resolve the disagreement, the S/A can request that the testing agency conduct a formal review of the test result in dispute. The testing agency will issue a second opinion on the test results. If the S/A still disagrees with the test results, the S/A will be scheduled for retesting on the foreign language for which the test result is in dispute. The testing agency must conduct the retest. The retest rating is the S/A's official rating and cannot be disputed. The S/A may be retested according to the testing schedule in [420.6.3](#TestingSchedule) of this Section. S/A's who disagree with the number of hours certified by the ASAC and SAC, or the hours approved by the AIGI, may submit requests for reconsideration. The S/A must state the disagreement in writing and submit it to his/her ASAC within 15 days of the S/A becoming aware of the decision with which he/she disagrees. The S/A must state the reasons and facts for his/her disagreement and must attach any available evidence or documents that support his/her request. Once foreign language use and/or testing issues have been resolved, the amount of the cash award will be determined by using the computations contained in [420.8](#CashAwardAmounts) of this Section. Any errors in mathematics or in applying the computation table must be immediately rectified. 420.13 []{#ProgramTimetable .anchor}[Program Timetable.]{.underline} # January: ASAC must initiate award recommendations for S/A's for the previous calendar year to the SAC. The SAC must initiate award recommendations for ASAC's. January -- February: SAC or appropriate AIGI reviews and approves award recommendations. After funds have been certified and awards approved, the SAC forwards awards recommendations to BPD for processing. A copy of the award package is sent to the S/A's ASAC for retention in the S/A's EPF. A copy of an ASAC's award package is retained by the SAC in the ASAC's EPF. January -- March: New applicants are tested or current participants are retested as required by the proficiency rating levels and retesting schedule. January - December: S/A's and ASAC's approved to participate in the FLAP, track their hours and activities in their PARIS time reports for the current calendar year. The ASAC or SAC approves foreign language hours documented in bi-weekly PARIS time reports. October - December: S/A's may apply for participation in the FLAP by submitting a completed Form OI 9731 to their SAC through their ASAC. ASAC's may apply for participation in the FLAP by submitting a completed Form OI 9731 to their SAC. SAC's submit SF 182's to the National Training Program Coordinator identifying S/A's who require testing or retesting. #	en
markdown	728463	# Presentation: 728463 - Edward G. Holland - Senior Special Agent - Office of Export Enforcement ## Export Enforcement’s Roles - Protect National Security and Foreign Policy Goals - Preventative and Detection - Investigation and Prosecution - Law Enforcement Cooperation ## Office of Export EnforcementRegions Boston New York Washington Ft. Lauderdale San Jose Irvine Dallas Chicago - _International Attaches_ - Moscow Beijing - Hong Kong Singapore - Egypt - United Arab Emirates ## Case Examples ## Case Example 1:Miami Export Purchasing Corp. - _EXPORT PURCHASING CORP_ - Case Example 1:Miami Export Purchasing Corp. ## Miami Export Purchasing Corp. - Company in the United Arab Emirates ordered pulsed neutron generators through a automobile export company in Miami, Florida. The generators are controlled under ECCN 3A231. - Miami company applied for a Commerce Department export license. - Stated end-use was for oil well logging, but model ordered was for lab use. ## Miami Export Purchasing Corp. - Commerce initiated a pre-license check through our embassy in the UAE. - U.S. Embassy reported back that the end-user listed on the license did not order the pulsed neutron generators. - Export Enforcement arrested the Miami man that signed the license application for making false statements and conspiring to violate U.S. export control laws. ## Case example 2:Berkeley Nucleonics Corporation ## The indictment alleges that Berkeley Nucleonics Corporation of San Rafael, California, was indicted August 28, 2001, by a federal grand jury on one count of conspiracy in violation of Title 18, United States Code, Section 371 and six counts of violations of Export Administration Regulations regarding exports to India in violation of Title 50, United States Code, Berkeley Nucleonics Corp ## Berkeley Nucleonics Corp - Section 1705(b). Berkeley - Nucleonics Corporation ("BNC") and three of its employees solicited business for and knowingly exported nuclear pulse generators and related parts to various entities in India without the export license required by the Department of Commerce ## Berkeley Nucleonics Corp - Both of the entities to which BNC is alleged to have shipped the nuclear pulse generators, Bhaba Atomic Research Center ("BARC") and Nuclear Power Corporation ("NPC"), are divisions of the Government of India's Department of Atomic Energy and—at the time of shipment—were on the Department of Commerce's Entities List. ## In the same indictment, company president David Brown, marketing director Richard Hamilton were each indicted on one count of conspiracy and one count of violating the Export Administration Regulations. Vincent Delfino, former Operations Manager, was also charged with one count of conspiracy and six counts of violating the Export Administration Regulations. Berkeley Nucleonics Corp ## Case Example 3 - Case Example 3 - Omega Engineering Inc. ## Omega, a Connecticut company, was indicted on charges it illegally shipped measurement equipment—with potential nuclear use—to Pakistan through a German subsidiary after the Department of Commerce denied an export license. Company claimed the shipment to Pakistan was separate from the license application and did not require a license. - Company claimed the shipment to Pakistan was separate from the license application and did not require a license. Omega Engineering Inc. ## Company also claimed the order was made by an intermediary for a Pakistani university and consisted of items for an introductory science class. Company went through every step of the licensing process, including appealing the Intent to Deny letter, appealing the denial, appearing in person at DOC Headquarters, and writing its Congressman. - Company went through every step of the licensing process, including appealing the Intent to Deny letter, appealing the denial, appearing in person at DOC Headquarters, and writing its Congressman. Omega Engineering Inc. ## Commerce rejected company’s arguments at each stage of process based on risk of diversion to an unsafeguarded nuclear facility. Some of company’s employees tried to alert senior executives of the employees’ concerns about the export. - Some of company’s employees tried to alert senior executives of the employees’ concerns about the export. Omega Engineering Inc. ## Company’s CFO directed that the equipment be shipped. Recently Omega pled to an information charging it with a criminal violation of the IEEPA for exporting commodities to Pakistan through its German subsidiary after being denied an export license to ship directly to the end-user. This case is ongoing. - Recently Omega pled to an information charging it with a criminal violation of the IEEPA for exporting commodities to Pakistan through its German subsidiary after being denied an export license to ship directly to the end-user. - This case is ongoing. Omega Engineering Inc.	en
markdown	517245	# Presentation: 517245 ## FY 1999 Accomplishments - NASA GSFC Code 588 - Advanced Architectures and Automation Branch - Information Systems Center ## Agenda - 588’s Technology Development Milestones - Technology Development Support - Talks and Publications - Awards - Information Sharing - Proposals - New Starts - Next Year’s Infusion & Impact Goals - Success Measures ## 588’s Technology Development Milestones ## NGST Scientist’s Expert Assistant (SEA) *1999 Infusion* - Final version of software completed on schedule, with full capabilities as planned - Project credited with effecting a significant change in STScI software development practices and paradigms - SEA work and tools are widely known and respected within the scientific community - SEA VTT and ETC were adopted for operational use by the STScI for HST Cycle 9 Phase II in January ’00 - Demonstrated the NGST SEA at 2 AAS meetings, as well as the ADASS meeting; invited to join the “J-Sky Panel” to build a Java library for astronomical tools Deliver an interface to guide a scientist through observation specification ## Avatar Visualization And Graphical Environment (VisAGE) *1999 Infusion* - Version 3 completed with full - capabilities as planned - Technology delivered to MAP as Web-Altairis, and used in spacecraft I&T - Software installed for Triana use via ITOS - Commercialization in progress - A 3D surface plot for astronomical image analysis was delivered and integrated as part of the SEA Rel 4 - SOFIA and HAWC strip chart visualizations were delivered and integrated into the IRC Develop and apply visualization technology to assist in mission control ## Spacecraft Emergency Response System (SERS) *1999 Infusion* - SERS 2.1 software was completed; technology was delivered and infused into 10 missions, contributing to estimated lights-out savings of $1 Million per mission per year; commercialization and placement on GSA schedule is in progress - Human-in-the-loop autonomy, - Telephony - Monitoring of environmental conditions - Demonstrated proof-of-concept prototypes for (1) Pocket SERS, and (2) Multi/Spacecraft Integrated SERS View - Completed study, analysis, and demonstration of OTS technology for wireless LANs and WANs Develop and infuse technology to enable distributed, on-call mission operations ## Instrument Remote Control (IRC) - SPIRE - Met all development milestones (V1, V2) in support of downselect in 12/99 - Algorithms and visualizations to characterize the instrument data - Procedures for calibration and autolock of detectors - HAWC / SAFIRE - Supported PDR and Delta-PDR – 9/98 & 12/99 - Completed V1 prototype– 12/98 - Proof of concept - Supported SOFIA interface testing 12/99 - EAGAL - Supported phase 1 test – 12/98 - Proof of concept Deliver a cross- platform distributed framework for remote instrument control ## Operating Missions as Nodes on the Internet (OMNI) 1999 New Start - Proof of Concept V1 Demo – 3/99 - OMNI flew on a Plymouth Voyager Van in Very LEO - Scientists from Lewis were able to control instruments - Pure off-the-shelf IP - Proof of Concept V2 Demo – 8/99 - Enabled students across the nation to view the Solar Eclipse in realtime from a ship in the Black Sea - Students were able to control a camera aboard the ship - Students were able to analyze data from a number of instruments - Pure off-the-shelf IP - Architecture Review – 10/99 Infuse technologies to enable spacecraft communication via off-the-shelf IP ## InVision 1999 New Start - Visualization - Clementine video, completed 1/99 - Triana video which was presented at their SD – 5/99 and Triana Web visualization, integrated wit the Triana Web site –6/99 - Completed Image 2000 Demo prototype V1 – 3/99 - Directed Acyclic Graph (DAG) editor - Javascripting, Application Framework, and Infrastructure for XML definition of UI - Image 2000 V2 Design review – 5/99 - Completed Image 2000 Demo prototype V2 – 9/99 - Enhancements to DAG, robust plug-in architecture, and ability to import GEOTIFF file - JOIN (New concept defined for decentralized, dynamic dataset distribution) Bring data visualization technology to PI’s working from standard desktop equipment ## Common Planning And Scheduling System (ComPASS) - Completed Planning - Language specification – 3/99 - Demonstrated prototype V1 – 6/99 - Framework and proof-of-concept - Demonstrated prototype V2 – 9/99 - Scientific planning - Selected application for FY 00: to provide tools which assist scientists in planning observations which are coordinated over multiple observatories (eg. HST, Chandra, XTE) - Selected target application and customer End-to-end planning and scheduling environment for interoperability ## Advanced FDIR (Automated Multimodal Trend Analysis System – AMTAS) - Demonstrated AMTAS V1 prototype – 4/99 - Initial framework - Project refocused - Demonstrated AMTAS V2 prototype – 9/99 - Proof of concept - Demonstrated statistical error detection - Valuable feedback from mission personnel Increase the level of control center automation via machine learning for FDIR ## Scientist’s Mission Assistant and Research Tool (SMART) 1999 New Start - Presented Concept Definition – 7/99 - Presented Architecture – 9/99 - Interactive Web-based tool suite to assist science and mission teams in specification of high level science objectives and mapping of appropriate resources - Knowledge management - Collaborative tools - Web portal to interactive services - Concept maps - Conversational Case-Based Reasoning - Integration of OTS components - Partnering with NRL Develop tools to assist scientists in resource utilization based on scientific objectives ## Agents / Autonomy Lab - Developed component-based agent architecture, agent community concepts, and agent communication protocols - Developed Nanosat-based scenario - Completed ACT Architecture, ACT Design, and ACL Documentation - Developed prototype illustrating natural language interface to agent-based system - Developed Autonomy Lab Requirements Develop and validate Agent community concepts ## Onboard Component Architecture (OCA) 1999 New Start - Completed installation and - configuration of development environment - Motorola PowerPC VMC - VxWorks - TAO and ACE - Downloaded Triana flight software code, and began analysis - Compiled by editing makefiles and revising code to resolve undefined symbols, etc. - Began analysis and reverse engineering of code to IDL - Together Enterprise - Command Ingest, and Telemetry Output Develop a component based architecture for flight software to enable reuse ## Onboard Artificial Intelligence (OAI) 1999 New Start - Completed full model of the - WIRE spacecraft, less than 13K in size - Began integration and testing with WIRE flight software Demonstrate and assess AI technology for onboard applications ## Usability Engineering Center (UEC) - Provided education regarding usable - web design (handbook, seminar) - Developed UEC Web Site, brochure, and poster - Supported usability engineering for IFMP, Triana, Virtual Science Fair, ISC web site, Image2000 - Published paper on user-centered design of spacecraft ground data systems at GSFC for the 2nd International Symposium on Spacecraft Ground Control an Data Systems Improve the usability of information systems developed at GSFC ## Technology Development Support ## STAAC – Synchronous Product Generator (SPG) - Completed study of applicable - COTS products - Completed Release 1 of the Synchronous Product Generator (SPG) - template creation - user interface - asynchronous and synchronous editing and review of documents ## IFMP – Executive Information System (EIS) - Developed and demonstrated three user interface prototypes; demonstrated, installed, an conducted usability testing at all 10 NASA centers – 6/99, 8/99 - Developed custom, java-based front end to incorporate COTS products in a single, cohesive system - Executed user questionnaire related to the prototype; presented findings to the EIS user community, and used them as input for subsequent prototypes ## TSO Development - Developed Web Sites and Systems for - Telecommunications Service Requests - EO-1, and EO-1 Image Tracking - HAWC - Code 945 – Microwave Sensors Branch - GSFC Education Showcase - Code 130 Meteorology Educator’s Training Seminar - Code 130 – Web Site Evaluation Form - Agent-Based Systems Workshop - KIST ## Talks and Publications ## Industry Recognition (1) - JavaOne Conference - Hosted “Birds of a Feather” session entitled “Java in Astronomy” - Using XML and Java for Astronomical Instrument Control - Presented at ADASS, JavaOne, XML World, and WWW8 - Code as Examples in Textbooks - Inside XML DTD’s – St. Laurent and Biggar – McGraw-Hill - XML: A Primer – St. Laurent – M&T Books - Expert Systems - Co-authored chapter in Wiley’s Encyclopedia for Electrical and Electronics Engineering - Cooperative Intelligent Agents 1999 Conference - Invited Lead Speaker on “Agents from a NASA Perspective” ## Industry Recognition (2) - Scientific American - Article on “XML and The Second-Generation Web” references IRC’s AIML - Sky and Telescope - Article called “Software by Internet” discusses Image2000 - ADASS – 10/98 - NGST SEA was invited to give a talk entitled “The Next Generation User Support Tools” - An image from the NGST SEA’s Visual Target Tuner (VTT) was used on the cover of the ADASS proceedings - The IRC presented a paper on using Java and XML for Astronomical Instrument Control ## Published Papers - Agents: - “Information Systems for Nanosatellite Constellations” at AIAA Space Technology Conference and Expo - “Multiagent Planning and Scheduling for Enhanced Spacecraft Autonomy” at iSTARS - “Nanosat Intelligent Power System Development” at the 2nd International Conference on Integrated MicroNanotechnology for Space Applications - AMTAS: - “ASCAL: Autonomous Attitude Sensor Calibration” in the Flight Mechanics Symposium at GSFC - “Data Visualization via the Integration of Java Technologies” at WWW8 - Avatar: - “The Relative Contributions of Stereo, Lighting, and Background Scenes in Promoting 3D Depth Visualization”” at ACM’s TOCHI - IRC: http://pioneer.gsfc.nasa.gov/public/irc/IRC-presentations.html - “Using XML and Java for Astronomical Instrument Control” for ADASS, JavaOne, XML World, and WWW8 - “Using XML for Instrument Description, Communication and Control” for the 2nd International Symposium on Spacecraft Ground Control and Data Systems - “Using XML for Instrument Description, Communication, and Control fo the SOFIA / HAWC Instrument” for AAS - “NASA’s Instrument Control Markup Language (ICML)” for ADASS - SERS: - “The Spacecraft Emergency Response System (SERS) for Autonomous Mission Operations” at the 3rd International Symposium on Reducing the Cost of Spacecraft Ground Systems and Operations - “User-Centered Design of Spacecraft Ground Data Systems at NASA's Goddard Space Flight Center” and “Web-Based Automated Reporting: Saving Time, Money, and Trees” at the 2nd International Symposium on Spacecraft Ground Control and Data Systems - SEA: http://aaaprod.gsfc.nasa.gov/SEA/papers/Default.htm - “The Next Generation User Support Tools” at ADASS - “An Expert Assistant System to Support the General Observer Program for NGST”, “Visualization Tools to Support Proposal Submission” for SPIE ## Awards ## Awards - GSFC Engineering Excellence Award - Troy Ames - Best on the Internet Award - IRC - NASA Software of the Year Runner Up - GenIE - ISC Paper Honorable Mention - AMTAS: Nigel Ziyad, Chariya Peterson - NASA Honor Award - Group Achievement for NASA Grants Management Process – Walt T ## Information Sharing ## Studies - Security Study - Issues in distributed spacecraft control - Risk assessment - Technology assessment - Policy summary - Constellation Study - Planned missions internal and external - Capabilities needed - Technology opportunities and ideas - Onboard AI - Applicability of AI techniques on-board ## Technology Education and Assessment Seminars (TEAS) - 16 TEAS presented - Average 35, maximum 60 people per TEA Seminar - Total attendance for FY 99 was 650 - Two TEAS were Web-broadcast, with approximately 320 hits (total) ## Proposal Workshop - Hosted a Proposal Workshop for the ISC - Attendees included: 40 civil servants from across the ISC - Companies Represented: Appnet/Century, Knowledge Evolution, CSC, LM, and GST; graphic arts by Paul Baker - Produced draft proposal handling process ## Observer Tools Workshop - Hosted an international workshop whose purpose was to discuss the role of collaboration in the development of future observing tools - Attendees included approximately 50 people from around the world including: - Advanced X-ray Astrophysics Facility (AXAF) , European Southern Observatory (ESO), Gemini 8m Telescopes Project, National Optical Astronomy Observatories (NOAO), The Infrared Processing and Analysis Center (IPAC), UK Astronomy Technology Center, and others - Formed 6 working groups - Target Visualization Tools - Exposure Time Calculators - Defining an Observation - Optimizing Calibration Observations for Ground Based Observatories - Common Observatory Definition - Data Services ## Technology Scanning and Assessment (TSA) - Developed TSA Web-site with technology hierarchy - Established partnership with the GSFC library - Supported several requests for information ## Branch Advertising / Reporting - Web Site - Completed database design and update capability - All projects and products now represented - AAA Home Page - http://aaa.gsfc.nasa.gov - Posters - Completed 8 new posters representing Branch projects - Two SOMO Reviews - Completed Technology Demonstration and Infusion Facility redesign - Web broadcast capability - Advanced audio/visual display capabilities - Schedulable via the Web from the AAA Home Page ## Proposals ## Proposals - 1/99 – 3 to SOFIA NRA - 4/99 – 4 to CIO - 7/99 – 8 to ESTO RFI - 7/99 – 10 to CETDP - 9/99 – 4 to AISRP - 9/99 – 5 to DDF - 11/99 – 6 to GSFC IRAD _FY 99 Quantity_* – Novice proposal writers, learning about funding sources, generating ideas* _FY 00 Quality_* – Outstanding proposal writers, refining proposals, targeting ideas to sources* ## New Starts ## New Starts in FY ‘99 - Constellation Challenge - Target and meet the challenges of mission control for constellations - JOIN - Use off-the-shelf Java technology to build a decentralized, dynamic dataset distribution mechanism ## Next Year’s Infusion & Impact Goals ## Next Year’s Infusion & Impact Goals (1) - IRC will be completed and operational for HAWC/SOFIA - PI’s will be able to control their instruments via the advanced, cross-platform framework (GUI, XML configurable instrument specs, plug-and-play architecture) - Future instruments will realize savings of 80%-90% in instrument control software development costs. - OMNI will be demonstrated on a simulated “Flatsat” & will obtain flight commitment - Missions will achieve cost savings by using commercial-off-the-shelf IP standard components rather than custom developed components - Missions will leverage from industry driven developments in the IP standards ## Next Year’s Infusion & Impact Goals (2) - Image2000 will be used by 5000 educators - Educators will be able to use imaging tools on their PC’s, which were previously only available for the MacIntosh platform - Educators will be able to build their own macros and scripts, without having to rely on experienced programmers - Educators will use the more robust tool-suite and be able to do more advanced image manipulation - The IFMP EIS front end will be incorporated into the production system - Will be used by 4300 agency users to synthesize and display critical administrative information ## Next Year’s Infusion & Impact Goals (3) - ComPASS will deliver tools which facilitate planning of observations which must be coordinated across multiple platforms - PI’s will use these tools to plan across existing observatories (ie. HST, Chandra, XTE) - An on-board Finite State Modeling application will be demonstrated (Altair MCS on WIRE to drive dynamic data downlink) - On-board autonomy will be more dynamic and driven by various stimuli rather than being fixed and time-tagged - Mission controllers will be able to easily modify the automation logic (without recompile) by uplinking a revised spacecraft model - Automation tasks will be able to easily migrate from ground to space, so will be optimally distributed / located for each mission - Downlink bandwidth will be optimized by sending state changes rather than individual telemetry points - Based on the demonstration, a new mission will elect to adopt the technology ## Next Year’s Infusion & Impact Goals (4) - The STScI will develop and deploy their “Astronomer’s Prototype Tools” as a direct result of the SEA, and building upon the SEA foundation - Astronomical tools will be Web-based, more graphical, intuitive, and interoperable - VisAGE will be used by Triana and MAP - Mission operators will be able to access engineering data visualizations via the Web - Mission operators will be provided with more advanced visualizations, such as 3D, to enable rapid analysis and analysis of complex data ## Next Year’s Infusion & Impact Goals (5) - SMART IMDA and IRP prototypes will be deployed and evaluated by candidate users - Validate approach, verify need, target user and funding source - The following year SMART will be infused to assist scientists in locating, identifying, and selecting observatory and other mission resources - Avatar will complete a follow-on shadow study and publish the results - The ACT prototype will be completed and demonstrated in a Nanosat scenario for evaluation by candidate missions - Select target mission and obtain buy-in (ie. ST-5) - Ultimately, the ACT will enable a new level of automation among communities of spacecraft which work cooperatively - The TSA will provide automated support to users via Agent technology ## Next Year’s Infusion & Impact Goals (6) - Constellation Challenge will demonstrate an end-to-end prototype for constellation control which encompasses: - Visualization - Avatar will demonstrate a revolutionary UI design to enable rapid comprehension of engineering information for hundreds of spacecraft concurrently - Planning – ComPASS concepts will be demonstrated across multiple existing observatories, and concepts will be extensible to constellation planning - FDIR – AMTAS will demonstrate machine learning of fault recognition and human procedures for fault isolation and recovery, and will automate and repeat human actions - Agents / Robotics – AL will use robots to demonstrate inter-spacecraft coordination and collaboration - Costellation Challenge concepts will be adopted by the ST-5 mission (’03 launch) ## Success Measures ## Success Measures - Cost-Benefit Ratio - Cost: How many hours you spend on this project - Benefit: - Reduced mission costs - Increased mission capabilities - Improve effectiveness of scientific research - Infusion Rate - Used? - By how many? - What impact? - What benefit to NASA? Scientists? Taxpayers? - Proposal Win Rate - Paper Publication Rate	en
converted_docs	825486	+--------------------------------------+-------------------------------+ \| ## \| Instructions: Complete ALL of \| \| \| the information below and \| \| ## REQ \| attach it to the appropriate \| \| UEST FOR PERSONNEL SECURITY SERVICES \| paperwork. \| \| \| \| \| #### U.S. DEPARTMENT OF AGRICULTURE \| \| +--------------------------------------+-------------------------------+ +-----------------------------------------------------------------------+ \| [The following action is requested on the individual named \| \| below:]{.underline} \| \| \| \| INITIAL INVESTIGATION \| \| \| \| REINVESTIGATION \| \| \| \| INTERIM SECURITY CLEARANCE \| \| \| \| UPGRADE SECURITY CLEARANCE \| \| \| \| INTERNAL TRANSFER OF SUITABILITY/SECURITY DETERMINATION (CHANGE IN \| \| USDA DEPT) \| \| \| \| RECIPROCITY: TRANSFER INVESTIGATION CONDUCTED BY ANOTHER AGENCY \| +-----------------------------------------------------------------------+ EMPLOYEE INFORMATION +---------------------------------+------------------------------------+ \| 1\. NAME: \| 2\. JOB STATUS: EMPLOYEE \| \| \| CONTRACTOR \| \| \| \| \| \| APPLICANT OTHER/VOLUNTEER \| +---------------------------------+------------------------------------+ \| 3\. POSITION TITLE: \| 4\. DOB/POB: \| +---------------------------------+------------------------------------+ JOB INFORMATION ------------------------------------ ---------------------------------- 5\. USDA AGENCY: 6\. DUTY LOCATION: ------------------------------------ ---------------------------------- +------------------------------------+---------------+-----------------+ \| > 9\. TYPE OF INVESTIGATION \| \| \| +------------------------------------+---------------+-----------------+ \| ##### TYPE OF INVESTIGATION \| Priority \| Standard \| \| \| \| \| \| (PICK ONE) \| (A) \| (C) \| +------------------------------------+---------------+-----------------+ \| SSBI \| \| \| +------------------------------------+---------------+-----------------+ \| BI \| \| \| +------------------------------------+---------------+-----------------+ \| LBI \| \| \| +------------------------------------+---------------+-----------------+ \| MBI \| \| \| +------------------------------------+---------------+-----------------+ \| ANACI \| \| \| +------------------------------------+---------------+-----------------+ \| NACLC \| \| \| +------------------------------------+---------------+-----------------+ \| SGI (SBI upgrade) \| \| \| +------------------------------------+---------------+-----------------+ \| SAC \| \| \| +------------------------------------+---------------+-----------------+ \| SSBI-PR \| \| \| +------------------------------------+---------------+-----------------+ \| PRI \| \| \| +------------------------------------+---------------+-----------------+ \| BGI (BI upgrade) \| \| \| \| \| \| \| \| PPR \| \| \| \| \| \| \| \| PTSBI \| \| \| +------------------------------------+---------------+-----------------+ +-----------------------------------------------------------------------+ \| 10\. REQUIRED ACCOUNTING INFORMATION \| \| \| \| OPAC-ALC: \| \| \| \| MISCELLANEOUS OBLIGATION NUMBER: \| \| \| \| \| \| \| \| AGENCY DATA: \| +-----------------------------------------------------------------------+ POSITION DESIGNATION INFORMATION +-----------------------------------------------------------------------+ \| 7. NATIONAL SECURITY POSITION (SF-86): YES NO, GO TO QUESTION #8 \| \| \| \| > POSITION SENSITIVITY LEVEL: SPECIAL-SENS(4) CRITICAL-SENS(3) \| \| > NON-CRITICAL SENS(2) \| \| \| \| LEVEL OF CLEARANCE: TS/SCI(4) TOP SECRET(3) SECRET(2) \| \| CONFIDENTIAL(1) NONE(0) \| \| \| \| > \\\IF YOU ARE REQUESTING A SECURITY CLEARANCE, THE \| \| > 'JUSTIFICATION FOR REQUESTED SECURITY CLEARANCE'* FORM \| \| > (AD-1188) MUST BE ATTACHED UNLESS YOU ARE REQUESTING A \| \| > REINVESTIGATION FOR THE SAME POSITION/LEVEL OF CLEARANCE. \| +-----------------------------------------------------------------------+ +-----------------------------------------------------------------------+ \| 8. PUBLIC TRUST POSITION (SF-85P): YES NO \| \| \| \| > POSITION SENSITIVITY LEVEL: HIGH RISK MODERATE RISK \| +-----------------------------------------------------------------------+ +-------------------------------+---------+----------------------------+ \| 12. REQUESTED BY: \| 13\. \| 14\. POINT OF CONTACT: \| \| \| * \| \| \| \_\_\_\_\_\_\_\_ \| DATE* \| NAME: \| \| \_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \| \| \| \| _\_\_\_\_\_\_\_\_\_\_\_\_\_\_ \| > \| PHONE: \| \| \| \| \| \| AUTHORIZING SIGNATURE \| \| \| +-------------------------------+---------+----------------------------+ ----------------------------------------------------------------------- 11\. REMARKS/NOTES: -----------------------------------------------------------------------	en
converted_docs	369649	Voluntary Report - public distribution Date: 7/28/2006 GAIN Report Number: RS6311 RS6311 Russian Federation Wine Stamp Numbers No Longer Needed 2006 Approved by: ![](media/image1.wmf)Allan Mustard American Embassy, Moscow Prepared by: Yelena Vassilieva and Tyler Wiltgen Report Highlights: Resolution 452 of July 22, 2006 stipulates that traders no longer have to provide excise stamp numbers on the form that accompanies a customs declaration; rather they must give notice that their products are marked with excise stamps. The replacement of numbers with notification of excise stamp marking will help to facilitate excisable product trade. Includes PSD Changes: No Includes Trade Matrix: No Unscheduled Report Moscow ATO \[RS4\] \[RS\] # Summary {#summary-1} In July, retail trade in wine and spirits was nearly halted in Russia due to a shortage of new excise stamps and the inability of traders to get the equipment necessary for application of these excise stamps. In addition, importers faced malfunctions in software designed to monitor product movement between producers/importers and consumers based on the excise stamps. These problems were forecast in GAIN Report RS5316 New Alcohol Law Likely to Disrupt Wine and Spirits Imports in January, GAIN Report RS5322 New Spirits Law Amended, GAIN Report RS6305 Russian Wine and Spirits Imports Halted Temporarily, and GAIN Report RS6309 Imported Wine and Spirits Removed from Store Shelves. In order to implement the new alcohol law, the Russian Government issued several resolutions, including Resolution 872 on December 31, 2005, entitled "On Documentation Attached to the Cargo Customs Declaration", which envisaged that importers would complete a form containing all importer/trader data and excise stamp numbers. Supervision of this process was delegated to the Federal Service for Consumer Rights Protection and Human Well-being (Rospotrebnadzor). Absence of this form may have been the reason for the withdrawal of wine from the market. Resolution 452 of July 22, 2006, stipulates that traders no longer have to provide excise stamp numbers on the form, but rather they must simply give notice that their products are marked with excise stamps. The replacement of numbers with simple notification of excise stamp marking will facilitate excisable product trade. The amendment also shows that government intentions of creating a national product movement control system failed, even while using the most modern technologies. An unofficial translation of Resolution 452 follows below. In addition to this new resolution, it is expected that the government will issue further instructions to importers based on difficulties surrounding the registration computer system. Importers cannot effectively use the Uniform State Computerized Information System (EGAIS), because they import many different brands and varieties of wine, and it takes weeks to input their information into EGAIS. Izvestiya newspaper claims acting Prime Minister Medvedev will sign a document stipulating that the EGAIS system begin a "trial implementation," during which importers must only notify the system of imported products and do not have to wait for the system\'s registration confirmation. Izvestiya comments that it will make no difference whether the system actually \"sees\" the commodity or not, rendering the system useless for its prescribed function---monitoring the movement of each bottle. # Resolution of the Russian Federation Government #452 (Unofficial translation) Resolution of the Government of the Russian Federation "On Amending GOR Resolution 872 dated December 31, 2005". Number 452, July 22, 2006 The Government of the Russian Federation decrees: To approve the attached amendments to GOR Resolution 872 dated December 31, 2005, "On Documentation Attached to the Cargo Customs Declaration" (Code of Laws of the Russian Federation, 2006, #4, Art. 323). Chairman of the Government\ of the Russian Federation M. Fradkov Amendments to Resolution 872 of the Government of the Russian Federation dated December 31, 2005, "On Documentation Attached to the Cargo Customs Declaration" 1\. In Item 3 of the form attached to the cargo customs declaration, which was approved by the said resolution: replace the words "excise stamps" with the words "notification of the presence of excise stamps marking the commodity", replace the words "serial number and numbers of excise stamps" with the words "commodity has been marked with excise stamps," 2\. In subparagraph "c" of paragraph 5 of "Rules for Filing of the Form Attached to the Cargo Customs Declaration," which were approved by the said resolution: replace the words "excise stamps" with the words "notification of the presence of excise stamps marking the commodity"; replace the words "to specify the serial number and numbers of excise stamps marking the commodity" with the words "for confirmation of marking of commodities with excise stamps" and the words "commodity has been marked with excise stamps" shall be written down.	en
all-txt-docs	601705	ROBERT A HICKEY, PETITIONER V. UNITED STATES OF AMERICA No. 90-7563 In The Supreme Court Of The United States October Term, 1990 On Petition For A Writ Of Certiorari To The United States Court Of Appeals For The First Circuit Brief For The United States In Opposition OPINION BELOW The opinion of the court of appeals is reported at 918 F.2d 254. The opinion of the district court denying petitioner's motion to suppress (Pet. App. 1a-5a) is not reported. JURISDICTION The judgment of the court of appeals was entered on November 2, 1990. By order dated January 22, 1991, Justice Souter granted an extension of time to file a petition for a writ of certiorari to and including April 1, 1991. The petition was filed on that date. The jurisdiction of this Court is invoked under 28 U.S.C. 1254(1). QUESTIONS PRESENTED 1. Whether the police had probable cause to search the car that petitioner's co-defendants were driving. 2. Whether the warrantless search of bags inside the car's trunk was lawful when the police had probable cause to believe that the bags contained contraband or other evidence of crime. 3. Whether a police officer should have been precluded from identifying petitioner in court because the officer, after positively identifying petitioner in two photospreads, also saw petitioner when he was arrested and booked. STATEMENT Following a jury trial in the United States District Court for the District of Massachusetts, petitioner was convicted of armed bank robbery, in violation of 18 U.S.C. 2113(d), conspiracy to commit that offense, in violation of 18 U.S.C. 371, and using a firearm during a crime of violence, in violation of 18 U.S.C. 924(c). He was sentenced to concurrent terms of imprisonment of 216 months on the bank robbery count and 60 months on the conspiracy count, and to a consecutive term of 60 months' supervised release. He was also ordered to pay $29,933 in restitution. The court of appeals affirmed. /1/ 1. The evidence at trial established that on October 18, 1988, at about 12:30 p.m., three men in nylon stocking masks robbed a branch of the Bank of New England in Braintree, Massachusetts. Two men jumped over the counter and took cash from the tellers' drawers. The smaller of the two men, identified as co-defendant John Maguire, was armed with a small handgun and pushed a teller into a closet. A third robber, identified as Thomas Kavanagh, brandished a large, long-barreled gun in the lobby. The three men left with $29,985.45 in cash and fled in a waiting car, driven by a fourth man. 918 F.2d at 256. While the robbery was in progress, one of the bank tellers tripped the bank's silent alarm system, and the police broadcast a bank-robbery-in-progress report over the police radio. Lt. Donald Murphy, an off-duty police officer, heard the report while he was at home. Murphy, a 16-year veteran of the Braintree Police Department, knew from prior experience that other robbers of the Braintree Branch of the Bank of New England had switched getaway cars at the South Shore Plaza, which is less than one mile from his house and from the bank. Murphy immediately drove towards the plaza in his private, unmarked truck. 918 F.2d at 257. En route to the plaza, Lt. Murphy heard another police radio report stating that the three armed men had fled the bank by car. Drawing on his experience, Murphy assumed that there was a fourth man driving the car, and he also assumed the men were white, since the report did not identify their race. As he neared the plaza, Murphy saw four men, each carrying a bag, climb down a highway embankment and crawl through a fence separating the embankment from the street that runs alongside the plaza. /2/ At this point two minutes had passed since the initial report of the robbery. Ibid. The men brushed off their pants and neatened their hair as they stopped to cross the street; crossing it, they passed within a few feet in front of Murphy's truck and he clearly saw their faces. The men conferred briefly, then split into pairs and walked to two cars in the parking lot of the plaza, an Oldsmobile and a Hyundai. Each man placed the bag he was carrying in the trunk of one of the cars. Murphy noticed that one bag, a blue and tan one carried by Maguire, appeared to be very heavy and of the size and shape it would be if it contained guns and money. That bag, along with a paper bag carried by Kavanagh, was placed in the trunk of the Oldsmobile. Murphy recorded the license plate numbers of both cars and took another look at the two men in the Hyundai. Then he radioed for backup and followed the Oldsmobile out of the parking lot. 918 F.2d at 257. As he followed the car, Murphy saw both of its occupants bend over as if they were changing their shoes, and he observed the car swerve as Maguire, who was driving, changed his jacket. Suddenly the car made a U-turn into a gas station. Murphy held up his police radio so the men could see that he was following them, and the driver shifted into reverse, as if to escape. By that time, however, another police car had arrived, which blocked the car's escape. The men were ordered out of the car and frisked. When asked, Maguire denied that he had been at the South Shore Plaza. Ibid. Murphy searched the car, including its trunk. He felt two guns in the blue and tan bag, opened it, and found two loaded revolvers inside. He also opened the paper bag, which contained a radar detector and a police scanner. (The police scanner was later identified as belonging to petitioner, and petitioner's fingerprints were found on batteries inside the scanner. Gov't C.A. Br. 10-11.) Maguire admitted that he had no permit for the guns, and the two men were arrested. 918 F.2d at 257. On the same day as the robbery, at police headquarters in Boston, Lt. Murphy was shown a photospread of known associates of Maguire and Kavanagh, and he identified a photo of petitioner as the driver of the Hyundai. 918 F.2d at 262-263. At the FBI office on the following day, Murphy was shown a different array of photographs, and he again chose a photo of petitioner as the driver of the Hyundai. (The Hyundai was later determined to be registered to petitioner. Gov't C.A. Br. 9.) Lt. Murphy also saw petitioner on two other occasions before trial. Murphy was the officer who booked petitioner at the Braintree Police Station on October 20, 1988, and Murphy was present when petitioner was arrested and booked by federal agents on October 26, 1988. 918 F.2d at 262. 2. The district court denied petitioner's motion to suppress the evidence seized from bags found in the trunk of the Oldsmobile. The court noted that the police officers were entitled to search the bags "as part of the automobile" if the officers had probable cause to search the entire car, and not just the bags. Pet. App. 4a-5a. The court found that Lt. Murphy had probable cause to believe that the car's occupants were the bank robbers and that the car contained "guns, money and other items related to the bank robbery." Id. at 4a. Accordingly, the court held that the bags contained in the trunk were properly searched. Id. at 5a. The district court also denied petitioner's motion to suppress evidence of Lt. Murphy's photographic identifications and to bar him from making an in-court identification. The court found that there was "no evidence" supporting petitioner's claim that the photospreads from which Murphy identified petitioner were suggestive so as to "render the evidence inadmissible or disqualify Murphy from making an identification in court." Pet. App. 2a. 3. The court of appeals affirmed. The court first concluded that the police had probable cause to arrest the occupants of the Oldsmobile given the "totality of circumstances," including Officer Murphy's experience with bank robberies and the "tightly forged chain of circumstances" surrounding the arrest. 918 F.2d at 258. The court further held that the officers had probable cause to search both the interior and the trunk of the car because they could reasonably believe that the entire car contained evidence of the bank robbery. Id. at 259-260. Distinguishing United States v. Chadwick, 433 U.S. 1 (1977), and Arkansas v. Sanders, 442 U.S. 753 (1979), the court of appeals held that the search of the containers was lawful under Untied States v. Ross, 456 U.S. 798 (1982). 918 F.2d at 260-261. /3/ The court of appeals also found no error in the admission of the out-of-court and in-court identifications of petitioner by Officer Murphy. The court held that the two photospreads from which Officer Murphy identified petitioner -- one at the police station on the day of the robbery, the other at an FBI office a day later -- were not impermissibly suggestive because they were comprised of a sufficient number of pictures, the men in the pictures were all of similar appearance, and Murphy was not influenced to pick petitioner's picture out of the group by those administering the photospread. 918 F.2d at 262-263. The court also found that, even if the photospreads had been suggestive, Murphy's identification of petitioner was sufficiently reliable to satisfy the test established by this Court in Neil v. Biggers, 409 U.S. 188, 199-200 (1972). The court noted that Murphy's photo identifications of petitioner were based on two clear viewings of petitioner -- once when Murphy observed petitioner in full face and in profile as he walked within 6 feet of the truck in which Murphy sat, and again when Murphy drove past petitioner in the parking lot as petitioner and his cohorts conferred for a brief time before driving away. 918 F.2d at 263-264. For the same reasons, the court found that Murphy's in-court identification of petitioner was also proper. Id. at 264-265. ARGUMENT 1. Petitioner contends (Pet. 17-20) that the police did not have probable cause to search the trunk of the Oldsmobile. However, the factual conclusion of both courts below that the police had probable cause to search the Oldsmobile when they stopped it was plainly correct. Moreover, this Court has already denied review of this question in this very case, see Maguire v. United States, No. 90-6759, cert. denied April 1, 1991, and petitioner has advanced no further reason why review would be appropriate. /4/ After Lt. Murphy, an experienced police officer, learned of the bank robbery, he correctly deduced that four white men were involved; within minutes of the report, he saw four such men, in a place they could logically have reached from the bank, each carrying a bag, one of which was the shape and weight of a bag that contained guns and money. From Murphy's experinece with previous bank robberies at the very branch that had just been robbed, he believed that the robbers would likely use a certain parking lot to switch getaway cars, as other would-be robbers had done. Sure enough, the four men climbed down an expressway embankment, through a fence, and toward the vary parking lot on which Murphy's suspicions had focused. They split up and entered separate cars after placing the bags they had been carrying in the trunks of the two cars. As Murphy followed one of the cars, he saw that the men inside appeared to be changing clothes, as if to conceal their identities. The driver made an abrupt U-turn into a gas station, and attempted to flee once Murphy revealed his identity. When asked if he had come from the parking lot from which Murphy had followed him, Maguire lied and said no. On these facts, the police had probable cause to believe that the men were two of the bank robbers and that the car they were driving contained evidence of the robbery. 918 F.2d at 258-260. The district court and court of appeals assessment of the facts in this case represents a reasonable analysis of the totality of the circumstances according to the proper standard of practical and common sense notions of probabilities. Cf. Illinois v. Gates, 462 U.S. 213, 231-232 (1983). In any event, the conclusion of both courts below that the particular set of circumstances presented in this case provided the officers with probable cause is the kind of fact-bound determination that does not merit further review by this Court. 2. Petitioner also contends (Pet. 20-27) that the police acted illegally in opening without a warrant the paper bag they found inside the car trunk which contained petitioner's police scanner and batteries with his fingerprints on them. He argues that Officer Murphy had probable cause only to believe that the bags in the trunk contained evidence of the robbery, and that his warrantless search of the bag therefore violated the Fourth Amendment under this Court's decisions in United States v. Chadwick, 433 U.S. 1 (1976), and Arkansas v. Sanders, 442 U.S. 753 (1979). In light of this Court's decision in California v. Acevedo, No. 89-1690 (May 30, 1991), it does not matter whether Officer Murphy had probable cause to search the entire car, as the court of appeals held, or whether Officer Murphy's probable cause focused entirely on the bags in the trunk of the car, as petitioner argues. In either case, Officer Murphy was entitled to search the bags in the trunk without first obtaining a warrant. Acevedo, slip op. at 10-11, 14. 3. Finally, petitioner challenges (Pet. 32-35) the admissibility of Officer Murphy's in-court identification of him. He no longer disputes that the two photospreads from which Officer Murphy positively identified petitioner immediately after the robbery were proper. See 918 F.2d at 262-264. He now argues only (Pet. 32-33) that Murphy's viewings of petitioner at his arrest and booking, which occurred after the photospread identifications but before trial, were so impermissibly suggestive that they tainted Murphy's in-court identification. Contrary to petitioner's contention (Pet. 33), the court of appeals did not fail to address this aspect of his claim. After finding that Officer Murphy's positive identification of petitioner in two separate photospreads was properly admitted at trial -- both because the photospreads were not suggestive and because Murphy's identification was reliable -- the court of appeals concluded that any suggestive impact that the later show-ups might otherwise have had on Murphy's in-court identification of petitioner was inconsequential. 918 F.2d at 262, 264-265. That conclusion is entirely sensible. Even assuming that one-on-one show-ups, as a general matter, are "inherently suggestive" (Pet. 34-35), it is highly doubtful that the two intervening show-ups in this case so undermined Murphy's identification of petitioner at trial as to "give rise to a very substantial likelihood of irreparable misidentification." Simmons v. United States, 390 U.S. 377, 384 (1968). On the contrary, Murphy had already positively identified petitioner in two settings that were not suggestive in the least. Manson v. Brathwaite, 432 U.S. 98, 114 (1977) ("reliability is the linchpin in determining the admissibility of identification testimony"); see also Neil v. Biggers, 409 U.S. 188, 199-200 (1972). CONCLUSION The petition for a writ of certiorari should be denied. Respectfully submitted. KENNETH W. STARR Solicitor General ROBERT S. MUELLER, III Assistant Attorney General KATHLEEN A. FELTON Attorney MAY 1991 /1/ Petitioner was charged together with John J. Maguire, Thomas M. Kavanagh, and William Ferreira. Petitioner's motion for severance was granted, and he was tried separately. All four men were convicted on all counts. 918 F.2d at 256. Petitioner, Maguire, and Kavanagh appealed their convictions, which the court of appeals consolidated. Ibid. Maguire filed a separate petition for a writ of certiorari, No. 90-6759, which was denied on April 1, 1991. /2/ The only way to get from the highway to the South Shore Plaza is by climbing down the embankment. Within an hour, the car in which the robbers had escaped was found abandoned on the expressway adjacent to the embankment, about 20 yards from where the four men had crawled through the fence. /3/ Because the court found that the search of the trunk was proper, it did not decide whether the district court correctly determined, Pet. App. 3a, that petitioner had standing to challenge that search. 918 F.2d at 261. It did note, however, that under First Circuit precedent, petitioner did not have a privacy interest in the trunk of a car he did not own, possess, or ride in sufficient to be able to raise a Fourth Amendment challenge to the search of the car. Ibid. /4/ Petitioner is mistaken in claiming (Pet. 28) that the issue of his standing is not properly before this Court. Although the First Circuit found it unnecessary to resolve that question in light of its holding that the search of the car trunk was lawful, this Court could not avoid the question. Unlike the consolidated case before the First Circuit, in which two of the three appellants clearly had standing to challenge the search, this petition involves only one petitioner whose right to contest the validity of the search is seriously in question. As we argued before the district court and the First Circuit, petitioner exhibited no legitimate expectation of privacy merely by permitting his property to be concealed in someone else's car. See Gov't C.A. Br. 12-18. This Court could therefore not properly decide the Fourth Amendment claim pressed by petitioner unless it first established that petitioner had standing to assert the claim. See Rakas v. Illinois, 439 U.S. 128, 138-140 (1978) (question of standing is inextricably linked to whether a Fourth Amendment violation has occurred).	en
converted_docs	316012	SUMMARY OF TELECONFERENCE DISCUSSION July 27 2006, 1 pm -- 3 pm EST Present: T. Hamill (CDC), J. Anderson and J. Tribbia (NCAR), C. Bishop and Dan (NRL), M. Zupanski (CIRA/CSU), I. Szunyogh (UMD), Y. Song, Z. Toth and M. Wei (NCEP/EMC) ( E. Kostelich, J. Whitaker and E. Kalnay on vacation or leave) Agenda: > 1). Review of progress by each group (with slides if possible) > > 2). Plans for the next 3-6 months by each group > > 3). Status of benchmark, discussion on unified verification of results Craig Bishop and Dan: Showed a new way of doing covariance localization for ensemble based Kalman filter data assimilation system. They provided 3 slides showing how to estimate the forecast error covariance matrix using historical data by modulation. The experiments using this method on a simple system showed positive results. A full description of this method is expected at later stage. Milija Zupanski: After securing accounts on NCEP IBM computers and experiments have started to test his MLEF (maximum likelihood ensemble filter). MLEF is similar to ETKF, except solves for mode (instead of mean) of distribution. It has tested the simulated and real obs in NCEP operational environment. Further experiments are planned. Tom Hamill: After successfully compared their ensemble data assimilation results with T62 NCEP SSI benchmark, using same or less amount of conventional data, some satellite data have been added to the experiments. The preliminary results are very positive. The pace of further experiments is delayed by the lack of computer resources. They are looking NCEP for help. Istvan Szunyogh: Started work with real obs, and applied ETKF formulation to local patches, each grid point at a time. The algorithm is very efficient. They gave the code to Jeff Whitaker to compare with his square root filter. Plan to do more research on use of additive inflation procedures. Studied the effect of imperfect model on DA results, using bias correction. Two slides distributed showed positive results. Jeff Anderson (Unfunded collaborator): No funding from NOAA. Developed a more scalable generic filter, looked at sampling error in ensemble filters. The system runs an ensemble of ensembles (4-8) to estimate the error covariance localization factors. This procedure is very expensive, but only needs to do it once in a while. They argued that this method of generating covariance localization factors will make the filter more scalable and more generic. Yucheng Song: Briefly described a new NCEP T62 SSI benchmark analysis/forecast data set . The new benchmark is based on using satellite data as more groups are ready to handle larger number of observations. Zoltan Toth: Pointed out there is a need for different groups to share some common verification packages in order to compare different algorithms and filters. NCEP/EMC will initiate the discussion toward the development of common verification software.. SUMMARY OF TELECONFERENCE DISCUSSION July 29 2005, 11 am -- 1 pm EST Present: J. Whitaker (CDC), J. Anderson (NCAR), C. Bishop (NRL), M. Zupanski (CIRA/CSU), I. Szunyogh, E. Kostelich (UM), Y. Song, and Z. Toth (NCEP/EMC) (T. Hamill missed the call, M. Wei on travel) Agenda: > 1\. Brief description of activities in first year - Each group > described their work and main results Jeff Whitaker Successfully compared their ensemble data assimilation results with T62 NCEP SSI benchmark, using same or less amount of data (in fact, only 75-150k pieces of data were used, compared with \~300k in SSI -- only data from +/-1 hr window used, and even that was thinned). No radiance, radar, or scatterometer data used. Results are very encouraging, 5-10% rms error reduction compared with SSI results (see his slides). Processing of remotely sensed data with same sequential algorithm is not practical, looking for alternative solutions (ETKF?) Tested 3 types of variance inflation methods, difference between successive archived analysis fields may work best, simple inflation by a coefficient almost as good Istvan Szunyogh Started work with simulated obs, worked well. Adapted ETKF formulation, still applied locally (region by region), very efficient algorithm. When switched to assimilation of real observations some bugs got into code, working on clearing up software. Expects some results by end of summer 2005. Looking into use of additive inflation procedures. Analyzing effect of imperfect model on DA results, using bias estimation ideas. Discussed a slide indicating that a relatively small ensemble may be able to well describe low dimensional dynamics for global circulation (PECA-type analysis). Craig Bishop Was unable to hire post-doc, working with Master level student, had to adjust research plans somewhat. Worked on producing large ensembles with ETKF. In parallel, work on generating ensemble perturbations to be centered around NAVDAS variational analysis, similar to M. Wei's research at NCEP: use estimate of analysis error variance derived from NAVDAS to constrain initial ensemble variance using ET algorithm. Reports that successfully used ET technique to inflate covariance: uses ET to transform old archived ensemble data tfor inflating variance in tropics of current ensemble Toth points out link between this work and that of D. Hou at EMC who plans to use similar technique to introduce stochastic perturbations. Plans to experiment with combining ensembles from different sources. Milija Zupanski Hired postdoc, secured accounts on NCEP IBM computers. Plans to test his method, similar to ETKF, except solves for mode (instead of mean) of distribution. Currently setting up software on NCEP machines, will start testing with simulated obs soon, in couple of mos will start using real obs. Plans using bos operators and other applicable software from NCEP SSI code. This will enable quick technology transfer to NCEP operations if research is successful. Jeff Anderson (Unfunded collaborator) Made an attempt to port GFS system to NCAR. Work is not complete, no funding from NOAA. Worked on generic filters, looked at sampling error in ensemble filters. Found a solution where no inflation is needed in perfect model setup. Ran some experiments, without much tuning, with NCAR T85 CAM climate model, real observations, January 2003 cases, using radiosonde and other traditional data, but no radiances. Compared results with GFS T254 operational system (p. 16 of his slides). Very encouraging results, 5-10+% rms error reduction for temperature, even larger reduction for low level wind errors. Problem with winds higher up traced to use of inaccurate obs error variances with ACAR data. Yucheng Song Briefly described NCEP T62 SSI benchmark analysis/forecast data set that he prepared for use by other groups (see below) Zoltan Toth Pointed out few links between external research and NCEP development activities: Connection between model error studies of B. Hunt (UM) and M. Pena (EMC); ET initialization by C. Bishop (NRL) and M. Wei (EMC); Inflation with ET method by C. Bishop (NRL) and D. Hou (EMC). > 2). Preliminary discussion on plans for 2^nd^ year ZT commented that the results by JW-TH & FA are very encouraging, and warrant continuation of ensemble-based DA research work. There was general agreement on this. JW and CB discussed potential for using ensemble covariance information for improving variational schemes. They pointed out the demonstrated ability of variational schemes to process large amounts of data. JA made the point that ensemble-based DA is a new field and there is no evidence that these methods could not be modified to cope with heavy data volume, all agreed on this. MZ mentioned that after working on 4DVAR for 10 yrs, he switched to ens-DA methods because he believes they offer a theoretically more appealing approach. IS & ZT pointed out that CPU limitations on current operational machines should not constrain research aimed at 3-5 years into the future. Focus should be on understanding whether and how much improvements can be gained by using ens-DA methods compared to variational methods. Algorithms should be built with resource limitations in mind, but that should not be the primary consideration at this stage. Optimization of procedures can be considered and will become more important as the research evolves. ZT suggested each group to continue their work under their proposal, and the project to keep focusing on ensemble-based data assimilation methods. Work on hybrid methods (where information from a set of ensemble members are used in variational DA) is encouraged but the THORPEX ens-DA funds should support the development and testing of ensemble-based DA schemes. This research has a horizon of 3-5 yrs, as compared to hybrid applications that if funded through other mechanisms may bring some benefits on shorter time scale. > 3\) Collaborative work within the project ZT discussed the possibility of JW-TH, beyond their own research, playing a central role in trying to build prototype ens-DA system as time goes that would include useful and new results from any of the participating groups. This will be further discussed at next meeting. Proposed dates/time for next meeting: Sept 7, 1-3 pm eastern time Sept 9, 11 am -- 1 pm eastern time Proposed agenda: 1) Review detailed plans for yr2 (each group present their plans) 2) What should be our stated goal for yr2 as a group? Like for first year, we wanted to generate a benchmark, have initial comparison; what should we aim to accomplish by end of yr2? 3) How to enhance collaboration? The NCEP T62 Benchmark run Yucheng Song This document summarizes the benchmark experiment done at NCEP in preparation for the inter-comparison of different ensemble-based data assimilation schemes. MODEL VERSION To be comparable to the four independent groups that work on ensemble-based data assimilation (EBDA), we used the executable of global forecast model (named global_fcst6228, which is Triangular truncation T62 with 28 levels) archived at NCEP high performance storage system (HPSS). For the assimilation, we used the executable compiled on March 2 (which is named as global_ssi). For interested users who have accounts at NCEP, the source is /hpssprod/runhistory/rh2004/200405/20040530/nwprod.tar TEST PERIOD From January 1 to the February 29 of 2004, the first \~15 days are also archived, thought they might be excluded from the evaluation. EXPERIMENT PLATFORM The benchmark experiment is finished on NCEP IBM BLUE machines. OBSERVATIONS TO BE USED The post quality control (post-qc) files are used for the experiment. A note here is that the data has been processed by comparing with the high-resolution gdas guess files. The input data files used are archived onto HPSS as well which is named /hpssuser/g01/wx20ys/Benchmark/dump.tar. The file also contains SST, ICE and SNOW data files used for the experiment. ARCHIVED FILES Every 6 hours, for the 00Z and 12Z cycle, pgb (pressure level grib) files are archived on the NCEP HPSS system. Bias correction, satellite angle, surface analysis as well as sigma analysis files are also archived. There are 31 levels in the pgb file, they are: 1000 975 950 925 900 850 800 750 700 650 600 550 500 450 400 350 300 250 200 150 100 70 50 30 20 10 7 5 3 2 1mb HOW TO GET THE FILES Data are archived on HPSS by day, for example, to get the data file for Feb 24, in your desired directory, you can issue command like -- hpsstar get /hpssuser/g01/wx20ys/Benchmark/20040224.tar The command hpsstar is Mark Iredell's version of tar which is convenient to use. Users can also use htar to get the files. QUESTIONS or COMMENTS If after going through this entire document, you still have questions, please let me know. I can be reached at yucheng.song@noaa.gov. SUMMARY OF TELECONFERENCE DISCUSSION April 7, 2004, 2-3 pm EST Present: J. Whitaker, T. Hamill (CDC), J. Anderson, J. Tribbia (NCAR), C. Bishop (NRL, joined later), M. Zupanski (CIRA/CSU), I. Szunyogh, E. Kostelich (UM), M. Wei, R. Wobus, Y. Zhu, and Z. Toth (NCEP/EMC) General issues: 1) Funding ZT mentioned that two participating groups will likely receive more funding than initially thought, restoring funding level to that originally requested by one group. 2) Use of real observations or simulated observations in a perfect model framework? ZT emphasized the main focus should be on inter-comparison of different methods using real data. Several participants pointed out science advantages of carrying out perfect model data assimilation experiments as well. It was agreed that if resources permit, the project would include perfect model DA experiments as well. Rest of the discussion focused on real obs experiments, since this is the primary interest from NCEP's point of view, and this is the setup that should drive basic experimental design etc. It was noted that the addition of perfect model DA experiments would not double resources needed for the project. JA noted that NCAR could generate data based on a model integration. ZT pointed to the NCEP OSSE software that should preferably be exercised for generating simulated data (with realistic observational error). Participants (including EMC) are asked to assess whether the addition of perfect model experiments is within their reach. In case it is, details of the perfect model setup will be discussed after plans are fleshed out, and work begins with real observations. 3) Software infrastructure to be used. ZT recalled that whenever possible, software available from NCEP (NWP model, observation operators, file format, verification routines, etc) should be used. In case new software needs to be developed in the inter-comparison project, it should be compatible with existing NCEP software and practices. These practices will insure that as the project progresses, participants can easily exchange parts of their software, can start working jointly on a prototype software, that can later be tested in an operational environment. Experimental design: 1) Test period After short discussion, participants agreed to use Jan-Feb 2004 as a test period. The first \~15 days will be excluded from the evaluation. 2) Observations to be used Data types. After some discussion, participants agreed that in the main experiment, the following data types will be used: Surface observations, radiosondes, ACAR winds, cloud drift winds. Participants can ignore some of the observation types as they wish. Data files. The NCEP prebufr files from the final gdas analysis cycle will be used. EMC is going to make the gdas1 prepbufr files (including restricted access data, please confirm you have privileges to use that, and whether you can all use blocked data format) available on the IBM machine in a few days. There was some discussion about using CDAS data files. These files use a much longer data cut-off time that does not allow for their use in real time weather forecasting. Also, they may not contain some new data types that in further analysis we may want to consider. In addition to the basic experiment, participating groups can also run a second experiment where they include additional data types. Observational period. Following the usual practice (also reflected in +/-3 hrs time window for data included in prepbufr files) analyses performed at the nominal 0000 UTC time, for example, will use data up to 3 hrs after the nominal analysis time (0300 UTC). It was noted that unlike 3DVAR where through time interpolation, "future" data are used (currently up to 3 hrs into the future), ensemble-based schemes are filters that may use data only up to the time of the analysis. Therefore, if participants desire, they can choose to perform an analysis step at 0300 UTC (using data up to that valid time), for a comparison with SSI forecasts initialized at 0000 UTC (that also use data up to 0300 UTC). Issues not discussed/settled yet: Observational error statistics. This has not been discussed. Suggestion -- use observational error statistics as used in operational 3DVAR, given in prepbufr files. Quality control. This issue has not been discussed yet. Suggestion -- use operational QC marks as given in prepbufr files. Agree about cut-off value regarding QC mark below/above which data will/will not be used. 3) Data assimilation Cycling frequency: Each group decide on their own. Suggestion - required minimum analysis frequency every 6 hrs (available at 00, 06, 12, and 1800 UTC). Next meeting, tentative: Monday, 11 April, 10 am Pacific, 11 am Mountain, 1 pm Eastern time Continue with discussion of remaining experimental design issues in strawperson plan. INTERCOMPARISON OF DIFFERENT ENSEMBLE-BASED DATA ASSIMILATION SCHEMES (Jan. 21, 2004) GENERAL DESCRIPTION BACKGROUND. Currently there are four groups that work independently with different ensemble-based data assimilation (EBDA), or ensemble generation schemes using the NCEP global assimilation/forecasting software: Jeff Anderson and David Parrish -- developed EBDA software (Ensemble Adjustment Filter, EAF) and are in the process of testing it with T62 GFS system Mozheng Wei et al. -- developed/adapted ensemble perturbation software based on EBDA concept using Ensemble Transform Kalman Filter (ETKF) algorithm, in the process of testing initial perturbation scheme. This scheme will first be tested only as an initial perturbation generation tool. Later it can be adapted and tested for data assimilation applications, too. Istvan Szunyogh et al. -- developed EBDA software (regional variant of ETKF, RETKF) using GFS model, tested in perfect model environment, in the process of setting up software to assimilate actual observations Whitaker and Hamill -- developed EBDA software (Ensemble Square Root Filter, ESRF, related to EAF), and tested it using limited surface observations OBJECTIVE. Compare the performance of the different schemes in terms of the quality of their data assimilation and ensemble initial perturbations results. Identify the strengths and weaknesses of each scheme. WORK SCHEDULE. The inter-comparison part of the project will be completed in 12 months, depending on available resources. Suggested starting date is Febr. 1, 2004. Febr. 04 Work plan finalized March-May Prepare software June-Oct. Run (and if necessary, rerun) experiments Nov.-Dec. Verification/evaluation Jan. 05 Short summary report, with recommendations for future work LONG TERM BENEFITS. The most promising elements identified in the different EBDA schemes will be used to construct an EBDA scheme to be further developed and later tested in a quasi-operational environment. It is anticipated that most or preferably all groups will contribute to the design of a scheme for future development. PROJECT CREDO. The four groups will seek agreement on the specifics of an experimental design that each group can accept and adopt, allowing for a fair comparison of the different techniques. The four groups will agree to use a common set of values/procedures for several important aspects of the experiments. The use of a common experimental design will allow the identification and attribution of differences in performance that arise due to the differences between the various EBDA schemes themselves. WORK PLAN. Each group will make the necessary modifications to their software and will perform the experiments on their own computers. Verification software and benchmark experiments will be provided by NCEP. EXPERIMENTAL DESIGN BACKGROUND. The specifics below are based on initial discussions with some project participants and are presented here only as a starting point for discussions. The four groups are expected to develop and agree on the details of the inter-comparison study. EXPERIMENTS Test period: 2-month period from most recent winter (Jan-Febr 2004?) OBSERVATIONS Data set: NCEP operational prepbufr and satellite data files, containing data in +/-3hr chunks > Data selection: There are two options here. Each group uses (1) all > data they can; (2) the largest set of observations that every group > can assimilate (ie, model variables with height assignment)? > > Error statistics As given in operational data files DATA ASSIMILATION Output frequency: 6 hourly? > Model error: Common approach (eg, multiplicative noise), or allow > different treatment by each group? FORECASTS Model version: NCEP GFS, operational at start of project > Resolution: T62L28 Digital filter: Turned off? ENSEMBLE Size: 50-100 members (40?) Surface fields: Same for all members? Frequency/length: Once per day (00Z), output every 12 hrs out to 7.5 (or 16?) days Output format: Enspost files Output variables: 1000 & 500 hPa geop. height, 850 hPa temp, u&v winds at 850 & 250 hPa, and precip VERIFICATION Data assimilation Fit of mean of first guess forecasts (in sigma or standard pressure GRIB file) to observations, based on standard statistics used at NCEP > Initial perturbations Reposition initial ensemble members to be > centered around operational SSI analysis. Run set of ensemble > forecasts and evaluate them using standard NCEP probabilistic > verification measures BENCHMARK Data assimilation: Operational SSI analysis, run at equivalent resolution > Initial perturbations: Operational bred perturbations (at equivalent > resolution	en
converted_docs	230181	![](media/image1.png){width="5.96875in" height="0.41944444444444445in"} Top of Form ## Complete Summary #### GUIDELINE TITLE Urinary tract infection---child. #### BIBLIOGRAPHIC SOURCE(S) Podberesky DJ, Unsell BJ, Gunderman R, Blatt ER, Coley BD, Fordham L, Prince JS, Feins N, Rodriguez W, Expert Panel on Pediatric Imaging. Urinary tract infection - child. \[online publication\]. Reston (VA): American College of Radiology (ACR); 2006. 7 p. \[70 references\] #### GUIDELINE STATUS This is the current release of the guideline. This guideline updates a previous version: Gelfand MJ, Parker BR, Kushner DC, Babcock DS, Cohen HL, Hernandez RJ, McAlister WH, Royal SA, Slovis TL, Smith WL, Strain JD, Strife JL, Rushton HG. Urinary tract infection. American College of Radiology. ACR Appropriateness Criteria. Radiology 2000 Jun;215(Suppl):847-54. The appropriateness criteria are reviewed annually and updated by the panels as needed, depending on introduction of new and highly significant scientific evidence. ### COMPLETE SUMMARY CONTENT SCOPE\ METHODOLOGY - including Rating Scheme and Cost Analysis\ RECOMMENDATIONS\ EVIDENCE SUPPORTING THE RECOMMENDATIONS\ BENEFITS/HARMS OF IMPLEMENTING THE GUIDELINE RECOMMENDATIONS\ QUALIFYING STATEMENTS\ IMPLEMENTATION OF THE GUIDELINE\ INSTITUTE OF MEDICINE (IOM) NATIONAL HEALTHCARE QUALITY REPORT CATEGORIES\ IDENTIFYING INFORMATION AND AVAILABILITY\ DISCLAIMER ### SCOPE #### DISEASE/CONDITION(S) Urinary tract infection (UTI) #### GUIDELINE CATEGORY Diagnosis #### CLINICAL SPECIALTY Family Practice\ Nephrology\ Pediatrics\ Radiology\ Urology #### INTENDED USERS Health Plans\ Hospitals\ Managed Care Organizations\ Physicians\ Utilization Management #### GUIDELINE OBJECTIVE(S) To evaluate the appropriateness of initial radiologic examinations in pediatric patients with urinary tract infection #### TARGET POPULATION Pediatric patients with urinary tract infection #### INTERVENTIONS AND PRACTICES CONSIDERED 1. Invasive (INV), voiding cystourethrography (VCUG) 2. Nuclear medicine (NM) - Radionuclide cystography (RNC) - Renal cortical scintigraphy (RCS) plus pinhole imaging or single photon emission computed tomography (SPECT) 3. Ultrasound (US), kidneys and bladder, including power Doppler sonography 4. Computed tomography (CT), abdomen, with contrast 5. Magnetic resonance imaging (MRI), abdomen and pelvis, with contrast 6. X-ray, intravenous pyelography (IVP) #### MAJOR OUTCOMES CONSIDERED Utility of radiologic examinations in differential diagnosis ### METHODOLOGY #### METHODS USED TO COLLECT/SELECT EVIDENCE Searches of Electronic Databases #### DESCRIPTION OF METHODS USED TO COLLECT/SELECT THE EVIDENCE The guideline developer performed literature searches of peer-reviewed medical journals and the major applicable articles were identified and collected. #### NUMBER OF SOURCE DOCUMENTS The total number of source documents identified as the result of the literature search is not known. #### METHODS USED TO ASSESS THE QUALITY AND STRENGTH OF THE EVIDENCE Weighting According to a Rating Scheme (Scheme Not Given) #### RATING SCHEME FOR THE STRENGTH OF THE EVIDENCE Not stated #### METHODS USED TO ANALYZE THE EVIDENCE Review of Published Meta-Analyses\ Systematic Review with Evidence Tables #### DESCRIPTION OF THE METHODS USED TO ANALYZE THE EVIDENCE One or two topic leaders within a panel assume the responsibility of developing an evidence table for each clinical condition, based on analysis of the current literature. These tables serve as a basis for developing a narrative specific to each clinical condition. #### METHODS USED TO FORMULATE THE RECOMMENDATIONS Expert Consensus (Delphi) #### DESCRIPTION OF METHODS USED TO FORMULATE THE RECOMMENDATIONS Since data available from existing scientific studies are usually insufficient for meta-analysis, broad-based consensus techniques are needed for reaching agreement in the formulation of the appropriateness criteria. The American College of Radiology (ACR) Appropriateness Criteria panels use a modified Delphi technique to arrive at consensus. Serial surveys are conducted by distributing questionnaires to consolidate expert opinions within each panel. These questionnaires are distributed to the participants along with the evidence table and narrative as developed by the topic leader(s). Questionnaires are completed by participants in their own professional setting without influence of the other members. Voting is conducted using a scoring system from 1-9, indicating the least to the most appropriate imaging examination or therapeutic procedure. The survey results are collected, tabulated in anonymous fashion, and redistributed after each round. A maximum of three rounds is conducted and opinions are unified to the highest degree possible. Eighty percent agreement is considered a consensus. This modified Delphi technique enables individual, unbiased expression, is economical, easy to understand, and relatively simple to conduct. If consensus cannot be reached by the Delphi technique, the panel is convened and group consensus techniques are utilized. The strengths and weaknesses of each test or procedure are discussed and consensus reached whenever possible. If \"No consensus\" appears in the rating column, reasons for this decision are added to the comment sections. #### RATING SCHEME FOR THE STRENGTH OF THE RECOMMENDATIONS Not applicable #### COST ANALYSIS A formal cost analysis was not performed and published cost analyses were not reviewed. #### METHOD OF GUIDELINE VALIDATION Internal Peer Review #### DESCRIPTION OF METHOD OF GUIDELINE VALIDATION Criteria developed by the Expert Panels are reviewed by the American College of Radiology (ACR) Committee on Appropriateness Criteria. ### RECOMMENDATIONS #### MAJOR RECOMMENDATIONS ACR Appropriateness Criteria® Clinical Condition: Urinary Tract Infection \-- Child Variant 1: Age 0-2 years; maximum temperature \<38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Should be cycled. NM, radionuclide 9 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (girls) 8 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Should be cycled. NM, renal cortical 6 Small infants may present with scintigraphy (RCS) pyelonephritis without fever. Consider pinhole and/or SPECT. CT, abdomen, with 4 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 4 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) **Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Variant 2: Age 0-2 years; maximum temperature ≥38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Should be cycled. NM, radionuclide 9 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (girls) 8 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Should be cycled. NM, renal cortical 6 Small infants may present with scintigraphy (RCS) pyelonephritis without fever. Consider pinhole and/or SPECT. CT, abdomen, with 5 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 5 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Variant 3: Age 2-7 years; maximum temperature \<38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (boys) 8 Accurate in evaluation of reflux. Better anatomic differentiation. Consider cycling. NM, radionuclide 8 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. INV, VCUG (girls) 7 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Consider cycling. CT, abdomen, with 4 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 4 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. NM, renal cortical 3 Consider pinhole and/or SPECT. scintigraphy (RCS) X-ray, intravenous 2 pyelography (IVP) Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Variant 4: Age 2-7 years; maximum temperature ≥38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Consider cycling. US, kidneys and 9 Power Doppler sonography should be bladder included. NM, radionuclide 8 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. INV, VCUG (girls) 7 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Consider cycling. NM, renal cortical 6 Consider pinhole and/or SPECT. scintigraphy (RCS) CT, abdomen, with 5 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 5 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Variant 5: Age 8+ years; maximum temperature \<38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- US, kidneys and 8 Power Doppler sonography should be bladder included. INV, VCUG (boys) 5 INV, VCUG (girls) 5 NM, radionuclide 5 cystography (RNC) (boys) NM, radionuclide 5 cystography (RNC) (girls) CT, abdomen, with 4 contrast MRI, abdomen and 4 No ionizing radiation and sedation pelvis, with likely not required in this age contrast group. NM, renal cortical 2 Consider pinhole and/or SPECT. scintigraphy (RCS) X-ray, intravenous 2 pyelography (IVP) Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Variant 6: Age 8+ years; maximum temperature ≥38.5 degrees C. --------------------------------------------------------------------------- Radiologic Appropriateness Comments Procedure Rating -------------------- ------------------- ---------------------------------- US, kidneys and 8 Power Doppler sonography should be bladder included. INV, VCUG (boys) 5 INV, VCUG (girls) 5 NM, radionuclide 5 cystography (RNC) (boys) NM, radionuclide 5 cystography (RNC) (girls) NM, renal cortical 4 Most appropriate if localizing scintigraphy (RCS) symptoms not apparent. Consider pinhole and/or SPECT. CT, abdomen, with 4 contrast MRI, abdomen and 4 No ionizing radiation and sedation pelvis, with likely not required in this age contrast group. X-ray, intravenous 2 pyelography (IVP) Appropriateness Criteria Scale\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. Summary of Literature Review Definition of Urinary Tract Infection The urinary tract infection (UTI) should be well documented. Specimens from infants and young children collected in plastic bags are not acceptable because they are frequently contaminated; the use of bagged specimens leads to a child undergoing unnecessary imaging procedures. Sequelae of Urinary Tract Infection Cystitis in the absence of pyelonephritis is not associated with long-term sequelae. The incidence of scarring in children following infection of the renal parenchyma varies widely in the literature, with a mean of about 40% to 45% of cases across a wide age range. Renal insufficiency is an uncommon sequela of pyelonephritis in childhood, except in cases where there has been substantial prenatal injury due to obstruction or vesicoureteral reflux, and in cases with bilateral renal scarring. Hypertension appears to be a more common sequelum of moderately severe or severe scarring, affecting 10%--25% of young adults with significant renal scarring in increasing frequency through their second, third, and fourth decades. At this time, there is no evidence that a few scattered small parenchymal scars predispose adolescents or young adults to hypertension, but there may be some risk of hypertension associated with medium-sized scars. Risk of Pyelonephritis Children with vesicoureteral reflux (VUR) are at increased risk for pyelonephritis and parenchymal scarring. Long-term low-dose antibiotic suppression is widely used after the acute infection in children with VUR. Until 1986, it was thought that pyelonephritis in children occurred only when VUR was present, but it has become clear that more than half the cases of acute pyelonephritis occur in the absence of VUR. The incidence of acute pyelonephritis in the absence of documented VUR is much too high to be explained by intermittent VUR. Pyelonephritis in these children appears to be due to the same pathogens as in children with documented VUR. Previous episodes of pyelonephritis and VUR each place the child at increased risk for future episodes of pyelonephritis. Accurate diagnosis of acute pyelonephritis may affect the length of stay in hospitalized patients and may also affect treatment after the acute infection -- for example, the decision whether to place the child on antibiotic suppression. Imaging Evaluation** Clinical Diagnosis of Acute Pyelonephritis Approximately 50% to 90% of children hospitalized for acute pyelonephritis have evidence of acute pyelonephritis by the most accurate imaging examinations, and clinical signs and laboratory examinations are only moderately useful. The usual clinical definition of acute pyelonephritis (particularly in Europe) is fever of greater than 38.5°C, UTI adequately proven by culture, and elevated acute phase reactants (usually C-reactive protein \[CRP\] levels \>10 mg/L). In most series, approximately 50%--80% of children who meet these criteria have evidence of acute pyelonephritis on cortical scintigraphy. Voiding Cystography and VUR VUR is detected with equal sensitivity by fluoroscopic contrast voiding cystourethrography (VCUG) and direct radionuclide cystography (RNC). Failure to detect reflux by either method is usually due to intermittent low-grade VUR; in other words, the patient has intermittent VUR but simply did not reflux at the time the bladder was filled and imaged. A second filling of the bladder (cyclic cystography) is appropriate in children under 2 years of age who cannot inhibit voiding, and when there is a high suspicion that VUR is present, as children in both of these groups are at higher risk of developing renal damage from urinary infection. Cyclic cystography may be appropriate in children over 2 years of age as well. RNC has a much lower absorbed radiation dose than VCUG, but it does not have the spatial resolution needed to identify anatomic abnormalities of the urethra, bladder, and ureters. RNC is appropriate for follow-up of VUR and for screening asymptomatic siblings of children with VUR. Initial evaluation of VUR in girls may be done by RNC, unless there is reason to believe that a significant anatomic abnormality of the upper urinary tract is present (for example, from a prior ultrasound). The frequency of lower urinary tract findings other than VUR in girls with UTI is extremely low. Initial evaluation of VUR in boys should not be done exclusively by RNC, as adequate anatomic imaging of the urethra and bladder can only be done with VCUG. Detection of Acute Pyelonephritis and Renal Parenchymal Scarring Renal Cortical Scintigraphy (RCS) RCS using technetium-99m DMSA or technetium-99m glucoheptonate is sensitive and specific for detecting acute pyelonephritis in animal studies, with sensitivity of about 90% and specificity of 95%. RCS is more sensitive than ultrasound (US) and intravenous pyelography (IVP) in detecting renal parenchymal scars. In the typical clinical setting, however, acute pyelonephritis and renal parenchymal scarring are usually but not always distinguishable from each other by RCS. Although RCS images are of somewhat higher quality when technetium-99m DMSA is used, technetium-99m glucoheptonate has equal sensitivity for detecting acute and chronic pyelonephritis and allows identification of most dilated uropathies (which is somewhat more difficult with DMSA) due to its approximately 40% to 65% renal excretion. However, in the presence of significant hydronephrosis or dilative VUR, it may be difficult to differentiate cortical activity from collecting system activity with technetium-99m-glucoheptonate, which makes DMSA a more desirable agent for renal cortical imaging in most cases. Technetium-99m DMSA is preferred in small infants, in poorly functioning kidneys, and when other studies have identified dilated uropathy or high-grade VUR. Pinhole imaging or single photon emission computed tomography (SPECT) should be considered to maximize the sensitivity of RCS without loss of specificity. RCS may require sedation in young children. Ultrasonography (US) Gray-scale ultrasonography identifies about 25% of acute pyelonephritis and about 40% of chronic parenchymal scarring. Acute pyelonephritic changes, particularly renal enlargement, cannot be identified on US 1 to 2 weeks after presentation, when the acute infection has cleared. US reliably identifies severe parenchymal scarring, but not moderate or minimal scarring. Inter- and intraobserver error makes assessment of renal growth unreliable after the first year of life unless the period of observation is at least 12 to 18 months. US cannot reliably identify VUR, but it is extremely effective in identifying urinary tract malformations such as hydronephrosis, hydroureter, and ureterocele. It is noninvasive and does not involve ionizing radiation. While animal studies have shown power Doppler imaging to be significantly less accurate in detecting acute pyelonephritis when compared with other imaging modalities, recent clinical studies in children have shown good results. A positive power Doppler US may be able to obviate the need for a renal cortical scan in the detection of acute pyelonephritis in children. Contrast-Enhanced Computed Tomography and Magnetic Resonance Imaging Helical contrast-enhanced computed tomography (CT) and magnetic resonance imaging (MRI) after contrast administration are probably as sensitive as RCS in detecting acute pyelonephritis. Both CT and MRI provide more anatomic information about the collecting systems and ureters than is available from RCS, and both can provide information about renal scarring. CT has a considerably higher effective absorbed radiation dose than RCS. MRI is more expensive than CT, typically requires sedation in young children, and utilizes no ionizing radiation. MRI may be used to identify ectopic ureters and can provide renal functional data. Early studies indicate that post-gadolinium imaging may be most effective in identifying acute pyelonephritis, while T1-weighted sequences may be all that is necessary for identifying renal scarring. Intravenous Pyelography (IVP) IVP is insensitive when compared with other imaging modalities in the diagnosis of acute pyelonephritis or post-infectious scar. It is valuable in identifying detailed ureteral and calyceal anatomy, permitting characterization of duplication anomalies when this information is needed. Routine anatomic diagnosis is usually done by ultrasonography. IVP examinations in infants are often of poor quality. Choice of Upper Urinary Tract Examination in Children Acute pyelonephritis may occur in the absence of fever in an infant. If only a single upper urinary tract examination can be performed, the physician must compare the relative risk of failing to detect acute pyelonephritis when only power Doppler US is used to the risk of failing to detect dilated uropathy when only RCS is used. Appropriate sequencing of RCS and US also may be used to improve diagnostic yield and control imaging costs. Whenever it is important to identify both pyelonephritis and urinary tract dilatation (in an individual or a subpopulation), both RCS and US should be used, or alternatively, a single contrast-enhanced CT or MRI examination may be performed. Age and the Choice of Examination Findings on imaging studies vary considerably according to the age at which the child is imaged. It is well known that the incidence of VUR decreases with age. The prevalence of VUR in children with UTI drops from approximately 50% to 30% from 0 to about 2 years of age, plateaus at approximately 30% from about 2 to about 7 years of age, and then drops precipitously at about 7 years of age. Another factor that may support the use of age-specific algorithms is the higher incidence of acute pyelonephritis in young children with UTI when compared to infants with UTI. Infants and toddlers appear to be at greater risk for extensive renal injury from acute pyelonephritis than older children, and afebrile pyelonephritis is probably rare after the first year of life. In the school-age period, children between 5 and 8 years of age acquire the ability to identify acute pyelonephritis as flank pain. At the same time, the incidence of acute pyelonephritis is relatively low, and the incidence of VUR continues to decrease. Abbreviations - C, Celsius - CT, computed tomography - INV, invasive - IVP, intravenous pyelography - MRI, magnetic resonance imaging - NM, nuclear medicine - RCS, renal cortical scintigraphy - RNC, radionuclide cystography - SPECT, single photon emission computed tomography - US, ultrasound - VCUG, voiding cystourethrography #### CLINICAL ALGORITHM(S) Algorithms were not developed from criteria guidelines. ### EVIDENCE SUPPORTING THE RECOMMENDATIONS #### TYPE OF EVIDENCE SUPPORTING THE RECOMMENDATIONS The recommendations are based on analysis of the current literature and expert panel consensus. ### BENEFITS/HARMS OF IMPLEMENTING THE GUIDELINE RECOMMENDATIONS #### POTENTIAL BENEFITS Selection of appropriate radiologic imaging procedures for evaluation of pediatric patients with urinary tract infection #### POTENTIAL HARMS - Computed tomography (CT), radionuclide cystography (RNC), renal cortical scintigraphy (RCS), and voiding cystourethrography (VCUG) are associated with radiation. - Magnetic resonance imaging (MRI) in small children (under 8 years of age) requires sedation. ### QUALIFYING STATEMENTS #### QUALIFYING STATEMENTS An American College of Radiology (ACR) Committee on Appropriateness Criteria and its expert panels have developed criteria for determining appropriate imaging examinations for diagnosis and treatment of specified medical condition(s). These criteria are intended to guide radiologists, radiation oncologists, and referring physicians in making decisions regarding radiologic imaging and treatment. Generally, the complexity and severity of a patient\'s clinical condition should dictate the selection of appropriate imaging procedures or treatments. Only those exams generally used for evaluation of the patient\'s condition are ranked. Other imaging studies necessary to evaluate other co-existent diseases or other medical consequences of this condition are not considered in this document. The availability of equipment or personnel may influence the selection of appropriate imaging procedures or treatments. Imaging techniques classified as investigational by the U.S. Food and Drug Administration (FDA) have not been considered in developing these criteria; however, study of new equipment and applications should be encouraged. The ultimate decision regarding the appropriateness of any specific radiologic examination or treatment must be made by the referring physician and radiologist in light of all the circumstances presented in an individual examination. ### IMPLEMENTATION OF THE GUIDELINE #### DESCRIPTION OF IMPLEMENTATION STRATEGY An implementation strategy was not provided. #### IMPLEMENTATION TOOLS Personal Digital Assistant (PDA) Downloads For information about [availability](#identifying-information-and-availability), see the \"Availability of Companion Documents\" and \"Patient Resources\" fields below. ### INSTITUTE OF MEDICINE (IOM) NATIONAL HEALTHCARE QUALITY REPORT CATEGORIES #### IOM CARE NEED Getting Better #### IOM DOMAIN Effectiveness ### IDENTIFYING INFORMATION AND AVAILABILITY #### BIBLIOGRAPHIC SOURCE(S) Podberesky DJ, Unsell BJ, Gunderman R, Blatt ER, Coley BD, Fordham L, Prince JS, Feins N, Rodriguez W, Expert Panel on Pediatric Imaging. Urinary tract infection - child. \[online publication\]. Reston (VA): American College of Radiology (ACR); 2006. 7 p. \[70 references\] #### ADAPTATION Not applicable: The guideline was not adapted from another source. #### DATE RELEASED 1999 (revised 2006) #### GUIDELINE DEVELOPER(S) American College of Radiology - Medical Specialty Society #### SOURCE(S) OF FUNDING The American College of Radiology (ACR) provided the funding and the resources for these ACR Appropriateness Criteria®. #### GUIDELINE COMMITTEE Committee on Appropriateness Criteria, Expert Panel on Pediatric Imaging #### COMPOSITION OF GROUP THAT AUTHORED THE GUIDELINE Panel Members: Daniel J. Podberesky, MD; Bryan J. Unsell, MD; Richard Gunderman, MD, PhD; Ellen R. Blatt, MD; Brian D. Coley, MD; Lynn Fordham, MD; Jeffrey Scott Prince, MD; Neil Feins, MD; William Rodriguez, MD #### FINANCIAL DISCLOSURES/CONFLICTS OF INTEREST Not stated #### GUIDELINE STATUS This is the current release of the guideline. This guideline updates a previous version: Gelfand MJ, Parker BR, Kushner DC, Babcock DS, Cohen HL, Hernandez RJ, McAlister WH, Royal SA, Slovis TL, Smith WL, Strain JD, Strife JL, Rushton HG. Urinary tract infection. American College of Radiology. ACR Appropriateness Criteria. Radiology 2000 Jun;215(Suppl):847-54. The appropriateness criteria are reviewed annually and updated by the panels as needed, depending on introduction of new and highly significant scientific evidence. #### GUIDELINE AVAILABILITY Electronic copies: Available in Portable Document Format (PDF) from the [American College of Radiology (ACR) Web site](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/pdf/ExpertPanelonPediatricImaging/UrinaryTractInfectionChildDoc10.aspx). ACR Appropriateness Criteria® Anytime, Anywhere™ (PDA application). Available from the [ACR Web site](http://www.acr.org/SecondaryMainMenuCategories/ACRStore/FeaturedCategories/QualityandSafety/ac_pda.aspx). Print copies: Available from the American College of Radiology, 1891 Preston White Drive, Reston, VA 20191. Telephone: (703) 648-8900. #### AVAILABILITY OF COMPANION DOCUMENTS The following is available: - ACR Appropriateness Criteria®. Background and development. Reston (VA): American College of Radiology; 2 p. Electronic copies: Available in Portable Document Format (PDF) from the [American College of Radiology (ACR) Web site](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/pdf/background_dev.aspx). #### PATIENT RESOURCES None available #### NGC STATUS This NGC summary was completed by ECRI Institute on May 15, 2007. #### COPYRIGHT STATEMENT Instructions for downloading, use, and reproduction of the American College of Radiology (ACR) Appropriateness Criteria® may be found on the [ACR Web site.](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/ACRAppropriatenessCriteriaTermsandConditionsDoc1.aspx) ### DISCLAIMER #### NGC DISCLAIMER The National Guideline Clearinghouse™ (NGC) does not develop, produce, approve, or endorse the guidelines represented on this site. All guidelines summarized by NGC and hosted on our site are produced under the auspices of medical specialty societies, relevant professional associations, public or private organizations, other government agencies, health care organizations or plans, and similar entities. Guidelines represented on the NGC Web site are submitted by guideline developers, and are screened solely to determine that they meet the NGC Inclusion Criteria which may be found at <http://www.guideline.gov/about/inclusion.aspx> . NGC, AHRQ, and its contractor ECRI Institute make no warranties concerning the content or clinical efficacy or effectiveness of the clinical practice guidelines and related materials represented on this site. Moreover, the views and opinions of developers or authors of guidelines represented on this site do not necessarily state or reflect those of NGC, AHRQ, or its contractor ECRI Institute, and inclusion or hosting of guidelines in NGC may not be used for advertising or commercial endorsement purposes. Readers with questions regarding guideline content are directed to contact the guideline developer. Bottom of Form © 1998-2008 National Guideline Clearinghouse Date Modified: 11/10/2008	en
all-txt-docs	621108	Federal Communications Commission FCC 07-233 1 Before the Federal Communications Commission Washington, D.C. 20554 In the Matter of Paxson Management Corporation and Lowell W. Paxson (Transferors) and CIG Media LLC (Transferee) For Transfer of Control of ION Media Networks, Inc., and Certain Subsidiaries, Licensees of Station KPPX(TV), Tolleson, Arizona, et al. ) ) ) ) ) ) ) ) ) ) ) ) ) ) File Nos. BTCCT-20070514AOR et al. MEMORANDUM OPINION AND ORDER Adopted: December 30, 2007 Released: December 31, 2007 By the Commission: Commissioner Copps concurring and issuing a statement. I. INTRODUCTION 1. Before the Commission are the applications listed in the attached Appendix that seek to transfer control of licensee subsidiaries of ION Media Networks, Inc. (ION),1 from Lowell W. Paxson and Paxson Management Corporation (PMC) to CIG Media LLC (CIG Media). ION is the direct or indirect parent of licensee subsidiaries that hold 59 full-service broadcast television licenses and associated low-power, Class A, and television translator licenses. ION stockholders Gradient Partners, L.P., Gradient OC Master, Ltd., Caspian Capital Advisors, LLC, River Vail Holdings, L.L.C., Latigo Master Fund, Ltd., Par-Four Master Fund, Ltd., and Southpaw Credit Opportunity Master Funds LP (the Petitioners), filed a consolidated petition to deny on June 18, 2007, which they supplemented on June 29, 2007.2 ION, CIG Media, and NBC Universal, Inc. (NBC) filed separate oppositions on July 11, 1 Paxson Communications Corporation (Paxson) changed its corporate name to ION on February 28, 2006. 2 The Petitioners allege viewer standing under Office of Communication of the United Church of Christ v. FCC, 359 F.2d 994 (D.C. Cir. 1966). Citing various decisions of the U.S. Court of Appeals for the District of Columbia Circuit, ION, CIG Media, and NBC argue that viewer standing does not pertain here because grant of the applications would not harm the petitioners as viewers of the stations in question. See, e.g., ION Opposition, at 4, note 5, citing Rainbow/Push Coalition v. FCC, 330 F.3d 539, 545-546 (D.C. Cir. 2003). As noted in previous cases, [o]ur administrative standard for broadcast standing is less stringent than the judicial standard applied to petitioners appealing Commission decisions in federal court. Sagittarius Broadcasting Corp., Memorandum Opinion and Order, 18 FCC Rcd 22551, 22554, n. 20 (2003). Section 309(d)(1) of the Communications Act of 1934, as amended (the Act), provides that a party filing a petition to deny must demonstrate that he or she is a party in interest. 47 U.S.C. 309(d)(1). The Commission has granted viewer standing to petitioners raising similar allegations in the past. Shareholders of Hispanic Broadcasting Corporation, Memorandum Opinion and Order, 18 (continued....) Federal Communications Commission FCC 07-233 2 2007. For the reasons set forth below, we deny the petition to deny and grant the applications. II. BACKGROUND A. The Transaction 2. Initially, IONs capitalization consisted of two classes of common stock, both of which carried voting rights, and four classes of preferred stock, one of which carried voting rights. Lowell Paxson holds voting control through his ownership of IONs Class B common stock, which carries super- voting rights entitling him to an approximately 52.3% voting interest. On November 7, 2005, PMC also entered into a PMC Management and Proxy Agreement with the purpose of placing more operational control over the individual stations with Lowell Paxson.3 Lowell Paxson has a 99% voting and equity interest in PMC. Though the proposed transaction and recapitalization effort will occur in several stages, after consummation, CIG Media, which currently owns one class of ION nonvoting stock, will have acquired Lowell Paxsons control stock. It will then terminate the PMC Management and Proxy Agreement, and take the company private. 3. CIG Media is ultimately controlled by Kenneth Griffin, Todd Gjervold and Joe Russell. Equity ownership of CIG media is divided between two private equity funds Citadel Wellington, LLC (Citadel Wellington), and Citadel Kensington Global Strategies Fund, Ltd. (Citadel Kensington). Both Citadel Wellington and Citadel Kensington operate as insulated, limited members of CIG Media,4 while management and voting control of Citadel Wellington, Citadel Kensington, and CIG Media rests with the Citadel Limited Partnership. The Citadel Investment Group, L.L.C. and its 100% direct and indirect owner, Kenneth Griffin, serve as General Partner of the Citadel Limited Partnership, while the Citadel Limited Partnership is otherwise managed by its Portfolio Managers Todd Gjervold and Joe Russell. 4. In 1999 NBC entered into an investment relationship with Paxson, which was reflected in three agreements: an Investment Agreement; a Stockholder Agreement; and a Warrant and Call Agreement. These agreements were filed with the Commission pursuant to Section 73.3613 of the Commissions rules.5 As a result of the agreements, NBC acquired an economic interest in Paxson, reflected originally in a separate class of nonvoting preferred stock that was convertible to voting common stock. NBC also acquired an option to purchase the control stock held by Lowell Paxson, which could not be exercised unless and until the Commissions multiple ownership rules were modified. In addition to the financial (...continued from previous page) FCC Rcd 18834, 18835, n. 4 (2003) (2003 Univision Order). Even if the Petitioners lacked viewer standing, their allegation of economic injury would entitle them to party-in-interest standing. Office of Communication of the United Church of Christ v. FCC, 359 F.2d at 1000 (noting that judicial concept of standing has traditionally encompassed those alleging some economic injury). In this case, the Petitioners have alleged that the transaction is designed to forcibly extract from [Petitioners] hundreds of millions of dollars. Petition to Deny, at 5-6. We, thus, find that the petitioners have demonstrated standing in the instant case. 3 Paxson filed an FCC Form 316 transfer of control application reflecting the November 7, 2005, Management and Proxy Agreement, which the Commission granted on September 2, 2005. See, e.g., File No. BTCCT- 20050817ADL. 4 Applications For Transfer of Control, at Exhibit 14-Supplement. Individuals or entities holding partnership and non-insulated limited partnership interests are generally subject to the Commissions broadcast multiple and cross- ownership rules, regardless of the amount or percentage of equity held. 47 C.F.R. 73.3555, Note (f)(1). An exception from attribution applies to insulated limited partners as set forth in the Notes to Section 73.3555. Id. at Note (f)(1) and (2). 5 47 C.F.R. 73.3613. Federal Communications Commission FCC 07-233 3 relationship between NBC and Paxson, the 1999 Investment Agreement contained provisions setting forth certain aspects of the corporate governance of Paxson. Under Section 4.1 of the Investment Agreement, NBC held approval rights over certain Paxson corporate actions. As set forth in the 1999 Stockholder Agreement, NBC also had the right to nominate three members to the Paxson Board of Directors. 5. In 2001, Paxson initiated arbitration alleging that NBCs planned acquisition of Telemundo Communications Group, Inc. (Telemundo) violated the 1999 agreements. Paxson also filed a Petition to Deny and Request for Declaratory Ruling opposing the transfer of control applications, in which it alleged that certain actions by the NBC-nominated members of Paxsons board of directors have violated certain terms of their 1999 agreements and may have caused attribution of Paxsons television stations to NBC contrary to the multiple ownership rules.6 The Commission granted in part the Request for Declaratory Ruling, and admonished NBC for the conduct of its nominees after their election.7 6. In 2005, ION and NBC restructured their investment relationship. Among other changes to the relationship, NBC waived a number of its rights under the 1999 agreements, which included significantly limiting those corporate actions requiring prior NBC approval.8 Lowell Paxson also stepped down as director, Chairman and Chief Executive Officer of ION, and was replaced by Brandon Burgess, who resigned from his employment with NBC to take the position.9 Mr. Burgess was subsequently appointed to the ION Board of Directors. 7. In connection with the proposed transaction, the parties have entered into five primary agreements: (1) a Master Transaction Agreement describing the recapitalization process, in particular the process by which CIG Media will acquire Lowell Paxsons shares;10 (2) a Call Agreement between CIG Media and a subsidiary of NBC granting the NBC subsidiary an option to acquire, subject to Commission approval, the shares CIG Media will acquire from Lowell Paxson as part of the proposed transaction; (3) a second Call Agreement granting the NBC subsidiary an option to purchase additional shares held by Lowell Paxson; (4) a Stockholders Agreement governing the corporate governance of the post- transaction ION, the relevant provisions of which will take effect after consummation; and (5) a separate Put/Call Agreement, whereby CIG Media will, under certain circumstances, have the right to put its ION shares to NBC, and NBC will have the right to call those ION shares held by CIG Media. Pursuant to the May 4, 2007, Stockholders Agreement, NBC will have the right to nominate two members to the ION Board of Directors once its voting interest reaches a certain threshold. While originally part of the 2007 Stockholders Agreement, ION notified the Commission on November 26, 2007, that it had removed a related provision contained in Section 3.1(b)(iii) that provided NBC with the contingent right to name two board observers should it not be entitled to nominate members to the ION Board of Directors. The 2007 Stockholders Agreement also restored several of the minority investor protection rights relinquished in 2005. Pursuant to the November 26, 2007, amendment, ION revised Sections 5(d), (f), and (m) of the May 4, 2007, Stockholders Agreement. Under the revised Sections 5(d) and (m), ION does not need 6 Telemundo Communications Group, Inc., Memorandum Opinion and Order, 17 FCC Rcd 6958, 6967 (2002) (2002 Telemundo Order). 7 Id. at 6974. The Commission admonished Paxson as well, stating that [w]e further clarify that we do not admonish Paxson for the decision to approve as directors NBCs employees, but rather for the decision not to remove the directors as offered by NBC and to continue this relationship in place, despite the actions taken by the NBC directors. Id. 8 NBC Opposition, at 8. 9 The 2005 agreements were filed with the Commission pursuant to Section 73.3613 of the Commissions rules. 47 C.F.R. 73.3613. 10 Certain aspects of the Master Transaction Agreement not effecting ultimate control of ION will take effect prior to closing. Federal Communications Commission FCC 07-233 4 written approval from NBC prior to entering into individual station agreements relating to the use of the digital spectrum, or entering into joints sales, local marketing and similar agreements relating to a certain proportion of IONs stations. Under the revised Section 5(f), NBC will have the right to approve the sale of individual ION station sales, if the station is located in one of the 10 largest DMAs, and has a fair market value of 10 percent or greater than the book value of IONs consolidated tangible assets. B. Petitioners Allegations 8. The Petitioners filed a request to enjoin the transaction in the Court of Chancery of the State of Delaware in connection with a suit challenging an exchange offer involving their shares. The Court denied the request for injunction on June 10, 2007, but the civil suit remains pending. Petitioners allege both here and in the pending civil suit that the transaction is designed to forcibly extract from [Petitioners] hundreds of millions of dollars, give that extracted value to [CIG Media] and NBC, and thereby force Petitioners to pay for the acquisition of [ION] by [CIG Media] and NBC.11 9. The Petitioners argue that the rights granted NBC in the May 4, 2007, Stockholders Agreement will render IONs television stations attributable to NBC, thus resulting in violation of the Section 73.3555 of the Commissions rules (the local television ownership rule) in several markets.12 They contend, more specifically, that the rights contained in the 2007 Stockholders Agreement exceed the limits the 2002 Telemundo Order placed upon the NBC/Paxson relationship. The Petitioners state that NBC is attempting here what it could not do in 2002, namely, take control of ION. 10. The Petitioners cite, in particular, NBCs right to nominate two members to the ION Board of Directors. They state that, [w]hile there is no assurance that [NBCs] nominees will be elected, there is no assurance that they will not be elected.13 They maintain that NBC will use its financial influence, and right to approve certain corporate actions, to ensure their nominees election. Further, they note that election of NBC employees to the Paxson board was a critical factor in the 2002 Telemundo Order, and that Section 3.1(b)(ii) of the 2007 Stockholders Agreement only precludes the nomination of NBC employees until such time as [NBC] determines, in its reasonable discretion, that the Communications Act permits [NBC] to nominate an employee of [NBC] or any of its affiliates to be an [ION Director.]14 They argue that such language improperly usurps the FCCs role as arbiter of what is acceptable under the attribution rules.15 They also contend that Brandon Burgess is not independent, and cite NBCs contingent right to name two board observers, noting that board observers were at each of the meetings in 2007 at which alternative recapitalization proposals were discussed.16 As noted above, however, the right to name board observers been removed from the 2007 Stockholders Agreement. 11. In addition to allegedly holding an attributable interest in ION, the Petitioners argue that CIG [Media] and NBC have orchestrated a premature, unauthorized transfer of control of [ION] through a number of strategies.17 First, the Petitioners state that NBC will transfer its call rights to CIG for no apparent comparable monetary consideration, other than reciprocal call rights.18 The Petitioners claim 11 Petition to Deny, at 5-6. 12 47 C.F.R. 73.3555(b). 13 Petition to Deny, at 9 (emphasis in original). 14 May 4, 2007, Stockholders Agreement, at 3.1(b)(ii). 15 Petition to Deny, at 10. 16 Id. at 11 17 Id. 18 Id. Federal Communications Commission FCC 07-233 5 that this transaction violates business logic and sound fiduciary judgment because ION will incur $580 million in new long term debt - which could swell to $650 million in new long term debt depending on the outcome of the exchange transaction with IONs preferred shareholders - in exchange for only $100 million in new money. Second, the Petitioners challenge the new call rights granted NBC, in particular the fact that NBC paid 80% of the exercise price as consideration. Finally, the Petitioners claim that the 2005 agreements between ION and NBC resulted in a change of control because ION is allegedly obligated by the agreements to support any NBC-sponsored transaction. 12. In its supplement, the Petitioners challenge NBCs limited veto right over IONs budget items. They also argue for the first time that CIG Media has acquired unauthorized control over ION. The Petitioners cite Section 10.03 of the 2007 Master Transaction Agreement, in which CIG Media allegedly has the current right to designate two members of the ION board of directors, and is further allegedly entitled to designate a director to fill any vacancy resulting from the departure of representatives of certain classes of stock. Petitioners also allege that Section 3.3 of the November 7, 2005, Amended and Restated Stockholder Agreement among Paxson Communications Corporation, Lowell Paxson, and NBC also required Mr. Paxson to vote his control stock for directors in the same manner as the Class A stock, 90% of which was held by CIG Media at the time the supplement was filed. Consequently, the Petitoners argue that CIG Media presently has the power to elect all members of the ION Board of Directors. The Petitioners cite provisions in the 2007 Master Transaction Agreement that require CIG and NBC to keep each other informed about the status of any stockholder litigation, require both CIG and NBC to consent to the settlement of that litigation, and provide both parties with the right to jointly participate in the defense of any stockholder litigation. 13. ION, CIG Media, and NBC argue in their respective oppositions that the Petitioners allegations stem from a private business dispute among ION shareholders of a type that the Commission has long stated is best resolved by courts of competent jurisdiction. They contend that, contrary to the Petitioners allegations, the various agreements entered into as part of the proposed transaction have been structured to comply with the 2002 Telemundo Order. They maintain, for instance, that the 2002 Telemundo Order did not prohibit NBCs right to nominate two members to the ION Board of Directors so long as the nominees are neither employees or agents of NBC.19 They further maintain that the appointment of Mr. Burgess as CEO of ION and member of the ION Board of Directors complies with the 2002 Telemundo Order because Mr. Burgess completely severed his employment and financial relationship with [NBC] and pledged to remain independent from [NBC] in all ways.20 NBC argues, in particular, that Section 3.1(b)(ii) of the 2007 Stockholders Agreement simply permits it to respond to a change of Commission rules, is standard in such agreements, and does not usurp the Commissions role in determining what interests are attributable. ION, CIG Media, and NBC also contend that the Commission specifically approved NBCs right to approve certain ION corporate actions contained in Section 5 of the May 2007 Stockholders Agreement. They state, in particular, that the Commission, in the 2002 Telemundo Order, approved a budget approval right that provided for a default to the prior years budget in the event of a dispute.21 NBC argues, in particular, that the budget approval right contained in the 2007 Stockholders Agreement is even more limited than the one considered in 2002 since it does not permit NBC to reject an entire budget. ION, CIG Media, and NBC also argue that the mere right to consent to settlement of litigation has been approved by the Commission as a permissible minority shareholder right that does not evince de facto control.22 19 NBC Opposition, at 21. 20 Id., at 19. 21 Id., at 26. 22 CIG Media Opposition, at 28. CIG Media cites Roy M. Speer, 11 FCC Rcd 18393, 14156 (1996) as support. Federal Communications Commission FCC 07-233 6 14. ION, CIG Media, and NBC argue that whether the proposed transaction violates business logic or sound fiduciary judgment is not within the jurisdiction of the Commission to determine. They maintain that, in any case, a special committee of independent directors has already approved the transaction. ION and NBC argue that NBCs option to acquire CIG Medias control shares is permissible since the Commission has long held that unexercised options do not result in attribution. They also argue that the up-front payment of 80% of the option price is not indicative of an unauthorized transfer of control and does not otherwise violate Commission rules so long as the payment combined with NBCs other investments in ION comply with the Equity/Debt Plus (EDP) attribution threshold.23 NBC argues that the Petitioners have not alleged that the consideration paid for the option would result in attribution under the EDP attribution standard. 15. With respect to whether CIG Media has already acquired de facto control of ION, ION, CIG Media, and NBC all argue that the transaction has been structured so that control will not transferred until CIG Media closes on its acquisition of Lowell Paxsons control shares. They argue that under the 2007 Master Transaction Agreement, CIG Media can at most place two directors on the ION Board of Directors prior to acquisition of Lowell Paxsons control shares. They argue that this language in the 2007 Master Transaction Agreement supersedes the November 7, 2005, Amended and Restated Stockholder Agreement requiring that Lowell Paxson vote his shares in the same manner as the majority of Class A common stock. Instead, NBC argues that this provision of the November 7, 2005, agreement was meant to ensure that Lowell Paxson followed through on the commitments undertaken to restructure NBCs relationship with ION. Regardless, ION, CIG Media, and NBC all argue that PMC retains separate voting and operational control of IONs licensee subsidiaries as a result of the 2005 PMC Management and Proxy Agreement, and that this agreement will not be transferred until consummation of the instant transaction. III. DISCUSSION A. Standard of Review 16. Section 310(d) of the Act provides that no station license shall be transferred or assigned until the Commission, upon application, determines that the public interest, convenience, and necessity will be served thereby. In making this assessment, the Commission must first determine whether the proposed transaction would comply with the specific provisions of the Act,24 other applicable statutes, and the Rules.25 If the transaction would not violate a statute or rule, the Commission considers whether it could result in public interest harms by substantially frustrating or impairing the objectives or implementation 23 See 47 C.F.R. 73.3555, Note 2(i). 24 Section 310(d) requires that the Commission consider the applications as if the proposed transferee were applying for the licenses directly. 47 U.S.C. 310(d). See SBC Communications Inc. and AT&T Corp. Applications for Approval of Transfer of Control, 20 FCC Rcd 18290, 18300 16 (2005) (SBC-AT&T Order); Verizon Communications, Inc. and MCI, Inc. Applications for Approval of Transfer of Control, 20 FCC Rcd 18433, 18442- 43 16 (2005) (Verizon-MCI Order); Applications of Nextel Communications, Inc. and Sprint Corporation, 20 FCC Rcd 13967, 13976 20 (2005) (Sprint-Nextel Order); News Corp.-Hughes Order, 19 FCC Rcd at 483 15; Comcast-AT&T Order, 17 FCC Rcd at 23255 26. 25 See, e.g., SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18442-43 16; Applications for Consent to the Assignment of Licenses Pursuant to Section 310(d) of the Communications Act from NextWave Personal Communications, Inc., Debtor-in-Possession, and NextWave Power Partners, Inc., Debtor-in- Possession, to Subsidiaries of Cingular Wireless LLC, 19 FCC Rcd 2570, 2580-81 24 (2004); EchoStar Communications Corp., General Motors Corp. and Hughes Electronics Corp., and EchoStar Communications Corp., Hearing Designation Order, 17 FCC Rcd 20559, 20574 25 (2002) (EchoStar-DIRECTV HDO). Federal Communications Commission FCC 07-233 7 of the Act or related statutes.26 The Commission then employs a balancing process, weighing any potential public interest harms of the proposed transaction against any potential public interest benefits.27 The applicants bear the burden of proving, by a preponderance of the evidence, that the proposed transaction, on balance, would serve the public interest.28 17. In reviewing the petition to deny under the public interest standard, the Commission applies a two-step analysis. The Commission must first determine whether the petition contains specific allegations of fact sufficient to show that granting the application would be prima facie inconsistent with the public interest.29 This first step is much like that performed by a trial judge considering a motion for directed verdict: if all the supporting facts alleged in the [petition] were true, could a reasonable factfinder conclude that the ultimate fact in dispute had been established.30 If a petition meets this first step, the Commission must determine whether, on the basis of the application, the pleadings filed, or other matters which [the Commission] may officially notice, the petitioner has raised a substantial and material question of fact as to whether granting the application would serve the public interest.31 We find that the Petitioners have failed to raise a substantial and material question of fact as to whether NBC has acquired an attributable interest in ION. We further find that the Petitioners have failed to raise a substantial and material questions of fact as to whether NBC and/or CIG Media have prematurely acquired control over ION. B. Attribution 18. The Commissions attribution rules seek to identify those interests in or relationships to licensees that confer on their holders a degree of influence or control such that the holders have a realistic potential to affect the programming decisions of licensees or other core operating functions.32 Such interests, which are set forth both in Note 2 to Section 73.3555 of the Commissions rules and Commission precedent, 33 will be attributed to their holders and deemed cognizable for purposes of determining compliance with the Commissions multiple ownership rules. In this case, NBC acknowledges that attribution of its interest in ION would result in violation of the Commissions broadcast television multiple ownership rule in multiple markets.34 For the reasons below, we conclude that neither NBCs existing interest in ION nor the interests in ION that NBC would obtain as a result of the proposed transfers are attributable to NBC for purposes for the Commissions multiple ownership 26 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Sprint-Nextel Order, 20 FCC Rcd at 13976 20. 27 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Sprint-Nextel Order, 20 FCC Rcd at 13976 20; News Corp.-Hughes Order, 19 FCC Rcd at 483 15; Comcast-AT&T Order, 17 FCC Rcd at 23255 26. 28 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Comcast- AT&T Order, 17 FCC Rcd at 23255 26; EchoStar-DIRECTV HDO, 17 FCC Rcd at 20574 25. 29 47 U.S.C. 309(d)(1); Astroline Communications Co. Ltd. Partnership v. FCC, 857 F.2d 1556 (D.C. Cir. 1988) (Astroline). 30 Gencom, Inc. v. FCC, 832 F.2d 171, 181 (D.C. Cir. 1987) (Gencom). See also Serafyn v. FCC, 149 F.3d 1213, 1216 (D.C. Cir. 1998) (affirming two-step public interest analysis) (Serafyn). 31 Astroline, 857 F.2d at 1561; 47 U.S.C. 309(e). See also Gencom, Inc., 832 F.2d at 181. 32 Review of the Commissions Regulations Governing Attribution of Broadcast and Cable/MDS Interests, Report and Order, 14 FCC Rcd 12559 (1999) (1999 Attribution Order). 33 47 C.F.R. 73.3555, Note 2. 34 See 47 C.F.R. 73.3555(b). Federal Communications Commission FCC 07-233 8 rules. 1. Approval Rights Over Certain Corporate Actions 19. In the past, the Commission has generally permitted nonattributable investors to hold certain minority investor protection rights, including the right to approve certain corporate matters that would alter, fundamentally, the nature and value of their investments. Approval rights permitted in the past have included such fundamental corporate matters as issuance of stock;35 amendments to the certificate of incorporation;36 acquisition or disposition of assets constituting more than 10% of the companys market or book value;37 merger, sale, liquidation, bankruptcy or winding-up of an entity;38 and certain transactions outside the ordinary course of business.39 Permitting a certain level of minority investor protection without implicating the multiple ownership rules is generally in the public interest because it encourages investment in broadcast properties, and thus enhances the ability of stations to provide better programming to the public. It also provides investors with the ability to invest in properties that they would not be able to own outright. However, as stated in previous cases, minority investor protections, in particular the right to approve certain corporate actions, must be narrowly circumscribed,40 so that the investor does not become involved in the overarching policymaking activities of the entity or the day- to-day operations of [its] stations.41 20. Section 5 of the May 4, 2007, Stockholders Agreement between ION, CIG Media, and NBC, as revised on November 26, 2007, states that ION must obtain the prior written approval of NBC and CIG Media before it: (1) adopts any shareholders rights plan or enters into any material agreement that would prevent the acquisition of stock by NBC or CIG Media; (2) takes any action that would cause NBC or CIG Media to have an attributable interest in a broadcast facility, newspaper, or other communications facility licensed by the FCC; (3) adopts an annual budget, with the proviso that the prior years budget will be used if the parties cannot reach agreement; (4) amends the certificate of incorporation or by-laws; (5) sells any station in the top 10 DMAs, provided that the station has a fair market value of 10 percent or more of the book value of IONs consolidated tangible assets; (6) sells assets during a 1-year period that constitute more than 20% of IONs book value, acquires assets during a 1-year period that constitute more than 10% of IONs book value, or enters into any merger where ION is not the surviving entity; (7) issues new stock, subject to certain exceptions; (8) splits, combines or reclassifies stock in a manner adverse to NBC or CIG Media; (9) enters into certain employment agreements; (10) increases the size of the board; and (11) files for bankruptcy or winds up the company. 21. We find the provisions contained in Section 5 of the May 4, 2007, Stockholders Agreement, as listed above, mirror rights the Commission has previously approved. In particular, a budget approval right similar to the one contained in the 2007 Stockholders Agreement was challenged by Paxson in its 2001 Petition to Deny and Request for Declaratory Ruling. As was the case in the 2002 Telemundo Order, we find the 2007 budget approval right does not result in attribution of NBCs interest since, as was the case for the 1999 agreements, it provides for the use of the prior years budget in case of 35 Shareholders of AMFM, Inc., Memorandum Opinion and Order, 15 FCC Rcd 16062, 16077 (2000). 36 Id. 37 Roy M. Speer, Memorandum Opinion and Order, 11 FCC Rcd 14147, 14155-56, 14158 (1996). 38 Quincy D. Jones, 11 FCC Rcd at 2482-2483. 39 Roy M. Speer, 11 FCC Rcd at 14155; Quincy D. Jones, 11 FCC Rcd at 2482. 40 BBC License Subsidiary, Inc. (WLUK-TV), 10 FCC Rcd at 7933. See, also, Quincy D. Jones, 11 FCC Rcd at 2487; News International PLC, Memorandum Opinion and Order, 97 FCC 2d 349, 354 (1984). 41 Roy M. Speer, 11 FCC Rcd at 14158. Federal Communications Commission FCC 07-233 9 disagreement between NBC and Paxson/ION.42 To the extent any of the rights named above have not been specifically addressed in previous cases, we find that they are sufficiently circumscribed, so as not to insert NBC into the overarching policymaking activities of ION or the day-to-day operations of its stations. 2. Nomination Right 22. Pursuant to Section 3.1(b)(ii) of the 2007 Stockholders Agreement, NBC has the right to nominate two members to the ION Board of Directors contingent upon consummation of CIG Medias acquisition of Lowell Paxsons control shares, and specifically conditioned upon the nominee not being an employee of NBC or any of its subsidiaries and affiliates. We conclude that this right complies with the 2002 Telemundo Order, and is consistent with non-attributable status. In the 2002 Telemundo Order, the Commission stated that the placement of NBC employees on Paxsons board as well as the subsequent actions of these directors resulted in NBC having an attributable interest in Paxson.43 The Commission, consistent with past precedent addressing identical rights, did not find that the nomination right per se resulted in attribution. As stated by NBC in its opposition, NBCs nomination right does not ensure that its nominees will be elected to the board. The 2002 Telemundo Order did, however, caution that future directors of ION not be NBC employees or agents but persons who would reasonably be expected to act independently in all future matters.44 23. With respect to Mr. Burgesss ongoing role with ION, the evidence of record indicates that Mr. Burgess severed his employment relationship with NBC prior to the 2005 restructuring of the NBC/Paxson relationship. As noted above, Mr. Burgess became a member of the Paxson board and was selected as CEO of Paxson concurrent with the 2005 restructuring, and he will retain these positions following consummation of the proposed transaction. In the 2002 Telemundo Order, the Commission noted that Mr. Burgess sent a letter, on NBC letterhead, to Paxson demanding certain concessions be made with respect to the original agreements between the companies.45 The Commission stated that [t]he fact that [Mr. Burgess] was speaking on behalf of NBC about high-level business matters demonstrates that Mr. Burgess was acting as a senior NBC executive protecting NBCs interests and not as an independent member of Paxsons board.46 24. In BBC License Subsidiary, L.P. (WLUK-TV), the Commission permitted a senior employee of Fox Television Stations, Inc. (Fox) to terminate his employment relationship and take an executive position with a separate broadcast licensee in which Fox held a substantial interest.47 The Commission determined, conditioned upon the outcome of the then-pending review of the Commissions broadcast attribution rules, that the former employer could take the position without rendering Foxs interest attributable despite Foxs 25% nonvoting stock interest with an option to acquire a 50% voting stock interest, its present right to vote on certain extraordinary corporate actions, and the stations affiliation agreement with the Fox Television Network.48 Neither the Commissions 1999 revision of the attribution rules, nor subsequent precedent, prohibits Mr. Burgess, as an ex-employee of NBC, from taking a 42 Id. at 6974. 43 2002 Telemundo Order, 17 FCC Rcd at 6973. 44 Id. at 6974. 45 Id. at 6972. 46 Id. 47 BBC License Subsidiary, Inc. (WLUK-TV), 10 FCC Rcd at 7933. 48 Id. Federal Communications Commission FCC 07-233 10 position with ION. NBC states, specifically, that the 2005 Master Transaction Agreement between [NBC] and ION provided (and continues to provide) that neither Mr. Burgess (nor any member of his immediate family or entity owned or controlled by him) would be an agent of [NBC] or any subsidiary or affiliate of [NBC]; that there were, and would be, no commitments, arrangements, or understandings, written or oral, between Mr. Burgess and [NBC] pursuant to which Mr. Burgess would have any legal or financial obligation to [NBC]; and that Mr. Burgess would not be entitled to receive now or in the future from [NBC]any compensation or benefits of any kind, or other valuable consideration (including but not limited to any offer of future positions with [NBC] or any of its subsidiaries or affiliates) beyond his severance, vested pension benefits, and the like.49 Thus, we do not believe the fact that Mr. Burgess was a former employee, whether considered in isolation or in combination with NBCs other interests, results in attribution of IONs stations to NBC. NBC has denied that Mr. Burgesss appointment as CEO was a condition of the 2005 restructuring or the 2007 agreements, and review of the agreements does not indicate otherwise. 25. Further, the Petitioners have not provided specific evidence of the kind of conduct that concerned the Commission in the 2002 Telemundo Order. Apparently, ION has taken steps to prevent any conflict of interest resulting from Mr. Burgesss former position with NBC. Mr. Burgess, for instance, is prohibited from participating in any tender offer for company shares commenced by an affiliate of his former employer.50 Thus, not only do we find that Mr. Burgess is not an agent of NBC, but that his employment does not violate the Commissions admonition in the 2002 Telemundo Order that any NBC nominees be reasonably expected to act independently in all Paxson matters.51 Our determination, however, is based on the facts before us, and we reserve the right to revisit Mr. Burgesss role should new facts come to our attention. 26. The Commission, in the 2002 Telemundo Order, made clear that nomination of an NBC employee or agent to the ION Board of Directors will result in attribution of NBCs interest. Both NBC and ION are obligated to comply with the 2002 Telemundo Order until either the Commission or a court of competent jurisdiction reverses it, regardless of language contained in the 2007 Stockholders Agreement. Section 3.1(b)(ii) of the 2007 Stockholders Agreement states that [f]or the avoidance of doubt.no individual nominated by [NBC] shall be an employee of [NBC] or any of its affiliates. We do not agree that the reference to NBCs reasonable discretion in Section 3.1(b)(ii) usurps the Commissions regulatory role. Instead, this provision appears to protect NBCs rights to nominate its employees to the ION board in the event that the Commission alters the policy set forth in the 2002 Telemundo Order. 3. Options 27. As noted above, NBC has entered into two Call Option Agreements and one Put-Call Agreement in connection with the proposed transaction. We do not find that these agreements, whether considered together or in isolation, or the price paid as consideration for these agreements, results in attribution of IONs stations to NBC. The Commission has held that unexercised options do not result in attribution since such interests do not provide the interest holder with the incentive or means of exerting influence over the core operations of a licensee.52 The fact that NBC paid 80% of the exercise price as 49 NBC Opposition, at 9. 50 ION Opposition, at 14. 51 2002 Telemundo Order, 17 FCC Rcd at 6974. 52 Review of the Commissions Regulations Governing Attribution of Broadcast and Cable/MDS Interests, Order on Reconsideration, 16 FCC Rcd 1097, 1112 (2001) (Attribution Reconsideration). Federal Communications Commission FCC 07-233 11 consideration for the option does not, in itself, result in attribution of NBCs interest.53 The Commission does, however, include the amount of consideration paid for the option in determining whether the option holders interest is attributable under the EDP attribution standard.54 Under the EDP standard, the Commission will attribute financial interests amounting to over 33% of the total assets of a mass media entity where the interest holder is either a major program supplier to the entity or a same-market media entity.55 In this case, the Petitioners do not allege that the consideration, along with NBCs other investment in ION will meet the EDP threshold of 33% of IONs total assets. In addition, on June 25, 2007, CIG Media filed an amendment to the applications setting forth in detail the post-consummation capitalization of ION, and certifying that the post-consummation EDP interest of NBC will be 15.91%.56 C. De Facto Control 28. Lowell Paxson currently holds de jure control over ION as a result of his ownership of Class B common stock, and his ownership of PMC. Legal control of ION, therefore, will not pass to CIG Media until it consummates its acquisition of the control stock and terminates the 2005 PMC Management and Proxy Agreement. In assessing de facto control the Commission looks beyond legal title and financial interests to determine who controls the policies governing programming, personnel and finances.57 An unauthorized transfer of de facto control would violate Section 310(d) of the Act.58 29. The Petitioners have not provided specific evidence of conduct indicating that NBC or CIG Media actually determine IONs policies governing programming, personnel and finances. NBCs financial investment does not, in itself, demonstrate control over IONs basic operating policies. ION states that a Special Committee made up of independent members of the ION Board of Directors ultimately chose the proposed transaction over other alternative recapitalization offers.59 ION further states that the Special Committee retained its own independent financial and legal advisors, and that the step-by-step process by which the Special Committee solicited and evaluated competing offers was disclosed in a Section 14D-9 Solicitation/Recommendation Statement filed with the SEC. NBCs right to consent to settlement of shareholder litigation is not evidence of de facto control. The Commission has long recognized such a right as a permissible minority shareholder protection.60 30. We further do not agree that CIG Media has prematurely acquired control over ION. CIG Medias current right to designate two members to the ION Board of Directors does not indicate a transfer of control since the board will have a total of 13 members. The Petitioners have not alleged that the right to fill any vacancies prior to closing will result in CIG Media designating a majority of the members of the ION board. The Petitioners cite Section 3.3 of the November 7, 2005, Amended and Restated Stockholder Agreement among Paxson Communications Corporation, Lowell Paxson, and NBC as support for both its contention that NBC has acquired control, and its alternative allegation that CIG Media has acquired control. With respect to NBC, the Petitioners argue that the provision forces Lowell 53 See, e.g. Solar Broadcasting Company, Inc., 17 FCC Rcd 5467, 5487 (2002) 54 Attribution Reconsideration, 16 FCC Rcd at 1112. 55 1999 Attribution Order, 14 FCC Rcd at 12579. 56 Applications For Transfer of Control, at Exhibit 14-Supplement, page 3. 57 WGPR, Inc., 10 FCC Rcd 8140, 8142 (1995); Choctaw Broadcasting Corp., 12 FCC Rcd 8534, 8539 (1997); Southwest Texas Broadcasting Council, 85 F.C.C. 2d 713, 715 (1981). 58 47 U.S.C. 310(d). 59 ION Opposition, at 15. 60 Roy M. Speer, 11 FCC Rcd at 14156. Federal Communications Commission FCC 07-233 12 Paxson to vote his control shares for any NBC-sponsored transaction. The Petitioners argue that it also gives CIG Media the current right to designate all members to the Board of Directors. It appears, however, that this provision is limited to circumstances pertaining to the 2005 restructuring, and that the 2007 Master Transaction Agreement limiting CIG Medias designation right to two members supersedes any contrary provisions in the 2005 agreement. The Petitioners have provided no evidence that NBC used this provision to force ION into a transaction that Lowell Paxson, or the ION Board of Directors, opposed. D. Alleged Violations of Corporate Law and Fiduciary Duties. 31. The Petitioners allegation that they will be forced to pay for the acquisition of ION by CIG Media through a disadvantageous exchange offer, that the transaction violates sound business logic or fiduciary judgment, and that the ION Board of Directors ignored more attractive competing offers are all aspects of the financial and business dispute before the Court of Chancery of the State of Delaware. Whether or not the transaction violated the rights of shareholders is a question of state law and private contract, matters which the Commission has historically and consistently left to local courts of appropriate jurisdiction.61 These allegations fail to demonstrate that grant of the applications would be prima facie inconsistent with the public interest. The Commission, in ruling on the instant applications, is solely determining whether grant would comply with the Commissions rules, and would otherwise serve the public interest, convenience, and necessity. Our consent does not require consummation prior to resolution of the Petitioners civil suit and, therefore, in no way prejudices the Petitioners rights. E. Pending Renewals 32. On September 1, 2004, the Office of Communication of the United Church of Christ, Inc., and the Center for Digital Democracy (UCC), filed a Petition to Deny opposing the license renewal applications of Station WPXW(TV), Manassas, Virginia, licensed to ION subsidiary Paxson Washington License, Inc. (Paxson Washington), and Station WDCA(TV), Washington, D.C., licensed to Fox Television Stations, Inc. UCC argues that the program Miracle Pets aired by Station WPXW(TV) during significant portions of the previous license term fails to qualify as programming specifically designed to serve the educational and informational needs of children (core programming), and that, therefore, Paxson Washington has failed to comply with the processing guidelines of Section 73.671 of the Commissions rules, and has otherwise failed to demonstrate compliance with the Childrens Television Act of 1990 (CTA).62 Station WPXW(TV)s Form 398 Childrens Television Programming Report for the quarter ending September 30, 2002, described Miracle Pets as a one-hour live-action program depicting short reenactments of pets/animals doing heroic, extraordinary acts, which provides children with positive role models, prosocial values and the importance of taking care of the pets in their lives.63 Miracle Pets was aired by Station WPXW(TV) from the first quarter of 2001 to the third quarter of 2005. 33. In the past, the Commission has stated that in multi-station transactions, it will grant the transfer of control application while [a] renewal application is pending as long as there are no basic qualification issues pending against the transferor or transferee that could not be resolved in the context of the transfer proceeding, and the transferee explicitly assents to standing in the stead of the transferor in 61 2002 Telemundo Order, 17 FCC Rcd at 6966. Northwest Broadcasting, Inc., Memorandum Opinion and Order, 12 FCC Rcd 3289, 3293 (1997); John F. Runner, Receiver, Memorandum Opinion and Order, 36 RR 2d 773, 778 (1976). 62 47 C.F.R. 73.671; Pub. L. No. 101-437, 104 Stat. 996-1000, codified at 47 U.S.C. Sections 303a, 303b and 394. 63 Station WPXW(TV) FCC 398 Childrens Television Programming Report for the quarter ending September 30, 2002. Federal Communications Commission FCC 07-233 13 the pending renewal proceeding.64 CIG Media has agreed to succeed to the position of Transferors in any pending renewal applications and assume responsibility for any actions to be taken by the Commission in those proceedings.65 We note that UCCs allegations involve only one of the 60 full- service television stations that are subject to the proposed transaction, and that the Station WPXW(TV) renewal is the only one that remains outstanding. Without reaching a conclusion as to whether such programming qualifies as core programming, we find that UCCs allegations do not raise a qualification issue involving Paxson Washington that would preclude action on the instant transfer of control applications. UCC has provided no evidence that Paxson Washington has engaged in intentional misrepresentation. IV. CONCLUSION 34. We have reviewed the proposed merger and related pleadings and conclude that grant of the applications will comply with the Commissions rules. We conclude that the applicants are fully qualified and that grant of above-captioned applications, will serve the public interest, convenience, and necessity. V. ORDERING CLAUSES 35. IT IS ORDERED, That the petition to deny filed by Gradient Partners, L.P., Gradient OC Master, Ltd., Caspian Capital Advisors, LLC, River Vail Holdings, L.L.C., Latigo Master Fund, Ltd., Par- Four Master Fund, Ltd., and Southpaw Credit Opportunity Master Funds LP IS DENIED. 36. IT IS FURTHER ORDERED, That the applications listed in the attached Appendix seeking consent to transfer control of ION Media Networks, Inc., from Lowell W. Paxson and Paxson Management Corporation to CIG Media LLC, ARE GRANTED. FEDERAL COMMUNICATIONS COMMISSION Marlene H. Dortch Secretary 64 Shareholders of CBS Corporation, Memorandum Opinion and Order, 16 FCC Rcd 16072, 16072-16073 (2001). See, also, Stockholders of CBS, Inc., Memorandum Opinion and Order, 11 FCC Rcd 3733 (1995), affd, Serafyn v. FCC, 149 F.3d 1213 (D.C. Cir. 1998); Capital Cities/ABC, Inc., Memorandum Opinion and Order, 11 FCC Rcd 5841 (1996). 65 Applications for Transfer of Control, at Exhibit 14, page 5. Federal Communications Commission FCC 07-233 14 APPENDIX Authorizations to be Transferred from Ion Media Networks, Inc., to CIG Media LLC Licensee Call Sign(s) Facility ID Number(s) File Number America 51, LP KPPX(TV), Tolleson, AZ 26655 BTCCT-20070514AOR Ocean State Television, LLC WPXQ(TV), Block Island, RI 50063 BTCCT-20070514APH Paxson Akron License, Inc. WVPX(TV), Akron, OH 70491 BTCCT-20070514APL Paxson Albany License, Inc. WYPX(TV), Amsterdam, NY 13933 BTCCT-20070514APU Paxson Atlanta License, Inc. WPXA(TV), Rome, GA 51969 BTCCT-20070514AQY Paxson Battle Creek License, Inc. WZPX(TV), Battle Creek, MI 71871 BTCCT-20070514AQZ Paxson Boston-68 License, Inc. WBPX(TV), Boston, MA WMPX-LP, Dennis, MA WDPX(TV), Vineyard Haven, MA WPXG(TV), Concord, NH 7692 6477 6476 48406 BTCCT-20070514ARA BTCTTL-20070514ARD BTCCT-20070514ARB BTCCT-20070514ARC Paxson Buffalo License, Inc. WPXJ-TV, Batavia, NY 2325 BTCCT-20070514ARE Paxson Charleston License, Inc. WLPX-TV, Charleston, WV 73189 BTCCT-20070514ARF Paxson Chicago License, Inc. WCPX(TV), Chicago, IL 10981 BTCCT-20070514ARG Paxson Communications License Company, LLC WPXN-TV, New York, NY WPXH(TV), Gadsden, AL WXPX(TV), Bradenton, FL WPXJ-LP, Jacksonville, FL WPXM(TV), Miami, FL WIPX-LP, Indianapolis, IN KPXR(TV), Cedar Rapids, IA WPXD(TV), Ann Arbor, MI W48AV, Detroit, MI WFPX(TV), Fayetteville, NC KPXG-LP, Portland, OR WNPX(TV), Cookeville, TN WPXV(TV), Norfolk, VA WPXR(TV), Roanoke, VA KWPX(TV), Bellevue, WA 73356 73312 6601 29716 48608 65121 21156 5800 68544 21245 69792 28468 67077 70251 56852 BTCCT-20070514ARH BTCCT-20070514ARJ BTCCT-20070514ARL BTCTTL-20070514ARW BTCCT-20070514ARM BTCTT-20070514ARU BTCCT-20070514ARO BTCCT-20070514ASF BTCTT-20070514ARQ BTCTTL-20070514ARK BTCTTL-20070514ART BTCCT-20070514ARN BTCCT-20070514ARR BTCCT-20070514ARI BTCCT-20070514ARS Paxson WPXU-LP, Amityville, NY 2129 BTCTTL-20070514ARY Federal Communications Commission FCC 07-233 15 Communications LPTV, Inc. KPXH-LP, Ft. Collins, CO WPXB-LP, Daytona Beach, FL W40BO, Boston, MA WNPX-LP, Nashville, TN KBPX-LP, Houston, TX 18509 10321 55114 30258 17746 BTCTT-20070514ASB BTCTT-20070514ARZ BTCTT-20070514ASC BTCTVL-20070514ASD BTCTTL-20070514ASA Paxson Dallas License, Inc. KPXD(TV), Arlington, TX 68834 BTCCT-20070514ASF Paxson Denver License, Inc. KPXC-TV, Denver, CO 68695 BTCCT-20070514ASG Paxson Des Moines License, Inc. KFPX(TV), Newton, IA 81509 BTCCT-20070514ASH Paxson Greensboro License, Inc. WGPX(TV), Burlington, NC 65074 BTCCT-20070514ASI Paxson Greenville License, Inc. WEPX(TV), Greenville, NC 81508 BTCCT-20070514ASJ Paxson Hartford License, Inc. WHPX(TV), New London, CT 51980 BTCCT-20070514ASK Paxson Hawaii License, Inc. KPXO(TV), Kaneohe, HI 77483 BTCCT-20070514ASL Paxson Houston License, Inc. KPXB(TV), Conroe, TX 58835 BTCCT-20070514ASM Paxson Indianapolis License, Inc. WIPX(TV), Bloomington, IN 10253 BTCCT-20070514ASO Paxson Jacksonville License, Inc. WPXU-TV, Jacksonville, NC 37971 BTCCT-20070514ASP Paxson Jax License, Inc. WPXC-TV, Brunswick, GA 71236 BTCCT-20070514ASQ Paxson Kansas City License, Inc. KPXE(TV), Kansas City, MO 33337 BTCCT-20070514ASR Paxson Knoxville License, Inc. WPXK(TV), Jellico, TN 52628 BTCCT-20070514ASS Paxson Lexington License, Inc. WUPX-TV, Morehead, KY 23138 BTCCT-20070514AST Paxson Los Angeles License, Inc. KPXN(TV), San Bernardino, CA 58978 BTCCT-20070514ASU Paxson Milwaukee License, Inc. WPXE(TV), Kenosha, WI 37104 BTCCT-20070514ASV Paxson Minneapolis License, Inc. KPXM(TV), St. Cloud, MN 35907 BTCCT-20070514ASW Federal Communications Commission FCC 07-233 16 Paxson Oklahoma City License, Inc. KOPX(TV), Oklahoma City, OK 2566 BTCCT-20070514ASX Paxson Orlando License, Inc. WOPX(TV), Melbourne, FL 67602 BTCCT-20070514ASY Paxson Philadelphia License, Inc. WPPX(TV), Wilmington, DE 51984 BTCCT-20070514ASZ Paxson Raleigh License, Inc. WRPX(TV), Rocky Mount, NC 20590 BTCCT-20070514ATA Paxson Sacramento License, Inc. KSPX(TV), Sacramento, CA 52953 BTCCT-20070514ATB Paxson Salem License, Inc. KPXG(TV), Salem, OR 5801 BTCCT-20070514ATC Paxson Salt Lake City License, Inc. KUPX(TV), Provo, UT 57884 BTCCT-20070514ATD Paxson San Antonio License, Inc. KPXL(TV), Uvalde, TX 61173 BTCCT-20070514ATE Paxson San Jose License, Inc. KKPX(TV), San Jose, CA 22644 BTCCT-20070514ATF Paxson Scranton License, Inc. WQPX(TV), Scranton, PA 64690 BTCCT-20070514ATG Paxson Spokane License, Inc. KGPX(TV), Spokane, WA 81694 BTCCT-20070514ATH Paxson Syracuse License, Inc. WSPX-TV, Syracuse, NY 64352 BTCCT-20070514ATJ Paxson Tulsa License, Inc. KTPX(TV), Okmulgee, OK 7078 BTCCT-20070514ATK Paxson Washington License, Inc. WPXW(TV), Manassas, VA 74091 BTCCT-20070514ATL Paxson Washington- 60 License, Inc. WWPX(TV), Martinsburg, WV 23264 BTCCT-20070514ATN Paxson Wausau License, Inc. WTPX(TV), Antigo, WI 86496 BTCCT-20070514ATM Paxson West Palm Beach License, Inc. WPXP(TV), Lake Worth, FL 27290 BTCCT-20070514ATO Ion Media Memphis License, Inc. WPXX-TV, Memphis, TN 21726 BTCCT-20070823AEO Federal Communications Commission FCC 07-233 17 Ion Media New Orleans License, Inc. WPXL(TV), New Orleans, LA 21729 BTCCT-20070823AER Federal Communications Commission FCC 07-233 18 CONCURRING STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: Paxson Management Corporation and Lowell W. Paxson and CIG Media LLC. Todays transaction involves the transfer of 60 full-service television broadcast licenses to a purchaser about which the Commission knows precious little. We do not know the identity of the investors in this particular fund, and we do not know how this fund has treated other companies it has owned in recent years. Though we know that the fund does not own other media properties, we do not know whether our attribution rules adequately capture the real distribution of power within this new corporate owner. Indeed, we are not even sure what type of entity we are dealing with here: Most press reports refer to it as a hedge fund, our own Order refers to it as a private equity fund, while the companys own website describes it as one of the worlds most sophisticated alternative investment institutions.1 In short, we dont have anywhere near the information or context necessary to know whether this change in control will harm viewers in the 60 communities that the company is licensed to serve. This is an especially urgent question because the stations at issue hereroughly 3% of the total TV stations in the United Statesrepresent some of the only outlets for independent broadcast programming available today. So while it is certainly a good omen that the new owners will retain the networks existing management, I do not believe the Commission has enough information before it right now to say, with confidence, that the networks commitment to programming diversity on the public airwaves will endure under the new ownership structure. I, for one, will be watching closely to see that it does. At some level, the Commissions fundamental lack of curiosity about the identity of our new licensees is hardly a surprise. Even as private equity firms have begun to acquire substantial numbers of broadcast stations (witness the Univision and Clear Channel acquisitions just this year), the Commission has been content to emulate the figures in the famous see no evil, hear no evil, speak no evil carving. This in stark contrast to other branches of our governmentlike the Presidents Working Group on Financial Markets and the Securities and Exchange Commissionwhich have shown far greater interest in attempting to understand the regulatory implications of hedge funds and similar financial creations. Accordingly, I must concur in todays Order and renew my call for a general Commission inquiry into the impact of private equity, hedge funds, and other related investment vehicles on our ability to protect, serve, and sustain the public interest in our broadcast media. 1 See Marcia Vickers, A Hedge Fund Superstar, Fortune (April 3, 2007); Citadel Investment Group, LLC: About Us, available at http://www.citadelgroup.com/ (last visited 12/28/07).	en
markdown	410925	# Presentation: 410925 ## DØ Silicon Hookup and Commissioning - Goals and timeline - Overview of Silicon Read out - “Stand alone” commissioning - Cosmic Ray Stand - Barrel / Disk read-out - Commissioning in Collision Hall - Marcel Demarteau - Fermilab - _Outline_ - Director’s Review on Installation and Commissioning - D0 Dir Review Inst/Com - Dec 7, 1999 ## Goals - Ensure data integrity at the level of 1014 - 1015, i.e allow for loss of 1 bit in 1014 - 1015 bits transferred - Provide adequate operating margin for device - Ensure adequate diagnostics tools and controls - Exercise control logic - Exercise Data Acquisition and filtering scheme - Exercise offline software - _Timeline_ - Commission read out electronics in phases “on the bench” without detectors attached - Integrate final components as soon as available - Read out small scale setup in final configuration - Enlarge scope of read out - D0 Dir Review Inst/Com - Dec 7, 1999 ## Current Status - Complete read out system installed in cleanroom in LabC - Final version of all read out components, except Interface Board - System run in checksum mode in Level 3 node - SVX chips downloaded to read out set data value - All channels read out; data constant - Calculate checksum (sum of all bits) in VBD - Data transferred to L3 node; checksum compared - If checksum different: read in and analyze even - D0 Dir Review Inst/Com - Dec 7, 1999 ## Very low noise on data transfer backplane Proper handshaking between read out elements Data integrity > 1013 (~ 1 non-fatal error every ~30 minutes) - System equivalent of ~22,000 channels - Data transfer on VME at ~ 12 Mbytes/s - Very low noise on data transfer backplane - Proper handshaking between read out elements - Data integrity > 1013 (~ 1 non-fatal error every ~30 minutes) B) Ran with single chain (hdi) in close to final configuration, including low mass cable, 30’ 3M/50 conductor cable. Optimized impedance matching for data and control lines on sending and receiving ends - Successfully operated all hdi types - Mapped out operating margin for all hdi types - Data integrity > 1013 for all hdi types with comfortable operating margin C) Written raw data to disk, unpacked and analyzed “offline” within L3 framework and online monitoring program (Examine) - D0 Dir Review Inst/Com - Dec 7, 1999 ## Upper limits - DØ - D7 - Data bus lines - Clock strobe - Read out at 53 MHz - DValid - 18.8 ns - Strobe channel id - Strobe data - 7-8 ns Operating Margin - Bus lines D0/D7 - WCLK and DVALID - signal risetime of 2-3 ns - D0 Dir Review Inst/Com - Dec 7, 1999 ## Schedule and Resources - 12/05/99: Expand to 6 chains with low mass configuration - 12/15/99: Implement new interface board - 50  80 conductor cable with SVX power provided through cable - monitoring capabilities added - Verification of data acquisition and data integrity will be ongoing effort - D0 Dir Review Inst/Com - Dec 7, 1999 ## Cosmic Ray Setup - Install up to 12 ladders in spare Be support structure and exercise full read out system, DAQ, L3 and on/offline software, controls and monitoring - First step in trying to operate full barrel disk - Array of 4 scintillator counters form external trigger - Momentum analyzing steel, pT > 2 GeV/c - Data Rate ~ 1 cosmic/min - Ladder installation in progress - D0 Dir Review Inst/Com - Dec 7, 1999 ## Setup - 6 ladders read out through low mass cable in final configuration - 6 ladders read out through high mass cable: Total of 9216 channels - Barrels will be cooled and interlocked - First cosmic ray recorded 12/20/99 _Ingredients_ - Detector Control and Monitoring - Secondary Data Path - Data Acquisition - Online data monitoring (Examine) - D0 Dir Review Inst/Com - Dec 7, 1999 ## Detector Controls and Monitoring - All slow controls and monitoring uses 1553 protocol 1553 interface to Si detector only available with new Int.Brd. Detector Readout Crate Controls Crate UNIX Hosts Control Room PCs EPICS Clients: SVX Download Low Voltage High Voltage 1553 Devices Rack Monitor Controls Ethernet *1553* - Download of Sequencer and SVX chips, not optimized - SVX and bias Voltage control done, need implementation - 1553 Monitoring devices, currents, temperatures - Cooling monitoring and interlock - Oracle database design population and interface - _Available_ - _In progress_ - D0 Dir Review Inst/Com - Dec 7, 1999 ## Secondary Data Path - Intended for calibration processes and monitoring For Silicon: calculation of pedestals and gains - Front-End software finished as stand alone - _Available_ - _In Progress_ - Porting to cosmic ray setup Jan 00 - Exercise system Feb 00 - Database interface first pass March 00 - Database retrieval April 00 L3 Node - D0 Dir Review Inst/Com - Dec 7, 1999 ## Run Configuration - Module addressing and read out - chip id, pedestal, gain, ladder barrel, Temp address, I address Readout Configuration Geometry parameters Calibration Constants Monitoring Devices Control Parameters - D0 Dir Review Inst/Com - Dec 7, 1999 ## Data Acquisition - All pieces to exercise full data acquisition chain are in place - Read out to L3 system extensively tested - Online Examine SMT analysis code tested on raw data - First pass at full read out with 12 ladder test Dec 99/Jan 00 - Will slowly ramp up to enlarge read out and complexity of tools - L3 Tools: data unpacking, hit finding, track reconstruction - D0 Dir Review Inst/Com - Dec 7, 1999 ## Timeline for development - Dec 99: - 6-12 ladder setup and test controls and monitoring - Dec 99 - Jan 00: - Cosmic Ray data taking; online monitoring with Examine - Feb 00: - First pass at L3 filtering and alignment - First pass at secondary data path - Mar 00: - Database integration - D0 Dir Review Inst/Com - Dec 7, 1999 ## March 15/00: Hook up of full H-disk, 48 detectors, 36864 channels; exercise all components April 1/00: Hook up barrel, 72 detectors April 15/00: Hook up barrel and F disk, 96 detectors (~10%) May 1/00: 15 more detector assemblies to go (5 barrel/disk, 6 F disks, 1+3 H disks) one week for read out and debugging per assembly Done Aug 15/00 Note, doubling the time per assembly (23 assemblies) would give completion date of Oct 7/00. Still adequate (7 H disk assemblies can go last) - Hook up of full H-disk, 48 detectors, 36864 channels; exercise all components - April 1/00: - Hook up barrel, 72 detectors - April 15/00: - Hook up barrel and F disk, 96 detectors (~10%) - May 1/00: - 15 more detector assemblies to go (5 barrel/disk, 6 F disks, 1+3 H disks) - one week for read out and debugging per assembly - Done Aug 15/00 - Note, doubling the time per assembly (23 assemblies) would give completion date of Oct 7/00. Still adequate (7 H disk assemblies can go last) _Timeline_ - So far discussed development on small scale system (12 ladders) and commissioning of read out system. Move to full subsystem in March 00. No assembly (barrel or disk) leaves the silicon facility without having been read out. - D0 Dir Review Inst/Com - Dec 7, 1999 ## Meanwhile in the Pit VRB Controller Optical Link 1Gb/s 3/6/8/9 Chips Sensor VBD VRB VRB VRB VRB 68k Secondary Datapath VME Low Mass 3M 1 5 5 3 NRZ / CLK SVX EMULATOR IB Monitoring Control L3 HOST Examine - Concurrent with work at the silicon facility, a complete shake down of the read out system will take place at the assembly hall of final read out configuration downstream from the interface board, including online data checking (Examine). See M. Johnsons presentation - D0 Dir Review Inst/Com - Dec 7, 1999 ## Barrel and disk hookup at DAB - Hookup of cooling system immediately - Run coolant above dewpoint, so no damage to detectors. Procedure verified at silicon facility - Starting 9/26/00, 5 weeks allocated for check out of silicon detector - 1.5 weeks allocated for cabling each detector end. Note, read out has HDI-enable line, therefore, system can be fully powered at hookup time, thus instant hdi checkout. Procedure should be developed at silicon facility during full barrel/disk tests - Complete Barrel and F disk hookup in 3 weeks. - Assuming 7days/week, 12hrs/day, this gives ~20 mins of debugging time per hdi - Two additional weeks for debugging complete barrel and F disk assembly. Hookup of H disks in parallel. - D0 Dir Review Inst/Com - Dec 7, 1999 ## Resources - D0 Dir Review Inst/Com - Dec 7, 1999 ## Summary - Read out system will be verified continuously. Current level of data integrity for single hdi would be adequate. - Partial barrel with cosmic ray data taking first step to final system configuration - All system components will be exercised at the silicon facility and procedures developed for DAB hookup and commissioning - Many DAQ components exist already in stand alone form, but are not integrated. - All full assemblies will have been read out at the silicon facility before installation. Development of procedures at facility crucial. - Schedule is tight but feasible - D0 Dir Review Inst/Com - Dec 7, 1999	en
converted_docs	990223	NASA Glenn Research Center Safety and Mission Assurance Directorate ####### ####### SUMMARY OF KEY ACTIVITIES ####### May 6, 2005 The following are highlights of key activities during the week ending May 6, 2005 for the Glenn Code Q/Safety and Mission Assurance Directorate (SMAD): [Risk Related Decisions/Actions]{.underline}: [Programmatic]{.underline}: None Reported [Institutional]{.underline}: None Reported [Key Activities]{.underline}: [Code QD/Plum Brook Reactor Decommissioning Program Office]{.underline}: Two individuals from the Decommissioning Project Team were recognized at the Safety and Mission Assurance Directorate Quarterly All Hands Meeting. Julie Fuerstenberg was given an award for her Administrative Support to the directorate and William Stoner, the Project Radiation Safety Officer, was recognized as the Employee of the Quarter by his peers on the Decommissioning Project. [Current Site Activities]{.underline} \-- The Embedded Piping Evaluation Team continues to make progress toward refining the options and scenarios that will be evaluated for cost and schedule impacts to the project. This evaluation will continue until mid-June. Once the evaluation team completes its work and makes recommendations to the US Army Corps of Engineers (USACE) and NASA, a path forward will be selected. The USACE had an independent contractor evaluate the Embedded Piping Evaluation Team this week. The conclusion reached by the evaluator was that the evaluation process appeared to be sufficient to provide the information for decision making in the June time frame. There were two cautions given by the evaluator; first, that the risks for all scenarios should be determined and understood by the decision makers; and second, that the waste streams from each option should be considered fully. There is an interim update to NASA and USACE management planned for the week of May 23, 2005. [Code QE/Risk Management Office (RMO)]{.underline}: [PROGRAM SMA]{.underline} [Exploration Systems Mission Directorate]{.underline} Human System Research and Technologies [Fluids and Combustion Facility (FCF)]{.underline} \-- Initiated review of the revised Combustion Integrated Rack (CIR) Phase III Flight Safety Data Package. Continued independent review of CIR hazard control verifications. (215 out of 358 CIR verifications are scheduled for review.) To date, 6.5% are complete and 5% with findings are being worked with the Project. Continued to witness software tests. The CIR Software Hazard Control test, CIR Health monitoring test and Fuel-Oxidizer Management Assembly (FOMA) Control Unit test were completed. The IPSU-A (Image Processing and Storage Unit Analog) test verified the software successfully, but a hardware anomaly was documented. Participated in the Software Change Control Board for a FOMA Control Unit software change. (Because of its importance for safety, FOMA changes are rigorously scrutinized.) Also, reviewed changes to the IOP (Input-Output Processor) and IPSU. Supported a software load of IPSU Main Processor software on a CIR IPSU. Also witnessed a load of IOP software on the CIR rack. Participated in a meeting to discuss the software change process and agreed to begin implementing a more formal process, including approval/rejection of software changes through an ERB (Engineering Review Board). Reviewed the updated signals list and provided comments and questions. Also updated several PRACAs (Problem Reports and Corrective Action) and prepared some for closure at the PRACA Review Board meeting. Recalculated effective mean time between failure (MTBF) for about 95% of the blocks in the CIR and Fluids Integrated Rack (FIR) availability models. (Will use as inputs for updated availability predictions based on revised duty cycles.) Also, discussed sparing options for various Orbital Replacement Units (ORUs) and workarounds for certain types of failures. Sent comments to Prime Contractor on their Limited-Life Items (LLI) List. Working with the contractor to correct deficiencies. Met with Contract Risk Manager to review and update closure rationale on open risks. Finished developing rationale on all remaining open risks. Supported the Software Test Team weekly meeting to review open software risks and action items. Closed seven action items and five risks. [Flow Enclosure Accommodating Novel Investigations in the Combustion of Solids (FEANICS)]{.underline} \-- Met with lead operations engineer and electrical engineer to discuss preliminary failure modes and effects analysis (FMEA) and possible design changes to the PI box configuration. Also began evaluation of proposed modification to the radiant heater halogen bulb design. RMO Safety establishing a simple one page chart to more easily identify the different categories of safety-critical fasteners. This will mitigate the risk of specifying, procuring and/or installing the wrong type of fastener for safety-critical applications. Reviewed two commercial off-the-shelf (COTS) boards for parts issues. Recommended these boards may be used for flight provided handling and environmental screening procedures for COTS are followed, but radiation testing is recommended. [Flame Extinguishment Experiment (FLEX)]{.underline} \-- Reviewing the Phase III Flight Safety Data Package. [Smoke Aerosol Measurement Experiment (SAME)]{.underline} \-- Met with Project Manager and team to discuss the draft Product Assurance Plan. Reviewed deviations proposed for \"fast track approach\" and possible options for mitigating risk. Completed the review and signed-off on the Phase II Flight Safety Data Package. [Dust Aerosol measurement Feasibility Test (DAFT)]{.underline} \-- Supported very successful Technical Interchange Meeting (TIM) with the Payload Safety Review Panel (PSRP) related to hardware damage that occurred during transportation between JSC and KSC. The TIM included discussions on the repair/re-verification of the hardware. All repairs and re-verifications were found to be acceptable by the PSRP. [Packed Bed Reactor Experiment (PBRE)]{.underline} \-- Reviewed the preliminary Form 1230 for use at the upcoming Requirements Definition Review (RDR). Reviewing venting methodologies. [Binary Colloidal Alloy Tests (BCAT)]{.underline} \-- Drafted memo concerning BCAT-3 operations (including updates to Safety Data Package) to support continued on-orbit testing of BCAT samples during Increment 12 on the International Space Station. Integrated Product Teams (IPT) Supported S&MA Integrated Product Team (IPT) Reconciliation Workshop at University of Maryland. Eight IPTs asked to reduce bottoms-up resource estimates by 60% overall (30% for S&MA Team) and identify associated risks. Worked with JSC and MSFC to re-scope S&MA proposal using reduced resources. (Final resource allocation expected by end of May.) Project Prometheus Program [Prometheus]{.underline} I \-- A risk identification workshop was facilitated for the Power Process Unit element. After a brief presentation, the team discussed the current risks and identified new risks. A presentation was created to give for the Electric Propulsion (EP) Implementation Review to be held May 12, 2005. The first draft of the EP Segment Risk Management Plan was completed. This plan should prevent any further concerns with roles and responsibilities for risk management on the EP Segment Project. Constellation [Crew Exploration Vehicle (CEV)]{.underline} \-- Participated in the Crew Exploration Vehicle (CEV) Capture team meeting on May 3, 2005. A GRC "Experience & Capabilities for CEV" package presentation to senior GRC managers was reviewed. [Space Operations Mission Directorate]{.underline} [Return to Flight]{.underline} \-- The Failure Modes and Effects Analysis for the Orbiter Integrated Sensor Inspection System (ISIS) \[Sensor Package 1\] was reviewed and comments provided. Some concern was expressed about two failure modes. The Pan Tilt Unit (PTU) mounting fixture shaft fails to rotate (jammed due to contamination or induced damage). This means that the crew cannot aim the Laser Dynamic Range Imager and Intensified Television Camera to pan all the area needed to carry out inspection. The other failure mode is PTU Motor Failure. The drive motor that rotates the sensor package fails: No Output. These comments were forwarded to JSC for discussion. Ballistics testing was witnessed for the reinforced carbon-carbon composite (RCC) panels with PDL (Product Development Laboratory) foam at 45 degrees at different velocities. The tested panels were then taken to the Nondestructive Evaluation Laboratory (NDE) to determine the damage area. It was determined that the PDL foam was more destructive to the RCC panels than the BX-265 foam that encases the external tanks. These tests are considered on the critical path for the shuttle launch. [Science Mission Directorate]{.underline} [Stirling Radio-isotope Generator (SRG)]{.underline} \-- Simulations were carried out using Rapid Assessment Prototyping Tool for Operational Readiness (RAPTOR) programs for three, fourteen, and seventeen year SRG-110 missions addressing seven active subsystems. The subsystems include: two heat sources, two converters, a gas management valve (GMV), a pressure relief device (PRD), and an electronic controller. Subsystem mean time to failures (MTTF) was varied from 10 times to 1000 times the mission duration to make relative comparisons of system availability and reliability. Preliminary reliability data was received from Lockheed Martin concerning the GMV and the PRD. Further detail is needed before including data in simulations. RMO participated in the Reliability Working Group (RWG) Tele-Conference call. Discussion occurred regarding the Reliability Summit meeting in Stevenson, Washington slated for June 21st thru June 23rd. The GRC Lead Project Engineer furnished an e-mail to the group explaining the objective of the Summit, which is to create a basis from which an overarching Stirling power conversion reliability plan can be developed that provides guidance to the developers of the technology, and offers verification of reliability to the potential end users. The summit is intended to be a first meeting of independent thought with subsequent follow-up meetings. [Aeronautics Research Mission Directorate]{.underline} Started working with the software safety and flight software development groups to develop a brief overview of GRC capability relative to the certifiability of the software planned for the autonomous/resilient vehicle systems demonstrations. Plan to meet with GRC AVSSP (Aviation Safety and Security Program Security Program) management to discuss this in-house capability. [SMA TECHNOLOGY]{.underline} [NASA Engineering and Safety Center]{.underline} [NESC ISS Recurring Anomaly Review Team]{.underline} \-- The assessment of which Quick Disconnects (QD) PRACAs are related to human factors (i.e. the discrepancies resulted in modifications to ground and flight procedures, or the development of tools to assist in QD maintenance functions) was completed. [(NESC) Safety and Mission Assurance]{.underline} \-- Participated in the NASA Safety Engineering Center (NESC) Safety and Mission Assurance (SMA) Working Group Meeting telecon on May 11, 2005, led by Wayne Frazier and Ken Cameron. Discussions centered on the Space Shuttle Program (SSP) Assurance Process Analysis, led by Dr. Steve Newman. This SSP Assurance Process was outlined in detail as to the roles and responsibilities of each of the interactive SMA functions throughout the Agency. The NESC Management Communication Center (MCC) status was discussed with regard to the use of a Microsoft Widows sharing tool being used for knowledge sharing and its link to the Chief Engineer office. [Safety and Mission Assurance]{.underline} [Electrical, Electronic, Electromechanical (EEE) Parts]{.underline} \-- Participated in the NASA Electronics Parts Advisory Group International Telecom on May 4, 2005. Topics of discussion were European surface mount devices, the use of pure tin in NASA parts, the International Audit schedule and the definition of \"Space qualified\" parts. [Code QV/Quality Management Office (QMO)]{.underline}: [PROGRAM QUALITY ASSURANCE]{.underline} [Exploration Systems Mission Directorate]{.underline} Human System Research and Technologies [Fluids and Combustion Facility (FCF)]{.underline} \-- The Quality Management Office (QMO), is reviewing and accepting FCF hardware and attending documentation, assuring that hardware turned over to the government conforms to the Delivery Order requirements. DD250s will be signed by QMO for 44 FCF packages, consisting of approximately 1200 kits. [Flow Enclosure Accommodating Novel Investigations in the Combustion of Solids (FEANICS)]{.underline} \-- QMO is helping the project select baffle and screen materials associated with the filter section. QMO is working to establish and document a better method of identifying safety-critical fasteners during the design phase to benefit the project in the procurement of flight fasteners. Quality Management Office personnel attended the TEST procedure review meeting of FEANICS-TEST-0-120 for testing the Fit Functional Model in the Combustion Integration Rack (CIR), Engineering Model (EM). The team detailed procedural inputs incorporating the latest comments and iterations. Pending any further comments or revisions, the document should be updated and routed for signatures. > Quality Management Office (QMO), provided guidance in electronic parts > selection and in key assembly procurements to best support NASA flight > qualification requirements. [Investigating the Structure of Paramagnetic Aggregates from Colloidal Emulsions (InSPACE-2)]{.underline} \--Participated in a meeting to review project status and the storage review plan. Made recommendations on bonded storage of hardware and Ground Support Equipment (GSE) and discussed concerns about having GSE operating at the launch site. [Light Microscopy Module (LMM)]{.underline} \-- Provided support to the Light Microscopy Module (LMM) Project Engineering Review Board for the LMM humidity exception. [Smoke Aerosol Measurement Experiment (SAME)]{.underline} \-- Participated in the SAME Project meeting to discuss potential modifications to the Product Assurance Plan (PAP) to reflect the fact that it is a fast-track project. Gave numerous recommendations for achieving more flight-worthy hardware while reducing paperwork and costs. [INSTITUTIONAL QUALITY ASSURANCE]{.underline} [Lessons Learned]{.underline} \-- Hosted NASA Headquarters sponsored workshop on the NASA Lessons Learned Process, establishing an effective NASA Center Process for Lessons Learned. Participants at this workshop included GRC\'s Chief Engineer and representatives from various GRC Offices and Directorates. The participants were very outspoken and provided NASA Headquarters with much valuable feedback and opinion about this topic and how it relates to GRC. [Code QS/Glenn Safety Office (GSO)]{.underline}: Ken O'Connor of the GSO received the Wings of Excellence Award from outstanding service to the Agency and the community. The award is given by the Cleveland\'s Federal Executive Board. [Safety, Health and Environmental Board]{.underline} \-- GSO supported a special meeting of the Safety, Health and Environmental Board. The Board discussed the Center\'s Emergency Management Program. [GSO Support for Design of Projects Impacted by Airport Expansion]{.underline} \-- Worked with the GSO Fire Protection and Life Safety Engineer to finalize Altitude Combustion Stand (ACS) project specification sections of interest to the Glenn Safety Office. The completed sections are due by 5/6/05 to meet the SAA3 Project Manager\'s schedule. Updated the GSO Chief on the status of the Altitude Combustion Stand (ACS) project. Presented a schedule for the completion of the design as well as a schedule for the procurement and construction phase. Subsequently, gave a similar presentation to the appropriate GSO staff. Consulted with the Central Chemical Storage Facility (CCSF) B215 Building Manager regarding some chemical fume hood design issues. [Safety Training]{.underline} \-- An extension was issued by the Chief, GSO on fire extinguisher training to all GRC personnel requiring Hot Work Permit for welding and grinding at the Center. The extension was issue to support scheduled work tasks while training requirements are fulfilled. [Code QO/Environmental Management Office (EMO)]{.underline}: Dan White of the EMO received the Wings of Excellence Award from outstanding service to the Agency and the community. The award was given by the Cleveland\'s Federal Executive Board. [CHEMICAL MANAGEMENT]{.underline} [Hazard Communication Training]{.underline} \-- Hazard communication training was given to two civil servants in the Building 21 Learning Center auxiliary room on April 27. The next scheduled hazard communication training will be May 10 in the Building 21 Learning Center auxiliary room. The Chemical Management Team (CMT) has also been working with Sue Gott to set up hazard communication training for college interns. Since CMT posted the availability of the web based hazard communication refresher training, 234 individuals have taken the refresher training. [Chemical Inventory Program]{.underline} \-- The CMT converted 22 chemical containers to "active" status and 113 containers to "inactive" status. The CMT initiated the active scanning process in Building 77. The CMT also organized a meeting with the building manager, some of the key branch managers in the Building 5 complex, and the Waste Management Team to discuss issues pertinent to the Chemical Inventory Audit scheduled to begin the week of May 9. The CMT began hand entering data for newly bar coded containers discovered during the physical inventories of Buildings 49 and 106. Over 500 entries have been made in the past week. [ENVIRONMENTAL]{.underline} The Closure Report for the 315 gallon diesel tank removed from the Building 43 parking area has been approved and sent to the Bureau of Underground Storage Tank Regulations. The Environmental Team (ET) submitted the asbestos blanket authorization report to the Cleveland Bureau of Air Pollution Control. The ET provided comments on the draft revision of the Firing Range remedial design. The document was revised and then submitted to the Ohio Environmental Protection Agency (EPA). The ET evaluated the data failures for the four wells near Building 109, determined the cause, and proposed a solution to the Ohio EPA. Ohio EPA agreed with the proposed solution. Selected wells will be re-sampled, but only for polychlorinated biphenyls analysis. The ET has been working with the Facilities Division on soil and water issues related to the Altitude Wind Tunnel Demolition, Phase II. The National Environmental Policy Act (NEPA) process of Environmental Assessment and Finding of No Significant Impact (FONSI) is complete for the Expansion and Renovation of DeLaRoche Hall at St. Bonaventure University in the Town of Allegany, Cattaraugus County, New York. The final NEPA notice appeared in the Olean Times Herald on May 3 and 4, 2005. There is no requirement to wait an additional 30 days, based on the fact that the draft FONSI was previously published for 30-day public comment period and remained unchanged from draft version to final. [INDUSTRIAL HYGIENE AND HEALTH PHYSICS]{.underline} The Industrial Hygiene and Health Physics Team (IHHPT) responded to a request for assistance from the First Responders regarding an odor complaint in the clean room high bay area of Building 110. Once the high bay was cleared of the odors, an office-type waste can containing waste rags was found to be the cause. The IHHPT has been meeting with employees in the area to review material cleaning procedures. The IHHPT conducted employee exposure monitoring during the removal of aluminized Mylar wrap in Building 301, VF-5. After about an hour of removal, the employee, who was wearing a filtering face piece, was asked to stop work so the need for half-mask respirators could be evaluated. The IHHPT recommended that employees not be allowed to move into a presently vacant space in Building 14 until a mold contaminated wall is safely removed by professionally trained mold remediation workers.	en
converted_docs	241789	SOUTHERN CROSS UNIVERSITY ![](media/image1.wmf){width="4.50625in" height="0.6395833333333333in"} School of Human Services Course Accreditation Document Graduate Certificate in Community Development (Emergency Management Human Services) Graduate Diploma in Community Development (Emergency Management Human Services) Masters of Community Development (Emergency Management Human Services) ![](media/image2.png){width="1.3194444444444444e-2in" height="1.3194444444444444e-2in"} Table of Contents CONTENT PAGE Course Overview 1 Resource Impact Statement 8 Course Entry Requirements 10 Teaching/Learning Methods 10 Assessment Methods 10 Course Monitoring 11 Unit Statements Perspectives of Community Development 12 Political, Economic and Cultural Aspects of Community Development 17 Community Education 22 Issues in Disaster Management 27 Disaster Preparedness and Prevention 33 Living in a Hazardous Environment 39 Social Dimensions of Disasters 44 Analytical Methodologies in Emergency Management 51 Conceptual Contexts of Human Services 56 Analysis of Contemporary Policy in Human Services 60 Delivery Systems in Human Services 64 Evaluation and Accountability in Human Services 68 Staffing and Resources 71 Rules Graduate Certificate in Community Development 72 Graduate Diploma in Community Development 75 Masters in Community Development 78 Course Overview Course Title and Title Abbreviation Title Master of Community Development (Emergency Management/Human Services) Graduate Diploma of Community Development (Emergency Management/Human Services) Graduate Certificate of Community Development (Emergency Management/Human Services) Abbreviation MCD (EM/HS) GDCD (EM/HS) GCCD (EM/HS) Generic Title Master of Community Development Graduate Diploma of Community Development Graduate Certificate of Community Development Level of Course Masters by Coursework Graduate Diploma by Coursework Graduate Certificate by Coursework Aims of Course and Relationship to University Plan This course aims to provide flexible options in postgraduate course work for people working in the community in the specific area of Emergency Services or generic Human Services. Underpinning Community Development to both these areas of practice is unique. For Emergency Services, the course aims to: - be an internationally recognized program of study for people involved in emergency management in Australia and the Asian and Pacific regions; - link community development and emergency management; - be unique, as most emergency management programs concentrating on the macro issues of prediction, response and logistics rather than prevention of severe effects of disasters in communities; - meet the needs of regional, national and international agencies responsible for emergency management; and - meet an identified deficit in emergency management education. For Human Services, the course aims to: - provide an opportunity for practitioners to apply community development concepts to the developing area of human services; - incorporate community development into human services practice; - give community practitioners the opportunity to enhance their skills in community development within the human service area; and - provide Social Science and other similar graduates with an opportunity to advance their skills and knowledge in community development. The proposed course serves the University Plan by: - providing a course which meets needs of regional, national and international communities; - being innovative and responsive to an identified need that is compatible with the undergraduate offerings of the university; - delivering a unique program in a region that has a considerable need for disaster preparedness and response; - providing the course in partnership and collaboration with other world leaders in disaster management education; - responding to the objectives of International Decade for Natural Disaster Reduction of the United Nations which is concerned with limiting the effect of natural disasters; - providing a course which is income generating and has potential for international students as well as industry partnerships within Australia; and - combining two course approval documents (Masters in Human Services and Masters in Community Development) into one flexible and innovative course, thus reducing the course offerings and maximizing the course opportunities for students. Need for Course The School of Human Services has been working on the development of postgraduate fee paying course for some time. Previously the University Council has approved the development of a Masters of Human Services and more recently, a Masters in Community Development (Emergency Management). This proposal combines both those course development submissions into one flexible course. At the close of 1997 Jean Griffiths and Stewart Hase visited the University of Madison-Wisconsin which is the major developer of disaster management programs in the world; the Federal Emergency Management Agency in Washington, which is the United States government agency responsible for disaster management, response and education; Coventry University which delivers degree programs in disaster management; the Moreton-on-Marsh Fire College; and the United Nations Office of Humanitarian Affairs, I.D.N.D.R. Secretariat. These meetings clarified that the international emphasis for disaster management has shifted from one of response to one of disaster reduction which is encompassed in the community development processes. No such disaster management program currently exists in the world that includes Community Development as a major focus. Lastly, it was pointed out that Australia is positioned in a region where disasters are commonplace but where community development initiatives in disaster reduction are critical and yet remain poorly developed. The ever increasing incidence of disasters requiring international communities to provide extensive and expensive aid has highlighted that these vulnerable communities need assistance in taking action to reduce the effects of such disasters. The University of Madison-Wisconsin, the Federal Emergency Management Agency in Washington, Coventry University, Moreton-on-Marsh Fire College and the United Nations Office of Humanitarian Affairs, I.D.N.D.R. Secretariat expressed their willingness to partner Southern Cross in developing and delivering postgraduate and undergraduate programs in community development in the area of disaster reduction. This partnering includes making available to Southern Cross University existing accredited university course material from the Federal Emergency Management Agency of the United States Government and the Office of Humanitarian Affairs of the U.N. for adaptation to distance delivery in this program. The Graduate Certificate, Graduate Diploma and Masters courses proposed here are aimed at those people involved in emergency management and training, as well as community development and implementation in Australia, Asia and Pacific countries. It is envisaged that some students may be obtained from Australia and New Zealand. The Queensland Police and the Australian Emergency Management Institute (AEMI) have also showed a keen interest in this program and its appropriateness for developing their staff. Police services throughout Australia have a major role in emergency management and AEMI provides professional development to emergency services throughout Australia. This linking ensures relevance and collaboration with those operating in this field, which are vital requirements for the successful implementation of this program. Thus it was recommended to the Vice-Chancellor that we move rapidly to establish such a disaster management program which uses a combination of materials already developed by the above institutions as well as the new community development strand developed by Southern Cross University's School of Human Services with an emphasis on community education aspects of disaster prevention. This should be accomplished by forming partnerships with The Centre for Disaster Management at Wisconsin University, the Emergency Management Institute of the Federal Emergency Management Agency in Washington, and the current Coventry University-Fire Training College alliance in the United Kingdom. To formulate the Community Development/Community Education strand, we have consulted with the IDNDR Secretariat of the Office of Humanitarian Affairs in United Nations in Geneva and the Australian Emergency Management Institute. As a result the Vice-Chancellor has provided funds for the development of the Graduate Certificate, Graduate Diploma and Masters courses recognizing the potential niche market globally for this program. Sources of Advice Advice regarding this course has been obtained from the following group from which an Advisory Committee will be formed: Mr. Alan Hodges, Director General, Emergency Management, Australia Mr. Rod McKinnon, Director, Policy Planning and Coordination, Emergency Management, Australia. Mr. John Salter, Australian Emergency Management Institute, Mt Macedon Vic Dr. Don Schramm, University of Wisconsin, Madison Professor Chris Pratt, Coventry University Dr. Tony Genes, Moreton-In-Marsh Fire College Mr. Ken McKay, Director, Federal Emergency Management Agency, USA Mr. Stephen Sharro, Deputy Director, Training Division, Federal Emergency Management Agency, USA Mr. Phillipe Boulle, Director IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Dr. Wayne Blanchard, Federal Emergency Management Agency, USA Mr. Terry Jeggle, IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Ms. Christine Schneider, IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Dr. Elizabeth Ozanne, Department of Social Work and Social Policy, University of Melbourne Dr. Jim Ife, School of Social Work and Social Administration, University of Western Australia Mr. Mark Wilson, Manager, Primary and Extended Care, Mid North Coast Health Service, Northern Sector Dr. Tony Vinson, Director of Research, UNIYA Jesuit Social Justice Centre Ms. Jean Griffiths, Head, School of Human Services Ms. Uschi Bay, School of Human Services Dr. Stewart Hase, School of Social and Workplace Development Dr. Herbert Biggs, School of Human Services Duration of Course Like other coursework postgraduate programs offered at Southern Cross University the three awards represent entry and exit levels. ------------------- -------------------- --------------- ---------------- Graduate 4 Units of 150 hours 1 Trimester F/T 2 Trimesters P/T Certificate Graduate Diploma 8 Units of 150 hours 2 Trimesters 4 Trimesters P/T F/T Masters 12 Units of 150 3 Trimesters 6 Trimesters P/T hours F/T ------------------- -------------------- --------------- ---------------- Year of Introduction The course will be introduced in the second Trimester of 1999. Field of Study 030299 Humanities and Social Sciences-Other Delivery Mode The course will be offered as a combination of external and internal study, full and part-time. Transitional Arrangements Not Applicable Intake in EFTSU for First Three Intakes 1999 20 EFTSU 2000 20 EFTSU 2001 20 EFTSU Intake in Persons by Attendance Status 1999 40 students in a combination external-internal study 2000 40 students in a combination external-internal study 2001 40 students in a combination external-internal study Resource Impact Statement See Attached Documentation Fees This will be a full fee course. Indicative Course Structure While the units for each of the awards appear as discrete subject areas there are a number of themes that provide the substantive theoretical underpinning for the course. These themes are: - rights and responsibilities of communities; - social development; - application to industry/community; - ethics; - learning communities; and - critical thinking and inquiry. *Graduate Certificate* Core Units Principles of Community Development New Political, Economic and Cultural Aspects of Community New Emergency Management Strand Issues in Emergency Management New Disaster Preparedness & Prevention New Human Services Strand Conceptual Contexts of Human Services New Delivery Systems in Human Services New *Graduate Diploma* Core Unit Community Education New Emergency Management Strand Living in a Hazardous Environment New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New Human Service Strand Analysis of Contemporary Policy in Human Services New Evaluation and Accountability in Human Services New Elective from existing post graduate units of SCU Existing *Masters* Research Dissertation ED756 Independent Study Unit IS165 Off Campus Practical Requirements Nil Professional Recognition Nil Schedule of Units Principles of Community Development (Core) New Community Education in Emergency Management (Core) New Political, Economic and Cultural Aspects of Community (Core) New Issues in Emergency Management New Living in a Hazardous Environment New Disaster Preparedness & Prevention New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New Conceptual Context of Human Services New Analysis of Contemporary Policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Research Dissertation ED756 Independent Study Unit IS165 Elective RESOURCE IMPACT STATEMENT COURSE DEVELOPMENT APPROVAL/ACCREDITATION [1. New Academic Staff Costs]{.underline} Year 1 .5 Lecturer C Year 2 .5 Lecturer B Year 3 Nil Year 4 Nil [2. New General Staff]{.underline} Year 1 .2 HEW 3 Year 2 .2 HEW 3 Year 3 Nil Year 4 Nil [3. Cost Savings]{.underline} Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil [4. Set Up Costs]{.underline} Equipment: (a) Computing Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil (b) Other Items Over \$5,000 The major cost of this program is the development of distance materials which has already been funded with an innovation grant. Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil [5. Other Non-Salary Items]{.underline} Year 1 \$7000 Year 2 \$7000 Year 3 \$7000 Year 4 \$7000 The major NSI costs for this program are in the cost of providing external study materials and in travel to maintain partnerships with the organizations collaborating on the program, thus ensuring that the material in the program is current and maintained at the "cutting edge". It is anticipated that the majority of these costs will be met through the income generated and through the School of Human Services. [6. Work Experience]{.underline} Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil [7. Library and Facilities Costs]{.underline} (a) Library No library resources required above those normally allocated to the school. (b) Facilities Number of additional: - staff offices required Nil - lecture theatres required Nil - tutorial rooms required Nil - computers required Nil - laboratories required Nil - other requirements Nil No additional facilities are required as it is anticipated that all these requirements can be met from the School of Human Services current allocation and from utilizing the computer laboratories during the major non-teaching period. [8. Expected Sources of Funds]{.underline} Full fee paying Course Entry Requirements Applicants for admission to these courses in Emergency Management shall: \(a\) have fulfilled all the requirements for admission to a degree or qualification of equivalent standing at this or another university or tertiary institution; or \(b\) have demonstrated academic achievement, professional standing or experience (or a combination of these) considered to be equivalent to the requirement of (a). Teaching/Learning Methods This course will be offered primarily by external studies using a variety of teaching methods including printed study guides, reading resources, internet access, teleconferencing, email tutorials, on-site mentoring, and work-based learning. The courses will be mounted on the internet using the model currently being developed by the University's on-line pilot projects. The School of Human Services has extensive experience in offering courses by external studies as evidenced by the success of the Bachelor of Social Sciences. While prescribed content is delivered through self-instructional materials there is flexibility in activities and assessment for the participant to apply learning in their own specific context. Thus elements of the learning experience are negotiated between the academic, the participant and, in some cases, the sponsor. The option will be provided to overseas participants and by negotiation with their sponsoring agency or government to attend a face-to-face component at Southern Cross University, to be conducted at a time suitable to access university facilities and to the student. In these cases the course will involve a mix of distance and face-to-face methods. Assessment Methods The School of Human Services uses a variety of assessment methods designed to address the Unit objectives and is as individualized as practicable. The School is particularly concerned that the assessment is relevant, weighted appropriately, formative and that the student is not over-assessed. Assessment methods used by the School are consistent with common practice in higher education and include essays, project reports, research reports, and practical activities. This course will mainly utilize case studies, learning contracts or projects. Since assessment is formative, extensive feedback is given students as well as additional tutorials (by telephone or email) as required. Marking criteria and standards are continuously evaluated by cross-marking and by peer appraisal. Course Monitoring Course monitoring is a continuous process through student feedback and formal appraisal, annual review of the curricula and assessment by a meeting of staff, and feedback by sponsors. A comprehensive review involving all stakeholders of this course will be undertaken every 3 years to ensure its relevance to the emergency management community and in recognition of the rapidly changing areas of community development and emergency management. This is well within the University policy of course review every six years. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Perspectives of Community Development Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Community development is increasingly being utilized as a process by which social change is initiated. This Unit aims to introduce students to the theoretical and contextual components that influence the process of community development in a variety of situations. Objectives On completion of this Unit students should be able to: 1. Identify the contextual factors of the global environment and national and regional characteristics that impact upon community development. 2. Discuss the theoretical underpinnings of community development. 3. Critically analyze the context in which community development occurs. 4. Differentiate between approaches to community development. 5. Apply community development methodologies to different situations. Handbook Entry Provides students with an overview of the contextual and theoretical elements of Community Development. Approaches to community development will be critically analyzed using the contextual and theoretical elements and apply the process of community development to a variety of settings. Syllabus Overview of Community Contextual Factors: Global environment National and Regional Characteristics Emerging Themes in Community Development Theoretical Elements of Community Development Community Development Across a Variety of Settings Approaches to Community Development Strategies and Methods of Community Development Community Development in Human Services and Emergency Management Prescribed Text TBA Reference Materials Bennett, L., (1997) Urban redevelopment and grassroots action in Chicago and Sheffield: themes, variations and uncertain legacies. International Journal of Urban and Regional Research. Vol 21 No 4 pp 664-677. Booth, M., (1997) (Community Development: 'Oiling the Wheels of Participation'? Community Development Journal Vol 32 No 2 pp 151-158. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) Community Care: A Reader. Macmillan: London. Campfens, H Ed (1997). Community Development around the world: Practice, Theory, Research & Training. University of Toronto Press: Toronto Canada. Coulton, CJ., (1996) Poverty, work, and community: a research agenda for an era of diminishing federal responsibility. Social Work Vol 41 No 5, pp 509-520. Craig, G & Mayo, M Eds (1995) Community Empowerment: A Reader in Participation and Development. Zed Books: London. Craig, G., (1998) Community Development in a Global Context Community Development Journal. Vol 33 No 1 pp 2-17. Crow, G., (1997) Comparative Sociology and Social Theory: Beyond the Three Worlds. Macmillan: London. Ife, J., (1995) Community Development: Creating community alternatives - vision, analysis and practice. Addison Wesley: Melbourne. Friedman, J (1992), Empowerment: The Politics of Alternative Development. Blackwell: Oxford. Gilbert, A., (1994) Third world cities: poverty, employment, gender roles and the environment during a time of restructuring. Urban Studies. Vol 31 No 4-5, pp 605-34. Handy, J W., (1993) Community economic development: some critical issues. Review of Black Political Economy. Vol 21 No 3 pp 41-65. Hesselbein, F., Goldsmith, M., Beckhard, R., & Schubert, R F Eds (1998) The Community of the Future. Jossey-Bass Publisher: San Francisco. Howes, M., (1997) NGO's and the institutional development of membership organizations: a Kenyan case. Journal of Development Studies. Vol 33 No 6, pp 820-848. Kenny, S., (1994) Developing Communities for the Future: Community Development in Australia. Nelson: Melbourne. Knack, R., (1993) Empowerment to the people. Planning. Vol 59 No 2 pp 21-9. Nowak, J., (1997) Neighbourhood initiative and the regional economy. Economic Development Quarterly. Vol 11 No 1 pp 3-11. Packham, C., (1998) Community Auditing as community development. Community Development Journal. Vol 33 No 3 pp 249-259. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. OECD Observer, April - May, (205) p 6-10. Rahman, A., (1993) People's Self-development: Perspectives on Participatory Action Research. Zed Books: London. Riches, G., (1997) First World Hunger. Macmillan: London. Sadan, E., & Churchman. A., (1997) Process-focused and product-focused community planning: Two variations of empowering professional practice. Community Development Journal. Vol 32 No 1 pp 3-16. Stafford, C., Furz B., (1997) Society and Change: A Sociological Introduction to Contemporary Australia. 2nd edit. Macmillan: Sydney. Titterton, M., Ed (1994) Caring for People in the Community: The New Welfare. Jessica Kingsley Publishers: London. Journals American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces Web Sites Student Assessment Requirements Assessment Item 1 This assessment item relates to objectives 1 & 2 Type: Essay Length: 2000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to objectives 1, 2, 3, 4 & 5 Type: Case Study Length: 3,500-4,000 words Value: 60% Due Date: Intended Distribution Of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Political, Economic and Cultural Aspects of Community Development Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Community development can only occur with a thorough understanding of the political, economic and cultural context in which it occurs. This Unit aims to challenge students to analyze those contextual elements which impact significantly on the process of community development. In addition students will be challenged to question their own values and beliefs in relation to the political, economic and cultural elements of communities. Objectives On completion of this Unit students should be able to: 1. Identify their own values and beliefs about the political, economic and cultural influences on communities. 2. Analyze the political influences and processes of communities. 3. Determine the economic needs of the community within a social development context. 4. Differentiate between the cultural elements of the community, the host culture and the development process. Handbook Entry Students will explore their personal values and beliefs as they impact on the process of community development. They will explore in depth the political processes and influences on the communities, as well as economic influences within a social development framework. Culture within the community will be examined. Syllabus Overview of the Context of Communities Personal Values and Beliefs and Perceptions Political elements in Communities - Global, National, Regional and Local - Power versus Empowerment - Paternalism versus Self Determination Economic needs within social development framework - Social Development and Economic Paternalism - Economic Development versus Human Rights - Humanitarianism versus Community Empowerment Cultural Dimensions of Community - Cultural sensitivity and significance - Community Culture within a host culture - Conflicts between cultural elements Case studies from a variety of countries Prescribed Text TBA Reference Materials Bennett, L (1997) Urban redevelopment and grassroots action in Chicago and Sheffield: themes, variations and uncertain legacies. International Journal of Urban and Regional Research, Dec 1997 v21 n4 p 664-677. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) Community Care: A Reader. Macmillan: London. Campfens, H, Ed (1997). Community Development around the world: Practice, Theory, Research & Training. University of Toronto Press: Toronto Canada. Clark. A M (1995) Non-governmental organizations and their influence on international society. Journal of International Affairs, Wntr 1995 v48 n2 p 507-525. Clarke, S E & Gaile, G L (1997) Local politics in a global era: thinking locally, acting globally. The Annals of the American Academy of Political and Social Science May 1997 v551 p 28-42. Craig, G & Mayo, M Eds (1995) Community Empowerment: A Reader in Participation and Development. Zed Books: London. Esman, MJ (1997) Public administration, ethnic conflict, and economic development Public Administration Review, Nov-Dec 1997 v57 n6 p 527-534. Friedman, J (1992). Empowerment: The Politics of Alternative Development. Blackwell: Oxford. Grayson, D (1998) Take your partners for the future. New Statesman (1996), April 24, 1998 v127 n4382 p 26. Handy, J W., (1993) Community economic development: some critical issues. The Review of Black Political Economy. Vol 21 No 3 pp 41-65. Jakobsen, P V (1996) National interest, humanitarianism or CNN: what triggers UN peace enforcement after the Cold War? Journal of Peace Research, May 1996 Vol 33 no 2 pp 205-16. Kenny, S., (1994) Developing Communities for the Future: Community Development in Australia. Nelson: Melbourne. Knudsen, D C (1997) Response: what works best? Reflections on the role of theory in planning. Economic Development Quarterly, August 1997 Vol 11 no 3 pp 208-212. Lattas, A (1996) Humanitarianism and Australian nationalism in colonial Papua: The Australian Journal of Anthropology, August 1996 v7 n2 pp 141-66. Lloyd, J (1997) Charities and other big international agencies aren't best placed to deal with famine. The better answer is to cultivate democracy and rights in the countries concerned. New Statesman (1996), August 22, 1997 Vol 126 no4348 p 9. Lucy, R., (1993) The Australian Form of Government: Models in Dispute. Macmillan: Melbourne. Morrison, B M (1998) The transcendence of locality and the persistence of community in Sri Lanka, 1980-1995. Journal of Asian and African Studies, Vol 33 No 2 pp 205-233. Pearson, M, & Scherer. P., (1997) Balancing security and sustainability in social policy. OECD Observer. April-May, (205) p 6-10. Peterson, W H (1998) Rational ignorance or citizenship education? Our second democracy? Vital Speeches, April 1, 1998 v64 n12 p 368-71. Rahman, A., (1993) People's Self-development: Perspectives on Participatory Action Research. Zed Books: London. Riches, G., (1997) First World Hunger Macmillan: London. Robinson, M (1997) Imaginative possessions: John Galway Foster Lecture. Critical Quarterly, Winter 97 v39 n4 p 3-9. Roberts, A., (1994) The road to hell: humanitarian intervention. Current, June 1994 n363 p 24-9. Sollis, P (1994) The relief-development continuum: some notes on rethinking assistance for civilian victims of conflict. Journal of International Affairs, Wntr 1994 Vol 47 n2 p 451-471. Sullivan, P (1996) All Free Man Now: Culture, Community and Politics in the Kimberley Region, North-Western Australia Australian Institute of Aboriginal and Torres Strait Islander Studies, Report Series, 1996, pp xiv + 130, ISBN 0 85575 274 2. Titterton, M., Ed (1994) Caring for People in the Community: The New Welfare. Jessica Kingsley Publishers: London. Talhami G H (1997) Palestinians in Jerusalem: the denationalization of a community. Middle East Policy, Sep 1997 v5 n3 p 57-69. Widner, J & Mundt, A (1998) Researching social capital in Africa Africa, Wntr1998 v68 n1 p1-25. Yin, J S (1998) The community development industry system: a case study of politics and institution in Cleveland, 1967-1997. Journal of Urban Affairs, Spring 1998 v20 n2 p 137-58. Journals American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces Web Sites Student Assessment Requirements Assessment Item 1 This assessment item relates to objectives 1, 2, 3 & 4 Type: Project analyzing a community Length: 5,000-6,000 words Value: 100% Due Date: Intended Distribution Of Student Load The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Community Education Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Principles of Community Development Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Education at the community level is one of the major strategies of Community Development. This Unit aims to introduce students to the processes involved in educating communities for both immediate and longer-term problems. The unit will utilize educational techniques to facilitate the development of learning communities. Objectives On completion of this Unit students should be able to: 1. Discuss the principles of adult and organizational learning as they apply to learning communities. 2. Identify factors which influence community learning. 3. Analyze the learning needs of the community in a variety of situations. 4. Distinguish between the various roles of community educator and how the various roles impact on the choice of learning strategies. 5. Develop and implement an educational program at the community level. Handbook Entry Provides students with an overview of learning theories and educational strategies as they apply to community education. The unit explores the various educational roles as they relate to community educational needs. Syllabus Overview of Learning Communities Principles of Adult and Public Education Learning Theories Role of Community Educator Factors which influence community learning: - Social - Political - Economic - Cultural Assessing Community Learning Needs Emergency Situations versus Social Change Case studies in Community Education Prescribed Text TBA Reference Materials Beggs, J J, Haines, V A & Hurlbert, J S (1996) Situational contingencies surrounding the receipt of informal support. Social Forces, Vol 75 No1 pp 201-223. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) Community Care: A Reader. Macmillan: London. Campfens, H Ed (1997). Community Development around the world: Practice, Theory, Research & Training. University of Toronto Press: Toronto Canada. Craig, G & Mayo, M Eds (1995) Community Empowerment: A Reader in Participation and Development. Zed Books: London. Crowther, J., & Shaw M., (1997) Social Movements and the Education of Desire. Community Development Journal. Vol 32 No 3 pp 266-279. Ife, J., (1995) Community Development: Creating community alternatives - vision, analysis and practice. Addison Wesley: Melbourne. Foley G. Ed. (1995) Understanding adult education and training. Allen & Unwin: Sydney. Friedman, J (1992), Empowerment: The Politics of Alternative Development. Blackwell: Oxford. Gillespie, D F., & Murty, S., (1994) Cracks in a postdisaster service delivery network. American Journal of Community Psychology. Vol 22 , No 5 pp 639-661. Hesselbein, F., Goldsmith, M., Beckhard, R., & Schubert, R F Eds (1998) The Community of the Future. Jossey-Bass Publisher: San Francisco. Kenny, S., (1994) Developing Communities for the Future: Community Development in Australia. Nelson: Melbourne. Knowles, M., (1990) The Adult Learner: A neglected species. Gulf Publishing: Houston Texas. Newman, M., (1994) Defining the Enemy: Adult Education in Social Action. Stewart Victor Publishing: Sydney. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. OECD Observer, April-May, (205) p 6-10. Poster, C., & Kruger, A., Eds (1990). Community Education in the Western World. Routledge: London. Rahman, A., (1993) People's Self-development: Perspectives on Participatory Action Research. Zed Books: London. Riches, G., (1997) First World Hunger Macmillan: London. Schram, B., & Mandell, B. R., (1994) An Introduction to Human Services: Policy and Practice. 2nd edit., New York: Macmillan. Stafford, C., Furz B., (1997) Society and Change: A Sociological Introduction to Contemporary Australia. 2nd edit. Macmillan: Sydney. Thorpe, M., Edwards, R., & Hanson, A., Eds (1993) Culture and Process of Adult Learning. Routledge: London. Titterton, M., Ed (1994) Caring for People in the Community: The New Welfare. Jessica Kingsley Publishers: London. Journals American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces Web Sites Student Assessment Requirements Assessment Item 1 This assessment item relates to objectives 1 & 2 Type: Essay Length: 2000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to objectives 3, 4 & 5 Type: Community Education Proposal Length: 3,500-4,000 words Value: 60% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Issues in Disaster Management Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Presents a number of major concepts underpinning disaster management and preparedness in the context of community development. These concepts are: the scope of disaster management; an overview of the principles and practice of disaster response and recovery; economics and disaster; legal and ethical issues of disasters; politics and disasters; and community development. Objectives On completion of this Unit students should be able to: 1. Outline the development of international, national and local government policy in emergency management. 2. Describe the types, effects and threat of disasters worldwide. 3. Compare and contrast policy and processes associated with disaster response, disaster recovery, disaster preparedness and hazard mitigation. 4. Describe the role of major international and national agencies involved in emergency management. 5. Analyze the economic, social, legal and ethical implications of a community development approach to disaster preparedness and mitigation. 6. Outline the major issues involved in community education and preparedness for disasters. 7. Describe the role of technology in disaster preparedness. Handbook Entry A number of major issues in contemporary emergency management are covered in this Unit that is a foundation for the rest of the course which has a more specific community development orientation. The Unit provides a broad outline of the nature of disasters, response, recovery, preparedness and mitigation from an international perspective. Syllabus The aims and scope of disaster management International, national and local agencies involved in disaster management The politics of disaster The nature of disasters Hazardous environments International trends in disaster management Policy and planning for disaster management Ethics and disasters Hazard mitigation Economic and social issues in disaster preparedness Community education Technology, change and disaster management The future of disaster management Prescribed Text TBA Reference Materials Alexander, D., (1993) Natural Disasters. New York: Chapman & Hall. Allison, R E (1993) Global Disasters: Inquiries into Management Ethics Des Moines IA: Prentice Hall. Auf der Heide, E (1989) Disaster Response: Principles of Preparation and Coordination. St Louis: Mosby. Baldi, B., (1995) Emergency Preparedness Policy-Making: A comparative Analysis between California and Italy. Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) Linking Preparedness and Organisational Disaster Response Effectiveness. Journal of Community Practice. Vol 2 No 3. Beatley, T., (1989) Towards a Moral Philosophy of Natural Disaster Mitigation International Journal of Mass Emergencies and Disasters, Vol 7 pp 5-32. Bourriau, J (1992) Understanding Catastrophe: Its Impact on Life on Earth New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. The Journal of Disaster Studies and Management. Vol 20 No 1, pp 49-60. Cole, L., (1994) Element of Risk: the Politics of Radon. New York: Oxford University Press. Comfort, L K Ed. (1988) Managing Disaster: Strategies and Policy Perspectives. Durham NC: Duke University Press, 1988. Cutter S., Ed (1994) Environment Risks and Hazards. Englewood Cliffs NJ: Prentice Hall. Drabek, T E (1990) Emergency Management: Strategies for Maintaining Organizational Integrity New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) Emergency Management: Principles and Practice for Local Government. Washington DC: International City Management Association. Drabek, T E (1994) Disaster Evacuation and the Tourist Industry. Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) Disaster Evacuation Behaviour: Tourist and other Transients. Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney K J Eds (1994) Disasters, Collective Behaviour and Social Organisation Newark DE: University of Delaware Press. Erickson K (1994) A New Species of Trouble: Explorations in Disaster, Trauma and Community New York: WW Norton & Co. Gillespie D F (1993) Partnerships for Community Preparedness. Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. Journal of Applied Social Science Vol 17 No 2 pp 219-236. Houts P The SWOT Analysis: Another Planning Tool for Emergency Management. Australian Journal of Emergency Management Vol 11 No 3 pp 12-19. Lindell, M K., (1992) Behavioural Foundations of Community Emergency Planning. Washington DC: Hemisphere Publishing. Lindell, M K., (1994) Are Local Emergency Planning Committees Effective in Developing Community Disaster Preparedness? International Journal of Mass Emergencies and Disasters. Vol 12 pp 159-182. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance Journal of Policy Analysis and Management Vol 15 No 2 pp 171-201. May P J (1996) Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability. London: Routledge. Merriman, P A & Browitt, CWA Eds (1993) Natural Disasters: Protecting Vulnerable Communities. London: Thomas Telford. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach Disasters Vol 19 pp 327-337. Nigg, J M (1995) Disaster Recovery as a Social Process. Newark DE: Disaster Research Centre. Paton, D & Long, N Eds (1996) Psychological Aspects of Disasters: Impact, Coping and Intervention Palmerston North New Zealand: Dunmore Press. Perry, R W & Lindell M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. International Journal of Mass Emergencies and Disasters, Vol 9 No 1 pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. International Journal of Mass Emergencies and Disasters, Vol 11 No 1 pp 99-110. Phillips, B.D., (1993) Cultural Diversity in Disaster Situations. International Journal of Mass Emergencies and Disasters. March 1993. Quarentelli, E L (1995) Disasters are Different: Therefore Planning For and Managing them requires innovative as well as Traditional Behaviours. Newark DE: Disaster Research Institute. Quarentelli, E L (1995) The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends. Newark DE: Disaster Research Institute. Raphael, B., (1986) When Disaster Strikes: How Individuals and Communities Cope. New York: Basic Books. Sylverstein, M (1992) Disasters: Your Right to Survive. Washington DC: Brassey's. Sylves, R T, (1991) Adopting Integrated Emergency Management in the United States: Political and Organisational challenges. International Journal of Mass Emergencies and Disasters Vol 9, pp 413-424. Sylves, R T., Ed (1996) Disaster Management in the U.S. and Canada. Springfield IL: Charles C. Thomas. Waugh, W L & Ronald, J H Eds (1990) Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters. Westport CN: Greenwood Press. I World Health Organisation (1995) Establishing a Mass Casualty Management System Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. Journals Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Student Assessment Requirements Assessment Item 1 This assessment item relates to objectives 1--7 Type: Essay Length: 2500 words Value: 50% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 1--7 Type: Project Report Length: 2500 words Value: 50% Due Date: Intended Distribution of Student Load The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Disaster Preparedness and Prevention Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Planning for potential disaster to reduce its impact is a major responsibility for communities and involves significant policy development and implementation. This Unit prepares participants to develop and implement plans using available community, government and private sources that will mitigate the effects of disasters. Objectives On completion of this Unit students should be able to: 1. Identify international best practice in disaster planning and mitigation. 2. Describe the principles and processes involved in disaster preparedness. 3. Coordinate the essential community and government agencies to develop a disaster preparedness and mitigation plan. 4. Undertake a disaster preparedness and mitigation plan. 5. Develop a disaster and mitigation plan to the community and relevant agencies. 6. Communicate a disaster and mitigation plan to the community and relevant agencies. 7. Critically evaluate existing disaster and mitigation plans. Handbook Entry Provides a foundation understanding and practical application of planning for disaster preparedness by communities. The Unit examines international practice in community disaster planning processes, the theory and practice of community preparedness, and how to prepare an effective disaster plan. Syllabus International policy in disaster planning and mitigation International best practice in disaster preparedness and mitigation Pre-planning requirements The theory of mitigation Hazard and risk assessment/vulnerability/resource assessment Hazard mitigation Community assessment The planning process and methodologies Generic and hazard-specific disaster/hazard plans Coordination of the plan and team/community building Community growth/development impact Mutual aid agreements Exercising disaster plans Legal issues Prescribed Text TBA Reference Materials Alexander, D., (1993) Natural Disasters. New York: Chapman & Hall. Allison, R E (1993) Global Disasters: Inquiries into Management Ethics Des Moines IA: Prentice Hall. Auf der Heide, E (1989) Disaster Response: Principles of Preparation and Coordination. St Louis: Mosby. Baldi, B., (1995) Emergency Preparedness Policy-Making: A Comparative Analysis between California and Italy. Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) Linking Preparedness and Organisational Disaster Response Effectiveness. Journal of Community Practice. Vol 2 No 3. Beatley, T., (1989) Towards a Moral Philosophy of Natural Disaster Mitigation International Journal of Mass Emergencies and Disasters, Vol 7 pp 5-32. Bourriau, J (1992) Understanding Catastrophe: Its Impact on Life on Earth New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. The Journal of Disaster Studies and Management. Vo l20 No 1, pp 49-60. Comfort, L K Ed (1988) Managing Disaster: Strategies and Policy Perspectives. Durham NC: Duke University Press, 1988. Cutter S., Ed (1994) Environment Risks and Hazards. Englewood Cliffs NJ: Prentice Hall. Drabek, T E (1990) Emergency Management: Strategies for Maintaining Organizational Integrity. New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) Emergency Management: Principles and Practice for Local Government. Washington DC: International City Management Association. Drabek, T E (1994) Disaster Evacuation and the Tourist Industry. Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) Disaster Evacuation Behaviour: Tourist and other Transients. Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney, K J Eds (1994) Disasters, Collective Behaviour and Social Organisation Newark DE: University of Delaware Press. Erickson K (1994) A New Species of Trouble: Explorations in Disaster, Trauma and Community New York: WW Norton & Co. Freeman, R. M., (1998) The real event model or the organizational convenience model? A national survey of correctional emergency preparedness evaluation methodology. Prison Journal Vol 78 No 2 pp 152-166. Gillespie D F (1993) Partnerships for Community Preparedness. Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee, M M (1993) Prevention Planning and Disaster Preparedness. Journal of Applied Social Science Vol 17 No 2 pp 219-236. Houts, P The SWOT Analysis: Another Planning Tool for Emergency Management. Australian Journal of Emergency Management Vol 11 No 3 pp 12-19. Lindell, M K., (1992) Behavioural Foundations of Community Emergency Planning. Washington DC: Hemisphere Publishing. Lindell, M K (1994) Are Local Emergency Planning Committees Effective in Developing Community Disaster Preparedness? International Journal of Mass Emergencies and Disaters. Vol 12 pp 159-182. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance Journal of Policy Analysis and Management Vol 15 No 2 pp 171-201. May, P J (1996) Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability. London: Routledge. Merriman, P A & Browitt, C W A Eds (1993) Natural Disasters: Protecting Vulnerable Communities. London: Thomas Telford. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach Disasters Vol 19 pp 327-337. Nigg, J M (1995) Disaster Recovery as a Social Process. Newark DE: Disaster Research Centre. Paton, D & Long, N Eds (1996) Psychological Aspects of Disasters: Impact, Coping and Intervention Palmerston North New Zealand: Dunmore Press. Perry, R W & Lindell, M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. International Journal of Mass Emergencies and Disasters Vol 9 pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. International Journal of Mass Emergencies and Disasters, Vol 11 No 1 pp 99-110. Phillips, B D, (1993) Cultural Diversity in Disaster Situations. International Journal of Mass Emergencies and Disasters. March 1993. Quarentelli, E L (1995) Disasters are Different: Therefore Planning For and Managing them requires Innovative as well as Traditional Behaviours. Newark DE: Disaster Research Institute. Quarentelli, E L (1995) The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends. Newark DE: Disaster Research Institute. Raphael, B., (1986) When Disaster Strikes: How Individuals and Communities Cope. New York: Basic Books. Sylves, R T., Ed (1996) Disaster Management in the US and Canada. Springfield IL: Charles C Thomas. Waugh, W L & Ronald, J H Eds (1990) Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters. Westport CN: Greenwood Press. World Health Organisation (1995) Establishing a Mass Casualty Management System Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. Journals Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1, 2 & 7 Type: Essay Length: 2500 words Value: 50% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 3 - 5 & 6 Type: Project Report Length: 3000 words Value: 50% Due Date: Intended Distribution of Student Load The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Living in a Hazardous Environment Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Understanding the nature and effects of hazardous environments, hazardous materials, and terrorism are central to effective disaster preparedness. This Unit provides a detailed analysis of many different hazards, their causes, effects, distribution, mitigation and community preparedness. Objectives On completion of this Unit the student should be able to: 1. Describe the causes, characteristics and effects of known hazards in the student's own region. 2. Map the distribution of major hazards internationally 3. Develop mitigation plans for major hazards in the student's own region. 4. Critically analyze mitigation plans for common major hazards. 5. Prepare citizen awareness and preparedness programs for common local hazards. Handbook Entry Provides a detailed understanding of most of the known natural and human made hazards that can lead to disasters and major emergencies. The Unit then examines the principles and practice of mitigation for a number of local and international hazards. Syllabus The causes, characteristics and effects of: Avalanche Civil disorder Drought Earthquake Epidemics Fires Flood Hail Hazardous materials Hurricanes, cyclones and storms Industrial accidents Landslides Nuclear plant accident Terrorism Transport accidents Tsunamis Volcanoes Bush fires and wildfires War Prescribed Text TBA Reference Materials Aguirre, B., (1993) The Human Ecology of Tornadoes Demography Vol 4 pp 623-633. Aguirre, B., (1994) Population and the detection of Weak Tornadoes. International Journal of Mass Emergencies and Disasters. Vol 12 pp 261-277. Aguirre, B., (1995) The Social Organisation of Search and Rescue: Evidence from the Guadalajara Gasoline Explosion. International Journal of Mass Emergencies and Disasters, Vol 13 pp 67-92. Alexander, D., (1993) Natural Disasters. New York: Chapman & Hall. Baldwin,T K., (1993) Earthquake Awareness in Southeast Missouri: A Study in Pluralistic Ignorance. International Journal of Mass Emergencies and Disasters Vol 11 pp 351-363. Baron, J., (1993) Attitudes toward Managing Hazardous Waste: What should be cleaned up and who should pay for it? Risk Analysis Vol 13 pp 183-192. Bradford, J K (1994) Biological Hazards and Emergency Management Journal of Contingencies and Crisis Management Vol 2 No 1 pp 39-48. Boulton, P., (1993) Community Context and Uncertainty Following a Damaging Earthquake: Low-lncome Latinos in Los Angeles, California. Environmental Professional Vol 15 pp 240-247. Bourriau, J (1992) Understanding Catastrophe: Its Impact on Life on Earth New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. The Journal of Disaster Studies and Management. Vol 20 No 1, pp 49-60. Burton, I. M., Kates, R.W. & White, G. F. (1993) The Environment as Hazard. 2nd edit. New York: Guilford Press. Cutter S. (1993) Living with Risk London: Edward Arnold. Cutter S., Ed (1994) Environment Risks and Hazards. Englewood Cliffs NJ: Prentice Hall. Flin, R., Stewart, K & Slaven, G., (1996) Emergency decision making in the offshore oil and gas industry. Human Factors. Vol 38 No2. pp 262-278. Handmer, J (1996) Policy Design and Local Attributes for Flood Hazard Management. Journal of Contingencies and Crisis Management Vol 4 No 4 pp 189-197. Hoffman, B R & Riley K J (1995) Domestic Terrorism: A National Assessment of State and Local Preparedness. Santa Monica, CA: Rand Corp. Irvin T R & Strong, C B Emergency Response and Hazardous Chemical Management: Principles and Practices Delray Beach FL: St Lucie Press. Jasanoff, S (1994) Learning from Disaster: Risk Management after Bhopal. Philadelphia, PA University of Pennsylvania Press. Johnson, D, Sullivan, S & Jones, G W (1996) A survey of emergency response planning as practiced in boiler/industrial furnace facilities burning hazardous waste derived fuels. Journal of Environment Health. Vol 59 No 1 pp 12-19. Kapoor R., (1992) The psychosocial Consequences of an Environmental Disaster: Selected Case Studies after the Bhopal Gas Tragedy. New York: Human Sciences Press. Keating M., (1997) Preparing for the Increasing Threat of Terrorism. Disaster Recovery Journal Vol 118 No 1 pp 10-11. Kletz T., (1993) Lessons from Disaster: How Organisations have no memory and accidents recur. Houston: Gulf Publishing Co. Kreps, G A (1995) Disaster as Systemic Event and Social Catalyst: A Clarification of Subject Matter. International Journal of Mass Emergencies and Disasters. Vol 13 No 3 pp 255-284. Lindell, M K., & Meier, M J (1994) Effectiveness of Community Planning for Toxic Chemical Emergencies Journal of the American Planning Association Vol 60 pp 222-234. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance Journal of Policy Analysis and Management Vol 15 No 2 pp 171-201. May, P J (1996) Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability. London: Routledge. McGuire B., (1997) Waiting for the big one. Geographical Magazine Vol 17 pp 66-71. Medvedev, Z., (1990) The Legacy of Chernobyl New York: Basic Books. Quarentelli, E L (1995) Disasters are Different: Therefore Planning For and Managing them requires Innovative as well as Traditional Behaviours. Newark DE: Disaster Research Institute. Quarentelli, E L (1995) The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends. Newark DE: Disaster Research Institute. Phillips, B (1992) Planning for the Expected: Evacuation in a Chemical Emergency. Disaster Management Vol 4 No 2 pp 103-108. Raphael, B., (1986) When Disaster Strikes: How Individuals and Communities Cope. New York: Basic Books. Rosenthal, U & Kouzmin A., (1997) Crises and crisis management: toward comprehensive government decision making. Journal of Public Administration Research and Theory. Vol 7 No 2 pp 277-305. Shlapentokh. V., (1998) Fear of the future in the modern world: a Russian case. International Journal of Comparative Sociology. Vol 39 No 2 pp 161-177. Sylverstein. M (1992) Disasters: Your Right to Survive. Washington DC: Brassey's. Sylves, R T., (1991) Adopting Integrated Emergency Management in the United States: Political and Organisational Challenges. International Journal of Mass Emergencies and Disasters. Vol 9, pp 413-424. Sylves, R T., Ed (1996) Disaster Management in the US and Canada. Springfield IL: Charles C Thomas. Washington, G T (1998) After the flood: a strategic primary health care plan for homeless and migrant populations. Nursing and Health Care Perspectives. Vol 19 No 2 pp 66-72. Waugh, W L & Ronald, J H Eds (1990) Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters. Westport CN: Greenwood Press. World Health Organisation (1995) Establishing a Mass Casualty Management System Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. Journals Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Journal of Contingencies and Crisis Management Prehospital and Disaster Medicine Journal Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1, 2 & 3 Type: Essay Length: 2500 words Value: 50% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 4 & 5 Type: Essay Length: 3000 words Value: 50% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Social Dimensions of Disasters Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Community reactions to disaster and to disaster preparedness are determined by complex social and psychological factors. This Unit examines these factors in detail so that the student may better understand how to design appropriate disaster preparedness and hazard mitigation programs. Objectives On completion of this Unit students should be able to: 1. Critically evaluate the history and research regarding human behaviour in relation to disaster and disaster preparedness. 2. Describe the four phases of the Disaster Life Cycle. 3. Outline disaster mythology patterns, their sources and their effects on people. 4. Predict common human responses to disasters and disaster preparedness. 5. Describe the role of stress on a person's reaction to disaster and basic prevention methods. 6. Determine the most appropriate communication strategies in communities given known human responses to disasters and disaster preparedness. 7. Identify potential problems in the ways organisations might behave in response to disaster, hazard mitigation and preparedness. Handbook Entry Provides a detailed analysis of the sociological and psychological aspects of disasters and disaster preparedness in individuals, communities and organisations. Syllabus Definitions of disasters History of research in human behaviour associated with disasters The Disaster Life Cycle Disaster mythology Disaster warnings Community evacuation behaviour Building effective warning systems Victim response in disasters Non-victim responses Looting behaviour. Crisis decision making Disaster response and recovery in communities Stress Communication in communities during disaster Communication and preparedness Prescribed Text TBA Reference Materials Alexander, D., (1993) Natural Disasters. New York: Chapman & Hall. Allison, R E (1993) Global Disasters: Inquiries into Management Ethics Des Moines IA: Prentice Hall. Aguirre, B., (1995) The Social Organisation of Search and Rescue: Evidence from the Guadalajara Gasoline Explosion. International Journal of Mass Emergencies and Disasters, Vol 13 pp 67-92. Becker, S M., (1997) Psychosocial Assistance after Environmental Accidents: A policy Perspective. Environmental Health Perspectives. Vol 105. Dec. pp 1557-1563. Buckle, P., (1995) Community Based Management of Social Disruption Following Disasters. The Australian Journal of Emergency Management. Vol 10 pp 31-38. Comfort, L K Ed (1988) Managing Disaster: Strategies and Policy Perspectives. Durham NC: Duke University Press, 1988. Drabek, T E (1990) Emergency Management: Strategies for Maintaining Organizational Integrity. New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) Emergency Management: Principles and Practice for Local Government. Washington DC: International City Management Association. Drabek, T E (1994) Disaster Evacuation and the Tourist Industry. Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) Disaster Evacuation Behaviour: Tourist and other Transients. Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney K J Eds (1994) Disasters, Collective Behaviour and Social Organisation Newark DE: University of Delaware Press. Dynes, R (1995) Working Sociologists as Globetrotters: Utilising Disaster Research and Policy Networks. Journal of Applied Sociology. Vol 12. Dynes, R., (1994) Situational Altruism: Toward and Explanation of Pathologies in Disaster Assistance Disaster Research Center, University of Delaware. Enarson, E., & Morrow, B H Eds (1998) The Gendered Terrain of Disaster: Through the Eyes of Women Westport, CT: Greenwood Publishing. Fischer, H W (1994) Response to Disaster: Fact versus Fiction & its Perpetuation-the Sociology of Disaster Lanham MD: University Press of America. Gillespie D F (1993) Partnerships for Community Preparedness. Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. Journal of Applied Social Science Vol 17 No 2 pp 219-236. Johnston, W & Davey, C L (1997) The psychological impact of negative TV news bulletins: the catastrophizing of personal worries. British Journal of Psychology. Vol 88 No 1 pp 85-92. Lindell, M K., (1992) Behavioural Foundations of Community Emergency Planning. Washington DC: Hemisphere Publishing. Kreps, G. & Bosworth S L (1994) Disaster, Organising, and Role Enactment: A Structural Approach. American Journal of Sociology. pp 428-463. Kreps, G., (1995) Disaster as Systemic Event and Social Catalyst: a Clarification of Subject Matter. International Journal of Mass Emergencies and Disasters. Vol 13 No 3, pp 255-284. Kroll-Smith, J & Couch, S R (1990) Sociological Knowledge and the Public at Risk: A 'Self-Study' of Sociology, Technological Hazards and Moral Dilemmas. Sociological Practice Review. Vol 1 No 1 pp 102-127. Merriman, P A & Browitt, C W A Eds (1993) Natural Disasters: Protecting Vulnerable Communities. London: Thomas Telford. Moran, C., & Colless (1995) Positive Reactions Following Emergency and Disaster Responses. Disaster Prevention and Management Vol 4 No 1 pp 55-60. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach Disasters Vol 19 pp 327-337. Nigg, J M (1994) Influence of Symbolic Interaction of Disaster Research. Newark DE: Disaster Research Centre. Nilson, D., (1994) Disaster Beliefs and Ideological Orientation. Journal of Contingencies and Crisis Management. Vol 3 No 1 pp 12-17. Paton, D & Long, N Eds (1996) Psychological Aspects of Disasters: Impact, Coping and Intervention Palmerston North New Zealand: Dunmore Press. Peacock, W G., Morrow, B G., & Gladwin, H. Eds (1997) Hurricane Andrew: Ethnicity, Gender, and the Sociology of Disasters. London: Routledge. Perry, R W & Lindell, M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. International Journal of Mass Emergencies and Disasters Vol 9 pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. International Journal of Mass Emergencies and Disasters, Vol 11 No 1 pp 99-110. Phillips, B.D., Garza, L & Neal, D M (1994) Intergroup Relations in Disasters: Service Delivery Barriers After Hurricane Andrew. The Journal of Intergroup Relations. Vol 21 pp 19-27. Quarentelli, E L (1995) Disasters and Catastrophes: Their Conditions in and Consequences for Social Development. Newark DE: Disaster Research Institute. Quarentelli, E L (1994) Draft of a Sociological Research Agenda for the Future: Theoretical, Methodological and Empirical Issues. Newark DE: Disaster Research Institute. Quarentelli, E L (1994) Looting and Antisocial Behaviour in Disasters. Newark DE: Disaster Research Institute. Raphael, B., (1986) When Disaster Strikes: How Individuals and Communities Cope. New York: Basic Books. Rosso, I., (1993) Community Reconstruction After an Earthquake: Dialetical Sociology in Action Westport CT: Praeger. Shlapentokh, V., (1998) Fear of the future in the modern world: a Russian case. International Journal of Comparative Sociology. Vol 39. No 2 pp 161-177. Simile, C M (1995) Disaster Settings and Mobilizations for Contentious Collective Action: Case Studies of Hurricane Hugo and the Loma Prieta Earthquake. Tierney, K (1995) Societal Impacts and Emergency Response. Newark DE: Disaster Research Institute. Tierney, K (1994) Sociology's Unique Contributions to the Study of Risk. Newark DE: Disaster Research Institute. Journals Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 4, 5, 6 & 7 Type: Essay Length: 2500 words Value: 50% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 4 & 5 Type: Project Report Length: 3000 words Value: 50% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Analytical Methodologies in Emergency Management Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Prepares the student to use critical methods to evaluate disaster preparedness and hazard mitigation, undertake effective community consultation and analyze current research in the area of disaster management. Objectives On completion of this Unit students should be able to: 1. Describe the range of evaluation methods that have been used in disaster research. 2. Utilize common quantitative and qualitative designs to evaluate disaster preparedness programs. 3. Undertake effective community consultation processes. 4. Critically evaluate studies and evaluation about disaster management and disaster preparedness. 5. Prepare professional reports on evaluations of disaster management programs. Handbook Entry Provides the student with a range of methods for the evaluation of current research and for the conduct of evaluations of disaster preparedness programs. A number of qualitative and quantitative approaches to evaluation are examined as well as current examples of evaluation studies in emergency management. Syllabus Overview of analytical methods Theory and evaluation Unique characteristics of emergency management research Ethical issues Problem formulation Data collection Survey techniques Case study methods Community consultation methods Cost-benefit analysis Report writing Prescribed Text TBA Reference Materials Alexander, D., (1993) Natural Disasters. New York: Chapman & Hall. Baldi, B., (1995) Emergency Preparedness Policy-Making: A comparative Analysis between California and Italy. Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) linking Preparedness and Organisational Disaster Response Effectiveness. Journal of Community Practice. Vol 2 No 3. Bourriau, J (1992) Understanding Catastrophe: Its Impact on Life on Earth New York: Cambridge University Press. Comfort, L K Ed (1988) Managing Disaster: Strategies and Policy Perspectives. Durham NC: Duke University Press, 1988. Dawson, G (1993) A Comparison of Research and Practice: A Practitioners View. International Journal of Mass Emergencies and Disasters. Vol 11. pp 55-62. De Vaus, D. (1995). Surveys in social research (4th Ed). Sydney: Allen & Unwin. Dynes, R. & Tierney, K J Eds (1994) The Structure of Disaster Research: Its Policy and Disciplinary Implications. International Journal of Mass Emergencies and Disasters Vol 15, pp 5-23. Dynes, R (1995) Working Sociologists as Globetrotters Utilising Disaster Research and Policy Networks. Journal of Applied Sociology. Vol 12 pp Freeman, R. M., (1998) The real event model or the organizational convenience model? A national survey of correctional emergency preparedness evaluation methodology. Prison Journal Vol 78 No 2 pp 152-166. Jones, A. & May, J: (1992). Working in human service organisations. Melbourne: Longman Cheshire. Kellehear, A. (1993). The unobstrusive researcher: A guide to methods. Sydney: Allen & Unwin. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. Journal of Applied Social Science Vol 17 No 2 pp 219-236. Lindell, M K., (1992) Behavioural Foundations of Community Emergency Planning. Washington DC: Hemisphere Publishing. Marshall, C & Rossman, G B (1989) Designing Qualitative Research Newbury Park: Sage. May, T. (1997). Social Research (2nd Ed). London: Open University Press. Merrian, S., (1988) Case Study Research in Education: A Qualitative Approach. San Francisco: Jossey-Bass. Newman, W L (1997) Social Research Methods. 3rd Edit. Boston: Allen & Unwin. Nigg, J M (1995) Disaster Recovery as a Social Process. Newark DE: Disaster Research Centre. Paton D & Long N Eds (1996) Psychological Aspects of Disasters: Impact, Coping and Intervention Palmerston North New Zealand: Dunmore Press. Patton, M. Q. (1990). Qualitative evaluation and research methods. Newbury Park, Calif: Sage Publications. Patton, M. Q. (1987). Qualitative methods in evaluation. Newbury Park, Calif: Sage Publications. Phillips, B.D., (1993) Cultural Diversity in Disaster Situations. International Journal of Mass Emergencies and Disasters. March 1993. Quarentelli, E L (1995): The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends. Newark DE: Disaster Research Institute. Raphael, B., (1986) When Disaster Strikes: How Individuals and Communities Cope. New York: Basic Books. Robson, C. (1993). Real world research: A resource for social scientists and practitioner-researchers. Oxford: Blackwell Publishers. Strauss, A., & Corbin, J., (1990) Basics of Qualitative Research: Grounded Theory Procedures and Techniques Newbury Park: Sage. Silverman, D., (1993) Interpreting Qualitative Data: Methods for Analysing Talk, Text and Interaction. Newbury Park: Sage. Stringer. E. T. (1996). Action research: A handbook for practitioners. Perth: Curtin University of Technology. Uhr, J. (Ed) (1991). Program Evaluation. Federalism Research Centre. Canberra: ANU. Wadsworth, Y. (1997). Everyday evaluation on the run. 2nd Ed Sydney: Allen & Unwin. Journals Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1, 2 & 3 Type: Project Report Length: 2500 words Value: 50% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 4 & 5 Type: Project Report Length: 2500 words Value: 50% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Conceptual Contexts of Human Services Unit Code: TBA Award Name: Masters of Community Development Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Human Service organizations and practitioners have endured rapid changes over the past decade and this Unit will analyze some of those historical changes. To enable the development of advanced skills in analysis and synthesis, it is essential that students have a thorough understanding of the philosophical context of current human services. This Unit aims to provide a framework in which human services will be critically analyzed in this and subsequent units of the course Objectives On completion of this Unit students should be able to: 1. Describe the historical development of human services and how this impacts upon the contemporary directions and practices in human services. 2. Analyze the conceptual filters to understanding human services practice 3. Critically analyze the differing discourses in human services. 4. Apply the framework and analyze a human service. Handbook Entry Provides students with an overview of the complexities of Human Services from a historical, socio-political perspective. In order to critically analyze the industry, students will examine some of the filters to their understanding and also examine a theoretical framework for human services discourse. The Unit will apply the framework to human services and link the subsequent core units in the course. Syllabus Overview of Human Services Historical review Socio-political context of Human Services development Ethics and Values -- social and personal Power & Knowledge Dichotomies- Positivist/Humanist; Hierarchical/Anarchist Theoretical Frameworks for Human Services Application of frameworks to analysis of Human Services Prescribed Text Ife, J. (1997). Rethinking social work: Towards critical practice. Sydney: Longman. Study Guide and Book of Readings for this unit. Reference Materials Agger, B., (1998) Critical Social Theories: An Introduction. Macmillan: Melbourne. Billis, D., (1993) Organising Public and Voluntary Agencies. London: Routledge. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) Community Care: A Reader. Macmillan: London. Canova, T.A., (1994). The Swedish model betrayed. Challenge! Vol 37, No 3 May/June, pp 36040. Clark, E., Soulsby, A., (1998) Organisation-community embeddedness: The social impact of enterprise restructuring in the post-communist Czech Republic. Human Relations. Vol 51 No 1, pp 25-50. Coulton, C J., (1996) Poverty, work, and community: a research aagenda for an era of diminishing federal responsibility. Social Work Vol 41 No 5, pp 509-520. Crow, G., (1997) Comparative Sociology and Social Theory: Beyond the Three Worlds. Macmillan: London. Dalley, G., (1996) Ideologies of Caring. 2nd edit. Macmillan: London. Farrar, A., & Inglis, J., Eds. Keeping it Together: State and Civil Society in Australia. Sydney: Pluto Press. Freeman, E., (1996) Welfare reforms and services for children and families: setting a new practice, research and policy agenda. Social Work, Vol 41 (5): pp 521-33. Holton, R.J., (1998). Globalization and the Nation-State Macmillan: Melbourne. Hugman, R., (1998) Social Welfare and Social Value: Policy and Practice. Macmillan: Melbourne. Jones, A., & May, (1992) Working in Human Service Organisations: A Critical Introduction. Melbourne: Longman. Ife, J., (1995) Community Development: Creating community alternatives - vision, analysis and practice. Addison Wesley: Melbourne. Midwinter, E., (1994) The Development of Social Welfare in Britain. Buckingham: Open University Press. Papadakis. E., (1993) Class interests, class politics and welfare state regime. The British Journal of Sociology. Vol 44 (2) pp 249-271. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. OECD Observer, April-May, (205) p 6-10. Riches, G., (1997) First World Hunger Macmillan: London. Schram, B., & Mandell, B. R., (1994) An Introduction to Human Services: Policy and Practice. 2nd edit., New York: Macmillan. Stafford, C., Furz B., (1997) Society and Change: A Sociological Introduction to Contemporary Australia. 2nd edit. Macmillan: Sydney. Thieman, A A & Dail, P W., (1997) Predictors of out-of-home placement in a family preservation program: Are welfare recipients particularly vulnerable? Policy Studies Journal Vol 25 No 1, pp 124-140. Titterton, M., Ed (1994) Caring for People in the Community: The New Welfare. Jessica Kingsley Publishers: London. Thomas, A., (1996). The International Labour Organisation. Its origins, development and future. International Labour Review. Vol 135 No 3-19974, pp 261-276. Wilson, J., Thomson, J., McMahon, A., (1996). The Australian Welfare State: Key Documents and Themes. Macmillan: Sydney. Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1 & 2 Type: Essay Length: 2500-3000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 3 & 4 Type: Project Length: 3500-4000 words Value: 60% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Analysis of Contemporary Policy in Human Services Unit Code: TBA Award Name: Masters of Human Services Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims The aim of this Unit is to introduce students to key discourses in the field of policy analysis. Students will be encouraged to uncover the underlying philosophies in human service policy. Policies will be analyzed to distinguish the impact of various paradigms on policy development, implementation and review. Objectives On completion of this Unit, students should be able to: 1. Analyze the processes of policy implementation. 2. Define and analyze conflicting policy analysis paradigms. 3. Compare and contrast key discourses in the field of human service policy analysis. 4. Distinguish between various policy paradigms as applied to human service policy. Handbook Entry Identifies key discourses in the field of public policy analysis as it applies to human services. Defines the conflicting paradigms available to policy analysts and explores current policies by uncovering the underlying arguments. Utilizing these paradigms of analysis, the policies are contextualized historically, ideologically, socially and politically and are related to policy development implementation and review. Syllabus The process of policy analysis and development processa positivist perspective The rhetorical turn in policy analysisa post-positivist perspective Comparative discourses applied to policy analysis Contemporary human service policy. Issues such as globalization, human rights, competitive tendering, risk management, corporatization, monetary policy. Prescribed Text Patton, C. & Sawicki, D. 1993, Basic Methods of policy analysis and planning, Prentice Hall, Englewood Cliffs, NJ. Fischer, F. & Forester, J.(eds) 1993, The argumentative turn in policy analysis and planning, Duke University Press, Durham and London. Reference Materials Considine, M. (1994) Public Policy in Australia: A Critical Approach, Melbourne: MacMillan. Dalton, T., Draper, M., Weeks, W., & Wiseman, J. (1996), Making Social Policy in Australia: An Introduction, Sydney: Allen & Unwin. Davis, G., Wanna, J., Warhurst, J. & Weller, P. (1993), Public Policy in Australia, Sydney: Allen & Unwin. Danziger, M. (1995) Policy Analysis Postmodernized: Some Political and Pedagogical Ramifications, Policy Studies Journal, 23, 3, 435-450. Donnison, D. (1997) Policies for a Just society, Melbourne: MacMillan. Esping-Andersen, G. (1990) The Three Worlds of Welfare Capitalism, Cambridge Polity Press. Formaini, R. (1990), The Myth of Scientific Public Policy, New Brunswick NJ: Transaction Books. Lasch, C. (1995), The revolt of the elites and the betrayal of democracy, New York: W.W. Norton. NSW Council of Social Services (1997). Investing in our Community: Social and economic priorities for the 1998/99 State Budget, NCOSS, Sydney. Postman, N. (1992), Technology: The surrender of culture to technology, New York: Knopf. Roe, E. (1994), Narrative policy analysis: Theory and Practice, London: Duke University Press. Stone, D.A. (1988), Policy paradox and political reason, New York: HarperCollins. Thorgmorton, J. A. (1991), The rhetorics of policy analysis, Policy Sciences, 24, 153-179. Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1 & 2 Type: Essay Length: 2500-3000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 3 & 4 Type: Essay and Analysis Length: 3500-4000 words Value: 60% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Delivery Systems in Human Services Unit Code: TBA Award Name: Masters of Human Services Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Delivery systems in human services have operated on a number of models and have undergone substantial change. Using a model of competing discourses in human services, this Unit aims to critically evaluate human service delivery within an organizational context. Consideration is given to the relationship of the service user and the delivery system. Objectives Upon completion of this Unit, students should be able to: 1. Apply organizational theory to human service delivery. 2. Evaluate discourses in relation to human service delivery systems. 3. Critically analyze the goals, beliefs, and philosophies of organizations in program development and delivery. 4. Identify the nature and role of change in human service delivery. 5. Analyze the construct of 'service user'. 6. Articulate the processes in developing human service delivery systems. Handbook Entry Provides students with a critical evaluation of human service delivery systems and an understanding of these developments in the Australian environment. Organizational contexts of delivery and the role of change are examined, as is the role of the individual service user. Syllabus Overview of human service delivery systems in contemporary Australia Organizations and human services Underpinnings of human service delivery Impact of change in human service delivery The service user and the delivery system Prescribed Text Healey, J (1998) Welfare Options. Allen and Unwin St Leonard's NSW. Inglis, J and Rogan, L. (Eds) (1993). Beyond Swings and Roundabouts: Shaping the Future of Community Services in Australia, Pluto Press, Leichhardt NSW. Reference Materials Au, C. (1996) Rethinking Organizational Effectiveness: Theoretical and Methodological Issues in the Study of Organizational Effectiveness for Social Welfare Organizations, Administration in Social Work, Fall Vol 20, 4, pp. 1-22. Bargal, D. and Scmid, H (1992) Organizational Change and Development in Human Service Organizations: a Prefatory Essay, Administration in Social Work Summer-Fall Vol 16, 3-4, pp. 1-14. Barlow, D.M. (1997) Electronic Community Networks in Rural Australia: A Model for Social Development in the Information Society, Australian Social Work Vol 50, 1, March, pp 3-8. Bielefeld, W. and Corbin, J.J. (1996) The Institutionalization of Nonprofit Human Service Delivery: the Role of Political Culture, Administration and Society, November, Vol 28, 3, pp. 362-390. Bills, D. (1993) Organizing Public and Voluntary Agencies, Routledge, London. Braye, S. and Preston-Shoot, M (1995) Empowering Practice in Social Care, Open University Press, Buckingham UK. Crawford, F. (1997) No Continuing City: A Postmodern Story of Social Work, Australian Social Work Vol 50, 1, March, pp 23-30. Gutierrez, L and Alvarez, R.A. and Nemon, H and Lewis, EA. (1996) Multicultural Community Organizing: a strategy for change, Social Work, September, Vol 41, 5, pp 501-509. Industry Commission (1995) Charitable Organisations in Australia, Melbourne: AGPS. McDonald, C. (1995) The Challenge from Within Organisational Commitment in Nonprofit Human Service Organisations, Australian Social Work Vol 48, 1, March, pp 3-11. Jones, A. and May, J. (1992) Working in Human Service Organisations: A Critical Introduction, Longman, Melbourne. Mehr, J. (1995) Human Services Concept and Intervention Strategies, 6th ed., Massachusetts: Allyn & Bacon. Neukrug, E. (1994) Theory, Practice and Trends in Human Services: An Overview of an Emerging Profession, Pacific Grove CA: Brooks/Cole. Schram, B and Reid Mandell, B (1994) An Introduction to Human Services Policy and Practice 2nd ed, Macmillan College Publishing, Massachusetts. Sonin, D. and Horn, D. (1996) Practitioners' Experience in Telstra, Australian Social Work Vol 49, 1, March, pp 31-36. Titterton, M. ed (1994) Caring for People in the Community: The New Welfare, Jessica Kingsley Publishers, London. Woodside, M. & McClam, T. (1994) An Introduction to Human Services, 2nd ed, Pacific Grove CA: Brooks/Cole. Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1, 2 & 3 Type: Essay Length: 1500-2000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 4, 5 & 6 Type: Project Length: 3000-3500 words Value: 60% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Southern Cross University School of Human Services ------------------------------- --------------------------------------- Unit Statement Unit Title: Evaluation and Accountability in Human Services Unit Code: TBA Award Name: Masters of Human Services Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- Aims Practitioners in Human Service organizations are increasingly required to be accountable for the delivery, assessment and evaluation of services and programs. To enable appropriate accountability, students require a thorough understanding of the theoretical and process dimensions of evaluative research in human services. This Unit aims to provide an overview of research, evaluation theory and practice currently relevant to human services. Evaluation research in human services will be explained using models of competing discourses. Objectives On completion of this Unit students should be able to: 1. Apply the theoretical dimensions of evaluative research in human services. 2. Relate accountability to the basic processes of research and evaluation methods. 3. Describe the complex ethical issues in evaluating human services. 4. Analyze the complex reporting issues in human service evaluations. 5. Evaluate a human service program or project. 6. Critically assess published evaluations in human services. Handbook This Unit aims to look at the role of evaluation and accountability in human service practice. Students will be introduced to methods and techniques of data collection and analysis that facilitate evaluative research while at the same time satisfying ethical and accountability dimensions. Students will be provided with skills to critically evaluate a human service program or project and to assess published evaluations in human services. Syllabus Accountability and evaluation in human services Research models in human services Evaluation models in human services Evaluative research processes Ethics and accountability in evaluative research Reporting the evaluative research Roles of the practitioner/researcher The role of enquiry in promoting change Analysis of published evaluations Prescribed Test Newman, W.L. (1997) Social research methods 3rd ed. Boston: Allen & Unwin. Reference Materials De Vaus, D. (1995). Surveys in social research 4th ed. Sydney: Allen & Unwin. Jones, A. & May, J. (1992). Working in human service organisations. Melbourne: Longman Cheshire. Kellehear, A. (1993) The unobtrusive researcher: A guide to methods. Sydney: Allen & Unwin. May, T. (1997). Social Research 2nd ed. Open University Press. Patton, M. Q. (1990). Qualitative evaluation and research methods. Newbury Park, Calif: Sage Publications. Patton, M. Q. (1987) Qualitative methods in evaluation. Newbury Park, Calif: Sage Publications. Robson; C. (1993). Real world research: A resource for social scientists and practitioner-researchers. Oxford: Blackwell Publishers. Stringer. E. T. (1996). Action research: A handbook for practitioners. Perth: Curtin University of Technology. Uhr, J. (Ed) (1991). Program Evaluation. Federalism Research Centre. Canberra: ANU. Wadsworth, Y. (1997) Everyday evaluation on the run. 2^nd^ ed. Sydney: Allen & Unwin. Student Assessment Requirements Assessment Item 1 This assessment item relates to Unit objectives 1& 2 Type: Project Length: 2000 words Value: 40% Due Date: Assessment Item 2 This assessment item relates to Unit objectives 3, 4, 5 & 6 Type: Research Proposal Length: 2500-3000 words Value: 60% Due Date: Intended Distribution of Student Load The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. Staffing and Resources U.U.H. BAY MSW(Melb) H.C. BIGGS BA(Hons)(Qld), PhD(Massey)MAPS H.G. BYRNE RN, BEdNurs(ArmCAE), MHlthSc(NE), FRCNA J.E. FOSTER BSocSc(SocWk)(PIT), MSW(Melb) J.A. GRIFFITHS BA(Qld), GradDipCoun (BCAE), MNA(UNSW) R.P. HOLLOWAY BEd (N'cleCAE) E.M. NUSKE BSc(Hns)SocStuds, MA AppliedSocStuds, CQSW R.N. VAN DER VEEN BA(Wat), BSW(Hons)(Lake), MSW(James Cook) Emeritus Professor Tony VINSON BADipSocStud(Syd), MA(Hons) DipSocPhD(UNSW) Rules Graduate Certificate in Community Development (Emergency Management/Human Services) Abbreviated Title: GCCD (EM/HS) Introduction The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates senior emergency services personnel and human services practitioners to undertake advanced study in community development. Course Structure The Graduate Certificate requires completion of at least four (4) Units described in the accompanying schedule. Rules Governing Candidature 1. Admission to Candidature 1.1 Applicants for admission to candidature for the Graduate Certificate shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have demonstrated academic, professional standing or work experience considered to be equivalent to the requirement of (a). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3 Admission to candidature and the trimester of commencement shall be determined by the Head of School. 1.4 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. Requirements for the Graduate Certificate > To satisfy requirements for the Graduate Certificate the candidate > shall complete a program equivalent to at least four (4) units of > study approved by the Head of School, including units selected from > the appropriate Schedule annexed to these Rules. In special > circumstances other coursework units may be approved by the Head of > School. 3. Period of Candidature 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than three (3) fifteen (15) week trimesters of full time study and not more than six (6) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. Enrollment Unless the Head of School otherwise determines: (a) a candidate shall remain enrolled for the duration of each semester; and (b) a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in any one semester. ```{=html} <!-- --> ``` 5. Completion of a Unit A candidate shall have completed a unit when either: a. a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or b. the candidate has been granted advanced standing in the Unit. ```{=html} <!-- --> ``` 6. Advanced Standing 6.1 Advanced standing may be awarded for up to three (3) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to two (2) units on the basis of units completed at this University or at another University or tertiary institution, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to two (2) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who, within three (3) months of completing all the requirements for the Graduate Certificate, elects to enroll in the Graduate Diploma or Masters shall be granted advanced standing for four (4) units towards those degrees subject to the candidate surrendering the right to be awarded the Graduate Certificate. 6.5 A candidate granted advanced standing in accordance with the provision of 6.3 and 6.4 but who subsequently fails to complete the Graduate Diploma or Masters on application shall be entitled to be awarded the Graduate Certificate at the next appropriate graduation ceremony. 7. Admission to the Graduate Certificate > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University may be admitted to the Graduate > Certificate in Community Development (Emergency Management/Human > services). Schedule of Units Principles of Community Development (Core) New Political, Economic and Cultural Aspects of Community (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Disaster Preparedness and Prevention New [Human Services Strand]{.underline} Conceptual Contexts of Human Services New Delivery Systems in Human Services New Graduate Diploma in Community Development (Emergency Management/Human Services) Abbreviated Title: GDCD (EM/HS) Introduction The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates, senior emergency services personnel and human services practitioners the opportunities to undertake advanced study in community development. Course Structure The Graduate Diploma requires completion of at least eight (8) units described in the accompanying schedule. Progression from the Graduate Certificate to the Graduate Diploma to the Masters degree is permitted within the rules. Rules Governing Candidature 1. Admission to Candidature 1.1 Applicants for admission to candidature for the Graduate Diploma shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have completed the Graduate Certificate in Community Development (Emergency Management/Human Services) (c) have demonstrated academic, professional standing or work experience considered by the School Board to be equivalent to the requirement of (a) or (b). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3 Admission to candidature and the trimester of commencement shall be determined by the Head of School. 1.4 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. Requirements for the Graduate Diploma > To satisfy requirements for the Graduate Diploma the candidate shall > complete a program equivalent to at least eight (8) units of study > approved by the Head of School, including units selected from the > appropriate Schedule annexed to these Rules. In special circumstances > other coursework units may be approved by the Head of the School. 3. Period of Candidature 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than three (3) fifteen (15) week trimesters of full time study and not more than six (6) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. Enrollment Unless the Head of School otherwise determines: (a) a candidate shall remain enrolled for the duration of each semester; and (b) a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in anyone semester. ```{=html} <!-- --> ``` 5. Completion of a Unit A candidate shall have completed a unit when either: (a) a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or (b) the candidate has been granted advanced standing in the unit. ```{=html} <!-- --> ``` 6. Advanced Standing 6.1 Advanced standing may be awarded for up to four (4) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to four: (4) units on the basis of units completed at this University or at another University or tertiary institution, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to four (4) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who has completed all the requirements for the Graduate Certificate may be granted advanced standing for up to four (4) units. 6.5 A candidate who, within three (3) months of completing all the requirements for the Graduate Diploma, elects to enroll in the Masters shall be granted advanced standing for eight (8) units towards those degrees subject to the candidate surrendering the right to be awarded the Graduate Diploma. 6.6 A candidate granted advanced standing in accordance with the provision of 6.2 to 6.4 but who subsequently fails to complete the Masters on application shall be entitled to be awarded the Graduate Diploma at the next appropriate graduation ceremony. 7. Admission to the Graduate Certificate > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University, may be admitted to the Graduate > Diploma in Community Development (Emergency Management/Human > Services). Schedule of Units Principles of Community Development (Core) New Community Education in Emergency Management (Core) New Political, Economic and Cultural aspects of Community (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Living in a Hazardous Environment New Disaster Preparedness & Prevention New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New [Human Services Strand]{.underline} Conceptual Context of Human Services New Analysis of contemporary policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Elective Masters in Community Development (Emergency Management/Human Services) Abbreviated Title: MCD (EM/HS) Introduction The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates senior emergency services personnel and human services practitioners the opportunity to undertake advanced study in community development. Course Structure The Masters requires completion of at least twelve (12) units described in the accompanying schedule. Progression from the Graduate Certificate to the Graduate Diploma to the Masters degree is permitted within the rules. Rules Governing Candidature 1. Admission to Candidature 1.1 Applicants for admission to candidature for the Masters shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have completed the Graduate Diploma in Community Development (Emergency Management/Human Services) (c) have demonstrated academic, professional standing or work experience considered by the School Board to be equivalent to the requirement of (a) or (b). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3.1 Admission to candidature and the trimester of commencement shall be determined by the Head of School 1.3.2 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. Requirements for the Masters > To satisfy requirements for the Masters the candidate shall complete a > program equivalent to at least twelve (12) units of study approved by > the Head of School including units selected from the appropriate > Schedule annexed to these Rules. In special circumstances other > coursework units may be approved by the Head of School. 3. Period of Candidature 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than nine (9) fifteen (15) week trimesters of full time study and not more than eighteen (18) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. Enrolment Unless the Head of School otherwise determines: a. a candidate shall remain enrolled for the duration of each semester; and b. a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in any one semester. ```{=html} <!-- --> ``` 5. Completion of a Unit A candidate shall have completed a unit when either: a. a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or b. the candidate has been granted advanced standing in the unit. ```{=html} <!-- --> ``` 6. Advanced Standing 6.1 Advanced standing may be awarded for up to six (6) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to six (6) units on the basis of units completed at this University of at another University or tertiary institution for the Masters, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to six (6) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who has completed all the requirements for the Graduate Certificate may be granted advanced standing for up to four (4) units. 6.5 A candidate who has completed all the requirements for the Graduate Diploma may be granted advanced standing for up to eight (8) units. 6.6 A candidate granted advanced standing in accordance with the provision of 6.2 to 6.5 but who subsequently fails to complete the Masters on application shall be entitled to be awarded the Graduate Diploma at the next appropriate graduation ceremony. 7. Admission to the Masters > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University, may be admitted to the Masters in > Community Development (Emergency Management/Human Services). Schedule of Units Principles of Community Development (Core) New Political, Economic and Cultural aspects of Community (Core) New Community Education (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Disaster Preparedness and Prevention New Living in a Hazardous Environment New Social Dimension of Disaster New Research Dissertation ED756 Independent Study Unit IS165 [Human Services Strand]{.underline} Analytical Methodologies in Emergency Management New Conceptual Context of Human Services New Analysis of Contemporary Policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Research Dissertation ED756 Independent Study Unit IS165	en
all-txt-docs	294126	\|PNS \|3435.A \|ASO \|1.05\| \|PENSACOLA REGIONAL AIRPORT \|0322002\| \|PENSACOLA \|FLORIDA \| \|NAD83 \|5 CM \| \|NAVD88 \|25 CM \| \| 1.1\|0322002\| \| 120.7\| \|17+0 \|0322002\| \| 165.0\| \|0322002\| \| 302823.9\| -871114.8\| @ \|8 \|P\|0322002\| \|N\|0322002\| \| 302816.8021\| -871145.3709\| 780338\| 5999\|150\|0322002\| \| 94.8\| \|0322002\| \| \| \| \| \| \| 0\| 94.1\| \|0322002\| \| 475\| 94.8\| \|0322002\| \| 1419\| 92.1\| \|0322002\| \| 2568\| 93.0\| \|0322002\| \| 3844\| 95.8\| \|0322002\| \| 5282\| 108.7\| \|0322002\| \| 5999\| 111.1\| \|0322002\| # \|26 \|P\|0322002\| \|N\|0322002\| \| 302829.0810\| -871038.3030\|2580412\| 5999\|150\|0322002\| \| 111.1\| \|0322002\| \| \| \| \| \| \| 0\| 111.1\| \|0322002\| \| 717\| 108.7\| \|0322002\| \| 2155\| 95.8\| \|0322002\| \| 3430\| 93.0\| \|0322002\| \| 4580\| 92.1\| \|0322002\| \| 5524\| 94.8\| \|0322002\| \| 5999\| 94.1\| \|0322002\| # \|17 \|P\|0322002\| \|Y\|0322002\| \| 302858.4711\| -871126.3725\|1665905\| 7004\|150\|0322002\| \| 120.7\| \|0322002\| \| \| \| \| \| \| 0\| 120.7\| \|0322002\| \| 607\| 120.3\| \|0322002\| \| 1171\| 117.7\| \|0322002\| \| 2919\| 98.7\| \|0322002\| \| 3776\| 93.0\| \|0322002\| \| 4350\| 90.8\| \|0322002\| \| 5221\| 92.6\| \|0322002\| \| 7004\| 102.7\| \|0322002\| # \|35 \|P\|0322002\| \|Y\|0322002\| \| 302750.9282\| -871108.3496\|3465914\| 7004\|150\|0322002\| \| 102.7\| \|0322002\| \| \| \| \| \| \| 0\| 102.7\| \|0322002\| \| 1783\| 92.6\| \|0322002\| \| 2654\| 90.8\| \|0322002\| \| 3228\| 93.0\| \|0322002\| \| 4084\| 98.7\| \|0322002\| \| 5833\| 117.7\| \|0322002\| \| 6397\| 120.3\| \|0322002\| \| 7004\| 120.7\| \|0322002\| @ \|ASR (PNS) \| 302855.5766\| -871109.4734\| 125.0\| \| \| \|0322002\| \|DME (17) \| 302731.0033\| -871106.3584\| 108.2\| \| \| \|0322002\| \|GS (17) \| 302849.6962\| -871119.3334\| 115.2\| \| \| \|0322002\| \|GS (17) PP \| 302848.8035\| -871123.7924\| 118.8\| \| 400L\| 1002\|0322002\| \|LOC (17) \| 302731.8140\| -871103.2513\| 94.3\| \| \| 1982\|0322002\| \|MM (17) \| 302930.0926\| -871134.8039\| \| \| \| 3279\|0322002\| \|NDB (PKZ) \| 302613.4440\| -871042.1465\| \| \| \| \|0322002\| \|VOR (NUN) \| 302819.6919\| -872009.2204\| 80.0\| \| \| \|0322002\| # \|ALS (17) \| \| \| \| \| \| \|0322002\| \|APBN \| 302810.5693\| -871124.1459\| \| \| \| \|0322002\| \|REIL (8) \| \| \| \| \| \| \|0322002\| \|REIL (26) \| \| \| \| \| \| \|0322002\| \|REIL (35) \| \| \| \| \| \| \|0322002\| \|VASI (8) \| \| \| \| \| \| \|0322002\| \|VASI (26) \| \| \| \| \| \| \|0322002\| \|VASI (35) \| \| \| \| \| \| \|0322002\| # @ \|8 \|C \| \|TREE \| 302813.91\| -871145.66\|1A\| 130\| \| \| 36\| 35\| 9\| 85\| \|* 280R\| 36\|0322002\| \|TREE \| 302813.36\| -871147.72\|1A\| 131\| \| \| 37\| 36\| 10\| 273\| \|* 298R\| 35\|0322002\| \|TREE \| 302811.72\| -871155.09\|1A\| 130\| \| \| 36\| 35\| 9\| 939\| \| 327R\| 14\|0322002\| \|TREE \| 302817.63\| -871157.88\|1A\| 130\| \| \| 36\| 35\| 9\| 1054\| \| 308L\| 10\|0322002\| \|TREE \| 302813.13\| -871158.48\|1A\| 124\| \| \| 30\| 29\| 3\| 1199\| \| 126R\| 1\|0322002\| \|TREE \| 302808.84\| -871204.92\|1A\| 134\| \| \| 40\| 39\| 13\| 1841\| \| 433R\| -9\|0322002\| \|ANT ON OL TWR \| 302808.66\| -871312.16\|1A\| 244\| \| \| 150\| 149\| 123\| 7601\| \| 767L\| -67\|0322002\| # \|8 \|ANAPC \| \|ANT & APBN ON OL ATCT \| 302810.57\| -871124.15\|1A\| 201\| \| \| 107\| 106\| 80\| -1687\| \| 1000R\| 10\|0322002\| \|ROD ON OL TWR \| 302836.15\| -871132.13\|1A\| 214\| \| \| 120\| 119\| 93\| -1538\| \| 1673L\| 26\|0322002\| \|ROD ON LT \| 302831.47\| -871132.48\|1A\| 195\| \| \| 101\| 100\| 74\| -1410\| \| 1217L\| 11\|0322002\| \|TREE \| 302812.70\| -871145.06\|1A\| 146\| \| \| 52\| 51\| 25\| 59\| \| 411R\| 52\|0322002\| \|TREE \| 302813.36\| -871147.72\|1A\| 131\| \| \| 37\| 36\| 10\| 273\| \| 298R\| 35\|0322002\| \|TREE \| 302812.52\| -871147.66\|1A\| 140\| \| \| 46\| 45\| 19\| 286\| \| 382R\| 44\|0322002\| \|ROD ON LT \| 302810.21\| -871148.42\|1A\| 132\| \| \| 38\| 37\| 11\| 399\| \| 597R\| 6\|0322002\| \|TREE \| 302812.63\| -871149.51\|1A\| 135\| \| \| 41\| 40\| 14\| 442\| \| 337R\| 36\|0322002\| \|TREE \| 302811.16\| -871153.14\|1A\| 140\| \| \| 46\| 45\| 19\| 783\| \| 417R\| 34\|0322002\| \|TREE \| 302823.79\| -871156.76\|1A\| 145\| \| \| 51\| 50\| 24\| 829\| \| 897L\| 17\|0322002\| \|TREE \| 302811.72\| -871155.09\|1A\| 130\| \| \| 36\| 35\| 9\| 939\| \| 327R\| 21\|0322002\| \|TREE \| 302820.89\| -871158.03\|1A\| 143\| \| \| 49\| 48\| 22\| 998\| \| 633L\| 19\|0322002\| \|TREE \| 302819.26\| -871157.66\|1A\| 136\| \| \| 42\| 41\| 15\| 1001\| \| 465L\| 21\|0322002\| \|TREE \| 302810.19\| -871155.62\|1A\| 144\| \| \| 50\| 49\| 23\| 1015\| \| 468R\| 28\|0322002\| \|TREE \| 302810.44\| -871156.04\|1A\| 145\| \| \| 51\| 50\| 24\| 1046\| \| 436R\| 33\|0322002\| \|TREE \| 302817.63\| -871157.88\|1A\| 130\| \| \| 36\| 35\| 9\| 1054\| \| 308L\| 18\|0322002\| \|TREE \| 302822.67\| -871159.73\|1A\| 148\| \| \| 54\| 53\| 27\| 1107\| \| 840L\| 27\|0322002\| \|TREE \| 302813.13\| -871158.48\|1A\| 124\| \| \| 30\| 29\| 3\| 1199\| \| 126R\| 10\|0322002\| \|TREE \| 302818.63\| -871201.34\|1A\| 139\| \| \| 45\| 44\| 18\| 1329\| \| 470L\| 18\|0322002\| \|TREE \| 302808.84\| -871204.92\|1A\| 134\| \| \| 40\| 39\| 13\| 1841\| \| 433R\| 7\|0322002\| # \|26 \|BV \| \|TREE \| 302813.91\| -871145.66\|1A\| 130\| \| \| 19\| 19\| 9\| -6084\| \|* 280L\| 36\|0322002\| \|TREE \| 302828.73\| -871017.86\|1A\| 149\| \| \| 38\| 38\| 28\| 1743\| \| 404L\| -39\|0322002\| \|TREE \| 302835.56\| -871013.74\|1A\| 155\| \| \| 44\| 44\| 34\| 2239\| \| 197R\| -58\|0322002\| # \|26 \|ANAPC \| \|ANT ON OL TWR \| 302811.25\| -871054.02\|1A\| 223\| \| \| 112\| 112\| 102\| -1718\| \| 1478L\| 14\|0322002\| \|TREE \| 302824.31\| -871035.36\|1A\| 162\| \| \| 51\| 51\| 41\| 152\| \| 525L\| 0\|0322002\| \|TREE \| 302825.28\| -871035.39\|1A\| 146\| \| \| 35\| 35\| 25\| 170\| \| 429L\| 35\|0322002\| \|TREE \| 302834.11\| -871036.54\|1A\| 148\| \| \| 37\| 37\| 27\| 256\| \| 465R\| 27\|0322002\| \|TREE \| 302837.18\| -871037.08\|1A\| 180\| \| \| 69\| 69\| 59\| 274\| \| 778R\| 22\|0322002\| \|TREE \| 302824.66\| -871033.84\|1A\| 162\| \| \| 51\| 51\| 41\| 290\| \| 518L\| 33\|0322002\| \|TREE \| 302823.59\| -871032.41\|1A\| 159\| \| \| 48\| 48\| 38\| 390\| \| 649L\| 9\|0322002\| \|TREE \| 302837.40\| -871035.69\|1A\| 173\| \| \| 62\| 62\| 52\| 397\| \| 775R\| 17\|0322002\| \|TREE \| 302825.12\| -871032.53\|1A\| 158\| \| \| 47\| 47\| 37\| 411\| \| 496L\| 30\|0322002\| \|TREE \| 302837.96\| -871035.34\|1A\| 175\| \| \| 64\| 64\| 54\| 439\| \| 824R\| 20\|0322002\| \|TREE \| 302825.50\| -871031.84\|1A\| 158\| \| \| 47\| 47\| 37\| 478\| \| 471L\| 33\|0322002\| \|TREE \| 302834.31\| -871033.40\|1A\| 155\| \| \| 44\| 44\| 34\| 529\| \| 429R\| 35\|0322002\| \|TREE \| 302825.36\| -871031.04\|1A\| 158\| \| \| 47\| 47\| 37\| 544\| \| 499L\| 28\|0322002\| \|TREE \| 302826.32\| -871031.16\|1A\| 158\| \| \| 47\| 47\| 37\| 554\| \| 402L\| 40\|0322002\| \|TREE \| 302826.38\| -871030.76\|1A\| 159\| \| \| 48\| 48\| 38\| 589\| \| 403L\| 40\|0322002\| \|TREE \| 302834.74\| -871032.08\|1A\| 156\| \| \| 45\| 45\| 35\| 651\| \| 447R\| 32\|0322002\| \|TREE \| 302827.15\| -871028.82\|1A\| 146\| \| \| 35\| 35\| 25\| 772\| \| 362L\| 24\|0322002\| \|TREE \| 302835.63\| -871028.46\|1A\| 155\| \| \| 44\| 44\| 34\| 979\| \| 470R\| 22\|0322002\| \|TREE \| 302827.56\| -871025.26\|1A\| 145\| \| \| 34\| 34\| 24\| 1085\| \| 386L\| 16\|0322002\| \|ANT \| 302841.18\| -871028.33\|1A\| 187\| \| \| 76\| 76\| 66\| 1107\| \| 1015R\| 49\|0322002\| \|TREE \| 302835.44\| -871026.58\|1A\| 154\| \| \| 43\| 43\| 33\| 1137\| \| 417R\| 24\|0322002\| \|POLE \| 302842.36\| -871027.16\|1A\| 184\| \| \| 73\| 73\| 63\| 1231\| \| 1111R\| 49\|0322002\| \|TREE \| 302826.90\| -871022.79\|1A\| 155\| \| \| 44\| 44\| 34\| 1283\| \| 496L\| 21\|0322002\| \|TREE \| 302836.18\| -871023.52\|1A\| 153\| \| \| 42\| 42\| 32\| 1414\| \| 435R\| 18\|0322002\| \|TREE \| 302837.48\| -871020.43\|1A\| 154\| \| \| 43\| 43\| 33\| 1705\| \| 507R\| 5\|0322002\| \|TREE \| 302828.73\| -871017.86\|1A\| 149\| \| \| 38\| 38\| 28\| 1743\| \| 404L\| 7\|0322002\| \|TREE \| 302836.96\| -871019.36\|1A\| 146\| \| \| 35\| 35\| 25\| 1787\| \| 436R\| 3\|0322002\| \|TREE \| 302835.56\| -871013.74\|1A\| 155\| \| \| 44\| 44\| 34\| 2239\| \| 197R\| 3\|0322002\| \|TREE \| 302832.13\| -871007.33\|1A\| 161\| \| \| 50\| 50\| 40\| 2716\| \| 259L\| 0\|0322002\| # \|17 \|PIR \| \|GRD \| 302756.49\| -871104.83\|1A\| 102\| \| \| -19\| -19\| -19\| -6525\| \| 427L\| 2\|0322002\| \|GRD \| 302759.95\| -871105.41\|1A\| 101\| \| \| -20\| -20\| -20\| -6174\| \| 456L\| 3\|0322002\| \|WSK \| 302831.20\| -871113.27\|1A\| 119\| \| \| -2\| -2\| -2\| -2943\| \| 497L\| 20\|0322002\| \|ROD ON OL GS \| 302849.70\| -871119.33\|1A\| 163\| \| \| 42\| 42\| 42\| -1002\| \| 400L\| 45\|0322002\| \|TREE \| 302901.99\| -871133.64\|1A\| 157\| \| \| 36\| 36\| 36\| 489\| \| 539R\| 31\|0322002\| \|TREE \| 302902.07\| -871134.31\|1A\| 168\| \| \| 47\| 47\| 47\| 511\| \|* 595R\| 42\|0322002\| \|TREE \| 302903.09\| -871133.72\|1A\| 152\| \| \| 31\| 31\| 31\| 599\| \| 521R\| 23\|0322002\| \|TREE \| 302906.00\| -871135.44\|1A\| 147\| \| \| 26\| 26\| 26\| 919\| \| 602R\| 12\|0322002\| \|ANT ON BLDG \| 302907.25\| -871133.49\|1A\| 119\| \| \| -2\| -2\| -2\| 1005\| \| 407R\| -18\|0322002\| \|TREE \| 302909.67\| -871137.37\|1A\| 167\| \| \| 46\| 46\| 46\| 1319\| \|* 683R\| 24\|0322002\| \|TREE \| 302914.57\| -871122.21\|1A\| 166\| \| \| 45\| 45\| 45\| 1503\| \|* 721L\| 19\|0322002\| \|TREE \| 302917.35\| -871122.97\|1A\| 164\| \| \| 43\| 43\| 43\| 1791\| \| 720L\| 12\|0322002\| \|TREE \| 302923.01\| -871125.77\|1A\| 168\| \| \| 47\| 47\| 47\| 2404\| \| 610L\| 3\|0322002\| \|TRMSN TWR \| 302941.88\| -871127.63\|1A\| 204\| \| \| 83\| 83\| 83\| 4298\| \| 880L\| 1\|0322002\| \|TRMSN TWR \| 302942.03\| -871132.62\|1A\| 207\| \| \| 86\| 86\| 86\| 4411\| \| 459L\| 2\|0322002\| \|TRMSN TWR \| 302942.40\| -871145.96\|1A\| 208\| \| \| 87\| 87\| 87\| 4711\| \| 670R\| -3\|0322002\| \|ANT \| 303001.49\| -871149.91\|1A\| 225\| \| \| 104\| 104\| 104\| 6667\| \| 573R\| -25\|0322002\| # \|35 \|D \| \|ROD ON OL GS \| 302849.70\| -871119.33\|1A\| 163\| \| \| 60\| 60\| 42\| -6001\| \| 400R\| 45\|0322002\| \|WSK \| 302831.20\| -871113.27\|1A\| 119\| \| \| 16\| 16\| -2\| -4061\| \| 497R\| 20\|0322002\| \|GRD \| 302759.95\| -871105.41\|1A\| 101\| \| \| -2\| -2\| -20\| -830\| \| 456R\| 3\|0322002\| \|GRD \| 302756.49\| -871104.83\|1A\| 102\| \| \| -1\| -1\| -19\| -479\| \| 427R\| 2\|0322002\| \|OL ON LOC \| 302731.81\| -871103.25\|1A\| 102\| \| \| -1\| -1\| -19\| 1982\| \| 0R\| -53\|0322002\| \|OL ON DME \| 302731.00\| -871106.36\|1A\| 113\| \| \| 10\| 10\| -8\| 2001\| \| 283L\| -43\|0322002\| # \|35 \|ANAPC \| \|ANT ON OL TWR \| 302811.25\| -871054.02\|1A\| 223\| \| \| 120\| 120\| 102\| -1718\| \| 1684R\| 23\|0322002\| \|TREE \| 302752.83\| -871058.87\|1A\| 164\| \| \| 61\| 61\| 43\| -1\| \| 851R\| 7\|0322002\| \|TREE \| 302748.30\| -871117.47\|1A\| 157\| \| \| 54\| 54\| 36\| 79\| \| 838L\| 2\|0322002\| \|TREE \| 302751.85\| -871059.75\|1A\| 160\| \| \| 57\| 57\| 39\| 79\| \| 754R\| 5\|0322002\| \|TREE \| 302750.75\| -871058.06\|1A\| 164\| \| \| 61\| 61\| 43\| 220\| \| 873R\| 12\|0322002\| \|TREE \| 302746.16\| -871116.65\|1A\| 154\| \| \| 51\| 51\| 33\| 306\| \| 817L\| 4\|0322002\| \|TREE \| 302748.82\| -871057.81\|1A\| 157\| \| \| 54\| 54\| 36\| 415\| \| 851R\| 10\|0322002\| \|TREE \| 302744.40\| -871118.17\|1A\| 165\| \| \| 62\| 62\| 44\| 449\| \| 986L\| 19\|0322002\| \|TREE \| 302747.19\| -871058.44\|1A\| 149\| \| \| 46\| 46\| 28\| 563\| \| 760R\| 6\|0322002\| \|TREE \| 302743.53\| -871115.23\|1A\| 157\| \| \| 54\| 54\| 36\| 593\| \| 755L\| 15\|0322002\| \|TREE \| 302741.17\| -871114.55\|1A\| 157\| \| \| 54\| 54\| 36\| 838\| \| 751L\| 21\|0322002\| \|TREE \| 302737.65\| -871114.98\|1A\| 160\| \| \| 57\| 57\| 39\| 1177\| \| 868L\| 32\|0322002\| \|OL ON LOC \| 302731.81\| -871103.25\|1A\| 102\| \| \| -1\| -1\| -19\| 1982\| \| 0R\| -37\|0322002\| \|OL ON DME \| 302731.00\| -871106.36\|1A\| 113\| \| \| 10\| 10\| -8\| 2001\| \| 283L\| -26\|0322002\| \|TREE \| 302724.41\| -871103.28\|1A\| 137\| \| \| 34\| 34\| 16\| 2711\| \| 171L\| -16\|0322002\| \|TREE \| 302725.29\| -871057.12\|1A\| 134\| \| \| 31\| 31\| 13\| 2745\| \| 374R\| -20\|0322002\| # \|ARP \|HCT \| \|AMOM \| 302837.35\| -871109.16\|1A\| 134\| \| \| 13\| 2103\| 1445\| -40\|0322002\| \|ANT & APBN ON OL ATCT \| 302810.57\| -871124.15\|1A\| 201\| \| \| 80\|21222\| 1576\| 52\|0322002\| \|ROD ON OL POLE \| 302840.81\| -871112.64\|1A\| 146\| \| \| 25\| 724\| 1719\| -1\|0322002\| \|ROD ON LT \| 302831.47\| -871132.48\|1A\| 195\| \| \| 74\|29724\| 1726\| 1\|0322002\| \|ROD ON OL TWR \| 302836.15\| -871132.13\|1A\| 214\| \| \| 93\|31019\| 1958\| 34\|0322002\| \|ANT ON OL TWR \| 302811.25\| -871054.02\|1A\| 223\| \| \| 102\|12611\| 2223\| -39\|0322002\| \|TREE \| 302811.92\| -871141.69\|1A\| 145\| \| \| 24\|24353\| 2647\| 8\|0322002\| \|TREE \| 302836.54\| -871047.74\|1A\| 175\| \| \| 54\| 6246\| 2691\| -28\|0322002\| \|TREE \| 302812.70\| -871145.06\|1A\| 146\| \| \| 25\|24758\| 2880\| 29\|0322002\| \|TREE \| 302813.91\| -871145.66\|1A\| 130\| \| \| 9\|25037\| 2883\| 32\|0322002\| \|ANT ON RTR \| 302846.54\| -871135.00\|1A\| 195\| \| \| 74\|32324\| 2891\| 4\|0322002\| \|TREE \| 302755.40\| -871118.82\|1A\| 146\| \| \| 25\|18804\| 2900\| 5\|0322002\| \|TREE \| 302813.36\| -871147.72\|1A\| 131\| \| \| 10\|25048\| 3072\| 29\|0322002\| \|TREE \| 302812.52\| -871147.66\|1A\| 140\| \| \| 19\|24918\| 3097\| 26\|0322002\| \|TREE \| 302812.63\| -871149.51\|1A\| 135\| \| \| 14\|25033\| 3244\| 27\|0322002\| \|TREE \| 302856.51\| -871115.34\|1A\| 192\| \| \| 71\| 16\| 3295\| 15\|0322002\| \|TREE \| 302750.67\| -871118.21\|1A\| 160\| \| \| 39\|18610\| 3370\| 9\|0322002\| \|TREE \| 302853.44\| -871133.91\|1A\| 171\| \| \| 50\|33150\| 3421\| 14\|0322002\| \|TREE \| 302752.83\| -871058.87\|1A\| 164\| \| \| 43\|15709\| 3435\| 11\|0322002\| \|TREE \| 302825.28\| -871035.39\|1A\| 146\| \| \| 25\| 8847\| 3451\| 9\|0322002\| \|TREE \| 302824.31\| -871035.36\|1A\| 162\| \| \| 41\| 9025\| 3452\| 11\|0322002\| \|TREE \| 302751.85\| -871059.75\|1A\| 160\| \| \| 39\|15858\| 3496\| 21\|0322002\| \|TREE \| 302834.11\| -871036.54\|1A\| 148\| \| \| 27\| 7359\| 3504\| 5\|0322002\| \|TREE \| 302824.66\| -871033.84\|1A\| 162\| \| \| 41\| 8952\| 3586\| 10\|0322002\| \|TREE \| 302811.16\| -871153.14\|1A\| 140\| \| \| 19\|25007\| 3593\| 17\|0322002\| \|TREE \| 302748.30\| -871117.47\|1A\| 157\| \| \| 36\|18449\| 3605\| 6\|0322002\| \|TREE \| 302855.54\| -871134.49\|1A\| 188\| \| \| 67\|33246\| 3632\| 30\|0322002\| \|TREE \| 302750.75\| -871058.06\|1A\| 164\| \| \| 43\|15728\| 3656\| 8\|0322002\| \|TREE \| 302749.59\| -871100.23\|1A\| 140\| \| \| 19\|16054\| 3693\| 14\|0322002\| \|TREE \| 302825.12\| -871032.53\|1A\| 158\| \| \| 37\| 8911\| 3701\| 5\|0322002\| \|TREE \| 302825.50\| -871031.84\|1A\| 158\| \| \| 37\| 8838\| 3763\| 5\|0322002\| \|TREE \| 302834.31\| -871033.40\|1A\| 155\| \| \| 34\| 7454\| 3772\| 7\|0322002\| \|TREE \| 302819.26\| -871157.66\|1A\| 136\| \| \| 15\|26358\| 3780\| 5\|0322002\| \|TREE \| 302746.16\| -871116.65\|1A\| 154\| \| \| 33\|18332\| 3817\| 5\|0322002\| \|TREE \| 302748.82\| -871057.81\|1A\| 157\| \| \| 36\|15820\| 3844\| 2\|0322002\| \|TREE \| 302810.44\| -871156.04\|1A\| 145\| \| \| 24\|25027\| 3857\| 17\|0322002\| \|TREE \| 302826.38\| -871030.76\|1A\| 159\| \| \| 38\| 8722\| 3862\| 12\|0322002\| \|TREE \| 302834.74\| -871032.08\|1A\| 156\| \| \| 35\| 7445\| 3895\| 1\|0322002\| \|TREE \| 302857.66\| -871136.55\|1A\| 189\| \| \| 68\|33156\| 3906\| 13\|0322002\| \|TREE \| 302902.68\| -871118.41\|1A\| 175\| \| \| 54\|35629\| 3930\| 16\|0322002\| \|TREE \| 302747.19\| -871058.44\|1A\| 149\| \| \| 28\|15959\| 3976\| 6\|0322002\| \|TREE \| 302744.40\| -871118.17\|1A\| 165\| \| \| 44\|18519\| 4002\| -9\|0322002\| \|TREE \| 302827.15\| -871028.82\|1A\| 146\| \| \| 25\| 8626\| 4037\| -1\|0322002\| \|TREE \| 302900.48\| -871134.53\|1A\| 174\| \| \| 53\|33603\| 4079\| 32\|0322002\| \|TREE \| 302743.53\| -871115.23\|1A\| 157\| \| \| 36\|18138\| 4079\| 15\|0322002\| \|TREE \| 302818.63\| -871201.34\|1A\| 139\| \| \| 18\|26339\| 4108\| 4\|0322002\| \|TREE \| 302902.07\| -871134.31\|1A\| 168\| \| \| 47\|33713\| 4217\| 35\|0322002\| \|TREE \| 302835.44\| -871026.58\|1A\| 154\| \| \| 33\| 7539\| 4378\| -15\|0322002\| \|TREE \| 302904.15\| -871138.02\|1A\| 172\| \| \| 51\|33433\| 4546\| 0\|0322002\| \|TREE \| 302737.65\| -871114.98\|1A\| 160\| \| \| 39\|18117\| 4673\| -3\|0322002\| \|TREE \| 302911.82\| -871120.35\|1A\| 182\| \| \| 61\|35522\| 4866\| 17\|0322002\| \|TRMSN TWR \| 302912.43\| -871115.07\|1A\| 211\| \| \| 90\| 49\| 4904\| -20\|0322002\| \|TREE \| 302908.47\| -871137.41\|1A\| 168\| \| \| 47\|33723\| 4919\| 18\|0322002\| \|TREE \| 302912.90\| -871119.87\|1A\| 183\| \| \| 62\|35558\| 4970\| 9\|0322002\| \|ROD ON OL TWR \| 302833.87\| -871210.56\|1A\| 241\| \| \| 120\|28246\| 4982\| -30\|0322002\| \|TREE \| 302909.67\| -871137.37\|1A\| 167\| \| \| 46\|33758\| 5028\| 21\|0322002\| \|TREE \| 302914.57\| -871122.21\|1A\| 166\| \| \| 45\|35352\| 5160\| 16\|0322002\| \|TREE \| 302931.41\| -871121.61\|1A\| 198\| \| \| 77\|35606\| 6847\| -12\|0322002\| \|ANT ON OL TWR \| 302808.66\| -871312.16\|1A\| 244\| \| \| 123\|26235\|10385\| -26\|0322002\| \|ANT ON OL TWR \| 303005.97\| -871023.79\|1A\| 363\| \| 261\| 242\| 2430\|11237\| 92\|0322002\| @ \|Additional Information: \| \| \| \|NATIONAL GEODETIC SURVEY \| EOF	ja
all-txt-docs	339885	ACKNOWLEDGMENTS____________________________MINORITY-/WOMEN-OWNED BUSINESSES Many persons participated in conducting the 1992 Surveys of Women-Owned Businesses and the Survey of Minority-Owned Business Enterprises. Primary direction was performed by Frederick T. Knickerbocker, Associate Director for Economic Programs; and Thomas L. Mesenbourg, Assistant Director for Economic Programs. This report was prepared in the Agriculture and Financial Statistics Division (AGFS) under the general direction of Dr. Ewen Wilson, Chief; and Ruth A. Runyan, Assistant Division Chief for Financial Statistics. The overall project development and planning of this report were under the direction of Eddie J. Salyers, Chief, Company Statistics Branch. Valerie C. Strang directed and implemented planning procedures, specification development, data collection, editing, and compilation of this report. Staff assistance was provided by Melody Atkinson, Traci Brown, Rebecca Clement, David Cooper, Elaine Emanuel, Barbara Esworthy, Jesus Garcia, Donna Hambric, Durwin Knutson, Sungsoo Oh, and Patricia Patriarca. Development and implementation of the statistical methodology were performed under the general supervision of Mitchell Trager, Assistant Division Chief for Research and Methodology, Economic Census and Surveys Division (ECSD) and Ruth Detlefsen, Assistant Division Chief for Research and Methodology (AGFS). Direction in those areas was provided by Kenneth Sausman, Chief, Statistical Methods Branch, (ECSD) and Ann Vacca, Chief, Frame Research and Development Branch (AGFS). David Raglin, preceded by Mark Sands, was assigned primary responsibility for sample design, imputation, and estimation with staff assistance by Bill Kirby and Julia Klein Griffiths. Keying procedures were developed by Charles Fowler, Ellen Kummer, and Benjamin Stephens of the Directory Development Branch (ECSD). Computer programs were developed in the Economic Statistical Methods and Programming Division under the general supervision of Charles P. Pautler, Jr., Chief; and Martin S. Harahush, Assistant Division Chief for Quinquennial Programs; with assistance from Steven G. McCraith, Chief, Quinquennial Surveys Branch; and James R. Parker, Chief, Mailout and Data Collection Branch. Joseph F. Keehan was assigned primary programming responsibility with assistance from John D. Bedwell, Sarah J. Castillo, William E. Dyer, Thaddeus S. Hess, Stephen D. Jarvis, James L. Kirk, Steven W. Laudrille, John E. McCormick, and Andrew M. Stevenson. The staff of the Technical Services Division, Teresa Angueira, Chief, captured the response data electronically using a Film Optical Sensing Device for Input to Computer (FOSDIC) operation. The staff of the Administrative and Publications Services Division, Walter C. Odom, Chief, performed publication planning, design, composition, editorial review, and procurement for publications. Frances B. Scott and Helen M. Curtis provided publication coordination and editing. Evelyn Fedorko and Shirley Boswell were responsible for design and procurement of the report forms, respectively. Mailout preparation and receipt operations, clerical activities, and data keying were performed by the staff of the Data Preparation Division, Judith N. Petty, Chief. Computer processing was performed in the Computer Services Division, Marvin D. Raines, Chief. Photocomposition programs for the statistical tables were developed in the Systems Support Division, Richard W. Swartz, Chief. The overall planning and review of the census operations were performed by the staff of the office of the Assistant Director for Economic and Agriculture Censuses. This survey depended upon the cooperation of the staffs of the Internal Revenue Service and the Social Security Administration. Thanks are due to Daniel Skelly, Chief, Statistics of Income Division, Karen Cys, and Ken Szeflinski of the Internal Revenue Service; Warren Buckler, Barry Bye, Harry Stamer, Frank Thomas, and Peter Wheeler of the Social Security Administration; and Lynda DiNenna, Cheryl A. Leigh, Harvey Monk, and Edward D. Walker of the Census Bureau, who coordinated activities with the agencies. Special acknowledgment is also due to the many business owners whose cooperation has contributed to the publication of these data. If you have any questions concerning the statistics in this report, call 301-763-5726. ###	en
converted_docs	522013	SEPARATE STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: Schools and Libraries Universal Service Support Mechanism (CC Docket No. 02-6) By connecting our schools and libraries to the Internet, E-Rate plays a critical role in providing our children and our communities with the digital tools necessary to compete and prosper in the Information Age. No program has been as singularly effective at making sure that young people from the poorest and most geographically isolated communities in this country are not left on the wrong side of the digital divide. The statistics are impressive and they bear repeating. When the Telecommunications Act was passed, only 14% of public school classrooms were connected to the Internet. By last year, 87% of these classrooms were connected. In rural areas, the results have been even more impressive, with 89% of public school classrooms now connected. And in schools with high percentages of students eligible for free or reduced-price luncheons, we have also made substantial progress: 79% of public school classrooms are now connected. Great programs like E-Rate do not thrive without regular review and care. The gains we have made can vanish without continued attention and, indeed, vigilance. This is why our actions today are important. So I am pleased that we adopt rules for suspension and debarment to ensure that bad actors will be denied the ability to participate in the E-Rate program. I am also pleased that we develop an online list of eligible internal connections equipment that will make it simpler for schools and libraries to develop their applications. These are good and positive steps, but there is more work that remains to be done. We need to work harder to ensure that deserving schools and libraries receive support in a more timely way. With libraries and school districts around the country struggling under the weight of often draconian budget cuts, the need to deliver timely E-Rate support has never been more important. We also need to clarify our competitive bidding rules to ensure that applicants get the services they need at low prices. And we need to be dead serious about rooting out abuses to make sure the program functions with the integrity it must have. My hope is that as abuses are identified and eliminated, we will focus simultaneously on these other programmatic challenges that are equally high priority. In sum, we need to work together to make sure that the E-Rate's public-private commitment to technology access has a future every bit as bright as the record it has already achieved. Today's item represents a start, and I am pleased to support it.	en
converted_docs	494238	ROBERT E. MANDRELL, Ph.D. Research Leader Produce Safety and Microbiology Research Unit USDA, ARS, WRRC 800 Buchanan Street Albany, CA 94710 USA Tel: 510-559-5829 Fax: 510-559-6165 E-mail: mandrell@pw.usda.gov #### Education Ph.D School of Biochemistry, University of Birmingham, UK 1993 B. S. Microbiology, Ohio State University 1970 RESEARCH AND PROFESSIONAL EXPERIENCE: > 1974 to 1983 Walter Reed Army Institute of Research, Department of > Bacterial Diseases, Washington DC - Studies of antigenicity, immunogenicity and immunochemistry of outer membrane molecules of Neisseria meningitidis - Production and characterization of monoclonal antibodies - Development of serotyping system for protein and lipooligosaccharide antigens of Neisseria meningitidis - Production of polysaccharide-protein vaccines > 1984 to 1992 VA Medical Center, San Francisco, CA - Immunochemistry and biochemistry of lipooligosaccharides of Neisseria meningitidis, Neisseria gonorrhoeae, and Haemophlius species > 1994 to 1996 Oakland Childrens Hospital Research Institute, Oakland, > CA - Human immune response to bacterial polysaccharide-conjugate vaccines - Human repertoire of antibodies to polysaccharides - Immunochemistry of Streptococccus pneumoniae capsular polysaccharides > 1996 to present USDA, Agricultural Research Service, WRRC Albany, > CA - Microbial food safety related to fresh produce - Biology of Campylobacter species related to food - Analysis of bacteria by mass spectrometry ## Recent Publications, 1998-2003 1. Mandrell, RE and Wachtel, MR. 1999. Novel detection techniques for human pathogens that contaminate poultry. [Current Opinion Biotech. 10(3):273-278](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10361075&dopt=Abstract). (Review). ```{=html} <!-- --> ``` 1. Brandl, MT, Mandrell, RE. 2000. Use of confocal microscopy and the green fluorescent protein in ecological studies on Salmonella on plant surfaces. Scanning 2000. 22: 83. (Proceedings). 2. Wood, DF, Mandrell, R, Bates, AH, Yu, PC. 2000. Immunolocalization of surface antigens on Campylobacter jejuni using FESEM and a backscatter electron detector. Scanning 2000. 22: 79-80. (Proceedings). 3. Kimura R, Mandrell RE, Galland JC, Hyatt D, Riley LW. 2000. Restriction site-specific (RSS)-PCR as a rapid test to detect enterohemorrhagic Escherichia coli O157:H7 strains in environmental samples. [Appl Environ Microbiol. 66:2513-2519](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10831431&dopt=Abstract). 4. Miller WG, Bates AH, Horn ST Brandl MT, Wachtel MR, and Mandrell RE. 2000. Detection on surfaces and in Caco-2 cells of Campylobacter jejuni cells transformed with new gfp, yfp and cfp marker plasmids. [Appl Environ Microbiol. 66:5426-5436](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11097924&dopt=Abstract). 5. Campbell J, Mohle-Boetani J, Reporter R, Abbott S, Farrar J, Brandl M, Mandrell, R, Werner S. 2001. An outbreak of Salmonella Thompson associated with fresh cilantro. [J Infect Dis. 183:984-987](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11237818). 6. Charkowski AO, Sarreal CZ, Mandrell RE. 2001. Wrinkled alfalfa seeds harbor more aerobic bacteria and are more difficult to sanitize than smooth seeds. [J Food Protect. 64: 1292-1298.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11563502) 7. Wachtel, MR, Whitehand, LC, Mandrell, RE. 2002. Prevalence of Escherichia coli associated with a cabbage crop inadvertently irrigated with partially treated sewage wastewater. [J Food Prot. 65:471-475.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11899045) 8. Wachtel, MR, Whitehand, LC, Mandrell, RE. 2002. Association of Escherichia coli O157:H7 with preharvest leaf lettuce upon exposure to contaminated irrigation water. [J Food Prot. 65:18-25.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11808792) 9. Brandl, MT, Mandrell, RE. 2002. Fitness of Salmonella enterica serovar Thompson in the cilantro phyllosphere. [Appl Environ Microbiol. 68:3614-3621](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12089050&dopt=Abstract). 10. Charkowski, AO, Barak, JD, Sarreal, CZ, Mandrell, RE. 2002. Differences in growth of Salmonella enterica and Escherichia coli O157:H7 on alfalfa sprouts. [Appl. Environ. Microbiol.. 68:3114-3120.](http://aem.asm.org/cgi/content/abstract/68/6/3114) 11. Friedman, M, Henika, P, Mandrell, R. 2002. Bactericidal activities of plant essential oils and some of their isolated constituents against Campylobacter jejuni, Escherichia coli, Listeria monocytogenes, and Salmonella enterica. [Journal of Food Protection. 65:1545-1560.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12380738) 12. Gorski, L, Palumbo, JD, Mandrell, RE. 2003. Attachment of Listeria monocytogenes to radish tissue is dependent upon temperature and flagellar motility. [Appl. Environ. Microbiol..69:258-266.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12514003) 13. Palumbo, JD, Borucki, MK, Mandrell, RE, and Gorski, LA. 2003. Serotyping of Listeria monocytogenes by ELISA and identification of mixed-serotype cultures by colony immunoblot. [J. Clin. Microbiol. 69.564-571.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12574247) 14. Cooley, M, Miller, W, Mandrell, R. 2003. Colonization of Arabidopsis thaliana with Salmonella enterica or enterohemorrhagic Escherichia coli O157:H7 and competition by an Enterobacter asburiae. [Appl. Environ. Microbiol. 69:4915-4926](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12902287).	en
all-txt-docs	141571	15:59 Thursday, April 19, 2007 1 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE SUPERIOR, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ==================================================================================================================================== Wisconsin Wisconsin Michigan Michigan Minnesota Tribe Licensed State Licensed Tribe Licensed State Licensed Totals Catch =============== =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ==================================================================================================================================== Rainbow smelt 1 7573 3029 . . 3423 6504 203 169 . . 11199 9702 Rainbow smelt 4 . . . . . . 2024 0 . . 2024 . Burbot 1 6 0 . . . . . . . . 6 0 Cisco (Lake herring) 1 300624 174511 . . 174841 62555 3996 1081 . . 479461 238147 Cisco (Lake herring) 4 . . . . . . 1129 0 . . 1129 . Lake whitefish 1 . . . . 563899 341582 575171 387945 279978 258030 1419048 987557 Lake whitefish 4 . . . . . . 82465 0 . . 82465 . Round whitefish 1 . . . . . . 338 102 . . 338 102 Round whitefish 4 . . . . . . 810 0 . . 810 . Chubs 1 1 1 . . 31739 29715 2708 2463 . . 34448 32179 Chinook salmon 1 . . . . . . 54 11 . . 54 11 Lake trout 1 . . . . 25280 17740 41440 10996 3733 6220 70453 34956 Lake trout 4 . . . . . . 10250 0 . . 10250 . Siscowet (fat trout) 1 . . . . 51835 15614 . . . . 51835 15614 Coho salmon 1 . . . . . . 1528 746 . . 1528 746 Coho salmon 4 . . . . . . 80 0 . . 80 . Suckers 1 205 22 . . . . 7455 760 . . 7660 782 Suckers 4 . . . . . . 6 0 . . 6 . Yellow perch 1 . . . . . . 21 53 . . 21 53 Walleye 1 . . . . . . 2350 3715 . . 2350 3715 Walleye 4 . . . . . . 250 0 . . 250 . ==================================================================================================================================== Totals 308409 177563 . . 851017 473710 732278 408041 283711 264250 2175415 1323564 TOTALS BY CATCH CLASS ====================== Human Food 1 308409 177563 . . 851017 473710 635264 408041 283711 264250 2078401 1323564 No Sale 4 . . . . . . 97014 0 . . 97014 . 15:59 Thursday, April 19, 2007 2 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE MICHIGAN, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ==================================================================================================================================== Michigan Michigan Wisconsin Illinois Indiana Tribe Licensed State Licensed Totals Catch =============== =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ==================================================================================================================================== Alewife 5 42922 4300 . . . . . . . . 42922 4300 Rainbow smelt 1 427567 213867 . . . . . . 248313 124159 675880 338026 Brown bullhead 4 319 0 . . . . . . . . 319 . Channel catfish 1 . . . . . . 48 11 . . 48 11 Channel catfish 4 38 0 . . . . 19 0 . . 57 . Burbot 1 13514 4773 . . . . 130 15 . . 13644 4788 Burbot 4 . . . . . . 4 0 . . 4 . White perch 1 1253 635 . . . . . . . . 1253 635 White bass 1 202 133 . . . . . . . . 202 133 Freshwater drum 4 . . . . . . 2400 0 . . 2400 . Lake whitefish 1 1478309 1313101 . . . . 1631619 958235 823696 657891 3933624 2929227 Lake whitefish 4 . . . . . . 572532 0 . . 572532 . Round whitefish 1 1663 834 . . . . 3005 1875 100 54 4768 2763 Round whitefish 4 . . . . . . 8635 0 . . 8635 . Chubs 1 90544 7565 . . . . 68367 50732 124568 142179 283479 200476 Chubs 2 1518505 1075603 . . . . . . . . 1518505 1075603 Chubs 4 . . . . . . 7698 0 . . 7698 . Chinook salmon 1 . . . . . . 5236 1640 . . 5236 1640 Chinook salmon 4 . . . . . . 107 0 . . 107 . Lake trout 1 . . . . . . 213017 74680 . . 213017 74680 Lake trout 4 . . . . . . 10264 0 . . 10264 . Suckers 1 1158 118 . . . . 763 120 22650 2494 24571 2732 Suckers 4 . . . . . . 85 0 . . 85 . Yellow perch 1 22465 50578 . . . . 1144 2707 . . 23609 53285 Walleye 1 . . . . . . 6045 11569 . . 6045 11569 Walleye 4 . . . . . . 13131 0 . . 13131 . ==================================================================================================================================== Totals 3598459 2671507 . . . . 2544249 1101584 1219327 926777 7362035 4699868 TOTALS BY CATCH CLASS ====================== Human Food 1 2036675 1591604 . . . . 1929374 1101584 1219327 926777 5185376 3619965 Human Food 2 1518505 1075603 . . . . . . . . 1518505 1075603 No Sale 4 357 0 . . . . 614875 0 . . 615232 . Animal Food 5 42922 4300 . . . . . . . . 42922 4300 15:59 Thursday, April 19, 2007 3 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE HURON, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ============================================================================== Michigan Michigan Tribe Licensed State Licensed Totals Catch =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars ============================================================================== Gizzard shad 1 . . 14872 2232 14872 2232 Rainbow smelt 1 . . 564 282 564 282 Brown bullhead 1 . . 531 189 531 189 Channel catfish 1 836 295 118974 54729 119810 55024 Channel catfish 4 259 0 . . 259 . Burbot 1 1800 180 175 39 1975 219 Burbot 4 18 0 . . 18 . White perch 1 . . 5770 3119 5770 3119 White bass 1 . . 1253 838 1253 838 Freshwater drum 1 . . 79530 12728 79530 12728 Cisco (Lake herring) 1 4002 1491 . . 4002 1491 Cisco (Lake herring) 4 2974 0 . . 2974 . Lake whitefish 1 1414188 977029 1747889 1853827 3162077 2830856 Lake whitefish 4 180984 0 . . 180984 . Round whitefish 1 14559 8099 151 83 14710 8182 Round whitefish 4 1289 0 . . 1289 . Chinook salmon 1 88266 44193 . . 88266 44193 Chinook salmon 4 73726 0 . . 73726 . Lake trout 1 108295 42999 . . 108295 42999 Lake trout 4 19517 0 . . 19517 . Siscowet (fat trout) 1 . . 25 31 25 31 Suckers 1 . . 26007 2868 26007 2868 Carp 1 2134 211 30915 5566 33049 5777 Carp 4 1857 0 . . 1857 . Quillback 1 . . 41623 10825 41623 10825 Bigmouth buffalo 1 . . 7794 4521 7794 4521 Rockbass 1 . . 2366 2108 2366 2108 Crappies 1 . . 562 1530 562 1530 Yellow perch 1 4 8 33453 73931 33457 73939 Yellow perch 4 2 0 . . 2 . Walleye 1 7052 11711 . . 7052 11711 Walleye 4 608 0 . . 608 . ============================================================================== Totals 1922370 1086216 2112454 2029446 4034824 3115662 TOTALS BY CATCH CLASS ====================== Human Food 1 1641136 1086216 2112454 2029446 3753590 3115662 No Sale 4 281234 0 . . 281234 . 15:59 Thursday, April 19, 2007 4 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE ERIE, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ================================================================================================================== Michigan Ohio Pennsylvania New York Totals Catch =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ================================================================================================================== Gizzard shad 1 14910 2237 219800 2199 . . . . 234710 4436 Brown bullhead 1 5495 1977 17012 4277 868 1073 . . 23375 7327 Channel catfish 1 15657 7203 310115 124038 880 1040 . . 326652 132281 Burbot 1 . . 363 91 2238 2380 115 519 2716 2990 Burbot 4 . . . . . . 551 . 551 . White perch 1 . . 428822 170786 3824 6766 . . 432646 177552 White perch 4 . . . . . . 1 . 1 . White bass 1 1338 896 347657 253163 154 275 . . 349149 254334 White bass 4 . . . . . . 3 . 3 . Freshwater drum 1 331 53 438589 59073 3055 2596 . . 441975 61722 Lake whitefish 1 . . 4613 4613 563 1410 . . 5176 6023 Suckers 1 2390 264 41763 5013 5572 4737 1 . 49726 10014 Suckers 4 . . . . . . 23 . 23 . Goldfish 1 78333 34467 35396 7078 . . . . 113729 41545 Carp 1 319700 57550 340399 51094 210 178 . . 660309 108822 Quillback 1 1600 416 263818 18751 . . . . 265418 19167 Bigmouth buffalo 1 96621 56043 230426 106202 . . . . 327047 162245 Minnows 1 . . . . 2119 8476 . . 2119 8476 Rockbass 1 . . . . . . 2 . 2 . Rockbass 4 . . . . . . 22 . 22 . Yellow perch 1 . . 1563200 3362044 15228 53889 7726 9667 1586154 3425600 Walleye 1 . . . . 830 2396 . . 830 2396 ================================================================================================================== Totals 536375 161106 4241973 4168422 35541 85216 8444 10186 4822333 4424930 TOTALS BY CATCH CLASS ====================== Human Food 1 536375 161106 4241973 4168422 35541 85216 7844 10186 4821733 4424930 No Sale 4 . . . . . . 600 . 600 . 15:59 Thursday, April 19, 2007 5 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE ONTARIO, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ========================================== New York Catch =============== Species Class pounds dollars ========================================== Brown bullhead 1 1040 2079 Yellow perch 1 6354 9511 ========================================== Totals 7394 11590 TOTALS BY CATCH CLASS ====================== Human Food 1 7394 11590 15:59 Thursday, April 19, 2007 6 DISPOSITION SUMMARY OF THE U.S. COMMERCIAL CATCH FOR FOOD AND INDUSTRIAL PURPOSES Region-Great Lakes Year-2005 All States Combined ================================================================================================== Human Food No Sale Animal Food Bait Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species pounds dollars pounds dollars pounds dollars pounds dollars ================================================================================================== Alewifes . . . . 43 4 . . Buffalofish 335 167 . . . . . . Bullheads 25 10 0 . . . . . Burbot 18 8 1 . . . . . Carps 693 115 2 . . . . . Catfish 447 187 0 . . . . . Chubs 1836 1308 8 . . . . . Crappie 1 2 . . . . . . Gizzard shad 250 7 . . . . . . Goldfish 114 42 . . . . . . Lake herring 483 240 4 . . . . . Lake trout 444 168 40 . . . . . Minnows (hitch) shiners 2 8 . . . . . . Quillback 307 30 . . . . . . Rockbass, Freshwater 2 2 0 . . . . . Salmon, Silver or Coho 95 47 74 . . . . . Sheepshead, Freshwater 522 74 2 . . . . . Smelt, Great Lakes 688 348 2 . . . . . Suckers 108 16 0 . . . . . White bass, Freshwater 351 255 0 . . . . . Whitefish, Common 8520 6754 836 . . . . . Whitefish, Menominee 20 11 11 . . . . . White perch 440 181 0 . . . . . Yellow Perch 1650 3562 0 . . . . . Yellow pike (Walleye) 16 29 14 . . . . . ================================================================================================== Totals 17365 13571 994 . 43 4 . . Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 7 FRESHWATER FISH LANDINGS BY STATE Region-Great Lakes Year-2005 Commercial and Indian Catch ========================================================================================================================== Minnesota Wisconsin Illinois Indiana Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species Code pounds dollars pounds dollars pounds dollars pounds dollars ========================================================================================================================== Alewifes 10 . . 43 4 . . . . Buffalofish 420 . . . . . . . . Bullheads 450 . . 0 . . . . . Burbot 480 0 0 14 5 . . . . Carps 630 . . . . . . . . Catfish 660 . . 0 . . . . . Chubs 720 0 0 1641 1113 . . . . Crappie 840 . . . . . . . . Gizzard shad 1340 . . . . . . . . Goldfish 1360 . . . . . . . . Lake herring 1681 301 175 175 63 . . . . Lake trout 2000 . . 77 33 . . . . Minnows (hitch) shiners 2230 . . . . . . . . Quillback 2810 . . . . . . . . Rockbass, Freshwater 2900 . . . . . . . . Salmon, Silver or Coho 3084 . . . . . . . . Sheepshead, Freshwater 3530 . . . . . . . . Smelt, Great Lakes 3711 8 3 431 220 . . . . Suckers 4230 0 0 1 0 . . . . White bass, Freshwater 5000 . . 0 0 . . . . Whitefish, Common 5031 . . 2042 1655 . . . . Whitefish, Menominee 5035 . . 2 1 . . . . White perch 5060 . . 1 1 . . . . Yellow Perch 5170 . . 22 51 . . . . Yellow pike (Walleye) 5190 . . . . . . . . ========================================================================================================================== Totals 308 178 4449 3145 . . . . Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 8 FRESHWATER FISH LANDINGS BY STATE Region-Great Lakes Year-2005 Commercial and Indian Catch ========================================================================================================================== Michigan Ohio Pennsylvania New York Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species Code pounds dollars pounds dollars pounds dollars pounds dollars ========================================================================================================================== Alewifes 10 . . . . . . . . Buffalofish 420 104 61 230 106 . . . . Bullheads 450 6 2 17 4 1 1 1 2 Burbot 480 2 0 0 0 2 2 1 1 Carps 630 355 63 340 51 0 0 . . Catfish 660 136 62 310 124 1 1 . . Chubs 720 203 195 . . . . . . Crappie 840 1 2 . . . . . . Gizzard shad 1340 30 4 220 2 . . . . Goldfish 1360 78 34 35 7 . . . . Lake herring 1681 12 3 . . . . . . Lake trout 2000 407 135 . . . . . . Minnows (hitch) shiners 2230 . . . . 2 8 . . Quillback 2810 43 11 264 19 . . . . Rockbass, Freshwater 2900 2 2 . . . . 0 . Salmon, Silver or Coho 3084 169 47 . . . . . . Sheepshead, Freshwater 3530 82 13 439 59 3 3 . . Smelt, Great Lakes 3711 251 125 . . . . . . Suckers 4230 59 7 42 5 6 5 0 . White bass, Freshwater 5000 3 2 348 253 0 0 0 . Whitefish, Common 5031 7309 5093 5 5 1 1 . . Whitefish, Menominee 5035 29 10 . . . . . . White perch 5060 6 3 429 171 4 7 0 . Yellow Perch 5170 35 77 1563 3362 15 54 14 19 Yellow pike (Walleye) 5190 29 27 . . 1 2 . . ========================================================================================================================== Totals 9351 5977 4242 4168 36 85 16 22 Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 9 DISPOSITION OF DOMESTIC CATCH OF FRESHWATER FISH BY MONTH Region-Great Lakes Year-2005 Commercial and Indian Catch ==================================================================================================================================== Month State Disposition Minnesota Wisconsin Illinois Indiana Michigan Ohio Pennsylvania New York Total <-- Thousand pounds --> ==================================================================================================================================== January Food . 409 . . 79 . 0 . 488 Industrial . 1 . . . . . . 1 February Food . 363 . . 69 . . . 431 Industrial . 1 . . . . . . 1 March Food 0 246 . . 141 173 . . 560 Industrial . 2 . . . . . . 2 April Food 15 327 . . 838 873 3 0 2056 Industrial . 9 . . . . . . 9 May Food 13 538 . . 1080 1921 5 3 3560 June Food 16 275 . . 1074 336 4 3 1707 July Food 23 347 . . 1014 77 4 8 1472 August Food 34 307 . . 1015 86 6 0 1449 September Food 20 315 . . 926 321 6 0 1588 October Food 142 540 . . 1421 257 7 0 2368 November Food 41 354 . . 393 197 1 . 987 Industrial . 31 . . . . . . 31 December Food 4 385 . . 307 1 0 . 697 Industrial . 0 . . . . . . 0 ==================================================================================================================================== Sub-Totals Food 308 4406 . . 8358 4242 36 15 17365 Industrial . 43 . . . . . . 43 ==================================================================================================================================== Totals 308 4449 . . 8358 4242 36 15 17408 Figures are rounded to nearest 1000 pounds. Zero values indicate less than 500 pounds. . values indicate no catch.	en
markdown	477201	# Presentation: 477201 ## Large Searchesat CDF, Tevatron - Tracey Pratt - Liverpool University - Extra Dimensional models - Tevatron and the CDF detector - Run I & Run II searches - Future reaches at the Tevatron - Questions - Conclusions and outlook - Extra Dimension - March 2003 ## Extra dimensional solutions to the hierarchy problem (MEW << MPlanck?) - Many large extra dimensions (n=2-7) - gravity freely propagates in the ED - Taking the compact space to be very large - Curvature of the extra dimension - 1 highly curved extra dimension - gravity localised in the ED - Scale of physical phenomena on the TeV-brane is specified by the exponential warp factor: - = Mple-kRc - ~ TeV if kRc ~11-12. - Planck TeV brane - compactified - for n  2, Rc < 1 mm - Vn = 2Rcn - MPl(4+n) ~ 1 TeV - MPl2 = VnMPl(4+n)(2+n) -  requires Rc ~ 10(30/n –19) m To solve hierarchy * *choose - Torus - ADD - RS ## Searching for ED - Two classes of experimental tests - Graviton emission - and a photon or a jet recoiling against it, - Gravitons, do not interact with the detector, and radiate into the bulk appearing as missing energy: - jet + ET  + ET - Cross section depends on the number of extra dimensions - 2. Graviton exchange - Deviations in the cross section from SM predictions - _New Parameters _(Hewett formalism) - Ms - , dimensionless parameter, 1 - Since gravitons can propagate in the bulk, energy and momentum are not conserved in the GKK emission from the point of view of our 3+1 space-time - Since the spin 2 graviton in generally a has a bulk momentum component , its spin from the point of view of our brane can appear as 0, 1 or 2 - Gravitons, do not interact with the detector, and radiate into the bulk, appearing as missing energy: - jet + MET  + MET - Cross section depends on the number of ED - the collider signatures include single photons/Z/jets with missing ET or fermion/vector boson pair production - ADD - probe Kaluza-Klein gravitons (GKK) by: - Picture of cross-section for emission - Run I - M (GeV) 2) Graviton exchange: virtual contribution to the scattering processes - Deviations in cross sections and asymmetries of SM processes - e.g. qq-bar  l+l-,   - Or new processes e.g. gg  l+l-, - Cross section independent of the number of ED - in Hewett formalism - Gupta et. al. hep-ph/9904234 - s is the Planck scale in the extra dimensions -  is a dimensionless parameter of order  1 - =+1 - _New Parameter_ - Fundamental mass scale MD GN-1 = 8RnM2+nD , - where GN-1 Newton’s constant - _New Parameter_ - Fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD 1) Direct GKK emission in association with a vector-boson - _New Parameter_ - MD = MPl(4+n) ## Searching for ED - RS - (Add BRs here?!) - (Why not diphoton ?!!) - K/MPl - 6 - 700 GeV KK Graviton at the Tevatron - k/MPl = 1,0.7,0.5,0.3,0.2,0.1 from - top to bottom - Mll (GeV) - RS model - Dilepton channel - 400 600 800 1000 - Mll (GeV) - 10-2 - 10-4 - 10–6 - 10-8 - 10-2 - 10-4 - 10-6 - 10-8 - 10-10 - Tevatron 700 GeV KK graviton - d/dM (pb/GeV) - Massive eigenstates only suppressed by -1 ~ TeV-1 - RS modes can be excited individually on resonance - Via Virtual exchange - but different expected cross sections/distributions from ADD model Via virtual exchange - Davoudiasl, Hewett, Rizzo hep-ph0006041 - 1000 3000 5000 - 1 - 0.5 - 0.1 - 0.05 - 0.01 - 1 - 0.7 - 0.5 - 0.3 - 0.2 - 0.1 - KK excitations can be excited individually on resonance - The cleanest signature for graviton resonance production is an excess of events in the dilepton or dijet channel. - 1500 GeV GKK and subsequent tower states - K/MPl - LHC ## Tevatron pp collider - CDF - Run I (1992-1996) - L ~ 110 pb-1  s  1.8 TeV - Run II (2001-2006) - L ~ 2000 pb-1  s  2 TeV - Tevatron pp collider *Highest energy collider operating in the world!* - D0 - 20 x more events - Physics reach extended - 8 - and ability to set improved limits on new physics ## CDF at the Tevatron _CDF detector is essentially new, commissioned and now taking physics-quality data!_ - Improved sensitivity for leptons and photons - _Highlights of Upgrade_ - Improved trigger - Improved silicon tracker - Improved central outer tracker - New forward calorimeters - Extended muon coverage - Time of flight detector EM calorimeter timing (Summer 03) - Run I - Run II *Taking physics quality data since February 2002* ## CDF ED Searches Emission Channels -  + MET , jet+ MET Exchange - Diphoton, - Dielectron - and combined - ADD - RS - Dimuon - Dielectron - and combined - (Diphoton) - (Dijet) - (top pair, ## Run I GKK emission: Et - Run I GKK emission: Et - CDF 5725 Limits - n=4 MD > 0.55 TeV - n=6 MD > 0.58 TeV - n=8 MD > 0.60 TeV - The fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD - No signal is observed - L3 has set limit MS >1 TeV for n=2 (hep-ph0003306) Search Selection - - One  with ET > 55 GeV and \|\|<1 - - Missing ET > 45 GeV - - No jets with ET > 15 GeV - - No tracks with pT > 5 GeV Main backgrounds - Cosmic rays where muon undergoes a Bremsstrahlung in the calorimeter - Irreducible Z + - We (), W (),  (),jet-jet, -jet (+MEt) Results - Expected background: 11.0  2.3 - Observed: 11 - irreducible - 95 % C.L. ADD limits: - GN-1 = 8RnM2+nD - MD = 549, 581, 602 GeV - n=4,6,8 extra dimensions but no track is found - Other backgrounds: - W->e nu, where the e is misidentified as a photon - W -> where the charged lepton in a leptonic W decay is lost - Prompt photon-photon production where a photon is lost - Dijet - Photon+jet production - CR cuts are timing cuts - (No jets with ET > 15 GeV and No tracks with pT > 5 GeV) are to remove backgds from W and events in which mismeasurement of jet energy produces fake MEt - Events surviving cuts - 15,046 - 1,475 - 94 - 11 - PRD \| Cosmic ray muons \| 6.3  2.0 \| \| --- \| --- \| \| Z0+ \| 3.2  1.0 \| \| W e (““) \| 0.9  0.1 \| \| Prompt diphotons \| 0.4  0.1 \| \| W () \| 0.3  0.1 \| Main backgrounds - 87 pb-1 - Numbers don’t add due to rounding ## EM calorimeter timing - EM Calorimeters - Hadronic - Summer 2003 ! - Reducing the kinematic requirement would increase the signal by a factor of 2.8 - And decrease cosmic ray background ## Real GKK emission : jets+Et - CDF 5151 - Dashed lines for  from Pythia - Solid lines prediction from Giudice, Rattazi and Wells (hep-ph9811291) -  falls as 1/MDn+2 for all subprocesses - qq-bar  gG is larger for larger values of n, relative to the other sub-processes, - since (gggG) and (qggG) - depend on (m2/s)4 - Whereas (qq-bargG) depends on (m2/s)3 - This results in larger splittings at high values of MD between values of n for qg and gggG compared to qq-bargG. - For n=2 qq-bar is not the dominate process, but for n>2 then this is the dominate process \| Process MD = 1 TeV \| n(pb) Total) \| n(pb) Total) \| n(pb) Total) \| \| --- \| --- \| --- \| --- \| \| qq-bargGKK \| 4.1 (0.16) \| 1.6 (0.53) \| 0.70 (0.78) \| \| qggGKK \| 9.6 (0.38) \| 0.68 (0.22) \| 0.096 (0.11) \| \| qggGKK \| 11.4 (0.45) \| 0.77 (0.25) \| 0.11 (0.12) \| \| Total \| 25.2 \| 3.05 \| 0.90 \| - Tevatron s=2 TeV MD = 1.2 TeV - n=4 - n=2 - pTmin (GeV) ## Run Ib GKK emission: jets+ET - CDF 5151 - The fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD - Compare to LEP and Delphi results?- in the paper (for that time) Search Selection - Jet ET1st 80 GeV, \|\| <1.1 and ET>80 GeV - a second jet is allowed if ET2nd > 30 GeV - no isolated tracks in event (pT10 GeV) Main background Z()+jets, W()+jets. - L3 gives limit Ms > 600 GeV hepph0003306 - pp  jet +MEt subprocesses: - qggG, qq-bargG and gggG. - Main bkgd from Z+jet +jet - LHC: qggG gives largest contribution \| \| MD (GeV) > \| \| \| \| --- \| --- \| --- \| --- \| \| n \| CDF(K=1.0) \| D0(K=1.0) \| D0(K=1.34) \| \| 2 \| 995 \| 886 \| 987 \| \| 4 \| 768 \| 663 \| 728 \| \| 6 \| 707 \| 626 \| 646 \| *Best limits from the Tevatron from searches for direct graviton emission* - Run Ib GKK emission: jets+ET Results - Expected: 27416 Observed: 284 events. - Relative uncertainty on the signal acceptance 25 % Limits - 95 % C.L. upper limit on number of signal events: 62 - 84  4 pb-1 - Used Poilim (poisson statistics)  - Normalise bkgd predictions to Zee+jets data and use direct normalisation of W->enu+jets as a cross check - Allowing a 2nd jet: improves the signal eff. (2nd jet from ISR or FSR) And allows us to estimate the QCD bkgd using data. - No tracks; reduces bkgd from W+jets ## Predicted results for GKK emissionjet+ET \| n \| CDF Run I results (GeV) \| MD reach Run I (GeV) \| MD reach Run II >300pb-1 (GeV) \| MD reach LHC 100 fb-1 (TeV) \| \| --- \| --- \| --- \| --- \| --- \| \| 2 \| 995 \| 1100 \| 1400 \| 8.5 \| \| 3 \| \| 950 \| 1150 \| 6.8 \| \| 4 \| 768 \| 850 \| 1000 \| 5.8 \| \| 5 \| \| 700 \| 900 \| 5.0 \| - hep-ph 9811291 (1999) - Bounds obtained by requiring - Tevatron: signal>205 fb (for s=2 TeV) with the acceptance cuts \|jet\|<3 and EminT, jet = 150 GeV. - LHC: signal>2.6 fb (for s=14 TeV) with the acceptance cuts \|jet\|<3 and EminT, jet = 1 TeV. - and requiring signal significance S/B = 5, assuming bkgd cross-section known to within 10 % and requiring that the signal be more than 50 % of the background to have confidence of a discovery. - PRL 82,2236 (1999) - G. Giudice, R. Rattazzi, J. Wells - \|jet\|<1.1 and EminT, jet = 80 GeV - LHC with 300 times more data ## Virtual Graviton Exchange - Clean experimental signature. Low backgrounds - Diphoton Channel - gg initiated process - Interference term of gg-> between SM and KK is not in their gamgam searches in Run I, they take this a a systematic uncert, however , interference of qq-bar term is in the MC and gg interference term about 0.1* qq-bar interference term (CDF5694) - Dilepton Channel - qq-bar and gg ->  : gg process contributes about 30 % of the cross-section - Extra Dimensions - Standard Model + + + ## Fit method used - (Comment on ang distrib too ) - s is the Planck scale in the extra dimensions -  is a dimensionless parameter of order  1 - CDF 5892,5373 - KLED=1.3 - and to date (March 2002) has not been theoretically estimated. - A 3 parameter (nSM, nBG, ) unbinned likelihood function is used to extract  - 103 - 102 - 101 - 1 - 0 200 400 600 800 1000 1200 - M (GeV/c2) - events - Parameterise the cross section in terms of  = / s4  = SM + INT + 2 KK BG - A different choice of  and s4 would affect the templates’ relative and absolute normalisations, but not their shapes. - Shapes depend only on the general structure of the lagrangian and on the pdfs. ## CDF  Run I search for LED Search Selection - 2  with Et > 22 GeV, - CC or CP: central (\|\| < 1), plug (1<\|\| <2.4) Main backgrounds: fakes from -jet and jet-jet Results - Observed: 287 Central Central events - 192 Central Plug events Limits - Using a maximum likelihood fit method - CDF: M > 150 GeV 5 events are observed where 4.5 +/-0.6 were expected with luminosity 100 pb-1 , and a limit MS > 0.9 TeV for n=4 was obtained. (hepph0003306) - CDF5694 - MC distribution for the excluded signal shown here too - CC 100 pb-1, CP 87 pb-1 - Central - 2 separate analyses – CP and CC – - then combined to give: - Problems gg interference – - 95 % C.L. MS > 899 / 797 GeV KLED = 1.0 - ( = -1/+1, Hewett) - Mhighest = 288 GeV/c2 - Background falls off faster than signal. - In CC above 200 GeV: - Expect less than 0.2 events, as opposed to 2.5 SM  events ## CDF Run I ee search for LED - 2 high Et isolated electrons (> 25 GeV) (CC and CP) - ee and  CDF results cdf 5753 - 95 % C.L. MS > 826 / 905 GeV ( = +1/-1, Hewett) KLED = 1.0 - 95 % C.L. MS > 853 / 939 GeV ( = +1/-1, Hewett) KLED = 1.3 - KLED applies to the LED terms of the cross section, and to date (March 2002) has not been theoretically estimated. Therefore quote a SM-like K-factor result and also one where no loop corrections are assumed. - 95 % C.L. MS > 780 / 768 GeV ( = -1/+1, Hewett) KLED = 1.0 - 95 % C.L. MS > 826 / 808 GeV ( = -1/+1, Hewett) KLED = 1.3 - 2 separate analyses – CP and CC – then combined to give: - Highest energy event is 500 GeV - 110 7 pb-1 - NSMCP = 3883  292 (DY) - NBGCP = 224  71 - Observed 3825 - Main Backgrounds: Drell-Yan, QCD di-jet, diboson production, Z,tt-bar production - CDF 5892 - NSMCC = 3463  223 (DY) - 500 GeV - CC: 3319 - CP: 3825 ## CDF  + ee search for LED - Combine the likelihoods (cdf5753) - (Acounting for correlated and uncorrelated uncertainties) \| Channel \| 95 % C.L. MS (Hewett) \| \| \| \| \| --- \| --- \| --- \| --- \| --- \| \| \| KLED = 1.0 \| \| KLED = 1.3 \| \| \| \|  = -1 \|  = +1 \|  = -1 \|  = +1 \| \| ee \| 780 \| 768 \| 826 \| 808 \| \|  \| 899 \| 815 \| \| \| \| ee and  \| 905 \| 826 \| 939 \| 853 \| - Diphoton channel is more sensitive to LED than dielectrons, - because the LED production cross-section is higher - The LED dielectron analysis has a 500 GeV ee event which is more consistent with LED than the SM. - CDF5753 - CDF found that a 2 dimension fit in both invariant mass and angular distribution only gave a slight improvement over the 1-dimensional fit in their statistically limited samples. - as advocated by Cheung and Landsberg)hep-ph/9909218 - (D0 does not include the gg process, which cdf found increases the SM cross section by about 30 %) cdf 5373 ## Run II GKK exchange reaches - 2 fb-1 Run II dilepton data - (hep-ph 0006041) - Increased sensitivity to ADD model since can study angular distribution with more statistics - Compare to LEP? - Add Z’ table numbers - _ADD model_ - Run I (110 pb-1) ee +  Ms 1.0-1.4 TeV for n=7-2 - corresponds to R < 0.3 mm (n-2) and R < 2 fm (n=7) - Run II (2 fb-1) Ms 1.3-2.5 TeV for n=7-2 n = number of extra dimensions - HLZ notation: hep-ex 0008065 D0 results: ADD - Corresponds to R < 0.3 mm (n-2) and R < 2 fm (n=7) - D0 Collab. hep-ex 0008065 \| Run I, 0.13 fb-1 \| 2 fb-1 \| 20 fb-1 \| LHC, 100 fb-1 \| \| --- \| --- \| --- \| --- \| \| 1.3 TeV \| 1.9 TeV \| 2.6 TeV \| 9.9 TeV \| - 95 % C.L. sensitivity limits on Ms (n=4), from , ee,  channels - Using double differential cross-sections - Cheung hep-ph 0003306 \| Run I, 0.13 fb-1 \| Run IIa, 2 fb-1 \| Run IIb, 20 fb-1 \| LHC, 100 fb-1 \| \| --- \| --- \| --- \| --- \| \| 0.13 fb-1 \| 2 \| 20 \| 100 \| \| 1.3 TeV \| 1.9 \| 2.6 \| 9.9 \| - 95 % C.L. sensitivity limits on Ms (HLZ) - n=4 e+e- + +- +  - ADD - Using double differential cross-sections - Han, Lykken and Zhang Phys Rev D 59, 105006 (1999) - 2 fb-1 - 20 fb-1 ## CDF ED Searches Emission Channels -  + MET , jet+ MET Exchange - Diphoton, - Dielectron - and combined - ADD - RS - Dimuon - Dielectron - and combined - (Diphoton) - (Dijet) - (top pair, ## Initial Run II limits: ee,  - MZ‘ > 275 GeV/c2 - 16 pb-1 - No deviations from the SM observed - Limits set on one Z’ and RS model - Run 2  Graviton mass (GeV/c2) - pb-1 - initial results - Now updated - RS - CDF6080,6073 - ICHEP 2002 ## limits  72 pb-1 - limits  72 pb-1 - RS Search selection - 2 isolated  PT>20 GeV/c, \|\|<1 - Cosmic ray rejection cuts Results - Observed 775 events - Signal region above 150 GeV/c2 observed 4 events Limits - 95 % C.L. upper limit on number of signal events: 5.6 - K=1.3 - 208 GeV/c2 - CDF6344 ## Run II cosmic ray rejectionusing the Time-of-Flight detector - Run II cosmic ray rejectionusing the Time-of-Flight detector - Remove cosmic rays with a cut requiring Tupper – Tlower > -5 ns - Tupper – Tlower - ~ 2L/c for cosmic ray dimuons - ~ 0 for interaction dimuons ## Run II ee search 72 pb-1 - 371 GeV - RS Search selection - 2 isolated e (CC, CP) - ET>25 GeV Results - Observed: 4576 ee events - Above 200 GeV/c2 observed 27, expected 16  8 - Above 350 GeV/c2 observed 3, expected 1.1  0.3 - CDF6343 ## Run II ee search 72 pb-1 - ee better limits than in  channel, because - plug gives e a larger acceptance and a higher efficiency per event - Run II ee search 72 pb-1 - RS - 20 % rather than 50% - Total acceptance - Effic: for - ee CC:84% CP:69% - Mm: PP= 57%, XX 65%, PX 61% - CDF6343 - 95 % C.L. Excluded region - K=1.3 ## Run II ee +  search 72 pb-1 - Run II ee +  search 72 pb-1 - RS - 95 % C.L. Excluded region K=1.3 ## CDF model searches - Future: - Add more of the  detector acceptance - Use Run II dijet and diphoton searches to set RS limits - 25 - 55 - 0 - 42 - RS - \|\|<0.6 - \|\|<1 - \|\|<1.5 ## Run II dijet search at CDF - Inclusive Jet samples - 2 highest ET jets selected - Fit of the mass spectrum with a simple background parameterisation and search for bumps comparable with mass resolution *No significant evidence for a new particle* RS model dijet limits to be determined. Highest mass event 1364 GeV/c2 - ET=666 GeV (corr) - 583 GeV (raw) - =0.31 (detector) - =0.43 (correct z) - ET=633 GeV (corr) - 546 GeV (raw) - =-0.30 (detector) - =-0.19 (correct z) - z vertex = - 25 cm - J1 ET = 666 GeV (corr) - 583 GeV (raw) - J1  = 0.31 (detector) - = 0.43 (correct z) - J2 ET = 633 GeV (corr) - 546 GeV (raw) - J2  = -0.30 (detector) - = -0.19 (correct z) - z -  - CDF6248 - MET/ET<6 and E<2.2 TeV ## Run II diphoton search Results - Highest mass event is: 168 GeV/c2 - Above 150 GeV/c2: Observed 2 events - Expected 3.3 events Search selection - Isolated  with ET > 13 GeV, \|\| < 0.9 - No 3D tracks pointing to em cluster - Bins are 20 % of mass - 71% from jets (loose cuts) + 29% from MC No excess observed at high invariant mass Main backgrounds - fakes from -jet and jet-jet, - where jet fragments into a hard 0 - CDF6312 ## constraints - Davoudiasl, Hewett, Rizzo hep-ph 0006041 - constraints - RS - m1 (GeV) - 0.20 - 0.10 - 0.07 - 0.05 - 0.03 - 0.02 - 0.01 - 1000 2000 3000 4000 5000 - Allowed Region - Sridhar hep-ph 0103055 - m1 : - 700-1150 GeV ## Outstanding Questions - K factor: - ADD CDF ee+  use KLED = 1.0 and 1.3 - “They place a KLED on the LED terms of the production cross-section: 1.0 for no loop corrections and a SM-like 1.3 for two independent cases.” (cdf 5753) - used to correct the LO cross-section to NLO: ? ? - Should K=1.3 apply to the non-QCD process of graviton exchange? - KLED applies to the LED terms of the cross section, to estimate the effect of non-leading orders in LED. - CDF 5373 - No interference between the gg SM and KK terms included in their Pythia input - this has been included into the systematics - This inference is relatively small compared to the direct KK terms, and has quite a complex analytic form. Has been computed by Eboli et al (hep-ph/9908358) - qg-> gam gam is about 30 % of the cross section of qq-bar -> gam gam - Is ADD model graviton exchange in Pythia ? - MC program by Ulrich Baur, but no interference between the SM gg box diagrams and the tree-level gg graph - Has been calculated by Eboli et al (hep-ph/9908358) Included as a systematic uncertainty (_Sys_INT) at present (_Sys_INT = 34 % _Sys_Total for=-1, 43 % for =+1) - (including K=1.3 increases sensitivity by about 30 GeV in exchange processes) - Not clear, since the NLO processes including gravitons are quite different than the QCD processes (e.g. gg box diagram) that enhance SM photon production. - Reasonable to multiply the qq by 1.3, but also for interference (INT) and direct signal (KK) processes? - Interference term of gg-> between SM and KK is not in their gamgam searches in Run I, they take this a a systematic uncert, however , interference of qq-bar term is in the MC and gg interference term about 0.1* qq-bar interference term (CDF5694) - Get Syst Uncert by varying the qq-bar interference cross-section by +/-100 % ,this is an over estimate. cdf5658 ## Conclusions and outlook - Searches performed in several channels at CDF - No evidence of deviations from Standard Model expectation observed - Best limits obtained - ADD jets+ET, ee +  ~ 1 TeV - RS ee +  m1 ~ 365 to 550 GeV for k/MPl 0.05 to 0.1 - Tevatron Run II has successfully started, the first CDF Run II results already determined and .. to be updated in the future... - Tevatron Run IIa (2 fb-1) has a promising observation potential and should be in a position to discover ED, if they exist, - ADD: up to about MS = 2 TeV - RS: m1 from 0.5 to 1 TeV for k/MPl 0.01 to 0.1 - The highest limits obtained are from the channel. - Many interesting channels to look in. - Run II results already coming in - To be updated in the future... - ADD ee +  939 (853) GeV for =-1 (+1), KLED = 1.3 - ADD jets+ET 995 for n=2, 768 for n=4 - RS ee 205 to 535 GeV for k/MPl 0.025 to 0.1 - Tevatron Run II has a promising observation potential and should be in a position to discover ED, if they exist, - ADD: up to about MS = 2 to 3 TeV (Runs IIa, 2 fb-1; IIb, 20 fb-1) - RS: m1 from 0.5 to 1 TeV for k/MPl 0.01 to 0.1 (Run IIa, 2 fb-1) ## THE END! ## Jets+MEt \| Process MD = 1 TeV \| n(pb) Total) \| n(pb) Total) \| n(pb) Total) \| \| --- \| --- \| --- \| --- \| \| qq-bargGKK \| 4.1 (0.16) \| 1.6 (0.53) \| 0.70 (0.78) \| \| qggGKK \| 9.6 (0.38) \| 0.68 (0.22) \| 0.096 (0.11) \| \| qggGKK \| 11.4 (0.45) \| 0.77 (0.25) \| 0.11 (0.12) \| \| Total \| 25.2 \| 3.05 \| 0.90 \| - cdf5151 ## CDF ll/ LED search method - ee and  CDF results cdf 5753 - 95 % C.L. MS > 826 / 905 GeV ( = +1/-1, Hewett) KLED = 1.0 - 95 % C.L. MS > 853 / 939 GeV ( = +1/-1, Hewett) KLED = 1.3 - 110 pb-1+/- 7 Run I - NSMCC = 3463  223 - NSMCP = 3883  292 - NBGCP = 224  71 - The CC BG is negligible. - Observed: - CC: 3319, CP: 3825 - 1) Scan through , and at each point, reminimise L w.r.t nSM and nBG. - 2) Plot L - 3) 95 % C.L. result is the value of  such that 95 % of area under the likelihood function lies between it and 0. - L = 1 e – ADD Equation! Page 15 cdf 5892 - 2SM2 - nLED() is the fitted number of events attributable to LED physics - 3 parameter unbinned likelihood function: nSM, nBG =/MS4 - Bayesian gaussian prior on nSM events - Bayesian gaussian prior on nBG events - Poisson constraint on total number of events - Term to weight events according to its consistency with the SM, SM-LED interference, direct KK shapes, and BG shapes - CDF 5892,5373 ## Tevatron ## Dimuon acceptance ## Diphoton constraints - hep-ph 0103055 - Diphoton production at Tevatron Run II - sensitive to mass of first KK graviton resonance - (m1) : 700-1150 GeV - ADD K factor for both and ref and add bin sizes - And know method – xhi Squ !? - LHC: can probe first graviton excitation up to ~ 3.5-5.5 TeV - For K/MPl 0.01 to 0.1 95 % C.L. m0 Tevatron: 180-290 GeV - implies mass of first KK graviton resonance must lie above 700 GeV - 200 220 240 260 280 - m0 (GeV) - K/MPl - 0.1 - 0.08 - 0.06 - 0.04 - 0.02 - s = 2 TeV - L = 2fb-1 - 95 % C.L. - 95 % C.L. - m1 : 700-1150 GeV - m1 : 3.5-5.5 TeV Tevatron LHC** - RS	en
converted_docs	281229	VIII.3.3-DHM-OP DISTRIBUTED HYDROLOGIC MODELING OPERATION [`Identifier`]{.underline}`: DHM-OP` [`Operation Number`]{.underline}`: 64` [`Developed by`]{.underline}`:`` `` `` HSEB, Office of Hydrologic Development` [`Array Entries`]{.underline}`:`` `` ``This Operation uses the P array to pass information on the upstream and/or outlet basins and time series. The T array is used to pass information about the specified time series. A single carryover value is defined, but not used. ` [`Parameter Array`]{.underline}`: The FORTRAN identifier used for the parameter array is ``PO``. The contents of the ``PO`` array are:` [Position]{.underline} [Contents]{.underline} 1 Operation version number 2-3 Time series identifier 4 Time series data type code 5 Time series data time interval 6-7 Basin ID identifier 8-9 Time series identifier 10 Time series data type code 11 Time series data time interval 12-13 Basin ID identifier 14 Inflow flag identifier. If flag = -1, PO(2)to PO(7) contains information for OUTLET: header type,and PO(8) to PO(13) contain dummy values. If flag = 1, PO(8) to PO(13) contains information for INFLOW: header type. [Carryover Array]{.underline}: The FORTRAN identifier used for the carryover array is CO. The contents of the CO array are as follows: [Position]{.underline} [Contents]{.underline} 1 value of 1 (hard-coded) [T Array]{.underline}: The contents of the T array are as follows: [Position]{.underline} [Contents]{.underline} 1 Operation number 2 Location of the next Operation in the T array 3 Location of the parameters in the P array 4 Location of the time series data in the D array 5 Location of the output time series data in the T array 6 Location of the input time series data in the T array [Subroutines Names and Functions]{.underline}: The subroutines associated with this Operation are: [Subroutine]{.underline} [Function]{.underline} PIN64 Input cards, makes checks and stores values in PO and CO arrays TAB64 Makes Operation Table entries PRP64 Print parametric data PUC64 Output cards in the format which can be read by routine PIN64 EX64 Execute the Operation Subroutines PIN64, PRP64 and PUC64 have the standard argument lists for these subroutines as given in Section VIII.4.3. SUBROUTINE PIN64(PO,LEFTP,IUSEP,CO,LEFTC,IUSEC) [Function]{.underline}: This is the input routine for Operation DHM-OP. This routine fills the P array. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output]{.underline} [Type]{.underline} [Dimension]{.underline} [Description]{.underline} PO Output I\4 Variable Array beginning at the portion of P array used by this Operation LEFTP Input I\4 1 Space available in P for storage by PO IUSEP Output I\4 1 Amount of space used by PO CO Output R\4 1 real array dimensioned CO(\) which is used to store the initial values of the state variables LEFTC Input I\4 1 maximum amount of space available for the CO array IUSEC Input I\4 1 number of words of storage used for the CO array SUBROUTINE TAB64 (OpArray,LEFT,IUSET,NXT,LPO,PO,LCO,TS,MTS,LWORK,IDT) [Function]{.underline}: This is the Operations Table entry subroutine for DHM-OP. [Argument List]{.underline}: The arguments are similar to the arguments for the Operations Table entry subroutines for other Operations. A description of the arguments is in Section VIII.4.2-TAB. [Operations Table Array]{.underline}: The contents of the OpArray array are: [Position]{.underline} [Contents]{.underline} 1 Operation number 2 The location in the T array of the next Operation to be executed 3 Location of the PO array in the P array 4 Location of the CO array in the C array: 0 = carryover not needed 5 Location the output time series in the T array 6 Location of the input time series in the T array SUBROUTINE PRP64 (PO) [Function]{.underline}: This routine prints information about the time series that is to be set by Operation DHM-OP. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output Type Dimension]{.underline} [Description]{.underline} PO Input R\4 Variable Contains information for the time series to be set SUBROUTINE PUC64 (PO) [Function]{.underline}: This is the card punch routine for Operation DHM-OP. This routine punches the time series identifiers in the same format as the input card for the Operation. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output Type Dimension]{.underline} [Description]{.underline} PO Input R\4 Variable Contains information for the time series to be set SUBROUTINE EX64 (PO,CO,outputDarray,inputDarray) [Function]{.underline}: This is the execution subroutine for the Operation DHM-OP. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output]{.underline} [Type]{.underline} [Dimension]{.underline} [Description]{.underline} PO Input R\4 20 Parameter array CO Input R\4 1 Carryover array outputDarray Output R\4 1 output time series in the D array InputDarray Input R\*4 1 Input time series in the D array	en
all-txt-docs	235146	ERNESTO J. BENEVENTO, ERNEST A. BENEVENTO, AND CARMINE LOIACONO, PETITIONERS V. UNITED STATES OF AMERICA No. 87-1674 In the Supreme Court of the United States October Term, 1987 On Petition for a Writ of Certiorari to the United States Court of Appeals for the Second Circuit Brief for the United States in Opposition TABLE OF CONTENTS Questions Presented Opinions below Jurisdiction Statement Argument Conclusion OPINIONS BELOW The opinion of the court of appeals (Pet. App. 20a-47a) is reported at 836 F.2d 60. the opinion of the district court (Pet. App. 1a-19a) is reported at 649 F. Supp. 1379. JURISDICTION The judgment of the court of appeals was entered on December 18, 1987. A petition for rehearing was denied on February 8, 1988. The petition for a writ of certiorari was filed on April 8, 1988. This Court's jurisdiction is invoked under 28 U.S.C. 1254(l). QUESTIONS PRESENTED 1. Whether evidence seized in violation of 31 U.S.C. (Supp. III) 5317(b) must be excluded at trial. 2. Whether the trial court correctly found that the warrants to search the Beneventos' homes were valid under Franks v. Delaware, 438 U.S. 154 (1978). 3. Whether the district court erred in declining to hold a hearing to determine whether the warrants were valid under Franks v. Delaware. 4. Whether a conspiracy charge may constitute a predicate act for a substantive RICO violation under 18 U.S.C. 1962(c). STATEMENT After a jury trial in the United States District Court for the Southern District of New York, all three petitioners were convicted of conspiring to manufacture and distribute heroin (Count 1), in violation of 21 U.S.C. 846; participating in a racketeering enterprise through a pattern of racketeering activity (Count 4), in violation of 18 U.S.C. 1962(c); and conspiring to conduct and participate in the affairs of the racketeering enterprise (Count 5), in violation of 18 U.S.C. 1962(d). In addition, petitioners Ernesto J. Benevento and Ernest A. Benevento were convicted of interstate travel in aid of racketeering (Count 2), in violation of 18 U.S.C. 1952; and conducting a continuing criminal enterprise (Count 6), in violation of 21 U.S.C. 848. Ernesto J. Benevento was also convicted on a second count of interstate travel in aid of racketeering (Count 3), in violation of 18 U.S.C. 1952. Ernesto J. Benevento was sentenced to concurrent terms of 25 years' imprisonment on Counts 1 and 6; 20 years' imprisonment on Counts 4 and 5; and five years' imprisonment on Counts 2 and 3. The district court also imposed a total of $500,000 in fines on Counts 1 and 2. Ernest A. Benevento was sentenced to concurrent terms of 18 years' imprisonment on Counts 1, 4, 5, and 6; and five years' imprisonment on Count 2. In addition, the district court imposed a total of $250,000 in fines on Counts 1 and 4. Carmine Loiacono was sentenced to concurrent terms of 15 years' imprisonment on Counts 1, 4, and 5, and he was fined $100,000 on Count 1. The court of appeals affirmed (Pet. App. 20a-47a). 1. The evidence at trial, the sufficiency of which is not in dispute, is summarized in the opinion of the court of appeals. It showed that petitioners and co-defendant Earl Keller, together with their associates in the United States, Mexico, and Europe, formed a company known as the J.E.M. Corporation for the purpose of manufacturing and distributing heroin in the United States. During the first phase of their operations, petitioners Ernesto J. Benevento and Loiacono purchased 300 kilograms of morphine overseas and imported it into West Palm Beach, Florida. Petitioners then transported the morphine to a house in Chandler, Arizona, owned by Ernesto's uncle, petitioner Ernest A. Benevento. There, the morphine was converted into heroin and later distributed. From July 1984 to March 1985, J.E.M. Corporation sold approximately 146 kilograms of heroin for a gross profit of about $23 million. Pet. App. 23a-25a. Following its initial venture, J.E.M. Corporation began a second, similar venture known as "Project 2." To facilitate the overseas aspects of that transaction, J.E.M. arranged to smuggle currency out of the country by using one of the company's associates, Fatima dos Santos Nobre, as a courier. By that time, however, the Drug Enforcement Administration (DEA) had become aware of J.E.M.'s operations and had begun to maintain surveillance of Nobre during her trips out of the country. Pet. App. 25a. In March 1985, after Nobre had checked in a Miami International Airport, DEA agents seized her luggage and searched it. Inside, the agents found $400,000 in currency for which Nobre had not filed a currency declaration. The agents seized the currency, but to avoid arousing Nobre's suspicions, they marked the luggage to create the appearance that someone had tampered with it. The agents then permitted the luggage to be transported to Switzerland. Pet. App. 25a-26a. In May 1985, Nobre returned to the United States and met with Ernesto J. Benevento at a hotel in New York City. Benevento gave Nobre several hundred thousand dollars in currency and, under DEA surveillance, drove her to John F. Kennedy International Airport in New York. After Nobre checked her baggage on a SwissAir flight to Switzerland, DEA agents opened the baggage and photographed the contents. The agents, however, did not seize the money at that time. Pet. App. 26a. On June 3, 1985, J.E.M. attempted to make a third transfer of currency overseas. The Beneventos arrived at Kennedy Airport and checked their luggage on a SwissAir flight to Geneva, Switzerland. A SwissAir employee, however, recognized Ernesto J. Benevento as the man who had accompanied Nobre during her trip the month before. SwissAir officials alerted a Customs agent, who seized the luggage and searched it. Inside, the agent found $956,000 in cash. When the Beneventos boarded the flight without filing an outbound currency declaration, they were arrested. Pet. App. 26a-27a, 32a-33a. Following their arrest, the Beneventos remained free on bail. On June 4, 1986, a magistrate in the Southern District of Florida issued warrants to search the Beneventos' residences. In support of the search warrants, the government submitted affidavits that detailed petitioners' narcotics transactions and explained that records pertaining to those transactions would probably be found in the Beneventos' residences. Agents thereafter executed the searches and seized computer software that revealed evidence of petitioners' narcotics activities. Pet. App. 7a-8a, 27a, 38a; Pet. 11. 2. Prior to trial, the Beneventos moved to suppress the $956,000 in cash seized from their luggage at Kennedy Airport, as well as the evidence seized from their residences. The district court denied both motions (Pet. App. 3a-10a). The district court first held that the search of petitioners' luggage fell within the "border search exception" to the Fourth Amendment and was therefore constitutional (id. at 3a). It also rejected (id. at 3a-6a) the contention that the evidence should be excluded under 31 U.S.C. (Supp. III) 5317(b), finding "no evidence in either the language or the legislative history of Section 5317(b) to suggest that Congress, in enacting the provision in 1984, intended that an exclusionary remedy be applied to illegally seized evidence" (Pet. App. 5a (footnote omitted)). Next, the district court rejected (id. at 6a-10a) petitioners' contention that the affidavits submitted in support of the warrants to search the Beneventos' residences contained false statements, in violation of Franks v. Delaware, 438 U.S. 154 (1978). Petitioners had argued that the affidavits misleadingly failed to disclose the fact that the government had uncovered no additional criminal activities by the Beneventos between June 3, 1985 (the date of their arrest), and May 28, 1986 (the date of the search warrants). The court held that "(t)he absence of a statement that there was no evidence of continuing criminal activity has no bearing on whether evidence of past crimes might still exist" (Pet. App. 9a). 3. The court of appeals affirmed in part, reversed in part, and vacated in part (Pet. App. 20a-47a). /1/ The court first upheld (id. at 32a-38a) the district court's decision denying the Beneventos' motion to suppress the currency seized from their luggage. The court agreed (id. at 34a-37a) that under 31 U.S.C. (Supp. III) 5317(b) the luggage search was not supported by a "reasonable suspicion." It concluded (Pet. App. 37a-38a), however, that evidence seized in violation of Section 5317(b) need not be suppressed. The court of appeals explained (Pet. App. 37a) that "there is nothing in the legislative history of Section 5317(b) indicating that Congress intended an exclusionary remedy for violations of the statute." The court noted that where Congress has intended to have evidence suppressed because of a statutory violation, it has expressly provided for suppression as a remedy (ibid.). The court also noted (ibid. (citation omitted)) that implying an exclusionary remedy for violations of Section 5317(b) would "'weaken the manifest purpose of the statute'" which was "to bestow greater powers on federal agents to prevent drug traffickers from engaging in currency smuggling." The court of appeals next upheld (Pet. App. 38a-40a) the district court's order denying the Beneventos' motion to suppress the evidence seized from their homes. The court rejected the claim that it was a material falsehood to omit from the affidavits the fact that the agents had found no evidence of criminal activity between the date of petitioners' arrest in June 1985 and the date of the warrants. The court explained (id. at 39a) that "this claimed 'omission' was in fact not an omission at all" because the affidavits had clearly stated that the petitioners' criminal activity occurred prior to June 3, 1985, and did not claim that there had been any criminal activity at petitioners' residences since that date. The court of appeals also upheld the district court's finding that the affidavits established probable cause to conduct the searches (id. at 39a-40a). /2/ Finally, the court of appeals rejected (Pet. App. 42a-44a) petitioner Loiacono's contention that a conspiracy charge cannot serve as a predicate act for a substantive RICO conviction. Following circuit precedent, the court upheld Loiacono's RICO conviction because "(c)onspiracies to violate the narcotics laws, if proven, are properly chargeable as predicate acts" (id. at 43a). ARGUMENT 1. Petitioners Ernesto J. Benevento and Ernest A. Benevento first contend (Pet. 12-13) that the court of appeals' refusal to imply an exclusionary rule under 31 U.S.C. (Supp. III) 5317(b) conflicts with the Eleventh Circuit's decision in United States v. Chemaly, 741 F.2d 1346 (1984), reinstated, 764 F.2d 747 (1985) (en banc). There is, however, no clear conflict between the cases. Moreover, a recent amendment to Section 5317(b) deprives the statutory issue of any continuing importance. And in any event, the admission of the evidence seized from the Beneventos' luggage was entirely harmless. Further review is therefore unwarranted. a. At the time of the search of the Beneventos' luggage, Section 5317(b) provided that a Customs officer may conduct a search for currency only where there is "reasonable cause" to believe that evidence of a currency violation will be found. /3/ The issue in the Chemaly case was whether Customs agents violated 31 U.S.C. (1976 ed.) 1105 -- the predecessor to Section 5317(b) -- when they failed to obtain a warrant prior to conducting a currency search of a person departing the United States. /4/ The court of appeals concluded that evidence seized without a warrant under Section 1105 must be suppressed (741 F.2d at 1349-1354). The search of the Beneventos' luggage, however, was governed by 31 U.S.C. (Supp. III) 5317(b), not Section 1105. As the district court noted (Pet. App. 6a), Section 5317(b) was enacted in 1984 with "the express purpose of * * * reduc(ing) the barriers to conducting currency searches." The 1984 provision abandoned the warrant requirement of Section 1105 entirely, and in place of the probable cause standard in Section 1105 the new provision required that currency searches at the border be based on no more than "reasonable cause to believe there is a monetary instrument being transported (illegally)." As both the district court (Pet. App. 5a) and the court of appeals (id. at 37a) found, there is nothing in either the language or legislative history of the 1984 amendment to suggest that Congress intended that evidence seized in violation of Section 5317(b) be subject to an exclusionary rule. b. In any event, the question whether an exclusionary rule applies to evidence seized in violation of Section 5317(b) is no longer of any continuing importance. The Anti-Drug Abuse Act of 1986, Pub. L. No. 99-570, Tit. I, Section 1355, 100 Stat. 3207-22, has amended Section 5317(b) to authorize Customs agents to conduct currency searches at the border without a warrant and without reasonable cause. Because the new law deprives the statutory issue presented in the petition of any continuing significance, petitioners' claim does not warrant further review. c. Finally, even if suppression were the appropriate remedy for violations of former Section 5317(b), the admission of the evidence seized from the Beneventos' luggage was plainly harmless. As the court of appeals observed, (Pet. App. 28a), the evidence at trial "overwhelmingly established (petitioners') guilt of the crimes charged in the indictment." For example, "(t)he computer records obtained from Ernest A. Benevento's home substantially corroborated the government's witnesses' testimony and set out in detail the intricacies of J.E.M.'s international drug operations" (ibid.). The admission of the currency seized from the Beneventos' luggage therefore did not substantially affect the jury's verdict. United States v. Lane, 474 U.S. 438, 449-450 (1986); Kotteakos v. United States, 328 U.S. 750, 763-765 (1946). 2. Petitioners Ernesto J. Benevento and Ernest A. Benevento next contend (Pet. 14-20) that the warrants to search their homes were invalid under Franks v. Delaware, 438 U.S. 154 (1978). They assert that the affidavits in support of the warrants were based upon "half-truths" (Pet. 19), in that they failed to advise the magistrate that wiretaps installed on the Beneventos' home computer lines had failed to turn up any incriminating evidence since the date of their arrest. But as the district court (Pet. App. 9a-10a), affirmed by the court of appeals (id. at 39a), explained, petitioners' contention misconceives the allegations of the affidavits. the affidavits established probable cause to believe that evidence of petitioners' prior narcotics transactions would still be present in their residences. "(T)he absence of any statement that wiretaps on the Benevento's computer pulse lines failed to pick up incriminating evidence after June 3, 1985 cannot be considered a material omission." Id. at 9a. 3. Petitioners Ernesto J. Benevento and Ernest A. Benevento also contend (Pet. 21) that they were entitled to an evidentiary hearing under Franks v. Delaware, supra, to examine the magistrate about the circumstances under which certain handwritten interlineations were made on one of the affidavits for the search warrants. Petitioners contend that the magistrate's testimony would bear on the issue of the agents' "good faith" (Pet. 21). As the courts below concluded, however, the affidavits established probable cause for the searches; thus, the question whether the agents relied on the warrants in good faith was simply not presented, and the district court was not required to permit petitioners to call as a witness the magistrate who issued the warrants. 4. Finally, petitioner Carmine Loiacono contends (Pet. 22-24) that he was improperly convicted of a substantive RICO offense because the predicate acts with which he was charged were conspiracy offenses. It is well settled, however, that conspiracy charges may properly constitute predicate acts for a substantive RICO conviction. United States v. Manzella, 782 F.2d 533, 537-538 (5th Cir.), cert. denied, 476 U.S. 1123 (1986)); United States v. Licavoli, 725 F.2d 1040, 1044-1045 (6th Cir.), cert. denied, 467 U.S. 1252 (1984); Unites States v. Phillips, 664 F.2d 971, 1015 (5th Cir. 1981), cert. denied, 457 U.S. 1136 (1982); United States v. Weisman, 624 F.2d 1118, 1123-1124 (2d Cir.), cert. denied, 449 U.S. 871 (1980). Petitioner presents no conflict among the circuits on that issue, nor does he point to any language in the RICO statute that supports his contention. CONCLUSION The petition for a writ of certiorari should be denied. Respectfully submitted. CHARLES FRIED Solicitor General JOHN C. KEENEY Acting Assistant Attorney General JOSEPH C. WYDERKO Attorney MAY 1988 /1/ The court of appeals held that petitioner Ernest A. Benevento could not be held liable under an aiding and abetting theory for conducting a continuing criminal enterprise, and it therefore reversed his conviction on Count 6 (Pet. App. 40a-42a). In addition, because the narcotics conspiracy charged in Count 1 was a lesser included offense of the continuing criminal enterprise charged in Count 6, the court of appeals vacated petitioner Ernest A. Benevento's concurrent sentence on Count 1 and remanded for resentencing (id. at 46a-47a). /2/ In particular, the court of appeals found (Pet. App. 39a) that "(t)he affidavits filed by the government in support of its search warrant applications contained extensive testimony regarding the Beneventos' involvement in an international narcotics conspiracy and contained specific statements from the government's confidential informants that provided key details of various aspects of the narcotics conspiracy." The court also found (id. at 39a-40a) a sufficient basis to believe that evidence of the narcotics conspiracy would be found in the Beneventos' homes. /3/ As the court of appeals noted (Pet. App. 35a n.1), Section 5317(b) has since been amended effective October 27, 1986, by the Anti-Drug Abuse Act of 1986, Pub. L. No. 99-570, Tit. I, Section 1355, 100 Stat. 3207-22. As amended, Section 5317(b) now provides: Searches at border. -- For purposes of ensuring compliance with the requirements of section 5316, a customs officer may stop and search, at the border and without a search warrant, any vehicle, vessel, aircraft, or other conveyance, any envelope or other container, and any person entering or departing from the United States. /4/ Prior to its replacement in 1984 by Section 5317(b), Section 1105 provided: (a) If the Secretary has reason to believe that monetary instruments are in the process of transporation and with respect to which a report required under Section 1101 of his (sic) title has not been filed or contains material omissions or misstatements, he may apply to any court of competent jurisdiction for a search warrant. Upon a showing of probable cause, the court may issue a warrant authorizing the search of any or all of the following: (1) One or more designated persons. (2) One or more designated or described places or premises. (3) One or more designated or described letters, parcels, packages, or other physical objects. (4) One or more designated or described vehicles. Any application for a search warrant pursuant to this section shall be accompanied by allegations of fact supporting the application. (b) This section is not in derogation of the authority of the Secretary under any other law.	en
all-txt-docs	263514	leave and earnings To: "Carolyn A Casteel, Writer-Editor, Atlanta, GA" <ccasteel> cc: "Steven D Craigg, Supvy. Hydrologist (Geol), Atlanta, GA" <sdcraigg>, "Gregory C Mayer, Hydrologist, GW Spec, Atlanta, GA" <gcmayer>, "Charles N Joiner, Hydrologic Technician, Atlanta, GA" <cnjoiner>, "Caryl J Wipperfurth, Cartographer, Atlanta, GA" <cjwipper>, "Robert E Faye, Reg GW Spec, Norcross, GA" <refaye> cc: "AO - All Administrative Officers"<distribution> cc: "Alice A Sabatini, Administrative Officer, Reston, VA" <aasabati> cc: "Catherine L Hill, ACH/Operations, Reston, VA" <clhill> Subject: Re: leave and earnings In-reply-to: <199606031533.LAA12594@operqvarsa.er.usgs.GOV> Date: Mon, 03 Jun 1996 13:52:53 -0400 From: "Alice A Sabatini, Administrative Officer, Reston, VA" <aasabati> Cathy Hill asked that I respond to your message. I have taken the liberty of copying my response to all AOs because the question is of general interest. The following reflects my understanding of the decision. The Bureau of Reclamation (BOR) provides the payroll service for all bureaus in the Department of the Interior. It is the BOR personnel that made the decision to change the method of mailing employee leave and earnings statements. I do not believe that anyone in the USGS was consulted before the decision was made. One of the reasons for the change was to eliminate the recent delays in distributing leave and earning statements to employees. Both the leave and earning statements and the preprinted time and attendance reports are generated automatically by the payroll system (PAYPERS). The previous distribution pattern required that these two documents, generated at different times, be held and distributed together causing delays if one of the documents was not generated on schedule. At the end of FY 1995, we began experiencing routine delays in the distribution of our leave and earnings statements with many offices failing to receive them until after the pay date. In some instances, they were received almost a week late. It is my understanding that contractors have always been used for these jobs. The change was also made in anticipation of the implementation of the new payroll system (FPPS). Most bureaus will begin recording and submitting time and attendance information in a paperless format. WRD will begin the implementation of a paperless system in FY 1997. This will eliminate the need to generate and mail the time and attendance reports to offices. The change in mailing leave and earning statements was probably made to coincide with the renewal of the contracts; a possible explaination as to why that change preceded the implementation of paperless processes. The change did coincide with the change in the statement format, however. As with many changes, it is difficult to understand all of the reasons when you are not part of the decision making process. I am sure that BOR examined the costs before making the decision. > ------- Forwarded Message > Got a question for you...why are leave and earning statements now being > mailed to individual employees at home address--each requiring a 32-cent > stamp? If you figure about 4,000 USGS employees x 32 cents is about > $1,280 per pay period times 26 pay periods--totaling about $33,280 in > postage alone per year. Statements are not even shipped bulk rate! > > I spoke with the unit in Denver that processes the leave and earning > statements and was advised that the new procedure also requires an > outside contractor just to stuff envelopes. Previously, the statements > were "batched" and mailed to a cost center in one envelope and > distributed by district staff. The old procedure did not require outside > contractors. Yet another increased cost to the USGS. > > About 4,000 individual statements also increases the possibility of a > breach in security of personal information being delivered to someone > other than the employee. We all have received the mail of our neighbors > or someone else on occasion. I really do not want the postman to deliver > my statement to my neighbor. > > ?? Why the change? Did a problem exist? If so, is this the answer? > > CAC > > > ------- End of Forwarded Message >	en
markdown	497756	# Presentation: 497756 Understanding the Puzzle of Disability Services - And How Those Pieces Can Fit with Asset Development ## History - The disability system was created to provide services that alleviate the conditions of the majority. Thus, the system is multi-focused and layered. - The system was initially created to take care of people and has evolved to understand the importance of empowerment and individual control. All systems are not there yet. - Understanding the Puzzle of Disaiblity Services ## History - Getting people out of poverty was not considered a condition to alleviate: - In order to receive many disability services you must be at or below the poverty level (SSI, personal care assistance, waiver services). - These conversations are just starting and the realization that people with disabilities need support and strategies to leave poverty. - There is a growing interest and desire to partner with the asset-building community, and all systems have limited capacity and resources. - Both sides hold misconceptions about the others’ services. - Understanding the Puzzle of Disaiblity Services ## A Few Misconceptions - People on Social Security cannot work. - People with cognitive issues cannot save or manage their money. - To serve people with disabilities requires special - expertise. - Providing accommodations is expensive. - IDAS are a way to fund items other services cannot - It is an additional funding stream - The IDA provider can take care of all financial issues for the person - Understanding the Puzzle of Disaiblity Services ## Social Security Administration FEDERAL- Financial Services Social Security: - _Supplemental Security Income (SSI)_ - SSI was designed to help people with disabilities who have little or no income. - It provides cash to meet basic needs for food, clothing, and shelter. Currently the full SSI amount is $632 for an individual. Resource limit is $2000 for an individual. - _Social Security Disability Insurance (SSDI) _ - SSDI is a payroll tax-funded program. Being eligible for this program is dependent upon how many quarters you have worked. It is designed to provide income to people unable to work because of a disability. - SSA - Understanding the Puzzle of Disaiblity Services ## Changing Expectations - Ticket to Work Work Incentives Improvement Act (TWWIIA) of 1999 - Designed to increase the number of people on SSI and SSDI who returned to work. - It was the first time since the conception of the SSI/SSDI program that Social Security implemented comprehensive legislation that supported individuals with significant disabilities returning to work or obtaining work. - Ticket to Works offers an array of work incentives to individuals to reduce their fear in working. - Understanding the Puzzle of Disaiblity Services ## Medicare Infrastructure Grant (MIG) - Section 203 of the Ticket to Work and Work Incentives Improvement Act (TWWIIA) of 1999 establishes a grant program to support State efforts to enhance employment options for people with disabilities. These grants are for eleven years and minimum grant award to an eligible state is $500,000 per fiscal year. - The goal of the Medicaid Infrastructure Grant program is to support people with disabilities in securing and sustaining employment in an integrated setting. - MIG removes systems’ barriers that prevent people with disabilities in obtaining employment such as initially establishing buy-in programs in states. - Understanding the Puzzle of Disaiblity Services ## MIGs Could be a Good Partner - MIGs throughout the nation have become interested in how they can support individuals with disabilities in asset building. - MIGs are interested in figuring out how they can partner with their state’s asset-building network. - To learn if your state has a MIG grant and what its strategic plan is go to: - _http://www.__cms__.__hhs__.__gov__/TWWIA/SR/list.asp?__listpage__=1_ - MIG - Understanding the Puzzle of Disaiblity Services ## Work Incentives Planning Assistance(WIPA) - Social Security Administration (SSA) has contracted with local organizations in every state to have individuals who are experts on the rules of returning to work while on SSI or SSDI. These individuals are called Community Work Incentives Coordinators or CWICs. - CWICs understand the impact of working on both SSA benefits and other benefits such as Veterans, Section 8 Housing, Earned Personal Care services, food stamps, etc. - The CWICs provide counseling and guidance on how to use SSA and other programs’ work incentives. They help people think about how to use these programs to achieve their employment goals. - Understanding the Puzzle of Disaiblity Services ## Community Work Incentives Coordinators - CWIC can inform people about the Earned Income Tax Credit and how Individual Development Accounts and work incentives can be used together. - They cannot help with SSA benefit problems that are not work related or help someone apply for benefits. - To find a CWIC in your area: - _http://www.socialsecurity.gov/work/ServiceProvider/WIPADirectory.html__ _ - Understanding the Puzzle of Disaiblity Services ## One Stop Centers - The Federal Workforce Investment Act (WIA) of 1998, offers a comprehensive range of workforce development activities through One Stop Centers statewide. - Services benefit all job seekers, laid off workers, youth, incumbent workers, new entrants to the workforce, veterans, persons with disabilities, and employers. - The purpose of One Stop Centers is to increase employment, job retention, earnings, and occupational skills improvement by participants. - Understanding the Puzzle of Disaiblity Services ## One Stop Services - Core Services are basic services such as labor market information, initial assessment of skill levels, and job search and placement assistance. - Intensive Services are for unemployed individuals who, with core services, have not been able to obtain employment, or are employed individuals needing additional services to obtain or keep employment that will lead to personal self-sufficiency. - Understanding the Puzzle of Disaiblity Services ## One Stop Services - Training Services are available to eligible individuals who have met the requirements for intensive services and have not been able to obtain or keep employment. - Individual Training Accounts are established to finance training based upon the individual's choice of selected training programs and labor market need. - Understanding the Puzzle of Disaiblity Services ## Disability Navigator - The SSA and the Department of Labor are jointly sponsoring Disability Program Navigators: - To better inform individuals with disabilities about work support programs available at One-Stop Career Centers and how to navigate the different systems. - To be a resource to staff in working with individuals with disabilities and in understanding the numerous disability programs. - How to find your Navigator: _http://www.__doleta__.__gov__/disability/new___dpn___grants.__cfm_ Disability Resource - Understanding the Puzzle of Disaiblity Services ## One Stops and IDAs - Many one stop centers and Workforce Boards are familiar with asset building though TANF, asset-building coalitions, or fiscal literacy campaigns. - In some parts of the country, they are starting to think of IDAs and asset building for individuals with disabilities. Disability Navigators are receiving training on asset development and IDAs. - Understanding the Puzzle of Disaiblity Services ## Assistive Technology - Assistive Technology Act of 1998, as amended: - Every state has a State Assistive Technology Program. The program works to improve the provision of assistive technology to individuals with disabilities of all ages. It offers comprehensive statewide technology-related assistance. It provides devices and services such as the Device Loan Program, Device Reutilization Programs, Device Demonstration Programs, and State Financing Activities. - _http://www.resna.org/taproject/at/stateprograms.html__ _ - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - The Rehabilitation Act of 1973, as amended, provides all states and U.S. territories Federal grants to operate a comprehensive vocational program for individuals with disabilities who want to obtain or maintain employment. They must have a disability and need vocational rehabilitation services. - Public Rehabilitation can provide a wide gamete of services that are needed to obtain and maintain employment such as vocational counseling and guidance, job placement assistance, self-employment assistance, college or vocational training, supported employment services, skills training, transportation, assistive and rehabilitation technology services, independent living services, etc. - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - Each applicant has a rehabilitation counselor: - determines their eligibility for the program; - assists the applicant in establishing a individual plan for employment (IPE); and - provides case coordination. - The IPE is what drives services. - Public Rehabilitation is one of the largest funders of disability services. They are in a strong position to support asset-development services. - At least three states support IDAs with public rehabilitation dollars. - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - If you have not established a relationship with your state public rehabilitation agency, you might want to. - Meet with the Director of your state’s rehabilitation agency to figure out how to you can partner with them. - To find your States Public Rehabilitation Offices: - _http://www.jan.wvu.edu/SBSES/VOCREHAB.HTM__ _ - Understanding the Puzzle of Disaiblity Services ## State Disability Systems - State systems usually are Multiple Systems: they may fall under the authority of a mega state division such as the Division of Social and Health Services, but they are different systems with different rules. - The adult and community service "system" is actually comprised of several different systems reporting to different levels of government and different Federal departments. - Each system has its own jargon, eligibility criteria, and methods of providing services.* * - Look for a case manager who understands the array of systems. - Understanding the Puzzle of Disaiblity Services Mental Health - Every state has Community Support Programs for Mental Health Services. They work with mental health consumers and their families to provide people with mental illness with treatment and assistance in meeting basic needs such as housing, jobs, education, social services, transportation, and medical and nursing care. They also provide case management. - Frequently case managers are knowledgeable about the services available in the local community. They can be a great resource. - Each state’s criteria for mental health service is different. Please go to: _http://__mentalhealth__.__samhsa__.__gov__/databases/_ - Mental - Health - Services - Understanding the Puzzle of Disaiblity Services ## MR/DD - Every State provides services to individuals who have a developmentally disability. A developmental disability is usually defined as: Mental Retardation;Cerebral Palsy; Epilepsy; and/or Autism and occurs before the age of 18. - Services will vary depending on state funding but include: - Residential - Employment and Day programs - Family support - Case management - Understanding the Puzzle of Disaiblity Services ## Advocacy - The Protection and Advocacy (P&A) System and Client Assistance Program (CAP) comprise the nationwide network of congressionally mandated, legally-based disability rights agencies. - P&A agencies have the authority to provide legal representation and other advocacy services, under all Federal and State laws, to all people with disabilities (based on a system of priorities for services). - All P&As maintain a presence in facilities that care for people with disabilities, where they monitor, investigate and attempt to remedy adverse conditions. - Understanding the Puzzle of Disaiblity Services ## Advocacy - P&A devote resources to ensuring full access to inclusive educational programs, financial entitlements, healthcare, accessible housing and productive employment opportunities. - CAP agencies (many of which are housed within P&A offices) provide information and assistance to individuals seeking or receiving vocational rehabilitation (VR) services under the Rehabilitation Act, including assistance in pursuing administrative, legal and other appropriate remedies. - To contact the P&A in your state: _http://www.acf.hhs.gov/programs/add/states/pas.html__ _ - Understanding the Puzzle of Disaiblity Services ## Centers for Independent Living - Centers for Independent Living are: consumer controlled, community‐based, cross‐disability, and/or nonresidential private, nonprofit agencies. - Centers are designed and operated within a local community by individuals with disabilities and provide an array of services with a strong focus on peer counseling and self-advocacy. - Centers for Independent Living could be a strong resource and partner with the asset-building community. - _http://www.__ilru__.org/html/publications/directory/index.html_ - Understanding the Puzzle of Disaiblity Services ## AFI & 360 Projects - Four AFI grantees have partnered with four 360o Projects to learn how to increase services to individuals with disabilities. - 360o Projects are one-stop support centers for families with children who have disabilities. 360o Projects help families in obtaining the supports and services they desire in order to enhance the health and well-being of their child. 360o Projects are funded through a grant from U.S. Department of Health and Human Services. - Understanding the Puzzle of Disaiblity Services ## Next Steps to Think About - How will you establish partnerships with the disability community in your state? - What partnerships do you already have that can assist you? - What additional information and supports does your program need? - Many MIGs have done resource mapping of disabilities services in their respect states. This information would be helpful to you. - There is a huge need for fiscal literacy information that includes SSA benefits and work incentive information. - Understanding the Puzzle of Disaiblity Services ## Services & Supports That Can Help Put It All Together SSA CILS Public Rehab Disability Navigators CWICS - Assistive Technology MR/DD Protection & Advocacy Mental Health MIGs - Understanding the Puzzle of Disaiblity Services	en
markdown	244585	# Presentation: 244585 ## Disability questions in censuses and surveys Methodological issues: proxy response, non-response and mode of administration 21-23 September 2005 *Montserrat López-Cobo* Fifth Meeting of the Washington Group ## Are proxy-responses different from self-responses? Why? Do all proxies provide the same quality responses? Who is the best proxy? Is there an effect on the quality of data? Can we measure it? Can we correct it? Do all proxies provide the same quality responses? Who is the best proxy? Is there an effect on the quality of data? Can we measure it? Can we correct it? Proxy response ## It is generally accepted that proxy- and self- responses differ Many studies found that proxy-respondents underreport disability-related information: Disability Impairments of emotion and Pain Limitation of activities, long-term disability, need for assistance with ADL Chronic condition, days of activity restriction, bed disability days General health events and conditions Many studies found that proxy-respondents _underreport_ disability-related information: Disability Impairments of emotion and Pain Limitation of activities, long-term disability, need for assistance with ADL Chronic condition, days of activity restriction, bed disability days General health events and conditions Proxy responseLevel differences 1 ## ... While some other studies found that proxies overreport: Cognitive status, Mild Cognitive Impairment ADL disability Functional health, when the self-respondent is demented Cognitive status, Mild Cognitive Impairment ADL disability Functional health, when the self-respondent is demented Proxy responseLevel differences 2 ## Differences in cognitive procedures (1/2) Type and level of available information Proxies report impairments or conditions that are more observable or mentioned to them Proxy reports are more accurate for conditions that are serious, painful, persistent or potentially life threatening If person under 65: proxies underreport If person 65 and over: proxies overreport Proxy information is more stable. Self information is more dynamic Self-responses are less consistent across time Type and level of available information Proxies report impairments or conditions that are more observable or mentioned to them Proxy reports are more accurate for conditions that are serious, painful, persistent or potentially life threatening If person under 65: proxies _underreport_ If person 65 and over: proxies _overreport_ Proxy information is more stable. Self information is more dynamic Self-responses are less consistent across time Proxy responseUnderstanding self-proxy differences 1 ## Differences in cognitive procedures (2/2) Proxies engage in less extensive cognitive process. Provide heuristic-based responses Proxies rely more on inferences and estimations. Proxies overreport disabilities aparently related to a previously reported disability and underreport disabilities seemingly unrelated to the previously reported. Proxies are less affected by social desirability concerns Proxies are more willing to report disability Proxies engage in less extensive cognitive process. Provide heuristic-based responses Proxies rely more on inferences and estimations. Proxies overreport disabilities aparently related to a previously reported disability and underreport disabilities seemingly unrelated to the previously reported. Proxies are less affected by social desirability concerns Proxies are more willing to report disability Proxy responseUnderstanding self-proxy differences 2 ## Social relationship with the selected person The closest the relationship, the most accurate the proxy-response Spouse’s responses are better than other proxies’ Proffesionals and caregivers provide more accurate information than lay proxies Length of relationship Positive effect in convergence self-proxy Memory capacity of respondent Affect to data quality The closest the relationship, the most accurate the proxy-response Spouse’s responses are better than other proxies’ Proffesionals and caregivers provide more accurate information than lay proxies Length of relationship Positive effect in convergence self-proxy Memory capacity of respondent Affect to data quality Proxy responseThe best proxy-respondent ## Types of methods: 1) Traditional First step: Measure the bias by comparing proxy- estimates with self- estimates Second step: Introduce statistical control adjusting for demographic or health-related variables 2) New strategy First: Set assumptions about the nature of differences between self- and proxy-responses Second: Model and estimate these differences based on the assumptions 1) Traditional First step: Measure the bias by comparing proxy- estimates with self- estimates Second step: Introduce statistical control adjusting for demographic or health-related variables 2) New strategy First: Set assumptions about the nature of differences between self- and proxy-responses Second: Model and estimate these differences based on the assumptions Proxy responseMeasuring and correcting bias ## Mode of administration ## Differences in the sample Population coverage Response rates Differences due to social context within which data are collected Contact with interviewer Non-verbal cues Social desirability bias: Reduced with self-administered questionnaires Population coverage Response rates Differences due to social context within which data are collected Contact with interviewer Non-verbal cues Social desirability bias: Reduced with self-administered questionnaires Mode of administrationSources of differences among modes 1 ## Differences intrinsic to the mode Visual materials cannot be used by phone Complexity of the questionnaire is limited by the mode Stimuli in a visual mode  Primacy effects Stimuli in a hearing mode  Recency effects Differences in responses involving long lists Order effects Effects of the mode on the interviewer Visual materials cannot be used by phone Complexity of the questionnaire is limited by the mode Stimuli in a visual mode  Primacy effects Stimuli in a hearing mode  Recency effects Differences in responses involving long lists Order effects Effects of the mode on the interviewer Mode of administrationSources of differences among modes 2 ## Telephone interviews Do not underrepresent people with disabilities Sometimes is not as well accepted by population as face-to-face interviews Proved useful to assess mental health using recommended instruments (GHQ-12, CIS-R, CIDIS), the Expanded Disability Status Sacle Telephone vs Mail Mail responses report poorer health and more chronic conditions than Telephone Differential non-response rates by age: Elder: NR (Telephone) > NR (Mail) Young: NR (Telephone) < NR (Mail) General: Item NR (Telephone) < Item NR (Mail) Do not underrepresent people with disabilities Sometimes is not as well accepted by population as face-to-face interviews Proved useful to assess mental health using recommended instruments (GHQ-12, CIS-R, CIDIS), the Expanded Disability Status Sacle Telephone *vs* Mail Mail responses report poorer health and more chronic conditions than Telephone Differential non-response rates by age: Elder: NR (Telephone) > NR (Mail) Young: NR (Telephone) < NR (Mail) General: Item NR (Telephone) < Item NR (Mail) Mode of administrationResults from comparative studies 1 ## Face-to-Face vs Mail Health differences between respondents and non-respondents by mode: non-response bias Non-respondents and late respondents to Mail are more cognitively impaired and more disabled than respondents (among elderly). Non-respondents to F-t-F are similar to respondents. Health differences between respondents and non-respondents by mode: non-response bias Non-respondents and late respondents to Mail are more cognitively impaired and more disabled than respondents (among elderly). Non-respondents to F-t-F are similar to respondents. Mode of administrationResults from comparative studies 2 ## Telephone/CATI vs Face to Face Differential non-response rates: NR (CATI) > NR (F-t-F) Measurement bias: MBias (CATI) < MBias (F-t-F) No differences between CATI and F-t-F for reports on chronic conditions, activity limitations and disability rates CATI vs CAPI Differential non-response rates by age: Elder: NR (CATI) > NR (CAPI) Young: NR (CATI) < NR (CAPI) Differential non-response rates: NR (CATI) > NR (F-t-F) Measurement bias: MBias (CATI) < MBias (F-t-F) No differences between CATI and F-t-F for reports on chronic conditions, activity limitations and disability rates CATI *vs* CAPI Differential non-response rates by age: Elder: NR (CATI) > NR (CAPI) Young: NR (CATI) < NR (CAPI) Mode of administrationResults from comparative studies 3 ## CASI Reduces social desirability bias Enhances the feeling of privacy Respondents generally like CASI Technological possibilities have a positive influence on data quality (minimizing errors) Respondent’s self-disclosure is higher in CASI Reduces social desirability bias Enhances the feeling of privacy Respondents generally like CASI Technological possibilities have a positive influence on data quality (minimizing errors) Respondent’s self-disclosure is higher in CASI Mode of administrationResults from comparative studies 4 ## Disabilities: Physical, sensory, mental illness and mental retardation Challenges addressed: communication, fatigue and cognitive issues Questionnaire design Eliminate soft consonant sounds (s, z, t, f and g) to overcome high-frequency hearing loss Build in "breaks" for respondents to let them rest Incorporate neutral encouragement to avoid drop-outs Design checks for unexpected responses Use structured probes for questions that might be difficult to understand Challenges addressed: communication, fatigue and cognitive issues Questionnaire design Eliminate soft consonant sounds (s, z, t, f and g) to overcome high-frequency hearing loss Build in "breaks" for respondents to let them rest Incorporate neutral encouragement to avoid drop-outs Design checks for unexpected responses Use structured probes for questions that might be difficult to understand Mode of administrationAn experience interviewing disabled people by telephone ## Interviewer training and supervision Usual background and purpose of study Training on challenges likely to face Sensitive exercise regarding the treatment to the disabled person Guidance to overcome each of the challenges Support to interviewers and reduction of stress Other recommendations Interviews take longer  Multiple sessions may be required Usual background and purpose of study Training on challenges likely to face Sensitive exercise regarding the treatment to the disabled person Guidance to overcome each of the challenges Support to interviewers and reduction of stress Other recommendations Interviews take longer  Multiple sessions may be required Mode of administrationAn experience interviewing disabled people by telephone ## Non-response ## Components of non-response Non-contact Non-cooperation Non-contact: the household pattern of disabled Are older and likely to live in non-metropolitan areas  higher probability of being contacted Less likely to live with children  lower prob. of contact May be more fearful of opening doors to strangers  lower prob. of contact Non-contact Non-cooperation Non-contact: the household pattern of disabled Are older and likely to live in non-metropolitan areas  higher probability of being contacted Less likely to live with children  lower prob. of contact May be more fearful of opening doors to strangers  lower prob. of contact Non-response and Disability ## Non-cooperation: exchange theory vs social isolation theory Exchange theory: Persons who feel that the survey sponsor has provided (or could provide) benefits to them are more likely to cooperate Persons with disabilities might be expected to be more cooperative with a government-sponsored survey Social isolation theory: People who are isolated from the mainstream society feel less responsibility toward government and are less likely to cooperate Persons with disabilities might be expected to be less cooperative _Exchange theory_: Persons who feel that the survey sponsor has provided (or could provide) benefits to them are more likely to cooperate Persons with disabilities might be expected to be more cooperative with a government-sponsored survey _Social isolation theory_: People who are isolated from the mainstream society feel less responsibility toward government and are less likely to cooperate Persons with disabilities might be expected to be less cooperative Non-response and Disability ## Persons with severe disability are more likely than persons with less severe disability to be contacted and to cooperate, but when they are interviewed they are less likely to answer for themselves; instead, proxy and assistant respondents tend to answer for them. Elder people with disabilities respond sooner than young and non-disabled to mail surveys. These findings support Exchange theory Self-perceived memory problems increase item non-response and “I don’t know” answers. Not preceived memory deficits implies inaccurate information on items requiring recall. Elder people with disabilities respond sooner than young and non-disabled to mail surveys. These findings support Exchange theory Self-perceived memory problems increase item non-response and “I don’t know” answers. Not preceived memory deficits implies inaccurate information on items requiring recall. Non-response and DisabilityResults from studies 1 ## Health of non-respondents is worse than respondents’ in terms of: stroke, Basic ADL, mobility disabilities, self-rated health and mortality rates. Respondents with poorer physical functioning and/or limiting long-term illness have higher non-response rates. These findings support Social isolation theory Respondents with poorer physical functioning and/or limiting long-term illness have higher non-response rates. These findings support Social isolation theory Non-response and DisabilityResults from studies 2 ## Recommendations for including disabled people in interview surveys ## Bias due to exclusion is amplified in surveys where disability is a key measure of interest Recommendations: Include institutionalised population in samples Carry out the interview in a private environment Provide adaptative technologies and procedures (of primary importance in visual, hearing and speech impairment). Use simple and clear questions Recommendations: Include institutionalised population in samples Carry out the interview in a private environment Provide adaptative technologies and procedures (of primary importance in visual, hearing and speech impairment). Use simple and clear questions ## Recommendations: Special training for interviewers Provide alternative modes of administration If proxy is used: Respondent’s assessments of proxy’s answer is valuable The proxy should be nominated by the selected respondent Special training for interviewers Provide alternative modes of administration If proxy is used: Respondent’s assessments of proxy’s answer is valuable The proxy should be nominated by the selected respondent ## Proxy response validity depends on factors such as: proxy choice and distinction, topic investigated, health condition of the selected person... Mode of administration (unique or a mix-mode) should be decided taking into account: topic investigated, population objective of the survey, expected acceptability of the mode by the population, technological possibilities... Mode of administration (unique or a mix-mode) should be decided taking into account: topic investigated, population objective of the survey, expected acceptability of the mode by the population, technological possibilities... Final conclusion ## Different patterns of response might be indicative of bias which can affect estimates. Non-response is one of the sources of data error. But not the unique... Emphasis should be given not only to minimazing non-response rates but also to estimation and control of measurement error. Non-response is one of the sources of data error. But not the unique... Emphasis should be given not only to minimazing non-response rates but also to estimation and control of measurement error. Final conclusion ## 21-23 September 2005 Fifth Meeting of the Washington Group	en
log-files	210142	2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\ars_logo.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz ars_logo.gif 2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\arsblue.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz arsblue.gif 2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\Back.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz Back.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\germination.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz germination.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\globular.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz globular.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\hr700.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz hr700.gif 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\niedz.html <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz niedz.html 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\niedz.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz niedz.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\torpedo.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz torpedo.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\usdalogo.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz usdalogo.gif 2001.07.11 09:35 B D:\FtPierce\new071001\hb\niedz\ars_logo.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz ars_logo.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\arsblue.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz arsblue.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\Back.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz Back.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\germination.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz germination.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\globular.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz globular.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\hr700.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz hr700.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\niedz.html --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz niedz.html 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\niedz.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz niedz.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\torpedo.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz torpedo.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\usdalogo.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz usdalogo.gif	en
markdown	350410	# Presentation: 350410 ## SICI and BICI: Identifiers for Serials and Books - Reference/Citation Linking: The Federal Perspective - Joint CENDI/FLICC Workshop  June 21, 2000 - Library of Congress  Washington, DC - Julia Blixrud, Association of Research Libraries and Chair, NISO Subcommittee AP ## SICI and BICI - ANSI/NISO Z39.56-1996 (Version 2) -- Serial Item and Contribution Identifier (SICI) - Book Item and Component Identifier (BICI) (being developed by NISO Subcommittee AP) ## SICI and BICI - Background and Environment for Development - Structure - Applications - Criticisms and Suggestions for Improvement - Future Development ## The Challenges - Need for increased granularity to identify intellectual units - Need for interoperability and data exchange between different industries and applications using different computer systems ## SICI Background - Version 1 development - SISAC - Specific application (fixed length) - Version 2 development - Before 5-year review - Users identified possible new applications and problems with version 1 ## SICI Development Goals - Z39.56 (1991) - Cover broad range of serials regardless of physical format - Short, but bibliographically unique - Derivable from citation or source document -- not externally assigned or derived - Maintain consistency with and build upon existing standards, e.g., ISSN ## SICI Development Goals - Z39.56 (1996) - More rigorous rules relating to mandatory and optional fields - Defined internal structure of SICI to have three distinct segments (Item, Contribution, Control) - Defined external structure types to identify Serial Item vs. Serial Contribution (issue or article) - Allows private numbering systems - Stores/includes medium of distribution (text on paper, electronic, microform, etc.) - Title code algorithm significantly improved -- length and inclusiveness ## SICI Structure -- CSI-1 - Item Segment - ISSN - Chronology - Enumeration - Contribution Segment - [Empty -- required but will have no data] - Control Segment - Code Structure Identifier (CSI) - Derivative Part Identifier (DPI) - Medium Format Identifier (MFI) - Version Number - Check Character ## SICI Example -- CSI-1 Bulletin of the American Society for Information Science, Feb-Mar. 1995, Vol. 21, no. 3 - 1991 SICI: - 0095-4403(199502/03)21:3;1-N - 1996 SICI: - 0095-4403(199502/03)21:3<>1.0.TX;2-Y ## SICI Structure -- CSI-2 - Item Segment - ISSN - Chronology - Enumeration - Contribution Segment - Location (page) - Title Code - Alternative Numbering Schemes - Control Segment - Code Structure Identifier (CSI) - Derivative Part Identifier (DPI) - Medium Format Identifier (MFI) - Version Number - Check Character ## SICI Example -- CSI-2 - Bjorner, Susanne. “Who Are These Independent Information Brokers?” Bulletin of the American Society for Information Science, Feb-Mar. 1995, Vol. 21, no. 3, page 12 - 1991 SICI: - 0095-4403(199502/03)21:3L.12:TII;1-N - 1996 SICI: - 0095-4403(199502/03)21:3<12:WATIIB>2.0.TX;2-J ## SICI Example -- CSI-3 - ERIC Document EJ 462 869, originally published in Library Hi Tech, Vol. 11, no. 1, 1993 - 1991 SICI: - N/A - 1996 SICI: - 0737-8831(1993)11:1<::ERIC-EJ462869>3.0.TX;2-F ## SICI Applications - SICI Bar Code - EDI using SICI CSI-1 - Price/sales catalog - Dispatch data - Invoice - Order - Claim - Claim Response ## SICI Applications - URN Namespace - Document Delivery - Data string in delivery services - Reference Linking - Library catalog records to index or full-text databases ## SICI Criticisms - Unicode - Angle Brackets <> - Title Code - Sequencing - Duplication (non-unique) ## SICI Future Development - Five-year review scheduled for 2001 - Character set issues -- Unicode - More explicit reference to electronic journals - Explicit statement regarding DOI - Structure changes (<> and #) - Integration with web applications ## BICI Background - Begun in 1997 following completion of revision of SICI - Develop standard identification schema for subunits of books - Interest from rights management community - International meetings on identifiers ## BICI Development: Background Documents - BIBLID - SICI - “A Standard Identifier for Book Items and Contributions” by David Martin for the Book Industry Communication (BIC) and the British National Bibliography Research Fund - Work of INDECS ## BICI Development Goals - Limit scope of standard to code for unique identification of book items and their component parts - Cover a broad range of books (scholarly, trade, and popular), regardless of physical form - Maintain consistency with and build on the established ISBN already used successfully to identify books - Create brief, unique code consistent with unique identification ## BICI Development - Does not address grey literature, technical reports or other documents - Does not address component parts that have no enumeration (unnumbered dictionary or encylopedia entries) - Includes redundancies for judgments on degrees of similarity of 2 BICIs derived from different sources ## BICI Development Issues - Granularity - How broad - How deep - Logical vs. physical structure of book - Chapter, section, etc. - Location (page) - Consistent with SICI ## BICI Development Issues - Focus on the ISBN - Identifier vs. meaning - Matching and uniqueness - Character set -- Unicode ## Current BICI Structure - 3 Segments (Item, Component, Control) - Control segment manages processing - Code Structure Identifier data element specifies coding structure - Focus on ISBN - Logical and physical structure ## Current BICI Structure - Item Segment - ISBN - Chronology - Item enumeration - Component Segment - Component enumeration - Title code - Location (e.g., pagination) or other numbering schema - Control Segment - Code Structure Identifier (CSI) - Component Type Identifier (CTI) - Medium/Format Identifier (MFI) - Standard Version Number (SVN) - Check Character ## Current BICI Example - Chapter 10: “English as a World Language” in The English Language: A Historical Introduction*, 1993 pp. 234-261 ISBN 0-521-41620-5 - BICI: 0521416205(1993)(10;EAAWL;234-261)2.2.TX;1-1 ## BICI Component Types - 0 Whole item - 1 Front matter - 2 Main text subdivision (parts, chapters, sections, acts, etc.) - 3 Discrete object within a book (abstracts, tables, figures, etc.) - 4 Back matter (index, appendices, references, bibliographies) - 5 Supplementary materials (maps, disks, erratum, etc.) ## BICI Applications - Abstracting and indexing services - Document delivery services - Coursepack producers - Library reserve rooms - Rights management agencies - DOI system - Publisher delivery systems - E-books ## BICI Community Review - Changed <> to () - Include both logical and physical in component segment - Use ; as delimiter between elements - Restructure title code rules - More e-book examples ## BICI Future Development - Final draft (committee draft 10) to be vetted by committee - NISO draft out this summer - Vote by NISO membership by fall - Resolution of any negatives - Publication by end of 2000 ## SICI and BICI - Any Questions??? - jblix@arl.org	en
markdown	691851	# Presentation: 691851 ## Project Team Meeting - March 27, 2001 ## Today Announcements Status CM ECB/QVR/CAM ## Announcements Steering Committee Meetings to Note eRA Workshop – May 15 Commons Functional Group May 16 NSF/NIH the future of e-Administration/Business Ramping up Changes in the Project Team New hires Your Issues ## Project Management Team TPC Advocate Wally Schaffer * **Project Management Team * Project Manager John McGowan CMO Advocate Claire Benfer GMAC Advocate Marcia Hahn ECB Advocate Thor Fjellstedt RPC Advocate Eileen Bradley CIT liaison Peter Morton POPOF/Program Advocate Bud Erickson Research Institution Advocate George Stone Reports Advocate Carol Martin Daily Operations Manager Jim Cain IT Design/Arch. Advocate Donna Frahm Data Integrity/OER Advocate Belinda Seto Receipt and Referral Brent Stanfield FDC/ROW Liaison Jay Silverman OER Liaisons Preparing for e-Grants- Scanning Steven Hausman ## Breakout of Expertise SWEG Oracle Programmers 7 SQA Testers 4 Help Desk 1 Operations Support 1 Commons Integration (J2EE) 3 ## Different Contractors Now Utilized Logicon/ROW (Main Contract) Mitretek (Technical IV&V) CERTAN (Equipment needs) RNS, Inc (Commons/IMPAC II) Silicon Spirit (Commons) Quality Associates, Inc (Scanning) Input Solutions, Inc (Scanning) Z-Tech (Commons) LTS (Administrative Support) CIOSP-2 (Technical needs) IV&V – RFP being issued Data Quality – RFP on the street ## eRA Planning Process (snapshot) *eRA Planning Process **(snapshot)* Time Step April–Oct Oct-Dec 2001 2002 Jan March Identify Requirements to for the FY 2003 Budget Course Corrections (FY 2001/FY2002/2003) Assess implementation plans for FY 2001 Examine Requirements for FY 2003 Establish implementation plans for FY 2002 Budget Continue to satisfy requirements: FY 2001 Budget Implementation Plans FY 2002 Budget Implementation Plans Establish Priorities for FY 2003 Budget Steering Committee Review of FY 2003 Budget Submission to the BOG FY 2003 Budget Identify Requirements for FY 2004 Course Corrections (FY 2002/FY2003/2004) Calendar Year April–Oct Oct-Dec ## Slide 8 ## Funded up - front this fiscal year ## Funded up - front this fiscal year FY FY FY ## Reporting Commons Redesigns& X-Train;I-EDISON FY CY Priorities Bud Imp 2001 2002 2003 Reporting Commons Redesigns& X-Train;I-EDISON - Grants Management - Program Module - Simple R01’s* - Grants Transaction* - R01’s clinical, animal - ECB - Receipt & Referral - Review - Type 5- SNAP* - DEA Module - Quick View - Close Out Module - Committee Management - Review Modifications - ECB, QVR - Trainee Appointment - CRISP & CRISP Plus - Reporting - Complex Applications (P01s-U19s etc) 2004 2002 2003 2004 2005 ## NIH eRA Commons Implementation Plans: 2001-2002 *NIH eRA Commons ** **Implementation Plans: 2001-2002* - CFG Recommendations - Money Comes to the Project - Decide Architecture for the Web - Deploy X-Train – V1.5 - Deploy Commons – V2 - Commons Registration - Accounts Administration - Application/Award Status - Institutional & Professional Profiles - Deploy X-Train V2 - Re-engineer - Non-competing app- snap, complex - Competing - R01, F32, SBIR - Deploy SNAP - Pilot Competing R01 Applications - infrastructure ## NIH eRA Incomplete - Snapshot Implementation Plans for Remainder of 2001 - Migration to Oracle 8i - Money Comes to the Project - Decide Architecture for the Web - Get Contracts in Place - IV&V - Data Quality & Others - Formalize Implementation Plans - Continue SS deployment - Decision to Stop Impact I SS - Deploy Percentile in Impact II - Decisions on Commons Interface - Scanning Production Pilot - Start V2 of the Commons	en
all-txt-docs	331171	Project Ideas 1) Our team is involved in the Museum in the Classroom project this year. Unfortunately, the state has not yet given us the list of museums involved this year. This would be a definite area of interest to all of us - so may yet develop as the project I do. It would be an interdisciplinary project with 7th and 8th graders as the principal targeted audience. It would involve QuickTime VR elements, sound bites, email, C-U-SeeME conferencing. 2) Reading Grotto Level: 7th and 8th graders Technology Elements: Pictures, sound bites, absolute referencing to annotated previewed sites on the web, C-U-SeeMe conferencing, posting of reviews. Content: At our age level, it is a constant struggle to keep children reading. It has been shown in the research that if we can keep children reading through 8th grade, we will have them for life, even if they don't read that much in high school or college, they will return to it. The children need a place that they can go to in order to exchange their views on books they have read, find out about author's lives, participate in on-line discussions with other students, teachers, and writers. 3) North American Indians Level: 7th and 8th graders Technology Elements: Pictures, sound bites, absolute referencing to annotated previewed sites on the web, C-U-SeeME conferencing Content: Students take on the role of either the United States Government, settlers (farmers), ranchers, or Indians during the time before the Civil War. Indians are being crowded out of their lands, ranchers are warring with farmers, tempers and stakes are high. The students are divided by classes with all students from one class taking on the role of farmers and then within that class they take on the role of members within the community. Their task is the try to keep the peace and find solutions to their problems. Each day, each group will recieve an unexpected problem from one of the other groups (i.e. an attack on an outlying farm). Students may see what is happening in each of the other groups via the website. The indians will have a village where they live and work and members of other groups can visit there to see how the indian people lived and how they feel about what is happening to them. The farmers will have a section on a town. The ranchers will have a section on a ranch. The United States Government will have a section on a Calvary Fort. The major problem they will all confront is how to handle the fact that the intercontinental railroad is coming through - how can everyone handle this so that everyone is satisfied. This can also be used with distance classes as participants. The various sections can hold pow-pows, town meetings, etc. via tele-conferencing, email, and listservs. This is really green - need to roll this around in my head for awhile.	en
all-txt-docs	825308	QUESTION: In all the news reports I have seen, nothing has been mentioned about how the rover was held in place during landing, etc. The "petals opened" and there it was, all ready to start exploring as soon as the airbags were retracted and the ramps deployed. There must have been hold-down devices that had to be released first. Any details? ANSWER from Chris Salvo on August 20, 1997: The rover was latched down and attached to the petal at strategic structural locations during all of the cruise and landing. After landing, the primary devices that held it in place were released via a pyro firing (and explosive action where a bolt or wire or other such piece of structure is broken by controlled explosive force). With the primary devices released, the rover was then able to move in such a way as to unlatch itself from the rest of them. The rover folks would have more details on the design of the mechanisms. Chris	en
all-txt-docs	269102	SECURITIES ACT REGISTRATIONS April 21, 2008 The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be obtained in person or by writing to the Commission's Public Reference Branch at 100 F Street, N.E., Washington, D.C. 20549-1090 or at the following e-mail box address: publicinfo@sec.gov. In most cases, this information is also available on the Commission's website: www.sec.gov. S-1 XFONE INC, 2506 LAKELAND DRIVE, SUITE 100, FLOWOOD, MS, 39232, 6019833800 - 5,906,020 ($19,430,805.80) Equity, (File 333-150305 - Apr. 18) (BR. 11A) S-1 Chocolate Candy Creations, Inc., 130 SHORE ROAD, SUITE 238, PORT WASHINGTON, NY, 11050, 516-238-5535 - 62,000 ($93,000.00) Equity, (File 333-150306 - Apr. 18) (BR. 04) S-1 BGC Partners, Inc., 499 PARK AVENUE, NEW YORK, NY, 10022, 212-610-2200 - 0 ($460,000,000.00) Equity, (File 333-150308 - Apr. 18) (BR. 02C) S-8 Tao Minerals Ltd., OFFICINA 618, EMPRESARIAL MALL VENTURA, CRA. 32 #1B SUR 51, MEDELLIN, F8, 00000, 807 344 2644 - 6,000,000 ($480,000.00) Equity, (File 333-150310 - Apr. 18) (BR. 04C) S-8 INTEGRYS ENERGY GROUP, INC., 130 EAST RANDOLPH DRIVE, CHICAGO, IL, 60601, 800-699-1269 - 700,000 ($33,621,000.00) Equity, (File 333-150311 - Apr. 18) (BR. 02B) S-8 INTEGRYS ENERGY GROUP, INC., 130 EAST RANDOLPH DRIVE, CHICAGO, IL, 60601, 800-699-1269 - 3,500,000 ($168,105,000.00) Equity, (File 333-150312 - Apr. 18) (BR. 02B) S-8 MACKINAC FINANCIAL CORP /MI/, 3530 NORTH COUNTRY DR, PO BOX 369, TRAVERSE CITY, MI, 49684, 9063418401 - 120,000 ($960,000.00) Equity, (File 333-150313 - Apr. 18) (BR. 07C) S-8 COGNEX CORP, ONE VISION DR, NATICK, MA, 01760, 5086503000 - 2,300,000 ($50,669,000.00) Equity, (File 333-150315 - Apr. 18) (BR. 10A) F-6 INTEC LTD, GORDON CHIU BUILDING J01, DEPT. OF CHEMICAL ENGINEERING, MAZE CRES, SYDNEY, C3, N5W 2006, 50,000,000 ($2,500,000.00) ADRs/ADSs, (File 333-150316 - Apr. 18) (BR. DN) S-8 Mogul Energy International, Inc., 520 PIKE TOWER, SUITE 2210, SEATTLE, WA, 98101, 206-357-4220 - 100,000 ($15,000.00) Equity, (File 333-150317 - Apr. 18) (BR. 04B) S-8 BANYAN CORP /OR/, 1925 CENTURY PARK EAST, SUITE 500, LOS ANGELES, CA, 90067, 1-800-808-0899 - 66,000,000 ($26,400.00) Equity, (File 333-150318 - Apr. 18) (BR. 01A) S-1 Geeks On Call Holdings, Inc., 814 KEMPSVILLE ROAD, SUITE 106, NORFOLK,, VA, 23502, (757) 466-3448 - 5,767,000 ($7,208,750.00) Equity, (File 333-150319 - Apr. 18) (BR. 03A) S-8 FNB CORP/FL/, F.N.B. CORPORATION, ONE F.N.B. BOULEVARD, HERMITAGE, PA, 16148, 724-981-6000 - 794,131 ($13,102,500.00) Equity, (File 333-150321 - Apr. 18) (BR. 07A) S-8 BENIHANA INC, 8685 NW 53RD TERRACE, MIAMI, FL, 33166, 3055930770 - 750,000 ($8,203,735.00) Equity, (File 333-150322 - Apr. 18) (BR. 05A) S-8 Bank of New York Mellon CORP, ONE WALL STREET, NEW YORK, NY, 10286, 212-495-1784 - 70,000,000 ($2,968,700,000.00) Equity, (File 333-150323 - Apr. 18) (BR. 07C) S-8 Bank of New York Mellon CORP, ONE WALL STREET, NEW YORK, NY, 10286, 212-495-1784 - 7,500,000 ($318,075,000.00) Equity, (File 333-150324 - Apr. 18) (BR. 07C) S-3ASR COLONIAL BANCGROUP INC, 100 COLONIAL BANK BLVD., MONTGOMERY, AL, 36117, 334-676-5000 - 0 ($0.00) Unallocated (Universal) Shelf, (File 333-150325 - Apr. 18) (BR. 07C) S-3 ANTIGENICS INC /DE/, 630 FIFTH AVENUE SUITE 2100, NEW YORK, NY, 10111, 212-994-8200 - 0 ($43,750,000.00) Equity, (File 333-150326 - Apr. 18) (BR. 01B) S-4 FMG ACQUISITION CORP, FOUR FOREST PARK, SECOND FLOOR, FARMINGTON, CT, 06032, 860 677 2701 - 8,750,000 ($7,000,000.00) Equity, (File 333-150327 - Apr. 18) (BR. 09) S-8 QUADRAMED CORP, 12110 SUNSET HILLS ROAD, SUITE 600, RESTON, VA, 20190, 7037092300 - 0 ($5,921,000.00) Equity, (File 333-150328 - Apr. 18) (BR. 03B) S-8 WILMINGTON TRUST CORP, RODNEY SQUARE NORTH, 1100 NORTH MARKET ST, WILMINGTON, DE, 19890-0001, 3026518378 - 800,000 ($23,832,000.00) Equity, (File 333-150329 - Apr. 18) (BR. 07C) S-8 QUADRAMED CORP, 12110 SUNSET HILLS ROAD, SUITE 600, RESTON, VA, 20190, 7037092300 - 0 ($477,500.00) Equity, (File 333-150330 - Apr. 18) (BR. 03B) S-8 Clean Energy Fuels Corp., 3020 OLD RANCH PARKWAY, SUITE 200, SEAL BEACH, CA, 90740, (562) 493-2804 - 0 ($12,795,000.00) Equity, (File 333-150331 - Apr. 18) (BR. 02) S-1 MACROSOLVE INC, 5800 EAST SKELLY DRIVE, SUITE 300, TULSA, OK, 74135, 918-280-8693 - 25,958,877 ($15,575,326.20) Equity, (File 333-150332 - Apr. 18) (BR. ) S-8 BIOHEART, INC., 13794 NW 4TH STREET, SUITE 212, SUNRISE, FL, 33325, 954-835-1500 - 0 ($3,690,239.00) Equity, (File 333-150333 - Apr. 18) (BR. 01C) S-8 Celsius Holdings, Inc., 140 NE 4TH AVENUE, SUITE C, DELRAY BEACH, FL, 33483, 561-276-2239 - 16,046,956 ($1,193,765.00) Equity, (File 333-150334 - Apr. 18) (BR. 09A) S-1 FOAMEX INTERNATIONAL INC, 1000 COLUMBIA AVENUE, LINWOOD, PA, 19061, 6108593000 - 0 ($175,000,000.00) Equity, (File 333-150335 - Apr. 18) (BR. 06C) S-1 FOAMEX INTERNATIONAL INC, 1000 COLUMBIA AVENUE, LINWOOD, PA, 19061, 6108593000 - 0 ($115,000,000.00) Other, (File 333-150336 - Apr. 18) (BR. 06C) S-1 China Cablecom Holdings, Ltd., 17 STATE STREET, SUITE 1600, NEW YORK, NY, 10004, 212-888-8890 - 0 ($12,916,750.00) Equity, (File 333-150337 - Apr. 18) (BR. 11A) S-4 NATIONAL HOLDINGS CORP, 120 BROADWAY, 27TH FLOOR, NEW YORK, NY, 10271, 212-417-8000 - 0 ($9,711,399.00) Equity, (File 333-150338 - Apr. 18) (BR. 08A) S-8 ROLLINS INC, 2170 PIEDMONT RD NE, ATLANTA, GA, 30324, 4048882000 - 0 ($86,600,000.00) Equity, (File 333-150339 - Apr. 18) (BR. 08C) S-3 WAVE SYSTEMS CORP, 480 PLEASANT ST, LEE, MA, 01238, 4132431600 - 0 ($25,000,000.00) Equity, (File 333-150340 - Apr. 18) (BR. 03A)	en
converted_docs	182503	December 23, 2004 Jerome D. Schad, Esq. Hudgson Russ LLP, Attorneys One M&T Plaza, Suite 2000 Buffalo, NY 14203-2391 Dear Mr. Schad: This responds to your letter of May 21, 2004, in which you raised questions on behalf of public school districts you represent regarding compliance with the Family Educational Rights and Privacy Act (FERPA), 20 U.S.C. § 1232g. The Family Policy Compliance Office (Office) administers FERPA and provides technical assistance to educational agencies and institutions to ensure compliance with the statute and regulations codified at 34 CFR Part 99. As stated in your letter, parents of children with disabilities who initiate a due process hearing under Part B of the Individuals with Disabilities Education Act (Part B), 20 U.S.C. § 1415(f)(1), have a right to open the hearing to the public pursuant to 34 CFR § 300.509(c)(1), as well as a parallel New York State provision at 8 N.Y.C.R.R. § 200.5(i)(3)(viii). Your letter indicates that under the common law of New York (and most states), the right to maintain a closed proceeding, once waived, is waived forever, and thereafter all testimonial and documentary information disclosed in the proceeding becomes "public records" subject to New York's Freedom of Information (FOI) law, which is contained in the Public Officers Law, Article 6, §§84-96, 46 McKinney's (2001). You noted further that under both State and federal law, once a party waives a privilege protecting documents from disclosure, the privilege is lost forever and cannot be reasserted. In light of the preceding, you asked what a public school district must do regarding further disclosure of the testimony and evidence from a due process hearing in the following circumstances: > An individual from a news media organization requests, under state > law, the right to [inspect and copy]{.underline} the transcript of > the testimony of witnesses from the due process proceeding, > regarding which the parent has exercised their right, pursuant to 34 > C.F.R. § 300.509(c)(1)(ii), to "\[o\]pen the hearing to the public." > > An individual from a news media organization requests, under state > law, the right to [inspect and copy]{.underline} each exhibit marked > \[which include educational records\] in evidence in the due process > proceeding, regarding which the parent has exercised their right, > pursuant to 34 C.F.R. § 300.509(c)(1)(ii), to "\[o\]pen the hearing > to the public." > > Once educational records become "exhibits admitted into evidence" in a > due process hearing open to the public and testimony is taken in the > open hearing, is the school district's disclosure of the exhibits in > evidence and the hearing transcript a violation of FERPA? FERPA applies to an educational agency or institution that receives funds under any program administered by the Secretary of Education, which includes virtually all public school districts in the United States. 34 CFR § 99.1. It provides that parents and eligible students (i.e., those that are 18 years of age or attending a postsecondary institution) have a right to inspect and review the student's education records and to seek to have them amended in certain circumstances. FERPA also provides that an educational agency or institution may not have a policy or practice of disclosing personally identifiable information from education records without the prior written consent of a parent or eligible student except as specified by law. "Education records" are defined as records that contain information that is directly related to a student and are maintained by an educational agency or institution subject to FERPA, or by a party acting for such an educational agency or institution. 34 CFR § 99.3. An agency or institution that collects, maintains, or uses personally identifiable information, or from which information is obtained, under Part B is a "participating agency" subject to the Part B Confidentiality of Information requirements codified at 34 CFR §§ 300.560 -- 300.577. See 34 CFR § 300.560(c). These requirements contain many of the same provisions that exist in FERPA and apply, along with FERPA, to any public school district that provides Part B services to students. Under Part B regulations, a parent or a public agency may initiate a "due process" hearing relating to the identification, evaluation or educational placement of a child with a disability, or the provision of free appropriate public education (FAPE) to the child. 34 CFR § 300.507(a). We assume that for purposes of your inquiry the public agency directly responsible for the education of the child, i.e., a public school district, has conducted the Part B hearing as provided under 34 CFR § 300.507(b) and maintains transcripts of witnesses' testimony and exhibits from those proceedings. Transcripts and exhibits from a Part B due process hearing that are maintained by a public school district subject to FERPA qualify as "education records" if they contain information that is directly related to a student. Under FERPA, a parent (or eligible student) must provide a signed and dated written consent before an educational agency or institution discloses personally identifiable information from a student's education records. Assuming that the transcripts and exhibits from the Part B due process hearing are "education records" (because they contain information directly related to a student), a public school district that maintains these records may not disclose them in response to a State FOI request without the parent's prior written consent even if they were created or submitted into evidence in a hearing that was open to the public at the parent's request. The common law standards that you identified regarding the waiver of privileges to maintain a closed proceeding and to keep certain information confidential are derived from and apply to public courts and judicial proceedings. Like rules of evidence and other court rules, however, these standards do not apply to non-judicial authorities, such as a public school district, unless they have been specifically adopted or imposed by an appropriate governing authority. We are aware of no legal requirement, and certainly none in FERPA or the Part B Confidentiality of Information provisions, that would permit a public school district to disclose education records without prior written consent on the grounds that the records were derived from or admitted into evidence in an open due process proceeding. News media organizations may indeed have grounds to obtain records maintained by a court that conducted a hearing in which a party waived privileges to keep the information confidential. However, there is no basis in FERPA or Part B for concluding that education records maintained by a school district may be disclosed without prior written consent because a parent previously permitted them to be submitted into evidence at an open public hearing, or that transcripts of the district's open hearing that contain information directly related to a student are not entitled to protection as education records under FERPA. I trust that this adequately explains the scope and limitation of FERPA as it relates to your concerns. Sincerely, /s/ LeRoy S. Rooker Director Family Policy Compliance Office cc: Edward Anthony, Office of Special Education and Rehabilitation Services	en
all-txt-docs	393845	SEC NEWS DIGEST Issue 2006-80 April 26, 2006 COMMISSION ANNOUNCEMENTS COMMISSION MEETINGS CLOSED MEETING - THURSDAY, MAY 4, 2006 - 2:00 P.M. The subject matter of the closed meeting scheduled for Thursday, May 4, 2006, will be: Formal orders of investigation; Institution and settlement of injunctive actions; Institution and settlement of administrative proceedings of an enforcement nature; and Resolution of litigation claims. At times, changes in Commission priorities require alterations in the scheduling of meeting items. For further information and to ascertain what, if any, matters have been added, deleted or postponed, please contact: The Office of the Secretary at (202) 551-5400. ENFORCEMENT PROCEEDINGS JAMES CONWAY, AN UNREGISTERED BROKER-DEALER INVOLVED IN THE FRAUDULENT OFFERING OF SECURITY INTERESTS IN RAINMAKER MANAGED LIVING, LLC, BARRED FROM ASSOCIATION WITH ANY BROKER OR DEALER On April 25, the Commission issued an Order Instituting Administrative Proceedings Pursuant to Section 15(b) of the Securities Exchange Act of 1934, Making Findings, and Imposing Remedial Sanctions (Order) against James Joseph Conway (Conway). The Commission's Order was based on the entry of judgment, dated March 23, 2006, by the Honorable S. James Otero, U.S. District Judge for the Central District of California, which, among other things, enjoined Conway from violating Sections 5(a), 5(c), and 17(a) of the Securities Act of 1933, Sections 10(b) and 15(a) of the Securities Exchange Act of 1934 and Rule 10b-5 thereunder. Conway consented to the entry of the judgment. The Commission's complaint alleged that, in connection with the sale of securities in Rainmaker Managed Living, LLC, Conway, age 50 and residing in San Pedro, California, misrepresented to investors how their funds would be used and the source of the guaranteed 25% annual return the investors were to receive. In addition, Conway failed to disclose that he received a commission for selling the securities. The complaint also alleged that Conway sold securities for which the offer and sale was not registered and acted as an unregistered broker-dealer with respect to the sale of the Rainmaker securities. The Order permanently bars Conway from association with any broker or dealer. Conway consented to the issuance of the Order without admitting or denying any of the Commission's findings, with the exception of the Commission's jurisdiction and entry of the final judgment by consent. (Rel. 34-53722; File No.3-12276) REVOCATION OF REGISTRATION OF SECURITIES OF LUMENIS LTD. On April 26, the Commission revoked the registration of the securities of Lumenis Ltd. (Lumenis), of Yokneam, Israel, registered with the Commission pursuant to Section 12 of the Exchange Act, on April 26, pursuant to Section 12(j) of the Securities Exchange Act of 1934 (Exchange Act). In its Order revoking the registration of securities of Lumenis registered with the Commission pursuant to Section 12 of the Exchange Act, the Commission found the following: Lumenis failed to comply with Exchange Act Section 13(a) and Rules 13a-1 and 13a-13 thereunder while its securities were registered with the Commission in that it has not filed any completed periodic reports for any fiscal period subsequent to the period ending June 30, 2003. The Commission cautions broker dealers, shareholders, and prospective purchasers that they should carefully consider the foregoing information along with all other currently available information and any information subsequently issued by the company. Further, brokers and dealers should be alert to the fact that, Section 12(j) provides, in pertinent part, as follows: No member of a national securities exchange, broker, or dealer shall make use of the mails or any means or instrumentality of interstate commerce to effect any transaction in, or to induce the purchase or sale of, any security the registration of which has been and is suspended or revoked pursuant to the preceding sentence. Without admitting or denying the findings in the Order, Lumenis consented to the entry of the Order finding that it had violated Exchange Act Section 13(a) and Rules 13a-1 and 13a-13 thereunder and revoking its registration. (Rel. 34-53724; File No. 3-12277) IN THE MATTER OF CHAIM SCHWARTZBARD, CPA (ISRAEL) On April 26, the Commission issued an Order Instituting Public Administrative Proceedings Pursuant to Rule 102(e) of the Commission's Rules of Practice, Making Findings, and Imposing Remedial Sanctions (Order) against Chaim Schwartzbard. The Order finds that Schwartzbard engaged in improper professional conduct pursuant to Rule 102(e)(1)(ii) of the Commission's Rules of Practice by engaging in repeated instances of unreasonable conduct, each resulting in a violation of applicable professional standards, that indicate a lack of competence to practice before the Commission. Based on the above, the Order denies Schwartzbard the privilege of appearing or practicing before the Commission as an accountant, with the right to request that the Commission consider his reinstatement after three years. Schwartzbard consented to the issuance of the Order without admitting or denying any of the findings in the Order. (Rel. 34-53725; AAE Rel. No. 2421; File No. 3-12278) IN THE MATTER OF PAUL BORNSTEIN On April 26, the Commission issued an Order Instituting Public Administrative Proceedings Pursuant to Section 15(b) of the Securities Exchange Act of 1934, Making Findings, and Imposing Remedial Sanctions Against Paul Bornstein (Order). Bornstein consented to the issuance of the Order without admitting or denying any of the findings in the Order. The Order found that from at least December 1999 through May 2000, Bornstein was both a research analyst at a registered broker-dealer, Connecticut Capital Markets, LLC, and a salaried employee at a public relations firm, Sterns & Company, hired by CyberCare, Inc (CyberCare). On July 16, 2004, the Commission filed a complaint against Bornstein in the United States District Court for the Southern District of Florida in SEC v. Michael Morrell, et. al., Civil Action No. 04-80664- CIV-MARRA/SELTZER alleging, among other things, violations of the antifraud provisions of the federal securities laws by Bornstein in connection with his research report. The Commission's complaint alleged that while he was employed by both companies, Bornstein created a research report on CyberCare that rated CyberCare a "strong buy." The research report, issued by Connecticut Capital in January 2000, failed to disclose Bornstein's conflict of interest and contained, among other things, information released by CyberCare which was materially false. Although Bornstein was not directly compensated by CyberCare for preparation of the research report, the report failed to fully disclose Sterns & Company's compensation for public relations services Sterns & Company and Bornstein were providing to CyberCare. On March 16, 2006, a Final Judgment was entered by consent against Bornstein that permanently enjoined him from violating Sections 17(a) and 17(b) of the Securities Act of 1933 and Sections 10(b) of the Exchange Act, and Rule 10b-5, thereunder. Based on the above, the Order bars Bornstein from association with any broker or dealer with the right to reapply for association after 2 years to the appropriate self-regulatory organization, or if there is none, to the Commission. (Rel. 34-53726; File No. 3-12279) COURT ENFORCES THIRD COMMISSION SUBPOENA IN FAX BLASTING INVESTIGATION On April 18, the U.S. District Court for the District of Columbia entered a stipulated Order requiring obedience to the Commission's subpoena issued to respondent Dean J. Sheptycki. This Order resolved a subpoena enforcement action filed by the Commission. In briefing, Sheptycki argued to the Court that the Commission had no jurisdiction over him because he was a resident of Nassau, Bahamas. After the Commission produced evidence to the contrary, Sheptycki agreed to the entry of a stipulated Order requiring his compliance with the Commission's Subpoena. In its Application and supporting papers, the Commission explained that the subpoena concerned the Commission's investigation into the production and/or mass dissemination of faxes touting the securities of two thinly traded American companies - National Storm Management, Inc. (NLST) and Deep Rock Oil and Gas, Inc. (DPRK) in an apparent attempt to capitalize on the devastation suffered by the Gulf region in the wake of Hurricane Katrina. [SEC v. Dean J. Sheptycki, Misc. No. 06-MS-00074, D.D.C.] (LR-19669) PERPETRATORS OF PUMP AND DUMP MANIPULATION SCHEME SENTENCED TO FEDERAL PRISON The Commission announced that the Honorable R. Gary Klausner, U.S. District Judge for the Central District of California, sentenced three individuals for their participation in a "pump and dump" scheme to manipulate over the Internet the price of securities of New Energy Corporation, formerly based in San Diego, California, that was the subject of a Commission enforcement action and trading suspension. Ernest Paul Lampert, a former fugitive, was sentenced in January 2006 to serve nine years in federal prison. Lampert was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet, and for violating a prior judgment in a criminal case. Marshall Algird Zolp, aka Marcelino Colt, a former fugitive, was sentenced in December 2005 to serve six years. Zolp was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet. Tor Ewald, of San Diego, California, New Energy's former secretary and treasurer, was sentenced in December 2005 to serve three months. Ewald was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet, and with obstruction of justice and making a false statement under oath to the Commission. Previously, the Commission filed a complaint in federal court in Los Angeles on Feb. 1, 2002, which alleged that New Energy, Ewald, Colt and his firm, Geneva Financial Ltd., and Magnum Financial LLC dba Stratos Research LLC, and its president, Michael S. Manahan, violated the antifraud provisions of the Securities Exchange Act of 1934. Colt and Geneva were also charged with violating the antifraud provisions of the Securities Act of 1933. The complaint alleged that the defendants were part of a pump and dump scheme to manipulate New Energy's stock price during a one-month period ending on Jan. 18, 2002, when the Commission suspended trading. The Commission obtained a final judgment against Colt and Geneva that permanently enjoined them from future violations of the antifraud provisions and imposed orders of disgorgement and civil penalties. The Commission obtained final judgments against New Energy, Ewald, Magnum, and Manahan that permanently enjoined them from future violations of the antifraud provisions and imposed civil penalties. Prior to the entry of the permanent injunction in the New Energy case, Zolp had been enjoined by the Commission on four previous occasions. Separately, Zolp and Lampert had previously been criminally convicted in other securities fraud cases. [SEC v. NEW ENERGY CORP., TOR EWALD, GENEVA FINANCIAL LTD., MARCELINO COLT aka MARCELINO COLT VASQUEZ, MAGNUM FINANCIAL, LLC, MICHAEL S. MANAHAN, BLD TRUST, BARCLAY DAVIS, LORETTA DAVIS, BURKE T. MAXFIELD, YORK CHANDLER, AND HECTOR CAMPA ACEDO, Civil Action No. CV-02-989-MMM (CWx) (C.D. Cal.)] (LR-19670) COURT ORDERS PERMANENT INJUNCTION, DISGORGEMENT, AND CIVIL PENALTY AGAINST DOMINICK SAVINO IN FRAUDULENT PAYMENTS SCHEME On April 10, following a bench trial before the Honorable George B. Daniels, U.S. District Court Judge for the Southern District of New York, securities trader Dominick Savino (Savino) was found liable for violating the antifraud provisions of the federal securities laws, and was permanently enjoined from future violations. Savino, who is a registered representative of a Connecticut broker-dealer, was enjoined from violating Section 17(a) of the Securities Act of 1933 and from violating and aiding and abetting violations of Section 10(b) of the Securities Exchange Act of 1934 and Rule 10b-5 thereunder. The Final Judgment also orders Savino to pay a total of $669,628, consisting of $569,628 in disgorgement and pre-judgment interest, and a $100,000 third-tier civil money penalty based on his fraudulent conduct. The Commission's complaint against Savino and four other individuals, which was filed on March 22, 2001, arose out of a fraudulent scheme involving two former employees at New York Life Insurance Company, Inc., who directed a flow of securities trades for the insurance company's proprietary accounts, often at prices unfavorable to New York Life, to certain salespersons in return for cash kickbacks and other improper gifts and gratuities made by the salespersons and others. The District Court's Modified Final Judgment was entered following the court's findings in a Memorandum Decision issued on Feb. 16, 2004. In that decision, Judge Daniels found that Savino violated his duties as a licensed securities professional by engaging in an "illegal fraudulent scheme" with Anthony Shen (Shen), a New York Life bond trader, to defraud New York Life that involved "material misrepresentations and omissions" in connection with his trades. Among other things, the District Court found that: Savino offered and gave Shen "secret payments, gifts, and gratuities" in connection with their securities trades, that Savino concealed the fact that he was compensating Shen in connection with trades, and "affirmatively misrepresented" the nature of the consideration paid; Savino "knowingly and willingly" defrauded New York Life, and intentionally failed to disclose, and intentionally concealed, the material circumstances of his trading relationship with Shen; Savino's violations were "egregious," and were repeated "multiple times" over the course of his relationship with Shen; and Savino attempted to conceal his conduct and also "attempted to obstruct" the investigation into his conduct by, among other things, lying to his employers' attorneys during their internal probe, and urging Shen to lie to conceal the scheme, and by providing "untruthful statements" during his deposition and while testifying at trial. The Commission has instituted public administrative proceedings against Savino in order to determine what remedial action, if any, is appropriate in the public interest in light of the permanent injunction that was entered against him by the district court. [See Administrative Release No. 34-53492 (March 16, 2006)]. This judgment concludes the Commission's civil action against all five of the original defendants named in the complaint, who have all been enjoined. [See also Litigation Release No. 16937 (March 22, 2001); Litigation Release No. 18478 (Nov. 24, 2003); Litigation Release No. 18556 (Jan. 28, 2004); and 18667 (April 13, 2004)]. [SEC v. Dominick Savino, et al., 01 CV 2438 (GBD) SDNY] (LR-19671) INVESTMENT COMPANY ACT RELEASES PACIFIC LIFE INSURANCE COMPANY, ET AL An order has been issued approving an application filed by Pacific Life Insurance Company (Pacific Life); Separate Account A of Pacific Life (Pacific A); Separate Account B of Pacific Life (Pacific B); Pacific Select Variable Annuity Separate Account of Pacific Life (PSVA); Pacific Select Exec Separate Account of Pacific Life (PSE); Pacific Life & Annuity Company (PL&A); Separate Account A of PL&A (PL&A A); Pacific Select Exec Separate Account of PL&A (PL&A PSE, and together with Pacific A, Pacific B, PSVA, PSE, PL&A A, the Separate Accounts); and Pacific Select Fund (Select Fund, and together with Pacific Life, PL&A, the Separate Accounts, the Applicants). Pacific Life and PL&A have been authorized under Section 26(c) of the Investment Company Act to substitute shares of American Funds Growth- Income Portfolio of Select Fund for shares of the Equity Income Portfolio of Select Fund held by one or more of the Separate Accounts. (Rel. IC-27291 - April 25) FRANK RUSSELL INVESTMENT COMPANY, ET AL. A notice has been issued giving interested persons until May 22, 2006, to request a hearing on an application filed by Frank Russell Investment Company, et al. for an order that would permit certain registered open-end management investment companies to participate in a joint lending and borrowing facility. (Rel. IC-27292 - April 25) SELF-REGULATORY ORGANIZATIONS APPROVAL OF PROPOSED RULE CHANGE The Commission approved a proposed rule change (SR-NSX-2005-09) and granted accelerated approval to Amendment Nos. 1 and 2 to the proposed rule change submitted by the National Stock ExchangeSM to amend Exchange delisting rules to conform to recent amendments to Commission rules regarding removal from listing and withdrawal from registration. Publication of the notice is expected in the Federal Register during the week of April 24. (Rel. 34-53702) SECURITIES ACT REGISTRATIONS The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be obtained in person or by writing to the Commission's Public Reference Branch at 450 Fifth Street, N.W., Washington, D.C. 20549 or at the following e-mail box address: <publicinfo@sec.gov>. In most cases, this information is also available on the Commission's website: <www.sec.gov>. S-3ASR Texas Roadhouse, Inc., 6040 DUTCHMANS LANE, SUITE 400, LOUISVILLE, KY, 40205, 5024269984 - 0 ($20,752,283.00) Equity, (File 333-133510 - Apr. 25) (BR. 05C) SB-2 SHUMATE INDUSTRIES INC, 12060 FM 3083, CONROE, TX, 77301, (936) 441-5100 - 10,130,500 ($9,877,237.50) Equity, (File 333-133511 - Apr. 25) (BR. 06C) S-4 EPIX Pharmaceuticals, Inc., 71 ROGERS ST, CAMBRIDGE, MA, 02142-1118, 6172506000 - 0 ($914,159.00) Equity, (File 333-133513 - Apr. 25) (BR. 01A) S-3ASR SOVEREIGN BANCORP INC, 2000 MARKET ST, PHILADELPHIA, PA, 19103, 2155574630 - 0 ($0.00) Other, (File 333-133514 - Apr. 25) (BR. 07C) S-3ASR PLUM CREEK TIMBER CO INC, 999 THIRD AVENUE, SUITE 4300, SEATTLE, WA, 98104-4040, (206)467-3600 - 0 ($0.00) Unallocated (Universal) Shelf, (File 333-133515 - Apr. 25) (BR. 08C) SB-2 MILLER PETROLEUM INC, 3651 BAKER HIGHWAY, STE 106, HUNTSVILLE, TN, 37756, 4236639457 - 6,100,000 ($6,039,000.00) Equity, (File 333-133516 - Apr. 25) (BR. 04B) F-10 SHAW COMMUNICATIONS INC, STE 900, 630 3RD AVE SW, CALGARY ALBERTA CANA, A0, 4037504500 - 0 ($263,805,839.00) Debt, (File 333-133517 - Apr. 25) (BR. 11C) S-8 RENTECH INC /CO/, 1331 17TH STREET SUITE 720, DENVER, CO, 80202-1566, 3032988008 - 0 ($17,600,000.00) Equity, (File 333-133518 - Apr. 25) (BR. 06C) S-8 GLOBAL CROSSING LTD, WESSEX HOUSE 45 REID ST, HAMILTON HM12, BERMUDA, D0, HM12, 4412968600 - 0 ($83,317,500.00) Equity, (File 333-133520 - Apr. 25) (BR. 11A) S-8 PLATINUM UNDERWRITERS HOLDINGS LTD, 2 CHURCH STREET, BERMUDA, D0, HM 11, 4412951422 - 0 ($155,815,000.00) Equity, (File 333-133521 - Apr. 25) (BR. 01B) SB-2 VIPER POWERSPORTS INC, 1500 RAND TOWER, 527 MARQUETTS AVE, MINNEAPOLIS, MN, 55402, 612-333-1313 - 4,100,042 ($13,912,621.00) Equity, 2,000,000 ($5,950,000.00) Other, (File 333-133522 - Apr. 25) (BR. 03) S-8 Saifun Semiconductors Ltd., 45 HAMELACHA STREET, SAPPIR INDUSTRIAL PARK, NETANYA, L3, 42504, 01197298928444 - 6,024,821 ($85,107,283.00) Other, (File 333-133523 - Apr. 25) (BR. 10) S-8 EURASIA ENERGY LTD, DOWNIEHILLS, BLACKHILLS, PETERHEAD, ABERDEENSHIRE, SCOTLAND, X0, AB42 3LB, 604-681-9588 - 2,000,000 ($6,000,000.00) Equity, (File 333-133524 - Apr. 25) (BR. 04B) S-1 eHealth, Inc., 440 EAST MIDDLEFIELD ROAD, MOUNTAIN VIEW, CA, 94043, 650-584-2700 - 0 ($85,000,000.00) Equity, (File 333-133526 - Apr. 25) (BR. 01) S-8 NightHawk Radiology Holdings Inc, 250 NORTHWEST BOULEVARD #202, COEUR D ALENE, ID, 83814, 208-292-2251 - 0 ($43,680,741.94) Equity, (File 333-133527 - Apr. 25) (BR. 01B) SB-2 NATUREWELL INC, 7855 IVANHOE AVE, SUITE 322, LA JOLLA, CA, 92037, 858/454-6790 - 2,000,000,000 ($6,000,000.00) Equity, (File 333-133528 - Apr. 25) (BR. 01C) S-3 ACACIA RESEARCH CORP, 500 NEWPORT CENTER DRIVE, 7TH FLOOR, NEWPORT BEACH, CA, 92660, 9494808300 - 0 ($75,000,000.00) Equity, (File 333-133529 - Apr. 25) (BR. 10A) S-3 ORTHOLOGIC CORP, 1275 WEST WASHINGTON STREET, TEMPE, AZ, 85281, 6024375520 - 1,355,000 ($2,398,350.00) Equity, (File 333-133530 - Apr. 25) (BR. 01B) S-8 NEW WORLD RESTAURANT GROUP INC, 1687 COLE BOULEVARD, GOLDEN, CO, 80401, 3035688000 - 0 ($11,475,000.00) Other, (File 333-133531 - Apr. 25) (BR. 05B) S-1 LEMAITRE VASCULAR INC, 63 2ND AVE, BURLINGTON, MA, 01803, 781-221-2266 - 0 ($69,000,000.00) Equity, (File 333-133532 - Apr. 25) (BR. ) S-8 Bank of Wilmington CORP, 1117 MILITARY CUTOFF ROAD, WILMINGTON, NC, 28405, 910-509-2000 - 534,511 ($6,513,017.00) Equity, (File 333-133533 - Apr. 25) (BR. 07) S-1 MARKWEST ENERGY PARTNERS L P, 155 INVERNESS DR WEST, STE 200, ENGLEWOOD, CO, 80112, 303-925-9275 - 0 ($168,795,390.00) Equity, (File 333-133534 - Apr. 25) (BR. 04A) SB-2 Interactive Television Networks, 2010 MAIN STREET, STE 500, IRVINE, CA, 92614, 949-456-9510 - 4,727,733 ($16,428,873.00) Equity, (File 333-133535 - Apr. 25) (BR. 11B) S-3 PLANETOUT INC, 0 ($90,946,000.00) Other, (File 333-133536 - Apr. 25) (BR. 08A) SB-2 OMNICOMM SYSTEMS INC, 2555 DAVIE ROAD, SUITE 110-B, FORT LAUDERDALE, FL, 33317, 954-473-1254 - 0 ($24,031,756.00) Equity, (File 333-133537 - Apr. 25) (BR. 08C) S-1 Tennessee Commerce Bancorp, Inc., 381 MALLORY STATION RD, SUITE 207, FRANKLIN, TN, 37067-8264, 615-599-2274 - 0 ($23,287,500.00) Equity, (File 333-133539 - Apr. 25) (BR. 07) RECENT 8K FILINGS Form 8-K is used by companies to file current reports on the following events: 1.01 Entry into a Material Definitive Agreement 1.02 Termination of a Material Definitive Agreement 1.03 Bankruptcy or Receivership 2.01 Completion of Acquisition or Disposition of Assets 2.02 Results of Operations and Financial Condition 2.03 Creation of a Direct Financial Obligation or an Obligation under an Off-Balance Sheet Arrangement of a Registrant 2.04 Triggering Events That Accelerate or Increase a Direct Financial Obligation under an Off-Balance Sheet Arrangement 2.05 Cost Associated with Exit or Disposal Activities 2.06 Material Impairments 3.01 Notice of Delisting or Failure to Satisfy a Continued Listing Rule or Standard; Transfer of Listing 3.02 Unregistered Sales of Equity Securities 3.03 Material Modifications to Rights of Security Holders 4.01 Changes in Registrant's Certifying Accountant 4.02 Non-Reliance on Previously Issued Financial Statements or a Related Audit Report or Completed Interim Review 5.01 Changes in Control of Registrant 5.02 Departure of Directors or Principal Officers; Election of Directors; Appointment of Principal Officers 5.03 Amendments to Articles of Incorporation or Bylaws; Change in Fiscal Year 5.04 Temporary Suspension of Trading Under Registrant's Employee Benefit Plans 5.05 Amendments to the Registrant's Code of Ethics, or Waiver of a Provision of the Code of Ethics 6.01. ABS Informational and Computational Material. 6.02. Change of Servicer or Trustee. 6.03. Change in Credit Enhancement or Other External Support. 6.04. Failure to Make a Required Distribution. 6.05. Securities Act Updating Disclosure. 7.01 Regulation FD Disclosure 8.01 Other Events 9.01 Financial Statements and Exhibits 8-K reports may be obtained in person or by writing to the Commission's Public Reference Branch at 450 Fifth Street, N.W., Washington, D.C. 20549 or at the following e-mail box address: <publicinfo@sec.gov>. In most cases, this information is also available on the Commission's website: <www.sec.gov>. STATE 8K ITEM NO. NAME OF ISSUER CODE DATE COMMENT ------------------------------------------------------------------------------------------------------- 1ST INDEPENDENCE FINANCIAL GROUP, INC DE 8.01 04/25/06 ABLEST INC DE 1.01,5.02,9.01 04/24/06 ACE Securities Corp. Home Equity Loan DE 8.01,9.01 09/26/05 AMEND ACE Securities Corp. Home Equity Loan DE 2.01,9.01 03/28/06 ACTEL CORP CA 2.02,9.01 04/25/06 ACTUATE CORP DE 2.02,9.01 04/25/06 ADELPHIA COMMUNICATIONS CORP DE 7.01 04/25/06 ADVO INC DE 1.01,2.02,8.01,9.01 04/25/06 AFFYMETRIX INC DE 5.02,9.01 04/19/06 AFLAC INC GA 2.02,9.01 04/25/06 AGERE SYSTEMS INC DE 2.02,9.01 04/25/06 AK STEEL HOLDING CORP DE 2.02,9.01 04/25/06 AK STEEL HOLDING CORP DE 2.02 04/25/06 ALFA CORP DE 2.02,9.01 04/25/06 ALLIANCE RESOURCE PARTNERS LP DE 2.02,9.01 04/24/06 ALLIED DEFENSE GROUP INC DE 1.01,9.01 04/25/06 Allis Chalmers Energy Inc. DE 3.01 04/19/06 AMAZON COM INC DE 2.02,9.01 04/25/06 AMERICA ONLINE LATIN AMERICA INC DE 7.01 04/25/06 AMERICAN BANK INC PA 2.02,9.01 04/21/06 AMERICAN CAPITAL STRATEGIES LTD 1.01 04/25/06 AMERICAN ELECTRIC POWER CO INC NY 7.01,9.01 04/24/06 AMERICAN EXPRESS CO NY 5.02 04/25/06 AMEND AMERIPRISE FINANCIAL INC DE 2.02,9.01 04/25/06 AMSURG CORP TN 2.02,7.01,9.01 04/25/06 ANDRX CORP /DE/ DE 1.01,9.01 04/19/06 ANTEON INTERNATIONAL CORP DE 8.01 04/24/06 ANTICUS INTERNATIONAL CORP NV 1.01,3.02,5.02,5.06,9.01 04/20/06 APO HEALTH INC /NV/ NV 1.01,7.01,9.01 04/21/06 APPLIED INDUSTRIAL TECHNOLOGIES INC OH 2.02,9.01 04/25/06 APPLIED INNOVATION INC DE 2.02,9.01 04/25/06 APRIA HEALTHCARE GROUP INC DE 2.02,9.01 04/25/06 ARCHSTONE SMITH TRUST MD 2.02,9.01 04/25/06 Argyle Security Acquisition CORP 4.01,9.01 04/18/06 AMEND ASPEN EXPLORATION CORP DE 3.02 04/21/06 AT&T INC. DE 2.02,9.01 03/31/06 ATMEL CORP DE 2.02,9.01 04/25/06 AURORA GOLD CORP DE 8.01,9.01 04/24/06 AUXILIUM PHARMACEUTICALS INC 7.01,9.01 04/25/06 AVERY DENNISON CORPORATION DE 2.02,9.01 04/25/06 Aviza Technology, Inc. DE 1.01,3.02,8.01,9.01 04/24/06 BANCFIRST CORP /OK/ OK 8.01 04/25/06 BANK OF HAWAII CORP DE 2.02,9.01 04/24/06 BANK OF THE JAMES FINANCIAL GROUP INC VA 2.02,8.01,9.01 04/21/06 BANKRATE INC FL 2.02,9.01 04/25/06 BANKRATE INC FL 8.01,9.01 04/25/06 BANNER CORP WA 2.02,9.01 04/25/06 BANTA CORP WI 2.02,9.01 04/25/06 BARNABUS ENERGY, INC. NV 5.03,9.01 04/21/06 BB&T CORP NC 5.03,8.01,9.01 04/25/06 BEARINGPOINT INC DE 1.01,2.02,9.01 04/24/06 BEHRINGER HARVARD REIT I INC MD 2.01,2.03,9.01 04/25/06 BERKSHIRE HILLS BANCORP INC 2.02,9.01 04/25/06 BIG CAT MINING CORP 3.02,5.01 04/24/06 BJ SERVICES CO DE 2.02,5.02 04/25/06 BLAIR CORP DE 5.02,8.01,9.01 04/20/06 BLUE RIDGE REAL ESTATE CO PA 1.01,2.03,9.01 04/20/06 BLUEGATE CORP NV 2.02 04/20/06 BMW VEHICLE OWNER TRUST 2003-A 9.01 04/25/06 BMW Vehicle Owner Trust 2004-A 9.01 04/25/06 BMW Vehicle Owner Trust 2005-A 9.01 04/25/06 BOLT TECHNOLOGY CORP CT 2.02,9.01 04/25/06 BOTETOURT BANKSHARES INC VA 2.02,9.01 04/25/06 BOWNE & CO INC DE 5.02 04/25/06 BOYD GAMING CORP NV 2.02,9.01 04/25/06 BREMER FINANCIAL CORP MN 2.02,9.01 04/25/06 BRIDGE STREET FINANCIAL INC NY 1.01,8.01,9.01 04/24/06 BROWN & BROWN INC FL 2.02 04/24/06 BRYN MAWR BANK CORP PA 2.02,7.01,9.01 04/25/06 BUFFALO WILD WINGS INC MN 2.02,9.01 04/25/06 BUILDING MATERIALS HOLDING CORP DE 2.02,9.01 04/25/06 BULLDOG TECHNOLOGIES INC NV 7.01,9.01 04/25/06 BURLINGTON NORTHERN SANTA FE CORP DE 2.02,9.01 04/25/06 C H ROBINSON WORLDWIDE INC DE 2.02,9.01 04/25/06 CA, INC. DE 2.02,7.01,9.01 04/25/06 CabelTel International Corp NV 2.02,9.01 04/25/06 CABG MEDICAL INC MN 3.02 04/19/06 CAL-BAY INTERNATIONAL INC NV 8.01 04/21/06 Calamos Asset Management, Inc. /DE/ 2.02,9.01 04/25/06 CALGON CARBON CORPORATION DE 8.01 04/24/06 CALPINE CORP DE 8.01 04/25/06 CAMDEN NATIONAL CORP ME 2.02,9.01 04/25/06 CAMDEN NATIONAL CORP ME 1.01,2.03,9.01 04/25/06 CAPITAL CITY BANK GROUP INC FL 2.02,7.01,9.01 04/25/06 CAPITAL GROWTH SYSTEMS INC /FL/ FL 8.01 04/21/06 CAPSTEAD MORTGAGE CORP MD 1.01,9.01 04/20/06 CARDINAL COMMUNICATIONS, INC NV 5.02,8.01,9.01 04/19/06 CARDINAL FINANCIAL CORP VA 2.02,5.02,8.01,9.01 04/19/06 CARLISLE COMPANIES INC DE 2.02,9.01 04/25/06 CARREKER CORP DE 1.01 04/19/06 CARTERS INC DE 2.02,9.01 04/25/06 CASCADE BANCORP OR 2.01,3.02,7.01,8.01,9.01 04/20/06 AMEND CASCADE FINANCIAL CORP DE 2.02,9.01 04/25/06 CASCADE MICROTECH INC 2.02,9.01 04/25/06 CDI CORP PA 1.01 04/19/06 CDW CORP IL 2.02,9.01 04/25/06 CEC ENTERTAINMENT INC KS 2.02 04/02/06 CENTENE CORP 2.02,9.01 04/25/06 CENTERSTATE BANKS OF FLORIDA INC FL 2.02,9.01 04/25/06 CENTERSTATE BANKS OF FLORIDA INC FL 5.03,9.01 04/25/06 CENTRAL PACIFIC FINANCIAL CORP HI 2.02,9.01 04/25/06 CEPHALON INC DE 8.01,9.01 04/24/06 CERIDIAN CORP /DE/ DE 2.02,9.01 04/25/06 CEVA INC DE 2.02,9.01 04/25/06 CHARLOTTE RUSSE HOLDING INC 2.02,9.01 04/20/06 CHECKFREE CORP \GA\ DE 2.02,9.01 04/25/06 CHESAPEAKE CORP /VA/ VA 2.02,9.01 04/25/06 CHICAGO MERCANTILE EXCHANGE HOLDINGS DE 2.02 04/25/06 CHOICE HOTELS INTERNATIONAL INC /DE DE 2.02,9.01 04/25/06 CIBER INC DE 2.02,9.01 04/25/06 CIMAREX ENERGY CO DE 7.01,9.01 04/24/06 CIMETRIX INC NV 1.01,9.01 04/19/06 Cistera Networks, Inc. NV 5.02,9.01 04/18/06 CIT GROUP INC DE 8.01,9.01 04/24/06 CITIGROUP INC DE 9.01 04/20/06 CITY CAPITAL CORP NV 1.01,9.01 04/19/06 CLAREMONT TECHNOLOGIES CORP NV 1.03 04/25/06 CNL INCOME PROPERTIES INC MD 8.01 04/21/06 COLDWATER CREEK INC DE 4.01,9.01 04/19/06 COLONIAL BANCGROUP INC DE 1.01,9.01 04/19/06 COLONIAL COMMERCIAL CORP NY 5.01 04/17/06 AMEND COMMERCIAL CAPITAL BANCORP INC NV 1.01,2.02,8.01,9.01 04/23/06 COMMUNITY BANCORP /VT VT 2.02,9.01 04/25/06 AMEND COMMUNITY BANK SYSTEM INC DE 2.02,9.01 04/24/06 COMMUNITY BANK SYSTEM INC DE 8.01,9.01 04/20/06 COMMUNITY TRUST BANCORP INC /KY/ KY 7.01 03/31/06 COMMUNITY WEST BANCSHARES / CA 2.02,9.01 04/25/06 COMPUTER HORIZONS CORP NY 1.01,9.01 04/19/06 Con-way Inc. DE 1.01,2.02,5.03,8.01 03/31/06 Con-way Inc. DE 3.01,8.01,9.01 04/25/06 CONGOLEUM CORP DE 3.01,9.01 04/25/06 CONNETICS CORP DE 1.01,9.01 04/24/06 CONSUMER PORTFOLIO SERVICES INC CA 2.02,9.01 04/25/06 CONVERGYS CORP OH 2.02,8.01,9.01 04/25/06 CONVERSION SERVICES INTERNATIONAL INC DE 8.01 04/24/06 COOPER COMPANIES INC DE 8.01 04/12/06 CORNING INC /NY NY 2.02,4.02,7.01,9.01 03/31/06 CORPORATE PROPERTY ASSOCIATES 14 INC MD 5.02 04/19/06 COST U LESS INC WA 1.01,9.01 04/19/06 CREE INC NC 1.01,5.02 04/19/06 CSG SYSTEMS INTERNATIONAL INC DE 1.01,2.02,5.02,9.01 04/25/06 CSS INDUSTRIES INC DE 1.01,5.02 03/10/06 CUISINE SOLUTIONS INC DE 1.01,2.03,9.01 04/19/06 CV THERAPEUTICS INC DE 2.02,9.01 04/25/06 CYBEX INTERNATIONAL INC NY 2.02,9.01 04/25/06 DATAWATCH CORP DE 1.01,2.02,9.01 04/20/06 DELMARVA POWER & LIGHT CO /DE/ DE 8.01 04/21/06 DELPHI FINANCIAL GROUP INC/DE DE 1.01,5.02,5.03,9.01 04/19/06 DELPHI FINANCIAL GROUP INC/DE DE 2.02,9.01 04/25/06 DELTIC TIMBER CORP DE 2.02,9.01 04/25/06 DELUXE CORP MN 2.02,9.01 04/25/06 DEVRY INC DE 2.02 04/25/06 Diabetic Treatment Centers of America DE 5.02 04/25/06 DIAMOND OFFSHORE DRILLING INC DE 7.01,9.01 04/24/06 DIEBOLD INC OH 2.02,9.01 04/25/06 DIGITAL RECORDERS INC NC 7.01,9.01 04/24/06 DIME COMMUNITY BANCSHARES INC DE 2.02 04/25/06 DISCOVERY PARTNERS INTERNATIONAL INC DE 1.01 04/19/06 DOLLAR FINANCIAL CORP DE 2.02,9.01 04/21/06 DOV PHARMACEUTICAL INC DE 8.01,9.01 04/24/06 Dragon Gold Resources, Inc. NV 1.01,3.02,4.01,9.01 04/18/06 DREW INDUSTRIES INC DE 8.01,9.01 04/24/06 DSA FINANCIAL CORP 2.02,9.01 04/21/06 DUPONT E I DE NEMOURS & CO DE 2.02 03/31/06 DUSA PHARMACEUTICALS INC NJ 8.01,9.01 04/25/06 Eagle Test Systems, Inc. IL 2.02,9.01 04/25/06 EASTERN VIRGINIA BANKSHARES INC VA 2.02,9.01 04/21/06 EASTERN VIRGINIA BANKSHARES INC VA 8.01,9.01 04/15/06 EASYLINK SERVICES CORP DE 1.01,2.02,9.01 04/21/06 EMBARCADERO TECHNOLOGIES INC 2.02,9.01 04/25/06 ENCORE WIRE CORP /DE/ DE 2.02,7.01,9.01 04/25/06 ENDOCARE INC DE 1.01,2.03,9.01 04/24/06 ENDWAVE CORP DE 2.02,9.01 04/25/06 ENERGIZER HOLDINGS INC MO 2.02,5.05 04/25/06 ENERGYSOUTH INC AL 1.01 04/19/06 ENNIS, INC. TX 1.01,9.01 04/21/06 ENSCO INTERNATIONAL INC DE 8.01,9.01 04/25/06 Enterprise GP Holdings L.P. DE 2.02,9.01 04/25/06 ENTERPRISE PRODUCTS PARTNERS L P DE 2.02,9.01 04/25/06 ENTRUST INC MD 2.02,9.01 04/25/06 EURONET WORLDWIDE INC DE 2.02,9.01 04/25/06 EXACTECH INC FL 2.02,7.01,9.01 04/25/06 EXPRESSJET HOLDINGS INC DE 7.01 04/20/06 EZCORP INC DE 2.02,9.01 04/25/06 FARGO ELECTRONICS INC 2.02,9.01 04/25/06 Federal Home Loan Bank of Boston X1 2.03 04/19/06 Federal Home Loan Bank of Chicago X1 2.03 04/19/06 Federal Home Loan Bank of Cincinnati X1 2.03,9.01 04/19/06 Federal Home Loan Bank of Indianapoli X1 2.03,9.01 04/25/06 Federal Home Loan Bank of New York X1 2.03,9.01 04/19/06 Federal Home Loan Bank of San Francis X1 2.03 04/19/06 FEDERAL TRUST CORP FL 8.01,9.01 04/25/06 FERRO CORP OH 1.01,9.01 04/19/06 Fidelity National Title Group, Inc. 5.02 04/19/06 FIRST ADVANTAGE CORP DE 2.02,9.01 04/25/06 FIRST BANCORP /NC/ NC 2.02,9.01 04/24/06 FIRST CASH FINANCIAL SERVICES INC DE 8.01,9.01 04/24/06 FIRST COMMUNITY BANCORP /CA/ CA 1.01,8.01,9.01 04/19/06 FIRST COMMUNITY BANCSHARES INC /NV/ NV 2.02,9.01 04/25/06 FIRST COMMUNITY BANCSHARES INC /NV/ NV 7.01 04/25/06 FIRST CONSULTING GROUP INC DE 5.02,9.01 04/25/06 FIRST FEDERAL BANCSHARES OF ARKANSAS TX 2.02,9.01 04/25/06 FIRST NATIONAL LINCOLN CORP /ME/ ME 2.02 03/31/06 FIRST OF LONG ISLAND CORP NY 1.01,9.01 04/18/06 FIRST OTTAWA BANCSHARES INC DE 2.02,9.01 04/25/06 FIRST SECURITY BANCORP INC /KY/ KY 8.01 04/25/06 FIRST SECURITY GROUP INC/TN TN 2.02,9.01 03/31/06 FIRST UNITED CORP/MD/ MD 7.01,9.01 04/25/06 FISERV INC WI 2.02,9.01 04/25/06 FISERV INC WI 1.01,5.02,9.01 04/21/06 FOCUS ENHANCEMENTS INC DE 2.02,7.01,9.01 04/24/06 FOOT LOCKER INC NY 1.01 04/24/06 FOREST LABORATORIES INC DE 7.01 03/31/06 FOREST LABORATORIES INC DE 7.01 03/31/06 FOSTER WHEELER LTD D0 8.01,9.01 04/24/06 FOSTER WHEELER LTD D0 1.01,9.01 04/19/06 Franchise Capital Corp. NV 8.01,9.01 04/24/06 FRANKLIN CREDIT MANAGEMENT CORP/DE/ DE 3.01,9.01 04/18/06 AMEND FRANKLIN FINANCIAL SERVICES CORP /PA/ PA 7.01,9.01 04/25/06 GASTAR EXPLORATION LTD 7.01,9.01 04/25/06 GENENTECH INC DE 1.01,9.01 04/20/06 GENERAL DATACOMM INDUSTRIES INC DE 1.01,2.03,9.01 04/20/06 GILEAD SCIENCES INC DE 1.01,2.03,3.02,9.01 04/19/06 GILMAN & CIOCIA INC DE 1.01,9.01 04/20/06 GLOBAL AIRCRAFT SOLUTIONS, INC. AZ 2.02,7.01,9.01 04/25/06 GLOBAL SERVICES PARTNERS ACQUISITION DE 8.01,9.01 04/25/06 GNC CORP DE 1.01,9.01 04/20/06 GRANT PARK FUTURES FUND LIMITED PARTN IL 7.01 04/21/06 GREAT ATLANTIC & PACIFIC TEA CO INC MD 1.01 04/19/06 GSI GROUP INC A3 2.02,9.01 04/25/06 HALLADOR PETROLEUM CO CO 1.01,2.03 04/19/06 HANCOCK HOLDING CO MS 8.01,9.01 04/24/06 HANMI FINANCIAL CORP DE 2.02,9.01 04/25/06 HANMI FINANCIAL CORP DE 8.01,9.01 04/25/06 HARLEYSVILLE NATIONAL CORP PA 7.01,9.01 04/25/06 HARRINGTON WEST FINANCIAL GROUP INC/C 2.02,9.01 04/25/06 HARTFORD LIFE INSURANCE CO CT 9.01 04/25/06 HCA INC/TN DE 2.02,7.01,9.01 04/25/06 HEALTH MANAGEMENT ASSOCIATES INC DE 2.02,9.01 04/25/06 HEALTHCARE REALTY TRUST INC MD 2.02,9.01 04/25/06 HEINZ H J CO PA 8.01 04/24/06 HERITAGE OAKS BANCORP CA 8.01,9.01 04/25/06 HOLLY ENERGY PARTNERS LP DE 2.02,7.01,9.01 04/25/06 HOLOGIC INC DE 2.02,9.01 04/25/06 HOME FEDERAL BANCORP IN 7.01,9.01 04/25/06 HOSPIRA INC DE 5.02,9.01 04/25/06 HYDRIL CO DE 2.02,9.01 02/24/06 IBERIABANK CORP LA 2.02,7.01,9.01 04/24/06 IBT BANCORP INC /MI/ MI 5.05,9.01 04/19/06 ICAD INC DE 1.01,3.02,5.02,5.03,8.01,9.01 04/19/06 IHOP CORP DE 8.01,9.01 04/24/06 II-VI INC PA 2.02,9.01 04/24/06 IMCLONE SYSTEMS INC DE 8.01,9.01 04/25/06 IMPSAT FIBER NETWORKS INC DE 8.01,9.01 04/24/06 INDYMAC BANCORP INC DE 2.02,9.01 04/25/06 INFOSONICS CORP 2.02,9.01 04/25/06 INGRAM MICRO INC DE 2.02,9.01 04/25/06 INNOSPEC INC. DE 2.02 04/25/06 INSWEB CORP DE 1.01 04/25/06 INTEGRA LIFESCIENCES HOLDINGS CORP DE 1.01,7.01,9.01 04/25/06 INTEGRAMED AMERICA INC DE 7.01,9.01 04/25/06 INTEGRATED SILICON SOLUTION INC DE 2.02,9.01 04/25/06 INTERACTIVE INTELLIGENCE INC IN 2.02,9.01 04/25/06 INTERCHANGE CORP DE 5.02,9.01 04/19/06 INTERNATIONAL BUSINESS MACHINES CORP NY 7.01,8.01 04/25/06 INTERNET SECURITY SYSTEMS INC/GA DE 2.02,9.01 04/25/06 INVESTORS FINANCIAL SERVICES CORP DE 1.01 04/18/06 IPAYMENT INC DE 7.01 04/25/06 iPCS, INC DE 2.02,9.01 04/25/06 ISTAR FINANCIAL INC MD 2.02,9.01 04/25/06 ITRON INC /WA/ WA 2.02,9.01 04/25/06 ITRONICS INC TX 2.02 04/20/06 J CREW GROUP INC DE 2.02,9.01 04/25/06 J P MORGAN CHASE & CO DE 9.01 04/21/06 JETBLUE AIRWAYS CORP DE 1.01,2.02,9.01 04/25/06 JOHNSON OUTDOORS INC WI 5.02,9.01 04/24/06 JOURNAL COMMUNICATIONS INC 2.02,9.01 04/25/06 JOURNAL COMMUNICATIONS INC 7.01,9.01 04/25/06 JOY GLOBAL INC DE 1.01,7.01 04/24/06 KAISER GROUP HOLDINGS INC DE 8.01 04/21/06 KANA SOFTWARE INC DE 1.01,2.02,9.01 04/20/06 KANA SOFTWARE INC DE 5.02 04/19/06 AMEND Kansas City Southern de Mexico, S.A. O5 1.01,9.01 04/19/06 KCS ENERGY INC DE 1.01,7.01,9.01 04/20/06 KELLOGG CO DE 1.01 04/21/06 KELLY SERVICES INC DE 2.02,9.01 04/25/06 KENEXA CORP 5.02 02/15/06 AMEND KILLBUCK BANCSHARES INC OH 5.02 04/24/06 KILROY REALTY CORP MD 2.02,9.01 04/24/06 KIMCO REALTY CORP MD 2.02 04/25/06 KINETIC CONCEPTS INC /TX/ TX 9.01 03/31/06 KNAPE & VOGT MANUFACTURING CO MI 1.01 04/21/06 KNOLL INC DE 2.02,9.01 04/25/06 KONIGSBERG CORP NV 8.01,9.01 04/12/06 Kraton Polymers LLC DE 7.01,9.01 04/25/06 KSW INC NY 8.01,9.01 04/24/06 L 3 COMMUNICATIONS HOLDINGS INC DE 2.02,9.01 04/25/06 LABORATORY CORP OF AMERICA HOLDINGS DE 2.02 04/25/06 LABORATORY CORP OF AMERICA HOLDINGS DE 7.01 04/25/06 LABRANCHE & CO INC DE 2.02,5.02,9.01 04/25/06 LAND O LAKES INC 2.02,9.01 04/25/06 LANDAMERICA FINANCIAL GROUP INC VA 2.02,9.01 03/31/06 LCA VISION INC DE 2.02,9.01 04/25/06 LEADIS TECHNOLOGY INC DE 2.02,9.01 04/25/06 LEAR CORP DE 1.01,1.02,2.03,3.03,9.01 04/25/06 LEE ENTERPRISES, INC DE 2.02,9.01 04/20/06 LEE ENTERPRISES, INC DE 5.02,9.01 04/25/06 LEHMAN ABS CORP BACKED TRUST CERTS SE DE 8.01 04/24/06 LEHMAN BROTHERS HOLDINGS INC DE 9.01 04/20/06 LEVEL 3 COMMUNICATIONS INC DE 2.02,9.01 04/25/06 LEXMARK INTERNATIONAL INC /KY/ DE 2.02,9.01 04/24/06 LIBERTY PROPERTY TRUST MD 2.02,9.01 04/24/06 LINCARE HOLDINGS INC DE 2.02,9.01 04/24/06 LINCOLN BANCORP /IN/ IN 2.02,9.01 04/21/06 LIQUIDMETAL TECHNOLOGIES INC 7.01 04/25/06 LITHIA MOTORS INC OR 2.02,9.01 04/24/06 LL&E ROYALTY TRUST TX 7.01,9.01 04/25/06 LMI AEROSPACE INC MO 1.01,8.01,9.01 04/19/06 LOCKHEED MARTIN CORP MD 2.02,9.01 04/25/06 LOGICVISION INC DE 2.02,9.01 04/25/06 LTC PROPERTIES INC MD 2.02,9.01 04/25/06 LUBRIZOL CORP OH 5.02 04/24/06 LUBYS INC DE 2.02 04/25/06 LUCENT TECHNOLOGIES INC DE 2.02,8.01,9.01 04/25/06 M I HOMES INC OH 2.02,9.01 04/25/06 MAINSOURCE FINANCIAL GROUP IN 7.01,9.01 04/25/06 MANHATTAN ASSOCIATES INC GA 2.02,9.01 04/25/06 MANUGISTICS GROUP INC DE 1.01,2.02,3.03,8.01,9.01 04/24/06 MARINER ENERGY INC DE 1.01,2.03,9.01 04/19/06 MARKWEST ENERGY PARTNERS L P 1.01,2.03,9.01 04/19/06 MARKWEST HYDROCARBON INC DE 1.01,2.03,9.01 04/19/06 MARSHALL & ILSLEY CORP/WI/ WI 8.01,9.01 04/25/06 MARTEN TRANSPORT LTD DE 2.02,9.01 04/24/06 MARTHA STEWART LIVING OMNIMEDIA INC DE 2.02,9.01 04/25/06 MASTR Asset Backed Securities Trust 2 DE 2.01,9.01 03/09/06 AMEND MATRIXX INITIATIVES INC DE 2.02,9.01 04/24/06 MAXYGEN INC DE 2.02,9.01 04/25/06 MCG CAPITAL CORP DE 1.01,2.03,9.01 04/17/06 AMEND MCGRAW-HILL COMPANIES INC NY 2.02,7.01,9.01 04/25/06 MCMORAN EXPLORATION CO /DE/ DE 1.01,2.03,9.01 04/19/06 MD TECHNOLOGIES INC 2.01,7.01,9.01 04/25/06 AMEND MEDINA INTERNATIONAL CORP 5.02 04/20/06 AMEND MELLON FINANCIAL CORP PA 1.01,1.02,9.01 04/20/06 MEMORY PHARMACEUTICALS CORP 8.01 04/21/06 MERCANTILE BANKSHARES CORP MD 2.02,9.01 04/25/06 MEREDITH CORP IA 2.02,9.01 04/25/06 MEREDITH CORP IA 2.02,9.01 04/25/06 META FINANCIAL GROUP INC DE 2.02,9.01 04/24/06 METROCORP BANCSHARES INC 2.02,9.01 04/24/06 MFA MORTGAGE INVESTMENTS MD 1.01,9.01 04/24/06 MICREL INC CA 8.01 04/25/06 MICROCHIP TECHNOLOGY INC DE 1.01,2.02,9.01 04/25/06 MILLIPORE CORP /MA MA 2.02,8.01,9.01 04/25/06 MIRANT AMERICAS GENERATING LLC DE 5.02 04/24/06 MIRANT MID ATLANTIC LLC DE 5.02 04/19/06 MITCHAM INDUSTRIES INC TX 2.02,9.01 04/18/06 MIVA, INC. DE 2.02,9.01 04/21/06 MOBIUS MANAGEMENT SYSTEMS INC DE 2.02,9.01 04/25/06 MONEYGRAM INTERNATIONAL INC 8.01 04/25/06 MONMOUTH REAL ESTATE INVESTMENT CORP MD 5.03,9.01 04/25/06 MONSANTO CO /NEW/ DE 1.01 04/19/06 MONTEREY GOURMET FOODS DE 2.02,9.01 04/20/06 MORGAN BEAUMONT, INC. NV 8.01 03/27/06 MOSCOW CABLECOM CORP DE 3.01,9.01 04/19/06 MTC TECHNOLOGIES INC DE 2.02,9.01 04/25/06 MUELLER INDUSTRIES INC DE 2.02,9.01 04/25/06 MULTI COLOR CORP OH 1.01,8.01,9.01 04/19/06 MURPHY OIL CORP /DE DE 2.02,7.01,9.01 04/25/06 MUTUALFIRST FINANCIAL INC MD 2.02,9.01 04/20/06 MYERS INDUSTRIES INC OH 2.02,9.01 03/31/06 NABI BIOPHARMACEUTICALS DE 8.01,9.01 04/25/06 NANOGEN INC DE 1.01,7.01,9.01 04/19/06 NANOMETRICS INC CA 2.02,9.01 04/25/06 NASHUA CORP MA 1.01,9.01 04/24/06 NATIONAL BANK OF INDIANAPOLIS CORP IN 1.01 04/20/06 National Collegiate Student Loan Trus 8.01,9.01 04/25/06 NATIONAL PENN BANCSHARES INC PA 7.01,9.01 04/25/06 NATIONAL PRESTO INDUSTRIES INC WI 2.02,4.02,9.01 04/13/06 AMEND NationsHealth, Inc. DE 7.01,9.01 04/25/06 NATIONWIDE FINANCIAL SERVICES INC/ DE 8.01 04/25/06 NB&T FINANCIAL GROUP INC OH 2.02,7.01,9.01 04/25/06 NBT BANCORP INC DE 2.02,9.01 04/24/06 NEUSTAR INC 1.01,2.01,7.01,9.01 04/19/06 NEWMIL BANCORP INC DE 1.01,9.01 04/24/06 NEXITY FINANCIAL CORP DE 3.01 04/20/06 NEXT INC/TN DE 1.01 04/24/06 Nomura Asset Acceptance Corporation, DE 2.01,9.01 03/30/06 NORTHERN BORDER PARTNERS LP DE 1.01,7.01,9.01 04/20/06 NORTHERN BORDER PIPELINE CO TX 1.01 04/20/06 NORTHROP GRUMMAN CORP /DE/ DE 2.02,9.01 04/25/06 NORTHWEST BANCORP INC PA 2.02,9.01 04/24/06 NORTHWEST INDIANA BANCORP IN 1.01,9.01 04/19/06 NORTHWEST PIPE CO OR 2.02,9.01 04/25/06 NORWOOD FINANCIAL CORP PA 2.02,8.01,9.01 04/24/06 NORWOOD FINANCIAL CORP PA 1.01,9.01 04/25/06 NS GROUP INC KY 2.02,9.01 04/24/06 NUTECH DIGITAL INC CA 1.01,3.02 04/14/06 NxStage Medical, Inc. DE 2.02,8.01,9.01 04/20/06 OCCIDENTAL PETROLEUM CORP /DE/ DE 2.02,8.01 04/25/06 OFFICEMAX INC DE 8.01,9.01 04/24/06 OHIO LEGACY CORP OH 2.02,9.01 04/24/06 OI CORP OK 5.02,9.01 04/21/06 OMI CORP/M I 2.02,9.01 04/24/06 OMNICELL INC /CA/ CA 2.02,9.01 04/20/06 OMNICOM GROUP INC NY 2.02,7.01,9.01 04/25/06 ONEOK INC /NEW/ OK 1.01 04/25/06 OPTI INC CA 7.01,9.01 04/24/06 Origen Manufactured Housing Contract DE 8.01,9.01 03/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 04/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 05/16/05 Origen Manufactured Housing Contract DE 8.01,9.01 06/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 07/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 08/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 09/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 10/17/05 Origen Manufactured Housing Contract DE 8.01,9.01 11/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 12/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 01/17/06 Origen Manufactured Housing Contract DE 8.01,9.01 02/15/06 Origen Manufactured Housing Contract DE 8.01,9.01 03/15/06 Origen Manufactured Housing Contract DE 8.01,9.01 05/03/05 Origen Manufactured Housing Contract DE 8.01,9.01 05/12/05 Origen Manufactured Housing Contract DE 8.01,9.01 06/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 07/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 08/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 09/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 10/17/05 Origen Manufactured Housing Contract DE 8.01,9.01 11/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 12/15/05 Origen Manufactured Housing Contract DE 8.01,9.01 01/17/06 Origen Manufactured Housing Contract DE 8.01,9.01 02/15/06 Origen Manufactured Housing Contract DE 8.01,9.01 03/15/06 Origen Manufactured Housing Contract DE 8.01,9.01 11/30/05 Origen Manufactured Housing Contract DE 8.01,9.01 12/30/05 Origen Manufactured Housing Contract DE 8.01,9.01 01/17/06 Origen Manufactured Housing Contract DE 8.01,9.01 02/15/06 Origen Manufactured Housing Contract DE 8.01,9.01 03/15/06 OSI PHARMACEUTICALS INC DE 1.01 04/19/06 PACCAR INC DE 2.02,9.01 04/25/06 PACIFIC GAS & ELECTRIC CO CA 8.01 04/25/06 PAPA JOHNS INTERNATIONAL INC DE 1.01,9.01 04/19/06 PAPA JOHNS INTERNATIONAL INC DE 2.02,9.01 04/25/06 PARALLEL PETROLEUM CORP DE 7.01,9.01 04/25/06 PARK CITY GROUP INC DE 7.01 03/31/06 PARTNERRE LTD 2.02,9.01 04/24/06 PATAPSCO BANCORP INC MD 8.01,9.01 04/05/06 AMEND PATRICK INDUSTRIES INC IN 2.02,9.01 04/24/06 PEOPLES ENERGY CORP IL 8.01 04/25/06 PEPCO HOLDINGS INC DE 8.01 04/21/06 PEPSIAMERICAS INC/IL/ DE 2.02,8.01,9.01 04/25/06 PERVASIVE SOFTWARE INC DE 2.02,9.01 04/25/06 PG&E CORP CA 8.01 04/25/06 PINNACLE FINANCIAL PARTNERS INC TN 2.02,9.01 03/31/06 PIXELWORKS INC OR 2.02,9.01 04/25/06 PNC FINANCIAL SERVICES GROUP INC PA 2.02,9.01 04/25/06 POGO PRODUCING CO DE 2.02,9.01 04/25/06 POMEROY IT SOLUTIONS INC DE 3.01 04/21/06 PORTFOLIO RECOVERY ASSOCIATES INC DE 2.02,9.01 04/25/06 POTLATCH CORP DE 2.02,9.01 04/25/06 POTOMAC BANCSHARES INC WV 8.01,9.01 04/25/06 POTOMAC ELECTRIC POWER CO VA 8.01 04/21/06 POWER ONE INC DE 2.02,9.01 04/25/06 PREMIERE GLOBAL SERVICES, INC. GA 1.01,2.03,9.01 04/21/06 ProLink Holdings Corp. DE 4.01,8.01,9.01 04/19/06 PULASKI FINANCIAL CORP MO 2.02,9.01 04/25/06 RAYONIER INC NC 2.02,9.01 04/25/06 RC2 CORP DE 2.02,9.01 04/25/06 Red Sky Resources Inc. NV 7.01,9.01 04/25/06 REFLECT SCIENTIFIC INC UT 1.01,9.01 04/19/06 RENT A CENTER INC DE DE 2.02,9.01 04/24/06 RES CARE INC /KY/ KY 1.01,1.02,5.02,9.01 04/24/06 REYNOLDS AMERICAN INC 1.01,7.01,9.01 04/24/06 RF MICRO DEVICES INC NC 2.02 04/25/06 RIVIERA HOLDINGS CORP NV 7.01 04/25/06 Rocketinfo Inc. DE 5.02,9.01 04/24/06 ROYAL BANCSHARES OF PENNSYLVANIA INC PA 5.03,9.01 04/19/06 RR Donnelley & Sons Co DE 8.01,9.01 03/02/06 RTG VENTURES INC FL 5.01,5.02,9.01 04/24/06 RURBAN FINANCIAL CORP OH 2.02,7.01,8.01,9.01 04/20/06 RYANS RESTAURANT GROUP INC SC 1.01 04/19/06 S1 CORP /DE/ DE 8.01,9.01 04/19/06 SANMINA-SCI CORP DE 2.02,9.01 04/25/06 SANTANDER BANCORP 1.01 04/19/06 SCHULMAN A INC DE 8.01,9.01 04/25/06 SCICLONE PHARMACEUTICALS INC DE 1.01,5.02,9.01 04/23/06 SCIENTIFIC TECHNOLOGIES INC OR 1.01,9.01 04/25/06 SCOTTS MIRACLE-GRO CO OH 5.02,9.01 04/19/06 SCRIPPS E W CO /DE OH 2.02,9.01 04/25/06 SEATTLE GENETICS INC /WA DE 1.01 04/24/06 SEATTLE GENETICS INC /WA DE 2.02,9.01 04/25/06 SECURED FINANCIAL NETWORK, INC. NV 4.01,9.01 03/03/06 AMEND SELECT COMFORT CORP 2.02,9.01 04/25/06 SELECTIVE INSURANCE GROUP INC NJ 2.02,9.01 04/25/06 SEMCO ENERGY INC MI 1.01,3.02 04/19/06 SEPRACOR INC /DE/ DE 2.02,9.01 04/25/06 SEROLOGICALS CORP DE 1.01,2.02,9.01 04/25/06 SERVICE AIR GROUP INC NJ 4.01 04/24/06 SERVICE AIR GROUP INC NJ 3.02 04/24/06 SHARPS COMPLIANCE CORP DE 2.02,9.01 04/25/06 SHENANDOAH TELECOMMUNICATIONS CO/VA/ VA 2.02,9.01 04/21/06 SHERWIN WILLIAMS CO OH 1.01,9.01 04/25/06 Shire plc 8.01,9.01 04/25/06 SIERRA BANCORP CA 2.02,9.01 04/24/06 SIGMATEL INC DE 2.02,9.01 04/25/06 SILICON GRAPHICS INC DE 2.02,8.01,9.01 04/25/06 SIMMONS FIRST NATIONAL CORP AR 2.02 04/20/06 AMEND SIRF TECHNOLOGY HOLDINGS INC 2.02,9.01 04/25/06 SKY FINANCIAL GROUP INC OH 7.01,9.01 04/19/06 SKYE INTERNATIONAL, INC NV 5.02 04/20/06 SL GREEN REALTY CORP MD 1.01,2.02,7.01,8.01,9.01 04/19/06 SMITH INTERNATIONAL INC DE 2.02,9.01 04/25/06 SMURFIT STONE CONTAINER CORP DE 2.02,9.01 04/25/06 SONIC AUTOMOTIVE INC DE 2.02,7.01,9.01 04/25/06 SOUTHERN CO DE 2.02 04/25/06 SOUTHERN CO DE 7.01 04/25/06 SOUTHERN STAR CENTRAL CORP DE 7.01,9.01 04/25/06 SOUTHWEST GAS CORP CA 1.01 04/25/06 SOVEREIGN BANCORP INC PA 8.01,9.01 04/24/06 SOVRAN ACQUISITION LTD PARTNERSHIP MD 1.01,9.01 04/25/06 SOVRAN SELF STORAGE INC MD 1.01,9.01 04/25/06 SPEEDEMISSIONS INC FL 5.02 04/24/06 ST MARY LAND & EXPLORATION CO DE 1.01,9.01 04/25/06 STAKTEK HOLDINGS INC DE 1.01,5.03,9.01 04/20/06 STAMPS.COM INC DE 2.02,8.01,9.01 04/25/06 STANCORP FINANCIAL GROUP INC OR 2.02,8.01,9.01 04/25/06 STANDARD MICROSYSTEMS CORP DE 5.02 04/25/06 STEEL TECHNOLOGIES INC KY 2.02,9.01 04/25/06 SUPPORTSOFT INC DE 5.02 04/19/06 SURMODICS INC MN 1.01,9.01 04/19/06 SUSQUEHANNA BANCSHARES INC PA 2.02,9.01 04/25/06 SYNOVUS FINANCIAL CORP GA 2.02,7.01,9.01 04/25/06 SYNPLICITY INC CA 2.02,9.01 04/25/06 SYNTEL INC MI 2.02,9.01 04/25/06 TANDY LEATHER FACTORY INC DE 2.02,9.01 03/31/06 TANGER FACTORY OUTLET CENTERS INC NC 2.02,7.01,9.01 03/31/06 TECO ENERGY INC FL 2.02,9.01 04/25/06 TEXAS INDUSTRIES INC DE 1.01,9.01 04/19/06 TEXAS PACIFIC LAND TRUST 2.02,9.01 04/25/06 TEXTRON FINANCIAL CORP DE 1.01,9.01 04/21/06 TEXTRON INC DE 1.01,9.01 04/21/06 THESTREET COM DE 2.02,9.01 04/25/06 THIRD WAVE TECHNOLOGIES INC /WI DE 2.02,9.01 04/25/06 THOMAS & BETTS CORP TN 2.02,9.01 04/25/06 THOMAS GROUP INC DE 2.02,9.01 04/20/06 TIB FINANCIAL CORP. FL 8.01,9.01 04/24/06 TRADESTATION GROUP INC FL 2.02,9.01 04/25/06 TRANSACTION SYSTEMS ARCHITECTS INC DE 2.02,7.01,9.01 04/25/06 TRANSCAT INC OH 1.01,9.01 04/19/06 TreeHouse Foods, Inc. DE 2.01,2.03,9.01 04/24/06 TRICELL INC 7.01,9.01 04/25/06 TRIQUINT SEMICONDUCTOR INC DE 2.02,9.01 04/25/06 TRIZETTO GROUP INC DE 2.02,9.01 04/25/06 TUESDAY MORNING CORP/DE DE 2.02,9.01 04/25/06 TUMBLEWEED COMMUNICATIONS CORP DE 2.02,9.01 04/25/06 TURBOSONIC TECHNOLOGIES INC DE 8.01,9.01 04/24/06 TWIN DISC INC WI 2.02 04/25/06 UMB FINANCIAL CORP MO 2.02,9.01 04/25/06 UMB FINANCIAL CORP MO 8.01,9.01 04/25/06 UNITED DOMINION REALTY TRUST INC MD 2.02,9.01 04/24/06 United Financial Bancorp Inc 5.02,9.01 04/21/06 UNITED PAN AM FINANCIAL CORP CA 2.02,9.01 04/24/06 UNITED PARCEL SERVICE INC DE 1.01,1.02,2.02,2.03,9.01 04/20/06 UNITED SECURITY BANCSHARES INC DE 2.02,9.01 04/24/06 UNITED STATES STEEL CORP DE 2.02,9.01 04/25/06 UNITED STATES STEEL CORP DE 8.01,9.01 04/25/06 UNITED WISCONSIN GRAIN PRODUCERS LLC WI 2.02 04/22/06 UNITY BANCORP INC /NJ/ NJ 8.01,9.01 04/24/06 UNIVERSAL FOG INC 5.03 06/10/05 AMEND UNIVERSAL HEALTH REALTY INCOME TRUST MD 1.01,2.02,9.01 04/25/06 UNIVERSAL HEALTH SERVICES INC DE 8.01 04/25/06 UNIVISION COMMUNICATIONS INC DE 5.02 04/19/06 US XPRESS ENTERPRISES INC NV 2.02,9.01 04/24/06 USANA HEALTH SCIENCES INC UT 1.01,5.03,9.01 04/19/06 USG CORP DE 2.02 04/25/06 UST INC DE 2.02,9.01 04/25/06 V F CORP PA 2.02,7.01,9.01 04/25/06 VALASSIS COMMUNICATIONS INC DE 2.02,9.01 04/25/06 VALERO ENERGY CORP/TX DE 2.02,9.01 04/25/06 VALLEY FINANCIAL CORP /VA/ VA 2.02 04/21/06 VARIAN MEDICAL SYSTEMS INC DE 2.02,9.01 04/25/06 VEECO INSTRUMENTS INC DE 2.02,9.01 04/25/06 VERTEX PHARMACEUTICALS INC / MA MA 2.02,9.01 04/25/06 VERTRUE INC DE 2.02,9.01 04/25/06 Vestin Realty Trust I, Inc 5.03,9.01 04/20/06 Village Bank & Trust Financial Corp. 2.02,9.01 04/21/06 VIRGINIA FINANCIAL GROUP INC VA 2.02,9.01 04/24/06 VisualMED Clinical Solutions Corp. NV 7.01 04/24/06 VITAL LIVING INC AZ 5.02,9.01 04/21/06 VNUS MEDICAL TECHNOLOGIES INC 1.01,5.02,9.01 04/24/06 VNUS MEDICAL TECHNOLOGIES INC 2.02,9.01 04/24/06 Vocus, Inc. DE 2.02,9.01 04/25/06 VOIP INC 1.01,2.01,9.01 04/19/06 VSB BANCORP INC NY 8.01,9.01 04/25/06 W HOLDING CO INC PR 8.01,9.01 04/24/06 WASTE CONNECTIONS INC/DE DE 7.01 04/25/06 WASTE SERVICES, INC. A6 2.02,9.01 03/31/06 WAUSAU PAPER CORP. 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markdown	678276	# Presentation: 678276 ## Audit Requirements - Second Annual NIH SBIR/STTR Conference ## Audit? Who said anything about having an audit? - The Department of Health & Human Services did! - HHS specifies requirements for audits of for-profit organizations in - 45 CFR 74.26(d)* - * http://www.hhs.gov/progorg/grantsnet/adminis/cfr45-docs/p74-subc.html#74.26 ## Let’s have that in plain English. - A for-profit organization is required to have a non-Federal audit if: - it expended a total of $300,000 or more under one or more HHS awards - _AND_ - at least one of the awards is an HHS _grant_ ## I thought the $300,000 expended threshold was related to OMB Circular A-133 and isn’t that for non-profits and universities? - Yes and Yes...However, 45 CFR 74.26(d) essentially incorporates the _thresholds_ and _deadlines_ of OMB Circular A-133. ## So, I must have an A-133 audit if I expend $300,000 or more in HHS funds and I have at least one grant award. - Not exactly.... ## Good news !You have a choice. - 45 CFR 74.26(d) provides for-profit organizations with two options regarding the type of audit that will satisfy the audit requirements. ## 1 - A financial related audit as defined in, and in accordance with, the Government auditing Standards (a.k.a. the “Yellow Book”)* - 2 - An audit that meets the requirements of OMB Circular A-133 * http://www.gao.gov/govaud/ybk01.htm ** http://www.whitehouse.gov/OMB/circulars/a133/a133.html OR** ## Is there a due date? - Yes, 45 CFR 74.26(d) essentially incorporates the deadlines of OMB Circular A-133 - Audits shall be completed and submitted within: - 30 days after receipt of the auditor’s report - or - 9 months after the end of the organization’s fiscal year Whichever is earlier ## Okay, the auditors have done their work and the audit is complete. Now what? - _Good_ question, the filing requirements differ from A-133. - For-profit audit reports are submitted to: National External Audit Review Center HHS Office of Audit Services 323 West 8th Street Lucas Place, Room 514 Kansas City, MO 64105 ## Great, I didn’t expend more than $300,000 in HHS funds this year so I’m off the “hook”, right? - While it is true you are not required to have an audit for that particular year, keep in mind that your grant-related records must be available to NIH or other designated officials for review or audit.	en
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123037 FORT_WAYNE_INTL_AP_IN 41.00 -85.20 1.8 9.1 8.9 33.3 33.3 9.5-10.8 10.6 124259 INDIANAPOLIS_INTL_AP_IN 39.72 -86.27 2.3 11.4 10.9 33.3 33.3 7.2 -7.1 12.2 124837 LA_PORTE_IN 41.62 -86.73 2.8 9.4 9.3 33.3 33.3 10.6 -9.5 10.2 128187 SOUTH_BEND_MICHIANA_RGNL_AP_IN 41.70 -86.33 3.0 9.1 9.5 33.3 33.3 14.7-11.1 10.0 129430 WEST_LAFAYETTE_6_NW_IN 40.47 -87.00 1.0 5.8 7.4 33.3 33.3 8.3 -9.2 11.2 131314 CEDAR_RAPIDS_MUNICIPAL_AP_IA 41.88 -91.72 0.0 4.3 5.4 36.2 33.3 1.5 -4.1 10.4 131319 CEDAR_RAPIDS_NO_1_IA 42.03 -91.58 0.3 4.6 5.4 33.3 33.3 5.2 -4.5 10.3 131442 CHEROKEE_IA 42.75 -95.53 0.0 2.3 3.4 45.8 33.3 4.5 -6.1 9.0 131635 CLINTON_NO_1_IA 41.80 -90.27 0.5 5.6 7.2 33.3 33.3 5.5 -8.8 10.5 131731 COLUMBUS_JUNCT_2_SSW_IA 41.25 -91.37 0.5 6.9 7.1 33.3 33.3 2.4 -6.5 10.8 131954 CRESCO_1_NE_IA 43.38 -92.10 0.0 3.6 4.3 35.2 33.3 2.0 -6.9 9.2 132203 DES_MOINES_INTL_AP_IA 41.53 -93.67 0.5 5.3 5.7 33.3 33.3 5.2 -4.0 10.3 132367 DUBUQUE_REGIONAL_AP_IA 42.40 -90.70 0.5 6.1 7.0 33.3 33.3 5.4 -7.7 10.1 137700 SIOUX_CENTER_2_SE_IA 43.05 -96.15 0.0 2.5 3.9 42.8 33.3 4.9 -7.0 8.5 137708 SIOUX_CITY_SIOUX_GATEWAY_AP_IA 42.38 -96.38 0.0 2.3 3.4 36.3 33.3 4.7 -5.7 8.8 137844 SPENCER_1_N_IA 43.17 -95.15 0.0 1.5 3.0 44.9 33.3 0.7 -4.2 8.9 138706 WATERLOO_MUNICIPAL_AP_IA 42.55 -92.40 0.3 4.1 5.2 33.3 33.3 5.2 -4.9 10.0 140693 BELOIT_KS 39.48 -98.10 0.0 1.8 3.9 50.9 33.3 -4.0 0.2 8.0 141408 CENTRALIA_KS 39.72 -96.12 0.0 4.3 5.2 38.8 33.3 -2.9 -4.2 9.7 141767 CONCORDIA_BLOSSER_MUNI_AP_KS 39.55 -97.65 0.0 2.5 3.8 44.4 33.3 -0.6 -0.2 8.4 142164 DODGE_CITY_REGIONAL_AP_KS 37.77 -99.97 0.0 1.5 3.2 49.5 33.3 3.5 -5.5 5.7 143153 GOODLAND_RENNER_FIELD_KS 39.37 -101.70 0.0 1.3 2.4 50.2 33.3 8.0 -8.6 5.0 144712 LINCOLN_1_ESE_KS 39.03 -98.12 0.0 2.3 4.3 50.0 33.3 -3.2 1.7 7.9 145972 OLATHE_3_E_KS 38.88 -94.77 0.3 5.8 6.5 33.3 33.3 -1.5 -2.3 11.3 147271 SCOTT_CITY_KS 38.48 -100.92 0.0 1.5 3.3 54.1 33.3 2.6 -3.5 5.3 147542 SMITH_CENTER_KS 39.78 -98.78 0.0 1.3 3.2 54.2 33.3 1.3 -1.8 7.3 148167 TOPEKA_MUNICIPAL_AP_KS 39.07 -95.63 0.3 4.8 5.9 33.3 33.3 1.6 -3.2 10.5 148235 TRIBUNE_1_W_KS 38.47 -101.78 0.0 0.5 2.6 61.2 33.3 3.1 -0.8 4.8 148495 WAKEENEY_KS 39.03 -99.88 0.0 1.5 4.0 48.8 33.3 2.8 -1.2 6.0 148830 WICHITA_MID-CONTINENT_AP_KS 37.65 -97.43 0.0 2.8 5.0 42.5 33.3 0.9 0.2 8.7 151855 CINCINNATI_NORTHERN_KY_AP_KY 39.05 -84.67 3.0 12.7 12.6 33.3 33.3 3.5 -5.5 13.8 154746 LEXINGTON_BLUEGRASS_AP_KY 38.03 -84.60 3.8 14.0 15.7 33.3 33.3 1.4 -3.5 16.1 154954 LOUISVILLE_STANDIFORD_FIELD_KY 38.18 -85.73 2.8 14.5 15.6 33.3 33.3 2.8 -6.3 15.4 156110 PADUCAH_BARKLEY_REGIONAL_AP_KY 37.05 -88.77 2.5 18.5 17.8 33.3 33.3 -2.2 0.3 17.1 160549 BATON_ROUGE_RYAN_ARPT_LA 30.53 -91.15 3.8 25.7 23.4 33.3 33.3-13.7 12.5 27.5 162800 ELIZABETH_LA 30.85 -92.78 3.0 24.4 21.6 33.3 33.3-18.2 15.1 25.6 164700 JENNINGS_LA 30.20 -92.67 2.5 19.6 17.3 33.3 33.3-17.4 15.1 25.6 165078 LAKE_CHARLES_REGIONAL_ARPT_LA 30.12 -93.23 1.5 15.7 15.1 33.3 33.3-15.6 11.9 24.5 165090 LAKE_PROVIDENCE_LA 32.80 -91.17 3.0 25.1 24.0 33.3 33.3-13.2 13.5 27.2 165266 LEESVILLE_LA 31.13 -93.25 3.3 24.9 20.6 33.3 33.3-17.7 11.8 24.7 166582 NATCHITOCHES_LA 31.77 -93.10 2.3 25.4 20.9 33.3 33.3-16.6 15.6 25.1 166660 NEW_ORLEANS_INTL_ARPT_LA 30.00 -90.25 2.5 26.9 24.3 33.3 33.3-17.2 14.6 28.4 168440 SHREVEPORT_REGIONAL_ARPT_LA 32.45 -93.82 1.8 24.1 19.6 33.3 33.3-13.7 16.1 23.6 170934 BRUNSWICK_ME 43.90 -69.93 3.0 18.5 15.9 33.3 33.3 31.2-23.4 6.7 171175 CARIBOU_MUNICIPAL_ARPT_ME 46.87 -68.03 2.5 10.7 9.5 33.3 33.3 37.3-21.5 5.6 172426 EASTPORT_ME 44.92 -67.00 4.1 17.0 14.0 33.3 33.3 39.5-23.7 6.1 172765 FARMINGTON_ME 44.68 -70.15 2.3 13.7 12.9 33.3 33.3 41.9-26.3 6.2 176905 PORTLAND_INTL_JETPORT_ME 43.65 -70.30 2.5 16.8 14.2 33.3 33.3 30.3-23.2 6.9 177037 RANGELEY_ME 44.97 -70.65 2.5 10.4 9.7 33.3 33.3 42.6-25.4 6.1 180465 BALTIMORE_BLT-WASHNGTN_INT'L_MD 39.17 -76.68 2.8 16.0 13.7 33.3 33.3 3.4 -3.9 14.5 181750 CHESTERTOWN_MD 39.22 -76.07 3.6 16.3 13.7 33.3 33.3 3.0 -5.4 14.6 188005 SALISBURY_WICOMICO_CO_AP_MD 38.33 -75.52 5.8 18.0 16.3 33.3 33.3 -0.8 -1.0 17.2 188380 SNOW_HILL_4_N_MD 38.23 -75.38 5.8 16.5 15.8 33.3 33.3 0.1 -1.3 17.5 190535 BEDFORD_MA 42.48 -71.28 2.8 17.3 15.0 33.3 33.3 24.9-16.4 8.0 190736 EAST_MILTON_BLUE_HILL_OBSERVA_MA 42.22 -71.12 4.3 23.1 18.6 33.3 33.3 20.4-13.3 8.5 190770 BOSTON_LOGAN_INT'L_ARPT_MA 42.37 -71.02 2.8 17.8 15.3 33.3 33.3 23.5-17.4 8.2 199316 WEST_MEDWAY_MA 42.13 -71.43 3.0 18.8 15.6 33.3 33.3 20.7-19.4 8.8 200146 ALMA_MI 43.38 -84.67 1.3 7.1 7.4 33.3 33.3 22.4-22.4 8.0 200164 ALPENA_COUNTY_REGIONAL_AP_MI 45.07 -83.58 1.8 6.6 6.8 33.3 33.3 25.3-23.0 6.3 200230 ANN_ARBOR_UNIV_OF_MICH_MI 42.30 -83.72 2.8 9.4 9.7 33.3 33.3 16.4-14.8 8.9 200925 BOYNE_FALLS_MI 45.17 -84.92 2.3 6.9 6.9 33.3 33.3 10.8-10.3 6.5 202103 DETROIT_METROPOLITAN_ARPT_MI 42.22 -83.35 2.0 8.1 8.8 33.3 33.3 20.5-16.1 9.0 202626 ESCANABA_MI 45.75 -87.03 1.3 5.1 4.9 33.3 33.3 26.6-19.1 6.7 202846 FLINT_BISHOP_INTL_ARPT_MI 42.97 -83.75 1.5 6.1 6.4 33.3 33.3 22.4-16.0 8.3 203333 GRAND_RAPIDS_KENT_COUNTY_INT'_MI 42.88 -85.52 2.0 6.6 7.7 33.3 33.3 11.1-14.4 8.7 203429 GREENVILLE_2_NNE_MI 43.20 -85.25 1.5 7.1 7.6 33.3 33.3 16.1-23.4 8.3 203908 HANCOCK_HOUGHTON_CO_AP_MI 47.17 -88.50 3.8 11.2 10.4 33.3 33.3 18.4-14.1 6.2 203936 HOUGHTON_LAKE_ROSCOMMON_CO_AR_MI 44.37 -84.68 1.8 6.3 6.4 33.3 33.3 28.0-22.1 7.1 204502 LAKE_CITY_EXP_FARM_MI 44.32 -85.20 1.8 6.1 6.1 33.3 33.3 20.0-21.6 7.2 204641 LANSING_CAPITAL_CITY_ARPT_MI 42.78 -84.58 1.8 6.3 7.0 33.3 33.3 18.5-17.7 8.6 205184 MARQUETTE_COUNTY_ARPT_MI 46.53 -87.55 2.5 9.7 9.0 33.3 33.3 11.2 -8.6 6.4 205712 MUSKEGON_COUNTY_ARPT_MI 43.17 -86.23 2.5 7.9 7.9 33.3 33.3 18.1-14.9 8.6 207366 SAULT_STE_MARIE_SANDERSON_FIE_MI 46.47 -84.35 2.5 8.6 7.6 33.3 33.3 21.6-22.5 6.0 210252 ARGYLE_4_E_MN 48.33 -96.73 0.0 2.3 2.9 43.8 33.3 11.1 -9.2 5.3 210287 ARTICHOKE_LAKE_MN 45.38 -96.15 0.0 2.8 3.6 35.4 33.3 4.3 -6.5 7.0 210643 BEMIDJI_MN 47.47 -94.88 0.3 2.0 2.3 33.3 33.3 13.1-10.4 6.0 211691 COLLEGEVILLE_ST_JOHN_MN 45.58 -94.40 0.0 2.8 3.9 36.9 33.3 6.6 -8.9 7.2 212248 DULUTH_INTERNATIONAL_ARPT_MN 46.83 -92.22 0.8 3.6 4.2 33.3 33.3 17.2-15.0 6.7 212737 FARMINGTON_3_NW_MN 44.67 -93.18 0.0 3.6 3.7 42.5 33.3 4.4-11.5 8.0 213303 GRAND_RAPIDS_FORESTRY_LAB_MN 47.25 -93.50 0.5 2.8 3.0 33.3 33.3 15.2-13.4 6.3 214026 INTERNATIONAL_FALLS_INTL_AP_MN 48.57 -93.40 0.5 2.8 2.9 33.3 33.3 23.0-14.5 6.0 215435 MINNEAPOLIS-ST_PAUL_INT'L_ARP_MN 44.88 -93.23 0.3 3.8 4.0 33.3 33.3 6.5 -7.9 7.8 217004 ROCHESTER_INTERNATIONAL_ARPT_MN 43.90 -92.50 0.5 3.0 3.5 33.3 33.3 8.8 -5.6 8.8 217294 ST_CLOUD_REGIONAL_ARPT_MN 45.55 -94.05 0.3 2.5 3.0 33.3 33.3 10.9 -6.9 7.3 217907 SPRINGFIELD_1_NW_MN 44.25 -94.98 0.0 2.0 3.6 46.9 33.3 6.0 -8.4 8.1 220955 BOONEVILLE_MS 34.67 -88.57 4.6 23.6 21.0 33.3 33.3-12.8 9.6 24.3 224472 JACKSON_INTERNATIONAL_AP_MS 32.32 -90.08 4.6 26.2 22.4 33.3 33.3-14.0 10.0 28.8 225614 MCCOMB_PIKE_COUNTY_AP_MS 31.23 -90.47 4.1 32.0 26.7 33.3 33.3-17.0 13.6 28.3 225776 MERIDIAN_KEY_FIELD_MS 32.33 -88.75 5.6 28.7 25.4 33.3 33.3-16.2 15.5 28.7 230164 ANDERSON_MO 36.65 -94.43 0.0 8.1 9.6 39.8 33.3 -5.3 0.1 14.0 230817 BOONVILLE_MO 38.97 -92.75 0.5 7.9 8.7 33.3 33.3 1.2 -4.0 12.4 231791 COLUMBIA_REGIONAL_AIRPORT_MO 38.82 -92.22 0.8 9.9 10.0 33.3 33.3 -0.0 -3.6 12.8 233079 FULTON_MO 38.85 -91.93 0.8 9.9 9.8 33.3 33.3 -1.5 -3.7 12.8 235834 MOUNTAIN_GROVE_2_N_MO 37.15 -92.27 0.8 11.9 11.8 33.3 33.3 -1.9 2.7 15.2 237455 ST_LOUIS_LAMBERT_INT'L_ARPT_MO 38.75 -90.37 1.0 9.9 10.3 33.3 33.3 1.9 -2.2 13.4 237963 SPICKARD_MO 40.25 -93.72 0.3 5.6 5.9 33.3 33.3 4.4 -6.6 10.9 237976 SPRINGFIELD_REGIONAL_ARPT_MO 37.23 -93.38 1.0 10.4 10.6 33.3 33.3 0.2 0.4 14.0 238515 UNION_MO 38.45 -91.00 1.0 9.7 10.5 33.3 33.3 1.1 -2.8 13.6 238880 WEST_PLAINS_MO 36.75 -91.83 1.0 13.2 13.2 33.3 33.3 -1.8 3.3 16.6 240807 BILLINGS_LOGAN_INT'L_ARPT_MT 45.80 -108.55 0.0 2.8 3.0 33.8 33.3 16.1-18.4 5.7 243558 GLASGOW_INTL_ARPT_MT 48.22 -106.62 0.0 1.3 1.2 35.5 33.3 20.7-14.1 4.0 243751 GREAT_FALLS_INTL_ARPT_MT 47.47 -111.38 0.0 2.5 2.5 34.8 33.3 6.1 -8.2 6.6 243885 HAMILTON_MT 46.23 -114.17 0.5 3.3 4.1 33.3 33.3 15.6-14.1 10.1 243996 HAVRE_CITY-COUNTY_AP_MT 48.55 -109.77 0.0 1.5 1.8 43.7 33.3 18.2-19.2 4.7 244055 HELENA_REGIONAL_AIRPORT_MT 46.60 -111.97 0.0 1.8 2.0 34.0 33.3 7.3-17.1 8.4 244558 KALISPELL_GLACIER_PK_INT'L_AR_MT 48.32 -114.25 1.5 6.3 5.3 33.3 33.3 11.8-14.8 8.3 245603 MELVILLE_4_W_MT 46.10 -110.05 0.0 2.0 2.8 48.1 33.3 7.1 -9.7 7.0 245745 MISSOULA_INTERNATIONAL_AP_MT 46.92 -114.10 0.8 3.6 3.6 33.3 33.3 13.4-10.5 9.4 248430 TWIN_BRIDGES_MT 45.55 -112.33 0.0 0.8 1.0 53.2 33.3 7.5 -5.5 10.3 248501 VALIER_MT 48.32 -112.25 0.0 0.8 1.2 52.4 33.3 4.2 -3.0 6.8 251145 BRIDGEPORT_NE 41.67 -103.10 0.0 1.0 1.9 52.9 33.3 11.4-12.1 4.6 252145 DALTON_NE 41.42 -102.97 0.0 2.0 3.2 46.0 33.3 10.0-11.3 4.7 253185 GENOA_2_W_NE 41.45 -97.77 0.0 2.8 4.0 40.1 33.3 1.5 -3.7 8.1 253395 GRAND_ISLAND_CENTRAL_NE_REGIO_NE 40.97 -98.32 0.0 2.5 3.8 41.9 33.3 3.3 -4.0 7.7 254795 LINCOLN_MUNICIPAL_ARPT_NE 40.83 -96.77 0.0 2.8 3.6 37.7 33.3 -0.8 -4.4 8.9 255925 NEWPORT_NE 42.60 -99.33 0.0 2.5 3.8 39.9 33.3 4.0 -5.3 6.8 255995 NORFOLK_KARL_STEFAN_MEM_ARPT_NE 41.98 -97.43 0.0 2.5 3.8 36.1 33.3 3.3 -6.5 8.3 256065 NORTH_PLATTE_REGIONAL_AP_NE 41.12 -100.67 0.0 1.8 2.7 41.5 33.3 9.7 -8.1 5.8 256255 OMAHA_EPPLEY_AIRFIELD_NE 41.32 -95.90 0.0 3.6 4.2 34.4 33.3 2.0 -4.9 9.4 256260 OMAHA_9_NW_NE 41.35 -96.02 0.3 3.6 4.2 33.3 33.3 7.8 -6.7 9.3 257665 SCOTTSBLUFF_W_B_HEILIG_FIELD_NE 41.87 -103.60 0.0 2.3 2.9 40.8 33.3 11.0-11.7 4.6 258320 SUPERIOR_NE 40.02 -98.07 0.0 2.8 3.8 44.5 33.3 -1.3 -2.0 8.0 258760 VALENTINE_MILLER_FIELD_NE 42.87 -100.55 0.0 1.5 2.4 47.8 33.3 4.7 -7.3 5.9 262573 ELKO_MUNICIPAL_ARPT_NV 40.83 -115.80 0.5 4.6 4.5 33.3 33.3 -5.9 3.2 14.0 262631 ELY_YELLAND_FIELD_NV 39.30 -114.85 0.0 4.1 3.9 35.5 33.3-13.3 7.3 14.0 264436 LAS_VEGAS_MCCARRAN_INTL_AP_NV 36.08 -115.15 0.0 0.5 3.3 61.7 33.3-22.3 16.6 16.0 266779 RENO_TAHOE_INTERNATIONAL_AP_NV 39.48 -119.77 0.0 3.3 4.9 37.4 33.3-15.5 8.7 29.2 268988 WELLS_NV 41.10 -114.97 0.3 4.3 4.3 33.3 33.3 -2.7 -2.5 12.3 269171 WINNEMUCCA_WB_CITY_NV 40.97 -117.72 0.3 3.6 3.2 33.3 33.3 -8.6 5.2 18.2 271683 CONCORD_MUNICIPAL_ARPT_NH 43.20 -71.50 1.5 11.7 10.5 33.3 33.3 27.0-19.1 7.5 275639 MOUNT_WASHINGTON_NH 44.27 -71.30 15.5 36.8 33.0 33.3 33.3 27.9-23.2 6.7 280311 ATLANTIC_CITY_INTL_AP_NJ 39.45 -74.57 3.6 15.7 13.5 33.3 33.3 4.0 -6.2 14.3 283951 HIGHTSTOWN_2_W_NJ 40.27 -74.57 3.8 14.5 12.7 33.3 33.3 9.9-11.9 12.2 285581 MILLVILLE_MUNICIPAL_AP_NJ 39.37 -75.08 3.6 16.5 14.6 33.3 33.3 3.7 -5.0 14.3 286026 NEWARK_INTERNATIONAL_ARPT_NJ 40.72 -74.18 3.8 16.3 13.7 33.3 33.3 10.8 -8.3 11.5 290234 ALBUQUERQUE_INTL_ARPT_NM 35.05 -106.60 0.0 1.0 2.0 54.4 33.3 4.5 -3.7 5.4 293180 FENCE_LAKE_NM 34.65 -108.67 0.0 3.8 4.3 49.2 33.3 -9.3 1.0 7.4 295617 MELROSE_NM 34.43 -103.62 0.0 1.0 2.1 62.8 33.3 9.7-13.2 3.4 295937 MOSQUERO_1_NE_NM 35.80 -103.93 0.0 0.3 1.7 63.9 33.3 6.4 -8.8 3.9 299156 TUCUMCARI_4_NE_NM 35.20 -103.68 0.0 0.3 1.8 64.8 33.3 7.2 -8.5 3.6 300042 ALBANY_COUNTY_AP_NY 42.75 -73.80 2.0 13.2 10.4 33.3 33.3 22.0-15.1 8.3 300687 BINGHAMTON_EDWIN_A_LINK_FIELD_NY 42.20 -75.98 3.6 13.0 11.5 33.3 33.3 15.6-17.1 9.0 300889 BRIDGEHAMPTON_NY 40.95 -72.30 4.8 18.8 16.8 33.3 33.3 12.2 -9.1 11.2 301012 BUFFALO_NIAGARA_INTL_AP_NY 42.93 -78.73 5.1 11.4 11.5 33.3 33.3 23.4-21.2 7.9 304912 LOWVILLE_NY 43.80 -75.48 3.8 11.7 11.8 33.3 33.3 25.8-22.1 7.4 305803 NEW_YORK_J_F_KENNEDY_INT'L_AR_NY 40.65 -73.80 3.0 14.7 12.3 33.3 33.3 9.5-10.9 11.6 305811 NEW_YORK_LAGUARDIA_ARPT_NY 40.78 -73.88 3.0 15.2 12.7 33.3 33.3 7.6 -9.8 11.4 307167 ROCHESTER_GREATER_ROCHESTER_I_NY 43.12 -77.68 3.8 9.9 9.8 33.3 33.3 20.5-20.2 7.8 310300 ASHEVILLE_REGIONAL_ARPT_NC 35.43 -82.53 2.8 17.8 16.2 33.3 33.3 -9.8 5.1 25.2 310301 ASHEVILLE_NC 35.60 -82.53 2.5 15.5 13.5 33.3 33.3 -9.1 7.5 24.6 311458 HATTERAS_BILLY_MITCHELL_AP_NC 35.23 -75.62 4.8 21.1 18.5 33.3 33.3-10.1 4.3 27.8 311624 CELO_2_S_NC 35.83 -82.18 4.6 25.1 22.4 33.3 33.3 -9.6 6.7 23.9 311690 CHARLOTTE_DOUGLAS_INTL_ARPT_NC 35.22 -80.95 3.6 18.0 15.9 33.3 33.3-14.2 9.4 26.2 311975 CONCORD_NC 35.42 -80.60 2.8 17.8 16.0 33.3 33.3-13.0 11.3 25.6 312102 COWEETA_EXP_STATION_NC 35.07 -83.43 7.9 37.8 30.3 33.3 33.3-13.8 7.9 26.1 313630 GREENSBORO_PIEDMONT_TRIAD_INT_NC 36.10 -79.95 3.8 16.5 14.1 33.3 33.3-10.0 8.1 23.5 313976 HENDERSONVILLE_1_NE_NC 35.33 -82.45 3.8 22.6 19.9 33.3 33.3 -9.7 11.7 25.6 316805 PISGAH_FOREST_1_N_NC 35.27 -82.70 3.8 27.4 23.5 33.3 33.3-12.3 8.6 25.7 317069 RALEIGH_DURHAM_INTERNATIONAL_NC 35.87 -78.78 3.8 18.3 15.6 33.3 33.3-10.1 9.6 24.5 317202 REIDSVILLE_2_NW_NC 36.38 -79.70 4.1 18.8 15.9 33.3 33.3 -8.3 7.8 22.6 317994 SMITHFIELD_NC 35.52 -78.35 3.6 20.3 17.1 33.3 33.3-12.6 9.7 25.8 318964 WADESBORO_NC 34.97 -80.08 2.3 17.3 16.6 33.3 33.3-14.6 11.3 27.2 319123 WATERVILLE_2_NC 35.77 -83.10 5.8 19.3 16.5 33.3 33.3 -6.1 5.8 23.9 319147 WAYNESVILLE_1_E_NC 35.48 -82.97 5.6 23.1 19.6 33.3 33.3 -9.4 7.4 24.9 319457 WILMINGTON_INTERNATIONAL_ARPT_NC 34.27 -77.90 3.3 18.3 17.2 33.3 33.3-14.4 11.4 29.1 319555 W_KERR_SCOTT_RESERVOIR_NC 36.13 -81.23 3.0 21.1 17.3 33.3 33.3 -9.4 7.9 23.1 320819 BISMARCK_MUNICIPAL_ARPT_ND 46.77 -100.75 0.3 2.0 2.4 33.3 33.3 16.9-16.5 5.2 322859 FARGO_HECTOR_INTERNATIONAL_AP_ND 46.93 -96.82 0.3 2.3 3.1 33.3 33.3 13.6 -8.8 5.9 326365 NEW_SALEM_5_NW_ND 46.90 -101.48 0.0 2.0 2.3 42.6 33.3 11.5-15.9 5.0 328812 TROTTERS_3_SSE_ND 47.28 -103.90 0.0 1.5 1.8 36.6 33.3 12.2-20.2 4.4 329425 WILLISTON_ND 48.15 -103.62 0.0 1.8 2.0 35.7 33.3 10.3-15.2 4.5 330058 AKRON_AKRON-CANTON_REG_AP_OH 40.92 -81.43 3.8 12.2 10.4 33.3 33.3 14.9-14.0 10.8 331390 CELINA_3_NE_OH 40.57 -84.53 2.3 10.7 9.6 33.3 33.3 13.6-12.4 11.0 331657 CLEVELAND_HOPKINS_INTL_AP_OH 41.40 -81.85 3.3 10.9 10.3 33.3 33.3 12.9-14.6 10.0 331786 COLUMBUS_PORT_COLUMBUS_INTL_A_OH 39.98 -82.88 2.5 11.7 9.8 33.3 33.3 7.3 -8.8 12.0 332075 DAYTON_INTERNATIONAL_AIRPORT_OH 39.90 -84.22 2.8 11.7 10.4 33.3 33.3 9.9 -7.4 12.0 332599 ELYRIA_3_E_OH 41.38 -82.05 3.3 11.2 10.1 33.3 33.3 14.1-16.3 10.0 332786 FINDLAY_AIRPORT_OH 41.02 -83.67 1.5 8.1 7.9 33.3 33.3 14.5-11.3 10.5 332791 FINDLAY_WPCC_OH 41.05 -83.67 2.3 10.4 9.4 33.3 33.3 13.9-11.1 10.5 334865 MANSFIELD_LAHM_MUNICIPAL_ARPT_OH 40.82 -82.52 2.5 11.2 9.9 33.3 33.3 10.2-12.9 10.8 335747 NEWARK_WATER_WORKS_OH 40.08 -81.42 2.8 12.2 11.1 33.3 33.3 5.7-12.9 12.0 338357 TOLEDO_EXPRESS_AIRPORT_OH 41.58 -83.80 1.8 7.9 8.7 33.3 33.3 15.3-15.9 9.8 339406 YOUNGSTOWN_REGIONAL_AIRPORT_OH 41.25 -80.67 3.6 11.2 9.4 33.3 33.3 10.4-17.2 10.3 344019 HELENA_1_SSE_OK 36.53 -98.28 0.0 3.6 6.4 51.3 33.3 -0.5 -0.6 8.0 346661 OKLAHOMA_CITY_WILL_ROGERS_WOR_OK 35.38 -97.60 0.0 5.1 7.5 42.7 33.3 -0.8 -0.1 9.5 347201 PONCA_CITY_MUNICIPAL_AP_OK 36.73 -97.10 0.0 4.1 6.7 41.5 33.3 0.8 -3.7 9.7 348992 TULSA_INTERNATIONAL_AIRPORT_OK 36.20 -95.88 0.0 7.1 9.9 33.7 33.3 -3.9 -1.1 12.3 350328 ASTORIA_REGIONAL_AIRPORT_OR 46.15 -123.88 15.5 43.2 36.2 33.3 33.3 14.0-13.3 21.1 350501 BARNES_STATION_OR 43.95 -120.22 1.5 6.3 5.2 33.3 33.3 5.4 -5.4 18.2 351836 COQUILLE_CITY_OR 43.18 -124.20 13.5 43.7 33.2 33.3 33.3 -0.9 -5.0 28.2 351862 CORVALLIS_STATE_UNIV_OR 44.63 -123.18 8.6 29.7 25.7 33.3 33.3 9.3-11.2 22.8 351877 CORVALLIS_WATER_BUREAU_OR 44.52 -123.45 13.2 51.1 42.3 33.3 33.3 7.8-14.5 23.5 352709 EUGENE_MAHLON_SWEET_ARPT_OR 44.12 -123.22 9.4 32.3 29.2 33.3 33.3 3.6 -9.6 24.5 353047 FOSTER_DAM_OR 44.42 -122.67 13.5 35.3 29.0 33.3 33.3 6.9-12.1 23.0 354811 LEABURG_1_SW_OR 44.10 -122.68 17.0 43.2 35.5 33.3 33.3 5.0-11.4 24.0 355050 LOOKOUT_POINT_DAM_OR 43.92 -122.77 11.2 26.9 23.7 33.3 33.3 3.4 -9.7 24.7 355429 MEDFORD_ROGUE_VALLEY_INTL_AP_OR 42.38 -122.87 2.3 9.7 9.6 33.3 33.3 -1.6 -0.1 29.8 355593 MILTON_FREEWATER_OR 45.95 -118.42 2.3 7.9 6.7 33.3 33.3 13.0 -8.7 12.3 356546 PENDLETON_E_OR_REGIONAL_AP_OR 45.70 -118.83 1.8 6.9 5.8 33.3 33.3 13.7-10.9 13.0 356751 PORTLAND_INTERNATIONAL_AP_OR 45.60 -122.62 7.9 23.4 19.5 33.3 33.3 12.1-11.7 20.3 357500 SALEM_MCNARY_FIELD_OR 44.90 -123.00 7.9 26.2 22.9 33.3 33.3 9.4-11.2 21.8 360106 ALLENTOWN_LEHIGH_VALLEY_INTL_PA 40.65 -75.45 3.6 14.5 12.3 33.3 33.3 9.2-11.0 11.5 362682 ERIE_INTERNATIONAL_AP_PA 42.08 -80.18 3.6 10.7 10.8 33.3 33.3 16.1-16.4 8.9 364432 KANE_1_NNE_PA 41.68 -78.80 5.6 14.2 12.2 33.3 33.3 19.9-18.8 9.6 366889 PHILADELPHIA_INTERNATIONAL_AP_PA 39.87 -75.23 2.8 15.0 12.5 33.3 33.3 5.5 -9.1 12.9 366993 PITTSBURGH_INTERNATIONAL_AP_PA 40.50 -80.23 3.8 13.5 11.0 33.3 33.3 11.1-13.8 11.6 367931 SELINSGROVE_2_S_PA 40.78 -76.87 2.0 11.9 11.2 33.3 33.3 11.7-14.5 11.1 368073 SHIPPENSBURG_PA 40.05 -77.52 2.8 13.2 12.3 33.3 33.3 7.9 -8.3 12.3 369705 WILKES-BARRE_SCRANTON_INTL_AP_PA 41.33 -75.73 2.5 9.7 9.1 33.3 33.3 9.8-10.9 10.4 369728 WILLIAMSPORT_REGIONAL_AP_PA 41.25 -76.92 2.5 12.2 12.1 33.3 33.3 13.6-14.6 10.4 374266 KINGSTON_RI 41.48 -71.53 4.1 21.1 17.3 33.3 33.3 20.1-14.4 10.1 376698 PROVIDENCE_T_F_GREEN_STATE_AR_RI 41.72 -71.43 3.3 18.3 15.4 33.3 33.3 14.7-13.2 9.6 381544 CHARLESTON_INTL_ARPT_SC 32.90 -80.03 1.8 16.0 14.3 33.3 33.3-17.9 14.5 30.6 381770 CLEMSON_UNIVERSITY_SC 34.67 -82.82 5.3 26.4 21.4 33.3 33.3-14.8 13.5 27.0 381939 COLUMBIA_METRO_ARPT_SC 33.95 -81.12 2.5 19.3 17.6 33.3 33.3-15.9 14.6 28.5 383747 GREER_GREENV'L-SPARTANBRG_AP_SC 34.90 -82.22 4.1 21.3 18.6 33.3 33.3-15.2 8.4 26.9 387722 SANTUCK_SC 34.63 -81.52 3.8 19.3 18.3 33.3 33.3-14.7 12.7 27.4 389350 WINTHROP_UNIVERSITY_SC 34.93 -81.03 4.1 19.6 18.1 33.3 33.3-13.9 9.5 27.1 390020 ABERDEEN_REGIONAL_ARPT_SD 45.45 -98.42 0.0 1.8 2.6 36.1 33.3 7.2 -8.5 6.3 390043 ACADEMY_2_NE_SD 43.48 -99.07 0.0 1.5 3.1 49.8 33.3 3.8 -7.1 6.7 394127 HURON_REGIONAL_ARPT_SD 44.40 -98.22 0.0 2.0 3.3 35.2 33.3 8.0-10.3 6.9 394834 LEAD_SD 44.35 -103.77 1.5 7.1 6.7 33.3 33.3 18.6-16.4 4.3 396574 PICKSTOWN_SD 43.07 -98.53 0.0 1.5 2.9 44.1 33.3 7.9 -6.5 7.2 396937 RAPID_CITY_REGIONAL_ARPT_SD 44.05 -103.05 0.3 1.8 2.6 33.3 33.3 23.9-18.8 4.5 397667 SIOUX_FALLS_FOSS_FIELD_SD 43.58 -96.75 0.3 2.0 3.0 33.3 33.3 14.5-10.3 7.9 398307 TIMBER_LAKE_SD 45.43 -101.07 0.0 2.0 2.8 46.7 33.3 12.4-15.0 5.3 398472 TYNDALL_SD 42.98 -97.87 0.0 2.0 3.5 46.0 33.3 5.6 -6.9 7.7 401094 BRISTOL_TRI_CITY_AIRPORT_TN 36.47 -82.40 5.3 16.5 14.8 33.3 33.3 -3.1 3.7 21.7 401656 CHATTANOOGA_LOVELL_FIELD_AP_TN 35.03 -85.20 5.6 27.4 22.2 33.3 33.3-12.0 5.7 25.6 402108 COVINGTON_1_W_TN 35.57 -89.67 4.3 21.6 20.2 33.3 33.3 -8.3 4.7 21.4 404950 KNOXVILLE_MCGHEE_TYSON_AP_TN 35.82 -83.98 6.3 21.3 18.0 33.3 33.3 -6.2 6.5 23.4 405954 MEMPHIS_INTERNATIONAL_AP_TN 35.07 -89.98 4.6 22.4 20.4 33.3 33.3 -5.7 4.7 22.8 406402 NASHVILLE_INTERNATIONAL_AP_TN 36.12 -86.68 4.8 18.0 17.1 33.3 33.3 -3.3 1.3 21.0 410016 ABILENE_REGIONAL_AP_TX 32.42 -99.68 0.0 2.8 4.9 48.6 33.3 -5.9 0.9 8.0 410211 AMARILLO_INTERNATIONAL_AP_TX 35.22 -101.70 0.0 1.0 2.4 54.4 33.3 8.1-11.9 4.2 410428 AUSTIN_MUELLER_MUNICIPAL_AP_TX 30.30 -97.70 0.0 8.4 8.7 34.6 33.3-16.3 7.4 15.5 410613 BEAUMONT_RESEARCH_CTR_TX 30.07 -94.28 3.0 17.0 17.1 33.3 33.3-17.2 9.9 22.7 411128 BROWNFIELD_2_TX 33.18 -102.27 0.0 1.0 2.9 60.9 33.3 6.6 -7.5 3.6 411136 BROWNSVILLE_S_PADRE_ISL_INTL_TX 25.90 -97.43 0.0 1.5 4.4 50.6 33.3 -9.0 4.9 8.8 411578 CENTER_TX 31.80 -94.17 2.5 19.8 18.8 33.3 33.3-11.7 15.2 22.8 411761 CLARENDON_TX 34.93 -100.88 0.0 2.0 3.7 54.7 33.3 5.7 -7.4 4.8 411800 CLEBURNE_TX 32.33 -97.40 0.0 8.6 10.0 33.7 33.3-11.8 9.1 14.0 412015 CORPUS_CHRISTI_INTL_ARPT_TX 27.77 -97.52 0.0 2.5 7.3 44.1 33.3-14.7 7.1 13.2 412121 CROSBYTON_TX 33.65 -101.25 0.0 2.3 4.2 53.7 33.3 4.2 -4.7 4.8 412244 DALLAS_LOVE_FIELD_TX 32.85 -96.85 0.0 9.1 10.6 36.9 33.3-10.4 6.7 14.9 412360 DEL_RIO_INTERNATIONAL_AP_TX 29.38 -100.93 0.0 1.0 3.9 52.1 33.3 -8.0 1.4 6.1 412797 EL_PASO_INTERNATIONAL_AP_TX 31.82 -106.38 0.0 0.3 1.7 64.7 33.3 1.2 -2.7 3.0 412820 ELGIN_TX 30.35 -97.37 0.0 8.9 9.4 45.9 33.3-16.5 14.8 16.3 414300 HOUSTON_BUSH_INTERCONTINENTAL_TX 30.00 -95.37 1.0 14.0 13.7 33.3 33.3-17.0 13.2 20.7 415411 LUBBOCK_INTERNATIONAL_AP_TX 33.67 -101.82 0.0 1.5 3.0 52.0 33.3 5.5 -8.0 4.1 415890 MIDLAND_INTERNATIONAL_AP_TX 31.95 -102.18 0.0 0.8 2.4 60.9 33.3 5.0 -7.7 3.6 417079 PLAINVIEW_TX 34.18 -101.70 0.0 1.3 2.7 56.7 33.3 7.0 -6.4 4.2 417174 PORT_ARTHUR_JEFFERSON_COUNTY_TX 29.95 -94.02 1.5 17.3 15.5 33.3 33.3-15.1 11.8 23.0 417936 SAM_RAYBURN_DAM_TX 31.07 -94.10 2.8 20.1 20.7 33.3 33.3-17.0 15.5 23.0 417943 SAN_ANGELO_MATHIS_FIELD_TX 31.35 -100.50 0.0 1.8 5.0 50.4 33.3 -6.2 3.2 6.8 417945 SAN_ANTONIO_INTL_AP_TX 29.53 -98.47 0.0 5.6 7.5 35.5 33.3-15.6 10.4 12.9 418623 STEPHENVILLE_1_N_TX 32.25 -98.20 0.0 6.6 8.2 40.7 33.3-10.4 7.5 12.1 419364 VICTORIA_REGIONAL_AP_TX 28.87 -96.93 0.5 5.3 8.4 33.3 33.3-13.4 10.4 15.7 419419 WACO_REGIONAL_AP_TX 31.62 -97.23 0.0 8.1 10.8 34.9 33.3-13.4 11.1 15.2 419729 WICHITA_FALLS_MUNICIPAL_ARPT_TX 33.98 -98.50 0.0 4.1 7.7 47.3 33.3 -2.5 1.7 9.3 422090 DELTA_UT 39.33 -112.60 0.0 2.8 3.0 41.1 33.3-13.4 8.1 12.0 422385 ECHO_DAM_UT 40.97 -111.43 0.8 5.6 5.2 33.3 33.3 -1.0 -3.5 11.2 422798 FERRON_UT 39.08 -111.13 0.0 2.0 3.0 51.7 33.3-12.1 5.3 11.3 424508 KANAB_UT 37.03 -112.52 0.0 7.4 8.9 41.9 33.3-18.5 16.1 12.6 425402 MANTI_UT 39.25 -111.63 0.8 6.1 5.2 33.3 33.3 -8.0 7.0 11.5 426601 PANGUITCH_UT 37.82 -112.43 0.0 2.0 3.1 46.3 33.3-11.2 8.1 12.7 427598 SALT_LAKE_CITY_INT'L_ARPT_UT 40.78 -111.97 1.3 8.1 6.7 33.3 33.3 -5.0 -6.2 11.5 428771 TOOELE_UT 40.53 -112.30 1.0 9.7 8.2 33.3 33.3 -4.1 0.6 11.6 429382 WENDOVER_USAF_AUXILIARY_FIELD_UT 40.72 -114.03 0.0 0.5 1.4 59.4 33.3 4.4 -7.3 12.2 431081 BURLINGTON_INTERNATIONAL_AP_VT 44.47 -73.15 2.0 8.4 7.8 33.3 33.3 34.8-23.2 6.8 440327 ASHLAND_VA 37.75 -77.48 4.3 15.2 14.1 33.3 33.3 -4.4 1.7 18.2 442009 CORBIN_VA 38.20 -77.37 3.8 15.7 14.6 33.3 33.3 -3.1 -0.2 17.1 444044 HOLLAND_1_E_VA 36.68 -76.77 4.3 19.6 16.0 33.3 33.3 -6.5 4.1 22.1 444720 LANGLEY_AFB_VA 37.08 -76.35 4.1 18.5 16.8 33.3 33.3 -2.6 2.1 20.8 445120 LYNCHBURG_REGIONAL_ARPT_VA 37.33 -79.20 3.6 15.5 14.0 33.3 33.3 -3.2 2.3 19.4 446139 NORFOLK_INTERNATIONAL_AP_VA 36.90 -76.20 5.1 17.3 15.6 33.3 33.3 -3.8 4.1 21.5 447201 RICHMOND_INTERNATIONAL_AP_VA 37.52 -77.32 3.8 14.2 13.3 33.3 33.3 -4.1 1.3 18.9 447285 ROANOKE_REGIONAL_AP_VA 37.32 -79.97 2.8 15.0 13.8 33.3 33.3 -2.2 -1.1 19.4 448903 WASHINGTON_DC_DULLES_INT'L_AR_VA 38.93 -77.45 2.5 13.7 12.4 33.3 33.3 2.5 -4.3 15.2 448906 WASHINGTON_DC_REAGAN_AP_VA 38.87 -77.03 2.5 14.0 11.7 33.3 33.3 1.5 -3.6 15.4 449151 WILLIAMSBURG_2_N_VA 37.30 -76.70 5.6 18.8 15.9 33.3 33.3 -3.1 1.7 19.9 452914 FORKS_1_E_WA 47.95 -124.35 29.2 83.1 66.1 33.3 33.3 18.5-20.2 19.6 456114 OLYMPIA_AIRPORT_WA 46.97 -122.90 10.4 32.0 28.5 33.3 33.3 15.0-17.4 19.1 456534 PLAIN_WA 47.78 -120.65 4.6 16.5 15.7 33.3 33.3 15.2-17.6 14.7 456858 QUILLAYUTE_STATE_AIRPORT_WA 47.93 -124.57 26.4 68.8 54.9 33.3 33.3 19.9-17.0 19.9 457473 SEATTLE_SEATTLE-TACOMA_INTL_A_WA 47.47 -122.32 7.6 22.4 19.3 33.3 33.3 13.9-18.1 17.8 457938 SPOKANE_INTERNATIONAL_AP_WA 47.62 -117.53 1.8 7.9 6.9 33.3 33.3 12.3-14.0 10.7 459465 YAKIMA_AIR_TERMINAL_WA 46.57 -120.55 0.3 3.8 3.6 33.3 33.3 12.3 -8.4 15.2 460582 BECKLEY_RALEIGH_CO_MEM_AP_WV 37.80 -81.12 5.6 14.2 13.3 33.3 33.3 3.4 -4.9 17.8 460939 BLUESTONE_LAKE_WV 37.63 -80.88 3.8 12.7 12.1 33.3 33.3 1.4 1.5 18.2 461570 CHARLESTON_YEAGER_ARPT_WV 38.38 -81.58 6.1 17.0 15.0 33.3 33.3 3.7 -4.5 16.2 462718 ELKINS_ELKINS-RANDOLPH_CO_ARP_WV 38.88 -79.85 6.9 16.3 14.6 33.3 33.3 5.9 -6.3 15.3 464393 HUNTINGTON_TRI-STATE_ARPT_WV 38.37 -82.55 5.1 15.2 14.8 33.3 33.3 4.4 -4.4 16.0 470882 BLAIR_WI 44.30 -91.23 0.3 3.6 4.5 33.3 33.3 6.4 -9.1 8.3 473269 GREEN_BAY_AUSTIN_STRAUBEL_INT_WI 44.48 -88.13 0.5 4.6 5.3 33.3 33.3 14.5-13.8 7.6 474370 LA_CROSSE_MUNICIPAL_ARPT_WI 43.87 -91.25 0.5 4.3 4.8 33.3 33.3 7.7 -9.8 8.8 474582 LAONA_6_SW_WI 45.50 -88.77 0.8 4.3 5.0 33.3 33.3 18.4-18.5 7.1 474961 MADISON_DANE_CO_REGIONAL_ARPT_WI 43.13 -89.35 0.5 6.1 6.3 33.3 33.3 9.4-10.9 9.3 475479 MILWAUKEE_MITCHELL_INTL_AP_WI 42.95 -87.90 1.0 7.9 8.2 33.3 33.3 16.0-13.0 9.2 476398 PARK_FALLS_DNR_HQ_WI 45.93 -90.45 0.8 3.8 4.1 33.3 33.3 11.9-13.6 7.1 478171 STEVENS_POINT_WI 44.50 -89.58 0.5 4.3 4.7 33.3 33.3 9.5-14.9 8.0 481570 CASPER_NATRONA_CO_INTL_AP_WY 42.90 -106.47 0.5 3.3 3.0 33.3 33.3 18.5-17.1 5.4 481675 CHEYENNE_MUNICIPAL_ARPT_WY 41.15 -104.80 0.0 1.8 2.4 38.1 33.3 0.8-10.4 4.9 485390 LANDER_HUNT_FIELD_WY 42.82 -108.73 0.0 1.8 2.6 43.7 33.3 5.2 -3.3 8.3 485415 LARAMIE_GENERAL_BREES_FIELD_WY 41.32 -105.68 0.0 1.8 2.1 41.3 33.3 4.6-12.3 5.5 486660 NEWCASTLE_WY 43.85 -104.23 0.0 2.5 2.7 42.7 33.3 12.6-11.9 4.3 487555 REDBIRD_WY 43.25 -104.28 0.0 1.5 2.0 53.9 33.3 14.1-16.7 4.4 488155 SHERIDAN_COUNTY_ARPT_WY 44.77 -106.97 0.3 2.5 2.6 33.3 33.3 11.7-12.7 4.9 500280 ANCHORAGE_INTL_AP_AK 61.18 -150.00 0.0 2.3 3.0 38.7 33.3 -9.1 4.0 15.4 500352 ANNETTE_ISLAND_AP_AK 55.05 -131.57 15.0 44.7 35.5 33.3 33.3 30.2-22.5 11.6 500546 BARROW_W_POST-W_ROGERS_ARPT_AK 71.28 -156.77 0.0 0.5 0.6 54.6 33.3-15.3 7.9 6.4 500754 BETHEL_AIRPORT_AK 60.78 -161.83 0.0 1.3 2.3 42.4 33.3-24.3 23.4 12.2 500761 BETTLES_FIELD_AK 66.92 -151.52 0.0 2.0 2.8 40.8 33.3-21.7 19.1 8.8 500770 BIG_DELTA_ALLEN_AAF_AK 64.00 -145.72 0.0 1.0 1.7 56.9 33.3 0.9 -1.9 8.8 502102 COLD_BAY_ARPT_AK 55.20 -162.72 3.3 11.7 10.9 33.3 33.3-11.9 12.1 15.4 502177 CORDOVA_AK 60.50 -145.50 5.3 31.0 27.0 33.3 33.3 1.8 -6.9 15.7 502968 FAIRBANKS_INTL_ARPT_AK 64.82 -147.85 0.0 1.3 1.6 45.3 33.3 -7.2 1.2 8.1 503465 GULKANA_INTERMEDIATE_FIELD_AK 62.15 -145.45 0.0 1.5 2.1 45.7 33.3 2.9 -3.1 12.4 503665 HOMER_ARPT_AK 59.65 -151.48 1.0 8.1 8.5 33.3 33.3 -7.1 4.9 16.7 503905 ILIAMNA_ARPT_AK 59.75 -154.92 0.0 4.6 4.8 38.7 33.3-14.3 10.0 15.7 504100 JUNEAU_INT'L_ARPT_AK 58.35 -134.58 4.8 19.6 17.3 33.3 33.3 22.9-18.6 10.3 504546 KENAI_MUNICIPAL_AP_AK 60.58 -151.23 0.0 3.3 4.3 36.8 33.3 -8.7 6.4 16.2 504590 KETCHIKAN_INTL_AP_AK 55.37 -131.72 17.0 59.7 49.4 33.3 33.3 28.8-23.8 11.5 504766 KING_SALMON_ARPT_AK 58.68 -156.65 0.3 2.8 3.3 33.3 33.3 -6.0 2.8 14.4 505076 KOTZEBUE_RALPH_WEIN_MEMORIAL_AK 66.88 -162.60 0.0 1.5 1.8 43.8 33.3-28.8 26.0 9.0 505769 MCGRATH_ARPT_AK 62.95 -155.60 0.0 1.8 3.6 36.9 33.3-13.8 17.3 12.5 506496 NOME_MUNICIPAL_ARPT_AK 64.52 -165.45 0.0 2.5 3.2 40.8 33.3-23.7 24.9 9.7 506586 NORTHWAY_AIRPORT_AK 62.97 -141.93 0.0 0.5 0.9 54.9 33.3 1.8 -2.5 8.9 508118 ST_PAUL_ISLAND_ARPT_AK 57.17 -170.22 1.3 5.6 5.2 33.3 33.3-16.2 17.7 17.0 508494 SITKA_JAPONSKI_AP_AK 57.05 -135.37 8.1 32.3 27.1 33.3 33.3 21.8-18.4 11.9 508976 TALKEETNA_STATE_ARPT_AK 62.32 -150.10 0.0 3.8 5.9 37.8 33.3-12.7 9.5 13.6 509686 VALDEZ_WSO_AK 61.13 -146.35 2.8 23.1 22.8 33.3 33.3 -5.4 1.0 14.7 509941 YAKUTAT_STATE_ARPT_AK 59.52 -139.63 11.2 55.1 44.5 33.3 33.3 13.4-14.9 13.4 511919 HONOLULU_INTL_ARPT_HI 21.32 -157.93 0.3 5.1 10.1 33.3 33.3 11.6 -8.4 4.6 512572 KAHULUI_AIRPORT_HI 20.90 -156.43 0.5 7.1 10.9 33.3 33.3 14.6 -9.6 4.4 515580 LIHUE_AIRPORT_HI 21.98 -159.33 1.8 9.7 15.5 33.3 33.3 6.8 -7.2 4.7	en
markdown	382742	# Presentation: 382742 ## Searches for Squarks and Gluinos at CDF and D0 Detectors - Xavier Portell - (on behalf of the CDF and D0 collaborations) - IFAE - Barcelona - PANIC, Santa Fe (NM) - October, 27th 2005 ## MOTIVATION FOR SUSY SEARCHES - Supersymmetry  may be the key element for multiple puzzles. - New broken symmetry: fermions  bosons - DARK MATTER (R-parity conserved) - Scalar masses stabilization thanks to the symmetry between bosons and fermions. - Necessary element for Superstrings - Unification of EM, weak and strong interactions at a GUT scale. # bosons = # fermions ## TEVATRON - October 13th, 1985: Tevatron first p-pbar collision  20 years of collisions! - Record instantaneous luminosity: 1.44·1032 cm-2s-1 (October 23rd, 2005) - Both, CDF and D0, are taking good data at high efficiencies (~85%) ## EXPERIMENTAL CHALLENGE EXPERIMENTAL CHALLENGE - Several SM processes contribute to the MET+jets signature - PRODUCTION: - Squarks and Gluinos: mainly produced at Tevatron in pairs - DECAY: - Signatures investigated here: Gluinos and Squarks decaying in energetic jets and MET (LSP) - Missing ET - Missing ET - Multiple jets *In an R-parity conserved scenario...* Phys.Rev.D59:074024,1999 103 1 (pb) 10-3 10-6 10-9 300 500 700 - mSUGRA scenario (A0 = 0 ,  < 0, tan = 3 or 5) - The first 5 flavors degenerate (stop not considered) - Usual assumption in generic studies - PYTHIA+ISAJET+PROSPINO  generation/normalization ## JETS - fb - 10 orders of magnitude *Backgrounds dominate*  Need to be specifically rejected: Jets: no intrinsic missing ET  Energies mismeasurements (cracks, calibrations...) - Reject jets close to the missing ET direction. W,Z+jets: Missing ET coming from neutrinos and/or muons. - Electrons can also be mismeasured as jets. - Reject isolated muons and electrons (e.g. jets fully electromagnetic) - Huge cross-sections and no NLO MC - challenges generation/normalization/rejection. Top,WW: Similar signatures than W+jets (but more difficult to reject) - CDF and D0 collaborations use different techniques to find out if some SUSY events are present in the data samples... *Background estimations:* - W, Z  MCFM normalization (k-factor) - ttbar  theoretical NLO cross-section Z* +jets:* Intrinsic background (same signature than signal) ## D0 STRATEGY - Data pre-selection: - Luminosity: 310 pb-1 Distinguishes 3 approaches (dominant  ) - Search for acoplanar dijet events (squark  jet + MET dominant) - Search for events with at least 4 jets (gluino  2 jets + MET dominant) - Search for events with at least 3 jets (2 jets from gluino and one from squark) - Cuts will remove its contribution. - Otherwise, contribution extrapolated from data behavior at low missing ET region. *ANALYSIS STRATEGY* *JET BACKGROUND STRATEGY* ## D0 RESULTS - 2 JETS CASE ( ) D0 RESULTS - Dominant bkg is Z  + 2jets - QCD is negligible - MET>175 GeV ; HT > 250 GeV - Exp. Bkg: 12.8  5.4 events - Data: 12 events - Dominant bkg is W  + 2jets - MET>100 GeV ; HT > 325 GeV - Exp. Bkg: 6.1  3.1 events - Data: 5 events - 3 JETS CASE ( ) - Dominant bkg is ttbar - QCD is extracted from an exponential fit to the data - MET> 75 GeV - HT > 250 GeV - Exp. Bkg: 7.1  0.9 events - Data: 10 events - QCD - Dominant systematics: - Jet energy scale - Luminosity - Cross-sections estimations - MET>175 GeV - MET>75 GeV - Fit in the MET range [40,60] - Statistical error: vary 1 the parameters - Systematics: fit again in [40,55] - Optimized - Expected  limits - HT>325 GeV ## D0 LIMITS D0 LIMITS - Mg ~ Mq > 333 GeV/c2 - ~ - Mg > 233 GeV/c2 - ~ - Mq > 318 GeV/c2 - ~ - Squark-Gluino mass plane excluded regions at the 95% CL in the mSUGRA framework for tan= 3, A0 = 0 and  < 0 - ~ ## CDF STRATEGY - Luminosity: 254 pb-1 (preliminary study  more to be added) - CDF trigger: 2 jets and MET>35 GeV -  Full interpretation is in progress and limits are to be issued soon. *ANALYSIS STRATEGY* - General approach: searching for 3 jets (compromise: reject backgrounds select signal) - “Blind Analysis” - Define a signal region (Blind Box) - Make sure MC is in agreement with data outside this region (Control Region) - “Open” the Blind Box *JET BACKGROUND STRATEGY* - Backgrounds need to be properly estimated and normalized also in the Control Regions. - Multijet background: generated with Pythia in different pT bins (CPU intensive!) - No NLO simulation  Special procedure to determine the NLO prediction... - ^ ## MULTIJET BACKGROUND ESTIMATIONS CDF Run II preliminary CDF Run II preliminary MULTIJET BACKGROUND ESTIMATIONS - Compare multijet background MC with data out of the signal region. - Region: low missing ET relative to scalar sum of towers ET of the event (missing ET significance) ## CDF CUTS AND BLIND BOX - Signal region (blind box) determined by optimizing S/sqrt(B) - Signal region - MET > 165 GeV - HT = ET1 + ET2 + ET3 > 350 GeV - Background expectations inside the Blind Box: 4.1  0.6  1.4 events. - Opening the blind box 3 events have been found  NO SUSY EVIDENCE \| Inside BB \| MET (GeV) \| HT (GeV) \| \| --- \| --- \| --- \| \| Event 1 \| 223.3 \| 404.2 \| \| Event 2 \| 195.6 \| 470.1 \| \| Event 3 \| 166.6 \| 362.3 \| ## CDF RESULTS CDF RESULTS Marginal distributions for Missing ET and HT - Plots show good agreement. The missing ET cut is important to reduce multijet background (QCD). ## CDF/D0 EVENTS - Missing ET = 223 GeV - ET(1st) = 172 GeV - ET(2nd) = 153 GeV - ET (3rd) = 80 GeV - ET(4th) = 65 GeV - HT = ET(1st) + ET(2nd) + ET(3rd) = 404 GeV - Missing ET = 354 GeV - pT(1st) = 264 GeV - pT(2nd) = 106 GeV CDF/D0 EVENTS - HT = pT(1st) + pT(2nd) + - pT(3rd) + pT(4th) = 393 GeV - XY view of events with large missing ET - pT(3rd) = 12 GeV - pT(4th) = 11 GeV ## SUMMARY CDF and D0 experiments have found no evidence of squarks and gluinos in data samples of ~300 pb-1. D0 have shown some very promising preliminary exclusion limits (mass gluino > 233 GeV/c2 ; mass squarks > 318 GeV/c2) which are already the world best ones. Full interpretation of CDF results are currently under way and new limits will appear soon. More data (1fb-1) will be analyzed in coming months... - ...it may be that something could be found soon in this desert! SUMMARY ## BACKUP SLIDES ## PRODUCTION CROSS-SECTIONS PRODUCTION CROSS-SECTIONS ## SYSTEMATIC UNCERTAINTIES \| Source \| Uncertainty on final background estimate \| \| --- \| --- \| \| Luminosity \| 6% \| \| Jet Energy Scale \| 29% \| \| Jets Background Estimation \| 1% \| \| ttbar cross section \| 3.6% \| \| WW cross section \| 0.5% \| \| W+jets cross section \| 14.6% \| \| Z+jets cross section \| 3.7% \| \| TOTAL \| 33.4% \| SYSTEMATIC UNCERTAINTIES	en
all-txt-docs	268811	****************************************************************************** MODULE CALBGEO1 is the geometry of the Barrel EM Calorimeter Author Maxim Potekhin BNL Created January 20, 2004 * Based on the original CALBGEO * * $Id: calbgeo1.g,v 1.4 2004/02/06 01:55:13 potekhin Exp $ * $Log: calbgeo1.g,v $ * Revision 1.4 2004/02/06 01:55:13 potekhin * Correcting the new barrel: some parts of the modules * were 3 deg off, this is now rectified. Also, minor * logic improvements. * * Revision 1.3 2004/01/22 00:28:04 potekhin * Correct a typo -- the angle covered by a module is 6 deg, * not 3 * * Revision 1.2 2004/01/19 22:48:41 potekhin * A working version of the new barrel calorimeter geometry, * which does not reply on DIV, but instead creates copies of modules * (the only workable solution for the config we re trying to * implement). Geant volume numbers seem to be OK according to testing, * however the g2t part would need to be verified by the EMC team * * Revision 1.1 2004/01/19 21:18:39 potekhin * Need a fairly new version of the calb geometry for 2004, * due to the way the modules were populated. Have to * avoid using divisions when constructing the modules. * This is the first cut with more changes to follow * ****************************************************************************** +CDE,AGECOM,GCONST,GCUNIT. * external etsphit * Content CALB,CHLV,CPHI,CSUP,CPBP,CSCI,CSMD,CSMG,CSDA,CSMC,CSMB,CSME, CSHI,CBTW,CCRD,CCSI,CSCA,CSCB Structure CALG { version, Rmin, Etacut, CrackWd, FrontThk, CompThk, AirThk, BackThk, SpaceThk, ScintThk(2), AbsorThk, AbPapThk, g10SbThk, SmAlfWdh, SmAlfThk, SmGasThk, SmGasWdh, SmGasRad, SmAffWdh, SmAfbWdh, SmetaWdh, Seta1Wdh, Netfirst, Seta2Wdh, Netsecon, Set12Wdh, SphiWdh, SphidWdh, NPhistr, NSmdAlw, Nsuper , Nsmd, NsubLay(2), Nmodule(2), Shift(2), MaxModule, NetaT, Nsub, NetaSMDp, ModMap(60)} Structure CALR { Rmin, Rprs, Rsmd1, Rsmd2, Rmax } Real RKB2sc/0.013/, RKB3sc/9.6E-6/ ---- local definitions... real current_depth, current, layer_width(2), tan_theta, smd_width, smd_width1, smd_width2, smd_width3, cut_length, cut_radius, future_depth,c_dep,c_lead_dep, eta_lenght, current_csda, h_eta1, h_eta2, h_phi1, h_phi2, sh_eta1,sh_eta2,sh_phi1,sh_phi2,Rmax,Hleng, Deta, angular_offset,tmp1,tmp2,tmpa,tmpb,tmpc,tmpd, DphiTot, DphiMod, DphiT, R1, R2, R3, R4, RR(2), rmin_tof_crd, rmin_bemc_crd, rmax_bemc_crd, dx_crd_crystal, dy_crd_crystal, dz_crd_crystal, dxn_crd_supercube, dyn_crd_supercube, dx_crd_supercube, dy_crd_supercube, dz_crd_supercube, pos_x_fst_supercube, pos_x_scd_supercube, pos_x_trd_supercube, angle_supercube, d_crd_mylar, bemc_cut_length, bemc_hleng, bemc_calg_rmin, bemc_cut_radius, bemc_rmax integer layer,super,sub,i,j,ii,nn,imod,iii,jjj * --------------------------------------------------------------------------- * primary geometrical constant * fill CALG ! Barrel Calorimeter data Version = 3.0 ! geometry version Rmin = 223.5 ! inner radius EtaCut = 1.0 ! calorimeter rapidity cut CrackWd = 0.655 ! half width of the crack between modules FrontThk = 0.9525 ! front plate half thickness CompThk = 0.9525 ! back plate half thickness AirThk = 0.158 ! Air gap half thicness BackThk = 1.5875 ! Module back plate half thicknes SpaceThk = 0.9525 ! Spacer back plate half thicknes ScintThk = {0.3,0.25} ! active scintillator plate half thickness AbsorThk = 0.250 ! absorber plate thickness halfpThickness AbPapThk = 0.005 ! absorber paper plate thickness half thickness g10SbThk = 0.115 ! G10 SMD front and back plate half thickness SmAlfWdh =11.2014 ! SMD Al front back plate with Ar half width SmAlfThk = 0.3893 ! SMD Al front back plate with Ar half thickness SmGasThk = 0.1359 ! SMD gas BOX volume half thickness SmGasWdh = 0.2946 ! SMD gas BOX volume half width SmGasRad = 0.2946 ! SMD gas volume TUBS radius SmAffWdh = 0.113 ! SMD Al front first (last) rib half width SmAfbWdh = 0.1664 ! SMD Al back first (last) rib half width SmetaWdh = 0.9806 ! Eta=0 strip notch half width Seta1Wdh = 0.7277 ! strip#1-75 half witdh Seta2Wdh = 0.9398 ! strip#76-150 half witdh Set12Wdh = 0.04064 ! half distance between strips in eta SphiWdh = 0.6680 ! strip#(1-NPhistr) in phi direction half witdh SphidWdh = 0.07874 ! half distance between strips in phi NSmdAlw = 30 ! Number SMD gaseus interval in tile Nsuper = 2 ! number of readout superlayer Nsmd = 5 ! SMD positioned after sandvich type layers EMC NsubLay = {2,19} ! number of layers in a superlayer MaxModule= 60 ! max number of moudle NetaT = 20 ! Number of eta division for tower/preshower Nsub = 2 ! Number of sub div. in phi for tower/preshower NetaSMDp = 10 ! Number of eta division in for SMD phi plane NPhistr = 15 ! Number of the strip in phi direction Netfirst = 75. ! Number of strip in first part eta=0-0.5 Netsecon = 75. ! Number of strip in second part eta=0.5-1.0 Nmodule = {60,60} ! number of modules Shift = {75,105} ! starting azimuth of the first module ModMap = {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,0,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1} ! Populated modules map Endfill * USE CALG * * --------------------------------------------------------------------------- * primary geometrical constant * smd_width=2.calg_g10SbThk+2.calg_SmAlfThk+2.calg_AbPapThk smd_width1=2.calg_g10SbThk+2.calg_AbPapThk smd_width2=smd_width1+calg_SmGasThk+calg_SmGasRad smd_width3=2.smd_width-smd_width1-calg_SmGasThk-calg_SmGasRad R1=calg_Rmin+2.calg_FrontThk R2=0.0 do i=1,nint(calg_Nsuper) layer_width(i) = calg_ScintThk(i) + calg_AbsorThk+2.calg_AbPapThk R2+=(calg_NsubLay(i)-i+1)layer_width(i)2.0 RR(i)=R2 enddo R3=(calg_Nsuperlayer_width(1)+(calg_nsmd-calg_Nsuper)layer_width(2))2. R4=(smd_width+calg_scintThk(2)+2.calg_AbPapThk)2.0 cut_radius=R1+R2+R4 Rmax=cut_radius+2.(Calg_BackThk+calg_SpaceThk+Calg_CompThk+calg_AirThk) tan_theta = tan(2atan(exp(-calg_EtaCut))) cut_length = calg_Rmin/tan_theta Hleng = cut_radius/tan_theta nn = max(calg_Nmodule(1),calg_Nmodule(2)) Deta = 1.0/calg_NetaT DphiMod = 360/calg_MaxModule DphiT = DphiMod/calg_Nsub DphiTot = DphiModnn fill CALR ! barrel EMC radiuses RMIN = R1 ! inner raduis of sensitive area RPRS = R1+RR(1)/2.0 ! mean raduis of PRS RSMD1= R1+R3+smd_width2 ! mean raduis of SMD RSMD2= R1+R3+smd_width3 ! mean raduis of SMD RMAX = cut_radius ! outer raduis of sensitive area Endfill USE CALR ---- Crystal Detector related variables: ----------------------------------------------------- rmin_tof_crd = 207.80 ! mimimum radius from TOF rmin_bemc_crd = 233.50 ! minimum radius from BEMC rmax_bemc_crd = 255.86 ! maximum radius from BEMC d_crd_mylar = 0.0025 ! mylar thickness dx_crd_crystal = 2.540.5 ! halfwidth x of single crystal dy_crd_crystal = 2.540.5 ! halfwidth y of single crystal dz_crd_crystal = 25.00.5 ! halfheight of single crystal dxn_crd_supercube = 9; ! number of crystals in x dimension of supercube dyn_crd_supercube = 20; ! number of crystals in y dimension of supercube dx_crd_supercube = dxn_crd_supercubedx_crd_crystal ! halfwidth x of supercube dy_crd_supercube = dyn_crd_supercubedy_crd_crystal ! halfwidth y of supercube dz_crd_supercube = dz_crd_crystal ! halfheight of supercube pos_x_fst_supercube = dy_crd_supercube+2 ! position of the first supercube pos_x_scd_supercube = dy_crd_supercube3+6 ! position of the second supercube pos_x_trd_supercube = dy_crd_supercube5+14 ! position of the third supercube ---- CRD constants from BEMC geometry -------------------------------------------------------- bemc_cut_length = 262.65744 bemc_hleng = 292.110565 bemc_calg_rmin = 223.5 bemc_cut_radius = 248.562195 bemc_rmax = 255.86319 ---------------------------------------------------------------------------------------------- create and position CALB in CAVE prin1 calg_Version; (' CALB geo. version =',F7.1) prin1 calg_RMin; (' CALB inner radius =',F7.1) * * --------------------------------------------------------------------------- * block CALB is EMC Barrel envelope Material Air Medium Standard attribute CALB seen=0 colo=7 * SHAPE PCON Phi1=0 Dphi=360 Nz=4, zi = {-Hleng, -cut_length, cut_length, Hleng}, rmn = { cut_radius, Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax, Rmax }; if calg_Nmodule(1)>0 { ii=1; create and Position CHLV; } if calg_Nmodule(2)>0 { ii=2; create and Position CHLV thetaZ=180; } * EndBlock * ----------------------------------------------------------------------------- Block CHLV corresponds to double modules... * shape PCON Phi1=calg_shift(ii) Dphi=DphiModcalg_Nmodule(ii) Nz=3, zi = { 0, cut_length, Hleng}, rmn = { Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax }; Create CPHI do imod=1,calg_Nmodule(ii) angular_offset=calg_shift(ii)+3.0+6.0(imod-1) if(ii==1) { Position CPHI AlphaZ=angular_offset Ncopy=imod; } if(ii.eq.2.and.calg_ModMap(imod).gt.0) { Position CPHI AlphaZ=angular_offset Ncopy=imod; } if(ii.eq.2.and.imod.eq.28) { create and position CCRD AlphaZ=angular_offset Ncopy=imod; ! Crystal Detector instead of BEMC module 88 } enddo EndBlock * ----------------------------------------------------------------------------- Block CPHI corresponds to a single module attribute CPHI seen=1 colo=5 Shape PCON Phi1=-3.0 DPhi=6.0 Nz=3, zi = { 0, cut_length, Hleng}, rmn = { Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax }; * current_depth = calg_Rmin c_dep=current_depth Create CBTW dx=calg_FrontThk Position CBTW x =calg_Rmin+calg_FrontThk, z =current_depth/tan_theta/2 current_depth = current_depth + 2calg_FrontThk layer = 0 do super = 1,nint(calg_Nsuper) create and position CSUP enddo Module Back Plates Create CBTW dx=calg_CompThk Position CBTW x =current_depth+calg_CompThk, z =current_depth/tan_theta/2 * c_dep=2.calg_CompThk+2.calg_AirThk Create CBTW dx=calg_BackThk Position CBTW x=current_depth+c_dep+calg_BackThk, z =current_depth/tan_theta/2 * c_dep=c_dep+2.calg_BackThk Create CBTW dx=calg_SpaceThk Position CBTW x=current_depth+c_dep+calg_SpaceThk, z =current_depth/tan_theta/2 c_dep=c_dep+2.calg_SpaceThk current_depth=current_depth+c_dep * EndBlock ----------------------------------------------------------------------------- Block CSUP is a super layer with few layers inside future_depth=current_depth+ (calg_NsubLay(super)-super+1)layer_width(super)2+ (smd_width+calg_scintThk(super)+2.calg_AbPapThk)2(super-1) Cellulose C6H10O5 Component C A=12.01 Z=6. W=6./21. Component H A=1. Z=1. W=10./21. Component O A=16. Z=8. W=5./21. Mixture Cellulose Dens=0.35 Isvol=1 attribute CSUP seen=0 colo=1 shape PCON Phi1=-3.0 Dphi=DphiMod Nz=3, zi ={0, current_depth/tan_theta, future_depth/tan_theta}, rmn={ current_depth, current_depth, future_depth }, rmx={ future_depth, future_depth, future_depth }; Call CALBPAR(ag_imed,'ABSORBER') Do sub = 1,nint(calg_NsubLay(super)) layer = layer + 1 if(layer.lt.nint(calg_NsubLay(1)+calg_NsubLay(2))) then Create CSCI Position CSCI x=current_depth+calg_ScintThk(super)+2.calg_AbPapThk, z=current_depth/tan_theta/2 Create CPBP c_lead_dep=2.calg_ScintThk(super)+4.calg_AbPapThk Position CPBP x=current_depth+c_lead_dep+calg_AbsorThk, z=current_depth/tan_theta/2 current_depth = current_depth + 2layer_width(super) else Create CSCI Position CSCI x=current_depth+calg_ScintThk(2)+2.calg_AbPapThk, z=current_depth/tan_theta/2 current_depth = current_depth+c_lead_dep endif * place SMD Check layer==nint(calg_Nsmd) create and position CSMD x=current_depth+smd_width, z=current_depth/tan_theta/2 current_depth = current_depth + 2smd_width enddo EndBlock ----------------------------------------------------------------------------- Block CPBP Material Lead Material CLead Isvol=0 Medium Lead_emc Attribute CPBP seen=1 colo=1 SHAPE BOX dx = calg_AbsorThk, dy = current_depthtan(TwoPi/360DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') Endblock Block CSCI a scintillator layer. Material polystyren Material Cpolystyren Isvol=1 Medium sens_sci attribute CSCI seen=1 colo=4 Shape BOX dx=calg_ScintThk(super), dy = current_depthtan(TwoPi/360DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') * define Birks law parameters Call GSTPAR (ag_imed,'BIRK1',1.) Call GSTPAR (ag_imed,'BIRK2',RKB2sc) Call GSTPAR (ag_imed,'BIRK3',RKB3sc) * HITS CSUP eta:Deta:(0,1) y:1:(-13,13) Birk:0:(0,10) * xx:16:H(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100), * none:16: * EndBlock * Block CBTW is the Module Front Back Plate Material Aluminium Material EAluminium Isvol=1 Medium Al_emc attribute CBTW seen=1 colo=6 Shape BOX dy = current_depthtan(TwoPi/360DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') EndBlock * ---------------------------------------------------------------------------- Block CSMD is the shower maximum detector envelope current = -smd_width Cellulose C6H10O5 Component C A=12.01 Z=6. W=6./21. Component H A=1. Z=1. W=10./21. Component O A=16. Z=8. W=5./21. Mixture Cellulose Dens=0.35 Isvol=1 attribute CSMD seen=1 colo=6 Shape BOX dx=smd_width, dy=current_depthtan(TwoPi/120.)-calg_CrackWd, dz=current_depth/tan_theta/2 Call CALBPAR(ag_imed,'SENSITIVE') * * front back G10 plate Create CSMG Position CSMG x = -smd_width+calg_g10SbThk+2.calg_AbPapThk Position CSMG x = smd_width-calg_g10SbThk-2.calg_AbPapThk * * front SMD Al block with sensitive gas volume current = current+2.calg_g10SbThk+2.calg_AbPapThk do j=1,4 current_csda=-current_depth/tan_theta/2 if(j.eq.1) then eta_lenght=calg_Netfirst(calg_Seta1Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+calg_SmAlfThk, z=current_csda+2.calg_SmetaWdh+eta_lenght elseif(j.eq.2) then current_csda=current_csda+2.(calg_SmetaWdh+eta_lenght) eta_lenght=calg_Netfirst(calg_Seta2Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+calg_SmAlfThk, z=current_csda+eta_lenght elseif(j.eq.3) then eta_lenght=calg_Netfirst(calg_Seta1Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+3.calg_SmAlfThk, z=current_csda+2.calg_SmetaWdh+eta_lenght, thetaX=90 phiX=180 elseif(j.eq.4) then current_csda=current_csda+2.(calg_SmetaWdh+eta_lenght) eta_lenght=calg_Netfirst(calg_Seta2Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+3.calg_SmAlfThk, z=current_csda+eta_lenght, thetaX=90 phiX=180 endif enddo * * SMD Al front fisrt (last) rib Create CSMC Position CSMC x = current+calg_SmAlfThk, y = calg_SmAlfWdh+calg_SmAffWdh Position CSMC x = current+calg_SmAlfThk, y = -calg_SmAlfWdh-calg_SmAffWdh * * SMD Al back fisrt (last) rib Create CSMB Position CSMB x = current+3.calg_SmAlfThk, y = calg_SmAlfWdh+calg_SmAfbWdh Position CSMB x = current+3.calg_SmAlfThk, y = -calg_SmAlfWdh-calg_SmAfbWdh Endblock * * G10 is about 60% SiO2 and 40% epoxy Block CSMG is G10 front back plate Component Si A=28.08 Z=14 W=0.6128./60. Component O A=16 Z=8 W=0.6216./60. Component C A=12 Z=6 W=0.4812./174. Component H A=1 Z=1 W=0.4141./174. Component O A=16 Z=8 W=0.4416./174. Mixture g10 Dens=1.7 Isvol=0 attribute CSMG seen=1 colo=1 Shape BOX dx=calg_g10SbThk Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSDA is Al block with sensitive gas volume Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSDA seen=1 colo=6 Serial=j Shape BOX dx = calg_SmAlfThk, dy = calg_SmAlfWdh, dz = eta_lenght Call CALBPAR(ag_imed,'SENSITIVE') Create CSME EndBlock * Block CSMC is the front first (last) Al rib Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSMC seen=1 colo=6 Shape BOX dx = calg_SmAlfThk, dy = calg_SmAffWdh Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSMB is the back first (last) Al rib Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSMB seen=1 colo=6 Shape BOX dx = calg_SmAlfThk, dy = calg_SmAfbWdh Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSME is the part of CSDA Al box with Ar/CO2 sensiteve gas Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSME seen=1 colo=6 Shape Division Iaxis=2 Ndiv = nint(calg_NSmdAlw) Call CALBPAR(ag_imed,'SENSITIVE') * sensitive Ar/CO2 box do i=1,2 Create CSHI if(i.eq.1) then Position CSHI x = -calg_SmAlfThk+calg_SmGasThk else Position CSHI x = 2.calg_SmGasThk-calg_SmAlfThk endif enddo EndBlock 90% argon + 10% CO2 Block CSHI is a sensiteve Ar/CO2 box Component Ar A=39.95 Z=18. W=0.9 Component C A=12.01 Z=6. W=0.1112.01/44.01 Component O A=16. Z=8. W=0.1216./44.01 Mixture sens_gas Dens=0.0018015 Isvol=1 attribute CSHI seen=1 colo=4 if(i.eq.1) then Shape BOX dx = calg_SmGasThk, dy = calg_SmGasWdh else Shape TUBS Rmin = 0 Rmax = calg_SmGasRad, Dx = calg_SmGasWdh, Phi1 = 270 phi2 = 450 endif call CALBPAR(ag_imed,'SENSITIVE') CAll GSTPAR (ag_imed,'STRA',1.0) * h_eta1=2.(calg_Seta1Wdh+calg_Set12Wdh) sh_eta1=calg_Netfirsth_eta1 h_eta2=2.(calg_Seta2Wdh+calg_Set12Wdh) sh_eta2=calg_Netseconh_eta2 h_phi1=2.(calg_SphiWdh+calg_SphidWdh) h_phi2=h_phi1 sh_phi1=calg_NPhistrh_phi1 sh_phi2=sh_phi1 * HITS CSDA type=1:2: eta:0.1:(0,1) etsp:h_eta1:(0,sh_eta1) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) HITS CSDA type=2:2: eta:0.1:(0,1) etsp:h_eta2:(0,sh_eta2) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) HITS CSDA type=3:2: eta:0.1:(0,1) etsp:h_phi1:(0,sh_phi1) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) * HITS CSDA type=4:2: eta:0.1:(0,1) etsp:h_phi2:(0,sh_phi2) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) * EndBlock * * Block CCRD is former BEMC module, now mother volume for Crystal Detector supercubes Material Air IsVol=1 attribute CCRD seen=1 colo=6 Shape PCON Phi1=-3.0 DPhi=6.0 Nz=3, zi = { 0, bemc_cut_length, bemc_hleng}, rmn = { bemc_calg_rmin, bemc_calg_rmin, bemc_cut_radius}, rmx = { bemc_rmax, bemc_rmax, bemc_rmax }; angle_supercube=atan(pos_x_fst_supercube/(rmax_bemc_crd-dz_crd_supercube)) print ,'CRD: 1st supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)cos(angle_supercube)) tmp1=tmp1(dy_crd_supercube2.0-dz_crd_supercube2.0(tan(angle_supercube)-tmp2)) tmp2=tmp1tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_fst_supercube-tmp2, AlphaY=(-360/twopi)angle_supercube angle_supercube=atan(pos_x_scd_supercube/(rmax_bemc_crd-dz_crd_supercube)) print ,'CRD: 2nd supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)cos(angle_supercube)) tmp1=tmp1(dy_crd_supercube2.0-dz_crd_supercube2.0(tan(angle_supercube)-tmp2)) tmp2=tmp1tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_scd_supercube-tmp2, AlphaY=(-360/twopi)angle_supercube angle_supercube=atan(pos_x_trd_supercube/(rmax_bemc_crd-dz_crd_supercube)) print ,'CRD: 3rd supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)cos(angle_supercube)) tmp1=tmp1(dy_crd_supercube2.0-dz_crd_supercube2.0(tan(angle_supercube)-tmp2)) tmp2=tmp1tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_trd_supercube-tmp2, AlphaY=(-360/twopi)angle_supercube EndBlock Block CCSI is a single supercube mother volume Material Air Attribute CCSI seen=1 colo=4 Shape BOX dx = dz_crd_supercube, dy = dx_crd_supercube+2.0d_crd_mylardxn_crd_supercube, dz = dy_crd_supercube+2.0d_crd_mylardyn_crd_supercube do jjj=1,dxn_crd_supercube do iii=1,dyn_crd_supercube Create CSCA Position CSCA y=(2jjj-1)(dx_crd_crystal+d_crd_mylar)-(dx_crd_supercube+d_crd_mylardxn_crd_supercube), z=(2iii-1)(dy_crd_crystal+d_crd_mylar)-(dy_crd_supercube+d_crd_mylardyn_crd_supercube) enddo enddo EndBlock * Block CSCA is mylar wrapper around CsI crystal Material MYLAR Attribute CSCA seen=1 colo=6 Shape BOX dx=dz_crd_crystal+d_crd_mylar, dy=dx_crd_crystal+d_crd_mylar, dz=dy_crd_crystal+d_crd_mylar Create and Position CSCB EndBlock * Block CSCB is CsI crystal Material CsI_cryst A=129.974 Z=54.023 Dens=4.51 RadL=1.85 AbsL=37 Isvol=1 Attribute CSCB seen=1 colo=4 Shape BOX dx=dz_crd_crystal, dy=dx_crd_crystal, dz=dy_crd_crystal HITS CSCB Eloss:0:C(0,1) EndBlock * end	en
converted_docs	142781	Guidelines for documenting the quality of Phase I wild poliovirus laboratory containment activities - Laboratory survey - National inventory The Department of Vaccines and Biologicals would like to thank the partners whose financial and technical support has made the development of this document possible: United States Agency for International Development (USAID) Quality Assurance Project, Bethesda MD, USA Contents Purpose 2 Introduction 3 Phase I: Laboratory survey and Inventory 3 Phase II: Global Certification 3 Approaches to demonstrating the quality of laboratory survey and inventory 4 Essential components of high quality laboratory survey and inventory 5 Development of guidelines for documenting the quality of laboratory survey and inventory 5 The Guidelines 6 Instructions 6 Component 1. Political endosement and support 7 Political support 7 Legislation 7 Multi-sector involvement 8 Effects of decentralisation 9 Component 2. The National Plan of Action 10 Responsibility for the plan 10 Realistic timeframe for activities 10 Personnel and funding resource allocation 11 Multi-sector involvement 11 Effects of decentralisation 12 Component 3. The National Containment Coordinator 13 Sufficient political or adminsitrative stature 13 High level of competence 13 Availability of sufficient time and support 14 Component 4. The National Laboratory List 16 Process of establishing the list 16 Completeness of the list 16 Management of the list 17 Component 5. The Laboratory Survey 19 Thoroughness of the survey 19 Completeness of responses 19 Quality of the surey 20 Management of survey data 21 Component 6. The National Laboratory Inventory 22 Thoroughness of the inventory process 22 Quality of responses 22 Management of the inventory data 23 Maintenance of the inventory 24 # Purpose To provide countries with guidelines on documenting the thoroughness and accuracy of conducting the Laboratory Survey and establishing the National Inventory of laboratories that wish to retain wild poliovirus infectious materials. # Introduction The world will be declared free of wild poliovirus transmission when the Global Commission for the Certification of the Eradication of Poliomyelitis is satisfied that all Regions of the World Health Organization (WHO) have documented the absence of wild poliovirus circulation for at least three consecutive years and all wild poliovirus materials in laboratories are adequately contained. The Global Commission has established the requirements for laboratory containment of wild polioviruses, and the 2^nd^ edition of the Global action plan for laboratory containment of wild polioviruses describes those requirements in detail. Guidelines on how to implement the requirements have been issued and adapted by the WHO Regions. The Global Certification Commission requirements for containment of wild polioviruses are described in two phases: the Laboratory Survey and Inventory Phase and the Global Certification Phase. ## Laboratory Survey and Inventory Phase This phase covers the period when the numbers of polio-free countries and Regions are increasing, but wild polioviruses continue to circulate somewhere in the world. During this phase, countries are required to: - Survey all biomedical laboratories to identify those with wild poliovirus infectious or potential infectious materials and encourage destruction of all unneeded materials. - Develop a National Inventory of laboratories that retain such materials and submit this to the Regional Certification Commission. - Instruct laboratories retaining wild poliovirus infectious or potential infectious materials to institute enhanced biosafety level-2 (BSL-2/polio) measures for safe handling. - Plan for implementation of the Global Certification Phase. ## Global Certification Phase This phase begins when one year has elapsed without isolation of wild poliovirus anywhere in the world. During this phase nations: - Notify biomedical laboratories that poliovirus transmission has been interrupted. - Instruct laboratories on the National Inventory to elect one of the following three options: - Render materials non-infectious for poliovirus or destroy them under appropriate conditions. - Transfer wild poliovirus infectious and potential infectious materials to laboratories capable of meeting the required biosafety standards. - Implement biosafety requirements appropriate for the laboratory procedures being carried out (BSL-2/polio or BSL-3/polio). - Document completion of all containment requirements for global certification. ## Approaches to documenting the quality of Phase I containment activities In addition to the number of laboratories retaining wild poliovirus materials, Regional Certification Commissions have requested National Certification Committees to provide information on the number of laboratories in the National Laboratory List and the number of laboratories surveyed. Information on the types of laboratory listed, the sectors they belong to, and the thoroughness of the survey process has also been sought. From the outset a strong recommendation for implementation of the Global Action Plan was to incorporate a requirement of authorising signatures at each administrative level. This requirement has gone some way towards ensuring the information collected at all levels is both complete and accurate. However, with the implementation of National Laboratory Surveys and establishment of National Inventories, so questions have arisen regarding the completeness and accuracy of the information being collected at national level. Because of inherent differences between countries, the processes used to establish the national surveys, and readiness to accept and authorise the results, have differed significantly from country to country. In attempting to assess the quality of implementation of activities carried out, there are essentially two alternative approaches to consider: - A [standards-based external evaluation:]{.underline} a more structured evaluation, which would involve establishing a consensus set of process and outcome standards and related indicators of performance that all countries would be expected to achieve. Accreditation and Certification are types of such external evaluations. Different levels for the different indicators would have to be developed for different types of countries (e.g. simple, small countries vs. large, diverse countries). These levels may be determined after review and comparison of early country containment survey and inventory results to date. This type of approach is often used when the activity evaluated takes place repeatedly and indefinitely, such as hospital accreditation. - A [best practices assessment:]{.underline} a less structured evaluation based on a flexible appraisal of whether best practices principles of the survey and inventory process had been followed. The basic principles that should govern the design and implementation of each major containment activity would be established and a structure developed to allow each country to provide a detailed description of how each principle was followed. Written descriptions of the activities undertaken would provide evidence as to whether best practices had been followed and therefore, whether the expected results of the best practices for each component are likely to have been achieved. Having reviewed available containment data from more than 50 countries it became apparent that country-to-country variation in population size, administrative structure, health infrastructure, industrial development and political complexion makes the development of a purely standards-based approach very difficult. In addition, the standards-based approach requires significant time to develop and test standards and indicators, and significant resources to carry out external surveys. Given the fact that the survey and inventory are activities that are done only once, the utilisation of resources for a standards-based approach is not justified. Moreover, there is no evidence that it would be a more valid approach. Therefore, it is more appropriate to develop an approach that assesses the performance of a country using a flexible best-practices model for the activities required to carry out the National Laboratory Survey and establish a National Laboratory Inventory. Developing a best practices model begins with determining the essential components of the laboratory survey phase. ## Essential components of a high quality laboratory survey and inventory phase of containment activities A review of laboratory survey and inventory data and activities from more than 50 countries reveals the following six essential components of a successful program: 1. Strong political endorsement and support for containment 2. A realistic National Plan of Action 3. An effective Containment Coordinator and National Task Force 4. A comprehensive National Laboratory List 5. A high quality Laboratory Survey 6. A complete and active National Laboratory Inventory ## Development of guidelines for documenting the quality of laboratory survey and national inventory activities Having determined the essential components of activities required for meeting containment requirements and the best possible outcome for each of those components, a model has been established of the best practices that could be applied to achieve the desired results. The best practices model describes a series of key features and activities that must be undertaken in order to achieve a high quality result. Because of the many differences between countries, the ways in which key features are implemented and the detail of activities undertaken will differ. By describing in detail their implementation of the containment requirements, countries can compare the activities they have undertaken with those of the best practices model. The following guidelines have been developed to assist countries in describing and documenting the details of activities they have carried out in response to the requirements for Certification. Each of the essential components has been divided into a number of sections with explanations of the types of activities that are required to achieve a best practices outcome. Countries are requested to provide descriptions of the activities they carried out to achieve the outcomes in each section. Areas of activity to be considered in their descriptions are provided in each section and should be referred to before completing the section. The Guidelines The primary purpose of these guidelines is to allow self-evaluation of laboratory survey and inventory activities before requesting the National Certification Committee to endorse and forward documentation to the Regional Certification Commission. Additionally, they provide a systematic framework for producing a written description of the laboratory survey and inventory activities undertaken by the country which can be assessed by Regional Certification Commissions. The guidelines are designed for use at a time when the survey is complete and the inventory is in place. However, countries beginning the survey process may also wish to review the guidelines when establishing and implementing quality containment activities to ensure that their planning is complete. Correct use of the guidelines will provide each country with a description of the process followed in implementing the Phase I laboratory containment activities. When presented together with any numerical data requested by the Regional Certification Commission, the account will provide strong evidence in support of the thoroughness of the National Laboratory Survey process leading to the establishment of the National Laboratory Inventory. ## Instructions Read the following 6 components of a successful laboratory survey and inventory and produce a written description of the country\'s activities using the example topics given in the boxes titled \"country requirement\". The final product should be a written description of the country\'s laboratory survey and inventory activities that addresses each topic in sufficient detail to provide compelling evidence of a high quality program. If some topics do not apply to the country situation, please indicate this in the text and state the reason they do not apply. [Component 1. Political endorsement and support]{.smallcaps} ## Political support > Implementation of the laboratory survey and inventory activities > requires active cooperation and collaboration from a wide range of > government ministries, departments, agencies and institutions. To > obtain this cooperation, the process must have the authority to compel > collaboration from the different sectors; and this usually requires > high-level political support. In many countries, particularly those > with a strongly hierarchical political or administrative structure, > the level of authority required to ensure multi-sector collaboration > can only come from the office of the head of state or head of > government. In other countries, particularly those with established or > proposed legislation that applies to the containment process, it may > be sufficient to obtain political and administrative support only from > the head of the legislative body. > > Best practices result: > > High-level political support for containment, with the > responsibilities and authority for implementation of the laboratory > survey and inventory phase activities agreed and accepted by all > sectors. ## Legislation > Many countries have national legislation that applies or could be > applied to some aspects of the polio laboratory containment process. > This legislation may include the requirement for biomedical > laboratories to be registered with a government department or agency, > for microbiology and pathology laboratories to operate under > recognised biosafety conditions, for employers to ensure the safety of > their workers, etc. This legislation may be used to give authority to > the polio laboratory containment process and persuade institutions and > laboratories to comply with containment requirements. > > Best practices result: > > National or community legislation was used effectively to enforce > compliance with the laboratory survey and inventory activities. ## Multi-sector involvement > Implementation of the Phase I containment activities involves many > sectors in addition to the health sector. The education, research, > environment, industry and defence sectors, among others, may also have > laboratories storing wild poliovirus infectious materials. These > sectors must also be involved in the laboratory survey process, > ensuring that laboratories under their authority are aware of the > containment requirements and are implementing them. > > Best practices result: > > A broad basis of involvement in containment was established. ## Effects of decentralisation > Many countries have devolved responsibility for implementation of > services, particularly health-related services, to sub-national > authorities. In many cases national government offices have very > little direct authority over how the sub-national authorities > implement national policies and directives. In some cases sub-national > autonomy is extended even further and sub-national authorities are not > bound to follow national directives. Where a decentralised systems > exists, it is essential that all sub-national authorities responsible > for implementation of Phase I containment activities are fully > involved in the process, and that no geographical or political > sub-units of countries are excluded. > > Best practices result: > > Where authority has been devolved to sub-national administrations > there was full involvement of all sub-national authorities in Phase I > containment activities. # Component 2. The National Plan of Action ## Responsibility for the Plan > An effective Plan of Action must accurately reflect the national > situation with regard to local knowledge, national concerns and a > practical consideration for potential constraints and limitations. > Ideally, the Plan should be the result of consensus by a group of > technically competent individuals representing a range of national > institutions. Approval for the Plan should come from a high political > or administrative level, and be given some official status. This > confers importance and status on the Plan and additional authority on > those charged with implementing it. > > Best practices result: > > A comprehensive, well written, nationally supported Plan was > established and used to implement Phase I containment activities. ## Realistic timeframe for activities > In order to maintain progress with containment activities, Regional > Certification Commissions have set criteria for achievement of Phase I > containment activities before regional certification of polio free > status. The National Plan of Action should reflect projected dates for > regional certification and recognize that time will be required to > meet all criteria by those dates. The Plan should provide a clear and > realistic description of when each step in meeting the requirements > will be completed. > > Best practices result: > > The Plan included a realistic timeline complete with achievement > milestones. ## Personnel and funding resource allocation > Implementation of laboratory containment activities requires > resources, both personnel and funding. The National Plan of Action > should acknowledge this fact, estimate the requirements and identify > sources. It is possible that sufficient resources will not be > available from within the country, in which case support could be > sought from the international community. The Plan should include > details of any planned advocacy for national and international > support. > > Best practices result: > > The Plan included an appropriate resource allocation. ## Multi-sector involvement > Phase I laboratory containment activities involve a wide range of > institutions and laboratories, covering several sectors. The plan > should include details of how containment will be implemented in each > of these sectors. > > Best practices result: > > All appropriate sectors were included in the Plan. ## Effects of decentralisation > A strong National Plan of Action that accurately reflects the > political and administrative realities of the country is essential to > effective implementation of Phase I containment activities. A Plan > that fails to acknowledge the administrative effects of > decentralisation, and fails to engage sub-national authorities from > the outset, will be a poor plan. Experience has shown that a poor Plan > makes effective implementation of Phase I containment requirements > very much more difficult. > > Best practices result: > > The Plan called for full involvement of National and Regional > authorities. # Component 3. The National Containment Coordinator ## Sufficient Political or Administrative Stature > The role of National Containment Coordinator carries a significant > amount of responsibility. The Coordinator must interact effectively > with many different government departments and with non-governmental > organizations. The coordinator must have sufficient political, > administrative or social stature to command attention and to have > institutions and laboratories comply with requirements. In many cases > the Coordinator will be dependent for political and administrative > support upon the ministry or department of health and the National > Certification Commission, and it is essential that the Coordinator can > easily call on this support when needed. > > Best practices result: > > The Coordinator has sufficient status and authority within the > country. ## High level of Competence > The ideal containment Coordinator should have extensive background > experience in laboratory biosafety and public health administration. > However, such individuals are very rare, and it is more likely that > the Coordinator would have experience in only one of these fields, or > a closely related field. The Coordinator is therefore dependent on > others to provide technical support in areas other than their own > specialties. For this reason it is essential that the Coordinator can > call upon other experts to make the most appropriate and effective > decisions in implementing containment activities. > > Best practices result: > > The Coordinator had access to sufficient technical ability and > resources. ## Availability of Sufficient Time and Support > The National Task Force and Containment Coordinator play an essential > and demanding role in the implementation of containment activities. > Coordination of containment activities, from overseeing development of > the National Plan, through creating the laboratory list and carrying > out the survey, to establishing the inventory and preparing final > documentation, is detailed and time consuming. It is essential that > the Coordinator has sufficient working time available to carry out > these tasks, and that other professional commitments do not prevent > implementation of the activities. In all but the smallest countries > the workload associated with coordinating containment activities will > exceed the capacity of a single individual. It is essential, > therefore, that the Coordinator has access to both administrative and > technical support. In some countries this support has been in the form > of commercial companies that were contracted to carry out the > laboratory survey on behalf of the government, or to manage and > analyse the survey data. > > Best practices result: > > The Coordinator had enough time to carry out the work required, and > the workload was appropriately managed. # # Component 4. The National Laboratory List ## Process of establishing the list > Before a survey of laboratories can be undertaken it is necessary to > identify all possible laboratories that should be included in the > survey. This is achieved by establishing a national list of > laboratories. It is important that the list is as inclusive as > possible: all laboratories with any possibility of storing wild > poliovirus materials must be included. The most common way of > achieving this is to include all laboratories with any capacity to > handle biological materials, including diagnostic, research, teaching > and industrial production laboratories. In many countries some sectors > maintain laboratory lists for registration, control or funding > purposes. These lists can be used as starting material for the > national laboratory list. In all cases it is essential to use the > knowledge and experience of experts within the country, the heads of > public health authorities, professors and leading scientists to ensure > that all sectors are covered and all laboratories are included in the > list. > > Best practices result: > > A comprehensive National Laboratory List was established in an > appropriate and thorough manner. ## Completeness of the List > The List should include every laboratory in the country with any > possibility of storing wild poliovirus materials. It is impossible to > prove that every appropriate laboratory in the country has been > included in the List, but it can be shown that every sector with > laboratories is well represented and that no sector has been > forgotten. It is also essential that there is a process from updating > the List: containment activities take place over several years and > during that time a number of laboratories are likely to open, close or > change function in almost every country. > > Best practices result: > > All appropriate laboratories were included in the List. ## Management of the List > Good data management is essential, particularly for the National > Laboratory List as this may contain details of several thousand > laboratories. The List must be maintained in a searchable format, from > which details such as laboratory addresses and names of contact > persons can easily be retrieved. The format of the List should also > allow easy analysis, so that summaries, breakdowns and reports can be > generated. It should also be possible to update the List when new or > additional information is received. > > Best practices result: > > The data is current, well managed and appropriately maintained. Component 5. The Laboratory Survey ## Thoroughness of the Survey > The laboratory survey should include every laboratory considered to > have any possibility of retaining wild poliovirus infectious > materials. The usual practice is to send survey questionnaires to > every laboratory on the national laboratory list. However, under > certain circumstances decisions may be made to exclude some > laboratories from the survey. If laboratories in the list have been > excluded from the survey it is important to document the reasons for > this exclusion. > > Best practices result: > > All appropriate laboratories on the National Laboratory List were > included in the National Laboratory Survey. ## Completeness of responses > A 100% response rate is the goal of every survey carried out. This > goal, however, is rarely achieved at the first attempt, and numerous > follow-up attempts are often required to obtain all responses. There > are many reasons for failing to respond to the questionnaire, and some > laboratories require clarification of the questions or additional > information before they feel capable of providing a response. There is > no "minimum acceptable" level of response to the survey, but any > country that fails to achieve a response rate close to 100% should be > able to provide documentation on the attempts made to obtain responses > together with some explanation of why responses could not be obtained. > > Best practices result: > > A high level of response (close to 100%) to the Survey was obtained. ## Quality of the Survey > Analysing the results for missing information, inconsistencies and > recognised errors, can demonstrate survey quality. A follow up on that > analysis is required to determine the true situation. Survey results > that are accepted and reported without such scrutiny are of unknown > quality, and should not be accepted by Regional Certification > Commissions. If less than a 100% survey response rate is obtained a > risk assessment of the non-responding laboratories is required. If > non-responders are considered to have a high probability of retaining > wild poliovirus infectious materials, every effort must be made to > obtain a survey response from them, and the survey will not be > considered complete until a response is obtained. At the discretion of > the national containment coordinator and the National Certification > Committee, selected laboratories may be visited to verify the > responses given in the survey. This is particularly important for > laboratories that provide survey responses that were considered > unexpected on the basis of local knowledge. > > Best practices result: > > Results of the Survey were analysed and findings of the analysis were > acted upon. ## Management of Survey data > As with management of the national laboratory list, good data > management of the survey results is essential. Survey data must be > maintained in a searchable format, from which details can easily be > retrieved and summaries, breakdowns and reports can be generated. It > should also be possible to update the survey database when new or > additional information is received. > > Best practices result: > > The Survey data are well managed and maintained, in a format allowing > rapid analysis and updating. # Component 6. The National Laboratory Inventory ## Thoroughness of the inventory process > The Regional Certification Commission will be looking for evidence > that every laboratory retaining wild poliovirus infectious materials > at the time of the completion of the laboratory survey is on the > National Laboratory Inventory. The process by which the Inventory was > created should be fully documented, and any inconsistencies or > differences between the Laboratory Survey results and the Inventory > must be fully explained. > > Best practices result: > > All laboratories with wild poliovirus infectious materials are on the > National Inventory. ## Management of the Inventory data The National Inventory and supporting documents are prepared and presented to the National Certification Committee for review, endorsement, and submission to the Regional Certification Commission as a component of National Documentation for Certification of Polio Eradication. National Inventories of laboratories with wild poliovirus infectious materials will be compiled into Regional Inventories maintained by the WHO Regional Offices; good data management is therefore essential. > Best practices result: > > The National Laboratory Inventory data are well managed and > maintained. ## Maintenance of the Inventory > The National Inventory is an active record, maintained as a current > list of laboratories to be notified to initiate the appropriate > containment procedures one year after detection of the last wild > poliovirus. The next phase of the laboratory containment process will > require laboratories on the National Inventory to fully catalogue all > wild poliovirus infectious materials retained, and it is essential > that laboratories on the Inventory are aware of this requirement in > advance. > > Best practices result: > > The Inventory remains current and accurate and the laboratories listed > have been informed to operate under BSL-2 /polio and to prepare for > global certification.	en
converted_docs	128320	Magnet/Syringe Separation Issues V.B. Graves 8/12/05 This document is an initial response to the results of Peter\'s analysis on the attractive forces between the magnet and the steel hydraulic cylinders in the baseline syringe pump design. Based on the conversations I have had with hydraulic integrators, aluminum cylinders are not practical at the intended operating pressures and are not an option for the Hg cylinder in any case. It appears the only solutions to this problem are to either use all-stainless cylinders or separate the cylinders from the magnet. Since the cost of stainless cylinders is prohibitively high, the practical solution is to increase the distance between the magnet and the cylinders. While Peter\'s analysis indicated that 1m would be a sufficient separation distance, in our subsequent phone conversation we thought that a separation distance of 2m might be preferred as a conservative approach to the analysis results, and my comments below reflect that value. The final value is TBD. To minimize changes to the current design (Fig. 1) this separation would most easily be accomplished by increasing the length of the flexible hoses between the sump tank and the target module, keeping the sump tank and cylinders inside a secondary container box. The secondary bellows surrounding the Hg supply and return lines would necessarily lengthen as required. Conceptually this is shown in Fig. 2. This change has several implications on the design, some positive in nature and some negative. I have listed some of these below, but I\'m sure that more will develop as the redesign progresses. Those issues that deal with the cylinders must be resolved prior to the syringe pump procurement. ![](media/image1.jpeg){width="5.364583333333333in" height="3.125in"} Fig. 1. Existing Design ![](media/image2.jpeg){width="5.997222222222222in" height="2.203472222222222in"} Fig 2. Separated System (use your imagination to insert the target module into the magnet). Magnet elevated to beam height, syringe system on floor. Intermediate hose supports not shown. # Baseplate - The common baseplate cannot be extended 2m in length due to the fixed beam elevation and facility constraints both at MIT and CERN. This implies that a common baseplate is not needed. However, it is still required that the magnet be elevated, tilted, and aligned with the beam, so some sort of magnet baseplate will be necessary. Because it already incorporates a means to perform alignment adjustments, one option would be to shorten the current baseplate so that it only supports the magnet. - With flexible hoses, the syringe does not have to be tilted and may sit directly on the floor (or a mobile baseplate). - The syringe system no longer has to be directly in line with the magnet or beam, which would allow some flexibility in positioning. This may be beneficial during integrated tests at MIT. - With 2m of flex hose, the target module might be manually inserted into magnet, so syringe system does not require rolling cart. Estimated weight of the target module is 100-150 lbs. # Cylinders - With no magnetic attraction forces to deal with, carbon steel cylinders, rods, and pistons can be used in the drive cylinders. The Hg cylinder will still be designed for water service (i.e., chrome plating cylinder walls, piston, rod) - Because the syringe is no longer interfaced to the magnet through the common baseplate, minimizing the syringe length is no longer a driving requirement. The Hg cylinder diameter could decrease from 10\" to 8\", putting it in the \"low-cost\" family of cylinders. With an 8\" Hg cylinder, maintaining the 12-sec jet requirement will increase the required stroke by 8\" and the total extended length by approximately 13\". # Extended Hoses - Added flex hose will require support to prevent sag due to Hg weight. - Flexible hoses have internal convolutions that will trap Hg in these slightly-sloped hoses and will have more flow resistance than rigid pipe. For flow reasons, it would be preferable to use rigid pipe for most of the new length with flex hoses on one or both ends. Use of 2m of rigid pipe makes it impractical to ship and transport assembled system (syringe, pipe, target module), so assembly and disassembly of the primary containment would be required at MIT and CERN. However, the use of rigid pipe is not absolutely required, and the desire to not open the primary containment in the MIT and CERN facilities probably overrides the flow issues. - Pressure drop across 2m of new pipe will be calculated; increasing pipe diameter reduces pressure drop but would require additional Hg inventory. - Additional length of pipe requires additional Hg inventory to pre-fill supply line prior to syringe actuation (2m of 1\" pipe will require approx 1 additional liter). Some slightly increased amount of cylinder stroke will be lost to pre-filling the additional volume. - The 6\" diameter Hg return hose is fairly expensive (\$2100 for 18.25 inches), so adding another 1.5m is not an insignificant expense. I will probably go with a smaller diameter hose for the return line. - Since they interface through the secondary containment box, hydraulic lines, sensor wires, ?scintillator?, and optic fiber bundles will have to be longer since they will be further from the TT2/TT2A junction. The fiber bundles and scintillator cables will be inside the flexible secondary containment along with the Hg supply and return lines. # Target Module - Because the syringe pump & containment box would be positioned below the beam, the downstream secondary beam window would move to the target module rather than the secondary containment box. - Downstream end of target module would require changes to accommodate different secondary containment. - Supporting the target module off of the secondary containment box from 2m away is not practical (see Fig. 3). Secondary containment baseplate could have provisions for storage of target module. ![](media/image3.jpeg){width="5.9944444444444445in" height="2.1756944444444444in"} Fig. 3. Existing target module bracing method	en
markdown	509570	# Presentation: 509570 ## Archived Information - The information in this presentation is archived for historical and reference purposes only. ## Implementing the Reading Excellence Act - Laurie Lacy - Janice Dole - Becky Donaldson - Brady Donaldson - Utah State Office of Education ## Overview - Utah’s Vision - What We’ve Learned So Far - One District’s Vision - What We’ve Learned So Far - One School’s Vision - What We’ve Learned So Far - Conclusions ## Utah’s Vision - The Utah Reads K-3 Literacy Model ## Slide 5 ## Perspective on Reform by USOE - Reform focused at the building level. - Pivotal point for reform - Teacher expertise - Professional development ## Professional Development Plan - Intensive professional development over the year - 100 hours of instructional time for teachers - Ongoing professional development - Continuity, not series of one-shot workshops - Staff developer in every building - Support for teachers in their classrooms ## Professional Development - Professional development for the staff developers - Many do not know current research in reading for at-risk students. - Two days per month of inservice work - Reading research implications for at-risk readers - Developing and practicing exemplary lessons - Source of support for staff developers ## What We’ve Learned So Far - Lack of understanding of “professional development.” - Lack of knowledge about recent reading research. - Decision-making collaboration difficult. - Some view the REA as money to implement their agenda. - “Don’t assume that just because a district wrote a good proposal, they have the capacity to implement it.” ## One District’s Vision - To run a successful REA grant, districts must recognize that: - teacher skill and knowledge is the high priority (e.g. more than class size). - belief systems must change. - schools must reach out to the community, home and family. - administrators must understand and support project. - separate departments must come together to form a seamless system. ## What We’ve Learned So Far - Everyone must see the vision. - Take small steps, take time. - Assume nothing. - Recognize that you are changing a whole mindset. - “A poor program in the hands of a good teacher produces better results than a good program in the hands of a poor teacher.” ## One School’s Vision - To run a successful REA grant, schools must: - break down traditional barriers to communication. - scaffold instruction for teachers. - develop a single school-wide vision. - help staff let go. ## What We’ve Learned So Far - Patience is a virtue. - Without understanding, the REA grant looks like an unlimited pot of money. - “Never beat yourself up for doing the best you could with what you had to work with, and what you knew. It’s only shameful if you don’t improve once you know better.” - Oprah Winfrey ## Conclusions - The REA is a long-term commitment with schools. - There are many misconceptions about reading instruction that must be dealt with. - Developing a shared vision takes time.	en
converted_docs	534118	![](media/image1.png) ######### February 23, 2007 Dear Business Leader: We cordially invite you to participate in the Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference, which will highlight the accelerating investment and dynamic business climates created by recent U.S. Free Trade Agreements with Bahrain, Jordan, Morocco and Oman. The MEFTA Trade and Investment Conference, to be held in London on Thursday, March 29, 2007, will provide a unique forum for U.S. and Arab business leaders to identify strategic business opportunities and partnerships in some of the most rapidly growing economies of the Middle East and North Africa. Government leaders, including the Prime Minister of Morocco, Minister of Trade and Industry of Jordan and the Chief Executive of the Economic Development Board of Bahrain will join us to address the booming commercial landscape and promote business opportunities. Further, executives of U.S. enterprises operating in the region will provide first-hand accounts of their companies' experience. As American Ambassadors, it is our responsibility to inform you and other U.S. industry leaders of potential trade and investment opportunities in the countries in which we serve. Accordingly, we are assembling leading government and business leaders for this event. We also hope to see many of you in Amman, Manama, Muscat, and Rabat in the near future to follow up on leads identified in London. Attached is a brief synopsis of conference details, country specific information and an RSVP form. You can also find this information, including registration, on our conference website at www.trademeetings.com. You are also invited to a reception the evening before on March 28^th^ sponsored by the US-Middle East Free Trade Coalition. We look forward to seeing you in London for an informative day of briefings and discussions. With Best Regards, ![](media/image2.jpeg){width="0.9472222222222222in" height="0.41944444444444445in"} ![](media/image3.wmf){width="1.320138888888889in" height="0.32013888888888886in"} ![](media/image4.jpeg){width="1.601388888888889in" height="0.5451388888888888in"} ![](media/image5.jpeg){width="1.8743055555555554in" height="0.4444444444444444in"} Thomas T. Riley U.S. Ambassador Kingdom of Morocco William T. Monroe U.S. Ambassador Kingdom of Bahrain David Hale U.S. Ambassador Kingdom of Jordan ###### Gary A. Grappo ###### U.S. Ambassador ###### Sultanate of Oman ## {#section .unnumbered} ## Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference "Bringing Middle Eastern and North African Government Leaders and Opportunities to U.S. Business" To Register: Please fill out the following form OR register ONLINE at the conference website: [www.trademeetings.com](http://www.trademeetings.com/). Full Name: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Title: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Organization: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Telephone: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Fax: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ E-Mail: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Please indicate which break-out sessions you plan to attend:  Jordan  Morocco  Bahrain  Oman For Security Pre-clearance please provide: Date of Birth (mo-day-year): \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Citizenship: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Driver's License or Passport Number: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ ### Photo identification required upon arrival Please return fax to: MFM Trade Meetings ATTN: Dan Lamey 1-305-667-7840 For questions or additional information, please contact Dan Lamey at <MEFTA@trademeetings.com> or by phone at 1-305-667-4705 ## Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference ""Bringing Middle Eastern and North African Government Leaders and Opportunities to U.S. Business" March 29, 2007 Gloucester Hotel 4-18 Harrington Gardens SW7 4LH London, United Kingdom Telephone: +44 (0) 20 7373 6030 Facsimile: +44 (0) 20 7373 0409 U.S. Ambassadors William T. Monroe (Bahrain), David Hale (Jordan), Thomas T. Riley (Morocco), and Gary A. Grappo (Oman) invite you to attend exclusive, invitation-only briefings, discussions and a reception to exchange ideas on strengthening U.S. commercial links with our new Free Trade Agreement partners. Government leaders from Bahrain, Jordan, Morocco, Oman and American Ambassadors to these nations will be featured. March 28 6:00 p.m. Official Reception > Hosted by US-Middle East Free Trade Coalition > > Location: Wynchwood House March 29 8:00 a.m. Registration & Morning Coffee/Tea 9:00 -- 12:00 a.m. Introductions, remarks, and briefing by U.S. Ambassadors and senior Middle East and North African government leaders 12:00 -- 1:30 p.m. Luncheon 1:30 -- 6:00 p.m. Breakout sessions and networking with senior U.S. and Middle East and North African government leaders	en
converted_docs	730038	BUREAU OF ALCOHOL, TOBACCO AND FIREARMS Alcohol & Tobacco Office of Alcohol and Tobacco # Newly Formed Tax Audit Division And New Division Chief {#newly-formed-tax-audit-division-and-new-division-chief .unnumbered} By Victoria McDowell/Joette Brown (202)927-5000 ![](media/image1.jpeg){width="1.6354166666666667in" height="2.4479166666666665in"}Victoria McDowell is the Division Chief for the new Tax Audit Division. The duties of the division include conducting audits of taxpayers that pay over \$250,000 annually. The division will include up to ten field offices nation-wide. Ms. McDowell joined the Bureau of Alcohol, Tobacco and Firearms (ATF) in July 1998, as the Assistant Financial Manager, Accounting Policy and Reporting Branch in the Financial Management Division. Her duties included managing the annual Chief Financial Officer's audit of the Bureau. Under her leadership, the Bureau achieved unqualified audit opinions. Prior to joining ATF, Vicky worked for the Financial Management Service (FMS), also in the Treasury Department, where she held the positions of Credit Administration Division Director, Director of the Asset Management Directorate, and Deputy Assistant Commissioner of Debt Management Services. Each of those positions dealt with setting government-wide policies in financial areas. Also while at FMS, Ms. McDowell developed an international financial management training program for developing countries. Ms. McDowell was instrumental in developing an internship program for Russian financial managers and a training program for the State Tax Service of the Russian Federation. She also worked with the Canadian Government and the Organization for Economic Cooperation and Development in Paris, France. Ms. McDowell is a Certified Government Financial Manager and member of the Association of Government Accountants. She has 22 years of Federal Government experience. She began her Federal career with the Agriculture Department where she developed and implemented an internal control program for an agency that held a sixty billion dollar credit portfolio. For several years, Ms. McDowell served as the Chair of the Supervisory Committee of the Treasury Department Federal Credit Union, where she supervised the internal audit function and the annual financial statement audit of the credit union. She was also on the Board of Directors. Welcome aboard! # {#section .unnumbered} # Alcohol Labeling Corner {#alcohol-labeling-corner .unnumbered} # {#section-1 .unnumbered} # Organic Labeling {#organic-labeling .unnumbered} # # By Rick Evanchec (202)927-8140 # The Alcohol Labeling and Formulation Division (ALFD) would like to remind you of the approaching deadline that affects all labels that make organic references. The labeling requirements under the National Organic Program (NOP) will take effect on October 21, 2002. All products bottled on or after this date that make an organic claim must be labeled to satisfy the regulations under this program (7 CFR Part 205). The most obvious change associated with the NOP is that all alcohol beverages bearing an organic claim will be required to include a complete ingredient statement on the label. In addition, Federally accredited agents must certify procedures and handlers who wish to make organic claims. Current labels that do not satisfy these and other requirements under the NOP will be revoked by operation of regulation as of October 21, 2002. {#the-alcohol-labeling-and-formulation-division-alfd-would-like-to-remind-you-of-the-approaching-deadline-that-affects-all-labels-that-make-organic-references.-the-labeling-requirements-under-the-national-organic-program-nop-will-take-effect-on-october-21-2002.-all-products-bottled-on-or-after-this-date-that-make-an-organic-claim-must-be-labeled-to-satisfy-the-regulations-under-this-program-7-cfr-part-205.-the-most-obvious-change-associated-with-the-nop-is-that-all-alcohol-beverages-bearing-an-organic-claim-will-be-required-to-include-a-complete-ingredient-statement-on-the-label.-in-addition-federally-accredited-agents-must-certify-procedures-and-handlers-who-wish-to-make-organic-claims.-current-labels-that-do-not-satisfy-these-and-other-requirements-under-the-nop-will-be-revoked-by-operation-of-regulation-as-of-october-21-2002. .unnumbered} # {#section-3 .unnumbered} # The NOP is administered by the Agriculture Marketing Service (AMS), a division of the United States Department of Agriculture (USDA). The requirements under the NOP were created to implement the Organic Food Production Act of 1990. This law was passed to set a national standard for the production and marketing of organically produced products, including beverage alcohol. {#the-nop-is-administered-by-the-agriculture-marketing-service-ams-a-division-of-the-united-states-department-of-agriculture-usda.-the-requirements-under-the-nop-were-created-to-implement-the-organic-food-production-act-of-1990.-this-law-was-passed-to-set-a-national-standard-for-the-production-and-marketing-of-organically-produced-products-including-beverage-alcohol. .unnumbered} # {#section-4 .unnumbered} # In the future when ATF receives label applications that contain organic references, ATF will review the labels for compliance with the Federal Alcohol Administration Act {#in-the-future-when-atf-receives-label-applications-that-contain-organic-references-atf-will-review-the-labels-for-compliance-with-the-federal-alcohol-administration-act .unnumbered} # {#section-5 .unnumbered} # {#section-6 .unnumbered} # {#section-7 .unnumbered} # and the Alcohol Beverage Labeling Act (Health Warning Statement) and ATF will also forward the applications to AMS for concurrent review to determine if they meet the requirements of the NOP as well. Please continue to {#and-the-alcohol-beverage-labeling-act-health-warning-statement-and-atf-will-also-forward-the-applications-to-ams-for-concurrent-review-to-determine-if-they-meet-the-requirements-of-the-nop-as-well.-please-continue-to .unnumbered} # {#section-8 .unnumbered} # {#section-9 .unnumbered} # submit a copy of your certification as an organic producer, issued by a USDA accredited certifying agent {#submit-a-copy-of-your-certification-as-an-organic-producer-issued-by-a-usda-accredited-certifying-agent .unnumbered} # along with each label application that contains organic references. {#along-with-each-label-application-that-contains-organic-references. .unnumbered} # {#section-10 .unnumbered} # Industry members who would like more information about the NOP requirements can visit {#industry-members-who-would-like-more-information-about-the-nop-requirements-can-visit .unnumbered} [www.ams.usda.gov/nop](http://www.ams.usda.gov/nop). ALFD will publish more detailed guidance on organic labeling of alcohol beverages in the near future. ATF is also happy to answer any questions about the impact of NOP on the alcohol beverage industry. You can contact us at 1-866-927-2553 or by e-mail at alfd@atfhq.atf.treas.gov. "A Very Good Year for Vitners" By Jerry Shriver, USA Today (Editing and Additional Comments by Phil Coy, 513-684-2322) According to an article that appeared in the June 28, 2002, edition of USA Today, a new winery that recently opened in Burlington, North Dakota marked a significant turning point for the wine industry. When this new winemaker was issued their ATF permit and registry number on April 17^th^, it became the first time when there's at least one Federally bonded winery in all 50 States. USA Today wrote: "The \[Burlington\] venture joins a parade of more than 600 wineries that have opened during the past decade." The wine industry credits growth to "improved winemaking, approaches to production that allow better wines to be made in more locations, liberalized laws that make it easier to open a profitable tasting room, a surge in wine tourism and a growing thirst for locally made products." Although most of the growth has occurred in California, Washington, Oregon and New York (those states accounted for 98% of the \$20 billion worth of table wine produced and sold in the USA last year), other states such as Indiana, Illinois and Texas are also enjoying mini-booms. Of course, employees of the ATF National Revenue Center' s (NRC) Wine Section like to think it's the top-notch service they strive to provide to their customers, that's helped fuel the small-scale winemaking "explosion." The NRC's Wine Section staff is ready and willing to provide you with the necessary paperwork and help guide you through the process of obtaining a Federal permit. For information and assistance with this and other ATF requirements, please contact them at 800-398-2282 (513-684-3334) or natlrevctr@cinc.atf.treas.gov. Notice of Proposed Rulemaking # {#section-11 .unnumbered} # By Joanne Brady (215)597-5288 {#by-joanne-brady-215597-5288 .unnumbered} # {#section-12 .unnumbered} # {#section-13 .unnumbered} # The Bureau of Alcohol, Tobacco and Firearms (ATF) published a Notice of Proposed Rulemaking (NPRM) (notice No. 947) on July 9, 2002, that proposes the establishment of a viticultural area to be known as "Oak Knoll District." The notice results from a petition filed by Ms. Janet Trefethen, who heads the Oak Knoll District Committee. {#the-bureau-of-alcohol-tobacco-and-firearms-atf-published-a-notice-of-proposed-rulemaking-nprm-notice-no.-947-on-july-9-2002-that-proposes-the-establishment-of-a-viticultural-area-to-be-known-as-oak-knoll-district.-the-notice-results-from-a-petition-filed-by-ms.-janet-trefethen-who-heads-the-oak-knoll-district-committee. .unnumbered} # {#section-14 .unnumbered} # The proposed area is located at the cooler, southern end of the Napa Valley in California. If established as a viticultural area, Oak Knoll District would border the Mt. Veeder viticultural area to the west and the Yountville viticultural area to the north. The area encompasses approximately 9, 940 acres. About 4, 040 of those acres are suitable for grape vines. {#the-proposed-area-is-located-at-the-cooler-southern-end-of-the-napa-valley-in-california.-if-established-as-a-viticultural-area-oak-knoll-district-would-border-the-mt.-veeder-viticultural-area-to-the-west-and-the-yountville-viticultural-area-to-the-north.-the-area-encompasses-approximately-9-940-acres.-about-4-040-of-those-acres-are-suitable-for-grape-vines. .unnumbered} # {#section-15 .unnumbered} # ATF requests comments on this proposal. All comments must be received by September 9, 2002. Written comments should be sent to: {#atf-requests-comments-on-this-proposal.-all-comments-must-be-received-by-september-9-2002.-written-comments-should-be-sent-to .unnumbered} # {#section-16 .unnumbered} # Chief, Regulations Division {#chief-regulations-division .unnumbered} # Bureau of ATF {#bureau-of-atf .unnumbered} # Post office Box 50221 {#post-office-box-50221 .unnumbered} # Washington, DC 20091-0221 {#washington-dc-20091-0221 .unnumbered} # Attn: Notice No. 947 {#attn-notice-no.-947 .unnumbered} # {#section-17 .unnumbered} # Comments may also be submitted by e-mail to <nprm@atfhq.atf.treas.gov> or by fax (if five pages or less) to (215)597-7003. {#comments-may-also-be-submitted-by-e-mail-to-nprmatfhq.atf.treas.gov-or-by-fax-if-five-pages-or-less-to-215597-7003. .unnumbered} # {#section-18 .unnumbered} # ![](media/image2.png) {#section-19 .unnumbered} # {#section-20 .unnumbered} # {#section-21 .unnumbered} # {#section-22 .unnumbered} # International Trade Branch {#international-trade-branch .unnumbered} # {#section-23 .unnumbered} # Importing Samples for Trade Shows and for Ordering {#importing-samples-for-trade-shows-and-for-ordering .unnumbered} # {#section-24 .unnumbered} # By Perky Ramroth (415)947-5193 {#by-perky-ramroth-415947-5193 .unnumbered} # {#section-25 .unnumbered} # Samples of alcoholic beverages imported for use at trade shows and/or for soliciting orders do not require an approved Certificate of Label Approval Form 5100.31, under certain conditions. Permission may be obtained by filing a letter request with ATF which states the amount of alcoholic beverage to be imported and the purpose, and that the following conditions will be met: {#samples-of-alcoholic-beverages-imported-for-use-at-trade-shows-andor-for-soliciting-orders-do-not-require-an-approved-certificate-of-label-approval-form-5100.31-under-certain-conditions.-permission-may-be-obtained-by-filing-a-letter-request-with-atf-which-states-the-amount-of-alcoholic-beverage-to-be-imported-and-the-purpose-and-that-the-following-conditions-will-be-met .unnumbered} # {#section-26 .unnumbered} # Products will be imported by the holder of an Importer's Basic Permit. # All applicable taxes and duties will be paid. # A sticker will be affixed to every container (bottle) which reads, "For Trade Show (or Sample) Purposes Only -- Not for Sale." # A label will be affixed to every container which bears the Health Warning Statement. # In the case of wine, an additional label will be affixed which reads, "Contains Sulfites." # {#section-27 .unnumbered} # Letter requests to import about this procedure, please contact the International Trade Branch at (202)927-8110. {#letter-requests-to-import-about-this-procedure-please-contact-the-international-trade-branch-at-202927-8110. .unnumbered} # {#section-28 .unnumbered} # New and Revised Brewery Forms Now Available {#new-and-revised-brewery-forms-now-available .unnumbered} # {#section-29 .unnumbered} # By Virginia Burnside (513)684-3066 {#by-virginia-burnside-513684-3066 .unnumbered} # {#section-30 .unnumbered} # {#section-31 .unnumbered} # The Brewery Units at the National Revenue Center would like to call attention to the recent revision of forms by the brewing industry. Four forms have been revised and three new forms have been created. These forms are to be used after April 1, 2002: {#the-brewery-units-at-the-national-revenue-center-would-like-to-call-attention-to-the-recent-revision-of-forms-by-the-brewing-industry.-four-forms-have-been-revised-and-three-new-forms-have-been-created.-these-forms-are-to-be-used-after-april-1-2002 .unnumbered} # {#section-32 .unnumbered} # ATF Form 5130.9 Brewer's Report of Operations (Revised) # ATF Form 5130.10 Brewer's Notice (Revised) # ATF Form 5130.22 Brewer's Bond (Revised) # ATF Form 5130.23 Brewer's Bond Continuation Certificate (Revised) # ATF Form 5130.25 Brewer's Collateral Bond (New) # ATF Form 5130.26 Brewpub Report of Operations (New) # ATF Form 5130.27 Brewer's Collateral Bond Continuation Certificate (New) # {#section-33 .unnumbered} # Since four of these forms were due for periodic review and/or approval by the Office of Management and Budget, it was an ideal time to revise them using plain language. As a result, the new and revised forms are user-friendly and should be easier for brewers to complete. {#since-four-of-these-forms-were-due-for-periodic-review-andor-approval-by-the-office-of-management-and-budget-it-was-an-ideal-time-to-revise-them-using-plain-language.-as-a-result-the-new-and-revised-forms-are-user-friendly-and-should-be-easier-for-brewers-to-complete. .unnumbered} # {#section-34 .unnumbered} # Changes to the Brewer's Report of Operations include: {#changes-to-the-brewers-report-of-operations-include .unnumbered} # {#section-35 .unnumbered} # The addition of the Employer Identification Number (EIN). # A new Part 2 to list information about Excise Tax Returns, ATF Form 5000.24, filed during the reporting period of the Brewer's Report. # An area to report any previous adjustments made to tax returns affecting a previous report of operations. # Minor line changes (lines 15(a) and (b) are now lines 14 and 15). # {#section-36 .unnumbered} # A brewpub that produces no more than 5,000 barrels of beer annually, and does not bottle or keg beer for removal from the brewery, may use the new Form 5130.26, Brewpub Report of Operations. All other breweries will use the revised Brewer's {#a-brewpub-that-produces-no-more-than-5000-barrels-of-beer-annually-and-does-not-bottle-or-keg-beer-for-removal-from-the-brewery-may-use-the-new-form-5130.26-brewpub-report-of-operations.-all-other-breweries-will-use-the-revised-brewers .unnumbered} # {#section-37 .unnumbered} # Report of Operations, Form 5130.9, on a monthly basis depending on production (filed quarterly if production is not more then 10, 000 barrels annually of filed monthly if production is over 10,000 barrels annually). {#report-of-operations-form-5130.9-on-a-monthly-basis-depending-on-production-filed-quarterly-if-production-is-not-more-then-10-000-barrels-annually-of-filed-monthly-if-production-is-over-10000-barrels-annually. .unnumbered} # {#section-38 .unnumbered} # The Brewer's Notice contains multiple changes and includes information that was previously submitted as a separate attachment to the Notice or as a variance. Signing authority for corporate officials, controlled group information, brewpub information, EIN and contact data (e-mail) are all included on the Brewer's Notice. {#the-brewers-notice-contains-multiple-changes-and-includes-information-that-was-previously-submitted-as-a-separate-attachment-to-the-notice-or-as-a-variance.-signing-authority-for-corporate-officials-controlled-group-information-brewpub-information-ein-and-contact-data-e-mail-are-all-included-on-the-brewers-notice. .unnumbered} # All the Brewer's Bonds have been revised and two new collateral bonds have been created. These forms must be used the next time it is necessary to execute a new Brewer's Bond or Continuation Certificate. The two new {#all-the-brewers-bonds-have-been-revised-and-two-new-collateral-bonds-have-been-created.-these-forms-must-be-used-the-next-time-it-is-necessary-to-execute-a-new-brewers-bond-or-continuation-certificate.-the-two-new .unnumbered} # forms are for brewers who use collateral (cash or acceptable securities) instead of a bond backed by a surety company. In January 2002, the home office of each authorized surety company was notified of the revised bond forms. {#forms-are-for-brewers-who-use-collateral-cash-or-acceptable-securities-instead-of-a-bond-backed-by-a-surety-company.-in-january-2002-the-home-office-of-each-authorized-surety-company-was-notified-of-the-revised-bond-forms. .unnumbered} # These forms can be found on the Internet at [www.atf.treas.gov](http://www.atf.treas.gov/), or obtained from the distribution {#these-forms-can-be-found-on-the-internet-at-www.atf.treas.gov-or-obtained-from-the-distribution .unnumbered} # center (703)455-7801. For more information please refer to Industry Circular 2002-1, dated March 5, 2002, or contact any Brewery Specialist at the ATF National Revenue Center, 1-800-398-2282. {#center-703455-7801.-for-more-information-please-refer-to-industry-circular-2002-1-dated-march-5-2002-or-contact-any-brewery-specialist-at-the-atf-national-revenue-center-1-800-398-2282. .unnumbered} # {#section-39 .unnumbered} # {#section-40 .unnumbered} # Reminder: Excise Tax Return Due Dates Change for September {#reminder-excise-tax-return-due-dates-change-for-september .unnumbered} # {#section-41 .unnumbered} # By Phil Coy (513)684-3334 {#by-phil-coy-513684-3334 .unnumbered} # {#section-42 .unnumbered} # A law that went into effect January 1, 1995, changed alcohol and tobacco excise tax return due dates for the last part of September. The legislative change affects both electronic fund transfer (EFT) taxpayers and those who pay by check or money order (Non-EFT). This is a reminder to pay particular attention when filing your return during that month. Here are the September tax returns that are affected and when they are due (note that statewide legal holidays may affect a due date): {#a-law-that-went-into-effect-january-1-1995-changed-alcohol-and-tobacco-excise-tax-return-due-dates-for-the-last-part-of-september.-the-legislative-change-affects-both-electronic-fund-transfer-eft-taxpayers-and-those-who-pay-by-check-or-money-order-non-eft.-this-is-a-reminder-to-pay-particular-attention-when-filing-your-return-during-that-month.-here-are-the-september-tax-returns-that-are-affected-and-when-they-are-due-note-that-statewide-legal-holidays-may-affect-a-due-date .unnumbered} # {#section-43 .unnumbered} # [Tax Return]{.underline} {#tax-return .unnumbered} # [Serial Number]{.underline} [Return Period]{.underline} [Due Date]{.underline} {#serial-number-return-period-due-date .unnumbered} # {#section-44 .unnumbered} # 18 September 16-25 September 27 (Non-EFT) {#september-16-25-september-27-non-eft .unnumbered} # 18 September 16-26 September 30 (EFT) {#september-16-26-september-30-eft .unnumbered} # 19 September 26-30 October 11 (Non-EFT) {#september-26-30-october-11-non-eft .unnumbered} # 19 September 27-30 October 11 (EFT) {#september-27-30-october-11-eft .unnumbered} # {#section-45 .unnumbered} # You can find more information on legal holidays and all calendar year 2002 due dates for semi-monthly alcohol and tobacco excise tax returns at our website -- "ATF Online": {#you-can-find-more-information-on-legal-holidays-and-all-calendar-year-2002-due-dates-for-semi-monthly-alcohol-and-tobacco-excise-tax-returns-at-our-website-atf-online .unnumbered} # {#section-46 .unnumbered} # <http://www.atf.treas.gov/alcohol/info/2002duedates.htm> {#httpwww.atf.treas.govalcoholinfo2002duedates.htm .unnumbered} # or you may contact the ATF National Revenue Center at {#or-you-may-contact-the-atf-national-revenue-center-at .unnumbered} # 1-800-398-2282 (<natlrevctr@cinc.atf.treas.gov>). {#natlrevctrcinc.atf.treas.gov. .unnumbered} # {#section-47 .unnumbered} # {#section-48 .unnumbered} # COLAs Online {#colas-online .unnumbered} # {#section-49 .unnumbered} # By William Moore (202)927-8140 {#by-william-moore-202927-8140 .unnumbered} # {#section-50 .unnumbered} # On June 25, 2002, Director Buckles signed Industry Circular 2002-5, COLAs Online. The circular announces the ongoing development of an electronic filing system for ATF Form 5100.31, Application for and Certification/Exemption of Label/Bottle Approval (COLA). The circular also provides the alcohol industry information and guidance on the use of COLAs Online. You can access the circular on the ATF website at: {#on-june-25-2002-director-buckles-signed-industry-circular-2002-5-colas-online.-the-circular-announces-the-ongoing-development-of-an-electronic-filing-system-for-atf-form-5100.31-application-for-and-certificationexemption-of-labelbottle-approval-cola.-the-circular-also-provides-the-alcohol-industry-information-and-guidance-on-the-use-of-colas-online.-you-can-access-the-circular-on-the-atf-website-at .unnumbered} # [www.atf.treas.gov/pub/ind_circulars/ic2002_5.htm](http://www.atf.treas.gov/pub/ind_circulars/ic2002_5.htm). {#www.atf.treas.govpubind_circularsic2002_5.htm. .unnumbered} # {#section-51 .unnumbered} # {#section-52 .unnumbered}	en
markdown	737091	# Presentation: 737091 ## Report of NHLBI HRT Studies Other Than the WHI October 23, 2002 Report of NHLBI HRT Studies Other Than the WHI October 23, 2002 David J. Gordon, M.D., Ph.D. National Heart, Lung, and Blood Institute ## Rationale for HRT Trials - Pre-menopausal women are at low risk for cardiovascular disease. Estrogen? - Oral HRT in post-menopausal women - Reduced CV risk in observational studies - Favorable effects on intermediate endpoints ## NHLBI HRT Trials1. QCA Regression Trials - ERA – D. Herrington (Wake Forest) - WAVE – D. Waters (Multi-center) - WELL-HART – H. Hodis (Southern California) - EAGAR – P.Ouyang (Johns Hopkins) ## NHLBI HRT Trials2. Short-Term Targeted Trials - Effects of Acute Hormone Therapy on Recurrent Ischemia in Postmenopausal Women with Unstable Angina - S. Schulman (Johns Hopkins) - Estradiol For Neurocognitive Dysfunction After CABG - C. Hogue (Washington, St. Louis) - Estrogens, Cytokines, and Heart Failure - S. Reis (Pittsburgh) - Efficacy of Hormone Replacement on Myocardial Ischemia in Postmemopausal Women with Minimal Coronary Artery Disease (WISE FemHRT ancillary study) - N. Bairey-Merz (Multi-center) ## ERA Trial - 309 postmenopausal women with CAD - Treatment Arms: Premarin, PremPro, Placebo - Duration: 3 years - Primary Endpoint: QCA - Results: NEJM 2000; 343:522-529 \| End Point \| E \| E+P \| Placebo \| \| --- \| --- \| --- \| --- \| \| MLD \| -0.09 mm \| -0.12 mm \| -0.09 mm \| \| Deaths \| 8.0% \| 2.9% \| 5.7% \| \| NF MI \| 6.0% \| 5.8% \| 6.7% \| \| CABG/PCI \| 18.0% \| 19.2% \| 22.9% \| \| DVT/PE \| 5.0% \| 1.9% \| 1.0% \| ## WAVE Trial - 423 postmenopausal women with CAD - Treatment Arms: - Hysterectomy -- Premarin, Placebo - Intact -- PremPro, Placebo - Duration: 3 years - Primary Endpoint: QCA - Other Features: Antioxidant vitamin vs placebo (2x2 factorial design) - Results: In press (Will be presented at Nov 2002 AHA Late-Breaking Trials session) ## WELL-HART - 226 postmenopausal women with CAD - Treatment Arms: Estrace, Estrace + MPA, Placebo - Duration: 3 years - Primary Endpoint: QCA. - Other Features: 50% Hispanic, Pravastatin provided to all 3 groups per ATP II guidelines. - Results: Will be presented at Nov 2002 AHA Late-Breaking Trials session. ## EAGAR Trial - 99 postmenopausal women post-CABG (initially designed to enroll 200 women) - Treatment Arms: - Hysterectomy -- Estrace, Placebo - Intact – Estrace + MPA, Placebo - Planned Duration: 3 years - Primary Endpoint: QCA, IVUS - Impact of WHI: Trial was stopped in Aug 2002 due to low likelihood of benefit, adverse trend in PCI, and insufficient power to justify repeat angiography. ## Acute Hormone Therapy in Unstable Angina (Schulman) - 239 postmenopausal women with acute coronary syndrome - Treatment Arms: Acute IV Estrogen + Premarin, Acute IV Estrogen + PremPro, Placebo - Duration: 21 days - Primary Endpoint: 48-hr ambulatory ischemic events - Results: JACC 2002;39:231-7 \| End Point \| E \| E+P \| Placebo \| \| --- \| --- \| --- \| --- \| \| 48-hr AIE \| 0.74 \| 0.86 \| 0.74 \| \| 21-day AIE \| 0.69 \| 0.71 \| 0.78 \| \| In-hosp death \| 5% \| 5% \| 3% \| \| In-hosp NF MI \| 3% \| 3% \| 5% \| \| CABG/PCI \| 36% \| 37% \| 34% \| ## Estradiol For Neurocognitive Dysfunction After CABG (Hogue) - 334 postmenopausal women undergoing CABG (61 randomized) - Treatment Arms: Estrace, Placebo - Duration: 5 days - Primary Endpoint: Neurocognitive changes at 4-6 wk and 6 mo. - Impact of WHI: None. Short-term treatment, no progestin. ## Estrogens, Cytokines, and Heart Failure (Reis) - 120 postmenopausal women with CHF (5 randomized) - Treatment Arms: FemHRT, Placebo - Duration: 6 months - Endpoints: Fuctional capacity, bi-ventricular mass and function, circulating cytokines. - Impact of WHI: DSMB recommended continuation. Short-term treatment, different hormone preparation and target population. ## WISE FemHRT Ancillary Study (Bairey-Merz) - 74 postmenopausal women with minimal CAD (< 20 randomized) - Treatment Arms: FemHRT, Placebo - Duration: 12 weeks - Primary Endpoints: Induced myocardial ischemia, endothelial cell dysfunction - Impact of WHI: DSMB recommended continuation. Short-term treatment, different hormone preparation. ## Non-NHLBI HRT Trials - Completed - HERS (N = 2763, clinical events, 4 yrs) - PHOREA (N = 321, carotid IMT, 48 wks) - PHASE (N = 255, clinical events, 3 yrs) - EPAT (N = 199, carotid IMT, 2 yrs) - WEST (N = 652, recurrent stroke, 3 yrs) - Ongoing - WISDOM (N ≈ 34,000, clinical events, 10 yrs) ## Summary - NHLBI has sponsored several recent small trials testing the efficacy of HRT in preventing progression of CAD in post-menopausal women and examining effects of HRT in targeted populations with cardiovascular disease (post-CABG, CHF, acute and chronic ischemia). - 4 completed and 4 active when WHI results announced. - 1 study stopped by DSMB and 3 continue. - 2 published trials show no benefit of HRT – but numbers are small. - Results of 2 other trials to be announced in November	en
converted_docs	282231	Appendix K Catastrophic Risk Assessment of Lower Columbia and Willamette River ESUs for Endangered and Threatened Pacific Salmon *Thomas P. Good and Juliet Fabbri* *National Marine Fisheries Service, Northwest Fisheries Science Center* Introduction Catastrophic events are among the factors, along with long-term demographic processes and evolutionary potential, that need to be considered when relating viable salmonid populations (VSPs) to viable evolutionarily significant units (ESUs). Catastrophes are sudden (within-season) events that eliminate or severely reduce (by up to 75%) adult populations (McElhany et al. 2000). A variety of natural and anthropogenic catastrophic events occurring intermittently over evolutionary time scales can have long-term consequences. If preceded by gradual climatic change or overfishing, these events may result in ecosystem shifts (Scheffer et al. 2001). Natural catastrophes include volcanoes, earthquakes, floods, landslides, extreme weather (droughts), unusual fires, and disease epidemics. Anthropogenic catastrophic events include oil/chemical spills, dam construction or diversion/dam failure, floods, disease epidemics from hatcheries, and major miscalculations in harvest. Some catastrophic events can also result from the interaction of natural and anthropogenic factors. The number of threats facing salmonid populations suggests that catastrophes may have a substantial influence on extinction risk. Salmon have enhanced their long-term stability in the face of ice ages, continental uplifts, and volcanic eruptions by maintaining diverse populations, habitats, and life-history diversity, thus spreading risk and providing redundancy (Levin and Schiewe 2001). The risk of extinction posed by catastrophic events for an entire ESU can be estimated by evaluating risk for separate populations (McElhany et al. 2000) as well as for nearby populations (correlated risks). Catastrophic events are not commonly considered a part of species listing or recovery plans. Of 181 recovery plans reviewed by a National Center for Ecological Analysis and Synthesis (NCEAS) working group, 13 (≈ 7%) cited catastrophes/stochastic events as a factor in the listing decision, and 57 (≈ 31%) cited catastrophes/stochastic events as a factor in the recovery plan. (www.nceas.ucsb.edu/recovery/data). Only 31 (≈ 17%) listed catastrophes/ stochastic events as a major threat; however, 51% of those plans assigned the highest implementation priority to tasks that address these factors. Catastrophic events are of primary importance in a small number of cases; for example, the recovery plan for the federally listed sea otter in California identified catastrophic oil spills as the primary risk to population viability, with quantitative estimates of risks from oil spills forming the basis of the recovery goals (Ralls et al. 1996). While catastrophic events vary in frequency, scope, and impact, they share features that make them amenable to quantification and of potential importance for salmon populations. This document investigates a variety of natural and anthropogenic catastrophes in order to make quantitative and qualitative assessments of catastrophic risk for threatened and endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers, specifically chinook salmon (Oncorhynchus tshawytscha), steelhead trout (O. mykiss), and chum salmon (O. keta). Herein, we analyze catastrophic risks from volcanoes, glacial outbursts, earthquakes, landslides, disease epidemics from hatchery operations, and transportation oil/chemical spills. Risks from floods, fire, pollution from oil/chemical storage, and from land use (industrial zoning, pesticide use) are being analyzed to more fully understand the suite of catastrophic risks that exist for these endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers. Volcanoes and Glacial Outbursts Volcanoes Volcanoes and flows of water, mud, and debris associated with glaciers pose a considerable risk to populations in watersheds that emanate from the chain of volcanic mountains in the Cascade Mountains. In fact, Mount Rainier is considered an extremely dangerous volcano (Perkins 2001). Volcanic activity epitomizes extreme unpredictability--- catastrophic events that may be statistically predictable, but only in time intervals much longer than the generation time of salmonids (Thorpe 1994). These catastrophic risks have an occurrence interval of 100--1,000 years (Bisson et al. 1997), and they can have devastating consequences for salmonids, especially in watersheds close to an eruption. Volcanism can result a variety of chemical and physical alterations, including increased delivery of fine sediments and organic matter, scouring of channels from mudflows, formation of mudflow terraces along rivers, destruction of riparian vegetation, damming of streams, and the potential creation of new lakes (NRC 1996). The effects on the salmon's habitat include sedimentation of spawning gravels, loss of pool habitats from mudflows, short-term lethal levels of sediment and temperature during eruptions, and formation of migration blockages. Potential positive effects include creation of pool habitat in areas with tree blowdowns, creation of new overwintering habitat and side channels along mudflow terraces, and long-term benefits to lake-dwelling species (NRC 1996). Physical, biological, and chemical changes resulting from even modest volcanic eruptions can be extreme (Dorava and Milner 1999). The 18 May 1980 eruption of Mount St. Helens in 1980 provides examples of the potential short and long-term consequences of volcanic activity. The effects of the Mount St. Helens eruption were dramatic and variable. The eruption damaged over 500 km^2^ of forest and riparian vegetation, sending water temperatures soaring to 26˚C on some streams (Lucas 1986), and increasing hillside erosion, due to a lack of groundcover, contributed to stream bedloads. The resultant debris flow extended 24 km down the North Fork Toutle River, and mudflows buried stream channels in the North and South Fork Toutle Rivers, eliminating fish habitat (Lucas 1986). With the North Fork Toutle River buried to an average depth of 47 m (maximum 183 m), and smaller mudflows in the South Fork Toutle River and parts of the upper Lewis River and Kalama River, increased water levels flooded the Toutle and Cowlitz River Basins. Mudflow deposits that clogged the channels of the Cowlitz River also led to water temperatures in the lower reaches exceeding 32˚C. Lahars reduced the flood-stage capacity at Castle Rock on the Cowlitz River from 76,000 cubic feet per second (cfs) to less than 15,000 cfs, and reduced channel depth on the Columbia River (12 to 4.25 m), stranding 31 ships in upstream ports (Leider 1989). Effects of the Mount St. Helens eruptions on salmonids were dramatic and variable; recovery of salmonid populations after volcanic eruptions can potentially be relatively quick due to temporary food abundances, recolonization potential, and relative scarcity of predators and competitors (Bisson et al. 1997). However, the majority of aquatic life in the Toutle River watershed was probably eliminated immediately (Leider 1989). Additional fatalities included approximately 12 million salmon fingerlings in hatcheries (Brantley and Myers 2000) as well as increased summer and winter mortality of stocked juvenile coho salmon related to high stream temperatures and the lack of large organic debris, respectively (Martin et al. 1986). Production of stocked juvenile coho in three impacted third-order streams increased annually, peaked six years after the eruption, and declined to normal thereafter (Bisson et al. 1988, 1997). Reduced invertebrate communities resulted in food impacts for subyearling chinook in the Columbia River estuary in 1980 and 1981, although effects on food resources were believed to be short-term (Kirn et al. 1986). Increased straying of fish to unaffected streams and rivers can result from blocked access to spawning grounds; many fish initially avoided the Toutle River and strayed extensively into other Columbia River tributaries (Lucas 1986), and the percentage of nonnatal steelhead in unaffected Columbia River tributaries increased from 16% to 45% (both winter and summer runs) (Leider 1989). Straying to the Kalama River and the North Fork Lewis River was also extensive, and the decline in fish numbers in the Cowlitz River continued to 1983--1984 before reverting to pre-eruption levels (Leider 1989). Recent eruptions in a chain of volcanoes west of Cook Inlet, Alaska, further exemplify the direct and indirect effects on salmonids, including changes to water quality, channel geometry, and riparian vegetation (Dorava and Milner 1999). During the 1989--1990 Redoubt Volcano eruption, the riparian zone was removed or killed in place by lahars, which reduced allochthonous input and, subsequently, primary and secondary production. Such habitat decreases or degradation can persist for years, and subsequent effects include initial migratory impediments from lahar deposits, unstable streambeds, and silt in spawning gravel beds (Dorava and Milner 1999). Salmon populations were likely seriously affected due to changes to fish access. Thick deposits of fine sediment modified large channels and spawning sites, and food sources were eliminated for rearing fish. Being washed out by mud and debris flows likely immediately killed juveniles and affected future spawning activities. Food sources were subsequently eliminated for rearing fish. Although macroinvertebrate communities can recover as early as five years after a major volcanic eruption, it is not clear whether these are stable communities. Upstream sources of macroinvertebrates can hasten a return to normalcy as well, but comparison among volcanoes is problematic---macroinvertebrate recolonization at Mount St. Helens began rapidly but took place over a long time. Glacial Outbursts Glacial outbursts, from the sudden release of water stored within or at the base of glaciers, pose a serious hazard in river valleys on volcanoes. Glacial outbursts at Mount Rainier can be unrelated to volcanic activity, and the peak discharge of outbursts may be greater than that of extreme meteorological floods. At least 36 outburst floods have been recorded from the Kautz, Nisqually, South Tahoma, and Winthrop Glaciers on Mount Rainier during the twenthieth century, destroying bridges, roads, and Mt. Rainier National Park visitor facilities 10 times since 1926. Well-studied outbursts---from South Tahoma Glacier---are correlated with periods of unusually high temperatures or heavy rain in summer or early autumn (Hoblitt 1998). Many of these glacial outburst floods transform to lahars by incorporating large quantities of sediment from channel walls and beds; consequently, they are included with lahars for purposes of hazard zonation (Hoblitt 1998). Discharges of water and debris have also occurred at Mount Hood, resulting in significant losses of salmonid spawning and rearing habitat on the East Fork of the Hood River (Kostow et al. 2000). Earthquakes Earthquakes, and secondary landslide hazards associated with ground motion, pose a risk to populations in watersheds associated with the offshore Cascadia subduction zone and to some extent with the Cascade Range volcanoes. Little literature exists on direct or indirect effects of earthquakes on Pacific salmonids. The hazard posed by ground shaking and related secondary damage to watersheds, and the fish habitat contained therein, has been estimated and can be used as a proxy for damage to fish resources. Each year more than 1,000 earthquakes are recorded in Washington State, with 15 to 20 causing substantial ground shaking. Destructive earthquakes occur much less often; the last earthquake to cause widespread damage in Washington occurred in 1965. Larger earthquakes may have occurred every several hundred or thousand years in the Pacific Northwest; the most recent such earthquake occurred about 300 years ago (Noson et al. 1988). The effects of earthquakes include burial of nearby valley floors; such an avalanche was triggered by a moderate (magnitude 5) earthquake, which followed eight weeks of intense seismic activity beneath Mount St. Helens during the 18 May 1980 volcanic eruption (Noson et al. 1988). Earthquakes may result in secondary damage from landslides (see "Landslides" below), such as the 14 earthquakes large enough to trigger landslides in Washington from 1872 to 1980. Earthquakes on Mount Rainier, Mount St. Helens, and around Puget Sound have been known to trigger landslides, and ground shaking produced by earthquakes can weaken and collapse bluffs. Future earthquakes in Washington are expected to generate more landslides and greater habitat changes than those reported for past earthquakes (Noson et al. 1988). Earthquakes off the Pacific Northwest coast may also result in tsunamis when large, rapid movements in the seafloor displace the water column above, thus setting off the destructive waves. Offshore tsunamis can strike adjacent shorelines within minutes and cross the ocean at speeds of up to 600 mph. A 1946 earthquake in the Aleutian Islands of Alaska initiated a tsunami that reached Hawaii in less than five hours, had waves as high as 55 feet, and killed 173 people (Manson and Walkling 1998). A dozen very large earthquakes (magnitudes ≥ 8) have occurred in the Cascadia subduction zone. On the Pacific Northwest coast, risks exist from distant and local tsunamis and computer models indicate that tsunami waves generated by local events might reach 55 feet and affect the entire coastal region (Manson and Walkling 1998). Landslides Washington has many sites susceptible to landslides, including steep rocky slopes along the Columbia Gorge and rugged terrain in the Cascade Mountains. Although landslides are propelled by gravity, they can be triggered by geologic or anthropogenic forces. Volcanic eruptions can initiate earth movement on a grand scale, particularly lahars, mixtures of volcanic ash and water. Cascade volcanoes offer many sites for rock and ice avalanches, rock falls, and debris flows on their steep slopes. They are particularly vulnerable to landslides because of the layered and jointed volcanic rocks lying parallel to the mountain slopes, weakened by the effects of steam and hot groundwater and oversteepened by erosion. In addition, icefalls from glaciers can trigger landslides, and snow and ice add to the mobility of such slides. The 1949 Olympia earthquake generated more than 20 landslides, as far as 180 km from the epicenter; the 1965 Seattle/Tacoma earthquake generated 21 landslides, as far as 100 km from the epicenter. Fourteen earthquakes from 1872 to 1980 are known to have triggered landslides in Washington. Landslides on Mount Rainier were reported for earthquakes in 1894, 1903, and 1917, and a massive 2.8-km^3^ rockslide/debris avalanche on the north side of Mount St. Helens during the catastrophic eruption of 18 May 1980 was triggered by a moderate (magnitude 5) earthquake that followed eight weeks of intense earthquake activity beneath the volcano. Sudden water displacement from landslides can also generate destructive water waves, such as occurred when a 300-foot bluff along the Tacoma Narrows, weakened by the 1949 earthquake, collapsed into Puget Sound three days later. Future earthquakes in Washington are expected to generate more landslides than were reported for the 1949 or 1965 earthquakes, when rainy-season precipitation was near or below average throughout the Puget Sound area. Earthquakes notwithstanding, the major causes of landslides in the Northwest are continuous rains that saturate soils. Mud and debris flows are frequently the direct consequence of human activity. Seemingly insignificant modifications of surface flow and drainage may induce landslides, and building placement may lead to the loss of structures. In Portland, population pressure has pushed housing and highway construction into landslide-prone areas, where improper drainage induces disastrous sliding. Landslides result from agricultural irrigation and clearcutting of forests from naturally steep slopes. A 1996 Forest Service study of 244 landslides found that 91 were associated with logged-over lands, 93 with roads, and 59 in undisturbed forests; the combination of logging and road-building increases slide frequency fivefold over a 20-year period compared to undisturbed forested lands. Most of the 250 landslides in the Clackamas River watershed and in the Mount Hood National Forest during the floods of 1996 were in lands logged over or criss-crossed by dirt logging roads (http://www.oregongeology.com/landslide/landslidehome.htm). The impact of landslides on stream drainages and reservoirs can pose significant risk to downstream areas. Landslides or debris flows into reservoirs or lakes may displace enough water to cause severe downstream flooding, and water ponded behind landslide-debris dams can cause severe floods when these natural dams are suddenly breached. Such outburst floods are most likely near volcanic centers active within the past 2 million years; the Toutle River was blocked by a debris flow triggered by an earthquake during the 1980 eruption of Mount St. Helens. The debris flow dam raised the level of Spirit Lake by 60 m, requiring the U.S. Army Corps of Engineers to construct a tunnel through bedrock to lower the lake level and reduce flood danger from a sudden release of water (Crandell and Mullineaux 1978). Disease Epidemics from Hatchery Operations Characteristics of host-pathogen interactions make disease epidemics potentially catastrophic events. Host-pathogen interactions are understudied and often indiscernible in the wild, and disease epidemics occur seemingly out of nowhere. While documentation of chronic background levels of diseases provides information on the past, future risks from new and deadly pathogens/parasites may be unrelated to past events. Moreover, while there is much information on disease incidence and effects on hatchery salmon and steelhead, our understanding of the effects of disease on released hatchery fish and interaction with wild fish is not well understood (NRC 1996). Fish and pathogen strains have generally co-evolved in a way that common microorganisms do not kill the hosts (Schreck 1996). However, mutations may result in abnormally virulent strains and a series of mutual population expansions and crashes, not unlike predator/prey interactions. Epidemics may burn themselves out because hosts die, and thus pathogen density decreases and cannot be transmitted effectively, or there may be no loss of virulence, only a low rate of infection. Although it is recognized that pathogens reside in wild populations and that diseases are transferred between wild and hatchery fish, the initial introduction of pathogens into a population results largely from infected fish being moved by humans into susceptible populations (Reno 1998). Variable susceptibility to pathogens is, in part, inherited, and wide variation exists in response to pathogen challenge in wild fish because of their wide genetic background (Anderson 1996). Individual differences have been identified in wild stocks and among hatchery strains (Beacham and Evelyn 1992). The variable susceptibility among fish might be considered normative in contrast to genetically selected hatchery strains, which might have lost much of this variability. While genetically diverse and spatially separated wild fish may be able to deny new or old virulent strains the opportunity to proliferate through close contact, hatchery fish, being possibly less diverse and more densely packed, may transmit a virulent strain that would otherwise subside as a result of competition with less-virulent counterparts (Coutant 1998). Fish culture may strongly influence the number of asymptomatic carriers compared with their numbers in wild conditions (Coutant 1998). These carriers are common (Anderson 1990), and they can transmit pathogens to susceptible fish that they encounter. In wild fish, culling from disease early in life may be masked, because we expect fairly high early-life-stage mortality. However, prophylactics in hatchery culture situations may reduce progressive early mortality. A high loss of hatchery outplants, once dispersed in the wild, may merely be an expression of the delayed culling process through disease. The long-term effects for surviving wild and cultured fish might be equivalent, but the development of the disease(s) from the perspective of the pathogen's normal ecology might be very different between infection of young fish and of older ones held in a hatchery for a year before release. The pathogen might thereby be held to its normative cycle of attack, infection, growth, and dispersal in early juveniles rather than creating an abnormal disease cycle with older fish (Coutant 1998). In hatchery salmonids, the negative effect of rearing density on growth, condition factor, food conversion efficiency, as well as increased physiological stress and rates of mortality, have been extensively documented (Flagg et al. 2000). What role disease plays in these reduced performance measures remains unclear, however reductions in performance measures due to diseases, which themselves are related to rearing densities, are well documented. For example, infection by bacterial kidney disease (BKD), a major pathogen in Pacific Northwest fish hatcheries, significantly reduced the ability of juvenile chinook to avoid fish predators in laboratory experiments (Mesa 1998). The potential effect of high densities of salmon in hatchery facilities throughout the Pacific Northwest can be seen in surveys of hatchery disease (Table K.1). Pathogen detection varied from relatively rare at all facilities, such as with viral hemorrhagic septicemia (VHS), to extremely common, such as with BKD. Despite improvements in hatchery disease management, many of these diseases continue to be chronic problems for salmonids in hatchery facilities. Disease mortality rates in hatchery populations can be very high, depending on environmental conditions, and vary considerably among pathogens (Table K.2). Infectious Haematopoietic Necrosis Infectious haematopoietic necrosis (IHN) is an infectious viral disease of rainbow or steelhead trout (O. mykiss), chinook (O. tshawytscha), sockeye (O. nerka), chum (O. keta), and coho (O. kisutch) salmon (OIE 2000). IHN reservoirs are clinically infected fish and covert carriers among cultured, feral, or wild fish. Once established in a farmed stock or watershed, due to either spawning of infected migratory fish or from river restocking for recreational purposes, IHN may become established among carriers (OIE 2000). Infectious Pancreatic Necrosis Infectious pancreatic necrosis (IPN) is a highly contagious viral disease of young salmonids held under intensive rearing conditions. The disease most characteristically occurs in rainbow and steelhead trout, brook trout (Salvelinus fontinalis), brown trout (Salmo trutta), and several Pacific salmon species (OIE 2000). Transmission within a hatchery may be horizontal, vertical, or both (Reno 1999). Viral Hemorrhagic Septicemia Viral hemorrhagic septicemia (VHS), a systemic viral infection, occurs in salmonids of any age and may result in significant mortality (OIE 2000). Epizootic losses occur at temperatures of 3° to 12°C (greatest at 3° to 5°C); low daily mortality over an extended time results in high cumulative mortality. At high water temperatures (15° to 18°C), the disease acts quickly with modest accumulated mortality and fewer carriers (OIE 2000). Reservoirs of VHS are clinically infected fish and cultured, feral, or wild carriers, and animate or inanimate surfaces in hatcheries, where the virus can be mechanically transferred (McAllister 1990). Once established in stocks and water systems, carriers make the disease enzootic (OIE 2000). Erythrocytic Body Inclusion Syndrome Erythrocytic body inclusion syndrome (EIBS) is a viral condition observed in hatchery salmonids from the Columbia River and its tributaries (Piacentini et al. 1989). This syndrome occurs at a higher rate in hatchery chinook (70%) than those produced naturally (50%) in the Snake River Basin (PNWFHPC 1998). The disease is more severe in coho and chinook salmon than in rainbow and cutthroat trout and is more severe at higher temperatures (Piacentini et al. 1989). Bacterial Kidney Disease Bacterial kidney disease (BKD) is a systemic bacterial infection from Renibacterium salmoninarum that commonly causes high mortality in wild and propagated salmonids. The disease is typically chronic, but acute outbreaks sometimes occur at moderate temperatures (13° to 18°C), and subclinically infected fish or carriers are reservoirs of infection (Bullock and Herman 1988). Naturally infected feral brook trout can transmit BKD to newly stocked rainbow, brown, and brook trout, which begin dying within nine months. The bacteria are excreted by clinically diseased trout, and can survive up to 21 days in feces or pond sediments. BKD can also be transmitted vertically to eggs. Although health control measures may contain the disease, and different methods have been suggested for improving detection of the agent in infected fish populations, there is as yet no general agreement on the value of these methods (OIE 2000). Furunculosis Furunculosis (FUR) is a systemic bacterial infection that has an asymptomatic form, an acute form with severe internal organ involvement and high numbers of mortalities, and a chronic form that may involve internal pathology with fewer mortalities over longer periods of time (Reno 1999). Among salmonids, susceptibility is lower in brook, rainbow, and brown trout than in other species (Reno 1999). Enteric Redmouth Disease Enteric redmouth disease (ERM) is an acute or chronic bacterial infection from Yersinia ruckeri. Isolated from coho, sockeye, and chinook salmon and from rainbow, cutthroat, and brown trout, outbreaks have also been confirmed in steelhead (Horne and Barnes 1999). ERM commonly causes sustained, low-level mortality, eventually resulting in high losses; however, large-scale, acute epizootics occur if chronically infected fish are stressed via intensive culture and poor water quality (Bullock and Cipriano 1990, Horne and Barnes 1999). In rainbow trout, 25% of survivors of an experimental ERM challenge became asymptomatic carriers with bacteria localized in the lower intestine (Busch and Lingg 1975). In streams receiving hatchery effluent, 60% (3/5) of rainbow trout were positive for Y. ruckeri (Altinok et al. 2001). While commercial vaccines have been effective, strains have developed resistance and questions remain about the nature of antigens involved (Horne and Barnes 1999). Cold-Water Disease Cold-water disease (CWD) is a bacterial infection that occurs in salmon and brook, rainbow, and brown trout. Morbidity ranges from 1% to 50%; at low temperatures (below 10°C), it approaches 75% (Shotts and Starliper 1999). Transmission is vertical or horizontal, and outbreaks can occur after stocking a habitat with infected fish or transferring fish from facilities where the infection had not been detected. Proliferative Kidney Disease Proliferative kidney disease (PKD) is caused by a parasitic myxozoan infection that also parasitizes bryozoans (Kinkelin and Boriot 2001). Mortality from PKD is variable and temperature dependent. Whirling Disease Whirling disease (MC) is a parasitic infection of trout and salmon by the myxosporean Myxobolus cerebralis. Susceptibility ranges from high to low in rainbow trout, sockeye salmon, golden trout (O. aguabonita), cutthroat trout, brook trout, steelhead, chinook salmon, brown trout, and coho salmon. Susceptibility is greater in younger fish than in older fish (Markiw 1992). The source of the infective agent for fish is usually the water supply or earthen ponds inhabited by aquatic tubificid worms. Mortalities up to 90% may occur between newly hatched fish exposed to the infective agent as sac fry. Ceratomyxa shasta Ceratomyxa shasta (CS) is a parasite that leads to mortality of hatchery-reared and wild juvenile salmonids as well as to pre-spawning mortality in adult salmon (Bartholomew 1989). Documented in chinook, coho, sockeye, and chum salmon, as well as steelhead, rainbow, brook, brown, and cutthroat trout, it involves an intermediate host, the polychaete worm Manaynukia speciosa. Control of the parasite in hatchery and wild populations depends on the introduction of resistant salmonids (Bartholomew 1989), thus epizootics are possible if infested water is transferred to native populations. Ichthyophthirius Ichthyophthirius (ICH), or \"white spot disease,\" is a protozoan infection of freshwater fish caused by Ichthyophthirius multifiliis. The parasite is quite lethal, and epizootics occur with relative predictability. As the free-swimming infective stage is viable for only days, epizootics are more likely to occur in facilities with high-density fish populations. The "Ich" life cycle is influenced by crowding, and growth rate and development accelerate when water temperatures reach between 16° and 19°C (Traxler et al. 1998). While data on occurrence and impact of hatchery diseases provide information on historical potential for catastrophic epidemics, continuing high production of hatchery fish may increase the risk of future epidemics despite hatchery practices that may have been instituted to mitigate or eliminate mortality in hatcheries. The densities at which hatchery populations are reared and released may increase the potential for known or heretofore unreported diseases to spread within hatchery populations and then from hatchery populations to wild populations. In dense populations, pathogen incidence can be high and transmission barriers can be low, which can lead to high virulence. Dense hatchery populations may act as reservoirs for exotic pathogens, and, if hatchery fish are asymptomatic, transmission to wild populations can be accelerated. Pollution Pollution in the form of oil and chemical spills can pose a risk to salmonid populations in the Lower Columbia and Upper Willamette ESU. Fish kills have been reported associated with such spills, and the frequency of these events has not necessarily been reduced by prophylactic measures and legislated improvements over the past few decades. There are point sources of spills and leaks at storage facilities and superfund sites as well as from the transportation of oil and chemicals. In addition to the myriad anthropogenic factors that can affect the survival of outmigrating juveniles in freshwater, the biological effects of chemical contaminants on salmonids during their residency in certain urban estuaries can potentially lead to reduced survival. Concomitant with the increased chemical exposure, juvenile salmonids inhabiting certain urban estuaries exhibit evidence of impairment of physiological processes such as immune system alterations, impaired growth, and behavioral changes. There is evidence of linkage between the presence of elevated levels of complex mixtures of chemical contaminants in polluted estuaries and effects on health and survival of juvenile salmonids. Sublethal effects from toxic chemical exposure experienced by outmigrant juvenile salmonids during their residence in urbanized estuaries indicate the need to further investigate estuarine pollution as a contributing factor to declines in salmon stocks from urbanized watersheds (Casillas et al. 1997). Methods Volcanoes To determine relative risk from volcanic activity, we assembled hazard assessment data from U.S. Geological Survey (USGS) sources for Mount Rainier (Hoblitt et al. 1998), Mount Adams (Scott et al. 1995), Mount St. Helens (Wolfe and Pierson 1995), Mount Hood (Scott et al. 1997), Mount Jefferson (Walder et al. 1999), and the Three Sisters region (Scott et al. 2001). In these reports, areas around volcanoes are divided into proximal and distal hazard zones---some zones are subdivided further---based on magnitude of past volcanic events inferred from deposits, mathematical models that use calibrations from other volcanoes to forecast the likely extent of future pyroclastic flows, debris avalanches and lahars, and experience and judgment of USGS scientists derived from observations and understanding of events at similar volcanoes. Hazard assessments were overlaid, along with fish distributions, on maps of populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing volcanic hazard for each population. Categories of relative catastrophic risk from volcanoes included negligible, low, medium, and high. Populations that did not overlap with any volcanic hazard zone were categorized as negligible. Populations that overlapped with low hazard zones were categorized as low. Populations that overlapped with low and medium volcanic hazard zones were categorized as medium. Populations that overlapped with medium and high volcanic hazard zones were categorized as high. Earthquakes To determine relative risk from earthquake activity, we assembled hazard assessment data for the Pacific Northwest from USGS report 97-131 (Frankel et al. 1997). Hazard probabilities were calculated from the largest ground motions to the smallest at a collection of sites and added up to a total probability, P, and in a particular period of time, T. For our analyses, we chose the hazard assessment of rare, large-scale events. The hazard contours in this analysis are represented as peak acceleration (% gravity \[g\]) or the percent acceleration force due to gravity with a 2% probability of exceedance (PE) in 50 years. Hazard probabilities were overlaid with fish distributions on populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing earthquake hazard for each population. Categories of relative catastrophic risk from earthquakes included low, medium, and high. Populations that overlapped with earthquake hazard zones with low peak acceleration values (18%--30% g) were categorized as low. Populations that overlapped with earthquake hazard zones with moderate peak acceleration values (30%--60% g) were categorized as medium. Populations that overlapped with earthquake hazard zones with high peak acceleration values (60%--120%g) were categorized as high. Landslides/Glacial Outbursts To determine relative risk from landslide activity, we assembled hazard assessment data from USGS sources (Godt 1997). The map was trimmed to the Lower Columbia River/Upper Willamette River ESU boundaries and overlaid with major rivers on populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing landslide hazards for each population. The original USGS coverage categorized risk in two ways: landslide susceptibility/incidence and landslide incidence. We grouped these assessments into catastrophic risk categories of low, medium, and high based on the relative amounts of area in each population in the three categories and the proximity of hazard areas to salmonid-bearing streams in the population. Populations that overlapped with landslide hazard zones of low hazard values were categorized as low. Populations that overlapped with medium values or a combination of hazard zones that averaged medium were categorized as medium. Populations that overlapped with landslide hazard zones with high values or a combination of hazard zones that averaged or was dominated by high values, especially in fish-bearing streams, was categorized as high. Disease Epidemics from Hatchery Operations As a proxy for the potential for disease epidemics, we collected data on the extent of hatchery production within population boundaries for the five Lower Columbia River and Upper Willamette River salmonid ESUs. Data on hatchery production levels were compiled from a variety of sources, primarily the 2000 hatchery adipose-clip database (<ftp://ftp.streamnet.org/> pub/streamnet/maps/massmarking), hatchery genetic management plans submitted to NMFS, Integrated Hatchery Operations Team (IHOT) reports ([www.streamnet.org/ihot_audit/](http://www.streamnet.org/ihot_audit/) hatchery.html), and the Northwest Indian Fisheries Commission Hatchery Releases Web page (www.NWIFC.org). Annual releases of salmonids (chinook, chum, coho, sockeye, steelhead, and cutthroat trout) and related species (rainbow, brown, brook, and golden trout) at on-site and at off-site locations were summed for facility and categorized as no risk (0 fish/year), low risk (0 to 500,000 fish/year), medium risk (500,000 to 5,000,000 fish/year) and high risk (\>5,000,000 fish/year). Population boundaries were defined according to historical demographically independent populations identified in Myers et al. (2002). Oil/Chemical Pollution (Transportation) To determine relative risk of a catastrophic event due to oil/chemical pollution, we assembled information on transportation corridors in areas overlapping with the listed ESUs in the Lower Columbia and Upper Willamette Rivers. The road density GIS layer was obtained from the Regional Ecosystem Office Web site (http://www.reo.gov/reo/) and overlaid, along with fish distributions, on maps of populations of the five Lower Columbia and Upper Willamette River salmonid ESUs. A ratio of road density was calculated using ArcView 8.1 by dividing the linear extent (km) of all roads by the total area (km^2^) encompassed by each population. We mapped the ratio of road length/area of population (see Figures K.17--K.22) based on sorting the ratios into four equal intervals and labeled them accordingly: negligible, low, medium, and high. The relative catastrophic risk among populations was assessed for ESUs (Lower Columbia chum) and life history types within ESUs (Lower Columbia fall and spring chinook; Upper Willamette spring chinook; Lower Columbia winter and summer steelhead; Upper Willamette winter steelhead) by categorizing earthquake hazard for each population. Correlated Catastrophic Risk Assessment Single catastrophic events can affect a single population or an entire metapopulation. For Pacific salmon metapopulations, an intermediate case is appropriate, whereby a single catastrophic event will affect several populations, but not necessarily the entire metapopulation. For example, a volcanic eruption could drastically reduce spawning and rearing habitat for populations in multiple watersheds. It is possible to explore how these types of spatially correlated catastrophes affect metapopulation dynamics by simulating the effect of catastrophes on population-specific capacities within an ESU. Given a hypothesized spatial correlation in risk between 21 chinook populations of the Puget Sound ESU, the program RAMAS 4.0 applied catastrophes stochastically over 100 years, with a per-population catastrophic risk that was increased according to its correlation with other populations. For this ESU, catastrophic events can affect the performance of a metapopulation (Ruckelshaus et al. in prep.). Results of Analyses Volcanoes The catastrophic risk from volcanic activity varied among populations within ESUs, but generally depended upon proximity to the north-south line of Cascade volcanoes. The populations and their risks are as follows: Lower Columbia River fall chinook ESU (Figure K.1) > Negligible (9) Coast Range---Youngs Bay, Grays River, Big Creek, > Elochoman River, Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades---Coweeman and Clackamas River tributaries > > Low (5) Western Cascades---upper and lower Cowlitz River, Washougal > River > > Columbia Gorge---lower and upper gorge tributaries > > Medium (3) Western Cascades---Lewis River/Salmon Creek > > Columbia Gorge---Big White Salmon River, Hood River tributaries > > High (3) Western Cascades---Toutle, Kalama, Sandy Rivers Lower Columbia River spring chinook ESU (Figure K.2) > Negligible (1) Western Cascades---Tilton River > > Medium (5) Western Cascades---upper Cowlitz, Cispus, and Lewis Rivers > > Columbia Gorge---Big White Salmon and Hood Rivers > > High (3) Western Cascades---Toutle, Kalama, and Sandy Rivers Upper Willamette spring chinook ESU (Figure K.2) > Negligible (3) Molalla, South Santiam, and Calapooia Rivers > > Low (2) Clackamas and Middle Fork Willamette Rivers > > Medium (2) North Santiam and McKenzie Rivers Lower Columbia winter steelhead ESU (Figure K.3) > Negligible (4) Western Cascades---Tilton, Coweeman, and East Fork > Lewis Rivers, and Salmon Creek > > Low (5) Western Cascades---lower Cowlitz, Clackamas, and Washougal > Rivers > > Columbia Gorge---lower and upper gorge tributaries. > > Medium (4) Western Cascades---Cispus, upper Cowlitz, and North Fork > Lewis Rivers. > > Columbia Gorge---Hood River > > High (4) Western Cascades---North and South Forks Toutle, Kalama, and > Sandy Rivers Lower Columbia River summer steelhead ESU (Figure K.4) > Negligible (1) Western Cascades---East Fork Lewis River > > Low (2) Western Cascades---Washougal and Wind Rivers > > Medium (2) Western Cascades---North Fork Lewis River. > > Columbia Gorge---Hood River > > High (1) Western Cascades---Kalama River Upper Willamette River winter steelhead ESU (Figure K.3) > Negligible (4) Willamette Valley---Coast Range tributaries, Molalla > River, South Santiam River, and Calapooia River > > Medium (1) Willamette Valley---North Santiam River Lower Columbia River chum ESU (Figure K.5) > Negligible (8) Coast Range---Youngs Bay, Grays River (including > Chinook River), Big Creek, Elochoman River, Clatskanie River, Mill > Creek, Scappoose Creek > > Western Cascades---Salmon Creek > > Low (5) Western Cascades---lower Cowlitz, Clackamas, and Washougal > Rivers > > Columbia Gorge---lower and upper gorge tributaries > > Medium (1) Western Cascades---Lewis River > > High (2) Western Cascades---Kalama River, Sandy River Correlated Catastrophic Risk from Volcanoes The catastrophic risk posed by volcanic activity transcends population boundaries delineated for many ESUs. Some volcanoes present a clear and present danger for many ESUs and populations therein, and some populations were under hazard from multiple volcanoes. Because of the spatial arrangement of the Cascade Mountain volcanoes, correlated catastrophic risks are not necessarily reciprocal, especially where tributaries form distinct populations. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Simultaneous catastrophic risk to ESU populations, by volcano, are as follows: Lower Columbia River fall chinook ESU - Mount St. Helens---Lewis River/Salmon Creek, Kalama and Toutle Rivers, lower Cowlitz River population downstream of the Toutle - Mount Rainier---upper and lower Cowlitz populations - Mount Adams---Washougal River, Big White Salmon River, and lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River spring chinook ESU - Mount St. Helens---Toutle and Kalama Rivers - Mount Rainier---upper Cowlitz River, but not the Cispus River population - Mount Adams---Cispus River, upper Cowlitz River via the Cispus, and Big White Salmon River - Mount Hood---Hood and Sandy Rivers Upper Willamette spring chinook ESU - Mount Jefferson---Clackamas and North Santiam Rivers - Three Sisters---McKenzie and Middle Fork Willamette Rivers Lower Columbia winter steelhead ESU - Mount St. Helens---North and South Fork Toutle, Kalama, and North Fork Lewis Rivers - Mount Rainier---upper and lower Cowlitz Rivers - Mount Adams---Cispus River, upper and lower Cowlitz River via the Cispus River, and Washougal River, lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River summer steelhead ESU - Mount St. Helens---Kalama River and North Fork Lewis River - Mount Adams---North Fork Lewis, Washougal, and Wind Rivers Upper Willamette River winter steelhead ESU - Mount St. Helens---North and South Fork Toutle, Kalama, and North Fork Lewis Rivers - Mount Rainier---upper and lower Cowlitz River - Mount Adams---Cispus River, upper and lower Cowlitz River via the Cispus, Washougal River, and lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River chum ESU - Mount St. Helens---lower Cowlitz, Kalama, and Lewis Rivers - Mount Adams---Washougal River, lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Earthquakes The catastrophic risk from earthquakes varied among populations within ESUs but generally declined from coastal to inland tributaries. Lower Columbia River fall chinook (Figure K.6) > Low (5) Western Cascades---Sandy River > > Columbia Gorge---lower and upper gorge tributaries, Big White Salmon > River, Hood River > > Medium (13) Coast Range---Grays River, Big Creek, Elochoman River, > Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades---Cowlitz, Coweeman, Toutle, and Kalama Rivers, Lewis > River/Salmon Creek, Clackamas and Washougal Rivers > > High (1) Coast Range---Youngs Bay Lower Columbia River spring chinook (Figure K.7) Low (3) Western Cascades---(Sandy River) > Columbia Gorge---Big White Salmon River, Hood River > > Medium (6) Western Cascades---upper Cowlitz, Cispus, Tilton, Toutle, > Kalama, and Lewis Rivers Upper Willamette River spring chinook (Figure K.7) > Low (6) Willamette Valley and western Cascades---Clackamas, North and > South Santiam, Calapooia, McKenzie, and Middle Fork Willamette Rivers > > Medium (1) Willamette Valley---Molalla River Lower Columbia River winter steelhead (Figure K.8) > Low (5) Western Cascades---Clackamas and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries and Hood River > > Medium (12) Western Cascades---Cispus, Tilton, lower and upper > Cowlitz, North and South Fork Toutle, Coweeman, Kalama, North and East > Fork Lewis Rivers, Salmon Creek, and Washougal River Lower Columbia River summer steelhead (Fiure K.9) Low (2) Columbia Gorge---Hood and Wind Rivers > Medium (4) Western Cascades---Kalama, North and East Fork Lewis, and > Washougal Rivers Lower Columbia River winter steelhead (Figure K.8) > Low (3) Willamette Valley and western Cascades---North and South > Santiam and Calapooia Rivers > > Medium (2) Willamette Valley and western Cascades---Coast Range > tributaries and Molalla River Lower Columbia River chum (Figure K.10) > Low (2) Columbia Gorge---lower and upper gorge tributaries > > Medium (13) Coast Range---Grays River (including Chinook River), Big > Creek, Elochoman River, Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades---lower Cowlitz River, Kalama River, Salmon Creek, > Lewis River, Clackamas River, Washougal River, Sandy River > > Coast Range---Youngs Bay Correlated Catastrophic Risk from Earthquakes The catastrophic risk posed by earthquake activity transcends population boundaries delineated for many ESUs and tends to vary along a gradient from the coast eastward toward the interior. Populations within ESUs are under the same level of hazard risk along this east-west gradient; thus, populations within ecoregions (Coast Range, western Cascades, Columbia Gorge) tend to be under correlated risk from catastrophic earthquake activity. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Simultaneous catastrophic risk to ESU populations by earthquakes are as follows: Lower Columbia River fall chinook > Coast Range (7)---Youngs Bay, Grays River, Big Creek, and Elochoman > River, Clatskanie River, Mill Creek, and Scappoose Creek > > Western Cascades (9) > > Columbia Gorge (4) Lower Columbia River spring chinook ESU > Western Cascades (7) > > Columbia Gorge (2) Upper Willamette spring chinook > Willamette Valley/Western Cascades (7) Lower Columbia winter steelhead > Western Cascades (14) > > Columbia Gorge (3) Lower Columbia River summer steelhead (6) > Western Cascades (4) > > Columbia Gorge (2) Upper Willamette River winter steelhead (5) > Coast Range---Molalla, Santiam, South Santiam, and Calapooia Rivers Lower Columbia River chum > Coast Range (7)---Youngs Bay, Grays River (including Chinook River), > and Big Creek, Elochoman River, Clatskanie River, Mill Creek, and > Scappoose Creek > > Western Cascades (9) > > Columbia Gorge (2) Landslides The catastrophic risk from landslides varied among populations for populations within ESUs. Lower Columbia River fall chinook (Figure K.11) > Low (5) Western Cascades---Upper Cowlitz River, Coweeman River, Lewis > River /Salmon Creek > > Columbia Gorge---Big White Salmon River, Hood River > > Medium (5) Coast Range---Grays River, Elochoman River, Mill Creek > > Western Cascades---Toutle and Washougal Rivers > > High (10) Coast Range---Youngs Bay, Big Creek, Clatskanie River, > Scappoose Creek > > Western Cascades---Lower Cowlitz, Kalama, Clackamas, and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River spring chinook (Figure K.12) Low (4) Western Cascades---Cispus and Tilton Rivers > Columbia Gorge---Big White Salmon and Hood Rivers Medium (3) Western Cascades---upper Cowlitz, Toutle, and Lewis Rivers High (2) Western Cascades---Kalama and Sandy River Upper Willamette River spring chinook (Figure K.12) > Low (1) Willamette Valley and western Cascades---Molalla River > > Medium (3) Willamette Valley and western Cascades---Clackamas, > McKenzie, and Middle Fork Willamette Rivers > > High (3) Willamette Valley and western Cascades---North and South > Santiam and Calapooia Rivers Lower Columbia River winter steelhead (Figure K.13) > Low (6) Western Cascades---Cispus, Tilton, South Fork Toutle, > Coweeman, and East Fork Lewis Rivers and Salmon Creek > > Medium (6) Western Cascades---upper Cowlitz, North Fork Toutle, North > Fork Lewis, Clackamas, and Washougal Rivers > > Columbia Gorge---Hood River > > High (5) Western Cascades---lower Cowlitz, Kalama, and Sandy River > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River winter steelhead (Figure K.14) > Low (3) Western Cascades---East Fork Lewis River > > Columbia Gorge---Wind and Hood Rivers > > Medium (1) Western Cascades---North Fork Lewis River > > High (2) Western Cascades---Kalama and Washougal Rivers Lower Columbia River winter steelhead (Figure K.13) > Low (1) Molalla River > > Medium (1) Coast Range tributaries > > High (3) North and South Santiam and Calapooia Rivers Lower Columbia River chum ESU (Figure K.15) Low (2) Salmon Creek, Lewis River Medium (3) Western Cascades---Grays River, Mill Creek, Washougal River > High (11) Coast Range---Youngs Bay, Big Creek, Elochoman River, > Clatskanie River, Scappoose Creek > > Western Cascades---lower Cowlitz, Kalama, Clackamas, and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries Correlated Catastrophic Risk from Landslides The catastrophic risk posed by landslides transcends population boundaries delineated for many ESUs and is highly variable across the landscape. The catastrophic risk posed by landslide activity is highly influenced by several factors, including a variety of geologic factors and precipitation patterns, thus the few areas at a high risk from landslides may or may not be along salmonid spawning or rearing habitat. Landslide risk due to earthquake or volcanic activity will mirror those assessments, while those associated with flooding and precipitation will mirror those assessments. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Disease Epidemics from Hatchery Operations The potential for disease epidemics as represented by hatchery production varied among populations within ESUs and individual hatchery facilities. Lower Columbia River fall chinook ESU (Figure K.16) > Negligible (4) Coast Range---Clatskanie River, Mill Creek, Scappoose > Creek > > Western Cascades---Coweeman River > > Low (4) Western Cascades---Salmon Creek > > Columbia Gorge---Big White Salmon and Hood Rivers > > Medium (5) Coast Range---Youngs Bay, Grays River > > Western Cascades---Toutle, Clackamas, and Sandy Rivers > > High (8) Coast Range---Big Creek, Elochoman River > > Western Cascades---Cowlitz, Kalama, Lewis, and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River spring chinook ESU (Figure K.17) > Negligible (3) Western Cascades---upper Cowlitz, Cispus, and Tilton > Rivers > > Low (2) Columbia Gorge---Big White Salmon and Hood Rivers > > Medium (2) Western Cascades---Toutle and Sandy Rivers > > High (2 Western Cascades---Kalama and Lewis Rivers Upper Willamette River spring chinook ESU (Figure K.17) > Negligible (2) Molalla and Calapooia Rivers > > Medium (4) Clackamas, North Santiam, McKenzie, and Middle Fork > Willamette Rivers > > High (1) South Santiam River Lower Columbia River winter steelhead ESU (Figure K.18) > Negligible (6) Western Cascades---Cispus, Tilton, upper Cowlitz, South > Fork Toutle, Coweeman, and East Fork Lewis Rivers > > Low (2) Western Cascades---Salmon Creek > > Columbia Gorge---Hood River > > Medium (3) Western Cascades---North Fork Toutle, Clackamas, and Sandy > Rivers > > High (6) Western Cascades---lower Cowlitz, Kalama, North Fork Lewis, > and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries, Hood River Upper Willamette River winter steelhead ESU (Figure K.18) Negligible (2) Westside (Coast Range)--- Molalla and Calapooia Rivers Medium (1) North Santiam River High (1) South Santiam River Lower Columbia River summer steelhead ESU (Figure K.19) > Negligible (1) Western Cascades---East Fork Lewis River > > Low (1) Columbia Gorge---Hood River > > Medium (1) Columbia Gorge---Wind River > > High (3) Western Cascades---Kalama, North Fork Lewis, and Washougal > Rivers Lower Columbia River chum ESU (Figure K.20) Negligible Coast Range---Clatskanie River, Mill Creek, Scappoose Creek > Western Cascades---Coweeman River > > Low (1) Western Cascades---Salmon Creek > > Medium (4) Coast Range---Youngs Bay, Grays River > > Western Cascades---Clackamas and Sandy Rivers > > High (7) Coast Range---Big Creek, Elochoman River > > Western Cascades---lower Cowlitz, Kalama, Lewis, and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries Correlated Catastrophic Risk from Hatchery Disease Epidemics Correlated catastrophes were considered for hatchery disease epidemics in populations within ESUs. The connection among populations in terms of correlated catastrophes depends on many factors. If infected fish were released into the wild to prevent die-offs at the hatchery, as has occurred in the past, potential infection of wild fish would be a function of infected hatchery fish and wild fish densities as well as of pathogen or parasite transmission rates. Further, the spread of infections up or downstream would depend on pathogen or parasite movement patterns as well as wild fish movement at the time of potential transmission. For these reasons, we did not construct a quantitative correlated catastrophic risk matrix. Pollution The catastrophic risk of oil/chemical pollution from transportation varied among populations within ESUs, but generally followed patterns of urban development throughout the river basins. Lower Columbia River fall chinook ESU (Figure K.21) > Negligible (8) Coast Range---Big Creek > > Western Cascades---upper and lower Cowlitz, Washougal, and Sandy > Rivers > > Columbia Gorge---lower and upper gorge tributaries, Big White Salmon > River > > Low (8) Coast Range---Youngs Bay, Grays River, Elochoman River, > Clatskanie River, Scappoose Creek > > Western Cascades---Toutle River, Lewis River/Salmon Creek > > Columbia Gorge---Hood River > > Medium (3) Coast Range---Mill Creek > > Western Cascades---Coweeman and Kalama River > > High (1) Western Cascades---Clackamas River Lower Columbia River spring chinook ESU (Figure K.22) > Negligible (4) Western Cascades---upper Cowlitz, Cispus, and Sandy > Rivers > > Columbia Gorge---Big White Salmon River > > Low (2) Western Cascades---Lewis River > > Columbia Gorge---Hood River > > Medium (2) Western Cascades---Tilton and Toutle Rivers > > High (2) Western Cascades---Kalama River Upper Willamette River spring chinook ESU (Figure K.23) Negligible (2) McKenzie and Middle Fork Willamette Rivers Low (3) Clackamas, North Santiam, and Calapooia Rivers High (2) Molalla and South Santiam Rivers Lower Columbia River winter steelhead ESU (Figure K.24) > Negligible (4) Western Cascades---Cispus, upper Cowlitz, and Sandy > Rivers > > Columbia Gorge---lower gorge tributaries > > Low (4) Western Cascades---North and East Forks Lewis River > > Columbia Gorge---upper gorge tributaries and Hood River > > Medium (5) Western Cascades---Tilton, lower Cowlitz, North Fork > Toutle, Clackamas, and Washougal Rivers > > High (4) Western Cascades---South Fork Toutle, Coweeman, and Kalama > Rivers and Salmon Creek Lower Columbia River summer steelhead ESU (Figure K.25) > Negligible (3) Western Cascades---North Fork Lewis and Washougal > Rivers > > Columbia Gorge---Wind River > > Low (2) Western Cascades---East Fork Lewis River > > Columbia Gorge---Hood River > > High (1) Western Cascades---Kalama River Upper Willamette River winter steelhead ESU (Figure K.26) > Negligible North Santiam and Calapooia Rivers > > High (3) Western (Coast Range) tributaries and Molalla and South > Santiam Rivers Lower Columbia River chum populations ESU (Figure K.27) > Negligible Coast Range---Big Creek > > Columbia Gorge---lower and upper gorge tributaries > > Low Coast Range---Youngs Bay, Elochoman River, Clatskanie River, > Scappoose Creek > > Western Cascades---Lewis, Washougal, and Sandy Rivers > > Medium (5) Coast Range---Grays River, Mill Creek > > Western Cascades---lower Cowlitz River, Kalama River, Salmon Creek > > High (1) Western Cascades---Clackamas River Correlated Catastrophic Risk from Oil/Chemical Spills from Transportation Correlated catastrophes were considered for oil/chemical spills from transportation among populations in ESUs. Like for hatchery disease, however, the connection among populations in terms of correlated catastrophes would depend on many factors. The oil/chemical spills likely to occur during transportation over roadways would probably be confined within a watershed, and direct mortality from toxins would be on a subpopulation scale. However, spills from roadways into a tributary might affect its major river; spread of the mortality agent upstream or downstream would depend on volatility of the oil/chemical as well as movement of wild fish at the time of the potential transmission. For these reasons, we did not construct a quantitative correlated catastrophic risk matrix. Conclusions Catastrophic events need to be considered when relating viable salmonid populations (VSPs) to viable ESUs in the Lower Columbia and Willamette Rivers. Although documenting the frequency, intensity, and hazard risk of specific natural and anthropogenic catastrophes is possible across the landscape for ESUs, calculating correlated catastrophic risk can be problematic for some catastrophes. Harder still is the task of calculating cumulative effects of volcanoes, earthquakes, floods, landslides, fires, disease epidemics from hatcheries, and pollution from a variety of sources. Still, the preponderance of potential catastrophic events that could impact salmonids throughout the Columbia River Basin requires attention to their potential effects, and the paucity of such approaches belies its importance. The potential catastrophes cataloged herein represent an initial list of those where (1) the risks for salmonids have been documented or are known to represent a future risk, (2) actual risk information (or a reasonable proxy) has been collated or is accessible, and (3) there is potential for quantitative data in the future. Further analyses of catastrophic risks are ongoing (floods) or may be initiated (extreme weather such as droughts, unusual fires, water diversion/dam failure, major miscalculations in harvest) depending on the information available and the potential for rigorous analyses. More refined metrics may allow for further exploration of the risk of disease epidemics from hatchery operations. The role that catastrophes may have played in the evolution of salmonids suggests that \"bet-hedging\" against large-scale catastrophes through maintaining diverse populations and life-history types is an appropriate strategy for recovery in the face of extinction risk. Such a strategy should foster enhanced long-term stability in the face of unpredictable catastrophes. Future research on the risk of extinction posed by catastrophic events for an entire ESU will hinge on quantitative estimates of correlated risk among populations within an ESU. Guidelines presented in McElhany et al. (2000) make clear that concern about catastrophic risks is relevant to long-term evolutionary potential. The probability that an ESU could be driven extinct by a single catastrophic event is nontrivial and thus requires multiple viable populations within a viable ESU, with careful consideration to which populations are restored or maintained at viable status. This appendix explored the spatial distribution and frequencies of potential natural and anthropogenic catastrophic events affecting endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers, specifically chinook salmon (Oncorhynchus tshawytscha), steelhead trout (O. mykiss), and chum salmon (O. keta). While this is a difficult field of study, we conclude that extinction risk, particularly with respect to catastrophic events, can be reduced if viable populations are spatially distributed through out the ESU. Spatially distributed populations utilizing different environments with different catastrophic risks reduce the likelihood that a single catastrophic event would affect every population in an ESU. Further, fish with different life histories that share the same river basin may be affected differentially by the same catastrophic event. This spreading of risk throughout spatially distributed populations and life-history strata, akin to the "bet-hedging" that occurred during the evolution of salmonids, holds promise for reducing the risk of extinction due to catastrophes for these endangered and threatened Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers. ![](media/image1.jpeg){width="8.129861111111111in" height="5.367361111111111in"} Figure K.1 Fall chinook---Lower Columbia ESU volcanic hazards. ![](media/image2.jpeg){width="6.179861111111111in" height="6.9215277777777775in"} Figure K.2 Spring chinook---Lower Columbia and Willamette River ESUs volcanic hazards. ![](media/image3.jpeg){width="6.05in" height="6.667361111111111in"} Figure K.3 Winter steelhead---Lower Columbia and Willamette River ESUs volcanic hazards. ![](media/image4.jpeg){width="8.15in" height="5.218055555555556in"} > Figure K.4 Summer steelhead---Lower Columbia ESU volcanic hazards. ![](media/image5.jpeg){width="8.209722222222222in" height="5.180555555555555in"} > Figure K.5 Chum---Lower Columbia ESU volcanic hazards. ![](media/image6.jpeg){width="7.459722222222222in" height="5.195138888888889in"}Figure K.6 Earthquake probabilities for fall chinook populations. ![](media/image7.jpeg){width="5.759722222222222in" height="7.011805555555555in"} > Figure K.7 Earthquake probabilities for spring chinook populations. ![](media/image8.jpeg){width="5.770138888888889in" height="6.9527777777777775in"} > Figure K.8 Earthquake probabilities for winter steelhead populations. ![](media/image9.jpeg){width="7.920138888888889in" height="5.511111111111111in"} Figure K.9 Earthquake probabilities for summer steelhead populations. ![](media/image10.jpeg){width="7.920138888888889in" height="5.511111111111111in"} Figure K.10 Earthquake probabilities for chum populations. ![](media/image11.bmp) ![](media/image12.jpeg){width="5.990277777777778in" height="7.589583333333334in"} Figure K.12 Landslide risk to spring chinook populations. ![](media/image13.jpeg){width="5.620138888888889in" height="7.195833333333334in"} Figure K.13 Landslide risk to winter steelhead populations. ![](media/image14.bmp) Figure K.14 Landslide risk to summer steelhead populations. ![](media/image15.jpeg){width="7.529861111111111in" height="5.50625in"}15 Landslide risk to chum populations. ![](media/image16.jpeg){width="7.090277777777778in" height="5.253472222222222in"} Figure K.16 Disease risk from hatchery releases to fall chinook. ![](media/image17.jpeg){width="5.05in" height="6.626388888888889in"} > Figure K.17 Disease risk from hatchery releases to spring chinook. ![](media/image18.jpeg){width="5.05in" height="6.518055555555556in"} Figure K.18 Disease risk from hatchery releases to winter steelhead. ![](media/image19.jpeg){width="7.079861111111111in" height="5.289583333333334in"} Figure K.19 Disease risk from hatchery releases to summer steelhead. ![](media/image20.jpeg){width="7.329861111111111in" height="5.50625in"}Figure K.20 Disease risk from hatchery releases to chum. ![](media/image21.jpeg){width="7.3902777777777775in" height="5.132638888888889in"} Figure K.21 Relative road density ratios by fall chinook populations. ![](media/image22.jpeg){width="7.490277777777778in" height="5.268055555555556in"} Figure K.22 Relative road density ratio by Columbia River spring chinook populations. ![](media/image23.jpeg){width="5.659722222222222in" height="7.021527777777778in"} > Figure K.23 Relative road density ratio by Willamette spring chinook > populations. ![](media/image24.jpeg){width="5.770138888888889in" height="6.9527777777777775in"} > Figure K.24 Relative road density ratios by Lower Columbia winter > steelhead populations. ![](media/image25.jpeg){width="7.540277777777778in" height="5.251388888888889in"} Figure K.25 Relative road density ratios by summer steelhead populations. ![](media/image26.jpeg){width="5.670138888888889in" height="6.9625in"} > Figure K.26 Relative road density ratios by Willamette winter > steelhead populations. ![](media/image27.jpeg){width="7.170138888888889in" height="5.094444444444444in"} Literature Cited Altinok, I., J. 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Increased straying by adult steelhead trout, Salmo gairdneri, following the 1980 eruption of Mount St. Helens. Environ. Biol. Fish. 24(3): 219--229. Levin, P. S., and M. H. Schiewe 2001. Preserving salmon biodiversity. Am. Sci. 89: 220--227. Lucas, R. E. 1986. Recovery of game fish populations impacted by the May 18, 1980 eruption of Mount St. Helens: Winter-run steelhead in the Toutle River watershed. In S. A. C. Keller (ed.), Mount St. Helens: Five years later. Eastern Washington University Press, Cheney, Wash., 441 p. Manson, C. J., and L. Walkling. 1998. Tsunamis on the Pacific Coast of Washington State and adjacent areas---a selected, annotated bibliography and directory. Washington Division of Geology and Earth Resources Open-file Report 98-4, Wash. Dept. Nat. Res., 44 p. Markiw, M. E. 1992. Salmonid whirling disease. U.S. Fish and Wildlife Service Fish Disease Leaflet 83. National Fish Health Research Laboratory, Kearneysville, W.V. McAllister, P. E. 1990. Viral hemorrhagic septicemia of fishes. U.S. Fish and Wildlife Service Fish Disease Leaflet 83. National Fish Health Research Laboratory, Kearneysville, W.V. Martin, D. J., L. J. Wasserman, and V. H. Dale. 1986. Influence of riparian vegetation on posteruption survival of coho salmon fingerlings on the west-side streams of Mount St. Helens, Washington. N. Am. J. Fish. Manage. 6: 1--8. McElhany, P., M. H. Ruckelshaus, M. J. Ford, T. C. Wainwright, and E. P. Bjorkstedt. 2000. Viable salmonid populations and the recovery of evolutionarily significant units. U.S. Dept. Commer., NOAA Tech. Memo. NMFS-NWFSC-42, 156 p. Mesa, M. G., T. .P. Poe, A. G. Maule, and C. B. Schreck. 1998. Vulnerability to predation and physiological stress responses in juvenile chinook salmon (Oncorhynchus tshawytscha) experimentally infected with Renibacterium salmoninarum. Can. J. Fish. Aquat. Sci. 55: 1599--1606. Myers, J. M. 2002. Identifying historical populations of chinook and chum salmon and steelhead within the lower Columbia River and upper Willamette River evolutionary significant units. Draft report to the Willamette/Lower Columbia River Technical Recovery Team (10 May 2002). National Research Council (NRC). 1996. Upstream: Salmon and society in the Pacific Northwest. National Academy Press, Washington, D.C. Noson, L. L., A. Qamar, and G. W. Thorsen. 1988. Washington State earthquake hazards. Washington Division of Geology and Earth Resources Information Circular 85. OIE (Office International des Epizooties). 2000. Diagnostic Manual for Aquatic Animal Diseases, 3^rd^ Ed. OIE Fish Diseases Commission (http://www.oie.int/eng/normes/ fmanual/A_summry.htm). Perkins, S. 2001. The mountain: Take a look at Mount Rainier, America's most dangerous volcano. Sci. News 160: 334--335. PNWFHPC (Pacific Northwest Fish Health Protection Committee). 1998. Fish health status reports 1998. Pacific Northwest Fish Health Protection Committee Meeting at Las Vegas, Nev., February 18--19, 1998. Ralls, K., D. P DeMaster, and J. A. Estes. 1996. Developing a criterion for delisting the southern sea otter under the U.S. Endangered Species Act. Conserv. Biol. 10: 1528--1537. Reno, P. W. 1998. Factors involved in the dissemination of disease in fish populations. J. Aquat. Anim. Health 10: 160--171. Reno, P. W. 1999. Infectious pancreatic necrosis and associated aquatic birnaviruses. In P. T. K. Woo and D. W. Bruno (eds.), Fish diseases and disorders, Vol. 3. Viral, bacterial and fungal infections. CABI Publishing, Wallingford, Conn. p. 1--55. Ruckelshaus, M., P. McElhany, M. McClure and S. Heppell. In press. How many populations are needed for persistence of listed salmon species? Exploring the effects of spatially correlated catastrophes using RAMAS 4.0. In R. Ackakaya and M. Burgman (eds.) Solving conservation problems for the new millennium: Using RAMAS 4.0. Island Press, Washington, D.C. Schreck, C. B. 1996. Immunomodulation: Endogenous factors. In G. Iwama and T. Nakanishi, (eds.), The fish immune system: Organism, pathogen, and environment. Academic Press, New York. p. 311--338. Scott, W. E., R. M. Iverson, S. P. Schilling, and B. J. Fischer. 2001. Volcano hazards in the Three Sisters region, Oregon. U.S. Geological Survey Open-file Report 99-437. Scott, W. E., R. M. Iverson, J. W. Vallance, and W. Hildreth. 1995. Volcano Hazards in the Mount Adams region, Washington. U.S. Geological Survey Open-file Report 95-492. Scott, W. E., T. C. Pierson, S. P. Schilling, J. E. Costa, C. A. Gardner, J. W. Vallance, and J. J. Major. 1997. Volcano hazards in the Mount Hood region, Oregon. U.S. Geological Survey Open-file Report 97-89. Scheffer, M., S. Carpenter, J. A. Foley, C. Folke, and B. Walkerk. 2001. Catastrophic shifts in ecosystems. Nature 413: 591--596. Shotts Jr., E. B., and C. E. Starliper. 1999. Flavobacterial diseases: Columnaris disease, cold-water disease and bacterial gill disease. In P. T. K. Woo and D. W. Bruno (eds.), Fish diseases and disorders, Vol. 3. Viral, bacterial and fungal infections. CABI Publishing, Wallingford, Conn. p. 559--576. Thorpe, J. E. 1994. Salmonid flexibility: Responses to environmental extremes. Trans. Am. Fish. Soc. 123: 606--612. Traxler, G. S., J. Richard, and T. E. McDonald. 1998. Ichthyophthirius multifiliis (Ich) epizootics in spawning sockeye salmon in British Columbia, Canada. J. Aquat. Anim. Health 10: 143--151. Waitt, R. B., L. G. Mastin, and J. E. Begét. 1995. Volcanic-hazard zonation for Glacier Peak volcano, Washington. U.S. Geological Survey Open-file Report 95-499. Waknitz, F.W., T.J. Tynan, C.E. Nash, R.N. Iwamoto, and L.G. Rutter. 2002. Review of potential impacts of Atlantic salmon culture on Puget Sound chinook salmon and Hood Canal summer-run chum salmon evolutionarily significant units. U.S. Dept. Commer., NOAA Tech. Memo. NMFS-NWFSC-53, 83 p. Walder, J. S., C. A. Gardner, R. M. Conrey, B. J. Fisher, and S. P. Schilling. 1999. Volcano hazards in the Mount Jefferson region, Oregon. U.S. Geological Survey Open-file Report 99-24, 14 p. Wolfe, E. W., and T. C. Pierson. 1995. Volcanic-hazard zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey Open-file Report 95-497.	en
markdown	168176	# Presentation: 168176 ## Mission Statement: Turbomachinery and Heat Transfer-RTT - Perform experimental and computational research in compressor and turbine flow and heat transfer technology directed at advancing knowledge in gas turbine engine propulsion. The branch focuses on the Fundamental Aeronautics Program subsonic fixed wing and rotary wing aircraft, supersonic and hypersonic flight projects. Acquire research data from turbomachinery test facilities to further develop and validate computational flow codes and design tool models to enable design and analysis of compressors and turbines with high aerodynamic loading and efficiency, improved operability and reduced turbine cooling requirements. Interface with other NASA centers, government agencies, industry and academia. Transfer turbomachinery technology for commercial and military propulsion systems.	en
log-files	712667	! Started logfile: J0808+4950_S_2001_04_09_pus_uvs.log on Fri Oct 5 15:56:40 2007 obs J0808+4950_S_2001_04_09_pus_uva.fits ! Reading UV FITS file: J0808+4950_S_2001_04_09_pus_uva.fits ! AN table 1: 70 integrations on 190 of 190 possible baselines. ! AN table 2: 212 integrations on 190 of 190 possible baselines. ! AN table 3: 40 integrations on 190 of 190 possible baselines. ! AN table 4: 57 integrations on 190 of 190 possible baselines. ! Apparent sampling: 0.243244 visibilities/baseline/integration-bin. ! *** This seems a bit low - see "help observe" on the binwid argument. ! Found source: J0808+4950 ! ! There are 4 IFs, and a total of 4 channels: ! ! IF Channel Frequency Freq offset Number of Overall IF ! origin at origin per channel channels bandwidth ! ------------------------------------------------------------- (Hz) ! 01 1 2.22997e+09 8e+06 1 8e+06 ! 02 2 2.25997e+09 8e+06 1 8e+06 ! 03 3 2.34997e+09 8e+06 1 8e+06 ! 04 4 2.36997e+09 8e+06 1 8e+06 ! ! Polarization(s): RR ! ! Read 1949 lines of history. ! ! Reading 70064 visibilities. select I ! Polarization I is unavailable. ! Selecting polarization: RR, channels: 1..4 ! Reading IF 1 channels: 1..1 ! Reading IF 2 channels: 2..2 ! Reading IF 3 channels: 3..3 ! Reading IF 4 channels: 4..4 print "field_size =",field_size ! field_size = 512 print "field_cell =",field_cell ! field_cell = 0.5 print "taper_size =",taper_size ! taper_size = 20 ![@muppet J0808+4950_S_2001_04_09_pus] integer clean_niter clean_niter = 100 float clean_gain clean_gain = 0.03 float dynam dynam = 6.0 float soltime1 soltime1 = 120 float soltime2 soltime2 = 20 float thresh thresh = 0.5 float win_mult win_mult = 1.8 float time_av time_av = 16 float old_peak float new_peak float flux_cutoff mapsize field_size, field_cell ! Map grid = 512x512 pixels with 0.500x0.500 milli-arcsec cellsize. startmod ! Applying default point source starting model. ! Performing phase self-cal ! Adding 1 model components to the UV plane model. ! The established model now contains 1 components and 1 Jy ! ! Correcting IF 1. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 2. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 3. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 4. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Fit before self-cal, rms=0.926899Jy sigma=0.006747 ! Fit after self-cal, rms=0.589127Jy sigma=0.004208 ! clrmod: Cleared the established, tentative and continuum models. ! Redundant starting model cleared. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=1.856 mas, bmaj=2.5 mas, bpa=-3.536 degrees ! Estimated noise=669.203 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! Added new window around map position (0, 0). ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.365136 Jy ! Component: 100 - total flux cleaned = 0.472484 Jy ! Total flux subtracted in 100 components = 0.472484 Jy ! Clean residual min=-0.007151 max=0.047259 Jy/beam ! Clean residual mean=0.000032 rms=0.002414 Jy/beam ! Combined flux in latest and established models = 0.472484 Jy ! Performing phase self-cal ! Adding 4 model components to the UV plane model. ! The established model now contains 4 components and 0.472484 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.297850Jy sigma=0.001804 ! Fit after self-cal, rms=0.297474Jy sigma=0.001803 ! Inverting map ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0525327 Jy ! Component: 100 - total flux cleaned = 0.0854691 Jy ! Total flux subtracted in 100 components = 0.0854691 Jy ! Clean residual min=-0.005631 max=0.018078 Jy/beam ! Clean residual mean=0.000016 rms=0.001660 Jy/beam ! Combined flux in latest and established models = 0.557953 Jy ! Performing phase self-cal ! Adding 15 model components to the UV plane model. ! The established model now contains 17 components and 0.557953 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.285079Jy sigma=0.001673 ! Fit after self-cal, rms=0.284780Jy sigma=0.001672 ! Inverting map ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.02384 Jy ! Component: 100 - total flux cleaned = 0.0407329 Jy ! Total flux subtracted in 100 components = 0.0407329 Jy ! Clean residual min=-0.005704 max=0.010613 Jy/beam ! Clean residual mean=0.000009 rms=0.001451 Jy/beam ! Combined flux in latest and established models = 0.598686 Jy ! Performing phase self-cal ! Adding 16 model components to the UV plane model. ! The established model now contains 23 components and 0.598686 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.282104Jy sigma=0.001644 ! Fit after self-cal, rms=0.281972Jy sigma=0.001644 ! Inverting map ! Added new window around map position (1, -3). ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0131981 Jy ! Component: 100 - total flux cleaned = 0.0228693 Jy ! Total flux subtracted in 100 components = 0.0228693 Jy ! Clean residual min=-0.005830 max=0.006194 Jy/beam ! Clean residual mean=0.000005 rms=0.001379 Jy/beam ! Combined flux in latest and established models = 0.621555 Jy ! Performing phase self-cal ! Adding 18 model components to the UV plane model. ! The established model now contains 32 components and 0.621555 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.281248Jy sigma=0.001636 ! Fit after self-cal, rms=0.281172Jy sigma=0.001636 ! Inverting map print "************ FINISHED UNIFORM WEIGHTING CLEAN **********" ! ********** FINISHED UNIFORM WEIGHTING CLEAN ************ ! uvw 0,-1 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. win_mult = win_mult * 1.6 clean_niter = clean_niter * 2 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.06 mas, bmaj=3.013 mas, bpa=-4.326 degrees ! Estimated noise=366.744 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00747407 Jy ! Component: 100 - total flux cleaned = 0.0117364 Jy ! Component: 150 - total flux cleaned = 0.0145239 Jy ! Component: 200 - total flux cleaned = 0.0151198 Jy ! Total flux subtracted in 200 components = 0.0151198 Jy ! Clean residual min=-0.006399 max=0.005983 Jy/beam ! Clean residual mean=0.000193 rms=0.001379 Jy/beam ! Combined flux in latest and established models = 0.636675 Jy ! Performing phase self-cal ! Adding 23 model components to the UV plane model. ! The established model now contains 47 components and 0.636675 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.280924Jy sigma=0.001634 ! Fit after self-cal, rms=0.280869Jy sigma=0.001634 ! Inverting map print "************ FINISHED NATURAL WEIGHTING CLEAN **********" ! ********** FINISHED NATURAL WEIGHTING CLEAN ************ ! gscale true ! Performing overall amplitude self-cal ! ! Correcting IF 1. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.96 FD 0.93 GC 1.02 GG 1.00* ! HH 1.00* HN 0.97 KK 0.95 KP 0.97 ! LA 0.93 MA 1.08 MC 0.99 MK 0.96 ! NL 0.96 NY 0.94 OV 0.98 PT 0.91 ! SC 0.96 TS 0.96 WF 0.95 WZ 1.05 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.99 FD 0.96 GC 0.96 GG 1.00* ! HH 1.00* HN 0.94 KK 0.97 KP 1.01 ! LA 1.02 MA 0.87 MC 1.07 MK 0.97 ! NL 1.04 NY 0.95 OV 1.01 PT 0.99 ! SC 0.96 TS 0.93 WF 0.98 WZ 1.04 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.06 FD 1.10 GC 0.97 GG 1.00* ! HH 1.00* HN 0.97 KK 1.00* KP 1.00* ! LA 1.04 MA 0.91 MC 0.90 MK 1.00* ! NL 0.99 NY 0.94 OV 1.00* PT 1.06 ! SC 1.01 TS 1.08 WF 0.98 WZ 0.96 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.01 FD 0.99 GC 1.02 GG 1.00* ! HH 1.00* HN 0.91 KK 1.02 KP 1.03 ! LA 0.99 MA 1.13 MC 0.96 MK 1.03 ! NL 0.96 NY 0.97 OV 1.08 PT 0.97 ! SC 0.99 TS 1.00* WF 0.85 WZ 1.01 ! ! ! Correcting IF 2. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.97 FD 0.93 GC 0.98 GG 1.00* ! HH 1.00* HN 0.96 KK 0.95 KP 0.94 ! LA 0.93 MA 0.99 MC 1.03 MK 0.97 ! NL 0.95 NY 0.99 OV 0.94 PT 0.93 ! SC 1.00 TS 0.99 WF 0.99 WZ 1.05 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.97 FD 0.96 GC 0.94 GG 1.00* ! HH 1.00* HN 0.95 KK 0.93 KP 0.96 ! LA 1.04 MA 0.79 MC 1.00 MK 1.01 ! NL 1.05 NY 0.97 OV 0.99 PT 1.03 ! SC 1.00 TS 0.98 WF 0.99 WZ 1.07 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.04 FD 1.11 GC 0.94 GG 1.00* ! HH 1.00* HN 0.96 KK 1.00* KP 1.00* ! LA 1.08 MA 1.02 MC 0.96 MK 1.00* ! NL 1.04 NY 1.02 OV 1.00* PT 1.09 ! SC 1.01 TS 1.15 WF 0.98 WZ 0.99 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.02 FD 0.98 GC 0.99 GG 1.00* ! HH 1.00* HN 0.92 KK 1.01 KP 1.23 ! LA 1.00 MA 1.08 MC 1.06 MK 1.04 ! NL 0.97 NY 1.00 OV 1.08 PT 1.01 ! SC 0.98 TS 1.00* WF 0.97 WZ 0.98 ! ! ! Correcting IF 3. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.98 FD 0.96 GC 0.97 GG 1.00* ! HH 1.00* HN 1.02 KK 0.97 KP 0.96 ! LA 0.91 MA 1.10 MC 1.47 MK 0.94 ! NL 0.97 NY 0.97 OV 0.96 PT 0.95 ! SC 0.98 TS 1.01 WF 0.98 WZ 1.06 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 1.04 FD 0.98 GC 0.95 GG 1.00* ! HH 1.00* HN 0.99 KK 0.96 KP 1.02 ! LA 1.00 MA 1.09 MC 1.04 MK 0.99 ! NL 1.05 NY 0.96 OV 1.00 PT 1.02 ! SC 0.98 TS 1.00 WF 1.01 WZ 1.04 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.09 FD 1.11 GC 0.95 GG 1.00* ! HH 1.00* HN 1.00 KK 1.00* KP 1.00* ! LA 1.02 MA 1.23 MC 0.94 MK 1.00* ! NL 1.02 NY 0.97 OV 1.00* PT 1.09 ! SC 1.03 TS 1.15 WF 1.02 WZ 0.98 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.06 FD 1.00 GC 1.00 GG 1.00* ! HH 1.00* HN 0.95 KK 1.03 KP 1.04 ! LA 0.97 MA 0.99 MC 1.01 MK 1.01 ! NL 0.99 NY 0.96 OV 1.06 PT 1.01 ! SC 1.00 TS 1.00* WF 0.99 WZ 0.99 ! ! ! Correcting IF 4. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.95 FD 0.95 GC 1.06 GG 1.00* ! HH 1.00* HN 1.06 KK 0.92 KP 0.96 ! LA 0.96 MA 1.07 MC 0.72 MK 0.93 ! NL 0.99 NY 0.97 OV 0.94 PT 0.97 ! SC 0.96 TS 1.05 WF 0.98 WZ 1.11 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.98 FD 0.97 GC 1.00 GG 1.00* ! HH 1.00* HN 0.99 KK 0.92 KP 1.03 ! LA 1.03 MA 1.17 MC 0.60 MK 0.97 ! NL 1.05 NY 1.02 OV 1.01 PT 1.05 ! SC 0.98 TS 0.95 WF 0.98 WZ 1.13 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.04 FD 1.12 GC 1.00 GG 1.00* ! HH 1.00* HN 1.02 KK 1.00* KP 1.00* ! LA 1.07 MA 1.44 MC 1.52 MK 1.00* ! NL 1.04 NY 1.08 OV 1.00* PT 1.12 ! SC 1.03 TS 1.05 WF 0.99 WZ 1.02 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.00 FD 1.02 GC 1.06 GG 1.00* ! HH 1.00* HN 0.95 KK 0.99 KP 1.06 ! LA 1.02 MA 1.07 MC 0.99 MK 1.00 ! NL 0.99 NY 1.01 OV 1.06 PT 1.04 ! SC 1.01 TS 1.00* WF 0.99 WZ 1.03 ! ! ! Fit before self-cal, rms=0.280869Jy sigma=0.001634 ! Fit after self-cal, rms=0.278192Jy sigma=0.001589 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.063 mas, bmaj=3 mas, bpa=-4.188 degrees ! Estimated noise=366.697 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00288897 Jy ! Component: 100 - total flux cleaned = 0.00377606 Jy ! Component: 150 - total flux cleaned = 0.00436747 Jy ! Component: 200 - total flux cleaned = 0.00490141 Jy ! Total flux subtracted in 200 components = 0.00490141 Jy ! Clean residual min=-0.003724 max=0.003198 Jy/beam ! Clean residual mean=-0.000100 rms=0.000928 Jy/beam ! Combined flux in latest and established models = 0.641577 Jy ! Performing phase self-cal ! Adding 12 model components to the UV plane model. ! The established model now contains 51 components and 0.641576 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.278129Jy sigma=0.001588 ! Fit after self-cal, rms=0.279764Jy sigma=0.001585 ! Inverting map selfcal true, true, soltime1 ! Performing amp+phase self-cal over 120 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.279764Jy sigma=0.001585 ! Fit after self-cal, rms=0.283036Jy sigma=0.001565 dynam = dynam - 0.75 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=2.063 mas, bmaj=3.004 mas, bpa=-4.342 degrees ! Estimated noise=367.413 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00272571 Jy ! Component: 100 - total flux cleaned = 0.00344533 Jy ! Component: 150 - total flux cleaned = 0.00369135 Jy ! Component: 200 - total flux cleaned = 0.00377295 Jy ! Total flux subtracted in 200 components = 0.00377295 Jy ! Clean residual min=-0.002872 max=0.003016 Jy/beam ! Clean residual mean=0.000021 rms=0.000732 Jy/beam ! Combined flux in latest and established models = 0.645349 Jy selfcal ! Performing phase self-cal ! Adding 13 model components to the UV plane model. ! The established model now contains 56 components and 0.645349 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283006Jy sigma=0.001565 ! Fit after self-cal, rms=0.283727Jy sigma=0.001565 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000430268 Jy ! Component: 100 - total flux cleaned = 0.000593184 Jy ! Component: 150 - total flux cleaned = 0.000700767 Jy ! Component: 200 - total flux cleaned = 0.00076429 Jy ! Total flux subtracted in 200 components = 0.00076429 Jy ! Clean residual min=-0.002980 max=0.002962 Jy/beam ! Clean residual mean=0.000013 rms=0.000751 Jy/beam ! Combined flux in latest and established models = 0.646114 Jy ! Performing phase self-cal ! Adding 13 model components to the UV plane model. ! The established model now contains 59 components and 0.646114 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283716Jy sigma=0.001565 ! Fit after self-cal, rms=0.283719Jy sigma=0.001564 ! Inverting map selfcal true, true, soltime2 ! Performing amp+phase self-cal over 20 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283719Jy sigma=0.001564 ! Fit after self-cal, rms=0.290640Jy sigma=0.001565 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=2.062 mas, bmaj=3.002 mas, bpa=-4.469 degrees ! Estimated noise=367.882 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00192204 Jy ! Component: 100 - total flux cleaned = 0.00272977 Jy ! Component: 150 - total flux cleaned = 0.00292738 Jy ! Component: 200 - total flux cleaned = 0.00309362 Jy ! Total flux subtracted in 200 components = 0.00309362 Jy ! Clean residual min=-0.002976 max=0.003008 Jy/beam ! Clean residual mean=-0.000016 rms=0.000755 Jy/beam ! Combined flux in latest and established models = 0.649207 Jy selfcal ! Performing phase self-cal ! Adding 14 model components to the UV plane model. ! The established model now contains 61 components and 0.649207 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.290628Jy sigma=0.001565 ! Fit after self-cal, rms=0.291154Jy sigma=0.001564 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000159135 Jy ! Component: 100 - total flux cleaned = 0.000214425 Jy ! Component: 150 - total flux cleaned = 0.000286384 Jy ! Component: 200 - total flux cleaned = 0.000308687 Jy ! Total flux subtracted in 200 components = 0.000308687 Jy ! Clean residual min=-0.003005 max=0.002953 Jy/beam ! Clean residual mean=-0.000019 rms=0.000761 Jy/beam ! Combined flux in latest and established models = 0.649516 Jy ! Performing phase self-cal ! Adding 16 model components to the UV plane model. ! The established model now contains 65 components and 0.649516 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.291148Jy sigma=0.001564 ! Fit after self-cal, rms=0.291152Jy sigma=0.001564 ! Inverting map uvtaper 0.3,taper_size ! Gaussian taper: value 0.3 at UV radius = 20 mega-wavelengths. win_mult = win_mult * 1.2 selfcal true, true, soltime2 ! Performing amp+phase self-cal over 20 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.291152Jy sigma=0.001564 ! Fit after self-cal, rms=0.292556Jy sigma=0.001564 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=8.019 mas, bmaj=8.552 mas, bpa=24.97 degrees ! Estimated noise=638.611 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00343667 Jy ! Component: 100 - total flux cleaned = 0.0046211 Jy ! Component: 150 - total flux cleaned = 0.00472844 Jy ! Component: 200 - total flux cleaned = 0.00480002 Jy ! Total flux subtracted in 200 components = 0.00480002 Jy ! Clean residual min=-0.005823 max=0.005182 Jy/beam ! Clean residual mean=-0.000200 rms=0.001873 Jy/beam ! Combined flux in latest and established models = 0.654316 Jy selfcal ! Performing phase self-cal ! Adding 7 model components to the UV plane model. ! The established model now contains 66 components and 0.654316 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292568Jy sigma=0.001564 ! Fit after self-cal, rms=0.292727Jy sigma=0.001564 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000394685 Jy ! Component: 100 - total flux cleaned = 0.000394423 Jy ! Component: 150 - total flux cleaned = 0.000414868 Jy ! Component: 200 - total flux cleaned = 0.000482435 Jy ! Total flux subtracted in 200 components = 0.000482435 Jy ! Clean residual min=-0.005851 max=0.005202 Jy/beam ! Clean residual mean=-0.000213 rms=0.001868 Jy/beam ! Combined flux in latest and established models = 0.654798 Jy ! Performing phase self-cal ! Adding 8 model components to the UV plane model. ! The established model now contains 68 components and 0.654798 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292732Jy sigma=0.001565 ! Fit after self-cal, rms=0.292740Jy sigma=0.001565 ! Inverting map uvtaper 0,0 ! No UV-taper is currently set. win_mult = win_mult / 1.2 print "************ FINISHED AMPLITUDE SELF-CAL **********" ! ********** FINISHED AMPLITUDE SELF-CAL ************ restore ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0026549 max=0.4872 Jy/beam if(peak(flux) > thresh) selfcal true, true clean clean_niter,clean_gain selfcal flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) selfcal true, true end if print "************ CLEARING MODEL AND STARTING OVER ******" ! ********** CLEARING MODEL AND STARTING OVER ******** clrmod true ! clrmod: Cleared the established and tentative models. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=1.857 mas, bmaj=2.503 mas, bpa=-3.317 degrees ! Estimated noise=656.819 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.35902 Jy ! Component: 100 - total flux cleaned = 0.467617 Jy ! Component: 150 - total flux cleaned = 0.520011 Jy ! Component: 200 - total flux cleaned = 0.552797 Jy ! Total flux subtracted in 200 components = 0.552797 Jy ! Clean residual min=-0.004694 max=0.017894 Jy/beam ! Clean residual mean=0.000018 rms=0.001415 Jy/beam ! Combined flux in latest and established models = 0.552797 Jy uvw 0,-1 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. flux_cutoff = imstat(rms) * dynam ! Adding 17 model components to the UV plane model. ! The established model now contains 17 components and 0.552797 Jy ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam keep new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.035656 Jy ! Component: 100 - total flux cleaned = 0.0572325 Jy ! Component: 150 - total flux cleaned = 0.0711445 Jy ! Component: 200 - total flux cleaned = 0.080481 Jy ! Total flux subtracted in 200 components = 0.080481 Jy ! Clean residual min=-0.003007 max=0.006130 Jy/beam ! Clean residual mean=0.000092 rms=0.000931 Jy/beam ! Combined flux in latest and established models = 0.633278 Jy ! Adding 41 model components to the UV plane model. ! The established model now contains 49 components and 0.633278 Jy ! Inverting map ! Added new window around map position (1, -6.5). ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0066737 Jy ! Component: 100 - total flux cleaned = 0.0112308 Jy ! Component: 150 - total flux cleaned = 0.0144599 Jy ! Component: 200 - total flux cleaned = 0.0168311 Jy ! Total flux subtracted in 200 components = 0.0168311 Jy ! Clean residual min=-0.002978 max=0.003314 Jy/beam ! Clean residual mean=-0.000018 rms=0.000770 Jy/beam ! Combined flux in latest and established models = 0.650109 Jy ! Adding 27 model components to the UV plane model. ! The established model now contains 64 components and 0.650109 Jy ! Inverting map ! Added new window around map position (-7, 10). ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00263925 Jy ! Component: 100 - total flux cleaned = 0.00368798 Jy ! Component: 150 - total flux cleaned = 0.00452654 Jy ! Component: 200 - total flux cleaned = 0.0049571 Jy ! Total flux subtracted in 200 components = 0.0049571 Jy ! Clean residual min=-0.002907 max=0.002893 Jy/beam ! Clean residual mean=-0.000050 rms=0.000747 Jy/beam ! Combined flux in latest and established models = 0.655066 Jy ! Adding 27 model components to the UV plane model. ! The established model now contains 76 components and 0.655066 Jy ! Inverting map uvtaper 0.3,taper_size ! Gaussian taper: value 0.3 at UV radius = 20 mega-wavelengths. clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=8.019 mas, bmaj=8.552 mas, bpa=24.97 degrees ! Estimated noise=638.611 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00225897 Jy ! Component: 100 - total flux cleaned = 0.00351467 Jy ! Component: 150 - total flux cleaned = 0.00381983 Jy ! Component: 200 - total flux cleaned = 0.00403427 Jy ! Total flux subtracted in 200 components = 0.00403427 Jy ! Clean residual min=-0.006057 max=0.005069 Jy/beam ! Clean residual mean=-0.000331 rms=0.001784 Jy/beam ! Combined flux in latest and established models = 0.659101 Jy flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam keep new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000132156 Jy ! Component: 100 - total flux cleaned = 0.00022824 Jy ! Component: 150 - total flux cleaned = 0.000279978 Jy ! Component: 200 - total flux cleaned = 0.000296817 Jy ! Total flux subtracted in 200 components = 0.000296817 Jy ! Clean residual min=-0.006006 max=0.005106 Jy/beam ! Clean residual mean=-0.000340 rms=0.001778 Jy/beam ! Combined flux in latest and established models = 0.659398 Jy ! Adding 24 model components to the UV plane model. ! The established model now contains 96 components and 0.659398 Jy ! Inverting map uvtaper 0,0 ! No UV-taper is currently set. clean ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = -0.000629312 Jy ! Component: 100 - total flux cleaned = -0.000905457 Jy ! Component: 150 - total flux cleaned = -0.000947078 Jy ! Component: 200 - total flux cleaned = -0.000909856 Jy ! Total flux subtracted in 200 components = -0.000909856 Jy ! Clean residual min=-0.002874 max=0.002825 Jy/beam ! Clean residual mean=-0.000073 rms=0.000735 Jy/beam ! Combined flux in latest and established models = 0.658488 Jy selfcal ! Performing phase self-cal ! Adding 20 model components to the UV plane model. ! The established model now contains 104 components and 0.658488 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292675Jy sigma=0.001564 ! Fit after self-cal, rms=0.292675Jy sigma=0.001564 wmodel J0808+4950_S_2001_04_09_pus_map.mod ! Writing 104 model components to file: J0808+4950_S_2001_04_09_pus_map.mod wobs J0808+4950_S_2001_04_09_pus_uvs.fits ! Writing UV FITS file: J0808+4950_S_2001_04_09_pus_uvs.fits wwins J0808+4950_S_2001_04_09_pus_map.win ! wwins: Wrote 4 windows to J0808+4950_S_2001_04_09_pus_map.win x = (field_size-8) * field_cell / 4 addwin -x,x,-x,x clean (field_size4),0.01 ! Inverting map ! clean: niter=2048 gain=0.01 cutoff=0 ! Component: 050 - total flux cleaned = -0.000384188 Jy ! Component: 100 - total flux cleaned = -0.000484415 Jy ! Component: 150 - total flux cleaned = -0.000580757 Jy ! Component: 200 - total flux cleaned = -0.000811931 Jy ! Component: 250 - total flux cleaned = -0.00103654 Jy ! Component: 300 - total flux cleaned = -0.00130025 Jy ! Component: 350 - total flux cleaned = -0.00151528 Jy ! Component: 400 - total flux cleaned = -0.00168344 Jy ! Component: 450 - total flux cleaned = -0.00176594 Jy ! Component: 500 - total flux cleaned = -0.00192847 Jy ! Component: 550 - total flux cleaned = -0.00200857 Jy ! Component: 600 - total flux cleaned = -0.00200875 Jy ! Component: 650 - total flux cleaned = -0.00196998 Jy ! Component: 700 - total flux cleaned = -0.00189319 Jy ! Component: 750 - total flux cleaned = -0.0019701 Jy ! Component: 800 - total flux cleaned = -0.00196974 Jy ! Component: 850 - total flux cleaned = -0.00185715 Jy ! Component: 900 - total flux cleaned = -0.00189414 Jy ! Component: 950 - total flux cleaned = -0.00182074 Jy ! Component: 1000 - total flux cleaned = -0.00182074 Jy ! Component: 1050 - total flux cleaned = -0.00178464 Jy ! Component: 1100 - total flux cleaned = -0.00185656 Jy ! Component: 1150 - total flux cleaned = -0.00178496 Jy ! Component: 1200 - total flux cleaned = -0.00182061 Jy ! Component: 1250 - total flux cleaned = -0.00178527 Jy ! Component: 1300 - total flux cleaned = -0.00178533 Jy ! Component: 1350 - total flux cleaned = -0.00178534 Jy ! Component: 1400 - total flux cleaned = -0.00175062 Jy ! Component: 1450 - total flux cleaned = -0.0017162 Jy ! Component: 1500 - total flux cleaned = -0.00171614 Jy ! Component: 1550 - total flux cleaned = -0.00168218 Jy ! Component: 1600 - total flux cleaned = -0.00168208 Jy ! Component: 1650 - total flux cleaned = -0.00171569 Jy ! Component: 1700 - total flux cleaned = -0.0016822 Jy ! Component: 1750 - total flux cleaned = -0.00164905 Jy ! Component: 1800 - total flux cleaned = -0.00161615 Jy ! Component: 1850 - total flux cleaned = -0.00158343 Jy ! Component: 1900 - total flux cleaned = -0.0016492 Jy ! Component: 1950 - total flux cleaned = -0.00164891 Jy ! Component: 2000 - total flux cleaned = -0.00161644 Jy ! Total flux subtracted in 2048 components = -0.00164868 Jy ! Clean residual min=-0.001813 max=0.002087 Jy/beam ! Clean residual mean=-0.000050 rms=0.000615 Jy/beam ! Combined flux in latest and established models = 0.656839 Jy keep ! Adding 189 model components to the UV plane model. ! The established model now contains 293 components and 0.656839 Jy ![Exited script file: muppet] wmap "J0808+4950_S_2001_04_09_pus\_map.fits" ! Inverting map ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0024173 max=0.48769 Jy/beam ! Writing clean map to FITS file: J0808+4950_S_2001_04_09_pus_map.fits float peak_flux peak_flux = peak(flux,max) print "The peak flux is",peak_flux ! The peak flux is 0.487693 invert ! Inverting map float image_rms image_rms = imstat(rms) print "The final image rms is",image_rms ! The final image rms is 0.000615223 device "J0808+4950_S_2001_04_09_pus\_map.eps/VPS" ! Attempting to open device: 'J0808+4950_S_2001_04_09_pus_map.eps/VPS' loglevs 1003image_rms/peak_flux ! The new contour levels are: ! -0.378449 0.378449 0.756897 1.51379 3.02759 6.05518 12.1104 24.2207 48.4414 96.8828 print "clev=",int(3image_rms10000)/10000 ! clev= 0.0018 print "peak=",int(1000peak_flux)/1000 ! peak= 0.487 mapcolor none ! Mapplot colormap: none, contrast: 1 brightness: 0.5. mapplot cln ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0024173 max=0.48769 Jy/beam mapcolor color, 0.9 ! Mapplot colormap: rainbow, contrast: 0.9 brightness: 0.5. device "J0808+4950_S_2001_04_09_pus\_map.gif/vgif" ! Attempting to open device: 'J0808+4950_S_2001_04_09_pus_map.gif/vgif' mapplot cln quit ! Quitting program ! Log file J0808+4950_S_2001_04_09_pus_uvs.log closed on Fri Oct 5 15:57:04 2007	en
converted_docs	999956	Required Report - public distribution Date: 9/10/2003 GAIN Report Number: JA3067 JA3067 Japan Fresh Deciduous Fruit Annual 2003 Approved by: ![](media/image1.wmf)Kevin Latner #### U.S.Embassy Prepared by: Kenzo Ito Report Highlights: Japanese table grape production in 2003 is estimated at 230,000 tons, down approximately 1 percent from the previous year. Good packaging and handling practices by California growers and shippers have improved fruit quality and extended shelf life, giving California Red Globes an excellent reputation for quality in Japan. Japanese apple production in 2003 is estimated at 891,700 tons, down approximately 4 percent from the previous year. Japanese apple imports were only 108 tons in 2002, a significant decline from the previous year. Western pear production in Japan was up approximately 10 percent from the previous year in 2002. Includes PSD Changes: Yes Includes Trade Matrix: Yes Annual Report Tokyo \[JA1\] \[JA\] Table of Contents [The 2003 Japanese Table Grape Production Expected to Decline 1 Percent 3](#the-2003-japanese-table-grape-production-expected-to-decline-1-percent) [California Red Globes Established An Excellent Reputation for Quality in Japan 3](#california-red-globes-established-an-excellent-reputation-for-quality-in-japan) [Chilean Red Globes Continue to Sell Well in Japan 4](#chilean-red-globes-continue-to-sell-well-in-japan) [Japanese Apple Production in 2003 Expected to Decline 4 Percent 4](#japanese-apple-production-in-2003-expected-to-decline-4-percent) [Japanese Apple Imports Declined Significantly in 2002 5](#japanese-apple-imports-declined-significantly-in-2002) [Japanese Western Pear Production Keeps Rising 5](#japanese-western-pear-production-keeps-rising) [Import Duties on Fresh Apples and Table Grapes 5](#import-duties-on-fresh-apples-and-table-grapes) [PS&D Tables and Trade Matrices 6](#psd-tables-and-trade-matrices) [Fresh Apple PS&D Table 6](#fresh-apple-psd-table) [Fresh Apple Export Trade Matrix 7](#fresh-apple-export-trade-matrix) [Fresh Apple Import Trade Matrix 8](#fresh-apple-import-trade-matrix) [Fresh Apple Wholesale Price Table 9](#fresh-apple-wholesale-price-table) [Fresh Pear PS&D Table 10](#fresh-pear-psd-table) [Fresh Pear Export Trade Matrix 11](#fresh-pear-export-trade-matrix) [Fresh Pear Import Trade Matrix 12](#fresh-pear-import-trade-matrix) [Fresh Pear Wholesale Price Table 13](#fresh-pear-wholesale-price-table) [Fresh Table Grape PS&D Table 14](#fresh-table-grape-psd-table) [Fresh Table Grape Export Trade Matrix 15](#fresh-table-grape-export-trade-matrix) [Fresh Table Grape Import Trade Matrix 16](#fresh-table-grape-import-trade-matrix) [Fresh Table Grape Wholesale Price Table 17](#fresh-table-grape-wholesale-price-table) # The 2003 Japanese Table Grape Production Expected to Decline 1 Percent ![](media/image2.wmf) Japanese table grape production has been declining for over 10 years. Production is estimated at 230,000 metric tons in 2003, down approximately 1 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). Japan experienced fairly good weather when table grapes were flowering and pollinating in the spring and grapes. Kyoho, large and dark purple colored grapes, is the most commonly grown variety in Japan, accounting for approximately 34 percent of Japan's grape production. Kyoho is followed by the following varieties; Delaware (19%), Pione (9%), Muscat (6%), Campbell-Early (6%), Koshu (4%), and Kaiji (2%). Production of both Kyoho and Pione increased 3 percent from the previous year, while Delaware declined 7 percent. Production declines are mostly a result of Japan's aging farm population leaving farming and taking harvest area out of production. Japan's harvest area is estimated at 19,500 hectares in 2003, a decline of approximately 1 percent from the previous season. In mid-September, Tokyo supermarkets sold a cluster of Kyoho grapes (362 grams) for \$2.86 (318 yen), Kaiji grapes (304 grams) for \$2.68 (298 yen), and Muscat (668 grams) for \$7.71 (856 yen). Kaiji grapes are similar to California Red Globes. # California Red Globes Established An Excellent Reputation for Quality in Japan ![](media/image3.wmf)The quality of California table grapes is fairly stable throughout the season, with high Brix levels, according to Tokyo traders. The arrival fruit quality is reportedly excellent and the fruit has a long shelf-life to market. Grape clusters are individually wrapped with a sheet of paper and carefully packaged in a 9-kilogram box. California table grapes are shipped in temperature-controlled containers. Good packaging and handling practices by California growers and shippers have significantly improved fruit quality and extended shelf life. Peak sales of California Red Globes start in mid-October, at the end of the domestic season. The quality of Japanese table grapes was irregular this season due to the cool weather in July and August. Sales of California table grapes are expected to do well this fall, according to Tokyo traders. California table grapes have a strong competitive advantage in the Japanese market, according to retail specialists. Japanese retailers can sell California Red Globes at less than half the price of Japan's best selling Kyoho variety. In a drastic change from past years, consumers are looking for value in their food purchases. Tokyo's major supermarkets sold California Red Globes for \$2.68 (298 yen) a cluster of 700 -- 800 grams, while domestic table grapes sold for \$3.58 (398 yen) for a cluster of 350 -- 400 grams. Tokyo supermarket buyers usually estimate that California Red Globes can sell for \$0.35 - \$0.40 (39 -- 45 yen) per 100 grams and will sometimes sell for \$0.26 (29 yen) per 100 grams as a sales item. California Thomson Seedless will sell for \$0.52 (58 yen) per 100 grams, slightly higher than Red Globes because shipment is only by airfreight. The 2003 crop of California Red Globes arrived in Japan in early-September, and was traded at \$34.23 (3,800 yen) for a 9-KG case at Tokyo Ohta Wholesale Market. In 2002, Japan imported 3,224 metric tons of California table grapes (mainly Red Globes and Thomson Seedless), valued at \$5.42 million (CIF). # Chilean Red Globes Continue to Sell Well in Japan In the 2003 season (January-June), Chile exported 8,797 metric tons of table grapes to Japan, up 6.0 percent from the previous season, valued at \$11.66 million (CIF). The quality of Chilean table grapes was unstable due to transportation problems, according to Tokyo traders. Chile does not compete with California in the table grape market. # Japanese Apple Production in 2003 Expected to Decline 4 Percent ![](media/image4.wmf)Japanese apple production in 2003 is estimated at 891,700 metric tons, down approximately 4 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). In the spring, the Japanese apple industry conducted a fruit-thinning program in order to improve the quality of apples, but there are still many small-sized fruit in the 2003 crop, according to Tokyo traders. Apple growers in Aomori Prefecture experienced production difficulties when a typhoon hit the region in mid-September. The industry estimated that approximately 10 percent of the fruit was damaged in some regions. Aomori Prefecture, approximately 500 miles North-East of Tokyo, produces approximately 52 percent of the nation's apples. The Fuji is the most popular variety grown in Japan, accounting for approximately 55 percent of the nation's apple production. Harvesting of Fuji, a late-crop variety, begins in mid-October. Tsugaru, Jonagold and Ohrin are also popular, with approximately 13, 10 and 9 percent of total production, respectively. Harvest of the early-crop Tsugaru began in August and will finish in mid-October. The quality, Brix (sweetness) level, and fruit color and taste are reportedly good for all apple varieties this season. The Japanese apple industry estimates that 145,000 metric tons of the 2003 apples will go to processing, of which 125,000 metric tons go to juice while the rest go to canning and jam processing. The 2003 apple harvesting area is estimated at 41,700 hectares, down approximately 2 percent from the previous year, according to MAFF. This decline is due to orchard closures as a result of Japan's aging farm population. In mid-September, Tokyo supermarkets sold Tsugaru apples at \$0.89 (99 yen) for a medium sized fruit or at \$5.22 (580 yen) for a bag of 6 medium-size apples. This price range is similar to last year. Tsugaru apples were traded at \$21.62 (2,400 yen) for a 10-kilogram box (36 apples in a box) at Tokyo Ohta Wholesale Market. # Japanese Apple Imports Declined Significantly in 2002 Japanese apple imports were only 108 metric tons in the 2002 season, less than one third the previous season. Australia exported three container loads (107 metric tons) of Tasmania Fuji apples to Japan in June 2003. South Korea exported 0.6 metric tons of Fuji apples in October 2002. Small sized Tasmanian Fuji apples were not well received by Japanese consumers, according to Tokyo supermarket specialists. Tokyo supermarkets sold Australian Fuji apples for \$1.15 (128 yen) per fruit when the first shipments arrived, and discounted them to approximately \$0.45 (50 yen) per fruit later in the season. There were no imports of U.S. apples in 2002. # Japanese Western Pear Production Keeps Rising ![](media/image5.wmf) Japanese Western pear production in 2002 was 31,100 metric tons, up approximately 10 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). Traditionally, Japan produces Japanese sand pears, which have significantly different fruit flesh texture than Western pears. La France and Bartlett are two major Western pear varieties grown in Japan. Yamagata Prefecture, 250 miles North of Tokyo, harvests approximately 61 percent of the nation's Western pears. Western pear production is relatively new in Japan. Western pear trees were planted in Yamagata prefecture as a part of the region's agricultural development. The harvested area for the 2002 Western pear was 1,730 hectares, up approximately 2 percent from the previous year. Japan continues to ban imports of U.S. pears due to phytosanitary concerns. # Import Duties on Fresh Apples and Table Grapes These duties are not subject to further reductions. The applicable import duties are: +-----------------------+------------------+--------------------------+ \| DESCRIPTION \| \| DUTY RATE \| \| \| \| \| \| TARIFF CODE (HS) \| \| \| +-----------------------+------------------+--------------------------+ \| Fresh Apples \| \| 17.0 % \| \| \| \| \| \| 0808.10-000 \| \| \| +-----------------------+------------------+--------------------------+ \| Fresh Table Grapes \| 3/1 -- 10/31 \| 17.0 % \| \| \| \| \| \| 0806.10-000 \| \| \| +-----------------------+------------------+--------------------------+ \| \| 11/1 -- 2/28 \| 7.8 % \| +-----------------------+------------------+--------------------------+ All duties are charged on a CIF basis. # PS&D Tables and Trade Matrices ## Fresh Apple PS&D Table ----------------- ----------- ---------- ---------- ---------- ------------ ---------- PSD Table Country Japan Commodity Fresh (HA)(1000 Apples TREES)(MT) 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] Market Year 07/2001 07/2002 07/2003 Begin Area Planted 45900 45900 45000 45000 0 44100 Area Harvested 43100 43100 42400 42400 0 41700 Bearing Trees 42300 42300 41600 41600 0 40900 Non-Bearing Trees 3610 3610 3400 3400 0 3200 Total Trees 45910 45910 45000 45000 0 44100 Commercial 829500 829500 812500 809400 0 787800 Production Non-Comm. 101200 101200 99400 116400 0 103900 Production TOTAL Production 930700 930700 911900 925800 0 891700 TOTAL Imports 349 349 1000 108 0 100 TOTAL SUPPLY 931049 931049 912900 925908 0 891800 Domestic Fresh 776203 776203 762900 768705 0 731800 Consump Exports, Fresh 6546 6546 5000 12203 0 15000 Only For Processing 148300 148300 145000 145000 0 145000 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 931049 931049 912900 925908 0 891800 ----------------- ----------- ---------- ---------- ---------- ------------ ---------- ## Fresh Apple Export Trade Matrix ------------------- ------------------ ----------------- --------------- Export Trade Matrix Country Japan Commodity Fresh Apples Time Period Jul. - Jun. Units: Metric Tons Exports for: 2001 2002 U.S. 46 U.S. 58 Others Others Taiwan 5637 Taiwan 11580 Hong Kong 371 Hong Kong 231 Thailand 165 Thailand 199 Singapore 119 Indonesia 60 South Korea 94 Singapore 28 Indonesia 58 French Oceania 18 French Oceania 24 Philippines 12 Philippines 10 Guam 11 Guam 8 Total for Others 6486 12139 Others not Listed 14 6 Grand Total 6546 12203 ------------------- ------------------ ----------------- --------------- ## Fresh Apple Import Trade Matrix ------------------- ------------------ ----------------- --------------- Import Trade Matrix Country Japan Commodity Fresh Apples Time Period Jul. - Jun. Units: Metric Tons Imports for: 2001 2002 U.S. 0 U.S. 0 Others Others Australia 167 Australia 107 South Korea 182 South Korea 1 Total for Others 349 108 Others not Listed 0 0 Grand Total 349 108 ------------------- ------------------ ----------------- --------------- ## Fresh Apple Wholesale Price Table ------------------- ------------------- ------------------ ------------- Prices Table Country Japan Commodity Fresh Apples Prices in Yen per uom KG Year 2002 2003 \% Change Jan 175 181 3% Feb 161 176 9% Mar 176 190 8% Apr 200 219 10% May 213 252 18% Jun 232 315 36% Jul 261 358 37% Aug 294 -100% Sep 207 -100% Oct 210 -100% Nov 199 -100% Dec 180 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY ------------------- ------------------- ------------------ ------------- ## Fresh Pear PS&D Table ----------------- ----------- ---------- ---------- ---------- ------------ ---------- PSD Table Country Japan Commodity Fresh (HA)(1000 Pears TREES)(MT) 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] Market Year 07/2001 07/2002 07/2003 Begin Area Planted 19350 19350 19040 18950 0 18550 Area Harvested 18100 18100 17810 17830 0 17350 Bearing Trees 4380 4380 4340 4340 0 4300 Non-Bearing Trees 440 440 410 400 0 360 Total Trees 4820 4820 4750 4740 0 4660 Commercial 365600 365600 393200 373300 0 375000 Production Non-Comm. 31400 31400 33100 33300 0 32300 Production TOTAL Production 397000 397000 426300 406600 0 407300 TOTAL Imports 907 907 700 193 0 200 TOTAL SUPPLY 397907 397907 427000 406793 0 407500 Domestic Fresh 394586 394586 423500 403678 0 404300 Consump Exports, Fresh 2821 2821 3000 2615 0 2700 Only For Processing 500 500 500 500 0 500 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 397907 397907 427000 406793 0 407500 ----------------- ----------- ---------- ---------- ---------- ------------ ---------- ## Fresh Pear Export Trade Matrix -------------------- -------------- -------------------- --------------- Export Trade Matrix Country Japan Commodity Fresh Pears Time Period Jul. - Jun. Units: Metric Tons Exports for: 2001 2002 U.S. 376 U.S. 366 Others Others Hong Kong 1760 Hong Kong 1650 Taiwan 458 Taiwan 509 Singapore 104 Australia 31 Netherlands 28 Singapore 26 South Korea 24 Netherlands 14 Malaysia 24 Guam 7 Indonesia 14 Malaysia 3 Australia 10 Guam 7 Total for Others 2429 2240 Others not Listed 16 9 Grand Total 2821 2615 -------------------- -------------- -------------------- --------------- ## Fresh Pear Import Trade Matrix -------------------- -------------- -------------------- --------------- Import Trade Matrix Country Japan Commodity Fresh Pears Time Period Jul. - Jun. Units: Metric Tons Imports for: 2001 2002 U.S. 0 U.S. 0 Others Others South Korea 907 South Korea 193 Total for Others 907 193 Others not Listed 0 0 Grand Total 907 193 -------------------- -------------- -------------------- --------------- ## Fresh Pear Wholesale Price Table -------------------- ----------------- ---------------- ----------------- Prices Table Country Japan Commodity Fresh Pears Prices in Yen per uom KG Year 2002 2003 \% Change Jan 214 242 13% Feb 214 236 10% Mar 213 218 2% Apr 167 239 43% May 307 173 -44% Jun 927 970 5% Jul 390 426 9% Aug 269 -100% Sep 229 -100% Oct 189 -100% Nov 209 -100% Dec 270 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY -------------------- ----------------- ---------------- ----------------- ## Fresh Table Grape PS&D Table ------------------ ----------- ---------- ---------- ---------- ---------- ---------- PSD Table Country Japan Commodity Fresh (HA)(MT) Table Grapes 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] Market Year 01/2002 01/2003 01/2004 Begin Area Planted 21200 20900 20800 20600 0 20300 Area Harvested 19700 19700 19500 19500 0 19300 Commercial 214800 212300 215000 210600 0 210000 Production Non-Comm. 20400 19400 20800 19400 0 15000 Production TOTAL Production 235200 231700 235800 230000 0 225000 TOTAL Imports 13000 11836 17324 12000 0 12000 TOTAL SUPPLY 248200 243536 253124 242000 0 237000 Domestic Fresh 219670 215475 224600 213950 0 211950 Consump Exports, Fresh 30 61 24 50 0 50 Only For Processing 28500 28000 28500 28000 0 25000 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 248200 243536 253124 242000 0 237000 ------------------ ----------- ---------- ---------- ---------- ---------- ---------- ## Fresh Table Grape Export Trade Matrix ----------------- ------------------ ----------------- ----------------- Export Trade Matrix Country Japan Commodity Fresh Table Grapes Time Period Jan. - Dec. Units: Metric Tons Exports for: 2001 2002 U.S. 0 U.S. 0 Others Others Hong Kong 36 Taiwan 43 Hong Kong 18 Total for Others 36 61 Others not Listed 0 0 Grand Total 36 61 ----------------- ------------------ ----------------- ----------------- ## Fresh Table Grape Import Trade Matrix ----------------- ------------------ ----------------- ----------------- Import Trade Matrix Country Japan Commodity Fresh Table Grapes Time Period Jan. - Dec. Units: Metric Tons Imports for: 2001 2002 U.S. 3222 U.S. 3224 Others Others Chile 7784 Chile 8295 Mexico 345 Mexico 248 Taiwan 122 Taiwan 48 New Zealand 23 New Zealand 19 China 11 South Korea 1 South Korea 2 Total for Others 8287 8611 Others not Listed 1 1 Grand Total 11510 11836 ----------------- ------------------ ----------------- ----------------- ## Fresh Table Grape Wholesale Price Table ----------------- ------------------- ------------------ --------------- Prices Table Country Japan Commodity Fresh Table Grapes Prices in Yen per uom KG Year 2002 2003 \% Change Jan 587 732 25% Feb 529 634 20% Mar 605 1182 95% Apr 2640 2951 12% May 1556 1704 10% Jun 917 1014 11% Jul 735 813 11% Aug 664 -100% Sep 526 -100% Oct 487 -100% Nov 635 -100% Dec 700 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY ----------------- ------------------- ------------------ ---------------	en
markdown	470908	# Presentation: 470908 ## Enabling Technologies from the Biology Perspective - H. Steven Wiley - January 22nd, 2002 ## What is a “Systems Approach” in the Context of Biological Organisms? - Looking at cells as integrated systems and not as mere collections of parts - Seeks to understand how changes in any given component will affect the behavior of the entire system - Requires integration of information from molecular biology, biochemistry, physics and genetics to understand relationship between different sets of scientific data. - Goal is a “Higher order” understanding of life processes. ## Why should DOE care about Systems Biology? - It offers a chance to actually solve problems. - Conversion of biology from a descriptive to a quantitative science. - This will enable bioengineering and rational design of biological systems. - DOE is one of the only organizations that is capable of applying a systems approach to biology ## What are the Computational Requirements of Systems Biology? - - develop new theories and mathematics, - - develop new algorithms, - - implement on the largest available computer systems, - - make full use of large, distributed databases, and - - make the software and computer system usable by the biologist. What are the Computational Requirements of Systems Biology? ## Biological Organisms are Dynamic and Recursive Biological Organisms are Dynamic and Recursive ## Systems Biology Requires Scientific Integration Systems Biology Requires Scientific Integration - To solve specific problems using a “systems approach”, you must couple theory with experiments and analysis in a recursive manner. This requires close coordination between program elements. Notes: The GTL program describes programmatic integration, but does not indicate how scientific integration will be achieved. All “systems biology” programs acknowledge the need to physically integrate the multidisciplinary components. DOE does not currently have an integrated computation-biology-instrumentation facility. ## Understanding Complex Biological Systems Using a Top-Down:Bottom-Up Hybrid Approach - Bottom-Up defines the molecular components of the system - This sets the physical constraints of system behavior - This provides basis for generating mechanistic models - Top-Down computational approach is used to attribute behavioral characteristics to system - Encapsulate complexity in terms of modular structure - Attribute behavioral outcome to molecular composition ## Cell Migration Can Be Broken Down Into a Series of Steps... ## Extend Model From High-level to Low LevelExample: Wound Healing Response ## Modular Perspective in Cell Biology - Consider cells as composed of groups of interacting modules - Modules are functionally independent - Modules interact at defined (and limited) regulatory nodes - Function of cells defined in terms of collection of modules ## Systems Biology = Quantitative Biology - System is defined as group of interacting parts - Interactions are dependent on quantities - Cellular processes are best described as rates - Computer simulations require quantification ## What, Where, Quantity, Quality? What, Where, Quantity, Quality? - What parts are being made? (identity) - Where are the proteins located in cell? (location) - What are their levels? (quantity) - How do they interact with their partners? (activity) - As a function of covalent modification - Contribution of steric restrictions - Forward and reverse rate constants To successfully model a complex biological system, one must minimally know the following information: ## What Is Necessary to Understand a Network? Modeling & Analysis Experimental Biology ## Growth Factor Pathways ## How Can We Understand Signaling Networks? Hanahan & Weinberg, 2000 _“__Hallmarks of Cancer”_ ## Structure of Cells ## Intracellular Trafficking Pathways ## The EGFR System The EGFR System ## How Do We go From Cartoon Model to Realistic Model? How Do We go From Cartoon Model to Realistic Model? - Model must be quantifiable - Model must make very specific predictions - Model must account for changes in components as well as input parameters - Must be testable with experimental data - Models and experiments need to be developed together ## The EGFR System The EGFR System ## Spatial Colocalization by Image Analysis - For two molecules to interact, they must be located in the same space at the same time. This can be determined by image analysis ## Movement of EGFR through early endosomes as determined by image analysis ## Colocalization of EGFR and HER2 Colocalization of EGFR and HER2 ## Slide 24 ## Trafficking model for EGFR signaling Trafficking model for EGFR signaling 20 nM of ligand is injected in 15 seconds (red: EGF, blue: TGF-) Stochastic/Kinetic Simulations  Dynamic Monte Carlo method (Probability weighted) A probabilistic approach as opposed to deterministic Extension of the Monte Carlo method to the time domain - H Resat, HS Wiley, DA Dixon ## Signal Pathways: Computer Simulation of Protein-Protein Complexes - Ras acts as the GTP-activated molecular switch in the cell signaling pathway for gene expression, controlling cell proliferation and differentiation. Mutations found at Gln-61 in 30% of human tumors. Signal Pathways: Computer Simulation of Protein-Protein Complexes - Issues for modeling the Ras:Raf signaling complex : - 50,000 atoms, long-time simulations, solvent, lack of knowledge of the entire structure - TP Straatsma, H Resat, JH Miller, T Soares, DA Dixon, PNAS, 2001 ## Model for the Role of Ca2+ in Stress-Response Pathways: NWGrid/NWPhys Model for the Role of Ca2+ in Stress-Response Pathways: NWGrid/NWPhys - H Trease, JH Miller G protein-coupled receptor ## Signaling Through Growth Factor Receptors Notes: What we do is to take what is known about the molecular biology of signaling networks and conceptualize them. By looking at the different parts of the pathways as concepts we can understand them in terms of controls and regulators. ## Central Role of Computation and Simulation Central Role of Computation and Simulation - Computer simulations provide a conceptual framework for organizing system behavior ## Cell State Dictates Cell Response Cell State Dictates Cell Response - DNA is information storage of cell - Proteins are the “program” running the cell - The running program dictates cellular response - Thus, one cannot adequately model or predict cellular responses UNLESS the proteome of a given cell is first specified! ## Proteomics - What parts are being made? (identity) - Develop technologies for global proteomics - Develop technologies for selective proteomics - What is their state of modification? (activity) - Phosphorylation state - Other covalent modifications - What are their levels? (quantity) - High-throughput quantification - Rapid quantification ## Slide 32 ## Probability Network for Proteomics - Genome - Protein - Peptide - MS/MS - LC - Total Prob - Bioinform - Prob - AGTCCGTAACGGCTAGCTGATCTGACTAGTCTAGCGCGCTAGGAGAGAGTATATCCCCGCTTCTAATCGAC ## Software provides connection between visual displays and data Software provides connection between visual displays and data ## Expression analysis from MS Proteomic Data Expression analysis from MS Proteomic Data - Expression levels between cell populations as measured by FTICR MS are correlated and quantitative... - ...allowing for expression and network analysis. - WR Cannon Notes: Figure 1. The first plot is a scatter plot of mass classes (ie observations in the ms data that are grouped by mass ranges) between two cell populations. The fact that a large majority of the points lie on the diagonal means that the levels are correlated. This plot is one that is generally associated with DNA microarrays, not protein expression measurement. The most important point is that the points that fall off the diagonal are up or down regulated and the data can be made quantitative. Figure 2. Graph consisting of proteins (nodes) that are related by the mutual information statistic. The relationships are symbolized by double-headed arrows (edges), which represents a range of values of the mutual information statistic above a arbitrary cutoff value. The data used in the analysis were from FTICR MS analysis of Deinococcus radiodurans cells grown under 15 different experimental conditions, in which the FTICR MS results indicated the presence or absence of each protein. The information theory analysis used this two-state model (present/absent). Although, the data set is small and the data itself only consists of information on whether the protein was observed or not (rather than expression levels), the results are intriguing. Five of the six proteins in the group on the right of the figure are all associated with biosynthesis: (a) the ribosomal protein L29; (b) methionyl-tRNA synthetase, (c) a signal recognition particle protein that binds RNA; (d) Guanosine monophosphate synthase, an enzyme involved in GTP biosynthesis; and (e) adenylosuccinate lyase, an enzyme involved in de novo purine synthesis. The six protein is of unknown function. The value of these networks is two-fold: first they provide a computational framework for discover-driven science; second, they capture knowledge from diverse experimental sources and allow the biologist to make more insightful hypotheses. ## Database Requirements for Proteomics - Pooled - Proteins - Pooled - Peptides Proteomic State - FTICR-MS _1. Build Knowledge Base_ _2. High-throughput Experiments_ - >103 ## Automated data mining of genome superfamily sequences – Data integration and method validation Automatic Superfamily Finder Superfamily organizer Text* * Motif Pattern Integrator Extracts and validates superfamily sequences based on PSI-BLAST (automation tool under development) Organizes and visualizes superfamily sequences (Prototype built) - HJ Sofia ## Computational Cell Environment Computational Cell Environment Announcements Reference Links Collaborators Data Sets Experimental FTICR CARS Computational Analysis Tools Starlight Similarity Box Psort Prosite ## New Model for Biological Analysis *New Model for Biological Analysis* - Analytical - Experimental, - Robotic Computation - Information - Synthesis - Mathematical, Computational, Visualization - Hypothesis Computation 1. Enhance understanding of known systems 2. Provide qualitative/ quantitative insights  direct new experiments or design new systems 3. Provide quantitative results to: - Replace experiments that are too difficult, dangerous or expensive - Go into new temporal and spatial domains - Extend limited experimental data into new domains of parameter space ## Computational Sciences Ties Systems Biology Together Computational Sciences Ties Systems Biology Together	en
markdown	352697	# Presentation: 352697 ## A proposal to measure transport variationsbetween the Indian and South Atlantic Oceans Mark Wimbush - Graduate School of OceanographyUniversity of Rhode Island ## I PROPOSE ADDING ~20 CPIESs DEPLOYED FOR 2-4 YEARSTO THE 10+ PIESs IN THE GOODHOPE ARRAY - Why an Africa-Antarctica array? - ● Will measure exchange flows between the Indian and South Atlantic Oceans (“warm-water-route”). - Why now? - ● Will (a) contribute directly to the 2007-2011 BONUS-GOODHOPE program, and (b) obtain several years of data simultaneous with the Chereskin, Donohue and Watts 2008-2011 measurements in the Drake Passage (“cold-water route”). - Why a CPIES array? - ● This is the most cost effective way to measure the time-varying cross-sectional absolute current structure over a long time period (several years). ## ASTTEX array2003-2005(Deirdre Byrne and Randy Watts) - ASTTEX array2003-2005(Deirdre Byrne and Randy Watts) - Δx = 62 -180 km ## GOODHOPE PIES array - 8 PIES (Boebel) - +2 PIESs (locations undecided)(Speich) + more PIESs? (Byrne) - GOODHOPE PIES array ## CPIES Transport Arrays:Drake Passage (17 CPIESs, blue) Chereskin, Donohue & WattsAfrica-Antarctica (23 CPIESs, red) - 17 CPIESs - Δx = 30 – 75 km - 23 CPIESs - Δx = 154 -159 km ## ISSUES - ● Should CPIES spacing (~155 km) be reduced in high-energy/frontal regions (e.g., Agulhas rings, SAF, PF) and correspondingly increased in other regions? - ● Is 60 ̊S an appropriate southern terminus for the array? - ● Alternatively, should we limit the CPIES array to the region north of Olaf Boebel’s ANT-5 site (~42 ̊S)? - ● Can we better integrate the array with PIESs from others: Boebel, Speich, Byrne, Garzoli, etc? - ● How many CPIES instruments do we need? Is 23 enough? - ● What ships can we use to deploy and recover the CPIES instruments in the array? - ● Will it be possible to take CTD casts at the CPIES sites? How often? - ● Should we consider acoustically telemetering the data to a ship, prior to instrument recovery, e.g., once a year? - ● Are multi-component GEM fields needed to interpret the data? - ● Can we hope to use such an array to measure heat and salt fluxes in addition to mass fluxes? ## FIN	en
markdown	149107	# Presentation: 149107 ## DSpace Evaluation - Jonathan Lorig - Metadata Review Group Meeting - NASA Goddard Space Flight Center Library - March 10, 2005 ## Agenda - Presenter background - Institutional Repository requirements for DAS - DSpace - Background - Findings - Next steps ## Presenter Background - Digital Librarian at GSFC; started Jan ‘05 - Coordinate with Gail and Nikkia to research and develop digital mechanisms for knowledge preservation at Goddard - Worked last summer at Glenn with Sue Oberc; developed a serials management dataset and fought with the Sirsi Workflows report module - BS in Civil Engineering, MS in Library Science from University of Illinois ## Requirements for the DAS Institutional Repository - Capture, catalog, preserve, and redistribute GSFC intellectual content in various digital formats - Provide single search interface - Utilize the Goddard Core Metadata Element Set - Provide workflow authority settings for metadata and object ingest - Provide separate metadata and object access security - Provide access information for objects stored on secure servers outside the Goddard Library ## Current wishes for the DAS - Provide customizable metadata schema for individual GSFC projects - Integrate front end for website spider captures and automated metadata extraction - Customize persistent identifiers and provide secure handle resolution ## DSpace - IR platform written by programmers at MIT and Hewlett-Packard labs - Open-source Java permits customization and collaboration with other institutions - Implemented so far by 68 universities and technical libraries according to DSpace website - Langley and JPL librarians will present on their DSpace implementations at an STI ViTS session tomorrow ## DSpace User Community offers Substantial Contributions - Ongoing core code development by original developers - SIMILE - MIT project to extend metadata schema support through RDF and semantic web technologies - DSpace/ARK - UCLA/UCSD/CDL project to support alternative identifier schemes - XML/XSLT - TAMU project to replace HTML code with XML code throughout DSpace interface ## DSpace Projects Continued.... - DRUM - Digital Repository at the University of Maryland allows faculty to authenticate against campus LDAP directory with secure user profiles - Research Tools - University of Rochester project permits customized project information pages - OAI Harverster Plug-In from Old Dominion University Digital Library Research Group ## DSpace testing and external reports so far have indicated.... - Robust ingest workflow settings including customizable workflows for collections - Customizable user interface - Customizable global metadata scheme; still evaluating schema for individual collections - Simplistic metadata and object access controls would require substantial administrative effort - Substantial community support and quick answers to technical questions ## DSpace code uses languages and standards identical to the DAS - Java servlets and Java Server Pages (JSP) for base code and page display - Lucene search engine for metadata indexing and retrieval - OAI-PMH compliance - SQL database compatibility - DSpace also supports OpenURL protocol from SFX for potential interoperability with external library databases ## Next Steps to Evaluate DSpace - Complete test of customizable metadata schema using current DAS content - Identify preservation issues pertaining to DSpace’s bitstream method for object storage - Identify Java code for web capture and metadata extraction to append to DSpace (Heritrix?) - Identify code for additional administrative tools to control object security and distribution settings - specific privileges for particular users in sub-communities and collections - options for various object display formats or storage of multiple formats	en
converted_docs	022571	[Link to GCH-0015](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0015LOPS.doc) [Link to GCH-0016](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0016LOPS.doc) [Link to GCH-0017](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0017LOPS.doc) [Link to GCH-0018](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0018LOPS.doc) [Link to GCH-0020](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0020LOPS.doc) [Link to GCH-0021](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0021LOPS.doc) Legal Opinion: GCH-0060 Index: 2.245 Subject: PH Due Process Determination: Vermont June 22, 1992 DUE PROCESS DETERMINATION for the STATE OF VERMONT TABLE OF CONTENTS I. Jurisdiction. II\. Elements of Due Process. III\. Overview of Vermont Eviction Procedures. IV\. Analysis of Vermont Eviction Procedures for Each of the Regulatory Due Process Elements. V. Conclusion. ANALYSIS I. Jurisdiction: Vermont. II\. Elements of Due Process Section 6(k) of the United States Housing Act of l937 (42 U.S.C. 1437d(k), as amended by section 503(a) of the National Affordable Housing Act of 1990, Pub. L. 101-625, approved November 28, 1990), provides that: For any grievance concerning an eviction or termination of tenancy that involves any criminal activity that threatens the health, safety, or right to peaceful enjoyment of the premises of other tenants or employees of the public housing agency or any drug-related criminal activity on or near such premises, the agency may . . . exclude from its grievance procedure any such grievance, in any jurisdiction which requires that prior to eviction, a tenant be given a hearing in court which the Secretary determines provides the basic elements of due process . . . . The statutory phrase, \"elements of due process,\" is defined by HUD at 24 CFR § 966.53(c) as: . . . an eviction action or a termination of tenancy in a State or local court in which the following procedural safeguards are required: \(l\) Adequate notice to the tenant of the grounds for terminating the tenancy and for eviction; \(2\) Right of the tenant to be represented by counsel; VERMONT DUE PROCESS DETERMINATION \(3\) Opportunity for the tenant to refute the evidence presented by the PHA including the right to confront and cross-examine witnesses and to present any affirmative legal or equitable defense which the tenant may have; and \(4\) A decision on the merits. HUD\'s determination that a State\'s eviction procedures satisfy this regulatory definition is called a \"due process determination.\" The present due process determination is based upon HUD\'s analysis of the laws of the State of Vermont to determine if eviction procedures under those laws require a hearing with all of the regulatory \"elements of due process,\" as defined in 966.53(c). HUD finds that the requirements of Vermont law for a Superior Court ejectment action pursuant to Vt.Stat.Ann. tit. 9, 4451-4468 and Vt.Stat.Ann. tit. 12, 4851 et seq. include all of the elements of due process as defined at 24 C.F.R. 966.53(c). This conclusion is based on the legal requirements established by Vermont statutes, case law, and court rules. III\. Overview of Vermont Eviction Procedures Vermont law (1985 Vt. Acts No. 175 (Adj. Sess.), 8) provides that Vt.Stat.Ann. tit. 9, 4451-4468, apply to rental agreements entered into, extended, or renewed on or after July 1, 1986\. Obligations imposed on landlords and tenants pursuant to Chapter 137 are implied in all rental agreements (Vt.Stat.Ann. tit. 9, 4453), and may not be waived or circumvented (Vt.Stat.Ann. tit. 9, 4454). Tenant\'s obligations, including but not limited to restraint from conduct which disturbs other tenants\' peaceful enjoyment of the premises, are set forth at Vt.Stat.Ann. tit. 9, 4456. The landlord may terminate the tenancy if the tenant fails to comply with a material term of the rental agreement, or with obligations imposed under Chapter 137 of Vermont Statutes Annotated. Vt.Stat.Ann. tit. 9, 4467(b). If the tenant remains in possession after the rental agreement is terminated, without consent of the landlord, the landlord may prosecute a claim for the possession of property occupied by the tenant. The landlord may commence an action under the Superior Court ejectment procedures. Vt.Stat.Ann. tit. 12, 4851 et seq.. The Superior 2 VERMONT DUE PROCESS DETERMINATION Court has jurisdiction to hear ejectment cases and issue a writ of possession to restore a plaintiff-landlord to the possession of property. Vt.Stat.Ann. tit. 12, 4851. The Vermont Rules of Evidence (V.R.E) govern proceedings in the courts of the State. V.R.E. 101. Such proceedings are also subject to the Vermont Rules of Civil Procedure (V.R.C.P.). V.R.C.P. 1. Rules of Evidence pertinent to this determination include: V.R.E. 402-3 (admission and exclusion of relevant evidence); V.R.E. 601 (witness competency); V.R.E. 602 (matters appropriate for witness testimony); V.R.E. 607-9 (witness credibility); and V.R.E. 611 (cross-examination). Rules of Procedure pertinent to this determination include: V.R.C.P. 11, 26, 43, and 51 (attorneys\' activities); V.R.C.P. 4 (service of summons and complaint); V.R.C.P. 8 (pleading requirements); V.R.C.P. 32 (use of depositions at trial); and V.R.C.P. 54 (final judgments). IV\. Analysis of Vermont Eviction Procedures for Each of the Regulatory Due Process Elements A. Adequate notice to the tenant of the grounds for terminating the tenancy and for eviction (24 CFR 966.53(c)(l)) Vt.Stat.Ann. tit. 9, 4467 states procedures which must be followed to give a tenant proper notice of lease termination. The landlord must give written notice of the termination of the tenancy. The notice may be served either by hand-delivery or by mailing to the tenant\'s last-known address. Vt.Stat.Ann. tit. 9, 4467(b), 4451(1). It does not appear that this notice must specify the grounds for termination. When a landlord terminates a tenancy \"in accordance with the terms of a written rental agreement,\" the notice to terminate must be at least 30 days, when rent is payable on a monthly basis. Vt.Stat.Ann. tit. 9, 4467(e). Under Vt.Stat.Ann. tit. 12, 4852, process in a Superior Court ejectment action: may issue as a summons . . . requiring the defendant to appear and answer to the complaint of the plaintiff which shall state that the defendant is in the possession of the lands or tenements in question 3 VERMONT DUE PROCESS DETERMINATION (describing them), which he holds unlawfully and against the right of the plaintiff . . . . Process must \"be served and notice given as in other civil actions.\" Vt.Stat.Ann. tit. 12, 4853. The summons must notify the defendant of \"the time within which these rules require the defendant to appear and defend.\" V.R.C.P. 4(b). V.R.C.P. 8 requires that all pleadings which set forth a claim for relief must contain \"a short and plain statement of the claim showing that the pleader is entitled to relief.\" V.R.C.P. 8 also requires that such pleadings contain \"a demand for judgment for the relief which the pleader seeks.\" Consequently, a tenant-defendant in a Superior Court ejectment action must be informed of the grounds for eviction as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). B. Right to be represented by counsel (24 CFR 966.53(c)(2)) A tenant-defendant\'s right to be represented by counsel is implied by various provisions of the Vermont Rules of Civil Procedure. These rules include: V.R.C.P. 11, which refers to the role of counsel in signing pleadings; V.R.C.P. 26(g), which requires the signing of discovery requests or responses by parties or their attorneys; V.R.C.P. 43(g), which refers to the role of counsel during the examination and cross-examination of witnesses; and V.R.C.P. 51, which governs the role of counsel for each party in closing argument. C. Opportunity for the tenant to refute the evidence presented by the PHA, including the right to confront and cross-examine witnesses (24 CFR 966.53(c)(3)) Proceedings in Vermont courts are subject to the Vermont Rules of Evidence (V.R.E.). V.R.E. Rule 101. The V.R.E are intended to promote the development of the law of evidence in order to attain the truth in a judicial proceeding. V.R.E. 102. Generally, all relevant evidence is admissible unless limited by constitutional requirements or by statute or by rules of the courts in the state. V.R.E. 402. Relevant evidence may only be excluded if probative value of the evidence is substantially outweighed on grounds of prejudice, confusion, or 4 VERMONT DUE PROCESS DETERMINATION waste of time. V.R.E. 403. The court must determine the qualifications of a witness and the admissibility of evidence based on the court\'s determination of relevance. V.R.E. 104(a); cf. V.R.E. 104(e). The testimony of witnesses must be taken orally in open court (unless otherwise provided by V.R.C.P., or the V.R.E., or other rules adopted by the Supreme Court). V.R.C.P. 43(a). Generally, every person is deemed competent to be a witness (unless specifically disqualified due to prescribed incapacities). V.R.E. 601(a), (b). However, a witness must generally have personal knowledge of the matter (other than opinion testimony by expert witnesses). V.R.E. 602. The defendant-tenant may refute the credibility of the plaintiff\'s witness. The credibility of a witness may be impeached by any party. V.R.E. 607. Evidence in the form of opinion or reputation may be used to attack the credibility of a witness. V.R.E. 608(a). Such evidence, however, may only refer to character for truthfulness or untruthfulness. V.R.E. 608(a). Credibility of a witness may also be attacked by evidence of a prior conviction of a crime which involved dishonesty, or was punishable by death or imprisonment for a year or more. V.R.E. 609\. A prior statement of a witness is also subject to examination. V.R.E. 613. The V.R.C.P. grants a tenant-defendant the right to impeach or contradict the plaintiff\'s case through cross-examination of plaintiff\'s witnesses. V.R.C.P. 43(g). A witness may be cross- examined on any matter relevant to the case, including credibility. V.R.E. 611(b). Ordinarily, leading questions are permitted on cross examinations of an adverse witness. V.R.E. 611(c). At trial, a pretrial deposition may only be used against a party who had the opportunity to be present at the taking of the deposition. V.R.C.P. 32(a). At the taking of a deposition, the witness may be cross-examined in the same manner as permitted at trial. V.R.C.P. 30(c). A deposition may only be used at trial in specific and restrictive circumstances stated in the rules. V.R.C.P. 32(a). Provisions which allow the use of a deposition at trial under \"exceptional circumstances\" note the importance of presenting the testimony of witnesses orally in open court. V.R.C.P. 32(a)(3). A party has a right to inspect writings or recorded statements utilized in court by the adverse party. V.R.E. 106. 5 VERMONT DUE PROCESS DETERMINATION A defendant tenant has the right to present evidence and witnesses to refute the case presented by the PHA, subject to reasonable judicial control as to the method of interrogating witnesses and of presenting evidence on direct and cross examination. V.R.E. 611(a). The Vermont rules of evidence and civil procedure give a defendant-tenant a full opportunity to refute the PHA\'s evidence, including the right to confront and cross-examine witnesses as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). D. Opportunity to present any affirmative legal or equitable defense which the tenant may have (24 CFR 966.53(c)(3)) V.R.C.P. 8(b) states that a party \"shall state in short and plain terms the party\'s defenses to each claim asserted.\" This rule places no restrictions on a tenant-defendant\'s right to raise any defenses the tenant may have under law. In the absence of any statutes or rules abridging a tenant\'s right to raise available defenses, a tenant-defendant in an ejectment action may present any affirmative legal or equitable defenses to which the tenant is entitled as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). E. A decision on the merits (24 CFR 966.53(c)(4)) The overall structure of the trial and hearing requirements of an ejectment action pursuant to Vt.Stat.Ann. tit. 9, 4468 imply that the Superior Court\'s decision is to be based on evidence presented which bears upon the legal and factual issues framed by the complaint and answer. V.R.C.P. 38, 39, and 41-54. V.R.C.P. 52 also expressly provides that in all actions tried upon the facts, the Superior Court must, \"upon the request of a party made as a motion within 5 days after notice of the decision\" or \"upon its own initiative, find the facts specially and state separately its conclusions of law thereon.\" There is no exception to this rule requiring that the Superior Court may be requested to find the facts specially and state its conclusions of law after notice of the decision. Finally, V.R.C.P. 54(c) requires that every final judgment, except those entered against a party as a result of default, must \"grant the relief to which the party in whose favor it is rendered is entitled.\" 6 VERMONT DUE PROCESS DETERMINATION Under Vermont law, the decision in a Superior Court ejectment action must be rendered on the merits as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). V. Conclusion. Vermont law governing Title 9 4451-4468 and Title 12 4851 et seq. ejectment proceedings in the Superior Court requires that the tenant have the opportunity for a pre-eviction hearing in court which provides the basic elements of due process as defined in 24 CFR 966.53(c) of the HUD regulations. By virtue of HUD\'s due process determination under section 6(k) of the U.S. Housing Act of l937, a PHA in Vermont may evict a public housing tenant pursuant to a Superior Court decision in a Superior Court ejectment proceeding for any criminal activity that threatens the health, safety, or right to peaceful enjoyment of the premises of other tenants or employees of the PHA or any drug related criminal activity on or near the premises. The PHA is not required to first afford the tenant the opportunity for an administrative hearing on the eviction. 7	en
all-txt-docs	334903	From: PEGOLALA@aol.com Sent: Friday, June 13, 2003 9:47 AM To: rule-comments@sec.gov Subject: File No. S7-10-03 Attn: Secretary: Dear Secretary Katz: As an investor, trustee, and principal of an investment partnership with sizeable assets under management, I would like to resond to the Securities and Exchange Commission's solicitation of views with respect to the shareholder proxy access and election of corporate directors (number S7-10-03). We are encouraged by the Commission's efforts to revitalize discussions concerning shareholders' access to the proxy ballot, and feel that a review ofexisting rules concerning the election of directors is long overdue. The significant lack of shareholder access to the corporate proxy -- and the self-perpetuating board that results -- is an enormous obstacle to preventing corporate abuse and restoring investor confidence. Corporate governance will improve only when managers and directors are held accountable by investors and can be voted out by shareowners for failure to act in their best interests. The current process is not a true election, with shareholders formally ratifying the board-nominated slate. This is one of the reasons we have experienced the shocking corporate malfeasance of recent years in this country, and that malfeasance must be stopped. I strongly recommend the following: 1) eliminate section (i)(8) of Rule 240.14a-8 concerning criteria for proosal exclusions on the proxy related to board elections. 2) Require that an investor or group of investors must own at least1% of share in the company, for a minimum of one year, in order to nominate a candidate. 3) annual election of directors. 4) cumulstive voting in the election of directors. 5) listing all nominees with equal space and a reasonable number of words to provide background information, without the current practice of separating management's list of nominees from that of investor nominees. However, board nominees should be designated as such. We investors are looking to the SEC to put meaning back in the term "board independence" and to bring fiarness and balance to director representation. I urge you to institute the above changes in the process. Sincerely, Margaret L. Keon Investor and Philanthropist Belvedere, California	en
converted_docs	489264	Food and Drug Administration Center for Drug Evaluation and Research (CDER) Arthritis Advisory Committee June 2, 2004 Questions to the Committee I. Please discuss the utility of serum uric acid as a surrogate marker for the chronic treatment of gout. - If it is an appropriate surrogate, what level of serum uric acid or amount of change in serum uric acid level would be considered adequate evidence of efficacy? - Would an analysis comparing the mean change in serum uric acid level for the treatment populations adequately reflect efficacy? - Would an analysis comparing the number of individuals in each treatment arm reaching a prespecified level or amount of change adequately reflect efficacy? - Are there advantages to choosing an analysis of either the uric acid levels at last visit or the uric acid levels over time (based on the area under the curve)? - Does the choice of a surrogate as the efficacy endpoint influence the decision of what is considered acceptable risk? II\. For a drug to be approved for the treatment of hyperuricemia associated with gout, what additional information besides uric acid levels are important to collect? - Please discuss the clinical endpoints of a reduced number of gout attacks and decreased size of tophi in trials of uric acid lowering drugs. ```{=html} <!-- --> ``` - Are there preferred methods for measuring tophi (i.e. exam or imaging)? - Is there more value in evaluating either the absolute number of gout attacks or the relative reduction in number of attacks? III\. Individuals with gout may demonstrate a broad range of uric acid levels. - Please discuss the range of uric acid levels that would reflect meaningful inclusion or exclusion criteria. - Are there any advantages to recruiting patients with uric acid in a specified range such as 8-12 mg/dL (representing similar total body load of uric acid)? - Please discuss whether there a rationale for studying individuals with values of uric acid over 12 mg/dL. - Is there value in stratifying patients by uric acid level? IV\. Patients with gout may have renal insufficiency. - Discuss the value of including or excluding such patients in clinical trials. - If they are to be included, what range of serum creatinine levels would be important to consider for inclusion? Food and Drug Administration Center for Drug Evaluation and Research (CDER) Arthritis Advisory Committee June 2, 2004 Questions to the Committee (cont.) V. Uric acid lowering drugs such as allopurinol are sometimes used at doses higher than those labeled. - Discuss the utility of studying multiples (such as 2x the highest dose) of the proposed maximum efficacious dose of a new drug. VI\. Please discuss what could be considered an optimal duration for these trials. VII\. Please discuss the implications of placebo vs. active controls and superiority vs. non-inferiority designs for clinical trials of uric acid lowering drugs. - Is there sufficient data available in the literature to establish a generally accepted response rate for allopurinol that could be used for calculating a non-inferiority margin? VIII\. Please discuss the implications of concomitant therapies. - Can concomitant drugs such as colchicine or NSAIDs be continued during clinical trials for chronic gout? - Please discuss the implications of permitting or prohibiting the use of concomitant diuretics or low dose ASA. - Is there value in recommending or prohibiting a particular diet? - Is it appropriate to restrict alcohol use? ```{=html} <!-- --> ``` - Please discuss issues concerning the enrollment of patients with kidney stones. - Please discuss inclusion of heart/renal transplant patients, especially those on drugs such as cyclosporine?	en
all-txt-docs	272649	Pages 1--17 from Microsoft Word - 35131 Federal Communications Commission FCC 04- 16 1 1 Before the Federal Communications Commission Washington, D. C. 20554 In the Matter of YOUNG BROADCASTING OF SAN FRANCISCO, INC. Licensee, Station KRON- TV San Francisco, California ) ) ) ) ) ) ) ) ) File No. EB- 02- IH- 0786 NAL/ Acct. No. 200432080010 FRN 0004675815 Facility ID No. 65526 NOTICE OF APPARENT LIABILITY FOR FORFEITURE Adopted: January 23, 2004 Released: January 27, 2004 By the Commission: Chairman Powell, and Commissioners Copps, Martin, and Adelstein issuing separate statements. I. INTRODUCTION 1. In this Notice of Apparent Liability For Forfeiture ( NAL), issued pursuant to section 503( b) of the Communications Act of 1934, as amended (the Act) and section 1.80 of the Commissions rules, 1 we find that Young Broadcasting of San Francisco, Inc. ( Young), licensee of Station KRON- TV, San Francisco, California, aired program material during the KRON 4 Morning News show on October 4, 2002, that apparently violates the federal restrictions regarding the broadcast of indecent material. 2 Based upon our review of the facts and circumstances of this case, we conclude that Young is apparently liable for a monetary forfeiture in the amount of Twenty- Seven Thousand Five Hundred Dollars ($ 27,500.00), the statutory maximum in this context, for broadcasting indecent material in apparent violation of 18 U. S. C. 1464 and section 73.3999 of the Commissions rules. II. BACKGROUND 2. The Enforcement Bureau ( Bureau) received a complaint alleging that Station KRON-TV aired indecent material during the KRON 4 Morning News show on October 4, 2002, at approximately 8: 25 a. m. 3 Specifically, the complainant stated that the shows hosts interviewed performers with the stage production of Puppetry of the Penis, who appeared in capes but were otherwise naked beneath the capes. 4 The complainant further alleged that, during the course of the 1 47 U. S. C. 503( b); 47 C. F. R. 1.80. 2 See 18 U. S. C. 1464; 47 C. F. R. 73. 3999; and 47 U. S. C. 503( b). 3 Letter from Pamela T. Ferguson to the Federal Communications Commission, Enforcement Bureau, Investigations and Hearings Division, dated October 7, 2002. 4 Id. We note that the complainant incorrectly identified the stage production as The Penis Puppeteers. 1 Federal Communications Commission FCC 04- 16 2 2 interview, one of the performers exposed his penis while preparing to demonstrate genital origami. 5 3. On May 27, 2003, the Bureau sent a letter of inquiry to Young concerning the material aired over KRON- TV on October 4, 2002, and included a copy of the complaint. 6 Young responded to the Bureaus letter of inquiry on July 3, 2003, and provided a videotape of the KRON 4 Morning News show aired between 7: 00 and 9: 00 a. m. on October 4, 2002. 7 During a segment of the broadcast in question, the shows hosts interviewed two male performers who tour with the stage production Puppetry of the Penis. 8 The performers appeared on camera wearing capes and discussed their stage show, in which they appear nude in order to manipulate and stretch their genitalia to simulate a wide variety of installations, including objects, architecture, and people. 9 During the course of the interview, one of the performers asked whether they could demonstrate, by stating should we show you a couple of quick ones? 10 One of the shows two hosts agreed, if the demonstration was done quickly. 11 As the performers stood and apparently turned away from the camera to demonstrate their act to the shows hosts, the penis of one was fully exposed on- camera. 12 4. Young maintains that the complained- of material, in context, does not meet the Commissions indecency definition, and that no further action is warranted. Young acknowledges that the performers penis was exposed, but argues that this very brief exposure was accidental and unintentional, 13 and that the complained- of material was part of the bona fide news coverage of the Puppetry of the Penis. 14 Young also points out that, prior to the time that the segment at issue aired, the shows hosts repeatedly referenced the subject matter of the interview segment and suggested that parents might want to prevent their children from viewing the interview. 15 In addition, Young notes that, immediately following the broadcast of the complained- of material, the shows hosts twice apologized on 5 Id. 6 Letter from the Chief, Investigations and Hearings Division, Enforcement Bureau, to Young Broadcasting of San Francisco, Inc., dated May 27, 2003. 7 See Letter from Mark J. Prak, Esquire, and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., counsel to Young Broadcasting of San Francisco, Inc., to the Investigations and Hearings Division, Enforcement Bureau, dated July 3, 2003 ( Young Response) at 1. In addition, the Bureaus supplemental letter of inquiry, issued July 29, 2003, asked Young to provide information and documentation concerning whether all or any portion of the complained- of material was broadcast over any other commonly- owned station. Letter from the Deputy Chief, Investigations and Hearings Division, Enforcement Bureau, to Young Broadcasting of San Francisco, Inc., dated July 29, 2003. By letter dated August 4, 2003, Young responded that it did not broadcast all or any portion of the complained- of material over any station licensed to it other than Station KRON- TV. See Letter from Mark J. Prak, Esquire, and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., counsel to Young Broadcasting of San Francisco, Inc., to the Investigations and Hearings Division, Enforcement Bureau, dated August 4, 2003 ( Young Supplemental Response) at 1. 8 Young Response at Exhibits C, D, E and F. 9 Young Response at and Exhibits D, E, and F. Specifically, the performers use their genitalia to create, among other things, likenesses of the Eiffel Tower, a hamburger, a baby kangaroo, a boomerang, public figures and movie characters. 10 Id. at Exhibit C, 8: 22 a. m. 11 Id. at 2 and Exhibit C, 8: 22 a. m. 12 Id. at Attachment 2 and Exhibit C, 8: 22 a. m. 13 Id. at 1, 5, 6, 8. 14 Id. at 4. 15 Id. at 3. 2 Federal Communications Commission FCC 04- 16 3 3 the air and, on the day of the broadcast, the station issued a press release apologizing for the incident. 16 Moreover, Young states that it took disciplinary action following the broadcast by suspending station personnel involved. 17 III. DISCUSSION 5. The Federal Communications Commission is authorized to license radio and television broadcast stations and is responsible for enforcing the Commissions rules and applicable statutory provisions concerning the operation of those stations. The Commissions role in overseeing program content is very limited. The First Amendment to the United States Constitution and section 326 of the Act prohibit the Commission from censoring program material and from interfering with broadcasters freedom of expression. 18 The Commission does, however, have the authority to enforce statutory and regulatory provisions restricting indecency and obscenity. Specifically, it is a violation of federal law to broadcast obscene or indecent programming. Title 18 of the United States Code, Section 1464 prohibits the utterance of any obscene, indecent or profane language by means of radio communication. 19 In addition, section 73.3999 of the Commissions rules provides that radio and television stations shall not broadcast obscene material at any time, and shall not broadcast indecent material during the period 6 a. m. through 10 p. m. 6. Under section 503( b)( 1) of the Act, any person who is determined by the Commission to have willfully or repeatedly failed to comply with any provision of the Act or any rule, regulation, or order issued by the Commission shall be liable to the United States for a forfeiture penalty. 20 In order to impose such a forfeiture penalty, the Commission must issue a notice of apparent liability, the notice must be received, and the person against whom the notice has been issued must have an opportunity to show, in writing, why no such forfeiture penalty should be imposed. 21 The Commission will then issue a forfeiture if it finds by a preponderance of the evidence that the person has violated the Act or a Commission rule. 22 As set forth in greater detail below, we conclude under this standard that Young is apparently liable for a forfeiture for its apparent willful violation of 18 U. S. C. 1464 and section 73.3999 of the Commissions rules. 16 Id. at 1, Attachment 1 and Exhibit I. 17 Young Response at 12, Exhibit H. 18 See 47 U. S. C. 326. 19 18 U. S. C. 1464. 20 47 U. S. C. 503( b)( 1)( B); 47 C. F. R. 1.80( a)( 1); see also 47 U. S. C. 503( b)( 1)( D) (forfeitures for violation of 18 U. S. C. 1464). Section 312( f)( 1) of the Act defines willful as the conscious and deliberate commission or omission of [any] act, irrespective of any intent to violate the law. 47 U. S. C. 312( f)( 1). The legislative history to section 312( f)( 1) of the Act clarifies that this definition of willful applies to both sections 312 and 503( b) of the Act, H. R. Rep. No. 97- 765, 97 th Cong. 2d Sess. 51 (1982), and the Commission has so interpreted the term in the section 503( b) context. See, e. g., Application for Review of Southern California Broadcasting Co., Memorandum Opinion and Order, 6 FCC Rcd 4387, 4388 (1991) ( Southern California Broadcasting Co.). The Commission may also assess a forfeiture for violations that are merely repeated, and not willful. See, e. g., Callais Cablevision, Inc., Grand Isle, Louisiana, Notice of Apparent Liability for Monetary Forfeiture, 16 FCC Rcd 1359 (2001) (issuing a Notice of Apparent Liability for, inter alia, a cable television operators repeated signal leakage). Repeated merely means that the act was committed or omitted more than once, or lasts more than one day. Southern California Broadcasting Co., 6 FCC Rcd at 4388, 5; Callais Cablevision, Inc., 16 FCC Rcd at 1362, 9. 21 47 U. S. C. 503( b); 47 C. F. R. 1.80( f). 22 See, e. g., SBC Communications, Inc., Apparent Liability for Forfeiture, Forfeiture Order, 17 FCC Rcd 7589, 7591 4 (2002)( forfeiture paid). 3 Federal Communications Commission FCC 04- 16 4 4 A. Indecency Analysis 7. Any consideration of government action against allegedly indecent programming must take into account the fact that such speech is protected under the First Amendment. 23 The federal courts consistently have upheld Congresss authority to regulate the broadcast of indecent material, as well the Commissions interpretation and implementation of the governing statute. 24 Nevertheless, the First Amendment is a critical constitutional limitation that demands that, in indecency determinations, we proceed cautiously and with appropriate restraint. 25 8. The Commission defines indecent speech as language that, in context, depicts or describes sexual or excretory activities or organs in terms patently offensive as measured by contemporary community standards for the broadcast medium. 26 Indecency findings involve at least two fundamental determinations. First, the material alleged to be indecent must fall within the subject matter scope of our indecency definition that is, the material must describe or depict sexual or excretory organs or activities. . . . Second, the broadcast must be patently offensive as measured by contemporary community standards for the broadcast medium. 27 9. As an initial matter, Young does not dispute that Station KRON- TV aired adult male frontal nudity. 28 Because the broadcast material depicted a sexual organ, it therefore warrants further scrutiny to determine whether or not it was patently offensive as measured by contemporary community standards for the broadcast medium. 29 10. In our assessment of whether broadcast material is patently offensive, the full context in which the material appeared is critically important. 30 Three principal factors are significant to this 23 U. S. CONST., amend. I; See Action for Childrens Television v. FCC, 852 F. 2d 1332, 1344 (D. C. Cir. 1988) ( ACT I). 24 Title 18 of the United States Code, Section 1464 (18 U. S. C. 1464), prohibits the utterance of any obscene, indecent or profane language by means of radio communication. FCC v. Pacifica Foundation, 438 U. S. 726 (1978). See also ACT I, 852 F. 2d at 1339; Action for Childrens Television v. FCC, 932 F. 2d 1504, 1508 (D. C. Cir. 1991), cert. denied, 503 U. S. 914 (1992) ( ACT II); Action for Childrens Television v. FCC, 58 F. 3d 654 (D. C. Cir. 1995), cert. denied, 516 U. S. 1043 (1996) ( ACT III). 25 ACT I, 852 F. 2d at 1344 ( Broadcast material that is indecent but not obscene is protected by the First Amendment; the FCC may regulate such material only with due respect for the high value our Constitution places on freedom and choice in what people may say and hear.). See also id. at 1340 n. 14 ( the potentially chilling effect of the FCCs generic definition of indecency will be tempered by the Commissions restrained enforcement policy.). 26 Infinity Broadcasting Corporation of Pennsylvania, 2 FCC Rcd 2705 (1987)( subsequent history omitted)( citing Pacifica Foundation, 56 FCC 2d 94, 98 (1975), affd sub nom. FCC v. Pacifica Foundation, 438 U. S. 726 (1978)). 27 Industry Guidance on the Commissions Case Law Interpreting 18 U. S. C. 1464 and Enforcement Policies Regarding Broadcast Indecency ( Indecency Policy Statement), 16 FCC Rcd 7999, 8002, 7- 8 (2001) (emphasis in original). 28 Young Response at 6. 29 The contemporary standards for the broadcast medium criterion is that of an average broadcast listener and with respect to Commission decisions, does not encompass any particular geographic area. See Indecency Policy Statement, at 8002, 8 and n. 15. 30 Id at 8002, 9 (emphasis in original). 4 Federal Communications Commission FCC 04- 16 5 5 contextual analysis: (1) the explicitness or graphic nature of the description; (2) whether the material dwells on or repeats at length descriptions of sexual or excretory organs or activities; and (3) whether the material appears to pander or is used to titillate or shock. 31 In examining these three factors, we must weigh and balance them to determine whether the broadcast material is patently offensive because [ e] ach indecency case presents its own particular mix of these, and possibly, other factors. 32 In particular cases, one or two of the factors may outweigh the others, either rendering the broadcast material patently offensive and consequently indecent, 33 or, alternatively, removing the broadcast material from the realm of indecency. 34 In this case, we examine all three factors and determine that, in context and on balance, the complained- of material is patently offensive as measured by contemporary community standards for the broadcast medium. We note that, in particular, the stations presentation of full frontal nudity in a manner that was pandering, titillating and shocking weighs heavily in this determination. 11. First, Young admits that there was an actual depiction of the male genitalia. However, Young argues that because the exposure of the performers penis was accidental and the duration of the exposure was very limited, the material is not graphic or explicit. We disagree, finding that assertions that the exposure was fleeting and unintentional are more appropriate to the analysis under the second and third factors, as discussed below. We find that in the context presented here, the depiction of adult male frontal nudity was graphic and explicit. 12. Second, although the actual exposure of the performers penis was fleeting in that it occurred for less than a second, the manner in which the station presented this material establishes, under the third factor, that, in its overall context, the material was apparently intended to pander to, titillate and shock viewers. Thus, we reject Youngs assertion that this material is equivalent to other instances in which the Commission has ruled that fleeting remarks in live, unscripted broadcasts do not meet the indecency definition. 35 13. The record here demonstrates that the station failed to take adequate precautions to ensure that no actionably indecent material was broadcast despite its awareness that the interview 31 Indecency Policy Statement at 8002- 15, 8- 23. 32 Id. at 8003, 10. 33 Id. at 8009, 19 (citing Tempe Radio, Inc (KUPD- FM), 12 FCC Rcd 21828 (MMB 1997) (forfeiture paid) (extremely graphic or explicit nature of references to sex with children outweighed the fleeting nature of the references); EZ New Orleans, Inc. (WEZB( FM)), 12 FCC Rcd 4147 (MMB 1997) (forfeiture paid) (same)). 34 Indecency Policy Statement, at 8010, 20 ( the manner and purpose of a presentation may well preclude an indecency determination even though other factors, such as explicitness, might weigh in favor of an indecency finding). 35 Young cites Flambo Broadcasting, Inc. (KFMH- FM), Notice of Apparent Liability for Monetary Forfeiture, 9 FCC Rcd 1681 (MMB 1994). However, in that case, no action was taken with regard to a radio stations broadcast of sexual material in a crude joke, because there was a conflict as to what was actually broadcast, and no tape or other evidence to establish the language broadcast and when the licensee cut off the outside callers rendition of the joke. Nevertheless, assuming that the joke was cut off immediately, the staff of the then- Mass Media Bureau found that it would not have been actionably indecent because it was brief, live, unscripted and from an outside source. Young also cites L. M. Communications of South Carolina, Inc. (WYBB( FM)), Notice of Apparent Liability for Monetary Forfeiture, 7 FCC Rcd 1595 (MMB 1992), in which a fleeting and an isolated utterance, within the context of a live and spontaneous broadcast, was found not actionably indecent. See also Indecency Policy Statement, 16 FCC Rcd at 8009, 18, setting forth the utterance broadcast in L. M. Communications: The hell I did, I drove the mother- fucker, oh. Oh. In addition, Young cites a contested license renewal in which a news announcers utterance, Ooops, fucked that one up, was found not to warrant further action in light of the isolated and accidental nature of the broadcast. Lincoln Dellar (KPRL( AM) and KDDB( FM)), 8 FCC Rcd 2582, 2585 26 (MMB 1993). These cases are distinguishable because there was no finding that the material, in context, was pandering, titillating or intended to shock the audience. 5 Federal Communications Commission FCC 04- 16 6 6 involved performers who appear nude in order to manipulate and stretch their genitalia. 36 Under these circumstances, the airing of indecent material during the interview was clearly foreseeable. 37 Here, we find inherently not credible Youngs assertion that certain station personnel were unaware that the performers were nude beneath the capes worn on- camera. 38 At the beginning of the segment, one of the shows hosts explains that the Puppetry of the Penis begins [] with two naked performers in capes with us this morning []. 39 The performers later acknowledged, when asked by the shows hosts, that they perform wearing nothing more than capes, which are discarded after four minutes, shoes and socks, and that one of them also wears a hat. 40 Moreover, the segment, as broadcast, includes comments of station personnel who are off the set, and who urge the performers to demonstrate by stating, lets see it. 41 One of the shows hosts responds to the comment, stating, Jan and Janelle, theyre tired of the talking[]. 42 The segment also includes camera shots of these women off the set as they observe the performers manipulation of their genitalia. 43 In addition, following the actual exposure of the performers penis and the off- set shots, the shows cameras were directed only to the performers upper bodies as they continued to demonstrate a portion of their act, displaying their penises off- camera. 44 This indicates that the station purposefully set up its cameras to attempt to avoid full frontal body shots, even though this effort ultimately was unsuccessful. 14. Young nevertheless argues that the complained- of material was not aired to pander to or titillate the audience, nor was it broadcast for its shock value. 45 Young thus maintains that the material at issue here was not patently offensive for the same reasons that the Commission ruled that frontal adult nudity depicted in a broadcast of the film Schindlers List was not patently offensive. 46 We disagree. In that decision, the Commission held that the staff of the then- Mass Media Bureau had properly concluded that a broadcast of this film was not patently offensive as measured by contemporary community standards for the broadcast medium, based upon the full context of its presentation, including the subject matter of the film, the manner of presentation, and the warnings that accompanied the broadcast of the film. The staff determined, and the Commission agreed, that in the particular broadcast of the film at issue, the depiction of adult frontal nudity was incidental to the broadcast materials rendering of a historical view of World War II and wartime atrocities, which, viewed in context, was not presented in a 36 Id. at Attachment 2, 4 (Declaration of KRON- TVs then- Executive Producer stating that she gave great consideration to the wisdom of such an interview.). 37 CBS Radio License, Inc. (WLLD( FM)), Notice of Apparent Liability for Monetary Forfeiture, 15 FCC Rcd 23881, 23883, 8 (EB 2000)( given licensees awareness of the actual language used in performers recordings, it should have taken precautions to avoid airing material meeting the indecency definition during a live, unscripted broadcast), Apparent Liability for Forfeiture, Forfeiture Order, 16 FCC Rcd 4825 (EB 2001), Memorandum Opinion and Order denying reconsideration of Forfeiture Order, 17 FCC Rcd 18339 (EB 2002)( application for review pending); Regent Licensee of Flagstaff, Inc., (KZGL( FM)), Notice of Apparent Liability for Monetary Forfeiture, 15 FCC Rcd 17286, 17288, 9 (EB 2000)( forfeiture paid). 38 Young Response at 2 and Attachment 2, 6. 39 Id. at Exhibit C, 8: 17 a. m. 40 Id. at Exhibit C, 8: 19 a. m. 41 Id. at Exhibit C, 8: 21 a. m. 42 Id. at Exhibit C, 8: 22 a. m. 43 Id. 44 Id. 45 Id. at 10. 46 Id. at 10- 11, citing WPBN/ WTOM License Subsidiary, Inc. (WPBN- TV and WTOM- TV), 15 FCC Rcd 1838 (2000). 6 Federal Communications Commission FCC 04- 16 7 7 pandering, titillating or vulgar manner. 47 By contrast, the manner of presentation of the complained- of material over Station KRON- TV, for which the licensee failed to take adequate precautions, was pandering, titillating and shocking, as discussed above. We note, in particular, the off- camera employees comments urging the performers to conduct a nude demonstration, and the partially off- camera demonstration to the shows hosts. 48 Considering the overall context of the segment, the presence of warnings issued by the station is not a sufficient basis on which to conclude that the complained- of material is not patently offensive. 49 Nor do we find that Youngs apologies to Station KRON- TV viewers and the disciplinary actions taken against certain station employees following the broadcast mitigate its liability for violation of the statute and the Commissions rules. 50 We find that the weight of the pandering, titillating and shocking manner of presentation, coupled with the graphic and explicit nature of the adult male frontal nudity, renders this broadcast indecent under the statute. 15. It is undisputed that the complained- of material was broadcast within the 6 a. m. to 10 p. m. time frame relevant to an indecency determination under section 73.3999 of the Commissions rules. Thus, because there was a reasonable risk that children may have been in the audience at the time that the material at issue was broadcast on October 4, 2002, the broadcast is legally actionable. 51 By airing this material, Young apparently violated the prohibitions in 18 U. S. C. 1464 and section 73.3999 of the Commissions rules, the rule against broadcast indecency. B. Proposed Forfeiture 16. Based upon our review of the record in this case, we conclude that Young is apparently liable for the willful violation of our rules. The Commissions Forfeiture Policy Statement sets a base forfeiture amount of $7,000 for transmission of indecent or obscene materials. 52 The Forfeiture Policy Statement also specifies that the Commission shall adjust a forfeiture based upon consideration of the factors enumerated in section 503( b)( 2)( D) of the Act, 47 U. S. C. 503( b)( 2)( D), such as the nature, circumstances, extent and gravity of the violation, and, with respect to the violator, the degree of culpability, any history of prior offenses, ability to pay, and such other matters as justice may require. 53 In this case, taking all of these factors into consideration, we find that Young is apparently liable for a forfeiture of $27,500.00, which is the statutory maximum. Based upon our review of the entire record, we 47 WPBN/ WTOM License Subsidiary, Inc., 15 FCC Rcd at 1839- 40, 3,13. 48 See 13, supra. 49 See, e. g., Emmis Radio License Corporation (WKQX( FM)), Notice of Apparent Liability for Monetary Forfeiture, 17 FCC Rcd 5263, 5267 13 (EB 2002), Apparent Liability for Forfeiture, Forfeiture Order, 17 FCC Rcd 21697 (EB 2002)( petition for reconsideration of Forfeiture Order pending); Citicasters Co. (KEGL( FM)), Notice of Apparent Liability for Monetary Forfeiture, 16 FCC Rcd 7546, 7547, 6 (EB 2001) (forfeiture paid) (licensees warnings to listeners that program may contain material more suitable for adults has no bearing on whether a forfeiture should be imposed for material that is actionably indecent). 50 See, e. g., AT& T Wireless Services, Inc., 17 FCC Rcd 21866, 21871 (2002) (remedial actions not a basis for mitigation); Eure Family Limited Partnership, 17 FCC Rcd 21861 (2002) (licensee responsible for actions of its employees). 51 See ACT III, 58 F. 3d at 660- 63. 52 The Commissions Forfeiture Policy Statement and Amendment of Section 1.80 of the Rules to Incorporate the Forfeiture Guidelines, 12 FCC Rcd 17087, 17113 (1997), recon. denied 15 FCC Rcd 303 (1999) ( Forfeiture Policy Statement); 47 C. F. R. 1. 80( b). The Commission recently amended its rules to increase the maximum penalties to account for inflation since the last adjustment of the penalty rates. The new rates apply to violations that occur or continue after November 13, 2000. See Order, In the Matter of Amendment of Section 1.80( b) of the Commissions Rules and Adjustment of Forfeiture Maxima to Reflect Inflation, 15 FCC Rcd 18221 (2000). 53 Forfeiture Policy Statement, 12 FCC Rcd at 1710- 01, 27. 7 Federal Communications Commission FCC 04- 16 8 8 believe that this upward adjustment is warranted. The broadcast was extremely graphic and titillating. Given the fact that the licensee broadcast material involving performers who appear nude in order to manipulate their genitalia, and who were in fact nude during the interview except for easily removed capes, the licensee failed to take adequate precautions to prevent the broadcast of indecent material. Consequently, the egregious nature of the violation and the degree of culpability justify an increase to the maximum statutory amount. IV. ORDERING CLAUSES 17. ACCORDINGLY, IT IS ORDERED, pursuant to section 503( b) of the Communications Act of 1934, as amended, and section 1.80 of the Commissions rules, 54 that Young Broadcasting of San Francisco, Inc. is hereby NOTIFIED of its APPARENT LIABILITY FOR FORFEITURE in the amount of Twenty- Seven Thousand Five Hundred Dollars ($ 27,500.00) for willfully violating 18 U. S. C. 1464 and section 73. 3999 of the Commissions rules. 18. IT IS FURTHER ORDERED, pursuant to section 1.80 of the Commissions rules, that within thirty (30) days of the release of this Notice, Young SHALL PAY the full amount of the proposed forfeiture or SHALL FILE a written statement seeking reduction or cancellation of the proposed forfeiture. 19. Payment of the forfeiture may be made by mailing a check or similar instrument, payable to the order of the Federal Communications Commission, to the Forfeiture Collection Section, Finance Branch, Federal Communications Commission, P. O. Box 73482, Chicago, Illinois 60673- 7482. The payment MUST INCLUDE the FCC Registration Number ( FRN)( 0004675815) and also should note the NAL/ Account Number (200432080010). 20. The response, if any, must be mailed to William H. Davenport, Chief, Investigations and Hearings Division, Enforcement Bureau, Federal Communications Commission, 445 12 th Street, S. W, Room 3- B443, Washington D. C. 20554 and MUST INCLUDE the NAL/ Acct. No. referenced above. 21. The Commission will not consider reducing or canceling a forfeiture in response to a claim of inability to pay unless the respondent submits: (1) federal tax returns for the most recent three-year period; (2) financial statements prepared according to generally accepted accounting practices ( GAAP); or (3) some other reliable and objective documentation that accurately reflects the respondents current financial status. Any claim of inability to pay must specifically identify the basis for the claim by reference to the financial documentation submitted. 22. Requests for payment of the full amount of this Notice of Apparent Liability under an installment plan should be sent to: Chief, Revenue and Receivables Operations Group, 445 12th Street, S. W., Washington, D. C. 20554. 55 23. Under the Small Business Paperwork Relief Act of 2002, Pub L. No. 107- 198, 116 Stat. 729 (June 28, 2002), the FCC is engaged in a two- year tracking process regarding the size of entities involved in forfeitures. If Young qualifies as a small entity and if it wishes to be treated as a small entity for tracking purposes, it should so certify to us within thirty (30) days of this NAL, either in its response to the NAL or in a separate filing to be sent to the Investigations and Hearings Division. The certification should indicate whether Young, including its parent entity and its subsidiaries, meet one of the definitions set forth in the list provided by the FCCs Office of Communications Business Opportunities ( OCBO) 54 47 C. F. R. 1.80. 55 See 47 C. F. R. 1.1914. 8 Federal Communications Commission FCC 04- 16 9 9 set forth in Attachment A of this Notice of Apparent Liability. This information will be used for tracking purposes only. Youngs response or failure to respond to this question will have no effect on its rights and responsibilities pursuant to Section 503( b) of the Communications Act. If Young has questions regarding any of the information contained in Attachment A, it should contact OCBO at (202) 418- 0990. 24. Accordingly, IT IS ORDERED, that the complaint filed against Station KRON- TVs broadcast on October 4, 2002, IS GRANTED to the extent indicated herein, AND IS OTHERWISE DENIED, and the complaint proceeding IS HEREBY TERMINATED. 56 25. IT IS FURTHER ORDERED, that a copy of this Notice of Apparent Liability For Forfeiture shall be sent by Certified Mail Return Receipt Requested to Paul Dinovitz, President and General Manager, Young Broadcasting of San Francisco, Inc., 1001 Van Ness Avenue, San Francisco, California 94109 and to Youngs counsel, Mark J. Prak, Esquire and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., Wachovia Capitol Center, Suite 1600 (27601), Post Office Box 1800, Raleigh, North Carolina 27602, and to Pamela T. Ferguson. FEDERAL COMMUNICATIONS COMMISSION Marlene H. Dortch Secretary 56 Consistent with section 503( b) of the Act and consistent Commission practice, for the purposes of the forfeiture proceeding initiated by this NAL, Young shall be the only party to this proceeding. 9 Federal Communications Commission FCC 04- 16 10 10 ATTACHMENT A FCC List of Small Entities As described below, a small entity may be a small organization, a small governmental jurisdiction, or a small business. (1) Small Organization Any not- for- profit enterprise that is independently owned and operated and is not dominant in its field. (2) Small Governmental Jurisdiction Governments of cities, counties, towns, townships, villages, school districts, or special districts, with a population of less than fifty thousand. (3) Small Business Any business concern that is independently owned and operated and is not dominant in its field, and meets the pertinent size criterion described below. Industry Type Description of Small Business Size Standards Cable Services or Systems Cable Systems Special Size Standard Small Cable Company has 400, 000 Subscribers Nationwide or Fewer Cable and Other Program Distribution Open Video Systems $12.5 Million in Annual Receipts or Less Common Carrier Services and Related Entities Wireline Carriers and Service providers Local Exchange Carriers, Competitive Access Providers, Interexchange Carriers, Operator Service Providers, Payphone Providers, and Resellers 1,500 Employees or Fewer 10 Federal Communications Commission FCC 04- 16 11 11 Note: With the exception of Cable Systems, all size standards are expressed in either millions of dollars or number of employees and are generally the average annual receipts or the average employment of a firm. Directions for calculating average annual receipts and average employment of a firm can be found in 13 CFR 121. 104 and 13 CFR 121. 106, respectively. International Services International Broadcast Stations International Public Fixed Radio (Public and Control Stations) Fixed Satellite Transmit/ Receive Earth Stations Fixed Satellite Very Small Aperture Terminal Systems Mobile Satellite Earth Stations Radio Determination Satellite Earth Stations Geostationary Space Stations Non- Geostationary Space Stations Direct Broadcast Satellites Home Satellite Dish Service $12.5 Million in Annual Receipts or Less Mass Media Services Television Services Low Power Television Services and Television Translator Stations TV Auxiliary, Special Broadcast and Other Program Distribution Services $12 Million in Annual Receipts or Less Radio Services Radio Auxiliary, Special Broadcast and Other Program Distribution Services $6 Million in Annual Receipts or Less Multipoint Distribution Service Auction Special Size Standard Small Business is less than $40M in annual gross revenues for three preceding years Wireless and Commercial Mobile Services Cellular Licensees 220 MHz Radio Service Phase I Licensees 1,500 Employees or Fewer 220 MHz Radio Service Phase II Licensees 700 MHZ Guard Band Licensees Private and Common Carrier Paging Auction special size standard - Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and controlling principals) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and controlling principals) Broadband Personal Communications Services (Blocks A, B, D, and E) 1,500 Employees or Fewer Broadband Personal Communications Services (Block C) Broadband Personal Communications Services (Block F) Narrowband Personal Communications Services Auction special size standard - Small Business is $40M or less in annual gross revenues for three previous calendar years Very Small Business is average gross revenues of $15M or less for the preceding three calendar years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) 11 Federal Communications Commission FCC 04- 16 12 12 Rural Radiotelephone Service Air- Ground Radiotelephone Service 1,500 Employees or Fewer 800 MHz Specialized Mobile Radio 900 MHz Specialized Mobile Radio Auction special size standard - Small Business is $15M or less average annual gross revenues for three preceding calendar years Private Land Mobile Radio 1,500 Employees or Fewer Amateur Radio Service N/ A Aviation and Marine Radio Service Fixed Microwave Services 1,500 Employees or Fewer Public Safety Radio Services Small Business is 1,500 employees or less Small Government Entities has population of less than 50,000 persons Wireless Telephony and Paging and Messaging 1,500 Employees or Fewer Personal Radio Services N/ A Offshore Radiotelephone Service 1,500 Employees or Fewer Wireless Communications Services 39 GHz Service Small Business is $40M or less average annual gross revenues for three preceding years Very Small Business is average gross revenues of $15M or less for the preceding three years Multipoint Distribution Service Auction special size standard (1996) Small Business is $40M or less average annual gross revenues for three preceding calendar years Prior to Auction Small Business has annual revenue of $12. 5M or less Multichannel Multipoint Distribution Service Instructional Television Fixed Service $12.5 Million in Annual Receipts or Less Local Multipoint Distribution Service Auction special size standard (1998) Small Business is $40M or less average annual gross revenues for three preceding years Very Small Business is average gross revenues of $15M or less for the preceding three years 218- 219 MHZ Service First Auction special size standard (1994) Small Business is an entity that, together with its affiliates, has no more than a $6M net worth and, after federal income taxes (excluding carryover losses) has no more than $2M in annual profits each year for the previous two years New Standard Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Satellite Master Antenna Television Systems $12.5 Million in Annual Receipts or Less 24 GHz Incumbent Licensees 1,500 Employees or Fewer 24 GHz Future Licensees Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) 12 Federal Communications Commission FCC 04- 16 13 13 Miscellaneous On- Line Information Services $18 Million in Annual Receipts or Less Radio and Television Broadcasting and Wireless Communications Equipment Manufacturers Audio and Video Equipment Manufacturers 750 Employees or Fewer Telephone Apparatus Manufacturers (Except Cellular) 1,000 Employees or Fewer Medical Implant Device Manufacturers 500 Employees or Fewer Hospitals $29 Million in Annual Receipts or Less Nursing Homes $11.5 Million in Annual Receipts or Less Hotels and Motels $6 Million in Annual Receipts or Less Tower Owners (See Lessees Type of Business) 13 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF CHAIRMAN MICHAEL K. POWELL Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture Today, we open another front in our increased efforts to curb indecency on our nations airwaves by focusing on indecency on television. I believe it is irresponsible of our countrys programmers and broadcasters to continue to try and push the envelope in the face of Commission policies aimed at balancing the needs to protect our children with the interests of the First Amendment. Where, as here, we believe that a broadcast crosses that line, we will continue to enforce our indecency rules with vigor. 14 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture ( NAL) I am pleased that this Commission is finally taking an initial step against indecency on television. That being said, I am disappointed that this complaint was filed over 15 months ago and we are just now addressing it. When we allow complaints to languish for over a year, the message is loud and clear that the FCC is not serious about enforcing our nations laws. Meanwhile, numerous other complaints about indecency on television remain unaddressed. I hope we will take up those complaints expeditiously. The time has come for this Commission to take a firm stand against the race to the bottom on the publics airwaves. 15 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER KEVIN J. MARTIN Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture I support the strong action the Commission is taking today to enforce our indecency regulations. While hard to believe, this appears to be only the second time the Commission has ever found a television broadcast to be indecent. I hope that this step today represents the beginning of a commitment to consider each indecency complaint seriously, and to recognize that indecency on our airwaves is not limited to the radio. 16 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER JONATHAN S. ADELSTEIN Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture I strongly support the action we take today to combat indecency on broadcast television. The Commission has a duty to enforce statutory and regulatory provisions restricting broadcast indecency. The material broadcast in this case clearly warrants the statutory maximum $27,500 fine. I hope that todays action will continue to remind broadcasters of their responsibility to serve the public interest and protect children from indecency on the airwaves. Todays action continues a series of measures indicating that the Commission is stepping up its enforcement against indecency on the airwaves. 17	en
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23, 275, 24, 275 9927117565479/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927117565584&vcnw2/vc01=102.99,2.000 9927117565584&vcnw2/vc02=142.99,2.000 9927117565584&vcnw2/vc03=342.99,2.000 9927117565584&vcnw2/vc04=482.99,2.000 9927117565584&vcnw2/vc05=102.89,2.000 9927117565584&vcnw2/vc06=202.89,2.000 9927117565584&vcnw2/vc07=262.89,2.000 9927117565584&vcnw2/vc08=282.89,2.000 9927117565584&vcnw2/vc09=192.99,2.000 9927117565584&vcnw2/vc10=202.99,2.000 9927117565584&vcnw2/vc11=237.99,2.000 9927117565584&vcnw2/vc12=277.99,2.000 9927117565584&vcnw2/vc13=297.99,2.000 9927117565584&vcnw2/vc14=302.99,2.000 9927117565585&vcnw2/!+1s 9927117565585&vcnw2/valarm 9927117565738&valarm/vc01=alarm 9927117565738&valarm/vc02=alarm 9927117565738&valarm/vc03=alarm 9927117565738&valarm/vc04=alarm 9927117565739&valarm/vc05=alarm 9927117565739&valarm/vc06=alarm 9927117565739&valarm/vc07=alarm 9927117565739&valarm/vc08=alarm 9927117565739&valarm/vc09=alarm 9927117565739&valarm/vc10=alarm 9927117565739&valarm/vc11=alarm 9927117565739&valarm/vc12=alarm 9927117565739&valarm/vc13=alarm 9927117565739&valarm/vc14=alarm 9927117565747/vc01/nak,ack 9927117565769/vc03/nak,ack 9927117565773/vc04/nak,ack 9927117565778/vc05/nak,ack 9927117565782/vc06/nak,ack 9927117565786/vc07/nak,ack 9927117565792/vc08/nak,ack 9927117565806/vc11/nak,ack 9927117565819&ifdnw/ifd=16,19,nor,nor 9927117565819&ifdnw/if3=6,in,2,2 9927117565820&ifdnw/lo=8080.00,2020.00,8580.10 9927117565820&ifdnw/patch=lo1,1l,2l,3h,4h 9927117565820&ifdnw/patch=lo2,9l,10l,11h,12h,13h,14h 9927117565820&ifdnw/patch=lo3,5h,6h,7h,8h 9927117565843:ready 9927117565845&ready/sxcts 9927117565846&ready/rxmon 9927117565846&ready/newtape 9927117565846&ready/loader 9927117565846&ready/label 9927117565846&ready/check=,tp 9927117565846&sxcts/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565846&sxcts/tpi=v9,v10,v11,v12,v13,v14,if2 9927117565846&sxcts/ifd=max,max,,* 9927117565846&sxcts/if3=max,,,,,* 9927117565846&sxcts/!+2s 9927117565847&sxcts/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tpzero=v9,v10,v11,v12,v13,v14,if2 9927117565847&sxcts/ifd=old,old,, 9927117565847&sxcts/if3=old,,,,,* 9927117565847&sxcts/calon 9927117565847&sxcts/!+2s 9927117565847&sxcts/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tpical=v9,v10,v11,v12,v13,v14,if2 9927117565847&sxcts/caloff 9927117565847&sxcts/caltemps 9927117565847&sxcts/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tsys2=v9,v10,v11,v12,v13,v14,if2 9927117565879/tpi/16755,18372,651,7459,9743,9227,9606,16079,13350,16109 9927117565900/tpi/7990,8245,727,27213,16851,4721,6031 9927117570137/tpzero/504,708,449,819,331,619,99,319,311,149 9927117570156/tpzero/629,624,620,265,377,489,780 9927117570165&calon/rx=,,,,,,on 9927117570400/tpical/18499,20718,17004,4340,23905,23784,26347,52194,14978,35430 9927117570421/tpical/9230,9733,10772,31976,21014,5597,7033 9927117570421&caloff/rx=,,,,,,off 9927117570429&caltemps/caltemp1=06.98 9927117570429&caltemps/caltemp2=15.61 9927117570429&caltemps/caltemp3=20.8 9927117570430?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927117570430/tsys1/65.0,52.6,0.1,-14.9,4.6,4.1,4.0,3.0,55.9,5.8 9927117570431/tsys2/92.7,79.9,0.2,88.3,61.8,75.4,81.8 9927117570431&rxmon/rx=lo,,,,,, 9927117570431&rxmon/rx 9927117570431&rxmon/rx=dcal,,,,,, 9927117570431&rxmon/rx 9927117570431&rxmon/rx=lo5mhz,,,,,, 9927117570431&rxmon/rx 9927117570431&rxmon/rx=pres,,,,,, 9927117570431&rxmon/rx 9927117570431&rxmon/rx=20k,,,,,, 9927117570431&rxmon/rx 9927117570432&rxmon/rx=70k,,,,,, 9927117570432&rxmon/rx 9927117570443/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927117570453/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927117570463/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927117570473/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927117570483/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927117570492/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927117570492/newtape/"to continue, use label command" 9927117575735;label=atnf0027,7f07 9927117575737&loader/st=for,135,off 9927117575737&loader/!+11s 9927117575737&loader/et 9927117575737&loader/!+3s 9927117581163/label/ATNF0027,7F07 9927117581163:!271175950 9927117581574#trakl#SOURCE_ACQUIRED 9927117583987;nw2c1=1 9927117584040/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927117584158/vc04/nak,alarmv4(#04) 9927117584167/vc07/nak,alarmv7(#07) 9927117584171/vc08/nak,alarmv8(#08) 9927117584180/vc11/nak,alarmvb(#0b) 9927117584307/vc04/nak,ack 9927117584321/vc07/nak,ack 9927117584327/vc08/nak,ack 9927117584340/vc11/nak,ack 9927117584926;wx 9927117584930/wx/21.0,990.7,90.3,8.0 9927117590533;rxall 9927117590533&rxall/rx=00,,,,,, 9927117590533&rxall/rx 9927117590533&rxall/rx=01,,,,,, 9927117590533&rxall/rx 9927117590533&rxall/rx=02,,,,,, 9927117590533&rxall/rx 9927117590533&rxall/rx=03,,,,,, 9927117590533&rxall/rx 9927117590533&rxall/rx=04,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=05,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=06,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=07,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=08,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=09,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=0a,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=0b,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=0c,,,,,, 9927117590534&rxall/rx 9927117590534&rxall/rx=0d,,,,,, 9927117590534&rxall/rx 9927117590535&rxall/rx=0e,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=0f,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=10,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=11,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=12,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=13,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=14,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=15,,,,,, 9927117590535&rxall/rx 9927117590535&rxall/rx=16,,,,,, 9927117590535&rxall/rx 9927117590536&rxall/rx=17,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=18,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=19,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1a,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1b,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1c,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1d,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1e,,,,,, 9927117590536&rxall/rx 9927117590536&rxall/rx=1f,,,,,, 9927117590536&rxall/rx 9927117590552/rx/00(front),on,a,on,on,on,off,locked,33.88 9927117590563/rx/01(rear),on,a,on,on,on,off,locked,34.12 9927117590574/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927117590584/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927117590594/rx/04(inlet),on,a,on,on,on,off,locked,31.44 9927117590604/rx/05(ret),on,a,on,on,on,off,locked,31.68 9927117590614/rx/06(lo-lok),on,a,on,on,on,off,locked,8.226 9927117590624/rx/07(-2.73v),on,a,on,on,on,off,locked,-2.707 9927117590634/rx/08(s1-if),on,a,on,on,on,off,locked,0.258 9927117590644/rx/09(x-if),on,a,on,on,on,off,locked,0.158 9927117590654/rx/0A(s2-if),on,a,on,on,on,off,locked,0.412 9927117590665/rx/0B(s1-lo),on,a,on,on,on,off,locked,0.860 9927117590675/rx/0C(+12v),on,a,on,on,on,off,locked,12.51 9927117590686/rx/0D(s2-lo),on,a,on,on,on,off,locked,0.665 9927117590696/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927117590705/rx/0F(+15vp2),on,a,on,on,on,off,locked,15.04 9927117590714/rx/10(+28v),on,a,on,on,on,off,locked,28.67 9927117590723/rx/11(-15vp1),on,a,on,on,on,off,locked,-15.06 9927117590732/rx/12(+20v),on,a,on,on,on,off,locked,19.71 9927117590741/rx/13(+15vp1),on,a,on,on,on,off,locked,14.95 9927117590750/rx/14(+5vp1),on,a,on,on,on,off,locked,5.043 9927117590759/rx/15(-15vp2),on,a,on,on,on,off,locked,-14.87 9927117590768/rx/16(+5vp2),on,a,on,on,on,off,locked,5.097 9927117590777/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927117590787/rx/18(x1bias),on,a,on,on,on,off,locked,0.194 9927117590796/rx/19(x2bias),on,a,on,on,on,off,locked,0.990 9927117590805/rx/1A(x3bias),on,a,on,on,on,off,locked,0.984 9927117590814/rx/1B(s1bias),on,a,on,on,on,off,locked,0.601 9927117590823/rx/1C(s2bias),on,a,on,on,on,off,locked,0.990 9927117590833/rx/1D(s3bias),on,a,on,on,on,off,locked,0.799 9927117590842/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927117590851/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927117595001:preob 9927117595001&preob/onsource 9927117595001&preob/calon 9927117595001&preob/!+2s 9927117595001&preob/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117595001&preob/tpical=v9,v10,v11,v12,v13,v14,if2 9927117595001&preob/caloff 9927117595052/onsource/TRACKING 9927117595287/tpical/18611,20781,17080,4357,23992,23888,26454,52554,15052,35640 9927117595307/tpical/9246,9702,10718,31910,20068,5588,6973 9927117595314:!271180000 9927118000001:tape 9927118000010/tape/off,00115,norm,stopped,stop,unlock,ready,rem 9927118000011:st=for,135 9927118000021:"data start" 9927118000021:midob 9927118000021&midob/onsource 9927118000021&midob/wx 9927118000022&midob/cable 9927118000022&midob/fmout-gps 9927118000022&midob/ifd 9927118000022&midob/if3 9927118000022&midob/vc02 9927118000022&midob/vc06 9927118000022&midob/vc11 9927118000022&midob/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118000022&midob/tpi=v9,v10,v11,v12,v13,v14,if2 9927118000022&midob/caltemps 9927118000022&midob/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118000022&midob/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118000052/onsource/TRACKING 9927118000054/wx/21.0,990.7,89.8,8.4 9927118000065/cable/+1.0858068E-02 9927118000105/fmout-gps/S 1.8123E-07 9927118000111/ifd/16,19,nor,nor,rem,13413,6018 9927118000117/if3/6,in,2,2,,,present,500.10,rem,lock,31192 9927118000123/vc02/142.99,2.000,u,10,10,rem,lock,18676 9927118000129/vc06/202.89,2.000,u,10,10,rem,lock,20924 9927118000135/vc11/237.99,2.000,u,10,10,rem,lock,9084 9927118000163/tpi/16691,18676,15278,3950,21269,20924,22989,45626,13413,31192 9927118000182/tpi/7877,8201,9084,26577,16719,4713,6018 9927118000184/tsys1/58.8,59.6,57.4,53.7,53.7,47.8,46.1,45.6,55.8,48.7 9927118000184/tsys2/82.6,78.8,80.9,77.0,76.2,75.4,85.6 9927118000185:!271180432 9927118003014;wx 9927118003016/wx/21.0,990.7,89.8,8.4 9927118005785;"cable normal 9927118010000;cable 9927118010005/cable/+1.0857595E-02 9927118012665;"cable long 9927118015608;cable 9927118015621/cable/+1.0761239E-02 9927118021628;"cable normal 9927118023602;cable 9927118023616/cable/+1.0858445E-02 9927118043201:"data stop" 9927118043201:et 9927118043212:!+3s 9927118043514:tape 9927118043523/tape/off,03165,norm,stopped,stop,unlock,ready,rem 9927118043523:postob 9927118043523:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927118043600:check2c1 9927118043600&check2c1/check=,-tp,-hd 9927118043600&check2c1/enable= 9927118043600&check2c1/decode=a,crc,byte 9927118043600&check2c1/parity=,,ab,on,g1,g3 9927118043600&check2c1/fastr=15s 9927118043600&check2c1/!+6s 9927118043600&check2c1/! 9927118043600&check2c1/st=for,135,off 9927118043600&check2c1/!+4s 9927118043600&check2c1/repro=raw,1,3 9927118043600&check2c1/parity 9927118043600&check2c1/repro=byp,0,0 9927118043601&check2c1/!+29.20s 9927118043601&check2c1/et 9927118043601&check2c1/!+3s 9927118043601&check2c1/check=,tp,hd 9927118043613&fastr/rw 9927118043613&fastr/!+$ 9927118043613&fastr/et 9927118051554?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118051554?ERROR qg -305 AUX data differs from expected value on track 11. 9927118051554?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118051554/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118051554/parity/0,0,0,0,0,237,0,0,0,0,0,0,0,0 9927118052977:nw2c1=1 9927118053034/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118053373:!271181211 9927118071209;terminate 9927118071209:boss terminated 9927118103160;Log Opened: Mark IV Field System Version 9.3.17 9927118103160;location,ALGOPARK,G,78.07,45.96,210.5,40479302,53,30,60,1990 9927118103160;horizon1,0.,9.,360. 9927118103160;head0,all,odd,odd,odd,adaptive,no,3.0000,1 9927118103160;head1,1470.2,3.7,158.3,1114.0,1.8,-13.2,187.01,187.01 9927118103160;head2,1091.5,4.4,281.3,1170.8,4.4,-18.5,180.28,180.28 9927118103160;antenna,46.0,22.0,9.0,40.0,93.5,8.9,89.0,azel 9927118103160;equip1, 53,330,240,8080.0,60,30,mk3,mk3,101 9927118103160;equip2,10.000,0.000,0.000,0.000,0.000,0,54625,500.10,3,a/d,0.000,0 9927118103161;time,9.001,73.430,rate 9927118103161;sw,no 9927118103161:" NA335 1999 ALGOPARK G Ap 9927118103161:" G ALGOPARK AZEL 0.0000 24.4 0 41.0 453.0 9.4 0 8.8 86.8 47.0 Ap 03 9927118103161:" Ap ALGOPARK 918034.75611 -4346132.26769 4561971.16681 72828201 9927118103161:" 03 TVDS-1 12 8820 9927118103161:source=1004+141,100741.5,135629.6,2000.0,neutral 9927118103190#antcn#PM 1 00005 1999 196 18 49 05 00 9927118103190#antcn#PM 2 90.0000 1 0 1 1 1 1 1 0 1 1 1 1 1 1 1 1 0 0 0 0 9927118103191#antcn#PM 2 0.0067997 0.0000000 0.0220333 0.0620208 -0.0007199 9927118103191#antcn#PM 3 0.0039791 -0.0075978 0.0000000 -0.0521372 -0.0396457 9927118103191#antcn#PM 4 0.0546033 0.0005687 -0.0018725 -0.0011125 -0.0019046 9927118103191#antcn#PM 5 0.0015606 0.0000000 0.0000000 0.0000000 0.0000000 9927118103251:nw2c1=1 9927118103251&nw2c1/tapefrmnwc 9927118103251&nw2c1/pass=$,same 9927118103251&nw2c1/form=c,4.000 9927118103251&nw2c1/form=reset 9927118103251&nw2c1/vcnw2 9927118103251&nw2c1/ifdnw 9927118103251&nw2c1/tape=low 9927118103251&nw2c1/enable=g1,g3 9927118103251&nw2c1/repro=byp,3,19 9927118103252&tapefrmnwc/tapeform= 1,-330, 2,-330, 3,-275, 4,-275, 5,-220, 6,-220 9927118103252&tapefrmnwc/tapeform= 7,-165, 8,-165, 9,-110, 10,-110, 11, -55, 12, -55 9927118103252&tapefrmnwc/tapeform= 13, 0, 14, 0, 15, 55, 16, 55, 17, 110, 18, 110 9927118103252&tapefrmnwc/tapeform= 19, 165, 20, 165, 21, 220, 22, 220, 23, 275, 24, 275 9927118103317/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118103421&vcnw2/vc01=102.99,2.000 9927118103421&vcnw2/vc02=142.99,2.000 9927118103421&vcnw2/vc03=342.99,2.000 9927118103421&vcnw2/vc04=482.99,2.000 9927118103421&vcnw2/vc05=102.89,2.000 9927118103421&vcnw2/vc06=202.89,2.000 9927118103421&vcnw2/vc07=262.89,2.000 9927118103421&vcnw2/vc08=282.89,2.000 9927118103421&vcnw2/vc09=192.99,2.000 9927118103421&vcnw2/vc10=202.99,2.000 9927118103421&vcnw2/vc11=237.99,2.000 9927118103421&vcnw2/vc12=277.99,2.000 9927118103421&vcnw2/vc13=297.99,2.000 9927118103422&vcnw2/vc14=302.99,2.000 9927118103422&vcnw2/!+1s 9927118103422&vcnw2/valarm 9927118103569&valarm/vc01=alarm 9927118103569&valarm/vc02=alarm 9927118103569&valarm/vc03=alarm 9927118103569&valarm/vc04=alarm 9927118103569&valarm/vc05=alarm 9927118103569&valarm/vc06=alarm 9927118103569&valarm/vc07=alarm 9927118103569&valarm/vc08=alarm 9927118103569&valarm/vc09=alarm 9927118103569&valarm/vc10=alarm 9927118103569&valarm/vc11=alarm 9927118103569&valarm/vc12=alarm 9927118103570&valarm/vc13=alarm 9927118103570&valarm/vc14=alarm 9927118103573/vc01/nak,ack 9927118103582/vc03/nak,ack 9927118103590/vc05/nak,ack 9927118103594/vc06/nak,ack 9927118103599/vc07/nak,ack 9927118103603/vc08/nak,ack 9927118103616/vc11/nak,ack 9927118103628&ifdnw/ifd=16,19,nor,nor 9927118103628&ifdnw/if3=6,in,2,2 9927118103628&ifdnw/lo=8080.00,2020.00,8580.10 9927118103628&ifdnw/patch=lo1,1l,2l,3h,4h 9927118103628&ifdnw/patch=lo2,9l,10l,11h,12h,13h,14h 9927118103628&ifdnw/patch=lo3,5h,6h,7h,8h 9927118103649:!271181659 9927118105136;hold 9927118105136&hold/source=hold 9927118110269;schedule=na335ap,#21 9927118110272:" NA335 1999 ALGOPARK G Ap 9927118110272:" G ALGOPARK AZEL 0.0000 24.4 0 41.0 453.0 9.4 0 8.8 86.8 47.0 Ap 03 9927118110272:" Ap ALGOPARK 918034.75611 -4346132.26769 4561971.16681 72828201 9927118110272:" 03 TVDS-1 12 8820 9927118110272:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927118110351:check2c1 9927118110351&check2c1/check=,-tp,-hd 9927118110351&check2c1/enable= 9927118110351&check2c1/decode=a,crc,byte 9927118110351&check2c1/parity=,,ab,on,g1,g3 9927118110351&check2c1/fastr=15s 9927118110351&check2c1/!+6s 9927118110351&check2c1/!* 9927118110351&check2c1/st=for,135,off 9927118110351&check2c1/!+4s 9927118110351&check2c1/repro=raw,1,3 9927118110351&check2c1/parity 9927118110351&check2c1/repro=byp,0,0 9927118110352&check2c1/!+29.20s 9927118110352&check2c1/et 9927118110352&check2c1/!+3s 9927118110352&check2c1/check=,tp,hd 9927118110366&fastr/rw 9927118110366&fastr/!+$ 9927118110366&fastr/et 9927118114305?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118114306?ERROR qg -305 AUX data differs from expected value on track 11. 9927118114306?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118114306/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118114306/parity/0,0,0,0,0,269,0,0,0,0,0,0,0,0 9927118115728:nw2c1=1 9927118115728&nw2c1/tapefrmnwc 9927118115728&nw2c1/pass=$,same 9927118115728&nw2c1/form=c,4.000 9927118115728&nw2c1/form=reset 9927118115728&nw2c1/vcnw2 9927118115728&nw2c1/ifdnw 9927118115728&nw2c1/tape=low 9927118115728&nw2c1/enable=g1,g3 9927118115729&nw2c1/repro=byp,3,19 9927118115729&tapefrmnwc/tapeform= 1,-330, 2,-330, 3,-275, 4,-275, 5,-220, 6,-220 9927118115729&tapefrmnwc/tapeform= 7,-165, 8,-165, 9,-110, 10,-110, 11, -55, 12, -55 9927118115729&tapefrmnwc/tapeform= 13, 0, 14, 0, 15, 55, 16, 55, 17, 110, 18, 110 9927118115729&tapefrmnwc/tapeform= 19, 165, 20, 165, 21, 220, 22, 220, 23, 275, 24, 275 9927118115783/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118115896&vcnw2/vc01=102.99,2.000 9927118115896&vcnw2/vc02=142.99,2.000 9927118115896&vcnw2/vc03=342.99,2.000 9927118115896&vcnw2/vc04=482.99,2.000 9927118115896&vcnw2/vc05=102.89,2.000 9927118115896&vcnw2/vc06=202.89,2.000 9927118115896&vcnw2/vc07=262.89,2.000 9927118115896&vcnw2/vc08=282.89,2.000 9927118115896&vcnw2/vc09=192.99,2.000 9927118115896&vcnw2/vc10=202.99,2.000 9927118115896&vcnw2/vc11=237.99,2.000 9927118115896&vcnw2/vc12=277.99,2.000 9927118115896&vcnw2/vc13=297.99,2.000 9927118115896&vcnw2/vc14=302.99,2.000 9927118115896&vcnw2/!+1s 9927118115896&vcnw2/valarm 9927118115910/vc04/nak,alarmv4(#04) 9927118115921/vc07/nak,alarmv7(#07) 9927118115925/vc08/nak,alarmv8(#08) 9927118115942/vc11/nak,alarmvb(#0b) 9927118120074/vc04/nak,ack 9927118120088/vc07/nak,ack 9927118120094/vc08/nak,ack 9927118120107/vc11/nak,ack 9927118120121&ifdnw/ifd=16,19,nor,nor 9927118120122&ifdnw/if3=6,in,2,2 9927118120122&ifdnw/lo=8080.00,2020.00,8580.10 9927118120122&ifdnw/patch=lo1,1l,2l,3h,4h 9927118120122&ifdnw/patch=lo2,9l,10l,11h,12h,13h,14h 9927118120122&ifdnw/patch=lo3,5h,6h,7h,8h 9927118120146:!271181211 9927118121101:preob 9927118121101&preob/onsource 9927118121101&preob/calon 9927118121101&preob/!+2s 9927118121101&preob/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118121101&preob/tpical=v9,v10,v11,v12,v13,v14,if2 9927118121101&preob/caloff 9927118121226#trakl#SOURCE_ACQUIRED 9927118121251/onsource/TRACKING 9927118121251&calon/rx=,,,,,,on 9927118121490/tpical/23366,25588,21212,5236,30060,29744,33116,$$$$$,18834,44897 9927118121510/tpical/9721,10255,11679,34406,21823,6084,7450 9927118121510&caloff/rx=,,,,,,off 9927118121517:!271181221 9927118122101:tape 9927118122110/tape/off,03156,norm,stopped,stop,unlock,ready,rem 9927118122110:st=for,135 9927118122122:"data start" 9927118122122:midob 9927118122122&midob/onsource 9927118122122&midob/wx 9927118122122&midob/cable 9927118122122&midob/fmout-gps 9927118122122&midob/ifd 9927118122122&midob/if3 9927118122123&midob/vc02 9927118122123&midob/vc06 9927118122123&midob/vc11 9927118122123&midob/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118122123&midob/tpi=v9,v10,v11,v12,v13,v14,if2 9927118122123&midob/caltemps 9927118122123&midob/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118122123&midob/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118122152/onsource/TRACKING 9927118122155/wx/21.2,990.6,89.5,2.4 9927118122188/cable/+1.0858396E-02 9927118122204/fmout-gps/S 1.8229E-07 9927118122210/ifd/16,19,nor,nor,rem,17205,6510 9927118122216/if3/6,in,2,2,,,present,500.10,rem,lock,40489 9927118122222/vc02/142.99,2.000,u,10,10,rem,lock,23486 9927118122228/vc06/202.89,2.000,u,10,10,rem,lock,26831 9927118122234/vc11/237.99,2.000,u,10,10,rem,lock,10054 9927118122264/tpi/21469,23486,19406,4836,27378,26831,29726,59233,17205,40489 9927118122284/tpi/8387,8805,10054,29183,18558,5225,6510 9927118122284&caltemps/caltemp1=06.98 9927118122284&caltemps/caltemp2=15.61 9927118122284&caltemps/caltemp3=20.8 9927118122285?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927118122285?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v3 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i1 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927118122286/tsys1/$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$ 9927118122286?ERROR qk -211 Tsys value for device v9 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device va overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vb overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vc overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vd overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device ve overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i2 overflowed or were less than zero. 9927118122286/tsys2/$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$ 9927118122286:!271181359 9927118135901:"data stop" 9927118135901:et 9927118135912:!+3s 9927118140214:tape 9927118140223/tape/off,04249,norm,stopped,stop,unlock,ready,rem 9927118140223:postob 9927118140223:source=1004+141,100741.5,135629.6,2000.0,neutral 9927118140360:nw2c1=1 9927118140413/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118140740:!271181659 9927118144341;sxcts 9927118144343&sxcts/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpi=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/ifd=max,max,, 9927118144343&sxcts/if3=max,,,,,* 9927118144343&sxcts/!+2s 9927118144343&sxcts/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpzero=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/ifd=old,old,, 9927118144343&sxcts/if3=old,,,,,* 9927118144343&sxcts/calon 9927118144343&sxcts/!+2s 9927118144343&sxcts/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpical=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/caloff 9927118144343&sxcts/caltemps 9927118144343&sxcts/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118144375/tpi/19219,21067,17300,4379,24327,23828,26198,52476,15300,35818 9927118144395/tpi/8025,8391,9484,27335,17429,4919,6178 9927118144631/tpzero/505,710,452,819,336,619,105,318,303,149 9927118144651/tpzero/635,621,624,262,376,488,767 9927118144894/tpical/20973,22979,18949,4746,26852,26556,29514,58898,16801,39951 9927118144913/tpical/9329,9788,11051,32390,20610,5763,7094 9927118144921/tsys1/74.5,74.3,71.3,67.7,66.3,59.4,54.9,56.7,69.7,60.2 9927118144922/tsys2/88.5,86.8,88.3,83.6,83.7,82.0,92.2 9927118165901:preob 9927118165952?ERROR AN -103 Pointing computer tracking errors are too large. 9927118165952?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927118165952/onsource/SLEWING 9927118170188/tpical/19191,21126,17338,4413,24500,24308,26856,53943,15349,36432 9927118170208/tpical/9098,9503,10720,31374,19943,5561,6896 9927118170215:!271181709 9927118170775#trakl#SOURCE_ACQUIRED 9927118170906:tape 9927118170928/tape/off,04249,norm,stopped,stop,unlock,ready,rem 9927118170928:st=for,135 9927118170952:"data start" 9927118170952:midob 9927118171100/onsource/TRACKING 9927118171104/wx/21.4,990.6,88.7,6.2 9927118171133/cable/+1.0860114E-02 9927118171204/fmout-gps/S 1.8199E-07 9927118171210/ifd/16,19,nor,nor,rem,13702,5953 9927118171216/if3/6,in,2,2,,,present,500.10,rem,lock,31995 9927118171222/vc02/142.99,2.000,u,10,10,rem,lock,19018 9927118171228/vc06/202.89,2.000,u,10,10,rem,lock,21338 9927118171234/vc11/237.99,2.000,u,10,10,rem,lock,9099 9927118171262/tpi/17245,19018,15536,4009,21770,21338,23396,47036,13702,31995 9927118171282/tpi/7766,8071,9099,26213,16641,4704,5953 9927118171284/tsys1/60.0,60.6,58.4,55.1,54.8,48.7,47.0,47.2,56.8,50.1 9927118171284/tsys2/83.6,81.2,81.6,78.5,76.9,76.8,85.8 9927118171284:!271181847 9927118184701:"data stop" 9927118184701:et 9927118184711:!+3s 9927118185013:tape 9927118185021/tape/off,05339,norm,stopped,stop,unlock,ready,rem 9927118185022:postob 9927118185023:source=1334-127,133739.8,-125724.7,2000.0,neutral 9927118185050:nw2c1=1 9927118185106/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118185432:!271182154 9927118214474#trakl#SOURCE_ACQUIRED 9927118215401:preob 9927118215455/onsource/TRACKING 9927118215691/tpical/19522,21457,17606,4462,24971,24762,27369,54853,15607,37111 9927118215711/tpical/9272,9650,10890,31987,20230,5662,7008 9927118215718:!271182204 9927118220401:tape 9927118220409/tape/off,05339,norm,stopped,stop,unlock,ready,rem 9927118220410:st=for,135 9927118220420:"data start" 9927118220420:midob 9927118220550/onsource/TRACKING 9927118220552/wx/21.6,990.6,87.3,0.0 9927118220580/cable/+1.0861088E-02 9927118220604/fmout-gps/S 1.8152E-07 9927118220610/ifd/16,19,nor,nor,rem,14028,6068 9927118220616/if3/6,in,2,2,,,present,500.10,rem,lock,32792 9927118220622/vc02/142.99,2.000,u,10,10,rem,lock,19423 9927118220628/vc06/202.89,2.000,u,10,10,rem,lock,21883 9927118220634/vc11/237.99,2.000,u,10,10,rem,lock,9274 9927118220662/tpi/17665,19423,15880,4075,22309,21883,24027,48153,14028,32792 9927118220682/tpi/7939,8229,9274,26767,16934,4798,6068 9927118220687/tsys1/64.5,64.2,62.4,58.7,57.6,51.6,50.0,49.8,60.7,52.8 9927118220688/tsys2/85.5,83.6,83.6,79.3,78.4,77.9,88.0 9927118220688:!271182342 9927118234201:"data stop" 9927118234201:et 9927118234211:!+3s 9927118234513:tape 9927118234521/tape/off,06432,norm,stopped,stop,unlock,ready,rem 9927118234522:postob 9927118234522:source=1219+044,122222.5,041315.8,2000.0,neutral 9927118234600:nw2c1=1 9927118234656/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118234983:!271182523 9927118251174#trakl#SOURCE_ACQUIRED 9927118252301:preob 9927118252451/onsource/TRACKING 9927118252717/tpical/18875,21017,17219,4391,24325,24141,26730,53283,15214,36047 9927118252776/tpical/9167,9479,10787,31563,20048,5612,6936 9927118252782:!271182533 9927118253307:tape 9927118253316/tape/off,06432,norm,stopped,stop,unlock,ready,rem 9927118253316:st=for,135 9927118253327:"data start" 9927118253327:midob 9927118253500/onsource/TRACKING 9927118253502/wx/21.8,990.5,86.7,7.0 9927118253532/cable/+1.0862460E-02 9927118253604/fmout-gps/S 1.8119E-07 9927118253610/ifd/16,19,nor,nor,rem,13576,5990 9927118253616/if3/6,in,2,2,,,present,500.10,rem,lock,31615 9927118253622/vc02/142.99,2.000,u,10,10,rem,lock,18899 9927118253628/vc06/202.89,2.000,u,10,10,rem,lock,21183 9927118253634/vc11/237.99,2.000,u,10,10,rem,lock,9180 9927118253662/tpi/17013,18899,15407,3982,21565,21183,23248,46368,13576,31615 9927118253681/tpi/7855,8041,9180,26403,16777,4744,5990 9927118253683/tsys1/61.9,59.9,57.6,54.0,53.7,48.5,46.4,46.5,56.6,49.6 9927118253683/tsys2/85.9,80.5,83.1,79.1,78.3,76.5,86.2 9927118253684:!271182711 9927118271101:"data stop" 9927118271101:et 9927118271112:!+3s 9927118271414:tape 9927118271423/tape/off,07524,norm,stopped,stop,unlock,ready,rem 9927118271423:postob 9927118271423:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927118271500:nw2c1=1 9927118271553/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118271878:!271183022 9927118274575;wx 9927118274579/wx/21.8,990.4,86.4,0.7 9927118281909;"wx,sunny,90% cloudy,wind at 0.7 km/h. 9927118282127;rxmon 9927118282129&rxmon/rx=lo,,,,,, 9927118282129&rxmon/rx 9927118282129&rxmon/rx=dcal,,,,,, 9927118282129&rxmon/rx 9927118282129&rxmon/rx=lo5mhz,,,,,, 9927118282129&rxmon/rx 9927118282129&rxmon/rx=pres,,,,,, 9927118282129&rxmon/rx 9927118282129&rxmon/rx=20k,,,,,, 9927118282129&rxmon/rx 9927118282129&rxmon/rx=70k,,,,,, 9927118282129&rxmon/rx 9927118282140/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927118282150/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927118282160/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927118282169/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927118282178/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927118282187/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927118283586;"rxtemps 20k=28.6 70k=54.88 9927118292175#trakl#SOURCE_ACQUIRED 9927118302201:preob 9927118302301/onsource/TRACKING 9927118302537/tpical/21320,23502,19357,4837,27425,27194,30113,60228,17136,40837 9927118302557/tpical/9382,9857,11242,32810,20925,5833,7167 9927118302564:!271183032 9927118303201:tape 9927118303209/tape/off,07524,norm,stopped,stop,unlock,ready,rem 9927118303210:st=for,135 9927118303220:"data start" 9927118303220:midob 9927118303301/onsource/TRACKING 9927118303304/wx/22.1,990.4,85.9,3.9 9927118303340/cable/+1.0863621E-02 9927118303404/fmout-gps/S 1.8191E-07 9927118303410/ifd/16,19,nor,nor,rem,15485,6239 9927118303416/if3/6,in,2,2,,,present,500.10,rem,lock,36352 9927118303422/vc02/142.99,2.000,u,10,10,rem,lock,21334 9927118303428/vc06/202.89,2.000,u,10,10,rem,lock,24172 9927118303434/vc11/237.99,2.000,u,10,10,rem,lock,9612 9927118303462/tpi/19390,21334,17550,4420,24675,24172,26638,53247,15485,36352 9927118303482/tpi/8079,8445,9612,27708,17630,4980,6239 9927118303483/tsys1/68.3,66.4,66.0,60.3,61.8,54.4,53.3,52.9,64.2,56.3 9927118303484/tsys2/89.2,86.5,86.1,84.0,81.7,82.2,92.0 9927118303484:!271183210 9927118321001:"data stop" 9927118321001:et 9927118321011:!+3s 9927118321313:tape 9927118321322/tape/off,08617,norm,stopped,stop,unlock,ready,rem 9927118321322:postob 9927118321323:source=1622-253,162546.9,-252738.3,2000.0,neutral 9927118321451:midtp 9927118321453&midtp/ifd=max,max,, 9927118321453&midtp/if3=max,,,,,* 9927118321453&midtp/!+2s 9927118321453&midtp/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118321453&midtp/tpzero=v9,v10,v11,v12,v13,v14,if2 9927118321453&midtp/ifd=old,old,, 9927118321453&midtp/if3=old,,,,,* 9927118321453&midtp/rxmon 9927118321689/tpzero/505,709,452,819,341,619,91,318,303,149 9927118321709/tpzero/636,623,622,265,376,489,767 9927118321725/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927118321734/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927118321744/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927118321753/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927118321762/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118321771/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927118321772:nw2c2=2 9927118321772&nw2c2/tapefrmnwc 9927118321772&nw2c2/pass=$,same 9927118321772&nw2c2/form=c,4.000 9927118321772&nw2c2/form=reset 9927118321772&nw2c2/vcnw2 9927118321772&nw2c2/ifdnw 9927118321772&nw2c2/tape=low 9927118321772&nw2c2/enable=g2,g4 9927118321772&nw2c2/repro=byp,4,20 9927118321946/pass/2,2,auto,-330.0,-330.0,-329.6,-331.0,0.4,-1.0 9927118322272:fastf=0m14s 9927118322274&fastf/ff 9927118322274&fastf/!+$ 9927118322274&fastf/et 9927118323708:!271183317 9927118330225#trakl#SOURCE_ACQUIRED 9927118331701:preob 9927118331853/onsource/TRACKING 9927118332088/tpical/23347,25596,21184,5232,30009,29709,33064,$$$$$,18807,44882 9927118332108/tpical/9828,10368,11686,34508,21868,6091,7473 9927118332115:!271183327 9927118332701:tape 9927118332710/tape/off,08920,norm,stopped,stop,unlock,ready,rem 9927118332710:st=rev,135 9927118332721:"data start" 9927118332721:midob 9927118332753/onsource/TRACKING 9927118332755/wx/22.6,990.4,83.7,6.5 9927118332764/cable/+1.0864804E-02 9927118332804/fmout-gps/S 1.8191E-07 9927118332810/ifd/16,19,nor,nor,rem,17156,6534 9927118332816/if3/6,in,2,2,,,present,500.10,rem,lock,40404 9927118332822/vc02/142.99,2.000,u,10,10,rem,lock,23485 9927118332828/vc06/202.89,2.000,u,10,10,rem,lock,26734 9927118332834/vc11/237.99,2.000,u,10,10,rem,lock,10068 9927118332862/tpi/21413,23485,19381,4824,27265,26734,29601,59014,17156,40404 9927118332881/tpi/8505,8906,10068,29344,18603,5235,6534 9927118332883?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927118332883/tsys1/75.5,75.3,73.3,68.5,68.5,61.3,59.5,$$$$$$$$,71.3,62.7 9927118332883/tsys2/92.8,88.4,91.1,87.9,87.1,86.5,95.9 9927118332884:!271183505 9927118350501:"data stop" 9927118350501:et 9927118350512:!+3s 9927118350814:tape 9927118350823/tape/off,07827,norm,stopped,stop,unlock,ready,rem 9927118350823:postob 9927118350823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927118350952:check2c2 9927118350952&check2c2/check=,-tp,-hd 9927118350952&check2c2/enable= 9927118350952&check2c2/decode=a,crc,byte 9927118350952&check2c2/parity=,,ab,on,g2,g4 9927118350952&check2c2/fastf=15s 9927118350952&check2c2/!+6s 9927118350952&check2c2/! 9927118350952&check2c2/st=rev,135,off 9927118350952&check2c2/!+4s 9927118350952&check2c2/repro=raw,2,4 9927118350952&check2c2/parity 9927118350953&check2c2/repro=byp,0,0 9927118350953&check2c2/!+29.20s 9927118350953&check2c2/et 9927118350953&check2c2/!+3s 9927118350953&check2c2/check=,tp,hd 9927118354968?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118354968?ERROR qg -305 AUX data differs from expected value on track 11. 9927118354968?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118354968/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118354968/parity/0,0,0,0,0,237,0,0,0,0,0,0,0,0 9927118360330:nw2c2=2 9927118360383/pass/2,2,auto,-330.0,-330.0,-329.6,-331.0,0.4,-1.0 9927118360709:!271183828 9927118365924#trakl#SOURCE_ACQUIRED 9927118382801:preob 9927118382853/onsource/TRACKING 9927118383089/tpical/19785,21720,17829,4504,25330,25076,27722,55549,15825,37630 9927118383108/tpical/9312,9796,10918,32133,20284,5670,7048 9927118383115:!271183838 9927118383801:tape 9927118383810/tape/off,07829,norm,stopped,stop,unlock,ready,rem 9927118383810:st=rev,135 9927118383821:"data start" 9927118383821:midob 9927118383952/onsource/TRACKING 9927118383954/wx/22.5,990.3,82.2,13.1 9927118383976/cable/+1.0867726E-02 9927118384004/fmout-gps/S 1.7998E-07 9927118384010/ifd/16,19,nor,nor,rem,14212,6093 9927118384016/if3/6,in,2,2,,,present,500.10,rem,lock,33233 9927118384022/vc02/142.99,2.000,u,10,10,rem,lock,19635 9927118384028/vc06/202.89,2.000,u,10,10,rem,lock,22148 9927118384034/vc11/237.99,2.000,u,10,10,rem,lock,9302 9927118384062/tpi/17903,19635,16080,4110,22577,22148,24311,48711,14212,33233 9927118384081/tpi/7965,8322,9302,26838,17005,4804,6093 9927118384083/tsys1/64.5,63.4,62.4,58.3,56.4,51.3,49.6,49.4,60.2,52.5 9927118384083/tsys2/84.9,81.5,83.8,78.3,79.2,77.8,87.1 9927118384084:!271184016 9927118401601:"data stop" 9927118401601:et 9927118401612:!+3s 9927118401914:tape 9927118401923/tape/off,06736,norm,stopped,stop,unlock,ready,rem 9927118401923:postob 9927118401923:source=1745+624,174614.0,622654.7,2000.0,ccw 9927118402050:nw2c2=2 9927118402103/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118402429:!271184315 9927118430175#trakl#SOURCE_ACQUIRED 9927118431501:preob 9927118431550/onsource/TRACKING 9927118431785/tpical/18844,21021,17107,4348,23916,23737,26323,52438,15066,35477 9927118431805/tpical/9335,9794,10780,31958,20111,5618,7008 9927118431812:!271184325 9927118432501:tape 9927118432511/tape/off,06736,norm,moving,stop,unlock,ready,rem 9927118432511:st=rev,135 9927118432522:"data start" 9927118432522:midob 9927118432651/onsource/TRACKING 9927118432653/wx/22.3,990.3,83.0,1.6 9927118432668/cable/+1.0866148E-02 9927118432704/fmout-gps/S 1.8203E-07 9927118432710/ifd/16,19,nor,nor,rem,13429,6044 9927118432716/if3/6,in,2,2,,,present,500.10,rem,lock,31064 9927118432722/vc02/142.99,2.000,u,10,10,rem,lock,18893 9927118432728/vc06/202.89,2.000,u,10,10,rem,lock,20840 9927118432734/vc11/237.99,2.000,u,10,10,rem,lock,9139 9927118432762/tpi/16966,18893,15292,3942,21205,20840,22884,45624,13429,31064 9927118432782/tpi/7966,8294,9139,26644,16791,4745,6044 9927118432784/tsys1/61.2,59.6,57.1,53.7,53.7,48.7,46.3,46.4,56.0,48.9 9927118432784/tsys2/83.6,79.8,81.0,77.5,77.2,76.1,85.5 9927118432784:!271184747 9927118474701:"data stop" 9927118474701:et 9927118474711:!+3s 9927118475013:tape 9927118475021/tape/off,03798,norm,stopped,stop,unlock,ready,rem 9927118475022:postob 9927118475022:source=1606+106,160846.2,102907.8,2000.0,neutral 9927118475151:nw2c2=2 9927118475203/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118475528:!271185157 9927118511774#trakl#SOURCE_ACQUIRED 9927118515701:preob 9927118515753/onsource/TRACKING 9927118515989/tpical/18801,20963,17088,4355,24097,23943,26564,52866,15064,35698 9927118520008/tpical/9222,9671,10636,31430,19842,5535,6895 9927118520015:!271185207 9927118520701:tape 9927118520711/tape/off,03798,norm,stopped,stop,unlock,ready,rem 9927118520711:st=rev,135 9927118520722:"data start" 9927118520722:midob 9927118520752/onsource/TRACKING 9927118520754/wx/22.3,990.3,83.6,3.4 9927118520759/cable/+1.0867503E-02 9927118520804/fmout-gps/S 1.8051E-07 9927118520809/ifd/16,19,nor,nor,rem,13431,5952 9927118520815/if3/6,in,2,2,,,present,500.10,rem,lock,31268 9927118520821/vc02/142.99,2.000,u,10,10,rem,lock,18796 9927118520827/vc06/202.89,2.000,u,10,10,rem,lock,20932 9927118520833/vc11/237.99,2.000,u,10,10,rem,lock,9030 9927118520861/tpi/16912,18796,15278,3947,21317,20932,23034,45949,13431,31268 9927118520881/tpi/7891,8199,9030,26247,16540,4675,5952 9927118520882/tsys1/60.6,58.3,57.2,53.5,52.7,47.1,45.4,46.0,56.1,49.0 9927118520883/tsys2/85.1,80.3,81.7,78.3,76.4,76.0,85.8 9927118520883:!271185345 9927118534501:"data stop" 9927118534501:et 9927118534512:!+3s 9927118534814:tape 9927118534823/tape/off,02705,norm,stopped,stop,unlock,ready,rem 9927118534823:postob 9927118534828:source=1334-127,133739.8,-125724.7,2000.0,neutral 9927118535001:nw2c2=2 9927118535054/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118535378:!271185612 9927118555774#trakl#SOURCE_ACQUIRED 9927118561201:preob 9927118561253/onsource/TRACKING 9927118561488/tpical/19826,21981,17988,4534,25378,25235,27968,55826,15881,37751 9927118561508/tpical/9120,9575,10784,31673,20044,5614,6948 9927118561515:!271185622 9927118562201:tape 9927118562211/tape/off,02705,norm,stopped,stop,unlock,ready,rem 9927118562211:st=rev,135 9927118562222:"data start" 9927118562222:midob 9927118562351/onsource/TRACKING 9927118562353/wx/22.3,990.2,83.1,8.8 9927118562356/cable/+1.0867532E-02 9927118562404/fmout-gps/S 1.8104E-07 9927118562410/ifd/16,19,nor,nor,rem,14258,6013 9927118562416/if3/6,in,2,2,,,present,500.10,rem,lock,33350 9927118562422/vc02/142.99,2.000,u,10,10,rem,lock,19882 9927118562428/vc06/202.89,2.000,u,10,10,rem,lock,22316 9927118562440/vc11/237.99,2.000,u,10,10,rem,lock,9182 9927118562504/tpi/17915,19882,16190,4134,22680,22316,24559,49017,14258,33350 9927118562552/tpi/7791,8119,9190,26494,16786,4754,6012 9927118562554/tsys1/63.6,63.8,61.1,57.8,57.8,51.9,50.1,49.9,60.0,52.7 9927118562554/tsys2/84.0,80.4,83.9,79.1,78.6,77.4,87.5 9927118562554:!271185800 9927118580001:"data stop" 9927118580001:et 9927118580012:!+3s 9927118580314:tape 9927118580323/tape/off,01612,norm,stopped,stop,unlock,ready,rem 9927118580323:postob 9927118580323:source=1352-104,135446.5,-104102.7,2000.0,neutral 9927118580400:midtp 9927118580635/tpzero/507,708,451,818,339,621,90,312,304,149 9927118580655/tpzero/632,626,622,266,380,491,787 9927118580671/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927118580680/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927118580690/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927118580699/rx/17(pres),on,a,on,on,on,off,locked,-1.575 9927118580708/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118580717/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927118580718:nw2c1=3 9927118580926/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927118581252:fastr=1m8s 9927118583475#trakl#SOURCE_ACQUIRED 9927118591151;wx 9927118591153/wx/22.4,990.2,83.5,4.4 9927118592080:!271185947 9927118594701:preob 9927118594753/onsource/TRACKING 9927118594988/tpical/19276,21456,17575,4446,24865,24702,27458,54697,15513,36912 9927118595009/tpical/8898,9348,10651,31251,19863,5563,6876 9927118595016:!271185957 9927118595322;"wx,90% clouds,wind at 5.5km/h. 9927118595551;rxmon 9927118595560/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927118595569/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927118595579/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927118595588/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927118595597/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118595606/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927118595701:tape 9927118595710/tape/off,00096,norm,stopped,stop,unlock,ready,rem 9927118595711:st=for,135 9927118595722:"data start" 9927118595722:midob 9927118595750/onsource/TRACKING 9927118595752/wx/22.5,990.2,83.2,5.5 9927118595775/cable/+1.0867871E-02 9927118595804/fmout-gps/S 1.8133E-07 9927118595810/ifd/16,19,nor,nor,rem,13876,5945 9927118595815/if3/6,in,2,2,,,present,500.10,rem,lock,32486 9927118595821/vc02/142.99,2.000,u,10,10,rem,lock,19337 9927118595827/vc06/202.89,2.000,u,10,10,rem,lock,21769 9927118595833/vc11/237.99,2.000,u,10,10,rem,lock,9070 9927118595861/tpi/17405,19337,15787,4043,22134,21769,23921,47815,13876,32486 9927118595881/tpi/7615,7953,9070,26104,16609,4709,5945 9927118595883/tsys1/63.0,61.4,59.9,55.9,55.7,50.3,47.0,48.2,57.9,51.0 9927118595883/tsys2/85.0,82.0,83.4,78.4,77.9,77.1,86.5 9927118595883:!271190457 9927119001234;"rxtemps 20k=29.07 70k=56.27 9927119045701:"data stop" 9927119045701:et 9927119045712:!+3s 9927119050014:tape 9927119050023/tape/off,03461,norm,stopped,stop,unlock,ready,rem 9927119050023:postob 9927119050023:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927119050100:check2c1 9927119054042?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119054042?ERROR qg -305 AUX data differs from expected value on track 11. 9927119054043?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119054043/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119054043/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927119055468:nw2c1=3 9927119055521/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927119055848:!271190710 9927119055925#trakl#SOURCE_ACQUIRED 9927119071001:preob 9927119071053/onsource/TRACKING 9927119071288/tpical/20165,22247,18199,4593,25814,25635,28400,56731,16102,38376 9927119071308/tpical/9295,9734,11045,32485,20439,5745,7094 9927119071315:!271190720 9927119072001:tape 9927119072010/tape/off,03458,norm,stopped,stop,unlock,ready,rem 9927119072010:st=for,135 9927119072021:"data start" 9927119072021:midob 9927119072052/onsource/TRACKING 9927119072054/wx/22.6,990.2,81.8,12.9 9927119072092/cable/+1.0867153E-02 9927119072104/fmout-gps/S 1.8271E-07 9927119072110/ifd/16,19,nor,nor,rem,14690,6171 9927119072116/if3/6,in,2,2,,,present,500.10,rem,lock,34471 9927119072122/vc02/142.99,2.000,u,10,10,rem,lock,20402 9927119072128/vc06/202.89,2.000,u,10,10,rem,lock,23004 9927119072134/vc11/237.99,2.000,u,10,10,rem,lock,9459 9927119072162/tpi/18483,20402,16668,4246,23409,23004,25369,50643,14690,34471 9927119072182/tpi/8007,8323,9459,27367,17230,4908,6171 9927119072184/tsys1/74.6,74.5,73.9,69.0,67.0,59.4,58.2,57.7,71.1,61.3 9927119072184/tsys2/89.4,85.2,87.0,82.7,82.0,82.4,91.1 9927119072184:!271191210 9927119121001:"data stop" 9927119121001:et 9927119121011:!+3s 9927119121313:tape 9927119121322/tape/off,06710,norm,stopped,stop,unlock,ready,rem 9927119121322:postob 9927119121322:source=1222+037,122452.4,033050.3,2000.0,neutral 9927119121401:midtp 9927119121637/tpzero/504,710,452,813,340,622,92,316,311,149 9927119121657/tpzero/633,626,624,266,376,490,770 9927119121673/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927119121682/rx/03(dcal),on,a,on,on,on,off,locked,50.36 9927119121691/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119121701/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927119121710/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927119121719/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927119121719:nw2c2=4 9927119121888/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119122214:fastf=1m39s 9927119133725#trakl#SOURCE_ACQUIRED 9927119140142:!271191428 9927119142801:preob 9927119142855/onsource/TRACKING 9927119143090/tpical/19122,21363,17355,4409,24623,24438,27111,53931,15339,36475 9927119143110/tpical/9151,9510,10784,31559,20075,5627,6934 9927119143117:!271191438 9927119143801:tape 9927119143810/tape/off,08924,norm,stopped,stop,unlock,ready,rem 9927119143810:st=rev,135 9927119143821:"data start" 9927119143821:midob 9927119143851/onsource/TRACKING 9927119143853/wx/22.5,990.1,82.8,3.3 9927119143868/cable/+1.0867350E-02 9927119143903/fmout-gps/S 1.8213E-07 9927119143909/ifd/16,19,nor,nor,rem,13747,6008 9927119143915/if3/6,in,2,2,,,present,500.10,rem,lock,32120 9927119143921/vc02/142.99,2.000,u,10,10,rem,lock,19304 9927119143927/vc06/202.89,2.000,u,10,10,rem,lock,21540 9927119143933/vc11/237.99,2.000,u,10,10,rem,lock,9192 9927119143961/tpi/17282,19304,15607,4015,21928,21540,23706,47139,13747,32120 9927119143981/tpi/7858,8109,9192,26428,16856,4770,6008 9927119143983/tsys1/63.6,63.0,60.5,56.7,55.9,50.4,48.4,48.1,58.9,51.2 9927119143983/tsys2/87.2,83.4,84.0,79.6,79.9,78.0,88.3 9927119143983:!271191938 9927119193801:"data stop" 9927119193801:et 9927119193811:!+3s 9927119194113:tape 9927119194121/tape/off,05559,norm,stopped,stop,unlock,ready,rem 9927119194122:postob 9927119194122:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927119194151:check2c2 9927119202147?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119202147?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119202147/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119202147/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927119203520:nw2c2=4 9927119203576/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119203906:!271192151 9927119204174#trakl#SOURCE_ACQUIRED 9927119215101:preob 9927119215201/onsource/TRACKING 9927119215436/tpical/20465,22684,18485,4642,26182,26047,28863,57543,16371,38980 9927119215457/tpical/9280,9710,11117,32491,20570,5761,7077 9927119215464:!271192201 9927119220101:tape 9927119220110/tape/off,05563,norm,stopped,stop,unlock,ready,rem 9927119220110:st=rev,135 9927119220121:"data start" 9927119220121:midob 9927119220250/onsource/TRACKING 9927119220252/wx/22.5,990.0,83.2,0.8 9927119220256/cable/+1.0868402E-02 9927119220304/fmout-gps/S 1.8242E-07 9927119220310/ifd/16,19,nor,nor,rem,14737,6155 9927119220316/if3/6,in,2,2,,,present,500.10,rem,lock,34526 9927119220322/vc02/142.99,2.000,u,10,10,rem,lock,20520 9927119220328/vc06/202.89,2.000,u,10,10,rem,lock,23097 9927119220334/vc11/237.99,2.000,u,10,10,rem,lock,9536 9927119220362/tpi/18559,20520,16707,4234,23459,23097,25351,50581,14737,34526 9927119220382/tpi/7988,8299,9536,27372,17308,4912,6155 9927119220384/tsys1/66.1,63.9,63.8,58.5,59.3,53.2,50.2,50.4,61.6,53.9 9927119220384/tsys2/88.9,84.9,88.0,82.7,81.0,81.3,91.2 9927119220384:!271192617 9927119261701:"data stop" 9927119261701:et 9927119261711:!+3s 9927119262013:tape 9927119262022/tape/off,02693,norm,stopped,stop,unlock,ready,rem 9927119262022:postob 9927119262022:source=1243-072,124604.2,-073046.6,2000.0,neutral 9927119262049:nw2c2=4 9927119262102/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119262428:!271192830 9927119272475#trakl#SOURCE_ACQUIRED 9927119283001:preob 9927119283151/onsource/TRACKING 9927119283386/tpical/19707,21796,17807,4488,25274,25032,27818,55403,15751,37522 9927119283407/tpical/9128,9537,10957,31782,20274,5693,6979 9927119283414:!271192840 9927119284001:tape 9927119284011/tape/off,02693,norm,stopped,stop,unlock,ready,rem 9927119284011:st=rev,135 9927119284022:"data start" 9927119284022:midob 9927119284100/onsource/TRACKING 9927119284102/wx/22.6,990.0,82.1,0.9 9927119284107/cable/+1.0869883E-02 9927119284204/fmout-gps/S 1.8209E-07 9927119284210/ifd/16,19,nor,nor,rem,14109,6052 9927119284215/if3/6,in,2,2,,,present,500.10,rem,lock,33067 9927119284221/vc02/142.99,2.000,u,10,10,rem,lock,19652 9927119284227/vc06/202.89,2.000,u,10,10,rem,lock,22095 9927119284233/vc11/237.99,2.000,u,10,10,rem,lock,9359 9927119284261/tpi/17796,19652,16010,4087,22555,22095,24314,48446,14109,33067 9927119284281/tpi/7840,8124,9359,26684,17062,4832,6052 9927119284283/tsys1/63.2,61.7,60.4,57.0,57.0,51.0,48.3,48.3,58.7,51.6 9927119284283/tsys2/87.3,82.8,85.3,80.9,81.1,78.7,88.9 9927119284283:!271193110 9927119311001:"data stop" 9927119311001:et 9927119311011:!+3s 9927119311313:tape 9927119311322/tape/off,01015,norm,stopped,stop,unlock,ready,rem 9927119311322:postob 9927119311322:source=1302-102,130533.0,-103319.4,2000.0,neutral 9927119311399:midtp 9927119311636/tpzero/500,708,451,815,337,622,103,313,309,149 9927119311655/tpzero/633,626,622,267,375,492,768 9927119311671/rx/02(lo),on,a,on,on,on,off,locked,47.55 9927119311680/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927119311689/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119311699/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927119311708/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927119311717/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927119311717:nw2c1=5 9927119311940/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119312265:fastr=0m41s 9927119314224#trakl#SOURCE_ACQUIRED 9927119320393:!271193230 9927119323001:preob 9927119323063/onsource/TRACKING 9927119323311/tpical/19956,22004,18001,4536,25559,25321,28160,56002,15942,37954 9927119323331/tpical/9034,9471,10821,31419,20092,5625,6910 9927119323338:!271193240 9927119324001:tape 9927119324010/tape/off,00106,norm,stopped,stop,unlock,ready,rem 9927119324010:st=for,135 9927119324021:"data start" 9927119324021:midob 9927119324050/onsource/TRACKING 9927119324052/wx/22.8,990.0,82.0,1.4 9927119324084/cable/+1.0871075E-02 9927119324104/fmout-gps/S 1.8209E-07 9927119324110/ifd/16,19,nor,nor,rem,14310,5995 9927119324116/if3/6,in,2,2,,,present,500.10,rem,lock,33482 9927119324122/vc02/142.99,2.000,u,10,10,rem,lock,19910 9927119324128/vc06/202.89,2.000,u,10,10,rem,lock,22372 9927119324134/vc11/237.99,2.000,u,10,10,rem,lock,9243 9927119324162/tpi/18030,19910,16178,4127,22784,22372,24590,49070,14310,33482 9927119324182/tpi/7747,8079,9243,26355,16857,4778,5995 9927119324183/tsys1/63.5,64.0,60.2,56.5,56.5,51.5,47.9,49.1,59.9,52.0 9927119324184/tsys2/86.3,83.6,85.3,80.4,79.5,79.0,89.2 9927119324184:!271193702 9927119370201:"data stop" 9927119370201:et 9927119370211:!+3s 9927119370513:tape 9927119370522/tape/off,03044,norm,stopped,stop,unlock,ready,rem 9927119370522:postob 9927119370522:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927119370652:check2c1 9927119374669?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119374669?ERROR qg -305 AUX data differs from expected value on track 11. 9927119374669?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119374669/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119374669/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927119380020:nw2c1=5 9927119380073/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119380398:!271193915 9927119382075#trakl#SOURCE_ACQUIRED 9927119391501:preob 9927119391649/onsource/TRACKING 9927119391885/tpical/18888,21075,17224,4365,24366,24215,26789,53446,15201,36103 9927119391905/tpical/8979,9338,10647,31051,19768,5549,6833 9927119391912:!271193925 9927119392501:tape 9927119392511/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927119392511:st=for,135 9927119392522:"data start" 9927119392522:midob 9927119392651/onsource/TRACKING 9927119392653/wx/22.8,989.8,81.5,4.3 9927119392656/cable/+1.0872218E-02 9927119392704/fmout-gps/S 1.8152E-07 9927119392710/ifd/16,19,nor,nor,rem,13564,5910 9927119392716/if3/6,in,2,2,,,present,500.10,rem,lock,31671 9927119392722/vc02/142.99,2.000,u,10,10,rem,lock,18951 9927119392728/vc06/202.89,2.000,u,10,10,rem,lock,21245 9927119392734/vc11/237.99,2.000,u,10,10,rem,lock,9051 9927119392762/tpi/17047,18951,15424,3959,21626,21245,23334,46543,13564,31671 9927119392781/tpi/7674,7922,9051,25931,16500,4694,5910 9927119392783/tsys1/62.7,60.0,58.1,54.1,54.2,48.5,46.9,46.7,56.5,49.6 9927119392784/tsys2/84.2,80.4,82.4,78.2,77.0,76.7,87.0 9927119392784:!271194103 9927119410301:"data stop" 9927119410301:et 9927119410311:!+3s 9927119410613:tape 9927119410622/tape/off,04133,norm,moving,stop,unlock,ready,rem 9927119410622:postob 9927119410622:source=oj287,085448.9,200630.6,2000.0,neutral 9927119410701:nw2c1=5 9927119410754/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119411079:!271194444 9927119441974#trakl#SOURCE_ACQUIRED 9927119444401:preob 9927119444501/onsource/TRACKING 9927119444736/tpical/23030,25533,20868,5180,29726,29431,32705,65169,18562,44336 9927119444756/tpical/9624,10165,11271,33531,21295,5930,7300 9927119444763:!271194454 9927119445403:tape 9927119445430/tape/off,04133,norm,stopped,stop,unlock,ready,rem 9927119445431:st=for,135 9927119445452:"data start" 9927119445452:midob 9927119445552/onsource/TRACKING 9927119445556/wx/22.9,989.8,82.0,1.9 9927119445559/cable/+1.0869342E-02 9927119445603/fmout-gps/S 1.8250E-07 9927119445609/ifd/16,19,nor,nor,rem,16868,6372 9927119445615/if3/6,in,2,2,,,present,500.10,rem,lock,39762 9927119445621/vc02/142.99,2.000,u,10,10,rem,lock,23341 9927119445627/vc06/202.89,2.000,u,10,10,rem,lock,26396 9927119445633/vc11/237.99,2.000,u,10,10,rem,lock,9705 9927119445661/tpi/21072,23341,19068,4755,26878,26396,29160,58234,16868,39762 9927119445681/tpi/8315,8723,9705,28457,18038,5079,6372 9927119445682/tsys1/73.3,72.1,72.2,64.7,65.0,59.3,57.2,58.3,68.2,60.5 9927119445683/tsys2/91.6,87.7,90.5,86.7,84.7,84.1,94.3 9927119445683:!271194632 9927119463201:"data stop" 9927119463201:et 9927119463212:!+3s 9927119463514:tape 9927119463522/tape/off,05223,norm,stopped,stop,unlock,ready,rem 9927119463523:postob 9927119463523:source=4c39.25,092703.0,390220.9,2000.0,neutral 9927119463602:nw2c1=5 9927119463655/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119463979:!271194835 9927119482474#trakl#SOURCE_ACQUIRED 9927119483501:preob 9927119483599/onsource/TRACKING 9927119483834/tpical/20575,22678,18454,4632,25977,25665,28446,56643,16367,38615 9927119483855/tpical/9243,9754,10853,32030,20369,5689,7020 9927119483862:!271194845 9927119484501:tape 9927119484510/tape/off,05223,norm,stopped,stop,unlock,ready,rem 9927119484511:st=for,135 9927119484521:"data start" 9927119484521:midob 9927119484652/onsource/TRACKING 9927119484654/wx/23.0,989.8,82.4,0.0 9927119484671/cable/+1.0870624E-02 9927119484704/fmout-gps/S 1.8180E-07 9927119484710/ifd/16,19,nor,nor,rem,14756,6093 9927119484716/if3/6,in,2,2,,,present,500.10,rem,lock,34303 9927119484722/vc02/142.99,2.000,u,10,10,rem,lock,20560 9927119484728/vc06/202.89,2.000,u,10,10,rem,lock,22843 9927119484734/vc11/237.99,2.000,u,10,10,rem,lock,9273 9927119484761/tpi/18644,20560,16680,4236,23366,22843,25119,50091,14756,34303 9927119484781/tpi/7927,8316,9273,26928,17121,4840,6093 9927119484783/tsys1/65.6,65.4,63.9,60.3,61.6,55.0,52.5,53.0,62.6,55.3 9927119484783/tsys2/86.5,83.5,85.5,81.6,80.5,79.9,89.7 9927119484783:!271195023 9927119502301:"data stop" 9927119502301:et 9927119502311:!+3s 9927119502613:tape 9927119502621/tape/off,06316,norm,stopped,stop,unlock,ready,rem 9927119502622:postob 9927119502622:source=0718+793,072611.7,791131.0,2000.0,neutral 9927119502650:nw2c1=5 9927119502703/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119503028:!271195240 9927119522524#trakl#SOURCE_ACQUIRED 9927119524001:preob 9927119524101/onsource/TRACKING 9927119524336/tpical/18918,21081,17152,4359,24228,23987,26515,52814,15166,35843 9927119524357/tpical/8992,9447,10554,31238,19765,5532,6857 9927119524364:!271195250 9927119525001:tape 9927119525009/tape/off,06316,norm,stopped,stop,unlock,ready,rem 9927119525010:st=for,135 9927119525021:"data start" 9927119525021:midob 9927119525101/onsource/TRACKING 9927119525103/wx/23.3,989.8,81.7,0.0 9927119525116/cable/+1.0871487E-02 9927119525203/fmout-gps/S 1.8111E-07 9927119525209/ifd/16,19,nor,nor,rem,13512,5919 9927119525215/if3/6,in,2,2,,,present,500.10,rem,lock,31397 9927119525221/vc02/142.99,2.000,u,10,10,rem,lock,18931 9927119525227/vc06/202.89,2.000,u,10,10,rem,lock,21048 9927119525233/vc11/237.99,2.000,u,10,10,rem,lock,8959 9927119525261/tpi/16999,18931,15368,3954,21505,21048,23035,45903,13512,31397 9927119525281/tpi/7702,8034,8959,26073,16481,4673,5919 9927119525282/tsys1/60.0,59.2,58.4,54.1,54.3,48.5,46.0,46.0,55.7,49.1 9927119525283/tsys2/85.5,81.8,81.6,78.0,76.6,76.0,85.7 9927119525283:!271195428 9927119542801:"data stop" 9927119542801:et 9927119542812:!+3s 9927119543114:tape 9927119543123/tape/off,07409,norm,stopped,stop,unlock,ready,rem 9927119543123:postob 9927119543123:source=2235+731,223638.6,732252.7,2000.0,neutral 9927119543150:midtp 9927119543385/tpzero/505,707,450,819,335,622,97,313,303,149 9927119543405/tpzero/632,626,622,272,380,490,771 9927119543421/rx/02(lo),on,a,on,on,on,off,locked,47.68 9927119543430/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927119543440/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119543449/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927119543458/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927119543467/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927119543468:nw2c2=6 9927119543632/pass/6,6,auto,-220.0,-220.0,-220.9,-218.3,-0.9,1.7 9927119543957:fastf=1m8s 9927119554785:!271195738 9927119555474#trakl#SOURCE_ACQUIRED 9927119573801:preob 9927119573899/onsource/TRACKING 9927119574134/tpical/19093,21222,17313,4386,24461,24194,26702,53277,15285,36145 9927119574155/tpical/9089,9566,10621,31482,19904,5581,6901 9927119574162:!271195748 9927119574801:tape 9927119574810/tape/off,08924,norm,stopped,stop,unlock,ready,rem 9927119574810:st=rev,135 9927119574821:"data start" 9927119574821:midob 9927119574901/onsource/TRACKING 9927119574903/wx/23.8,989.7,78.7,3.4 9927119574923/cable/+1.0873575E-02 9927119575003/fmout-gps/S 1.8131E-07 9927119575009/ifd/16,19,nor,nor,rem,13625,5968 9927119575015/if3/6,in,2,2,,,present,500.10,rem,lock,31648 9927119575021/vc02/142.99,2.000,u,10,10,rem,lock,19070 9927119575027/vc06/202.89,2.000,u,10,10,rem,lock,21210 9927119575033/vc11/237.99,2.000,u,10,10,rem,lock,9035 9927119575061/tpi/17179,19070,15459,3975,21647,21210,23195,46284,13625,31648 9927119575081/tpi/7783,8125,9035,26312,16637,4718,5968 9927119575082/tsys1/60.8,59.6,56.5,53.6,52.9,48.2,46.0,45.9,56.0,48.9 9927119575083/tsys2/85.5,81.2,82.8,78.6,77.7,76.5,87.0 9927119575083:!271200007 9927120000701:"data stop" 9927120000701:et 9927120000712:!+3s 9927120001014:tape 9927120001023/tape/off,07369,norm,stopped,stop,unlock,ready,rem 9927120001023:postob 9927120001023:source=2201+315,220315.0,314538.3,2000.0,cw 9927120001050:check2c2 9927120005008?ERROR qg -303 Track 11 parity errors exceed threshold. 9927120005008?ERROR qg -305 AUX data differs from expected value on track 11. 9927120005008?ERROR qg -304 Track 11 sync errors exceed threshold. 9927120005008/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927120005008/parity/0,0,0,0,0,163,0,0,0,0,0,0,0,0 9927120010419:nw2c2=6 9927120010487/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120010818:!271200246 9927120015875#trakl#SOURCE_ACQUIRED 9927120024601:preob 9927120024749/onsource/TRACKING 9927120024984/tpical/21843,24236,19776,4901,27858,27458,30452,60673,17482,41340 9927120025005/tpical/9576,10109,11130,33239,21027,5856,7232 9927120025012:!271200256 9927120025601:tape 9927120025610/tape/off,07372,norm,stopped,stop,unlock,ready,rem 9927120025610:st=rev,135 9927120025621:"data start" 9927120025621:midob 9927120025651/onsource/TRACKING 9927120025653/wx/23.8,989.6,78.5,0.8 9927120025668/cable/+1.0872681E-02 9927120025704/fmout-gps/S 1.8154E-07 9927120025710/ifd/16,19,nor,nor,rem,15837,6297 9927120025716/if3/6,in,2,2,,,present,500.10,rem,lock,36910 9927120025722/vc02/142.99,2.000,u,10,10,rem,lock,22062 9927120025728/vc06/202.89,2.000,u,10,10,rem,lock,24538 9927120025734/vc11/237.99,2.000,u,10,10,rem,lock,9554 9927120025762/tpi/19923,22062,17953,4493,25151,24538,26948,53855,15837,36910 9927120025781/tpi/8251,8664,9554,28039,17790,5000,6297 9927120025783/tsys1/70.6,68.6,67.0,62.9,64.0,57.2,53.5,54.8,65.9,57.9 9927120025784/tsys2/89.8,86.8,88.5,83.4,84.0,82.2,92.3 9927120025784:!271200434 9927120043401:"data stop" 9927120043401:et 9927120043411:!+3s 9927120043713:tape 9927120043722/tape/off,06279,norm,stopped,stop,unlock,ready,rem 9927120043722:postob 9927120043722:source=3c418,203837.0,511912.7,2000.0,cw 9927120043799:nw2c2=6 9927120043852/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120044176:!271200915 9927120053276;wx 9927120053281/wx/23.8,989.5,78.4,1.0 9927120060194;"wx,95% clouds,lite breeze. 9927120060464;rxmon 9927120060473/rx/02(lo),on,a,on,on,on,off,locked,47.92 9927120060482/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927120060491/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927120060500/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927120060510/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927120060519/rx/1F(70k),on,a,on,on,on,off,locked,56.96 9927120062348;"rxtemps 20k=29.07 70k=56.96 9927120070325#trakl#SOURCE_ACQUIRED 9927120091501:preob 9927120091553/onsource/TRACKING 9927120091788/tpical/19074,21280,17320,4374,24316,23990,26487,52754,15258,35880 9927120091808/tpical/9356,9804,10836,32198,20376,5673,7039 9927120091815:!271200925 9927120092501:tape 9927120092511/tape/off,06279,norm,stopped,stop,unlock,ready,rem 9927120092511:st=rev,135 9927120092522:"data start" 9927120092522:midob 9927120092600/onsource/TRACKING 9927120092602/wx/23.7,989.5,78.9,3.5 9927120092620/cable/+1.0872402E-02 9927120092704/fmout-gps/S 1.8166E-07 9927120092710/ifd/16,19,nor,nor,rem,13595,6100 9927120092716/if3/6,in,2,2,,,present,500.10,rem,lock,31443 9927120092722/vc02/142.99,2.000,u,10,10,rem,lock,19084 9927120092728/vc06/202.89,2.000,u,10,10,rem,lock,21010 9927120092734/vc11/237.99,2.000,u,10,10,rem,lock,9243 9927120092762/tpi/17128,19084,15471,3967,21540,21010,23056,45938,13595,31443 9927120092782/tpi/8027,8333,9243,26954,17047,4816,6100 9927120092784/tsys1/59.6,58.4,56.7,54.0,53.3,47.8,46.7,46.7,55.8,49.2 9927120092784/tsys2/86.9,81.8,84.5,79.4,78.2,78.8,88.6 9927120092784:!271201103 9927120110301:"data stop" 9927120110301:et 9927120110311:!+3s 9927120110613:tape 9927120110622/tape/off,05186,norm,stopped,stop,unlock,ready,rem 9927120110622:postob 9927120110622:source=1726+455,172727.7,453039.7,2000.0,cw 9927120110699:nw2c2=6 9927120110752/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120111078:!271201553 9927120135725#trakl#SOURCE_ACQUIRED 9927120155301:preob 9927120155401/onsource/TRACKING 9927120155637/tpical/19213,21523,17552,4457,24412,24174,26676,52971,15445,36057 9927120155657/tpical/9312,9787,10790,31975,20189,5639,7000 9927120155663:!271201603 9927120160301:tape 9927120160310/tape/off,05186,norm,stopped,stop,unlock,ready,rem 9927120160310:st=rev,135 9927120160321:"data start" 9927120160321:midob 9927120160450/onsource/TRACKING 9927120160452/wx/23.5,989.4,80.5,6.4 9927120160472/cable/+1.0870012E-02 9927120160504/fmout-gps/S 1.8146E-07 9927120160510/ifd/16,19,nor,nor,rem,13837,6060 9927120160516/if3/6,in,2,2,,,present,500.10,rem,lock,31791 9927120160522/vc02/142.99,2.000,u,10,10,rem,lock,19432 9927120160528/vc06/202.89,2.000,u,10,10,rem,lock,21358 9927120160534/vc11/237.99,2.000,u,10,10,rem,lock,9197 9927120160562/tpi/17328,19432,15768,4054,21779,21358,23353,46431,13837,31791 9927120160582/tpi/7979,8327,9197,26771,16899,4780,6060 9927120160583/tsys1/62.3,62.5,59.9,56.0,56.8,51.4,48.8,49.2,58.7,51.8 9927120160584/tsys2/86.0,82.3,84.0,79.5,78.4,78.0,87.8 9927120160584:!271201741 9927120174101:"data stop" 9927120174101:et 9927120174111:!+3s 9927120174413:tape 9927120174422/tape/off,04093,norm,stopped,stop,unlock,ready,rem 9927120174422:postob 9927120174422:source=1014+615,101725.9,611627.5,2000.0,neutral 9927120174501:nw2c2=6 9927120174554/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120174879:!271202329 9927120222374#trakl#SOURCE_ACQUIRED 9927120232901:preob 9927120233050/onsource/TRACKING 9927120233285/tpical/18736,21001,17141,4348,24083,23820,26356,52389,15085,35543 9927120233305/tpical/9011,9477,10535,30957,19617,5485,6793 9927120233312:!271202339 9927120233901:tape 9927120233910/tape/off,04093,norm,stopped,stop,unlock,ready,rem 9927120233911:st=rev,135 9927120233921:"data start" 9927120233921:midob 9927120234001/onsource/TRACKING 9927120234003/wx/23.5,989.3,80.9,0.3 9927120234013/cable/+1.0872132E-02 9927120234104/fmout-gps/S 1.8201E-07 9927120234110/ifd/16,19,nor,nor,rem,13464,5868 9927120234116/if3/6,in,2,2,,,present,500.10,rem,lock,31147 9927120234122/vc02/142.99,2.000,u,10,10,rem,lock,18886 9927120234128/vc06/202.89,2.000,u,10,10,rem,lock,20897 9927120234134/vc11/237.99,2.000,u,10,10,rem,lock,8964 9927120234162/tpi/16859,18886,15367,3943,21384,20897,22889,45504,13464,31147 9927120234182/tpi/7710,8044,8964,25814,16368,4640,5868 9927120234183/tsys1/60.8,60.0,58.7,53.8,54.4,48.4,45.9,45.8,56.7,49.2 9927120234184/tsys2/84.9,80.8,82.9,77.5,76.8,76.7,86.0 9927120234184:!271202517 9927120251701:"data stop" 9927120251701:et 9927120251711:!+3s 9927120252013:tape 9927120252022/tape/off,03000,norm,stopped,stop,unlock,ready,rem 9927120252022:postob 9927120252022:source=1308+326,131028.7,322043.8,2000.0,neutral 9927120252101:nw2c2=6 9927120252154/pass/6,6,auto,-220.0,-220.0,-220.0,-221.0,0.0,-1.0 9927120252480:!271202809 9927120275274#trakl#SOURCE_ACQUIRED 9927120280901:preob 9927120281001/onsource/TRACKING 9927120281236/tpical/18684,20824,17047,4339,23990,23798,26311,52326,15056,35464 9927120281256/tpical/8991,9466,10572,31070,19815,5542,6839 9927120281263:!271202819 9927120281902:tape 9927120281911/tape/off,03000,norm,stopped,stop,unlock,ready,rem 9927120281911:st=rev,135 9927120281922:"data start" 9927120281922:midob 9927120281950/onsource/TRACKING 9927120281952/wx/23.4,989.2,81.7,1.3 9927120281984/cable/+1.0872786E-02 9927120282004/fmout-gps/S 1.8113E-07 9927120282010/ifd/16,19,nor,nor,rem,13411,5916 9927120282016/if3/6,in,2,2,,,present,500.10,rem,lock,31047 9927120282022/vc02/142.99,2.000,u,10,10,rem,lock,18717 9927120282028/vc06/202.89,2.000,u,10,10,rem,lock,20840 9927120282034/vc11/237.99,2.000,u,10,10,rem,lock,8987 9927120282062/tpi/16816,18717,15270,3935,21271,20840,22847,45409,13411,31047 9927120282081/tpi/7680,8031,8987,25966,16562,4688,5916 9927120282083/tsys1/60.9,59.7,58.2,53.8,53.7,47.7,45.8,45.5,55.6,48.8 9927120282084/tsys2/83.9,80.6,82.4,78.6,77.7,76.7,87.0 9927120282084:!271202957 9927120295701:"data stop" 9927120295701:et 9927120295712:!+3s 9927120300014:tape 9927120300023/tape/off,01907,norm,stopped,stop,unlock,ready,rem 9927120300023:postob 9927120300023:source=1611+343,161341.1,341247.9,2000.0,neutral 9927120300050:nw2c2=6 9927120300103/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120300430:!271203420 9927120335475#trakl#SOURCE_ACQUIRED 9927120342001:preob 9927120342099/onsource/TRACKING 9927120342334/tpical/19325,21615,17667,4468,24695,24483,26978,53440,15563,36456 9927120342355/tpical/9250,9712,10950,32087,20422,5703,7020 9927120342362:!271203430 9927120343001:tape 9927120343010/tape/off,01907,norm,stopped,stop,unlock,ready,rem 9927120343010:st=rev,135 9927120343021:"data start" 9927120343021:midob 9927120343099/onsource/TRACKING 9927120343101/wx/23.4,989.0,81.7,0.0 9927120343135/cable/+1.0871374E-02 9927120343203/fmout-gps/S 1.8133E-07 9927120343209/ifd/16,19,nor,nor,rem,13939,6103 9927120343215/if3/6,in,2,2,,,present,500.10,rem,lock,32167 9927120343221/vc02/142.99,2.000,u,10,10,rem,lock,19437 9927120343227/vc06/202.89,2.000,u,10,10,rem,lock,21623 9927120343233/vc11/237.99,2.000,u,10,10,rem,lock,9352 9927120343261/tpi/17410,19437,15869,4064,22016,21623,23665,46992,13939,32167 9927120343281/tpi/7973,8303,9352,26993,17201,4858,6103 9927120343283/tsys1/61.6,60.0,59.9,56.1,56.5,51.3,49.7,50.5,58.6,52.1 9927120343283/tsys2/89.7,85.1,85.3,81.9,81.5,80.7,90.8 9927120343283:!271203608 9927120360801:"data stop" 9927120360801:et 9927120360811:!+3s 9927120361113:tape 9927120361122/tape/off,00814,norm,stopped,stop,unlock,ready,rem 9927120361122:postob 9927120361122:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927120361201:midtp 9927120361437/tpzero/505,706,449,820,348,619,92,314,306,149 9927120361457/tpzero/629,623,621,266,379,488,772 9927120361473/rx/02(lo),on,a,on,on,on,off,locked,48.16 9927120361483/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927120361492/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927120361501/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927120361511/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927120361520/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927120361520:nw2c1=7 9927120361708/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120362036:fastr=0m31s 9927120365164:!271204053 9927120384525#trakl#SOURCE_ACQUIRED 9927120405301:preob 9927120405353/onsource/TRACKING 9927120405588/tpical/19778,22124,18250,4574,25667,25371,28112,55830,16050,37909 9927120405608/tpical/9060,9543,10791,31463,20115,5623,6903 9927120405615:!271204103 9927120410301:tape 9927120410310/tape/off,00131,norm,stopped,stop,unlock,ready,rem 9927120410311:st=for,135 9927120410322:"data start" 9927120410322:midob 9927120410400/onsource/TRACKING 9927120410402/wx/23.4,988.9,83.1,3.4 9927120410411/cable/+1.0870258E-02 9927120410503/fmout-gps/S 1.8086E-07 9927120410509/ifd/16,19,nor,nor,rem,14460,5990 9927120410515/if3/6,in,2,2,,,present,500.10,rem,lock,33631 9927120410521/vc02/142.99,2.000,u,10,10,rem,lock,20058 9927120410527/vc06/202.89,2.000,u,10,10,rem,lock,22507 9927120410533/vc11/237.99,2.000,u,10,10,rem,lock,9205 9927120410561/tpi/17991,20058,16501,4181,23014,22507,24729,49133,14460,33631 9927120410581/tpi/7775,8123,9205,26379,16886,4775,5990 9927120410582/tsys1/68.3,65.4,64.1,59.7,59.6,53.3,50.8,50.9,62.1,54.6 9927120410583/tsys2/86.8,82.4,84.5,80.2,79.8,78.9,89.2 9927120410583:!271204241 9927120424101:"data stop" 9927120424101:et 9927120424112:!+3s 9927120424415:tape 9927120424424/tape/off,01224,norm,stopped,stop,unlock,ready,rem 9927120424424:postob 9927120424424:source=2136+141,213901.3,142336.0,2000.0,ccw 9927120424451:check2c1 9927120432394?ERROR qg -303 Track 11 parity errors exceed threshold. 9927120432394?ERROR qg -305 AUX data differs from expected value on track 11. 9927120432394?ERROR qg -304 Track 11 sync errors exceed threshold. 9927120432394/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927120432394/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927120433819:nw2c1=7 9927120433872/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120434291:!271204649 9927120451774#trakl#SOURCE_ACQUIRED 9927120464901:preob 9927120465051/onsource/TRACKING 9927120465286/tpical/21857,24113,19790,4943,28126,27740,30651,61122,17556,41711 9927120465306/tpical/9517,10067,11112,32954,20875,5825,7201 9927120465313:!271204659 9927120465901:tape 9927120465909/tape/off,01220,norm,stopped,stop,unlock,ready,rem 9927120465910:st=for,135 9927120465921:"data start" 9927120465921:midob 9927120465953/onsource/TRACKING 9927120465955/wx/23.4,988.7,82.7,0.9 9927120465980/cable/+1.0867635E-02 9927120470003/fmout-gps/S 1.8193E-07 9927120470009/ifd/16,19,nor,nor,rem,15959,6274 9927120470015/if3/6,in,2,2,,,present,500.10,rem,lock,37370 9927120470021/vc02/142.99,2.000,u,10,10,rem,lock,22026 9927120470027/vc06/202.89,2.000,u,10,10,rem,lock,24836 9927120470033/vc11/237.99,2.000,u,10,10,rem,lock,9525 9927120470061/tpi/19987,22026,18045,4547,25482,24836,27301,54535,15959,37370 9927120470081/tpi/8201,8609,9525,27768,17625,4979,6274 9927120470083/tsys1/72.7,71.3,70.4,65.7,66.4,58.2,56.7,57.5,68.4,59.8 9927120470083/tsys2/89.8,85.5,87.6,82.8,82.8,82.9,92.6 9927120470083:!271204837 9927120483701:"data stop" 9927120483701:et 9927120483712:!+3s 9927120484014:tape 9927120484022/tape/off,02313,norm,stopped,stop,unlock,ready,rem 9927120484023:postob 9927120484023:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927120484100:nw2c1=7 9927120484153/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120484477:!271205345 9927120505175#trakl#SOURCE_ACQUIRED 9927120534501:preob 9927120534553/onsource/TRACKING 9927120534788/tpical/23153,25457,21029,5211,29854,29409,32647,65071,18656,44399 9927120534808/tpical/9664,10225,11339,33647,21306,5948,7315 9927120534815:!271205355 9927120535502:tape 9927120535511/tape/off,02313,norm,stopped,stop,unlock,ready,rem 9927120535511:st=for,135 9927120535522:"data start" 9927120535522:midob 9927120535600/onsource/TRACKING 9927120535602/wx/23.2,988.9,83.6,5.7 9927120535632/cable/+1.0868017E-02 9927120535704/fmout-gps/S 1.8170E-07 9927120535710/ifd/16,19,nor,nor,rem,17005,6385 9927120535716/if3/6,in,2,2,,,present,500.10,rem,lock,39968 9927120535722/vc02/142.99,2.000,u,10,10,rem,lock,23311 9927120535728/vc06/202.89,2.000,u,10,10,rem,lock,26518 9927120535734/vc11/237.99,2.000,u,10,10,rem,lock,9758 9927120535762/tpi/21237,23311,19230,4800,27146,26518,29225,58346,17005,39968 9927120535781/tpi/8371,8776,9758,28555,18109,5101,6385 9927120535783/tsys1/75.5,73.5,72.9,67.6,69.1,62.5,59.4,60.2,70.6,62.7 9927120535783/tsys2/93.5,87.8,90.2,86.7,86.6,85.0,94.2 9927120535783:!271205533 9927120553301:"data stop" 9927120553301:et 9927120553312:!+3s 9927120553614:tape 9927120553623/tape/off,03406,norm,stopped,stop,unlock,ready,rem 9927120553623:postob 9927120553623:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927120553700:nw2c1=7 9927120553753/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120554077:!271205804 9927120575275#trakl#SOURCE_ACQUIRED 9927120580401:preob 9927120580453/onsource/TRACKING 9927120580688/tpical/20918,22983,18931,4740,26873,26463,29375,58628,16747,39805 9927120580708/tpical/9169,9616,10908,31899,20466,5733,7005 9927120580715:!271205814 9927120581401:tape 9927120581410/tape/off,03406,norm,stopped,stop,unlock,ready,rem 9927120581410:st=for,135 9927120581421:"data start" 9927120581421:midob 9927120581501/onsource/TRACKING 9927120581503/wx/22.9,989.0,85.9,0.9 9927120581515/cable/+1.0867241E-02 9927120581603/fmout-gps/S 1.8164E-07 9927120581609/ifd/16,19,nor,nor,rem,15130,6102 9927120581615/if3/6,in,2,2,,,present,500.10,rem,lock,35427 9927120581621/vc02/142.99,2.000,u,10,10,rem,lock,20876 9927120581627/vc06/202.89,2.000,u,10,10,rem,lock,23585 9927120581633/vc11/237.99,2.000,u,10,10,rem,lock,9352 9927120581661/tpi/19025,20876,17132,4341,24152,23585,25953,51813,15130,35427 9927120581681/tpi/7911,8250,9352,26962,17243,4889,6102 9927120581682/tsys1/68.3,66.8,64.7,61.6,61.1,55.7,52.7,52.7,64.0,56.2 9927120581683/tsys2/90.4,87.2,87.6,84.4,81.7,81.4,92.1 9927120581683:!271205952 9927120593806;wx 9927120593809/wx/22.9,989.0,86.1,0.0 9927120595177;"wx,overcast,calm. 9927120595201:"data stop" 9927120595201:et 9927120595212:!+3s 9927120595367;rxmon 9927120595376/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927120595385/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927120595394/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927120595403/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927120595412/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927120595422/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927120595514:tape 9927120595522/tape/off,04499,norm,stopped,stop,unlock,ready,rem 9927120595523:postob 9927120595523:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927120595652:nw2c1=7 9927120595705/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927121000030:!271210218 9927121001009;"rxtemps 20k=29.07 70k=56.27 9927121021801:preob 9927121021951?ERROR AN -103 Pointing computer tracking errors are too large. 9927121021951?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927121021951/onsource/SLEWING 9927121022186/tpical/24173,26672,21998,5426,31374,30913,34316,$$$$$,19577,46751 9927121022206/tpical/9587,10149,11497,34058,21808,6085,7395 9927121022213:!271210228 9927121022801:tape 9927121022809/tape/off,04499,norm,stopped,stop,unlock,ready,rem 9927121022810:st=for,135 9927121022821:"data start" 9927121022821:midob 9927121022901?ERROR AN -103 Pointing computer tracking errors are too large. 9927121022901?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927121022901/onsource/SLEWING 9927121022904/wx/22.8,989.0,87.2,0.0 9927121022932/cable/+1.0866204E-02 9927121023004/fmout-gps/S 1.8240E-07 9927121023010/ifd/16,19,nor,nor,rem,18048,6484 9927121023016/if3/6,in,2,2,,,present,500.10,rem,lock,42589 9927121023022/vc02/142.99,2.000,u,10,10,rem,lock,24695 9927121023028/vc06/202.89,2.000,u,10,10,rem,lock,28183 9927121023033/vc11/237.99,2.000,u,10,10,rem,lock,9944 9927121023061/tpi/22429,24695,20324,5053,28847,28183,31165,61972,18048,42589 9927121023081/tpi/8319,8757,9944,29068,18608,5240,6484 9927121023083?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927121023083/tsys1/87.7,84.7,82.9,79.2,78.7,70.5,68.8,$$$$$$$$,81.0,71.2 9927121023083/tsys2/94.7,91.2,93.7,90.1,88.9,87.8,97.9 9927121023084:!271210406 9927121024674#trakl#SOURCE_ACQUIRED 9927121040375#trakl#OFF_SOURCE 9927121040601:"data stop" 9927121040601:et 9927121040612:!+3s 9927121040914:tape 9927121040923/tape/off,05592,norm,stopped,stop,unlock,ready,rem 9927121040923:postob 9927121040923:source=1236+077,123924.6,073017.2,2000.0,neutral 9927121041000:nw2c1=7 9927121041053/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927121041379:!271210819 9927121060674#trakl#SOURCE_ACQUIRED 9927121081902:preob 9927121082052/onsource/TRACKING 9927121082288/tpical/19342,21308,17479,4439,24900,24526,27090,54280,15472,36775 9927121082307/tpical/8917,9385,10615,30883,19861,5570,6842 9927121082314:!271210829 9927121082901:tape 9927121082909/tape/off,05592,norm,stopped,stop,unlock,ready,rem 9927121082910:st=for,135 9927121082920:"data start" 9927121082920:midob 9927121082953/onsource/TRACKING 9927121082955/wx/22.7,988.9,88.0,0.0 9927121082968/cable/+1.0867599E-02 9927121083004/fmout-gps/S 1.8078E-07 9927121083010/ifd/16,19,nor,nor,rem,13852,5944 9927121083016/if3/6,in,2,2,,,present,500.10,rem,lock,32387 9927121083022/vc02/142.99,2.000,u,10,10,rem,lock,19193 9927121083027/vc06/202.89,2.000,u,10,10,rem,lock,21640 9927121083033/vc11/237.99,2.000,u,10,10,rem,lock,9048 9927121083061/tpi/17473,19193,15690,4039,22148,21640,23649,47387,13852,32387 9927121083081/tpi/7649,8002,9048,25917,16648,4723,5944 9927121083083/tsys1/63.4,61.0,59.5,56.2,55.3,50.8,47.8,47.7,58.4,51.3 9927121083083/tsys2/86.4,83.3,83.9,80.6,79.0,78.0,89.9 9927121083083:!271211301 9927121130101:"data stop" 9927121130101:et 9927121130111:!+3s 9927121130413:tape 9927121130421/tape/off,08642,norm,stopped,stop,unlock,ready,rem 9927121130422:postob 9927121130422:source=1222+037,122452.4,033050.3,2000.0,neutral 9927121130451:midtp 9927121130687/tpzero/504,707,452,818,342,621,92,314,304,149 9927121130707/tpzero/632,625,622,265,378,491,764 9927121130723/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121130732/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121130741/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121130750/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927121130759/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927121130769/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121130769:nw2c2=8 9927121130932/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121131259:fastf=0m14s 9927121132687:!271211354 9927121134725#trakl#SOURCE_ACQUIRED 9927121135401:preob 9927121135501/onsource/TRACKING 9927121135736/tpical/20163,22208,18264,4618,26025,25619,28348,56626,16164,38473 9927121135757/tpical/9146,9703,11011,32241,20534,5782,7033 9927121135764:!271211404 9927121140401:tape 9927121140410/tape/off,08943,norm,stopped,stop,unlock,ready,rem 9927121140411:st=rev,135 9927121140422:"data start" 9927121140422:midob 9927121140500/onsource/TRACKING 9927121140502/wx/22.7,989.0,87.2,0.0 9927121140519/cable/+1.0867150E-02 9927121140604/fmout-gps/S 1.8201E-07 9927121140609/ifd/16,19,nor,nor,rem,14607,6148 9927121140615/if3/6,in,2,2,,,present,500.10,rem,lock,34226 9927121140621/vc02/142.99,2.000,u,10,10,rem,lock,20159 9927121140627/vc06/202.89,2.000,u,10,10,rem,lock,22813 9927121140633/vc11/237.99,2.000,u,10,10,rem,lock,9501 9927121140661/tpi/18326,20159,16551,4221,23379,22813,24984,50024,14607,34226 9927121140681/tpi/7907,8352,9501,27390,17434,4970,6148 9927121140683/tsys1/67.7,66.3,65.6,59.8,60.8,55.2,51.6,52.6,64.1,56.0 9927121140683/tsys2/91.7,89.3,91.8,87.3,85.9,86.1,95.0 9927121140683:!271211826 9927121182601:"data stop" 9927121182601:et 9927121182611:!+3s 9927121182913:tape 9927121182922/tape/off,06005,norm,stopped,stop,unlock,ready,rem 9927121182922:postob 9927121182922:source=1219+044,122222.5,041315.8,2000.0,neutral 9927121183001:check2c2 9927121184174#trakl#SOURCE_ACQUIRED 9927121190945?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121190945?ERROR qg -305 AUX data differs from expected value on track 11. 9927121190945?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121190945/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927121190945/parity/0,0,0,0,0,229,0,0,0,0,0,0,0,0 9927121192369:nw2c2=8 9927121192422/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121192747:!271212039 9927121203901:preob 9927121204001/onsource/TRACKING 9927121204236/tpical/20856,22979,18868,4748,26916,26523,29437,58659,16750,39888 9927121204257/tpical/9172,9683,10912,31732,20505,5739,7049 9927121204264:!271212049 9927121204901:tape 9927121204910/tape/off,06009,norm,stopped,stop,unlock,ready,rem 9927121204910:st=rev,135 9927121204921:"data start" 9927121204921:midob 9927121205066/onsource/TRACKING 9927121205069/wx/22.7,989.0,87.9,2.7 9927121205102/cable/+1.0867480E-02 9927121205203/fmout-gps/S 1.8187E-07 9927121205209/ifd/16,19,nor,nor,rem,15067,6147 9927121205215/if3/6,in,2,2,,,present,500.10,rem,lock,35340 9927121205221/vc02/142.99,2.000,u,10,10,rem,lock,20788 9927121205227/vc06/202.89,2.000,u,10,10,rem,lock,23574 9927121205233/vc11/237.99,2.000,u,10,10,rem,lock,9373 9927121205260/tpi/18862,20788,17047,4331,24099,23574,25891,51573,15067,35340 9927121205280/tpi/7921,8299,9373,26767,17327,4919,6147 9927121205282/tsys1/64.3,64.0,63.6,58.8,58.9,54.3,50.8,50.5,61.2,54.0 9927121205282/tsys2/91.0,86.6,88.8,83.3,83.3,84.3,93.2 9927121205283:!271212409 9927121240901:"data stop" 9927121240901:et 9927121240912:!+3s 9927121241214:tape 9927121241223/tape/off,03768,norm,stopped,stop,unlock,ready,rem 9927121241223:postob 9927121241223:source=1101+384,110427.3,381231.8,2000.0,neutral 9927121241350:nw2c2=8 9927121241403/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121241730:!271212622 9927121255725#trakl#SOURCE_ACQUIRED 9927121262201:preob 9927121262253/onsource/TRACKING 9927121262488/tpical/19243,21227,17384,4422,24681,24350,26873,53698,15377,36485 9927121262508/tpical/8954,9469,10604,31129,19918,5572,6861 9927121262515:!271212632 9927121263201:tape 9927121263210/tape/off,03768,norm,stopped,stop,unlock,ready,rem 9927121263210:st=rev,135 9927121263221:"data start" 9927121263221:midob 9927121263300/onsource/TRACKING 9927121263302/wx/22.6,989.0,90.1,2.5 9927121263328/cable/+1.0867584E-02 9927121263404/fmout-gps/S 1.8193E-07 9927121263410/ifd/16,19,nor,nor,rem,13756,5936 9927121263416/if3/6,in,2,2,,,present,500.10,rem,lock,32119 9927121263422/vc02/142.99,2.000,u,10,10,rem,lock,19104 9927121263428/vc06/202.89,2.000,u,10,10,rem,lock,21484 9927121263434/vc11/237.99,2.000,u,10,10,rem,lock,9030 9927121263462/tpi/17367,19104,15583,4017,21973,21484,23495,47011,13756,32119 9927121263482/tpi/7672,8064,9030,26018,16681,4725,5936 9927121263484/tsys1/62.7,60.5,58.6,55.1,55.8,50.8,48.4,48.7,57.9,51.1 9927121263484/tsys2/85.7,82.6,83.4,78.7,78.6,78.0,87.3 9927121263484:!271213059 9927121305901:"data stop" 9927121305901:et 9927121305911:!+3s 9927121310213:tape 9927121310222/tape/off,00774,norm,stopped,stop,unlock,ready,rem 9927121310222:postob 9927121310222:source=1104+728,110741.7,723236.0,2000.0,neutral 9927121310301:midtp 9927121310537/tpzero/505,705,447,819,353,618,93,314,305,149 9927121310558/tpzero/626,625,620,266,373,489,760 9927121310574/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927121310583/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121310592/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121310602/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927121310611/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927121310620/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121310621:nw2c1=9 9927121310806/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121311166:fastr=0m30s 9927121314194:!271213251 9927121324074#trakl#SOURCE_ACQUIRED 9927121325101:preob 9927121325200/onsource/TRACKING 9927121325436/tpical/18482,20540,16756,4287,23744,23391,25864,51484,14801,34953 9927121325456/tpical/9021,9452,10457,30910,19620,5491,6796 9927121325463:!271213301 9927121330101:tape 9927121330110/tape/off,00112,norm,moving,stop,unlock,ready,rem 9927121330111:st=for,135 9927121330122:"data start" 9927121330122:midob 9927121330150/onsource/TRACKING 9927121330152/wx/22.5,988.9,92.6,1.5 9927121330172/cable/+1.0866085E-02 9927121330204/fmout-gps/S 1.8266E-07 9927121330210/ifd/16,19,nor,nor,rem,13173,5859 9927121330215/if3/6,in,2,2,,,present,500.10,rem,lock,30606 9927121330221/vc02/142.99,2.000,u,10,10,rem,lock,18417 9927121330227/vc06/202.89,2.000,u,10,10,rem,lock,20494 9927121330233/vc11/237.99,2.000,u,10,10,rem,lock,8866 9927121330261/tpi/16592,18417,14978,3884,21035,20494,22460,44707,13173,30606 9927121330281/tpi/7685,8017,8866,25758,16376,4638,5859 9927121330283/tsys1/59.4,58.2,57.0,53.1,53.3,47.9,45.9,45.7,55.2,48.9 9927121330283/tsys2/82.5,80.4,80.9,77.2,77.0,75.9,84.9 9927121330283:!271213851 9927121385101:"data stop" 9927121385101:et 9927121385111:!+3s 9927121385414:tape 9927121385422/tape/off,04039,norm,stopped,stop,unlock,ready,rem 9927121385423:postob 9927121385423:source=0014+813,001708.5,813508.1,2000.0,neutral 9927121385500:check2c1 9927121393503?ERROR qg -305 AUX data differs from expected value on track 1. 9927121393504?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121393504?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121393504/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927121393504/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927121394868:nw2c1=9 9927121394921/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121395248:!271214256 9927121402525#trakl#SOURCE_ACQUIRED 9927121425601:preob 9927121425701/onsource/TRACKING 9927121425936/tpical/18850,20954,17116,4371,24287,23925,26470,52612,15116,35763 9927121425957/tpical/9085,9552,10535,31148,19755,5539,6850 9927121425964:!271214306 9927121430601:tape 9927121430610/tape/off,04034,norm,moving,stop,unlock,ready,rem 9927121430611:st=for,135 9927121430622:"data start" 9927121430622:midob 9927121430700/onsource/TRACKING 9927121430702/wx/22.2,988.8,93.2,2.2 9927121430724/cable/+1.0865848E-02 9927121430803/fmout-gps/S 1.8172E-07 9927121430809/ifd/16,19,nor,nor,rem,13492,5921 9927121430815/if3/6,in,2,2,,,present,500.10,rem,lock,31387 9927121430821/vc02/142.99,2.000,u,10,10,rem,lock,18854 9927121430827/vc06/202.89,2.000,u,10,10,rem,lock,21019 9927121430833/vc11/237.99,2.000,u,10,10,rem,lock,8966 9927121430861/tpi/16968,18854,15322,3966,21553,21019,23027,45858,13492,31387 9927121430881/tpi/7782,8091,8966,25999,16514,4678,5921 9927121430883/tsys1/61.1,60.3,57.9,54.2,54.1,49.0,46.5,47.1,56.7,49.8 9927121430883/tsys2/85.7,79.8,83.0,78.0,77.7,75.9,86.7 9927121430883:!271214728 9927121472801:"data stop" 9927121472801:et 9927121472811:!+3s 9927121473114:tape 9927121473123/tape/off,06972,norm,stopped,stop,unlock,ready,rem 9927121473123:postob 9927121473123:source=1014+615,101725.9,611627.5,2000.0,neutral 9927121473150:nw2c1=9 9927121473203/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121473530:!271215029 9927121492774#trakl#SOURCE_ACQUIRED 9927121502901:preob 9927121503001/onsource/TRACKING 9927121503236/tpical/18878,20770,17010,4347,24251,23977,26570,52984,15050,35863 9927121503257/tpical/9068,9594,10646,31221,19863,5558,6859 9927121503263:!271215039 9927121503901:tape 9927121503911/tape/off,06972,norm,stopped,stop,unlock,ready,rem 9927121503911:st=for,135 9927121503922:"data start" 9927121503922:midob 9927121503950/onsource/TRACKING 9927121503952/wx/22.0,988.9,92.6,0.0 9927121503976/cable/+1.0864899E-02 9927121504004/fmout-gps/S 1.8184E-07 9927121504009/ifd/16,19,nor,nor,rem,13392,5932 9927121504015/if3/6,in,2,2,,,present,500.10,rem,lock,31388 9927121504021/vc02/142.99,2.000,u,10,10,rem,lock,18595 9927121504027/vc06/202.89,2.000,u,10,10,rem,lock,21011 9927121504033/vc11/237.99,2.000,u,10,10,rem,lock,9055 9927121504061/tpi/16913,18595,15176,3935,21461,21011,23083,46050,13392,31388 9927121504081/tpi/7756,8150,9055,26089,16606,4716,5932 9927121504083/tsys1/58.3,57.4,56.1,52.8,52.8,48.0,46.0,46.0,55.1,48.7 9927121504083/tsys2/84.8,81.3,82.8,78.5,77.8,78.4,87.1 9927121504083:!271215217 9927121521701:"data stop" 9927121521701:et 9927121521712:!+3s 9927121522014:tape 9927121522023/tape/off,08065,norm,stopped,stop,unlock,ready,rem 9927121522023:postob 9927121522023:source=0955+476,095819.7,472507.8,2000.0,neutral 9927121522100:midtp 9927121522336/tpzero/505,707,448,820,341,619,96,318,309,149 9927121522355/tpzero/633,621,624,268,376,486,763 9927121522371/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121522381/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121522390/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121522399/rx/17(pres),on,a,on,on,on,off,locked,0.996 9927121522408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927121522418/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121522418:nw2c2=10 9927121522582/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927121522908:fastf=0m39s 9927121530837:!271215342 9927121532426#trakl#SOURCE_ACQUIRED 9927121534201:preob 9927121534253/onsource/TRACKING 9927121534488/tpical/19454,21396,17527,4459,25055,24708,27411,54439,15547,37079 9927121534509/tpical/9146,9670,10753,31500,20092,5610,6922 9927121534515:!271215352 9927121535201:tape 9927121535210/tape/off,08928,norm,stopped,stop,unlock,ready,rem 9927121535211:st=rev,135 9927121535222:"data start" 9927121535222:midob 9927121535357/onsource/TRACKING 9927121535360/wx/21.9,988.9,92.2,2.0 9927121535379/cable/+1.0864157E-02 9927121535403/fmout-gps/S 1.8186E-07 9927121535409/ifd/16,19,nor,nor,rem,13897,6008 9927121535415/if3/6,in,2,2,,,present,500.10,rem,lock,32639 9927121535421/vc02/142.99,2.000,u,10,10,rem,lock,19257 9927121535427/vc06/202.89,2.000,u,10,10,rem,lock,21781 9927121535433/vc11/237.99,2.000,u,10,10,rem,lock,9172 9927121535461/tpi/17524,19257,15710,4052,22303,21781,23907,47616,13897,32639 9927121535481/tpi/7849,8243,9172,26404,16878,4777,6008 9927121535483/tsys1/61.6,60.5,58.6,55.4,55.7,50.5,47.4,48.4,57.5,51.1 9927121535483/tsys2/86.8,83.4,84.4,80.1,80.1,80.4,89.6 9927121535483:!271215530 9927121553001:"data stop" 9927121553001:et 9927121553011:!+3s 9927121553314:tape 9927121553323/tape/off,07835,norm,stopped,stop,unlock,ready,rem 9927121553323:postob 9927121553323:source=m81,095533.1,690354.8,2000.0,neutral 9927121553400:check2c2 9927121561365?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121561365?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121561366/parity/0.,0.,0.,16.,0.,$$$$$,0.,0.,0.,49.,0.,16.,0.,16. 9927121561366/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927121562769:nw2c2=10 9927121562826/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927121563152:!271215746 9927121563769;wx 9927121563771/wx/21.9,988.9,92.8,3.0 9927121565741;"wx,overcast,wind at 3.0km/h. 9927121565925#trakl#SOURCE_ACQUIRED 9927121574601:preob 9927121574749/onsource/TRACKING 9927121574984/tpical/18374,20244,16578,4254,23691,23419,25861,51545,14681,34971 9927121575004/tpical/8985,9436,10530,30707,19574,5479,6801 9927121575011:!271215756 9927121575602:tape 9927121575611/tape/off,07838,norm,stopped,stop,unlock,ready,rem 9927121575611:st=rev,135 9927121575622:"data start" 9927121575622:midob 9927121575650/onsource/TRACKING 9927121575655/wx/21.9,988.9,92.9,2.7 9927121575680/cable/+1.0863755E-02 9927121575704/fmout-gps/S 1.8152E-07 9927121575710/ifd/16,19,nor,nor,rem,13055,5881 9927121575716/if3/6,in,2,2,,,present,500.10,rem,lock,30580 9927121575722/vc02/142.99,2.000,u,10,10,rem,lock,18155 9927121575728/vc06/202.89,2.000,u,10,10,rem,lock,20488 9927121575734/vc11/237.99,2.000,u,10,10,rem,lock,8962 9927121575762/tpi/16465,18155,14795,3851,20956,20488,22419,44730,13055,30580 9927121575781/tpi/7689,8011,8962,25687,16346,4639,5881 9927121575783/tsys1/58.4,58.3,56.2,52.5,52.6,47.3,45.3,45.5,54.7,48.4 9927121575784/tsys2/85.0,81.0,83.0,79.0,77.2,77.2,86.8 9927121575784:!271220526 9927121584851;rxmon 9927121584860/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121584869/rx/03(dcal),on,a,on,on,on,off,locked,50.36 9927121584878/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121584887/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927121584897/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927121584906/rx/1F(70k),on,a,on,on,on,off,locked,56.96 9927121590301;"rxtemps 20k=29.07 70k=56.96 9927122052601:"data stop" 9927122052601:et 9927122052612:!+3s 9927122052914:tape 9927122052923/tape/off,02785,norm,stopped,stop,unlock,ready,rem 9927122052923:postob 9927122052923:source=1418+546,141946.6,542314.8,2000.0,neutral 9927122052952:nw2c2=10 9927122053005/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927122053332:!271220814 9927122075374#trakl#SOURCE_ACQUIRED 9927122081401:preob 9927122081453/onsource/TRACKING 9927122081688/tpical/18323,20391,16652,4262,23536,23255,25813,51347,14693,34734 9927122081708/tpical/9069,9535,10566,31184,19858,5552,6846 9927122081715:!271220824 9927122082401:tape 9927122082409/tape/off,02785,norm,stopped,stop,unlock,ready,rem 9927122082410:st=rev,135 9927122082421:"data start" 9927122082421:midob 9927122082551/onsource/TRACKING 9927122082553/wx/21.7,989.1,94.4,0.0 9927122082572/cable/+1.0863915E-02 9927122082603/fmout-gps/S 1.8150E-07 9927122082609/ifd/16,19,nor,nor,rem,13101,5922 9927122082615/if3/6,in,2,2,,,present,500.10,rem,lock,30431 9927122082621/vc02/142.99,2.000,u,10,10,rem,lock,18317 9927122082627/vc06/202.89,2.000,u,10,10,rem,lock,20375 9927122082633/vc11/237.99,2.000,u,10,10,rem,lock,8981 9927122082661/tpi/16470,18317,14905,3865,20829,20375,22393,44549,13101,30431 9927122082681/tpi/7764,8094,8981,26058,16607,4693,5922 9927122082682/tsys1/60.1,59.3,57.8,53.5,52.8,47.9,45.5,45.4,56.1,49.1 9927122082683/tsys2/85.3,81.0,82.3,78.5,77.9,76.5,87.2 9927122082683:!271221020 9927122102001:"data stop" 9927122102001:et 9927122102011:!+3s 9927122102313:tape 9927122102322/tape/off,01490,norm,stopped,stop,unlock,ready,rem 9927122102322:postob 9927122102322:source=ngc6251,163232.0,823216.4,2000.0,neutral 9927122102423:midtp 9927122102672/tpzero/499,708,449,820,341,621,96,317,313,149 9927122102692/tpzero/634,619,625,262,375,493,767 9927122102708/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927122102717/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927122102727/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122102736/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927122102745/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927122102754/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122102754:nw2c1=11 9927122102938/pass/11,11,auto,-55.0,-55.0,-54.2,-54.2,0.8,0.8 9927122103263:fastr=1m2s 9927122113491:!271221516 9927122123226#trakl#SOURCE_ACQUIRED 9927122151601:preob 9927122151653/onsource/TRACKING 9927122151888/tpical/17973,20032,16447,4221,23272,23054,25466,50605,14500,34341 9927122151909/tpical/9021,9532,10568,31014,19747,5528,6840 9927122151916:!271221526 9927122152601:tape 9927122152611/tape/off,00109,norm,stopped,stop,unlock,ready,rem 9927122152611:st=for,135 9927122152622:"data start" 9927122152622:midob 9927122152700/onsource/TRACKING 9927122152702/wx/21.6,989.1,95.8,0.0 9927122152726/cable/+1.0863005E-02 9927122152803/fmout-gps/S 1.8041E-07 9927122152809/ifd/16,19,nor,nor,rem,12873,5912 9927122152815/if3/6,in,2,2,,,present,500.10,rem,lock,29972 9927122152821/vc02/142.99,2.000,u,10,10,rem,lock,17933 9927122152827/vc06/202.89,2.000,u,10,10,rem,lock,20118 9927122152833/vc11/237.99,2.000,u,10,10,rem,lock,8963 9927122152861/tpi/16101,17933,14647,3818,20556,20118,22002,43851,12873,29972 9927122152880/tpi/7714,8089,8963,25885,16512,4673,5912 9927122152882/tsys1/58.2,57.3,55.1,51.9,52.0,46.4,44.1,45.0,53.9,47.6 9927122152882/tsys2/84.6,80.8,81.1,78.0,77.9,76.3,86.5 9927122152882:!271222238 9927122223801:"data stop" 9927122223801:et 9927122223811:!+3s 9927122224114:tape 9927122224122/tape/off,04960,norm,stopped,stop,unlock,ready,rem 9927122224123:postob 9927122224123:source=da426,165352.2,394536.6,2000.0,neutral 9927122224252:check2c1 9927122232198?ERROR qg -303 Track 11 parity errors exceed threshold. 9927122232198?ERROR qg -305 AUX data differs from expected value on track 11. 9927122232198?ERROR qg -304 Track 11 sync errors exceed threshold. 9927122232198/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927122232198/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927122233620:nw2c1=11 9927122233673/pass/11,11,auto,-55.0,-55.0,-55.1,-54.2,-0.1,0.8 9927122233998:!271222735 9927122270875#trakl#SOURCE_ACQUIRED 9927122273501:preob 9927122273550/onsource/TRACKING 9927122273788/tpical/18941,21205,17306,4404,24488,24283,26882,53189,15303,36179 9927122273813/tpical/9162,9661,10847,32070,20340,5668,6983 9927122273820:!271222745 9927122274501:tape 9927122274509/tape/off,04956,norm,stopped,stop,unlock,ready,rem 9927122274510:st=for,135 9927122274520:"data start" 9927122274520:midob 9927122274599/onsource/TRACKING 9927122274601/wx/21.3,988.9,98.4,2.5 9927122274636/cable/+1.0863180E-02 9927122274703/fmout-gps/S 1.8225E-07 9927122274709/ifd/16,19,nor,nor,rem,13687,6064 9927122274715/if3/6,in,2,2,,,present,500.10,rem,lock,31870 9927122274721/vc02/142.99,2.000,u,10,10,rem,lock,19069 9927122274727/vc06/202.89,2.000,u,10,10,rem,lock,21426 9927122274733/vc11/237.99,2.000,u,10,10,rem,lock,9270 9927122274761/tpi/17093,19069,15524,4006,21757,21426,23510,46527,13687,31870 9927122274781/tpi/7898,8254,9270,26967,17106,4828,6064 9927122274782/tsys1/62.7,60.0,59.0,55.9,54.7,50.8,48.5,48.4,57.8,51.4 9927122274783/tsys2/89.7,84.7,85.6,81.7,80.8,80.6,90.0 9927122274783:!271223207 9927122320701:"data stop" 9927122320701:et 9927122320712:!+3s 9927122321014:tape 9927122321023/tape/off,07894,norm,stopped,stop,unlock,ready,rem 9927122321023:postob 9927122321023:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927122321052:midtp 9927122321287/tpzero/506,708,446,820,335,621,93,312,317,149 9927122321307/tpzero/631,622,621,261,378,492,777 9927122321324/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927122321333/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927122321343/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122321352/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927122321361/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927122321370/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122321371:nw2c2=12 9927122321521/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122321849:fastf=0m47s 9927122330577:!271223826 9927122352674#trakl#SOURCE_ACQUIRED 9927122382601:preob 9927122382701/onsource/TRACKING 9927122382936/tpical/21716,23942,19736,4920,28167,27788,30915,61389,17501,41833 9927122382956/tpical/9361,9737,10973,31906,20483,5715,7007 9927122382963:!271223836 9927122383601:tape 9927122383610/tape/off,08937,norm,stopped,stop,unlock,ready,rem 9927122383611:st=rev,135 9927122383621:"data start" 9927122383621:midob 9927122383752/onsource/TRACKING 9927122383754/wx/21.3,988.9,97.9,0.0 9927122383759/cable/+1.0860970E-02 9927122383803/fmout-gps/S 1.8119E-07 9927122383809/ifd/16,19,nor,nor,rem,15823,6090 9927122383815/if3/6,in,2,2,,,present,500.10,rem,lock,37325 9927122383821/vc02/142.99,2.000,u,10,10,rem,lock,21769 9927122383827/vc06/202.89,2.000,u,10,10,rem,lock,24810 9927122383833/vc11/237.99,2.000,u,10,10,rem,lock,9397 9927122383861/tpi/19751,21769,17892,4511,25366,24810,27435,54389,15823,37325 9927122383882/tpi/7941,8327,9397,26850,17228,4875,6090 9927122383883/tsys1/68.4,67.7,66.0,63.0,62.4,56.7,54.8,53.9,64.5,57.6 9927122383884/tsys2/80.4,85.3,86.9,82.1,80.8,81.5,90.4 9927122383884:!271224014 9927122401401:"data stop" 9927122401401:et 9927122401412:!+3s 9927122401714:tape 9927122401723/tape/off,07843,norm,stopped,stop,unlock,ready,rem 9927122401723:postob 9927122401723:source=2201+315,220315.0,314538.3,2000.0,ccw 9927122401800:check2c2 9927122405752?ERROR qg -303 Track 11 parity errors exceed threshold. 9927122405752?ERROR qg -304 Track 11 sync errors exceed threshold. 9927122405752/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927122405752/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927122411170:nw2c2=12 9927122411226/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122411557:!271224428 9927122432025#trakl#SOURCE_ACQUIRED 9927122442806:preob 9927122442950/onsource/TRACKING 9927122443185/tpical/19073,21285,17513,4443,24878,24605,27287,54214,15448,36758 9927122443205/tpical/9251,9701,10668,31638,20029,5603,6955 9927122443211:!271224438 9927122443801:tape 9927122443810/tape/off,07847,norm,stopped,stop,unlock,ready,rem 9927122443810:st=rev,135 9927122443821:"data start" 9927122443821:midob 9927122443899/onsource/TRACKING 9927122443901/wx/21.2,988.9,98.5,0.0 9927122443939/cable/+1.0859464E-02 9927122444004/fmout-gps/S 1.8203E-07 9927122444009/ifd/16,19,nor,nor,rem,13818,6022 9927122444015/if3/6,in,2,2,,,present,500.10,rem,lock,32345 9927122444021/vc02/142.99,2.000,u,10,10,rem,lock,19173 9927122444027/vc06/202.89,2.000,u,10,10,rem,lock,21651 9927122444033/vc11/237.99,2.000,u,10,10,rem,lock,9080 9927122444061/tpi/17217,19173,15731,4029,22123,21651,23803,47327,13818,32345 9927122444081/tpi/7919,8245,9080,26456,16757,4747,6022 9927122444083/tsys1/62.8,61.0,59.9,54.1,55.2,49.7,47.5,47.6,57.8,50.9 9927122444083/tsys2/85.4,81.7,83.2,78.9,78.1,77.6,87.8 9927122444083:!271224616 9927122461601:"data stop" 9927122461601:et 9927122461612:!+3s 9927122461914:tape 9927122461923/tape/off,06754,norm,stopped,stop,unlock,ready,rem 9927122461923:postob 9927122461923:source=2145+067,214805.5,065738.6,2000.0,neutral 9927122461950:nw2c2=12 9927122462003/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122462330:!271224923 9927122472775#trakl#SOURCE_ACQUIRED 9927122492301:preob 9927122492399/onsource/TRACKING 9927122492634/tpical/19379,21515,17707,4487,25115,24796,27488,54664,15636,37133 9927122492654/tpical/9299,9758,10768,31813,20209,5644,6981 9927122492661:!271224933 9927122493301:tape 9927122493311/tape/off,06754,norm,stopped,stop,unlock,ready,rem 9927122493311:st=rev,135 9927122493322:"data start" 9927122493322:midob 9927122493350/onsource/TRACKING 9927122493352/wx/21.1,988.8,98.8,0.0 9927122493387/cable/+1.0859993E-02 9927122493404/fmout-gps/S 1.8209E-07 9927122493410/ifd/16,19,nor,nor,rem,14022,6058 9927122493415/if3/6,in,2,2,,,present,500.10,rem,lock,32781 9927122493421/vc02/142.99,2.000,u,10,10,rem,lock,19438 9927122493427/vc06/202.89,2.000,u,10,10,rem,lock,21897 9927122493433/vc11/237.99,2.000,u,10,10,rem,lock,9186 9927122493461/tpi/17521,19438,15935,4084,22397,21897,24088,47968,14022,32781 9927122493481/tpi/7972,8314,9186,26712,16946,4798,6058 9927122493483/tsys1/63.9,62.9,61.0,56.5,56.7,51.2,49.3,49.7,59.3,52.3 9927122493483/tsys2/86.4,83.2,84.5,80.9,79.3,79.5,89.3 9927122493483:!271225111 9927122511101:"data stop" 9927122511101:et 9927122511112:!+3s 9927122511414:tape 9927122511423/tape/off,05661,norm,stopped,stop,unlock,ready,rem 9927122511423:postob 9927122511423:source=0133+476,013658.6,475129.1,2000.0,ccw 9927122511550:nw2c2=12 9927122511603/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122511928:!271225430 9927122540374#trakl#SOURCE_ACQUIRED 9927122543001:preob 9927122543151/onsource/TRACKING 9927122543386/tpical/20236,22328,18209,4578,25816,25445,28340,56449,16137,38275 9927122543407/tpical/9411,9900,10916,32329,20443,5708,7055 9927122543414:!271225440 9927122544001:tape 9927122544011/tape/off,05661,norm,stopped,stop,unlock,ready,rem 9927122544011:st=rev,135 9927122544022:"data start" 9927122544022:midob 9927122544150/onsource/TRACKING 9927122544152/wx/21.1,988.6,96.2,4.3 9927122544167/cable/+1.0856558E-02 9927122544203/fmout-gps/S 1.8209E-07 9927122544209/ifd/16,19,nor,nor,rem,14439,6134 9927122544215/if3/6,in,2,2,,,present,500.10,rem,lock,33758 9927122544221/vc02/142.99,2.000,u,10,10,rem,lock,20089 9927122544227/vc06/202.89,2.000,u,10,10,rem,lock,22503 9927122544233/vc11/237.99,2.000,u,10,10,rem,lock,9333 9927122544261/tpi/18263,20089,16362,4157,22979,22503,24798,49446,14439,33758 9927122544281/tpi/8107,8496,9333,27158,17241,4864,6134 9927122544282/tsys1/62.8,60.4,60.1,55.3,55.7,51.9,48.7,49.0,58.1,51.9 9927122544283/tsys2/89.5,87.5,85.9,81.2,82.2,80.9,90.8 9927122544283:!271225618 9927122561149;"op=norm servant until 23:00 ut. 9927122561450;wx 9927122561452/wx/21.1,988.6,98.2,3.4 9927122561801:"data stop" 9927122561801:et 9927122561812:!+3s 9927122562114:tape 9927122562123/tape/off,04568,norm,stopped,stop,unlock,ready,rem 9927122562123:postob 9927122562123:source=3c446,222547.3,-045701.4,2000.0,neutral 9927122562200:nw2c2=12 9927122562253/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122562578:!271230242 9927122563064;"wx,overcast,lite breeze. 9927122563304;rxmon 9927122563313/rx/02(lo),on,a,on,on,on,off,locked,48.29 9927122563322/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927122563331/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122563340/rx/17(pres),on,a,on,on,on,off,locked,5.074 9927122563349/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927122563359/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122565133;"rxtemps 20k=29.07 70k=56.27 9927122590575#trakl#SOURCE_ACQUIRED 9927123024201:preob 9927123024299/onsource/TRACKING 9927123024534/tpical/21108,23231,19019,4778,27153,26758,29703,59280,16890,40289 9927123024554/tpical/9602,10156,11207,33304,21116,5877,7255 9927123024561:!271230252 9927123025201:tape 9927123025209/tape/off,04568,norm,stopped,stop,unlock,ready,rem 9927123025217:st=rev,135 9927123025227:"data start" 9927123025228:midob 9927123025300/onsource/TRACKING 9927123025302/wx/20.9,988.6,99.1,0.0 9927123025307/cable/+1.0856896E-02 9927123025403/fmout-gps/S 1.8217E-07 9927123025409/ifd/16,19,nor,nor,rem,15307,6323 9927123025415/if3/6,in,2,2,,,present,500.10,rem,lock,36004 9927123025421/vc02/142.99,2.000,u,10,10,rem,lock,21162 9927123025427/vc06/202.89,2.000,u,10,10,rem,lock,23971 9927123025433/vc11/237.99,2.000,u,10,10,rem,lock,9612 9927123025461/tpi/19275,21162,17322,4391,24513,23971,26363,52623,15307,36004 9927123025481/tpi/8277,8706,9612,28157,17848,5031,6323 9927123025482/tsys1/71.5,69.0,69.4,64.4,63.9,58.5,54.9,54.8,66.1,58.4 9927123025483/tsys2/90.1,87.0,88.0,84.6,83.4,83.8,92.9 9927123025483:!271230430 9927123043001:"data stop" 9927123043001:et 9927123043012:!+3s 9927123043314:tape 9927123043323/tape/off,03476,norm,stopped,stop,unlock,ready,rem 9927123043323:postob 9927123043323:source=2136+141,213901.3,142336.0,2000.0,neutral 9927123043354:nw2c2=12 9927123043407/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123043733:!271230707 9927123064425#trakl#SOURCE_ACQUIRED 9927123070701:preob 9927123070801/onsource/TRACKING 9927123071036/tpical/18524,20347,16650,4269,23719,23490,26027,51858,14750,35094 9927123071075/tpical/9190,9668,10638,31389,19868,5565,6886 9927123071087:!271230717 9927123071701:tape 9927123071710/tape/off,03476,norm,stopped,stop,unlock,ready,rem 9927123071710:st=rev,135 9927123071721:"data start" 9927123071721:midob 9927123071851/onsource/TRACKING 9927123071853/wx/20.9,988.5,99.4,0.0 9927123071876/cable/+1.0858630E-02 9927123071903/fmout-gps/S 1.8162E-07 9927123071909/ifd/16,19,nor,nor,rem,13089,5951 9927123071915/if3/6,in,2,2,,,present,500.10,rem,lock,30602 9927123071921/vc02/142.99,2.000,u,10,10,rem,lock,18245 9927123071927/vc06/202.89,2.000,u,10,10,rem,lock,20485 9927123071933/vc11/237.99,2.000,u,10,10,rem,lock,9047 9927123071961/tpi/16560,18245,14825,3860,20940,20485,22519,44898,13089,30602 9927123071981/tpi/7841,8179,9047,26189,16604,4699,5951 9927123071982/tsys1/57.1,58.2,55.0,51.9,51.8,46.1,44.6,44.7,53.7,47.3 9927123071983/tsys2/83.4,79.2,82.7,77.8,77.6,75.8,86.4 9927123071983:!271230855 9927123085501:"data stop" 9927123085501:et 9927123085512:!+3s 9927123085814:tape 9927123085823/tape/off,02383,norm,stopped,stop,unlock,ready,rem 9927123085823:postob 9927123085823:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927123085950:nw2c2=12 9927123090002/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123090326:!271231259 9927123105827#trakl#SOURCE_ACQUIRED 9927123125901:preob 9927123130001/onsource/TRACKING 9927123130236/tpical/18574,20375,16676,4269,23797,23518,26123,52130,14773,35249 9927123130256/tpical/8813,9236,10547,30665,19603,5496,6765 9927123130263:!271231309 9927123130901:tape 9927123130910/tape/off,02383,norm,stopped,stop,unlock,ready,rem 9927123130911:st=rev,135 9927123130921:"data start" 9927123130921:midob 9927123131000/onsource/TRACKING 9927123131002/wx/20.8,988.5,99.0,0.0 9927123131012/cable/+1.0859167E-02 9927123131104/fmout-gps/S 1.8211E-07 9927123131110/ifd/16,19,nor,nor,rem,13153,5863 9927123131116/if3/6,in,2,2,,,present,500.10,rem,lock,30866 9927123131121/vc02/142.99,2.000,u,10,10,rem,lock,18267 9927123131127/vc06/202.89,2.000,u,10,10,rem,lock,20611 9927123131133/vc11/237.99,2.000,u,10,10,rem,lock,8988 9927123131161/tpi/16666,18267,14887,3868,21117,20611,22647,45287,13153,30866 9927123131181/tpi/7557,7862,8988,25632,16413,4660,5863 9927123131183/tsys1/59.1,58.1,56.3,53.1,54.1,48.0,45.3,45.9,55.3,48.9 9927123131183/tsys2/86.1,82.3,83.8,78.7,78.5,77.8,88.0 9927123131183:!271231447 9927123144701:"data stop" 9927123144701:et 9927123144712:!+3s 9927123145014:tape 9927123145023/tape/off,01290,norm,stopped,stop,unlock,ready,rem 9927123145023:postob 9927123145023:source=0955+476,095819.7,472507.8,2000.0,neutral 9927123145100:nw2c2=12 9927123145153/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123145477:!271232152 9927123205625#trakl#SOURCE_ACQUIRED 9927123215201:preob 9927123215351/onsource/TRACKING 9927123215586/tpical/21265,23449,19187,4821,27429,27059,29905,59734,17043,40682 9927123215606/tpical/9490,10036,11174,33187,21072,5885,7252 9927123215613:!271232202 9927123220201:tape 9927123220209/tape/off,01290,norm,stopped,stop,unlock,ready,rem 9927123220210:st=rev,135 9927123220221:"data start" 9927123220221:midob 9927123220301/onsource/TRACKING 9927123220303/wx/21.0,988.6,98.0,0.0 9927123220327/cable/+1.0858197E-02 9927123220403/fmout-gps/S 1.8203E-07 9927123220409/ifd/16,19,nor,nor,rem,15428,6329 9927123220415/if3/6,in,2,2,,,present,500.10,rem,lock,36321 9927123220421/vc02/142.99,2.000,u,10,10,rem,lock,21361 9927123220427/vc06/202.89,2.000,u,10,10,rem,lock,24215 9927123220433/vc11/237.99,2.000,u,10,10,rem,lock,9599 9927123220461/tpi/19365,21361,17440,4423,24740,24215,26523,52978,15428,36321 9927123220480/tpi/8173,8609,9599,28078,17870,5039,6329 9927123220482/tsys1/69.3,69.0,67.9,63.2,63.3,57.9,54.5,54.4,65.3,57.9 9927123220482/tsys2/89.4,87.4,89.0,85.0,85.3,83.9,93.9 9927123220482:!271232340 9927123234001:"data stop" 9927123234001:et 9927123234012:!+3s 9927123234314:tape 9927123234323/tape/off,00197,norm,stopped,stop,unlock,ready,rem 9927123234323:postob 9927123234323:source=1606+106,160846.2,102907.8,2000.0,neutral 9927123234452:midtp 9927123234687/tpzero/500,707,450,817,341,622,92,315,311,150 9927123234707/tpzero/628,623,625,266,378,489,772 9927123234723/rx/02(lo),on,a,on,on,on,off,locked,48.16 9927123234732/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927123234741/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927123234751/rx/17(pres),on,a,on,on,on,off,locked,-1.221 9927123234760/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927123234769/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927123234769:nw2c1=13 9927123234955/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123235281:!271232740 9927123271975#trakl#SOURCE_ACQUIRED 9927123274001:preob 9927123274053/onsource/TRACKING 9927123274288/tpical/18316,20385,16633,4252,23607,23306,25861,51427,14694,34832 9927123274308/tpical/8948,9424,10521,30968,19840,5532,6817 9927123274315:!271232750 9927123275007:tape 9927123275035/tape/off,00197,norm,stopped,stop,unlock,ready,rem 9927123275035:st=for,135 9927123275059:"data start" 9927123275059:midob 9927123275106/onsource/TRACKING 9927123275108/wx/20.9,988.6,98.2,0.0 9927123275139/cable/+1.0858148E-02 9927123275204/fmout-gps/S 1.8219E-07 9927123275209/ifd/16,19,nor,nor,rem,13073,5902 9927123275215/if3/6,in,2,2,,,present,500.10,rem,lock,30485 9927123275221/vc02/142.99,2.000,u,10,10,rem,lock,18233 9927123275227/vc06/202.89,2.000,u,10,10,rem,lock,20407 9927123275233/vc11/237.99,2.000,u,10,10,rem,lock,8944 9927123275261/tpi/16430,18233,14849,3846,20888,20407,22426,44638,13073,30485 9927123275281/tpi/7672,8010,8944,25918,16576,4689,5902 9927123275283/tsys1/59.0,56.8,56.3,52.1,52.7,47.6,45.4,45.6,55.0,48.7 9927123275283/tsys2/86.2,81.5,82.3,79.3,77.5,77.8,87.5 9927123275283:!271232928 9927123292801:"data stop" 9927123292801:et 9927123292812:!+3s 9927123293114:tape 9927123293123/tape/off,01286,norm,stopped,stop,unlock,ready,rem 9927123293123:postob 9927123293123:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927123293200:check2c1 9927123301165?ERROR qg -303 Track 11 parity errors exceed threshold. 9927123301165?ERROR qg -305 AUX data differs from expected value on track 11. 9927123301165?ERROR qg -304 Track 11 sync errors exceed threshold. 9927123301165/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927123301165/parity/0,0,0,0,0,212,0,0,0,0,0,0,0,0 9927123302571:nw2c1=13 9927123302635/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123302960:!271233212 9927123320225#trakl#SOURCE_ACQUIRED 9927123321201:preob 9927123321300/onsource/TRACKING 9927123321535/tpical/19239,21140,17276,4399,24657,24371,27044,53917,15345,36570 9927123321555/tpical/9060,9588,10839,31526,20242,5665,6954 9927123321562:!271233222 9927123322201:tape 9927123322211/tape/off,01281,norm,stopped,stop,unlock,ready,rem 9927123322211:st=for,135 9927123322222:"data start" 9927123322222:midob 9927123322352/onsource/TRACKING 9927123322354/wx/20.9,988.5,98.3,0.0 9927123322391/cable/+1.0856493E-02 9927123322404/fmout-gps/S 1.8115E-07 9927123322410/ifd/16,19,nor,nor,rem,13714,6037 9927123322416/if3/6,in,2,2,,,present,500.10,rem,lock,32168 9927123322421/vc02/142.99,2.000,u,10,10,rem,lock,19023 9927123322427/vc06/202.89,2.000,u,10,10,rem,lock,21424 9927123322433/vc11/237.99,2.000,u,10,10,rem,lock,9256 9927123322461/tpi/17356,19023,15489,3996,21952,21424,23559,47018,13714,32168 9927123322481/tpi/7786,8183,9256,26576,17048,4824,6037 9927123322483/tsys1/62.5,60.4,58.7,55.1,55.8,49.3,47.0,47.3,57.4,50.8 9927123322483/tsys2/87.7,84.0,85.1,83.0,81.5,80.5,89.6 9927123322483:!271233400 9927123340001:"data stop" 9927123340001:et 9927123340012:!+3s 9927123340314:tape 9927123340322/tape/off,02374,norm,stopped,stop,unlock,ready,rem 9927123340323:postob 9927123340323:source=1622-253,162546.9,-252738.3,2000.0,neutral 9927123340400:nw2c1=13 9927123340453/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123340777:!271233613 9927123344913;op=j. lafrance 9927123353926#trakl#SOURCE_ACQUIRED 9927123361301:preob 9927123361401/onsource/TRACKING 9927123361636/tpical/21822,24016,19789,4936,28273,27895,30998,61838,17549,42021 9927123361656/tpical/9475,10016,11349,33444,21444,5985,7294 9927123361663:!271233623 9927123362301:tape 9927123362309/tape/off,02374,norm,stopped,stop,unlock,ready,rem 9927123362310:st=for,135 9927123362320:"data start" 9927123362320:midob 9927123362399/onsource/TRACKING 9927123362401/wx/20.7,988.5,98.9,0.0 9927123362439/cable/+1.0856953E-02 9927123362503/fmout-gps/S 1.8072E-07 9927123362509/ifd/16,19,nor,nor,rem,15934,6390 9927123362515/if3/6,in,2,2,,,present,500.10,rem,lock,37641 9927123362521/vc02/142.99,2.000,u,10,10,rem,lock,21918 9927123362527/vc06/202.89,2.000,u,10,10,rem,lock,25006 9927123362533/vc11/237.99,2.000,u,10,10,rem,lock,9796 9927123362561/tpi/19893,21918,18030,4532,25536,25006,27641,55077,15934,37641 9927123362580/tpi/8221,8647,9796,28496,18248,5139,6390 9927123362582/tsys1/70.2,70.6,69.8,64.2,64.3,58.9,57.3,56.5,67.5,59.7 9927123362582/tsys2/94.5,91.5,92.2,89.1,87.3,85.8,97.0 9927123362583:!271233801 9927123380101:"data stop" 9927123380101:et 9927123380112:!+3s 9927123380414:tape 9927123380423/tape/off,03467,norm,stopped,stop,unlock,ready,rem 9927123380423:postob 9927123380423:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927123380500:nw2c1=13 9927123380553/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123380877:!271234128 9927123405775#trakl#SOURCE_ACQUIRED 9927123412801:preob 9927123412951/onsource/TRACKING 9927123413186/tpical/19617,21596,17669,4481,25289,24879,27593,55105,15665,37380 9927123413206/tpical/9028,9554,10768,31515,20227,5654,6925 9927123413213:!271234138 9927123413801:tape 9927123413810/tape/off,03467,norm,stopped,stop,unlock,ready,rem 9927123413810:st=for,135 9927123413821:"data start" 9927123413821:midob 9927123413899/onsource/TRACKING 9927123413901/wx/20.6,988.5,99.2,0.0 9927123413939/cable/+1.0856617E-02 9927123414003/fmout-gps/S 1.8205E-07 9927123414009/ifd/16,19,nor,nor,rem,14042,6024 9927123414015/if3/6,in,2,2,,,present,500.10,rem,lock,33002 9927123414020/vc02/142.99,2.000,u,10,10,rem,lock,19479 9927123414026/vc06/202.89,2.000,u,10,10,rem,lock,22016 9927123414032/vc11/237.99,2.000,u,10,10,rem,lock,9604 9927123414060/tpi/17701,19479,15910,4075,22550,22016,24169,48294,14042,33002 9927123414080/tpi/7757,8147,9604,26443,17014,4806,6024 9927123414082/tsys1/62.7,61.9,61.3,56.0,56.6,52.2,49.1,49.2,59.1,52.4 9927123414082/tsys2/87.6,83.5,120.4,80.6,80.8,79.5,91.0 9927123414083:!271234329 9927123432901:"data stop" 9927123432901:et 9927123432912:!+3s 9927123433215:tape 9927123433224/tape/off,04706,norm,stopped,stop,unlock,ready,rem 9927123433224:postob 9927123433224:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927123433255:nw2c1=13 9927123433308/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123433634:!271234542 9927123445574#trakl#SOURCE_ACQUIRED 9927123454201:preob 9927123454299/onsource/TRACKING 9927123454534/tpical/18436,20300,16645,4261,23752,23441,26038,51811,14740,35151 9927123454554/tpical/8935,9334,10609,30968,19809,5544,6826 9927123454561:!271234552 9927123455201:tape 9927123455210/tape/off,04706,norm,stopped,stop,unlock,ready,rem 9927123455211:st=for,135 9927123455221:"data start" 9927123455221:midob 9927123455252/onsource/TRACKING 9927123455254/wx/20.6,988.5,98.8,0.0 9927123455284/cable/+1.0857125E-02 9927123455303/fmout-gps/S 1.8158E-07 9927123455309/ifd/16,19,nor,nor,rem,13136,5911 9927123455315/if3/6,in,2,2,,,present,500.10,rem,lock,30767 9927123455321/vc02/142.99,2.000,u,10,10,rem,lock,18232 9927123455327/vc06/202.89,2.000,u,10,10,rem,lock,20517 9927123455333/vc11/237.99,2.000,u,10,10,rem,lock,9033 9927123455361/tpi/16582,18232,14897,3857,21005,20517,22611,45069,13136,30767 9927123455381/tpi/7638,7941,9033,25878,16569,4698,5911 9927123455382/tsys1/60.5,59.2,57.7,52.5,52.5,47.5,45.9,46.3,55.8,48.7 9927123455383/tsys2/84.4,82.0,83.3,78.5,78.0,77.7,87.7 9927123455383:!271235211 9927123521101:"data stop" 9927123521101:et 9927123521112:!+3s 9927123521414:tape 9927123521423/tape/off,08960,norm,stopped,stop,unlock,ready,rem 9927123521423:postob 9927123521423:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927123521500:midtp 9927123521736/tpzero/506,707,448,816,345,624,100,314,310,149 9927123521756/tpzero/629,628,620,266,382,492,773 9927123521772/rx/02(lo),on,a,on,on,on,off,locked,48.04 9927123521782/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927123521791/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927123521800/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927123521810/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927123521819/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927123521819:nw2c2=14 9927123521982/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123522309:!271235325 9927123525774#trakl#SOURCE_ACQUIRED 9927123532501:preob 9927123532553/onsource/TRACKING 9927123532788/tpical/19284,21203,17359,4407,24701,24367,26990,53794,15415,36585 9927123532808/tpical/9101,9503,10818,31750,20333,5680,6965 9927123532815:!271235335 9927123533501:tape 9927123533510/tape/off,08960,norm,stopped,stop,unlock,ready,rem 9927123533510:st=rev,135 9927123533521:"data start" 9927123533521:midob 9927123533650/onsource/TRACKING 9927123533652/wx/20.4,988.4,99.0,0.0 9927123533687/cable/+1.0857246E-02 9927123533703/fmout-gps/S 1.8033E-07 9927123533709/ifd/16,19,nor,nor,rem,13765,6051 9927123533715/if3/6,in,2,2,,,present,500.10,rem,lock,32178 9927123533721/vc02/142.99,2.000,u,10,10,rem,lock,19038 9927123533727/vc06/202.89,2.000,u,10,10,rem,lock,21445 9927123533733/vc11/237.99,2.000,u,10,10,rem,lock,9260 9927123533761/tpi/17379,19038,15565,4003,21995,21445,23587,47007,13765,32178 9927123533781/tpi/7817,8110,9260,26652,17111,4833,6051 9927123533783/tsys1/61.8,59.1,58.8,55.1,55.8,49.7,48.2,48.0,56.9,50.7 9927123533783/tsys2/87.4,83.8,86.6,80.8,81.0,80.0,90.1 9927123533783:!271235513 9927123551301:"data stop" 9927123551301:et 9927123551312:!+3s 9927123551614:tape 9927123551623/tape/off,07867,norm,stopped,stop,unlock,ready,rem 9927123551623:postob 9927123551623:source=2243-123,224618.2,-120651.3,2000.0,neutral 9927123551700:check2c2 9927123555657?ERROR qg -303 Track 11 parity errors exceed threshold. 9927123555657?ERROR qg -305 AUX data differs from expected value on track 11. 9927123555657?ERROR qg -304 Track 11 sync errors exceed threshold. 9927123555657/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927123555657/parity/0,0,0,0,0,204,0,0,0,0,0,0,0,0 9927123561068:nw2c2=14 9927123561121/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123561446:!271235739 9927123573126#trakl#SOURCE_ACQUIRED 9927123573901:preob 9927123574001/onsource/TRACKING 9927123574236/tpical/20521,22656,18576,4668,26476,26106,28945,57813,16465,39268 9927123574256/tpical/9431,9915,10994,32588,20769,5787,7125 9927123574263:!271235749 9927123574901:tape 9927123574910/tape/off,07870,norm,stopped,stop,unlock,ready,rem 9927123574910:st=rev,135 9927123574921:"data start" 9927123574921:midob 9927123575051/onsource/TRACKING 9927123575053/wx/20.2,988.4,99.7,0.0 9927123575067/cable/+1.0855658E-02 9927123575103/fmout-gps/S 1.8139E-07 9927123575108/ifd/16,19,nor,nor,rem,14857,6200 9927123575114/if3/6,in,2,2,,,present,500.10,rem,lock,34888 9927123575120/vc02/142.99,2.000,u,10,10,rem,lock,20511 9927123575126/vc06/202.89,2.000,u,10,10,rem,lock,23177 9927123575132/vc11/237.99,2.000,u,10,10,rem,lock,9422 9927123575160/tpi/18653,20511,16775,4269,23784,23177,25553,50975,14857,34888 9927123575180/tpi/8119,8479,9422,27478,17524,4939,6200 9927123575181/tsys1/67.8,64.4,63.3,60.4,60.8,53.7,52.4,51.7,63.1,55.4 9927123575182/tsys2/89.1,85.3,87.4,83.1,82.5,81.9,91.6 9927123575182:!271235927 9927123592701:"data stop" 9927123592701:et 9927123592712:!+3s 9927123593014:tape 9927123593023/tape/off,06777,norm,stopped,stop,unlock,ready,rem 9927123593024:postob 9927123593024:source=0019+058,002232.4,060804.3,2000.0,neutral 9927123593055:nw2c2=14 9927123593108/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123593433:!272000317 9927200005525#trakl#SOURCE_ACQUIRED 9927200031701:preob 9927200031801/onsource/TRACKING 9927200032036/tpical/20561,22632,18618,4678,26514,26137,28983,57785,16486,39332 9927200032056/tpical/9525,10079,11095,32919,20867,5818,7206 9927200032063:!272000327 9927200032701:tape 9927200032709/tape/off,06777,norm,stopped,stop,unlock,ready,rem 9927200032710:st=rev,135 9927200032721:"data start" 9927200032721:midob 9927200032801/onsource/TRACKING 9927200032805/wx/20.1,988.5,100.0,0.0 9927200032835/cable/+1.0853977E-02 9927200032903/fmout-gps/S 1.8164E-07 9927200032909/ifd/16,19,nor,nor,rem,14867,6272 9927200032915/if3/6,in,2,2,,,present,500.10,rem,lock,34942 9927200032921/vc02/142.99,2.000,u,10,10,rem,lock,20519 9927200032927/vc06/202.89,2.000,u,10,10,rem,lock,23205 9927200032933/vc11/237.99,2.000,u,10,10,rem,lock,9508 9927200032961/tpi/18647,20519,16823,4277,23809,23205,25545,51063,14867,34942 9927200032981/tpi/8201,8623,9508,27787,17622,4963,6272 9927200032982/tsys1/66.2,65.4,63.7,60.2,60.5,53.8,51.7,52.7,62.8,55.3 9927200032983/tsys2/89.3,85.7,87.4,83.7,82.9,81.6,91.9 9927200032983:!272000900 9927200090001:"data stop" 9927200090001:et 9927200090012:!+3s 9927200090314:tape 9927200090322/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927200090323:postob 9927200090323:source=0133+476,013658.6,475129.1,2000.0,ccw 9927200090452:nw2c2=14 9927200090505/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927200090926:!272001228 9927200110025#trakl#SOURCE_ACQUIRED 9927200122801:preob 9927200122853/onsource/TRACKING 9927200123089/tpical/18834,20726,16889,4301,23941,23656,26256,52437,14964,35476 9927200123108/tpical/9302,9803,10794,31945,20198,5648,6994 9927200123115:!272001238 9927200123802:tape 9927200123814/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927200123814:st=rev,135 9927200123831:"data start" 9927200123831:midob 9927200123899/onsource/TRACKING 9927200123901/wx/19.9,988.5,100.0,0.0 9927200123915/cable/+1.0852858E-02 9927200124003/fmout-gps/S 1.8193E-07 9927200124009/ifd/16,19,nor,nor,rem,13331,6051 9927200124015/if3/6,in,2,2,,,present,500.10,rem,lock,31068 9927200124021/vc02/142.99,2.000,u,10,10,rem,lock,18595 9927200124027/vc06/202.89,2.000,u,10,10,rem,lock,20723 9927200124033/vc11/237.99,2.000,u,10,10,rem,lock,9179 9927200124061/tpi/16922,18595,15098,3896,21207,20723,22817,45563,13331,31068 9927200124081/tpi/7951,8310,9179,26724,16904,4779,6051 9927200124082/tsys1/59.9,58.6,57.1,53.1,53.3,47.8,46.1,45.9,55.7,49.0 9927200124083/tsys2/84.6,80.3,82.7,79.1,78.3,77.0,87.4 9927200124083:!272001416 9927200141601:"data stop" 9927200141601:et 9927200141612:!+3s 9927200141914:tape 9927200141923/tape/off,01948,norm,stopped,stop,unlock,ready,rem 9927200141923:postob 9927200141923:source=2201+315,220315.0,314538.3,2000.0,neutral 9927200141950:nw2c2=14 9927200142003/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927200142330:!272001719 9927200165124#trakl#SOURCE_ACQUIRED 9927200171901:preob 9927200172001/onsource/TRACKING 9927200172236/tpical/18266,20341,16556,4243,23418,23175,25658,50973,14647,34611 9927200172256/tpical/9254,9713,10692,31671,20019,5590,6956 9927200172263:!272001729 9927200172901:tape 9927200172910/tape/off,01948,norm,stopped,stop,unlock,ready,rem 9927200172910:st=rev,135 9927200172921:"data start" 9927200172921:midob 9927200172999/onsource/TRACKING 9927200173022/wx/19.8,988.5,100.0,0.0 9927200173039/cable/+1.0853846E-02 9927200173103/fmout-gps/S 1.8139E-07 9927200173109/ifd/16,19,nor,nor,rem,13000,6016 9927200173115/if3/6,in,2,2,,,present,500.10,rem,lock,30192 9927200173121/vc02/142.99,2.000,u,10,10,rem,lock,18188 9927200173127/vc06/202.89,2.000,u,10,10,rem,lock,20221 9927200173133/vc11/237.99,2.000,u,10,10,rem,lock,9098 9927200173161/tpi/16386,18188,14735,3837,20679,20221,22182,44107,13000,30192 9927200173181/tpi/7924,8240,9098,26468,16740,4730,6016 9927200173182/tsys1/59.0,56.7,54.8,51.9,51.8,46.3,44.3,44.5,53.8,47.5 9927200173183/tsys2/85.6,80.7,83.0,78.6,77.9,76.9,87.1 9927200173183:!272001907 9927200190701:"data stop" 9927200190701:et 9927200190712:!+3s 9927200191014:tape 9927200191023/tape/off,00855,norm,stopped,stop,unlock,ready,rem 9927200191023:postob 9927200191023:source=2145+067,214805.5,065738.6,2000.0,neutral 9927200191100:midtp 9927200191336/tpzero/504,707,452,816,332,621,84,316,322,149 9927200191355/tpzero/634,627,623,268,381,494,786 9927200191371/rx/02(lo),on,a,on,on,on,off,locked,48.04 9927200191381/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200191390/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927200191399/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927200191408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927200191418/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200191418:nw2c1=15 9927200191588/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200191913:fastr=0m32s 9927200195141:!272002214 9927200202725#trakl#SOURCE_ACQUIRED 9927200221401:preob 9927200221499/onsource/TRACKING 9927200221734/tpical/18371,20449,16762,4277,23730,23526,25978,51740,14779,35047 9927200221754/tpical/9111,9555,10582,31248,19769,5528,6873 9927200221761:!272002224 9927200222401:tape 9927200222410/tape/off,00148,norm,stopped,stop,unlock,ready,rem 9927200222410:st=for,135 9927200222421:"data start" 9927200222421:midob 9927200222551/onsource/TRACKING 9927200222553/wx/19.8,988.5,100.0,0.0 9927200222560/cable/+1.0856231E-02 9927200222603/fmout-gps/S 1.8164E-07 9927200222609/ifd/16,19,nor,nor,rem,13194,5945 9927200222615/if3/6,in,2,2,,,present,500.10,rem,lock,30753 9927200222621/vc02/142.99,2.000,u,10,10,rem,lock,18406 9927200222627/vc06/202.89,2.000,u,10,10,rem,lock,20657 9927200222633/vc11/237.99,2.000,u,10,10,rem,lock,9006 9927200222661/tpi/16552,18406,15000,3879,21050,20657,22595,45068,13194,30753 9927200222681/tpi/7791,8111,9006,26145,16510,4681,5945 9927200222682/tsys1/61.6,60.5,57.6,53.7,54.0,48.7,46.4,46.8,56.7,49.7 9927200222683/tsys2/84.6,80.9,83.0,79.2,77.3,77.2,86.8 9927200222683:!272002402 9927200240201:"data stop" 9927200240201:et 9927200240212:!+3s 9927200240514:tape 9927200240523/tape/off,01241,norm,stopped,stop,unlock,ready,rem 9927200240523:postob 9927200240523:source=3c446,222547.3,-045701.4,2000.0,neutral 9927200240550:check2c1 9927200244556?ERROR qg -303 Track 11 parity errors exceed threshold. 9927200244556?ERROR qg -305 AUX data differs from expected value on track 11. 9927200244556?ERROR qg -304 Track 11 sync errors exceed threshold. 9927200244556/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927200244557/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927200245918:nw2c1=15 9927200245971/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200250296:!272002615 9927200250574#trakl#SOURCE_ACQUIRED 9927200261501:preob 9927200261599/onsource/TRACKING 9927200261834/tpical/19050,21207,17370,4382,24572,24259,26906,53576,15315,36350 9927200261854/tpical/9282,9763,10790,31953,20164,5632,6989 9927200261860:!272002625 9927200262501:tape 9927200262510/tape/off,01236,norm,stopped,stop,unlock,ready,rem 9927200262510:st=for,135 9927200262521:"data start" 9927200262521:midob 9927200262599/onsource/TRACKING 9927200262601/wx/19.7,988.4,99.3,0.0 9927200262607/cable/+1.0854542E-02 9927200262703/fmout-gps/S 1.8186E-07 9927200262709/ifd/16,19,nor,nor,rem,13712,6062 9927200262715/if3/6,in,2,2,,,present,500.10,rem,lock,32021 9927200262721/vc02/142.99,2.000,u,10,10,rem,lock,19093 9927200262727/vc06/202.89,2.000,u,10,10,rem,lock,21398 9927200262732/vc11/237.99,2.000,u,10,10,rem,lock,9214 9927200262760/tpi/17161,19093,15590,3984,21842,21398,23537,46925,13712,32021 9927200262780/tpi/7988,8320,9214,26799,16957,4789,6062 9927200262782/tsys1/61.5,60.7,59.4,55.6,55.0,50.7,48.6,48.9,58.3,51.4 9927200262782/tsys2/88.7,83.2,85.1,80.4,80.7,79.5,88.8 9927200262782:!272002803 9927200280301:"data stop" 9927200280301:et 9927200280312:!+3s 9927200280614:tape 9927200280623/tape/off,02329,norm,stopped,stop,unlock,ready,rem 9927200280623:postob 9927200280623:source=0059+581,010245.8,582411.1,2000.0,ccw 9927200280650:nw2c1=15 9927200280703/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200281028:!272003153 9927200313324#trakl#SOURCE_ACQUIRED 9927200315301:preob 9927200315399/onsource/TRACKING 9927200315635/tpical/18107,20240,16460,4168,23135,22975,25431,50682,14508,34216 9927200315655/tpical/9350,9814,10729,31757,20049,5599,6978 9927200315661:!272003203 9927200315734;wx 9927200315736/wx/19.6,988.4,98.9,0.0 9927200320301:tape 9927200320310/tape/off,02329,norm,stopped,stop,unlock,ready,rem 9927200320311:st=for,135 9927200320322:"data start" 9927200320322:midob 9927200320400/onsource/TRACKING 9927200320402/wx/19.6,988.4,98.9,0.0 9927200320411/cable/+1.0851968E-02 9927200320503/fmout-gps/S 1.8197E-07 9927200320509/ifd/16,19,nor,nor,rem,12877,6027 9927200320515/if3/6,in,2,2,,,present,500.10,rem,lock,29833 9927200320521/vc02/142.99,2.000,u,10,10,rem,lock,18136 9927200320527/vc06/202.89,2.000,u,10,10,rem,lock,20043 9927200320533/vc11/237.99,2.000,u,10,10,rem,lock,9119 9927200320561/tpi/16219,18136,14656,3771,20430,20043,22002,43770,12877,29833 9927200320581/tpi/7981,8334,9119,26501,16752,4732,6027 9927200320583/tsys1/58.1,57.8,55.0,52.0,51.9,46.2,44.6,43.9,53.7,47.3 9927200320583/tsys2/83.8,81.3,82.4,77.9,77.5,76.3,86.0 9927200320583:!272003341 9927200323487;"wx,overcast,light rain, humid, no wind, warm. 9927200323899;rxmon 9927200323908/rx/02(lo),on,a,on,on,on,off,locked,47.92 9927200323918/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200323927/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.515 9927200323936/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927200323945/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927200323955/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200325430;"rxtemps 20k=30.08 70k=56.27 9927200334101:"data stop" 9927200334101:et 9927200334112:!+3s 9927200334414:tape 9927200334423/tape/off,03422,norm,stopped,stop,unlock,ready,rem 9927200334423:postob 9927200334423:source=2136+141,213901.3,142336.0,2000.0,neutral 9927200334450:nw2c1=15 9927200334503/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200334831:!272003739 9927200370827#trakl#SOURCE_ACQUIRED 9927200373901:preob 9927200374001/onsource/TRACKING 9927200374236/tpical/18232,20365,16573,4220,23433,23260,25660,51153,14626,34629 9927200374256/tpical/9128,9548,10506,31084,19573,5483,6826 9927200374263:!272003749 9927200374901:tape 9927200374910/tape/off,03422,norm,stopped,stop,unlock,ready,rem 9927200374911:st=for,135 9927200374921:"data start" 9927200374921:midob 9927200375050/onsource/TRACKING 9927200375052/wx/19.6,988.3,97.0,2.5 9927200375079/cable/+1.0855037E-02 9927200375103/fmout-gps/S 1.8170E-07 9927200375109/ifd/16,19,nor,nor,rem,12989,5895 9927200375114/if3/6,in,2,2,,,present,500.10,rem,lock,30177 9927200375120/vc02/142.99,2.000,u,10,10,rem,lock,18233 9927200375126/vc06/202.89,2.000,u,10,10,rem,lock,20255 9927200375132/vc11/237.99,2.000,u,10,10,rem,lock,8917 9927200375160/tpi/16343,18233,14789,3818,20664,20255,22168,44227,12989,30177 9927200375180/tpi/7801,8103,8917,25886,16340,4623,5895 9927200375182/tsys1/58.5,57.4,56.1,52.1,51.3,45.6,44.1,44.3,54.0,47.1 9927200375182/tsys2/84.3,80.8,81.5,76.9,77.1,74.9,85.7 9927200375182:!272003927 9927200392701:"data stop" 9927200392701:et 9927200392712:!+3s 9927200393014:tape 9927200393024/tape/off,04515,norm,moving,stop,unlock,ready,rem 9927200393024:postob 9927200393024:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927200393151:nw2c1=15 9927200393204/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200393530:!272004359 9927200424074#trakl#SOURCE_ACQUIRED 9927200435901:preob 9927200440051/onsource/TRACKING 9927200440286/tpical/18852,21069,17152,4342,24364,24065,26741,53058,15169,36028 9927200440306/tpical/9112,9593,10856,31832,20257,5662,6971 9927200440312:!272004409 9927200440901:tape 9927200440911/tape/off,04515,norm,stopped,stop,unlock,ready,rem 9927200440911:st=for,135 9927200440922:"data start" 9927200440922:midob 9927200441050/onsource/TRACKING 9927200441052/wx/19.6,988.2,96.3,0.0 9927200441059/cable/+1.0855197E-02 9927200441103/fmout-gps/S 1.8084E-07 9927200441109/ifd/16,19,nor,nor,rem,13541,6051 9927200441115/if3/6,in,2,2,,,present,500.10,rem,lock,31648 9927200441120/vc02/142.99,2.000,u,10,10,rem,lock,18973 9927200441126/vc06/202.89,2.000,u,10,10,rem,lock,21161 9927200441132/vc11/237.99,2.000,u,10,10,rem,lock,9265 9927200441160/tpi/16965,18973,15364,3949,21624,21161,23295,46363,13541,31648 9927200441180/tpi/7821,8189,9265,26720,17025,4814,6051 9927200441182/tsys1/60.9,60.8,58.2,55.6,54.2,49.4,47.0,48.0,56.7,50.2 9927200441182/tsys2/86.9,84.1,84.8,80.8,80.4,79.5,89.3 9927200441182:!272004547 9927200454701:"data stop" 9927200454701:et 9927200454712:!+3s 9927200455014:tape 9927200455023/tape/off,05608,norm,stopped,stop,unlock,ready,rem 9927200455023:postob 9927200455023:source=1726+455,172727.7,453039.7,2000.0,neutral 9927200455052:nw2c1=15 9927200455105/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200455433:!272005026 9927200485074#trakl#SOURCE_ACQUIRED 9927200502601:preob 9927200502701/onsource/TRACKING 9927200502936/tpical/18309,20415,16617,4255,23463,23315,25789,51226,14700,34753 9927200502956/tpical/9208,9652,10647,31640,19963,5582,6957 9927200502963:!272005036 9927200503601:tape 9927200503610/tape/off,05608,norm,stopped,stop,unlock,ready,rem 9927200503611:st=for,135 9927200503621:"data start" 9927200503621:midob 9927200503650/onsource/TRACKING 9927200503652/wx/19.6,988.1,93.9,0.0 9927200503687/cable/+1.0855672E-02 9927200503703/fmout-gps/S 1.8201E-07 9927200503709/ifd/16,19,nor,nor,rem,13070,6006 9927200503714/if3/6,in,2,2,,,present,500.10,rem,lock,30360 9927200503720/vc02/142.99,2.000,u,10,10,rem,lock,18310 9927200503726/vc06/202.89,2.000,u,10,10,rem,lock,20417 9927200503732/vc11/237.99,2.000,u,10,10,rem,lock,9042 9927200503760/tpi/16440,18310,14819,3851,20756,20417,22378,44380,13070,30360 9927200503780/tpi/7873,8185,9042,26395,16701,4713,6006 9927200503782/tsys1/59.5,58.4,55.8,52.4,52.7,47.7,45.6,44.9,54.6,48.0 9927200503782/tsys2/84.6,80.4,81.9,77.8,78.1,75.8,85.7 9927200503782:!272005214 9927200521401:"data stop" 9927200521401:et 9927200521412:!+3s 9927200521714:tape 9927200521723/tape/off,06701,norm,stopped,stop,unlock,ready,rem 9927200521723:postob 9927200521723:source=da426,165352.2,394536.6,2000.0,neutral 9927200521750:nw2c1=15 9927200521803/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200522130:!272005317 9927200525326#trakl#SOURCE_ACQUIRED 9927200531701:preob 9927200531799/onsource/TRACKING 9927200532034/tpical/18233,20313,16533,4238,23401,23229,25705,51148,14624,34642 9927200532054/tpical/9169,9608,10650,31623,19998,5584,6944 9927200532061:!272005327 9927200532701:tape 9927200532710/tape/off,06701,norm,stopped,stop,unlock,ready,rem 9927200532711:st=for,135 9927200532721:"data start" 9927200532721:midob 9927200532752/onsource/TRACKING 9927200532754/wx/19.7,988.1,92.6,0.0 9927200532786/cable/+1.0856541E-02 9927200532803/fmout-gps/S 1.8191E-07 9927200532809/ifd/16,19,nor,nor,rem,12979,5999 9927200532815/if3/6,in,2,2,,,present,500.10,rem,lock,30205 9927200532821/vc02/142.99,2.000,u,10,10,rem,lock,18174 9927200532827/vc06/202.89,2.000,u,10,10,rem,lock,20307 9927200532833/vc11/237.99,2.000,u,10,10,rem,lock,9054 9927200532861/tpi/16328,18174,14722,3830,20657,20307,22215,44246,12979,30205 9927200532886/tpi/7853,8168,9054,26449,16673,4720,5999 9927200532888/tsys1/58.0,57.0,55.0,51.6,51.7,47.0,44.3,44.4,53.7,47.3 9927200532888/tsys2/85.6,81.7,82.5,79.0,76.5,76.4,86.1 9927200532888:!272005505 9927200550501:"data stop" 9927200550501:et 9927200550512:!+3s 9927200550814:tape 9927200550823/tape/off,07794,norm,stopped,stop,unlock,ready,rem 9927200550823:postob 9927200550823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927200550900:nw2c1=15 9927200550953/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200551279:!272005713 9927200570725#trakl#SOURCE_ACQUIRED 9927200571301:preob 9927200571451/onsource/TRACKING 9927200571687/tpical/18366,20530,16707,4262,23701,23457,25953,51607,14777,35004 9927200571706/tpical/9003,9459,10562,31182,19735,5527,6829 9927200571713:!272005723 9927200572301:tape 9927200572310/tape/off,07794,norm,stopped,stop,unlock,ready,rem 9927200572311:st=for,135 9927200572321:"data start" 9927200572321:midob 9927200572450/onsource/TRACKING 9927200572452/wx/19.9,988.0,91.0,0.0 9927200572475/cable/+1.0855290E-02 9927200572503/fmout-gps/S 1.8078E-07 9927200572509/ifd/16,19,nor,nor,rem,13144,5907 9927200572515/if3/6,in,2,2,,,present,500.10,rem,lock,30615 9927200572521/vc02/142.99,2.000,u,10,10,rem,lock,18429 9927200572527/vc06/202.89,2.000,u,10,10,rem,lock,20541 9927200572533/vc11/237.99,2.000,u,10,10,rem,lock,8981 9927200572561/tpi/16501,18429,14928,3859,20965,20541,22518,44775,13144,30615 9927200572581/tpi/7696,8048,8981,25994,16519,4670,5907 9927200572582/tsys1/59.9,58.9,56.8,52.7,52.6,47.7,45.6,45.4,54.8,48.5 9927200572583/tsys2/84.3,82.1,82.5,77.4,78.3,76.1,86.7 9927200572583:!272005901 9927200590101:"data stop" 9927200590101:et 9927200590112:!+3s 9927200590414:tape 9927200590423/tape/off,08886,norm,stopped,stop,unlock,ready,rem 9927200590423:postob 9927200590423:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927200590552:midtp 9927200590787/tpzero/502,710,454,819,330,619,95,317,309,149 9927200590807/tpzero/634,624,628,265,376,490,776 9927200590823/rx/02(lo),on,a,on,on,on,off,locked,47.55 9927200590832/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200590842/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927200590851/rx/17(pres),on,a,on,on,on,off,locked,0.996 9927200590860/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927200590870/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200590870:nw2c2=16 9927200591017/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927200591344:!272010054 9927201004875#trakl#SOURCE_ACQUIRED 9927201005401:preob 9927201005500/onsource/TRACKING 9927201005735/tpical/18379,20566,16727,4255,23829,23595,26124,52026,14796,35241 9927201005755/tpical/9021,9495,10626,31463,19925,5565,6879 9927201005762:!272010104 9927201010401:tape 9927201010410/tape/off,08886,norm,stopped,stop,unlock,ready,rem 9927201010410:st=rev,135 9927201010421:"data start" 9927201010421:midob 9927201010551/onsource/TRACKING 9927201010553/wx/19.8,987.9,91.6,0.0 9927201010579/cable/+1.0854542E-02 9927201010603/fmout-gps/S 1.8051E-07 9927201010609/ifd/16,19,nor,nor,rem,13167,5953 9927201010615/if3/6,in,2,2,,,present,500.10,rem,lock,30829 9927201010621/vc02/142.99,2.000,u,10,10,rem,lock,18438 9927201010627/vc06/202.89,2.000,u,10,10,rem,lock,20673 9927201010633/vc11/237.99,2.000,u,10,10,rem,lock,9049 9927201010661/tpi/16494,18438,14944,3853,21092,20673,22680,45162,13167,30829 9927201010681/tpi/7723,8076,9049,26268,16665,4717,5953 9927201010682/tsys1/59.2,58.1,56.7,52.7,52.9,47.9,45.8,45.6,55.1,48.5 9927201010683/tsys2/85.3,82.0,83.4,78.1,78.0,77.8,87.3 9927201010683:!272010242 9927201024201:"data stop" 9927201024201:et 9927201024212:!+3s 9927201024514:tape 9927201024523/tape/off,07793,norm,stopped,stop,unlock,ready,rem 9927201024523:postob 9927201024523:source=3c446,222547.3,-045701.4,2000.0,neutral 9927201024668:check2c2 9927201032617?ERROR qg -303 Track 11 parity errors exceed threshold. 9927201032617?ERROR qg -305 AUX data differs from expected value on track 11. 9927201032617?ERROR qg -304 Track 11 sync errors exceed threshold. 9927201032617/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927201032617/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927201034037:nw2c2=16 9927201034091/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201034418:!272010503 9927201044826#trakl#SOURCE_ACQUIRED 9927201050301:preob 9927201050451/onsource/TRACKING 9927201050687/tpical/18840,21044,17168,4335,24327,24082,26685,53057,15154,35990 9927201050707/tpical/9109,9559,10766,31577,20085,5619,6946 9927201050714:!272010513 9927201051301:tape 9927201051310/tape/off,07797,norm,stopped,stop,unlock,ready,rem 9927201051311:st=rev,135 9927201051322:"data start" 9927201051322:midob 9927201051352/onsource/TRACKING 9927201051354/wx/19.8,988.0,91.3,2.7 9927201051383/cable/+1.0853805E-02 9927201051403/fmout-gps/S 1.8119E-07 9927201051409/ifd/16,19,nor,nor,rem,13516,6012 9927201051415/if3/6,in,2,2,,,present,500.10,rem,lock,31559 9927201051421/vc02/142.99,2.000,u,10,10,rem,lock,18929 9927201051427/vc06/202.89,2.000,u,10,10,rem,lock,21155 9927201051433/vc11/237.99,2.000,u,10,10,rem,lock,9159 9927201051461/tpi/16945,18929,15372,3926,21576,21155,23217,46235,13516,31559 9927201051481/tpi/7793,8111,9159,26453,16823,4762,6012 9927201051483/tsys1/60.6,60.1,58.0,53.0,53.9,49.0,46.5,47.0,56.3,49.5 9927201051483/tsys2/84.9,80.7,82.9,79.8,78.7,77.8,87.5 9927201051483:!272010651 9927201065101:"data stop" 9927201065101:et 9927201065112:!+3s 9927201065415:tape 9927201065442/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927201065443:postob 9927201065443:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927201065600:nw2c2=16 9927201065653/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201065977:!272010925 9927201074975#trakl#SOURCE_ACQUIRED 9927201092501:preob 9927201092599/onsource/TRACKING 9927201092834/tpical/18831,21038,17154,4331,24385,24144,26832,53300,15150,36109 9927201092854/tpical/9056,9488,10665,31357,19926,5572,6887 9927201092861:!272010935 9927201093501:tape 9927201093511/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927201093511:st=rev,135 9927201093522:"data start" 9927201093522:midob 9927201093600/onsource/TRACKING 9927201093602/wx/19.7,987.8,91.0,0.0 9927201093626/cable/+1.0852716E-02 9927201093703/fmout-gps/S 1.8205E-07 9927201093709/ifd/16,19,nor,nor,rem,13525,5959 9927201093715/if3/6,in,2,2,,,present,500.10,rem,lock,31704 9927201093721/vc02/142.99,2.000,u,10,10,rem,lock,18915 9927201093726/vc06/202.89,2.000,u,10,10,rem,lock,21195 9927201093732/vc11/237.99,2.000,u,10,10,rem,lock,9084 9927201093760/tpi/16937,18915,15366,3930,21635,21195,23364,46420,13525,31704 9927201093780/tpi/7739,8074,9084,26238,16688,4722,5959 9927201093782/tsys1/60.6,59.9,58.2,54.2,54.1,48.7,46.8,46.8,56.8,50.0 9927201093782/tsys2/84.2,82.2,83.5,79.2,78.6,77.7,87.2 9927201093783:!272011126 9927201112601:"data stop" 9927201112601:et 9927201112612:!+3s 9927201112914:tape 9927201112923/tape/off,05465,norm,stopped,stop,unlock,ready,rem 9927201112923:postob 9927201112923:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927201112950:nw2c2=16 9927201113003/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201113330:!272011439 9927201125874#trakl#SOURCE_ACQUIRED 9927201143901:preob 9927201143953/onsource/TRACKING 9927201144188/tpical/19834,21855,17801,4484,25461,25165,27978,55741,15820,37767 9927201144208/tpical/9168,9647,10971,32297,20486,5733,7054 9927201144215:!272011449 9927201144901:tape 9927201144910/tape/off,05465,norm,stopped,stop,unlock,ready,rem 9927201144911:st=rev,135 9927201144921:"data start" 9927201144921:midob 9927201145000/onsource/TRACKING 9927201145002/wx/19.9,987.8,89.3,1.2 9927201145020/cable/+1.0852324E-02 9927201145103/fmout-gps/S 1.8135E-07 9927201145109/ifd/16,19,nor,nor,rem,14161,6134 9927201145115/if3/6,in,2,2,,,present,500.10,rem,lock,33263 9927201145121/vc02/142.99,2.000,u,10,10,rem,lock,19729 9927201145127/vc06/202.89,2.000,u,10,10,rem,lock,22178 9927201145133/vc11/237.99,2.000,u,10,10,rem,lock,9383 9927201145161/tpi/17871,19729,16007,4074,22642,22178,24438,48770,14161,33263 9927201145181/tpi/7870,8241,9383,27104,17245,4879,6134 9927201145182/tsys1/61.8,62.4,60.5,55.4,55.2,50.4,48.0,48.5,58.3,51.3 9927201145183/tsys2/87.0,84.6,86.1,80.7,81.2,80.2,90.9 9927201145183:!272011627 9927201162701:"data stop" 9927201162701:et 9927201162712:!+3s 9927201163014:tape 9927201163022/tape/off,04372,norm,stopped,stop,unlock,ready,rem 9927201163023:postob 9927201163023:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927201163152:nw2c2=16 9927201163205/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201163529:!272012119 9927201175825#trakl#SOURCE_ACQUIRED 9927201211901:preob 9927201212061/onsource/TRACKING 9927201212296/tpical/19224,21217,17298,4375,24659,24379,27024,53934,15358,36586 9927201212316/tpical/9232,9671,10961,32145,20467,5719,7034 9927201212323:!272012129 9927201212901:tape 9927201212910/tape/off,04372,norm,stopped,stop,unlock,ready,rem 9927201212911:st=rev,135 9927201212921:"data start" 9927201212921:midob 9927201212952/onsource/TRACKING 9927201212954/wx/19.9,987.8,87.4,0.7 9927201212979/cable/+1.0853995E-02 9927201213003/fmout-gps/S 1.8174E-07 9927201213009/ifd/16,19,nor,nor,rem,13694,6099 9927201213015/if3/6,in,2,2,,,present,500.10,rem,lock,32084 9927201213021/vc02/142.99,2.000,u,10,10,rem,lock,19049 9927201213027/vc06/202.89,2.000,u,10,10,rem,lock,21418 9927201213033/vc11/237.99,2.000,u,10,10,rem,lock,9346 9927201213061/tpi/17281,19049,15499,3969,21894,21418,23538,46935,13694,32084 9927201213081/tpi/7865,8237,9346,27006,17194,4863,6099 9927201213082/tsys1/60.3,59.0,58.4,54.2,54.4,49.0,46.9,46.5,56.1,49.5 9927201213083/tsys2/82.6,82.9,84.3,81.2,80.2,79.7,88.9 9927201213083:!272012307 9927201230701:"data stop" 9927201230701:et 9927201230712:!+3s 9927201231014:tape 9927201231023/tape/off,03279,norm,stopped,stop,unlock,ready,rem 9927201231023:postob 9927201231023:source=2201+315,220315.0,314538.3,2000.0,neutral 9927201231102:nw2c2=16 9927201231155/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201231480:!272012751 9927201271826#trakl#SOURCE_ACQUIRED 9927201275101:preob 9927201275201/onsource/TRACKING 9927201275436/tpical/18760,20957,17039,4332,24055,23981,26573,52707,15071,35711 9927201275456/tpical/9164,9604,10770,31699,20096,5609,6955 9927201275463:!272012801 9927201280101:tape 9927201280110/tape/off,03279,norm,stopped,stop,unlock,ready,rem 9927201280111:st=rev,135 9927201280122:"data start" 9927201280122:midob 9927201280200/onsource/TRACKING 9927201280202/wx/20.1,987.6,86.5,4.0 9927201280219/cable/+1.0852738E-02 9927201280303/fmout-gps/S 1.8145E-07 9927201280309/ifd/16,19,nor,nor,rem,13444,6024 9927201280315/if3/6,in,2,2,,,present,500.10,rem,lock,31234 9927201280321/vc02/142.99,2.000,u,10,10,rem,lock,18884 9927201280327/vc06/202.89,2.000,u,10,10,rem,lock,20958 9927201280333/vc11/237.99,2.000,u,10,10,rem,lock,9167 9927201280361/tpi/16870,18884,15244,3928,21290,20958,23042,45755,13444,31234 9927201280381/tpi/7840,8160,9167,26520,16876,4762,6024 9927201280382/tsys1/60.4,61.2,57.5,53.7,52.9,47.0,45.4,45.6,56.4,48.5 9927201280383/tsys2/85.0,81.5,83.2,79.1,80.0,78.7,88.0 9927201280383:!272012939 9927201293901:"data stop" 9927201293901:et 9927201293912:!+3s 9927201294214:tape 9927201294223/tape/off,02186,norm,stopped,stop,unlock,ready,rem 9927201294223:postob 9927201294223:source=1606+106,160846.2,102907.8,2000.0,neutral 9927201294350:nw2c2=16 9927201294403/pass/16,16,auto,55.0,55.0,55.8,55.4,0.8,0.4 9927201294730:!272013527 9927201352701:preob 9927201352753?ERROR AN -103 Pointing computer tracking errors are too large. 9927201352753?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927201352753/onsource/SLEWING 9927201352989/tpical/19761,21893,17849,4491,25490,25185,27939,55707,15839,37824 9927201353009/tpical/9246,9814,10981,32317,20592,5733,7073 9927201353016:!272013537 9927201353701:tape 9927201353709/tape/off,02186,norm,stopped,stop,unlock,ready,rem 9927201353710:st=rev,135 9927201353721:"data start" 9927201353721:midob 9927201353799?ERROR AN -103 Pointing computer tracking errors are too large. 9927201353799?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927201353799/onsource/SLEWING 9927201353804/wx/20.1,987.5,85.7,1.5 9927201353831/cable/+1.0852502E-02 9927201353903/fmout-gps/S 1.8125E-07 9927201353909/ifd/16,19,nor,nor,rem,14218,6143 9927201353915/if3/6,in,2,2,,,present,500.10,rem,lock,33393 9927201353921/vc02/142.99,2.000,u,10,10,rem,lock,19766 9927201353927/vc06/202.89,2.000,u,10,10,rem,lock,22286 9927201353933/vc11/237.99,2.000,u,10,10,rem,lock,9382 9927201353961/tpi/17882,19766,16069,4090,22796,22286,24472,48899,14218,33393 9927201353980/tpi/7942,8372,9382,27151,17295,4883,6143 9927201353982/tsys1/64.6,62.5,61.2,56.9,58.2,52.2,49.1,49.8,59.9,52.4 9927201353983/tsys2/87.5,83.9,85.5,81.2,80.1,80.7,90.1 9927201353983:!272013715 9927201360274#trakl#SOURCE_ACQUIRED 9927201371501:"data stop" 9927201371501:et 9927201371512:!+3s 9927201371814:tape 9927201371823/tape/off,01093,norm,stopped,stop,unlock,ready,rem 9927201371823:postob 9927201371823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927201371952:midtp 9927201372187/tpzero/506,707,449,814,339,620,94,316,307,149 9927201372207/tpzero/632,623,622,266,375,489,772 9927201372223/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927201372232/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927201372242/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927201372251/rx/17(pres),on,a,on,on,on,off,locked,4.216 9927201372260/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927201372269/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927201372270:nw2c1=17 9927201372472/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201372799:fastr=0m45s 9927201381329:!272013928 9927201385890;"wx,overcast,light rain, humid, no wind, warm. 9927201390452;wx 9927201390454/wx/20.0,987.5,86.8,2.9 9927201390785;rxmon 9927201390795/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927201390804/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927201390813/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927201390822/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927201390831/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927201390840/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927201391374#trakl#SOURCE_ACQUIRED 9927201392801:preob 9927201392900/onsource/TRACKING 9927201393032;"rxtemps 20k=29.07 70k=55.57 9927201393137/tpical/18572,20780,16974,4298,24088,23803,26414,52661,14987,35637 9927201393156/tpical/9150,9641,10750,31685,20118,5618,6950 9927201393163:!272013938 9927201393801:tape 9927201393810/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927201393810:st=for,135 9927201393821:"data start" 9927201393821:midob 9927201393851/onsource/TRACKING 9927201393853/wx/20.0,987.5,86.8,2.9 9927201393879/cable/+1.0853576E-02 9927201393903/fmout-gps/S 1.8088E-07 9927201393909/ifd/16,19,nor,nor,rem,13278,6004 9927201393915/if3/6,in,2,2,,,present,500.10,rem,lock,31050 9927201393921/vc02/142.99,2.000,u,10,10,rem,lock,18584 9927201393927/vc06/202.89,2.000,u,10,10,rem,lock,20735 9927201393933/vc11/237.99,2.000,u,10,10,rem,lock,9148 9927201393960/tpi/16606,18584,15122,3877,21248,20735,22852,45547,13278,31050 9927201393980/tpi/7835,8178,9148,26422,16837,4751,6004 9927201393982/tsys1/57.2,56.8,55.3,50.8,51.4,45.8,44.6,44.4,53.0,47.0 9927201393982/tsys2/85.5,80.6,83.1,77.6,78.3,76.7,86.3 9927201393982:!272014116 9927201411601:"data stop" 9927201411601:et 9927201411612:!+3s 9927201411914:tape 9927201411923/tape/off,01187,norm,stopped,stop,unlock,ready,rem 9927201411923:postob 9927201411923:source=3c371,180650.7,694928.1,2000.0,neutral 9927201412050:check2c1 9927201420050?ERROR qg -303 Track 11 parity errors exceed threshold. 9927201420050?ERROR qg -305 AUX data differs from expected value on track 11. 9927201420050?ERROR qg -304 Track 11 sync errors exceed threshold. 9927201420050/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927201420050/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927201421418:nw2c1=17 9927201421474/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201421818:!272014511 9927201444625#trakl#SOURCE_ACQUIRED 9927201451101:preob 9927201451153/onsource/TRACKING 9927201451388/tpical/18239,20313,16539,4222,23371,23242,25651,50994,14630,34618 9927201451408/tpical/9186,9628,10603,31513,19860,5549,6935 9927201451415:!272014521 9927201452101:tape 9927201452111/tape/off,01184,norm,stopped,stop,unlock,ready,rem 9927201452111:st=for,135 9927201452122:"data start" 9927201452122:midob 9927201452150/onsource/TRACKING 9927201452152/wx/19.9,987.6,86.9,3.6 9927201452188/cable/+1.0853862E-02 9927201452203/fmout-gps/S 1.8184E-07 9927201452209/ifd/16,19,nor,nor,rem,12992,5996 9927201452215/if3/6,in,2,2,,,present,500.10,rem,lock,30194 9927201452221/vc02/142.99,2.000,u,10,10,rem,lock,18203 9927201452227/vc06/202.89,2.000,u,10,10,rem,lock,20280 9927201452233/vc11/237.99,2.000,u,10,10,rem,lock,8993 9927201452261/tpi/16347,18203,14740,3819,20642,20280,22217,44154,12992,30194 9927201452281/tpi/7848,8155,8993,26296,16605,4693,5996 9927201452282/tsys1/58.4,57.9,55.4,52.0,51.9,46.3,45.0,44.7,54.1,47.4 9927201452283/tsys2/84.2,79.8,81.2,77.9,77.8,76.7,86.8 9927201452283:!272014659 9927201465901:"data stop" 9927201465901:et 9927201465912:!+3s 9927201470214:tape 9927201470223/tape/off,02276,norm,stopped,stop,unlock,ready,rem 9927201470223:postob 9927201470223:source=3c418,203837.0,511912.7,2000.0,neutral 9927201470252:nw2c1=17 9927201470305/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927201470630:!272014952 9927201492974#trakl#SOURCE_ACQUIRED 9927201495201:preob 9927201495299/onsource/TRACKING 9927201495535/tpical/18926,21173,17294,4399,24374,24274,26727,52989,15290,36099 9927201495555/tpical/9572,10023,11142,33135,20839,5797,7219 9927201495562:!272015002 9927201500201:tape 9927201500210/tape/off,02276,norm,stopped,stop,unlock,ready,rem 9927201500211:st=for,135 9927201500221:"data start" 9927201500221:midob 9927201500300/onsource/TRACKING 9927201500302/wx/19.8,987.6,87.3,0.0 9927201500339/cable/+1.0854376E-02 9927201500403/fmout-gps/S 1.8160E-07 9927201500409/ifd/16,19,nor,nor,rem,13649,6267 9927201500415/if3/6,in,2,2,,,present,500.10,rem,lock,31658 9927201500421/vc02/142.99,2.000,u,10,10,rem,lock,19048 9927201500427/vc06/202.89,2.000,u,10,10,rem,lock,21265 9927201500433/vc11/237.99,2.000,u,10,10,rem,lock,9529 9927201500461/tpi/17050,19048,15492,3988,21619,21265,23268,46151,13649,31658 9927201500481/tpi/8237,8555,9529,27855,17521,4941,6267 9927201500482/tsys1/61.6,60.2,58.3,53.9,53.9,47.9,46.8,46.8,56.8,49.5 9927201500483/tsys2/88.9,84.3,86.2,81.6,80.7,81.2,90.1 9927201500483:!272015140 9927201514001:"data stop" 9927201514001:et 9927201514012:!+3s 9927201514314:tape 9927201514323/tape/off,03369,norm,stopped,stop,unlock,ready,rem 9927201514323:postob 9927201514323:source=1726+455,172727.7,453039.7,2000.0,neutral 9927201514400:nw2c1=17 9927201514453/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201514779:!272015511 9927201533875#trakl#SOURCE_ACQUIRED 9927201551101:preob 9927201551199/onsource/TRACKING 9927201551434/tpical/18094,20307,16582,4224,23457,23247,25697,51091,14614,34649 9927201551454/tpical/9060,9500,10579,31247,19732,5507,6898 9927201551461:!272015521 9927201552101:tape 9927201552110/tape/off,03369,norm,stopped,stop,unlock,ready,rem 9927201552110:st=for,135 9927201552121:"data start" 9927201552121:midob 9927201552152/onsource/TRACKING 9927201552154/wx/19.8,987.7,87.3,0.0 9927201552163/cable/+1.0854669E-02 9927201552203/fmout-gps/S 1.8113E-07 9927201552209/ifd/16,19,nor,nor,rem,12983,5929 9927201552215/if3/6,in,2,2,,,present,500.10,rem,lock,30218 9927201552221/vc02/142.99,2.000,u,10,10,rem,lock,18155 9927201552227/vc06/202.89,2.000,u,10,10,rem,lock,20310 9927201552232/vc11/237.99,2.000,u,10,10,rem,lock,8992 9927201552260/tpi/16203,18155,14774,3816,20689,20310,22245,44199,12983,30218 9927201552280/tpi/7719,8046,8992,26006,16463,4659,5929 9927201552282/tsys1/57.9,56.6,55.3,51.4,51.3,46.8,44.8,44.4,54.2,47.4 9927201552282/tsys2/82.5,79.7,82.3,76.7,76.8,76.8,83.1 9927201552282:!272015659 9927201565901:"data stop" 9927201565901:et 9927201565912:!+3s 9927201570214:tape 9927201570223/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927201570223:postob 9927201570223:source=1611+343,161341.1,341247.9,2000.0,neutral 9927201570350:nw2c1=17 9927201570403/pass/17,17,auto,110.0,110.0,109.2,109.5,-0.8,-0.5 9927201570729:!272015907 9927201581725#trakl#SOURCE_ACQUIRED 9927201590701:preob 9927201590799/onsource/TRACKING 9927201591034/tpical/18654,20918,17149,4332,24270,23990,26573,52812,15105,35843 9927201591054/tpical/9315,9804,10899,32339,20440,5700,7076 9927201591061:!272015917 9927201591701:tape 9927201591710/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927201591711:st=for,135 9927201591721:"data start" 9927201591721:midob 9927201591800/onsource/TRACKING 9927201591802/wx/19.8,987.8,88.0,0.0 9927201591815/cable/+1.0852795E-02 9927201591903/fmout-gps/S 1.8084E-07 9927201591908/ifd/16,19,nor,nor,rem,13425,6129 9927201591914/if3/6,in,2,2,,,present,500.10,rem,lock,31336 9927201591920/vc02/142.99,2.000,u,10,10,rem,lock,18731 9927201591926/vc06/202.89,2.000,u,10,10,rem,lock,21010 9927201591932/vc11/237.99,2.000,u,10,10,rem,lock,9277 9927201591960/tpi/16725,18731,15269,3921,21458,21010,23026,45842,13425,31336 9927201591980/tpi/7981,8338,9277,27075,17134,4836,6129 9927201591981/tsys1/58.7,57.5,55.0,52.8,52.4,47.8,45.1,45.6,54.5,48.3 9927201591982/tsys2/86.0,82.1,83.3,79.5,79.1,78.5,88.3 9927201591982:!272020055 9927202005501:"data stop" 9927202005501:et 9927202005512:!+3s 9927202005814:tape 9927202005823/tape/off,05555,norm,stopped,stop,unlock,ready,rem 9927202005823:postob 9927202005823:source=1014+615,101725.9,611627.5,2000.0,neutral 9927202005852:nw2c1=17 9927202005904/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927202010229:!272020349 9927202033126#trakl#SOURCE_ACQUIRED 9927202034901:preob 9927202034953/onsource/TRACKING 9927202035188/tpical/20630,22778,18601,4663,26499,26164,28946,57697,16507,39308 9927202035208/tpical/9401,9956,11035,32734,20686,5772,7158 9927202035215:!272020359 9927202035901:tape 9927202035910/tape/off,05555,norm,stopped,stop,unlock,ready,rem 9927202035910:st=for,135 9927202035921:"data start" 9927202035921:midob 9927202040001/onsource/TRACKING 9927202040003/wx/19.7,987.8,88.2,0.4 9927202040038/cable/+1.0850983E-02 9927202040103/fmout-gps/S 1.8203E-07 9927202040108/ifd/16,19,nor,nor,rem,14895,6209 9927202040114/if3/6,in,2,2,,,present,500.10,rem,lock,34939 9927202040120/vc02/142.99,2.000,u,10,10,rem,lock,20681 9927202040126/vc06/202.89,2.000,u,10,10,rem,lock,23284 9927202040132/vc11/237.99,2.000,u,10,10,rem,lock,9420 9927202040160/tpi/18749,20681,16835,4257,23829,23284,25559,51015,14895,34939 9927202040180/tpi/8063,8469,9420,27503,17403,4908,6209 9927202040182/tsys1/67.7,66.5,64.8,59.2,61.4,54.9,52.5,53.0,63.2,55.6 9927202040182/tsys2/86.7,82.4,85.0,81.3,81.0,79.8,89.4 9927202040182:!272020537 9927202053701:"data stop" 9927202053701:et 9927202053712:!+3s 9927202054014:tape 9927202054023/tape/off,06648,norm,stopped,stop,unlock,ready,rem 9927202054023:postob 9927202054023:source=0133+476,013658.6,475129.1,2000.0,cw 9927202054152:nw2c1=17 9927202054204/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927202054567:!272020925 9927202083774#trakl#SOURCE_ACQUIRED 9927202092501:preob 9927202092651/onsource/TRACKING 9927202092887/tpical/18457,20580,16749,4251,23613,23306,25813,51323,14769,34839 9927202092907/tpical/9173,9613,10580,31471,19848,5539,6943 9927202092914:!272020935 9927202093501:tape 9927202093510/tape/off,06648,norm,stopped,stop,unlock,ready,rem 9927202093510:st=for,135 9927202093521:"data start" 9927202093521:midob 9927202093599/onsource/TRACKING 9927202093601/wx/19.9,988.0,87.6,0.0 9927202093627/cable/+1.0849927E-02 9927202093703/fmout-gps/S 1.8180E-07 9927202093709/ifd/16,19,nor,nor,rem,13131,5993 9927202093715/if3/6,in,2,2,,,present,500.10,rem,lock,30442 9927202093721/vc02/142.99,2.000,u,10,10,rem,lock,18452 9927202093727/vc06/202.89,2.000,u,10,10,rem,lock,20370 9927202093733/vc11/237.99,2.000,u,10,10,rem,lock,8987 9927202093761/tpi/16570,18452,14948,3851,20847,20370,22373,44532,13131,30442 9927202093780/tpi/7833,8125,8987,26188,16560,4677,5993 9927202093782/tsys1/59.4,58.2,56.2,53.0,51.8,47.0,45.2,45.4,54.6,48.1 9927202093782/tsys2/83.9,78.7,82.0,76.6,76.8,75.8,85.8 9927202093783:!272021113 9927202111301:"data stop" 9927202111301:et 9927202111312:!+3s 9927202111614:tape 9927202111623/tape/off,07741,norm,stopped,stop,unlock,ready,rem 9927202111623:postob 9927202111623:source=1357+769,135755.4,764321.1,2000.0,neutral 9927202111750:nw2c1=17 9927202111802/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927202112128:!272021932 9927202142974#trakl#SOURCE_ACQUIRED 9927202193201:preob 9927202193301/onsource/TRACKING 9927202193536/tpical/18338,20455,16673,4242,23603,23379,25857,51454,14711,34868 9927202193556/tpical/9141,9608,10631,31297,19766,5514,6896 9927202193563:!272021942 9927202194201:tape 9927202194210/tape/off,07741,norm,moving,stop,unlock,ready,rem 9927202194211:st=for,135 9927202194221:"data start" 9927202194221:midob 9927202194300/onsource/TRACKING 9927202194302/wx/20.2,988.0,86.1,1.3 9927202194323/cable/+1.0852204E-02 9927202194403/fmout-gps/S 1.8162E-07 9927202194409/ifd/16,19,nor,nor,rem,13066,5951 9927202194415/if3/6,in,2,2,,,present,500.10,rem,lock,30434 9927202194421/vc02/142.99,2.000,u,10,10,rem,lock,18333 9927202194427/vc06/202.89,2.000,u,10,10,rem,lock,20392 9927202194433/vc11/237.99,2.000,u,10,10,rem,lock,9014 9927202194461/tpi/16425,18333,14875,3836,20828,20392,22369,44533,13066,30434 9927202194480/tpi/7799,8147,9014,26075,16489,4662,5951 9927202194482/tsys1/58.1,58.0,56.0,52.0,51.5,46.2,44.6,44.6,54.1,47.7 9927202194482/tsys2/83.4,80.4,81.0,77.2,76.8,76.5,85.5 9927202194483:!272022120 9927202212001:"data stop" 9927202212001:et 9927202212012:!+3s 9927202212314:tape 9927202212322/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927202212323:postob 9927202212323:source=0014+813,001708.5,813508.1,2000.0,neutral 9927202212350:midtp 9927202212585/tpzero/511,707,453,816,335,618,93,314,308,149 9927202212605/tpzero/636,622,625,269,376,488,769 9927202212621/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927202212630/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927202212639/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927202212649/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927202212658/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927202212667/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927202212667:nw2c2=18 9927202212831/pass/18,18,auto,110.0,110.0,110.6,108.2,0.6,-1.8 9927202213156:!272022255 9927202224774#trakl#SOURCE_ACQUIRED 9927202225501:preob 9927202225651/onsource/TRACKING 9927202225887/tpical/18130,20274,16550,4237,23366,23139,25663,51071,14614,34601 9927202225907/tpical/9160,9658,10662,31417,19870,5545,6923 9927202225914:!272022305 9927202230501:tape 9927202230511/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927202230511:st=rev,135 9927202230522:"data start" 9927202230522:midob 9927202230600/onsource/TRACKING 9927202230602/wx/20.2,987.9,86.4,0.0 9927202230626/cable/+1.0851761E-02 9927202230703/fmout-gps/S 1.8219E-07 9927202230708/ifd/16,19,nor,nor,rem,12938,5969 9927202230714/if3/6,in,2,2,,,present,500.10,rem,lock,30097 9927202230720/vc02/142.99,2.000,u,10,10,rem,lock,18116 9927202230726/vc06/202.89,2.000,u,10,10,rem,lock,20156 9927202230732/vc11/237.99,2.000,u,10,10,rem,lock,9063 9927202230760/tpi/16222,18116,14711,3817,20562,20156,22108,44006,12938,30097 9927202230780/tpi/7816,8191,9063,26232,16559,4674,5969 9927202230782/tsys1/57.5,56.3,54.1,49.9,50.4,45.7,43.2,43.2,52.6,46.4 9927202230782/tsys2/83.4,80.5,82.4,78.2,76.3,75.0,85.1 9927202230782:!272022443 9927202244301:"data stop" 9927202244301:et 9927202244312:!+3s 9927202244614:tape 9927202244623/tape/off,07741,norm,stopped,stop,unlock,ready,rem 9927202244623:postob 9927202244623:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927202244750:check2c2 9927202252756?ERROR qg -303 Track 11 parity errors exceed threshold. 9927202252756?ERROR qg -304 Track 11 sync errors exceed threshold. 9927202252757/parity/0.,16.,16.,65.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927202252757/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927202254119:nw2c2=18 9927202254183/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202254507:!272022958 9927202293425#trakl#SOURCE_ACQUIRED 9927202295801:preob 9927202295951/onsource/TRACKING 9927202300186/tpical/20644,22838,18586,4659,26547,26181,29088,57988,16548,39428 9927202300206/tpical/9486,10087,11290,33243,21170,5888,7265 9927202300213:!272023008 9927202300801:tape 9927202300810/tape/off,07743,norm,stopped,stop,unlock,ready,rem 9927202300810:st=rev,135 9927202300821:"data start" 9927202300821:midob 9927202300899/onsource/TRACKING 9927202300901/wx/20.4,987.9,85.9,6.2 9927202300927/cable/+1.0852603E-02 9927202301003/fmout-gps/S 1.8209E-07 9927202301009/ifd/16,19,nor,nor,rem,14912,6330 9927202301015/if3/6,in,2,2,,,present,500.10,rem,lock,34991 9927202301021/vc02/142.99,2.000,u,10,10,rem,lock,20677 9927202301027/vc06/202.89,2.000,u,10,10,rem,lock,23305 9927202301032/vc11/237.99,2.000,u,10,10,rem,lock,9690 9927202301060/tpi/18762,20677,16823,4256,23764,23305,25658,51075,14912,34991 9927202301080/tpi/8176,8651,9690,28047,17865,5032,6330 9927202301082/tsys1/67.7,64.5,64.8,59.6,58.8,55.1,52.0,51.3,62.3,54.8 9927202301082/tsys2/89.8,87.3,88.4,83.5,82.6,82.9,92.8 9927202301083:!272023146 9927202314601:"data stop" 9927202314601:et 9927202314612:!+3s 9927202314914:tape 9927202314923/tape/off,06650,norm,stopped,stop,unlock,ready,rem 9927202314923:postob 9927202314923:source=1606+106,160846.2,102907.8,2000.0,neutral 9927202314954:nw2c2=18 9927202315007/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202315332:!272023308 9927202330802:preob 9927202330899?ERROR AN -103 Pointing computer tracking errors are too large. 9927202330899?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927202330899/onsource/SLEWING 9927202331134/tpical/22631,24964,20503,5072,29191,28788,31993,63823,18219,43476 9927202331154/tpical/9764,10392,11622,34342,21796,6058,7464 9927202331161:!272023318 9927202331575#trakl#SOURCE_ACQUIRED 9927202331801:tape 9927202331809/tape/off,06650,norm,stopped,stop,unlock,ready,rem 9927202331810:st=rev,135 9927202331821:"data start" 9927202331821:midob 9927202331899/onsource/TRACKING 9927202331901/wx/20.3,987.8,86.5,5.3 9927202331934/cable/+1.0852432E-02 9927202332003/fmout-gps/S 1.8242E-07 9927202332009/ifd/16,19,nor,nor,rem,16571,6524 9927202332015/if3/6,in,2,2,,,present,500.10,rem,lock,39031 9927202332021/vc02/142.99,2.000,u,10,10,rem,lock,22790 9927202332027/vc06/202.89,2.000,u,10,10,rem,lock,25894 9927202332033/vc11/237.99,2.000,u,10,10,rem,lock,9995 9927202332061/tpi/20688,22790,18693,4667,26483,25894,28551,56978,16571,39031 9927202332080/tpi/8430,8937,9995,29155,18535,5203,6524 9927202332082/tsys1/72.5,70.9,70.3,66.4,67.4,61.0,57.7,57.8,68.9,61.1 9927202332083/tsys2/91.2,89.2,89.9,86.9,86.9,86.1,95.6 9927202332083:!272023456 9927202345601:"data stop" 9927202345601:et 9927202345612:!+3s 9927202345914:tape 9927202345922/tape/off,05557,norm,stopped,stop,unlock,ready,rem 9927202345923:postob 9927202345923:source=1726+455,172727.7,453039.7,2000.0,neutral 9927202350050:nw2c2=18 9927202350103/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202350428:!272023847 9927202381675#trakl#SOURCE_ACQUIRED 9927202384701:preob 9927202384799/onsource/TRACKING 9927202385035/tpical/18308,20400,16648,4248,23559,23329,25846,51550,14712,34914 9927202385055/tpical/9207,9692,10709,31529,19987,5563,6947 9927202385061:!272023857 9927202385701:tape 9927202385710/tape/off,05557,norm,stopped,stop,unlock,ready,rem 9927202385710:st=rev,135 9927202385721:"data start" 9927202385721:midob 9927202385801/onsource/TRACKING 9927202385803/wx/20.3,987.8,87.2,2.2 9927202385811/cable/+1.0854799E-02 9927202385903/fmout-gps/S 1.8121E-07 9927202385909/ifd/16,19,nor,nor,rem,13047,6000 9927202385915/if3/6,in,2,2,,,present,500.10,rem,lock,30434 9927202385921/vc02/142.99,2.000,u,10,10,rem,lock,18241 9927202385926/vc06/202.89,2.000,u,10,10,rem,lock,20351 9927202385932/vc11/237.99,2.000,u,10,10,rem,lock,9089 9927202385960/tpi/16422,18241,14801,3839,20762,20351,22366,44537,13047,30434 9927202385980/tpi/7878,8201,9089,26264,16663,4695,6000 9927202385982/tsys1/58.9,56.7,54.2,51.6,51.0,46.3,44.7,44.0,53.4,47.2 9927202385982/tsys2/85.1,79.3,81.6,77.1,76.5,75.7,86.2 9927202385982:!272024035 9927202403501:"data stop" 9927202403501:et 9927202403511:!+3s 9927202403813:tape 9927202403822/tape/off,04464,norm,stopped,stop,unlock,ready,rem 9927202403822:postob 9927202403822:source=1745+624,174614.0,622654.7,2000.0,neutral 9927202403851:nw2c2=18 9927202403904/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202404230:!272024153 9927202414324#trakl#SOURCE_ACQUIRED 9927202415301:preob 9927202415401/onsource/TRACKING 9927202415636/tpical/18200,20341,16530,4233,23461,23209,25677,51161,14612,34677 9927202415656/tpical/9190,9649,10662,31532,19939,5559,6936 9927202415663:!272024203 9927202420301:tape 9927202420310/tape/off,04464,norm,stopped,stop,unlock,ready,rem 9927202420311:st=rev,135 9927202420322:"data start" 9927202420322:midob 9927202420400/onsource/TRACKING 9927202420402/wx/20.3,987.8,87.0,1.2 9927202420423/cable/+1.0854717E-02 9927202420503/fmout-gps/S 1.8221E-07 9927202420509/ifd/16,19,nor,nor,rem,12974,5983 9927202420515/if3/6,in,2,2,,,present,500.10,rem,lock,30233 9927202420520/vc02/142.99,2.000,u,10,10,rem,lock,18191 9927202420526/vc06/202.89,2.000,u,10,10,rem,lock,20221 9927202420532/vc11/237.99,2.000,u,10,10,rem,lock,9041 9927202420560/tpi/16315,18191,14726,3824,20696,20221,22229,44261,12974,30233 9927202420580/tpi/7841,8170,9041,26261,16602,4696,5983 9927202420582/tsys1/58.5,56.8,55.2,51.3,51.4,45.8,44.8,44.5,54.0,47.3 9927202420582/tsys2/83.4,79.7,81.0,77.0,75.9,76.1,85.4 9927202420582:!272024435 9927202443501:"data stop" 9927202443501:et 9927202443512:!+3s 9927202443814:tape 9927202443823/tape/off,02764,norm,stopped,stop,unlock,ready,rem 9927202443823:postob 9927202443823:source=0804+499,080839.7,495036.5,2000.0,neutral 9927202443900:nw2c2=18 9927202443953/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202444278:!272024915 9927202472675#trakl#SOURCE_ACQUIRED 9927202491501:preob 9927202491599/onsource/TRACKING 9927202491834/tpical/23303,25779,21066,5191,29954,29542,32812,65431,18731,44630 9927202491854/tpical/9982,10569,11733,35088,22132,6135,7590 9927202491861:!272024925 9927202492501:tape 9927202492510/tape/off,02764,norm,stopped,stop,unlock,ready,rem 9927202492510:st=rev,135 9927202492521:"data start" 9927202492521:midob 9927202492599/onsource/TRACKING 9927202492601/wx/20.3,987.7,86.8,0.7 9927202492631/cable/+1.0852518E-02 9927202492703/fmout-gps/S 1.8186E-07 9927202492709/ifd/16,19,nor,nor,rem,17072,6635 9927202492715/if3/6,in,2,2,,,present,500.10,rem,lock,40162 9927202492721/vc02/142.99,2.000,u,10,10,rem,lock,23595 9927202492727/vc06/202.89,2.000,u,10,10,rem,lock,26609 9927202492733/vc11/237.99,2.000,u,10,10,rem,lock,10095 9927202492761/tpi/21379,23595,19277,4786,27220,26609,29388,58503,17072,40162 9927202492780/tpi/8636,9079,10095,29826,18808,5274,6635 9927202492782/tsys1/75.7,73.1,73.4,68.4,68.6,61.9,59.7,58.6,70.5,62.5 9927202492783/tsys2/92.8,88.6,90.2,87.7,86.6,86.8,95.9 9927202492783:!272025103 9927202510301:"data stop" 9927202510301:et 9927202510311:!+3s 9927202510613:tape 9927202510622/tape/off,01671,norm,stopped,stop,unlock,ready,rem 9927202510622:postob 9927202510622:source=0642+449,064632.0,445116.6,2000.0,neutral 9927202510757:nw2c2=18 9927202510873/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927202511198:!272025152 9927202515201:preob 9927202515253?ERROR AN -103 Pointing computer tracking errors are too large. 9927202515253?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927202515253/onsource/SLEWING 9927202515490/tpical/22257,24523,20077,4977,28546,28096,31262,62348,17843,42502 9927202515510/tpical/9765,10338,11461,34147,21609,6010,7429 9927202515517:!272025202 9927202520025#trakl#SOURCE_ACQUIRED 9927202520201:tape 9927202520211/tape/off,01671,norm,stopped,stop,unlock,ready,rem 9927202520211:st=rev,135 9927202520222:"data start" 9927202520222:midob 9927202520351/onsource/TRACKING 9927202520353/wx/20.4,987.7,86.6,0.0 9927202520362/cable/+1.0851427E-02 9927202520402/fmout-gps/S 1.7953E-07 9927202520408/ifd/16,19,nor,nor,rem,16190,6480 9927202520414/if3/6,in,2,2,,,present,500.10,rem,lock,38029 9927202520420/vc02/142.99,2.000,u,10,10,rem,lock,22399 9927202520426/vc06/202.89,2.000,u,10,10,rem,lock,25183 9927202520432/vc11/237.99,2.000,u,10,10,rem,lock,9850 9927202520460/tpi/20303,22399,18275,4571,25754,25183,27803,55335,16190,38029 9927202520480/tpi/8422,8876,9850,28941,18296,5134,6480 9927202520482/tsys1/70.7,71.3,69.0,64.6,63.5,58.9,55.9,54.8,67.1,59.1 9927202520482/tsys2/90.5,88.1,89.4,86.0,84.4,82.8,93.9 9927202520482:!272025340 9927202534001:"data stop" 9927202534001:et 9927202534011:!+3s 9927202534313:tape 9927202534322/tape/off,00578,norm,stopped,stop,unlock,ready,rem 9927202534322:postob 9927202534322:source=0059+581,010245.8,582411.1,2000.0,cw 9927202534351:midtp 9927202534586/tpzero/509,709,450,818,329,621,94,318,306,149 9927202534606/tpzero/632,624,623,265,380,491,786 9927202534622/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927202534632/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927202534641/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927202534650/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927202534659/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927202534668/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927202534669:nw2c1=19 9927202534837/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927202535163:fastr=0m25s 9927202541691:!272025932 9927202582725#trakl#SOURCE_ACQUIRED 9927202593201:preob 9927202593299/onsource/TRACKING 9927202593534/tpical/18434,20601,16757,4275,23637,23452,25874,51483,14814,34943 9927202593554/tpical/9284,9726,10694,31699,19972,5570,6984 9927202593561:!272025942 9927202594201:tape 9927202594210/tape/low,00032,norm,stopped,stop,unlock,ready,rem 9927202594211:st=for,135 9927202594222:"data start" 9927202594222:midob 9927202594252/onsource/TRACKING 9927202594254/wx/20.4,987.8,86.5,0.0 9927202594262/cable/+1.0854398E-02 9927202594303/fmout-gps/S 1.8223E-07 9927202594309/ifd/16,19,nor,nor,rem,13172,6036 9927202594314/if3/6,in,2,2,,,present,500.10,rem,lock,30530 9927202594320/vc02/142.99,2.000,u,10,10,rem,lock,18451 9927202594326/vc06/202.89,2.000,u,10,10,rem,lock,20504 9927202594332/vc11/237.99,2.000,u,10,10,rem,lock,9073 9927202594360/tpi/16571,18451,14956,3878,20839,20504,22441,44600,13172,30530 9927202594380/tpi/7922,8256,9073,26441,16668,4705,6036 9927202594382/tsys1/60.2,57.6,56.2,53.8,51.2,47.1,45.4,44.9,54.7,48.1 9927202594382/tsys2/83.6,81.0,81.4,77.7,77.0,76.0,86.4 9927202594382:!272030120 9927203012001:"data stop" 9927203012001:et 9927203012012:!+3s 9927203012314:tape 9927203012323/tape/off,01125,norm,stopped,stop,unlock,ready,rem 9927203012323:postob 9927203012323:source=0552+398,055530.8,394849.2,2000.0,cw 9927203012450:check2c1 9927203020393?ERROR qg -303 Track 11 parity errors exceed threshold. 9927203020393?ERROR qg -305 AUX data differs from expected value on track 11. 9927203020394?ERROR qg -304 Track 11 sync errors exceed threshold. 9927203020394/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927203020394/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927203021818:nw2c1=19 9927203021871/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203022198:!272030638 9927203041925#trakl#SOURCE_ACQUIRED 9927203063801:preob 9927203063951/onsource/TRACKING 9927203064186/tpical/21327,23666,19280,4781,27273,26893,29885,59530,17085,40536 9927203064206/tpical/9687,10227,11273,33620,21215,5900,7345 9927203064214:!272030648 9927203064801:tape 9927203064810/tape/off,01122,norm,stopped,stop,unlock,ready,rem 9927203064810:st=for,135 9927203064821:"data start" 9927203064821:midob 9927203064900/onsource/TRACKING 9927203064902/wx/20.3,987.9,87.4,2.7 9927203064923/cable/+1.0850231E-02 9927203065003/fmout-gps/S 1.6949E-07 9927203065009/ifd/16,19,nor,nor,rem,15442,6395 9927203065015/if3/6,in,2,2,,,present,500.10,rem,lock,36096 9927203065021/vc02/142.99,2.000,u,10,10,rem,lock,21492 9927203065027/vc06/202.89,2.000,u,10,10,rem,lock,23976 9927203065033/vc11/237.99,2.000,u,10,10,rem,lock,9685 9927203065061/tpi/19432,21492,17474,4388,24561,23976,26419,52653,15442,36096 9927203065081/tpi/8343,8759,9685,28405,17930,5045,6395 9927203065082/tsys1/69.7,66.7,65.8,63.4,62.4,55.9,53.0,53.1,64.3,56.5 9927203065083/tsys2/89.6,86.5,89.1,84.2,83.4,83.1,92.2 9927203065083:!272030826 9927203082601:"data stop" 9927203082601:et 9927203082612:!+3s 9927203082914:tape 9927203082923/tape/off,02214,norm,moving,stop,unlock,ready,rem 9927203082923:postob 9927203082923:source=0133+476,013658.6,475129.1,2000.0,cw 9927203083050:nw2c1=19 9927203083103/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203083428:!272031317 9927203123174#trakl#SOURCE_ACQUIRED 9927203131701:preob 9927203131755/onsource/TRACKING 9927203131991/tpical/18658,20887,16945,4314,23784,23604,26102,51826,14955,35252 9927203132010/tpical/9313,9763,10754,31860,20053,5590,7009 9927203132017:!272031327 9927203132701:tape 9927203132711/tape/off,02214,norm,stopped,stop,unlock,ready,rem 9927203132711:st=for,135 9927203132722:"data start" 9927203132722:midob 9927203132800/onsource/TRACKING 9927203132802/wx/19.9,988.0,89.9,0.0 9927203132811/cable/+1.0853012E-02 9927203132903/fmout-gps/S 1.8127E-07 9927203132909/ifd/16,19,nor,nor,rem,13287,6054 9927203132915/if3/6,in,2,2,,,present,500.10,rem,lock,30769 9927203132921/vc02/142.99,2.000,u,10,10,rem,lock,18715 9927203132927/vc06/202.89,2.000,u,10,10,rem,lock,20620 9927203132932/vc11/237.99,2.000,u,10,10,rem,lock,9104 9927203132960/tpi/16723,18715,15088,3897,21001,20620,22607,44961,13287,30769 9927203132980/tpi/7958,8280,9104,26540,16715,4723,6054 9927203132982/tsys1/58.5,57.9,55.0,51.5,51.8,46.8,45.0,45.4,54.3,47.7 9927203132982/tsys2/84.4,80.6,80.2,77.1,76.4,76.2,86.1 9927203132982:!272031505 9927203150501:"data stop" 9927203150501:et 9927203150512:!+3s 9927203150814:tape 9927203150823/tape/off,03307,norm,stopped,stop,unlock,ready,rem 9927203150823:postob 9927203150823:source=2136+141,213901.3,142336.0,2000.0,neutral 9927203150850:nw2c1=19 9927203150903/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203151230:!272032423 9927203151625;"wx,overcast,light rain, humid, no wind, warm. 9927203151907;wx 9927203151909/wx/19.8,987.9,89.8,2.7 9927203152168;rxmon 9927203152177/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927203152187/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927203152196/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927203152206/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927203152216/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927203152225/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927203153489;"rxtemps 20k=29.07 70k=54.88 9927203231974#trakl#SOURCE_ACQUIRED 9927203242301:preob 9927203242451/onsource/TRACKING 9927203242686/tpical/18306,20553,16682,4261,23650,23480,26023,51737,14768,35057 9927203242706/tpical/9064,9532,10670,31498,19976,5579,6913 9927203242713:!272032433 9927203243301:tape 9927203243311/tape/off,03307,norm,stopped,stop,unlock,ready,rem 9927203243311:st=for,135 9927203243322:"data start" 9927203243322:midob 9927203243450/onsource/TRACKING 9927203243452/wx/19.5,987.9,90.9,0.0 9927203243483/cable/+1.0854722E-02 9927203243503/fmout-gps/S 1.8240E-07 9927203243509/ifd/16,19,nor,nor,rem,13142,5968 9927203243515/if3/6,in,2,2,,,present,500.10,rem,lock,30633 9927203243521/vc02/142.99,2.000,u,10,10,rem,lock,18416 9927203243527/vc06/202.89,2.000,u,10,10,rem,lock,20579 9927203243533/vc11/237.99,2.000,u,10,10,rem,lock,9044 9927203243561/tpi/16444,18416,14869,3859,20897,20579,22532,44808,13142,30633 9927203243581/tpi/7745,8090,9044,26264,16673,4711,5968 9927203243582/tsys1/59.7,57.8,55.5,52.8,52.1,48.0,44.9,44.8,55.1,48.1 9927203243583/tsys2/84.2,80.8,80.8,77.5,77.0,75.9,85.6 9927203243583:!272032611 9927203261101:"data stop" 9927203261101:et 9927203261112:!+3s 9927203261414:tape 9927203261423/tape/off,04400,norm,moving,stop,unlock,ready,rem 9927203261423:postob 9927203261423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927203261552:nw2c1=19 9927203261604/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203261930:!272033036 9927203301126#trakl#SOURCE_ACQUIRED 9927203303601:preob 9927203303751/onsource/TRACKING 9927203303986/tpical/18384,20584,16815,4286,23877,23706,26263,52227,14857,35375 9927203304006/tpical/9293,9789,10821,31914,20176,5621,7005 9927203304013:!272033046 9927203304601:tape 9927203304611/tape/off,04400,norm,stopped,stop,unlock,ready,rem 9927203304611:st=for,135 9927203304622:"data start" 9927203304622:midob 9927203304700/onsource/TRACKING 9927203304702/wx/19.1,987.9,92.6,0.0 9927203304707/cable/+1.0851307E-02 9927203304803/fmout-gps/S 1.8166E-07 9927203304809/ifd/16,19,nor,nor,rem,13220,6052 9927203304815/if3/6,in,2,2,,,present,500.10,rem,lock,30929 9927203304821/vc02/142.99,2.000,u,10,10,rem,lock,18465 9927203304827/vc06/202.89,2.000,u,10,10,rem,lock,20738 9927203304833/vc11/237.99,2.000,u,10,10,rem,lock,9206 9927203304861/tpi/16508,18465,15019,3880,21101,20738,22768,45281,13220,30929 9927203304881/tpi/7937,8300,9206,26645,16828,4753,6052 9927203304882/tsys1/59.5,58.5,56.6,52.6,52.2,47.3,45.3,45.2,55.1,48.3 9927203304883/tsys2/84.1,80.5,83.0,78.2,76.7,76.6,86.3 9927203304883:!272033224 9927203322401:"data stop" 9927203322401:et 9927203322412:!+3s 9927203322714:tape 9927203322722/tape/off,05493,norm,stopped,stop,unlock,ready,rem 9927203322723:postob 9927203322723:source=2201+315,220315.0,314538.3,2000.0,neutral 9927203322852:nw2c1=19 9927203322905/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203323230:!272033703 9927203362974#trakl#SOURCE_ACQUIRED 9927203370301:preob 9927203370401/onsource/TRACKING 9927203370637/tpical/18900,21173,17233,4394,24410,24259,26865,53327,15266,36193 9927203370657/tpical/9218,9725,10968,32133,20367,5668,7026 9927203370664:!272033713 9927203371301:tape 9927203371310/tape/off,05493,norm,stopped,stop,unlock,ready,rem 9927203371310:st=for,135 9927203371321:"data start" 9927203371321:midob 9927203371401/onsource/TRACKING 9927203371403/wx/18.9,988.1,93.7,0.0 9927203371407/cable/+1.0854094E-02 9927203371503/fmout-gps/S 1.8168E-07 9927203371509/ifd/16,19,nor,nor,rem,13636,6081 9927203371515/if3/6,in,2,2,,,present,500.10,rem,lock,31748 9927203371521/vc02/142.99,2.000,u,10,10,rem,lock,19060 9927203371527/vc06/202.89,2.000,u,10,10,rem,lock,21300 9927203371533/vc11/237.99,2.000,u,10,10,rem,lock,9349 9927203371561/tpi/17054,19060,15450,3982,21607,21300,23400,46420,13636,31748 9927203371580/tpi/7892,8271,9349,26891,17054,4806,6081 9927203371582/tsys1/62.6,60.6,58.7,53.6,53.0,48.8,46.9,46.6,57.1,49.6 9927203371582/tsys2/85.5,82.1,84.1,79.3,78.6,78.1,87.5 9927203371583:!272033851 9927203385101:"data stop" 9927203385101:et 9927203385112:!+3s 9927203385414:tape 9927203385423/tape/off,06586,norm,stopped,stop,unlock,ready,rem 9927203385423:postob 9927203385423:source=3c418,203837.0,511912.7,2000.0,neutral 9927203385500:nw2c1=19 9927203385553/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203385879:!272034209 9927203415224#trakl#SOURCE_ACQUIRED 9927203420901:preob 9927203421051/onsource/TRACKING 9927203421286/tpical/18822,21106,17236,4385,24325,24239,26769,53158,15247,36085 9927203421306/tpical/9328,9833,10954,32300,20321,5662,7068 9927203421313:!272034219 9927203421901:tape 9927203421910/tape/off,06586,norm,stopped,stop,unlock,ready,rem 9927203421911:st=for,135 9927203421921:"data start" 9927203421921:midob 9927203422000/onsource/TRACKING 9927203422002/wx/19.1,987.9,92.6,0.0 9927203422006/cable/+1.0854281E-02 9927203422103/fmout-gps/S 1.8150E-07 9927203422109/ifd/16,19,nor,nor,rem,13606,6124 9927203422115/if3/6,in,2,2,,,present,500.10,rem,lock,31665 9927203422121/vc02/142.99,2.000,u,10,10,rem,lock,18954 9927203422127/vc06/202.89,2.000,u,10,10,rem,lock,21279 9927203422133/vc11/237.99,2.000,u,10,10,rem,lock,9338 9927203422161/tpi/16959,18954,15432,3984,21584,21279,23327,46329,13606,31665 9927203422180/tpi/7996,8367,9338,27078,17052,4803,6124 9927203422182/tsys1/61.6,59.2,58.0,55.1,54.1,48.7,47.1,47.0,56.6,49.8 9927203422183/tsys2/86.3,82.4,84.2,80.2,79.6,78.4,88.3 9927203422183:!272034357 9927203435701:"data stop" 9927203435701:et 9927203435712:!+3s 9927203440014:tape 9927203440023/tape/off,07679,norm,stopped,stop,unlock,ready,rem 9927203440023:postob 9927203440023:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927203440100:midtp 9927203440335/tpzero/504,708,451,819,344,618,95,316,317,149 9927203440355/tpzero/631,627,623,270,377,489,775 9927203440371/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927203440380/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927203440389/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927203440399/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927203440408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927203440417/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927203440417:nw2c2=20 9927203440564/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927203440890:fastf=0m52s 9927203450118:!272035055 9927203473025#trakl#SOURCE_ACQUIRED 9927203475078;wx 9927203475082/wx/19.0,988.0,91.2,0.0 9927203480841;"wx,overcast, humid, no wind, warm. 9927203481101;rxmon 9927203481110/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927203481119/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927203481128/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927203481137/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927203481147/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927203481156/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927203482464;"rxtemps 20k=29.07 70k=55.57 9927203505501:preob 9927203505651/onsource/TRACKING 9927203505886/tpical/20610,22857,18673,4682,26721,26375,29360,58433,16618,39730 9927203505906/tpical/9403,9990,11181,32776,20814,5783,7178 9927203505913:!272035105 9927203510501:tape 9927203510510/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927203510510:st=rev,135 9927203510521:"data start" 9927203510521:midob 9927203510553/onsource/TRACKING 9927203510555/wx/18.7,988.1,95.5,0.0 9927203510566/cable/+1.0851010E-02 9927203510602/fmout-gps/S 1.8131E-07 9927203510608/ifd/16,19,nor,nor,rem,14950,6242 9927203510614/if3/6,in,2,2,,,present,500.10,rem,lock,35202 9927203510620/vc02/142.99,2.000,u,10,10,rem,lock,20697 9927203510626/vc06/202.89,2.000,u,10,10,rem,lock,23387 9927203510632/vc11/237.99,2.000,u,10,10,rem,lock,9563 9927203510660/tpi/18694,20697,16864,4264,23905,23387,25853,51355,14950,35202 9927203510680/tpi/8076,8531,9563,27576,17516,4930,6242 9927203510681/tsys1/66.3,64.6,63.3,57.5,58.4,53.2,51.3,50.3,61.2,54.0 9927203510682/tsys2/87.6,84.6,86.3,82.0,81.1,81.3,91.2 9927203510682:!272035634 9927203563401:"data stop" 9927203563401:et 9927203563412:!+3s 9927203563714:tape 9927203563723/tape/off,05142,norm,stopped,stop,unlock,ready,rem 9927203563723:postob 9927203563723:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927203563800:check2c2 9927203571803?ERROR qg -303 Track 11 parity errors exceed threshold. 9927203571803?ERROR qg -305 AUX data differs from expected value on track 11. 9927203571803?ERROR qg -304 Track 11 sync errors exceed threshold. 9927203571803/parity/0.,0.,0.,16.,0.,$$$$$,0.,0.,0.,0.,16.,16.,0.,16. 9927203571803/parity/0,0,0,0,0,302,0,0,0,0,0,0,0,0 9927203573168:nw2c2=20 9927203573222/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927203573547:!272035847 9927203580725#trakl#SOURCE_ACQUIRED 9927203584701:preob 9927203584801/onsource/TRACKING 9927203585036/tpical/19632,21743,17775,4487,25381,25092,27875,55598,15809,37723 9927203585056/tpical/9165,9686,10915,31810,20200,5634,6995 9927203585063:!272035857 9927203585701:tape 9927203585711/tape/off,05145,norm,stopped,stop,unlock,ready,rem 9927203585711:st=rev,135 9927203585722:"data start" 9927203585722:midob 9927203585800/onsource/TRACKING 9927203585802/wx/18.9,987.9,93.2,1.0 9927203585835/cable/+1.0850515E-02 9927203585902/fmout-gps/S 1.8141E-07 9927203585908/ifd/16,19,nor,nor,rem,14197,6058 9927203585914/if3/6,in,2,2,,,present,500.10,rem,lock,33356 9927203585920/vc02/142.99,2.000,u,10,10,rem,lock,19665 9927203585926/vc06/202.89,2.000,u,10,10,rem,lock,22227 9927203585932/vc11/237.99,2.000,u,10,10,rem,lock,9288 9927203585960/tpi/17767,19665,16009,4093,22704,22227,24456,48865,14197,33356 9927203585980/tpi/7842,8229,9288,26624,16936,4781,6058 9927203585982/tsys1/64.6,63.7,61.5,58.0,58.3,52.6,49.7,50.3,60.1,53.1 9927203585982/tsys2/85.1,81.4,83.1,79.3,79.2,78.5,88.0 9927203585982:!272040035 9927204003501:"data stop" 9927204003501:et 9927204003512:!+3s 9927204003814:tape 9927204003823/tape/off,04053,norm,stopped,stop,unlock,ready,rem 9927204003823:postob 9927204003823:source=3c446,222547.3,-045701.4,2000.0,neutral 9927204003852:nw2c2=20 9927204003905/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927204004229:!272040356 9927204020475#trakl#SOURCE_ACQUIRED 9927204035601:preob 9927204035651/onsource/TRACKING 9927204035887/tpical/19121,21313,17424,4400,24726,24408,27186,54006,15405,36644 9927204035906/tpical/9239,9744,10909,32064,20271,5642,7021 9927204035913:!272040406 9927204040601:tape 9927204040611/tape/off,04053,norm,stopped,stop,unlock,ready,rem 9927204040611:st=rev,135 9927204040622:"data start" 9927204040622:midob 9927204040750/onsource/TRACKING 9927204040752/wx/18.6,987.9,95.9,0.0 9927204040758/cable/+1.0850391E-02 9927204040802/fmout-gps/S 1.8193E-07 9927204040808/ifd/16,19,nor,nor,rem,13710,6079 9927204040814/if3/6,in,2,2,,,present,500.10,rem,lock,32080 9927204040820/vc02/142.99,2.000,u,10,10,rem,lock,19102 9927204040826/vc06/202.89,2.000,u,10,10,rem,lock,21415 9927204040832/vc11/237.99,2.000,u,10,10,rem,lock,9285 9927204040860/tpi/17180,19102,15569,3988,21885,21415,23606,47020,13710,32080 9927204040880/tpi/7914,8278,9285,26775,16972,4782,6079 9927204040882/tsys1/60.0,58.1,56.9,53.7,52.9,48.5,45.8,46.7,55.2,48.8 9927204040882/tsys2/85.8,81.5,83.3,78.2,78.5,77.9,87.9 9927204040882:!272040544 9927204054401:"data stop" 9927204054401:et 9927204054412:!+3s 9927204054714:tape 9927204054723/tape/off,02960,norm,stopped,stop,unlock,ready,rem 9927204054723:postob 9927204054723:source=0239+108,024229.2,110100.7,2000.0,neutral 9927204054854:nw2c2=20 9927204054907/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927204055058;op=sylvain 9927204055234:!272040923 9927204090724#trakl#SOURCE_ACQUIRED 9927204092301:preob 9927204092399/onsource/TRACKING 9927204092634/tpical/18536,20719,16972,4311,24100,23856,26462,52692,14997,35660 9927204092654/tpical/9306,9766,10792,31893,20096,5610,7001 9927204092661:!272040933 9927204093301:tape 9927204093311/tape/off,02960,norm,stopped,stop,unlock,ready,rem 9927204093311:st=rev,135 9927204093322:"data start" 9927204093322:midob 9927204093352/onsource/TRACKING 9927204093354/wx/18.7,987.7,95.3,0.0 9927204093375/cable/+1.0849247E-02 9927204093403/fmout-gps/S 1.8119E-07 9927204093409/ifd/16,19,nor,nor,rem,13341,6051 9927204093415/if3/6,in,2,2,,,present,500.10,rem,lock,31194 9927204093429/vc02/142.99,2.000,u,10,10,rem,lock,18570 9927204093442/vc06/202.89,2.000,u,10,10,rem,lock,20904 9927204093448/vc11/237.99,2.000,u,10,10,rem,lock,9167 9927204093519/tpi/16649,18570,15145,3901,21343,20904,22935,45613,13333,31174 9927204093554/tpi/7948,8295,9175,26573,16765,4742,6050 9927204093556/tsys1/59.7,58.0,56.1,52.5,53.2,48.0,45.2,44.7,54.6,48.3 9927204093556/tsys2/84.1,81.4,82.6,77.2,76.8,76.5,86.6 9927204093556:!272041315 9927204131501:"data stop" 9927204131501:et 9927204131512:!+3s 9927204131814:tape 9927204131823/tape/off,00472,norm,stopped,stop,unlock,ready,rem 9927204131823:postob 9927204131823:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927204131900:midtp 9927204132135/tpzero/503,705,451,816,344,618,99,316,309,149 9927204132155/tpzero/636,624,621,271,378,489,777 9927204132171/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927204132180/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927204132190/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927204132199/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927204132208/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927204132217/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927204132217:nw2c1=21 9927204132352/pass/21,21,auto,220.0,220.0,220.7,222.2,0.7,2.2 9927204132677:fastr=0m21s 9927204134805:!272041504 9927204142174#trakl#SOURCE_ACQUIRED 9927204150401:preob 9927204150453/onsource/TRACKING 9927204150688/tpical/19900,21985,18007,4525,25667,25382,28239,56293,15978,38176 9927204150708/tpical/9442,9940,11009,32453,20558,5724,7132 9927204150715:!272041514 9927204151401:tape 9927204151411/tape/low,00026,norm,stopped,stop,unlock,ready,rem 9927204151411:st=for,135 9927204151422:"data start" 9927204151422:midob 9927204151500/onsource/TRACKING 9927204151502/wx/18.9,987.6,94.0,0.0 9927204151538/cable/+1.0850075E-02 9927204151602/fmout-gps/S 1.8240E-07 9927204151608/ifd/16,19,nor,nor,rem,14347,6187 9927204151614/if3/6,in,2,2,,,present,500.10,rem,lock,33748 9927204151620/vc02/142.99,2.000,u,10,10,rem,lock,19896 9927204151626/vc06/202.89,2.000,u,10,10,rem,lock,22450 9927204151632/vc11/237.99,2.000,u,10,10,rem,lock,9388 9927204151660/tpi/17983,19896,16229,4123,22949,22450,24771,49382,14347,33748 9927204151680/tpi/8087,8478,9388,27216,17230,4856,6187 9927204151681/tsys1/63.6,64.1,61.9,57.4,58.1,52.0,49.7,49.6,60.1,53.0 9927204151682/tsys2/85.8,83.9,84.4,80.3,79.0,78.5,89.4 9927204151682:!272041652 9927204165201:"data stop" 9927204165201:et 9927204165212:!+3s 9927204165514:tape 9927204165523/tape/off,01119,norm,stopped,stop,unlock,ready,rem 9927204165523:postob 9927204165523:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927204165600:check2c1 9927204173543?ERROR qg -303 Track 11 parity errors exceed threshold. 9927204173544?ERROR qg -305 AUX data differs from expected value on track 11. 9927204173544?ERROR qg -304 Track 11 sync errors exceed threshold. 9927204173544/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927204173544/parity/0,0,0,0,0,269,0,0,0,0,0,0,0,0 9927204174972:nw2c1=21 9927204175074/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204175399:!272041925 9927204181975#trakl#SOURCE_ACQUIRED 9927204192501:preob 9927204192599/onsource/TRACKING 9927204192834/tpical/20644,22862,18721,4688,26739,26419,29313,58548,16616,39773 9927204192854/tpical/9442,9970,11231,33138,21031,5860,7225 9927204192861:!272041935 9927204193501:tape 9927204193510/tape/off,01115,norm,stopped,stop,unlock,ready,rem 9927204193510:st=for,135 9927204193521:"data start" 9927204193521:midob 9927204193601/onsource/TRACKING 9927204193603/wx/18.8,987.6,94.2,0.0 9927204193638/cable/+1.0849498E-02 9927204193702/fmout-gps/S 1.8258E-07 9927204193708/ifd/16,19,nor,nor,rem,14958,6280 9927204193714/if3/6,in,2,2,,,present,500.10,rem,lock,35265 9927204193720/vc02/142.99,2.000,u,10,10,rem,lock,20686 9927204193726/vc06/202.89,2.000,u,10,10,rem,lock,23450 9927204193732/vc11/237.99,2.000,u,10,10,rem,lock,9617 9927204193760/tpi/18717,20686,16897,4273,23944,23450,25783,51650,14958,35265 9927204193780/tpi/8109,8507,9617,27903,17743,4995,6280 9927204193781/tsys1/66.0,64.1,62.9,58.1,58.9,53.7,50.8,51.9,61.7,54.4 9927204193782/tsys2/87.5,84.1,87.0,82.4,82.4,81.3,90.9 9927204193782:!272042705 9927204270501:"data stop" 9927204270501:et 9927204270512:!+3s 9927204270816:tape 9927204270843/tape/off,06168,norm,stopped,stop,unlock,ready,rem 9927204270843:postob 9927204270843:source=0119+115,012141.6,114950.4,2000.0,neutral 9927204270900:nw2c1=21 9927204270953/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204271279:!272043144 9927204303374#trakl#SOURCE_ACQUIRED 9927204314401:preob 9927204314549/onsource/TRACKING 9927204314784/tpical/18444,20680,16846,4280,23868,23650,26196,51994,14884,35355 9927204314804/tpical/9035,9491,10696,31376,19979,5580,6904 9927204314811:!272043154 9927204315401:tape 9927204315410/tape/off,06168,norm,stopped,stop,unlock,ready,rem 9927204315411:st=for,135 9927204315421:"data start" 9927204315421:midob 9927204315550/onsource/TRACKING 9927204315552/wx/18.6,987.4,95.9,0.0 9927204315582/cable/+1.0851284E-02 9927204315603/fmout-gps/S 1.8166E-07 9927204315609/ifd/16,19,nor,nor,rem,13226,5959 9927204315615/if3/6,in,2,2,,,present,500.10,rem,lock,30853 9927204315621/vc02/142.99,2.000,u,10,10,rem,lock,18547 9927204315627/vc06/202.89,2.000,u,10,10,rem,lock,20638 9927204315633/vc11/237.99,2.000,u,10,10,rem,lock,9076 9927204315661/tpi/16547,18547,15033,3875,21054,20638,22681,45067,13226,30853 9927204315680/tpi/7717,8053,9076,26196,16677,4708,5959 9927204315682/tsys1/59.0,58.4,56.1,52.7,51.4,46.4,44.8,45.1,54.4,47.6 9927204315683/tsys2/83.9,80.6,81.5,78.1,77.1,75.5,85.6 9927204315683:!272043332 9927204333201:"data stop" 9927204333201:et 9927204333212:!+3s 9927204333514:tape 9927204333522/tape/off,07261,norm,stopped,stop,unlock,ready,rem 9927204333523:postob 9927204333523:source=0229+131,023145.9,132254.7,2000.0,neutral 9927204333600:nw2c1=21 9927204333653/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204333977:!272043444 9927204344276#trakl#SOURCE_ACQUIRED 9927204344402:preob 9927204344450/onsource/TRACKING 9927204344685/tpical/18261,20454,16671,4248,23712,23475,26051,51856,14733,35125 9927204344705/tpical/9095,9558,10725,31571,20000,5578,6924 9927204344712:!272043454 9927204345401:tape 9927204345411/tape/off,07261,norm,stopped,stop,unlock,ready,rem 9927204345411:st=for,135 9927204345422:"data start" 9927204345422:midob 9927204345550/onsource/TRACKING 9927204345552/wx/18.6,987.3,96.2,0.0 9927204345582/cable/+1.0850478E-02 9927204345603/fmout-gps/S 1.8203E-07 9927204345609/ifd/16,19,nor,nor,rem,13093,5972 9927204345615/if3/6,in,2,2,,,present,500.10,rem,lock,30657 9927204345621/vc02/142.99,2.000,u,10,10,rem,lock,18300 9927204345627/vc06/202.89,2.000,u,10,10,rem,lock,20554 9927204345633/vc11/237.99,2.000,u,10,10,rem,lock,9102 9927204345661/tpi/16338,18300,14853,3848,20941,20554,22537,44890,13093,30657 9927204345680/tpi/7760,8113,9102,26325,16674,4711,5972 9927204345682/tsys1/57.5,57.0,55.3,52.9,51.9,47.6,44.6,44.7,54.4,47.7 9927204345682/tsys2/83.3,80.9,81.6,77.5,76.5,76.0,85.2 9927204345682:!272043632 9927204363201:"data stop" 9927204363201:et 9927204363212:!+3s 9927204363514:tape 9927204363523/tape/off,08354,norm,stopped,stop,unlock,ready,rem 9927204363523:postob 9927204363523:source=2201+315,220315.0,314538.3,2000.0,neutral 9927204363600:midtp 9927204363836/tpzero/505,709,448,815,350,624,93,314,306,149 9927204363855/tpzero/630,628,622,264,379,494,780 9927204363871/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927204363881/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927204363890/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927204363899/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927204363908/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927204363918/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927204363918:nw2c2=22 9927204364083/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204364409:fastf=0m22s 9927204370637:!272044155 9927204413974#trakl#SOURCE_ACQUIRED 9927204415501:preob 9927204415601/onsource/TRACKING 9927204415836/tpical/18627,21003,17096,4350,24195,24098,26735,52989,15134,35950 9927204415856/tpical/9084,9644,10880,31615,20152,5618,6965 9927204415863:!272044205 9927204420501:tape 9927204420511/tape/off,08835,norm,stopped,stop,unlock,ready,rem 9927204420511:st=rev,135 9927204420522:"data start" 9927204420522:midob 9927204420650/onsource/TRACKING 9927204420652/wx/18.6,987.3,95.4,0.0 9927204420674/cable/+1.0851185E-02 9927204420702/fmout-gps/S 1.8107E-07 9927204420708/ifd/16,19,nor,nor,rem,13484,6022 9927204420714/if3/6,in,2,2,,,present,500.10,rem,lock,31481 9927204420720/vc02/142.99,2.000,u,10,10,rem,lock,18845 9927204420726/vc06/202.89,2.000,u,10,10,rem,lock,21116 9927204420732/vc11/237.99,2.000,u,10,10,rem,lock,9260 9927204420760/tpi/16778,18845,15280,3946,21457,21116,23199,46040,13484,31481 9927204420780/tpi/7767,8182,9260,26439,16863,4752,6022 9927204420781/tsys1/61.4,58.7,57.0,54.1,53.8,48.0,45.6,45.9,55.7,48.9 9927204420782/tsys2/84.6,80.7,83.2,78.9,78.2,76.8,86.8 9927204420782:!272044343 9927204434301:"data stop" 9927204434301:et 9927204434312:!+3s 9927204434614:tape 9927204434623/tape/off,07742,norm,stopped,stop,unlock,ready,rem 9927204434623:postob 9927204434623:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927204434750:check2c2 9927204442698?ERROR qg -303 Track 11 parity errors exceed threshold. 9927204442698?ERROR qg -305 AUX data differs from expected value on track 11. 9927204442698?ERROR qg -304 Track 11 sync errors exceed threshold. 9927204442698/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927204442698/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927204444118:nw2c2=22 9927204444172/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204444496:!272044645 9927204463175#trakl#SOURCE_ACQUIRED 9927204464501:preob 9927204464553/onsource/TRACKING 9927204464788/tpical/18643,20974,17110,4333,24305,24106,26716,53083,15112,35991 9927204464808/tpical/9127,9577,10824,31603,20092,5610,6943 9927204464815:!272044655 9927204465501:tape 9927204465511/tape/off,07744,norm,stopped,stop,unlock,ready,rem 9927204465511:st=rev,135 9927204465522:"data start" 9927204465522:midob 9927204465650/onsource/TRACKING 9927204465652/wx/18.5,987.3,96.5,3.1 9927204465690/cable/+1.0850221E-02 9927204465702/fmout-gps/S 1.8129E-07 9927204465708/ifd/16,19,nor,nor,rem,13422,6003 9927204465714/if3/6,in,2,2,,,present,500.10,rem,lock,31433 9927204465720/vc02/142.99,2.000,u,10,10,rem,lock,18750 9927204465726/vc06/202.89,2.000,u,10,10,rem,lock,21059 9927204465732/vc11/237.99,2.000,u,10,10,rem,lock,9176 9927204465760/tpi/16724,18750,15252,3924,21486,21059,23123,45985,13422,31433 9927204465780/tpi/7799,8134,9176,26367,16795,4741,6003 9927204465782/tsys1/59.0,56.6,55.6,53.1,52.3,46.8,44.7,44.9,54.2,47.9 9927204465782/tsys2/84.3,81.2,81.0,77.8,77.7,76.3,86.7 9927204465782:!272044833 9927204483301:"data stop" 9927204483301:et 9927204483312:!+3s 9927204483614:tape 9927204483623/tape/off,06651,norm,stopped,stop,unlock,ready,rem 9927204483623:postob 9927204483623:source=0133+476,013658.6,475129.1,2000.0,ccw 9927204483750:nw2c2=22 9927204483803/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204484129:!272045304 9927204523775#trakl#SOURCE_ACQUIRED 9927204530401:preob 9927204530551/onsource/TRACKING 9927204530786/tpical/19115,21428,17483,4428,24606,24476,27070,53645,15459,36498 9927204530806/tpical/9510,9986,11047,32740,20538,5723,7157 9927204530813:!272045314 9927204531401:tape 9927204531410/tape/off,06651,norm,moving,stop,unlock,ready,rem 9927204531411:st=rev,135 9927204531422:"data start" 9927204531422:midob 9927204531552/onsource/TRACKING 9927204531554/wx/18.4,987.3,96.9,0.0 9927204531562/cable/+1.0850013E-02 9927204531602/fmout-gps/S 1.8270E-07 9927204531608/ifd/16,19,nor,nor,rem,13820,6192 9927204531614/if3/6,in,2,2,,,present,500.10,rem,lock,32054 9927204531620/vc02/142.99,2.000,u,10,10,rem,lock,19333 9927204531626/vc06/202.89,2.000,u,10,10,rem,lock,21511 9927204531632/vc11/237.99,2.000,u,10,10,rem,lock,9407 9927204531660/tpi/17264,19333,15671,4015,21861,21511,23560,46679,13820,32054 9927204531680/tpi/8157,8491,9407,27397,17200,4855,6192 9927204531681/tsys1/63.2,62.1,58.6,54.1,54.7,49.2,46.7,46.5,57.6,50.1 9927204531682/tsys2/86.8,82.1,83.6,79.3,78.7,78.4,87.5 9927204531682:!272045452 9927204545201:"data stop" 9927204545201:et 9927204545211:!+3s 9927204545513:tape 9927204545522/tape/off,05558,norm,stopped,stop,unlock,ready,rem 9927204545522:postob 9927204545522:source=0528+134,053056.4,133155.2,2000.0,ccw 9927204545551:nw2c2=22 9927204545603/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204550025:!272050112 9927204583425#trakl#SOURCE_ACQUIRED 9927205011201:preob 9927205011253/onsource/TRACKING 9927205011488/tpical/20916,23132,18926,4735,26985,26642,29696,59031,16818,40173 9927205011508/tpical/9639,10206,11269,33357,21037,5858,7293 9927205011515:!272050122 9927205012201:tape 9927205012209/tape/off,05558,norm,stopped,stop,unlock,ready,rem 9927205012210:st=rev,135 9927205012221:"data start" 9927205012221:midob 9927205012301/onsource/TRACKING 9927205012303/wx/17.8,987.5,99.0,5.5 9927205012307/cable/+1.0846534E-02 9927205012402/fmout-gps/S 1.8193E-07 9927205012408/ifd/16,19,nor,nor,rem,15238,6336 9927205012414/if3/6,in,2,2,,,present,500.10,rem,lock,35851 9927205012420/vc02/142.99,2.000,u,10,10,rem,lock,21068 9927205012426/vc06/202.89,2.000,u,10,10,rem,lock,23791 9927205012432/vc11/237.99,2.000,u,10,10,rem,lock,9647 9927205012460/tpi/19086,21068,17176,4343,24309,23791,26304,52351,15238,35851 9927205012480/tpi/8274,8714,9647,28011,17726,4982,6336 9927205012481/tsys1/70.9,68.8,66.7,62.8,62.5,56.7,53.9,54.4,66.0,57.7 9927205012482/tsys2/87.4,84.6,86.9,81.0,81.8,80.0,90.6 9927205012482:!272050300 9927205030001:"data stop" 9927205030001:et 9927205030012:!+3s 9927205030314:tape 9927205030323/tape/off,04465,norm,stopped,stop,unlock,ready,rem 9927205030323:postob 9927205030323:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927205030400:nw2c2=22 9927205030453/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927205030777:!272050358 9927205034975#trakl#SOURCE_ACQUIRED 9927205035801:preob 9927205035899/onsource/TRACKING 9927205040134/tpical/22094,24444,20091,4982,28623,28336,31510,62767,17846,42731 9927205040154/tpical/9888,10470,11522,34322,21642,6018,7457 9927205040161:!272050408 9927205040801:tape 9927205040810/tape/off,04465,norm,stopped,stop,unlock,ready,rem 9927205040810:st=rev,135 9927205040821:"data start" 9927205040821:midob 9927205040951/onsource/TRACKING 9927205040953/wx/17.9,987.5,98.7,3.6 9927205040974/cable/+1.0846445E-02 9927205041002/fmout-gps/S 1.7982E-07 9927205041008/ifd/16,19,nor,nor,rem,16236,6497 9927205041014/if3/6,in,2,2,,,present,500.10,rem,lock,38332 9927205041020/vc02/142.99,2.000,u,10,10,rem,lock,22353 9927205041026/vc06/202.89,2.000,u,10,10,rem,lock,25430 9927205041032/vc11/237.99,2.000,u,10,10,rem,lock,9898 9927205041060/tpi/20214,22353,18335,4592,25998,25430,28056,56029,16236,38332 9927205041080/tpi/8518,8955,9898,28975,18291,5144,6497 9927205041081/tsys1/73.2,72.3,71.1,67.6,68.2,59.6,56.5,57.7,69.1,60.6 9927205041082/tsys2/89.9,85.8,89.2,83.8,83.4,83.1,93.0 9927205041082:!272050546 9927205054601:"data stop" 9927205054601:et 9927205054612:!+3s 9927205054914:tape 9927205054923/tape/off,03372,norm,stopped,stop,unlock,ready,rem 9927205054923:postob 9927205054923:source=0642+449,064632.0,445116.6,2000.0,ccw 9927205055052:nw2c2=22 9927205055105/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927205055430:!272051146 9927205080524#trakl#SOURCE_ACQUIRED 9927205114601:preob 9927205114653/onsource/TRACKING 9927205114888/tpical/19777,21771,17804,4482,25268,24992,27828,55486,15790,37570 9927205114908/tpical/9442,9958,10972,32495,20445,5691,7113 9927205114915:!272051156 9927205115601:tape 9927205115610/tape/off,03372,norm,stopped,stop,unlock,ready,rem 9927205115611:st=rev,135 9927205115622:"data start" 9927205115622:midob 9927205115750/onsource/TRACKING 9927205115752/wx/18.3,987.4,97.9,0.0 9927205115774/cable/+1.0847380E-02 9927205115803/fmout-gps/S 1.8248E-07 9927205115809/ifd/16,19,nor,nor,rem,14202,6144 9927205115815/if3/6,in,2,2,,,present,500.10,rem,lock,33264 9927205115821/vc02/142.99,2.000,u,10,10,rem,lock,19769 9927205115827/vc06/202.89,2.000,u,10,10,rem,lock,22144 9927205115832/vc11/237.99,2.000,u,10,10,rem,lock,9333 9927205115861/tpi/17912,19769,16064,4097,22582,22144,24478,48779,14202,33264 9927205115880/tpi/8078,8457,9333,27137,17093,4829,6144 9927205115882/tsys1/65.1,66.5,62.6,59.5,57.8,52.7,50.8,50.4,61.1,53.7 9927205115882/tsys2/85.2,81.4,83.0,78.3,77.8,78.5,86.4 9927205115883:!272051334 9927205133401:"data stop" 9927205133401:et 9927205133412:!+3s 9927205133714:tape 9927205133722/tape/off,02279,norm,stopped,stop,unlock,ready,rem 9927205133723:postob 9927205133723:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927205133800:midtp 9927205134035/tpzero/506,709,450,818,336,618,97,317,313,150 9927205134055/tpzero/635,627,620,269,379,486,776 9927205134071/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927205134080/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927205134090/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927205134099/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927205134109/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927205134118/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927205134118:nw2c1=23 9927205134252/pass/23,23,auto,275.0,275.0,275.4,275.0,0.4,0.0 9927205134577:fastr=1m41s 9927205152705:!272052200 9927205153114;"wx,overcast, humid, no wind, warm. 9927205181075#trakl#SOURCE_ACQUIRED 9927205220001:preob 9927205220151/onsource/TRACKING 9927205220386/tpical/20701,22847,18766,4699,26835,26547,29418,58811,16653,39926 9927205220406/tpical/9365,9876,11051,32416,20567,5733,7127 9927205220413:!272052210 9927205221001:tape 9927205221010/tape/low,00029,norm,stopped,stop,unlock,ready,rem 9927205221010:st=for,135 9927205221021:"data start" 9927205221021:midob 9927205221151/onsource/TRACKING 9927205221153/wx/18.9,987.2,94.8,4.7 9927205221189/cable/+1.0849806E-02 9927205221202/fmout-gps/S 1.8139E-07 9927205221208/ifd/16,19,nor,nor,rem,15004,6191 9927205221214/if3/6,in,2,2,,,present,500.10,rem,lock,35429 9927205221220/vc02/142.99,2.000,u,10,10,rem,lock,20717 9927205221226/vc06/202.89,2.000,u,10,10,rem,lock,23553 9927205221232/vc11/237.99,2.000,u,10,10,rem,lock,9466 9927205221260/tpi/18794,20717,16984,4289,24062,23553,25918,51936,15004,35429 9927205221279/tpi/8041,8450,9466,27265,17311,4885,6191 9927205221281/tsys1/66.9,65.6,64.8,59.1,59.7,53.5,51.5,52.4,62.2,54.8 9927205221281/tsys2/87.3,85.6,87.1,81.8,81.2,81.0,90.3 9927205221282:!272052819 9927205281901:"data stop" 9927205281901:et 9927205281912:!+3s 9927205282214:tape 9927205282223/tape/off,04170,norm,stopped,stop,unlock,ready,rem 9927205282223:postob 9927205282223:source=3c446,222547.3,-045701.4,2000.0,neutral 9927205282352:check2c1 9927205290309?ERROR qg -303 Track 11 parity errors exceed threshold. 9927205290309?ERROR qg -304 Track 11 sync errors exceed threshold. 9927205290310/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927205290310/parity/0,0,0,0,0,188,0,0,0,0,0,0,0,0 9927205291720:nw2c1=23 9927205291773/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205292099:!272053032 9927205300374#trakl#SOURCE_ACQUIRED 9927205303201:preob 9927205303351/onsource/TRACKING 9927205303586/tpical/19568,21577,17617,4459,25208,24925,27754,55257,15674,37471 9927205303606/tpical/9261,9728,10958,32177,20329,5662,7062 9927205303613:!272053042 9927205304201:tape 9927205304211/tape/off,04165,norm,stopped,stop,unlock,ready,rem 9927205304212:st=for,135 9927205304223:"data start" 9927205304223:midob 9927205304351/onsource/TRACKING 9927205304353/wx/18.7,987.0,95.3,0.0 9927205304383/cable/+1.0849972E-02 9927205304403/fmout-gps/S 1.8129E-07 9927205304409/ifd/16,19,nor,nor,rem,13919,6115 9927205304415/if3/6,in,2,2,,,present,500.10,rem,lock,32739 9927205304421/vc02/142.99,2.000,u,10,10,rem,lock,19293 9927205304427/vc06/202.89,2.000,u,10,10,rem,lock,21797 9927205304433/vc11/237.99,2.000,u,10,10,rem,lock,9329 9927205304461/tpi/17554,19293,15712,4029,22261,21797,24034,47973,13919,32739 9927205304481/tpi/7919,8274,9329,26895,16988,4801,6115 9927205304482/tsys1/59.1,56.8,55.9,52.1,51.9,47.3,44.9,45.7,54.1,48.1 9927205304483/tsys2/84.7,82.1,83.5,78.7,77.6,78.2,88.0 9927205304483:!272053220 9927205322002:"data stop" 9927205322002:et 9927205322013:!+3s 9927205322315:tape 9927205322324/tape/off,05258,norm,stopped,stop,unlock,ready,rem 9927205322324:postob 9927205322324:source=2201+315,220315.0,314538.3,2000.0,neutral 9927205322401:nw2c1=23 9927205322454/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205322780:!272053602 9927205345125#trakl#SOURCE_ACQUIRED 9927205360201:preob 9927205360299/onsource/TRACKING 9927205360534/tpical/18685,20847,17011,4328,24152,24024,26617,52918,15055,35835 9927205360554/tpical/9183,9637,10754,31641,20036,5593,6957 9927205360561:!272053612 9927205361201:tape 9927205361211/tape/off,05258,norm,stopped,stop,unlock,ready,rem 9927205361211:st=for,135 9927205361222:"data start" 9927205361222:midob 9927205361252/onsource/TRACKING 9927205361254/wx/18.8,987.0,95.7,2.1 9927205361286/cable/+1.0851354E-02 9927205361302/fmout-gps/S 1.8092E-07 9927205361308/ifd/16,19,nor,nor,rem,13416,6008 9927205361314/if3/6,in,2,2,,,present,500.10,rem,lock,31384 9927205361320/vc02/142.99,2.000,u,10,10,rem,lock,18742 9927205361326/vc06/202.89,2.000,u,10,10,rem,lock,21060 9927205361332/vc11/237.99,2.000,u,10,10,rem,lock,9133 9927205361360/tpi/16804,18742,15226,3929,21404,21060,23093,45954,13416,31384 9927205361380/tpi/7843,8179,9133,26411,16714,4731,6008 9927205361381/tsys1/60.5,59.8,57.8,54.4,53.5,48.1,45.5,45.7,55.8,49.0 9927205361382/tsys2/84.0,80.9,82.0,78.0,76.8,76.9,86.1 9927205361382:!272053750 9927205375001:"data stop" 9927205375001:et 9927205375012:!+3s 9927205375314:tape 9927205375323/tape/off,06351,norm,stopped,stop,unlock,ready,rem 9927205375323:postob 9927205375323:source=2136+141,213901.3,142336.0,2000.0,neutral 9927205375350:nw2c1=23 9927205375403/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205375728:!272053945 9927205390374#trakl#SOURCE_ACQUIRED 9927205394501:preob 9927205394599/onsource/TRACKING 9927205394835/tpical/18981,21207,17347,4395,24675,24488,27164,54025,15345,36556 9927205394854/tpical/9159,9622,10757,31595,20016,5595,6953 9927205394861:!272053955 9927205395501:tape 9927205395511/tape/off,06351,norm,stopped,stop,unlock,ready,rem 9927205395511:st=for,135 9927205395521:"data start" 9927205395521:midob 9927205395552/onsource/TRACKING 9927205395554/wx/19.0,987.0,94.5,0.0 9927205395570/cable/+1.0850855E-02 9927205395602/fmout-gps/S 1.8240E-07 9927205395608/ifd/16,19,nor,nor,rem,13745,6009 9927205395614/if3/6,in,2,2,,,present,500.10,rem,lock,32205 9927205395620/vc02/142.99,2.000,u,10,10,rem,lock,19147 9927205395626/vc06/202.89,2.000,u,10,10,rem,lock,21559 9927205395632/vc11/237.99,2.000,u,10,10,rem,lock,9144 9927205395660/tpi/17116,19147,15601,4003,21957,21559,23735,47184,13745,32205 9927205395680/tpi/7827,8163,9144,26322,16713,4737,6009 9927205395681/tsys1/62.2,62.5,60.6,56.7,55.5,49.9,48.1,47.8,58.6,51.4 9927205395682/tsys2/84.3,80.6,82.5,77.1,77.2,77.3,86.5 9927205395682:!272054133 9927205413301:"data stop" 9927205413301:et 9927205413312:!+3s 9927205413614:tape 9927205413623/tape/off,07443,norm,stopped,stop,unlock,ready,rem 9927205413623:postob 9927205413623:source=2145+067,214805.5,065738.6,2000.0,neutral 9927205413750:nw2c1=23 9927205413803/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205414128:!272054432 9927205422025#trakl#SOURCE_ACQUIRED 9927205443201:preob 9927205443378/onsource/TRACKING 9927205443613/tpical/19912,22324,18242,4589,25932,25665,28588,56760,16153,38517 9927205443633/tpical/9305,9790,10946,32194,20381,5688,7055 9927205443640:!272054442 9927205444201:tape 9927205444210/tape/off,07443,norm,stopped,stop,unlock,ready,rem 9927205444211:st=for,135 9927205444222:"data start" 9927205444222:midob 9927205444350/onsource/TRACKING 9927205444352/wx/18.7,986.9,95.5,0.0 9927205444370/cable/+1.0850825E-02 9927205444402/fmout-gps/S 1.8254E-07 9927205444408/ifd/16,19,nor,nor,rem,14403,6108 9927205444414/if3/6,in,2,2,,,present,500.10,rem,lock,33772 9927205444420/vc02/142.99,2.000,u,10,10,rem,lock,20042 9927205444426/vc06/202.89,2.000,u,10,10,rem,lock,22527 9927205444432/vc11/237.99,2.000,u,10,10,rem,lock,9320 9927205444460/tpi/17925,20042,16346,4156,22996,22527,24845,49421,14403,33772 9927205444480/tpi/7946,8325,9320,26960,17084,4816,6108 9927205444481/tsys1/61.2,59.1,58.5,53.8,53.9,48.7,46.2,46.7,56.2,49.5 9927205444482/tsys2/84.0,82.0,83.5,79.6,79.1,77.5,87.9 9927205444482:!272054620 9927205462001:"data stop" 9927205462001:et 9927205462012:!+3s 9927205462314:tape 9927205462323/tape/off,08536,norm,stopped,stop,unlock,ready,rem 9927205462323:postob 9927205462323:source=da426,165352.2,394536.6,2000.0,neutral 9927205462400:midtp 9927205462636/tpzero/506,708,447,818,342,624,93,315,314,150 9927205462656/tpzero/634,626,622,268,381,492,776 9927205462672/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927205462681/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927205462690/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927205462700/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927205462709/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927205462718/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927205462718:nw2c2=24 9927205462865/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205463190:fastf=0m14s 9927205464618:!272054941 9927205491925#trakl#SOURCE_ACQUIRED 9927205494101:preob 9927205494266/onsource/TRACKING 9927205494515/tpical/23689,26146,21468,5287,30654,30260,33608,$$$$$,19103,45766 9927205494535/tpical/9990,10596,11748,35040,22134,6149,7607 9927205494542:!272054951 9927205495101:tape 9927205495110/tape/off,08837,norm,stopped,stop,unlock,ready,rem 9927205495110:st=rev,135 9927205495121:"data start" 9927205495121:midob 9927205495201/onsource/TRACKING 9927205495203/wx/18.7,986.8,96.1,0.4 9927205495222/cable/+1.0849371E-02 9927205495302/fmout-gps/S 1.8025E-07 9927205495308/ifd/16,19,nor,nor,rem,17501,6659 9927205495314/if3/6,in,2,2,,,present,500.10,rem,lock,41376 9927205495320/vc02/142.99,2.000,u,10,10,rem,lock,24033 9927205495325/vc06/202.89,2.000,u,10,10,rem,lock,27393 9927205495331/vc11/237.99,2.000,u,10,10,rem,lock,10142 9927205495359/tpi/21810,24033,19708,4888,27933,27393,30280,60244,17501,41376 9927205495379/tpi/8654,9118,10142,29778,18844,5294,6659 9927205495381?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927205495381/tsys1/79.1,77.1,76.4,71.2,70.8,65.2,63.3,$$$$$$$$,74.9,65.5 9927205495381/tsys2/93.7,89.7,92.5,87.5,87.6,87.7,96.9 9927205495381:!272055129 9927205512901:"data stop" 9927205512901:et 9927205512912:!+3s 9927205513214:tape 9927205513223/tape/off,07744,norm,stopped,stop,unlock,ready,rem 9927205513223:postob 9927205513223:source=1357+769,135755.4,764321.1,2000.0,neutral 9927205513254:check2c2 9927205521196?ERROR qg -303 Track 11 parity errors exceed threshold. 9927205521196?ERROR qg -305 AUX data differs from expected value on track 11. 9927205521196?ERROR qg -304 Track 11 sync errors exceed threshold. 9927205521196/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,16.,0. 9927205521196/parity/0,0,0,0,0,376,0,0,0,0,0,0,0,0 9927205522622:nw2c2=24 9927205522675/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205523000:!272055412 9927205534574#trakl#SOURCE_ACQUIRED 9927205541201:preob 9927205541253/onsource/TRACKING 9927205541488/tpical/19345,21393,17496,4422,24924,24617,27205,54489,15492,36910 9927205541508/tpical/9334,9838,10854,32114,20217,5630,7032 9927205541515:!272055422 9927205542201:tape 9927205542211/tape/off,07747,norm,stopped,stop,unlock,ready,rem 9927205542211:st=rev,135 9927205542222:"data start" 9927205542222:midob 9927205542348/onsource/TRACKING 9927205542350/wx/18.7,986.8,95.9,0.0 9927205542366/cable/+1.0849633E-02 9927205542402/fmout-gps/S 1.8172E-07 9927205542408/ifd/16,19,nor,nor,rem,13849,6070 9927205542414/if3/6,in,2,2,,,present,500.10,rem,lock,32476 9927205542420/vc02/142.99,2.000,u,10,10,rem,lock,19243 9927205542426/vc06/202.89,2.000,u,10,10,rem,lock,21671 9927205542432/vc11/237.99,2.000,u,10,10,rem,lock,9230 9927205542460/tpi/17451,19243,15698,4019,22159,21671,23762,47560,13849,32476 9927205542479/tpi/7974,8336,9230,26741,16856,4765,6070 9927205542481/tsys1/62.4,60.2,59.2,55.4,55.1,49.9,48.0,47.6,57.5,50.9 9927205542482/tsys2/84.2,80.1,82.7,76.9,76.5,77.1,85.9 9927205542482:!272055600 9927205560001:"data stop" 9927205560001:et 9927205560012:!+3s 9927205560314:tape 9927205560323/tape/off,06654,norm,stopped,stop,unlock,ready,rem 9927205560323:postob 9927205560323:source=1726+455,172727.7,453039.7,2000.0,neutral 9927205560450:nw2c2=24 9927205560503/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205560830:!272055754 9927205574325#trakl#SOURCE_ACQUIRED 9927205575401:preob 9927205575550/onsource/TRACKING 9927205575785/tpical/20820,22988,18804,4704,26856,26533,29493,58791,16710,39948 9927205575817/tpical/9513,10059,11130,33013,20870,5814,7221 9927205575838:!272055804 9927205580401:tape 9927205580410/tape/off,06654,norm,stopped,stop,unlock,ready,rem 9927205580410:st=rev,135 9927205580421:"data start" 9927205580421:midob 9927205580453/onsource/TRACKING 9927205580455/wx/18.5,986.9,97.4,3.8 9927205580470/cable/+1.0849068E-02 9927205580503/fmout-gps/S 1.8201E-07 9927205580508/ifd/16,19,nor,nor,rem,15045,6271 9927205580514/if3/6,in,2,2,,,present,500.10,rem,lock,35430 9927205580520/vc02/142.99,2.000,u,10,10,rem,lock,20856 9927205580526/vc06/202.89,2.000,u,10,10,rem,lock,23531 9927205580532/vc11/237.99,2.000,u,10,10,rem,lock,9532 9927205580560/tpi/18880,20856,17027,4297,24057,23531,25970,51816,15045,35430 9927205580580/tpi/8169,8586,9532,27735,17590,4948,6271 9927205580582/tsys1/66.1,66.0,65.1,59.7,59.1,53.3,51.3,51.5,61.8,54.5 9927205580582/tsys2/87.5,84.4,87.0,81.2,81.9,80.3,90.3 9927205580582:!272055942 9927205594201:"data stop" 9927205594201:et 9927205594212:!+3s 9927205594514:tape 9927205594522/tape/off,05561,norm,stopped,stop,unlock,ready,rem 9927205594523:postob 9927205594523:source=0059+581,010245.8,582411.1,2000.0,neutral 9927205594554:nw2c2=24 9927205594607/pass/24,24,auto,275.0,275.0,275.9,275.5,0.9,0.5 9927205594932:!272060620 9927206051775#trakl#SOURCE_ACQUIRED 9927206062001:preob 9927206062053/onsource/TRACKING 9927206062288/tpical/18929,21202,17359,4418,24490,24395,26912,53409,15355,36360 9927206062308/tpical/9528,9989,11046,32803,20603,5744,7170 9927206062315:!272060630 9927206063001:tape 9927206063011/tape/off,05561,norm,stopped,stop,unlock,ready,rem 9927206063011:st=rev,135 9927206063022:"data start" 9927206063022:midob 9927206063100/onsource/TRACKING 9927206063102/wx/18.4,986.8,98.2,2.8 9927206063122/cable/+1.0850376E-02 9927206063202/fmout-gps/S 1.8166E-07 9927206063208/ifd/16,19,nor,nor,rem,13714,6205 9927206063214/if3/6,in,2,2,,,present,500.10,rem,lock,31911 9927206063220/vc02/142.99,2.000,u,10,10,rem,lock,19136 9927206063226/vc06/202.89,2.000,u,10,10,rem,lock,21449 9927206063232/vc11/237.99,2.000,u,10,10,rem,lock,9422 9927206063260/tpi/17069,19136,15583,4011,21732,21449,23462,46483,13714,31911 9927206063280/tpi/8168,8486,9422,27448,17250,4867,6205 9927206063281/tsys1/62.2,62.3,59.5,54.8,54.1,49.3,47.3,46.5,57.0,49.8 9927206063282/tsys2/86.5,81.6,84.6,79.2,78.5,77.9,87.8 9927206063282:!272060808 9927206080801:"data stop" 9927206080801:et 9927206080812:!+3s 9927206081114:tape 9927206081123/tape/off,04468,norm,stopped,stop,unlock,ready,rem 9927206081123:postob 9927206081123:source=2201+315,220315.0,314538.3,2000.0,neutral 9927206081150:nw2c2=24 9927206081203/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206081528:!272061131 9927206111674#trakl#SOURCE_ACQUIRED 9927206113101:preob 9927206113201/onsource/TRACKING 9927206113436/tpical/18498,20844,16974,4322,24024,23834,26422,52479,14990,35585 9927206113456/tpical/9300,9760,10807,31910,20119,5610,6990 9927206113463:!272061141 9927206114101:tape 9927206114110/tape/off,04468,norm,stopped,stop,unlock,ready,rem 9927206114111:st=rev,135 9927206114121:"data start" 9927206114121:midob 9927206114150/onsource/TRACKING 9927206114152/wx/18.7,986.7,96.1,3.3 9927206114190/cable/+1.0852116E-02 9927206114202/fmout-gps/S 1.8174E-07 9927206114208/ifd/16,19,nor,nor,rem,13337,6041 9927206114214/if3/6,in,2,2,,,present,500.10,rem,lock,31105 9927206114220/vc02/142.99,2.000,u,10,10,rem,lock,18661 9927206114226/vc06/202.89,2.000,u,10,10,rem,lock,20847 9927206114232/vc11/237.99,2.000,u,10,10,rem,lock,9188 9927206114260/tpi/16610,18661,15158,3913,21256,20847,22885,45483,13337,31105 9927206114280/tpi/7955,8282,9188,26600,16799,4738,6041 9927206114281/tsys1/59.5,57.4,56.5,52.8,52.7,47.3,45.0,45.1,55.0,48.2 9927206114282/tsys2/85.0,80.9,82.6,77.4,77.2,76.0,86.6 9927206114282:!272061319 9927206131901:"data stop" 9927206131901:et 9927206131912:!+3s 9927206132214:tape 9927206132223/tape/off,03375,norm,stopped,stop,unlock,ready,rem 9927206132223:postob 9927206132223:source=2136+141,213901.3,142336.0,2000.0,neutral 9927206132300:nw2c2=24 9927206132353/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206132679:!272061513 9927206145826#trakl#SOURCE_ACQUIRED 9927206151301:preob 9927206151401/onsource/TRACKING 9927206151636/tpical/19048,21370,17489,4404,24797,24541,27173,53970,15419,36675 9927206151656/tpical/9249,9775,10872,31966,20262,5646,7022 9927206151663:!272061523 9927206152301:tape 9927206152310/tape/off,03375,norm,stopped,stop,unlock,ready,rem 9927206152310:st=rev,135 9927206152321:"data start" 9927206152321:midob 9927206152401/onsource/TRACKING 9927206152403/wx/18.8,986.7,95.2,3.6 9927206152438/cable/+1.0851134E-02 9927206152502/fmout-gps/S 1.8123E-07 9927206152508/ifd/16,19,nor,nor,rem,13782,6067 9927206152514/if3/6,in,2,2,,,present,500.10,rem,lock,32206 9927206152520/vc02/142.99,2.000,u,10,10,rem,lock,19251 9927206152525/vc06/202.89,2.000,u,10,10,rem,lock,21583 9927206152531/vc11/237.99,2.000,u,10,10,rem,lock,9249 9927206152559/tpi/17136,19251,15667,3993,21985,21583,23672,47095,13782,32206 9927206152579/tpi/7898,8292,9249,26669,16946,4774,6067 9927206152581/tsys1/60.7,61.1,58.3,53.9,53.7,49.5,47.0,47.5,57.4,50.1 9927206152581/tsys2/83.9,80.7,83.0,77.8,78.0,76.7,86.5 9927206152581:!272061701 9927206170101:"data stop" 9927206170101:et 9927206170112:!+3s 9927206170414:tape 9927206170423/tape/off,02282,norm,stopped,stop,unlock,ready,rem 9927206170423:postob 9927206170423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927206170550:nw2c2=24 9927206170603/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206170931:!272062204 9927206203375#trakl#SOURCE_ACQUIRED 9927206220401:preob 9927206220453/onsource/TRACKING 9927206220688/tpical/18724,20962,17195,4362,24337,24235,26843,53369,15203,36170 9927206220708/tpical/9155,9618,10904,31909,20205,5632,6994 9927206220715:!272062214 9927206221401:tape 9927206221410/tape/off,02282,norm,stopped,stop,unlock,ready,rem 9927206221410:st=rev,135 9927206221421:"data start" 9927206221421:midob 9927206221501/onsource/TRACKING 9927206221503/wx/18.8,986.6,95.8,0.0 9927206221515/cable/+1.0852265E-02 9927206221603/fmout-gps/S 1.8074E-07 9927206221608/ifd/16,19,nor,nor,rem,13553,6051 9927206221614/if3/6,in,2,2,,,present,500.10,rem,lock,31701 9927206221620/vc02/142.99,2.000,u,10,10,rem,lock,18845 9927206221626/vc06/202.89,2.000,u,10,10,rem,lock,21262 9927206221632/vc11/237.99,2.000,u,10,10,rem,lock,9267 9927206221660/tpi/16856,18845,15386,3951,21603,21262,23343,46404,13553,31701 9927206221681/tpi/7861,8182,9267,26724,16896,4764,6051 9927206221683/tsys1/61.1,59.8,57.6,53.2,54.3,48.5,46.4,46.2,56.0,49.3 9927206221683/tsys2/87.2,82.1,82.4,79.6,77.9,76.8,87.3 9927206221683:!272062352 9927206235201:"data stop" 9927206235201:et 9927206235212:!+3s 9927206235514:tape 9927206235523/tape/off,01189,norm,stopped,stop,unlock,ready,rem 9927206235523:postob 9927206235523:source=2145+067,214805.5,065738.6,2000.0,neutral 9927206235600:nw2c2=24 9927206235653/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206235979:!272062734 9927206273401:preob 9927206273499?ERROR AN -103 Pointing computer tracking errors are too large. 9927206273499?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927206273499/onsource/SLEWING 9927206273734/tpical/20202,22778,18671,4647,26392,26114,29126,57877,16474,39255 9927206273754/tpical/9233,9846,11029,32480,20614,5739,7092 9927206273761:!272062744 9927206274401:tape 9927206274410/tape/off,01189,norm,stopped,stop,unlock,ready,rem 9927206274410:st=rev,135 9927206274421:"data start" 9927206274421:midob 9927206274474#trakl#SOURCE_ACQUIRED 9927206274501/onsource/TRACKING 9927206274503/wx/18.6,986.5,96.7,0.0 9927206274527/cable/+1.0850266E-02 9927206274602/fmout-gps/S 1.8199E-07 9927206274608/ifd/16,19,nor,nor,rem,14839,6144 9927206274614/if3/6,in,2,2,,,present,500.10,rem,lock,34800 9927206274620/vc02/142.99,2.000,u,10,10,rem,lock,20650 9927206274626/vc06/202.89,2.000,u,10,10,rem,lock,23187 9927206274632/vc11/237.99,2.000,u,10,10,rem,lock,9389 9927206274660/tpi/18317,20650,16870,4245,23652,23187,25611,50926,14839,34800 9927206274680/tpi/7913,8367,9389,27207,17278,4870,6144 9927206274681/tsys1/66.0,65.4,63.6,59.5,59.4,53.8,50.7,50.8,62.0,54.3 9927206274682/tsys2/86.1,81.7,83.4,79.7,79.1,78.6,88.4 9927206274682:!272062922 9927206292201:"data stop" 9927206292201:et 9927206292212:!+3s 9927206292514:tape 9927206292523/tape/low,00096,norm,stopped,stop,unlock,ready,rem 9927206292523:postob 9927206292523:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927206292550:unlod 9927206292550&unlod/check=,-tp 9927206292550&unlod/unloader 9927206292550&unlod/xdisp=on 9927206292550&unlod/"***********dismount this tape now*********" 9927206292550&unlod/wakeup 9927206292550&unlod/xdisp=off 9927206292551&unloader/!+5s 9927206292551&unloader/enable= 9927206292551&unloader/tape=off 9927206292551&unloader/st=rev,135,off 9927206293717/ !!!! wake up !!!! 9927206293717:nw2c1=1 9927206294034/pass/1,1,auto,-330.0,-330.0,-330.0,-328.8,0.0,1.2 9927206294359:ready 9927206294359&ready/sxcts 9927206294359&ready/rxmon 9927206294359&ready/newtape 9927206294359&ready/loader 9927206294359&ready/label 9927206294359&ready/check=,tp 9927206294393/tpi/17420,19586,16009,4055,22425,21982,24194,48232,14062,32923 9927206294413/tpi/7786,8225,9224,26593,16918,4767,6039 9927206294650/tpzero/505,708,449,814,339,622,92,315,315,149 9927206294670/tpzero/641,626,624,266,380,492,776 9927206294913/tpical/19219,21615,17724,4447,25136,24879,27689,55076,15635,37294 9927206294933/tpical/9089,9669,10842,31823,20189,5636,6978 9927206294941/tsys1/65.6,64.9,63.3,57.7,56.9,51.5,48.1,48.9,61.0,52.3 9927206294942/tsys2/85.6,82.1,83.0,78.6,78.9,76.8,87.5 9927206294952/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927206294961/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927206294971/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927206294980/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927206294989/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927206294998/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927206294999/newtape/"to continue, use label command" 9927206311826#trakl#SOURCE_ACQUIRED 9927206340720;label=jpl00890,6591 9927206340727&loader/st=for,135,off 9927206340727&loader/!+11s 9927206340727&loader/et 9927206340727&loader/!+3s 9927206342158/label/JPL00890,6591 9927206342158:!272063709 9927206370901:preob 9927206370953/onsource/TRACKING 9927206371188/tpical/19345,21689,17781,4462,25216,24954,27654,55104,15687,37347 9927206371208/tpical/9188,9729,10976,32048,20369,5675,7016 9927206371215:!272063719 9927206371901:tape 9927206371910/tape/off,00118,norm,stopped,stop,unlock,ready,rem 9927206371910:st=for,135 9927206371921:"data start" 9927206371921:midob 9927206371953/onsource/TRACKING 9927206371955/wx/18.4,986.4,97.8,4.9 9927206371982/cable/+1.0851779E-02 9927206372002/fmout-gps/S 1.8066E-07 9927206372008/ifd/16,19,nor,nor,rem,14098,6069 9927206372014/if3/6,in,2,2,,,present,500.10,rem,lock,33006 9927206372020/vc02/142.99,2.000,u,10,10,rem,lock,19638 9927206372026/vc06/202.89,2.000,u,10,10,rem,lock,22053 9927206372032/vc11/237.99,2.000,u,10,10,rem,lock,9313 9927206372060/tpi/17537,19638,16022,4073,22478,22053,24246,48335,14098,33006 9927206372080/tpi/7837,8255,9313,26763,17040,4805,6069 9927206372082/tsys1/65.8,64.4,61.8,58.5,56.4,51.6,49.5,49.5,60.5,52.8 9927206372082/tsys2/83.1,80.8,81.6,78.3,78.1,77.4,87.2 9927206372082:!272063857 9927206385701:"data stop" 9927206385701:et 9927206385712:!+3s 9927206390014:tape 9927206390023/tape/off,01211,norm,stopped,stop,unlock,ready,rem 9927206390023:postob 9927206390023:source=0201+113,020346.7,113445.4,2000.0,neutral 9927206390150:check2c1 9927206394121?ERROR qg -303 Track 11 parity errors exceed threshold. 9927206394121?ERROR qg -305 AUX data differs from expected value on track 11. 9927206394121?ERROR qg -304 Track 11 sync errors exceed threshold. 9927206394121/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927206394121/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927206395539:nw2c1=1 9927206395595/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206395925:!272064139 9927206412625#trakl#SOURCE_ACQUIRED 9927206413901:preob 9927206413951/onsource/TRACKING 9927206414186/tpical/18658,20887,17137,4342,24275,24127,26773,53079,15132,36045 9927206414206/tpical/9115,9565,10800,31591,20024,5582,6916 9927206414213:!272064149 9927206414901:tape 9927206414911/tape/off,01204,norm,stopped,stop,unlock,ready,rem 9927206414911:st=for,135 9927206414922:"data start" 9927206414922:midob 9927206414950/onsource/TRACKING 9927206414952/wx/18.6,986.4,96.6,5.3 9927206414983/cable/+1.0851910E-02 9927206415002/fmout-gps/S 1.8131E-07 9927206415008/ifd/16,19,nor,nor,rem,13551,5968 9927206415014/if3/6,in,2,2,,,present,500.10,rem,lock,31737 9927206415020/vc02/142.99,2.000,u,10,10,rem,lock,18855 9927206415026/vc06/202.89,2.000,u,10,10,rem,lock,21228 9927206415032/vc11/237.99,2.000,u,10,10,rem,lock,9154 9927206415060/tpi/16842,18855,15373,3952,21624,21228,23367,46415,13551,31737 9927206415080/tpi/7784,8105,9154,26316,16706,4719,5968 9927206415081/tsys1/62.8,62.3,59.1,56.2,56.0,49.6,47.7,48.3,58.4,51.2 9927206415082/tsys2/83.8,80.0,80.9,77.1,76.8,76.5,85.5 9927206415082:!272064821 9927206482101:"data stop" 9927206482101:et 9927206482112:!+3s 9927206482414:tape 9927206482423/tape/off,05604,norm,stopped,stop,unlock,ready,rem 9927206482423:postob 9927206482423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927206482550:nw2c1=1 9927206482603/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206482928:!272065034 9927206485624#trakl#SOURCE_ACQUIRED 9927206503401:preob 9927206503551/onsource/TRACKING 9927206503786/tpical/18765,20987,17178,4355,24293,24210,26794,53169,15186,36104 9927206503813/tpical/9227,9688,10931,32090,20288,5659,7010 9927206503820:!272065044 9927206504402:tape 9927206504411/tape/off,05604,norm,stopped,stop,unlock,ready,rem 9927206504411:st=for,135 9927206504422:"data start" 9927206504422:midob 9927206504500/onsource/TRACKING 9927206504502/wx/18.5,986.2,97.3,10.1 9927206504515/cable/+1.0851978E-02 9927206504603/fmout-gps/S 1.8049E-07 9927206504609/ifd/16,19,nor,nor,rem,13531,6058 9927206504614/if3/6,in,2,2,,,present,500.10,rem,lock,31619 9927206504620/vc02/142.99,2.000,u,10,10,rem,lock,18886 9927206504626/vc06/202.89,2.000,u,10,10,rem,lock,21223 9927206504632/vc11/237.99,2.000,u,10,10,rem,lock,9280 9927206504660/tpi/16857,18886,15340,3945,21558,21223,23269,46318,13531,31619 9927206504680/tpi/7876,8215,9280,26769,16984,4786,6058 9927206504682/tsys1/59.8,60.4,56.6,53.3,54.2,48.1,45.9,46.9,55.7,49.0 9927206504682/tsys2/83.6,80.4,81.8,77.8,78.4,76.8,86.6 9927206504682:!272065222 9927206522201:"data stop" 9927206522201:et 9927206522212:!+3s 9927206522514:tape 9927206522523/tape/off,06697,norm,stopped,stop,unlock,ready,rem 9927206522523:postob 9927206522523:source=0048-097,005041.3,-092905.2,2000.0,neutral 9927206522600:nw2c1=1 9927206522653/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206522979:!272065600 9927206541775#trakl#SOURCE_ACQUIRED 9927206560001:preob 9927206560151/onsource/TRACKING 9927206560386/tpical/19019,21437,17541,4414,24868,24638,27424,54489,15492,36904 9927206560406/tpical/9157,9639,10912,31965,20291,5652,6997 9927206560413:!272065610 9927206561001:tape 9927206561010/tape/off,06697,norm,stopped,stop,unlock,ready,rem 9927206561011:st=for,135 9927206561021:"data start" 9927206561021:midob 9927206561100/onsource/TRACKING 9927206561102/wx/18.4,986.2,97.9,7.7 9927206561130/cable/+1.0849748E-02 9927206561202/fmout-gps/S 1.8250E-07 9927206561208/ifd/16,19,nor,nor,rem,13836,6049 9927206561214/if3/6,in,2,2,,,present,500.10,rem,lock,32413 9927206561220/vc02/142.99,2.000,u,10,10,rem,lock,19275 9927206561226/vc06/202.89,2.000,u,10,10,rem,lock,21664 9927206561232/vc11/237.99,2.000,u,10,10,rem,lock,9268 9927206561260/tpi/17160,19275,15738,4010,22070,21664,23894,47503,13836,32413 9927206561280/tpi/7837,8193,9268,26687,16960,4782,6049 9927206561281/tsys1/62.5,59.9,59.2,55.2,54.2,49.4,47.1,47.1,57.0,50.1 9927206561282/tsys2/85.1,81.7,82.1,78.1,77.7,77.0,86.8 9927206561282:!272065748 9927206574801:"data stop" 9927206574801:et 9927206574812:!+3s 9927206575114:tape 9927206575123/tape/off,07790,norm,stopped,stop,unlock,ready,rem 9927206575123:postob 9927206575123:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927206575220:midtp 9927206575469/tpzero/509,708,453,819,307,619,108,316,304,149 9927206575489/tpzero/640,624,623,268,376,487,772 9927206575505/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927206575514/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927206575523/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927206575532/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927206575542/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927206575551/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927206575551:nw2c2=2 9927206575732/pass/2,2,auto,-330.0,-330.0,-331.4,-330.1,-1.4,-0.1 9927206580057:fastf=0m51s 9927206585185:!272065939 9927206585775#trakl#SOURCE_ACQUIRED 9927206593901:preob 9927206594001/onsource/TRACKING 9927206594236/tpical/21012,23308,19087,4761,27250,26896,30009,59662,16983,40621 9927206594256/tpical/9507,10056,11416,33533,21328,5918,7285 9927206594263:!272065949 9927206594901:tape 9927206594910/tape/off,08923,norm,stopped,stop,unlock,ready,rem 9927206594910:st=rev,135 9927206594921:"data start" 9927206594921:midob 9927206595001/onsource/TRACKING 9927206595003/wx/18.3,986.2,98.1,5.1 9927206595018/cable/+1.0848187E-02 9927206595102/fmout-gps/S 1.8213E-07 9927206595108/ifd/16,19,nor,nor,rem,15339,6339 9927206595114/if3/6,in,2,2,,,present,500.10,rem,lock,36143 9927206595120/vc02/142.99,2.000,u,10,10,rem,lock,21175 9927206595126/vc06/202.89,2.000,u,10,10,rem,lock,23963 9927206595132/vc11/237.99,2.000,u,10,10,rem,lock,9787 9927206595160/tpi/19088,21175,17288,4353,24496,23963,26529,52718,15339,36143 9927206595179/tpi/8182,8598,9787,28259,18005,5050,6339 9927206595181/tsys1/67.4,67.0,65.3,60.5,61.3,55.6,53.0,52.7,63.8,56.1 9927206595181/tsys2/88.9,85.4,87.8,82.8,82.8,82.1,91.9 9927206595182:!272070629 9927207062901:"data stop" 9927207062901:et 9927207062912:!+3s 9927207063214:tape 9927207063223/tape/off,04432,norm,stopped,stop,unlock,ready,rem 9927207063223:postob 9927207063223:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927207063254:check2c2 9927207071272?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207071272?ERROR qg -305 AUX data differs from expected value on track 11. 9927207071272?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207071272/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207071272/parity/0,0,0,0,0,229,0,0,0,0,0,0,0,0 9927207072622:nw2c2=2 9927207072675/pass/2,2,auto,-330.0,-330.0,-330.5,-330.1,-0.5,-0.1 9927207073000:!272070954 9927207081025#trakl#SOURCE_ACQUIRED 9927207095401:preob 9927207095550/onsource/TRACKING 9927207095785/tpical/19490,21609,17677,4458,25139,24836,27629,55173,15683,37422 9927207095806/tpical/9115,9656,10972,31999,20410,5685,7012 9927207095813:!272071004 9927207100401:tape 9927207100410/tape/off,04437,norm,stopped,stop,unlock,ready,rem 9927207100410:st=rev,135 9927207100421:"data start" 9927207100421:midob 9927207100451/onsource/TRACKING 9927207100453/wx/18.4,986.0,97.9,0.0 9927207100471/cable/+1.0849263E-02 9927207100502/fmout-gps/S 1.7379E-07 9927207100508/ifd/16,19,nor,nor,rem,14018,6063 9927207100514/if3/6,in,2,2,,,present,500.10,rem,lock,32907 9927207100520/vc02/142.99,2.000,u,10,10,rem,lock,19461 9927207100526/vc06/202.89,2.000,u,10,10,rem,lock,21934 9927207100532/vc11/237.99,2.000,u,10,10,rem,lock,9338 9927207100560/tpi/17561,19461,15831,4052,22374,21934,24109,48212,14018,32907 9927207100580/tpi/7792,8197,9338,26762,17058,4808,6063 9927207100581/tsys1/61.7,60.9,58.1,55.6,55.7,51.3,47.6,48.0,57.5,50.6 9927207100582/tsys2/84.4,81.0,83.3,79.0,77.7,76.9,87.0 9927207100582:!272071142 9927207114201:"data stop" 9927207114201:et 9927207114212:!+3s 9927207114514:tape 9927207114523/tape/off,03344,norm,stopped,stop,unlock,ready,rem 9927207114523:postob 9927207114523:source=0111+021,011343.1,022217.3,2000.0,neutral 9927207114550:nw2c2=2 9927207114603/pass/2,2,auto,-330.0,-330.0,-330.5,-330.1,-0.5,-0.1 9927207114928:!272071327 9927207132701:preob 9927207132775#trakl#SOURCE_ACQUIRED 9927207132801/onsource/TRACKING 9927207133036/tpical/18524,20816,16948,4300,24057,23815,26482,52749,14975,35719 9927207133056/tpical/9000,9514,10790,31514,20035,5586,6919 9927207133063:!272071337 9927207133701:tape 9927207133710/tape/off,03344,norm,stopped,stop,unlock,ready,rem 9927207133710:st=rev,135 9927207133721:"data start" 9927207133721:midob 9927207133799/onsource/TRACKING 9927207133801/wx/18.3,986.2,98.3,0.0 9927207133818/cable/+1.0849873E-02 9927207133902/fmout-gps/S 1.8184E-07 9927207133908/ifd/16,19,nor,nor,rem,13329,5972 9927207133914/if3/6,in,2,2,,,present,500.10,rem,lock,31232 9927207133920/vc02/142.99,2.000,u,10,10,rem,lock,18639 9927207133926/vc06/202.89,2.000,u,10,10,rem,lock,20858 9927207133932/vc11/237.99,2.000,u,10,10,rem,lock,9168 9927207133960/tpi/16639,18639,15135,3898,21304,20858,22959,45772,13329,31232 9927207133980/tpi/7688,8040,9168,26187,16697,4710,5972 9927207133981/tsys1/59.7,57.5,56.5,53.5,53.2,47.8,45.3,45.5,55.2,48.4 9927207133981/tsys2/83.9,78.5,82.2,76.0,76.3,75.3,85.7 9927207133982:!272071719 9927207171901:"data stop" 9927207171901:et 9927207171912:!+3s 9927207172214:tape 9927207172223/tape/off,00856,norm,stopped,stop,unlock,ready,rem 9927207172223:postob 9927207172223:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927207172300:midtp 9927207172535/tpzero/505,707,449,818,319,623,93,315,314,149 9927207172555/tpzero/641,626,621,266,382,492,783 9927207172571/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927207172581/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927207172590/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927207172599/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927207172608/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927207172617/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927207172618:nw2c1=3 9927207172787/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207173163:fastr=0m34s 9927207180590:!272072242 9927207184275#trakl#SOURCE_ACQUIRED 9927207224201:preob 9927207224254/onsource/TRACKING 9927207224489/tpical/18782,21026,17171,4346,24478,24187,26817,53512,15191,36235 9927207224509/tpical/9092,9587,10922,31721,20214,5642,6985 9927207224516:!272072252 9927207225201:tape 9927207225211/tape/off,00105,norm,stopped,stop,unlock,ready,rem 9927207225211:st=for,135 9927207225222:"data start" 9927207225222:midob 9927207225250/onsource/TRACKING 9927207225252/wx/18.3,986.1,98.4,0.0 9927207225258/cable/+1.0849409E-02 9927207225302/fmout-gps/S 1.8066E-07 9927207225308/ifd/16,19,nor,nor,rem,13501,6027 9927207225314/if3/6,in,2,2,,,present,500.10,rem,lock,31657 9927207225320/vc02/142.99,2.000,u,10,10,rem,lock,18831 9927207225326/vc06/202.89,2.000,u,10,10,rem,lock,21183 9927207225332/vc11/237.99,2.000,u,10,10,rem,lock,9256 9927207225360/tpi/16803,18831,15336,3929,21601,21183,23276,46358,13501,31657 9927207225380/tpi/7760,8143,9256,26444,16863,4757,6027 9927207225381/tsys1/57.5,57.6,56.6,52.1,51.6,47.8,45.7,44.9,54.5,48.0 9927207225382/tsys2/83.4,81.3,80.9,77.4,76.8,75.2,85.4 9927207225382:!272072540 9927207254001:"data stop" 9927207254001:et 9927207254012:!+3s 9927207254314:tape 9927207254322/tape/off,01986,norm,stopped,stop,unlock,ready,rem 9927207254323:postob 9927207254323:source=0528+134,053056.4,133155.2,2000.0,neutral 9927207254400:check2c1 9927207262343?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207262343?ERROR qg -305 AUX data differs from expected value on track 11. 9927207262343?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207262343/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207262343/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927207263768:nw2c1=3 9927207263821/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207264147:!272073007 9927207281874#trakl#SOURCE_ACQUIRED 9927207300701:preob 9927207300799/onsource/TRACKING 9927207301034/tpical/18609,20782,16960,4302,24054,23855,26520,52720,15013,35768 9927207301054/tpical/9329,9786,10824,31995,20141,5605,7020 9927207301061:!272073017 9927207301701:tape 9927207301710/tape/off,01983,norm,stopped,stop,unlock,ready,rem 9927207301711:st=for,135 9927207301721:"data start" 9927207301721:midob 9927207301800/onsource/TRACKING 9927207301802/wx/18.2,985.9,98.7,0.0 9927207301825/cable/+1.0847178E-02 9927207301902/fmout-gps/S 1.8221E-07 9927207301908/ifd/16,19,nor,nor,rem,13355,6059 9927207301914/if3/6,in,2,2,,,present,500.10,rem,lock,31260 9927207301920/vc02/142.99,2.000,u,10,10,rem,lock,18646 9927207301926/vc06/202.89,2.000,u,10,10,rem,lock,20861 9927207301931/vc11/237.99,2.000,u,10,10,rem,lock,9173 9927207301959/tpi/16695,18646,15124,3896,21301,20861,22975,45818,13355,31260 9927207301979/tpi/7961,8282,9173,26609,16774,4737,6059 9927207301981/tsys1/59.0,58.6,55.8,52.9,53.2,47.2,45.1,46.0,54.9,48.2 9927207301981/tsys2/83.5,79.5,80.9,76.3,76.0,76.3,85.7 9927207301982:!272073155 9927207315501:"data stop" 9927207315501:et 9927207315511:!+3s 9927207315813:tape 9927207315821/tape/off,03076,norm,stopped,stop,unlock,ready,rem 9927207315822:postob 9927207315822:source=0804+499,080839.7,495036.5,2000.0,ccw 9927207315851:nw2c1=3 9927207315904/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207320228:!272073558 9927207343674#trakl#SOURCE_ACQUIRED 9927207355801:preob 9927207355855/onsource/TRACKING 9927207360091/tpical/18602,20750,16939,4285,24017,23860,26435,52684,14968,35626 9927207360110/tpical/9395,9882,10886,32295,20328,5670,7088 9927207360117:!272073608 9927207360801:tape 9927207360810/tape/off,03076,norm,stopped,stop,unlock,ready,rem 9927207360810:st=for,135 9927207360821:"data start" 9927207360821:midob 9927207360901/onsource/TRACKING 9927207360903/wx/18.2,985.7,98.9,1.6 9927207360926/cable/+1.0845279E-02 9927207361002/fmout-gps/S 1.8254E-07 9927207361008/ifd/16,19,nor,nor,rem,13318,6114 9927207361014/if3/6,in,2,2,,,present,500.10,rem,lock,31130 9927207361020/vc02/142.99,2.000,u,10,10,rem,lock,18620 9927207361025/vc06/202.89,2.000,u,10,10,rem,lock,20857 9927207361031/vc11/237.99,2.000,u,10,10,rem,lock,9238 9927207361060/tpi/16701,18620,15138,3880,21182,20857,22913,45648,13318,31130 9927207361080/tpi/8001,8345,9238,26907,16924,4780,6114 9927207361081/tsys1/59.5,58.7,56.9,52.8,51.4,47.0,45.2,45.0,55.0,48.1 9927207361082/tsys2/82.4,78.4,81.6,77.2,75.9,75.2,85.4 9927207361082:!272073746 9927207374601:"data stop" 9927207374601:et 9927207374612:!+3s 9927207374914:tape 9927207374923/tape/off,04168,norm,stopped,stop,unlock,ready,rem 9927207374923:postob 9927207374923:source=0552+398,055530.8,394849.2,2000.0,ccw 9927207375000:nw2c1=3 9927207375053/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207375379:!272073950 9927207393674#trakl#SOURCE_ACQUIRED 9927207395001:preob 9927207395101/onsource/TRACKING 9927207395336/tpical/18807,20960,17070,4328,24096,23900,26553,52857,15100,35800 9927207395356/tpical/9469,9948,10982,32580,20509,5706,7127 9927207395363:!272074000 9927207400001:tape 9927207400010/tape/off,04168,norm,stopped,stop,unlock,ready,rem 9927207400011:st=for,135 9927207400021:"data start" 9927207400021:midob 9927207400100/onsource/TRACKING 9927207400102/wx/18.1,985.7,98.9,4.2 9927207400110/cable/+1.0847352E-02 9927207400202/fmout-gps/S 1.8219E-07 9927207400208/ifd/16,19,nor,nor,rem,13444,6150 9927207400213/if3/6,in,2,2,,,present,500.10,rem,lock,31315 9927207400219/vc02/142.99,2.000,u,10,10,rem,lock,18798 9927207400225/vc06/202.89,2.000,u,10,10,rem,lock,20941 9927207400231/vc11/237.99,2.000,u,10,10,rem,lock,9318 9927207400259/tpi/16897,18798,15267,3916,21325,20941,23024,45813,13444,31315 9927207400279/tpi/8084,8428,9318,27159,17095,4815,6150 9927207400281/tsys1/59.9,58.4,57.4,52.5,52.9,47.9,45.4,45.1,55.3,48.5 9927207400281/tsys2/83.9,80.1,81.6,77.4,76.4,75.7,85.8 9927207400281:!272074138 9927207413801:"data stop" 9927207413801:et 9927207413811:!+3s 9927207414113:tape 9927207414122/tape/off,05261,norm,stopped,stop,unlock,ready,rem 9927207414122:postob 9927207414122:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927207414251:nw2c1=3 9927207414304/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207414630:!272074417 9927207435974#trakl#SOURCE_ACQUIRED 9927207441702:preob 9927207441799/onsource/TRACKING 9927207442039/tpical/18706,20915,17125,4332,24263,24064,26806,53379,15117,36080 9927207442059/tpical/9317,9699,10750,31634,19890,5554,6961 9927207442066:!272074427 9927207442679;"wx=scaterd cloud, humid, no wind, warm. 9927207442701:tape 9927207442710/tape/off,05261,norm,stopped,stop,unlock,ready,rem 9927207442711:st=for,135 9927207442721:"data start" 9927207442721:midob 9927207442850/onsource/TRACKING 9927207442901/wx/18.1,985.5,99.1,0.8 9927207442929/cable/+1.0846715E-02 9927207443002/fmout-gps/S 1.8127E-07 9927207443008/ifd/16,19,nor,nor,rem,13469,6004 9927207443014/if3/6,in,2,2,,,present,500.10,rem,lock,31580 9927207443020/vc02/142.99,2.000,u,10,10,rem,lock,18819 9927207443026/vc06/202.89,2.000,u,10,10,rem,lock,21105 9927207443032/vc11/237.99,2.000,u,10,10,rem,lock,9121 9927207443060/tpi/16817,18819,15314,3926,21490,21105,23288,46366,13469,31580 9927207443080/tpi/7927,8208,9121,26315,16587,4685,6004 9927207443084/tsys1/60.3,60.3,57.3,53.4,53.3,48.3,46.0,45.8,55.7,48.8 9927207443084/tsys2/81.8,79.4,81.5,76.4,76.6,75.3,85.2 9927207443084:!272074605 9927207460501:"data stop" 9927207460501:et 9927207460512:!+3s 9927207460814:tape 9927207460822/tape/off,06354,norm,stopped,stop,unlock,ready,rem 9927207460823:postob 9927207460825:source=0019+058,002232.4,060804.3,2000.0,neutral 9927207460900:midtp 9927207461137/tpzero/505,709,451,813,328,621,93,315,314,150 9927207461157/tpzero/641,626,625,267,380,490,781 9927207461173/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927207461182/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927207461191/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927207461200/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927207461210/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927207461219/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927207461219:nw2c2=4 9927207461370/pass/4,4,auto,-275.0,-275.0,-275.7,-275.6,-0.7,-0.6 9927207461696:fastf=1m54s 9927207481124:!272075128 9927207493474#trakl#SOURCE_ACQUIRED 9927207494274#trakl#OFF_SOURCE 9927207500274#trakl#SOURCE_REACQUIRED 9927207512801:preob 9927207512853/onsource/TRACKING 9927207513089/tpical/18699,21076,17197,4359,24485,24266,26919,53613,15182,36285 9927207513109/tpical/9134,9578,10857,31685,20096,5612,6987 9927207513116:!272075138 9927207513801:tape 9927207513810/tape/off,08905,norm,stopped,stop,unlock,ready,rem 9927207513811:st=rev,135 9927207513821:"data start" 9927207513821:midob 9927207513949/onsource/TRACKING 9927207513951/wx/17.9,985.5,99.5,0.0 9927207513986/cable/+1.0847925E-02 9927207514002/fmout-gps/S 1.8111E-07 9927207514008/ifd/16,19,nor,nor,rem,13528,6027 9927207514014/if3/6,in,2,2,,,present,500.10,rem,lock,31765 9927207514020/vc02/142.99,2.000,u,10,10,rem,lock,18910 9927207514026/vc06/202.89,2.000,u,10,10,rem,lock,21319 9927207514032/vc11/237.99,2.000,u,10,10,rem,lock,9213 9927207514060/tpi/16796,18910,15376,3947,21663,21319,23396,46614,13528,31765 9927207514080/tpi/7784,8107,9213,26366,16769,4736,6027 9927207514081/tsys1/59.8,58.7,57.2,53.1,52.8,49.0,46.2,46.2,55.8,48.8 9927207514082/tsys2/82.6,79.4,81.5,76.6,76.9,75.7,85.3 9927207514082:!272075743 9927207574301:"data stop" 9927207574301:et 9927207574312:!+3s 9927207574614:tape 9927207574623/tape/off,04808,norm,stopped,stop,unlock,ready,rem 9927207574623:postob 9927207574623:source=0048-097,005041.3,-092905.2,2000.0,neutral 9927207574700:check2c2 9927207582643?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207582643?ERROR qg -305 AUX data differs from expected value on track 11. 9927207582643?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207582643/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207582643/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927207583574#trakl#SOURCE_ACQUIRED 9927207584068:nw2c2=4 9927207584122/pass/4,4,auto,-275.0,-275.0,-274.8,-275.6,0.2,-0.6 9927207584448:!272075956 9927207595601:preob 9927207595699/onsource/TRACKING 9927207595934/tpical/19522,21976,17912,4494,25435,25123,28055,55691,15840,37773 9927207595954/tpical/9289,9795,11015,32254,20488,5704,7108 9927207595961:!272080006 9927208000601:tape 9927208000610/tape/off,04811,norm,stopped,stop,unlock,ready,rem 9927208000611:st=rev,135 9927208000622:"data start" 9927208000622:midob 9927208000750/onsource/TRACKING 9927208000752/wx/17.9,985.5,99.9,1.8 9927208000782/cable/+1.0846344E-02 9927208000802/fmout-gps/S 1.8193E-07 9927208000808/ifd/16,19,nor,nor,rem,14182,6148 9927208000814/if3/6,in,2,2,,,present,500.10,rem,lock,33248 9927208000820/vc02/142.99,2.000,u,10,10,rem,lock,19829 9927208000832/vc06/202.89,2.000,u,10,10,rem,lock,22139 9927208000845/vc11/237.99,2.000,u,10,10,rem,lock,9381 9927208000914/tpi/17626,19829,16102,4085,22624,22139,24435,48619,14182,33238 9927208000959/tpi/7946,8306,9368,26950,17161,4833,6148 9927208000961/tsys1/63.0,62.2,60.4,55.8,55.4,50.3,46.9,47.7,58.4,50.9 9927208000961/tsys2/84.9,80.5,82.9,78.5,78.7,77.8,87.3 9927208000961:!272080144 9927208014401:"data stop" 9927208014401:et 9927208014412:!+3s 9927208014714:tape 9927208014723/tape/off,03718,norm,stopped,stop,unlock,ready,rem 9927208014723:postob 9927208014729:source=2136+141,213901.3,142336.0,2000.0,neutral 9927208014801:nw2c2=4 9927208014854/pass/4,4,auto,-275.0,-275.0,-274.8,-274.7,0.2,0.3 9927208015178:!272080414 9927208035975#trakl#SOURCE_ACQUIRED 9927208041401:preob 9927208041453/onsource/TRACKING 9927208041701/tpical/22027,24435,20085,4985,28631,28296,31483,62821,17852,42736 9927208041721/tpical/9854,10399,11558,34316,21681,6020,7480 9927208041727:!272080424 9927208042401:tape 9927208042410/tape/off,03718,norm,moving,stop,unlock,ready,rem 9927208042410:st=rev,135 9927208042421:"data start" 9927208042421:midob 9927208042501/onsource/TRACKING 9927208042503/wx/17.8,985.3,100.0,0.2 9927208042523/cable/+1.0845315E-02 9927208042602/fmout-gps/S 1.8174E-07 9927208042608/ifd/16,19,nor,nor,rem,16227,6517 9927208042614/if3/6,in,2,2,,,present,500.10,rem,lock,38301 9927208042620/vc02/142.99,2.000,u,10,10,rem,lock,22344 9927208042626/vc06/202.89,2.000,u,10,10,rem,lock,25426 9927208042632/vc11/237.99,2.000,u,10,10,rem,lock,9904 9927208042660/tpi/20133,22344,18349,4587,25901,25426,28034,55972,16227,38301 9927208042680/tpi/8468,8914,9904,28972,18338,5144,6517 9927208042681/tsys1/72.3,72.2,72.0,66.2,65.4,60.3,56.5,56.7,68.4,60.0 9927208042682/tsys2/88.2,87.1,87.6,83.8,83.9,82.9,93.0 9927208042682:!272080602 9927208060201:"data stop" 9927208060201:et 9927208060212:!+3s 9927208060514:tape 9927208060523/tape/off,02625,norm,stopped,stop,unlock,ready,rem 9927208060523:postob 9927208060523:source=3c418,203837.0,511912.7,2000.0,neutral 9927208060600:nw2c2=4 9927208060653/pass/4,4,auto,-275.0,-275.0,-275.7,-275.6,-0.7,-0.6 9927208060978:!272080806 9927208074226#trakl#SOURCE_ACQUIRED 9927208080601:preob 9927208080653/onsource/TRACKING 9927208080889/tpical/19474,21571,17663,4462,25158,24868,27605,55087,15667,37381 9927208080908/tpical/9504,10018,11155,32933,20826,5813,7212 9927208080915:!272080816 9927208081601:tape 9927208081610/tape/off,02625,norm,stopped,stop,unlock,ready,rem 9927208081611:st=rev,135 9927208081622:"data start" 9927208081622:midob 9927208081650/onsource/TRACKING 9927208081652/wx/17.8,985.3,100.0,3.0 9927208081670/cable/+1.0845273E-02 9927208081702/fmout-gps/S 1.8219E-07 9927208081708/ifd/16,19,nor,nor,rem,14008,6238 9927208081714/if3/6,in,2,2,,,present,500.10,rem,lock,32859 9927208081720/vc02/142.99,2.000,u,10,10,rem,lock,19427 9927208081726/vc06/202.89,2.000,u,10,10,rem,lock,21878 9927208081732/vc11/237.99,2.000,u,10,10,rem,lock,9488 9927208081760/tpi/17554,19427,15845,4053,22353,21878,24082,48115,14008,32859 9927208081779/tpi/8117,8502,9488,27550,17462,4919,6238 9927208081781/tsys1/62.0,60.9,59.1,55.3,54.8,49.6,47.5,47.9,57.6,50.5 9927208081782/tsys2/84.1,81.1,83.0,79.1,79.3,77.3,87.5 9927208081782:!272080954 9927208095401:"data stop" 9927208095401:et 9927208095412:!+3s 9927208095714:tape 9927208095723/tape/off,01532,norm,stopped,stop,unlock,ready,rem 9927208095723:postob 9927208095723:source=ngc6251,163232.0,823216.4,2000.0,neutral 9927208095800:midtp 9927208100036/tpzero/503,707,450,818,329,619,107,317,312,149 9927208100055/tpzero/639,625,622,268,377,488,772 9927208100071/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927208100080/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927208100090/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927208100099/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927208100108/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927208100117/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927208100118:nw2c1=5 9927208100269/pass/5,5,auto,-220.0,-220.0,-218.6,-220.6,1.4,-0.6 9927208100595:fastr=1m5s 9927208111123:!272081148 9927208114074#trakl#SOURCE_ACQUIRED 9927208114801:preob 9927208114951/onsource/TRACKING 9927208115186/tpical/18466,20686,16937,4300,23996,23766,26376,52518,14945,35602 9927208115206/tpical/9312,9821,10854,32114,20259,5653,7047 9927208115213:!272081158 9927208115801:tape 9927208115811/tape/low,00084,norm,stopped,stop,unlock,ready,rem 9927208115811:st=for,135 9927208115822:"data start" 9927208115822:midob 9927208115852/onsource/TRACKING 9927208115854/wx/17.8,985.2,100.0,0.5 9927208115882/cable/+1.0845458E-02 9927208115902/fmout-gps/S 1.8217E-07 9927208115908/ifd/16,19,nor,nor,rem,13297,6092 9927208115914/if3/6,in,2,2,,,present,500.10,rem,lock,31110 9927208115920/vc02/142.99,2.000,u,10,10,rem,lock,18546 9927208115926/vc06/202.89,2.000,u,10,10,rem,lock,20749 9927208115932/vc11/237.99,2.000,u,10,10,rem,lock,9206 9927208115960/tpi/16564,18546,15118,3890,21222,20749,22861,45491,13297,31110 9927208115980/tpi/7963,8312,9206,26784,16870,4766,6092 9927208115982/tsys1/58.9,58.2,56.3,52.3,52.6,46.6,45.2,44.9,55.0,48.1 9927208115982/tsys2/84.7,79.5,81.3,77.7,76.0,75.3,87.0 9927208115982:!272081830 9927208183001:"data stop" 9927208183001:et 9927208183012:!+3s 9927208183314:tape 9927208183323/tape/off,04485,norm,stopped,stop,unlock,ready,rem 9927208183323:postob 9927208183323:source=m81,095533.1,690354.8,2000.0,neutral 9927208183450:check2c1 9927208191393?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208191393?ERROR qg -305 AUX data differs from expected value on track 11. 9927208191393?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208191393/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208191393/parity/0,0,0,0,0,384,0,0,0,0,0,0,0,0 9927208192818:nw2c1=5 9927208192871/pass/5,5,auto,-220.0,-220.0,-218.6,-220.6,1.4,-0.6 9927208193196:!272082309 9927208195874#trakl#SOURCE_ACQUIRED 9927208230901:preob 9927208230999/onsource/TRACKING 9927208231234/tpical/18584,20719,16929,4297,23979,23709,26289,52319,14950,35539 9927208231254/tpical/9285,9776,10822,31946,20137,5616,7035 9927208231261:!272082319 9927208231901:tape 9927208231910/tape/off,04483,norm,stopped,stop,unlock,ready,rem 9927208231910:st=for,135 9927208231921:"data start" 9927208231921:midob 9927208232000/onsource/TRACKING 9927208232002/wx/17.7,985.2,100.0,0.0 9927208232029/cable/+1.0845493E-02 9927208232102/fmout-gps/S 1.8076E-07 9927208232107/ifd/16,19,nor,nor,rem,13308,6058 9927208232113/if3/6,in,2,2,,,present,500.10,rem,lock,31062 9927208232119/vc02/142.99,2.000,u,10,10,rem,lock,18609 9927208232125/vc06/202.89,2.000,u,10,10,rem,lock,20737 9927208232131/vc11/237.99,2.000,u,10,10,rem,lock,9161 9927208232159/tpi/16674,18609,15137,3889,21212,20737,22761,45403,13308,31062 9927208232179/tpi/7920,8267,9161,26592,16751,4736,6058 9927208232181/tsys1/59.1,59.2,57.2,52.5,52.7,47.2,44.8,45.5,55.2,48.2 9927208232181/tsys2/83.3,79.1,80.2,76.7,75.5,75.4,84.5 9927208232181:!272082950 9927208295001:"data stop" 9927208295001:et 9927208295012:!+3s 9927208295314:tape 9927208295323/tape/off,08872,norm,stopped,stop,unlock,ready,rem 9927208295323:postob 9927208295323:source=0014+813,001708.5,813508.1,2000.0,neutral 9927208295401:midtp 9927208295638/tpzero/509,710,452,816,324,622,103,318,305,149 9927208295657/tpzero/639,624,624,269,377,491,781 9927208295673/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927208295683/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927208295692/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927208295701/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927208295711/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927208295720/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927208295720:nw2c2=6 9927208295885/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208300212:!272083203 9927208313574#trakl#SOURCE_ACQUIRED 9927208320301:preob 9927208320351/onsource/TRACKING 9927208320586/tpical/18519,20704,16841,4287,23806,23671,26247,52024,14898,35350 9927208320606/tpical/9391,9836,10838,32177,20205,5642,7072 9927208320613:!272083213 9927208321301:tape 9927208321310/tape/off,08872,norm,stopped,stop,unlock,ready,rem 9927208321310:st=rev,135 9927208321321:"data start" 9927208321321:midob 9927208321401/onsource/TRACKING 9927208321403/wx/17.7,985.1,100.0,0.0 9927208321417/cable/+1.0845201E-02 9927208321502/fmout-gps/S 1.8197E-07 9927208321508/ifd/16,19,nor,nor,rem,13217,6092 9927208321514/if3/6,in,2,2,,,present,500.10,rem,lock,30858 9927208321520/vc02/142.99,2.000,u,10,10,rem,lock,18500 9927208321526/vc06/202.89,2.000,u,10,10,rem,lock,20663 9927208321532/vc11/237.99,2.000,u,10,10,rem,lock,9179 9927208321559/tpi/16552,18500,14992,3870,20994,20663,22694,45200,13217,30858 9927208321579/tpi/7994,8323,9179,26763,16809,4753,6092 9927208321581/tsys1/56.9,56.3,54.9,51.1,51.3,46.5,44.4,45.9,53.6,47.7 9927208321581/tsys2/82.2,79.4,80.5,76.4,75.5,74.8,84.6 9927208321581:!272083635 9927208363501:"data stop" 9927208363501:et 9927208363512:!+3s 9927208363814:tape 9927208363823/tape/off,05934,norm,stopped,stop,unlock,ready,rem 9927208363823:postob 9927208363823:source=1014+615,101725.9,611627.5,2000.0,neutral 9927208363850:check2c2 9927208371853?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208371853?ERROR qg -305 AUX data differs from expected value on track 11. 9927208371853?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208371853/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208371853/parity/0,0,0,0,0,294,0,0,0,0,0,0,0,0 9927208373218:nw2c2=6 9927208373271/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208373597:!272083848 9927208384225#trakl#SOURCE_ACQUIRED 9927208384801:preob 9927208384853/onsource/TRACKING 9927208385088/tpical/18767,21024,17178,4336,24192,23931,26599,52878,15123,35868 9927208385108/tpical/9367,9828,10858,32214,20257,5650,7063 9927208385115:!272083858 9927208385801:tape 9927208385810/tape/off,05938,norm,stopped,stop,unlock,ready,rem 9927208385811:st=rev,135 9927208385822:"data start" 9927208385822:midob 9927208385852/onsource/TRACKING 9927208385854/wx/17.7,984.9,100.0,0.7 9927208385882/cable/+1.0844304E-02 9927208385902/fmout-gps/S 1.8246E-07 9927208385908/ifd/16,19,nor,nor,rem,13464,6090 9927208385914/if3/6,in,2,2,,,present,500.10,rem,lock,31381 9927208385920/vc02/142.99,2.000,u,10,10,rem,lock,18858 9927208385926/vc06/202.89,2.000,u,10,10,rem,lock,20986 9927208385932/vc11/237.99,2.000,u,10,10,rem,lock,9190 9927208385960/tpi/16860,18858,15331,3924,21407,20986,23073,45941,13464,31381 9927208385980/tpi/7985,8315,9190,26795,16858,4758,6090 9927208385982/tsys1/59.8,58.5,56.2,52.7,52.8,48.3,45.5,45.9,55.4,48.6 9927208385982/tsys2/83.0,79.3,80.2,76.4,75.7,74.7,85.2 9927208385982:!272084036 9927208403601:"data stop" 9927208403601:et 9927208403612:!+3s 9927208403914:tape 9927208403923/tape/off,04845,norm,stopped,stop,unlock,ready,rem 9927208403923:postob 9927208403923:source=4c39.25,092703.0,390220.9,2000.0,cw 9927208404000:nw2c2=6 9927208404053/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208404379:!272084158 9927208414926#trakl#SOURCE_ACQUIRED 9927208415801:preob 9927208415853/onsource/TRACKING 9927208420088/tpical/19777,22109,17993,4500,25235,24962,27841,55282,15864,37527 9927208420108/tpical/9549,10063,11119,33145,20801,5789,7230 9927208420115:!272084208 9927208420801:tape 9927208420811/tape/off,04845,norm,stopped,stop,unlock,ready,rem 9927208420811:st=rev,135 9927208420822:"data start" 9927208420822:midob 9927208420850/onsource/TRACKING 9927208420852/wx/17.7,984.8,100.0,6.4 9927208420890/cable/+1.0842594E-02 9927208420902/fmout-gps/S 1.8133E-07 9927208420908/ifd/16,19,nor,nor,rem,14155,6249 9927208420914/if3/6,in,2,2,,,present,500.10,rem,lock,32913 9927208420920/vc02/142.99,2.000,u,10,10,rem,lock,19855 9927208420926/vc06/202.89,2.000,u,10,10,rem,lock,21886 9927208420932/vc11/237.99,2.000,u,10,10,rem,lock,9453 9927208420960/tpi/17785,19855,16122,4085,22378,21886,24226,48192,14155,32913 9927208420980/tpi/8169,8541,9453,27689,17389,4893,6249 9927208420982/tsys1/60.5,59.3,58.5,55.0,53.9,48.3,46.6,47.1,56.6,49.6 9927208420982/tsys2/85.2,81.2,82.7,78.5,77.8,76.7,87.0 9927208420982:!272084346 9927208434601:"data stop" 9927208434601:et 9927208434612:!+3s 9927208434914:tape 9927208434923/tape/off,03752,norm,stopped,stop,unlock,ready,rem 9927208434923:postob 9927208434923:source=1104+728,110741.7,723236.0,2000.0,neutral 9927208435000:nw2c2=6 9927208435053/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208435377:!272084559 9927208454175#trakl#SOURCE_ACQUIRED 9927208455901:preob 9927208460051/onsource/TRACKING 9927208460286/tpical/18671,20925,17066,4319,24103,23929,26581,52863,15063,35826 9927208460306/tpical/9364,9850,10841,32181,20229,5640,7060 9927208460313:!272084609 9927208460901:tape 9927208460910/tape/off,03752,norm,stopped,stop,unlock,ready,rem 9927208460910:st=rev,135 9927208460921:"data start" 9927208460921:midob 9927208461050/onsource/TRACKING 9927208461052/wx/17.7,984.9,100.0,0.0 9927208461082/cable/+1.0844959E-02 9927208461102/fmout-gps/S 1.8176E-07 9927208461108/ifd/16,19,nor,nor,rem,13390,6081 9927208461114/if3/6,in,2,2,,,present,500.10,rem,lock,31307 9927208461120/vc02/142.99,2.000,u,10,10,rem,lock,18719 9927208461126/vc06/202.89,2.000,u,10,10,rem,lock,20930 9927208461132/vc11/237.99,2.000,u,10,10,rem,lock,9186 9927208461160/tpi/16726,18719,15234,3915,21315,20930,23021,45833,13390,31307 9927208461180/tpi/7957,8321,9186,26723,16822,4749,6081 9927208461181/tsys1/58.2,57.0,56.3,53.5,52.6,47.3,44.9,45.2,54.6,48.1 9927208461182/tsys2/81.2,78.6,80.8,75.7,75.3,74.6,84.5 9927208461182:!272085135 9927208513501:"data stop" 9927208513501:et 9927208513512:!+3s 9927208513814:tape 9927208513823/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927208513823:postob 9927208513823:source=0955+476,095819.7,472507.8,2000.0,cw 9927208513850:midtp 9927208514086/tpzero/512,707,449,817,324,622,93,316,310,149 9927208514105/tpzero/636,626,624,269,376,492,773 9927208514121/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927208514131/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927208514140/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927208514149/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927208514159/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927208514168/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927208514168:nw2c1=7 9927208514321/pass/7,7,auto,-165.0,-165.0,-163.8,-163.3,1.2,1.7 9927208514674:!272085412 9927208530175#trakl#SOURCE_ACQUIRED 9927208541201:preob 9927208541299/onsource/TRACKING 9927208541534/tpical/19035,21235,17395,4390,24525,24292,26986,53641,15336,36431 9927208541554/tpical/9440,9948,10981,32568,20461,5705,7118 9927208541561:!272085422 9927208542201:tape 9927208542210/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927208542211:st=for,135 9927208542222:"data start" 9927208542222:midob 9927208542300/onsource/TRACKING 9927208542302/wx/17.7,985.0,100.0,4.0 9927208542330/cable/+1.0844534E-02 9927208542402/fmout-gps/S 1.8223E-07 9927208542408/ifd/16,19,nor,nor,rem,13672,6138 9927208542414/if3/6,in,2,2,,,present,500.10,rem,lock,31946 9927208542420/vc02/142.99,2.000,u,10,10,rem,lock,19101 9927208542426/vc06/202.89,2.000,u,10,10,rem,lock,21303 9927208542432/vc11/237.99,2.000,u,10,10,rem,lock,9310 9927208542459/tpi/17097,19101,15567,3980,21789,21303,23482,46773,13672,31946 9927208542479/tpi/8046,8412,9310,27145,17056,4805,6138 9927208542481/tsys1/59.7,60.2,57.7,53.8,54.8,48.3,46.6,47.2,56.0,49.5 9927208542481/tsys2/83.0,79.1,81.1,77.4,76.5,74.8,85.5 9927208542481:!272085600 9927208560001:"data stop" 9927208560001:et 9927208560012:!+3s 9927208560314:tape 9927208560322/tape/off,01186,norm,stopped,stop,unlock,ready,rem 9927208560323:postob 9927208560323:source=0059+581,010245.8,582411.1,2000.0,neutral 9927208560350:check2c1 9927208564314?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208564314?ERROR qg -305 AUX data differs from expected value on track 11. 9927208564314?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208564315/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208564315/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927208565739:nw2c1=7 9927208565803/pass/7,7,auto,-165.0,-165.0,-163.8,-164.2,1.2,0.8 9927208570128:!272090027 9927208590232;"wx,overcast, humid, some lighting activity 9927209000133#trakl#SOURCE_ACQUIRED 9927209002701:preob 9927209002851/onsource/TRACKING 9927209003086/tpical/18593,20831,16940,4306,23962,23834,26477,52633,14984,35662 9927209003106/tpical/9243,9781,10818,32058,20185,5619,7033 9927209003113:!272090037 9927209003701:tape 9927209003711/tape/off,01183,norm,stopped,stop,unlock,ready,rem 9927209003711:st=for,135 9927209003722:"data start" 9927209003722:midob 9927209003800/onsource/TRACKING 9927209003802/wx/17.8,984.7,100.0,2.7 9927209003806/cable/+1.0847807E-02 9927209003902/fmout-gps/S 1.8168E-07 9927209003908/ifd/16,19,nor,nor,rem,13328,6067 9927209003914/if3/6,in,2,2,,,present,500.10,rem,lock,31164 9927209003920/vc02/142.99,2.000,u,10,10,rem,lock,18677 9927209003926/vc06/202.89,2.000,u,10,10,rem,lock,20871 9927209003932/vc11/237.99,2.000,u,10,10,rem,lock,9183 9927209003960/tpi/16698,18677,15095,3895,21167,20871,22954,45637,13328,31164 9927209003980/tpi/7883,8275,9183,26694,16859,4748,6067 9927209003982/tsys1/59.6,58.2,55.4,52.3,52.1,47.7,45.3,45.2,54.9,48.1 9927209003982/tsys2/83.2,79.3,81.7,76.9,77.4,76.3,85.5 9927209003982:!272090215 9927209021501:"data stop" 9927209021501:et 9927209021512:!+3s 9927209021814:tape 9927209021823/tape/off,02275,norm,stopped,stop,unlock,ready,rem 9927209021823:postob 9927209021823:source=2201+315,220315.0,314538.3,2000.0,neutral 9927209021900:nw2c1=7 9927209021953/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209022278:!272090638 9927209044475#trakl#SOURCE_ACQUIRED 9927209063801:preob 9927209063901/onsource/TRACKING 9927209064136/tpical/20902,23091,18969,4715,26891,26632,29622,59049,16807,40109 9927209064156/tpical/9661,10206,11294,33495,21146,5885,7309 9927209064163:!272090648 9927209064801:tape 9927209064809/tape/off,02275,norm,stopped,stop,unlock,ready,rem 9927209064810:st=for,135 9927209064820:"data start" 9927209064820:midob 9927209064901/onsource/TRACKING 9927209064905/wx/17.7,984.7,100.0,0.0 9927209064922/cable/+1.0844947E-02 9927209065002/fmout-gps/S 1.8133E-07 9927209065008/ifd/16,19,nor,nor,rem,15133,6341 9927209065014/if3/6,in,2,2,,,present,500.10,rem,lock,35558 9927209065020/vc02/142.99,2.000,u,10,10,rem,lock,20940 9927209065026/vc06/202.89,2.000,u,10,10,rem,lock,23635 9927209065033/vc11/237.99,2.000,u,10,10,rem,lock,9645 9927209065061/tpi/18955,20940,17111,4305,24128,23635,26101,52018,15133,35558 9927209065080/tpi/8274,8706,9645,28134,17784,4998,6341 9927209065082/tsys1/66.1,65.7,62.6,59.4,60.1,53.6,51.6,51.3,61.8,54.3 9927209065083/tsys2/86.0,84.1,85.4,81.1,80.8,79.3,89.8 9927209065083:!272090826 9927209082601:"data stop" 9927209082601:et 9927209082612:!+3s 9927209082914:tape 9927209082922/tape/off,03368,norm,stopped,stop,unlock,ready,rem 9927209082923:postob 9927209082923:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927209083052:nw2c1=7 9927209083105/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209083430:!272091039 9927209103375#trakl#SOURCE_ACQUIRED 9927209103901:preob 9927209103955/onsource/TRACKING 9927209104190/tpical/22986,25451,20974,5158,29808,29483,32924,$$$$$,18625,44627 9927209104210/tpical/9885,10506,11676,34552,21850,6067,7496 9927209104217:!272091049 9927209104901:tape 9927209104909/tape/off,03368,norm,stopped,stop,unlock,ready,rem 9927209104910:st=for,135 9927209104920:"data start" 9927209104920:midob 9927209104955/onsource/TRACKING 9927209104957/wx/17.7,984.9,100.0,0.0 9927209104970/cable/+1.0844850E-02 9927209105002/fmout-gps/S 1.8236E-07 9927209105008/ifd/16,19,nor,nor,rem,16986,6537 9927209105014/if3/6,in,2,2,,,present,500.10,rem,lock,40157 9927209105020/vc02/142.99,2.000,u,10,10,rem,lock,23340 9927209105025/vc06/202.89,2.000,u,10,10,rem,lock,26539 9927209105031/vc11/237.99,2.000,u,10,10,rem,lock,10020 9927209105059/tpi/21089,23340,19177,4747,27114,26539,29445,58611,16986,40157 9927209105079/tpi/8507,8982,10020,29259,18521,5189,6537 9927209105081?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927209105081/tsys1/75.7,74.8,72.7,66.7,69.4,61.4,58.9,$$$$$$$$,71.0,62.5 9927209105081/tsys2/89.2,85.6,88.6,85.5,85.1,83.5,93.8 9927209105082:!272091227 9927209122701:"data stop" 9927209122701:et 9927209122712:!+3s 9927209123014:tape 9927209123022/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927209123023:postob 9927209123023:source=2234+282,223622.5,282857.4,2000.0,neutral 9927209123100:nw2c1=7 9927209123153/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209123477:!272091423 9927209141274#trakl#SOURCE_ACQUIRED 9927209142301:preob 9927209142451/onsource/TRACKING 9927209142686/tpical/20485,22757,18586,4660,26530,26277,29206,58311,16518,39539 9927209142706/tpical/9432,10020,11169,32832,20833,5792,7210 9927209142713:!272091433 9927209143301:tape 9927209143310/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927209143310:st=for,135 9927209143321:"data start" 9927209143321:midob 9927209143353/onsource/TRACKING 9927209143355/wx/17.7,984.7,100.0,3.4 9927209143361/cable/+1.0844934E-02 9927209143402/fmout-gps/S 1.8182E-07 9927209143407/ifd/16,19,nor,nor,rem,14884,6241 9927209143413/if3/6,in,2,2,,,present,500.10,rem,lock,35092 9927209143419/vc02/142.99,2.000,u,10,10,rem,lock,20657 9927209143425/vc06/202.89,2.000,u,10,10,rem,lock,23316 9927209143431/vc11/237.99,2.000,u,10,10,rem,lock,9503 9927209143459/tpi/18567,20657,16844,4259,23789,23316,25736,51428,14884,35092 9927209143479/tpi/8060,8523,9503,27492,17479,4915,6241 9927209143480/tsys1/65.7,66.3,65.7,59.9,59.8,53.5,51.6,51.8,62.3,54.8 9927209143481/tsys2/84.5,82.3,83.2,79.6,79.6,78.7,88.1 9927209143481:!272091611 9927209161101:"data stop" 9927209161101:et 9927209161112:!+3s 9927209161414:tape 9927209161423/tape/off,05554,norm,stopped,stop,unlock,ready,rem 9927209161423:postob 9927209161423:source=1745+624,174614.0,622654.7,2000.0,neutral 9927209161501:nw2c1=7 9927209161554/pass/7,7,auto,-165.0,-165.0,-163.8,-164.2,1.2,0.8 9927209161879:!272092001 9927209183829#trakl#SOURCE_ACQUIRED 9927209200101:preob 9927209200201/onsource/TRACKING 9927209200436/tpical/20598,22893,18773,4689,26712,26384,29220,58420,16630,39726 9927209200456/tpical/9514,10087,11160,33123,20826,5803,7236 9927209200463:!272092011 9927209201101:tape 9927209201110/tape/off,05554,norm,stopped,stop,unlock,ready,rem 9927209201110:st=for,135 9927209201121:"data start" 9927209201121:midob 9927209201251/onsource/TRACKING 9927209201253/wx/17.8,984.7,100.0,0.5 9927209201273/cable/+1.0845096E-02 9927209201302/fmout-gps/S 1.8227E-07 9927209201308/ifd/16,19,nor,nor,rem,14960,6268 9927209201314/if3/6,in,2,2,,,present,500.10,rem,lock,35205 9927209201319/vc02/142.99,2.000,u,10,10,rem,lock,20732 9927209201325/vc06/202.89,2.000,u,10,10,rem,lock,23389 9927209201331/vc11/237.99,2.000,u,10,10,rem,lock,9508 9927209201359/tpi/18693,20732,16959,4283,23897,23389,25748,51477,14960,35205 9927209201379/tpi/8142,8585,9508,27723,17489,4928,6268 9927209201381/tsys1/66.6,64.7,63.5,59.6,58.5,53.1,51.6,51.4,61.2,54.1 9927209201381/tsys2/85.4,82.7,83.9,79.4,80.1,79.1,88.6 9927209201381:!272092154 9927209215401:"data stop" 9927209215401:et 9927209215412:!+3s 9927209215714:tape 9927209215722/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927209215723:postob 9927209215723:source=0642+449,064632.0,445116.6,2000.0,cw 9927209215754:nw2c1=7 9927209215807/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209220132:!272092840 9927209263725#trakl#SOURCE_ACQUIRED 9927209284001:preob 9927209284053/onsource/TRACKING 9927209284288/tpical/19471,21846,17754,4472,24791,24673,27358,54286,15668,36898 9927209284308/tpical/9591,10050,11038,32834,20575,5731,7203 9927209284315:!272092850 9927209285001:tape 9927209285011/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927209285011:st=for,135 9927209285022:"data start" 9927209285022:midob 9927209285050/onsource/TRACKING 9927209285052/wx/17.8,985.3,100.0,0.0 9927209285077/cable/+1.0843747E-02 9927209285101/fmout-gps/S 1.8203E-07 9927209285107/ifd/16,19,nor,nor,rem,14007,6213 9927209285113/if3/6,in,2,2,,,present,500.10,rem,lock,32387 9927209285119/vc02/142.99,2.000,u,10,10,rem,lock,19725 9927209285125/vc06/202.89,2.000,u,10,10,rem,lock,21679 9927209285131/vc11/237.99,2.000,u,10,10,rem,lock,9348 9927209285159/tpi/17536,19725,15919,4056,22005,21679,23850,47234,14007,32387 9927209285179/tpi/8190,8501,9348,27397,17200,4840,6213 9927209285181/tsys1/61.4,62.6,58.8,54.3,54.3,49.1,47.3,46.4,57.6,49.9 9927209285181/tsys2/84.2,79.4,80.6,77.9,77.8,76.2,85.8 9927209285181:!272093028 9927209302801:"data stop" 9927209302801:et 9927209302812:!+3s 9927209303114:tape 9927209303123/tape/off,07796,norm,stopped,stop,unlock,ready,rem 9927209303123:postob 9927209303123:source=0804+499,080839.7,495036.5,2000.0,cw 9927209303200:midtp 9927209303437/tpzero/508,709,448,819,333,622,94,314,307,149 9927209303456/tpzero/639,629,624,268,381,492,783 9927209303472/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927209303482/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927209303491/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927209303500/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927209303510/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927209303519/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927209303519:nw2c2=8 9927209303668/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209303994:fastf=0m49s 9927209312174#trakl#SOURCE_ACQUIRED 9927209312922:!272093335 9927209333501:preob 9927209333599/onsource/TRACKING 9927209333834/tpical/18779,21094,17174,4359,24138,24096,26688,53007,15171,35937 9927209333854/tpical/9430,9861,10830,32246,20214,5640,7091 9927209333861:!272093345 9927209334501:tape 9927209334511/tape/off,08885,norm,moving,stop,unlock,ready,rem 9927209334511:st=rev,135 9927209334522:"data start" 9927209334522:midob 9927209334600/onsource/TRACKING 9927209334602/wx/17.8,985.2,100.0,0.0 9927209334633/cable/+1.0845467E-02 9927209334701/fmout-gps/S 1.8180E-07 9927209334707/ifd/16,19,nor,nor,rem,13517,6106 9927209334713/if3/6,in,2,2,,,present,500.10,rem,lock,31469 9927209334719/vc02/142.99,2.000,u,10,10,rem,lock,18960 9927209334725/vc06/202.89,2.000,u,10,10,rem,lock,21105 9927209334731/vc11/237.99,2.000,u,10,10,rem,lock,9161 9927209334759/tpi/16867,18960,15350,3953,21386,21105,23233,46106,13517,31469 9927209334779/tpi/8024,8336,9161,26830,16827,4749,6106 9927209334780/tsys1/59.7,59.7,57.0,53.9,53.4,47.8,46.7,46.3,55.7,48.9 9927209334781/tsys2/82.0,78.9,79.8,76.6,75.8,74.6,84.4 9927209334781:!272093523 9927209352301:"data stop" 9927209352301:et 9927209352312:!+3s 9927209352614:tape 9927209352623/tape/off,07792,norm,stopped,stop,unlock,ready,rem 9927209352623:postob 9927209352623:source=1357+769,135755.4,764321.1,2000.0,neutral 9927209352650:check2c2 9927209360598?ERROR qg -303 Track 11 parity errors exceed threshold. 9927209360598?ERROR qg -305 AUX data differs from expected value on track 11. 9927209360598?ERROR qg -304 Track 11 sync errors exceed threshold. 9927209360598/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927209360598/parity/0,0,0,0,0,335,0,0,0,0,0,0,0,0 9927209362018:nw2c2=8 9927209362071/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209362396:!272093755 9927209374174#trakl#SOURCE_ACQUIRED 9927209375501:preob 9927209375599/onsource/TRACKING 9927209375834/tpical/19045,21391,17514,4408,24662,24481,27155,54100,15411,36595 9927209375854/tpical/9462,9954,10944,32445,20328,5671,7107 9927209375861:!272093805 9927209380501:tape 9927209380511/tape/off,07795,norm,stopped,stop,unlock,ready,rem 9927209380511:st=rev,135 9927209380522:"data start" 9927209380522:midob 9927209380600/onsource/TRACKING 9927209380602/wx/17.8,985.2,100.0,0.0 9927209380625/cable/+1.0845366E-02 9927209380702/fmout-gps/S 1.8195E-07 9927209380708/ifd/16,19,nor,nor,rem,13757,6135 9927209380713/if3/6,in,2,2,,,present,500.10,rem,lock,32110 9927209380719/vc02/142.99,2.000,u,10,10,rem,lock,19217 9927209380725/vc06/202.89,2.000,u,10,10,rem,lock,21503 9927209380731/vc11/237.99,2.000,u,10,10,rem,lock,9286 9927209380759/tpi/17120,19217,15684,4003,21856,21503,23638,47080,13757,32110 9927209380779/tpi/8074,8440,9286,27013,16971,4788,6135 9927209380781/tsys1/60.2,59.4,58.1,54.9,53.5,48.9,46.7,46.5,56.8,49.7 9927209380781/tsys2/83.6,80.5,81.6,76.9,77.1,75.9,86.0 9927209380781:!272093943 9927209394301:"data stop" 9927209394301:et 9927209394312:!+3s 9927209394614:tape 9927209394623/tape/off,06702,norm,stopped,stop,unlock,ready,rem 9927209394623:postob 9927209394623:source=0718+793,072611.7,791131.0,2000.0,neutral 9927209394700:nw2c2=8 9927209394753/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209395079:!272094152 9927209413927#trakl#SOURCE_ACQUIRED 9927209415201:preob 9927209415301/onsource/TRACKING 9927209415537/tpical/18694,20969,17117,4343,24080,23977,26722,53031,15109,35880 9927209415557/tpical/9416,9911,10896,32319,20273,5654,7090 9927209415564:!272094202 9927209420201:tape 9927209420211/tape/off,06702,norm,stopped,stop,unlock,ready,rem 9927209420211:st=rev,135 9927209420222:"data start" 9927209420222:midob 9927209420350/onsource/TRACKING 9927209420352/wx/17.8,985.0,100.0,0.0 9927209420386/cable/+1.0846832E-02 9927209420402/fmout-gps/S 1.8246E-07 9927209420408/ifd/16,19,nor,nor,rem,13421,6111 9927209420414/if3/6,in,2,2,,,present,500.10,rem,lock,31313 9927209420420/vc02/142.99,2.000,u,10,10,rem,lock,18742 9927209420426/vc06/202.89,2.000,u,10,10,rem,lock,20941 9927209420432/vc11/237.99,2.000,u,10,10,rem,lock,9244 9927209420460/tpi/16745,18742,15255,3924,21263,20941,23107,45915,13421,31313 9927209420479/tpi/8052,8402,9244,26891,16916,4765,6111 9927209420481/tsys1/58.1,56.5,55.5,51.7,51.9,46.7,44.4,44.7,54.2,47.6 9927209420482/tsys2/84.8,80.4,81.5,76.6,76.9,75.0,85.0 9927209420482:!272094340 9927209434001:"data stop" 9927209434001:et 9927209434012:!+3s 9927209434314:tape 9927209434323/tape/off,05609,norm,stopped,stop,unlock,ready,rem 9927209434323:postob 9927209434323:source=2356+385,235933.2,385042.3,2000.0,neutral 9927209434400:nw2c2=8 9927209434453/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209434779:!272094739 9927209470175#trakl#SOURCE_ACQUIRED 9927209473901:preob 9927209473955/onsource/TRACKING 9927209474190/tpical/19191,21596,17654,4442,24996,24765,27531,54783,15590,37114 9927209474210/tpical/9339,9866,10914,32031,20283,5643,7060 9927209474217:!272094749 9927209474901:tape 9927209474910/tape/off,05609,norm,stopped,stop,unlock,ready,rem 9927209474910:st=rev,135 9927209474921:"data start" 9927209474921:midob 9927209475050/onsource/TRACKING 9927209475052/wx/17.9,984.9,100.0,5.4 9927209475089/cable/+1.0847413E-02 9927209475102/fmout-gps/S 1.8174E-07 9927209475107/ifd/16,19,nor,nor,rem,13933,6093 9927209475113/if3/6,in,2,2,,,present,500.10,rem,lock,32624 9927209475119/vc02/142.99,2.000,u,10,10,rem,lock,19432 9927209475125/vc06/202.89,2.000,u,10,10,rem,lock,21816 9927209475131/vc11/237.99,2.000,u,10,10,rem,lock,9251 9927209475159/tpi/17281,19432,15828,4032,22215,21816,24016,47806,13933,32624 9927209475179/tpi/7977,8339,9251,26723,16878,4765,6093 9927209475180/tsys1/61.3,60.4,58.8,54.7,54.9,50.2,47.5,47.5,57.4,50.5 9927209475181/tsys2/84.1,78.8,81.0,77.8,75.6,76.0,85.7 9927209475181:!272094927 9927209492701:"data stop" 9927209492701:et 9927209492712:!+3s 9927209493014:tape 9927209493023/tape/off,04516,norm,stopped,stop,unlock,ready,rem 9927209493023:postob 9927209493023:source=0133+476,013658.6,475129.1,2000.0,neutral 9927209493100:nw2c2=8 9927209493153/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209493576:!272095306 9927209514075#trakl#SOURCE_ACQUIRED 9927209530602:preob 9927209530700/onsource/TRACKING 9927209530935/tpical/19373,21763,17828,4476,25215,25070,27918,55379,15757,37531 9927209530955/tpical/9320,9801,10885,31954,20237,5635,7032 9927209530962:!272095316 9927209531601:tape 9927209531611/tape/off,04516,norm,stopped,stop,unlock,ready,rem 9927209531611:st=rev,135 9927209531622:"data start" 9927209531622:midob 9927209531700/onsource/TRACKING 9927209531702/wx/17.8,984.8,100.0,0.0 9927209531706/cable/+1.0848772E-02 9927209531802/fmout-gps/S 1.8131E-07 9927209531808/ifd/16,19,nor,nor,rem,14087,6067 9927209531814/if3/6,in,2,2,,,present,500.10,rem,lock,32969 9927209531820/vc02/142.99,2.000,u,10,10,rem,lock,19560 9927209531826/vc06/202.89,2.000,u,10,10,rem,lock,22056 9927209531832/vc11/237.99,2.000,u,10,10,rem,lock,9231 9927209531860/tpi/17443,19560,15983,4065,22385,22056,24313,48289,14087,32969 9927209531880/tpi/7939,8293,9231,26623,16859,4754,6067 9927209531881/tsys1/61.2,59.7,58.8,55.1,54.4,49.6,46.9,47.2,57.6,50.2 9927209531882/tsys2/82.5,79.3,81.2,77.2,76.1,75.5,85.5 9927209531882:!272095454 9927209545401:"data stop" 9927209545401:et 9927209545412:!+3s 9927209545714:tape 9927209545723/tape/off,03424,norm,stopped,stop,unlock,ready,rem 9927209545723:postob 9927209545723:source=1418+546,141946.6,542314.8,2000.0,neutral 9927209545750:nw2c2=8 9927209545803/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209550130:!272095942 9927209573728;"wx= tunderstorme, nice lighting show 9927209583025#trakl#SOURCE_ACQUIRED 9927209594201:preob 9927209594251/onsource/TRACKING 9927209594486/tpical/21288,23588,19376,4813,27567,27262,30467,60685,17199,41196 9927209594506/tpical/9693,10294,11403,33727,21163,5871,7329 9927209594513:!272095952 9927209595201:tape 9927209595210/tape/off,03424,norm,stopped,stop,unlock,ready,rem 9927209595211:st=rev,135 9927209595222:"data start" 9927209595222:midob 9927209595250/onsource/TRACKING 9927209595252/wx/18.0,984.7,100.0,2.4 9927209595270/cable/+1.0843810E-02 9927209595302/fmout-gps/S 1.8215E-07 9927209595308/ifd/16,19,nor,nor,rem,15525,6357 9927209595314/if3/6,in,2,2,,,present,500.10,rem,lock,36682 9927209595320/vc02/142.99,2.000,u,10,10,rem,lock,21389 9927209595326/vc06/202.89,2.000,u,10,10,rem,lock,24338 9927209595332/vc11/237.99,2.000,u,10,10,rem,lock,9663 9927209595374/tpi/19324,21389,17521,4403,24808,24338,26970,53715,15525,36682 9927209595421/tpi/8263,8716,9663,28178,17790,4996,6358 9927209595423/tsys1/66.9,65.6,64.2,61.0,61.9,56.6,53.6,53.5,63.5,56.5 9927209595423/tsys2/83.2,80.0,81.1,78.5,80.6,80.4,89.6 9927209595424:!272100140 9927210014001:"data stop" 9927210014001:et 9927210014011:!+3s 9927210014313:tape 9927210014322/tape/off,02218,norm,stopped,stop,unlock,ready,rem 9927210014322:postob 9927210014322:source=3c418,203837.0,511912.7,2000.0,neutral 9927210014451:nw2c2=8 9927210014504/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927210014829:!272100719 9927210040074#trakl#SOURCE_ACQUIRED 9927210071901:preob 9927210072051/onsource/TRACKING 9927210072286/tpical/26121,29054,24290,5879,34702,34540,38798,$$$$$,21574,52438 9927210072306/tpical/10011,10650,11756,34590,21903,6079,7546 9927210072313:!272100729 9927210072901:tape 9927210072909/tape/off,02218,norm,stopped,stop,unlock,ready,rem 9927210072910:st=rev,135 9927210072921:"data start" 9927210072921:midob 9927210073054/onsource/TRACKING 9927210073056/wx/18.1,985.0,100.0,0.0 9927210073062/cable/+1.0846273E-02 9927210073102/fmout-gps/S 1.8236E-07 9927210073108/ifd/16,19,nor,nor,rem,19915,6602 9927210073114/if3/6,in,2,2,,,present,500.10,rem,lock,47989 9927210073120/vc02/142.99,2.000,u,10,10,rem,lock,26933 9927210073126/vc06/202.89,2.000,u,10,10,rem,lock,31662 9927210073132/vc11/237.99,2.000,u,10,10,rem,lock,10145 9927210073159/tpi/24210,26933,22492,5479,32045,31662,35393,$$$$$,19915,47989 9927210073179/tpi/8657,9159,10145,29405,18586,5215,6602 9927210073181?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210073181/tsys1/86.6,86.3,85.6,81.3,83.3,75.3,72.4,$$$$$$$$,82.5,75.1 9927210073181/tsys2/92.4,89.3,92.3,87.7,85.7,85.3,96.2 9927210073182:!272100907 9927210090702:"data stop" 9927210090702:et 9927210090713:!+3s 9927210091015:tape 9927210091024/tape/off,01125,norm,stopped,stop,unlock,ready,rem 9927210091024:postob 9927210091024:source=1014+615,101725.9,611627.5,2000.0,cw 9927210091055:midtp 9927210091290/tpzero/508,706,452,820,324,618,96,315,311,150 9927210091310/tpzero/640,624,621,266,376,490,770 9927210091326/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927210091335/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927210091345/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927210091354/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927210091363/rx/1E(20k),on,a,on,on,on,off,locked,27.73 9927210091372/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927210091373:nw2c1=9 9927210091522/pass/9,9,auto,-110.0,-110.0,-109.9,-111.4,0.1,-1.4 9927210091848:fastr=0m47s 9927210100577:!272101242 9927210121783#trakl#SOURCE_ACQUIRED 9927210124201:preob 9927210124253/onsource/TRACKING 9927210124488/tpical/20768,23331,19265,4806,27450,27390,30684,60928,17038,41173 9927210124508/tpical/9456,9916,10936,32492,20433,5682,7123 9927210124515:!272101252 9927210125201:tape 9927210125211/tape/low,00081,norm,stopped,stop,unlock,ready,rem 9927210125211:st=for,135 9927210125222:"data start" 9927210125222:midob 9927210125250/onsource/TRACKING 9927210125252/wx/18.1,984.7,100.0,0.0 9927210125282/cable/+1.0844749E-02 9927210125302/fmout-gps/S 1.8219E-07 9927210125308/ifd/16,19,nor,nor,rem,15292,6137 9927210125314/if3/6,in,2,2,,,present,500.10,rem,lock,36435 9927210125320/vc02/142.99,2.000,u,10,10,rem,lock,21026 9927210125325/vc06/202.89,2.000,u,10,10,rem,lock,24293 9927210125331/vc11/237.99,2.000,u,10,10,rem,lock,9267 9927210125359/tpi/18762,21026,17341,4375,24550,24293,27016,53684,15292,36435 9927210125379/tpi/8046,8389,9267,27047,16981,4780,6137 9927210125381/tsys1/63.5,61.5,61.3,57.6,58.3,53.4,51.2,51.4,59.9,53.5 9927210125381/tsys2/82.0,79.4,80.9,76.8,75.1,74.2,85.0 9927210125381:!272101528 9927210152801:"data stop" 9927210152801:et 9927210152812:!+3s 9927210153115:tape 9927210153124/tape/off,01826,norm,stopped,stop,unlock,ready,rem 9927210153124:postob 9927210153124:source=0059+581,010245.8,582411.1,2000.0,neutral 9927210153149:check2c1 9927210155664;"wx= tunderstorme and lots of rain 9927210161092?ERROR qg -303 Track 11 parity errors exceed threshold. 9927210161092?ERROR qg -305 AUX data differs from expected value on track 11. 9927210161092?ERROR qg -304 Track 11 sync errors exceed threshold. 9927210161092/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927210161092/parity/0,0,0,0,0,359,0,0,0,0,0,0,0,0 9927210162517:nw2c1=9 9927210162570/pass/9,9,auto,-110.0,-110.0,-109.9,-111.4,0.1,-1.4 9927210162915:!272102328 9927210190275#trakl#SOURCE_ACQUIRED 9927210232801:preob 9927210232853/onsource/TRACKING 9927210233089/tpical/20998,23557,19431,4858,27856,27807,31193,61926,17235,41779 9927210233109/tpical/9414,9929,10971,32439,20453,5686,7108 9927210233116:!272102338 9927210233801:tape 9927210233810/tape/off,01820,norm,stopped,stop,unlock,ready,rem 9927210233811:st=for,135 9927210233821:"data start" 9927210233821:midob 9927210233951/onsource/TRACKING 9927210233953/wx/18.2,984.7,100.0,1.0 9927210233974/cable/+1.0848162E-02 9927210234002/fmout-gps/S 1.8195E-07 9927210234008/ifd/16,19,nor,nor,rem,15283,6132 9927210234021/if3/6,in,2,2,,,present,500.10,rem,lock,36552 9927210234033/vc02/142.99,2.000,u,10,10,rem,lock,21050 9927210234045/vc06/202.89,2.000,u,10,10,rem,lock,24340 9927210234057/vc11/237.99,2.000,u,10,10,rem,lock,9303 9927210234130/tpi/18744,21050,17303,4377,24616,24474,27273,54133,15354,36717 9927210234150/tpi/8032,8412,9305,27007,17066,4799,6134 9927210234152/tsys1/56.5,56.6,55.3,51.6,52.3,50.0,48.4,48.2,55.8,50.4 9927210234152/tsys2/83.5,80.1,81.4,76.8,76.9,75.8,86.0 9927210234152:!272102516 9927210251601:"data stop" 9927210251601:et 9927210251612:!+3s 9927210251914:tape 9927210251923/tape/off,02913,norm,stopped,stop,unlock,ready,rem 9927210251923:postob 9927210251923:source=0119+115,012141.6,114950.4,2000.0,neutral 9927210252002:nw2c1=9 9927210252066/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210252392:!272102803 9927210274674#trakl#SOURCE_ACQUIRED 9927210280301:preob 9927210280399/onsource/TRACKING 9927210280634/tpical/37557,42357,36218,8533,51514,51919,59202,$$$$$,32364,65535 9927210280654/tpical/9645,10135,11267,33157,20923,5822,7259 9927210280661:!272102813 9927210281301:tape 9927210281310/tape/off,02913,norm,stopped,stop,unlock,ready,rem 9927210281311:st=for,135 9927210281322:"data start" 9927210281322:midob 9927210281452/onsource/TRACKING 9927210281454/wx/18.1,984.7,100.0,4.7 9927210281476/cable/+1.0846514E-02 9927210281501/fmout-gps/S 1.8232E-07 9927210281507/ifd/16,19,nor,nor,rem,32663,6329 9927210281513/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210281519/vc02/142.99,2.000,u,10,10,rem,lock,42756 9927210281525/vc06/202.89,2.000,u,10,10,rem,lock,52044 9927210281531/vc11/237.99,2.000,u,10,10,rem,lock,9684 9927210281559/tpi/37819,42756,36653,8594,51881,52044,59127,$$$$$,32663,65535 9927210281579/tpi/8292,8680,9684,27983,17713,4980,6329 9927210281580?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v3 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device i1 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210281580/tsys1/-994.0,-735.6,-580.9,-889.5,-980.6,-2871.6,5493.8,$$$$$$$$,-755.2,$$$$$$$$ 9927210281581/tsys2/88.3,86.4,89.4,83.6,84.3,83.2,93.3 9927210281581:!272102951 9927210295106:"data stop" 9927210295106:et 9927210295123:!+3s 9927210295426:tape 9927210295435/tape/off,04007,norm,stopped,stop,unlock,ready,rem 9927210295435:postob 9927210295435:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927210295600:nw2c1=9 9927210295653/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210295979:!272103135 9927210313425#trakl#SOURCE_ACQUIRED 9927210313501:preob 9927210313600/onsource/TRACKING 9927210313835/tpical/33508,37444,31702,7553,45593,45783,51827,$$$$$,28365,65535 9927210313855/tpical/9705,10270,11533,33960,21577,6003,7406 9927210313862:!272103145 9927210314501:tape 9927210314509/tape/off,04007,norm,stopped,stop,unlock,ready,rem 9927210314510:st=for,135 9927210314520:"data start" 9927210314520:midob 9927210314651/onsource/TRACKING 9927210314653/wx/18.1,984.4,100.0,10.1 9927210314682/cable/+1.0846655E-02 9927210314702/fmout-gps/S 1.8102E-07 9927210314708/ifd/16,19,nor,nor,rem,26799,6296 9927210314714/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210314720/vc02/142.99,2.000,u,10,10,rem,lock,35384 9927210314726/vc06/202.89,2.000,u,10,10,rem,lock,43083 9927210314731/vc11/237.99,2.000,u,10,10,rem,lock,9633 9927210314759/tpi/31685,35384,30010,7174,43131,43083,48621,$$$$$,26799,65535 9927210314779/tpi/8142,8552,9633,27890,17771,4996,6296 9927210314781?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210314781?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210314781/tsys1/119.4,117.5,121.9,117.0,121.4,109.8,105.6,$$$$$$$$,118.1,$$$$$$$$ 9927210314781/tsys2/74.9,72.0,74.0,71.0,71.3,69.8,77.7 9927210314782:!272103323 9927210332301:"data stop" 9927210332301:et 9927210332312:!+3s 9927210332614:tape 9927210332622/tape/off,05100,norm,stopped,stop,unlock,ready,rem 9927210332623:postob 9927210332623:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927210332654:nw2c1=9 9927210332707/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210333032:!272103648 9927210363475#trakl#SOURCE_ACQUIRED 9927210364801:preob 9927210364949/onsource/TRACKING 9927210365184/tpical/59388,$$$$$,57941,13675,$$$$$,$$$$$,$$$$$,$$$$$,52823,65535 9927210365204/tpical/9764,10351,11538,34000,21614,6021,7428 9927210365211:!272103658 9927210365801:tape 9927210365811/tape/off,05100,norm,stopped,stop,unlock,ready,rem 9927210365811:st=for,135 9927210365822:"data start" 9927210365822:midob 9927210365900/onsource/TRACKING 9927210365902/wx/18.2,984.4,100.0,6.5 9927210365930/cable/+1.0845458E-02 9927210370002/fmout-gps/S 1.8187E-07 9927210370007/ifd/16,19,nor,nor,rem,50278,6437 9927210370013/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210370019/vc02/142.99,2.000,u,10,10,rem,lock,64205 9927210370025/vc06/202.89,2.000,u,10,10,rem,lock,65535 9927210370031/vc11/237.99,2.000,u,10,10,rem,lock,9855 9927210370059/tpi/56607,64205,55348,13030,$$$$$,$$$$$,$$$$$,$$$$$,50278,65535 9927210370079/tpi/8367,8813,9855,28569,18189,5111,6437 9927210370080?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210370080/tsys1/140.8,$$$$$$$$,147.8,132.1,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,137.0,$$$$$$$$ 9927210370081/tsys2/86.3,83.1,85.6,81.3,81.2,79.3,89.3 9927210370081:!272103836 9927210383601:"data stop" 9927210383601:et 9927210383612:!+3s 9927210383914:tape 9927210383923/tape/off,06193,norm,stopped,stop,unlock,ready,rem 9927210383923:postob 9927210383923:source=1308+326,131028.7,322043.8,2000.0,ccw 9927210383950:nw2c1=9 9927210384004/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210384329:!272104335 9927210423375#trakl#SOURCE_ACQUIRED 9927210433501:preob 9927210433553/onsource/TRACKING 9927210433788/tpical/$$$$$,$$$$$,64412,15177,$$$$$,$$$$$,$$$$$,$$$$$,59147,65535 9927210433808/tpical/10515,11158,12343,37060,23308,6447,8010 9927210433815:!272104345 9927210434501:tape 9927210434511/tape/off,06193,norm,stopped,stop,unlock,ready,rem 9927210434511:st=for,135 9927210434522:"data start" 9927210434522:midob 9927210434600/onsource/TRACKING 9927210434602/wx/18.2,984.4,100.0,0.4 9927210434609/cable/+1.0844009E-02 9927210434701/fmout-gps/S 1.8232E-07 9927210434707/ifd/16,19,nor,nor,rem,58469,7037 9927210434713/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210434719/vc02/142.99,2.000,u,10,10,rem,lock,65535 9927210434725/vc06/202.89,2.000,u,10,10,rem,lock,65535 9927210434731/vc11/237.99,2.000,u,10,10,rem,lock,10695 9927210434759/tpi/$$$$$,$$$$$,63673,14986,$$$$$,$$$$$,$$$$$,$$$$$,58469,65535 9927210434779/tpi/9136,9654,10695,31740,19937,5574,7037 9927210434780?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210434780/tsys1/$$$$$$$$,$$$$$$$$,597.1,517.7,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,598.7,$$$$$$$$ 9927210434781/tsys2/96.2,93.7,95.4,92.4,90.6,90.9,100.5 9927210434781:!272104523 9927210452301:"data stop" 9927210452301:et 9927210452312:!+3s 9927210452614:tape 9927210452622/tape/off,07286,norm,stopped,stop,unlock,ready,rem 9927210452623:postob 9927210452623:source=1156+295,115931.8,291443.8,2000.0,ccw 9927210452650:midtp 9927210452885/tpzero/503,708,452,817,341,623,85,305,307,149 9927210452905/tpzero/632,625,622,271,383,491,778 9927210452921/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927210452930/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927210452940/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927210452949/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927210452958/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927210452967/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927210452968:nw2c2=10 9927210453132/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927210453457:fastf=1m12s 9927210462675#trakl#SOURCE_ACQUIRED 9927210464685:!272104855 9927210485501:preob 9927210485649/onsource/TRACKING 9927210485884/tpical/24658,27313,22760,5663,32662,32491,36427,$$$$$,20270,49178 9927210485904/tpical/9835,10402,11440,34026,21373,5941,7409 9927210485911:!272104905 9927210490501:tape 9927210490510/tape/off,08892,norm,stopped,stop,unlock,ready,rem 9927210490511:st=rev,135 9927210490521:"data start" 9927210490521:midob 9927210490550/onsource/TRACKING 9927210490552/wx/18.1,984.4,100.0,3.0 9927210490577/cable/+1.0844365E-02 9927210490602/fmout-gps/S 1.8139E-07 9927210490608/ifd/16,19,nor,nor,rem,18686,6417 9927210490614/if3/6,in,2,2,,,present,500.10,rem,lock,44865 9927210490620/vc02/142.99,2.000,u,10,10,rem,lock,25312 9927210490626/vc06/202.89,2.000,u,10,10,rem,lock,29646 9927210490632/vc11/237.99,2.000,u,10,10,rem,lock,9751 9927210490660/tpi/22860,25312,21071,5267,30064,29646,33054,$$$$$,18686,44865 9927210490680/tpi/8408,8842,9751,28544,17955,5045,6417 9927210490681?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210490681/tsys1/86.8,85.8,85.2,78.4,79.9,71.2,68.2,$$$$$$$$,81.0,72.4 9927210490682/tsys2/85.1,82.2,84.4,80.5,80.3,79.3,88.7 9927210490682:!272105219 9927210521902:"data stop" 9927210521903:et 9927210521914:!+3s 9927210522216:tape 9927210522225/tape/off,06719,norm,stopped,stop,unlock,ready,rem 9927210522225:postob 9927210522225:source=0552+398,055530.8,394849.2,2000.0,neutral 9927210522300:check2c2 9927210530243?ERROR qg -303 Track 11 parity errors exceed threshold. 9927210530243?ERROR qg -304 Track 11 sync errors exceed threshold. 9927210530243/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927210530243/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927210531668:nw2c2=10 9927210531722/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927210532047:!272105934 9927210575474#trakl#SOURCE_ACQUIRED 9927210593401:preob 9927210593501/onsource/TRACKING 9927210593736/tpical/20432,23033,18939,4807,26948,26837,29876,59104,16795,40219 9927210593756/tpical/9544,10051,11403,33573,21265,5907,7329 9927210593763:!272105944 9927210594401:tape 9927210594410/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927210594411:st=rev,135 9927210594421:"data start" 9927210594421:midob 9927210594550/onsource/TRACKING 9927210594552/wx/18.1,984.0,100.0,1.9 9927210594585/cable/+1.0848466E-02 9927210594601/fmout-gps/S 1.8107E-07 9927210594607/ifd/16,19,nor,nor,rem,15072,6355 9927210594613/if3/6,in,2,2,,,present,500.10,rem,lock,35576 9927210594619/vc02/142.99,2.000,u,10,10,rem,lock,20773 9927210594625/vc06/202.89,2.000,u,10,10,rem,lock,23795 9927210594631/vc11/237.99,2.000,u,10,10,rem,lock,9739 9927210594659/tpi/18486,20773,17048,4375,24035,23795,26299,51971,15072,35576 9927210594679/tpi/8187,8566,9739,28190,17892,5018,6355 9927210594680/tsys1/64.5,62.0,61.3,57.5,56.8,53.2,51.2,50.6,59.8,53.3 9927210594681/tsys2/86.9,83.5,85.5,81.0,81.0,79.5,89.4 9927210594681:!272110122 9927211012201:"data stop" 9927211012201:et 9927211012212:!+3s 9927211012514:tape 9927211012523/tape/off,05630,norm,stopped,stop,unlock,ready,rem 9927211012523:postob 9927211012523:source=0528+134,053056.4,133155.2,2000.0,neutral 9927211012600:nw2c2=10 9927211012664/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211012990:!272110424 9927211030625#trakl#SOURCE_ACQUIRED 9927211042401:preob 9927211042499/onsource/TRACKING 9927211042734/tpical/19388,21822,17987,4594,25658,25578,28500,56579,15921,38242 9927211042754/tpical/9360,9794,11005,32425,20489,5715,7115 9927211042761:!272110434 9927211043401:tape 9927211043410/tape/off,05630,norm,stopped,stop,unlock,ready,rem 9927211043411:st=rev,135 9927211043422:"data start" 9927211043422:midob 9927211043500/onsource/TRACKING 9927211043502/wx/18.2,984.1,100.0,2.9 9927211043529/cable/+1.0849565E-02 9927211043601/fmout-gps/S 1.8178E-07 9927211043607/ifd/16,19,nor,nor,rem,14172,6139 9927211043613/if3/6,in,2,2,,,present,500.10,rem,lock,33512 9927211043619/vc02/142.99,2.000,u,10,10,rem,lock,19545 9927211043625/vc06/202.89,2.000,u,10,10,rem,lock,22459 9927211043631/vc11/237.99,2.000,u,10,10,rem,lock,9343 9927211043659/tpi/17361,19545,16078,4153,22709,22459,24771,49154,14172,33512 9927211043679/tpi/7990,8314,9343,27049,17132,4826,6139 9927211043680/tsys1/58.1,57.7,57.1,52.8,52.9,48.9,46.2,45.9,55.3,49.2 9927211043681/tsys2/83.8,81.1,81.9,77.8,77.9,76.1,85.7 9927211043681:!272110612 9927211061201:"data stop" 9927211061201:et 9927211061212:!+3s 9927211061514:tape 9927211061523/tape/off,04537,norm,stopped,stop,unlock,ready,rem 9927211061523:postob 9927211061523:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927211061550:nw2c2=10 9927211061603/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211061932:!272111057 9927211072474#trakl#SOURCE_ACQUIRED 9927211105701:preob 9927211105799/onsource/TRACKING 9927211110034/tpical/19469,21997,18127,4608,25810,25671,28554,56687,16005,38407 9927211110054/tpical/9320,9777,10966,32269,20435,5679,7100 9927211110061:!272111107 9927211110701:tape 9927211110710/tape/off,04537,norm,stopped,stop,unlock,ready,rem 9927211110711:st=rev,135 9927211110721:"data start" 9927211110721:midob 9927211110802/onsource/TRACKING 9927211110804/wx/18.3,984.0,100.0,4.8 9927211110851/cable/+1.0847799E-02 9927211110906/fmout-gps/S 1.8225E-07 9927211110912/ifd/16,19,nor,nor,rem,14453,6132 9927211110918/if3/6,in,2,2,,,present,500.10,rem,lock,34167 9927211110923/vc02/142.99,2.000,u,10,10,rem,lock,19946 9927211110929/vc06/202.89,2.000,u,10,10,rem,lock,22842 9927211110935/vc11/237.99,2.000,u,10,10,rem,lock,9313 9927211110963/tpi/17719,19946,16417,4231,23194,22842,25218,50131,14453,34167 9927211110983/tpi/7956,8287,9313,26914,17049,4806,6132 9927211110985/tsys1/68.7,65.5,65.2,63.2,61.0,54.8,52.6,53.0,63.6,56.0 9927211110985/tsys2/83.8,80.3,82.1,77.7,76.8,77.2,86.3 9927211110985:!272111245 9927211124501:"data stop" 9927211124501:et 9927211124512:!+3s 9927211124814:tape 9927211124823/tape/off,03444,norm,stopped,stop,unlock,ready,rem 9927211124823:postob 9927211124823:source=1745+624,174614.0,622654.7,2000.0,neutral 9927211124850:nw2c2=10 9927211124903/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211125228:!272111924 9927211180804;"wx= rain as stop, sill overcast and calm 9927211182975#trakl#SOURCE_ACQUIRED 9927211192401:preob 9927211192549/onsource/TRACKING 9927211192784/tpical/23087,25490,21176,5286,30230,29919,33429,$$$$$,18825,45280 9927211192804/tpical/9608,10178,11336,33791,21352,5926,7374 9927211192811:!272111934 9927211193401:tape 9927211193411/tape/off,03444,norm,stopped,stop,unlock,ready,rem 9927211193411:st=rev,135 9927211193422:"data start" 9927211193422:midob 9927211193450/onsource/TRACKING 9927211193452/wx/18.3,984.2,100.0,0.0 9927211193458/cable/+1.0845348E-02 9927211193502/fmout-gps/S 1.8168E-07 9927211193508/ifd/16,19,nor,nor,rem,16876,6379 9927211193514/if3/6,in,2,2,,,present,500.10,rem,lock,40062 9927211193520/vc02/142.99,2.000,u,10,10,rem,lock,23029 9927211193526/vc06/202.89,2.000,u,10,10,rem,lock,26533 9927211193532/vc11/237.99,2.000,u,10,10,rem,lock,9674 9927211193560/tpi/20842,23029,19052,4792,27024,26533,29426,58616,16876,40062 9927211193580/tpi/8220,8671,9674,28286,17883,5032,6379 9927211193581?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927211193581/tsys1/63.2,63.3,61.1,56.2,58.1,53.4,51.2,$$$$$$$$,59.3,53.4 9927211193582/tsys2/85.3,83.3,85.0,79.4,78.7,79.3,87.9 9927211193582:!272112223 9927211222301:"data stop" 9927211222301:et 9927211222312:!+3s 9927211222614:tape 9927211222623/tape/off,01552,norm,stopped,stop,unlock,ready,rem 9927211222623:postob 9927211222623:source=3c274,123049.4,122328.1,2000.0,cw 9927211222700:nw2c2=10 9927211222753/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211223096:!272112545 9927211252725#trakl#SOURCE_ACQUIRED 9927211254501:preob 9927211254649/onsource/TRACKING 9927211254884/tpical/47594,52996,45178,10508,61726,61918,$$$$$,$$$$$,40517,65535 9927211254904/tpical/14490,15460,17353,53234,33100,9052,10972 9927211254911:!272112555 9927211255502:tape 9927211255511/tape/off,01552,norm,stopped,stop,unlock,ready,rem 9927211255511:st=rev,135 9927211255522:"data start" 9927211255522:midob 9927211255650/onsource/TRACKING 9927211255652/wx/18.4,984.2,100.0,0.0 9927211255689/cable/+1.0843402E-02 9927211255702/fmout-gps/S 1.8170E-07 9927211255708/ifd/16,19,nor,nor,rem,40293,10026 9927211255714/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927211255720/vc02/142.99,2.000,u,10,10,rem,lock,52793 9927211255726/vc06/202.89,2.000,u,10,10,rem,lock,61332 9927211255731/vc11/237.99,2.000,u,10,10,rem,lock,15730 9927211255759/tpi/47397,52793,44981,10446,61312,61332,$$$$$,$$$$$,40293,65535 9927211255780/tpi/13090,13930,15730,48130,29843,8227,10026 9927211255782?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927211255782?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927211255782?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927211255782/tsys1/1661.5,1790.9,1577.7,1084.0,1028.0,723.1,$$$$$$$$,$$$$$$$$,1246.0,$$$$$$$$ 9927211255782/tsys2/138.9,135.7,145.3,146.4,141.2,146.4,152.6 9927211255782:!272112733 9927211273301:"data stop" 9927211273301:et 9927211273312:!+3s 9927211273614:tape 9927211273623/tape/off,00459,norm,stopped,stop,unlock,ready,rem 9927211273623:postob 9927211273623:source=1101+384,110427.3,381231.8,2000.0,cw 9927211273700:midtp 9927211273936/tpzero/509,709,449,819,324,622,90,312,304,150 9927211273983/tpzero/638,623,624,270,377,494,787 9927211274026/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927211274056/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927211274071/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927211274080/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927211274089/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927211274098/rx/1F(70k),on,a,on,on,on,off,locked,53.49 9927211274098:nw2c1=11 9927211274258/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211274584:fastr=0m17s 9927211280313:!272113109 9927211304375#trakl#SOURCE_ACQUIRED 9927211310901:preob 9927211310999/onsource/TRACKING 9927211311235/tpical/19514,21836,17965,4546,25330,25146,27984,55675,15837,37727 9927211311254/tpical/9618,10073,11036,32937,20608,5747,7210 9927211311261:!272113119 9927211311901:tape 9927211311910/tape/low,00090,norm,stopped,stop,unlock,ready,rem 9927211311910:st=for,135 9927211311921:"data start" 9927211311921:midob 9927211312000/onsource/TRACKING 9927211312002/wx/18.4,984.2,100.0,0.0 9927211312018/cable/+1.0844943E-02 9927211312101/fmout-gps/S 1.8260E-07 9927211312107/ifd/16,19,nor,nor,rem,14030,6207 9927211312113/if3/6,in,2,2,,,present,500.10,rem,lock,32884 9927211312119/vc02/142.99,2.000,u,10,10,rem,lock,19467 9927211312125/vc06/202.89,2.000,u,10,10,rem,lock,21961 9927211312131/vc11/237.99,2.000,u,10,10,rem,lock,9357 9927211312159/tpi/17422,19467,15999,4096,22320,21961,24221,48224,14030,32884 9927211312179/tpi/8195,8525,9357,27327,17170,4839,6207 9927211312181/tsys1/56.4,55.3,55.2,50.8,51.0,46.8,44.8,44.9,53.0,47.2 9927211312181/tsys2/82.9,79.7,81.2,75.3,76.2,74.7,84.4 9927211312181:!272113257 9927211325701:"data stop" 9927211325701:et 9927211325712:!+3s 9927211330014:tape 9927211330023/tape/off,01183,norm,stopped,stop,unlock,ready,rem 9927211330023:postob 9927211330023:source=0059+581,010245.8,582411.1,2000.0,neutral 9927211330050:check2c1 9927211333995?ERROR qg -303 Track 11 parity errors exceed threshold. 9927211333995?ERROR qg -305 AUX data differs from expected value on track 11. 9927211333995?ERROR qg -304 Track 11 sync errors exceed threshold. 9927211333995/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927211333995/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927211335419:nw2c1=11 9927211335483/pass/11,11,auto,-55.0,-55.0,-56.0,-54.2,-1.0,0.8 9927211335809:!272114044 9927211373175#trakl#SOURCE_ACQUIRED 9927211404401:preob 9927211404501/onsource/TRACKING 9927211404736/tpical/19013,21309,17510,4454,24835,24668,27482,54668,15449,36980 9927211404756/tpical/9442,9941,10967,32517,20463,5706,7119 9927211404763:!272114054 9927211405401:tape 9927211405410/tape/off,01178,norm,moving,stop,unlock,ready,rem 9927211405411:st=for,135 9927211405422:"data start" 9927211405422:midob 9927211405550/onsource/TRACKING 9927211405552/wx/18.6,983.9,100.0,6.5 9927211405581/cable/+1.0849028E-02 9927211405602/fmout-gps/S 1.8139E-07 9927211405607/ifd/16,19,nor,nor,rem,13774,6145 9927211405613/if3/6,in,2,2,,,present,500.10,rem,lock,32421 9927211405619/vc02/142.99,2.000,u,10,10,rem,lock,19112 9927211405625/vc06/202.89,2.000,u,10,10,rem,lock,21657 9927211405631/vc11/237.99,2.000,u,10,10,rem,lock,9306 9927211405659/tpi/17102,19112,15667,4029,22009,21657,23929,47625,13774,32421 9927211405679/tpi/8065,8420,9306,27093,17080,4812,6145 9927211405681/tsys1/60.6,58.5,57.6,52.7,53.6,48.8,46.8,46.9,56.1,49.4 9927211405681/tsys2/84.2,80.0,81.6,77.2,77.1,75.4,85.9 9927211405681:!272114232 9927211423201:"data stop" 9927211423201:et 9927211423212:!+3s 9927211423514:tape 9927211423523/tape/off,02271,norm,stopped,stop,unlock,ready,rem 9927211423523:postob 9927211423523:source=1308+326,131028.7,322043.8,2000.0,cw 9927211423650:nw2c1=11 9927211423703/pass/11,11,auto,-55.0,-55.0,-56.0,-54.2,-1.0,0.8 9927211424030:!272114708 9927211463324#trakl#SOURCE_ACQUIRED 9927211470801:preob 9927211470899/onsource/TRACKING 9927211471134/tpical/20523,22714,18690,4708,26508,26261,29221,58301,16569,39573 9927211471154/tpical/9777,10308,11311,33415,21004,5846,7330 9927211471161:!272114718 9927211471801:tape 9927211471809/tape/off,02271,norm,stopped,stop,unlock,ready,rem 9927211471810:st=for,135 9927211471820:"data start" 9927211471820:midob 9927211471853/onsource/TRACKING 9927211471855/wx/18.7,983.9,100.0,0.0 9927211471886/cable/+1.0845783E-02 9927211471903/fmout-gps/S 1.8160E-07 9927211471909/ifd/16,19,nor,nor,rem,14888,6347 9927211471915/if3/6,in,2,2,,,present,500.10,rem,lock,35041 9927211471921/vc02/142.99,2.000,u,10,10,rem,lock,20517 9927211471927/vc06/202.89,2.000,u,10,10,rem,lock,23285 9927211471933/vc11/237.99,2.000,u,10,10,rem,lock,9629 9927211471961/tpi/18582,20517,16867,4293,23743,23285,25707,51345,14888,35041 9927211471981/tpi/8369,8749,9629,27997,17618,4954,6347 9927211471982/tsys1/65.0,62.9,62.9,58.4,59.1,53.2,50.9,51.2,60.6,53.7 9927211471983/tsys2/85.7,81.4,83.6,79.9,79.5,78.0,88.3 9927211471983:!272114856 9927211485601:"data stop" 9927211485601:et 9927211485612:!+3s 9927211485914:tape 9927211485923/tape/off,03364,norm,stopped,stop,unlock,ready,rem 9927211485923:postob 9927211485923:source=1014+615,101725.9,611627.5,2000.0,cw 9927211485952:nw2c1=11 9927211490005/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211490332:!272115335 9927211523524#trakl#SOURCE_ACQUIRED 9927211533501:preob 9927211533599/onsource/TRACKING 9927211533834/tpical/18794,21034,17287,4416,24444,24380,27155,53847,15256,36480 9927211533854/tpical/9510,9958,10872,32282,20283,5635,7120 9927211533861:!272115345 9927211534501:tape 9927211534510/tape/off,03364,norm,stopped,stop,unlock,ready,rem 9927211534510:st=for,135 9927211534521:"data start" 9927211534521:midob 9927211534651/onsource/TRACKING 9927211534653/wx/18.7,983.9,100.0,0.0 9927211534657/cable/+1.0848673E-02 9927211534701/fmout-gps/S 1.8064E-07 9927211534707/ifd/16,19,nor,nor,rem,13586,6126 9927211534713/if3/6,in,2,2,,,present,500.10,rem,lock,31940 9927211534719/vc02/142.99,2.000,u,10,10,rem,lock,18874 9927211534725/vc06/202.89,2.000,u,10,10,rem,lock,21354 9927211534731/vc11/237.99,2.000,u,10,10,rem,lock,9195 9927211534759/tpi/16900,18874,15438,3992,21646,21354,23520,46821,13586,31940 9927211534779/tpi/8097,8414,9195,26808,16854,4755,6126 9927211534780/tsys1/60.4,58.7,56.6,52.2,53.2,47.8,45.0,46.2,55.5,48.9 9927211534781/tsys2/82.4,78.8,79.8,75.7,75.0,75.6,83.8 9927211534781:!272115621 9927211545341;"wx=overcast and calm 9927211562101:"data stop" 9927211562101:et 9927211562112:!+3s 9927211562414:tape 9927211562423/tape/off,05110,norm,stopped,stop,unlock,ready,rem 9927211562423:postob 9927211562423:source=0133+476,013658.6,475129.1,2000.0,neutral 9927211562450:nw2c1=11 9927211562502/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211562828:!272120033 9927212001325#trakl#SOURCE_ACQUIRED 9927212003301:preob 9927212003401/onsource/TRACKING 9927212003636/tpical/19213,21575,17779,4511,25245,25136,27925,55551,15676,37578 9927212003656/tpical/9524,10025,11022,32686,20586,5741,7169 9927212003663:!272120043 9927212004301:tape 9927212004309/tape/off,05110,norm,stopped,stop,unlock,ready,rem 9927212004310:st=for,135 9927212004321:"data start" 9927212004321:midob 9927212004399/onsource/TRACKING 9927212004401/wx/18.8,983.9,100.0,4.4 9927212004417/cable/+1.0849120E-02 9927212004502/fmout-gps/S 1.8248E-07 9927212004507/ifd/16,19,nor,nor,rem,13972,6184 9927212004513/if3/6,in,2,2,,,present,500.10,rem,lock,32961 9927212004519/vc02/142.99,2.000,u,10,10,rem,lock,19332 9927212004525/vc06/202.89,2.000,u,10,10,rem,lock,22060 9927212004531/vc11/237.99,2.000,u,10,10,rem,lock,9351 9927212004559/tpi/17262,19332,15874,4088,22400,22060,24319,48365,13972,32961 9927212004579/tpi/8132,8492,9351,27261,17215,4852,6184 9927212004581/tsys1/59.9,58.0,56.5,53.9,54.2,48.6,46.9,46.7,56.0,49.6 9927212004581/tsys2/84.0,80.1,81.5,77.7,78.0,76.5,85.5 9927212004581:!272120221 9927212022101:"data stop" 9927212022101:et 9927212022112:!+3s 9927212022414:tape 9927212022423/tape/off,06203,norm,moving,stop,unlock,ready,rem 9927212022423:postob 9927212022423:source=0552+398,055530.8,394849.2,2000.0,neutral 9927212022450:nw2c1=11 9927212022503/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927212022830:!272120712 9927212060024#trakl#SOURCE_ACQUIRED 9927212061298;op=norm servant 9927212061877;wx 9927212061879/wx/18.8,983.7,100.0,0.0 9927212063167;"wx,overcast,calm. 9927212063482;rxmon 9927212063491/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212063500/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927212063509/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927212063519/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927212063528/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927212063537/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927212065125;"rxtemps 20k=28.60 70k=55.57 9927212071201:preob 9927212071300/onsource/TRACKING 9927212071535/tpical/19612,22012,18057,4559,25552,25508,28400,56237,15969,38118 9927212071555/tpical/9591,10082,11239,33136,20946,5826,7238 9927212071562:!272120722 9927212072201:tape 9927212072210/tape/off,06203,norm,stopped,stop,unlock,ready,rem 9927212072210:st=for,135 9927212072221:"data start" 9927212072221:midob 9927212072352/onsource/TRACKING 9927212072354/wx/18.8,983.6,100.0,2.2 9927212072377/cable/+1.0851063E-02 9927212072401/fmout-gps/S 1.8129E-07 9927212072407/ifd/16,19,nor,nor,rem,14329,6266 9927212072413/if3/6,in,2,2,,,present,500.10,rem,lock,33630 9927212072419/vc02/142.99,2.000,u,10,10,rem,lock,19911 9927212072425/vc06/202.89,2.000,u,10,10,rem,lock,22500 9927212072431/vc11/237.99,2.000,u,10,10,rem,lock,9576 9927212072459/tpi/17752,19911,16274,4149,22779,22500,24865,49235,14329,33630 9927212072478/tpi/8216,8573,9576,27798,17595,4945,6266 9927212072480/tsys1/64.7,63.8,62.0,56.7,56.5,50.8,48.9,48.8,59.7,52.1 9927212072480/tsys2/86.0,82.2,84.0,80.5,80.2,78.9,88.0 9927212072481:!272120900 9927212090001:"data stop" 9927212090001:et 9927212090011:!+3s 9927212090313:tape 9927212090322/tape/off,07296,norm,stopped,stop,unlock,ready,rem 9927212090322:postob 9927212090326:source=0528+134,053056.4,133155.2,2000.0,neutral 9927212090501:nw2c1=11 9927212090559/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927212090887:!272121140 9927212103324#trakl#SOURCE_ACQUIRED 9927212114001:preob 9927212114101/onsource/TRACKING 9927212114338/tpical/18810,21107,17420,4426,24808,24720,27428,54498,15384,36898 9927212114358/tpical/9358,9837,11016,32446,20531,5718,7113 9927212114365:!272121150 9927212115001:tape 9927212115011/tape/off,07296,norm,stopped,stop,unlock,ready,rem 9927212115011:st=for,135 9927212115022:"data start" 9927212115022:midob 9927212115052/onsource/TRACKING 9927212115054/wx/18.8,983.4,100.0,2.1 9927212115089/cable/+1.0850633E-02 9927212115101/fmout-gps/S 1.8223E-07 9927212115107/ifd/16,19,nor,nor,rem,13707,6141 9927212115113/if3/6,in,2,2,,,present,500.10,rem,lock,32339 9927212115119/vc02/142.99,2.000,u,10,10,rem,lock,18958 9927212115125/vc06/202.89,2.000,u,10,10,rem,lock,21713 9927212115131/vc11/237.99,2.000,u,10,10,rem,lock,9357 9927212115159/tpi/16877,18958,15534,4008,21969,21713,23887,47375,13707,32339 9927212115178/tpi/7987,8351,9357,27058,17139,4841,6141 9927212115180/tsys1/59.1,59.3,55.8,53.3,53.2,49.0,46.9,46.1,55.8,49.3 9927212115180/tsys2/83.7,81.2,82.2,77.6,77.1,77.4,86.0 9927212115181:!272121328 9927212132801:"data stop" 9927212132801:et 9927212132811:!+3s 9927212133113:tape 9927212133122/tape/off,08388,norm,stopped,stop,unlock,ready,rem 9927212133122:postob 9927212133122:source=oj287,085448.9,200630.6,2000.0,neutral 9927212133152:midtp 9927212133387/tpzero/508,708,448,818,338,624,94,316,307,149 9927212133407/tpzero/632,622,625,270,380,491,780 9927212133423/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212133433/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927212133442/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927212133451/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927212133460/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927212133470/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927212133470:nw2c2=12 9927212133618/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212133945:fastf=0m23s 9927212140274:!272121714 9927212165375#trakl#SOURCE_ACQUIRED 9927212171402:preob 9927212171505/onsource/TRACKING 9927212171740/tpical/18649,20966,17217,4396,24475,24400,27164,53880,15207,36455 9927212171760/tpical/9450,9918,11029,32394,20463,5708,7114 9927212171767:!272121724 9927212172401:tape 9927212172410/tape/off,08892,norm,stopped,stop,unlock,ready,rem 9927212172410:st=rev,135 9927212172421:"data start" 9927212172421:midob 9927212172452/onsource/TRACKING 9927212172454/wx/18.9,983.2,100.0,5.6 9927212172462/cable/+1.0850581E-02 9927212172502/fmout-gps/S 1.8207E-07 9927212172507/ifd/16,19,nor,nor,rem,13567,6133 9927212172513/if3/6,in,2,2,,,present,500.10,rem,lock,31991 9927212172519/vc02/142.99,2.000,u,10,10,rem,lock,18815 9927212172525/vc06/202.89,2.000,u,10,10,rem,lock,21486 9927212172531/vc11/237.99,2.000,u,10,10,rem,lock,9367 9927212172559/tpi/16779,18815,15418,3983,21724,21486,23678,46938,13567,31991 9927212172579/tpi/8063,8381,9367,26948,17073,4826,6133 9927212172581/tsys1/60.7,58.8,58.1,53.5,54.3,50.0,47.2,46.9,56.4,49.8 9927212172581/tsys2/83.6,78.8,82.1,76.5,76.9,76.7,85.2 9927212172581:!272121902 9927212190201:"data stop" 9927212190201:et 9927212190211:!+3s 9927212190513:tape 9927212190522/tape/off,07799,norm,stopped,stop,unlock,ready,rem 9927212190522:postob 9927212190522:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927212190651:check2c2 9927212194593?ERROR qg -303 Track 11 parity errors exceed threshold. 9927212194593?ERROR qg -305 AUX data differs from expected value on track 11. 9927212194594?ERROR qg -304 Track 11 sync errors exceed threshold. 9927212194594/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927212194594/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927212200020:nw2c2=12 9927212200084/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212200412:!272122210 9927212210274#trakl#SOURCE_ACQUIRED 9927212221001:preob 9927212221099/onsource/TRACKING 9927212221335/tpical/18939,21307,17608,4459,25013,24869,27744,55055,15515,37228 9927212221354/tpical/9331,9803,11073,32317,20624,5734,7103 9927212221361:!272122220 9927212222001:tape 9927212222011/tape/off,07801,norm,moving,stop,unlock,ready,rem 9927212222011:st=rev,135 9927212222022:"data start" 9927212222022:midob 9927212222100/onsource/TRACKING 9927212222102/wx/19.0,983.3,100.0,4.6 9927212222125/cable/+1.0848780E-02 9927212222201/fmout-gps/S 1.8178E-07 9927212222207/ifd/16,19,nor,nor,rem,13817,6132 9927212222213/if3/6,in,2,2,,,present,500.10,rem,lock,32626 9927212222219/vc02/142.99,2.000,u,10,10,rem,lock,19105 9927212222225/vc06/202.89,2.000,u,10,10,rem,lock,21848 9927212222231/vc11/237.99,2.000,u,10,10,rem,lock,9404 9927212222259/tpi/16981,19105,15738,4041,22174,21848,24117,48053,13817,32626 9927212222279/tpi/7983,8332,9404,26971,17224,4854,6132 9927212222281/tsys1/58.7,58.3,57.1,53.8,53.7,49.0,46.2,47.6,55.5,49.3 9927212222281/tsys2/85.1,81.8,82.1,78.0,77.3,77.4,86.0 9927212222281:!272122358 9927212235801:"data stop" 9927212235801:et 9927212235811:!+3s 9927212240113:tape 9927212240121/tape/off,06708,norm,stopped,stop,unlock,ready,rem 9927212240122:postob 9927212240122:source=1219+044,122222.5,041315.8,2000.0,neutral 9927212240200:nw2c2=12 9927212240253/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212240577:!272122837 9927212271325#trakl#SOURCE_ACQUIRED 9927212283701:preob 9927212283851/onsource/TRACKING 9927212284086/tpical/20589,22792,18821,4753,26993,26685,29773,59325,16718,40231 9927212284106/tpical/9941,10513,11709,34507,21777,6054,7514 9927212284113:!272122847 9927212284701:tape 9927212284709/tape/off,06708,norm,stopped,stop,unlock,ready,rem 9927212284710:st=rev,135 9927212284720:"data start" 9927212284720:midob 9927212284801/onsource/TRACKING 9927212284803/wx/19.0,983.3,100.0,0.0 9927212284826/cable/+1.0847457E-02 9927212284903/fmout-gps/S 1.8254E-07 9927212284909/ifd/16,19,nor,nor,rem,15055,6537 9927212284915/if3/6,in,2,2,,,present,500.10,rem,lock,35700 9927212284921/vc02/142.99,2.000,u,10,10,rem,lock,20657 9927212284927/vc06/202.89,2.000,u,10,10,rem,lock,23712 9927212284933/vc11/237.99,2.000,u,10,10,rem,lock,10048 9927212284961/tpi/18680,20657,16981,4338,24162,23712,26237,52206,15055,35700 9927212284980/tpi/8559,9004,10048,29155,18375,5159,6537 9927212284982/tsys1/66.4,65.2,62.7,59.2,58.7,54.2,51.6,50.9,61.9,54.8 9927212284982/tsys2/89.5,86.7,88.6,84.2,82.6,81.4,92.0 9927212284983:!272123055 9927212305501:"data stop" 9927212305501:et 9927212305512:!+3s 9927212305814:tape 9927212305823/tape/off,05278,norm,stopped,stop,unlock,ready,rem 9927212305823:postob 9927212305823:source=1030+074,103334.0,071126.1,2000.0,neutral 9927212305900:midtp 9927212310135/tpzero/505,721,447,821,322,622,91,314,307,149 9927212310155/tpzero/632,623,624,268,378,493,771 9927212310171/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212310181/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927212310190/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927212310199/rx/17(pres),on,a,on,on,on,off,locked,-1.575 9927212310208/rx/1E(20k),on,a,on,on,on,off,locked,27.73 9927212310218/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927212310218:nw2c1=13 9927212310387/pass/13,13,auto,0.0,0.0,1.5,0.4,1.5,0.4 9927212310713:fastr=3m52s 9927212325927#trakl#SOURCE_ACQUIRED 9927212345941:!272124122 9927212412201:preob 9927212412300/onsource/TRACKING 9927212412535/tpical/18505,20637,17053,4339,24196,24040,26819,53301,15041,36027 9927212412555/tpical/9410,9880,10895,32168,20268,5658,7067 9927212412562:!272124132 9927212413201:tape 9927212413209/tape/low,00071,norm,stopped,stop,unlock,ready,rem 9927212413210:st=for,135 9927212413220:"data start" 9927212413220:midob 9927212413351/onsource/TRACKING 9927212413353/wx/19.3,983.4,100.0,3.3 9927212413361/cable/+1.0853277E-02 9927212413401/fmout-gps/S 1.8223E-07 9927212413407/ifd/16,19,nor,nor,rem,13371,6089 9927212413413/if3/6,in,2,2,,,present,500.10,rem,lock,31493 9927212413419/vc02/142.99,2.000,u,10,10,rem,lock,18477 9927212413425/vc06/202.89,2.000,u,10,10,rem,lock,21042 9927212413431/vc11/237.99,2.000,u,10,10,rem,lock,9237 9927212413459/tpi/16566,18477,15211,3928,21392,21042,23280,46196,13371,31493 9927212413479/tpi/8014,8344,9237,26709,16874,4764,6089 9927212413481/tsys1/57.8,57.4,55.9,52.8,52.4,47.5,45.7,45.1,54.6,48.3 9927212413481/tsys2/82.5,78.5,81.1,75.6,75.9,74.6,84.9 9927212413481:!272125058 9927212505801:"data stop" 9927212505801:et 9927212505811:!+3s 9927212510113:tape 9927212510122/tape/off,06429,norm,stopped,stop,unlock,ready,rem 9927212510122:postob 9927212510122:source=1156+295,115931.8,291443.8,2000.0,ccw 9927212510251:check2c1 9927212514224?ERROR qg -303 Track 11 parity errors exceed threshold. 9927212514224?ERROR qg -305 AUX data differs from expected value on track 11. 9927212514224?ERROR qg -304 Track 11 sync errors exceed threshold. 9927212514224/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927212514224/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927212515640:nw2c1=13 9927212515709/pass/13,13,auto,0.0,0.0,0.6,0.4,0.6,0.4 9927212520041:!272125655 9927212525274#trakl#SOURCE_ACQUIRED 9927212565501:preob 9927212565553/onsource/TRACKING 9927212565788/tpical/18599,20793,17094,4353,24276,24143,26853,53376,15110,36127 9927212565808/tpical/9520,10003,11000,32622,20528,5715,7151 9927212565815:!272125705 9927212570501:tape 9927212570511/tape/off,06422,norm,stopped,stop,unlock,ready,rem 9927212570511:st=for,135 9927212570522:"data start" 9927212570522:midob 9927212570653/onsource/TRACKING 9927212570655/wx/19.5,983.0,100.0,0.1 9927212570674/cable/+1.0853068E-02 9927212570702/fmout-gps/S 1.8266E-07 9927212570708/ifd/16,19,nor,nor,rem,13464,6169 9927212570713/if3/6,in,2,2,,,present,500.10,rem,lock,31638 9927212570719/vc02/142.99,2.000,u,10,10,rem,lock,18652 9927212570725/vc06/202.89,2.000,u,10,10,rem,lock,21149 9927212570731/vc11/237.99,2.000,u,10,10,rem,lock,9330 9927212570759/tpi/16698,18652,15281,3941,21531,21149,23335,46350,13464,31638 9927212570779/tpi/8124,8476,9330,27162,17150,4824,6169 9927212570781/tsys1/59.5,58.5,57.1,52.9,53.9,47.9,46.1,45.7,55.8,49.0 9927212570781/tsys2/83.8,80.3,81.4,76.9,77.5,75.9,85.8 9927212570781:!272130024 9927213002401:"data stop" 9927213002401:et 9927213002411:!+3s 9927213002713:tape 9927213002721/tape/off,08650,norm,stopped,stop,unlock,ready,rem 9927213002722:postob 9927213002722:source=oj287,085448.9,200630.6,2000.0,neutral 9927213002749:midtp 9927213002984/tpzero/503,718,450,817,331,621,96,316,311,149 9927213003004/tpzero/629,628,623,269,379,489,769 9927213003020/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927213003029/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927213003039/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.509 9927213003048/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927213003057/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927213003066/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213003067:nw2c2=14 9927213003213/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213003620:fastf=0m12s 9927213004848:!272130532 9927213030927#trakl#SOURCE_ACQUIRED 9927213053201:preob 9927213053301/onsource/TRACKING 9927213053536/tpical/18908,21129,17373,4375,24622,24583,27285,54136,15331,36630 9927213053556/tpical/9240,9693,10920,32001,20320,5676,7032 9927213053563:!272130542 9927213054201:tape 9927213054210/tape/off,08906,norm,stopped,stop,unlock,ready,rem 9927213054211:st=rev,135 9927213054221:"data start" 9927213054221:midob 9927213054252/onsource/TRACKING 9927213054254/wx/19.6,983.0,100.0,1.0 9927213054261/cable/+1.0855147E-02 9927213054301/fmout-gps/S 1.8123E-07 9927213054307/ifd/16,19,nor,nor,rem,13687,6072 9927213054313/if3/6,in,2,2,,,present,500.10,rem,lock,32177 9927213054319/vc02/142.99,2.000,u,10,10,rem,lock,19034 9927213054325/vc06/202.89,2.000,u,10,10,rem,lock,21623 9927213054331/vc11/237.99,2.000,u,10,10,rem,lock,9276 9927213054359/tpi/17024,19034,15558,3971,21800,21623,23783,47256,13687,32177 9927213054379/tpi/7887,8216,9276,26678,16985,4797,6072 9927213054380/tsys1/61.2,61.0,58.1,54.5,53.1,49.5,47.2,47.6,56.8,50.2 9927213054381/tsys2/83.7,80.2,82.2,77.4,77.7,76.5,86.2 9927213054381:!272130720 9927213072001:"data stop" 9927213072001:et 9927213072011:!+3s 9927213072313:tape 9927213072322/tape/off,07813,norm,stopped,stop,unlock,ready,rem 9927213072322:postob 9927213072322:source=0552+398,055530.8,394849.2,2000.0,neutral 9927213072399:check2c2 9927213080347?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213080347?ERROR qg -305 AUX data differs from expected value on track 11. 9927213080347?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213080347/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213080347/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927213081767:nw2c2=14 9927213081823/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213082152:!272131155 9927213112024#trakl#SOURCE_ACQUIRED 9927213115501:preob 9927213115665/onsource/TRACKING 9927213115908/tpical/19071,21351,17529,4415,24797,24674,27421,54472,15477,36895 9927213115928/tpical/9294,9793,10927,32223,20452,5695,7081 9927213115935:!272131205 9927213120501:tape 9927213120510/tape/off,07816,norm,stopped,stop,unlock,ready,rem 9927213120511:st=rev,135 9927213120521:"data start" 9927213120522:midob 9927213120600/onsource/TRACKING 9927213120602/wx/19.8,983.0,99.5,3.7 9927213120638/cable/+1.0855892E-02 9927213120701/fmout-gps/S 1.8176E-07 9927213120707/ifd/16,19,nor,nor,rem,13839,6121 9927213120713/if3/6,in,2,2,,,present,500.10,rem,lock,32466 9927213120719/vc02/142.99,2.000,u,10,10,rem,lock,19256 9927213120725/vc06/202.89,2.000,u,10,10,rem,lock,21741 9927213120731/vc11/237.99,2.000,u,10,10,rem,lock,9296 9927213120759/tpi/17216,19256,15741,4011,22008,21741,23959,47557,13839,32466 9927213120779/tpi/7947,8304,9296,26947,17088,4823,6121 9927213120780/tsys1/62.9,61.8,59.7,55.2,54.3,50.3,48.1,47.7,57.6,50.9 9927213120781/tsys2/84.8,80.5,83.0,78.9,77.5,77.6,87.0 9927213120781:!272131343 9927213134301:"data stop" 9927213134301:et 9927213134311:!+3s 9927213134521;wx 9927213134523/wx/19.8,983.0,99.6,0.5 9927213134613:tape 9927213134622/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927213134622:postob 9927213134622:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927213134751:nw2c2=14 9927213134804/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213135129:!272131928 9927213135542;"wx,overcast,calm. 9927213135766;rxmon 9927213135775/rx/02(lo),on,a,on,on,on,off,locked,46.82 9927213135784/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927213135793/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927213135802/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927213135812/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927213135821/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213141322;"rxtemps 20k=29.07 70k=54.88 9927213181875#trakl#SOURCE_ACQUIRED 9927213192801:preob 9927213192901/onsource/TRACKING 9927213193137/tpical/23062,25442,21098,5183,30078,29737,33124,$$$$$,18710,44980 9927213193157/tpical/9868,10466,11842,34856,22252,6183,7576 9927213193164:!272131938 9927213193801:tape 9927213193810/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927213193810:st=rev,135 9927213193821:"data start" 9927213193821:midob 9927213193953/onsource/TRACKING 9927213193955/wx/19.9,983.0,100.0,0.0 9927213193961/cable/+1.0853963E-02 9927213194001/fmout-gps/S 1.8227E-07 9927213194007/ifd/16,19,nor,nor,rem,17060,6618 9927213194013/if3/6,in,2,2,,,present,500.10,rem,lock,40496 9927213194019/vc02/142.99,2.000,u,10,10,rem,lock,23281 9927213194025/vc06/202.89,2.000,u,10,10,rem,lock,26804 9927213194031/vc11/237.99,2.000,u,10,10,rem,lock,10216 9927213194059/tpi/21149,23281,19263,4778,27328,26804,29677,59183,17060,40496 9927213194079/tpi/8530,9001,10216,29577,18889,5309,6618 9927213194080?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927213194081/tsys1/75.3,72.9,71.6,68.3,68.5,62.3,59.9,$$$$$$$$,70.9,62.8 9927213194081/tsys2/92.2,89.2,92.1,86.7,85.9,86.1,95.3 9927213194081:!272132208 9927213220801:"data stop" 9927213220801:et 9927213220812:!+3s 9927213221114:tape 9927213221123/tape/off,05045,norm,stopped,stop,unlock,ready,rem 9927213221123:postob 9927213221123:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927213221200:nw2c2=14 9927213221253/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213221577:!272132436 9927213235275#trakl#SOURCE_ACQUIRED 9927213243601:preob 9927213243655/onsource/TRACKING 9927213243890/tpical/21692,23948,19780,4907,28227,27899,31085,61941,17559,42125 9927213243910/tpical/9863,10419,11565,34313,21731,6052,7460 9927213243917:!272132446 9927213244601:tape 9927213244609/tape/off,05045,norm,stopped,stop,unlock,ready,rem 9927213244610:st=rev,135 9927213244620:"data start" 9927213244621:midob 9927213244751/onsource/TRACKING 9927213244753/wx/19.9,983.0,99.8,2.1 9927213244777/cable/+1.0853965E-02 9927213244802/fmout-gps/S 1.8205E-07 9927213244807/ifd/16,19,nor,nor,rem,15896,6490 9927213244813/if3/6,in,2,2,,,present,500.10,rem,lock,37650 9927213244819/vc02/142.99,2.000,u,10,10,rem,lock,21818 9927213244825/vc06/202.89,2.000,u,10,10,rem,lock,24970 9927213244831/vc11/237.99,2.000,u,10,10,rem,lock,9921 9927213244859/tpi/19784,21818,17978,4500,25466,24970,27605,55070,15896,37650 9927213244879/tpi/8497,8908,9921,28954,18382,5170,6490 9927213244880/tsys1/70.5,69.1,67.9,63.2,63.5,58.0,55.2,55.6,65.4,58.5 9927213244881/tsys2/89.9,85.5,88.3,83.6,83.9,82.8,92.1 9927213244881:!272132848 9927213284801:"data stop" 9927213284801:et 9927213284812:!+3s 9927213285114:tape 9927213285123/tape/off,02332,norm,stopped,stop,unlock,ready,rem 9927213285123:postob 9927213285123:source=1243-072,124604.2,-073046.6,2000.0,neutral 9927213285200:midtp 9927213285435/tpzero/508,721,450,814,326,621,99,315,313,149 9927213285455/tpzero/638,621,622,263,380,488,769 9927213285471/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927213285480/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927213285489/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.507 9927213285499/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927213285508/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927213285517/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213285517:nw2c1=15 9927213285668/pass/15,15,auto,55.0,55.0,54.5,54.1,-0.5,-0.9 9927213285993:fastr=1m40s 9927213291625#trakl#SOURCE_ACQUIRED 9927213304021:!272133107 9927213310701:preob 9927213310801/onsource/TRACKING 9927213311036/tpical/21181,23379,19277,4798,27493,27151,30176,60233,17113,40963 9927213311056/tpical/9667,10211,11411,33758,21471,5965,7373 9927213311063:!272133117 9927213311701:tape 9927213311709/tape/low,00096,norm,stopped,stop,unlock,ready,rem 9927213311710:st=for,135 9927213311720:"data start" 9927213311720:midob 9927213311799/onsource/TRACKING 9927213311802/wx/20.0,982.8,99.8,0.0 9927213311837/cable/+1.0854793E-02 9927213311901/fmout-gps/S 1.8127E-07 9927213311907/ifd/16,19,nor,nor,rem,15440,6415 9927213311913/if3/6,in,2,2,,,present,500.10,rem,lock,36454 9927213311919/vc02/142.99,2.000,u,10,10,rem,lock,21222 9927213311925/vc06/202.89,2.000,u,10,10,rem,lock,24188 9927213311931/vc11/237.99,2.000,u,10,10,rem,lock,9774 9927213311959/tpi/19223,21222,17450,4387,24737,24188,26691,53364,15440,36454 9927213311979/tpi/8319,8743,9774,28486,18123,5097,6415 9927213311981/tsys1/66.7,66.3,64.9,60.7,61.8,55.5,53.3,53.9,63.1,56.2 9927213311981/tsys2/88.9,86.4,87.3,83.6,82.7,82.9,92.0 9927213311981:!272133749 9927213374901:"data stop" 9927213374901:et 9927213374912:!+3s 9927213375214:tape 9927213375223/tape/off,04497,norm,stopped,stop,unlock,ready,rem 9927213375223:postob 9927213375223:source=1222+037,122452.4,033050.3,2000.0,neutral 9927213375300:check2c1 9927213383244?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213383244?ERROR qg -305 AUX data differs from expected value on track 11. 9927213383244?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213383244/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213383244/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927213384670:nw2c1=15 9927213384724/pass/15,15,auto,55.0,55.0,55.4,54.1,0.4,-0.9 9927213385115:!272134002 9927213391125#trakl#SOURCE_ACQUIRED 9927213400201:preob 9927213400349/onsource/TRACKING 9927213400584/tpical/19356,21369,17569,4440,25022,24810,27470,54953,15570,37241 9927213400604/tpical/9815,10224,11470,33993,21959,6046,7409 9927213400611:!272134012 9927213401201:tape 9927213401211/tape/off,04494,norm,stopped,stop,unlock,ready,rem 9927213401211:st=for,135 9927213401222:"data start" 9927213401222:midob 9927213401250/onsource/TRACKING 9927213401252/wx/20.1,982.8,100.0,2.6 9927213401261/cable/+1.0856771E-02 9927213401301/fmout-gps/S 1.8189E-07 9927213401307/ifd/16,19,nor,nor,rem,13915,6448 9927213401313/if3/6,in,2,2,,,present,500.10,rem,lock,32763 9927213401319/vc02/142.99,2.000,u,10,10,rem,lock,19254 9927213401325/vc06/202.89,2.000,u,10,10,rem,lock,21801 9927213401331/vc11/237.99,2.000,u,10,10,rem,lock,9805 9927213401359/tpi/17419,19254,15768,4035,22270,21801,24011,48045,13915,32763 9927213401378/tpi/8439,8718,9805,28635,18586,5160,6448 9927213401380/tsys1/60.9,61.2,59.4,55.5,55.7,49.1,48.3,48.2,57.4,50.8 9927213401380/tsys2/88.5,83.9,86.1,82.7,84.3,82.3,92.2 9927213401381:!272134434 9927213443401:"data stop" 9927213443401:et 9927213443412:!+3s 9927213443714:tape 9927213443722/tape/off,07432,norm,stopped,stop,unlock,ready,rem 9927213443723:postob 9927213443723:source=1302-102,130533.0,-103319.4,2000.0,neutral 9927213443800:nw2c1=15 9927213443853/pass/15,15,auto,55.0,55.0,55.4,54.1,0.4,-0.9 9927213444178:!272134635 9927213460625#trakl#SOURCE_ACQUIRED 9927213463501:preob 9927213463601/onsource/TRACKING 9927213463836/tpical/22139,24452,20181,4994,28720,28401,31649,63004,17920,42931 9927213463856/tpical/9794,10365,12012,34381,21866,6059,7481 9927213463863:!272134645 9927213464501:tape 9927213464509/tape/off,07432,norm,stopped,stop,unlock,ready,rem 9927213464510:st=for,135 9927213464520:"data start" 9927213464520:midob 9927213464601/onsource/TRACKING 9927213464603/wx/20.3,982.8,99.6,0.0 9927213464609/cable/+1.0857558E-02 9927213464702/fmout-gps/S 1.8273E-07 9927213464707/ifd/16,19,nor,nor,rem,16261,6513 9927213464713/if3/6,in,2,2,,,present,500.10,rem,lock,38442 9927213464719/vc02/142.99,2.000,u,10,10,rem,lock,22293 9927213464725/vc06/202.89,2.000,u,10,10,rem,lock,25422 9927213464731/vc11/237.99,2.000,u,10,10,rem,lock,10235 9927213464759/tpi/20172,22293,18388,4588,25972,25422,28202,56144,16261,38442 9927213464779/tpi/8434,8864,10235,29030,18480,5183,6513 9927213464780/tsys1/69.8,69.7,69.8,64.9,65.1,58.1,56.9,56.8,67.1,59.5 9927213464781/tsys2/89.5,85.7,84.4,83.9,83.4,83.7,92.6 9927213464781:!272134823 9927213482301:"data stop" 9927213482301:et 9927213482312:!+3s 9927213482614:tape 9927213482623/tape/off,08525,norm,moving,stop,unlock,ready,rem 9927213482623:postob 9927213482623:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927213482700:midtp 9927213482935/tpzero/507,718,448,819,331,622,96,313,305,149 9927213482955/tpzero/632,626,622,272,376,489,780 9927213482971/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927213482980/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927213482989/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927213482998/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927213483008/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927213483017/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213483017:nw2c2=16 9927213483183/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927213483509:fastf=0m18s 9927213485336:!272135324 9927213491425#trakl#SOURCE_ACQUIRED 9927213532401:preob 9927213532501/onsource/TRACKING 9927213532737/tpical/22282,24539,20320,5008,28861,28562,31724,63278,18022,43087 9927213532757/tpical/9896,10477,11608,34491,21832,6072,7501 9927213532764:!272135334 9927213533401:tape 9927213533410/tape/off,08916,norm,stopped,stop,unlock,ready,rem 9927213533410:st=rev,135 9927213533421:"data start" 9927213533421:midob 9927213533551/onsource/TRACKING 9927213533553/wx/20.4,982.6,98.3,5.8 9927213533578/cable/+1.0857336E-02 9927213533602/fmout-gps/S 1.8174E-07 9927213533607/ifd/16,19,nor,nor,rem,16358,6534 9927213533613/if3/6,in,2,2,,,present,500.10,rem,lock,38581 9927213533619/vc02/142.99,2.000,u,10,10,rem,lock,22430 9927213533625/vc06/202.89,2.000,u,10,10,rem,lock,25564 9927213533631/vc11/237.99,2.000,u,10,10,rem,lock,9964 9927213533659/tpi/20316,22430,18492,4602,26112,25564,28245,56306,16358,38581 9927213533679/tpi/8510,8955,9964,29147,18480,5194,6534 9927213533681/tsys1/70.3,71.9,68.9,65.0,65.5,58.1,56.5,56.1,67.3,59.5 9927213533681/tsys2/88.7,85.4,88.7,84.3,84.3,83.7,92.9 9927213533681:!272135512 9927213551201:"data stop" 9927213551201:et 9927213551212:!+3s 9927213551514:tape 9927213551523/tape/off,07823,norm,stopped,stop,unlock,ready,rem 9927213551523:postob 9927213551523:source=0818-128,082057.4,-125859.2,2000.0,neutral 9927213551600:check2c2 9927213555543?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213555543?ERROR qg -305 AUX data differs from expected value on track 11. 9927213555543?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213555543/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213555543/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927213560968:nw2c2=16 9927213561021/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927213561347:!272135943 9927213583775#trakl#SOURCE_ACQUIRED 9927213594301:preob 9927213594351/onsource/TRACKING 9927213594586/tpical/19275,21210,17403,4383,24773,24516,27202,54466,15435,36860 9927213594606/tpical/9174,9633,10933,31880,20347,5688,7013 9927213594613:!272135953 9927213595301:tape 9927213595310/tape/off,07827,norm,stopped,stop,unlock,ready,rem 9927213595311:st=rev,135 9927213595321:"data start" 9927213595321:midob 9927213595450/onsource/TRACKING 9927213595452/wx/20.6,982.6,98.4,0.0 9927213595485/cable/+1.0861787E-02 9927213595501/fmout-gps/S 1.8229E-07 9927213595507/ifd/16,19,nor,nor,rem,13778,6062 9927213595513/if3/6,in,2,2,,,present,500.10,rem,lock,32389 9927213595519/vc02/142.99,2.000,u,10,10,rem,lock,19089 9927213595525/vc06/202.89,2.000,u,10,10,rem,lock,21540 9927213595531/vc11/237.99,2.000,u,10,10,rem,lock,9302 9927213595559/tpi/17315,19089,15593,3976,22013,21540,23725,47462,13778,32389 9927213595579/tpi/7847,8189,9302,26631,17039,4808,6062 9927213595580/tsys1/59.9,60.5,58.4,54.1,54.8,49.1,47.4,47.0,56.8,50.3 9927213595581/tsys2/84.9,81.8,83.1,78.4,78.6,76.6,86.7 9927213595581:!272140633 9927214024740;wx 9927214024744/wx/20.6,982.5,97.5,0.6 9927214030458;"wx,overcast,lite breeze. 9927214030667;rxmon 9927214030677/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927214030686/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927214030695/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927214030705/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927214030714/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214030723/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214031917;"rxtemps 20k=29.07 70k=54.88 9927214063301:"data stop" 9927214063301:et 9927214063312:!+3s 9927214063614:tape 9927214063623/tape/off,03336,norm,stopped,stop,unlock,ready,rem 9927214063623:postob 9927214063623:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927214063700:nw2c2=16 9927214063753/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927214064078:!272140915 9927214090075#trakl#SOURCE_ACQUIRED 9927214091501:preob 9927214091599/onsource/TRACKING 9927214091834/tpical/19335,21322,17548,4420,24965,24678,27160,54595,15534,37043 9927214091854/tpical/9146,9626,10982,31858,20358,5691,7023 9927214091861:!272140925 9927214092501:tape 9927214092510/tape/off,03336,norm,stopped,stop,unlock,ready,rem 9927214092511:st=rev,135 9927214092522:"data start" 9927214092522:midob 9927214092552/onsource/TRACKING 9927214092554/wx/20.6,982.6,96.0,6.5 9927214092582/cable/+1.0862025E-02 9927214092601/fmout-gps/S 1.8242E-07 9927214092607/ifd/16,19,nor,nor,rem,13896,6072 9927214092613/if3/6,in,2,2,,,present,500.10,rem,lock,32599 9927214092619/vc02/142.99,2.000,u,10,10,rem,lock,19207 9927214092625/vc06/202.89,2.000,u,10,10,rem,lock,21726 9927214092631/vc11/237.99,2.000,u,10,10,rem,lock,9345 9927214092659/tpi/17447,19207,15753,4016,22222,21726,23760,47778,13896,32599 9927214092679/tpi/7800,8169,9345,26528,17023,4815,6072 9927214092680/tsys1/62.6,61.0,59.5,55.2,55.7,49.9,48.6,48.6,57.9,51.0 9927214092681/tsys2/83.1,80.8,83.2,76.9,77.9,77.1,86.9 9927214092681:!272141253 9927214125301:"data stop" 9927214125301:et 9927214125312:!+3s 9927214125614:tape 9927214125623/tape/off,01006,norm,stopped,stop,unlock,ready,rem 9927214125623:postob 9927214125623:source=1236+077,123924.6,073017.2,2000.0,neutral 9927214125650:midtp 9927214125886/tpzero/507,708,448,819,318,619,96,315,311,149 9927214125905/tpzero/626,628,618,264,376,489,767 9927214125921/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927214125931/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927214125940/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927214125949/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927214125958/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214125968/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214125968:nw2c1=17 9927214130136/pass/17,17,auto,110.0,110.0,109.2,108.7,-0.8,-1.3 9927214130461:fastr=0m41s 9927214134589:!272141428 9927214141575#trakl#SOURCE_ACQUIRED 9927214142801:preob 9927214142853/onsource/TRACKING 9927214143089/tpical/18928,20810,17160,4332,24340,24035,26577,53176,15157,36105 9927214143108/tpical/9296,9752,10959,32022,20399,5698,7045 9927214143115:!272141438 9927214143801:tape 9927214143811/tape/off,00097,norm,stopped,stop,unlock,ready,rem 9927214143811:st=for,135 9927214143822:"data start" 9927214143822:midob 9927214143900/onsource/TRACKING 9927214143902/wx/20.7,982.6,96.5,8.4 9927214143936/cable/+1.0861743E-02 9927214144001/fmout-gps/S 1.8500E-07 9927214144007/ifd/16,19,nor,nor,rem,13506,6086 9927214144013/if3/6,in,2,2,,,present,500.10,rem,lock,31657 9927214144019/vc02/142.99,2.000,u,10,10,rem,lock,18672 9927214144025/vc06/202.89,2.000,u,10,10,rem,lock,21094 9927214144031/vc11/237.99,2.000,u,10,10,rem,lock,9314 9927214144059/tpi/16996,18672,15341,3932,21586,21094,23118,46319,13506,31657 9927214144079/tpi/7952,8278,9314,26679,17061,4823,6086 9927214144080/tsys1/59.6,58.6,57.1,54.3,53.9,48.6,46.5,46.8,55.8,49.4 9927214144081/tsys2/85.1,81.0,82.5,77.2,78.0,77.3,86.6 9927214144081:!272141616 9927214161601:"data stop" 9927214161601:et 9927214161612:!+3s 9927214161914:tape 9927214161923/tape/off,01190,norm,stopped,stop,unlock,ready,rem 9927214161923:postob 9927214161923:source=1611+343,161341.1,341247.9,2000.0,ccw 9927214161952:check2c1 9927214165906?ERROR qg -303 Track 11 parity errors exceed threshold. 9927214165906?ERROR qg -304 Track 11 sync errors exceed threshold. 9927214165906/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927214165906/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927214171320:nw2c1=17 9927214171373/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927214171699:!272141951 9927214184775#trakl#SOURCE_ACQUIRED 9927214195101:preob 9927214195251/onsource/TRACKING 9927214195486/tpical/20757,22776,18739,4652,26594,26287,29195,58446,16596,39590 9927214195507/tpical/9789,10356,11376,33950,21447,5963,7402 9927214195514:!272142001 9927214200101:tape 9927214200111/tape/off,01186,norm,stopped,stop,unlock,ready,rem 9927214200111:st=for,135 9927214200122:"data start" 9927214200122:midob 9927214200200/onsource/TRACKING 9927214200202/wx/20.8,982.5,96.1,7.7 9927214200229/cable/+1.0861902E-02 9927214200301/fmout-gps/S 1.8232E-07 9927214200307/ifd/16,19,nor,nor,rem,14944,6436 9927214200313/if3/6,in,2,2,,,present,500.10,rem,lock,35124 9927214200319/vc02/142.99,2.000,u,10,10,rem,lock,20671 9927214200324/vc06/202.89,2.000,u,10,10,rem,lock,23326 9927214200330/vc11/237.99,2.000,u,10,10,rem,lock,9760 9927214200358/tpi/18811,20671,16927,4257,23814,23326,25714,51450,14944,35124 9927214200378/tpi/8424,8845,9760,28607,18048,5077,6436 9927214200380/tsys1/65.7,66.2,63.5,60.8,59.0,53.5,51.4,51.0,61.8,54.7 9927214200380/tsys2/89.2,84.9,88.3,82.8,81.2,80.8,91.6 9927214200380:!272142139 9927214213901:"data stop" 9927214213901:et 9927214213912:!+3s 9927214214214:tape 9927214214223/tape/off,02278,norm,stopped,stop,unlock,ready,rem 9927214214223:postob 9927214214223:source=1004+141,100741.5,135629.6,2000.0,neutral 9927214214250:nw2c1=17 9927214214303/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927214214630:!272142815 9927214254674#trakl#SOURCE_ACQUIRED 9927214281501:preob 9927214281651/onsource/TRACKING 9927214281887/tpical/18710,20792,17051,4325,24124,24035,26584,52939,15057,35836 9927214281907/tpical/9040,9462,10693,31336,19909,5584,6906 9927214281914:!272142825 9927214282501:tape 9927214282510/tape/off,02278,norm,stopped,stop,unlock,ready,rem 9927214282510:st=for,135 9927214282521:"data start" 9927214282521:midob 9927214282553/onsource/TRACKING 9927214282555/wx/20.8,982.3,94.7,7.5 9927214282594/cable/+1.0865714E-02 9927214282601/fmout-gps/S 1.8162E-07 9927214282607/ifd/16,19,nor,nor,rem,13374,5959 9927214282613/if3/6,in,2,2,,,present,500.10,rem,lock,31306 9927214282619/vc02/142.99,2.000,u,10,10,rem,lock,18614 9927214282625/vc06/202.89,2.000,u,10,10,rem,lock,21003 9927214282631/vc11/237.99,2.000,u,10,10,rem,lock,9076 9927214282659/tpi/16758,18614,15211,3911,21282,21003,23014,45918,13374,31306 9927214282679/tpi/7722,8032,9076,26088,16618,4717,5959 9927214282681/tsys1/58.1,57.4,56.0,52.1,51.5,46.9,44.8,45.3,54.2,48.0 9927214282681/tsys2/84.0,80.8,81.7,76.8,77.0,76.1,85.6 9927214282681:!272143315 9927214331501:"data stop" 9927214331501:et 9927214331512:!+3s 9927214331814:tape 9927214331823/tape/off,05531,norm,stopped,stop,unlock,ready,rem 9927214331823:postob 9927214331823:source=0642+449,064632.0,445116.6,2000.0,neutral 9927214331952:nw2c1=17 9927214332005/pass/17,17,auto,110.0,110.0,109.2,108.7,-0.8,-1.3 9927214332332:!272143824 9927214373075#trakl#SOURCE_ACQUIRED 9927214382401:preob 9927214382453/onsource/TRACKING 9927214382688/tpical/18833,21068,17246,4369,24319,24167,26701,53017,15217,36061 9927214382708/tpical/9201,9711,10764,31762,20152,5628,6992 9927214382715:!272143834 9927214383401:tape 9927214383411/tape/off,05531,norm,stopped,stop,unlock,ready,rem 9927214383411:st=for,135 9927214383422:"data start" 9927214383422:midob 9927214383550/onsource/TRACKING 9927214383552/wx/20.8,982.3,94.9,9.0 9927214383577/cable/+1.0865221E-02 9927214383601/fmout-gps/S 1.8219E-07 9927214383607/ifd/16,19,nor,nor,rem,13562,6040 9927214383613/if3/6,in,2,2,,,present,500.10,rem,lock,31621 9927214383619/vc02/142.99,2.000,u,10,10,rem,lock,18899 9927214383625/vc06/202.89,2.000,u,10,10,rem,lock,21197 9927214383631/vc11/237.99,2.000,u,10,10,rem,lock,9154 9927214383659/tpi/16936,18899,15409,3961,21549,21197,23206,46174,13562,31621 9927214383678/tpi/7883,8230,9154,26488,16837,4752,6040 9927214383680/tsys1/60.5,58.5,56.8,53.8,53.5,48.4,46.2,46.8,55.9,49.5 9927214383680/tsys2/85.9,80.1,82.8,77.6,77.5,76.0,86.5 9927214383681:!272144012 9927214401201:"data stop" 9927214401201:et 9927214401212:!+3s 9927214401514:tape 9927214401523/tape/off,06624,norm,stopped,stop,unlock,ready,rem 9927214401523:postob 9927214401523:source=m81,095533.1,690354.8,2000.0,neutral 9927214401600:midtp 9927214401835/tpzero/499,709,450,817,332,619,95,317,307,149 9927214401855/tpzero/629,625,623,270,376,493,767 9927214401871/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927214401881/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927214401890/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927214401899/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927214401908/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214401918/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214401918:nw2c2=18 9927214402083/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927214402409:fastf=1m42s 9927214420637:!272144457 9927214430025#trakl#SOURCE_ACQUIRED 9927214445701:preob 9927214445799/onsource/TRACKING 9927214450034/tpical/18889,21166,17392,4408,24436,24361,26813,53268,15311,36224 9927214450054/tpical/9313,9792,10883,32220,20338,5687,7060 9927214450061:!272144507 9927214450701:tape 9927214450710/tape/off,08905,norm,stopped,stop,unlock,ready,rem 9927214450711:st=rev,135 9927214450722:"data start" 9927214450722:midob 9927214450800/onsource/TRACKING 9927214450802/wx/20.9,982.3,93.8,8.4 9927214450817/cable/+1.0864862E-02 9927214450901/fmout-gps/S 1.8189E-07 9927214450907/ifd/16,19,nor,nor,rem,13684,6099 9927214450913/if3/6,in,2,2,,,present,500.10,rem,lock,31847 9927214450919/vc02/142.99,2.000,u,10,10,rem,lock,19086 9927214450925/vc06/202.89,2.000,u,10,10,rem,lock,21421 9927214450931/vc11/237.99,2.000,u,10,10,rem,lock,9253 9927214450959/tpi/17053,19086,15572,3998,21690,21421,23385,46489,13684,31847 9927214450979/tpi/7957,8323,9253,26910,17035,4804,6099 9927214450981/tsys1/62.9,61.7,58.0,54.2,54.3,49.4,47.4,47.5,57.4,50.5 9927214450981/tsys2/84.4,81.8,82.6,78.3,78.7,76.2,86.6 9927214450981:!272145147 9927214514701:"data stop" 9927214514701:et 9927214514712:!+3s 9927214515014:tape 9927214515023/tape/off,04414,norm,stopped,stop,unlock,ready,rem 9927214515023:postob 9927214515023:source=1014+615,101725.9,611627.5,2000.0,neutral 9927214515152:check2c2 9927214523102?ERROR qg -303 Track 11 parity errors exceed threshold. 9927214523102?ERROR qg -305 AUX data differs from expected value on track 11. 9927214523102?ERROR qg -304 Track 11 sync errors exceed threshold. 9927214523102/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927214523102/parity/0,0,0,0,0,343,0,0,0,0,0,0,0,0 9927214524521:nw2c2=18 9927214524574/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927214524625#trakl#SOURCE_ACQUIRED 9927214524900:!272145400 9927214540001:preob 9927214540101/onsource/TRACKING 9927214540336/tpical/19102,21430,17653,4466,24760,24665,27161,53918,15541,36731 9927214540356/tpical/9452,9923,10994,32679,20585,5741,7138 9927214540363:!272145410 9927214541001:tape 9927214541011/tape/off,04418,norm,stopped,stop,unlock,ready,rem 9927214541011:st=rev,135 9927214541022:"data start" 9927214541022:midob 9927214541100/onsource/TRACKING 9927214541102/wx/20.9,982.2,93.4,6.4 9927214541141/cable/+1.0865621E-02 9927214541201/fmout-gps/S 1.8236E-07 9927214541207/ifd/16,19,nor,nor,rem,13904,6182 9927214541213/if3/6,in,2,2,,,present,500.10,rem,lock,32317 9927214541219/vc02/142.99,2.000,u,10,10,rem,lock,19366 9927214541232/vc06/202.89,2.000,u,10,10,rem,lock,21713 9927214541238/vc11/237.99,2.000,u,10,10,rem,lock,9370 9927214541294/tpi/17257,19366,15841,4061,22012,21713,23791,47105,13904,32317 9927214541352/tpi/8080,8427,9366,27352,17247,4868,6181 9927214541354/tsys1/63.4,63.1,59.3,55.9,55.1,49.9,49.1,47.9,58.0,50.9 9927214541354/tsys2/84.8,81.4,83.8,79.4,78.9,78.2,88.3 9927214541354:!272145548 9927214554801:"data stop" 9927214554801:et 9927214554812:!+3s 9927214555114:tape 9927214555123/tape/off,03325,norm,stopped,stop,unlock,ready,rem 9927214555123:postob 9927214555123:source=1104+728,110741.7,723236.0,2000.0,neutral 9927214555200:nw2c2=18 9927214555253/pass/18,18,auto,110.0,110.0,110.6,110.9,0.6,0.9 9927214555579:!272145854 9927214564525#trakl#SOURCE_ACQUIRED 9927214585401:preob 9927214585499/onsource/TRACKING 9927214585734/tpical/18885,21170,17416,4419,24521,24454,26896,53465,15354,36398 9927214585754/tpical/9335,9821,10836,32230,20322,5671,7057 9927214585761:!272145904 9927214590401:tape 9927214590410/tape/off,03325,norm,stopped,stop,unlock,ready,rem 9927214590410:st=rev,135 9927214590421:"data start" 9927214590421:midob 9927214590500/onsource/TRACKING 9927214590502/wx/20.8,982.1,94.4,8.1 9927214590517/cable/+1.0865550E-02 9927214590601/fmout-gps/S 1.8217E-07 9927214590607/ifd/16,19,nor,nor,rem,13686,6084 9927214590613/if3/6,in,2,2,,,present,500.10,rem,lock,31869 9927214590619/vc02/142.99,2.000,u,10,10,rem,lock,19020 9927214590625/vc06/202.89,2.000,u,10,10,rem,lock,21427 9927214590631/vc11/237.99,2.000,u,10,10,rem,lock,9180 9927214590659/tpi/16960,19020,15578,4006,21725,21427,23381,46540,13686,31869 9927214590678/tpi/7990,8315,9180,26873,16937,4785,6084 9927214590680/tsys1/59.7,59.4,57.5,53.9,53.4,48.0,46.2,46.6,56.0,48.9 9927214590680/tsys2/85.4,79.7,80.7,77.5,76.4,75.6,85.3 9927214590681:!272150349 9927215034901:"data stop" 9927215034901:et 9927215034912:!+3s 9927215035214:tape 9927215035223/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927215035223:postob 9927215035223:source=0059+581,010245.8,582411.1,2000.0,neutral 9927215035250:midtp 9927215035485/tpzero/502,706,446,820,339,620,93,316,314,149 9927215035505/tpzero/629,624,620,266,376,487,766 9927215035521/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927215035530/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927215035540/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927215035549/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927215035558/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927215035567/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927215035568:nw2c1=19 9927215035718/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215040043:!272150841 9927215062774#trakl#SOURCE_ACQUIRED 9927215084101:preob 9927215084199/onsource/TRACKING 9927215084435/tpical/21571,24021,19690,4883,27984,27640,30670,60971,17475,41640 9927215084455/tpical/9518,10069,11132,33045,20894,5826,7281 9927215084461:!272150851 9927215085101:tape 9927215085109/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927215085110:st=for,135 9927215085120:"data start" 9927215085121:midob 9927215085153/onsource/TRACKING 9927215085155/wx/21.0,981.8,93.9,0.0 9927215085161/cable/+1.0864041E-02 9927215085202/fmout-gps/S 1.8221E-07 9927215085207/ifd/16,19,nor,nor,rem,15782,6263 9927215085213/if3/6,in,2,2,,,present,500.10,rem,lock,37108 9927215085219/vc02/142.99,2.000,u,10,10,rem,lock,21837 9927215085225/vc06/202.89,2.000,u,10,10,rem,lock,24623 9927215085231/vc11/237.99,2.000,u,10,10,rem,lock,9500 9927215085259/tpi/19632,21837,17842,4466,25202,24623,27157,54073,15782,37108 9927215085279/tpi/8157,8570,9500,27758,17594,4951,6263 9927215085280/tsys1/68.9,67.5,65.7,61.0,62.4,55.5,53.8,54.4,63.8,56.9 9927215085281/tsys2/86.3,82.7,84.9,81.2,81.4,79.6,84.3 9927215085281:!272151029 9927215102901:"data stop" 9927215102901:et 9927215102912:!+3s 9927215103214:tape 9927215103223/tape/off,01221,norm,stopped,stop,unlock,ready,rem 9927215103223:postob 9927215103223:source=0552+398,055530.8,394849.2,2000.0,neutral 9927215103254:check2c1 9927215111205?ERROR qg -303 Track 11 parity errors exceed threshold. 9927215111205?ERROR qg -305 AUX data differs from expected value on track 11. 9927215111205?ERROR qg -304 Track 11 sync errors exceed threshold. 9927215111205/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927215111205/parity/0,0,0,0,0,384,0,0,0,0,0,0,0,0 9927215112623:nw2c1=19 9927215112677/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215113006:!272151259 9927215124474#trakl#SOURCE_ACQUIRED 9927215125901:preob 9927215125953/onsource/TRACKING 9927215130188/tpical/19499,21785,17798,4458,25040,24826,27505,54801,15705,37168 9927215130208/tpical/9303,9827,10893,32201,20443,5703,7072 9927215130215:!272151309 9927215130901:tape 9927215130910/tape/off,01217,norm,stopped,stop,unlock,ready,rem 9927215130910:st=for,135 9927215130921:"data start" 9927215130921:midob 9927215130951/onsource/TRACKING 9927215130953/wx/21.0,981.8,92.6,4.0 9927215130973/cable/+1.0866561E-02 9927215131001/fmout-gps/S 1.8104E-07 9927215131007/ifd/16,19,nor,nor,rem,14089,6122 9927215131013/if3/6,in,2,2,,,present,500.10,rem,lock,32802 9927215131019/vc02/142.99,2.000,u,10,10,rem,lock,19649 9927215131025/vc06/202.89,2.000,u,10,10,rem,lock,21944 9927215131031/vc11/237.99,2.000,u,10,10,rem,lock,9261 9927215131059/tpi/17589,19649,16027,4065,22349,21944,24102,48078,14089,32802 9927215131079/tpi/7972,8343,9261,26859,17112,4839,6122 9927215131080/tsys1/62.4,61.9,61.4,57.6,57.1,51.6,49.2,49.6,59.5,52.2 9927215131081/tsys2/86.1,81.2,82.7,77.7,78.4,78.6,88.0 9927215131081:!272151447 9927215144701:"data stop" 9927215144701:et 9927215144711:!+3s 9927215145013:tape 9927215145021/tape/off,02310,norm,stopped,stop,unlock,ready,rem 9927215145022:postob 9927215145022:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927215145050:nw2c1=19 9927215145103/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215145456:!272151729 9927215171825#trakl#SOURCE_ACQUIRED 9927215172901:preob 9927215173001/onsource/TRACKING 9927215173236/tpical/22515,24958,20535,5065,29139,28973,32227,63886,18278,43589 9927215173256/tpical/9484,9982,11614,33002,20988,5863,8140 9927215173263:!272151739 9927215173901:tape 9927215173910/tape/off,02310,norm,stopped,stop,unlock,ready,rem 9927215173910:st=for,135 9927215173921:"data start" 9927215173921:midob 9927215173999/onsource/TRACKING 9927215174001/wx/21.0,981.7,92.3,5.6 9927215174008/cable/+1.0865134E-02 9927215174100/fmout-gps/S 1.8145E-07 9927215174106/ifd/16,19,nor,nor,rem,16614,6919 9927215174112/if3/6,in,2,2,,,present,500.10,rem,lock,39108 9927215174118/vc02/142.99,2.000,u,10,10,rem,lock,22826 9927215174124/vc06/202.89,2.000,u,10,10,rem,lock,26022 9927215174130/vc11/237.99,2.000,u,10,10,rem,lock,9882 9927215174158/tpi/20598,22826,18710,4654,26379,26022,28760,56871,16614,39108 9927215174178/tpi/8142,8544,9882,27794,17682,4991,6919 9927215174180/tsys1/73.2,72.4,69.9,65.1,65.9,60.1,57.7,56.3,68.4,60.7 9927215174180/tsys2/87.4,86.0,83.5,82.5,81.7,80.6,78.7 9927215174180:!272151917 9927215191701:"data stop" 9927215191701:et 9927215191712:!+3s 9927215192014:tape 9927215192023/tape/off,03403,norm,stopped,stop,unlock,ready,rem 9927215192023:postob 9927215192023:source=0528+134,053056.4,133155.2,2000.0,neutral 9927215192151:nw2c1=19 9927215192204/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215192528:!272152111 9927215210325#trakl#SOURCE_ACQUIRED 9927215211101:preob 9927215211201/onsource/TRACKING 9927215211436/tpical/25812,28670,23639,5754,33658,33575,37424,$$$$$,21117,50689 9927215211456/tpical/9512,10182,11375,33297,21304,5950,7283 9927215211463:!272152121 9927215212101:tape 9927215212109/tape/off,03403,norm,stopped,stop,unlock,ready,rem 9927215212110:st=for,135 9927215212120:"data start" 9927215212121:midob 9927215212153/onsource/TRACKING 9927215212155/wx/21.0,981.8,91.9,14.4 9927215212185/cable/+1.0864348E-02 9927215212202/fmout-gps/S 1.8154E-07 9927215212207/ifd/16,19,nor,nor,rem,19343,6340 9927215212213/if3/6,in,2,2,,,present,500.10,rem,lock,45956 9927215212219/vc02/142.99,2.000,u,10,10,rem,lock,26346 9927215212225/vc06/202.89,2.000,u,10,10,rem,lock,30488 9927215212231/vc11/237.99,2.000,u,10,10,rem,lock,9740 9927215212259/tpi/23792,26346,21754,5326,30773,30488,33790,$$$$$,19343,45956 9927215212279/tpi/8195,8704,9740,28101,18003,5073,6340 9927215212281?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927215212281/tsys1/80.5,77.0,78.9,73.5,73.6,67.5,64.7,$$$$$$$$,74.9,67.6 9927215212281/tsys2/89.7,85.3,87.1,83.6,83.4,81.6,92.3 9927215212281:!272152259 9927215225901:"data stop" 9927215225901:et 9927215225912:!+3s 9927215230214:tape 9927215230223/tape/off,04496,norm,stopped,stop,unlock,ready,rem 9927215230223:postob 9927215230223:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927215230254:nw2c1=19 9927215230307/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215230633:!272152650 9927215263325#trakl#SOURCE_ACQUIRED 9927215265001:preob 9927215265151/onsource/TRACKING 9927215265386/tpical/29572,32879,27497,6567,39117,38950,43608,$$$$$,24508,59344 9927215265406/tpical/9646,10177,11470,33762,21508,5988,7363 9927215265413:!272152700 9927215270001:tape 9927215270010/tape/off,04496,norm,stopped,stop,unlock,ready,rem 9927215270010:st=for,135 9927215270021:"data start" 9927215270021:midob 9927215270053/onsource/TRACKING 9927215270055/wx/21.0,981.7,92.3,5.2 9927215270060/cable/+1.0863334E-02 9927215270101/fmout-gps/S 1.8234E-07 9927215270107/ifd/16,19,nor,nor,rem,22699,6421 9927215270113/if3/6,in,2,2,,,present,500.10,rem,lock,54480 9927215270119/vc02/142.99,2.000,u,10,10,rem,lock,30548 9927215270124/vc06/202.89,2.000,u,10,10,rem,lock,35799 9927215270130/vc11/237.99,2.000,u,10,10,rem,lock,9850 9927215270158/tpi/27463,30548,25558,6136,36213,35799,39928,$$$$$,22699,54480 9927215270178/tpi/8313,8726,9850,28611,18234,5131,6421 9927215270180?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927215270180/tsys1/89.2,89.4,90.4,86.1,86.2,77.9,75.6,$$$$$$$$,86.4,78.0 9927215270180/tsys2/90.0,87.2,88.9,85.9,85.1,84.6,93.7 9927215270181:!272152838 9927215283801:"data stop" 9927215283801:et 9927215283812:!+3s 9927215284114:tape 9927215284123/tape/off,05589,norm,stopped,stop,unlock,ready,rem 9927215284123:postob 9927215284123:source=1308+326,131028.7,322043.8,2000.0,neutral 9927215284251:nw2c1=19 9927215284304/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215284628:!272153344 9927215330474#trakl#SOURCE_ACQUIRED 9927215334401:preob 9927215334551/onsource/TRACKING 9927215334786/tpical/19470,21765,17855,4501,25230,25065,27695,55020,15775,37406 9927215334806/tpical/9351,9782,10829,32016,20257,5662,7031 9927215334813:!272153354 9927215335402:tape 9927215335411/tape/off,05589,norm,stopped,stop,unlock,ready,rem 9927215335412:st=for,135 9927215335422:"data start" 9927215335422:midob 9927215335451/onsource/TRACKING 9927215335453/wx/20.8,981.6,91.4,11.4 9927215335461/cable/+1.0863591E-02 9927215335501/fmout-gps/S 1.8156E-07 9927215335507/ifd/16,19,nor,nor,rem,14166,6079 9927215335513/if3/6,in,2,2,,,present,500.10,rem,lock,33065 9927215335519/vc02/142.99,2.000,u,10,10,rem,lock,19693 9927215335525/vc06/202.89,2.000,u,10,10,rem,lock,22182 9927215335531/vc11/237.99,2.000,u,10,10,rem,lock,9216 9927215335559/tpi/17623,19693,16095,4099,22509,22182,24277,48346,14166,33065 9927215335579/tpi/7980,8309,9216,26741,16928,4793,6079 9927215335580/tsys1/64.7,64.0,62.1,56.9,56.9,52.2,49.4,50.2,60.1,52.9 9927215335581/tsys2/83.7,81.4,83.2,78.3,77.6,77.3,87.1 9927215335581:!272153532 9927215353201:"data stop" 9927215353201:et 9927215353212:!+3s 9927215353514:tape 9927215353522/tape/off,06681,norm,stopped,stop,unlock,ready,rem 9927215353523:postob 9927215353523:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927215353601:nw2c1=19 9927215353654/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215353978:!272153906 9927215374475#trakl#SOURCE_ACQUIRED 9927215390601:preob 9927215390699/onsource/TRACKING 9927215390934/tpical/21250,23831,19648,4849,27813,27550,30662,60910,17345,41386 9927215390954/tpical/9410,9855,10963,32409,20508,5727,7077 9927215390961:!272153916 9927215391601:tape 9927215391611/tape/off,06681,norm,stopped,stop,unlock,ready,rem 9927215391611:st=for,135 9927215391622:"data start" 9927215391622:midob 9927215391652/onsource/TRACKING 9927215391654/wx/20.7,981.5,92.4,10.5 9927215391680/cable/+1.0862038E-02 9927215391701/fmout-gps/S 1.8111E-07 9927215391707/ifd/16,19,nor,nor,rem,15739,6145 9927215391713/if3/6,in,2,2,,,present,500.10,rem,lock,37074 9927215391719/vc02/142.99,2.000,u,10,10,rem,lock,21736 9927215391725/vc06/202.89,2.000,u,10,10,rem,lock,24731 9927215391731/vc11/237.99,2.000,u,10,10,rem,lock,9374 9927215391759/tpi/19419,21736,17916,4458,25179,24731,27338,54321,15739,37074 9927215391778/tpi/8069,8409,9374,27164,17260,4864,6145 9927215391780/tsys1/72.1,70.1,70.4,64.9,65.8,59.7,57.2,57.2,67.0,59.8 9927215391780/tsys2/86.6,84.0,86.0,80.1,81.1,79.2,90.1 9927215391781:!272154054 9927215405401:"data stop" 9927215405401:et 9927215405412:!+3s 9927215405714:tape 9927215405723/tape/off,07774,norm,stopped,stop,unlock,ready,rem 9927215405723:postob 9927215405723:source=1219+044,122222.5,041315.8,2000.0,neutral 9927215405752:midtp 9927215405987/tpzero/502,709,451,814,333,619,96,317,302,149 9927215410007/tpzero/634,624,619,265,374,485,759 9927215410023/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927215410033/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927215410042/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927215410051/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927215410060/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927215410069/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927215410070:nw2c2=20 9927215410218/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215410543:fastf=0m52s 9927215415771:!272154508 9927215423575#trakl#SOURCE_ACQUIRED 9927215450801:preob 9927215450899/onsource/TRACKING 9927215451134/tpical/19825,22221,18231,4563,25901,25699,28475,56707,16109,38460 9927215451154/tpical/9263,9631,10808,31851,20201,5628,6982 9927215451161:!272154518 9927215451801:tape 9927215451810/tape/off,08930,norm,stopped,stop,unlock,ready,rem 9927215451810:st=rev,135 9927215451821:"data start" 9927215451821:midob 9927215451852/onsource/TRACKING 9927215451854/wx/20.7,981.5,92.7,7.6 9927215451861/cable/+1.0862549E-02 9927215451901/fmout-gps/S 1.8174E-07 9927215451907/ifd/16,19,nor,nor,rem,14472,6033 9927215451913/if3/6,in,2,2,,,present,500.10,rem,lock,34022 9927215451919/vc02/142.99,2.000,u,10,10,rem,lock,20061 9927215451925/vc06/202.89,2.000,u,10,10,rem,lock,22740 9927215451931/vc11/237.99,2.000,u,10,10,rem,lock,9174 9927215451959/tpi/17965,20061,16431,4158,23151,22740,24986,49831,14472,34022 9927215451979/tpi/7914,8174,9174,26587,16888,4763,6033 9927215451981/tsys1/65.5,62.5,62.0,57.6,57.9,52.2,49.8,50.3,60.4,53.3 9927215451981/tsys2/84.2,80.9,81.7,78.1,77.8,77.2,86.8 9927215451981:!272154726 9927215472601:"data stop" 9927215472601:et 9927215472612:!+3s 9927215472914:tape 9927215472923/tape/off,07500,norm,stopped,stop,unlock,ready,rem 9927215472923:postob 9927215472923:source=0718+793,072611.7,791131.0,2000.0,neutral 9927215472951:check2c2 9927215480950?ERROR qg -303 Track 11 parity errors exceed threshold. 9927215480950?ERROR qg -305 AUX data differs from expected value on track 11. 9927215480950?ERROR qg -304 Track 11 sync errors exceed threshold. 9927215480950/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927215480951/parity/0,0,0,0,0,367,0,0,0,0,0,0,0,0 9927215482319:nw2c2=20 9927215482372/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215482695:!272155532 9927215542974#trakl#SOURCE_ACQUIRED 9927215553201:preob 9927215553251/onsource/TRACKING 9927215553487/tpical/19321,21653,17788,4465,25107,24874,27503,54672,15671,37178 9927215553506/tpical/9197,9722,10744,31559,19976,5597,6961 9927215553513:!272155542 9927215554201:tape 9927215554210/tape/off,07504,norm,stopped,stop,unlock,ready,rem 9927215554211:st=rev,135 9927215554221:"data start" 9927215554221:midob 9927215554252/onsource/TRACKING 9927215554254/wx/20.5,981.4,94.4,2.5 9927215554285/cable/+1.0862025E-02 9927215554301/fmout-gps/S 1.8230E-07 9927215554307/ifd/16,19,nor,nor,rem,14077,6003 9927215554313/if3/6,in,2,2,,,present,500.10,rem,lock,32858 9927215554319/vc02/142.99,2.000,u,10,10,rem,lock,19624 9927215554324/vc06/202.89,2.000,u,10,10,rem,lock,21992 9927215554330/vc11/237.99,2.000,u,10,10,rem,lock,9120 9927215554358/tpi/17477,19624,16050,4073,22422,21992,24098,47965,14077,32858 9927215554378/tpi/7854,8233,9120,26295,16677,4726,6003 9927215554380/tsys1/64.3,65.1,62.6,58.0,57.4,51.8,49.2,49.6,60.3,52.8 9927215554380/tsys2/83.9,79.8,81.7,77.2,77.1,76.0,85.4 9927215554380:!272155720 9927215572001:"data stop" 9927215572001:et 9927215572012:!+3s 9927215572314:tape 9927215572323/tape/off,06411,norm,stopped,stop,unlock,ready,rem 9927215572323:postob 9927215572323:source=1611+343,161341.1,341247.9,2000.0,cw 9927215572350:nw2c2=20 9927215572403/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215572730:!272160123 9927216004225#trakl#SOURCE_ACQUIRED 9927216012301:preob 9927216012353/onsource/TRACKING 9927216012588/tpical/22660,25395,20986,5128,29485,29245,32542,64525,18488,44005 9927216012608/tpical/9538,10047,11058,32905,20721,5782,7198 9927216012615:!272160133 9927216013301:tape 9927216013310/tape/off,06411,norm,stopped,stop,unlock,ready,rem 9927216013311:st=rev,135 9927216013321:"data start" 9927216013321:midob 9927216013400/onsource/TRACKING 9927216013402/wx/20.4,981.6,95.4,9.6 9927216013421/cable/+1.0859329E-02 9927216013501/fmout-gps/S 1.8215E-07 9927216013507/ifd/16,19,nor,nor,rem,17181,6244 9927216013513/if3/6,in,2,2,,,present,500.10,rem,lock,40444 9927216013519/vc02/142.99,2.000,u,10,10,rem,lock,23654 9927216013525/vc06/202.89,2.000,u,10,10,rem,lock,26919 9927216013531/vc11/237.99,2.000,u,10,10,rem,lock,9440 9927216013559/tpi/21105,23654,19527,4807,27387,26919,29727,59101,17181,40444 9927216013579/tpi/8189,8558,9440,27564,17439,4908,6244 9927216013581/tsys1/92.5,92.0,91.3,86.8,90.0,78.9,73.5,75.6,90.1,79.0 9927216013581/tsys2/87.4,83.2,85.1,79.8,81.2,79.0,89.7 9927216013581:!272160311 9927216023895;op=j. lafrance 9927216031101:"data stop" 9927216031101:et 9927216031111:!+3s 9927216031414:tape 9927216031423/tape/off,05318,norm,stopped,stop,unlock,ready,rem 9927216031423:postob 9927216031423:source=3c418,203837.0,511912.7,2000.0,neutral 9927216031550:nw2c2=20 9927216031603/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927216031929:!272160540 9927216051974#trakl#SOURCE_ACQUIRED 9927216054001:preob 9927216054099/onsource/TRACKING 9927216054334/tpical/32632,36373,30680,7333,43900,43763,49126,$$$$$,27405,65535 9927216054354/tpical/10098,10693,11767,35154,22173,6164,7621 9927216054361:!272160550 9927216055001:tape 9927216055010/tape/off,05318,norm,moving,stop,unlock,ready,rem 9927216055011:st=rev,135 9927216055021:"data start" 9927216055021:midob 9927216055150/onsource/TRACKING 9927216055152/wx/20.2,981.6,96.1,11.4 9927216055160/cable/+1.0858694E-02 9927216055200/fmout-gps/S 1.8094E-07 9927216055206/ifd/16,19,nor,nor,rem,26301,6670 9927216055212/if3/6,in,2,2,,,present,500.10,rem,lock,64048 9927216055218/vc02/142.99,2.000,u,10,10,rem,lock,34954 9927216055224/vc06/202.89,2.000,u,10,10,rem,lock,41875 9927216055230/vc11/237.99,2.000,u,10,10,rem,lock,10166 9927216055258/tpi/31392,34954,29566,7053,42157,41875,46788,$$$$$,26301,64048 9927216055278/tpi/8728,9213,10166,29899,18906,5301,6670 9927216055279?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216055279?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927216055279/tsys1/173.9,168.4,182.4,155.5,167.5,152.5,139.4,$$$$$$$$,164.4,$$$$$$$$ 9927216055280/tsys2/92.2,90.6,93.1,88.0,88.5,87.1,97.0 9927216055280:!272160728 9927216072801:"data stop" 9927216072801:et 9927216072811:!+3s 9927216073114:tape 9927216073123/tape/off,04225,norm,stopped,stop,unlock,ready,rem 9927216073123:postob 9927216073123:source=3c371,180650.7,694928.1,2000.0,neutral 9927216073200:nw2c2=20 9927216073253/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927216073629:!272161024 9927216100475#trakl#SOURCE_ACQUIRED 9927216102401:preob 9927216102453/onsource/TRACKING 9927216102688/tpical/20207,22552,18718,4690,26680,26452,29394,58541,16526,39698 9927216102708/tpical/9410,9902,10837,32088,20266,5656,7048 9927216102715:!272161034 9927216103401:tape 9927216103410/tape/off,04225,norm,stopped,stop,unlock,ready,rem 9927216103410:st=rev,135 9927216103421:"data start" 9927216103421:midob 9927216103452/onsource/TRACKING 9927216103454/wx/20.0,981.6,97.9,6.8 9927216103492/cable/+1.0858942E-02 9927216103500/fmout-gps/S 1.8082E-07 9927216103506/ifd/16,19,nor,nor,rem,14977,6091 9927216103512/if3/6,in,2,2,,,present,500.10,rem,lock,35475 9927216103518/vc02/142.99,2.000,u,10,10,rem,lock,20591 9927216103524/vc06/202.89,2.000,u,10,10,rem,lock,23655 9927216103530/vc11/237.99,2.000,u,10,10,rem,lock,9201 9927216103558/tpi/18418,20591,17020,4312,24116,23655,26134,51975,14977,35475 9927216103578/tpi/8057,8407,9201,26829,16944,4786,6091 9927216103579/tsys1/69.9,70.8,68.1,64.6,64.7,57.5,55.8,54.9,66.1,58.4 9927216103580/tsys2/85.6,81.3,81.9,78.8,77.9,77.2,87.0 9927216103580:!272161212 9927216121201:"data stop" 9927216121201:et 9927216121211:!+3s 9927216121513:tape 9927216121522/tape/off,03132,norm,stopped,stop,unlock,ready,rem 9927216121522:postob 9927216121522:source=0014+813,001708.5,813508.1,2000.0,neutral 9927216121599:nw2c2=20 9927216121652/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927216121977:!272161344 9927216133425#trakl#SOURCE_ACQUIRED 9927216134401:preob 9927216134453/onsource/TRACKING 9927216134688/tpical/22865,25557,21306,5244,30302,30113,33674,$$$$$,18841,45397 9927216134708/tpical/9497,9945,10899,32314,20375,5690,7070 9927216134715:!272161354 9927216135402:tape 9927216135411/tape/off,03132,norm,stopped,stop,unlock,ready,rem 9927216135411:st=rev,135 9927216135422:"data start" 9927216135422:midob 9927216135451/onsource/TRACKING 9927216135453/wx/19.9,981.4,98.3,3.8 9927216135473/cable/+1.0859786E-02 9927216135501/fmout-gps/S 1.8211E-07 9927216135507/ifd/16,19,nor,nor,rem,16582,6107 9927216135513/if3/6,in,2,2,,,present,500.10,rem,lock,39443 9927216135519/vc02/142.99,2.000,u,10,10,rem,lock,22684 9927216135525/vc06/202.89,2.000,u,10,10,rem,lock,26245 9927216135531/vc11/237.99,2.000,u,10,10,rem,lock,9252 9927216135559/tpi/20226,22684,18871,4688,26619,26245,29092,57855,16582,39443 9927216135579/tpi/8115,8427,9252,26966,17025,4816,6107 9927216135581?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216135581/tsys1/52.2,53.4,52.8,48.6,49.8,46.2,44.2,$$$$$$$$,50.3,46.1 9927216135581/tsys2/84.5,80.2,81.8,77.9,77.6,77.4,86.7 9927216135581:!272161532 9927216153201:"data stop" 9927216153201:et 9927216153211:!+3s 9927216153513:tape 9927216153522/tape/off,02040,norm,stopped,stop,unlock,ready,rem 9927216153522:postob 9927216153522:source=1726+455,172727.7,453039.7,2000.0,cw 9927216153551:nw2c2=20 9927216153604/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927216153931:!272161957 9927216175376#trakl#SOURCE_ACQUIRED 9927216195701:preob 9927216195801/onsource/TRACKING 9927216200036/tpical/20349,22721,18818,4777,26855,26622,29568,58817,16627,39938 9927216200056/tpical/9398,9892,10862,32208,20331,5668,7077 9927216200063:!272162007 9927216200701:tape 9927216200710/tape/off,02040,norm,stopped,stop,unlock,ready,rem 9927216200710:st=rev,135 9927216200721:"data start" 9927216200721:midob 9927216200851/onsource/TRACKING 9927216200853/wx/19.8,981.4,99.0,5.1 9927216200876/cable/+1.0856724E-02 9927216200900/fmout-gps/S 1.8182E-07 9927216200906/ifd/16,19,nor,nor,rem,15059,6122 9927216200912/if3/6,in,2,2,,,present,500.10,rem,lock,35697 9927216200918/vc02/142.99,2.000,u,10,10,rem,lock,20736 9927216200924/vc06/202.89,2.000,u,10,10,rem,lock,23798 9927216200930/vc11/237.99,2.000,u,10,10,rem,lock,9248 9927216200958/tpi/18557,20736,17115,4383,24222,23798,26267,52381,15059,35697 9927216200978/tpi/8042,8404,9248,26929,17012,4798,6122 9927216200980/tsys1/70.3,70.4,68.3,63.2,63.3,57.3,55.3,56.5,65.7,58.5 9927216200980/tsys2/85.3,81.6,83.5,78.8,78.3,77.4,87.7 9927216200980:!272162145 9927216214501:"data stop" 9927216214501:et 9927216214511:!+3s 9927216214813:tape 9927216214822/tape/off,00947,norm,stopped,stop,unlock,ready,rem 9927216214822:postob 9927216214822:source=oj287,085448.9,200630.6,2000.0,neutral 9927216214951:midtp 9927216215186/tpzero/505,709,453,814,329,621,93,313,316,149 9927216215206/tpzero/636,624,620,270,381,490,777 9927216215222/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927216215231/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927216215240/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927216215250/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927216215259/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927216215268/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927216215268:nw2c1=21 9927216215454/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216215780:fastr=0m37s 9927216223508:!272162850 9927216253445;wx 9927216253449/wx/19.7,981.1,99.6,6.3 9927216261010;"wx= overcast, light breeze, light rain, warm. 9927216261353;rxmon 9927216261362/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927216261371/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927216261380/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927216261389/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927216261399/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927216261409/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927216262652;"rxtemps 20k=29.07 70k=55.57 9927216280574#trakl#SOURCE_ACQUIRED 9927216285001:preob 9927216285101/onsource/TRACKING 9927216285336/tpical/19132,21357,17540,4507,25134,24937,27690,55090,15541,37318 9927216285356/tpical/9200,9641,10775,31678,20109,5615,6950 9927216285363:!272162900 9927216290001:tape 9927216290009/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927216290010:st=for,135 9927216290020:"data start" 9927216290020:midob 9927216290101/onsource/TRACKING 9927216290103/wx/19.7,981.0,99.7,5.3 9927216290120/cable/+1.0859650E-02 9927216290201/fmout-gps/S 1.8148E-07 9927216290207/ifd/16,19,nor,nor,rem,13934,6013 9927216290213/if3/6,in,2,2,,,present,500.10,rem,lock,32947 9927216290218/vc02/142.99,2.000,u,10,10,rem,lock,19249 9927216290224/vc06/202.89,2.000,u,10,10,rem,lock,22034 9927216290230/vc11/237.99,2.000,u,10,10,rem,lock,9164 9927216290258/tpi/17278,19249,15795,4104,22414,22034,24268,48313,13934,32947 9927216290278/tpi/7862,8191,9164,26483,16840,4759,6013 9927216290280/tsys1/63.1,61.4,61.4,57.0,56.7,51.5,49.3,49.4,59.1,52.4 9927216290280/tsys2/84.3,81.5,82.8,78.8,78.6,77.8,87.2 9927216290280:!272163038 9927216303801:"data stop" 9927216303801:et 9927216303811:!+3s 9927216304113:tape 9927216304122/tape/off,01221,norm,stopped,stop,unlock,ready,rem 9927216304122:postob 9927216304122:source=1030+074,103334.0,071126.1,2000.0,neutral 9927216304249:check2c1 9927216312281?ERROR qg -303 Track 11 parity errors exceed threshold. 9927216312281?ERROR qg -305 AUX data differs from expected value on track 11. 9927216312281?ERROR qg -304 Track 11 sync errors exceed threshold. 9927216312281/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927216312282/parity/0,0,0,0,0,253,0,0,0,0,0,0,0,0 9927216313617:nw2c1=21 9927216313670/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216313996:!272163349 9927216322675#trakl#SOURCE_ACQUIRED 9927216334901:preob 9927216335001/onsource/TRACKING 9927216335236/tpical/18613,20731,17011,4389,24378,24254,26912,53546,15086,36222 9927216335256/tpical/9093,9593,10757,31373,20090,5605,6923 9927216335263:!272163359 9927216335901:tape 9927216335910/tape/off,01216,norm,stopped,stop,unlock,ready,rem 9927216335910:st=for,135 9927216335921:"data start" 9927216335921:midob 9927216340051/onsource/TRACKING 9927216340053/wx/19.7,980.8,100.0,0.0 9927216340072/cable/+1.0859400E-02 9927216340100/fmout-gps/S 1.8234E-07 9927216340106/ifd/16,19,nor,nor,rem,13443,5979 9927216340112/if3/6,in,2,2,,,present,500.10,rem,lock,31780 9927216340118/vc02/142.99,2.000,u,10,10,rem,lock,18662 9927216340124/vc06/202.89,2.000,u,10,10,rem,lock,21296 9927216340130/vc11/237.99,2.000,u,10,10,rem,lock,9143 9927216340158/tpi/16719,18662,15212,3982,21638,21296,23432,46648,13443,31780 9927216340178/tpi/7775,8135,9143,26146,16783,4747,5979 9927216340179/tsys1/59.8,60.6,57.3,54.3,54.3,48.8,46.8,46.9,55.8,49.7 9927216340180/tsys2/84.6,80.4,82.4,77.3,77.4,77.4,86.0 9927216340180:!272163712 9927216371201:"data stop" 9927216371201:et 9927216371212:!+3s 9927216371514:tape 9927216371523/tape/off,03378,norm,stopped,stop,unlock,ready,rem 9927216371523:postob 9927216371523:source=1308+326,131028.7,322043.8,2000.0,neutral 9927216371550:nw2c1=21 9927216371603/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216371929:!272164047 9927216402774#trakl#SOURCE_ACQUIRED 9927216404701:preob 9927216404849/onsource/TRACKING 9927216405084/tpical/19608,21913,18082,4608,25638,25574,28275,56112,15986,38128 9927216405104/tpical/9355,9857,11023,32432,20645,5760,7093 9927216405111:!272164057 9927216405701:tape 9927216405711/tape/off,03378,norm,stopped,stop,unlock,ready,rem 9927216405711:st=for,135 9927216405722:"data start" 9927216405722:midob 9927216405850/onsource/TRACKING 9927216405852/wx/19.7,980.6,100.0,2.5 9927216405868/cable/+1.0859207E-02 9927216405900/fmout-gps/S 1.8119E-07 9927216405906/ifd/16,19,nor,nor,rem,14338,6138 9927216405912/if3/6,in,2,2,,,present,500.10,rem,lock,33694 9927216405918/vc02/142.99,2.000,u,10,10,rem,lock,19759 9927216405924/vc06/202.89,2.000,u,10,10,rem,lock,22626 9927216405930/vc11/237.99,2.000,u,10,10,rem,lock,9393 9927216405958/tpi/17725,19759,16303,4192,22911,22626,24826,49227,14338,33694 9927216405978/tpi/8017,8378,9393,27141,17323,4872,6138 9927216405979/tsys1/63.8,61.7,62.2,56.7,57.8,52.1,50.1,49.6,59.4,52.8 9927216405980/tsys2/86.1,81.8,84.0,79.3,79.6,77.0,87.6 9927216405980:!272164235 9927216423501:"data stop" 9927216423501:et 9927216423512:!+3s 9927216423814:tape 9927216423823/tape/off,04471,norm,stopped,stop,unlock,ready,rem 9927216423823:postob 9927216423823:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927216423961:nw2c1=21 9927216424071/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216424416:!272164907 9927216462675#trakl#SOURCE_ACQUIRED 9927216490702:preob 9927216490852/onsource/TRACKING 9927216491087/tpical/31380,34882,29314,7080,41670,41509,46538,$$$$$,26158,63457 9927216491107/tpical/9793,10367,11806,34773,22286,6191,7567 9927216491114:!272164917 9927216491701:tape 9927216491710/tape/off,04471,norm,stopped,stop,unlock,ready,rem 9927216491710:st=for,135 9927216491721:"data start" 9927216491721:midob 9927216491801/onsource/TRACKING 9927216491803/wx/19.7,980.5,100.0,2.3 9927216491837/cable/+1.0856625E-02 9927216491903/fmout-gps/S 1.8127E-07 9927216491909/ifd/16,19,nor,nor,rem,25241,6645 9927216491915/if3/6,in,2,2,,,present,500.10,rem,lock,60734 9927216491921/vc02/142.99,2.000,u,10,10,rem,lock,33678 9927216491927/vc06/202.89,2.000,u,10,10,rem,lock,39796 9927216491933/vc11/237.99,2.000,u,10,10,rem,lock,10233 9927216491961/tpi/30325,33678,28402,6858,40157,39796,44441,$$$$$,25241,60734 9927216491980/tpi/8496,8961,10233,29688,19060,5348,6645 9927216491982?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216491982/tsys1/197.3,191.1,213.9,190.0,183.7,159.6,147.6,$$$$$$$$,189.7,155.3 9927216491983/tsys2/94.6,92.6,95.4,90.3,90.4,90.0,99.3 9927216491983:!272165055 9927216505501:"data stop" 9927216505501:et 9927216505512:!+3s 9927216505814:tape 9927216505823/tape/off,05564,norm,stopped,stop,unlock,ready,rem 9927216505823:postob 9927216505823:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927216505854:nw2c1=21 9927216505907/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216510233:!272165410 9927216531675#trakl#SOURCE_ACQUIRED 9927216541001:preob 9927216541053/onsource/TRACKING 9927216541288/tpical/20616,22946,18913,4803,27085,26872,29876,59511,16794,40346 9927216541308/tpical/9302,9770,11002,32281,20659,5780,7100 9927216541315:!272165420 9927216542001:tape 9927216542010/tape/off,05564,norm,stopped,stop,unlock,ready,rem 9927216542011:st=for,135 9927216542021:"data start" 9927216542021:midob 9927216542150/onsource/TRACKING 9927216542152/wx/19.7,980.6,100.0,2.5 9927216542185/cable/+1.0858135E-02 9927216542201/fmout-gps/S 1.8160E-07 9927216542207/ifd/16,19,nor,nor,rem,14890,6147 9927216542213/if3/6,in,2,2,,,present,500.10,rem,lock,35227 9927216542219/vc02/142.99,2.000,u,10,10,rem,lock,20449 9927216542225/vc06/202.89,2.000,u,10,10,rem,lock,23483 9927216542231/vc11/237.99,2.000,u,10,10,rem,lock,9359 9927216542259/tpi/18430,20449,16851,4329,23922,23483,25882,51646,14890,35227 9927216542278/tpi/7970,8302,9359,27078,17330,4911,6147 9927216542280/tsys1/57.2,55.2,55.5,51.8,52.1,47.1,45.1,45.6,53.4,47.8 9927216542280/tsys2/85.9,81.6,83.0,80.4,79.5,79.4,88.0 9927216542281:!272165607 9927216560701:"data stop" 9927216560701:et 9927216560712:!+3s 9927216561014:tape 9927216561023/tape/off,06758,norm,stopped,stop,unlock,ready,rem 9927216561023:postob 9927216561023:source=1219+044,122222.5,041315.8,2000.0,neutral 9927216561100:nw2c1=21 9927216561153/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216561477:!272170030 9927216574225#trakl#SOURCE_ACQUIRED 9927217003001:preob 9927217003149/onsource/TRACKING 9927217003384/tpical/20397,22788,18867,4794,27021,26916,29949,59456,16688,40286 9927217003404/tpical/9191,9659,10938,31964,20409,5696,7012 9927217003411:!272170040 9927217004001:tape 9927217004011/tape/off,06758,norm,stopped,stop,unlock,ready,rem 9927217004011:st=for,135 9927217004022:"data start" 9927217004022:midob 9927217004100/onsource/TRACKING 9927217004102/wx/19.6,980.6,100.0,4.2 9927217004129/cable/+1.0858748E-02 9927217004201/fmout-gps/S 1.8160E-07 9927217004207/ifd/16,19,nor,nor,rem,15073,6059 9927217004213/if3/6,in,2,2,,,present,500.10,rem,lock,35875 9927217004219/vc02/142.99,2.000,u,10,10,rem,lock,20695 9927217004225/vc06/202.89,2.000,u,10,10,rem,lock,24012 9927217004231/vc11/237.99,2.000,u,10,10,rem,lock,9299 9927217004259/tpi/18534,20695,17063,4390,24306,24012,26495,52684,15073,35875 9927217004278/tpi/7851,8208,9299,26738,17106,4820,6059 9927217004280/tsys1/67.5,66.7,64.3,61.8,61.6,56.2,53.4,54.0,63.8,56.5 9927217004281/tsys2/84.0,81.6,82.7,79.1,79.0,77.2,86.5 9927217004281:!272170248 9927217024801:"data stop" 9927217024801:et 9927217024812:!+3s 9927217025114:tape 9927217025123/tape/off,08188,norm,stopped,stop,unlock,ready,rem 9927217025123:postob 9927217025123:source=1014+615,101725.9,611627.5,2000.0,neutral 9927217025200:midtp 9927217025436/tpzero/498,708,449,817,327,618,96,316,306,149 9927217025455/tpzero/635,624,621,264,376,489,761 9927217025471/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927217025481/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927217025490/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927217025499/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927217025508/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217025518/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927217025518:nw2c2=22 9927217025682/pass/22,22,auto,220.0,220.0,220.2,220.0,0.2,0.0 9927217030009:fastf=0m34s 9927217033436:!272170905 9927217080275#trakl#SOURCE_ACQUIRED 9927217090501:preob 9927217090553/onsource/TRACKING 9927217090788/tpical/20024,22473,18567,4727,26427,26405,29254,58070,16445,39414 9927217090808/tpical/9400,9866,10933,32470,20488,5708,7106 9927217090815:!272170915 9927217091501:tape 9927217091511/tape/off,08939,norm,stopped,stop,unlock,ready,rem 9927217091511:st=rev,135 9927217091522:"data start" 9927217091522:midob 9927217091600/onsource/TRACKING 9927217091602/wx/19.5,980.4,100.0,7.2 9927217091609/cable/+1.0857785E-02 9927217091700/fmout-gps/S 1.8146E-07 9927217091706/ifd/16,19,nor,nor,rem,14880,6152 9927217091712/if3/6,in,2,2,,,present,500.10,rem,lock,35190 9927217091718/vc02/142.99,2.000,u,10,10,rem,lock,20470 9927217091724/vc06/202.89,2.000,u,10,10,rem,lock,23602 9927217091730/vc11/237.99,2.000,u,10,10,rem,lock,9321 9927217091758/tpi/18288,20470,16875,4339,23814,23602,26031,51584,14880,35190 9927217091778/tpi/8042,8398,9321,27178,17180,4845,6152 9927217091779/tsys1/71.5,68.9,67.8,63.4,62.7,57.2,56.2,55.2,65.0,57.9 9927217091780/tsys2/85.1,82.7,84.2,79.4,79.3,78.8,88.2 9927217091780:!272171053 9927217105301:"data stop" 9927217105301:et 9927217105312:!+3s 9927217105614:tape 9927217105623/tape/off,07846,norm,stopped,stop,unlock,ready,rem 9927217105623:postob 9927217105623:source=0552+398,055530.8,394849.2,2000.0,neutral 9927217105650:check2c2 9927217113674?ERROR qg -303 Track 11 parity errors exceed threshold. 9927217113674?ERROR qg -305 AUX data differs from expected value on track 11. 9927217113674?ERROR qg -304 Track 11 sync errors exceed threshold. 9927217113674/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,16.,0. 9927217113674/parity/0,0,0,0,0,343,0,0,0,0,0,0,0,0 9927217115018:nw2c2=22 9927217115071/pass/22,22,auto,220.0,220.0,220.2,220.0,0.2,0.0 9927217115396:!272171545 9927217133424#trakl#SOURCE_ACQUIRED 9927217154501:preob 9927217154601/onsource/TRACKING 9927217154836/tpical/21837,24422,20204,5075,28951,28698,31961,63505,17903,43164 9927217154856/tpical/9515,10089,11201,33095,20976,5854,7221 9927217154862:!272171555 9927217155501:tape 9927217155510/tape/off,07849,norm,stopped,stop,unlock,ready,rem 9927217155511:st=rev,135 9927217155522:"data start" 9927217155522:midob 9927217155600/onsource/TRACKING 9927217155602/wx/19.5,980.3,100.0,0.0 9927217155640/cable/+1.0856208E-02 9927217155700/fmout-gps/S 1.8096E-07 9927217155706/ifd/16,19,nor,nor,rem,16053,6263 9927217155712/if3/6,in,2,2,,,present,500.10,rem,lock,38211 9927217155718/vc02/142.99,2.000,u,10,10,rem,lock,22011 9927217155724/vc06/202.89,2.000,u,10,10,rem,lock,25424 9927217155730/vc11/237.99,2.000,u,10,10,rem,lock,9544 9927217155758/tpi/19710,22011,18159,4613,25853,25424,28074,55919,16053,38211 9927217155778/tpi/8161,8603,9544,27809,17649,4975,6263 9927217155780/tsys1/63.0,61.7,60.4,57.4,57.5,52.9,50.2,51.2,59.4,53.6 9927217155780/tsys2/86.8,83.8,84.1,81.3,81.0,79.7,89.7 9927217155780:!272171733 9927217173301:"data stop" 9927217173301:et 9927217173312:!+3s 9927217173614:tape 9927217173623/tape/off,06756,norm,stopped,stop,unlock,ready,rem 9927217173623:postob 9927217173623:source=oj287,085448.9,200630.6,2000.0,neutral 9927217173700:nw2c2=22 9927217173753/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217174078:!272171938 9927217193801:preob 9927217193899?ERROR AN -103 Pointing computer tracking errors are too large. 9927217193899?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927217193899/onsource/SLEWING 9927217194135/tpical/21159,23835,19726,4977,28229,28021,31318,62101,17451,42130 9927217194155/tpical/9266,9823,10916,31978,20449,5701,7034 9927217194162:!272171948 9927217194801:tape 9927217194811/tape/off,06756,norm,stopped,stop,unlock,ready,rem 9927217194811:st=rev,135 9927217194822:"data start" 9927217194822:midob 9927217194915?ERROR AN -103 Pointing computer tracking errors are too large. 9927217194915?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927217194915/onsource/SLEWING 9927217194918/wx/19.5,980.4,100.0,0.4 9927217194945/cable/+1.0857230E-02 9927217195004/fmout-gps/S 1.8145E-07 9927217195016/ifd/16,19,nor,nor,rem,16462,6100 9927217195022/if3/6,in,2,2,,,present,500.10,rem,lock,39312 9927217195027/vc02/142.99,2.000,u,10,10,rem,lock,22519 9927217195033/vc06/202.89,2.000,u,10,10,rem,lock,26138 9927217195039/vc11/237.99,2.000,u,10,10,rem,lock,9316 9927217195067/tpi/20043,22519,18619,4726,26537,26138,29014,57750,16462,39312 9927217195087/tpi/7960,8360,9316,26833,17148,4842,6100 9927217195089/tsys1/122.2,115.7,114.6,108.7,108.1,94.6,87.6,92.1,114.0,97.0 9927217195089/tsys2/87.6,82.5,84.8,80.6,79.3,79.1,89.2 9927217195089:!272172126 9927217195525#trakl#SOURCE_ACQUIRED 9927217212601:"data stop" 9927217212601:et 9927217212612:!+3s 9927217212914:tape 9927217212923/tape/off,05663,norm,stopped,stop,unlock,ready,rem 9927217212923:postob 9927217212923:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927217212952:nw2c2=22 9927217213005/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217213330:!272172512 9927217245474#trakl#SOURCE_ACQUIRED 9927217251201:preob 9927217251301/onsource/TRACKING 9927217251536/tpical/23590,26107,21548,5385,30942,30654,34144,$$$$$,19218,46346 9927217251556/tpical/9848,10442,11794,34622,22126,6161,7538 9927217251563:!272172522 9927217252201:tape 9927217252209/tape/off,05663,norm,stopped,stop,unlock,ready,rem 9927217252210:st=rev,135 9927217252221:"data start" 9927217252221:midob 9927217252351/onsource/TRACKING 9927217252353/wx/19.5,980.3,100.0,2.5 9927217252376/cable/+1.0855097E-02 9927217252400/fmout-gps/S 1.8256E-07 9927217252406/ifd/16,19,nor,nor,rem,17587,6594 9927217252412/if3/6,in,2,2,,,present,500.10,rem,lock,41954 9927217252418/vc02/142.99,2.000,u,10,10,rem,lock,24011 9927217252424/vc06/202.89,2.000,u,10,10,rem,lock,27783 9927217252430/vc11/237.99,2.000,u,10,10,rem,lock,10184 9927217252458/tpi/21708,24011,19784,4982,28270,27783,30796,61287,17587,41954 9927217252478/tpi/8512,8987,10184,29449,18851,5288,6594 9927217252480?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217252480/tsys1/78.7,77.6,76.5,72.1,73.0,66.0,64.0,$$$$$$$$,74.0,66.4 9927217252480/tsys2/92.0,89.7,92.7,88.1,88.1,85.8,96.5 9927217252480:!272172700 9927217270001:"data stop" 9927217270001:et 9927217270012:!+3s 9927217270316:tape 9927217270331/tape/off,04570,norm,stopped,stop,unlock,ready,rem 9927217270331:postob 9927217270332:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927217270500:nw2c2=22 9927217270553/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217270877:!272172822 9927217282174#trakl#SOURCE_ACQUIRED 9927217282201:preob 9927217282352/onsource/TRACKING 9927217282587/tpical/24089,26613,22040,5494,31646,31357,34873,$$$$$,19648,47381 9927217282607/tpical/9805,10360,11633,34297,21888,6085,7481 9927217282614:!272172832 9927217283201:tape 9927217283209/tape/off,04570,norm,stopped,stop,unlock,ready,rem 9927217283210:st=rev,135 9927217283221:"data start" 9927217283221:midob 9927217283351/onsource/TRACKING 9927217283353/wx/19.5,980.2,100.0,0.0 9927217283384/cable/+1.0854442E-02 9927217283400/fmout-gps/S 1.8193E-07 9927217283406/ifd/16,19,nor,nor,rem,18113,6529 9927217283412/if3/6,in,2,2,,,present,500.10,rem,lock,43211 9927217283418/vc02/142.99,2.000,u,10,10,rem,lock,24629 9927217283424/vc06/202.89,2.000,u,10,10,rem,lock,28644 9927217283430/vc11/237.99,2.000,u,10,10,rem,lock,10023 9927217283458/tpi/22301,24629,20419,5116,29083,28644,31668,63092,18113,43211 9927217283478/tpi/8471,8904,10023,29085,18597,5217,6529 9927217283479?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217283479/tsys1/85.1,84.2,86.0,79.4,78.3,72.1,68.8,$$$$$$$$,81.0,72.1 9927217283480/tsys2/91.7,88.8,91.2,86.3,86.4,85.0,94.6 9927217283480:!272173010 9927217301001:"data stop" 9927217301001:et 9927217301012:!+3s 9927217301314:tape 9927217301323/tape/off,03477,norm,moving,stop,unlock,ready,rem 9927217301323:postob 9927217301323:source=1749+096,175132.8,093900.7,2000.0,neutral 9927217301354:nw2c2=22 9927217301411/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217301736:!272173648 9927217322374#trakl#SOURCE_ACQUIRED 9927217364801:preob 9927217364953/onsource/TRACKING 9927217365190/tpical/22234,24481,20304,5109,29094,28794,32048,63820,18024,43437 9927217365210/tpical/9672,10213,11289,33409,21140,5899,7289 9927217365217:!272173658 9927217365801:tape 9927217365809/tape/off,03477,norm,stopped,stop,unlock,ready,rem 9927217365810:st=rev,135 9927217365821:"data start" 9927217365821:midob 9927217365853/onsource/TRACKING 9927217365855/wx/19.5,980.2,100.0,3.0 9927217365891/cable/+1.0854252E-02 9927217365900/fmout-gps/S 1.8289E-07 9927217365906/ifd/16,19,nor,nor,rem,16465,6337 9927217365912/if3/6,in,2,2,,,present,500.10,rem,lock,39177 9927217365918/vc02/142.99,2.000,u,10,10,rem,lock,22464 9927217365924/vc06/202.89,2.000,u,10,10,rem,lock,25960 9927217365930/vc11/237.99,2.000,u,10,10,rem,lock,9650 9927217365957/tpi/20380,22464,18607,4720,26498,25960,28719,57322,16465,39177 9927217365977/tpi/8315,8714,9650,28101,17843,5025,6337 9927217365979/tsys1/74.9,75.3,74.7,70.0,70.4,62.4,60.0,61.2,72.3,63.9 9927217365979/tsys2/88.3,84.2,86.0,81.9,82.7,81.0,91.4 9927217365979:!272173836 9927217383601:"data stop" 9927217383601:et 9927217383612:!+3s 9927217383914:tape 9927217383923/tape/off,02384,norm,stopped,stop,unlock,ready,rem 9927217383923:postob 9927217383923:source=1726+455,172727.7,453039.7,2000.0,ccw 9927217384000:nw2c2=22 9927217384058/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217384386:!272174137 9927217412224#trakl#SOURCE_ACQUIRED 9927217413701:preob 9927217413799/onsource/TRACKING 9927217414034/tpical/19473,21647,17792,4562,25395,25236,28009,55750,15764,37776 9927217414054/tpical/9410,9869,10841,32122,20287,5650,7058 9927217414061:!272174147 9927217414701:tape 9927217414710/tape/off,02384,norm,stopped,stop,unlock,ready,rem 9927217414711:st=rev,135 9927217414722:"data start" 9927217414722:midob 9927217414752/onsource/TRACKING 9927217414754/wx/19.5,980.0,100.0,0.0 9927217414764/cable/+1.0855191E-02 9927217414800/fmout-gps/S 1.8223E-07 9927217414806/ifd/16,19,nor,nor,rem,14137,6097 9927217414812/if3/6,in,2,2,,,present,500.10,rem,lock,33378 9927217414818/vc02/142.99,2.000,u,10,10,rem,lock,19547 9927217414824/vc06/202.89,2.000,u,10,10,rem,lock,22350 9927217414830/vc11/237.99,2.000,u,10,10,rem,lock,9204 9927217414858/tpi/17587,19547,16019,4149,22665,22350,24622,48972,14137,33378 9927217414877/tpi/8032,8369,9204,26789,16918,4776,6097 9927217414879/tsys1/63.2,62.6,61.3,56.3,57.1,52.6,50.5,50.1,59.3,52.7 9927217414879/tsys2/83.8,80.6,81.8,77.6,76.6,76.6,86.7 9927217414880:!272174325 9927217432501:"data stop" 9927217432501:et 9927217432512:!+3s 9927217432814:tape 9927217432823/tape/off,01291,norm,stopped,stop,unlock,ready,rem 9927217432823:postob 9927217432823:source=1611+343,161341.1,341247.9,2000.0,ccw 9927217432952:nw2c2=22 9927217433006/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217433387:!272174556 9927217443325#trakl#SOURCE_ACQUIRED 9927217455601:preob 9927217455653/onsource/TRACKING 9927217455888/tpical/19123,21235,17466,4480,24878,24725,27366,54443,15445,36907 9927217455908/tpical/9521,9996,10995,32681,20578,5743,7148 9927217455915:!272174606 9927217460601:tape 9927217460611/tape/off,01291,norm,stopped,stop,unlock,ready,rem 9927217460611:st=rev,135 9927217460622:"data start" 9927217460622:midob 9927217460750/onsource/TRACKING 9927217460752/wx/19.6,979.9,100.0,9.9 9927217460756/cable/+1.0855439E-02 9927217460800/fmout-gps/S 1.8143E-07 9927217460806/ifd/16,19,nor,nor,rem,13776,6183 9927217460812/if3/6,in,2,2,,,present,500.10,rem,lock,32404 9927217460818/vc02/142.99,2.000,u,10,10,rem,lock,19095 9927217460824/vc06/202.89,2.000,u,10,10,rem,lock,21758 9927217460830/vc11/237.99,2.000,u,10,10,rem,lock,9356 9927217460858/tpi/17184,19095,15626,4061,22065,21758,23829,47453,13776,32404 9927217460878/tpi/8148,8495,9356,27314,17232,4866,6183 9927217460879/tsys1/60.1,60.0,57.6,54.0,53.9,49.7,46.8,47.1,56.3,50.0 9927217460880/tsys2/85.4,81.9,83.2,78.7,78.6,77.9,87.7 9927217460880:!272174744 9927217474401:"data stop" 9927217474401:et 9927217474412:!+3s 9927217474714:tape 9927217474722/tape/off,00198,norm,stopped,stop,unlock,ready,rem 9927217474723:postob 9927217474728:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927217474851:midtp 9927217475088/tpzero/502,708,447,818,328,622,97,314,307,149 9927217475107/tpzero/632,624,621,264,379,490,774 9927217475123/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927217475133/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927217475142/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.509 9927217475151/rx/17(pres),on,a,on,on,on,off,locked,5.953 9927217475161/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217475170/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927217475170:nw2c1=23 9927217475322/pass/23,23,auto,275.0,275.0,273.6,274.2,-1.4,-0.8 9927217475648:!272175058 9927217503424#trakl#SOURCE_ACQUIRED 9927217505801:preob 9927217505951/onsource/TRACKING 9927217510186/tpical/20093,22456,18553,4718,26520,26407,29348,58286,16402,39469 9927217510206/tpical/9190,9588,10734,31449,19974,5583,6924 9927217510213:!272175108 9927217510801:tape 9927217510811/tape/off,00198,norm,stopped,stop,unlock,ready,rem 9927217510811:st=for,135 9927217510822:"data start" 9927217510822:midob 9927217510900/onsource/TRACKING 9927217510902/wx/19.6,980.0,100.0,0.0 9927217510924/cable/+1.0857274E-02 9927217511000/fmout-gps/S 1.8219E-07 9927217511006/ifd/16,19,nor,nor,rem,14932,5993 9927217511012/if3/6,in,2,2,,,present,500.10,rem,lock,35445 9927217511018/vc02/142.99,2.000,u,10,10,rem,lock,20533 9927217511024/vc06/202.89,2.000,u,10,10,rem,lock,23719 9927217511030/vc11/237.99,2.000,u,10,10,rem,lock,9141 9927217511058/tpi/18374,20533,16960,4350,24059,23719,26159,52040,14932,35445 9927217511077/tpi/7849,8149,9141,26274,16703,4732,5993 9927217511079/tsys1/72.6,72.0,72.4,67.0,67.3,60.0,57.0,57.8,69.4,61.2 9927217511080/tsys2/84.0,81.6,83.5,78.5,77.9,77.8,87.5 9927217511080:!272175338 9927217532181;rxall 9927217532181&rxall/rx=00,,,,,, 9927217532181&rxall/rx 9927217532181&rxall/rx=01,,,,,, 9927217532181&rxall/rx 9927217532181&rxall/rx=02,,,,,, 9927217532181&rxall/rx 9927217532181&rxall/rx=03,,,,,, 9927217532181&rxall/rx 9927217532181&rxall/rx=04,,,,,, 9927217532181&rxall/rx 9927217532182&rxall/rx=05,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=06,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=07,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=08,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=09,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=0a,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=0b,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=0c,,,,,, 9927217532182&rxall/rx 9927217532182&rxall/rx=0d,,,,,, 9927217532182&rxall/rx 9927217532183&rxall/rx=0e,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=0f,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=10,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=11,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=12,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=13,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=14,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=15,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=16,,,,,, 9927217532183&rxall/rx 9927217532183&rxall/rx=17,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=18,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=19,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1a,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1b,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1c,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1d,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1e,,,,,, 9927217532184&rxall/rx 9927217532184&rxall/rx=1f,,,,,, 9927217532184&rxall/rx 9927217532196/rx/00(front),on,a,on,on,on,off,locked,33.51 9927217532206/rx/01(rear),on,a,on,on,on,off,locked,34.24 9927217532216/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927217532227/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927217532238/rx/04(inlet),on,a,on,on,on,off,locked,31.56 9927217532248/rx/05(ret),on,a,on,on,on,off,locked,31.92 9927217532258/rx/06(lo-lok),on,a,on,on,on,off,locked,8.347 9927217532269/rx/07(-2.73v),on,a,on,on,on,off,locked,-2.707 9927217532279/rx/08(s1-if),on,a,on,on,on,off,locked,0.262 9927217532290/rx/09(x-if),on,a,on,on,on,off,locked,0.180 9927217532300/rx/0A(s2-if),on,a,on,on,on,off,locked,0.416 9927217532311/rx/0B(s1-lo),on,a,on,on,on,off,locked,0.863 9927217532321/rx/0C(+12v),on,a,on,on,on,off,locked,12.64 9927217532332/rx/0D(s2-lo),on,a,on,on,on,off,locked,0.677 9927217532343/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927217532354/rx/0F(+15vp2),on,a,on,on,on,off,locked,15.04 9927217532363/rx/10(+28v),on,a,on,on,on,off,locked,28.67 9927217532372/rx/11(-15vp1),on,a,on,on,on,off,locked,-15.06 9927217532381/rx/12(+20v),on,a,on,on,on,off,locked,19.69 9927217532390/rx/13(+15vp1),on,a,on,on,on,off,locked,14.95 9927217532399/rx/14(+5vp1),on,a,on,on,on,off,locked,5.057 9927217532408/rx/15(-15vp2),on,a,on,on,on,off,locked,-14.88 9927217532417/rx/16(+5vp2),on,a,on,on,on,off,locked,5.110 9927217532426/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927217532435/rx/18(x1bias),on,a,on,on,on,off,locked,0.595 9927217532445/rx/19(x2bias),on,a,on,on,on,off,locked,0.990 9927217532454/rx/1A(x3bias),on,a,on,on,on,off,locked,0.990 9927217532463/rx/1B(s1bias),on,a,on,on,on,off,locked,0.601 9927217532472/rx/1C(s2bias),on,a,on,on,on,off,locked,0.990 9927217532482/rx/1D(s3bias),on,a,on,on,on,off,locked,0.799 9927217532491/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217532500/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927217533801:"data stop" 9927217533801:et 9927217533813:!+3s 9927217534115:tape 9927217534124/tape/off,01876,norm,stopped,stop,unlock,ready,rem 9927217534124:postob 9927217534124:source=1308+326,131028.7,322043.8,2000.0,neutral 9927217534201:check2c1 9927217542144?ERROR qg -303 Track 11 parity errors exceed threshold. 9927217542144?ERROR qg -305 AUX data differs from expected value on track 11. 9927217542144?ERROR qg -304 Track 11 sync errors exceed threshold. 9927217542144/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927217542144/parity/0,0,0,0,0,294,0,0,0,0,0,0,0,0 9927217543569:nw2c1=23 9927217543622/pass/23,23,auto,275.0,275.0,273.6,274.2,-1.4,-0.8 9927217543949:!272175750 9927217570224#trakl#SOURCE_ACQUIRED 9927217575001:preob 9927217575150/onsource/TRACKING 9927217575387/tpical/24502,27536,23082,5733,32993,32949,36805,$$$$$,20495,49627 9927217575407/tpical/9374,9780,11124,32691,20922,5834,7183 9927217575414:!272175800 9927217580001:tape 9927217580010/tape/off,01873,norm,stopped,stop,unlock,ready,rem 9927217580010:st=for,135 9927217580027:"data start" 9927217580027:midob 9927217580105/onsource/TRACKING 9927217580107/wx/19.6,979.7,100.0,3.6 9927217580159/cable/+1.0857090E-02 9927217580201/fmout-gps/S 5.0800E-08 9927217580207/ifd/16,19,nor,nor,rem,19051,6247 9927217580213/if3/6,in,2,2,,,present,500.10,rem,lock,45726 9927217580219/vc02/142.99,2.000,u,10,10,rem,lock,25716 9927217580225/vc06/202.89,2.000,u,10,10,rem,lock,30412 9927217580231/vc11/237.99,2.000,u,10,10,rem,lock,9539 9927217580259/tpi/22811,25716,21515,5373,30615,30412,33761,$$$$$,19051,45726 9927217580278/tpi/8064,8358,9539,27510,17627,4961,6247 9927217580280?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217580280/tsys1/92.1,95.9,93.8,88.3,88.9,82.0,77.2,$$$$$$$$,90.6,81.6 9927217580280/tsys2/88.6,84.9,87.8,82.1,81.7,79.9,91.3 9927217580281:!272180030 9927218003001:"data stop" 9927218003001:et 9927218003012:!+3s 9927218003314:tape 9927218003323/tape/off,03550,norm,stopped,stop,unlock,ready,rem 9927218003323:postob 9927218003323:fastr=2m32s 9927218003700;"wx= overcast, light breeze, light rain, warm. 9927218004242;wx 9927218004244/wx/19.6,979.6,100.0,9.1 9927218004645;rxmon 9927218004657/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927218004666/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927218004675/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927218004685/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927218004694/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927218004703/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927218010206;"rxtemps 20k=29.57 70k=54.88 9927218030552:unlod 9927218031728/ !!!! wake up !!!! 9927218031731:*end of schedule 9927218072298;"cable normal 9927218072689;cable 9927218072700/cable/+1.0857671E-02 9927218074744;"cable long 9927218080606;cable 9927218080625/cable/+1.0759294E-02 9927218082359;"cable normal 9927218083758;cable 9927218083792/cable/+1.0856965E-02 9927218093639;log=station	en
converted_docs	289400	[Don Rice -- Hydrologist, GS-12]{.underline} I serve as a project chief in the Geohydrologic Studies Program of the New Jersey Water Science Center. I have worked on the following projects: 1. Estimated low-flow characteristics of streams and ground-water capacity in the New Jersey. This work was done for the New Jersey Geological Survey. My work was hands on and oversight of delineating more than 600 basins, determining basin characteristics such as land use, water use, and geology, and report preparation. Project site data were stored in geodatabases and linked to project data stored in a relational database developed for the project. 2. Estimated low-flow characteristics of streams and ground-water capacity in the New Jersey Higlands Preservation and Planning areas. This work was done for the New Jersey Highlands Council in support of their Regional Master Plan. Station basins and HUC14 basin characteristics were obtained using ModelBuilder. All project data was documented and turned over to the Highlands Council. Results were presented both in reports and at public meetings. 3. Hydrologic characterization of the New York/New Jersey Highlands. My work for this project included water-quality database construction, GIS database construction, GIS analysis of hydrologic data, presentation of significant findings to the U.S. Forest Service and other interested public organizations, and report preparation. 4. Sustainable water supply study for Cape May County My work for this project is ongoing and includes development of GIS layers that characterize: water use, hydrogeologic characteristics of Cape May aquifers, water-quality, land use, elevation, and vernal pond research. 5. Valley-wide ground-water flow model for Picatinny Arsenal, New Jersey. Work included model development, prediction scenarios, Geographic Information System (GIS) analysis of hydrologic data, field collection of hydrologic data and report preparation 6. Description of the source and distribution of naturally occurring radionuclides in the ground water of the New Jersey coastal plain. My work for this project included supervision of well drilling, water-quality sampling, ground-water flow modeling, GIS analysis of hydrologic data, and report preparation. 7. Ground-water contaminant sites. My work at these sites has included innovative packer testing to determine the hydrologic characteristics of bedrock aquifers, particle fraction sampling to investigate colloidal transport of radionuclides, two and three-dimensional GIS analysis of hydrologic data, ground-water flow model development, presentations of significant findings to U. S. Environmental Protection Agency, U.S. Navy, and the U.S. Air Force. I have worked at the following sites with their corresponding contaminants: ```{=html} <!-- --> ``` a. Naval Air Warfare Center, West Trenton, NJ /Trichloroethylene (TCE) b. BOMARC Missile Base, Ocean County, NJ /Radionuclides and TCE c. Cadmus well field, Fair Lawn, NJ /TCE and other volatile organic compounds d. Municipal well field, Rocky Hill, NJ /TCE e. Fair Lawn municipal well field, Fair Lawn, NJ /TCE f. Puchack municipal well field, Pennsauken, NJ /Hexavalent chromium and other volatile organic compounds ```{=html} <!-- --> ``` 8. Water-quality of the Delaware & Raritan Canal. My work for this project included GIS database construction, GIS analysis of water-quality data, report preparation, and presentation of significant findings to the New Jersey Water Supply Authority. 9. Water-quality of Barnegat Bay and its drainage basin. My work for this project included GIS database construction, GIS analysis of water-quality data, and report preparation. SELECTED PUBLICATIONS Gibs, Jacob, Gray, B., Rice D.E., Tessler, S, and Barringer, T.H., 2001, Water quality of the Delaware and Raritan Canal, New Jersey 1998-99: U.S. Geological Survey Water-Resources Investigations Report 01-4072, 60 p. Hoppe, Martina C. (compiler) 2003, New York - New Jersey Highlands regional study technical report, U.S Forest Service. Digital report available at: <http://www.na.fs.fed.us/highlands/maps_pubs/technical_report/technical_report.shtm>. (My contribution to this report was as coauthor of the Water Resources section) Lewis-Brown, Jean C., Rice, D.E., Rosman, R., and Smith, N.P., 2005, Hydrogeologic Framework, ground-water quality, and simulation of ground-water flow at the Fair Lawn Well Field Superfund Site, Bergen County, New Jersey: U.S. Geological Survey Scientific Investigations Report 2004-5280, 109p. Received the David A. Aronson Report of the Year Award for technically focused reports. Lewis-Brown, Jean C., Rice, D.E., 2002, Simulated ground-water flow, Naval Air Warfare Center, West Trenton, New Jersey, U.S. Geological Survey Water-Resources Investigations Report 02-4019, 44p. Phelps, Marcus G., and M.C. Hoppe (compilers), 2002, New York - New Jersey Highlands regional study: 2002 update, U.S. Forest Service 209p. Digital report available at: http://www.na.fs.fed.us/highlands/maps_pubs/regional_study/regional_study.shtm. (My contribution to this report was as coauthor of the Water subsection of the Resource Assessment and Conservation Values section and as coauthor of the Changes in Water Resources subsection in the Potential Changes and Resources at Risk section) Rice, Donald E., and Szabo, Z., 1997, Relation of ground-water flowpaths and travel time to the distribution of radium and nitrate in current and former agricultural areas of the Kirkwood-Cohansey Aquifer System, New Jersey Coastal Plain: U.S. Geological Survey Water-Resources Investigations Report 96-4165B, 41 p. Rice, Donald E., and Voronin, L.M., 1997, Analysis of ground-water flowpaths near water-supply wells Picatinny Arsenal, New Jersey: U.S. Geological Survey Water-Resources Investigations Report 96-4228, 26 p. Szabo, Zoltan, Rice, D.E., Plummer, L.N., Busenberg Eurybades, Drenkard, Stefan, and Schlosser, Peter, 1996, Age-dating of shallow ground water with chlorofluorocarbons, tritium/helium-3, and flow-path analysis in an unconfined aquifer of the southern New Jersey Coastal Plain: Water Resources Research, v. 32 no. 4, p. 1023-1038. Voronin, Lois M., and Rice, D.E., 1996, Hydrogeology and simulation of ground-water flow, Picatinny Arsenal and vicinity, Morris County, New Jersey: U.S. Geological Survey Water-Resources Investigations Report 96-4061, 64 p.	en

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Release No. 0077.96 Remarks by Secretary of Agriculture Dan Glickman Agricultural Outlook Forum February 21, 1996 "AGRICULTURE POLICY FOR A NEW CENTURY" I want to welcome you all to USDA's Agricultural Outlook Forum. We'll spend the next 2 days talking about the future of agriculture for 1996 and beyond, and that's more of a challenge than usual. Right now it's difficultto project an outlook for agriculture for the next week, let alone the next century. We're in the middle of a debate over budget and policy which will have far-reaching effects on American agriculture. You know how debates go. It's always easier to find agreement in the abstract than in the specific. Take the preacher who was trying to give his congregation a message about sharing. He looked at one member and said, "Now Henry, if you had 3 houses, you wouldn't mind giving up one so some poor family would have shelter, would you?" "Of course I wouldn't," said Henry. "And if you had 3 Cadillacs, you wouldn't mind giving up one of them...?" "Of course not." "And if you had 3 milk cows..." "Now hold on," said Henry. "I've got 3 milk cows!" There has been progress. The Senate has passed a bill and it's a step in the right direction. It begins to address some of the Administration's concerns about a safety net for farmers, rural development, agricultural research, global competitiveness, and the environment. I am pleased the Senate bill includes a Fund for Rural America -- funding for research and rural development. I have urged the House to take up the bill as soon as possible so we can get a final bill enacted and end the uncertainty for American farmers. OPTIMISM AMIDST UNCERTAINTY Despite the uncertainty of the farm bill, despite tight stocks, despite the complexities of globalization, I'm extremely optimistic about the future of American agriculture. I'm optimistic because I know we have a fundamentally strong farm economy: Farm prices for many commodities are the highest in many years. -more- -2- Cash receipts for farmers are at record highs. Our exports continue to grow. Government spending on farm price and income support programs is the lowest since 1981. I know we must temper this optimism with a reality check: Not all commodities and not all producers are benefitting. Livestock producers are having a particularly difficult time. I'm well aware that grain and soybean stocks -- both in the U.S. and throughout the world -- are tight and that demand continues to increase. And I'm aware of the bad weather in the plains states which has affected and continues to affect total crop production. We'll spend a lot of time at this outlook conference talking about tight global grain and oilseed markets, strong prices, and prospects for 1996 crops. But depleted stocks are only part of the story. The fact that demand is growing is good news for the United States. We're in the business of selling food and other agricultural goods, and we produce a lot more than we can use at home. And 96 percent of the world's consumers live in other countries. Based on current prices and pre-season conditions, we believe there will be a surge in world grain production this year. A rebound in yields and more planted area is expected to raise U.S. grain production and relieve the abnormally tight stocks. Livestock and poultry producers may be squeezed as feed costs rise but generally they are maintaining inventories. Beef, pork, and broiler output are expected to increase in 1996, and meat output most likely will continue to expand in 1997. As the rest of the world becomes more prosperous and as population grows, demand will remain strong, particularly in Asia and Latin America. And U.S. farm prices should remain strong. Because of higher expected prices, producers would have been looking at small deficiency payments and no set asides under a continuation of the 1990 farm bill. As agriculture continues to move away from restrictive government programs to more market-oriented ones, what government does outside the traditional commodity programs will become increasingly important. Investment in infrastructure -- research, conservation, rural development -- will help the transition to a more market-oriented agriculture because it will ensure that farmers have the solid foundation they need to prosper and compete in the world. Let me amplify this point: We at USDA, in Congress, and in the media exclusively focus on commodity programs when we talk about the farm bill. The debate has become almost a fixation on the size of payments to farmers. -more- -3- The farm bill is about commodity programs. But it's also about research, about conservation, about rural development, about trade, and about new opportunities. And they all will have a greater impact on agriculture in the future than any commodity payment. H.L. Mencken was asked the difference between the short term and the long term. The only difference, he said, is that in the long term we're dead. So I understand that commodity programs are important in the short term. The short term matters but it's not all that matters - particularly when we are moving toward an agricultural policy for focused on the long term.. IMPORTANCE OF TRADE There is no doubt that, in the long term, trade, not commodity programs, will define agriculture's future. Today we are releasing our new quarterly forecast for this fiscal year's exports. We expect U.S. agricultural exports to be $60 billion this fiscal year -- up by $2 billion from our last forecast and another record. We are well on track to achieving the long-term agricultural projection for exports of $66 billion the first year of the 21st century. Beyond the numbers are real economic benefits, incomes, and jobs. I just returned from my second trade mission to Asia -- our largest and fastest-growing market. I visited both China and India -- the 2 largest countries in the world where about 40 percent of the world's people live. There are very good opportunities for us in both countries. In China, I saw with my own eyes what I already knew to be true: China is becoming an extremely important customer for a number of U.S. commodities -- particularly wheat and corn. Recently, in 1 week, we sold 2.1 million tons of wheat to the Chinese, raising their total purchases to 4 million tons this marketing year. This year they have bought more than 2.2 million tons of our corn. Two years ago, China exported 12 million tons of corn and imported none. My trip to China was an extremely important visit to me and to the President. Our agriculture relationship with China is important in itself, but it can also be a bridge to help resolve other current issues between our countries. I told the Chinese that the U.S. will continue to be a predictable and reliable supplier of food products to China. But I also strongly suggested that China be a predictable and reliable customer as well, working with us to communicate in a timely fashion what their needs will be. I also stressed that we can't let bad or incomplete science be used as an unfair trade barrier. We're still very concerned with China's 23-year ban on wheat imports from the U.S. Pacific Northwest -- a ban we believe is based on bad science. My father always said, "Respect Thy Customer." China has bought a lot from the U.S., but the U.S. buys 4 times as much from China -- over $30 billion more a year -- in products from electronic equipment, shoes, toys, and clothing. Our desire to see China open its markets and remove unfair or unscientific trade barriers is not an unreasonable request from China's best customer. -more- -4- As important as bulk commodities are to agriculture exports, high-value, consumer-ready, and semi-processed agriculture products are the fastest growing segments of the market. In the 1970s, nearly 80 percent of all our exports were bulk commodities. They now account for less than 50 percent of all exports. Meanwhile, consumer-ready foods went from less than 10 percent of all exports to nearly 40 percent in the same time period. I saw this first-hand in Asia where demand growth has been concentrated in high-value products. While China is expected to be the key source of global growth in bulk trade, it is also a growing market for U.S. consumer-ready products. Obviously Japan, Korea, Indonesia and the other developing Asian markets are growing as well. India has a relatively affluent middle class that is about the size of the entire U.S. population. India is fairly self sufficient now in production of wheat and rice, but I am hopeful we will see increased demand for U.S. exports on the value-added side. Economies in Latin America also are expanding rapidly. And Mexico, although working to recover from the peso devaluation, remains an excellent long-term market for U.S. exports. NEED FOR FREE TRADE The movement toward freer trade must continue. And the scare tactics of those who want to build a wall around our country must be rejected. But in fighting for freer trade, we must understand the response of those who want the U.S. to withdraw from the world. It taps into the very real anxieties of many Americans. People have lost good paying jobs, families need 2 full-time incomes, workers worry that U.S. companies will take advantage of low-paid labor in other parts of the world. But isolationist retreat inevitably leads to a lower standard of living and fewer jobs for people in this country. It reminds me of another H.L. Mencken quote that for every complicated problem there is a simple -- and a wrong -- solution. Pat Buchanan has said his first act as President would be to cancel the GATT and NAFTA agreements. That would be a disaster for agriculture because export growth is a major factor in increasing income to our farmers and ranchers. But the U.S. demands a fair and level playing field. That is why this Administration has been aggressively opening up foreign markets and taking steps against unfair trade practices. One example is the recent announcement of a reduction in Canadian lumber into the U.S. You will hear more details on this and other trade issues in a few minutes from our U.S. Trade Representative Mickey Kantor. -more- -5- Bringing down trade barriers is only part of the battle. As traditional restrictions -- tariffs, quotas, levies -- are eliminated, there will always be efforts to replace them with hidden restrictions. So we have to be vigilant to ensure that our trading partners live up to their obligations and that new non-tariff barriers don't take the place of old tariff barriers. Phony barriers come in many forms. One form they take is that of sanitary or phytosanitary restrictions. The Uruguay Round trade negotiations set new rules which require sound science as the basis for sanitary and phytosanitary trade measures. Those rules must be followed. We have asked the World Trade Organization to intervene on the European Union's hormone ban on beef. This issue is a high personal priority for me as well as for the Administration. We are determined to end this long-standing unfair trade practice and restore access for U.S. meat exporters to this important market. The evidence is overwhelming that proper use of these hormones poses no danger to human health. Another example is the recent effort by Russia to cut off our poultry exports -- again on the basis of unsound science. Let me say it again: using a non-tariff barrier based on unsound science is simply unacceptable to us. American agriculture is currently twice as reliant on international markets as the U.S. economy as a whole, and by the year 2000 it will be 2.5 times as reliant. As this trend continues, foreign economic conditions, policies, and the weather increasingly will affect the economic fortunes of American producers. Long-term market trends are favorable to U.S. producers. But markets -- especially agricultural markets -- are volatile. In the past, the government could moderate the effects on producers with safety nets, acreage set asides, and stock management. That moderating capacity will be much less in the future. BEYOND COMMODITY PROGRAMS Let me repeat: How American producers compete in an increasingly market-driven economy will depend on many factors beyond commodity programs. Even if we simply continued current law, USDA analysts estimate government program payments would account for only 1% of total gross income of farm operators by the year 2000. The Administration supports making agriculture more reliant on market forces. We laid that card on the table -- freeing farmers from planting restrictions -- long before the so-called "Freedom to Farm" plan was talked about. -more- -6- Our policy priority today is to make sure we put enough resources into research, trade development, conservation practices, and rural infrastructure to enable rural areas to participate in the growing global markets. That is why we need a comprehensive farm bill. American agriculture is the most competitive in the world. We remain competitive because of our unequaled marketing system, because we have maintained the productivity of our farms by investing in conserving soil and water. We remain competitive because of the quality of our research. It remains the role of the federal government to keep open access to world trade; to ensure research for new crops; to keep our soil sound, our water safe, our wildlife protected; to inspect food before it goes on American tables, and to make sure no American goes hungry. A true transition program away from the farm programs of the past must protect and maintain these investments. If we do less, we risk eroding the advantage we have won over the years. FUND FOR RURAL AMERICA The need for research and rural development is the reason why the Fund for Rural America is critical -- to bring economic prosperity to every part of the country. The Senate bill authorizes the Secretary of Agriculture to transfer $300 million to this Fund over 3 years -- two-thirds of it to rural development activities and one-third to research grants. This amount represents an important investment -- yet an investment which still falls far short of meeting essential needs in rural America today. The water needs in rural America alone could eat up the authorized funds. It's almost the 21st century and millions of Americans don't have clean drinking water and there are other problems in rural America besides water. There is currently a backlog close to 50,000 applicants for low-income single-family housing loans. That equals about a $2 billion need. CONSERVATION AND ENVIRONMENT Research improves not only the economic quality of rural life, but environmental quality as well. Producing food and fiber to serve our consumers here and around the world puts tremendous pressure on our natural resource base. In my first year as Secretary, I have seen first hand that managing natural resources is a serious and controversial business. Decisions we make today on resource use will have effects on people tomorrow and for decades to come. -more- -7- This is a very sobering experience. It is not like what I was used to in Congress. If we changed the 0/92 program or the Farmer-Owned Reserve Program and it didn't work -- no problem, we fixed it and then that's it: no more problems. But when you make major changes to conservation strategy and lose soil, you can't change the legislation to get it back because it's gone. The same with water quality -- if Congress guts swampbuster and water quality suffers for all Americans, can we ever regain the quality? And if so, at what cost? I don't think many Americans want to test nature this way. Under the Conservation Reserve Program, since 1986 more than 36 million acres of erodible and environmentally fragile cropland have been converted to grasses and trees. We have to continue a sound CRP program with the authority to target and enroll new -- environmentally fragile -- acreage. We have to maintain a strong Wetland Reserve Program that preserves the landowner's ability to choose the length of easements. And we have to make the conservation compliance and swampbuster programs more reasonable, effective, and flexible. CONCLUSION The House needs to build on the progress the Senate has made. It needs to think about the long-term needs of agriculture, not just the short-term budget battle. We have always called this legislation a "Farm Bill." But its actual title in 1990 was "The Food, Agriculture, Conservation, and Trade Act of 1990." We should have called it the "Research, International Trade, Forests, Extension, Nutrition, Rural Development, Conservation, Energy, Food Stamps, Environment, Credit, Food Safety, and Farm Commodity Act of 1990." Or we could just call it the Food Bill. Or the People's Bill. Last year, $6 billion of USDA funds went to commodity programs. This was only 10% of USDA's $62 billion budget. We don't know what the future holds. Crop prices are high now and trade is booming, but conditions can change fast. We've seen it before, and we'll see it again. To think otherwise is to ignore the long-term reality for the short-term fix. That is what worries me about Congress locking in farm payments on a fixed basis for 7 years. Farmers would get payments no matter what happens in world agriculture, no matter what the price of wheat or corn is, no matter what changes there are in weather conditions or political conditions, no matter what the volatility of crop prices. -more- -8- If we go to a system of paying farmers -- even on a transition basis -- without regard to market conditions, then we must recognize that in a period of increased volatility, our research, conservation, and risk management programs must pick up the slack that farm programs have provided. The taxpayers of this country should also be assured that payment will not be made to producers who don't use their land for agricultural purposes. The Congress that will write the next farm bill is, like the society it represents, more urban and suburban than ever. The men and women who will make agriculture policy for the rest of this century generally don't have a rural or farm orientation. So we need to emphasize over and over to Congress and to the public the connection between economically healthy farms and a safe, abundant food supply, and the Nation's overall economic health. While I will not belabor the point here, at the same time we are finalizing a farm bill, we must continue our efforts to promote competition and discourage concentration in American agriculture, particularly in the livestock industry. This months, I established an Advisory Committee on Concentration to consider some of the outstanding concerns and I have asked for their recommendations by June 7. Our concerns have to be more than worrying about the "efficiency" of a market. A monopoly can be very efficient, but offer few avenues for price competition. Farmers, ranchers, producers, processors, and consumers demand that those choices be available. Americans have one natural resource we should take full advantage of: we're an optimistic people. I heard a story about a kid who gets a baseball and goes outside to practice hitting his new ball with his bat. He can't wait to become a player and beat Cal Ripken's record. He throws the ball in the air, swings and misses. He does it a second time and misses again. On his third try, he still doesn't hit the ball. But he's not discouraged. Instead, he smiles and says, "Wow, what a pitcher!" Thank you. # NOTE: USDA news release and media advisories are available on the Internet. Access the USDA Home Page on the World Wide Web at http://www.usda.gov

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+------------------------------------------------+---------------------+ | **[World Trade]{.smallcaps}** | | | | | | **[Organization]{.smallcaps}** | | +------------------------------------------------+---------------------+ | | | +------------------------------------------------+---------------------+ | | **G/TB | | | T/N/USA/221/Add.2** | | | | | | 16 February 2007 | +------------------------------------------------+---------------------+ | | (07-0672) | +------------------------------------------------+---------------------+ | | | +------------------------------------------------+---------------------+ | **Committee on Technical Barriers to Trade** | Original: English | +------------------------------------------------+---------------------+ **NOTIFICATION** [Addendum]{.underline} The following communication, dated 14 February 2007, has been received from the Delegation of the United States. **\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_** Agency: Federal Aviation Administration (FAA), Department of Transportation (DOT) On October 5, 2006, the Federal Aviation Administration (FAA) issued a Notice of Proposed Rulemaking (NPRM) entitled, Production and Airworthiness Approvals, Part Marking, and Miscellaneous Proposals (71 FR 58915). The Small Business Administration\'s Office of Advocacy has asked us, on behalf of small businesses that may be adversely affected by the proposed rulemaking, to allow additional time for small businesses to comment on the Initial Regulatory Flexibility Analysis associated with the NPRM. We have determined that the additional comment period is consistent with the public interest and that good cause exists for taking this action. Accordingly, we are establishing an additional 45-day comment period on the Initial Regulatory Flexibility Analysis. Dates: Comments must be received by 2 April 2007. Full text of this addendum is available online at Internet URLs: http://a257.g.akamaitech.net/7/257/2422/01jan20071800/edocket.access.gpo.gov/2007/pdf/E7-2537.pdf http://a257.g.akamaitech.net/7/257/2422/01jan20071800/edocket.access.gpo.gov/2007/E7-2537.htm **\_\_\_\_\_\_\_\_\_\_**

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SUMMARY OF CALIBRATED GPS ANTENNAS ANTENNA ID VENDOR DESIGNATION IGS DESIGNATION JPL D/M+crT DORNE MARGOLIN T DORNE MARGOLIN T AOA D/M+crB DORNE MARGOLIN B DORNE MARGOLIN B JPL D/M+crR DORNE MARGOLIN R DORNE MARGOLIN R TRM 14532.00 4000ST L1/L2 GEOD 4000ST L1/L2 GEOD TRM 14532.10 4000ST L1/L2 GEOD - NO GP - none assigned - TRM 22020.00 TR GEOD L1/L2 GP TR GEOD L1/L2 GP TRM 22020.00-gp TR GEOD L1/L2 W/O GP TR GEOD L1/L2 W/O GP TRM 27947.00-gp RUGGED L1/L2 - NO GP (1) - none assigned - TRM 27947.00+gp RUGGED L1/L2 - GP (1) - none assigned - TRM 23903.00 PERMANENT L1/L2 (1) - none assigned - TRM 29659.00 TRIMBLE CHOKE RING ANTENNA (1) - none assigned - TRM 33429.00 TRIMBLE MICRO CENTER (1) - none assigned - TRM ??? M-PULSE L1/L2 SURVEY M-PULSE L1/L2 SURVEY ASH 700228.A ORIGINAL ASHTECH L1/L2 - none assigned - ASH 700228.B ORIGINAL ASHTECH L1/L2 - none assigned - ASH 700228.C ORIGINAL ASHTECH L1/L2, NO LEVEL - none assigned - ASH 700228.D ASHTECH L1/L2, REV. B - none assigned - ASH 700228.E ASHTECH L1/L2, REV. B - none assigned - ASH 700700.A ASH 700700.B ASH 700718.A ASHTECH GEODETIC III ANTENNA (WHOPPER) - none assigned - ASH 700718.B ASHTECH GEODETIC III ANTENNA (WHOPPER) - none assigned - ASH 700829.2 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.3 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.A ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700829.A1 ASHTECH GEODETIC III ANTENNA - USCG VERSION - none assigned - ASH 700936.A-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.B-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.C-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.D-rd ASHTECH CHOKE RING ANTENNA - NO RADOME (1) - none assigned - ASH 700936.A ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.B ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.C ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH ASH 700936.D ASHTECH CHOKE RING ANTENNA DORNE MARGOLIN ASH LEI AT202 AT202 (1) - none assigned - LEI AT302 AT302 (1) - none assigned - LEI AT303+rd AT303 WITH RD (1) - none assigned - LEI AT303-rd AT303 WITHOUT RD (1) - none assigned - LEI SR299.I SR299 INTERNAL (1) INTERNAL LEI SR399.I SR399 INTERNAL (1) INTERNAL LEI SR299.X-gp SR299 EXTERNAL WITHOUT GP (1) EXTERNAL WITHOUT GP LEI SR399.X-gp SR399 EXTERNAL WITHOUT GP (1) EXTERNAL WITHOUT GP LEI SR299.X+gp SR299 EXTERNAL WITH GP (1) EXTERNAL WITH GP LEI SR399.X+gp SR399 EXTERNAL WITH GP (1) EXTERNAL WITH GP SEN S67157514 SENSOR SYSTEMS L1/L2 PASSIVE (1) - none assigned - SEN S67157514+cr SENSOR SYSTEMS L1/L2 PASSIVE WITH CR (1) - none assigned - SEN S67157549 SENSOR SYSTEMS L1 (1) - none assigned - SEN S67157549+cr SENSOR SYSTEMS L1 WITH CR (1) - none assigned - SEN S67157596 SENSOR SYSTEMS L1/L2 ACTIVE (1) - none assigned - SEN S67157596+cr SENSOR SYSTEMS L1/L2 ACTIVE WITH CR (1) - none assigned - MAC 4647942 MACROMETER X-DIPOLE (1) MACROMETER X-DIPOLE TOP 72110 TOPCON - none assigned - GEO 2200 GEOTRACER (1) - none assigned - (1) This is the NGS designation if no vender's designation was available, or not used, or was modified.

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Supplemental materials Comments: The growth curves were mainly based on non-labeled L-lactate and 99% 1-^13^C labeled lactate culture (i.e., 1^st^ position labeled lactate). The doubling time for growth is about 8 hours. Measurement of OD~600~ can not be very accurate because the bacteria precipitate metals during the growth. Instead, protein content was measured to capture the growth kinetics. We also did the 3-^13^C labeled lactate culture, but cell can not grow and we have to abandon that experiment (The 3-^13^C lactate product from Cambridge Isotopic Company is contaminated by nitrate). ![](media/image1.wmf){width="5.997222222222222in" height="4.227777777777778in"} **Figure S-1.** Growth curve of *D. vulgaris* in defined (LS4D) L-lactate medium. ◊: OD~600~; ■: protein concentration; solid line: Model fitting. ![](media/image2.wmf){width="5.996527777777778in" height="4.6305555555555555in"} **Figure S-2.** Lactate and sulfate consumption, acetate production curves in defined (LS4D) L-lactate medium. ◊: lactate; □: acetate; ▲: sulfate; solid line: model fitting. ![](media/image3.png){width="6.752083333333333in" height="4.313194444444444in"} **Figure S-3.** GC-MS spectrum of glutamate of *Desulfovibrio vulgaris* lysate. **Table S-1. Metabolic reactions for lactate metabolism in *Desulfovibrio vulgaris* Hildenborough.** ------------ -------------------------------- ------------------------------- **Number** **Reaction (energy balance)\*** **Gene coding for enzymes.** 1 Lactate ↔ PYR (+NADH) ***ldh*** DVU0600 2 PYR ↔ PEP (-ATP) ***ppsA*** DVU1833 3 PEP ↔ PGA (2 teps) (-ATP) ***eno*** DVU0322 + ***gpmA*** DVU1619/***gpm*** DVU2935 4 PYR + CO~2~ ↔ OAA (-ATP) ***pyc*** DVU1834 5a PYR↔ ACoA + CO~2~ (NADH or ***lpdA*** DVU1423 NADPH) 5b ACoA + CO~2~↔ PYR(- NADPH) ***porA*** DVU1569/ ***porB*** DVU1570/ ***por*** DVU3025 5c PYR↔ ACoA + FormateCO~2~ DVU2272, DVU2824 6 Acetate → ACoA(+ATP) ***acs*** DVU0748 7 ACoA + OAA ↔ CIT Not annotated 8 PYR + CO~2~ ↔ MAL (-NADH) ***tme*** DVU0414 9 CIT ↔ ICT ***aco*** DVU1064 10 ICT ↔ OXO + CO~2~ (NADH) ***icd*** DVU0477 11 OXO ↔ SUC + CO~2~(NADH) ***porA*** DVU1569/ ***oorA*** DVU1945/ ***oorD*** DVU3350 12 ICT ↔ SUC + Glyoxylate Not annotated (glyoxlate shunt may not exist) 13 FUM ↔ MAL ***fumC*** DVU0080/ ***aspA*** DVU1766 13 SUC ↔ FUM (-FADH~2~) ***sdhB*** DVU2674/ ***frdC*** DVU3261 14 MAL ↔ OAA (-NADH) ***ldh*** DVU0600 15 ACoA + Glyoxylate ↔ MAL ***glcB*** DVU0701 16a PGA ↔ SER Some steps are missing. 16b PYR ↔ SER ***sda*** DVU2147 17 SER ↔ GLY + C1 ***glyA*** DVU1203 18 PGA ↔ T3P(2 steps)(-ATP-NDAH) ***pgk*** DVU2529+***gap-1*** DVU0565/ ***gap-2*** DVU2144 19 T3P + T3P ↔ F6P (2 steps) (-ATP) ***fba*** DVU2143+***glpX*** DVU/ ***fbp*** DVU1841 20 S7P + T3P ↔ E4P + F6P DVU1658 21 C5P + E4P ↔ F6P + T3P ***tkt*** DVU2530 22 F6P ↔ G6P ***pgi*** DVU3222 23 G6P ↔ C5P + CO~2~ (4 steps) (NADPH) Glucose-6-phosphate dehydrogenase/phosphogluconate dehydrogenase are missing. 24 C5P + C5P ↔ S7P +T3P ***tkt*** DVU2530 25 Asp + OXO ↔ OAA + Glu ***aspB*** DVU3223 26 C5P ↔ His (11 steps) One of reactions (phosphoribosyl-ATP diphosphatase) is missing. 27 PYR ↔ ALA Not annotated 28 2PEP+E4P ↔ Phe (or Try) +CO~2~ One of reactions (9 steps) (3-dehydroquinate synthase) is missing. 29 Asp ↔ Met (4 steps) 30 C5P ↔ RNA and DNA (many steps) Note: A new Acetyl-CoA degradation route: ACoA ↔ C1 pool + \[CO\], which contains some key enzymes. 31a \[CO\] ↔ CO~2~ + \[H\] ***cooS*** DVU2098 31b C1 pool ↔ HCOOH (4 steps) ***folD*** DVU0323 and (ATP+NADH) ***metF*** DVU0997 31c HCOOH ↔ CO~2~ ***fdnG-1*** DVU0587/ DVU0577/DVU0578 ------------ -------------------------------- ------------------------------- \* Energy cost for synthesis of amino acids is listed in Table S-2. **Table S-2.** Building blocks needed to produce *D. vulgaris* biomass \*. +-------------+--------+------------+----+-----+------+---+----+---+ | Building | Yield | Cost of | | | | | | | | block | coeff | making 1 | | | | | | | | | icient | μmol of | | | | | | | | | | each of | | | | | | | | | (mm | these | | | | | | | | | ol/mol | building | | | | | | | | | la | blocks | | | | | | | | | ctate) | (mol/mol) | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | | | Meta | A | N | N | 1 | NH | S | | | | bolites^a^ | TP | ADH | ADPH | - | ~4 | | | | | | | | | C | ~^ | | | | | | | | | | +^ | | +-------------+--------+------------+----+-----+------+---+----+---+ | **Protein | | | | | | | | | | amino | | | | | | | | | | acids^\#^** | | | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Alanine | 3.22 | 1 pyr | 0 | 0 | 1 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Arginine | 1.56 | 1 oxo | 7 | -1 | 4 | 0 | 4 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Asparagine | 1.41 | 1 oaa | 3 | 0 | 1 | 0 | 2 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Aspartate | 1.41 | 1 oaa | 0 | 0 | 1 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Cysteine | 0.58 | 1 pga | 4 | -1 | 5 | 0 | 1 | 1 | +-------------+--------+------------+----+-----+------+---+----+---+ | Glutamate | 1.62 | 1 oxo | 0 | 0 | 1 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Glutamine | 1.62 | 1 oxo | 1 | 0 | 1 | 0 | 2 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Glycine | 2.74 | 1 pga | 0 | -1 | 1 | - | 1 | 0 | | | | | | | | 1 | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Histidine | 0.55 | 1 C5P | 6 | -3 | 1 | 1 | 3 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Isoleucine | 1.28 | 1oaa, 1pyr | 2 | 0 | 5 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Leucine | 2.40 | 2 pyr, 1 | 0 | -1 | 2 | 0 | 1 | 0 | | | | acCoA | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Lysine | 1.65 | 1 oaa, 1 | 2 | 0 | 4 | 0 | 2 | 0 | | | | pyr | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Methionine | 0.68 | 1 oaa | 7 | 0 | 8 | 1 | 1 | 1 | +-------------+--------+------------+----+-----+------+---+----+---+ | Ph | 1.03 | 1 E4p, 2 | 1 | 0 | 2 | 0 | 1 | 0 | | enylalanine | | pep | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Proline | 1.29 | 1 oxo | 1 | 0 | 3 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Serine | 1.29 | 1 pga | 0 | -1 | 1 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Threonine | 1.42 | 1 oaa | 2 | 0 | 3 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | Tryptophan | 0.26 | 1 C5P, 1 | 5 | -2 | 3 | 0 | 2 | 0 | | | | E4p, | | | | | | | | | | | | | | | | | | | | 1 pep | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Tyrosine | 0.68 | 1 E4p, 2 | 1 | -1 | 2 | 0 | 1 | 0 | | | | pep | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | Valine | 1.98 | 2 pyr | 0 | 0 | 2 | 0 | 1 | 0 | +-------------+--------+------------+----+-----+------+---+----+---+ | **RNA | | | | | | | | | | nu | | | | | | | | | | cleotides** | | | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | ATP | 0.98 | 1 C5P, 1 | 11 | -3 | 1 | 1 | 5 | 0 | | | | pga | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | GTP | 1.20 | 1 C5P, 1 | 13 | -3 | 0 | 1 | 5 | 0 | | | | pga | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | CTP | 0.75 | 1 C5P, 1 | 9 | 0 | 1 | 0 | 3 | 0 | | | | oaa | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | UTP | 0.81 | 1 C5P, 1 | 7 | 0 | 1 | 0 | 2 | 0 | | | | oaa | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | **DNA | | | | | | | | | | nu | | | | | | | | | | cleotides** | | | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | dATP | 0.15 | 1 C5P, 1 | 11 | -3 | 2 | 1 | 5 | 0 | | | | pga | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | dGTP | 0.15 | 1 C5P, 1 | 13 | -3 | 1 | 1 | 5 | 0 | | | | pga | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | dCTP | 0.15 | 1 C5P, 1 | 9 | 0 | 2 | 0 | 3 | 0 | | | | oaa | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | dTTP | 0.15 | 1 C5P, 1 | 10 | 0 | 3 | 1 | 2 | 0 | | | | oaa | .5 | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | **Average | 1.6 | 8.2 acCoA | 7 | 0 | 14 | 0 | 0 | 0 | | fatty | | | .2 | | | | | | | acid** | | | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ | **Average | \~7 | 1 G6P | ND | ND | ND | N | ND | N | | car | | | | | | D | | D | | bohydrate** | | | | | | | | | +-------------+--------+------------+----+-----+------+---+----+---+ \* part of data are based on "Stephanopoulos, G. N., A. A. Aristidou, and J. Nielsen. 1998. Metabolic Engineering Principles and Methodologies. Academic Press, San Diego." Note: small amount of free amino acids (\<0.1mM) including gln, ala, asp, and cys and phe in cell lyase can also be detected by GC-MS. \# Amino acids derived from hydrolysis of total protein as measured at UC Davis Molecular Structural Facility (see material and methods). **Table S-3.** Atom mapping matrices. +-------------+-------------+-------------+-------------+-------------+ | PyrPEP | PEPPGA | PGA-\>T3P | CoA | C1GLY | | | | | Acetate | | | 1 0 0 | 1 0 0 | 1 0 0 | | 0 | | | | | 1 0 | | | 0 1 0 | 0 1 0 | 0 1 0 | | 1 | | | | | 0 1 | | | 0 0 1 | 0 0 1 | 0 0 1 | | | +-------------+-------------+-------------+-------------+-------------+ | ICTCO2 | ACoA  MAL | OXOCO2 | OXOGLU | OXOSUCC | | | | | | | | 0 0 0 0 0 1 | 0 0 | 1 0 0 0 0 | 1 0 0 0 0 | 0 1 0 0 0 | | | | | | | | | 0 0 | | 0 1 0 0 0 | 0 0 1 0 0 | | | | | | | | | 0 1 | | 0 0 1 0 0 | 0 0 0 1 0 | | | | | | | | | 1 0 | | 0 0 0 1 0 | 0 0 0 0 1 | | | | | | | | | | | 0 0 0 0 1 | | +-------------+-------------+-------------+-------------+-------------+ | ASPMET | ACoA  LEU | PYR LEU | C1MET | C1HIS | | | | | | | | 1 0 0 0 | 1 0 | 0 0 0 | 0 | 0 | | | | | | | | 0 1 0 0 | 0 1 | 0 0 0 | 0 | 0 | | | | | | | | 0 0 1 0 | 0 0 | 0 1 0 | 0 | 0 | | | | | | | | 0 0 0 1 | 0 0 | 0 1 0 | 0 | 0 | | | | | | | | 0 0 0 0 | 0 0 | 0 0 1 | 1 | 0 | | | | | | | | | 0 0 | 0 0 1 | | 1 | +-------------+-------------+-------------+-------------+-------------+ | E4PTYR | E4PF6P | E4PPHE | E4PS7P | E4PT3P | | | | | | | | 0 0 0 0 | 0 0 0 0 | 0 0 0 0 | 0 0 0 0 | 0 1 0 0 | | | | | | | | 0 0 0 0 | 0 0 0 0 | 0 0 0 0 | 0 0 0 0 | 0 0 1 0 | | | | | | | | 0 0 0 0 | 1 0 0 0 | 0 0 0 0 | 0 0 0 0 | 0 0 0 1 | | | | | | | | 0 0 0 0 | 0 1 0 0 | 0 0 0 0 | 1 0 0 0 | | | | | | | | | 0 0 0 0 | 0 0 1 0 | 0 0 0 0 | 0 1 0 0 | | | | | | | | | 1 0 0 0 | 0 0 0 1 | 1 0 0 0 | 0 0 1 0 | | | | | | | | | 0 1 0 0 | | 0 1 0 0 | 0 0 0 1 | | | | | | | | | 0 0 1 0 | | 0 0 1 0 | | | | | | | | | | 0 0 0 1 | | 0 0 0 1 | | | +-------------+-------------+-------------+-------------+-------------+ | CO2OAA | F6PE4P | F6PG6P | F6PS7P | T3PF6P | | | | | | | | 0 | 0 0 1 0 0 0 | 1 0 0 0 0 0 | 1 0 0 0 0 0 | 0 0 1 | | | | | | | | 0 | 0 0 0 1 0 0 | 0 1 0 0 0 0 | 0 1 0 0 0 0 | 0 1 0 | | | | | | | | 0 | 0 0 0 0 1 0 | 0 0 1 0 0 0 | 0 0 1 0 0 0 | 1 0 0 | | | | | | | | 1 | 0 0 0 0 0 1 | 0 0 0 1 0 0 | 0 0 0 0 0 0 | 1 0 0 | | | | | | | | | | 0 0 0 0 1 0 | 0 0 0 0 0 0 | 0 1 0 | | | | | | | | | | 0 0 0 0 0 1 | 0 0 0 0 0 0 | 0 0 1 | | | | | | | | | | | 0 0 0 0 0 0 | | +-------------+-------------+-------------+-------------+-------------+ | F6PC5P | ICTOXO | F6PG6P | G6PC5P | GLXMAL | | | | | | | | 1 0 0 0 0 0 | 1 0 0 0 0 0 | 1 0 0 0 0 0 | 0 1 0 0 0 0 | 1 0 | | | | | | | | 0 1 0 0 0 0 | 0 1 0 0 0 0 | 0 1 0 0 0 0 | 0 0 1 0 0 0 | 0 1 | | | | | | | | 0 0 0 0 0 0 | 0 0 1 0 0 0 | 0 0 1 0 0 0 | 0 0 0 1 0 0 | 0 0 | | | | | | | | 0 0 0 0 0 0 | 0 0 0 1 0 0 | 0 0 0 1 0 0 | 0 0 0 0 1 0 | 0 0 | | | | | | | | 0 0 0 0 0 0 | 0 0 0 0 1 0 | 0 0 0 0 1 0 | 0 0 0 0 0 1 | | | | | | | | | | | 0 0 0 0 0 1 | | | +-------------+-------------+-------------+-------------+-------------+ | GLYC1 | GLYCO2 | GLYSER | PYRCO2 | PYRCoA | | | | | | | | 0 1 | 1 0 | 1 0 | 1 0 0 | 0 1 0 | | | | | | | | | | 0 1 | | 0 0 1 | | | | | | | | | | 0 0 | | | +-------------+-------------+-------------+-------------+-------------+ | C1SER | CO2 MAL | PYROAA | ACoAC1 | ACoACO2 | | | | | | | | 0 | 0 | 1 0 0 | 1. 1 | 2. 0 | | | | | | | | 0 | 0 | 0 1 0 | (new | (new | | | | | pathway) | pathway) | | 1 | 0 | 0 0 1 | | | | | | | | | | | 1 | 0 0 0 | | | +-------------+-------------+-------------+-------------+-------------+ **Table S-3 (Continued)** +-------------+-------------+-------------+-------------+-------------+ | ICTGLX | ICTSUC | M | MALOAA | PYRMAL | | | | AL(OAA)CO2 | | | | 1 0 0 0 0 0 | 0 0 0 0 1 0 | | 1 0 0 0 | 1 0 0 | | | | 0 0 0 1 | | | | 0 1 0 0 0 0 | 0 0 0 1 0 0 | | 0 1 0 0 | 0 1 0 | | | | | | | | | 0 0 1 0 0 0 | | 0 0 1 0 | 0 0 1 | | | | | | | | | 0 0 0 0 0 1 | | 0 0 0 1 | 0 0 0 | +-------------+-------------+-------------+-------------+-------------+ | ACoA  ICT | ACoA  ICT | OAA-\>ICT | OAA-\>ICT | PYRALA | | | | | (*E.coli*) | | | (DvH) | (*Ecoli*) | (DvH) | | 1 0 0 | | | | | 0 0 0 1 | | | 1 0 | 0 0 | 0 0 0 0 | | 0 1 0 | | | | | 0 0 1 0 | | | 0 1 | 0 0 | 0 0 0 0 | | 0 0 1 | | | | | 0 1 0 0 | | | 0 0 | 0 0 | 0 1 0 0 | | | | | | | 0 0 0 0 | | | 0 0 | 0 1 | 0 0 1 0 | | | | | | | 0 0 0 0 | | | 0 0 | 1 0 | 0 0 0 1 | | | | | | | 1 0 0 0 | | | 0 0 | 0 0 | 1 0 0 0 | | | +-------------+-------------+-------------+-------------+-------------+ | OAAASP | OAACO2 | PEPOAA | OAAPEP | PEPPYR | | | | | | | | 1 0 0 0 | 0 0 0 1 | 1 0 0 | 1 0 0 0 | 1 0 0 | | | | | | | | 0 1 0 0 | | 0 1 0 | 0 1 0 0 | 0 1 0 | | | | | | | | 0 0 1 0 | | 0 0 1 | 0 0 1 0 | 0 0 1 | | | | | | | | 0 0 0 1 | | 0 0 0 | | | +-------------+-------------+-------------+-------------+-------------+ | C5PF6P | C5PS7P | G6PCO2 | PEPTYR | PEPPHE | | | | | | | | 1 0 0 0 0 | 1 0 0 0 0 | 1 0 0 0 0 0 | 1 0 0 | 1 0 0 | | | | | | | | 0 1 0 0 0 | 0 1 0 0 0 | | 0 1 0 | 0 1 0 | | | | | | | | 0 0 0 0 0 | 1 0 0 0 0 | | 0 0 1 | 0 0 1 | | | | | | | | 0 0 0 0 0 | 0 1 0 0 0 | | 0 1 0 | 0 1 0 | | | | | | | | 0 0 0 0 0 | 0 0 1 0 0 | | 0 0 1 | 0 0 1 | | | | | | | | 0 0 0 0 0 | 0 0 0 1 0 | | 0 0 0 | 0 0 0 | | | | | | | | | 0 0 0 0 1 | | 0 0 0 | 0 0 0 | | | | | | | | | | | 0 0 0 | 0 0 0 | | | | | | | | | | | 0 0 0 | 0 0 0 | +-------------+-------------+-------------+-------------+-------------+ | T3PC5P | PYRLEU | PYRLYS | PYRVAL | C5PHIS | | | | | | | | 0 0 0 | 0 0 0 | 0 0 0 | 1 0 0 | 1 0 0 0 0 | | | | | | | | 0 0 0 | 0 0 0 | 0 0 0 | 0 1 0 | 0 1 0 0 0 | | | | | | | | 1 0 0 | 0 1 0 | 0 0 0 | 0 2 0 | 0 0 1 0 0 | | | | | | | | 0 1 0 | 0 2 0 | 0 0 0 | 0 0 2 | 0 0 0 1 0 | | | | | | | | 0 0 1 | 0 0 2 | 0 1 0 | 0 0 1 | 0 0 0 0 1 | | | | | | | | | 0 0 1 | 0 0 1 | | 0 0 0 0 0 | +-------------+-------------+-------------+-------------+-------------+ | C5PS7P | C5PT3P | S7PE4P | S7PF6P | S7P C5P | | | | | | | | 1 0 0 0 0 | 0 0 1 0 0 | 0 0 0 1 0 0 | 1 0 0 0 0 0 | 1 0 1 0 0 0 | | | | 0 | 0 | 0 | | 0 1 0 0 0 | 0 0 0 1 0 | | | | | | | 0 0 0 0 1 0 | 0 1 0 0 0 0 | 0 1 0 1 0 0 | | 1 0 0 0 0 | 0 0 0 0 1 | 0 | 0 | 0 | | | | | | | | 0 1 0 0 0 | | 0 0 0 0 0 1 | 0 0 1 0 0 0 | 0 0 0 0 1 0 | | | | 0 | 0 | 0 | | 0 0 1 0 0 | | | | | | | | 0 0 0 0 0 0 | 0 0 0 0 0 0 | 0 0 0 0 0 1 | | 0 0 0 1 0 | | 1 | 0 | 0 | | | | | | | | 0 0 0 0 1 | | | 0 0 0 0 0 0 | 0 0 0 0 0 0 | | | | | 0 | 1 | | | | | | | | | | | 0 0 0 0 0 0 | | | | | | 0 | | +-------------+-------------+-------------+-------------+-------------+ | SERC1 | SERGLY | SUCMALATE | T3PE4P | PGASER | | | | | | | | 0 0 1 | 1 0 0 | 1 0 0 0 | 0 0 0 | 1 0 0 | | | | | | | | | 0 1 0 | 0 1 0 0 | 1 0 0 | 0 1 0 | | | | | | | | | | 0 0 1 0 | 0 1 0 | 0 0 1 | | | | | | | | | | 0 0 0 1 | 0 0 1 | | +-------------+-------------+-------------+-------------+-------------+ **Table S-4. Measured mass distribution by GC-MS and FT-ICR (in parenthesis) for ^13^C labeled amino acids from *D. vulgaris* hydrolysates.** +-----------+--------+--------+--------+--------+---------------------+ | | M0 | M1 | M2 | M3 | Comments of | | | | | | | measurement | +-----------+--------+--------+--------+--------+---------------------+ | Glycine | 0.1 | 0.8 | 0.0 | | FT-ICR signal for | | | 7±0.02 | 2±0.02 | 1±0.01 | | M0 is not | | | | | | | identified | | | $0$ | $1$ | | | (background noise). | +-----------+--------+--------+--------+--------+---------------------+ | Alanine | 0.1 | 0.8 | 0.0 | | | | | 7±0.02 | 1±0.02 | 2±0.01 | | | | | (0.17) | (0.81) | | | | | | | | (0.02) | | | +-----------+--------+--------+--------+--------+---------------------+ | Serine | 0.1 | 0.8 | 0.02±0 | | FT-ICR signal for | | | 7±0.02 | 1±0.02 | | | M2 is not | | | (0.19) | (0.81) | | | identified | | | | | | | (background noise). | +-----------+--------+--------+--------+--------+---------------------+ | Proline | ND | ND | ND | | GC-MS spectrum | | | | | | | signal is not | | | (0.23) | (0.73) | (0.04) | | clear. | +-----------+--------+--------+--------+--------+---------------------+ | Valine | 0.1 | 0.8 | 0.02±0 | 0.01±0 | | | | 7±0.02 | 0±0.03 | | | | | | | (0.78) | (0.04) | $0$ | | | | (0.18) | | | | | +-----------+--------+--------+--------+--------+---------------------+ | Threonine | 0.0 | 0.2 | 0.6 | | | | | 4±0.03 | 8±0.03 | 7±0.04 | | | | | (0.05) | (0.31) | (0.64) | | | +-----------+--------+--------+--------+--------+---------------------+ | Leucine | 0.7 | 0.2 | 0.0 | | FT-ICR can not | | | 5±0.07 | 3±0.04 | 2±0.01 | | separate leucine | | | (0.59) | (0.40) | (0.01) | | and isoleucine | | | | | | | signals. The | | | | | | | measured value is | | | | | | | the addition of two | | | | | | | amino acids. | +-----------+--------+--------+--------+--------+---------------------+ | I | 0.4 | 0.5 | 0.0 | | | | soleucine | 7±0.03 | 1±0.02 | 1±0.01 | | | | | | | | | | | | (ND) | (ND) | (ND) | | | +-----------+--------+--------+--------+--------+---------------------+ | Asparate | 0.0 | 0.2 | 0.6 | 0.0 | | | | 4±0.02 | 9±0.03 | 6±0.04 | 1±0.01 | | | | (0.06) | | | | | | | | (0.30) | (0.65) | $0$ | | +-----------+--------+--------+--------+--------+---------------------+ | Lysine | 0.0 | 0.3 | 0.6 | 0.01±0 | GC peak is weak. | | | 9±0.02 | 0±0.02 | 0±0.03 | | | | | (0.10) | (0.32) | (0.58) | | | +-----------+--------+--------+--------+--------+---------------------+ | Glutamate | 0.2 | 0.7 | 0.0 | | | | | 1±0.03 | 3±0.04 | 6±0.03 | | | | | | | | | | | | (0.20) | (0.69) | (0.10) | | | +-----------+--------+--------+--------+--------+---------------------+ | M | 0.0 | 0.2 | 0.6 | 0.02±0 | Peak tailing in | | ethionine | 4±0.03 | 7±0.02 | 5±0.03 | | GC/MS is observed. | | | (0.07) | | | | | | | | (0.27) | (0.66) | | | +-----------+--------+--------+--------+--------+---------------------+ | Histidine | 0.1 | 0.6 | 0.1 | 0.1 | | | | 6±0.05 | 2±0.08 | 1±0.04 | 1±0.04 | | | | | | | | | | | (0.19) | (0.62) | (0.11) | (0.08) | | +-----------+--------+--------+--------+--------+---------------------+ | Arginine | ND | ND | ND | ND | GC could not have a | | | | | | | clear peak for | | | (0.07) | (0.27) | (0.60) | (0.06) | arginine. | +-----------+--------+--------+--------+--------+---------------------+ | Phen | 0.0 | 0.1 | 0.3 | 0.5 | | | ylalanine | 3±0.02 | 2±0.04 | 5±0.07 | 0±0.08 | | | | | | | | | | | (0.05) | (0.07) | (0.36) | (0.54) | | +-----------+--------+--------+--------+--------+---------------------+ | Tyrosine | 0.0 | 0.0 | 0.3 | 0.5 | GC peak is weak. | | | 2±0.01 | 8±0.05 | 4±0.06 | 2±0.07 | | | | (0) | (0.06) | (0.38) | (0.56) | | +-----------+--------+--------+--------+--------+---------------------+ Note: ^13^C-Labeled biomass was sampled in the mid-log phase in the LS4D medium. Standard deviation is for mass distributions of GC-MS data is based on two biological replicates. Each biological replicate contained 2 technical replicates. The FT-ICR MS data is based on single measurements. **Table S-5.** CAD (MS^2^) spectrum of \[^13^C-Aps+H\]^+^ generated by ESI. +---------------------------+------------+----------+----------+-----+ | **Ion structures** | **Neutral | ** | **The | * | | | Loss** | Measured | oretical | *Er | | **(abundance of | | m/z** | m/z** | ror | | ^13^C/^12^C)** | | | | ( | | | | | | ppm | | | | | | )** | +---------------------------+------------+----------+----------+-----+ | ![](media/image4.wmf) | | 13 | 13 | 1.3 | | | | 5.047964 | 5.048139 | | | \[^13^C-Asp + H\]^+^ | | | | | +---------------------------+------------+----------+----------+-----+ | ![](media/image5.wmf) | H~2~O | 11 | 11 | 1.2 | | | | 7.037434 | 7.037574 | | +---------------------------+------------+----------+----------+-----+ | ![](media/image6.wmf) | H~2~O + CO | 8 | 8 | 0.8 | | | | 9.042586 | 9.042660 | | | (Ratio = 1.4) | H~2~O + | | | 0.9 | | | ^13^CO | 8 | 8 | | | | | 8.039228 | 8.039305 | | +---------------------------+------------+----------+----------+-----+ | ![](media/image7.wmf) | CH~2~CO | 7 | 7 | 0.3 | | | | 5.026984 | 5.027010 | | | (Ratio = 0.4) | C | | | 0.3 | | | H~2~^13^CO | 7 | 7 | | | | | 4.023636 | 4.023655 | | +---------------------------+------------+----------+----------+-----+ Note: the fragmentation data indicate that two carboxyl groups of aspartic acid should be labeled.

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# Presentation: 661516 ## <date/time> ## Session 31 - Default Prevention Strategies ## Agenda - Introduction - ED Overview - Default Plan - LSDA - Questions and Answers - Session 31 ## Default Prevention Strategies **Default prevention** **extends beyond the financial aid office and is key in reducing student loan defaults. ** **Educate the parents and get them involved as a partner with the financial aid office. ** **Promote early awareness. Juniors and seniors in high school must be made aware of what college will cost and the options they have to pay for post secondary education as well as the financial obligation they may make in order to attend.** - Session 31 ## Student Eligibility Processes **The first line of defense for curtailing fraud and insuring that the student and the school are entitled to participate in student loan programs. ** **Social Security Administration ** **Immigration and Naturalization ** **IRS ** **Selective Service ** **NSLDS** - Session 31 ## Tools for Reducing Default **Web-tools - ****www.nsldsfap.ed.gov** **Repayment Activities** **Identify the attributes for a potential defaulted borrower** **Technical Assistance ** **Cohort Default Rate (CDR) Guide ** **National Default Prevention Day** **Late Stage Delinquency Program ** - Session 31 ## Default Collections Tools **Performance-based contracts with private collection agencies** **Treasury Offset Program (TOP)** **Administrative Wage Garnishment (AWG)** **Federal Defaulted Program (FDP – wage garnishment program for federal employees)** **Electronic Debit** **National Directory of New Hires (NDNH) database** **Review and Monitor Guaranty Agencies and Lenders** - Session 31 ## Why Default Prevention? **Defaults cost all participants in the student loan program: lenders, guaranty agencies and taxpayers suffer economic losses when a borrower defaults. ** **The Department of Education is focused on mitigating risk and managing the risk that is inherent in a loan portfolio. ** **Improving internal and external controls, communications, and education of the borrower about their student aid obligations are the focus of the Department. ** - Session 31 ## Official Cohort Default Rates - Session 31 ## Makeup of Cohort Rate - Session 31 ## Reducing Delinquency and Default: Short Term and Long Term Solutions - What steps can I take to treat the causes of delinquency and default? - Treating the symptoms: What can I do immediately? - Session 31 ## The Long Term Solution: **Have a Default Prevention Plan** - Session 31 ## Creating a Default Prevention Plan - Collect and analyze data and draw conclusions - Create your institution wide Default Prevention Plan - Implement the Plan - Assess effectiveness of the Plan - Session 31 ## What are my available resources? - Institutional student and alumni records and information - Department of Education data: - School Cohort Default Rate History Report (Loan Record Detail Report) - NSLDS School Repayment Loan Detail Report - NSLDS Financial Aid History Report - For more information refer to http://www.ifap.ed.gov/drmaterials/FinalCDRG.html - Servicer and Guaranty Agency Reports - Session 31 ## What am I looking for?What does the data say? - Common characteristics - Defaulters and Non-defaulters - Borrowers and Non-borrowers - Institutional variables - Year in College - Field of Study - Demographic variables - Student Population by County - Student Population by High School - Draw conclusions from the analysis - Session 31 ## Set realistic and attainable goals Assign responsibility for action steps Establish time frames Assess progress: How will you know when your goals are attained? Inform senior management and your institution of progress - Assign responsibility for action steps - Establish time frames - Assess progress: How will you know when your goals are attained? - Inform senior management and your institution of progress ***Formulate a Plan*** - Session 31 ## One Short Term Solution - Late Stage Delinquency Assistance (**LSDA**) - Session 31 ## Borrower Delinquency Pattern - Session 31 ## How It Can Work - Identify the Borrower via the web site - Contact the Student and contact Servicer for three way calling to resolve the delinquency - Schools have additional tools to locate Borrowers, i.e. Alumni Association directories - Servicer will ensure Student is provided assistance - Phone script available to help provide a guide on how to counsel the Borrower/Student - Session 31 ## With the Web Site you can see as little or as much as you want - Session 31 ## Summary Information - You can see the delinquency status of your student borrowers - Session 31 ## All Detail Information ***All Detail Information*** - You can elect to see detail of all borrowers in the 271-360 days delinquent category - 99 - Session 31 ## Cohort Year Delinquency - You can elect to see severely delinquent borrowers for a selected cohort year - Session 31 ## 2002 Cohort Year Delinquency Detail ***2002 Cohort Year Delinquency Detail*** - You can work as little or as much as you want - Session 31 ## Sample Distribution of Potential 2002 Defaulters - Session 31 ## Why Do It ? - Minimal effort, maximum results - Helps the Borrower/Student - Helps the school - Schools can focus on the most severe delinquencies - Use the web tools to identify the accounts you are able to help collect - Service Center is available to assist 1-888-877-7658 - No financial or contractual commitment - Session 31 ## Contact information **Sybil Phillips** **Sybil.Phillips@ed.gov,** **Ben Leborys** **Ben.Leborys@ed.gov ** **or** **John Pierson** **John.Pierson@ed.gov** - Session 31 ## Questions and Answers - Session 31

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# Presentation: 372564 ## Evolving SPDF/SECAA Active-Archive Multi-Mission Services in the Era of Virtual Observatories and LWS - R E McGuire1, R M Candey1, R A Chimiak2, D Han2, B T Harris2, - R C Johnson3, C Klipsch3,T J Kovalick3, H A Leckner3, M. Liu4 - 1Code 630, 2Code 580, 3QSS/Code 630, 4Raytheon/Code 630 - NASA's Goddard Space Flight Center, Greenbelt, MD 20771 ## Multi-Mission Services Today(cf. http://spdf.gsfc.nasa.gov) - CDAWeb: Easy data browse and display, user-specified time and parameter subsets with graphics, listings, file downloads - Data from most currently-important SEC missions - SSCWeb: Multi-mission orbits, with graphics and conjunction logic for coordinated science planning - OMNI2: Field, plasma, particle hourly avgs at 1 AU - CDF standard data format and associated software - Data format translations - ModelWeb: Information, codes, execution I/F ## Unique Community Resources Scope of CDAWeb data holdings and multi-mission service Nature of SSCWeb database and unique functions supported OMNI2 database as near-Earth 40- year interplanetary baseline CDF supports multiple programs (including planned STEREO and THEMIS) Citations to services & data (with NSSDC, >107 in 2003) Resources are heavily used (plots, lists, files, queries) Many regular distinct science users: e.g. ~900 CDAWeb International sharing of data (including CDAWeb mirror sites) Variety of technologies FTP access plus S/W (e.g. CDAWLib and CDFX) Html-based user I/F Web-services application I/F New Java-based clients (with Webstart installations) - Scope of CDAWeb data holdings and multi-mission service - Nature of SSCWeb database and unique functions supported - OMNI2 database as near-Earth 40- year interplanetary baseline - CDF supports multiple programs (including planned STEREO and THEMIS) - Citations to services & data (with NSSDC, >107 in 2003) - Resources are heavily used (plots, lists, files, queries) - Many regular distinct science users: e.g. ~900 CDAWeb - International sharing of data (including CDAWeb mirror sites) - Variety of technologies - FTP access plus S/W (e.g. CDAWLib and CDFX) - Html-based user I/F - Web-services application I/F - New Java-based clients (with Webstart installations) - Years 1990-2010 - CDAWeb Data Sets - (~240 total datasets in this overview, one row per dataset) - _Missions include_ - ACE - Cluster - FAST - Geotail - GOES - IMAGE - Interball - LANL - Polar - TIMED - Ulysses - Wind ## SECAA Services in the Context of VxOs - Virtual Observatory (VO) paradigm for Sun-Space-Geospace research community might be defined as a vision of a future Solar-Terrestrial data environment - Where data, models and services can be highly distributed - While end users see an integrated view, and where - All potentially-useful data are readily findable, accessible, useable - With appropriate services and across mission-instrument boundaries - VO is similar to the Virtual Space Laboratory concept proposed several years ago as a Roadmap effort - VxO strategy to build the new data environment by leveraging existing capabilities, while those capabilities evolve in turn to talk to the new data environment - Want a flexible long-term architecture delivering over time the best services at the lowest effective cost - Technology => hybrid solution with both distributed and centralized service elements whose mix will change ## Short-Term Plans - Retain (+build) excellence & utility of what works now - Must maintain performance and reliability - Access to more (& higher quality/content) (& distributed) data - New services (e.g. FTP Data Finder), functions and I/F flexibility - Data, models, and services through multiple paths - FTP (files+s/w), service user-I/Fs (html, Java), Web Service APIs - Data and capabilities available to early SEC VxOs - Via Web Services with XML/WSDL-SOAP for communications, URL pointers to result files (data files or service products) - Exploit these extensions directly (Java-based clients, using WebStart for easy installation e.g. SSCWeb 3D interactive plots) - Support mapping to evolving SEC data dictionary (SPASE effort) - Enable and partner in the various VxO efforts - Data format translation and other enabling services - Data/service "provider" (and “consumer”) to larger VxO environment - Expect framework and participation will evolve to a range of cooperative and innovative partnerships (e.g. VITMO conversation) - VO concept should be empowering - Wider range of data with much deeper analysis capabilities - Wide range of service approaches - E.g Many interfaces and services evolving over time that are "easy to prove" by attaching to full data environment - Multi-source data coupled to display, models and analysis, - Including accessible computing power ## Virtual Observatory Technical Questions, Concerns and Personal Observations - Technology is only one part of making the right data fully accessible to the required user community - Resource and cultural issues must have ongoing attention - Full data requirements to accomplish a science program (e.g. LWS) needed center-stage early & within effective data policy framework - Software is only one part (if perhaps the most fun) of the problem - Primary consideration in implementing Virtual Observatories must be effective and adequate service to the end users of the data - Users need ability to perform a full range of functions - Users need to be able to accomplish functions quickly - Users need to be able to perform functions predictably - What worked yesterday should work today - Software libraries and simple file finding/retrieval can offer high functional (analysis) capabilities - But software ... takes time to install and learn to operate - May not readily integrate data from different sources - May have issues with platforms and reliance on commercial s/w - Many users want/need more than simple file finding and retrieval (even with supporting s/w) - And need functions across mission / dataset boundaries - Higher-functions hard with too much heterogeneity - Metadata standards vital; data format standards still important ## Not everything may make sense to distribute User “wall-clock”time is the most valuable commodity Plus development and maintenance resources of couse WAN transfer times are still a design issue Often better to store multi-source data at the service host Data service architecture with almost all work done at the server end and talking to thin (very basic browser) clients is fairly robust Can be made to work almost every time for almost everybody ”Duplicated" disk storage is one more tool (and OK if it works) Can allow less complex s/w development and maintenance Allows work offline preparing diverse data for common service NASA science research community uses (and will use) many distinct operating systems (and versions), hardware and software platforms Complex functionality built on distributed data and smart desktop clients will present cross-platform and maintenance challenges E.g. Web services to talk to both Java and .NET clients E.g. Testing for client development and support for easy installation across multiple platforms E.g. Deployed web services infrastructure may become hard to change or evolve (as technology evolves, as new requirements are identified) as more clients are developed We‘re changing our web service I/F but are you able/willing to change your client as we change and evolve over time? KISS will always be important for effective services, software installation/operation and interfaces Critical future science from a diverse research community Options for a few “power” users will confuse many “novice” users We are ALL novices more times than we might care to admit Can there be too much data and too much capability to use? - User “wall-clock”time is the most valuable commodity - Plus development and maintenance resources of couse - WAN transfer times are still a design issue - Often better to store multi-source data at the service host - Data service architecture with almost all work done at the server end and talking to thin (very basic browser) clients is fairly robust - Can be made to work almost every time for almost everybody - ”Duplicated" disk storage is one more tool (and OK if it works) - Can allow less complex s/w development and maintenance - Allows work offline preparing diverse data for common service - NASA science research community uses (and will use) many distinct operating systems (and versions), hardware and software platforms - Complex functionality built on distributed data and smart desktop clients will present cross-platform and maintenance challenges - E.g. Web services to talk to both Java and .NET clients - E.g. Testing for client development and support for easy installation across multiple platforms - E.g. Deployed web services infrastructure may become hard to change or evolve (as technology evolves, as new requirements are identified) as more clients are developed - We‘re changing our web service I/F but are you able/willing to change your client as we change and evolve over time? - KISS will always be important for effective services, software installation/operation and interfaces - Critical future science from a diverse research community - Options for a few “power” users will confuse many “novice” users - We are ALL novices more times than we might care to admit - Can there be too much data and too much capability to use? - Contact information: _[mailto:robert.e.mcguire@nasa.gov](mailto:robert.e.mcguire@nasa.gov)_

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**Page 1 (Front) of Model 0505 (OCT94)** <table style="width:100%;"> <colgroup> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 10%" /> <col style="width: 1%" /> <col style="width: 13%" /> <col style="width: 6%" /> <col style="width: 1%" /> <col style="width: 5%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 1%" /> <col style="width: 9%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 12%" /> <col style="width: 4%" /> <col style="width: 6%" /> <col style="width: 0%" /> </colgroup> <tbody> <tr class="odd"> <td colspan="5">SOLICITATION, OFFER,</td> <td colspan="6">1. SOLICITATION NO.</td> <td colspan="3">2. TYPE OF SOLICITATION</td> <td>3. DATE ISSUED</td> <td colspan="3">PAGE OF PAGES</td> </tr> <tr class="even"> <td colspan="5">AND AWARD</td> <td colspan="6">DTFAAC-08-R-57413</td> <td colspan="3">NEGOTIATED (RFO)</td> <td>2/1/08</td> <td colspan="3">1 of 26</td> </tr> <tr class="odd"> <td colspan="5">(Construction, Alteration, or Repair)</td> <td colspan="6"></td> <td colspan="3"></td> <td></td> <td colspan="3"></td> </tr> <tr class="even"> <td colspan="18">IMPORTANT - THE "OFFER" SECTION ON THE REVERSE MUST BE FULLY COMPLETED BY OFFEROR.</td> </tr> <tr class="odd"> <td colspan="5">4. CONTRACT NO.</td> <td colspan="7">5. REQUISITION/PURCHASE REQUEST NO.</td> <td colspan="6">6.PROJECT NO./WORK ORDER NO.</td> </tr> <tr class="even"> <td colspan="5"></td> <td colspan="7">07-57413</td> <td colspan="6"></td> </tr> <tr class="odd"> <td colspan="3">7. ISSUED BY</td> <td colspan="2">CODE</td> <td colspan="4"></td> <td colspan="9">8. ADDRESS OFFER TO (If other than Item 7)</td> </tr> <tr class="even"> <td colspan="9"></td> <td colspan="9"></td> </tr> <tr class="odd"> <td colspan="9">FAA, NAS Automation & Facilities Contracting Team (AMQ-210)</td> <td colspan="9">FAA, Customer Service Desk (AMQ-100)</td> </tr> <tr class="even"> <td colspan="9">6500 South MacArthur Boulevard</td> <td colspan="9">Room 313, Multi-Purpose Building</td> </tr> <tr class="odd"> <td colspan="9">P.O. Box 25082</td> <td colspan="9">6500 South MacArthur Boulevard (Zip Code 73169)</td> </tr> <tr class="even"> <td colspan="9">Oklahoma City, OK 73125-4929</td> <td colspan="9">P.O. Box 25082</td> </tr> <tr class="odd"> <td colspan="9"></td> <td colspan="9">Oklahoma City, OK 73125-4933</td> </tr> <tr class="even"> <td colspan="9"></td> <td colspan="9"></td> </tr> <tr class="odd"> <td colspan="4">9. FOR INFORMATION</td> <td colspan="7">A. NAME</td> <td colspan="7">B. TELEPHONE NO. (Include area code) (NO COLLECT CALLS)</td> </tr> <tr class="even"> <td colspan="4">CALL: </td> <td colspan="7">Connie M. Houpt</td> <td colspan="7">(405) 954-7820</td> </tr> <tr class="odd"> <td colspan="7"><h3 id="firm-fixed-price-construction">FIRM-FIXED-PRICE CONSTRUCTION</h3></td> <td colspan="4">SOLICITATION</td> <td colspan="7"><h3 id="replace-rcag-tower-sarasota-fl">Replace RCAG Tower, Sarasota, FL</h3></td> </tr> <tr class="even"> <td colspan="18"></td> </tr> <tr class="odd"> <td colspan="18">11. TABLE OF CONTENTS</td> </tr> <tr class="even"> <td>()</td> <td>SEC</td> <td colspan="4">DESCRIPTION</td> <td colspan="2">PAGE(S)</td> <td>()</td> <td>SEC</td> <td colspan="6">DESCRIPTION</td> <td colspan="2">PAGE(S)</td> </tr> <tr class="odd"> <td colspan="8">PART I - THE SCHEDULE</td> <td colspan="10">PART II - CONTRACT CLAUSES</td> </tr> <tr class="even"> <td></td> <td>A</td> <td colspan="4">SOLICITATION/CONTRACT FORM</td> <td colspan="2">1-1a</td> <td></td> <td>I</td> <td colspan="6">CONTRACT CLAUSES</td> <td colspan="2">12-18</td> </tr> <tr class="odd"> <td></td> <td>B</td> <td colspan="4">SUPPLIES OR SERVICES AND PRICES/COSTS</td> <td colspan="2">2</td> <td colspan="10">PART III - LIST OF DOCUMENTS, EXHIBITS AND OTHER ATTACH.</td> </tr> <tr class="even"> <td></td> <td>C</td> <td colspan="4">DESCRIPTION/SPECS./WORK STATEMENT</td> <td colspan="2">3</td> <td></td> <td>J</td> <td colspan="6">LIST OF ATTACHMENTS</td> <td colspan="2">19</td> </tr> <tr class="odd"> <td></td> <td>D</td> <td colspan="4">PACKAGING AND MARKING</td> <td colspan="2">3</td> <td colspan="10">PART IV - REPRESENTATIONS AND INSTRUCTIONS</td> </tr> <tr class="even"> <td></td> <td>E</td> <td colspan="4">INSPECTION AND ACCEPTANCE</td> <td colspan="2">3-4</td> <td></td> <td>K</td> <td colspan="6">REPRESENTATIONS, CERTIFICATIONS AND OTHER</td> <td colspan="2"></td> </tr> <tr class="odd"> <td></td> <td>F</td> <td colspan="4">DELIVERIES OR PERFORMANCE</td> <td colspan="2">5</td> <td></td> <td></td> <td colspan="6">STATEMENTS OF OFFERORS</td> <td colspan="2">20-22</td> </tr> <tr class="even"> <td></td> <td>G</td> <td colspan="4">CONTRACT ADMINISTRATION DATA</td> <td colspan="2">6</td> <td></td> <td>L</td> <td colspan="6">INSTRUCTIONS, CONDITIONS, AND NOTICES TO OFFERORS</td> <td colspan="2">23-25</td> </tr> <tr class="odd"> <td></td> <td>H</td> <td colspan="4">SPECIAL CONTRACT REQUIREMENTS</td> <td colspan="2">7-12</td> <td></td> <td>M</td> <td colspan="6">EVALUATION FACTORS FOR AWARD</td> <td colspan="2">26</td> </tr> <tr class="even"> <td colspan="18">10. The Government requires performance of the work described in these documents (Title, Identifying no., date):</td> </tr> <tr class="odd"> <td colspan="18"></td> </tr> <tr class="even"> <td colspan="18"><ol type="A"> <li>Statement Of Work for Sarasota RCAG Towers, 8 pages</li> <li>Requirements for fixed ladder and ladder safety system, 1 page</li> </ol> A SITE VISIT WILL BE HELD ON FEBRUARY 12, 2008 AT 10:00 a.m. AT THE SARASOTA, FL RCAG SITE. SEE SECTION L, PROVISION 3.2.2.3-63 SITE VISIT (CONSTRUCTION), PAGE 24.</td> </tr> <tr class="odd"> <td colspan="18">THE ESTIMATED PRICE RANGE OF THIS PROCUREMENT IS: $50,000 to $75,000</td> </tr> <tr class="even"> <td colspan="18">11. The Contractor shall begin performance within 10 calendar days and complete it within the number of calendar days specified in clause 3.2.2.3-71, after receiving award, notice to proceed. This performance period is mandatory, negotiable.</td> </tr> <tr class="odd"> <td colspan="13">12A. THE CONTRACTOR MUST FURNISH ANY REQUIRED PERFORMANCE AND PAYMENT BONDS? (If "yes," indicate within how many calendar days after award in item 12B.) YES NO</td> <td colspan="5">12B. CALENDAR DAYS 15</td> </tr> <tr class="even"> <td colspan="17">13. ADDITIONAL SOLICITATION REQUIREMENTS:</td> <td></td> </tr> <tr class="odd"> <td colspan="17">A. Sealed offers in Original and NO copies to perform the work required are due at the place specified in Item 8 by 3:00 p.m. (hour) local time February 22, 2008 (date). If this is a sealed bid solicitation, offers must be publicly opened at that time. Sealed envelopes containing offers shall be marked to show the offeror's name and address, the solicitation number, and the date and time offers are due.</td> <td></td> </tr> <tr class="even"> <td colspan="17">B. An offer guarantee is, is not required. IN THE AMOUNT OF 20% OF THE offered PRICE, WHEN PROPOSAL EXCEEDS $100,000.</td> <td></td> </tr> <tr class="odd"> <td colspan="17">C. All offers are subject to the (1) work requirements, and (2) other provisions and clauses incorporated in the solicitation in full text or by reference.</td> <td></td> </tr> <tr class="even"> <td colspan="17"></td> <td></td> </tr> <tr class="odd"> <td colspan="17">D. Offers providing less than 60 calendar days for Government acceptance after the date offers are due will not be considered and will be rejected.</td> <td></td> </tr> <tr class="even"> <td colspan="17"></td> <td></td> </tr> <tr class="odd"> <td colspan="17"></td> <td></td> </tr> <tr class="even"> <td colspan="17">NSN 7540-01-155-3212 1442-102 STANDARD FORM 1442 (REV. 4-85)</td> <td></td> </tr> <tr class="odd"> <td colspan="17">Prescribed by GSA</td> <td></td> </tr> <tr class="even"> <td colspan="17">FAR (48 CFR) 53.2136-1(d)</td> <td></td> </tr> </tbody> </table> **Page 1 (Back) of Model 0505 (OCT94)** <table> <colgroup> <col style="width: 14%" /> <col style="width: 0%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 0%" /> <col style="width: 0%" /> <col style="width: 8%" /> <col style="width: 1%" /> <col style="width: 7%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 8%" /> <col style="width: 0%" /> <col style="width: 3%" /> <col style="width: 5%" /> <col style="width: 8%" /> </colgroup> <tbody> <tr class="odd"> <td colspan="19">OFFER (Must be fully completed by offeror) SIR No. DTFAAC-08-R-57413 PAGE 1a</td> </tr> <tr class="even"> <td colspan="11">14. NAME AND ADDRESS OF OFFEROR (Include ZIP Code)</td> <td colspan="8">15. TELEPHONE NO. (Include area code)</td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8">16. REMITTANCE ADDRESS (Include only if different than item 14)</td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11">CODE FACILITY CODE</td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="19">17. The offeror agrees to perform the work required at the prices specified below in strict accordance with the terms of this solicitation. If this offer is accepted by the Government in writing within calendar days after the date offers are due. (Insert any number equal to or greater than the minimum requirement stated in Item 13D. Failure to insert any number means the offeror accepts the minimum in Item 13D.)</td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td></td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td>AMOUNTS</td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td></td> <td colspan="18"></td> </tr> <tr class="even"> <td></td> <td colspan="18"></td> </tr> <tr class="odd"> <td colspan="19">18. The offeror agrees to furnish any required performance and payment bonds.</td> </tr> <tr class="even"> <td colspan="19">19. ACKNOWLEDGMENT OF AMENDMENTS (The offeror acknowledges receipt of amendments to the solicitation - give number and date of each)</td> </tr> <tr class="odd"> <td colspan="2">AMENDMENT NO.</td> <td></td> <td></td> <td colspan="5"></td> <td></td> <td colspan="2"></td> <td></td> <td></td> <td colspan="2"></td> <td colspan="2"></td> <td></td> </tr> <tr class="even"> <td colspan="2">DATE</td> <td></td> <td></td> <td colspan="5"></td> <td></td> <td colspan="2"></td> <td></td> <td></td> <td colspan="2"></td> <td colspan="2"></td> <td></td> </tr> <tr class="odd"> <td colspan="10">20A. NAME AND TITLE OF PERSON AUTHORIZED TO SIGN OFFER (Type or print)</td> <td colspan="5">20B. SIGNATURE</td> <td colspan="4">20C. OFFER DATE</td> </tr> <tr class="even"> <td colspan="10"></td> <td colspan="5"></td> <td colspan="4"></td> </tr> <tr class="odd"> <td colspan="19">AWARD (To be completed by Government)</td> </tr> <tr class="even"> <td colspan="19">21. ITEMS ACCEPTED:</td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="19"></td> </tr> <tr class="odd"> <td colspan="19"></td> </tr> <tr class="even"> <td colspan="8">22. AMOUNT</td> <td colspan="11">23. ACCOUNTING AND APPROPRIATION DATA (To be cited on the funding document issued hereunder.)</td> </tr> <tr class="odd"> <td colspan="7">24. SUBMIT INVOICES TO ADDRESS SHOWN IN  (4 copies unless otherwise specified)</td> <td colspan="4">ITEM 27</td> <td colspan="8">25. OTHER THAN FULL AND OPEN COMPETITION PURSUANT TO</td> </tr> <tr class="even"> <td colspan="5">26. ADMINISTERED BY CODE</td> <td colspan="6"></td> <td colspan="8">27. PAYMENT WILL BE MADE BY</td> </tr> <tr class="odd"> <td colspan="11">FAA, NAS, Automation & Facilities Contract</td> <td colspan="8">FAA, Financial Operations Division (AMZ-100)</td> </tr> <tr class="even"> <td colspan="11">Management Team (AMQ-240)</td> <td colspan="8">6500 South MacArthur Boulevard</td> </tr> <tr class="odd"> <td colspan="11">6500 South MacArthur Boulevard</td> <td colspan="8">P.O. Box 25710</td> </tr> <tr class="even"> <td colspan="11">P.O. Box 25082</td> <td colspan="8">Oklahoma City, OK 73125</td> </tr> <tr class="odd"> <td colspan="11">Oklahoma City, OK 73125-4929</td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="19">CONTRACTING OFFICER WILL COMPLETE ITEM 28 OR 29 AS APPLICABLE</td> </tr> <tr class="odd"> <td colspan="11">28. NEGOTIATED AGREEMENT (Contractor is required to sign this</td> <td colspan="8">29. AWARD (Contractor is not required to sign this doc.) Your</td> </tr> <tr class="even"> <td colspan="11">document and return copies to issuing office.) Contractor agrees</td> <td colspan="8">offer on this solicitation is hereby accepted as to the items listed. This</td> </tr> <tr class="odd"> <td colspan="11">to furnish and deliver all items or perform all work, requisitions identified</td> <td colspan="8">consummates the contract, which consists of (a) the Government</td> </tr> <tr class="even"> <td colspan="11">on this form and any continuation sheets for the consideration slated in this contract. The rights and obligations of the parties to this contract</td> <td colspan="8">solicitation and your offer, and (b) this contract award. No further contractual document is necessary.</td> </tr> <tr class="odd"> <td colspan="11">shall be governed by (a) this contract award, (b) the solicitation, and</td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11">the clauses, representations, certifications, and specifications or</td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11">incorporated by reference in or attached to this contract.</td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11">30A. NAME AND TITLE OF CONTRACT OR PERSON AUTHORIZED TO SIGN (Type or print)</td> <td colspan="8">31A. NAME OF CONTRACTING OFFICER Type or print)</td> </tr> <tr class="even"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="odd"> <td colspan="11"></td> <td colspan="8"></td> </tr> <tr class="even"> <td colspan="6">30B. NAME OF CONTRACTOR</td> <td colspan="5">30C. DATE SIGNED</td> <td colspan="6">31B. UNITED STATES OF AMERICA</td> <td colspan="2">31C. DATE SIGNED</td> </tr> <tr class="odd"> <td colspan="6">BY </td> <td colspan="5"></td> <td colspan="6">BY </td> <td colspan="2"></td> </tr> <tr class="even"> <td colspan="6">(Signature of person authorized to sign)</td> <td colspan="5"></td> <td colspan="6">(Signature of Contracting Officer)</td> <td colspan="2"></td> </tr> <tr class="odd"> <td colspan="19">STANDARD FORM 1442 BACK (REV. 4-85)</td> </tr> </tbody> </table> **PART I - SECTION B** SUPPLIES/SERVICES & PRICE/COST The contractor shall furnish all labor, tools, materials, equipment, and supplies, necessary to accomplish the construction project; Replace RCAG tower, Sarasota, FL, set forth below in accordance with the attached project manual, drawings, and the other terms, conditions, and provisions as set forth herein. [ITEM NO. DESCRIPTION TOTAL AMOUNT ]{.underline} **Base Bid** 0001 Provide all labor and materials to replace FOR-THE-JOB \$\_\_\_\_\_\_\_\_\_\_\_ RCAG tower **PART I - SECTION C** SCOPE OF WORK **C.1 Statement of Work (SOW)** The contractor shall furnish all labor, tools, materials, equipment, and supplies necessary to accomplish the construction project set forth, in accordance with the terms, conditions, and provisions as set forth herein. **C.2 Bid Vs. Offer** References to the terms "bid", "bidder", etc. throughout the specification are intended to mean "offer", "offeror", etc. **C.3 Specifications and/or Drawings** The following specifications and/or drawings are applicable to this acquisition: (a) Statement of Work for Sarasota RCAG Tower, 9 pages (b) Requirements for Fixed Ladder and Ladder Safety System, 1 page ----------------------------------------------------------------------- ----------------------------------------------------------------------- **C.4 Emergency Situations and Exercises during** **Contract Performance** (September 2001) **CLA.4548** $a$ Emergency situations and exercises are temporary exceptions to the prohibition of contractor personnel not being subject to the direction and control of Government personnel when performing non-personal contract services in FAA facilities. $b$ All contractor personnel at a FAA work site or facility during an actual emergency shall conform to the procedures posted or directed by FAA officials responsible for emergency response at that site or facility. Such officials include evacuation wardens/monitors, security personnel, Emergency Readiness Officers, management, etc. $c$ Contractor personnel shall participate in all emergency exercises, including evacuations, as part of performance under this contract. On rare occasions and based on advance arrangements that are then *announced at the time of an exercise,* contractor personnel will be excused from evacuations. $d$ Contractor management/supervisors shall ensure that each contractor employee assigned work in FAA facilities possesses a general awareness of emergency and evacuation procedures at all locations where the employees might be during an emergency or exercise. Information on emergency procedures may be requested from the Contracting Officer's Technical Representative or a designated FAA contact point at the work site. **PART I - SECTION D** PACKAGING AND MARKING ####### NOT APPLICABLE **PART I - SECTION E** INSPECTION AND ACCEPTANCE **3.10.4-10 Inspection of Construction** (July 2001) $a$ \'Work\' includes, but is not limited to, materials, workmanship, and manufacture and fabrication of components. $b$ The Contractor shall maintain an adequate inspection system and perform such inspections as will ensure that the work performed under the contract conforms to contract requirements. The Contractor shall maintain complete inspection records and make them available to the Government. All work shall be conducted under the general direction of the Contracting Officer and is subject to Government inspection and test at all places and at all reasonable times before acceptance to ensure strict compliance with the terms of the contract. $c$ Government inspections and tests are for the sole benefit of the Government and do not\-- $1$ Relieve the Contractor of responsibility for providing adequate quality control measures; $2$ Relieve the Contractor of responsibility for damage to or loss of the material before acceptance; $3$ Constitute or imply acceptance; or $4$ Affect the continuing rights of the Government after acceptance of the completed work under paragraph (i) below. $d$ The presence or absence of a Government inspector does not relieve the Contractor from any contract requirement, nor is the inspector authorized to change any term or condition of the specification without the Contracting Officer\'s written authorization. $e$ The Contractor shall promptly furnish, without additional charge, all facilities, labor, and material reasonably needed for performing such safe and convenient inspections and tests as may be required by the Contracting Officer. The Government may charge to the Contractor any additional cost of inspection or test when work is not ready at the time specified by the Contractor for inspection or test, or when prior rejection makes reinspection or retest necessary. The Government shall perform all inspections and tests in a manner that will not unnecessarily delay the work. Special, full size, and performance tests shall be performed as described in the contract. $f$ The Contractor shall, without charge, replace or correct work found by the Government not to conform to contract requirements, unless the Government determines that it is in the public interest to accept the work with an appropriate adjustment in contract price. The Contractor shall promptly segregate and remove rejected material from the premises. $g$ If the Contractor does not promptly replace or correct rejected work, the Government may: $1$ by contract or otherwise, replace or correct the work and charge the cost to the Contractor or $2$ terminate for default the Contractor\'s right to proceed. $h$ If, before acceptance of the entire work, the Government decides to examine already completed work by removing it or tearing it out, the Contractor, on request, shall promptly furnish all necessary facilities, labor, and material. If the work is found to be defective or nonconforming in any material respect due to the fault of the Contractor or its subcontractors, the Contractor shall defray the expenses of the examination and of satisfactory reconstruction. However, if the work is found to meet contract requirements, the Contracting Officer shall make an equitable adjustment for the additional services involved in the examination and reconstruction, including, if completion of the work was thereby delayed, an extension of time. $i$ Unless otherwise specified in the contract, the Government shall accept, as promptly as practicable after completion and inspection, all work required by the contract or that portion of the work the Contracting Officer determines can be accepted separately. Acceptance shall be final and conclusive except for latent defects, fraud, gross mistakes amounting to fraud, or the Government\'s rights under any warranty or guarantee. **3.10.4-11 Inspection\--Dismantling, Demolition, or Removal of Improvements** (April 1996) $a$ Unless otherwise designated by the specifications, all workmanship performed under the contract is subject to Government inspection at all times and places where dismantling or demolition work is being performed. The Contractor shall furnish promptly and without additional charge all reasonable facilities, labor, and materials necessary for safe and convenient inspection by the Government. The Government shall perform inspections in a manner that will not unduly delay the work. $b$ The Contractor is responsible for damage to property caused by defective workmanship. The Contractor shall promptly segregate and remove from the premises any unsatisfactory facilities, materials, and equipment used in contract performance, and promptly replace them with satisfactory items. If the Contractor fails to proceed at once in a workmanlike manner with performance of the work or with the correction of defective workmanship, the Government may:\ (1) by contract or otherwise, replace the facilities, materials, and equipment or correct the workmanship and charge the cost to the Contractor and\ (2) terminate for default the Contractor\'s right to proceed.\ The Contractor and any surety shall be liable, to the extent specified in the contract for any damage or cost of repair or replacement. **PART I - SECTION F** DELIVERIES OR PERFORMANCE ### F.1 Working Hours Work at the site shall be accomplished between the hours of 7:30 a.m. and 4:00 p.m., Monday through Friday, excluding federally-established holidays, except when prior approval has been obtained from the Contracting Officer. Approval for overtime work shall not be construed as an agreement for payment of overtime work. ### F.2 Utility Outages and Shutdown Utility outages and shutdown shall be coordinated with the Contracting Officer and Project Manager. Outages affecting FAA operations are required to be accomplished at night, on weekends or designated government holidays. Prior to any outage or shutdown, five (5) working days notification must be made to coordinate scheduling of any work to be performed during any hours. ### F.3 Contractor's Construction Schedule and Material Submittals The contractor shall prepare and submit the construction work schedule to the Contracting Officer (CO) for approval within 15 days of the date established for "Commencement of Work." This period is in lieu of the 5 days set forth in Clause 3.2.2.3-56, which is incorporated by reference. **F.4 Accelerated Delivery** (January 1997) **CLA.1817** Any Schedule for delivery or performance may be expedited at the contractor\'s option, if without additional expense to the Government. **3.2.2.3-71/alt1 Starting, Performing, and Completing Work. Alternate I** (July 2004) **Revised** The Contractor (you) must\ (a) begin work under this contract within 10 calendar days after the date you receive the notice to proceed,\ (b) perform the work diligently, and\ (c) complete the entire work ready for use within 90 days of receipt of Notice to Proceed. The time allowed for completion must include final cleanup of the premises.\ (d) The Notice-To-Proceed with the construction phase will not be granted until the Contractor certifies to the Contracting Officer that all required materials, as approved by the Government, are in his possession and ready for installation. **3.1-1 Clauses and Provisions Incorporated by Reference** (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). **3.10.1-9 Stop-Work Order** (October 1996) 11. **Government Delay of Work** (April 1996) **3.10.1-24 Notice of Delay** (November 1997) **PART I - SECTION G** CONTRACT ADMINISTRATION DATA **G.1 Release Form** (January 1997) **CLA.1227** The contractor will be required to execute Contractor\'s Release Form DOT F 4220.4 (2-71) prior to final payment under the contract. (Note: A copy of Form DOT F 4220.4 (2-71) is attached hereto for information purposes.) **G.2 Availability and Use of Utility Services** (January 1997) **CLA.1405** The contractor may use existing utilities without charge, if available; however, the contractor at his own expense and in a workmanlike manner satisfactory to the Contracting Officer, shall furnish, install, and maintain all necessary temporary connections and distribution lines, and shall remove same prior to final acceptance of the construction. **G.3 Payment Procedures** (January 1997) **CLA.2916** $a$ The contractor shall submit original invoices, including applications for progress payments, directly to: FAA, Mike Monroney Aeronautical Center Financial Operations Division (AMZ-100) P.O. Box 25710 Oklahoma City, OK 73125-4913 $b$ Payment for work performed or items furnished under this contract is subject to approval by the Contracting Officer. The contractor shall submit 2 copies of all invoices, including applications for progress payments, to: FAA, Mike Monroney Aeronautical Center NAS Automation & Facilities Contract Management Team (AMQ-240) 6500 South MacArthur Boulevard P.O. Box 25082 Oklahoma City, OK 73125 $c$ Each invoice, including applications for progress payments, must reflect the contract number, delivery order number, and a description of the work, services, or items being invoiced. **3.10.1-23 Contracting Officer\'s Representative\--Construction Contracts** (July 2007) $a$ The Contracting Officer may appoint other Government personnel to accomplish certain contract administration matters. While there shall be various titles and divisions of duties for these individuals, generically they are known as Contracting Officer\'s Technical Representatives (COTRs). The Contracting Officer will provide written notice of COTR appointment(s), setting forth the authorities and limitations, to the Contractor within 15 calendar days prior to the notice to proceed. COTR duties may include, but are not limited to: $1$ Perform as the authorized representative of the Contracting Officer for technical matters, including interpretation of specifications and drawings, and inspection and review of work performed. $2$ Perform as the authorized representative of the Contracting Officer for administrative matters, including reviewing payments, and updated delivery schedules. $b$ These representatives are authorized to act for the Contracting Officer in all specifically delegated matters pertaining to the contract, except: $1$ contract modifications that change the contract price or cost, technical requirements or time for performance, unless delegated field change order authority; $2$ suspension or termination of the Contractor\'s right to proceed, either for default or for convenience;\ (3) final decisions on any matters subject to appeal, e.g., disputes under the \"Contract Disputes\" clause; and\ (4) final acceptance under the contract. ##### PART I - SECTION H SPECIAL CONTRACT REQUIREMENTS **H.1 Permits and Responsibilities** The Contractor shall secure and pay for all permits, licenses, special inspections, etc., required in the execution of the work, whether of a permanent or temporary nature. **H.2 Compliance with Copeland Act (Anti-Kickback Act) Requirements** The Contractor shall comply with the requirements of 29 CFR Part 3, which are hereby incorporated by reference in this contract. ### H.3 Disputes Concerning Labor Standards The United States Department of Labor has set forth in 29 CFR Parts 5, 6, and 7 procedures for resolving disputes concerning labor standards requirements. Such disputes shall be resolved in accordance with those procedures and not the Disputes clause of this contract. Disputes within the meaning of this clause include disputes between the Contractor (or any of its subcontractors) and the contracting agency, the U.S. Department of Labor, or the employees or their representatives. ### H.4 Strikes or Picketing Affecting Access to a DOT Facility If the Contracting Officer notifies the Contractor in writing that a strike or picketing: (a) is directed at the Contractor or subcontractor or any employee of either; and (b) impedes or threatens to impede access by any person to a DOT facility where the site of the work is located, the Contractor shall take all appropriate action to end such strike or picketing, including, if necessary, the filing of a charge of unfair labor practice with the National Labor Relations Board or the use of other available judicial or administrative remedies. ### H.5 Accident and Fire Reporting $a$ The Contractor shall report to the Contracting Officer any accident or fire occurring at the site of the work which causes: $1$ A fatality or as much as one lost workday on the part of any employee of the Contractor or subcontractor at any tier; $2$ Damage of \$1,000 or more to Federal property, either real or personal; $3$ Damage of \$1,000 or more to Contractor or subcontractor owned or leased motor vehicles or mobile equipment; or $4$ Damage for which a contract time extension may be requested. $b$ Accident and fire reports required by paragraph (a) above shall be accomplished by the following means: $1$ Accidents or fires resulting in a death, hospitalization of five or more persons, or destruction of Federal property (either real or personal), the total value of which is estimated at \$100,000 or more, shall be reported immediately by telephone to the Contracting Officer or his/her authorized representative and shall be confirmed by telegram or facsimile transmission within 24 hours to the Contracting Officer. Such telegram or facsimile transmission shall state all known facts as to extent of injury and damage and as to cause of the accident or fire. $2$ Other accident and fire reports required by paragraph (a) above may be reported by the Contractor using a state, private insurance carrier, or Contractor accident report form which provides for the statement of: $i$ The extent of injury; and $ii$ The damage and cause of the accident or fire. Such report shall be mailed or otherwise delivered to the Contracting Officer within 48 hours of the occurrence of the accident or fire. $c$ The Contractor shall assure compliance by subcontractors at all tiers with the requirements of this clause. ### H.6 Definitions $a$ \"Head of the agency\" (also called \"agency head\") or \"Secretary\" means the Secretary (or Attorney General, Administrator, Governor, Chairperson, or other chief official, as appropriate) of the agency, including any deputy or assistant chief official of the agency; and the term \"authorized representative\" means any person, persons, or board (other than the Contracting Officer) authorized to act for the head of the agency or Secretary. $b$ \"Contracting Officer\" means a person with the authority to enter into, administer, and/or terminate contracts and make related determinations and findings. The term includes certain authorized representatives of the Contracting Officer acting within the limits of their authority as delegated by the Contracting Officer. ### H.7 Security Requirements The contractor shall provide a listing of employees' names and social security numbers to SSC Manager, Wilberto Torres (941/355-3834 or wilberto.torres@faa.gov) for badging requirements. All contractor access, contractor badges, etc. must be coordinated through the local Security Servicing Element (SSE) or designee. **H.8 Environmental, Safety and Health** (May 2007) **Revised CLA.0090** $a$ The Contractor shall assure that no person employed on this contract works in surroundings or under conditions that are unsanitary, hazardous, or dangerous to their health or safety. The contractor shall also ensure that all employees received appropriate and required safety, health, environmental, and equipment operational training. In fulfilling these requirements, the Contractor shall comply with: $1$ Department of Labor Safety and Health Standards for Construction under Section 107 of the Contract Work Hours and Safety Standards Act (40 U.S.C. 327 et seq. and CFR 1960). $2$ Occupational Safety and Health Act of 1970, (Public Law 91-598 and 29 CFR 1960) (OSHA) and applicable rules and regulations as may have been delegated to the States. $3$ Applicable Federal and state environmental requirements. This includes, but is not limited to Code of Federal Regulations, U.S. Environmental Protection Agency, Oklahoma Department of Environmental Quality, and the Oklahoma Corporation Commission. $4$ Supplemental FAA environmental, safety and health requirements contained in FAA and Environmental, Safety and Health Orders, or elsewhere in the contract. Other standards used by FAA include the National Fire Codes, American National Standards Institute (ANSI), American Society of Testing and Materials (ASTM), etc. This list of standards or laws is not inclusive. Other safety and health FAA regulations can be found in the 3900 classification series entitled, "Employee Health and Safety." Other environmental FAA regulations can be found in the 1050 classification series. $b$ If the Contractor works more than 1000 employee-hours in one quarter on the FAA Campus, the Contractor shall prepare and submit an annual report of injury and illness information regarding this workforce using the attached form. The report shall be submitted to the Contracting Officer **not later than November 30** of each government fiscal year (October 1 through September 30) and contain the following information: $1$ The number of employee-hours worked during the preceding fiscal year; $2$ The number of OSHA recordable cases (defined as mishaps that result in fatalities, lost workdays, medical treatment, restricted workdays or a loss of consciousness) that occurred during the preceding fiscal year; $3$ The number of cases which resulted in days away and/or restricted/transferred duty that occurred during the preceding fiscal year. $c$ If there are conflicts between any of the requirements referenced in this contract, the more stringent requirement will prevail. $d$ If the Contractor fails or refuses to promptly comply with any environmental, safety or health requirement, the Contracting Officer's Technical Representative (COTR) will notify the Contractor of any such noncompliance and the Contractor shall take immediate corrective action. Such notice, whether oral or written, when served on the Contractor or any of its employees at the site of the work, shall be deemed sufficient. If the Contractor fails or refuses to promptly correct the condition, the COTR may stop all or any portion of the work. When satisfactory corrective action has been taken, the contractor shall request permission to resume work from the COTR. No time extension or additional costs, resulting from the directive to stop work shall be allowed. Failure of the COTR to provide notice of noncompliance or to stop work shall not relieve the Contractor of its responsibility for the safe performance of the work. $e$ The Contractor shall require contract personnel to wear personal protective equipment when it is necessary because of the hazards on the job and in most instances will provide the equipment, except that which has been specified to be furnished by FAA. All personal protective equipment worn by contractors shall be equal to or exceed the level of protection required of and provided to Government employees. $f$ Contractors shall include a clause in all subcontracts to require subcontractors to comply with this clause. **H.9 Requirement for Screening of Contractor Personnel** (June 2001) **CLA.1262** $a$ Contractor Screening of Personnel. The operation of this contract is intended to promote the continued safe and secure operation of Federal Aviation Administration (FAA) facilities, systems and resources that comprise or support the National Aerospace System. Access to most FAA locations, systems and equipment is restricted and controlled by the responsible FAA Servicing Security Element. No rights of access to FAA facilities or resources are conferred to the contractor or contractor personnel by this contract. The contractor is responsible for identifying and providing qualified and acceptable personnel in performance of the contract. To meet this requirement, the contractor shall perform routine personnel screening prior to personnel having access to any FAA facility, resources, or sensitive information. $1$ The contractor shall obtain a criminal history report of the prospective employee from the appropriate state authority, i.e., the state where the individual was last employed. If the criminal history report reveals an occurrence of activity listed in paragraphs 1 through 6 of the contract attachment entitled \"Screening Standards-CONTRACTOR\" within the preceding 9 years, the prospective employee shall not be allowed access to any FAA facility, resources, or sensitive information. Payment of any fees charged for such criminal history reports shall be the responsibility of the contractor. If the cost is included in the price of the contract, it shall be subject to the usual tests of allocability and reasonableness. $2$ The Government expects that the contractor will normally contact prospective employees\' previous employer(s) for employment history, and apply the contractor\'s customary standards for employment suitability. If this employment history check reveals a documented occurrence of activity listed in paragraph 7 of the contract attachment entitled \"Screening Standards - CONTRACTOR\" within the preceding 9 years, the prospective employee shall not be allowed access to any FAA facility, resources, or sensitive information. $3$ When specific experience or educational requirements apply to personnel performing on the contract, the contractor shall verify prospective employees\' claimed experience or educational qualifications. $b$ Government Screening Standards for Contractor Personnel. $1$ The Contractor shall inform prospective employees that the FAA will perform background investigations on contractor personnel prior to their gaining access to any Federal Aviation Administration (FAA) facility, resource or sensitive information/system in performance of the contract. $2$ Prior to placing any employee in a position having access to FAA facilities, resources or sensitive information, the contractor shall provide that employee a copy of the contract attachment entitled \"Adjudicative Standards: Issues\". (Appendix 6, FAA Order 1600.1D). In addition, the contractor must advise the prospective employee of FAA's intent to employ such adjudicative standards in determining employee access as described above. $3$ Any personnel the contractor employs to work on FAA facilities and resources found to have a conviction history within nine (9) years prior to beginning performance under this contract shall be denied access to any FAA-controlled facility/resource. No access will be granted until the Government's background investigation is complete and a favorable determination made as a result of the adjudication process. $c$ Upon written request to the CO or his/her designated representative, the FAA may waive the screening requirements with respect to: $1$ a contractor employee that has had a FAA background investigation within the previous five years, with uninterrupted employment and performance on a FAA facility, and a record of acceptable behavior; or $2$ a contractor employee that has had a FAA background investigation within the previous 12 months, with interrupted employment and performance on a FAA facility, and a record of acceptable behavior. $d$ If in unusual circumstances the contractor finds it necessary to utilize a person that does not meet the requirements of paragraph (a), the FAA may at its sole discretion, grant a waiver to this clause. Contractor\'s request for waiver shall be in writing to the contracting officer, providing information about mitigating circumstances to the negative screening results, and explain why the person should have access to FAA facilities, resources or sensitive information. The FAA will grant or deny the waiver request in writing within 15 days following receipt. The decision to grant or deny the waiver is solely the FAA\'s, and is not subject to appeal or to the \"Disputes\" clause of this contract. The contractor understands that access suitability determinations by the responsible Security Servicing Element, although conclusive under this contract, derive legal standing independent of the contract. $e$ If the contractor fails to perform the required screening, or disregards the results of the screening, and subject personnel are found to be unacceptable as a result of FAA background investigation(s), the contractor shall be responsible for FAA\'s cost of subsequent FAA background investigation(s) of the replacement personnel. The cost of additional FAA background investigation(s) may be deducted from requests for payment under the contract. $f$ The Contractor shall retain all reports and related documentation pertaining to (a)(1) through (3) for the duration of this contract, and shall make them available for review by the contracting officer, or his/her designated representative, within 10 days of written request. $g$ Neither the time required to perform the screening, nor the impact of any personnel action(s) required as a consequence of the screening shall be considered an \"excusable delay\" as described in the \"Default\" clause of this contract. $h$ Notwithstanding the diligent effort of the contractor to provide qualified and acceptable personnel for performance of the contract, the CO may by written notice deny access to FAA facilities, resources, or sensitive information to those personnel who have been deemed incompetent, careless, dangerous, unsuitable or otherwise objectionable, former federal employees in violation of a post-employment restriction, or those whose continued presence on Government property is contrary to the public interest or inconsistent with the interest of national security. The Contractor shall fill out, and cause each of its personnel on the contract to fill out for submission to the Government; such forms as may be necessary for security or other reasons relating to qualifications and suitability for contract work. Upon request of the CO, the Contractor\'s personnel shall be fingerprinted. **H.10 Save Harmless and Indemnity Agreement** (January 1997) **CLA.3211** The contractor shall save and keep harmless and indemnify the Government against any and all liability, claims, and costs of whatsoever kind and nature of injury to or death of any person or persons and for loss or damage to any property (Government or otherwise) occurring in connection with or in any way incident to or arising out of the occupancy, use, service, operations, or performance of work in connection with this contract, resulting in whole or in part from the negligent acts, fault or omissions of the contractor, any subcontractor, or any employee, agent, or representative of the contractor or any subcontractor. **H.11 Liability Insurance** (January 1997) **Revised CLA.3212** $a$ Pursuant to AMS 3.4.1-10, Insurance\--Work on a Government Installation, the insurance required of the contract during contract performance is: $1$ Workers\' compensation and employer\'s liability as required by applicable Federal and State workers\' compensation and occupational disease statutes. Employer\'s liability coverage shall be not less than \$100,000. $2$ General liability coverage written on the comprehensive form of policy providing limits of liability for bodily injury of not less than \$500,000 for each occurrence and property damage limits of liability of not less than \$100,000 for each accident. $3$ Automobile liability (applicable to vehicles used in connection with contract performance) written on the comprehensive form of policy providing coverage of at least \$200,000 per person and \$500,000 per occurrence for bodily injury and \$100,000 per occurrence for property damage. $b$ The policy shall name \"The United States of America, acting by and through the Federal Aviation Administration\" as an additional insured with respect to operations performed under this contract. $c$ The policy shall include the following provision: \"It is a condition of this policy that the insurer shall furnish written notice to the Federal Aviation Administration (certificate holder) 30 days in advance of any reduction in or cancellation of this policy.\" $d$ Certificate holder address: FAA-Mike Monroney Aeronautical Center NAS Automation & Facilities Contract Management Team (AMQ-240) P. O. Box 25082 Oklahoma City, OK 73l25 $e$ At any time during contract performance and upon request of the Contracting Officer, the contractor shall provide a certified true copy of the liability policy and manually countersigned endorsements of any changes thereto. **H.12 FAA Facility Regulations** (October 2006) **CLA.3402** Contractor personnel, including employees of subcontractors at any tier, suppliers, etc., working at or visiting an FAA facility, shall abide by all applicable regulations in effect at that facility governing their conduct, including, but not limited to, those regulations pertaining to traffic, parking, security, and airport matters. A non-inclusive list of such regulations is below. The full text of these is available at the website shown or can be obtained by contacting your Contracting Officer (CO)/Contracting Officer's Technical Representative (COTR). **[FAA ORDERS/DIRECTIVES]{.underline}** **Security FAA Order 1600.72** [**http://www.faa.gov/about/office_org/headquarters_offices/ash/ash_programs/investigations/isp/media/160072.doc**](http://www.faa.gov/about/office_org/headquarters_offices/ash/ash_programs/investigations/isp/media/160072.doc) **Harassment FAA Order 1110.125A,** > **Accountability board** > > [**https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/1110_125A/**](https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/1110_125A/) **Smoking FAA Order 3900.47** [**https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/390047/**](https://employees.faa.gov/org/staffoffices/ahr/policy_guidance/hr_policies/order/orders/390047/) **Safety/OSHA FAA Order 3900.19B** [**https://employees.faa.gov/employee_services/safety/occ_safety/media/FINAL3900.pdf**](https://employees.faa.gov/employee_services/safety/occ_safety/media/FINAL3900.pdf) **Ramp/airdrome safety <http://www.faa.gov/runwaysafety/ontheground.cfm>** > **FAA Order 5200.7A** > > [**http://www.faa.gov/runwaysafety/pdf/5200.7A.pdf**](http://www.faa.gov/runwaysafety/pdf/5200.7A.pdf) **Internet use policy FAA Order 1370.79A** [**http://www.faa.gov/about/office_org/headquarters_offices/aio/documents/**](http://www.faa.gov/about/office_org/headquarters_offices/aio/documents/) **For orders which are not accessible via the links, or not listed above, contact your Contracting Officer (CO)/Contracting Officer's Technical Representative (COTR).** ######### H.13 Agreement to Participate in Alternative Dispute Resolution (April 1998) CLA.4540 $a$ The Federal Aviation Administration encourages direct communications and negotiations between the contractor and the contracting officer in an attempt to resolve contract disputes. In those situations where the parties are not able to achieve resolution at the contracting officer level, the agency favors the use of alternative dispute resolution (ADR) techniques to resolve disputes. $b$ The parties hereby agree that, prior to referring a contract dispute to the Office of Disputes Resolution as described in contract clause 3.9.1-1 "Contract Disputes", the parties will discuss whether they are willing to utilize ADR techniques such as mediation or nonbinding evaluation of the dispute by a neutral party. Upon receipt of a contract dispute from the contractor, the contracting officer will explore with the contractor whether the use of ADR techniques would be appropriate to resolve the dispute. Both parties must agree that the use of such techniques is appropriate, and agree to fairly share the associated expenses. If the parties do not mutually agree to utilize ADR to resolve the dispute, the dispute will be processed in accordance with the procedures set forth in clause 3.9.1-1. **H.14 Notice of Contractor Testimony** (September 2006) **CLA.4555** $a$ The contractor shall notify the Contracting Officer promptly in writing of its intention, or the intention of its employees, subcontractors of any tier, or subcontractor employees, either voluntarily or under compulsion of competent authority, to provide sworn testimony on any matter related to or arising under the work required by and/or performed under, this contract. Such written notification at a minimum shall consist of the date and time of the testimony, identification of the court, board, or other body before which the testimony is made, the nature of the testimony to be given to the extent it is known at the time of this report, the nature of the contractor's involvement in the proceeding and any other circumstances related to the work performed under or related to the contract and the proceeding in which the testimony will be taken. $b$ The contractor shall include the substance of this clause, including this paragraph (b), in all subcontracts executed under this contract and shall require all subcontractors to provide the required report to the contractor. **H.15 Personnel and Supervision** (October 2006) **CLA.4556** The contractor shall designate sufficient supervisory personnel to meet task outcomes. Contract supervisors will provide day-to-day supervision of contract personnel including, but not limited to, work monitoring, payroll records, leave, etc. At no time will FAA personnel assume any responsibility for the supervision of contractor personnel. Government assistance will be available to provide technical and policy guidance through the assigned COTR. **H.16 Strikes or Picketing Affecting Timely Completion of the Contract Work CLA.4557** (September 2006) Notwithstanding any other provision hereof, the Contractor is responsible for delays arising out of labor disputes, including but not limited to strikes, if such strikes are reasonably avoidable. A delay caused by a strike or by picketing which constitutes an unfair labor practice is not excusable unless the Contractor takes all reasonable and appropriate action to end such a strike or picketing, such as the filing of a charge with the National Labor Relations Board, the use of other available Government procedures, and the use of private boards or organizations for the settlement of disputes. **PART II - SECTION I** CONTRACT CLAUSES **3.2.2.3-41 Performing Work** (July 2004) The Contractor (you) must perform, using your own organization, work equivalent to at least fifteen (15) percent of the total amount of work under the contract on the site. The CO may modify this contract to reduce this percentage if you request a reduction and the CO determines that it would be to the Government's advantage to do so. **3.3.1-33** **Central Contractor Registration** (January 2008) $a$ Definitions. As used in this clause \"Central Contractor Registration (CCR) database\" means the primary Government repository for Contractor information required for the conduct of business with the Government. \"Data Universal Numbering System (DUNS) number\" means the 9-digit number assigned by Dun and Bradstreet, Inc. (D&B) to identify unique business entities. \"Data Universal Numbering System +4 (DUNS+4) number\" means the DUNS number assigned by D&B plus a 4-character suffix that may be assigned by a business concern. (D&B has no affiliation with this 4-character suffix.) This 4-character suffix may be assigned at the discretion of the business concern to establish additional CCR records for identifying alternative Electronic Funds Transfer (EFT) accounts for the same parent concern. \"Registered in the CCR database\" means that the Contractor has entered all mandatory information, including the DUNS number or the DUNS+4 number, into the CCR database. $b$ (1) By submission of an offer, the offeror acknowledges the requirement that a prospective awardee shall be registered in the CCR database prior to award, during performance, and through final payment of any contract, basic agreement, basic ordering agreement, or blanket purchasing agreement resulting from this solicitation. > $2$ The offeror shall enter, in Representations, Certifications and > Other Statements of Offerors Section of the solicitation, the DUNS or DUNS +4 number that identifies the offeror\'s name and address exactly as stated in the offer. The DUNS number will be used by the Contracting Officer to verify that the offeror is registered in the CCR database. > $c$ If the offeror does not have a DUNS number, it should contact > Dun and Bradstreet directly to obtain one. > > $1$ An offeror may obtain a DUNS number > > $i$ If located within the United States, by calling Dun and > Bradstreet at 1-866-705-5711 or via the Internet at <http://fedgov.dnb.com/webform>; or > $ii$ If located outside the United States, by contacting the local > Dun and Bradstreet office.\ > (2) The offeror should be prepared to provide the following > information: > > $i$ Company legal business. > > $ii$ Tradestyle, doing business, or other name by which your entity > is commonly recognized.\ > (iii) Company Physical Street Address, City, State, and ZIP Code.\ > (iv) Company Mailing Address, City, State and ZIP Code (if different > from physical street address). > $v$ Company Telephone Number.\ > (vi) Date the company was started.\ > (vii) Number of employees at your location.\ > (viii) Chief executive officer/key manager.\ > (ix) Line of business (industry).\ > (x) Company Headquarters name and address (reporting relationship > within your entity). $d$ If the offeror does not become registered in the CCR database in the time prescribed by the Contracting Officer, the Contracting Officer may proceed to award to the next otherwise successful registered offeror. $e$ Processing time, which normally takes 48 hours, should be taken into consideration when registering. Offerors who are not registered should consider applying for registration immediately upon receipt of this solicitation. $f$ The Contractor is responsible for the accuracy and completeness of the data within the CCR database, and for any liability resulting from the Government\'s reliance on inaccurate or incomplete data. To remain registered in the CCR database after the initial registration, the Contractor is required to review and update on an annual basis from the date of initial registration or subsequent updates its information in the CCR database to ensure it is current, accurate and complete. Updating information in the CCR does not alter the terms and conditions of this contract and is not a substitute for a properly executed contractual document. $g$ (1) (i) If a Contractor has legally changed its business name, \"doing business as\" name, or division name (whichever is shown on the contract), or has transferred the assets used in performing the contract, but has not completed the necessary requirements regarding novation and change-of-name agreements in AMS Procurement Guidance T3.10.1.A-8, the Contractor shall provide the responsible Contracting Officer a minimum of one business day\'s written notification of its intention to: > $A$ change the name in the CCR database;\ > (B) comply with the requirements of T3.10.1.A-8; and\ > (C) agree in writing to the timeline and procedures specified by the > responsible Contracting Officer. The Contractor must provide the Contracting Officer with the notification, sufficient documentation to support the legally changed name. > $ii$ If the Contractor fails to comply with the requirements of > paragraph (g)(1)(i) of this clause, or fails to perform the agreement at paragraph (g)(1)(i)(C) of this clause, and, in the absence of a properly executed novation or change-of-name agreement, the CCR information that shows the Contractor to be other than the Contractor indicated in the contract will be considered to be incorrect information within the meaning of the \"Suspension of Payment\" paragraph of the electronic funds transfer (EFT) clause of this contract. > $2$ The Contractor shall not change the name or address for EFT > payments or manual payments, as appropriate, in the CCR record to reflect an assignee for the purpose of assignment of claims. Assignees shall be separately registered in the CCR database. Information provided to the Contractor\'s CCR record that indicates payments, including those made by EFT, to an ultimate recipient other than that Contractor will be considered to be incorrect information within the meaning of the \"Suspension of payment\" paragraph of the EFT clause of this contract. $h$ Offerors and Contractors may obtain information on registration and annual confirmation requirements via the internet at [http://www.ccr.gov](http://www.ccr.gov/)/ or by calling 1-888-227-2423, or 269-961-5757. **3.3.1-34 Payment by Electronic Funds Transfer---Central Contractor Registration** (October 2005) $a$ Method of payment. > $1$ All payments by the Government under this contract shall be made > by electronic funds transfer (EFT), except as provided in paragraph (a)(2) of this clause. As used in this clause, the term \"EFT\" refers to the funds transfer and may also include the payment information transfer. > $2$ In the event the Government is unable to release one or more > payments by EFT, the Contractor agrees to either--- > $i$ Accept payment by check or some other mutually agreeable method > of payment; or > $ii$ Request the Government to extend the payment due date until > such time as the Government can make payment by EFT (but see paragraph (d) of this clause). $b$ Contractor\'s EFT information. The Government shall make payment to the Contractor using the EFT information contained in the Central Contractor Registration (CCR) database. In the event that the EFT information changes, the Contractor shall be responsible for providing the updated information to the CCR database. $c$ Mechanisms for EFT payment. The Government may make payment by EFT through either the Automated Clearing House (ACH) network, subject to the rules of the National Automated Clearing House Association, or the Fedwire Transfer System. The rules governing Federal payments through the ACH are contained in 31 CFR Part 210. $d$ Suspension of payment. If the Contractor\'s EFT information in the CCR database is incorrect, then the Government need not make payment to the Contractor under this contract until correct EFT information is entered into the CCR database; and any invoice or contract financing request shall be deemed not to be a proper invoice for the purpose of prompt payment under this contract. The prompt payment terms of the contract regarding notice of an improper invoice and delays in accrual of interest penalties apply. $e$ Liability for uncompleted or erroneous transfers. > $1$ If an uncompleted or erroneous transfer occurs because the > Government used the Contractor\'s EFT information incorrectly, the Government remains responsible for--- > $i$ Making a correct payment; > > $ii$ Paying any prompt payment penalty due; and > > $iii$ Recovering any erroneously directed funds. > > $2$ If an uncompleted or erroneous transfer occurs because the > Contractor\'s EFT information was incorrect, or was revised within 30 days of Government release of the EFT payment transaction instruction to the Federal Reserve System, and--- > $i$ If the funds are no longer under the control of the payment > office, the Government is deemed to have made payment and the Contractor is responsible for recovery of any erroneously directed funds; or > $ii$ If the funds remain under the control of the payment office, > the Government shall not make payment, and the provisions of paragraph (d) of this clause shall apply. $f$ EFT and prompt payment. A payment shall be deemed to have been made in a timely manner in accordance with the prompt payment terms of this contract if, in the EFT payment transaction instruction released to the Federal Reserve System, the date specified for settlement of the payment is on or before the prompt payment due date, provided the specified payment date is a valid date under the rules of the Federal Reserve System. $g$ EFT and assignment of claims. If the Contractor assigns the proceeds of this contract as provided for in the assignment of claims terms of this contract, the Contractor shall require as a condition of any such assignment, that the assignee shall register separately in the CCR database and shall be paid by EFT in accordance with the terms of this clause. Notwithstanding any other requirement of this contract, payment to an ultimate recipient other than the Contractor, or a financial institution properly recognized under an assignment of claims, is not permitted. In all respects, the requirements of this clause shall apply to the assignee as if it were the Contractor. EFT information that shows the ultimate recipient of the transfer to be other than the Contractor, in the absence of a proper assignment of claims acceptable to the Government, is incorrect EFT information within the meaning of paragraph (d) of this clause. $h$ Liability for change of EFT information by financial agent. The Government is not liable for errors resulting from changes to EFT information made by the Contractor\'s financial agent. $i$ Payment information. The payment or disbursing office shall forward to the Contractor available payment information that is suitable for transmission as of the date of release of the EFT instruction to the Federal Reserve System. The Government may request the Contractor to designate a desired format and method(s) for delivery of payment information from a list of formats and methods the payment office is capable of executing. However, the Government does not guarantee that any particular format or method of delivery is available at any particular payment office and retains the latitude to use the format and delivery method most convenient to the Government. If the Government makes payment by check in accordance with paragraph (a) of this clause, the Government shall mail the payment information to the remittance address contained in the CCR database. **3.6.1-7 Limitations on Subcontracting** (August 1997) By submission of an offer and execution of a contract, the Offeror/Contractor agrees that in performance of the contract in the case of a contract for: $a$ Services (except construction). At least 50 percent of the cost of contract performance incurred for personnel shall be expended for employees of the prime contractor. $b$ Supplies (other than procurements from a regular dealer in such supplies). The prime contractor shall perform work for at least 50 percent of the cost of manufacturing the supplies, not including the cost of materials. $c$ General construction. The prime contractor shall perform at least 15 percent of the cost of the contract, not including the cost of materials, with its own employees. $d$ Construction by special trade contractors. The prime contractor shall perform at least 25 percent of the cost of the contract, not including the cost of materials, with its own employees. Compute small business subcontracting labor cost percentages as follows: Contractor Subcontractor Direct Labor \$ \_\_\_\_\_\_\_\_ \$ \_\_\_\_\_\_\_\_ Allowable Overhead \_\_\_\_\_\_\_\_ \_\_\_\_\_\_\_\_ Subtotal (A) \_\_\_\_\_\_\_\_ (B) \_\_\_\_\_\_\_\_ Labor G&A \@\_\_\_\_\_% \_\_\_\_\_\_\_\_ \_\_\_\_\_\_\_\_ Total Labor Costs (C) \_\_\_\_\_\_\_\_ (D) \_\_\_\_\_\_\_\_ To calculate the subcontracting percentage, first add Direct Labor and Allowable Overhead and enter the figures for the contractor in space (A) and for the subcontractor (if available)\* in space (B). Next, calculate Labor G & A by multiplying the G & A rate by the subtotal figure in space (A). Calculate subcontractor Labor G & A by multiplying the subcontractor's G & A rate by figure (B). Add the Labor G & A to the Subtotal and record that figure in the spaces for Total Labor Costs (C) and (D). Now, using the formula (D)/(C) + (D), calculate the subcontracting labor cost percentage. \*You need to be comparing as like figures as possible; therefore, if you have a breakdown of the subcontractor's costs, use it in the formulation above. If you do not have a breakdown of the subcontractors' costs, you should use the Total Subcontracting Amount for item (D), though you should still breakdown the contractor's costs. **3.6.2-24 Affirmative Action Compliance Requirements for Construction** (November 1997) $a$ Definitions. $1$ \"Employer identification number,\" as used in this clause, means the Federal Social Security number used on the employer\'s quarterly federal tax return, U.S. Treasury Department Form 941. $2$ \"Minority,\" as used in this clause, means $i$ Black (all persons having origins in any of the black African racial groups not of Hispanic origin); $ii$ Hispanic (all persons of Mexican, Puerto Rican, Cuban, Central or South American, or other Spanish culture or origin, regardless of race); $iii$ Asian and Pacific Islander (all persons having origins in any of the original peoples of the Far East, Southeast Asia, the Indian Subcontinent, or the Pacific Islands); and $iv$ American Indian or Alaskan Native (all persons having origins in any of the original peoples of North America and maintaining identifiable tribal affiliations through membership and participation or community identification). $b$ If the Contractor, or a subcontractor at any tier, subcontracts a portion of the work involving any construction trade, each such subcontract in excess of \$10,000 shall include this clause, including the goals for minority and female participation stated herein. $c$ The goals for minority and female participation, expressed in percentage terms for the Contractor\'s aggregate work force in each trade on all construction work in the covered area, are as follows: ***[Goals for minority participation: 10.2]{.underline}*** ***[Goals for female participation: 6.9]{.underline}*** Compliance with the goals will be measured against the total work hours performed. $d$ The Contractor shall provide written notification to the Office of Federal Contract Compliance Programs (OFCCP) area office within 10 working days following award of any construction subcontract in excess of \$10,000 at any tier for construction work under the contract resulting from this screening information request. The notification shall list the: $1$ Name, address, and telephone number of the subcontractor, $2$ Employer identification number of the subcontractor; $3$ Estimated dollar amount of the subcontract; $4$ Estimated starting and completion dates of the subcontract; and $5$ Geographical area in which the subcontract is to be performed. $e$ The Contractor shall implement the affirmative action procedures in subparagraphs (f)(1) through (7) of this clause. The goals stated in this contract are expressed as percentages of the total hours of employment and training of minority and female utilization that the Contractor should reasonably be able to achieve in each construction trade in which it has employees in the covered area. If the contractor performs construction work in a geographical area located outside of the covered area, it shall apply the goals established for the geographical area where that work is actually performed. The Contractor is expected to make substantially uniform progress toward its goals in each craft. $f$ The contractor shall take affirmative action steps at least as extensive as the following: $1$ Ensure a working environment free of harassment, intimidation, and coercion at all sites, and in all facilities where the Contractor\'s employees are assigned to work. The Contractor, if possible, will assign two or more women to each construction project. The Contractor shall ensure that foremen, superintendents, and other on-site supervision, personnel are aware of and carry out the Contractor\'s obligation to maintain such a working environment, with specific attention to minority or female individuals working at these sites or facilities. $2$ Immediately notify the OFCCP area office when the union or unions, with which the Contractor has a collective bargaining agreement, has not referred back to the Contractor a minority or woman sent by the Contractor, or when the Contractor has other information that the union referral process has impeded the Contractor\'s efforts to meet its obligations. $3$ Develop on-the-job training opportunities and/or participate in training programs for the area that expressly include minorities and women, including upgrading programs and apprenticeship and trainee programs relevant to the Contractor\'s employment needs, especially those programs funded or approved by the Department of Labor. The Contractor shall provide notice of these programs to the sources compiled under subparagraph (f)(2) above. $4$ Review, at least annually, the Contractor\'s equal employment policy and affirmative action obligations with all employees having responsibility for hiring, assignment, layoff, termination, or other employment decisions. Conduct reviews of this policy with all on-site supervision, personnel prior to initiation of construction work at a job site. A written record shall be made and maintained identifying the time and place of these meetings, persons attending, subject matter discussed, and disposition of the subject matter. $5$ Disseminate the Contractor\'s equal employment policy externally by including it in any advertising in the news media, specifically including minority and female news media. Provide written notification to, and discuss this policy with, other Contractors and subcontractors with which the Contractor does or anticipates doing business. $6$ Conduct, at least annually, an inventory and evaluation at least of all minority and female personnel for promotional opportunities. Encourage these employees to seek or to prepare for, through appropriate training, etc., opportunities for promotion. $7$ Maintain a record of solicitations for subcontracts for minority and female construction contractors and suppliers, including circulation of solicitations to minority and -female contractor associations and other business associations. $g$ The Contractor is encouraged to participate in voluntary associations that may assist in fulfilling one or more of the affirmative action obligations contained in subparagraphs (f)(1) through (7). The efforts of a contractor association, joint contractor-union, contractor-community, or similar group of which the contractor is a member and participant, may be useful in achieving one or more of its obligations under subparagraphs (f)(1) through (7). $h$ A single goal for minorities and a separate single goal for women shall be established. The Contractor is required to provide equal employment opportunity and to take affirmative action for all minority groups, both male and female, and all women, both minority and non-minority. Consequently, the Contractor may be in violation of Executive Order 11246, as amended, if a particular group is employed in a substantially disparate manner. $i$ The contractor shall not use goals or affirmative action standards to discriminate against any person because of race, color, religion, sex, or national origin. $j$ The Contractor shall not enter into any subcontract with any person or firm debarred from Government contracts under Executive Order 11246, as amended. $k$ The Contractor shall carry out such sanctions and penalties for violation of this clause and of the Nondiscrimination and Affirmative Action clause, including suspension, termination, and cancellation of existing subcontracts, as may be imposed or ordered under Executive Order 11246, as amended, and its implementing regulations, by the OFCCP. Any failure to carry out these sanctions and penalties as ordered shall be a violation of this clause and Executive Order 11246, as amended. $l$ Nothing contained herein shall be construed as a limitation upon the application of other laws that establish different standards of compliance. **3.1-1 Clauses and Provisions Incorporated by Reference** (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). 33. **Order of Precedence** (July 2004) **3.2.2.3-42 Differing Site Conditions** (July 2004) **3.2.2.3-43 Site Investigation and Conditions Affecting the Work** (July 2004) **3.2.2.3-45 Material and Workmanship** (July 2004) **3.2.2.3-46 Superintendence by the Contractor** (July 2004) **3.2.2.3-47 Permits and Responsibilities** (July 2004) **3.2.2.3-48 Other Contracts** (July 2004) **3.2.2.3-49 Protection of Existing Vegetation, Structures, Equipment, Utilities, and Improvements** (July 2004) **3.2.2.3-50 Property Protection** (July 2004) **3.2.2.3-51 Operations and Storage Areas** (July 2004) **3.2.2.3-52 Use and Possession Prior to Completion** (July 2004) **3.2.2.3-53 Cleaning Up and Roadway Maintenance** (July 2004) **3.2.2.3-54 Preventing Accidents** (July 2004) **3.2.2.3-56 Schedules for Construction Contracts** (July 2004) **3.2.2.3-58 Layout of Work** (July 2004) 60. **Specifications, Drawings, and Material Submittals** (July 2004) **3.2.2.3-62 Preconstruction Conference** (July 2004) **3.2.2.3-66 Contractor's Daily Log** (July 2004) **3.2.2.3-68 Safety and Health** (July 2004) 69. **Subcontracts - Construction** (July 2004) **3.2.2.3-75 Requests for Contract Information** (July 2004) **3.2.2.7-6 Protecting the Government's Interest when Subcontracting with Contractors Debarred, Suspended, or Proposed for Debarment** (April 1996) **3.2.5-1 Officials Not to Benefit** (April 1996) **3.2.5-3 Gratuities or Gifts** (January 1999) **3.2.5-4 Contingent Fees** (October 1996) 5. **Anti-Kickback Procedures** (October 1996) **3.2.5-6 Restrictions on Subcontractor Sales to the FAA** (April 1996) **3.2.5-7 Disclosure Regarding Payments to Influence Certain Federal Transactions** (June 1999) **3.2.5-8 Whistleblower Protection for Contractor Employees** (April 1996) **3.3.1-2 Payments under Fixed-Price Construction Contracts** (April 1996) **3.3.1-9 Interest** (January 2008) **3.3.1-15 Assignment of Claims** (April 1996) **3.3.1-19 Prompt Payment for Construction Contracts** (January 2003) **3.4.1-7 Notice to Proceed** (April 1996) **3.4.1-10 Insurance\--Work on a Government Installation** (July 1996) 6. **Taxes\--Contracts Performed in U.S. Possessions or Puerto Rico** (October 1996) **3.4.2-8 Federal, State, and Local Taxes\--Fixed Price Contract** (April 1996) 4. **Patent Indemnity\--Construction Contracts** (April 1996) **3.6.1-3 Utilization of Small, Small Disadvantaged, Women-Owned, and Service-Disabled Veteran Owned Small Business Concerns** (September 2001) **3.6.1-4 Small, Small Disadvantaged, Women-Owned and Service-Disabled Veteran Owned Small Business Subcontracting Plan** (September 2001) 1. **Contract Work Hours and Safety Standards Act-Overtime Compensation** (September 2003) **3.6.2-2 Convict Labor** (April 1996) **3.6.2-9 Equal Opportunity** (August 1998) **3.6.2-12 Affirmative Action for Special Disabled and Vietnam Era Veterans** (January 1998) **3.6.2-13 Affirmative Action for Handicapped Workers** (April 2000) **3.6.2-14 Employment Reports on Special Disabled Veterans and Veterans of Vietnam Era** (January 1998) 16. **Notice to the Government of Labor Disputes** (April 1996) **3.6.2-18 Davis Bacon Act** (April 1996) **3.6.2-19 Withholding\--Labor Violations** (April 1996) **3.6.2-20 Payrolls and Basic Records** (June 1999) **3.6.2-21 Apprentices, Trainees, and Helpers** (April 1996) **3.6.2-22 Subcontracts (Labor Standards)** (April 1996) 23. **Certification of Eligibility** (April 1996) ```{=html}  ``` 35. **Prevention of Sexual Harassment** (August 1998) **3.6.2-39 Trafficking in Persons** (July 2007) 2. **Clean Air and Clean Water** (April 1996) **3.6.3-12 Asbestos-Free Construction** (August 1998) 13. **Recycle Content and Environmentally Preferable Products** (January 2002) **3.6.3-14 Use Of Environmentally Preferable Products** (January 2002) **3.6.3-15 Material Requirements** (October 2002) **3.6.3-16 Drug Free Workplace** (January 2004) **3.6.4-3 Buy American Act\--Construction Materials** (July 1996) **3.6.4-10 Restrictions on Certain Foreign Purchases** (April 1996) 1. **Contract Disputes** (November 2002) **3.9.1-2 Protest After Award** (August 1997) 7. **Bankruptcy** (April 1996) **3.10.1-8 Suspension of Work** (August 1998) **3.10.1-15 Changes\--Construction, Dismantling, Demolition, or Removal of Improvements** (July 1996) **3.10.1-16 Changes and Changed Conditions** (April 1996) **3.10.1-19 Modification Cost Proposal - Price Breakdown (Construction)** (April 1996) **3.10.1-20 Warranty\--Construction** (April 1996) **3.10.1-25 Novation and Change-Of-Name Agreements** (January 2003) **3.10.6-1 Termination for Convenience of the Government (Fixed Price)** (October 1996) 6. **Default (Fixed Price Construction)** (October 1996) **3.13-5 Seat Belt Use by Contractor Employees** (January 1999) **3.14-3 Foreign Nationals as Contractor Employees** (July 2006) **PART III - SECTION J** LIST OF ATTACHMENTS [ATTACHMENT]{.underline} [TITLE]{.underline} [DATE]{.underline} [NO. OF PAGES]{.underline} 1 Statement of Work for Sarasota RCAG Towers undated 8 2 Requirements for Fixed Ladder and Ladder undated 1 Safety System 3 Screening Standards-CONTRACTOR 07/01 1 4 Adjudicative Standards: Issues 07/01 1 5 FAA Contractor Injury/Illness Information undated 1 6 General Decision Number: FL070070, 7/20/07 3 State: Florida **PART IV - SECTION K** REPRESENTATIONS, CERTIFICATIONS, AND OTHER STATEMENTS OF OFFERORS **K.1 NAICS CODE AND SMALL BUSINESS SIZE STANDARD** (November 2000) **CLA.0126** $a$ The North American Industry Classification System (NAICS) code for this acquisition is 23170. $b$ The small business size standard is \$13 million. $c$ The small business size standard for a concern which submits an offer in its own name, other than on a construction or service contract, but which proposes to furnish a product which it did not itself manufacture, is 500 employees. **3.2.2.3-10 Type of Business Organization** (July 2004) By checking the applicable box, the offeror (you) represents that\--\ (a) You operate as \[ \] a corporation incorporated under the laws of the State of \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ , \[ \] an individual, \[ \] a partnership, \[ \] a nonprofit organization, \[ \] a joint venture or \[ \] other \_\_\_\_\_\_\_\_\_\_\_\_\[specify what type of organization\].\ (b) If you are a foreign entity, you operate as \[ \] an individual, \[ \] a partnership, \[ \] a nonprofit organization, \[ \] a joint venture, or \[ \] a corporation, registered for business in \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ . (country) **3.2.2.3-15 Authorized Negotiators** (July 2004) The offeror states that the following persons are authorized to negotiate on your behalf with the FAA in connection with this offer:\ Name:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ Title:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ Phone number:\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ **3.2.2.3-70 Taxpayer Identification** (July 2004) $a$ Definitions.\ (1) \"Common parent,\" as used in this clause, means a corporate entity that owns or controls an affiliated group of corporations that files an offeror's (you, your) Federal income tax returns on a consolidated basis, and of which you are a member.\ (2) \"Corporate status,\" as used in this clause, means a designation as to whether you are a corporate entity, an unincorporated entity (for example, sole proprietorship or partnership), or a corporation providing medical and health care services.\ (3) \"Taxpayer Identification Number (TIN),\" as used in this clause, means the number the Internal Revenue Service (IRS) requires you use in reporting income tax and other returns.\ (b) All offerors must submit the information required in paragraphs (c) through (e) of this provision to comply with reporting requirements of 26 U.S.C. 6041, 6041A, and 6050M and implementing regulations issued by IRS. The FAA will use this information to collect and report on any delinquent amounts arising out of your relation with the Federal Government, under Public Law 104 -134, the Debt Collection Improvement Act of 1996, Section 31001(I)(3). If the resulting contract is subject to the reporting requirements and you refuse or fail to provide the information, the Contracting Officer (CO) may reduce your payments 31 percent under the contract. $c$ Taxpayer Identification Number (TIN).\ \[ \] TIN: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \[ \] TIN has been applied for.\ \[ \] TIN is not required because:\ \[ \] Offeror is a nonresident alien, foreign corporation, or foreign partnership that does not leave income effectively connected with the conduct of a trade or business in the U.S. and does not have an office or place of business or a fiscal paying agent in the U.S.;\ \[ \] Offeror is an agency or instrumentality of a foreign government;\ \[ \] Offeror is an agency or instrumentality of a Federal, state, or local government;\ \[ \] Other\--State basis. \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_. $d$ Corporate Status.\ \[ \] Corporation providing medical and health care services, or engaged in the billing and collecting of payments for such services;\ \[ \] Other corporate entity\ \[ \] Not a corporate entity\ \[ \] Sole proprietorship\ \[ \] Partnership\ \[ \] Hospital or extended care facility described in 26 CFR 501(c)(3) that is exempt from taxation under 26 CFR 501(a).\ (e) Common Parent.\ \[ \] A common parent does not own or control the offeror as defined in paragraph (a).\ \[ \] Name and TIN of common parent:\ Name \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ TIN \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ **3.2.2.3-76 Representation- Release of Contract Information** (July 2004) $a$ Any contract resulting from this SIR may be subject to release under the Freedom of Information Act (FOIA), 5 U.S.C. Section 552.\ (b) The offeror's (you, your) position regarding the possible release of information you provide in response to this SIR is as follows:\ (c) REPRESENTATION CONCERNING RELEASE OF CONTRACT INFORMATION\--\ The offeror (you) represents that\--(1)\[ \] You have made a complete review of your offer(s) in response to this SIR and no exemption from mandatory release under FOIA exists, and, (2)\[ \] You have no objection to the release of any contract you may be awarded in whole or in part resulting from this SIR.\ OR\ The offeror (you) represents that \[ \] your offer(s) in response to this SIR contains information that is exempt from mandatory release under FOIA. Accordingly, you represent that\--(1)\[ \] You have identified any sensitive documents you submitted in response to this SIR by placing restrictive markings on them. This may include trade secrets, proprietary information, or commercial or financial information that is privileged or confidential, and (2)\[ \] As the party that provided the information, you have provided the Contracting Officer (by separate letter concurrent with this offer) detailed information listing the page(s) to be withheld complete with any and all legal justifications which would permit the FAA to invoke a FOIA exemption. **3.2.2.7-7 Certification Regarding Debarment, Suspension, Proposed Debarment, and Other Responsibility Matters** (April 1996) $a$ (1) The Offeror certifies, to the best of its knowledge and belief, that\-- $i$ The Offeror and/or any of its Principals\-- $A$ Are \[ \] are not \[ \] presently debarred, suspended, proposed for debarment, or declared ineligible for the award of contracts by any Federal agency; $B$ Have \[ \] have not \[ \] within a three-year period preceding this offer, been convicted of or had a civil judgment rendered against them for: commission of fraud or a criminal offense in connection with obtaining, attempting to obtain, or performing a public (Federal, state, or local) contract or subcontract; violation of Federal or state antitrust statutes relating to the submission of offers: or commission of embezzlement, theft, forgery, bribery, falsification or destruction of records, making false statements, or receiving stolen property; and $C$ Are \[ \] are not \[ \] presently indicted for, or otherwise criminally or civilly charged by a governmental entity with, commission of any of the offenses enumerated in subdivision (a)(1)(i)(B) of this provision. $ii$ The Offeror has \[ \] has not \[ \] within a three-year period preceding this offer, had one or more contracts terminated for default by any Federal agency. $2$ \'Principals,\' for the purposes of this certification, means officers; directors; owners; partners; and, persons having primary management or supervisory responsibilities within a business entity (e.g., general manager; plant manager; head of a subsidiary, division, or business segment, and similar positions). THIS CERTIFICATION CONCERNS A MATTER WITHIN THE JURISDICTION OF AN AGENCY OF THE UNITED STATES AND THE MAKING OF A FALSE, FICTITIOUS, OR FRAUDULENT CERTIFICATION MAY RENDER THE MAKER SUBJECT TO PROSECUTION UNDER SECTION 1001, TITLE 18, UNITED STATES CODE. $b$ The Offeror shall provide immediate written notice to the Contracting Officer if, at any time prior to contract award, the Offeror learns that its certification was erroneous when submitted or has become erroneous by reason of changed circumstances. $c$ A certification that any of the items in paragraph (a) of this provision exists will not necessarily result in withholding of an award under this SIR. However, the certification will be considered in connection with a determination of the Offeror\'s responsibility. Failure of the Offeror to furnish a certification or provide such additional information as requested by the Contracting Officer may render the Offeror nonresponsible. $d$ Nothing contained in the foregoing shall be construed to require establishment of a system of records in order to render, in good faith, the certification required by paragraph (a) of this provision. The knowledge and information of an Offeror is not required to exceed that which is normally possessed by a prudent person in the ordinary course of business dealings. $e$ The certification in paragraph (a) of this provision is a material representation of fact upon which reliance was placed when making award. If it is later determined that the Offeror knowingly rendered an erroneous certification, in addition to other remedies available to the Government, the Contracting Officer may terminate the contract resulting from this SIR for default. **3.3.1-35 Certification of Registration in Central Contractor Registration (CCR)** (April 2006) In accordance with Clause 3.3.1-33, Central Contractor Registration, offeror certifies that they are registered in the CCR Database and have entered all mandatory information including the DUNS or DUNS+4 Number.\ \ Name: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \ Title: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\ \ Phone Number: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ **3.6.2-6 Previous Contracts and Compliance Reports** (April 1996) The offeror represents that\--(a) It \[ \] has, \[ \] has not, participated in a previous contract or subcontract subject either to the \"Equal Opportunity\" clause of this solicitation, the clause originally contained in Section 310 of Executive Order No. 10925, or the clause contained in Section 201 of Executive Order No. 11114; (b) It \[ \] has, \[ \] has not, filed all required compliance reports; and (c) Representations indicating submission of required compliance reports, signed by proposed subcontractors, will be obtained before subcontract awards. **3.1-1 Clauses and Provisions Incorporated by Reference** (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). **3.6.2-5 Certification of Nonsegregated Facilities** (April 1996) **3.6.3-1 Clean Air and Water Certification** (April 2000) **PART IV - SECTION L** INSTRUCTIONS, CONDITIONS, AND NOTICES TO OFFERORS ### L.1 Instructions to Offerors Certain representations and certifications must be made by the offeror and must be filled in as appropriate. The signature of the offeror on the face page of this SIR/RFO (Standard Form 33 or Standard Form 26, as applicable) constitutes the making of certain representations and certifications, **WITH THE EXCEPTION OF THE FEDERAL AVIATION ADMINISTRATION ACQUISITION MANAGEMENT SYSTEM (AMS) BUSINESS DECLARATION,** which is specifically required to be completed, signed and submitted with offer. Award of any contract to the offeror shall be considered to have incorporated the applicable representations and certifications by reference. **L.2** **Prevention of Other Forms of Harassment** (May 2002) **CLA.4551** $a$ \'Harassment\', as used in this clause, means any verbal, written, graphic, or physical form of harassment or other misconduct that creates or that may reasonably be expected to create an intimidating, hostile, or offensive work environment based on race, color, religion, gender, sexual orientation, national origin, age, or disability. $b$ It is FAA policy that harassment as defined in paragraph (a) above will not be tolerated or condoned in the FAA workplace. It is also FAA\'s intent to effectively address inappropriate conduct. $c$ The Contractor agrees to support this policy in performing work under this contract, and that harassment in any form will not be tolerated in the FAA workplace. $d$ If the Contractor, or a subcontractor of any tier, subcontracts any portion of the work under this contract, each such subcontract shall include this provision. $e$ The Contractor shall take whatever corrective action it deems necessary to promptly address harassment in the FAA workplace, or on an FAA site. The Contractor agrees to immediately provide the Contracting Officer all relevant information pertaining to any such conduct, and notify him/her of its planned action. $f$ The Contracting Officer may require the Contractor to remove employee(s) from the FAA worksite that the Contracting Officer deems to have engaged in harassment as defined in paragraph (a) above. $g$ Any FAA action under subsection (f) above does not relieve the Contractor of its liability or obligations under the Civil Rights Act of 1964, or any other applicable law or regulation. **3.2.2.3-20 Electronic Offers** (July 2004) $a$ The offeror (you) may submit responses to this SIR by the following electronic means facsimile or e-mail. Your offer must arrive at the place and by the time specified in the SIR. $b$ Electronic offers must refer to this SIR and include, as applicable, the item or sub-items, quantities, unit prices, time and place of delivery, all representations and other information required and a statement specifying the extent of your agreement with all the FAA\'s (we) terms, conditions, and provisions. $c$ We may decline to consider electronic offers that do not include required information, or that reject any of the terms, conditions and provisions of the SIR. $d$ We reserve the right to make award solely on the electronic offer. However, if the CO requests, you must promptly submit the complete original (hard copy) signed proposal. $e$ Send your offer electronically to fax number 405/954-9219 or e-mail Connie.M.Houpt@faa.gov. $f$ If you chose to send your offer electronically, we will not be responsible for any failure attributable to transmitting or receiving the offer. **3.2.2.3-38 Requirements for Cost or Pricing Data or Other Information** (July 2004) Offerors (you) may submit certificates of current cost or pricing data (CCCPD) or you may request an exception to this requirement. Depending on the option you use, you must submit either the CCCPD shown in paragraph (e) of clause 3.2.2.3-39, \"Requirements for Cost or Pricing Data or Information - Modifications\" (the clause) or request an exception consistent with the information in the clause. Any information in the clause regarding the CCCPD or the exception that is relevant to an offer is incorporated into this provision. **3.2.2.3-63 Site Visit (Construction)** (July 2004) $a$ AMS clauses 3.2.2.3-42, Differing Site Conditions, and 3.2.2.3-43, Site Investigations and Conditions Affecting the Work, will be included in any contract awarded under this SIR. Accordingly, FAA urges and expects offerors to inspect the site where the work will be performed.\ (b) A site visit will be held on ***February 12, 2008 at 9:00 a.m.*** at the Sarasota, FL RCAG site. Please, contact Wilberto Torres at the RCAG Site*,* 941/355-3834, for directions to the site prior to 2:00 p.m. February 11, 2008. **3.2.4-1 Type of Contract** (April 1996) The FAA contemplates award of a firm-fixed-price type contract resulting from this Screening Information Request. **3.9.1-3 Protest** (November 2002) AS A CONDITION OF SUBMITTING AN OFFER OR RESPONSE TO THIS SIR (OR OTHER SOLICITATION, IF APPROPRIATE), THE OFFEROR OR POTENTIAL OFFEROR AGREES TO BE BOUND BY THE FOLLOWING PROVISIONS RELATING TO PROTESTS: $a$ Protests concerning Federal Aviation Administration Screening Information Requests (SIRs) or awards of contracts shall be resolved through the Federal Aviation Administration (FAA) dispute resolution system at the Office of Dispute Resolution for Acquisition (ODRA) and shall be governed by the procedures set forth in 14 C.F.R. Parts 14 and 17, which are hereby incorporated by reference. Judicial review, where available, will be in accordance with 49 U.S.C. 46110 and shall apply only to final agency decisions. A protestor may seek review of a final FAA decision only after its administrative remedies have been exhausted. $b$ Offerors initially should attempt to resolve any issues concerning potential protests with the Contracting Officer. The Contracting Officer should make reasonable efforts to answer questions promptly and completely, and, where possible, to resolve concerns or controversies. The protest time limitations, however, will not be extended by attempts to resolve a potential protest with the Contracting Officer. $c$ The filing of a protest with the ODRA may be accomplished by mail, overnight delivery, hand delivery, or by facsimile. A protest is considered to be filed on the date it is received by the ODRA. $d$ Only an interested party may file a protest. An interested party is one whose direct economic interest has been or would be affected by the award or failure to award an FAA contract. Proposed subcontractors are not \"interested parties\" within this definition. $e$ A written protest must be filed with the ODRA within the times set forth below, or the protest shall be dismissed as untimely: $1$ Protests based upon alleged improprieties in a solicitation or a SIR that are apparent prior to bid opening or the time set for receipt of initial proposals shall be filed prior to bid opening or the time set for the receipt of initial proposals. $2$ In procurements where proposals are requested, alleged improprieties that do not exist in the initial solicitation, but which are subsequently incorporated into the solicitation, must be protested not later than the next closing time for receipt of proposals following the incorporation. $3$ For protests other than those related to alleged solicitation improprieties, the protest must be filed on the later of the following two dates: $i$ Not later than seven (7) business days after the date the protester knew or should have known of the grounds for the protest; or $ii$ If the protester has requested a post-award debriefing from the FAA Product Team, not later than five (5) business days after the date on which the Product Team holds that debriefing. $f$ Protests shall be filed at: $1$ Office of Dispute Resolution for Acquisition, AGC-70, Federal Aviation Administration, 800 Independence Ave., S.W., Room 323, Washington, DC 20591, Telephone: (202) 267-3290, Facsimile: (202) 267-3720; or $2$ other address as specified in 14 CFR Part 17. $g$ At the same time as filing the protest with the ODRA, the protester shall serve a copy of the protest on the Contracting Officer and any other official designated in the SIR for receipt of protests by means reasonably calculated to be received by the Contracting Officer on the same day as it is to be received by the ODRA. The protest shall include a signed statement from the protester, certifying to the ODRA the manner of service, date, and time when a copy of the protest was served on the Contracting Officer and other designated official(s). $h$ Additional information and guidance about the ODRA dispute resolution process for protests can be found on the ODRA Website at [http://www.faa.gov](http://www.faa.gov/). **3.13-4 Contractor Identification Number---Data Universal Numbering System (DUNS) Number** (April 2006) $a$ Definitions. As used in this clause \"Contractor Identification Number,\" as used in this provision, means \"Data Universal Numbering System (DUNS) number, which is a nine-digit number assigned by Dun and Bradstreet Information Services, to identify unique business entities (taken from CCR clause) \"Data Universal Numbering System +4 (DUNS+4) number\" means the DUNS number assigned by D&B plus a 4-character suffix that may be assigned by a business concern. (D&B has no affiliation with this 4-character suffix.) This 4-character suffix may be assigned at the discretion of the business concern to establish additional CCR records for identifying alternative Electronic Funds Transfer. $b$ Contractor identification is essential for receiving payment and complying with statutory contract reporting requirements. Therefore, the offeror shall provide its DUNS or DUNS+4 number below. The DUNS number will be used by the Contracting Officer to verify that the offeror is registered in the CCR database.\ \ DUNS OR DUNS+4 NUMBER: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ $c$ If the offeror does not have a DUNS number, it should contact Dun and Bradstreet directly to obtain ne. > $1$ An offeror may obtain a DUNS number > > $i$ If located within the United States, by calling Dun and > Bradstreet at 1-866-705-5711 or via the Internet at [http://www.dnb.com](http://www.dnb.com/)/; or > $ii$ If located outside the United States, by contacting the local > Dun and Bradstreet office.\ > (2) The offeror should be prepared to provide the following > information: > > $i$ Company legal business.\ > (ii) Tradestyle, doing business, or other name by which your entity is > commonly recognized. > $iii$ Company Physical Street Address, City, State, and ZIP Code. > > $iv$ Company Mailing Address, City, State and ZIP Code (if different > from physical street address). > $v$ Company Telephone Number. > > $vi$ Date the company was started.\ > (vii) Number of employees at your location.\ > (viii) Chief executive officer/key manager.\ > (ix) Line of business (industry).\ > (x) Company Headquarters name and address (reporting relationship > within your entity). **3.1-1 Clauses and Provisions Incorporated by Reference** (December 2005) This screening information request (SIR) or contract, as applicable, incorporates by reference the provisions or clauses listed below with the same force and effect as if they were given in full text. Upon request, the Contracting Officer will make the full text available, or offerors and contractors may obtain the full text via Internet at: [http://conwrite.faa.gov](http://conwrite.faa.gov/)/ (on this web page, select \"Search and View Clauses\"). **3.2.2.3-1 False Statements in Offers** (July 2004) **3.2.2.3-11 Unnecessarily Elaborate Submittals** (July 2004) 12. **Amendments to Screening Information Requests** (July 2004) **3.2.2.3-13 Submission of Information/Documentation/Offers** (July 2004) **3.2.2.3-14 Late Submissions, Modifications, and Withdrawals of Submittals** (July 2004) **3.2.2.3-16 Restriction, Disclosing and Using Data** (July 2004) 17. **Preparing Offers** (July 2004) **3.2.2.3-18 Prospective Offeror\'s Requests for Explanations** (July 2004) **3.2.2.3-19 Contract Award** (July 2004) **PART IV - SECTION M** EVALUATION FACTORS FOR AWARDS ### M.1 Evaluation for Award ######## Award will be made to the responsible, acceptable offeror submitting the lowest total offer and whose proposal meets the Government\'s minimum requirements called out in Section B and the documents referred to therein.

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( 171 ) ." the treaty in favour of your enemies," yet, was it an interpretation, advised by all the heads of departments, and the attorney general, with whom the president was in the habit of consulting. You differ from us in the construction. What is to follow ? Nothing I trust and believe between our two governments, which is not cus- tomary and cordial between friends. " In a case like " the present, where the missionary of one government " construes differently from that to which he is sent, " the treaties, which are to form a common rule of " action for both, it would be unjust in either to claim " an exclusive right of construction. Each nation has " an equal right to expound the meaning of their com- " mon rules, and reason and usage have established in " such cases, a convenient and well-understood train of " proceeding. It is the right and duty of the foreign " missionary to urge his own constructions ; to sup- " port them with reasons, which may convince, and " in terms of decency and respect, which may recon- " cile the government of the country to a concurrence, " It is the duty of that government tp listen to his rea- " sonings with attention and candor, and to yield to " thean, when just. But if it shall still appear to them " that reason and right are on their side, it follows " of necessity that exercising tbe sovereign powers of " the country, they have a right to proceed on their " own constructions and conclusions, as to whatever is " to be done within their limits. The minister then " refers the case to his own government; asks new " instructions, and in the mean time acquiesces in the " authority of the country. His government examines " his constructions ; abandons them, if wrong ; in- " sists on them, if right ; and the case then becomes a " matter of ngociation between the two nations." This quotation is from the letter, which conveyed to the French Republic the 'sensations .of our government towards Mr. Genet. To its terms we shall be always willing. to conform, and if, contrary to our present impressions, the treaty with France, which we deem

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March 17, 2008 Ms. Joy Schnackenbeck USEPA Headquarters\ Ariel Rios Building\ 1200 Pennsylvania Avenue, N. W. **- *Mail Code: ***7508P\ Washington, DC 20460 **Concerning: Active Ingredient: Quinclorac Case number: 7222** > **Docket number: EPA-HQ-OPP-2007-1135** Dear Ms. Schnackenbeck: In its Registration Review summary document, EPA has noted that quinclorac does not have a complete environmental risk assessment that is in compliance with EPA's Overview Document for Endangered and Threatened Species Effects Determinations. EPA has also noted that when such a risk assessment is available, it will either consider risk to endangered and threatened (listed) species or move to a more refined risk assessment of listed species and use relationships. In June of 2004, March of 2005, and October 19, 2007, FESTF submitted its Information Management System (*FESTF Information Management System (IMS): Documentation of Structure and Function of IMS 1.1**,*** **MRID \# 46325901**) and documentation of the beta-tested IMS, NatureServe data ([*FESTF Task Force Information Management System (IMS): Beta-Tested IMS 2.0 and Access to NatureServe Data - Final Report*](https://www.festf.org/File_Delivery.asp?Name=030105_FESTF-IMS%25202%2520Report%2520Final.pdf), **MRID #46486301**) and *NatureServe Data Evaluation and Review* (**MRID #47260101**). These data fulfill the data requirements spelled out in Pesticide Registration Notice 2000-2 and provide the best available data necessary for the proximity analysis of quinclorac use and listed species locations. The leading registrant, as identified on the fact sheet included in the Registration Review Summary, is Albaugh, Inc. an FESTF member, is entitled to rely on FESTF data (See Attachment A for our current list of members and companies who have reached an agreement allowing reliance on FESTF data submissions). For those registrants who are not currently eligible to rely on FESTF data, FESTF is making every effort to inform them of the role of FESTF data in listed species assessments, while also affording them various options for reliance on that data, since these data are necessary not only to fulfill EPA data requirements, but also to develop the assessments required to support the Registration Review process. It is imperative for EPA to assure that any company relying upon FESTF data, but not listed in Attachment A, has filed with FESTF a proper offer to pay for data compensation. It is imperative for EPA to assure that any company relying upon FESTF data, but not listed in Attachment A, has filed with FESTF a proper offer to pay for data compensation. Sincerely, ![](media/image1.jpeg){width="3.0in" height="0.6763888888888889in"} (for) William Mahlburg, Chair, Administrative Committee cc Greg Mulhall, Albaugh, Inc. Jim Tompkins, EPA Registration Division Hope Johnson, EPA Registration Division **ATTACHMENT A** FESTF Member Companies +-------------------------------------+---+------------------------------+ | **Albaugh, Inc.**\ | | **ISK Biosciences | | 121 NE 18th\ | | Corporation**\ | | Ankeny, IA 50021 | | 7470 Auburn Road, Suite A\ | | | | Concord, OH 44077 | +-------------------------------------+---+------------------------------+ | **BASF Corporation - Agricultural | | **Monsanto Company**\ | | Products**\ | | 800 N. Lindbergh Blvd.\ | | PO Box 13528\ | | St. Louis, MO 63167 | | Research Triangle Park, NC | | | | 27709-3528 | | | +-------------------------------------+---+------------------------------+ | **Bayer CropScience\ | | **Nichino America, Inc**.\ | | **2 T.W. Alexander Drive\ | | 4550 New Linden Hill Road, | | Research Triangle Park, NC 27709 | | Suite 501\ | | | | Wilmington, DE 19808 | +-------------------------------------+---+------------------------------+ | **Cheminova, Inc.\ | | **Nissan Chemical | | **1620 I Street NW, Suite 615\ | | Industries, Ltd.**\ | | Washington, DC 20006 | | 1100 Arlington Heights Road, | | | | Suite 520\ | | | | Itasca, IL 60143 | +-------------------------------------+---+------------------------------+ | **Chemtura Corporation\ | | **Nufarm Americas, Inc.**\ | | **199 Benson Road | | 1333 Burr Ridge Parkway, | | | | Suite 125A\ | | Middlebury, CT 06749-0001 | | Burr Ridge, IL 60527 | +-------------------------------------+---+------------------------------+ | **Dow AgroSciences, LLC**\ | | **Syngenta Crop Protection, | | 9330 L-S-DATAsville Rd.\ | | Inc.**\ | | Indianapolis, IN 46268-1054 | | 410 Swing Road\ | | | | Greensboro, NC 27409 | +-------------------------------------+---+------------------------------+ | **DuPont Crop Protection**\ | | **Valent USA Corporation**\ | | Stine-Haskell Research Center\ | | 2033 K St. NW, Suite 850\ | | PO Box 30\ | | Washington, DC 20005 | | Newark, DE 19714-0030 | | | +-------------------------------------+---+------------------------------+ | **FMC Corporation, Agricultural | | | | Products Group**\ | | | | Route 1 & Plainsboro Rd.\ | | | | Princeton, NJ 08543 | | | +-------------------------------------+---+------------------------------+ **Non-Members with Data Reliance Agreements** ------------------------------------- --- ------------------------------ **Gowan Company, L.L.C.**\ **PBI Gordon Corporation**\ 370 S. Main Street\ 1217 W. 12th Street\ Yuma, AZ 85364 Kansas City, MO 64101 **Nisso America, Inc.\ **45 Broadway, Suite 2120\ New York, NY 10006 ------------------------------------- --- ------------------------------

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Emergency Management Higher Education Project Conference June 8-10, 2004 # Ted Phillips, Division Chair Public Safety Institute **Tarrant County College** **4801 Marine Creek Parkway** **Fort Worth, Texas 76179** **817.515.7770 (office)** **817.515.7425 (fax)** [**ted.phillips@tccd.edu**](mailto:ted.phillips@tccd.edu) **In my present position, I am the administrator responsible for all public safety related programs, credit and non-credit. These include Fire Technology, Criminal Justice, and Environmental Technology. Specific programs include the Criminal Justice Training Center, which offers a basic police academy, and in-service training and a Fire Service Training Center, which offers similar training programs. The FSTC is the newest addition to the Northwest Campus. Situated on 23 acres, the center includes a 48,000 sq. ft. administrative/classroom building; and a drill field which is composed of 16 gas-fired, live burn props in 5 buildings in an urban village layout. A railroad derailment scenario with spill fire, trench and confined space rescue and swift water rescue props are integrated into the field.** **The facilities offer a perfect setting for emergency management exercises. Through collaboration with the University of North Texas Emergency Management program, our goal is to design and implement our degree in emergency Management.** **My background is in law enforcement, and I have been with the college for 19 years. I am on the "Prepare America" Task Force, which is a national homeland security initiative, which focuses the nationwide community college network. During this conference, I with other task force members will present a session on the initiative**

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[Environmental Support]{.underline} A. [Hazardous Waste Function]{.underline} $1$ [Staffing]{.underline} The following classifications and numbers reflect current staffing. ---------------------------------------------------------------- ------ Branch Manager 1 Field Supervisor 1 Hazardous Waste Disposal Specialist 1 Hazardous Waste Technician 2 Computer Operator 2 Truck Driver, Light (Half Time) 2 Typist 1 ---------------------------------------------------------------- ------ 2. [Annual Workload for 1996]{.underline} MSFC is a less than 90 day storage, large quantity generator of hazardous waste. ------------------------------------------- ------------ ----------- ---------- **Work Element** **Quantity **Unit of **Freq** for CY96** Measure** [Containers Issued]{.underline} 5 gal -DOT Type 1H1 50 each year 15 gal-DOT Type 1H1 10 each year 30 gal-DOT Type 1H1 10 each year 55 gal-DOT Type 1H1 120 each year 30 gal-DOT Type 1H2 110 each year 5 gal -DOT Type 1A1 175 each year 15 gal-DOT Type 1A1 50 each year 55 gal-DOT Type 1A1 560 each year 5 gal -DOT Type 1A2 150 each year 55 gal-DOT Type 1A2 600 each year 1 Liter HDPE Used for Labpacks 40 each year Container Turned in for Pickup 1732 each year Empty Container Turned in for Pickup 700 each year Inspection of HWSF 52 each year Number of manifest tracked 115 each year Containers inspected at Satellite 2570 each year Accumulation Areas TSDR Facilities audited 0 each year Labpacks Turned in for Pickup 160 each year Containers consolidated 950 each year Samples Collected (Containers & Tanks) 190 each year Hazardous Waste Managed in Bulk Storage 12500 gallons year Tanks Controlled Waste Managed in Bulk Storage 9000 gallons year Tanks Used Oil Managed in Bulk Storage Tanks 15000 gallons year Hazardous and Controlled Waste Generator 1 each year Training Preconstruction Conferences Attended 17 each year (Hazardous Waste and Hazardous Material) Technical Assistance to Generating 30 each month Activities Pollution Prevention options 50 each year Chemical Inventory Training 1 each year Hazardous Material Storage Area Inspections 2500 each year (new work - estimated) Technical Assistance to User (Haz material) 100 each year ------------------------------------------- ------------ ----------- ---------- C. Waste Transported and Disposed: --------------- --------------------------- ---------------- --------- --------- **PROFILE#:** **WASTE DESCRIPTION** **WASTE CODES** **QTY **QTY DSPD FOR DSPD FOR 1996 1995 (lbs)** (lbs)** 0057B Waste 1,1,1 F001, F002 1750 2647 Trichloroethane, spent solvent, degreaser, toxic 0239 Waste Perchloroethylene, F001 1700 2200 Degreasing Solvent Toxic 0247 Waste Trichloroethylene, F001, F002 1930 2660 Spent Degreaser, Solvent, Toxic 0090 Waste Acid Solutions, Lab D002, D004, 3250 2141 Waste Corrosive, D006, D007, Nitric/Sulfuric Acid D008, D010 0266 Waste Acids, Spent Cleaning D002, D007 5725 8000 Solutions, Corrosive, Nitric, Chromic 0423 Waste Acid Solutions, D002, D004, 2200 0 Electroplating, Corrosive, D006, D007, D008 Sulfuric, Nitric 0102 Waste Cleaning Solution, D002, D006 650 1306 Sodium Hydroxide, Corrosive 0469 Waste Alkaline Solutions, D006, D007, 500 0 Electroplating, Corrosive, D008, D011 Sodium Hydroxide 0153 Waste Gasoline, Vehicle D001 925 1100 Fuel, Flammable 0174 Waste Karl Kischer Reagent, D001, D002 100 50 Lab Waste Flammable Liquid Contains Methanol 0234A Waste Paint & General D001, D007, 20500 14500 Maintenance, Flammable D008, D035, Flammable Solvents/ F002, F003, F005 0419 Waste Petroleum Distillate D001, D039, D018 9800 7650 Washing/Flammable/Mineral Spirits s/Parts 0471 Waste Acids/Alcohol D001, D002 250 180 Solution, Metallurgical Etching, Corrosive, Nitric Acid 0237 Waste Paint Stripper, D002 950 500 Surface Preparations, Corrosive, Toxic 0118 Waste Developer Solution, D006, D007, D011 4400 2100 Film Processing, Toxic Metals (Silver, Chromium) 0265 Waste Stop Bath D002, D006, D011 8300 8650 0113 Waste Component B Urethane D008 5100 3000 Spray-On-Foam Insulation, contains Lead 0409 Waste Solvent-Based Spray F002 1300 1600 Insulation, R&D, Toxic, Methylene Chloride 0422 Waste Paint D005, D006, 71000 43200 Related-Material Debris D007, D008, Various Processes, Toxic D035, D043, F001 0243B Waste Abrasives, Surface D006, D008 1200 600 Preparations, Toxic, Contains Cadmium & lead 0081 Aerosol Cans/Pest N/A 110 0 Control/Non- Flammable Gas/Ant, Roach, Wasp, Hornet 0014A Medical Waste 2830 2984 0018 Used Antifreeze 4525 5996 0027A Dye Penetrant Solution 0 2266 0041 Used Light Ballasts (PCB's) 8825 13384 0081 Non Flammable Aerosols 107 210 (Pesticides) 0086 Ammoniated Cirtic Cleaning 119320 128800 Solution 0105 Used Urethane Foam 4850 4677 (Isocyanate) Used Nickel Plating 5900 2002 Solution 0213 Used Oil Filters 2800 1628 0215 Used Refrigerant Oil 800 1746 0046 Used Detergent Cleaners 4130 653 0438 Used Photo-Processing 18500 23609 Solution 0136 Spent Lead-Acid Batteries 45200 29300 0048A Used Oil 43500 83340 Non-Regulated Adhesives 600 4199 Misc Chemicals (labpacked) 1150 596 0055 Used Abrasives 64 tons 46.6 tons --------------- --------------------------- ---------------- --------- --------- HWSF Description: ----------------- ----------------- ----------------- ----------------- **LOCATION** **BAYS** **DESCRIPTION** **VOLUME/AREA** Bldg 4635-1 Tank Storage Bays curbed and 3000 gallon Area, Bay 1 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 1500 gallon Area, Bay 2 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 1500 gallon Area, Bay 3 have chemical stainless steel resistant sealer. AST Tank Storage Bays curbed and 4000 gallon high Area, Bay 4 have chemical density resistant sealer. polyethylene Tank Storage Bays curbed and 4000 gall high Area, Bay 5 have chemical density resistant sealer. polyethylene on Tank Storage Bays curbed and 10000 gallon and Area, Bay 6 have chemical 7000 gallon steel resistant sealer. tanks Bldg 4635-2 Flammable Storage Bay curbed and 700 SF Bldg has chemical resistant sealer. Bldg 4635-3 Container Storage Bays available 4200 SF Facility Bay 1, for segregated 2, 3, 4, 5, and 6 container storage. Bays curbed and have chemical resistant sealer. Building 4635-4 Container Storage Bays available 2100 SF Facility Bay 1, for segregated 2, and 3 container storage. Bays curbed and have chemical resistant sealer. Container Storage Bay sloped for 840 SF Facility Bay 4 - drainage to Roll off box center of bay. storage ----------------- ----------------- ----------------- ----------------- ----------------------------------------------------------- ----------- ----------------------------------------------------------- ----------- [Industrial Wastewater Treatment and National Pollutant Discharge Elimination System (NPDES) Support]{.underline} A. [Staffing]{.underline} The following classification and numbers reflect current staffing. 1 Pollution Control Technician Senior 1 Pollution Control Technician Lead Senior B. [Workload/Description of Industrial Wastewater Treatment Facility (IWTF)]{.underline} [General]{.underline}. The Industrial Wastewater Treatment Facility (Building 4761) treats 50,000 gallons per day of metal finishing waste containing cyanide, chrome and heavy metals from Buildings 4760 and 4705, and 5000 gallons per day of paint booth and water blast wastewater. The new IWTF includes two 77,000 gallon effluent tanks, two 77,000 gallon influent tanks, two cyanide reaction tanks, lime silo and slurry feed system, sulfuric acid storage tank, chloride gas feed system, SO~2~ gas feed system, chemical treatment tank, diatomaceous earth slurry tank, paint waste holding tank, metal finishing wastewater flocculator, clarifier, sludge holding tanks, filter press, dryer, and miscellaneous pumps, mixers, etc. [TREATMENT OF METAL FINISHING WASTEWATER]{.underline} General industrial waste waters, general metal finishing waste waters, and waste waters containing hexavalent chromium, from Building 4760 and Building 4705, are transferred by underground piping to the influent pumping station on the west side of the IWTF. Wastewater generated locally at the IWTF from the cyanide treatment process, filter press, return flow from the sand filter, and rainwater collected in the containment areas are also combined in the pumping station. The pumping station consists of a concrete sump with two submersible pumps, which convey wastewater to two influent holding tanks located on the northwest side of the building. Level switches located in the well automatically activate the pumps when a set level is reached, and the pumps operate until a low level switch is activated, which shuts off the pumps. The treatment of metal finishing wastewater occurs in an elevated, four-compartment, flow-through tank. In the first compartment, the pH of the wastewater is lowered to a value of 2 to 3 standard units by the addition of sulfuric acid. A sulfur dioxide solution is injected into the second compartment, which reduces the hexavalent chromium present in the wastewater to trivalent chromium. The sulfur dioxide solution addition is controlled to a value of +300mv by the oxidation-reduction potential (ORP) in the compartment, in order to achieve complete reaction. In the third and fourth compartments, the pH is raised to approximately 9.5 standard units in two increments, by the addition of lime slurry to form metal hydroxide precipitates. After chemical treatment, the treated wastewater flows by gravity to the clarifier, where polymer flocculant is added. The clarifier separates the metal hydroxide precipitates from the treated wastewater. The insoluble metal hydroxides precipitate settles to the bottom of the clarifier, where it is pumped to the sludge holding tank and subsequently to the filter press for removal of excess water. The treated wastewater flows up through the clarifier and onto the sand filter. The sand filter is used as a final step in the separation process, as a \"polisher\", to remove any remaining suspended metal hydroxide particles from the treated wastewater which were not removed by the clarifier. The wastewater flows into the bottom of the filter, up through the sand bed and out through the top, and then to one of the effluent holding tanks located on the northeast side of the building. The sand filter has a continuous backwash system that cleans the sand bed of any metal hydroxide precipitate, and returns the precipitate back to the influent holding tanks for re-treatment. The final pH adjustment of the treated wastewater from the northeast exterior holding tank(s) occurs in a two-compartment, flow-through tank located on the ground elevation in the main floor area. In the first compartment, the pH is lowered from 9.5 to a neutral range of 6.5 to 8.0, by the addition of sulfuric acid. In the event that the pH is lowered below 6.5, lime slurry is automatically added in the second compartment to adjust the pH to the neutral range. After pH adjustment, the treated wastewater flows by gravity to the effluent monitor tank. Flow composite samples are withdrawn by the effluent sampler at prescribed intervals determined by the Environmental Engineering and Management Office (AE01). The composite samples are provided to the MSFC Analytical Contractor for analysis. Daily discharge amounts and pH readings are recorded in the operational log book, maintained in the Control Room. [Sludge Dewatering and Drying]{.underline} Suspended metal hydroxide precipitates and conditioned paint waste particles are collected in the Sludge Holding Tank prior to dewatering and drying. Sludge dewatering is accomplished using a plate filter press. The sludge is pumped through the filter press, with the suspended solids being captured on the filter media, and the filter water is recycled back to the influent pumping station for transfer to the influent holding tanks. After filtering, the dewatered sludge is processed through a dryer system and containerized for off site disposal. [CYANIDE WASTEWATER TREATMENT]{.underline} Segregated cyanide wastewater from Building 4760 is pumped via a force main to cyanide reaction tanks at Building 4761. When the reaction tanks indicate a high level, a sensor will automatically close the valve in the force main, preventing additional cyanide wastewater from being pumped. A hardwired alarm signal will be activated in Building 4760 to alert the operators in the building to stop the discharge of the cyanide wastewater. When the high tank level set point is reached, the cyanide destruction sequence will begin. If the pH of the wastewater is less than 9.0, lime slurry is automatically added until the pH reaches 9.0. Then chlorine solution is added to the reaction tank until the oxidation-reduction-potential (ORP) indicator reaches +400mv. When the ORP is reached, the chlorine solution valve automatically closes. The contents of the tank are reacted for 30 minutes to produce cyanates (CNO). After the reaction time, additional chlorine solution is added to the tank automatically, until an ORP of +600mv is achieved. The contents of the tank are reacted for an additional 60 minutes. At this point, the cyanide destruction process is complete. A sample of the solution is taken by the Industrial Waste Treatment Operator and provided to the MSFC Analytical Contractor for analysis. The results of the test will be logged in the cyanide treatment logbook located in the Control Room. If the cyanide concentration is above 0.65 ppm, the treatment process will be repeated. Once analytical results indicate the cyanide destruction reaction is complete, the treated wastewater is transferred by gravity to the west pumping station through the process drain, and then pumped to the MFW Influent Tanks. [PAINT SPRAY BOOTH WASTEWATER TREATMENT]{.underline} Paint booth wastewater from Building 4760 is pumped directly to the paint wastewater holding tank on the south side exterior of Building 4761. A high level sensor in the tank activates an alarm at Building 4760, to alert the operators to stop the paint waste sump pumps. Paint wastewater is collected in the tank until the level reaches 11 feet, as indicated on the PLC. Diatomaceous Earth (DE) slurry is added, mixed, and the paint wastewater is transferred to the sludge holding tank in Room 101 for dewatering. SID Permit IU084500027 Conditions that are monitored for Permit compliance for the Industrial Wastewater Treatment Facility (Discharge at the IWTF). SID Permit is in Reading Room. +--------+-----------------+--------+---------+-----------+---------+ | **SID | **EFFLUENT | * | ** | **FR | * | | Pe | C | *DAILY | UNITS** | EQUENCY** | *SAMPLE | | rmit** | HARACTERISTIC** | MAX | | | TYPE** | | | | IMUM** | | | | | **(DSN | | | | | | | 001)** | | | | | | +--------+-----------------+--------+---------+-----------+---------+ | | Flow | M | MGD | 1/ | Total | | | | onitor | | discharge | | +--------+-----------------+--------+---------+-----------+---------+ | | pH | 6-9 | s.u. | 1/ | grab | | | | | | discharge | | +--------+-----------------+--------+---------+-----------+---------+ | | Cadmium, Total | 0.69 | mg/l | 2/week | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Chromium, Total | 2.77 | mg/l | 2/week | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Chromium, | m | mg/l | 2/week | grab | | | Hexavalent | onitor | | | | +--------+-----------------+--------+---------+-----------+---------+ | | Copper, Total | 3.38 | mg/l | 2/week | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Lead, Total | 0.69 | mg/l | 1/month | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Nickel, Total | 3.98 | mg/l | 2/week | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Silver, Total | 0.43 | mg/l | 1/6 | batch | | | | | | months | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Zinc, Total | 2.61 | mg/l | 2/week | batch | | | | | | | co | | | | | | | mposite | +--------+-----------------+--------+---------+-----------+---------+ | | Cyanide, Total | 1.20 | mg/l | 2/week | grab | +--------+-----------------+--------+---------+-----------+---------+ | | Total Toxic | 2.13 | mg/l | 1/6 | grab | | | Organics | | | months | | +--------+-----------------+--------+---------+-----------+---------+ | | | | | | | +--------+-----------------+--------+---------+-----------+---------+ NPDES Permit AL0000421 Conditions that are monitored for Permit compliance at DSN001 (Near Indian Creek and Rideout Road). NPDES Permit is in Reading Room. ------------ ------------------ ----------- ----------- --------------- ------------ **NPDES **EFFLUENT **DAILY **UNITS** **FREQUENCY** **SAMPLE Permit CHARACTERISTIC** MAXIMUM** TYPE** (DSN001)** Flow Monitor MGD Daily Total pH 6-9 s.u. Daily Grab Oil & Grease 60.0 mg/l 2/mo Grab Total Suspended 60.0 mg/l 2/mo 24-hr Solids Composite ------------ ------------------ ----------- ----------- --------------- ------------ C. [Workload SID/NPDES Support]{.underline} Samples collected for NPDES Permit, Discharge Monitoring Reports, and flows at discharge points by month. (Analyses of samples is by Lab Service Contractor) +--------+----------------------------------------+--------+---------+ | **N | pH Readings | 260 | A | | PDES** | | | nnually | | | | | | | **DS | | | | | N001** | | | | +--------+----------------------------------------+--------+---------+ | | Flow measurements | 260 | A | | | | | nnually | +--------+----------------------------------------+--------+---------+ | | Samples collected | 260 | A | | | | | nnually | +--------+----------------------------------------+--------+---------+ | | | | | +--------+----------------------------------------+--------+---------+ | | Discharged wastewater for CY 96 at | | | | | DSN001 (these wastewaters are not | | | | | treated only monitored). | | | +--------+----------------------------------------+--------+---------+ | | Jan 96 | 11.6 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Feb 96 | 10.0 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | March 96 | 8.3 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | April 96 | 5.3 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | May 96 | 5.5 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | June 96 | 5.8 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | July 96 | 8.8 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Aug 96 | 14.9 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Sept 96 | 15.4 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Oct 96 | 7.8 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Nov 96 | 9.1 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | Dec 96 | 12.4 | M | | | | | G/month | +--------+----------------------------------------+--------+---------+ | | | | | +--------+----------------------------------------+--------+---------+ | * | Samples Collected | 1000 | A | | *SID** | | | nnually | | | | | | | **DS | | | | | N001** | | | | +--------+----------------------------------------+--------+---------+ | | Discharge Report for DSN001 and DSN003 | 1 | Month | | | to AE01 | | | +--------+----------------------------------------+--------+---------+ | | | | | +--------+----------------------------------------+--------+---------+ | | Discharged wastewater for CY 96 at | | | | | DSN003A (former wastewater treatment | | | | | facility at Building 4760) replaced by | | | | | SID DSN001. Building 4761 is the new | | | | | wastewater treatment facility. | | | +--------+----------------------------------------+--------+---------+ | | Jan 96 | 70000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Feb 96 | 40000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | March 96 | 50000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | April 96 | 80000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | May 96 | 110000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | June 96 | 120000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | July 96 | 100000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Aug 96 | 100000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Sept 96 | 120000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Oct 96 | 140000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Nov 96 | 140000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ | | Dec 96 | 120000 | ga | | | | | l/month | +--------+----------------------------------------+--------+---------+ D. Other Related Work Preparing and maintaining standard operating procedures for operation of the IWTF (Building 4761) and Groundwater Treatment System (West Test Area)\[Currently being constructed\]. -------------- -------------- ------------ ---------------------- ------------- **Work **Location** **Volume** **Samples Collected** **Discharge Element** Limit** Groundwater West Test Area 2 million one per month for VOC 5 ug/l Treatment gal/day (estimated) System -------------- -------------- ------------ ---------------------- ------------- The following is equipment used to operate and control the Groundwater Treatment System in the West Test Area. ----------------- -------------- ----------------------- -------------- -------------- **Description** **Location** **Capacity** **Quantity** **Unit of Measure** Submersible Pump Bldg 4696 Lift 240 gpm \@28' TDH/5 HP 2 EA Station Vertical Turbine Bldg 4670 Lift 1350 gpm \@50' TDH/30 2 EA Pump Station HP Horizontal Split Packed Tower 2100 gpm \@60' TDH/50 1 EA Case Pump Aeration HP (PTA)System Facility Belt-Driven PTA System 10,000 scfm \@2' 1 EA Air-Foil Fan Facility w.c./7.5 HP Equalization Tank PTA System 10,000 gallon 1 EA Facility Fiberglass PTA System 10' Diameter, 20' 1 EA Reinforced Facility Packing, 97.7% Removal Plastic Aeration Vessel Precast Concrete PTA System 8' X 10' 1 EA Building Facility Motor Control PTA System 480-volt/60HZ/3-phase 1 EA Center Facility Lift Station PTA System 480-volt/60HZ/3-phase 1 EA Field Panel Facility ----------------- -------------- ----------------------- -------------- -------------- [Hazardous Material Management]{.underline} A. [Staffing]{.underline} The Hazardous Waste Function staff also performs this function. B. [Workload]{.underline} The workload will include inputting chemical inventory data sheets, inspecting to ensure accuracy of data, and provide reporting as required by MSFC and other regulations. The current MSFC Chemical Inventory Database has approximately 11,000 entries and 13,000 material safety data sheets inputted. The chemical inventory covers 202 buildings at MSFC. Work efforts include corresponding with approximately 150 points of contacts (NASA and other contractors), preparing Tier II report, inspecting/correcting information, inspecting storage areas, attending preconstruction conferences, provide point of contact listing, supplying toxic release reporting information, preparing chemical inventory master list, and preparing training materials. Master list of Chemicals is available in Reading Room. [Spill Response Function]{.underline} A. [Staffing]{.underline} Staff of specially-trained personnel drawn from their regular duties as required when spills occur. B. [Spill Response Supplies]{.underline} Typical Spill Response Supplies and Materials kept on hand is included as an Appendix to the MSFC Spill, Prevention, Control and Countermeasure/RCRA Contingency Plan C. [Workload for CY 96]{.underline} ---------- -------------------- -------------- ----------------------------- **Date** **Spill type** **Quantity** **Efforts** 1/9/96 Bldg 4612, Room 1308 5 gal (interior) 5 gal hazardous Hazardous Waste waste container swollen due Container to pressure build up. RSA Fire Department on scene and evacuated Bldg. and then relieved pressure from container after Spill Response Contractor sealed room with plastic and tape. Container place in overpack container and turned-in to HWSF for disposal 1/9/96 Bldg 4483, Oil/Water 200 gal (exterior) water leak inside mixture building drained to used oil collect pump and transferred to collection tank that overflowed. Containment pumped into containers and oil solidified with absorbent with wastes with materials turned-in to HWSF for disposal. 2/6/96 Bldg 4653 Degreasing 8 gal (interior/exterior) isolated chemical water flow from the building, absorbent pads and booms used to contain spill, hay bails placed in the ditch, wastes drummed and turned into HWSF for disposal 2/6/96 Bldg 4697 Diesel 15 gal (exterior) Broken supply line Fuel from fuel tank into containment- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/6/96 Bldg 4663/B-Wing 2 gal (exterior) absorbent pads and Diesel Fuel boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/12/96 Bldg 4663/B-Wing less than 10 (exterior) absorbent pads and Diesel Fuel gal boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/14/96 Bldg 4203 Gasoline 3 gal (exterior) vehicle gas leak - absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 2/21/96 Bldg 4313 Gasoline less than 20 (exterior) gasoline storage gal tank leaked into containment to dispensing unit and overflowed onto ground after rainfall event - absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 3/6/96 Bldg 4699 Hydraulic 2 gal (exterior) leaked into Fluid secondary containment- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 3/13/96 Bldg 4699 Hydraulic 75-100 gal (exterior) Supply line burst Fluid into concrete trench - area flushed with water and Army vacuum truck vacuumed up water/oil mixture and disposed at Army oil/water separator, drummed contaminated soil and gravel from concrete culvert and turned into HWSF for disposal 4/1/96 Test Stand 116 30 gal (exterior) ruptured hydraulic hydraulic fluid line- absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 4/24/96 Bldg 4557 Diesel 4 gal (exterior)5 gallon container Fuel leak- container over packed, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 4/26/96 Bldg 4707 Cutting 3 gal (exterior) Southwest parking Fluid area-absorbent pads and boom were used to collect and contain spilled material with waste turned into HSWF for disposal 5/3/96 Bldg 4618 Cutting 1 gal (exterior) North parking Fluid area-absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 5/14/96 Bldg 4699 Hydraulic 20 gal (exterior) User contained and Fluid solidified with absorbent material; contractor was required to pressure wash affected test stand area with absorbent pads below test stand to collect hydraulic fluid and area wiped down with rags to remove remaining fluid with waste turned into HWSF for disposal 7/2/96 Bldg 4674 5 gal (exterior) East parking area- Transformer Oil Army vacuum truck removed oil from transformer, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 7/8/96 Bldg 4487/Room C148 1 pound (interior) leaked from drain Liquid Mercury trap- recovered the material with a mercury vacuum and waste turned into HWSF for disposal 7/12/96 Bldg 4312 Gasoline 15 gal (exterior)liquid pumped from secondary containment, repairs to leaking seal on gasoline dispenser unit with waste turned into HWSF for disposal 7/26/96 Bldg 4612 Hydraulic 3 gal (exterior)forklift rupture- Fluid user washed hydraulic fluid with water off of loading dock, contain and absorbed material with oil dry, contaminated material cleaned up with waste turned into HWSF for disposal 7/26/96 Bldg 4708 Hydraulic ½ gallon (exterior)mobile crane Fluid hydraulic line rupture- absorbed spill material with oil dry and cleaned up area with waste turned into HWSF for disposal 8/5/96 Bldg 4734 Used Oil less than 20 (exterior)used oil collection gal tank overflowed (overflow pipe outside of containment)- assisted user in transferring tank contents to a portable tank, absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 8/13/96 Bldg 4705 Gasoline 1 gal (exterior) Gas can in private vehicle leaked- spill solidified with oil absorbent and gas can plugged, area cleaned with waste turned into HWSF for disposal 8/15/96 Bldg 4760 220 gal (interior)Vapor Degreaser Perchloroethylene leak with PCE picked up by sump and pumped into wastewater treatment tanks- Hazardous Waste Contractor ordered TSDF vacuum truck and 20,000 gallons of water collected and shipped off site by Hazardous Waste Contractor 8/26/96 Near Bldg 4760 Oil 2 gal (exterior) off site tanker truck vacuum pump leak- spilled material was solidified with oil absorbent and the area cleaned with waste turned into HWSF for disposal 9/10/96 Bldg 4727 Antifreeze 1 gal (exterior) antifreeze container apparently fell off a vehicle and ruptured. The materials was absorbed and the material turned into the HWSF for disposal 9/10/96 Bldg 4640 Oily Sheen unknown (exterior) paving project at near DSN 018 Bldg 4640 after rainfall event caused oily sheen on water runoff. A boom was placed on drainage ditch to prevent further oil from escaping. 9/17/96 Bldg 4670 Oily sheen unknown (exterior) oily sheen on pond near DSN 019 caused by heavy rainfall over parking lot. Booms were placed in drainage ditch. 9/16/96 Bldg 4744 Anderol approx. 5000 (exterior) sump area Oil gal overflowed into containment. Hazardous Waste Contractor provided on tanker truck which removed the material. 9/26/96 Bldg 4557 Military 5 objects (exterior) excavation work Ordnance uncovered military ordnance in the East Test Area. Army personnel notified and removed objects. 10/7/96 Bldg 4744 Synthetic 7000 gal (exterior) pump malfunctioned Oil causing sump to overflow into secondary containment- Hazardous Waste Contractor provided two tanker trucks which removed the material from containment and storage tank, containment was pressure washed with fluids pumped into sump, and sump pump repaired 10/10/96 Bldg 4702/Room 103B 2 gal (interior) ruptured supply Oil line- absorbent pads and booms were used to collect and contain spilled material with waste turned into HWSF for disposal 10/24/96 Saturn Road 9 battery (exterior) Batteries Battery/Battery Acid containing 30% sulfuric acid fell off flatbed truck onto road- spilled material was neutralized and cleaned up absorbent pads and boom were used to collect and contain spilled material with waste turned into HWSF for disposal 10/24/96 Bldg 4612 Antifreeze 1 gallon (exterior)automobile leak- and transmission bucket placed under vehicle fluid to collect addition leaks, absorbent material solidified spill material and cleaned up with waste turned into HWSF for disposal 10/30/96 Bldg 4656 Hydraulic less than 1000 (interior/exterior) heat Fluid and Water gal exchanger leak that went into trenches that leads to a 300 gallon AST- heat exchanger repaired and Army vacuum truck removed liquid material and treated at Army oil/water separator 11/22/96 Bldg 4612,Room 1106 ½ pound (interior) Spill material was Mercury cleaned up with a mercury vacuum. The collected material was turned-in to the HWSF for disposal 12/11/96 Test Stand 116 50 gal (exterior) hydraulic line Hydraulic Fluid rupture- RSA Fire Department washed down affected area with ditches having floating booms and absorbent pads to contain hydraulic fluid with waste turned into HWSF for disposal, additional booms were placed to capture additional oils from rain events 12/15/96 Bldg 4207 Diesel 900 gal (exterior)fuel line outside Fuel containment ruptured- Containment structure built in ditch with booms and absorbent pads, Hazardous Waste Contractor rented oil/water separator to separate water pumped from subdrain sump collection system from building, clean up efforts stretched one to two months off and on ---------- -------------------- -------------- -----------------------------

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**GRADUATE SCHOOL OF PUBLIC AND INTERNATIONAL AFFAIRS UNIVERSITY OF PITTSBURGH** PIA 2096-53 Dr. Louise Comfort Spring Term 2002 Thursday, 9:00-11:59 pm Office Hours: 3R51 Posvar Hall W 2:00-3:00; H 1200-1:00 Tel.: 648-7606 and by appointment E-mail: lkc@pitt.edu **THE IMPACT OF INFORMATION TECHNOLOGY** **UPON DISASTER MANAGEMENT** Information technology is transforming the organizations within which we work and live. This process is nowhere more evident than in the difficult, challenging, interesting, sobering field of disaster management. Long a field dominated by command-and-control concepts and hierarchical organizational structures, disaster management is now more clearly conceived as a complex, dynamic field that is multi-disciplinary, multi-organizational, and multi-jurisdictional. In such an environment, the role of information is critical in enabling the participants to assess rapidly changing conditions and to develop constructive strategies of action to meet urgent, as well as evolving, threats. Yet, the policy questions persist: what kinds of information are needed by whom at what time in order to assess threat, reduce risk or mobilize action to avert danger to a community? Further, if we recognize the kinds of information that decision makers need in disaster environments, what means do we use to gather that information, organize and interpret it, and transmit it to the relevant personnel and clientele for action? What form of interactive communication do responsible managers need in order to coordinate their actions in a common strategy to b ring a threatening event under control or to recover from a destructive incident? Increasingly, experienced personnel in the field of disaster management have recognized that the most effective investment they can make to reduce risk to their communities as well as increase their capability for response is in building an information infrastructure that will facilitate collective action to manage their own risk. Such an approach, however, represents a challenge to most public, nonprofit and private managers that have responsibilities for risk reduction and response. Designing and implementing an appropriate information infrastructure requires technical skills that many do not have. To be effective, the information technology used in risk environments needs to fit the goals, missions and operational processes of the organizations involved in managing and responding to the risk. What is needed is a "sociotechnical system" in which the hardware and software is designed to support the decision processes of the organizations engaged in disaster management. This is not an easy task, as the decision requirements change with the evolving conditions of the disaster. Current policy makers in both civilian and military environments are exploring ways to enhance their capacity to identify threats and reduce risk before danger occurs. Advanced uses of information technology offer many possibilities to address complex problems that were not possible before. Yet, these same technologies, inappropriately designed or used, can also increase the chances for error, with devastating results. In this capstone seminar, we will explore some of the dilemmas that policy makers face in designing and maintaining an appropriate information infrastructure to support risk reduction and response. First, we will review the cognitive aspects of "sensemaking" in difficult, urgent environments to understand the shifts in perspective that are essential for managers to move from routine performance to disaster operations. Second, we will explore the concept of "shared risk" and the criteria for organizing collective action to reduce or respond to that risk. Third, we will review a set of current information technologies that are designed to provide decision support to managers operating in disaster environments. Fourth, we will assess the strengths and weaknesses of these technologies in terms of enabling the responsible organizations to improve communication and coordination in their performance under urgent conditions. Finally, we will develop a set of criteria that would assist public managers in designing appropriate information infrastructure to support effective decision making in disaster environments. The purpose of a capstone seminar is to provide an opportunity for students to apply the concepts and skills they have learned in their prior GSPIA courses to an actual policy problem in order to produce a set of policy recommendations that would be constructive to practicing policy makers in the field. In this capstone seminar, we have a range of organizations and jurisdictions that are involved, and a sequence of phases of threat that require different decisions by different policy makers. The challenge is that decisions made in one phase of disaster management, unrelated to other phases or uninformed in reference to actions taken by other organizations, may actually increase the risk to a community, rather than avert or reduce it. For example, keeping a current record of existing policies, strategies and actions by participating organizations and jurisdictions that have responsibilities for risk reduction and disaster operations appears fundamental to any community that is seeking to manage its own risk. Yet, this apparently simply task requires a degree of coordination, information sharing, and collective action that is rarely found among governmental agencies in a single jurisdiction, and even more rarely between jurisdictions, and almost never between public, private and nonprofit organizations in the same community. Information technology, appropriately designed and implemented, can assist communities in building a community-wide knowledge base that is essential to effective risk reduction and management. Since September 11, 2001, the responsibilities of public managers to assess and reduce risk for their communities are being radically redefined. Public safety has become a key criterion in determining allocation of resources, training of personnel, and all aspects of public management. As these responsibilities increase, the information requirements for public managers also increase, and an appropriate infrastructure for decision support becomes critical for daily operations as well as urgent threats. Our seminar will be interactive, and we will have the opportunity to use different information technologies in class to explore aspects of these technologies upon interorganizational decision making for risk reduction and response. Each student will define a research project that addresses the possible uses or misuses of information technology in the public management of risk. There is range of choices for study topics. One could focus on uses of information technology by public agencies at a given jurisdictional level: municipal, county, state, federal or international, or uses that cross such jurisdictional levels in seeking to manage risk. Or, one could address information needs at different phases of risk assessment, response or recovery from a major threat. Or, one could review the design and operation of an existing software program for risk reduction to assess its strengths and weaknesses in meeting the needs of practicing managers. Or, one could examine the fit between technical, organizational and cultural requirements that is most essential in achieving effective management of risk. Selection of a policy problem is an important part of the learning process for the seminar, and I encourage your active inquiry into this area of policy and practice. Preparation of the policy paper and its presentation in class will constitute the major requirements for the seminar. Students may collaborate on related issues in terms of gathering information and analyzing data, but each student will submit an individual paper as the product of the course. There will be a mid-term exam on the readings and a brief final essay in which you evaluate the process, methods, and data that you used in your study relation to the larger problem of building an appropriate information infrastructure for disaster management. Grades will be based upon the mid-term (30%), project report (40%), process evaluation essay (15%) and in-class presentation and participation (10%). Proficiency in writing, grammar, spelling and professional standards of documentation of sources are expected in your written work, and professional formats for presentation, using information technology, are expected in your final presentation. My office is 3E30 Posvar Hall. Office hours are Wednesdays, 2:00 - 3:00 p.m., Thursdays, 2:00 - 1:00 p.m. and by appointment. Telephone:648-7606; e-mail address: lkc@pitt.edu. The following books and reports are required for the seminar: Axelrod, Robert. 1997. *The complexity of cooperation: agent-based models of competition and collaboration*. Princeton, N.J. : Princeton University Press, c1997. Comfort, L.K. *Shared Risk: Complex Systems in Seismic Response*. Oxford, NY: Pergamon Press. (Available in class at cost: \$25.00 per copy). Comfort, L.K. ed. Draft ms. "The Impact of Information Technology upon Disaster Management." (Will be available at CopyCat.) Command and Control Research Program. 2001. *Final Report, Sensemaking Symposium, 23-25 October.* Washington, DC: Office of the Assistant Secretary for Defense. (Available for downloading from the class directory.) FEMA. 2001. *Information Technology Architecture, Version 2.0. The Road to e-FEMA*. Washington, DC: Federal Emergency Management Agency. May. (Available free from the FEMA Web page: http://www.fema.gov) United Nations. 2001. *"Strengthening the coordination of emergency humanitarian assistance of the United Nations: Report of the Secretary General."* Geneva, CH: Economic and Social Council, 2-27 July. (Available for downloading from the class directory.) Office for the Coordination of Humanitarian Affairs. 1999. *OCHA Orientation Handbook on Complex Emergencies*. New York: United Nations. **[SCHEDULE OF CLASS ASSIGNMENTS]{.underline}** JANUARY 1/10: I. [Introduction to the Seminar]{.underline} The Role of Information Technology in Managing Risk Discussion of course projects, requirements. > Demonstration of a Sociotechnical System: IISIS 1/17: [II.Decision Making in Disaster Environments]{.underline} A. Cognitive Limits, Recognition of Risk, and Coordinated Action Command and Control Research Program, Office of the Assistant Secretary for Defense. *Final Report, Sensemaking Symposium*, *23-25 October 2001.* 1/24: B. Shared Risk: Theory Comfort, L.K. *Shared Risk: Complex Systems in Seismic Response*. Part I. Statement of sociotechnical policy problem due. 1/31: C. Shared Risk: Practice Comfort, L.K. *Shared Risk: Complex Systems in Seismic Response*. Parts II and III. 2/7: D. Competition or Collaboration among Agencies and Jurisdictions? > Axelrod, R. *The Complexity of Cooperation: Agent-based Models of > Competition and Collaboration.* Identification of source materials for analysis of sociotechnical policy problem due. 2/14: III. [Technical Support for Organizational Action]{.underline} > A. The Interdisciplinary Context of Decision Making in Disaster > Environments Comfort, L.K. ed. "The Impact of Information Technology upon Disaster Management" Draft ms. Parts I and II. 2/21: B. Comparing Technical Means of Decision Support to Meet Organizational Needs Comfort, L.K. ed. "The Impact of Information Technology upon Disaster Management" Draft ms. Parts III and IV. Statement on methods of inquiry, data collection, analysis due. Mid-term exams handed out. 2/28: Mid-term exams due. In-class demonstration of IISIS prototype for Pittsburgh Metropolitan Region. 3/7: SPRING BREAK! 3/14: IV. [Current Programs in Information Technology for Disaster Management]{.underline} A. A National Perspective FEMA. 2001. *Information Technology Architecture, Version 2.0. The Road to e-FEMA* Preliminary outline for project analysis due. 3/21: B. An International Perspective > United Nations. 2001. *"Strengthening the coordination of emergency > humanitarian assistance of the United Nations: Report of the Secretary > General."* 3/28: C. New Challenges in Disaster Management > Office for the Coordination of Humanitarian Affairs. 1999. *OCHA > Orientation Handbook on Complex Emergencies* > > Revised outline for project papers due. 4/4: VI. [The Role of Information Technology in Disaster Management]{.underline} > Lab session: feedback on project outlines; in-class discussion, > resolution of problems encountered; review of plans for presentation . 4/11: In-class presentation of student projects 4/18: In-class presentation of student projects. Sociotechnical project papers due. Final exams handed out. 4/25: Final essays due.

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# Presentation: 527908 ## Tunable Laser Diode and Optical Phase-Lock Loop E-TEK Dynamics, Inc., San Jose, CA - Innovation - Tunable laser diode and optical phase-locked loop for telecommunications incorporating - applied fiber optic, integrated optic and precision optical coating technologies. - Accomplishments - Developed electronically tunable sources with very narrow line width using innovative - approaches and optical phase-locked loop. - The firm’s wavelength division multiplexers (WDMs) are designed to increase the bandwidth - capacity of fiber optic networks. Other company components, including isolators, couplers - and integrated optics, are critical in enabling optical communications systems. These - products are utilized in terrestrial and submarine long-haul fiber optic networks as well as in - short-haul markets, such as metro and cable. - Commercialization - JDS Uniphase Corporation and E-TEK Dynamics, Inc.) announced on June 22, 2000 that they have reached an agreement with the United States Department of Justice ("DOJ") that will permit JDS Uniphase to complete its merger with E-TEK. The consent decree with the DOJ gives antitrust clearance to the merger, which is now subject only to E-TEK stockholder approval and the other customary closing conditions specified in the merger agreement - JDS Uniphase Corporation (NASDAQ: JDSU; TSE: JDU) and E-TEK Dynamics Inc. (NASDAQ: ETEK) announced today the signing of a definitive merger agreement valued at approximately $15 billion based on January 14, 2000 closing stock prices. - The firm’s headquarters are in San Jose, Calif., it is a leader in the design and manufacturing of high quality passive components and modules for fiber optic systems. The firms wavelength division multiplexers ("WDMs") are designed to increase the bandwidth capacity of new and existing fiber optic networks. - The firm has approximately 2,450 employees and reported revenues of $72.5 million in its second quarter ended January 1, 2000. JDS Uniphase has over 8,200 employees and reported sales of $230.1 million in its first quarter ended September 30, 1999. - The firm was named by Business Week as one of the “Hot Growth Companies of 2000”, in their May 29, 2000 issue. - Government/Science Applications - NASA and DOD communication equipment and networks. - Tracking, ranging, sensing, optical lidar and high-speed signal processing. - Debris detection and avoidance for space vehicles. - Points of Contact: - - NASA Collin Hieger (281)-483-1803 - - Company: (408) 546-4608 or email to: info@e-tek.com - 1986 SBIR Phase II; NAS9-17992 - Johnson Space Center May 31, 2002 09-026 - Title

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Dec. 18, 2008 Steve Cole Headquarters, Washington 202-657-2194 stephen.e.cole@nasa.gov Guy Webster Jet Propulsion Laboratory, Pasadena, Calif. 818-354-6278 guy.webster@jpl.nasa.gov Jennifer Huergo Johns Hopkins University Applied Physics Laboratory, Laurel, Md. 240-228-5618/443-778-5618 jennifer.huergo@jhuapl.edu RELEASE: 08-331 SCIENTISTS FIND 'MISSING' MINERAL AND CLUES TO MARS MYSTERIES SAN FRANCISCO -- Researchers using a powerful instrument aboard NASA's Mars Reconnaissance Orbiter have found a long sought-after mineral on the Martian surface and, with it, unexpected clues to the Red Planet's watery past. Surveying intact bedrock layers with the Compact Reconnaissance Imaging Spectrometer for Mars, or CRISM, scientists found carbonate minerals, indicating that Mars had neutral to alkaline water when the minerals formed at these locations more than 3.6 billion years ago. Carbonates, which on Earth include limestone and chalk, dissolve quickly in acid. Therefore, their survival until today on Mars challenges suggestions that an exclusively acidic environment later dominated the planet. Instead, it indicates that different types of watery environments existed. The greater the variety of wet environments, the greater the chances one or more of them may have supported life. "We're excited to have finally found carbonate minerals because they provide more detail about conditions during specific periods of Mars' history," said Scott Murchie, principal investigator for the instrument at the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. The findings will appear in the Dec. 19 issue of Science magazine and were announced Thursday at a briefing at the American Geophysical Union's Fall Meeting in San Francisco. Carbonate rocks are created when water and carbon dioxide interact with calcium, iron or magnesium in volcanic rocks. Carbon dioxide from the atmosphere becomes trapped within the rocks. If all of the carbon dioxide locked in Earth's carbonates were released, our atmosphere would be thicker than that of Venus. Some researchers believe that a thick, carbon dioxide-rich atmosphere kept ancient Mars warm and kept water liquid on its surface long enough to have carved the valley systems observed today. "The carbonates that CRISM has observed are regional rather than global in nature, and therefore, are too limited to account for enough carbon dioxide to form a thick atmosphere," said Bethany Ehlmann, lead author of the article and a spectrometer team member from Brown University in Providence, R.I. "Although we have not found the types of carbonate deposits which might have trapped an ancient atmosphere," Ehlmann said, "we have found evidence that not all of Mars experienced an intense, acidic weathering environment 3.5 billion years ago, as has been proposed. We've found at least one region that was potentially more hospitable to life." The article reports clearly defined carbonate exposures in bedrock layers surrounding the 925-mile diameter Isidis impact basin, which formed more than 3.6 billion years ago. The best-exposed rocks occur along a trough system called Nili Fossae, which is 414 miles long, at the edge of the basin. The region has rocks enriched in olivine, a mineral that can react with water to form carbonate. "This discovery of carbonates in an intact rock layer, in contact with clays, is an example of how joint observations by CRISM and the telescopic cameras on the Mars Reconnaissance Orbiter are revealing details of distinct environments on Mars," said Sue Smrekar, deputy project scientist for the orbiter at NASA's Jet Propulsion Laboratory in Pasadena, Calif. NASA's Phoenix Mars Lander discovered carbonates in soil samples. Researchers had previously found them in Martian meteorites that fell to Earth and in windblown Mars dust observed from orbit. However, the dust and soil could be mixtures from many areas, so the carbonates' origins have been unclear. The latest observations indicate carbonates may have formed over extended periods on early Mars. They also point to specific locations where future rovers and landers could search for possible evidence of past life. The Applied Physics Laboratory led the effort to build the Compact Reconnaissance Imaging Spectrometer for Mars and operates the instrument in coordination with an international team of researchers from universities, government and the private sector. NASA's Jet Propulsion Laboratory manages the Mars Reconnaissance Orbiter mission for NASA's Science Mission Directorate in Washington. For more information about the Mars Reconnaissance Orbiter, visit: http://www.nasa.gov/mro -end-

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converted_docs

105023

DSSTox Field Definition File: EPA Fathead Minnow Acute Toxicity Database (EPAFHM) *(last updated 15 February 2008)* **Description:** Information in this file is intended to provide a minimum level of annotation to the DSSTox SDF (Structure Data Format) file created for the EPA Fathead Minnow Acute Toxicity Database (EPAFHM) obtained from the Source website. For further explanation of Source-specific fields, a user is encouraged to consult the listed references. Additional information is provided on the DSSTox EPAFHM SDF Download Page <http://www.epa.gov/ncct/dsstox/sdf_epafhm.html>. A number of modifications in fields (and allowable entries) were made to the original EPA Fathead Minnow database to improve consistency in notations, eliminate the need for table addendums, and facilitate use of the DSSTox SDF files in relational searching applications. All modifications are documented in the ***Comments*** section of the table below. In the course of creating the DSSTox SDF files, it was noted that the Source EPA Fathead Minnow database included a single LC50 test result rather than a geometric mean when multiple (2-10) bioassays were performed on a single chemical. Replicate bioassays were conducted on 98 chemicals in the database. In order to align with the Main Citation - Appendix 2, these replicate experiments are not listed separately in the DSSTox EPAFHM SDF file; rather a single geometric mean of replicate LC50 values for each of the 98 chemicals is reported. As a result of this finding, specific listings of all 137 replicate LC50 experiments for the 98 chemicals were added to the original Source EPA Fathead Minnow database. Description of ***DSSTox Standard Chemical Fields*** can be found in the Central Field Definition Table located at: <http://www.epa.gov/ncct/dsstox/CentralFieldDef.html> The first section of the Table below lists the ***DSSTox Standard Toxicity Fields*** employed for this database, followed by the ***EPAFHM Source-Specific Fields*** containing the toxicity information particular to EPAFHM. The ***Field Type*** indicates the type of the field, such as numeric, integer, defined text, memo, etc. All ***Units*** and ***Descriptions*** are extracted from Source reference materials unless otherwise noted. ***Allowable Entries*** lists allowed field entries occurring in EPAFHM, separated by slashes for exclusive entries (i.e., cannot occur with another entry) and semicolons or spaces for non-exclusive entries (i.e., can occur with other values). These are defined and explained in the ***Description*** section. **Source Website:** <http://www.epa.gov/med/databases/fathead_minnow.htm> **Source Contact:** Scientific questions pertaining to the EPAFHM database should be directed to Chris Russom, Mid-continent Ecology Division, National Health & Environmental Effects Research Laboratory, US EPA, Duluth, MN; email: russom.chris@epa.gov **Main Citation:** Publications reporting use of the DSSTox SDF file for the EPA Fathead Minnow database are asked to list the full DSSTox file name, including date stamp, and to cite as primary reference the following: > Russom, C.L., S.P. Bradbury, S.J. Broderius, D.E. Hammermeister, and > R.A. Drummond (1997) Predicting modes of action from chemical > structure: Acute toxicity in the fathead minnow (*Pimephales > promelas*). *Environmental Toxicology and Chemistry* 16(5): 948-967. > \* > > *\*pdf of Main Citation can be downloaded from EPAFHM SDF Download > Page at the central DSSTox website:* > <http://www.epa.gov/ncct/dsstox/sdf_epafhm.html> **SDF Usage Notes:** Each DSSTox SDF file contains a single **STRUCTURE** field. For each chemical record, the **STRUCTURE** field entry directly corresponds to the content of the **STRUCTURE\_\...** fields. The **STRUCTURE_Shown** field documents the relationship between what is displayed in the **STRUCTURE** field and the actual tested chemical substance, i.e. **TestSubstance\_\...** fields, with the latter corresponding directly to the toxicity data field entries. Commercial chemical relational database (CRD) applications may automatically insert one or more structure identifier fields upon import or export of an SDF file (e.g., Formula, FW or Mol_ID), fields that may augment or duplicate one or more of the DSSTox Standard Chemical Fields. Users are cautioned that fields containing null values in the first record of the SDF will be reordered upon import into most applications; for this reason, the word "blank" has been inserted into null fields in Record 1 of DSSTox SDF files and can be deleted after SDF import. Users are additionally cautioned that some fields (**STRUCTURE_SMILES** and **STRUCTURE_InChI**, in particular) may exceed the 200 character limit specified in the MDL CTFiles SDF standard (see <http://www.epa.gov/ncct/dsstox/MoreonSDF.html>), and that some CRD applications may insert a line break or truncate these fields upon SDF import or export. Finally, CRD application-specific molecular header information in the SDF file is deleted in the final DSSTox SDF files; users running CRD applications requiring a unique molecule header upon import of the SDF can specify either **DSSTox_RID** or the **DSSTox_FileID** be used. Upon SDF import, **DSSTox_CID** can be used to identify and manage chemical structure duplicates and **DSSTox_Generic_SID** can be used to identify common Test Substances across and within DSSTox files (similar to CASRN-substance, but available for all DSSTox substances and further distinguishes among different purity/grade substances). *As an MS Word document, the following table is best viewed onscreen using either Normal or Web Layout View in Landscape page orientation.* +-------+------+---+--------+----------------------+-----------------+ | *** | ***F | * | ***All | # *Description* | ## *Comments* | | Field | ield | * | owable | | | | Na | Typ | * | Entr | | | | me*** | e*** | U | ies*** | | | | | | n | | | | | | | i | | | | | | | t | | | | | | | s | | | | | | | * | | | | | | | * | | | | | | | * | | | | +-------+------+---+--------+----------------------+-----------------+ | | | | | ##### DSSTox Stan | | | | | | | dard Toxicity Fields | | +-------+------+---+--------+----------------------+-----------------+ | **St | def | | Acute | Field is used to | Field names and | | udy** | ined | | To | label all records in | content are | | | text | | xicity | the database, | being | | **T | | | | generally with the | coordinated | | ype** | | | | same entry, and is | with the public | | | | | | designed to | ToxML | | *(no | | | | facilitate record | standardization | | spa | | | | identification for | effort. | | ces)* | | | | cross-database | | | | | | | structure searching. | | | | | | | Field entry refers | | | | | | | to the main type of | | | | | | | toxicity study for | | | | | | | which data is | | | | | | | represented in the | | | | | | | database. | | +-------+------+---+--------+----------------------+-----------------+ | # End | def | | LC50 | Field is used to | Field names and | | point | ined | | | label all records in | content are | | | text | | | the database, | being | | | | | | generally with the | coordinated | | | | | | same entry, and is | with the public | | | | | | designed to | ToxML | | | | | | facilitate record | standardization | | | | | | identification for | effort. | | | | | | cross-database | | | | | | | structure searching. | | | | | | | Field entry refers | | | | | | | to the type of | | | | | | | toxicity measure | | | | | | | represented within | | | | | | | the database. | | +-------+------+---+--------+----------------------+-----------------+ | * | def | | f | Field is used to | Field names and | | *Spec | ined | | athead | label all records in | content are | | ies** | text | | minnow | the database, | being | | | | | | generally with the | coordinated | | | | | | same entry, and is | with the public | | | | | | designed to | ToxML | | | | | | facilitate record | standardization | | | | | | identification for | effort. | | | | | | cross-database | | | | | | | structure searching. | | | | | | | Field entry refers | | | | | | | to the species of | | | | | | | animal(s) listed in | | | | | | | the data record and | | | | | | | used in the toxicity | | | | | | | study or studies. | | +-------+------+---+--------+----------------------+-----------------+ | | | | | ##### EPAFHM So | | | | | | | urce-Specific Fields | | +-------+------+---+--------+----------------------+-----------------+ | ** | def | | Al | Standard organic | To facilitate | | ChemC | ined | | kanes/ | chemical class | use of EPA | | lass_ | text | | | designations of the | Fathead Minnow | | FHM** | | | Al | sort used in | database in a | | | | | kenes/ | traditional QSAR | relational | | | | | | studies. These class | format, we have | | | | | Sat | designations are | replaced the | | | | | urated | only provided for | original field | | | | | H | information purposes | "CODE" with new | | | | | ydroca | in EPAFHM and were | field | | | | | rbons/ | not used in the | "ChemClass | | | | | | construction of | FHM", which | | | | | Unsat | Mode-of-action (MOA) | contains the | | | | | urated | classes or | organic | | | | | H | derivation of | chemical class | | | | | ydroca | quantitative | referenced in | | | | | rbons/ | structure-activity | the "CODE" | | | | | | relationships | field and | | | | | Basic | (QSARs) for this | listed in a | | | | | E | study. | Table 2 | | | | | thers/ | | addendum in the | | | | | | | original EPA | | | | | Di | | Fathead Minnow | | | | | phenyl | | database. | | | | | E | | | | | | | thers/ | | DSSTox field | | | | | | | entries exactly | | | | | Cyclic | | correspond to | | | | | E | | original EPA | | | | | thers/ | | Fathead Minnow | | | | | | | database CODE | | | | | Basic | | Table 2 entries | | | | | Alc | | with the | | | | | ohols/ | | exception that | | | | | | | commas are | | | | | Alkene | | deleted from | | | | | Alc | | Primary, | | | | | ohols/ | | Secondary, | | | | | | | Tertiary, | | | | | Alkyne | | aliphatic and | | | | | Alc | | aromatic amines | | | | | ohols/ | | class names, | | | | | | | and hyphens are | | | | | Diols/ | | deleted from | | | | | | | 5-membered ring | | | | | Alde | | aliphatics and | | | | | hydes/ | | aromatics, | | | | | | | beta-Diketones, | | | | | Basic | | hetero-atom | | | | | Ke | | compounds, and | | | | | tones/ | | DEAS-complex | | | | | | | structures | | | | | beta | | class names. | | | | | Dike | | | | | | | tones/ | | DEAS stands for | | | | | | | "Drug | | | | | Cyclic | | Enforcement | | | | | Ke | | Agency | | | | | tones/ | | Structures", a | | | | | | | broad | | | | | Carb | | functional | | | | | oxylic | | categorization. | | | | | Acids/ | | | | | | | | | | | | | | Basic | | | | | | | E | | | | | | | sters/ | | | | | | | | | | | | | | Phtha | | | | | | | lates/ | | | | | | | | | | | | | | A | | | | | | | mides/ | | | | | | | | | | | | | | Acry | | | | | | | lates/ | | | | | | | | | | | | | | Nit | | | | | | | riles/ | | | | | | | | | | | | | | P | | | | | | | rimary | | | | | | | ali | | | | | | | phatic | | | | | | | a | | | | | | | mines/ | | | | | | | | | | | | | | Sec | | | | | | | ondary | | | | | | | ali | | | | | | | phatic | | | | | | | a | | | | | | | mines/ | | | | | | | | | | | | | | Te | | | | | | | rtiary | | | | | | | ali | | | | | | | phatic | | | | | | | a | | | | | | | mines/ | | | | | | | | | | | | | | P | | | | | | | rimary | | | | | | | ar | | | | | | | omatic | | | | | | | a | | | | | | | mines/ | | | +-------+------+---+--------+----------------------+-----------------+ | ## | num | # | \# | Logarithm of the | | | CLOGP | eric | # | | octano/water | | | | | # | | partition | | | | | # | | coefficient (LogP) | | | | | | | computed using the | | | | | | | semiempirical | | | | | | | fragment-based | | | | | | | method applied in | | | | | | | the CLOGP software | | | | | | | \[2\], unless | | | | | | | "measured LogP" | | | | | | | appears in MLOGP | | | | | | | field in which case | | | | | | | the measured LogP | | | | | | | value is provided in | | | | | | | the **CLOGP** field | | | | | | | from the STARLIST | | | | | | | database of CLOGP. | | +-------+------+---+--------+----------------------+-----------------+ | ## | def | # | me | "measured LogP" | | | MLOGP | ined | # | asured | indicates CLOGP | | | | text | # | LogP/ | field value is | | | | | # | | obtained from the | | | | | | * | STARLIST database of | | | | | | blank* | experimentally | | | | | | | measured LogP values | | | | | | | provided in the | | | | | | | CLOGP application | | | | | | | \[2\]; | | | | | | | | | | | | | | "*blank*" or null | | | | | | | entry indicates the | | | | | | | CLOGP field value is | | | | | | | computed from the | | | | | | | CLOGP semiempirical | | | | | | | fragment-based | | | | | | | method. | | +-------+------+---+--------+----------------------+-----------------+ | ## LC | num | # | *#/* | 96 hr LC50 | If insufficient | | 50_mg | eric | # | | (concentration | mortality was | | | | # | * | producing lethality | observed, LC50 | | | | # | blank* | in 50% of test | was assigned a | | | | | | animals after 96 | value of -99 in | | | | m | | hours exposure) in | the original | | | | g | | mg/l. Calculated | EPA Fathead | | | | / | | using | Minnow | | | | l | | Spearman-Karber | database. To | | | | | | method \[3\]. | avoid problems | | | | | | Geometric mean of | when log(LC50) | | | | | | LC50s presented if | is used in | | | | | | more than one | QSAR, we | | | | | | bioassay conducted | convert these | | | | | | for the chemical; | to *blank* | | | | | | | entry in LC50 | | | | | | "*blank*" or null | field. | | | | | | entry indicates no | Replicate | | | | | | mortality, or less | experiments | | | | | | than 50% mortality | used to compute | | | | | | observed at 96hr. | geometric mean | | | | | | | LC50 values for | | | | | | | 98 chemicals | | | | | | | are listed in | | | | | | | revised EPA | | | | | | | Fathead Minnow | | | | | | | database | | | | | | | located at | | | | | | | Source website. | | | | | | | Geometric mean | | | | | | | LC50 value for | | | | | | | pe | | | | | | | ntachlorophenol | | | | | | | is reported in | | | | | | | DSSTox SDF. | +-------+------+---+--------+----------------------+-----------------+ | ## | num | # | *#/* | Conversion of | Field new to | | LC50 | eric | # | | **LC50_mg** to mmol | v3a. | | _mmol | | # | * | units: | | | | | # | blank* | | | | | | | | **LC50_mmol** = | | | | | m | | **LC50_mg** / | | | | | m | | **STRUCTUR | | | | | o | | E_MolecularWeight**; | | | | | l | | | | | | | / | | "*blank*" or null | | | | | l | | entry indicates no | | | | | | | mortality, or less | | | | | | | than 50% mortality | | | | | | | observed at 96hr. | | +-------+------+---+--------+----------------------+-----------------+ | ## Ac | def | # | a | Categorical activity | Summary | | tivit | ined | # | ctive/ | measure based on | activity for | | yOutc | text | # | | reported | use in PubChem | | ome_E | | # | i | **LC50_mg**: | and | | PAFHM | | | nconcl | | str | | | | | usive/ | > "active" if an | ucture-activity | | | | | | > **LC50_mg** is | relationship | | | | | ina | > reported; | studies. | | | | | ctive/ | > | | | | | | | > \"inconclusive\" | *New field | | | | | | > if only partial | added to v4b.* | | | | | | > mortality was | | | | | | | > reached at the | | | | | | | > highest tested | | | | | | | > dose; and | | | | | | | > | | | | | | | > \"inactive\" if no | | | | | | | > mortality at the | | | | | | | > highest tested | | | | | | | > dose. | | +-------+------+---+--------+----------------------+-----------------+ | ## Ac | int | # | I | Mapping of LOG10 | Summary | | tivit | eger | # | NTEGER | (1/**LC50_mmol**) | activity | | yScor | | # | \[0 | activity values | ranking for use | | e\_ E | | # | -100\] | spanning activity | in PubChem and | | PAFHM | | | | range \[MIN, MAX\] | str | | | | | | onto Integer 1-100 | ucture-activity | | | | | | Activity range, | relationship | | | | | | where 100 is highest | studies. | | | | | | potency and 1 is | | | | | | | lowest. | *New field | | | | | | | added to v4b.* | | | | | | If | | | | | | | **Acti | | | | | | | vityOutcome_EPAFHM** | | | | | | | is \"active: | | | | | | | | | | | | | | > ActivityScore = | | | | | | | > 100 \* | | | | | | | > INTEGER\[(log10(1/ | | | | | | | > LC50_mmol) - | | | | | | | > MIN)/(MAX -- | | | | | | | > MIN)\]. | | | | | | | | | | | | | | If | | | | | | | **Acti | | | | | | | vityOutcome_EPAFHM** | | | | | | | is \"inactive\" or | | | | | | | \"inconclusive\": | | | | | | | | | | | | | | > ActivityScore = 0. | | +-------+------+---+--------+----------------------+-----------------+ | ## | num | # | #/ | Used for | Text codes | | LC50_ | eric | # | | dose-response | (r48, r72, NR) | | Ratio | | # | * | assessments in the | were | | | | # | blan*k | estimation of | substituted for | | | | | | Mode-of-Action | the following | | | | | | (MOA); entry is | symbol codes | | | | | | ratio of 24hr LC50 | used in the | | | | | | to 96hr LC50 unless | original EPA | | | | | | otherwise noted (for | Fathead Minnow | | | | | | ratios of 48hr or | database: | | | | | | 72hrs to 96hrs) in | | | | | | | **LC50_Note** field; | > \* = 48h/96h | | | | | | | > ratio = r48 | | | | | | "*blank*" or null | > | | | | | | entry indicates | > \# = 72h/96h | | | | | | ratio was not | > ratio = r72 | | | | | | computed with reason | > | | | | | | provided in | > \*\* = LC50 | | | | | | **LC50_Note** field. | > obtained at | | | | | | | > 96 h = NR | | | | | | | > | | | | | | | > NM, NT not | | | | | | | > defined in | | | | | | | > original | | | | | | | > EPAFHM | | | | | | | > documentation | | | | | | | > | | | | | | | > In case of | | | | | | | > replicate | | | | | | | > experiments, | | | | | | | > ratio for a | | | | | | | > single | | | | | | | > replicate is | | | | | | | > reported that | | | | | | | > approximately | | | | | | | > represents | | | | | | | > group. | | | | | | | > | | | | | | | > Replaces | | | | | | | > **LC50RATIO** | | | | | | | > field name. | | | | | | | > | | | | | | | > Abbreviations | | | | | | | > used | | | | | | | > previously | | | | | | | > have been | | | | | | | > expanded and | | | | | | | > moved to | | | | | | | > **LC50_Note** | | | | | | | > field: | | | | | | | > | | | | | | | > r48 = 48hr to | | | | | | | > 96hr | | | | | | | > | | | | | | | **LC50_Ratio** | | | | | | | > | | | | | | | > r72 = 72hr to | | | | | | | > 96hr | | | | | | | > | | | | | | | **LC50_Ratio** | | | | | | | > | | | | | | | > NM = | | | | | | | > | | | | | | | non-monotonical | | | | | | | > pattern of | | | | | | | > death (i.e. | | | | | | | > more deaths | | | | | | | > at lower | | | | | | | > | | | | | | | concentrations | | | | | | | > than at | | | | | | | > higher | | | | | | | > | | | | | | | concentrations) | | | | | | | > | | | | | | | > NR = LC50 | | | | | | | > obtained only | | | | | | | > at 96hr so no | | | | | | | > | | | | | | | **LC50_Ratio** | | | | | | | > determined | | | | | | | > | | | | | | | > NT = not | | | | | | | > toxic in 96hr | | | | | | | > exposure so | | | | | | | > no | | | | | | | > | | | | | | | **LC50_Ratio** | | | | | | | > determined | | | | | | | > | | | | | | | > ND = | | | | | | | > | | | | | | | **LC50_Ratio** | | | | | | | > not | | | | | | | > determined | +-------+------+---+--------+----------------------+-----------------+ | ## | def | # | ### | Comments regarding | Replaces | | LC50 | ined | # | # Text | the **LC50_mg** | REMARKS field | | _Note | text | # | | value and | in original EPA | | | | # | | **LC50_Ratio** | Fathead Minnow | | | | | | determination; | database; | | | | | | | eliminate use | | | | | | Comments pertain to | of | | | | | | exceptional | abbreviations | | | | | | situations, e.g., | for mortality | | | | | | where: 50% mortality | and saturation. | | | | | | could not be | When more than | | | | | | achieved at | one bioassay | | | | | | saturation | was performed | | | | | | concentrations, | on chemical, | | | | | | non-monotonical | note refers to | | | | | | pattern of death was | single test | | | | | | observed (i.e., more | result. A note | | | | | | deaths at lower | was added to | | | | | | concentrations than | the DSSTox SDF | | | | | | at higher | specifying the | | | | | | concentrations), or | number of | | | | | | exceptions were made | experiments | | | | | | in terms of pH or | (2-10) | | | | | | mixtures; | contributing to | | | | | | | calculation of | | | | | | If more than one | the geometric | | | | | | replicate bioassay, | mean LC50. | | | | | | number of | | | | | | | experiments | Replaces | | | | | | contributing to | **LC50NOTE** | | | | | | calculation of the | field name. | | | | | | geometric mean LC50 | | | | | | | is specified; | Replaces text | | | | | | | footnotes in | | | | | | If **LC50_Ratio** | **LC50_Ratio** | | | | | | was other than 24hr | field. | | | | | | to 96 hr LC50 ratio, | | | | | | | or was not computed, | | | | | | | explanation is | | | | | | | provided here. | | +-------+------+---+--------+----------------------+-----------------+ | # | def | # | Ba | Mode-of-action (MOA) | Field content | | # MOA | ined | # | seline | of chemical assigned | provided in | | | text | # | nar | by authors of study | Table 3 | | | | # | cosis; | based on joint toxic | addendum to | | | | | | action studies, | original EPA | | | | | Polar | establishment of | Fathead Minnow | | | | | nar | toxicodynamic | database, | | | | | cosis/ | profiles, and | referenced to | | | | | | behavioral and | MOA_NUM codes. | | | | | Ac | dose-response | The latter | | | | | rylate | interpretation of 96 | field and | | | | | and | hr LC50 tests. | codes, used by | | | | | ester | | the authors for | | | | | nar | Further description | a specific | | | | | cosis/ | of MOA categories is | application, | | | | | | provided in Main | were deemed | | | | | Unc | Citation (Russom et | unnecessary for | | | | | oupler | al., 1997). | inclusion in | | | | | of | | the DSSTox SDF. | | | | | oxi | | | | | | | dative | | Original | | | | | phos | | **MOA** field | | | | | phoryl | | entries in the | | | | | ation/ | | EPA Fathead | | | | | | | Minnow database | | | | | Ac | | (e.g., | | | | | etylch | | REACTIVE_1, | | | | | olines | | \_2, \_3, \_4) | | | | | terase | | corresponding | | | | | inhib | | to a single MOA | | | | | ition/ | | with different | | | | | | | levels of | | | | | Respi | | confidence | | | | | ratory | | (A,B,C,D) have | | | | | b | | been collapsed | | | | | locker | | into a single | | | | | or | | MOA field for | | | | | inhi | | the DSSTox SDF | | | | | bitor/ | | (e.g., | | | | | | | REACTIVE). The | | | | | Electr | | level of | | | | | ophile | | confidence is | | | | | or | | specified in a | | | | | pro | | newly added | | | | | electr | | field, | | | | | ophile | | **MO | | | | | react | | A_Confidence**. | | | | | ivity/ | | In addition, | | | | | | | some common MOA | | | | | C | | categories that | | | | | entral | | were listed | | | | | n | | separately for | | | | | ervous | | chemical | | | | | system | | classes were | | | | | s | | combined into | | | | | eizure | | the single MOA | | | | | or | | category and | | | | | stim | | symbols in MOA | | | | | ulant/ | | names were | | | | | | | eliminated: | | | | | Neur | | | | | | | odepre | | NARC_ACRYLATE = | | | | | ssant/ | | NARCOSIS III | | | | | | | | | | | | MOA | | NARCO_ESTER = | | | | | not | | NARCOSIS III | | | | | dete | | | | | | | rmined | | NARC_AMINE = | | | | | due to | | NARCOSIS II | | | | | insuff | | | | | | | icient | | NARCOSIS_I&II = | | | | | evi | | NARCOSIS I and | | | | | dence/ | | II | | | | | | | | | | | | MOA | | EMPTY = ND | | | | | not | | | | | | | dete | | EPAFHM_v4a | | | | | rmined | | eliminates | | | | | due to | | abbreviations | | | | | confl | | for MOA | | | | | icting | | Categories: | | | | | evi | | | | | | | dence/ | | > NARCOSIS I = | | | | | | | > Baseline | | | | | MOA | | > narcosis | | | | | not | | > | | | | | dete | | > NARCOSIS II = | | | | | rmined | | > Polar | | | | | either | | > narcosis | | | | | due to | | > | | | | | lack | | > NARCOSIS III | | | | | of | | > = Narcosis | | | | | to | | > III primarily | | | | | xicity | | > observed in | | | | | at | | > esters and | | | | | satu | | > some | | | | | ration | | > acrylates | | | | | or | | > | | | | | late | | > NARCOSIS I | | | | | test | | > and II = | | | | | r | | > Identified as | | | | | esult/ | | > both Narcosis | | | | | | | > I & II | | | | | | | > | | | | | | | > UNCOUPLER = | | | | | | | > Uncoupler of | | | | | | | > oxidative | | | | | | | > | | | | | | | phosphorylation | | | | | | | > | | | | | | | > ACHE = | | | | | | | > Acety | | | | | | | lcholinesterase | | | | | | | > inhibition | | | | | | | > | | | | | | | > BLOCKER = | | | | | | | > Respiratory | | | | | | | > bl | | | | | | | ocker/inhibitor | | | | | | | > | | | | | | | > REACTIVE = | | | | | | | > Electrophile/ | | | | | | | proelectrophile | | | | | | | > reactivity | | | | | | | > | | | | | | | > NEUROTOX = | | | | | | | > Central | | | | | | | > nervous | | | | | | | > system | | | | | | | > se | | | | | | | izure/stimulant | | | | | | | > | | | | | | | > NEURODEP = | | | | | | | > | | | | | | | Neurodepressant | | | | | | | > | | | | | | | > UNSURE = MOA | | | | | | | > could not be | | | | | | | > determined - | | | | | | | > insufficient | | | | | | | > evidence | | | | | | | > | | | | | | | > MIXED = MOA | | | | | | | > could not be | | | | | | | > determined - | | | | | | | > conflicting | | | | | | | > evidence | | | | | | | > | | | | | | | > ND = MOA was | | | | | | | > not | | | | | | | > determined | | | | | | | > either | | | | | | | > because the | | | | | | | > chemical was | | | | | | | > not toxic at | | | | | | | > saturation or | | | | | | | > the test | | | | | | | > result was | | | | | | | > obtained | | | | | | | > after the MOA | | | | | | | > analysis was | | | | | | | > conducted. | +-------+------+---+--------+----------------------+-----------------+ | ## | def | # | High/ | Level of confidence | Field added to | | MOA_ | ined | # | | placed in **MOA** | DSSTox SDF to | | Confi | text | # | Hi | classification based | accommodate | | dence | | # | gh-Mod | on available | information | | | | | erate/ | evidence: | that had | | | | | | | previously been | | | | | Mod | > High = | combined into | | | | | erate/ | > **Fish | MOA field in | | | | | | ActuteToxSyndrome**, | original EPA | | | | | Low/ | > joint toxicity | Fathead Minnow | | | | | | > ( | database, e.g.: | | | | | #### | **MOA_MixtureTest**) | | | | | | | > determination | MOA=REACTIVE_1 | | | | | | > and/or | converts to | | | | | | > chemical-specific | MOA=REACTIVE, | | | | | | > literature | MOA_Confidence | | | | | | > confirmation; | =A | | | | | | > | | | | | | | > High-Moderate = | MOA=REACTIVE_2 | | | | | | > * | converts to | | | | | | *FishBehaviorTest**, | MOA=REACTIVE, | | | | | | > **LC50_Ratio**, | M | | | | | | > and | OA_Confidence=B | | | | | | > **E | | | | | | | xcessToxicityIndex** | etc. | | | | | | > value all | | | | | | | > consistent with | Previous | | | | | | > structurally | ranking A-D | | | | | | > similar chemical | replaced with | | | | | | > with MOA | High (A), | | | | | | > assignment and | High-Moderate | | | | | | > "High" level | (B), Moderate | | | | | | > confidence; also | (C), Low (D). | | | | | | > if **LC50_Ratio** | | | | | | | > and **TOXINDEX** | | | | | | | > consistent with | | | | | | | > prototypical | | | | | | | > compound in MOA | | | | | | | > group; | | | | | | | > | | | | | | | > Moderate = less | | | | | | | > than 3 | | | | | | | > "High-Moderate" | | | | | | | > components, but | | | | | | | > additional | | | | | | | > supporting | | | | | | | > information | | | | | | | > available (such as | | | | | | | > co | | | | | | | ncentration/response | | | | | | | > slope, behavior | | | | | | | > comments, chemical | | | | | | | > similarity to | | | | | | | > prototypical | | | | | | | > compound); | | | | | | | > | | | | | | | > Low = no | | | | | | | > confidence in MOA | | | | | | | > classification due | | | | | | | > to insufficient | | | | | | | > data; | | | | | | | > | | | | | | | > *"blank"* or null | | | | | | | > entry indicates no | | | | | | | > MOA assigned hence | | | | | | | > no level of | | | | | | | > confidence listed. | | +-------+------+---+--------+----------------------+-----------------+ | ## M | def | # | Ba | If a mixture test | Replaces | | OA_Mi | ined | # | seline | was conducted and | MIXINDEX field | | xture | text | # | nar | the chemical was | in original EPA | | | | # | cosis; | additive with a | Fathead Minnow | | ## | | | | chemical of known | database, with | | Test | | | Polar | **MOA** as described | numerical index | | | | | nar | by Broderius et al. | entry replaced | | * | | | cosis/ | \[4\], an **MOA** | by the | | **(no | | | | was assigned (see | corresponding | | space | | | Unc | MOA field | **MOA** text as | | s)*** | | | oupler | definitions); | follows: | | | | | of | | | | | | | oxi | *"blank"* or null | > 0= *blank* | | | | | dative | entry indicates no | > (no mixture | | | | | phos | mixture test was | > test) | | | | | phoryl | performed. | > | | | | | ation/ | | > 1= NARCOSIS I | | | | | | | > | | | | | Respi | | > 2 = NARCOSIS | | | | | ratory | | > II | | | | | b | | > | | | | | locker | | > 12 = NARCOSIS | | | | | or | | > I and II | | | | | inhi | | > | | | | | bitor/ | | > 3= UNCOUPLER | | | | | | | > | | | | | | | > 4= BLOCKER | | | | | | | | | | | | | | EPAFHM_v4a | | | | | | | eliminates | | | | | | | abbreviations | | | | | | | for MOA | | | | | | | Categories: | | | | | | | | | | | | | | > NARCOSIS I = | | | | | | | > Baseline | | | | | | | > narcosis | | | | | | | > | | | | | | | > NARCOSIS II = | | | | | | | > Polar | | | | | | | > narcosis | | | | | | | > | | | | | | | > NARCOSIS I | | | | | | | > and II = | | | | | | | > Identified as | | | | | | | > both Narcosis | | | | | | | > I & II | | | | | | | > | | | | | | | > UNCOUPLER = | | | | | | | > Uncoupler of | | | | | | | > oxidative | | | | | | | > | | | | | | | phosphorylation | | | | | | | > | | | | | | | > BLOCKER = | | | | | | | > Respiratory | | | | | | | > bl | | | | | | | ocker/inhibitor | +-------+------+---+--------+----------------------+-----------------+ | ## | num | # | \# | Ratio of the | | | Exce | eric | # | | predicted toxicity | | | ssTox | | # | | of the compound | | | icity | | # | | using Baseline | | | | | | | narcosis (Narcosis | | | ## | | | | I) QSAR equation of | | | Index | | | | Veith et al. \[5\]: | | | | | | | | | | * | | | | > Log molar LC50 = | | | **(no | | | | > -0.94 log*P* + | | | space | | | | > log(0.000068\**P* | | | s)*** | | | | > +1) -- 1.25 | | | | | | | | | | | | | | (*P*=octanol/water | | | | | | | partition coeff), | | | | | | | divided by the | | | | | | | actual LC50, used as | | | | | | | a measure of excess | | | | | | | toxicity. Values | | | | | | | greater than 10 are | | | | | | | considered | | | | | | | indicative of | | | | | | | compounds not acting | | | | | | | by Baseline narcosis | | | | | | | (Narcosis I) mode of | | | | | | | action. Contributes | | | | | | | to determination of | | | | | | | level of confidence | | | | | | | of MOA assignment. | | +-------+------+---+--------+----------------------+-----------------+ | ## Fi | def | # | Ba | If a fish acute | MOA codes used | | shAcu | ined | # | seline | toxicity syndrome | in the original | | teTox | text | # | nar | (FATS) test was | EPA Fathead | | | | # | cosis/ | conducted using | Minnow database | | # | | | | rainbow trout as | field have been | | # Syn | | | Polar | described by McKim | replaced with | | drome | | | nar | et al. \[6,7\], the | the | | | | | cosis/ | MOA that was | corresponding | | * | | | | determined from that | MOA name in | | **(no | | | Unc | test is listed. FATS | DSSTox SDF: | | space | | | oupler | MOA assignments | | | s)*** | | | of | consistent with MOA | > N-1 = | | | | | oxi | assignment of | > NARCOSIS I | | | | | dative | chemical from other | > | | | | | phos | indicators for | > N-2 = | | | | | phoryl | fathead minnow | > NARCOSIS II | | | | | ation/ | provide the highest | > | | | | | | level of confidence | > UNC = | | | | | Respi | (A) to the chemical | > UNCOUPLER | | | | | ratory | MOA assignment (see | > | | | | | b | MOA field | > RBK = | | | | | locker | definitions); | > (Respiratory) | | | | | or | | > BLOCKER | | | | | inh | *"blank"* or null | > | | | | | ibitor | entry indicates no | > IRR = | | | | | / | FATS test was | > (Irritants) | | | | | | performed. | > REACTIVE | | | | | Electr | | > | | | | | ophile | | > ACH = ACHE | | | | | or | | | | | | | pro | | EPAFHM_v4a | | | | | electr | | eliminates | | | | | ophile | | abbreviations | | | | | reac | | for MOA | | | | | tivity | | Categories: | | | | | / | | | | | | | | | > NARCOSIS I = | | | | | Ac | | > Baseline | | | | | etylch | | > narcosis | | | | | olines | | > | | | | | terase | | > NARCOSIS II = | | | | | inhib | | > Polar | | | | | ition/ | | > narcosis | | | | | | | > | | | | | * | | > NARCOSIS III | | | | | blank* | | > = Narcosis | | | | | | | > III primarily | | | | | | | > observed in | | | | | | | > esters and | | | | | | | > some | | | | | | | > acrylates | | | | | | | > | | | | | | | > NARCOSIS I | | | | | | | > and II = | | | | | | | > Identified as | | | | | | | > both Narcosis | | | | | | | > I & II | | | | | | | > | | | | | | | > UNCOUPLER = | | | | | | | > Uncoupler of | | | | | | | > oxidative | | | | | | | > | | | | | | | phosphorylation | | | | | | | > | | | | | | | > ACHE = | | | | | | | > Acety | | | | | | | lcholinesterase | | | | | | | > inhibition | | | | | | | > | | | | | | | > BLOCKER = | | | | | | | > Respiratory | | | | | | | > bl | | | | | | | ocker/inhibitor | | | | | | | > | | | | | | | > REACTIVE = | | | | | | | > Electrophile/ | | | | | | | proelectrophile | | | | | | | > reactivity | | | | | | | > | | | | | | | > NEUROTOX = | | | | | | | > Central | | | | | | | > nervous | | | | | | | > system | | | | | | | > se | | | | | | | izure/stimulant | | | | | | | > | | | | | | | > NEURODEP = | | | | | | | > | | | | | | | Neurodepressant | | | | | | | > | | | | | | | > UNSURE = MOA | | | | | | | > could not be | | | | | | | > determined - | | | | | | | > insufficient | | | | | | | > evidence | | | | | | | > | | | | | | | > MIXED = MOA | | | | | | | > could not be | | | | | | | > determined - | | | | | | | > conflicting | | | | | | | > evidence | | | | | | | > | | | | | | | > ND = MOA was | | | | | | | > not | | | | | | | > determined | | | | | | | > either | | | | | | | > because the | | | | | | | > chemical was | | | | | | | > not toxic at | | | | | | | > saturation or | | | | | | | > the test | | | | | | | > result was | | | | | | | > obtained | | | | | | | > after the MOA | | | | | | | > analysis was | | | | | | | > conducted. | +-------+------+---+--------+----------------------+-----------------+ | ## F | def | # | TYPE I | Behavior signs of | Hyphens used in | | ishBe | ined | # | Dep | stress were | original | | havio | text | # | ressed | identified for | database have | | rTest | | # | motor | fathead minnows | been | | | | | act | exposed to toxicants | eliminated, | | * | | | ivity/ | and were used to | e.g., | | **(no | | | | classify chemicals | | | space | | | TYPE | into three | TYPE I-ID | | s)*** | | | II | behavioral syndromes | converts to | | | | | Hypera | as described by | TYPE I ID | | | | | ctive/ | Drummond and Russom | | | | | | | \[8\]. These were | Abbreviations | | | | | TYPE | used to determine | eliminated in | | | | | III | level of confidence | v4a: | | | | | Spont | of MOA assignment: | | | | | | aneous | | > CONFLICT = | | | | | motor | > TYPE I = depressed | > conflicting | | | | | act | > locomotor activity | > information | | | | | ivity/ | > with little or no | | | | | | | > response to | EL = refers to | | | | | Confl | > outside stimuli, | tests conducted | | | | | icting | > darkened body | in electronic | | | | | inform | > color, most fish | diluter systems | | | | | ation; | > dead by 24 h | | | | | | | > | ID = | | | | | Tested | > TYPE II = | insufficient | | | | | in | > hyperactive, | data | | | | | elec | > usually | | | | | | tronic | > overreactive to | PHPROB = | | | | | d | > outside stimuli, | indicates pH | | | | | iluter | > death typically | problem with | | | | | s | > within several | study | | | | | ystem; | > days of exposure | | | | | | | > | | | | | | Insuff | > TYPE III = | | | | | | icient | > spontaneous | | | | | | data; | > locomotor | | | | | | | > activity, high | | | | | | pH | > incidence of | | | | | | pr | > convulsion, | | | | | | oblem/ | > spasms, tetany, | | | | | | | > scoliosis, | | | | | | | > lordosis, and/or | | | | | | | > hemorrhaging in | | | | | | | > vertebral column | | | | | | | > | | | | | | | > Additional notes | | | | | | | > provided to | | | | | | | > indicate problems | | | | | | | > in determining | | | | | | | > behavioral | | | | | | | > syndrome; | | | | | | | > | | | | | | | > *"blank"* or null | | | | | | | > entry indicates no | | | | | | | > checklist | | | | | | | > completed for | | | | | | | > bioassay. | | +-------+------+---+--------+----------------------+-----------------+ | ## N | memo | # | *Text* | Field used to | EPAFHM-specific | | ote_E | | # | | provide | information | | PAFHM | | # | | supplementary | pertaining to | | | | # | | Source-specific | the chemical | | | | | | information | record | | | | | | pertaining to the | previously | | | | | | chemical and | included in | | | | | | toxicity fields. | * | | | | | | | *ChemicalNote** | | | | | | | field has been | | | | | | | moved to this | | | | | | | field. | +-------+------+---+--------+----------------------+-----------------+ | | | | | | | +-------+------+---+--------+----------------------+-----------------+ **Additional EPAFHM references:** 1\. Anderson, E., G.D. Veith, and D. Weininger (1987) SMILES: A line notation and computerized interpreter for chemical structure. EPA/600/M-87-021. Technical Report. U.S. Environmental Protection Agency, Environmental Research Laboratory, Duluth, MN, USA. 2\. CLOGP™ program version 3.4 and STARLIST database, respectively, within the UDRIVE system version 3.53, 1988, from Pomona College Medicinal Chemistry Project, Claremont, CA. 3\. Hamilton, M.A., R.C. Russo, and R.V. Thurston (1977) Trimmed Spearman-Karber method for estimating median lethal concentrations in toxicity bioassays. *Environ. Sci. & Technol.* 11: 714-719. Correction 12: 417. 4\. Broderius, S., M. Kahl, and M. Hoglund (1995) Use of Joint Toxic Response to define the primary mode of toxic action for diverse industrial organic chemicals. *Environ Toxicol Chem* 14: 1591-1605. 5\. Veith, G. D., D.J. Call, and L.T. Brooke (1983) Structure-toxicity relationships for the fathead minnow, *Pimephales promelas*: narcotic industrial chemicals. *Can. J. Fish. Aquat. Sci.* 40: 743-748. 6\. McKim, J.M., P.K. Schmieder, R.W. Carlson, E.P. Hunt, and G.J. Niemi (1987) Use of respiratory-cardiovascular responses of rainbow trout (*Salmo gairdneri*) in identifying Fish Acute Toxicity Syndromes. Part I. Pentachlorophenol, 2,4-dinitrophenol, tricaine methanesulfonate, and 1-octanol. *Environ. Toxicol. Chem.* 6: 295-312. 7\. McKim, J.M., P.K. Schmieder, G.J. Niemi, R.W. Carlson, and T.R. Henry (1987) Use of respiratory-cardiovascular responses of rainbow trout (*Salmo gairdneri*) in identifying Fish Acute Toxicity Syndromes. Part II. Malathion, carbaryl, acrolein, and benzaldehyde. *Environ. Toxicol. Chem.* 6: 313-328. 8\. Drummond, R.A. and C.L. Russom (1990) Behavioral toxicity syndromes: A promising tool for assessing toxicity mechanisms in juvenile fathead minnows. *Environ. Toxicol. Chem.* 9: 37-46.

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Wafer Probe Test Specifications for the TGL98.V2 Chip (revised 2/22/99 onwards) Overview: The purpose of this document is to outline the wafer probe testing of the TGL98.V2 chip. The TGL98.V2 is a mixed signal chip that has 16 channels of preamplifier-discriminator channels and associated on-chip digital functions for various adjusts and enables. The main functional units of the chip to be tested are the preamplifier-discriminator block, decoder, serial registers, D/A converter and bias values. The steps to test the chip are devised to verify and isolate a known good die by eliminating a bad die as soon as it is detected. In other words, the progressive test steps need take place only if a die passes the previous test. The testing would do the following in order: 1. Determine the quiescent current drawn at the 3 sets of power supply pins. 2. Determine the bias values at the bias reference pins which will indicate the DAC output values as well as the resistor bias values. 3. Clock in serial data to the 3 sets of serial registers and read the data back which will test the decoder and the serial registers 4. Digitally pulse the on-chip charge-pulser for preamplifier/discriminator channels and observe the output current pulse as well as the reference current output. This tests the preamplifier-discriminator block. Special instructions for the testing: The scope of the entire testing includes 1. Design and fabrication of all probing fixtures associated with the chip interface at the wafer probe to the tester. 2. Programming of the tester in accordance with the test specifications 3. Execution of the tests 4. Inking out of "bad dies" 5. Standard dicing of the wafer after placing on sticky film 6. Visual inspection of the die after dicing and 7. Packaging of the good die to Lund (Sweden). The probe card must be designed and fabricated in accordance to the test circuit shown in FIGURE 1. The separate supplies to power supply sets V1, V2 and V3 must be bypassed by capacitors placed as close to the probes as possible. The grounds are common. The bare die is very sensitive to light and care must be taken to eliminate spurious signal pickup at the input pads due to the presence of 60Hz. and other stray fields. The die will be on 6" diameter wafers from Orbit's 1.2u analog CMOS process. The price quotation should be for testing 2 batches of wafers. A first, smaller batch of 5 wafers (4500 chips) and a second batch of 37 wafers (33,300 chips) which will need to be tested in about 6 weeks to 3 months from the first batch. There will be about 900 dies per wafer. Tested wafers will be standard diced. As soon as any die fails it will be identified as defective and any remaining tests for that die can be suspended. Bad die will also be returned to Lund, Sweden, but has to be inked to distinguish it from a good die. Details of the testing: The pad diagram of TGL98.V2 chip is given in Appendix 1 along with a table describing the pin details in Appendix 2. The numbering of the pins starts at the SW corner and proceeds in a clockwise direction. The test circuit, which is to be fabricated as the probe card is given in FIGURE 1. All inputs Vin(x) are left open with no connection for these tests. Iout(x) outputs are 70uA current pulses through 8.2k load resistor (574mV (peak). This means a nominal signal of pulse height \~400 mV (+/- 20%) and a pulse width of 150 ns (+/- 20%) occurring about 100 ns after the test pulse has been issued. All bias pins are to be probed and their voltages measured. The probe on AO will help to setup the test properly. The serial decoder/addressing scheme of the TGL98.V2 is described in Appendix 3. The data register bits are defined in Appendix 4. Logic levels are 5V CMOS. The pad dimensions of the TGL98.V2 chip (fabricated in 1.2u ORBIT process as a SMALL chip) is given in Appendix 5. The control pins and their functions are given briefly in Table 1. # Table 1. Control signal pins and their function +----------+----------------+-------+----------------------------------+ | Pad | Pin Name | Type | Functional description | +----------+----------------+-------+----------------------------------+ | OS(30) | Operate | input | Mode bit: Used to define the | | | (bar)/Serial | | shared function pins. | | | mode | | | | | | | OS = 5V =\> serial data mode; | | | | | | | | | | OS = 0V =\> operate chip mode. | +----------+----------------+-------+----------------------------------+ | SAD (31) | Serial | input | When OS=5V: SAD = 5V =\> address | | | Address/ | | register select; and SAD = 0V | | | Data(bar) mode | | =\> control register select; | | | | | | | | | | When OS = 0V: SAD = don't care. | +----------+----------------+-------+----------------------------------+ | R | Reset Disable | input | RD = (RD_SC).OS(bar); analog | | D_SC(33) | / | | reset | | | | | | | | Serial Clock | | SC = (RD_SC).OS; serial clock | | | shared | | | | | function pin | | | +----------+----------------+-------+----------------------------------+ | TP_SL | Test pulse / | input | TP = (TP_SL).OS(bar); test | | (34) | Serial latch | | pulser | | | shared | | | | | function pin | | SL = (TP_SL).OS.; serial latch | +----------+----------------+-------+----------------------------------+ | SI(35) | Serial Input | input | Serial data input pin. | +----------+----------------+-------+----------------------------------+ | SO(36) | Serial Output | o | Serial data output pin -- active | | | | utput | when RW bit =1, SAD=0 | | | | | | | | | | Else tristated. | +----------+----------------+-------+----------------------------------+ | SOE | Transceiver | o | SOE = 5V =\> read-back data from | | | direction | utput | chip. | | $32$ | select | | | | | | | Internally generated chip signal | | | | | | | | | | Else, tristated | +----------+----------------+-------+----------------------------------+ **Test 1:** 1. Quiescent Current Measurement Test The chip requires 3 independent power supplies of 5V DC and a reference voltage of 2.5V to function. Bypass capacitors of shown value need to be placed as close as possible to the chip between probe card needle and ground. Table 2 gives the criteria for the TGL98.V2 power pads and performance. The values in the table are those after the power-up state. # Table 2: Power pads and performance --------- -------- --------- -------------- ------------ ----------------- Pad Supply Bypass Function Current Acceptable margin drawn 20 and 76 5V dc 4.7uF ; (V1)Analog1 4.7mA 4.0mA -- 5.5mA supply 21 and 75 0 Analog1 ground 24 and 70 5V dc 4.7uF; (V2)Analog2 2.8mA 2.0mA -- 3.3mA supply 25 and 69 0 Analog2 ground 37 and 59 5V dc 4.7uF; (V3)Digital 0.28mA 0.2mA -- 0.5mA supply 38 and 58 0 Digital ground 72 2.5V dc 4.7uF (VM)Midpoint [4.7 [+/- 1uA]{.mark} ref. uA]{.mark} --------- -------- --------- -------------- ------------ ----------------- If the current drawn at all pads are within the acceptable margin proceed to the next test Note 1: All grounds are common. Note 2: The input signals at the input pins SI, RD_SC, TP_SL, SAD and OS should be steady 0v for Test1 and Test2. ![](media/image1.wmf) **TEST 2:** 2. Testing the Bias pin values: > The voltages at the bias reference pins are to be measured just after > the power-up state. If any one of these values is 0V or 5V the chip is > deemed to fail at this point. The bias pads that need to be probed are > given in Table 3. # Table 3: Bias pads and performance +-----+----------------------------+------------+---------------------+ | Pad | Function | Nominal | Acceptable margin | | | | Value | | | | | | Min - Max | +-----+----------------------------+------------+---------------------+ | 40 | OS_bias -- oneshot bias | [3.2 | [2.56 V -- 3.84 | | | | V]{.mark} | V]{.mark} | +-----+----------------------------+------------+---------------------+ | 41 | OR -- Output reference | 150mV | 82mV -- 240mV | | | current (\~20uA) thru 8.2K | | | +-----+----------------------------+------------+---------------------+ | 68 | DA12_bias | 1.17 V | 0..94 V -- 1.4 V | +-----+----------------------------+------------+---------------------+ | 71 | S2_bias | 3.15 V | 2.5V -- 3.8V | +-----+----------------------------+------------+---------------------+ | 74 | S1_bias | 1.8 V | 1.2V -- 2.5 V | +-----+----------------------------+------------+---------------------+ If the voltages at all pads are within the acceptable margin proceed to the next test Note: The input signals at the input pins SI, RD_SC, TP_SL, SAD and OS should be steady 0v for Test1 and Test2. **TEST 3: Serial and Address Data Communication Test** Note: The serial register values are all to be loaded lsb (least significant bit) in first as indicated in the timing diagrams when writing to any register in TGL98.V2. **1. Select serial control mode for this test by setting serial mode pin OS = 5V** Note 1: Binary patterns refer '1' to CMOS Logic 5V, '0' to CMOS Logic 0V Note 2: The clock frequency is 10 MHz and is applied to RD_SC pin. Note 3: The data is shifted in on the rising edge of the clock when you write to a register Note 4: The data is shifted out on the rising edge of the clock when you read-back from a register Note 5: Read-back cannot be made with the broadcast bit A6 of address register set to 1. So, read-back should always be done with an address match. **TEST 3a: Write to and Read back CR1 even bits (address match test)** Refer to timing diagram in FIGURE 3a for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR1) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0010010101 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. ```{=html}  ``` 2. Write '1's to even bits of the control register CR1 ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 010b to load CR1 even bits with '1'. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- > c\. Latch the data register by 5V -\> 0V transition on TP_SL line > after serial data is clocked. B. DATA READ-BACK PROCEDURE: ```{=html}  ``` 1. Load address register to select control register address (CR1) and mode (read-back) ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 1010 0101 01 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back '1's from the even bits of control register CR1 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue one clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 18 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check the data shifted out on the rising edge of the clock via the SO pin. > It should be 0101 0101 0101 0101 010b **TEST 3b: Write to and Read back CR1 odd bits (address match test)** Refer to timing diagram in FIGURE 3b for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR1) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0010010101 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` 2. Write '1's to odd bits of control register CR1 ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 101b to load CR1 odd bits with '1'. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` B. DATA READ-BACK PROCEDURE: ```{=html}  ``` 1. Load address register to select control register address (CR1) and mode (read-back) ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 1010 0101 01 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 0 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. 2\. Read back 1's from odd bits of control register CR1 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue one clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 18 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 1010 101b **TEST 3c Write to and Read back CR2 even bits; A6=1 (broadcast mode test- no address match)** Refer to timing diagram in FIGURE 3c for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` 2. Write '1's to even bits of CR2 register ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 010 b to load CR2 odd bits with '1'. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data is clocked. ```{=html}  ``` B. DATA READ-BACK PROCEDURE: ```{=html}  ``` 1. Load address register to select control register address (CR2) and mode (read-back) ```{=html}  ``` 1. a\. Select address mode by setting SAD = 5V ```{=html}  ``` b. Clock in 1100 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 0 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back 1's from even bits of control register CR2 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. ```{=html}  ``` c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 14 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 0101 0101 0101 010 b **TEST 3d: Write to and Read back CR2 odd bits; A6=1 (broadcast mode test- no address match)** Refer to timing diagram in FIGURE 3d for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b to the address register. ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` 2. Write the control word to the control register (CR2) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 101 b to load CR2 odd bits with '1'. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html}  ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR2) and mode (read-back) a. Select address mode by setting SAD = 5V for serial data transfer to address register through SI pad b. Clock in 1100 0101 01b pattern to the address register. ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 0 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after data is clocked in. 2\. Read back 1's from odd bits of control register CR2 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 14 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 101 b **TEST 3e: Write to and Read back CR3 even bits; A6=1 (broadcast mode test- no address match)** Refer to timing diagram in FIGURE 3e for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` 3. Write the control word to the control register (CR3) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 0101 0101 010 b to load 1's in CR3 even bits. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html}  ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (read-back) a. Select address mode by setting SAD = 5V b. Clock in 1110 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read 1's from even bits of control register (CR3) a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 26 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check data shifted out on the rising edge of the clock via the SO pin. > It should read 0101 0101 0101 0101 0101 0101 010 b **TEST 3f: Write to and Read back CR3 odd bits; A6=1 (broadcast mode test- no address match)** Refer to timing diagram in FIGURE 3f for the following test steps. A. DATA WRITE PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (write) a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. ```{=html}  ``` 4. Write the control word to the control register CR3 ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 1010 1010 101 b to load 1's in CR3 odd bits. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after serial data is clocked. ```{=html}  ``` B. DATA READ-BACK PROCEDURE: 1\. Load address register to select control register address (CR3) and mode (read-back) a. Select address mode by setting SAD = 5V b. Clock in 1110 0101 01b pattern to the address register ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 1 1 1 0 0 1 0 1 0 1 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after serial data is clocked in. 2\. Read back 1's from odd bits of control register CR3 a. Select data mode by setting SAD =0V b. Issue a pulse 0V -\> 5V -\> 0V through TP_SL pin, after SAD changes state to 0V. c. Issue a single clock pulse when TP_SL is 5V. This will latch back data to be shifted out. d. Check SOE pin also. After SAD changes to 0v it should change from a tristated condition to 5V. e. Issue 26 clock pulses after the latch-back operation and after TP_SL has returned to 0V. f. Check the data shifted out on the rising edge of the clock via the SO pin. > It should read 1010 1010 1010 1010 1010 1010 101 b **TEST 4:** **Operating mode Test for Amplitude, Attenuator** Preamplifier-Discriminator testing for 8 conditions: 1. **2fC(DAC=2) input charge, 3 fC threshold (THR=50), Att=1; four channels pulsed at a time; all channels enabled** > 4.1.a. channels 1-4 test pulsed 2. 4.1.b.channels 5-8 test pulsed 4.1.c.channels 9-12 test pulsed 4.1.d.channels 13-16 test pulsed 2. **5 fC (DAC=7)input charge, 3 fC threshold(THR=50), Att=1; four channels pulsed at a time; all channels enabled** > 4.2.a. channels 1-4 test pulsed > > 4.2.b. channels 5-8 test pulsed > > 4.2.c. channels 9-12 test pulsed > > 4.2.d. channels 13-16 test pulsed 3. **5 fC (DAC=6)input charge, 7 fC threshold(THR=10), Att=1; four channels pulsed at a time; all channels enabled** > 4.3.a. channels 1-4 test pulsed > > 4.3.b. channels 5-8 test pulsed > > 4.3.c. channels 9-12 test pulsed > > 4.3.d. channels 13-16 test pulsed 4. **9fC (DAC=10)input charge, 7 fC threshold (THR=10), Att=1; four channels pulsed at a time; all channels enabled** > 4.4.a. channels 1-4 test pulsed > > 4.4.b. channels 5-8 test pulsed > > 4.4.c. channels 9-12 test pulsed > > 4.4.d. channels 13-16 test pulsed 5. **All channels at 12fC (DAC=15) input charge, 15 fC threshold (THR=31), Att=1/3;all channels pulsed; all channels enabled** 6. **All channels at 19fC (DAC=24) input charge, 15 fC threshold(THR=31), Att=1/3;all channels pulsed; all channels enabled** 7. **All channels at 33 fC (DAC=42)input charge, 44 fC threshold(THR=31), Att=1/9;all channels pulsed; all channels enabled** 8. **All channels at 58 fC (DAC=73) input charge, 44 fC threshold(THR=31), Att=1/9;all channels pulsed; all channels enabled** The tests 4.1 to 4.8 will all have same value in CR3 ( all channels enabled, mux off, Vfb=1.5v(DAC=30) ) The sequence for this will be 1. Set serial mode. 2. Set SAD and TP_SL pins as needed 3. Load address register to write to CR3 4. Load serial control registers CR3 -- for all channels enabled, mux off, Vfb = 1.5V (DAC=30) Then for tests 4.1 to 4.4 first load CR2 with appropriate value for that test 5. Set serial mode. 6. Set SAD and TP_SL pins as needed 7. Load address register to write to CR2 8. Load serial control registers CR2 with appropriate values of threshold and test pulse values For each test 4.1 through 4.4, load appropriate values into CR1 to pulse channels 1-4, then 5-8, then 9-12 and 13-16. After each load of CR1 generate a test pulse and observe the outputs. 1. Set serial mode 2. Load address register to write to CR1 3. load serial control registers CR1 to pulse channels 1-4, steepest slope 4. Setup operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16. Repeat steps 1-7 above changing only step 3 for channels 5-8, 9-12, and 13-16 successively. The sequence for tests 4.5 to 4.8 will be (CR3 is the same as loaded earlier). Now CR1 will be the same for these 4 tests (i.e. all channels pulsed and steepest slope) 1. Set serial mode. 2. Set SAD and TP_SL pins as needed 3. Load address register to write to CR1 4. Load serial control registers CR1 with all channels pulsed Then for each test 4.5 through 4.8, load appropriate values into CR2 5. Set serial mode 6. Load address register to write to CR2 7. load serial control registers CR2 with appropriate threshold and test pulse values 8. Setup operating mode 9. Issue reset 10. Issue test pulse 11. Observe the output at pads iout1 ... iout16. ***Note:** The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat-top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* **Test 4 :** For all tests 4.1 to 4.8 (CR3 is same)All channels enabled; mux off; Vfb=1.5v equiv(DAC=30) (Common for all tests 4.1 through 4.8) Refer to the timing diagram in FIGURE 4.0 for this part of the test. 1. Set up serial mode > Set serial mode pin OS = 5V 2. Set SAD pin =5V; set TP_SL pin = 5V ```{=html}  ``` 3. Load address register to write to CR3 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR3 -- for all channels enabled, mux disabled; Vfb = 1.5v ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 0000 1000 0011 110 b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>1</td> <td>1</td> <td>1</td> <td>0</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.1: All channels at 2 fC (DAC=2) input charge, 3 fC (DAC=50)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.1 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1; threshold = 3fC; pulse amplitude = 2fC ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 0000 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 0 0 0 0 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.1a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.a for this test. 3. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.1b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.b for this test. 9. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.1c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.c for this test. 15. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > No outputs must fire. Test 4.1d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.1.d for this test. 21. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.2: All channels at 5 fC (DAC=7)input charge, 3 fC (DAC=50)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.2 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1; threshold = 3fC; pulse amplitude = 5fC ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 0000 111 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 0 0 0 0 1 1 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.2a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.a for this test. 3. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 1-4 must fire. Test 4.2b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.b for this test. 9. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 5-8must fire. Test 4.2.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.c for this test. 15. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > Only outputs 9-12must fire. Test 4.2.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.2.d for this test. 21. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 13-16 must fire. Test 4.3: All channels at 5 fC (DAC=6) input charge, 7 fC (DAC=10)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.3 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1; threshold = 7fC(DAC=10); pulse amplitude = 5fC(DAC=6) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1010 0000 110 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 0 0 1 0 1 0 0 0 0 0 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.3.a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.a for this test. 3. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.3b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.b for this test. 9. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.3.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.c for this test. 15. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > No outputs must fire. Test 4.3.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.3.d for this test. 21. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.4: All channels at 9 fC (DAC=10)input charge, 7 fC (DAC=10)threshold, Att=1 Refer to the Timing diagram in FIGURE 4.4 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1; threshold = 7fC(DAC=10); pulse amplitude = 9fC(DAC=10) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1010 0001 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 0 0 1 0 1 0 0 0 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4.4a: Channels 1-4 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.a for this test. 3. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR1 -- channels 1-4 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 0000 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 5. Change OS pin to 0V for operating mode. 6. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 7. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 8. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 1-4 must fire. Test 4.4b: Channels 5-8 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.b for this test. 9. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 10. load serial control registers CR1 -- channels 5-8 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 1111 0000 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 11. Change OS pin to 0V for operating mode. 12. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 13. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 14. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 5-8must fire. Test 4.4.c: Channels 9-12 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.c for this test. 15. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 16. load serial control registers CR1 -- channels 9-12 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 1111 0000 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 17. Change OS pin to 0V for operating mode. 18. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 19. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 20. Observe the output at pads iout1 ... iout16. > Only outputs 9-12must fire. Test 4.4.d: Channels 13-16 pulsed; steepest slope Refer to the Timing diagram in FIGURE 4.4.d for this test. 21. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 22. load serial control registers CR1 -- channels 13-16 pulsed ; steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 23. Change OS pin to 0V for operating mode. 24. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 25. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 26. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only outputs 13-16 must fire. Test 4. 5to8: All channels pulsed; steepest leakage slope; all channels enabled, mux off, Vfb=1.5v (DAC=30) (CR1 values common to tests 4.5 through 4.8 ) Refer to the Timing diagram in FIGURE 4.5to8 for this test. (CR3 is already loaded with the right value) 1. Set up serial mode > Set serial mode pin OS = 5V 2. Set SAD pin =5V; set TP_SL pin = 5V 3. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 4. load serial control registers CR1 -- for all channels pulsed, steepest leakage slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 1111 1111 1111 000 b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. Test 4. 5: All channels at 12fC input charge (DAC=15), 15 fC threshold (DAC=31), Att=1/3 (01) Refer to the Timing diagram in FIGURE 4.5 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1/3; threshold = 15fC; pulse amplitude = 12fC ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 1111 0001 111 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 1 1 1 1 0 0 0 1 1 1 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.6: All channels at 19fC (DAC=24) input charge, 15 fC threshold (DAC=31), Att=1/3(01);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.6 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1/3; threshold = 15fC; pulse amplitude = 19fC ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 1111 0011 000 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 1 0 1 1 1 1 1 0 0 1 1 0 0 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > All outputs must fire. Test 4.7: All channels at 33fC (DAC=42) input charge, 44 fC threshold (DAC=31), Att=1/9 (10b);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.7 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1/9; threshold = 44fC(DAC=31); pulse amplitude = 33fC(DAC=42) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1001 1111 0101 010 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 0 1 1 1 1 1 0 1 0 1 0 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > No outputs must fire. Test 4.8: All channels at 58fC (DAC=73)input charge, 44 fC threshold (DAC=31), Att=1/9(10b);all channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 4.8 for this test. 1. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR2 -- for att=1/9; threshold = 44fC(DAC=31); pulse amplitude = 58fC(DAC=73) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1001 1111 1001 001 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 1 0 0 1 1 1 1 1 1 0 0 1 0 0 1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 4. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 5. Observe the output at pads iout1 ... iout16 (42 -- 57). > All outputs must fire. **TEST 5:** **Operating mode Test for Cross Talk/ Feedthrough** a. All channels at 90 fC input charge, 2 fC threshold, Att=1;odd channels pulsed; all channels enabled b. All channels at 90 fC input charge, 2 fC threshold, Att=1;even channels pulsed; all channels enabled The sequence will be 1. Setup serial mode 2. Set SAD and TP_SL pins 3. Load address register to write to CR2 4. load serial control registers CR2 -- for 90fC charge input, 2fC threshold, att=1 5. Load address register to write to CR3 6. load serial control registers CR3 -- for all channels enabled, mux off, Vfb = 1.5V DAC equivalent Then for each section, load appropriate values into CR1 1. Set serial mode 2. Load address register to write to CR1 3. load serial control registers CR1 to appropriate value 4. Set operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16 (42 -- 57). ***Note:** The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* Test 5: All channels at 90fC (DAC=110); threshold = 2fC (DAC=50), att=1 (00), steepest leakage; all channels enabled; mux off; Vfb = 1.5v equiv. Refer to the timing diagram in FIGURE 5 for this part of the test. 1. Set up serial mode by OS pin= 0V and TP_SL pin = 5V 2. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 3. Load serial control registers CR2 -- for 90fC charge input (DAC=110), 2fC threshold (DAC=50), att=1 ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 1101 110 b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 1 1 0 1 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 4. Load address register to write to CR3 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 5. load serial control registers CR3 -- for all channels enabled, mux disabled; Vfb = 1.5v ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0000 0000 0000 0000 1000 0011 110 b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>1</td> <td>1</td> <td>1</td> <td>0</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ### Test 5a: All channels at 90fC input charge, 2 fC threshold, Att=1;odd channels pulsed; steepest leakage slope; all channels enabled Refer to the Timing diagram in FIGURE 5a for this test. 1. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V. Set OS = 5v for serial mode. b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR3 -- for odd channels pulsed, steepest slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only odd channel outputs must fire. Test 5b: All channels at 90fC input charge, 2 fC threshold, Att=1;even channels pulsed; steepest slope; all channels enabled Refer to the Timing diagram in FIGURE 5b for this test. 1. Load address register to write to CR1 ```{=html}  ``` a. Select address mode by setting SAD = 5V. Set OS = 5v for serial mode. b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR1 for even channels pulsed ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 000 b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only even channel outputs must fire. **TEST 6:** **Operating mode Test for Cross Talk/ Feedthrough via channel disables** ### a. All channels at 90 fC input charge, 2 fC threshold, Att=1;all channels pulsed; odd channels enabled b. All channels at 90 fC input charge, 2 fC threshold, Att=1;all channels pulsed; even channels enabled ### ### The sequence will be 1. Setup OS to serial mode 2. Set SAD and TP_SL pins 3. Load address register to write to CR1 4. load serial control registers CR1 -- for all channels pulsed, steepest leakage slope 5. Load address register to write to CR2 6. load serial control registers CR2 -- for 90fC charge input, 2fC threshold, att=1 Then for each section, load appropriate values into CR3 1. Set up OS to serial mode 2. Load address register to write to CR3 3. load serial control registers CR3 to appropriate value 4. Change OS to operating mode 5. Issue reset 6. Issue test pulse 7. Observe the output at pads iout1 ... iout16 (42 -- 57). ***Note:** The outputs will be pulses that are 150 ns (+/- 30 ns) wide, \~570mV(+/- 20%) in amplitude (if flat-top is reached) occurring about 100ns after the test pulse has been issued. The output at OR pin must be a steady at \~150 mV (+/- 20mV) signal. The tester should be set at a threshold of about 200mV. Any signal above that at the output pins should be construed as a "fired channel".* ### ### Test 6: All channels at 90fC; threshold = 2fC, att=1, maximum leakage slope; all channels pulsed Refer to the Timing diagram in FIGURE 6 for this test. 1. Set up operating mode pin OS = 5V for serial mode and TP_SL pin = 5V 2\. Load address register to write to CR1 a. Select address mode by setting SAD = 5V b. Clock in 0011 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 0 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 5. load serial control registers CR1 -- all channels pulsed and maximum leakage slope ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1111 1111 1111 1111 000b to load CR1. Clock in 19 times. ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 ---- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 6. Load address register to write to CR2 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0101 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 0 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 7. load serial control registers CR2 -- for att=1; charge = 90fC (DAC=110); threshold = 2fC(DAC=50) ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0011 0010 1101 110b to load CR2. Clock in 15 times. ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 0 0 1 1 0 0 1 0 1 1 0 1 1 1 0 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ### Test 6a: All channels at 90fC input charge, 2 fC threshold, Att=1;all channels pulsed; steepest leakage slope; odd channels enabled Refer to the Timing diagram in FIGURE 6a for this test. 1. Load address register to write to CR3 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. load serial control registers CR3 -- for odd channels enabled; mux off; VFb=1.5v equiv. ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 1010 1010 1010 1010 1000 0011 110b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>1</td> <td>1</td> <td>1</td> <td>0</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Change to operating mode by setting OS=0v 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only odd channel outputs must fire. Test 6b: All channels at 90fC input charge, 2 fC threshold, Att=1;all channels pulsed; steepest leakage slope; even channels enabled Refer to the Timing diagram in FIGURE 6b for this test. 1. Load address register to write to CR3 ```{=html}  ``` a. Select address mode by setting SAD = 5V b. Clock in 0111 0000 00 b pattern to SI pin ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 0 1 1 1 0 0 0 0 0 0 ------ ------ ------ ------ ------ ------ ------ -------- -------- --------- c. Latch the address register by 5V -\> 0V transition on TP_SL line after address register contents are clocked in. ```{=html}  ``` 2. Load serial control registers CR3 -- for odd channels enabled; mux off; VFb=1.4v equiv. ```{=html}  ``` a. Change to data mode by setting SAD =0V b. Clock in pattern 0101 0101 0101 0101 1000 0111 110b to load CR3. Clock in 27 times. <table> <colgroup> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 2%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 4%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> <tr class="even"> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>0</td> <td>1</td> <td>1</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>0</td> <td>1</td> <td>1</td> <td>1</td> <td>1</td> <td>0</td> </tr> </tbody> </table> c. Latch the data register by 5V -\> 0V transition on TP_SL line after data register contents are clocked. ```{=html}  ``` 3. Change to operating mode by setting OS=0V 4. Issue reset > Issue a 2 sec. 0 -\> 5V -\> 0V pulse through RD_SC pin about 10 > seconds after OS has gone 0V. This issues the reset to the preamp. 5. Issue test pulse > Wait for 7 sec. after the RD_SC reset pulse. Bring TP_SL pin to 0V. > This issues the internal test pulse. 6. Observe the output at pads iout1 ... iout16 (42 -- 57). > Only even channel outputs must fire. ### ### ### ### ### ### ### ## ![](media/image2.wmf){width="4.604861111111111in" height="6.611805555555556in"} {#section-14 .unnumbered} ## APPENDIX 2: TGL98.V2 PIN LIST -------- ----------- ------------------------- --------------------------------- Pin.no Name. Description I/O type 1 Vin16 Input 16 Charge input 2 Vin15 Input 15 Charge input 3 Vin14 Input 14 Charge input 4 Vin13 Input 13 Charge input 5 Vin12 Input 12 Charge input 6 Vin11 Input 11 Charge input 7 Vin10 Input 10 Charge input 8 Vin9 Input 9 Charge input 9 Vin8 Input 8 Charge input 10 Vin7 Input 7 Charge input 11 Vin6 Input 6 Charge input 12 Vin5 Input 5 Charge input 13 Vin4 Input 4 Charge input 14 Vin3 Input 3 Charge input 15 Vin2 Input 2 Charge input 16 Vin1 Input 1 Charge input 17 t Power thru spacer pad 18 t Power thru spacer pad 19 t Power thru spacer pad Corner NW Power thru corner pad 20 V1 Preamp S1 supply Preamp S1 supply, RC iso from LDO 21 Gnd1 Ground Common ground 22 X Ground ring spacer pad 23 THRbias Threshold bias bypass Threshold current ref., bypass cap to gnd. 24 V2 Discriminator/ S2 supply Analog supply to S2, mux and discriminator, RC iso from LDO 25 Gnd2 Ground Common ground 26 AO Analog output Analog output voltage 27 X Ground ring spacer pad 28 RSTS1 S1 reset length adjust/ Reset circuit (1^st^ stage) bypass charging current ref., Bypass cap toV3 29 RSTS2 S2 reset length adjust/ Reset circuit (2^nd^ stage) bypass charging current ref., Bypass cap toV3 30 OS Operate/serial mode Digital input, 489 rcvr 31 SAD Address/data control Digital input, 489 rcvr 32 SOE Serial output enable Digital output, open drain, 485 xcvr, tristate 33 RD/SC Reset-Disable/Serial Digital input, 489 rcvr clock 34 TP/SL Test pulse/ Serial latch Digital input, 489 rcvr 35 SI Serial input Digital input, 485 xcvr 36 SO Serial output Digital output, open drain, 485 xcvr,triatate 37 V3 Digital/switching supply Digital/ Reset/ Switching supply, RC isolated from LDO 38 Gnd3 Ground Common ground Corner NE Power thru corner pad 39 Vfb Power thru spacer pad Feedback adjust thru DAC, bypass cap to gnd. 40 OSbias One shot bias adjust/ Oneshot current bias ref., bypass bypass cap to V3 41 OR Output reference current Current source output 20uA 42 Iout1 Output 1 Current source output, 70uA 43 Iout2 Output 2 Current source output, 70uA 44 Iout3 Output 3 Current source output, 70uA 45 Iout4 Output 4 Current source output, 70uA 46 Iout5 Output 5 Current source output, 70uA 47 Iout6 Output 6 Current source output, 70uA 48 Iout7 Output 7 Current source output, 70uA 49 Iout8 Output 8 Current source output, 70uA 50 Iout9 Output 9 Current source output 70uA 51 Iout10 Output 10 Current source output 70uA 52 Iout11 Output 11 Current source output 70uA 53 Iout12 Output 12 Current source output 70uA 54 Iout13 Output 13 Current source output 70uA 55 Iout14 Output 14 Current source output 70uA 56 Iout15 Output 15 Current source output 70uA 57 Iout16 Output 16 Current source output 70uA Corner SE Power thru corner pad 58 Gnd3a Ground Common ground 59 V3a Digital/ switching supply Digital/ Reset/ Switching supply, RC isolated from LDO 60 V2Ibias Current switch bias V2I cell bias current ref., adjust/ bypass bypass cap to V3 61 A5 Address line 5 CMOS pull-up input, gnd or nc 62 A4 Address line 4 CMOS pull-up input, gnd or nc 63 A3 Address line 3 CMOS pull-up input, gnd or nc 64 A2 Address line 2 CMOS pull-up input, gnd or nc 65 A1 Address line 1 CMOS pull-up input, gnd or nc 66 A0 Address line 0 CMOS pull-up input, gnd or nc 67 X Ground ring spacer pad 68 da12_bias Differential Amp. Bias Diffamp. Stage 1,2 bias current adjust/ bypass ref. , bypass cap to gnd. 69 Gnd2a Ground Common ground 70 V2a Discriminator/ S2 supply Analog supply to S2, mux and discriminator, RC iso from LDO 71 S2bias S2 bias adjust/ bypass S2 current ref. bypass, cap to V2 72 VM Voltage midpoint input 2.5V reference input, w/ bypass to gnd. 73 X Ground ring spacer pad 74 S1bias S1 bias adjust/ bypass S1 current ref. bypass, cap to gnd 75 Gnd1a Ground Common ground 76 V1a Preamp S1 supply Preamp S1 supply, RC iso from LDO Corner SW Power thru corner pad -------- ----------- ------------------------- --------------------------------- # APPENDIX 3 The TGL98.V2 has a **10 bit address register tgl_adreg** that stores command data is present in the chip. It qualifies the clocks and latches based on value of OS and SAD signals. It generates the shift register select signal "sel" to either read in data from a serial string or latch back data from the serial register latch based on the value of rw, ro and r1. The address register contents A0..A5 are passed through a decoder that checks if the addresses match with the hardwired chip address. The chip is selected if addresses match or if bit A6 (broadcast bit is 5V). It decodes the commands received only if that chip is being addressed. The **address** **decoder** first compares the lowest 5 data bits with A0.. A5 pins (66. 61) to see if they match or checks to see if A6='1'. Only if one of the above mentioned conditions match is the rest of the decoding enabled. The TGL98.V2 has three sets of **serial data registers CR1, CR2 and CR3** to do the controls of the TGL98.V2 for different modes of operation and configuration, which are controlled, by a serially loaded address register. **CR1** is the test pattern control register. It selects which channel is to be enabled for test pulsing and has 3 bits for adjusting the leakage slope of the preamp. The signal to select a channel is active high (5V). **CR2** is the Control register that controls the attenuator, the discriminator threshold and the test amplitude. The test amplitude is a 7 bit DAC input that selects the value of Vtest which varies in steps of 1fC equivalent. The discriminator threshold is a 6 bit DAC input that sets the discriminator level. The attenuator select helps to select the gross charge range of interest. **CR3** is the register that enables/disables (0/1) a channel and also sets the bits that control the preamp MUX output and sets the 6 bits that adjust the feedback voltage DAC. The serial data bits of the address register and the 3 data registers is briefly defined in Appendix 4. The data is shifted via pin (SI) and read out via pin (SO). The test patterns to be applied follow the given sequence. SOE is an output pin which enables the 489 transceiver board. It is tristated when data is shifted in and pulled low (0V) when data is being shifted out of the chip. APPENDIX 4: TGL98.V2 SERIAL DATA BITS TGL98.V2 SERIAL ADDRESS REGISTER -------- -------- ------ ------ ------ ------ ------ ------ ------ ------ msb lsb R/W R1 R0 A6 A5 A4 A3 A2 A1 A0 -------- -------- ------ ------ ------ ------ ------ ------ ------ ------ +-------------+--------------------------------------------------------+ | R0 | Register address MSB; 00=no register, 01=CR1, 10=CR2 , | | | 11= CR3 | | R1 | | | | Register address LSB; 00=no register, 01=CR1, 10=CR2 , | | | 11= CR3 | +-------------+--------------------------------------------------------+ | A6 | TGL98.V2 address broadcast bit | | | | | A5 | MSB TGL98.V2 address bit | | | | | A4 | 5SB TGL98.V2 address bit | | | | | A3 | 4SB TGL98.V2 address bit | | | | | A2 | 3SB TGL98.V2 address bit | | | | | A1 | 2SB TGL98.V2 address bit | | | | | A0 | LSB TGL98.V2 address bit | +-------------+--------------------------------------------------------+ CR1: TEST PATTERN AND DECAY SLOPE COMPENSATION CONTROL REGISTER ----- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- msb lsb T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 T12 T13 T14 T15 T16 DS3 DS2 DS1 ----- ---- ---- ---- ---- ---- ---- ---- ---- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- +---------+------------------------------------------------------------+ | T1 | 0= disable test pulse, 1= enable test pulse, channel 1 | | | | | T2 | 0= disable test pulse, 1= enable test pulse, channel 2 | | | | | T3 | 0= disable test pulse, 1= enable test pulse, channel 3 | | | | | T4 | 0= disable test pulse, 1= enable test pulse, channel 4 | | | | | T5 | 0= disable test pulse, 1= enable test pulse, channel 5 | | | | | T6 | 0= disable test pulse, 1= enable test pulse, channel 6 | | | | | T7 | 0= disable test pulse, 1= enable test pulse, channel 7 | | | | | T8 | 0= disable test pulse, 1= enable test pulse, channel 8 | | | | | T9 | 0= disable test pulse, 1= enable test pulse, channel 9 | | | | | T10 | 0= disable test pulse, 1= enable test pulse, channel 10 | | | | | T11 | 0= disable test pulse, 1= enable test pulse, channel 11 | | | | | T12 | 0= disable test pulse, 1= enable test pulse, channel 12 | | | | | T13 | 0= disable test pulse, 1= enable test pulse, channel 13 | | | | | T14 | 0= disable test pulse, 1= enable test pulse, channel 14 | | | | | T15 | 0= disable test pulse, 1= enable test pulse, channel 15 | | | | | T16 | 0= disable test pulse, 1= enable test pulse, channel 16 | +---------+------------------------------------------------------------+ | DS3 | MSB, decay slope select MUX, 111 = no decay | | | | | DS2 | 2SB, decay slope select MUX | | | | | DS1 | LSB, decay slope select MUX, 000 = max. decay | +---------+------------------------------------------------------------+ CR2: ATTENUATOR, DISCRIMINATOR, THRESHOLD, TEST AMPLITUDE CONTROL REGISTER ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- msb lsb At2 At1 Vt6 Vt5 Vt4 Vt3 Vt2 Vt1 Ta7 Ta6 Ta5 Ta4 Ta3 Ta2 Ta1 ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- ----- +-------+--------------------------------------------------------------+ | At2 | MSB, C-R attenuator, 00= no atten, 01=1/3 atten, 10=1/9 | | | atten | | At1 | | | | LSB, C-R attenuator, 00= no atten, 01=1/3 atten, 10=1/9 | | | atten | +-------+--------------------------------------------------------------+ | Vt6 | MSB discriminator voltage threshold DAC input, 111111 = min | | | threshold | | Vt5 | | | | 5SB discriminator voltage threshold DAC input | | Vt4 | | | | 4SB discriminator voltage threshold DAC input | | Vt3 | | | | 3SB discriminator voltage threshold DAC input | | Vt2 | | | | 2SB discriminator voltage threshold DAC input | | Vt1 | | | | LSB discriminator voltage threshold DAC input | +-------+--------------------------------------------------------------+ | Ta7 | MSB Test Pulse Amplitude DAC input, 1111111 = 127 fC | | | | | Ta6 | 6SB Test Pulse Amplitude DAC input | | | | | Ta5 | 5SB Test Pulse Amplitude DAC input | | | | | Ta4 | 4SB Test Pulse Amplitude DAC input | | | | | Ta3 | 3SB Test Pulse Amplitude DAC input | | | | | Ta2 | 2SB Test Pulse Amplitude DAC input | | | | | Ta1 | LSB Test Pulse Amplitude DAC input | +-------+--------------------------------------------------------------+ CR3: CHANNEL DISABLE, ANALOG OUTPUT MUX SELECT AND FEEDBACK VOLTAGE CONTROL REGISTER <table style="width:100%;"> <colgroup> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> <col style="width: 3%" /> </colgroup> <tbody> <tr class="odd"> <td>msb</td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td></td> <td>lsb</td> </tr> <tr class="even"> <td>D 16</td> <td>D15</td> <td>D14</td> <td>D13</td> <td>D12</td> <td>D11</td> <td>D10</td> <td>D9</td> <td>D8</td> <td>D7</td> <td>D6</td> <td>D5</td> <td>D4</td> <td>D3</td> <td>D2</td> <td>D1</td> <td>M5</td> <td>M4</td> <td>M3</td> <td>M2</td> <td>M1</td> <td>F 6</td> <td>F 5</td> <td>F 4</td> <td>F 3</td> <td>F 2</td> <td>F1</td> </tr> </tbody> </table> +-----------+----------------------------------------------------------+ | D16 | MSB, channel 16, 0=enable, 1= disable | | | | | D15 -- D2 | 15SB -- 2SB , channel 15 -- channel 2 , 0= enable, 1 = | | | disable | | D1 | | | | LSB, channel 1 | +-----------+----------------------------------------------------------+ | M5 | Mux enable/disable bit, 0=enable, 1=disable | | | | | M4 | MSB, analog output mux address, 1111 = channel 16 select | | | | | M3 | 3SB analog output mux address | | | | | M2 | 2SB analog output mux address | | | | | M1 | LSB analog output mux address | +-----------+----------------------------------------------------------+ | F6 | MSB, Vfb DAC input, 11111 = 2.5v | | | | | F5 | 5SB, Vfb DAC input | | | | | F4 | 4SB, Vfb DAC input | | | | | F3 | 3SB Vfb DAC input | | | | | F2 | 2SB Vfb DAC input | | | | | F1 | LSB Vfb DAC input | +-----------+----------------------------------------------------------+ # APPENDIX 5: PAD DIMENSIONS FOR THE TGL98.V2 CHIP Pad dimensions for the TGL98 chip Chip BoundBox \[(0,0), (6224,6224)\] = SW co-ords & NE co-ords lambda 0.6 Note: All dimensions are with reference to the SW most corner of the chip pin name pin no. Side pad SW co-ords pad NE co-ords pad center co-ords in microns in microns in microns (x1, y1) (x2, y2) (x3, y3) \$Vin16 1 W (6.6, 290.4) (94.2, 378) (50.4, 334.2) \$Vin15 2 W (6.6, 459.6) (94.2, 547.2) (50.4, 503.4) \$Vin14 3 W (6.6, 631.2) (94.2, 718.8) (50.4, 675) \$Vin13 4 W (6.6, 800.4) (94.2, 888) (50.4, 844.2) \$Vin12 5 W (6.6, 972) (94.2, 1059.6) (50.4, 1015.8) \$Vin11 6 W (6.6, 1141.2) (94.2, 1228.8) (50.4, 1185) \$Vin10 7 W (6.6, 1312.8) (94.2, 1400.4) (50.4, 1356.6) \$Vin9 8 W (6.6, 1482) (94.2, 1569.6) (50.4, 1525.8) \$Vin8 9 W (6.6, 1653.6) (94.2, 1741.2) (50.4, 1697.4) \$Vin7 10 W (6.6, 1822.8) (94.2, 1910.4) (50.4, 1866.6) \$Vin6 11 W (6.6, 1994.4) (94.2, 2082) (50.4, 2038.2) \$Vin5 12 W (6.6, 2163.6) (94.2, 2251.2) (50.4, 2207.4) \$Vin4 13 W (6.6, 2335.2) (94.2, 2422.8) (50.4, 2379) \$Vin3 14 W (6.6, 2504.4) (94.2, 2592) (50.4, 2548.2) \$Vin2 15 W (6.6, 2676) (94.2, 2763.6) (50.4, 2719.8) \$Vin1 16 W (6.6, 2845.2) (94.2, 2932.8) (50.4, 2889) \$V1 20 N (290.4, 3640.2) (378, 3727.8) (334.2, 3684) \$gnd1 21 N (460.2, 3640.2) (547.8, 3727.8) (504, 3684) \$THR_bias 23 N (800.4, 3640.2) (888, 3727.8) (844.2, 3684) \$V2 24 N (972, 3640.2) (1059.6, 3727.8) (1015.8, 3684) \$gnd2 25 N (1141.8, 3640.2) (1239.4, 3727.8) (1185.6, 3684) \$AO 26 N (1312.8, 3640.2) (1400.4, 3727.8) (1356.6, 3684) \$RSTS1_adj 28 N (1653.6, 3640.2) (1741.2, 3727.8) (1697.4, 3684) \$RSTS2_adj 29 N (1822.8, 3640.2) (1910.4, 3727.8) (1866.6, 3684) \$OS 30 N (1994.4, 3640.2) (2082, 3727.8) (2038.2, 3684) \$SAD 31 N (2163.6, 3640.2) (2251.2, 3727.8) (2207.4, 3684) \$SOE 32 N (2335.2, 3640.2) (2422.8, 3727.8) (2379, 3684) \$RD_SC 33 N (2504.4, 3640.2) (2592, 3727.8) (2548.2, 3684) \$TP_SL 34 N (2676, 3640.2) (2763.6, 3727.8) (2719.8, 3684) \$SI 35 N (2845.2, 3640.2) (2932.8, 3727.8) (2889, 3684) \$SO 36 N (3016.8, 3640.2) (3104.4, 3727.8) (3060.6, 3684) \$V3 37 N (3186, 3640.2) (3273.6, 3727.8) (3229.8, 3684) \$gnd3 38 N (3357, 3640.2) (3445.2, 3727.8) (3400.8, 3684) \$Vfb(PAD) 39 E (3640.2,3357.6) (3727.8,3445.2) (3864, 3401.4) \$OS_bias 40 E (3640.2, 3186) (3727.8, 3273.6) (3684, 3229.8) \$OR 41 E (3640.2, 3016.8) (3727.8, 3104.4) (3684, 3060.6) \$Iout1 42 E (3640.2, 2845.2) (3727.8, 2932.8) (3684, 2889) \$Iout2 43 E (3640.2, 2676) (3727.8, 2763.6) (3684, 2719.8) \$Iout3 44 E (3640.2, 2504.4) (3727.8, 2592) (3684, 2548.2) \$Iout4 45 E (3640.2, 2335.2) (3727.8, 2422.8) (3684, 2379) \$Iout5 46 E (3640.2, 2163.6) (3727.8, 2251.2) (3684, 2207.4) \$Iout6 47 E (3640.2, 1994.4) (3727.8, 2082) (3684, 2038.2) \$Iout7 48 E (3640.2, 1822.8) (3727.8, 1910.4) (3684, 1866.6) \$Iout8 49 E (3640.2, 1653.6) (3727.8, 1741.2) (3684, 1697.4) \$Iout9 50 E (3640.2, 1482) (3727.8, 1569.6) (3684, 1525.8) \$Iout10 51 E (3640.2, 1312.8) (3727.8, 1400.4) (3684, 1356.6) \$Iout11 52 E (3640.2, 1141.2) (3727.8, 1228.8) (3684, 1185) \$Iout12 53 E (3640.2, 972) (3727.8, 1059.6) (3684, 1015.8) \$Iout13 54 E (3640.2, 800.4) (3727.8, 888) (3684, 844.2) \$Iout14 55 E (3640.2, 631.2) (3727.8, 718.8) (3684, 675) \$Iout15 56 E (3640.2, 459.6) (3727.8, 547.2) (3684, 503.4) \$Iout16 57 E (3640.2, 290.4) (3727.8, 378) (3684, 334.2) \$gnd3a 58 S (3357, 6.6) (3444.6, 94.2) (3400.8, 50.4) \$V3a 59 S (3187.2, 6.6) (3274.8, 94.2) (3231, 50.4) \$V2I_bias 60 S (3015.6, 6.6) (3103.2, 94.2) (3059.4, 50.4) \$A5 61 S (2846.4, 6.6) (2934, 94.2) (2890.2, 50.4) \$A4 62 S (2674.8, 6.6) (2762.4, 94.2) (2718.6, 50.4) \$A3 63 S (2505.6, 6.6) (2593.2, 94.2) (2549.4, 50.4) \$A2 64 S (2334, 6.6) (2421.6, 94.2) (2377.8, 50.4) \$A1 65 S (2164.8, 6.6) (2252.4, 94.2) (2208.6, 50.4) \$A0 66 S (1993.2, 6.6) (2080.8, 94.2) (2037, 50.4) \$DA12_bias 68 S (1652.4, 6.6) (1740, 94.2) (1696.2, 50.4) \$gnd2a 69 S (1482.6, 6.6) (1570.2, 94.2) (1526.4, 50.4) \$V2a 70 S (1311.6, 6.6) (1399.2, 94.2) (1355.4, 50.4) \$S2_bias 71 S (1142.4, 6.6) (1230, 94.2) (1186.2, 50.4) \$VM 72 S (970.8, 6.6) (1058.4, 94.2) (1014.6, 50.4) \$S1_bias 74 S (630, 6.6) (717.6, 94.2) (673.8, 50.4) \$gnd1a 75 S (460.2, 6.6) (547.8, 94.2) (504, 50.4) \$V1a 76 S (289.2, 6.6) (376.8, 94.2) (333, 50.4) # # # # #

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Required Report - public distribution **Date:** 8/17/2005 **GAIN Report Number:** PK5012 PK5012 **Pakistan** **Cotton and Products** **Quarterly Report** **2005** **Approved by:** Howard Anderson, Agriculture Attaché, US Embassy I![](media/image1.wmf)slamabad **Prepared by:** Mohammad Shafiq Ur Rehman, Agriculture Specialist, US Embassy, Islamabad **Report Highlights:** The MY 2005/06 cotton harvest is forecast at 1.89 Million Metric Tons (MMT) - a significant decrease from the previous year production of 2.48 MMT. Progressive textile mills are focusing on producing better-quality products, particularly for export, making Pakistan a leading market for U.S. Pima and other grades of cotton. Consumption continues to expand in response to a resurgence in export markets and strong domestic demand. With domestic prices increasing mills are finding the importation of upland cotton increasingly attractive. Includes PSD Changes: Yes Includes Trade Matrix: No Quarterly Report Islamabad \[PK1\] \[PK\] **Table of Contents** [Executive Summary 3](#executive-summary) [Table 1: Cotton Production, Supply and Demand 3](#table-1-cotton-production-supply-and-demand) [Production 3](#production) [Production Policy 4](#production-policy) [Consumption 4](#consumption) [Table 2: Cotton and Synthetic Fiber Consumption 5](#table-2-cotton-and-synthetic-fiber-consumption) [Table 3: Yarn and Fabric Production 5](#table-3-yarn-and-fabric-production) [Trade 5](#trade) [Stocks 6](#stocks) # Executive Summary The MY 2005/06 crop is forecast to be 1.89 Million Metric Tons (MMT), assuming a normal weather pattern and pest infestation. Progressive textile mills are focusing on producing better-quality products, particularly for the export market, making Pakistan a leading market for U.S. Pima and other grades of medium to long staple cotton. Total consumption continues to expand in response to strong export and domestic demand. Domestic prices are increasing, and are higher than the world rates for comparable grade local lint. Mills are finding the importation of upland cotton increasingly attractive. # # Table 1: Cotton Production, Supply and Demand +------------------------+-----+-----+-----+-----+-----+-----+-----+ | #### Pakistan | | | | | | | | | | | | | | | | | | Cotton | | | | | | | | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | | ** | ** | ** | **E | ** | **F | * | | | 200 | Rev | 200 | sti | 200 | ore | *UO | | | 3** | ise | 4** | mat | 5** | cas | M** | | | | d** | | e** | | t** | | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | | **U | **P | **U | **P | **U | **P | | | | SDA | ost | SDA | ost | SDA | ost | | | | Of | Es | Of | Es | Of | Es | | | | fic | tim | fic | tim | fic | tim | | | | ial | ate | ial | ate | ial | ate | | | | \[O | \[N | \[O | \[N | \[O | \[N | | | | ld\ | ew\ | ld\ | ew\ | ld\ | ew\ | | | | ]** | ]** | ]** | ]** | ]** | ]** | | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | # | | 0 | | 0 | | 0 | M | | #### Market Year Begin | | 5/2 | | 5/2 | | 5/2 | M/Y | | | | 003 | | 004 | | 005 | YYY | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Area Planted** | 0 | | 0 | | 0 | | | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Area Harvested** | 3 | 3 | 3 | 3 | 0 | 3 | (1 | | | 092 | 092 | 200 | 193 | | 000 | 000 | | | | | | | | | HA) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Beginning Stocks** | 491 | 491 | 442 | 442 | 808 | 808 | (1 | | | | | | | | | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Production** | 1 | 1 | 2 | 2 | 0 | 1 | (1 | | | 687 | 687 | 504 | 504 | | 890 | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Imports** | 403 | 403 | 218 | 218 | 0 | 325 | (1 | | | | | | | | | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **MY Imp. From U.S.** | 0 | 0 | 0 | 0 | 0 | 0 | (1 | | | | | | | | | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **TOTAL SUPPLY** | 2 | 2 | 3 | 3 | 808 | 3 | (1 | | | 581 | 581 | 164 | 164 | | 023 | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Exports** | 44 | 44 | 131 | 131 | 0 | 34 | (1 | | | | | | | | | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **USE Dom. | 2 | 2 | 2 | 2 | 0 | 2 | (1 | | Consumption** | 090 | 090 | 220 | 220 | | 419 | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Loss Dom. | 5 | 5 | 5 | 5 | | 5 | | | Consumption** | | | | | | | | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **TOTAL Dom. | 2 | 2 | 2 | 2 | 0 | 2 | (1 | | Consumption** | 095 | 095 | 225 | 225 | | 424 | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **Ending Stocks** | 442 | 442 | 808 | 808 | 0 | 565 | (1 | | | | | | | | | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ | **TOTAL DISTRIBUTION** | 2 | 2 | 3 | 3 | 0 | 3 | (1 | | | 581 | 581 | 164 | 164 | | 023 | 000 | | | | | | | | | MT) | +------------------------+-----+-----+-----+-----+-----+-----+-----+ # Production Pakistan's MY 2005/06 crop did not start well, due, in part, to above normal winter and spring rains that collectively increased surface and ground water. Moreover, cooler and cloudy weather with intermittent rains slowed the planting campaign, especially in Sindh province. Similarly, Punjab province experienced land preparation and planting delays of 15-21 days, especially in areas where rains disrupted and delayed the harvest and threshing of the wheat crop. In addition, the market did not have the capacity to supply significant volumes of certified seed for replanting. A third factor is above normal pest infestation due to the moist weather in a situation where most farmers are not fully equipped to use quality pesticides and other inputs. Thus, cotton yields are forecast to be lower than last year based on crop damages due to floods, rains and pests. The monsoon season, which usually arrives in early July, started in late June and rainfall has remained above normal. During July heavy rains in the catchment areas of rivers and in the cotton belt resulted in flooding and damaged more than one hundred thousand hectares of cotton. Prevailing humid conditions and succulent growth may bring pest infestation above normal levels. Re-sowing may be constrained and have a significant impact on the harvest due to the limited availability of quality seed. Based on these factors MY 2005/06 production is forecast at 1.89 MMT, which assumes a 6 percent decrease in area under cultivation and in the face of uncertain weather for the remainder of the season. This projected drop in production is significant given Pakistan's Ministry of Food, Agriculture and Livestock (MINFAL) estimates placing the MY 2004/05 cotton harvest at 2.48 MMT. ## Production Policy Cotton is the backbone of Pakistan's economy and the government has intervened in the cotton market to support seed cotton prices. Seed cotton prices on average have been between Rs. 800-900 per maund (1 maund = 37.324 kilograms, Rs. 59.50=\$1). The season average open market prices had hovered near the set government intervention price of Rs. 863 per maund (Rs. 925 per 40 kilograms). Despite what turned out to be a record crop in MY 2004/05, initial uncertainty over the size of the crop proved sufficient to spur market speculation early in the year, which in turn, increased farm-gate prices to the benefit of the farmer. The government has continued a policy of placing no restriction on the cotton trade for import and export. In the 90's the government restricted exports at the beginning of the season until the size of the crop could be determined. # Consumption Pakistan's cotton consumption increased sharply, for a third year in a row, in response to export-driven demand. Thru the first 8 months of MY 2004/05, textile exports are running 4 percent (volume basis) above the corresponding period of last year despite around 11 percent decrease in export of cotton yarn. The textile industry has reported a 6.3 percent increase in the use of cotton and 3.2 percent of man-made fiber in first six months of the MY 2004/05, compared to the corresponding periods of last year. The spinning and weaving industries continue to invest heavily in new equipment as well as to renovate existing equipment due to improved profitability over the last several years. Strong domestic demand, with a marginal increase over last year, and stronger export demand underpin the current market surge. Looking toward 2006 the textile industry knows to remain competitive in the global market it must aggressively pursue quality improvements and production diversification to include more value-added products, rather than rely on low-value yarn-based exports. Synthetic fiber continues to gain acceptance among consumers who increasingly seek less expensive blended products to compensate for their shrinking buying power. The long-term trend is for synthetics to comprise an increasing share of domestic consumption. The growth in synthetic fiber use has been slow in 2004/05 due to rising petroleum prices and increases in end product prices. ## Table 2: Cotton and Synthetic Fiber Consumption ------------------- ------------------------ -------------------------- Year 1/ Cotton (MT) Synthetics (MT) 1999/00 1,566,348 404,008 2000/01 1,673,280 405,038 2001/02 1,755,669 409,557 2002/03 1,780,963 406,515 2003/04 1,938,678 468,984 2004/05 2/ 1,194,037 292,670 ------------------- ------------------------ -------------------------- **1/ July/June Marketing Year Data: Based on reporting mills information** **2/ July-January Data Only: Based on reporting mills information** **Source: Ministry of Industries and Ministry of Finance, Government of Pakistan** ## Table 3: Yarn and Fabric Production +-------------------+------------------------+-------------------------+ | **Year** | **Yarn** | **Cotton Cloth** | | | | | | | **(MT)** | **(Mil. Square meter)** | +-------------------+------------------------+-------------------------+ | 1999/00 | 1,669,900 | 437.2 | +-------------------+------------------------+-------------------------+ | 2000/01 | 1,721,000 | 490.2 | +-------------------+------------------------+-------------------------+ | 2001/02 | 1,808,600 | 568.4 | +-------------------+------------------------+-------------------------+ | 2002/03 | 1,915,160 | 576.6 | +-------------------+------------------------+-------------------------+ | 2003/04 2/ | 1,929,130 | 683.4 | +-------------------+------------------------+-------------------------+ | 2004/05 3/ | 829,900 | 283.4 | +-------------------+------------------------+-------------------------+ **1/ July/June Marketing Year** **2/ Preliminary Data** **3/ July-Nov Data Only** **Source: Ministry of Industries and Ministry of Finance, Government of Pakistan** # Trade In MY 2004/05 Pakistan is projected to be a net importer of cotton as a result of strong domestic demand for better grades of cotton. During the first 6 months of the MY 2004/05, Pakistan imported 110,000 MT of cotton (about 7 percent lower than the corresponding period a year earlier) and exported 73,021 MT of cotton in the first 8 months (compared to 25,117 MT in the corresponding period a year earlier). Firms often import upland cotton for their export programs due to contamination problems in local cotton, particularly with alien fibers (polypropylene, jute). The problem occurs during the harvest and handling and wreaks havoc in the industry by creating yarn with differential yarn strength and differential dye uptake. Estimates are that contamination increases a mills' cost by 10 percent or more. Some mills have standardized their blend for export markets, with a predefined origin and percentage of imported cotton in the product. In MY 2003/04 and in MY 2004/05 to date, Pakistan is the largest buyer of U.S. Pima/ELS cotton. Progressive firms are focused on producing higher-count yarns and better quality fabrics for the export market. Specialized products demanded in the domestic market thus will continue to turn to quality inputs such as the U.S. Pima cotton. In MY 2005/06 Pakistan's import of US Pima/ELS and a variety of other medium to long staple cotton is expected to be strong. The demand for imported strict middling grade cotton may increase if the forecast of a small domestic crop materializes. # Stocks MY 2005/06 carry out stocks are forecast to decline substantially as a consequence of the decrease in the domestic harvest, higher domestic disappearances, and lower imports of medium staple cotton during the year. Most of the mills will be covered through November and December 2005, when the bulk of domestic crop will come onto the market.

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# Presentation: 138343 ## Backsplash - Use of ACD creates a problem of backsplash which mainly is a soft radiation from the shower in a calorimeter. - Backsplash can create a veto-signal in ACD, dramatically reducing efficiency to photons. - Efficiency of EGRET degraded by 50% at 10 GeV already - Segmented ACD is a way to minimize this effect. - Beam test at SLAC and Monte Carlo simulations demonstrate that segmentation of ~1000 cm2 at the top of GLAST is sufficient to maintain >90% efficiency up to 300 GeV - For off-axis events the ACD is closer to the “source” of backsplash; finer segmentation on the sides of ACD is required - 8

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Excerpted from Transcript provided by **NEAL R. GROSS** COURT REPORTERS AND TRANSCRIBERS 1323 RHODE ISLAND AVE., N.W. $202$ 234-4433 WASHINGTON, D.C. 20005-3701 www.nealrgross.com "*The physiologic, anatomic, and morphologic characteristics of AAA,* *with or without iliac involvement*" By Dr. Hugh Beebe DR. BEEBE: Okay. Let\'s get started. On the subject of times though, in some of these sessions, we have got an awful lot to cover, and so we are going to need to keep one eye on the clock. John, rather than me saying next slide, if I just point at it, would you please change it. Thanks. Clearly, morphology, which is \-- we are kind of setting the stage for getting into this process here by talking about the standard aneurysm morphology, and how we assess it. And so that is what Barry and I are going to talk about, and that is a big deal in all of these clinical areas, but it is also a big deal for preclinical testing. And the method of assessing the morphology can be separated from understanding the data that we have, and Barry is going to address that subject in a while. But recognizing that there are some great differences here, and one of them from my perspective is that we are trying to solve a three dimensional issue with two dimensional tools in the past, and maybe it is time that we moved on a little bit. Rather than going through a kind of tiresome review of what actually are the morphologic characteristics of aneurysms, which I think everyone in this room probably knows very well, what I am going to try to do is just in a qualitative way review some thoughts about morphology to get us thinking about the difference between clinical and patient selection, and pre-clinic testing. They are not always the same thing, and a lot of the morphology data that we have bears on the clinical issue of patient selection and device selection for a given patient, but maybe doesn\'t describe very well what we need to know for pre-clinical testing purposes. So that the basic thing that we know is to sort of look at, and I have put some examples, striking examples, that aneurysms come in lots of shapes and sizes, just as people do. And I kind of think now that when I look at the classification that we devised in a consensus and that was published in JVS in 1997 is a little bit dated, and perhaps a little naive. That is a personal bias, but I think particularly when you get around to thinking about pre-clinical testing, this classification system doesn\'t serve us particularly well. Can you go back one, John. There was, for example, an enormous preoccupation with the distal neck. Well, today we don\'t care a whole lot about the distal neck. And there was a lot of focus on the simplistic, I think \-- and I think we would all agree \-- notion that there was a meaningful cut point at neck length. And now I think we \-- if we knew how to do it better, we would say, well, it just isn\'t length. It is length plus angulation, plus diameter, and it is a more complex thing than just simple length. Okay. Next, please. And the angulation was described in a way that is a little different from the way that we usually talk about it today, but it is primarily the difference between the super renal axis of the aorta, and the neck end of the body angle, but doesn\'t describe at all the angle within the aneurysm. But they have got lots of different angles, and we didn\'t describe anything. In fact, it is a pretty difficult task to describe iliac tortuosity. But that is turning out to be a big deal in multiple ways. And there is nothing in our data, pretty much nothing, about lumen size. And when you get to thinking about issues that are specific to pre-clinical testing, maybe this is pretty important. Next, please. It may be important what is inside this lumen, and devices may behave differently between the empty aneurysm and what I am calling the full aneurysm, but most of the time we don\'t pay much attention to this, unless it is such a small lumen that we are worried about operating a modular device when it is that small, and that it is so small at the bottom that it is going to pinch the lumen of the endograft. This is essentially absent from the literature and so we don\'t have much data. Well, there are a lot of anatomical factors important in patient selection, and the question is which of these \-- next please \-- are important for pre-clinical testing. And when you boil it down, the meat and potatoes are pretty much proximal neck factors, and all of these may be, and I think are, we would agree, very, very, important. Iliac arteries, we don\'t describe tortuosity very well, and we are not describing the lumen size very well. Calcification I will say something more about in a moment. But all of these are clearly factors that impact on clinical selection, and which of these need to be taken into account for pre-clinical testing to be meaningful. That is really the question. And we need to remember that this is unstable anatomy. It does vary by gender and by age. The older the patient, we are starting with generally a larger and different anatomy than a younger patient\'s. Next, please. Now, there has been proposed a classification method for an aneurysm neck shape. Next please. But most of the literature ignores this. Here is an example of why we do so at our peril. This is a cone shaped neck, but both the top and the bottom of the neck were within the diameter limits of inclusion and exclusion criteria for a clinical trial. We put an endograft in this patient, and 12 months later, it has migrated down 20 millimeters. We were within the perimeters of the trial, but it was a poor patient selection in my opinion. Next, please. When we talk about diameter and I think Barry will probably get into this a bit more, we have been fooling ourselves by measuring diameter simplistically by simply taking the least dimension on an axial slice as recommended in the literature. But if you use 3-D methods and reformat the slice, you find out that these necks are not all round. In fact, they are clinically significant. Here as an example is 6 millimeters. Actually, this is the true shape of this lumen. It is not a round neck. So sometimes we are mistaken, and calcification, we don\'t have a classification system that works in my opinion, and this circumference thing is whacko \-- next, please \--because they are not lined up. The volume averaging effect of the CT slice is misleading us, and we have developed a kind of quirky classification system there that is based on an artifact. Neck filling defects. They come in lots of different sizes and shapes. Next please. Papers have been written about how they don\'t matter. A lot of people think they do matter. For sure, it is not normal aortic wall. Next, please. So what do we do about this in pre-clinical testing? Do we ignore it or what is the deal here. We really don\'t know. Next, please. Type II endoleaks, do they affect device performance, and if they do, how, and should this be taken into account. This is quite different from patient selection. I think that most of us tend to ignore the patent lumbars, and perhaps patent IMAs, and wait to see what happens. Next, please. Well, enough about anatomy. A few thoughts about physiology. Next, please. A long time back, the 19th century, the idea that the aorta is a wind kessel. It is kind of a neat concept, but there is a huge elastic recoil phenomenon and reflected ways that accompany the original left ventricular ejection wave. And these tend to summate where? Right where we are trying to put in endografts, folks. It is in the infrarenal aorta. As a matter of fact, in an experimental animal, with short acting beta blockers, you can move where those waves summate up and down the aorta almost at will by tytrating the animal. It is very interesting. Next, please. If you look at the some of the experimental work that has come from Stanford, both in vitro and more recently exercise in vivo data, you find out that there is some very interesting things that happen in the infrarenal aorta. Here, if you can make it out, with exercise and the solid line is resting data, this is bicycle ergometry on an MR. Look at how aortic flow changes with really not heavy exercise. Most of the endograft patients are not doing heavy exercise, but a lot of them are more active than we tend to think. These are not just people that sit in a chair. They are out doing stuff. And the flow rates change dramatically with very significant changes in shear stress. Next please. So this is a complex stress strain curve in the infrarenal aorta, and there are a lot of factors that impact on it, and which of these are important, and how to take them into account is a big challenge. But to ignore them is no longer tenable. We just can\'t blow it off. Next, please. So in conclusion, I would say that there are many characteristics of aortoiliac morphology and physiology that you can measure. There is tons of stuff. The existing classifications maybe aren\'t quite suited, both to patient selection, but certainly to preclinical testing how. Next, please. So that the preclinical testing methods must select out the really valuable anatomical and physiologic factors that are going to influence the failure mode, inducers and promoters. And we probably should be taking into account from the beginning the usefulness of 3-D methods if we are ever going to get to the point of using computer simulation to help in preclinical testing, and graft performance predictions. So that is my remarks. Now, Barry is going to heighten our awareness about how the imaging data that we are using sometimes needs a lot of interpretation.

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PROGRAM PRIMES !Program: Lists all prime numbers from 2 up to an arbitrarily !chosen number "N". Method used: Ancient "Sieve of Eratosthenes" !and a well known theorem in number theory that every composite !(i.e., not prime) number has a prime number factor less than or !equal to the square root of the number itself. The number !"NMAX=10000000" below is arbitrary and may need to be reduced in !the program because of your specific computer memory and Fortran !compiler limitations. As a note, the code can be easily !re-written to save the numbers in an array and to write that !array to a hard disk file. ! !Author: Dr. Jerry R. Ziemke PARAMETER (NMAX=10000000) REAL Q(NMAX) WRITE(*,*) 'Enter N (0 < N <= 10,000,000):' READ(*,*) X N=IFIX(X) WRITE(*,*) 'Prime numbers:' DO I=1,N Q(I)=1. ENDDO DO I=2,N IF (Q(I).EQ.1.) THEN J=1 DO WHILE ((I*J).LE.N) Q(I*J)=0. j=j+1 ENDDO WRITE(*,*) I ENDIF ENDDO STOP END

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U. S. DEPARTMENT OF LABOR OFFICE OF THE SOLICITOR WASHINGTON 25 SEP 22 1961 MEMORANDUM # 25 TO: AGENCIES ADMINISTERING STATUTES REFERRED TO IN 29 CFR, SUBTITLE A, PART 5. FROM: James M. Miller Assistant Solicitor SUBJECT: Opinions on application of the Davis-Bacon and related Acts. Enclosed with previous covering memoranda, copies of opinions on the application of the Davis-Bacon and related Acts were furnished you for information and guidance in your enforce- ment programs under those Acts. We are now enclosing a copy of a recent opinion on this same general subject, which we are sure will be of further interest and assistance to you. Enclosure U. S. DEPARTMENT OF LABOR OFFICE OF THE SOLICITOR WASHINGTON 25 August 2, 1961 Mr. Fred R. Wolford Special Assistant to the Commissioner Labor Relations Public Housing Administration Housing and Home Finance Agency Washington 25, D. c. Re: Mexico Lumber Company Central Missouri Component Parts Company . Project M0-10-1 Mexico, Missouri E-61-1307 thru 1309 E-62-87 Dear Mr. Wolford: This is in reply to your letter and enclosures of June 30, 1961 regarding coverage under the labor stand- ards provisions of the Housing Act of 1949, as amended, of the operations of the Central Missouri Component Parts Company, and of the Mexico Lumber Company, both of whom are performing prefabrication work in connection with Housing Project No. MO-10-1, Mexico, Missouri. As you know, a fine line frequently distinguishes the operations of a materialman and a subcontractor for . the purpose of coverage under the Davis-Bacon and related Acts. However, we have reviewed the investigation reports and exhibits submitted by your Fort Worth Regional Office and, in our opinion, the operations of the subject firms on the instant project are clearly distinguishable. The work being performed by the Central Missouri Component Parts Company is the prefabrication of component roof panels. The specifications for this project called for this type of roof panel, and this information was available to all bidders. This type of roof panel is also prefabri- cated by other companies in the area. Because of the Mr. Fred R. Wolford Page.2 requirement of controlled temperature conditions in the plant, and the impracticality of moving plant equipment from job to job, such work cannot normally be done at the site. The firm is located in a permanent building, with ample storage space and equipment, under a three year lease. It also operated a similar plant in Columbia, Missouri which will be closed in November 1961 when its lease expires, and all of its operations will be consoli- dated in Mexico, Missouri. The time has applied for a license with The Plywood Fabricator Service, Inc., and it 1s bidding in the open market for additional work. It is our opinion that the operations of this firm quality as those of a materialman, and that they are not subject to coverage of the labor standards requirements on this project. The work being performed by the Mexico Lumber Company in connection with the project is the prefabri- cation of wall sections. Apparently, the prefabricated wall sections were not specified for the project as were the roof panels. The wall sections consist of 2" x 4" studs cut to size and nailed together. The sections allow openings for windows and-doorways. The prefabrica- tion consists of sawing and nailing and could readily be. performed on the job site. The subject plant was owned and operated by a Mr. Whipple who closed it on January 15, 1961 due to a lack of business. The Mexico Lumber Company held a mortgage on the plant and took it over as of that date. The project contract was awarded on January 31, 1961 and the contract between the successful prime contractor and the Mexico Lumber Company was entered into on approximately February 15, 1961. Mr. Whipple was employed by the com- pany as general foreman to process the prefabrication of wall sections for the subject, project. The bidders could have had no knowledge of any unit prices for this work from the Mexico Lumber Company since the bids were opened Mr. Fred R. Wolford Page 3 on January 5, 1961, ten days before the company took over the plant. The Mexico Lumber Company did no prefabrication work prior to that being performed for the instant project. It states that it has not advertised for or otherwise solicited additional prefabrication work, since the full plant capacity is being utilized on this project. The plant has not been altered to provide for additional space or machinery, and it is presently stocked with lumber for the instant project only. Based on the above described circumstances, The Mexico Lumber Company does not appear to qualify is a materialman on the above project. The prefabrication operations constitute, in our opinion, those of a sub- contractor, and the employees engaged therein would be deemed laborers and mechanics employed in the development of the project here involved - and, hence entitled to the contract wage rates for their classification of work. The Executive Director of the Housing Authority for the City of Mexico should be so advised by your Office so that steps may be taken to secure compliance with the contract labor standards We would appreciate a final report in this matter when appropriate corrective action has been ac- complished. Very truly yours, Charles Donahue Solicitor of Labor By James M. Miller Assistant Solicitor

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ZCZC MIATCPAT3 ALL TTAA00 KNHC DDHHMM BULLETIN HURRICANE MITCH ADVISORY NUMBER 28 NATIONAL WEATHER SERVICE MIAMI FL 10 AM EST WED OCT 28 1998 ...MITCH POUNDING RELENTLESSLY THE COAST AND ISLANDS OF HONDURAS... A HURRICANE WARNING REMAINS IN EFFECT FOR THE CARIBBEAN COAST OF HONDURAS...GUATEMALA...BELIZE...THE YUCATAN PENINSULA OF MEXICO FROM CABO CATOCHE SOUTHWARD...INCLUDING THE OFFSHORE ISLANDS OF THESE AREAS. A TROPICAL STORM WATCH IS IN EFFECT FOR THE CAYMAN ISLANDS. INTERESTS ELSEWHERE IN THE NORTHWESTERN CARIBBEAN SEA SHOULD CLOSELY MONITOR THE PROGRESS OF THIS VERY DANGEROUS HURRICANE. AT 10 AM EST...1500Z...THE CENTER OF HURRICANE MITCH WAS LOCATED NEAR LATITUDE 16.4 NORTH...LONGITUDE 85.6 WEST OR ABOUT 25 MILES...35 KM...EAST OF THE ISLAND OF GUANAJA...AND ABOUT 30 MILES...50 KM...NORTH OF THE COAST OF MAINLAND HONDURAS. MITCH HAS BEEN NEARLY STATIONARY THIS MORNING AND LITTLE MOTION IS EXPECTED THROUGH TONIGHT. THIS MEANS THAT THE CORE OF THE HURRICANE WILL CONTINUE TO BATTER THE COAST AND NEARBY ISLANDS OF HONDURAS TODAY AND THAT MITCH IS LIKELY TO REMAIN A THREAT TO THE ENTIRE NORTHWESTERN CARIBBEAN FOR THE NEXT TWO DAYS...OR LONGER. MAXIMUM SUSTAINED WINDS ARE NEAR 120 MPH...195 KM/HR...WITH HIGHER GUSTS. MITCH REMAINS A DANGEROUS HURRICANE...CATEGORY 3 ON THE SAFFIR/SIMPSON HURRICANE SCALE. SOME ADDITIONAL WEAKENING IS POSSIBLE WHILE MITCH CONTINUES TO INTERACT WITH LAND. HURRICANE FORCE WINDS EXTEND OUTWARD UP TO 105 MILES...165 KM... MAINLY NORTHEAST FROM THE CENTER...AND TROPICAL STORM FORCE WINDS EXTEND OUTWARD UP TO 175 MILES...280 KM. ESTIMATED MINIMUM CENTRAL PRESSURE IS 948 MB...27.99 INCHES. RAINFALL TOTALS OF 15 TO 25 INCHES...WITH LOCALLY HIGHER AMOUNTS... ARE POSSIBLE OVER THE MOUNTAINS OF HONDURAS AND OTHER PARTS OF CENTRAL AMERICA. THESE RAINS COULD CAUSE LIFE-THREATENING FLASH FLOODS AND MUD SLIDES. DANGEROUS COASTAL FLOODING FROM STRONG ONSHORE WINDS AND LARGE BATTERING WAVES IS OCCURRING OVER MUCH OF THE NORTHWEST CARIBBEAN. THE WORST CONDITIONS ARE OCCURRING ALONG THE COAST OF HONDURAS AND THE OFFSHORE ISLANDS. OTHER LOCATIONS IN THE NORTHWESTERN CARIBBEAN ARE ALSO EXPERIENCING DANGEROUS CONDITIONS. REPEATING THE 10 AM EST POSITION...16.4 N... 85.6 W. MOVEMENT ...NEARLY STATIONARY. MAXIMUM SUSTAINED WINDS...120 MPH. MINIMUM CENTRAL PRESSURE... 948 MB. AN INTERMEDIATE ADVISORY WILL BE ISSUED BY THE NATIONAL HURRICANE CENTER AT 1 PM EST FOLLOWED BY THE NEXT COMPLETE ADVISORY AT 4 PM EST. RAPPAPORT STRIKE PROBABILITIES ASSOCIATED WITH THIS ADVISORY NUMBER CAN BE FOUND UNDER AFOS HEADER MIASPFAT3 AND WMO HEADER WTNT73 KNHC. NNNN

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[References -- 90-day Finding: Petition to List the Pygmy-Owl]{.underline} Abbate, D., A. Ditty, S. Richardson, and R. Olding. 1996. Cactus ferruginous pygmy-owl survey and nest monitoring in the Tucson Basin area, Arizona: 1996. Final Rep. Internal Enhance. #U95503, Arizona Game and Fish Dept., Phoenix. 35 pp. Abbate, D., S. Richardson, R. Wilcox, M. Terrio, and S. Belhumeur. 1999. Cactus ferruginous pygmy-owl investigations in Pima and Pinal counties, Arizona: 1997-1998. Arizona Game and Fish Dept. Reg. 5 Wildl. Prog., Phoenix. 83 pp. Abbate, D.J., W.S. Richardson, R.L. Wilcox, and S. Lantz. 2000. Cactus ferruginous pygmy-owl investigations in Pima and Pinal Counties, Arizona: 1999. Reg. V Wldlf. Prog. Arizona Game and Fish Dept. Tucson. 37 pp. Abouhaider, F. 1989. Influence of livestock grazing on saguaro seedling establishment. M.S. Thesis, Arizona State Univ., Tempe, AZ. 50 pp. American Ornithologists Union (AOU). 1957. Checklist of North American birds. 5^th^ Edition. 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Mitochondrial DNA variation and phylogeography of the ferruginous pygmy-owl (*Glaucidium brasilianum*). Conservation Genetics 7: 1 -- 12. Proudfoot, G.A., R.L. Honeycutt, R.D. Slack, and M.F. Ingraldi. 2006b. Variation in microsatellites of the ferruginous pygmy-owl (*Glaucidium brasilianum*). Conservation Genetics 7: 945 -- 956. Proudfoot, G.A., P.D. Teel, and R.M. Mohr. 2006c. Ferruginous pygmy-owl (*Glaucidium brasilianum*) and eastern screech owl (*Megascops asio*): new hosts for *Philornis mimicola* (Diptera: Muscidae) and *Ornithodoros concanensis* (Acari: Argasidae). Journal of Wildlife Diseases 42(4): 873 -- 876. Rosenberg, K.V., R.D. Ohmart, W.C. Hunter and B.W. Anderson. 1991. Birds of the lower Colorado River Valley. Univ. of Arizona Press, Tucson. 416 pp. Russell, S.M. and G. Monson. 1998. The birds of Sonora. Univ. of Arizona Press, Tucson. 360 pp. Schaldach, W.J., Jr. 1963. The avifauna of Colima and adjacent Jalisco, Mexico. W. Fdn. of Vert. Zool. 1 (1): 1-100. Smith, G., J.L. Holochek, and M. Cardenas. 1996. Wildlife numbers on excellent and good condition Chihuahuan Desert rangelands: an observation. Journal of Range Management 49(6): 489 -- 493. State of Arizona. 1990. Final report and recommendations of the Governor\'s riparian habitat task force. Executive Order 89-16. Streams and riparian resources. October 1990. Phoenix, AZ. 28 pp. Szaro, R.C. 1989. Riparian forest and scrubland community types of Arizona and New Mexico. Desert Plants 9: 70 -- 138. U.S. Fish and Wildlife Service (USFWS) 2007. Endangered species permit annual reports -- cactus ferruginous pygmy-owl survey and research reports (1997 -- 2007). Arizona Ecological Services Office, Tucson Suboffice, Tucson, AZ. U.S. Fish and Wildlife Service (USFWS). 2005a. Biological opinion for the construction of Route 232 on the Tohono O'odham Nation, Pima County, Arizona. AESO/SE 02-21-050F-0262, July 12, 2005. Phoenix, AZ. 26 pp. U.S. Fish and Wildlife Service (USFWS). 2005b. Biological opinion for the construction of the Tangerine Hills residential development in the Town Marana. AESO/SE 02-21-04-F-0105, February 11, 2005, Phoenix, AZ. 52 pp. U.S. Fish and Wildlife Service (USFWS). 2005c. Biological opinion for the construction of the Cascada mixed-use master planned community. AESO/SE 02-21-05-F-0607, December 15, 2005, Phoenix, AZ. 54 pp. U.S. Fish and Wildlife Service (USFWS). 2005d. Biological opinion for the construction of the Willow Ridge residential and commercial development. AESO/SE 02-21-05-F-0608, December 15, 2005, Phoenix, AZ. 48 pp. U.S. Fish and Wildlife Service (USFWS). 2004. Memo from Steve Spangle, AESO Field Supervisor to the Region 2 Assistant Regional Director on July 23, 2004 outlining the need to take proactive measures to protect hatch-year pygmy-owls due to reduced productivity and increased mortality as a result of long-term drought. 2 pp. U.S. General Accounting Office (USGAO). 1988. Public rangelands: some riparian areas restored but widespread improvement will be slow. Report to Congressional Requesters (GAO/RCED-88-105), U.S. General Accounting Office, Washington D.C. 79 pp. Van Devender, T.R., and M.A. Dimmit. 2000. Desert Grasses. [In]{.underline} S. J. Phillips and P. W. Comus (eds) A Natural History of the Sonoran Desert. Arizona-Sonora Desert Museum Press and University of California Press. 628 pp. van Rossem, A.J. 1945. A distributional survey of the birds of Sonora, Mexico. Occas. Pap. Mus. Zool. La. St. Univ. 21: 1 -- 379. Winter, L. and G.E. Wallace. 2006. Impacts of feral and free-ranging cats on bird species of conservation concern: a five-state review of New York, New Jersey, Florida, California, and Hawaii. The American Bird Conservancy, The Plains, VA. 27 pp.

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**Close-Out Report** on the *Department of Energy/* *National Science Foundation* *Committee* for the Technical, Cost, Schedule, and Management Review of the **U.S. LHC CMS** **DETECTOR** **PROJECT** May 21, 2003 ![](media/image2.wmf) ***U.S. Department of Energy*** ***and the*** ***National Science Foundation*** U.S. LHC JOINT OVERSIGHT GROUP April 4, 2003 TO: Mr. Daniel Lehman, Director, Construction Management Support Division, SC-81 DATE: March 31, 2003 RE: Request to Conduct a Review of the U.S. ATLAS and U.S. CMS Construction Projects During May 19-23, 2003 The Joint Oversight Group (JOG) for the U.S. LHC Program requests that you conduct a Review of the U.S. ATLAS and U.S. CMS Construction Projects at Brookhaven National Laboratory on May 19-23, 2003. The charge for this review is to assess: - Technical progress in each subsystem; - Schedule progress on completing the U.S. deliverables including installation; - Adequacy of the updated estimated cost to complete; and, - Project contingency budgets. Please provide a report on the review to this office by June 30, 2003. Mini-reviews were conducted of the U.S. ATLAS and U.S. CMS Construction Projects in December 2002. The review committees concluded that both projects were making good technical progress and costs were tracking close to plans, with no major schedule concerns. These reviews also concluded that planning for transition from the construction projects to M&O is well underway. The committee should assess progress on planning for this transition and consider the report from the U.S. LHC Detector M&O Evaluation Group, which will meet for the first time on April 8-10, 2003. We appreciate your assistance in this matter. As you know, these reviews are an important element of the Department of Energy/National Science Foundation (DOE/NSF) joint oversight of the U.S. LHC Program and help to ensure that the U.S. meets our commitments on cost and schedule. \[signed\] \[signed\] John R. O'Fallon John W. Lightbody, Jr. Co-chair Co-chair U.S. LHC Joint Oversight Group U.S. LHC Joint Oversight Group Department of Energy National Science Foundation ***U.S. Department of Energy*** ***and the*** ***National Science Foundation*** cc: James Decker, SC-2 Ken Stanfield, Fermilab Milton Johnson, SC-3 Thomas B.W. Kirk, BNL S. Peter Rosen, SC-20 William Willis, Columbia University Moishe Pripstein, SC-22 Dan Green, Fermilab Aesook Byon-Wagner, SC-223 Jane Monhart, CH/Fermi Area Office Marvin Goldberg, NSF James Yeck, CH/Fermi Area Office Jim Whitmore, NSF Pepin Carolan, CH/Fermi Area Office Steve Meador, SC-81 ![](media/image3.wmf) **Department of Energy/National Science Foundation** **Review Committee on the U.S. CMS Construction Project** **CONTENTS/WRITING ASSIGNMENTS** Executive Summary Meador/Yeck 1\. Introduction Meador/Yeck 2\. Technical Systems Evaluations 2.1 End Cap Muon (WBS 1.1) Foster/Subcommittee 1 2.1.1 Findings 2.1.2 Comments 2.1.3 Recommendations 2.2 Hadron Calorimeter (WBS 1.2) Michael/Subcommittee 2 2.3 Trigger and Data Acquisition (WBS 1.3) Haggerty/Subcommittee 3 2.4 Electromagnetic Calorimeter (WBS 1.4) Schamberger/Subcommittee 4 2.5 Forward Pixels (WBS 1.5) Nelson/Subcommittee 5 2.6 Common Projects (WBS 1.6) Baltay/Subcommittee 6 2.7 Silicon Tracker (WBS 1.8) Nelson/Subcommittee 5 3\. Cost Estimate Kerby (with input from other subcommittees) 4\. Schedule and Funding Kerby (with input from other subcommittees) 5\. Management (WBS 1.7) Baltay (with input from other subcommittees) [Appendices]{.underline} A. Charge Memorandum B. Review Participants C. Review Agenda D. Cost Table E. Schedule and Funding Charts F. Management Chart G. Action Items # 2.1 Endcap Muon (WBS 1.1) **(B. Foster)** **2.1.1 Findings** The Endcap Muon (EMU) system is 77% complete and on schedule to perform above-ground system tests as per CERN's V33 schedule. The assigned contingency on the ETC remains 50 percent, which is adequate for this subproject. Major production of the Cathode Strip Chambers (CSC) at Fermilab finished on the schedule originally established in 1998. Production and testing of the full complement of CSCs for the baseline detector at the four Final Assembly and Test (FAST) sites should be completed by the end of calendar '03. An incoming test and storage facility has been successfully established in the CERN ISR tunnel, and a throughput of production chambers has been established sufficient to support the installation schedule. Production of the on-chamber electronics has been completed and the integration and test of on-chamber electronics has gone relatively smoothly and on schedule. The FAST sites have proven successful at identifying and correcting a number of issues with the on-chamber electronics. The off-chamber electronics are in an advanced prototype stage. A beam test is currently underway to validate the performance of the off-chamber EMU electronics in beam conditions and rates comparable to that expected at the LHC. This effectively responds to a recommendation from last year's review. Successful beam test results will permit a final design review and production start in November '03, slightly ahead of the December '03 milestone. Final chamber mounting on the muon steel structures should commence in mid-June. This represents a slippage since the November '02 date projected at last year's review. Roughly half of this slippage appears to have been due to factors outside of CMS' control. Detailed planning exists for cabling, gas installation, and other infrastructure. Two workable alternatives have been developed for the HV system, with a decision scheduled for this summer following tests. The alignment system design and production is well advanced. The system is in production and on schedule to be available when the magnet test begins in early '05. **2.1.2 Comments** The EMU group continues to make excellent progress in all phases of the project. The Scope addition of the ME4/1 CSCs chambers appears not to have adversely affected the project schedule. Production of these chambers is to be completed FY'04 and common electronics has been adopted for these additional chambers. The group continues to exhibit due diligence to avoid major accidents which might derail the EMU project. These include cooling water spillages, "bad gas" incidents, large-scale mechanical or electrical mishaps, etc. The M&O plans are well advanced and reasonable. The question which arose at the April M&O review as to the adequacy of the Engineering and Technical manpower (1 vs. 8 FTEs) was resolved as having been due to miscommunication. An excellent candidate for the on-site M&O manager has been identified. It is important that this position be filled as proposed by summer '04. **2.1.3 Recommendations** 1. Early warning systems such as the "wet wire" leak detection system and the gas-gain monitoring tubes used at CDF may be worth considering as modest scope increases. 2. Redundant low-voltage power supplies should be considered for electronics in the collision hall. 3. The EMU group should work with CMS management to ensure that the YE1 cabling design and procurement takes place on a schedule which does not impede the installation of the YE1 chambers 4. It will be most efficient if the off-chamber electronics for the ME4/1 CSCs are incorporated in the main production run of off-chamber electronics. 2.2 HCAL (WBS 1.2) **(D. Michael)** ### 2.2.1Findings The U.S. HCAL sub-project is 82% complete on an updated estimate at completion of \$42,891k EAC. Important progress has been made in the last year in all of the subsystems, especially on the HF, HPD acquisition and testing and electronics systems. In the last year, a total of \$1.1M of contingency was used. The main uses were: - \$360k increase for overruns in the optics production at Fermilab, \$800k of which was already identified in a previous review. - \$250k increase for optical fiber cables and patch panel to connect the various segments of electronics. - \$267k engineering and \$94k production costs for the Gigabit Optical Links. This is a scope increase for the U.S. HCAL project which was undertaken to avoid possible delays in the previous U.S. responsibilities. - -\$170k for lower cost of production of HPDs The current project schedule shows a negative 8 month variance, primarily for production of the HCAL electronics. An additional negative variance exists for the HPD acquisition and testing. These variances are approximately the same as identified one year ago. However, we note that the planned HCAL vertical slice test has slipped from May 03 to Fall 03. The HCAL sub-project manager reports that they are working to a new schedule which reflects this variance but that U.S. CMS schedules have not yet reflected this new working schedule. Following some additional delays in the last year in starting production, HPD deliveries from DEP now have reached the planned maximum of 40 units per month. The testing capabilities at Minnesota are matched to this production rate. At this point, the acceptance rate of delivered tubes is 62%. At this time, MMM tubes out of a required NNN have been accepted. The yield is smaller than nominally planned. About half of the HPDs which have not yet been accepted do not meet the contract specifications. The other half have some anomalies which may not disqualify them for use but which has kept these tubes from being declared accepted at this time. All HPDs undergo an important two-week burn-in period as part of the testing. Good progress is being made on all of the electronics, including that to be installed in the readout boxes which represents the most critical path. It appears that the XXX ASIC fabrication has been successful after the "engineering" fabrication iteration and that the QIE ASIC is also working well. This will permit electronics fabrication to proceed soon. At this time, the group is waiting for additional assurance from test-beam operation this summer prior to proceeding with the final fabrication. Significant new results were presented on radiation and lifetime aging of the electronic boards and chips. Important progress was shown on the HF systems. Some of the most important progress was in the fabrication of the large mechanical components which is not a direct U.S. responsibility. However, getting this moving forward helps to make the U.S. contribution in the design, fiber acquisition and readout systems a contribution towards a complete system. The new manager for the HF appears to be having a very positive impact. Almost all of the fiber has been acquired, the PMTs have all been purchased and tested and the complete readout system is advancing well. The HCAL group is planning a vertical slice test/burn-in phase. Currently both are defined as part of M&O. Should delays occur in the critical path items the first impact will be a shortening of this test/burn-in phase. The HO RBX still does not have a final design. Although some float remains in the demand for this system, its production is lingering well behind the original schedule. Important progress from the 2002 test beam effort was shown. A 2003 testbeam effort is just now getting underway. Performance from the 2002 running was consistent with expectations for resolution and uniformity for all systems. The measured resolution was roughly 120%/sqrt(E) with a 5-7% constant term. In addition to the measured calorimetry performance, these run periods are also demonstrating a considerable ability of the HCAL group as a whole to meet tight schedule objectives. ### Comments Overall, the HCAL sub-project has made excellent progress in the last year. Particular highlights include successful test-beam operation, important progress on HF fabrication and important advances in design and testing and fabrication of readout box components, including ASIC fabrication and testing and HPD production and testing. Progress in the last year was good but the schedule remains very tight. Importantly, the group appears sufficiently well staffed to succeed in the face of tight schedules and is focused on achieving their installation objective. The main risk is likely not that the group cannot meet the defined installation schedule but that the installed readout box devices (which are very difficult to access) will have had less opportunity for full system burn-in tests than desired given the stringent requirements on failure rates once installed. It is important that management fight slips in order to keep as much of this pre-operational testing phase intact as possible. It is advisable that the group continue to find additional means of increasing the testing, where possible, for the readout boxes as a system. In the last year, the U.S. group decided to take on additional scope for the Gigabit Optical Links. This was a wise use of contingency to avoid possible delays to the completion of the critical readout boxes. The HCAL group is currently working to a schedule which is not represented in the main U.S. HCAL schedule. HCAL and U.S. CMS management should resolve this. The nominal working schedule is tight for completion of work for installation, but there is no action at this point which will significantly recover time from the HCAL working plan. At the same time, HCAL managers must work to avoid additional delays. Getting the electronics into full production is very important. Pushing forward with readout box assembly and testing is critical. Although HPD production and testing are now moving forward, it is possible that increasing the planned HPD "spares" pool to perhaps 20-25% of the total needed might be one way to mitigate risks of using "acceptable, but less than perfect" devices. More time would make such action unnecessary (or demonstrate it is necessary) but this would now delay the critical path. The U.S. HCAL group is responsible for providing optical fiber cables to connect the readout boxes to the main electronics systems. These cables must go through some patch panels and must also have provision for dealing with extra lengths of cable. The definition of this system is the responsibility of the CMS integration group but no final action has been taken yet. This presents a schedule risk for the U.S. groups to provide these cables in time. Decisions must be taken soon. ### Recommendations 1. U.S. CMS management should work with the CMS integration group to define the readout optical cable system for HCAL by Sep. 1 2003. 2. Plan as much burn-in testing time as possible for the completed readout boxes. Where possible, find ways to increase this time before boxes become too inaccessible. 2.3 Trigger and Data Acquisition (WBS 1.3) **(J. Haggerty)** **72.3.1 Findings** Excellent progress has been made on both trigger and data acquisition systems since the last review. The CMS management estimates that 65% of the trigger work is complete, which is consistent with information presented by the calorimeter and muon trigger groups. Many of the final boards are complete in both the calorimeter and muon trigger systems, and design and prototyping is well under way for all of them. The CMS management estimates that 24% of the data acquisition work is complete, consistent with the achievements presented. The data acquisition group completed an extensive document describing the design in the Technical Design Report of December 20002. **2.3.2 Comments** The slice test is an important reality check for both the trigger and data acquisition systems, and CMS management is to be commended for recognizing its importance. It is important that both trigger and data acquisition systems use this test to exercise their designs as thoroughly as possible. Significant additions have been made to the Wisconsin, MIT, and UCSD groups, consistent with previous recommendations, and these new hires have filled some essential needs. The data acquisition Technical Design Report describes a present state of the art data acquisition system that appears to be very well grounded in experience and prototyping. **2.3.3 Recommendation** Identify adequate manpower to work on the slice test at CERN while testing and production continue in the US, particularly on the muon trigger system. **2.4 Electromagnetic Calorimeter (WBS 1.4)** **(D. Schanbergr, K. Lang)** **2.4.1 Findings** The progress on the Electromagnetic Calorimeter (ECAL) of the U.S. CMS since the June 2002 DOE/NSF review has been mixed and included changes in deliverables. The US group is responsible for procurement of 1/3 of Avalanche Photodiodes (APDs) and providing about 4.5 FTEs for APD certification and characterization. The group will also supply a laser-based monitoring system for PWO crystals. Within the last year the scope of the monitoring expanded from using one blue laser to two blue lasers and one red laser as recommended by the 2002 DOE/NSF Review. In addition, the U.S. ECAL has been participating in the development of the front-end FPPA chip for the APDs, but the circuit turned out to be very difficult to fabricate and has only 30% production yield. The collaboration chose to pursue in parallel a more promising multi-gain preamplifier (MGPA) integrated circuit to be fabricated in deep sub-micron (0.25 um) technology. U.S. ECAL will fund 50% of MGPAs and their neutron irradiation testing effort. MGPA is not a baseline chip yet and its certification is underway. The group is also responsible for the delivery of parts of the fiber optic link for the barrel section as well as for the design and delivery of about 50% of the clock/control links. Finally, in response to general CMS needs, the group has recently taken up yet another responsibility of designing and fabricating parts of the low voltage power supply, and due to the early stages of the system specification the exact deliverables of this part are still not completely defined. The US ECAL system has maintained a solid progress in procuring and certification of the Hamamatsu's APDs. About 93,000 (out of 128,000) units have been delivered so far, testing is on schedule and projected to be complete in April 2004. Fermilab's electronics testing facility is being set up to test the MGPA chips. US ECAL would benefit from additional physicist manpower needed in the near future in the beam tests, system monitoring and calibration analysis, and the development of the low voltage power. Production and delivery of the PWO crystals which are not a US ECAL responsibility has slipped about half a year in the past year and is on the critical path. However, US deliverables are mostly decoupled from this potentially serious delay. Due to delays in the choice of preamps, the ADC purchase is still on hold. No participation in the slice test is presently be considered for any ECAL modules. 2.4.2 Comments: It is encouraging to observe that a lot of progress has been made on the front end preamplifier. Both the original and backup plans have made significant progress. While the baseline design is still the original Floating Point Pre-Amp (FPPA) version, which now have working prototypes, it is clear that the system costs will be very high. Every effort should be made to insure that the alternate Deep SubMicron (DSM) Multi-Gain Pre-Amp (MGPA) is made to work. This is a significant change to be making this late in the project, but appears to be appropriate. Having working electronics using this new design in time for next year's beam test which starts in April 2004 is vital for calibrating some supermodules with beam. Given less than a year, and still testing the first submission makes this a very aggressive schedule. Every effort should be made to meet this time scale and resources should be directed towards that end to ensure reliability. The same level of testing and certification as in the APD must be maintained. The low voltage system design for the ECAL is just getting started by a new group. No bottoms up cost estimate is available. It is not possible to evaluate if the contingency is adequate for the US deliverables part of this category. It appears that the design, specification, and the procurement plan of the data and trigger fiber optic links to the outside of the detector is complete and production is ready to start. The 12x receiver module, which is part of the optical link, is not yet budgeted for the barrel ECAL by CMS. The number of clock and control links has recently doubled and the US ECAL has not changed scope to instrument the entire barrel system. The ECAL system will not be a part of the "slice test". This will probably delay the understanding of integration issues associated with running with other detector subsystems. The laser calibration system is in good shape. The expansion from 1 to 3 lasers seems prudent but costly in M&O. In view of changes of US ECAL deliverables the M&O estimates should be re-evaluated. **2.4.3 Recommendations:** 1\) Make the MPGA decision no later than the end of Summer 2003. 2\) Consider alternate voltage regulators (or more of the same) which are not run close to their maximum rated current. 3\) Improve the project definition, and define a procedure for the end-game to maximize the use of available resources. **2.5 Forward Pixels (WBS 1.5)** **(H. Nelson, M. Crisler)** **2.5.1 Findings** The Forward Pixel subproject is 35% complete, with a contingency of approximately \$1.9M or 40% of the estimated cost to complete of \$4.9M. This subproject is nearing the end of development, and is planned to transition to construction in 2004 or 2005. The pixel cell size has been changed from 150μm by 150μm to 100μm by 150μm, corresponding to the change in the Read Out Chip (ROC) from the DMILL technology to ¼ μm technology. The ROC is responsibility of PSI (the Paul Scherrer Institute) in Switzerland. A set of sensors submitted by U.S. collaborators in 2001 was received in 2002. These sensors have been evaluated with 80% yield measured and radiation tests have been performed. The sensor design for the pixel forward disks is distinct from the design for the barrel pixel. About 300 ROC's, produced in DMILL technology and known as the PSI43 design, have been received and tested, and a yield of about 50% has been measured. These ROC's have and will be used to characterize the detectors, bump bonds, and readout chain. The new ROC design in ¼ μm, known as the PSI46 design, has been finalized at PSI and passed on (on 5/16/03) to CERN for checking and submission. The pixel size for PSI46 was changed, the overall dimensions are smaller than PSI43, and the power consumption is substantially smaller for PSI46 than for PSI43. The sensors are to be bump bonded to the ROC's. Three vendors (MCNC in the U.S., and IZM and VTT in Europe) are presently doing bump bonding. Working sensors bonded to DMILL ROC's are expected to arrive between August, 2003 and October, 2003. The chip that controls the ROC is the Token Bit Manager (TBM). All TBM's, for both the barrel pixel system (mostly a European responsibility) and for the U.S. forward disk pixel system are a responsibility of the U.S. Working TBM's, designed by the U.S. forward pixel group and produced in DMILL technology, were available and characterized last year. The TBM's are now being translated to ¼ micron, with submissions planned in June of 2003 and again in October of 2003. The ROC's sit on a Very High Density Interconnection (VHDI) flexible circuit. Tests of a VHDI populated with 5 ROCs, using one of 8 test stands produced by the forward pixel group, have been undertaken. The test stands simulate the complete readout stream, and allow further design and characterization of the downstream data acquisition system. Mechanical and thermal design and study has been advanced during the past year. Project manpower (less faculty) has increased from 6 FTE in 2001 to 11 FTE in 2002 to 14 FTE in 2003. **2.5.2 Comments** 2. This subproject remains on the cutting edge of technology advancement, with many associated risks. This subproject has never been planned to be online when beams are first available at the LHC, which explains the fraction of work completed being small. The pixel systems have been designed for relatively straightforward installation after first operation of the LHC. The high level of contingency is appropriate for this subproject. Communication between the U.S. forward pixel subsystem and European counterparts has improved over the past year. There is particularly close communication between the U.S. chip designers and their counterparts at PSI. The pixel dimensions changed from 150 μm by 150 μm to 150 μm by 100 μm, and the technology for all readout and data acquisition chips have been changed from DMILL to ¼ micron technology. There was no top-to-bottom evaluation of system consequences of these changes, as recommended in earlier reviews. Some consequences identified at this review, include enhanced mechanical clearances, and a reduction in heat production in the detector, appear beneficial. Essentially final mechanical and cooling designs can now be made. The ROC's and TBM's delivered so far have been useful for the development of system aspects of the forward pixel project, but less so than were anticipated. Many test stands are now able to read out a pixel slice, and soon sensors bump-bonded to ROC's will be available. Test beam work and a \`two-blade' system test are planned in the near future. There appears to be adequate technical manpower support for these activities. There is adequate scientific manpower, however, there is inadequate focus on certain tasks, including bump bonding and integration. The success of the system tests over the next two years depends on an increased level or participation from scientists in the subproject. We encourage the forward pixel scientists to exploit the test stands and detectors now available to characterize their systems. This activity is crucial for the timely success of the project. 3. **Recommendations** ```{=html}  ``` 1. Continue to improve communications between International CMS Management, US CMS Management, and the US Forward Pixel group. 2. Focus, in the next year, scientific manpower on system integration activities. 2.6 COMMON PROJECTS (WBS 1.6) **(P. Carolan)** **2.6.1 Findings and Comments** Common Projects is essentially (\~99%) complete. Procurement of superconductor for the CMS magnet has been completed. All Endcap Iron disks have been erected at the CERN CMS SX-5 surface building on budget and schedule. This accomplishment is due to good management, good design, and good workmanship from those who were involved. Cathode Strip Chamber mounts have been located with acceptable accuracy, requiring no corrective adjustment for the CSC mount mechanism. The only remaining costs are for magnet field mapping tasks (design and M&S), and projected costs for this has been incorporated into the latest EAC. There is no need to revise the Common Projects budget figure. **2.6.2 Recommendations** None. 7. **Silicon Tracker (WBS 1.7)** **(H. Nelson, M. Crisler)** 1. **Findings** The Silicon Tracker subproject is 33% complete, with a contingency of approximately \$1.2M or 53% of the estimated cost to complete of \$2.3M. This subproject consists of assembly from parts produced outside the U.S., and testing, qualification and installation of the assembled modules. Production facilities have been established at FNAL and UCSB, including functioning assembly robots (gantries), Model 8090 wirebonders, as well as burn-in and well advanced test procedures and facilities. At each site, the planned production rate is about 10 Tracker Outer Barrel (TOB) modules per day. New tasks undertaken include the assembly of hybrids with pitch adapters at UCSB; module diagnostics and repair at UCR, and sensor probing at Rochester. Delays associated with the hybrids have consumed a total compared to the original baseline of 12-15 months, and left little schedule float relative to the v33 schedule, although there is additional capacity that can in principal earn float back. The wirebonds on modules have been damaged during transit. Project manpower (less faculty) has increased from 1 FTE in 2001 to 11 FTE in 2002, to about 25 FTE in 2003. A further increase to 40 FTE is planned in 2004. 2. **Comments** The consumption of most of the remaining schedule float by more delays in the hybrids is worrisome. A delivery of hundreds of hybrids suitable for production is expected in the next few weeks. We commend the reactions of the silicon tracker group, which include the shouldering of new tasks designed to minimize the impact of further delays, and we also commend them for their ramp-up in manpower. The relationships of the U.S. CMS silicon tracker subgroup with International CMS are close, with good communication an well-coordinated efforts. Nevertheless, the production task that the silicon group faces could prove daunting. Continued adaptation to late arriving parts will be required, and a few delays due to peculiarities in delivered parts would push the project into multishift production to maintain the schedule. At the mid-year review six months from now it will be possible to evaluate whether the delivery of parts and production have achieved the ramp-up needed for timely completion of the project. 3. **Recommendations** Continue to develop and execute plans to handle the late arrival of parts, particularly the hybrids. **Cost, Schedule, Project Management (WBS 1.7) & Common Projects (WBS 1.6)** **Subcommittee 6:** Charles Baltay, Jim Kerby, Steve Meador **3. COST ESTIMATE** **3.1 Findings** The U.S. CMS total project cost remains at \$167.25 million. As reported at the end of March 2003, the project is 76 percent complete. Contingency as a percentage of remaining work is 49 percent. Table 3-1 compares the cost estimate from the June 2002 review to this review. **Table 3-1. U. S. CMS Cost Estimate** +------+----------------------------+-----------+---------+----------+ | | | **U.S. | | | | | | CMS | | | | | | Baseline | | | | | | Com | | | | | | parison** | | | +------+----------------------------+-----------+---------+----------+ | ## | ####### System or Item | **April | **March | **Diff | | #### | | 2002** | 2003** | erence** | | WBS | | | | | | | | **Base | **Base | | | | | Cost | Cost | | | | | (AY\$K)** | (A | | | | | | Y\$K)** | | +------+----------------------------+-----------+---------+----------+ | 1.1 | > End Cap Muon (EMU) | 38,885 | 39,786 | 901 | +------+----------------------------+-----------+---------+----------+ | 1.2 | > Hadron Calorimeter | 41,082 | 42,111 | 1,029 | | | > (HCAL) | | | | +------+----------------------------+-----------+---------+----------+ | 1.3 | > Trigger/Data Acquisition | 12,391 | 14,629 | 2,238 | | | > (Tridas) | | | | +------+----------------------------+-----------+---------+----------+ | 1.4 | > Electromagnetic | 12,136 | 10,745 | -1,391 | | | > Calorimeter (ECAL) | | | | +------+----------------------------+-----------+---------+----------+ | 1.5 | > Forward Pixels (FPIX) | 7,234 | 7,366 | 132 | +------+----------------------------+-----------+---------+----------+ | 1.6 | > Common Projects (CP) | 23,000 | 23,349 | 349 | +------+----------------------------+-----------+---------+----------+ | 1.7 | > Project Office (PO) | 6,642 | 7,047 | 405 | +------+----------------------------+-----------+---------+----------+ | 1.8 | > Silicon Tracker (SiTkr) | 3,353 | 3,382 | 29 | +------+----------------------------+-----------+---------+----------+ | > | | 144,723 | 148,415 | 3,692 | | U.S. | | | | | | > | | | | | | CMS | | | | | | > T | | | | | | otal | | | | | | > E | | | | | | stim | | | | | | ated | | | | | | > | | | | | | Cost | | | | | | > (A | | | | | | Y\$) | | | | | +------+----------------------------+-----------+---------+----------+ | > | | 22,527 | 18,835 | -3,692 | | Con | | | | | | ting | | | | | | ency | | | | | +------+----------------------------+-----------+---------+----------+ | > | | 167,250 | 167,250 | 0 | | U.S. | | | | | | > | | | | | | CMS | | | | | | > T | | | | | | otal | | | | | | > | | | | | | Pro | | | | | | ject | | | | | | > | | | | | | Cost | | | | | | > (A | | | | | | Y\$) | | | | | +------+----------------------------+-----------+---------+----------+ As of March 2003, the overall project cost variance is reported to be a positive 9,462M\$. At least 70% of this variance is understood by project management to be an artifact of the accounting system, and will be lowered as invoices for completed work are received. The overall project schedule variance is reported as a negative 10,136M\$. Of this, U.S. CMS management recognizes that a small number of these variances are related to critical path items, while the remainder are to U.S. CMS internal milestones or in delays in formally reporting work as complete. The funding profile for the construction project is adequate, and U.S. CMS has done an admirable job husbanding contingency such that it has remained around (or above) 50% of the remaining work for the past 5 years. 2. **Comments** The U.S. CMS team is commended for their use of project management tools and their understanding of the information provided by those tools. The U.S. CMS overall contingency situation is adequate to complete the project. The first priority of the U.S. CMS project remains the completion of the US deliverables in a timely manner. In the course of the next year, the U.S. CMS team may find itself in a position to use contingency to further assist the International CMS collaboration in completion of other portions of the detector. The committee supports the U.S. CMS construction project in this secondary goal. A contingency analysis was successfully completed by U.S. CMS and presented at the fall 2002 Quarterly Project Review. 3. **Recommendation** ```{=html}  ``` 1. Continue to monitor the contingency situation such that a decision on additional scope may be made within the next year. **4. SCHEDULE and FUNDING** **4.1 Findings** In 2002 CMS adopted a new schedule, consistent with CERN Installation schedule v33, and U.S. CMS effort is well matched to the new schedule. With the change in CERN schedule, DOE split the CD-4 completion date such that it is expected 95% of U.S. CMS will be complete at the end of FY2005, with the remaining 5% complete at the end of FY2007. The portions moved beyond the original 2005 end date are those U.S. CMS components dependent on items in the CERN schedule. **4.2 Comments** Overall the U.S. CMS schedule is reasonable. Frequent schedule updates provide planning and project execution information for U.S. CMS project and subproject teams. The schedule revision has been well used by U.S. CMS to plan detector slice commissioning tests of components above ground at CERN before installation. The current funding profile is provided in Figure 4-1. **Figure 4-1. U.S. CMS Funding and Commitments (Needs UPDATE)** ![](media/image4.wmf) **4.3 Recommendations** 1. Continue to work towards the CD-4A completion date, and closely monitor the CERN schedule for any further potential impacts. 2. Resolve outstanding schedule variances due primarily to administrative issues by September 1, 2003. **5. MANAGEMENT (WBS 1.7)** **5.1 Findings** The U.S. CMS project is now 76% complete. The completion of the project has been broken into two phases, CD-4a when the project is 95% complete by the end of FY 2005, and CD-4b for the remaining installation part up to FY 2008. The construction project appears on schedule and well within budget to achieve its stated goals. A total of \$28.8M of contingency has been expended so far. The estimate to complete the project is \$36.0M with a remaining contingency of \$18.8M. Management has a plan to maintain this 50% contingency to the end of FY 2005, and to keep a 100% contingency of the remainder of the construction project to FY 2008. The plan outlined by management for the next phase of the project, namely Pre-operations, Maintenance and Operations (M&O), Software and Computing (SWC), and R&D for the future LHC upgrades, seems fairly well advanced. A plan was presented to use the period after FY 2005, when most of the detector components have been completed, and the installation on time, to carry out detector subsystem tests ("slice tests") in the above ground buildings at the CERN site. The purpose of these tests is to increase the probability of an early start of the productive physics program. The Deputy Project Manager, who has been instrumental to keeping the construction project so well on track, is leaving the project in the very near future. 2. **Comments** The Review Committee feels that the U.S. CMS management has done an excellent job in carrying the construction project close to completion. Keeping such a complex enterprise on schedule and well within budget is a very significant achievement. The Committee feels that separating the completion of the construction project into two parts was very wise in that it separates the construction completion of the project mostly under U.S. control (CD-4a) from the installation (CD-4b) that is much more correlated to the overall CERN schedules. The U.S. CMS management should be given high accolades for their contingency experience of this project. The committee endorses the plan to keep a 50% contingency to close to the end of FY 2005 and 100% beyond. The U.S. CMS management should also be complimented for the initiation of the slice tests, which is a very sensible use of the time window opened up by the slippage of the overall LHC schedule. The M&O Plan presented by the management team seems sensible and sufficiently well thought out for this stage of the procedure. This is clearly a dynamic problem and flexibility should be allowed to adjust to needs and changes as they arise. The plan to keep the Category B efforts and costs specific to the detector components built by the U.S. CMS seems appropriate and practical. The Committee feels strongly that the departing Deputy Project Manager should be replaced by a professional, highly qualified in these areas. Thinking on this issue is naturally coupled to plans of how to change the top level management from a construction project to one that includes completion of the construction as well as looking forward to M&O and the general CMS Research program. An example of the future management structure might be: In this plan the replacement of the Deputy Project Manager could serve as the Construction Project Manager as well as the M&O Manager since efforts on the first will be winding down as the second one builds up, and the two require similar skills. 3. **Recommendations** ```{=html}  ``` 1. Replace the departing Deputy Project Manager with a strong professional by September 1, 2003. 2. Work to maintain the 50% contingency up the end of FY 2005 and a 100% contingency of the remaining construction funds to FY 2008.

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# Cosmic Times 2006 Glossary acoustic of or relating to sound anisotropy The property of having measurements that differ when measured in a different direction. astrophysicist A person who studies the part of astronomy that deals principally with the physics of the universe, including luminosity, density, temperature, and the chemical composition of stars, galaxies, and the interstellar medium. blackbody radiation Blackbody radiation is produced by an object which is a perfect absorber of heat. Perfect absorbers must also be perfect radiators. For a blackbody at a temperature T, the intensity of radiation emitted I at a particular energy E is given by Plank\'s law: I(E,T) = 2 E^3^\[h^2^c^2^(e^E/kT^ - 1)\]^-1^ where h is Planck\'s constant, k is Boltzmann\'s constant, and c is the speed of light. cosmic microwave background (CMB) The background of radiation mostly in the frequency range 3 x 10^8^ to 3 x 10^11^ Hz discovered in space in 1965. It is believed to be the cosmologically redshifted radiation released by the Big Bang itself. cosmology The astrophysical study of the history, structure, and dynamics of the universe. cosmological constant A constant term (labeled Lambda) which Einstein added to his general theory of relativity in the mistaken belief that the Universe was neither expanding nor contracting. The cosmological constant was found to be unnecessary once observations indicated the Universe was expanding. Had Einstein believed what his equations were telling him, he could have claimed the expansion of the Universe as perhaps the greatest and most convincing prediction of general relativity; he called this the \"greatest blunder of my life\". cosmos The universe as a whole dark energy Dark energy is a hypothesized form of energy in space that exerts a negative pressure. This changes the gravitational effect to account for the differences between the theoretical and observational results of gravitational effects on visible matter. dark matter Name given to the mass whose existence is deduced from the analysis of galaxy rotation curves but which until now, has escaped all detections. There are many theories on what dark matter could be. Not one, at the moment is convincing enough and the question is still a mystery. dwarfed Appearing smaller or inferior fluctuations Variations in the primordial universe Integrated Sachs-Wolfe Effect The Sachs-Wolfe effect, named after Rainer Kurt Sachs and Arthur Michael Wolfe, is a property of the cosmic microwave background radiation (CMB), in which photons are gravitationally redshifted, and the spectrum appears uneven. luminous Emitting light Near-infrared telescopes. Near-infrared telescopes collect light in the region of the electromagnetic spectrum just below visible light. Whereas, most infrared radiation is warm, near-infrared waves are not hot at all -- in fact, you cannot even feel them. These shorter wavelengths are the ones used by your TV\'s remote control. optical telescopes A telescope that collect light in the region of the electromagnetic spectrum that is visible light. polarization A special property of light; light has three properties, brightness, color and polarization. Polarization is a condition in which the planes of vibration of the various rays in a light beam are at least partially aligned. quintessence A hypothetic form of dark energy, a scalar field that accelerated the expansion of the universe. remnant Left over; a surviving trace or vestige Standard candles An object in the universe of known luminosity that can be used to calculate distances. supernova $a$ The death explosion of a massive star, resulting in a sharp increase in brightness followed by a gradual fading. At peak light output, these type of supernova explosions (called Type II supernovae) can outshine a galaxy. The outer layers of the exploding star are blasted out in a radioactive cloud. This expanding cloud, visible long after the initial explosion fades from view, forms a supernova remnant (SNR). $b$ The explosion of a white dwarf that has accumulated enough material from a companion star to achieve a mass equal to the Chandrasekhar limit. These types of supernovae (called Type Ia) have approximately the same intrinsic brightness, and can be used to determine distances. Theory of General Relativity The geometric theory of gravitation developed by Albert Einstein, incorporating and extending the theory of special relativity to accelerated frames of reference and introducing the principle that gravitational and inertial forces are equivalent. The theory has consequences for the bending of light by massive objects, the nature of black holes, and the fabric of space and time undulations A wavelike motion in a medium without permanent movement of the particles. Wilkinson Microwave Anisotropy Probe (WMAP) A NASA satellite designed to detect fluctuations in the cosmic microwave background. From its initial results published in Feb 2003, astronomers pinpointed the age of the universe, its geometry, and when the first stars appeared.

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**ATTACHMENT 71111.20** INSPECTABLE AREA: Refueling and Other Outage Activities CORNERSTONES: Initiating Events (20%) > Mitigating Systems (70%) > > Barrier Integrity (10%) INSPECTION BASES: Shutdown risk can be high for deficiencies that occur when vital SSCs are not available. Due to potentially high number of out‑of‑service SSCs during the fuel handling period of a refueling outage and the potential off‑normal plant configurations during non‑fuel handling outage periods, the risk of deficiencies can be high. Times of reduced inventory are the most critical. LEVEL OF EFFORT: The inspection is performed on an outage basis, whether the outage is for refueling or other activities. The inspection should focus on potential deficiencies with: RHR, containment isolation during reduced water inventory, mid‑loop operations (PWR), cooldown/heatup/startup, availability of alternate power sources/switchyard, and refueling operations. All inspection sections are to be conducted for refueling outages, if possible. For non‑refueling outages, the inspectors should perform applicable non‑refueling related sections consistent with the length and scope of the outage. > The requirement to enter IP 71111.20 should be if any shutdown occurs > that requires a plant cool down and/or if the containment is entered > for a shutdown tour. If a non-complicated reactor trip occurs, and the > licensee chooses to conduct a start up without entering the > containment, then IP71153 should be utilized for inspection of the > event, corrective actions, and start up activities. This distinction > also applies to the Resource Estimate and Completion Status sections. 71111.20‑01 INSPECTION OBJECTIVE 01.01 Evaluate licensee outage activities to verify that licensees consider risk in developing outage schedules; adhere to administrative risk reduction methodologies they develop to control plant configuration; have developed mitigation strategies for losses of key safety functions; and adhere to operating license and technical specification requirements that ensure defense‑in‑depth. 01.02 Ensure areas not accessible during at‑power operations are inspected to verify that safety‑related and risk significant SSCs are maintained in an operable condition. 01.03 Evaluate licensee activities during reduced inventory and mid‑loop conditions to ensure that they appropriately manage risk using the commitments in their response to GL 88‑17. 71111.20‑02 INSPECTION REQUIREMENTS 02.01. [Review of Outage Plan]{.underline}. Prior to the outage, review the licensee=s outage risk control plan and verify that the licensee has appropriately considered risk, industry experience and previous site specific problems. Confirm the licensee has mitigation/response strategies for losses of key safety functions. 02.02 [Monitoring of Shutdown Activities]{.underline}. Observe portions of the cooldown process to verify that technical specification cooldown restrictions are followed. If the outage allows an opportunity for containment entry, the inspector should conduct a thorough containment walkdown as soon as reasonably possible after shutdown to verify that structures, piping, and supports in containment do not include stains or deposited material that could indicate previously unidentified leakage from components containing reactor coolant. Consideration should also be given to inspect other plant areas which are inaccessible during power operations for evidence of leakage and integrity of structures, systems, and components. 02.03 [Licensee Control of Outage Activities]{.underline}. Verify that the licensee maintains defense in‑depth commensurate with the outage risk control plan for key safety functions and applicable technical specifications when taking equipment out of service. Verify that configuration changes due to emergent work and unexpected conditions are controlled in accordance with the outage risk control plan. For plants that use remote work centers, verify that control room operators are kept cognizant of plant configuration. Pick several items per week in the following areas based on risk. Reviewing risk significant items or activities should take precedence over completion of the list. a. [Clearance Activities]{.underline}. Verify that tags are properly hung and/or removed, and that associated equipment is appropriately configured to support the function of the clearance. Verify implementation of licensee procedures for foreign material exclusion. b. [Reactor Coolant System Instrumentation]{.underline}. Verify that reactor coolant system (RCS) pressure, level, and temperature instruments are installed and configured to provide accurate indication; and that instrumentation error was accounted for. Verify that instruments track with changes in plant conditions. c. [Electrical Power]{.underline}. Verify that the status and configurations of electrical systems meet technical specifications requirements and the licensee=s outage risk control plan. Verify that switchyard activities are controlled commensurate with safety and are consistent with the licensee=s outage risk control plan assumptions. d. [Decay Heat Removal (DHR) System Monitoring]{.underline}. Observe DHR parameters to verify that the system is properly functioning. For PWRs, when the licensee is relying on the steam generators to provide a backup means of DHR by singlephase natural circulation, verify that the licensee has confirmed the viability of this method of cooling. Verify that training and procedures are in place for BWR alternate decay heat removal systems. e. [Spent Fuel Pool Cooling System Operation]{.underline}. Verify that outage work is not impacting the ability of the operations staff to operate the spent fuel pool cooling system during and after core offload. f. [Inventory Control]{.underline}. Verify that the flow paths, configurations, and alternative means for inventory addition are consistent with the outage risk plan. For activities which have the potential to cause a loss of inventory, verify that there are adequate controls in place to prevent inventory loss. g. [Reactivity Control]{.underline}. Verify that the licensee is controlling reactivity in accordance with the technical specifications. Verify that activities or SSCs which could cause unexpected reactivity changes are identified in the outage risk plan and are controlled accordingly. h. [Containment Closure]{.underline}. For PWRs, verify that licensees control containment penetrations in accordance with the refueling operations technical specifications and can achieve containment closure[^1] at all times. For BWRs, verify that licensees maintain secondary containment as required by technical specifications. 02.04 [Reduced Inventory and Mid‑Loop Conditions]{.underline}. Review the licensee=s commitments from GL 88‑17 and confirm by sampling that they are still in place and adequate. Periodically, during the reduced inventory and mid‑loop conditions, verify that the configurations of the plant systems are in accordance with those commitments. During mid‑loop operations, observe the effect of distractions from unexpected conditions or emergent activities on operator ability to maintain required reactor vessel level. In addition to reduced inventory and mid‑loop conditions, assess outage activities that are planned to be conducted during other periods when there is a short time‑to‑boil, and implement appropriate portions of Section 03.04. 02.05 [Refueling Activities]{.underline}. Verify that fuel handling operations (removal, inspection, sipping, reconstitution, and insertion) and other ongoing activities are being performed in accordance with technical specifications and approved procedures. Verify that refueling seals have been properly installed and tested, and that foreign material exclusion is being maintained in the refueling, spent fuel, and suppression pool areas. Verify that the location of the fuel assemblies is tracked, including new fuel, from core offload through core reload. Verify that fuel assembles were loaded in the reactor core locations specified by the design. Verify that discharged fuel assemblies are placed in allowable locations in the Spent Fuel Pool. 02.06 [Monitoring of Heatup and Startup Activities]{.underline}. If containment was opened, the inspector shall conduct a thorough inspection and walkdown of containment prior to reactor startup. Particular attention should be given to areas where work was completed to verify no evidence of leakage, and to verify that debris has not been left which could affect performance of the containment sumps. Verify on a sampling basis that technical specifications, license conditions, and other requirements, commitments, and administrative procedure prerequisites for mode changes are met prior to changing modes or plant configurations. The inspector should verify RCS integrity by reviewing RCS leakage calculations, and verify containment integrity by reviewing the status of containment penetrations and containment isolation valves. Review reactor physics testing results to verify that core operating limit parameters are consistent with the design. 02.07 [Identification and Resolution of Problems]{.underline}. Verify that the licensee is identifying problems related to refueling outage activities at an appropriate threshold and entering them in the corrective action program. For a sample of significant problems documented in the corrective action program, verify that the licensee has identified and implemented appropriate corrective actions. See Inspection Procedure 71152, AIdentification and Resolution of Problems,@ for additional guidance. 71111.20‑03 INSPECTION GUIDANCE [General Guidance]{.underline} This activity is also addressed in other inspectable areas (i.e., maintenance work prioritization and control, inservice inspection activities). In a refueling or other outage this procedure should take precedence in relation to outage planning and configuration management reviews. The inspector may refer to IMC 0609, Appendix G, AShutdown Operations Significance Determination Process,@ which contains checklists of various plant configurations that ensure licensees are maintaining an adequate mitigation capability. Certain plant configurations have higher risks than others. For these configurations, the checklists have more guidelines for each safety function. The following are examples of high risk configurations for PWRs: (1) RCS boundary is breached and the steam generators cannot be used for DHR; and (2) during mid‑loop conditions, it is more likely that DHR can be lost due to poor RCS level control or poor DHR flow control. Examples for BWRs are: (1) technical specifications allow for more equipment to be inoperable in cold shutdown than in hot shutdown; and (2) technical specifications allow SRVs to be inoperable, but they are needed to provide an alternate decay heat removal path and pressure control if the DHR system is lost. Additional general guidance is provided in the following table. +-------------+---------------------------+----------------------------+ | **CORNERST | **RISK PRIORIT Y** | **EXAMPLES** | | ONE** | | | +-------------+---------------------------+----------------------------+ | INITIATING | Equipment or actions that | Inadvertent lowering of | | | could cause | reactor vessel | | EVENTS | | | | | a loss of decay heat | level in mid‑loop due to | | | removal. | operator | | | | | | | Actions that could affect | inattention. | | | reactor | | | | | Improper hanging or | | | vessel level. | restoration of | | | | | | | Activities that | clearance tags that could | | | contribute to loss of off | affect reactor | | | | | | | site power or station | vessel level, DHR, or | | | blackout. | electrical power | | | | | | | | availability. | | | | | | | | Actions that could cause | | | | reactor vessel | | | | | | | | level indication to be | | | | inaccurate. | +-------------+---------------------------+----------------------------+ | MITIGATING | Equipment used to | Activities that affect the | | | mitigate a loss of | ability of pumps | | SYSTEMS | | | | | decay heat removal. | designated in the shutdown | | | | risk | | | Equipment used to | | | | mitigate a loss of | analysis to add water to | | | | the reactor | | | reactor vessel level. | | | | | vessel. | | | | | | | | Activities that affect the | | | | water source | | | | | | | | for any of the pumps | | | | designated in the | | | | | | | | shutdown risk analysis. | | | | | | | | Activities that affect the | | | | electrical power | | | | | | | | sources designated in the | | | | shutdown | | | | | | | | risk analysis. | | | | | | | | Failure to verify | | | | refueling interlocks. | +-------------+---------------------------+----------------------------+ | BARRIER | Actions that affect the | Exceeding the required | | | fuel cladding | heatup or | | INTEGRITY | | | | | barrier, reactor | cooldown rates. | | | vessel/reactor coolant | | | | | Failure to establish | | | system integrity, or | containment | | | affect containment | | | | | integrity during fuel | | | integrity. | movement. | +-------------+---------------------------+----------------------------+ [Specific Guidance]{.underline} 03.01 [Review of Outage Plan]{.underline}. Defense‑in‑depth should be maintained. Backup SSCs should be identified for those taken out of service when removal of the SSC from service affects a key safety function. Consult with the regional SRA to evaluate risk insights regarding the outage plan. Risk should be considered for areas such as overlap of activities, handling of heavy loads, scaffolding erection, and the increased potential for a fire or internal flood. 03.02 [Monitoring of Shutdown Activities]{.underline}. Cooldown rates should be spot checked to verify they meet technical specification requirements, thus avoiding overcooling which can challenge the reactor coolant system boundary. The period during transfer to shutdown cooling can be a time when risk of overcooling is the greatest. Containment should be inspected as soon as practicable after shutdown to verify there is no evidence of RCS leakage (e.g., boric acid residue) which might later become obscured due to licensee outage work. The containment sump should be inspected for damage or debris. Supports, braces, and snubbers should be inspected to verify there is no damage or deformation due to excessive stress, water hammer, or aging. The scope for the containment inspection should be based on inspector judgement and discussions with region management. Items to consider should include plant/containment type, ALARA, industrial/personnel safety (heat stress), duration of the outage, and the amount of unidentified leakage prior to the shutdown. 03.03 [Licensee Control of Outage Activities]{.underline} IP 71111.13, A Maintenance Risk Assessments and Emergent Work Evaluation,@ indicates that IMC 0609, Appendix G checklists are to be used by inspectors to evaluate whether licensee risk assessments (performed in accordance with 10 CFR 50.65(a)(4)) addressed SSCs necessary to support the shutdown key safety functions. Outage configuration management is an important issue related to shutdown risk. The adequacy of the methods used and the operators= understanding of plant configuration are key to controlling shutdown risk. When equipment is taken out of service for maintenance, declaring an SSC available should be consistent with the SSC=s functional requirements. Operators and outage control personnel should be aware of which equipment is relied on for the key safety functions. This extends to the containment sump (PWRs) or the suppression pool (BWRs), and associated water flow paths. Equipment designated to perform a key safety function should not be adversely affected by outage activities. Contingency plans for restoring key safety functions should be available. Contingency plans should include a prioritization of equipment to use. Emergent work (maintenance, surveillance, etc.) or planned work which exceeds scheduled time windows should be controlled to prevent overlap with other activities when such overlap can potentially perturb the plant or affect a key safety function. Risk assessments should be maintained current with respect to emergent work and schedule changes. Licensees should assess overlapping or potentially overlapping activities and the effects of these activities on the key safety functions. Other baseline inspection procedures address observation of some activities during an outage. The following areas should focus on only those functions or components related to shutdown risk. The sampling of the activities should be based on the risk importance of the function or equipment in the particular mode or configuration. See IMC, 0609, Appendix G. a. [Clearance Activities]{.underline}. Improper performance of clearance activities can increase risk by causing internal flooding, causing increased ignition sources, and affecting defense‑in‑depth. Clearance tags for boundaries associated with risk significant maintenance or modifications should be hung on the proper equipment and equipment configured such that they do not increase the risk associated with the relied upon remaining equipment. > Examples of risk significant clearance activities include: 1) > boundaries for a water system that will be open for maintenance in > areas that are inclose proximity to risk important equipment; 2) > clearance removal where return of electrical power to particular > motor‑operated valves could cause the valves to reposition due to > locked in signals, in particular those that have direct interaction > with the reactor coolant system, decay heat removal, or spent fuel > pool cooling. At multi‑unit sites, be aware of wrong unit and common > unit tagging/clearance issues. b. [Reactor Coolant System Instrumentation]{.underline}. Instrumentation plays a key role in risk reduction during shutdown conditions. In particular, level instrumentation is a key factor during reduced inventory and mid‑loop, and pressure indication during loss of decay heat removal. RCS pressure, level and temperature instruments and associated components (including piping, RCS and connected system vents, etc.) should be installed and configured to provide accurate indication. Independent instrumentation for each parameter should be provided to minimize the potential for common cause failure. > For level instruments, tubing runs should not have elevation changes > that could trap either liquid or vapor/gas in the instrument lines > (i.e., loop seals). If normal operating level instrumentation is used, > the effects of changes in water density (due to lower temperature) > should be considered. Operators should be aware of the effect of loss > of DHR on the plant=s level instrumentation due to heatup and > pressurization. > > For temperature instruments, operators should be aware of the effect > of loss of DHR on the plant=s temperature indication and the potential > for discrepancies between the temperature indications and the actual > plant state. Temperature may be measured in the DHR loop in which case > interruption, bypass, or partial bypass of DHR flow could lead to > incorrect and non‑conservative temperature indications. c. [Electrical Power]{.underline}. Loss of offsite power and station black out are major factors in shutdown risk. Control of electrical power to components is critical to risk during outages since components are deenergized and reenergized with systems in unusual/disassembled configuration. This can cause unexpected drops or increases in RCS level, internal flooding, false protective system actuations, as well as significant personnel hazards. The most important are those that would contribute to loss of decay heat removal. In addition, the defense‑in‑depth called for in the outage risk control plan should be maintained. d. [DHR System Monitoring]{.underline}. Loss of decay heat removal is a primary contributor to shutdown risk at PWRs. An important attribute to look at when decay heat removal is lost is RCS pressure relief due to the pressure increase with temperature. When the licensee is relying on the steam generators to provide a backup means of DHR by single‑phase natural circulation, verify: 1. procedures for these methods are derived from analyses and the required equipment is available; 2. RCS pressure boundary is closed; 3. steam generator tubes are full; 4. Pressure control capability in the RCS is maintained to ensure subcooling margin; 5. capability to feed the steam generators; and 6. capability to remove steam from the steam generators (e.g., atmospheric relief valves, condenser with steam dump capability, etc.). > Perform walkdown/inspection when the reactor inventory is lowest and > soon after shutdown, i.e., when the time‑to‑boil is lowest. e. [Spent Fuel Pool Cooling System Operation]{.underline}. Spent Fuel Pool Cooling recovery procedures based on current/bounding heat loads should exist for situations involving loss of spent fuel pool cooling. Operators should be trained on backup equipment and procedures for loss of spent fuel cooling. Equipment designated in the recovery procedures should be readily available, dedicated, not obstructed by outage activities, and compatible with equipment that it must be connected to. Instrumentation, alarms, equipment, instructions, and training should be provided to alert operators for the need and enable them to add water to the spent fuel pool if it becomes necessary. f. [Inventory Control]{.underline}. Problems with the RCS pressure boundary have been found to be significant in analyzing shutdown risk insights. Examples of loss of inventory paths include: 1. DHR to suppression pool on BWRs; 2. main steam line paths including SRV removal, automatic depressurization system testing, main steam isolation valve maintenance, etc. on BWRs; 3. DHR system cross tie valves, thimble tube seals, and steam generator nozzle dams for PWRs; 4. maintenance activities on connected piping or components that are at an elevation lower than the vessel flange on all plants; and 5. paths for inter‑system LOCA such as maintenance and testing on the nonoperating loop Low Pressure Injection (LPI) train or LPI testing on return back to RWST. > For BWRs, automatic isolation on low level should not be disabled. > This signal can mitigate a loss of inventory from the DHR system to > the suppression pool. Maintaining this signal operational is required > by some technical specifications. In addition, main steam line plugs > should be considered for work activities on the main steam system. > Reactor cavity seal should be inspected and maintained to preclude > potential seal failure. Systems required for proper operation of the > reactor cavity seal (e.g., instrument air) should also be maintained > to prevent failure of the seal. Adequate vents should be provided to > accomplish gravity feed and low pressure makeup when relied upon. g. [Reactivity Control]{.underline}. For PWRs, the licensee should identify and implement appropriate administrative controls on potential boron dilution paths. Uniform RCS boron concentration is important, therefore, addition of water with a lesser boron concentration or starting of reactor coolant pumps which could inject water with a lesser boron concentration into the core should be controlled. The licensee should have adequate controls during refueling to preclude improper sequencing of control rods or fuel assemblies, which can allow core regions to approach criticality without early detection by a source range monitor. h. Containment Closure. Verify proper containment configuration during risk‑significant evolutions (e.g., PWR mid‑loop operations, BWR cavity drain down) including provisions for achieving containment closure in a timely manner during periods when containment is permitted to be open. 03.04 Reduced Inventory and Mid‑Loop Conditions. **The period of reduced inventory and mid‑loop are the times of greatest risk during shutdown**. The inspector should review the planned activities during those conditions and consider the risk effect of those activities on the critical parameters that affect time‑to‑boil. Review unit/outage specific time‑to‑boil curves. The inspector should: a. Review licensee commitments to GL 88‑17. b. Verify the licensee has reviewed their controls and administrative procedures governing mid‑loop operation, and have conducted training for mid‑loop operation. c. Verify that procedures are in use for: 1. Containment closure capability for mitigation of radioactive releases. 2. Identifying unexpected RCS inventory changes and verifying an adequate RCS vent path during RCS draining to mid‑loop. 3. Emergency/abnormal operation during reduced inventory. d. Verify that: 1. Indications of core exit temperature are operable and periodically monitored (typically at least 2 independent and continuous indications). 2. Indications of RCS water level are operable and periodically monitored (typically at least 2 independent and continuous indications). 3. RCS perturbations are avoided. 4. Means of adding inventory to the RCS are available (typically at least 2 means in addition to RHR pumps). 5. Reasonable assurance is obtained that not all hot legs are simultaneously blocked by nozzle dams unless the upper plenum is vented. 6. Contingency plans exist to repower vital electrical busses from an alternate source if the primary source is lost. Time‑to‑boil can be less than 30 minutes when decay heat removal is lost in mid‑loop conditions. During mid‑loop operations the operator provides the only prevention/mitigating function for a loss of reactor vessel level prior to the loss of decay heat removal. There generally are no alarms that provide indication of loss of level in the mid‑loop condition. Operator attention to plant conditions is the key prevention aspect for a loss of decay heat removal event. The inspector should closely observe operator performance during drain down, and frequently observe control room activities while the plant is in reduced inventory or mid‑loop conditions. Specifically, the inspector should observe how distractions, such as unexpected conditions and emergent work, affect operator focus. 03.05 [Refueling Activities]{.underline}. Fuel loading should be performed in a manner to maintain coupling between the instruments used for monitoring reactivity and fuel loaded in any location within the vessel. To verify that the fuel cladding barrier will not be challenged, verification that fuel assembles were loaded in the correct reactor core locations may be accomplished by reviewing licensee videotape and other records of the core loading. Another method is to review physics testing to verify the testing was adequately conducted and that core operating limit parameters are as predicted by the design. 03.06 [Monitoring of Restart Activities]{.underline}. This activity should focus on the licensee having the required equipment available for mode changes to ensure that risk is kept to a minimum. The activity can be conducted by direct observation of system/equipment operation, documentation reviews, or a combination of both. The sampling should be adequate to provide reasonable verification that the licensee is following the administrative program laid out to ensure that risk is maintained at a minimum level. Prior to containment closure, a thorough walkdown of containment shall be completed to verify there is no evidence of leakage, tags are cleared, there is no obvious damage to passive systems, and there is no debris left that might contribute to ECCS sump blockage. The inspector should observe that technical specifications RCS boundary leakage requirements are met prior to the applicable mode changes and that containment integrity is established prior to entering the applicable technical specifications mode. 03.07 [Identification and Resolution of Problems]{.underline}. No guidance provided. 71111.20‑04 RESOURCE ESTIMATE Inspection resources are affected by the length of the outage, amount of risk significant work and the plant configuration. The inspection resources for performing this procedure at each reactor unit is estimated at 70 to 100 hours each refueling outage. Inspection resources are estimated at no more than 70 hours annually for non‑refueling and forced outages, regardless of the number of units. Some testing activities normally occur during refueling outages. These include physics testing, emergency diesel generator time response testing, RCS hydrostatic testing, control rod scram time testing, rod drop time testing, reactor trip breaker testing, and containment sump valve testing. Inspection of these activities that is not related to shutdown risk should be charged to IPs for post‑maintenance and surveillance testing (IP 71111.19 and IP 71111.22). IMC 2515, Appendix D, Plant Status, states that Aduring changing plant conditions (plant refueling or maintenance outages), the frequency and scope of plant status tours may be increased to tour areas not normally accessible and to observe equipment in an abnormal lineup.@ This effort should be charged to IMC 2515, Appendix D. 71111.20‑05 COMPLETION STATUS Inspection of the minimum sample size will constitute completion of this procedure in the Reactor Programs System (RPS). That minimum sample size will consist of 1 sample for each outage at the facility. For refueling outages, the sample consists of all the requirements in this procedure, if possible. For other outages, the sample consists of the applicable portions of this procedure. 71111.20‑06 REFERENCES GL 87‑12, ALoss of Residual Heat Removal (RHR) While the Reactor Coolant System (RCS) is Partially Filled,@ July 9, 1987. NUREG‑1269, ALoss of Residual Heat Removal System, Diablo Canyon, Unit 2, April 10, 1987,@ June 1987. GL 88‑17, ALoss of Decay Heat Removal, 10 CFR 50.54(f),@ October 17,1988. NUREG‑1410, ALoss of Vital AC Power and the Residual Heat Removal System During Mid‑Loop Operations at Vogtle Unit 1 on March 20, 1990,@ June 1990. NUREG‑1449, AShutdown and Low‑Power Operation at Commercial Nuclear Power Plants in the United States,@ September 1993. IN 93‑72, AObservations from Recent Shutdown Risk and Outage Management Pilot Team Inspections,@ September 14, 1993. NUREG‑0700, REV.1, AHuman System Interface Design Review Guideline,@ June, 1996 Generic Letter 98‑02, ALoss of Reactor Coolant Inventory and Associated Potential for Loss of Emergency Mitigation Functions while in a Shutdown Condition,@ May 28, 1998 Information Notice 95‑03, Loss of Coolant Inventory and Associated Potential Loss of Emergency Mitigation Functions while in a Shutdown Condition,@ January 18, 1995 Inspection Manual Chapter 0609, Appendix G, AShutdown Operations Significance Determination Process@ Inspection Procedure 71111.13, AMaintenance Risk Assessments and Emergent Work Control@ Inspection Procedure 71152, AIdentification and Resolution of Problems@ END **Revision History for IP 71111.20** +--------+--------+-----------------------+-----+-------+--------------+ | Comm | Issue | Description of Change | Tr | Tra | Comment | | itment | Date | | ain | ining | Resolution | | Tr | | | ing | Compl | Accession | | acking | | | Nee | etion | Number | | Number | | | ded | Date | | +--------+--------+-----------------------+-----+-------+--------------+ | NA | 01 | $1$ clarifies when | No | NA | ML080250276 | | | /31/08 | outages should be | | | | | | | addressed via IP | | | | | | CN | 71111.20 vs IP 71153, | | | | | | 08-005 | and (2) clarifies | | | | | | | annual inspection | | | | | | | resources for | | | | | | | non-refueling and | | | | | | | forced outages. | | | | +--------+--------+-----------------------+-----+-------+--------------+ | | | | | | | +--------+--------+-----------------------+-----+-------+--------------+ | | | | | | | +--------+--------+-----------------------+-----+-------+--------------+ [^1]: For PWRs, containment closure is met if all containment penetrations (including temporary penetrations, the equipment hatch, and the personnel hatch) have a differential capability equal to ultimate pressure or would be expected to remain intact following an accident. Leakage requirements as described in Appendix J are not a concern. Results from the RES Surry shutdown PRA show that containment pressure (in a sub‑atmospheric containment) following a core damage event at shutdown can be high.

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# Presentation: 860138 ## How do D0 and CDF compare? - Alice Bean (D0) - Univ of Kansas/Fermilab - 1. Designs - 2. M&S Costs - 3. Labor - 4. Schedule - Thanks to CDF for help! ## Comments - 1. Have tried to compare similar things, this may not be completely valid. - 2. Both Collaborations would like a chance to justify their current costs to the committee. - 3. Both groups have leaders at Sidet that talk to each other every day! There is more collaboration between collaborations than one might think. ## 1. Designs - Biggest difference in the detectors is how they handle L1: - * CDF uses 6 staves as part of outer barrel, - * D0 separate infrastructure - CDF can’t split in z - must span support on ISL in z to 1m ## Design - L0 - CDF and D0 designs are quite similar, - The major difference is that CDF gangs together 2 sensors in z by wirebonding - Sensors: 144 with same size and pitch - Analog Cables connect sensors to hybrids - CDF needs 144, D0 needs 288 - Hybrids - each has a 2 chip hybrid - CDF needs 72, D0 needs 144 - Beampipe Flange: - CDF>D0 - L0 radius CDF>D0 - Mechanical designs: - CDF uses Fermilab Engineering - D0 uses Univ. of Washington Engineering ## Design - Sensors - Both use only single sided sensors - All sensors have intermediate strips - The thickness is 320m - Each has 3 types of sensors - CDF: L0, Outer Axial, Outer Stereo - D0: L0, L1, Outer Axial - Comparison of Outer Axial Sensors ## Design - Readout - CDF and D0 both use the SVX4 chip, - CDF uses it in deadtimeless mode, - D0 uses the chip in SVX2 mode - so the downstream DAQ is different. - Outer Layer Hybrids: - CDF uses one-ended hybrids - D0 uses double-ended hybrids - Stave Readout Digital Cable: - CDF wirebonds hybrid to cable on stave core - D0 uses connector on hybrid, cable on top of stave - Outside of active region: - CDF - miniport card  junction card  junction port card FTM - D0 - junction card  adapter card interface board ## 2. M&S Costs - Reported costs without contingency which include all funding sources ## M&S Costs-comp - To make 2 projects look alike: - CDF: take out SVT & ind. costs $567K - D0: take out admin. and labor $894K ## M&S Costs - Sensors - Both assume 20% spares and 30% contingency - Production Sensor costs per sensor: - L0 $300 $222 - L1 [D0] $500 - Outer (A) $675 $460 - Outer (S) [CDF] $484 - Note: D0 has recently received a direct quote from HPK for outer layer sensors of $470 per sensor. The total cost savings would be $450K in the M&S. ## M&S Costs- Electrical - Note that both CDF and D0 get their SVX4 chip costs from Ray Yarema ## M&S Costs- Mechanical - Amounts in kilo-$ ## 3. Labor - CDF and D0 have adopted the same categories for Fermilab labor. - Both groups have based the labor on each task on Run2a experience for the actual times taken. - 1 FTE year = 1456 hours - Our base rates are slightly different, but we just found that out on Monday. ## Labor hours by type - * The SVX4 chip labor is taken out - D0 takes out installation crew to compare - and D0 CMMT and MTSF are grouped ## Module constr. labor hours ## Staves, labor hours ## D0 non-FNAL labor - There is a total of $810K in the M&S cost that is from labor: - $516K is covered by NSF MRI - $334K for sensor masks and probing - $91K for hybrid testing - $33K for database work - $70K for mechicanical on L0 - $131K for KSU electronics engineering - an additional $130K for UW engineering for - L0/L1 (total UW engineering $200K) - In addition, there is off-project labor ($127K): - Hybrid testing at KU - Radiation monitors at NIKHEF - Technician Time at La Tech ## CDF non-FNAL labor - Task group hours in project - Hybrids 11,040 - Power Supplies 976 - Sensor Testing 2,880 - L0 cables 1,760 - Positioning 3,440 - SVX4 chip 1,496 - TOTAL 21,592 - =15 FTE ## 4. Schedule - Some selected milestones - *Note that D0 electrical prototype is made of production parts, the full chain test with prototype parts occurs in Fall 02

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# Presentation: 888596 ## EdlBuild – generating edl files - Epics Collaboration Meeting, Slac - 28-Apr-2005 **EdlBuild – generating edl files ** ## Why do we need it? **Why do **_**we**_** need it?** - remember yesterday’s presentation - For those who fell asleep - We build 1700 device faceplates - Every time an interlock specification changes, we rebuild - Use edd/dm now, prepare for converting to edm - Need solution for edm !! ## Solution: EdlBuild **Perl module library** **syntax like Perl/Tk** **allows configuration of any widget property** **configure site-specific “look and feel”** **extensible** ## EdlBuild example ## EdlBuild Internals **Perl module Edl.pm** **Includes ** **all widget modules** **site-configuration modules** **Contains ** **code for the Edl object (“screen”, “canvas”)** **one creation functon per widget** **code common to all widgets** **One Perl Module Edl....pm per widget** **Contains ** **name/value template** **new()** **configure()** ## Site-specific look and feel - Configure name/value templates in the widget modules - flexible - minimise # of parameters in widget calls - tedious - module EdlDefaults.pm - variables for - common colours i.e. fg, fb, on, off, incons, topShadow, botShadow - default font - widget versions ## Site specific extensions - If you have your own widgets - Create a perl module per widget: - Copy an existing Edl....pm module - use EDMGENDOC to create the name/value template and copy into Edl..pm module - run ConvertEdlTemplate.pl - module EdlSiteUse.pm - includes site-specific Perl modules - module EdlSiteWidgets.pm - defines creation functions for site-specific widgets ## State of things (April 2005) - EdlBuild - Beta >> release candidate - all edm 1.10.1 widgets are supported - gif, png not tested - TRIUMF edd/dm >> edm - all 1700 TRIUMF panels generated - made TRIUMF version of badlfish - converted all existing TRIUMF dm screens - created a “parallel universe” for operators to play and try - need macro expansion for colour rules in edm for interactive screen development - Need ability to dump XY-plot data to ascii file ## Interested??? - http://isacwserv.triumf.ca/epics/edlbuild

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ELIZABETH H. DOLE, SECRETARY OF TRANSPORTATION, ET AL., APPLICANTS V. RAILWAY LABOR EXECUTIVES' ASSOCIATION, ET AL. No. In the Supreme Court of the United States October Term, 1985 Application to Vacate Order Granting a Stay Pending Appeal to the United States Court of Appeals for the Ninth Circuit. Application to Vacate Order Granting a Stay Pending Appeal to the United States Court of Appeals for the Ninth Circuit. Pursuant to Rules 43 and 44 of the Rules of this Court and 28 U.S.C. 1651(a), the Solicitor General, on behalf of Elizabeth H. Dole, Secretary of Transportation, and John H. Riley, Administrator, Federal Railroad Administration, applies for an order vacating a stay entered by the United States Court of Appeals for the Ninth Circuit pending appeal to that court. The court of appeals' order has enjoined the implementation of a comprehensive nationwide regulatory program designed to prevent railroad accidents and resulting injuries and deaths that are caused by the impairment of railroad employees' abilities due to alcohol and/or drug use. The court's order eliminates the program's deterrent to drug and alcohol use -- and thereby endangers the safety of rail operations -- for at least the next several months, despite the fact that the district court upheld the regulations in all respects. The regulations (50 Fed. Reg. 31508, 31568-31579 (to be codified as 40 C.F.R. Part 219) (Attachment A)) prohibit using, possessing, or being under the influence of alcohol or drugs while on the job, and they require that the train crew be tested for the presence of those substances as soon as possible after a serious accident. The regulations also authorize railroad supervisors to require a breath or urine test of an employee when he is believed to have played a causal role in certain less serious accidents, or has been directly involved in major rule violations, or when there is reasonable cause to believe that he is under the influence of alcohol or drugs. The purpose of the regulations is to detect alcohol and drug abuse among railroad operating employees, to reveal the true extent of the problem, and, most important, to save lives by deterring railroad employees from operating trains while impaired by alcohol or drugs. After extensive rulemaking proceedings and full litigation in the district court, the regulations were scheduled to go into effect on January 6, 1986. The district court granted the government's motion for summary judgment on November 26, 1985. On the afternoon of January 3, 1986, the court of appeals, by a 2-1 vote, entered an order staying the implementation of the regulations pending appeal. STATEMENT 1. The regulations at issue here are the product of an extensive investigation and rulemaking proceeding conducted by the Administrator of the Federal Railroad Administration, who has been delegated by the Secretary of Transportation to implement the federal railroad safety laws. An Advance Notice of Proposed Rulemaking was issued on June 30, 1983 (48 Fed. Reg. 30723), and a Notice of Proposed Rulemaking was issued on June 12, 1984. Five days of public hearings were held across the country on the proposed rule and extensive comments were received and considered. The final rule was promulgated on August 2, 1985, with the proviso that it would become effective on November 1, 1985. The rulemaking proceeding demonstrated that the use of alcohol and other drugs by railroad operating personnel is a serious problem that requires immediate attention. The comments on the proposed regulations indicated general agreement that "alcohol and drug use does occur on the railroads with unacceptable frequency." 50 Fed. Reg. 31514. A 1978 study found that 23% of railroad operating personnel were "problem drinkers" and that 5% of workers got "very drunk" on duty at least once during the study year. Id. at 31515. While the rail industry has long had its own prohibition on use, possession, or being under the influence of alcohol while on duty ("Rule G"), the FRA found that enforcement of Rule G "has been hampered by inadequate means of detection, limited incentives for self-referral, and the reluctance of coworkers to identify the offender. Accordingly, most violations do not come to the attention of management and the intended deterrent effect of the (Rule G) is compromised." Id. at 31527. The FRA found that this problem of drug and alcohol abuse has had significant consequences with respect to safety in the railroad industry. Available data showed that between 1975-1984 there were 48 railroad accidents or incidents /1/ in which it was proven that alcohol or drug use by an employee either played a causal role or materially increased the severity; these events resulted in 37 fatalities, 80 injuries, $20.4 million in railroad property damage, and $13.8 million in environmental clean-up costs. 50 Fed. Reg. 31517. The accidents in which alcohol or drug use was proven tended to be the most severe; for example, 15% of the fatalities occurring from rail accidents during a recent 32-month period resulted from accidents in which alcohol use was proven to be a cause. Id. at 31525. And one alcohol-related derailment in Livingston, Louisiana, in 1982 resulted in a life-threatening release of hazardous materials causing the evacuation of 2,700 people. Id. at 31520, 31525. The FRA believes that these statistics concerning accidents proven to be caused by alcohol and drug abuse greatly understate the problem. These data were obtained primarily from reports required to be submitted by the railroads; in the absence of any contemporaneous substance testing, an accident could be ascribed to alcohol or drug abuse only if the symptoms of such abuse were obvious to the observer. /2/ 2. The regulatory program promulgated by the FRA addresses this problem in several ways. It generally prohibits covered employees (defined in Section 219.5(d), (e)) from using, possessing, or being under the influence of alcohol or drugs while on the job (Subpart B). It establishes a procedure for employees with problems to receive voluntary treatment and counseling without fear of dismissal (Subpart E). And it requires urine testing for drugs of all final applicants for covered positions (Subpart F). The provisions called into question here by the plaintiffs concern testing of employees. Subpart C provides that the railroad must attempt to test (through blood and urine samples) all covered employees involved in serious accidents. These are defined as: (1) a train accident that involves a fatality, a release of hazardous materials that causes an injury or evacuation, or $500,000 in damage; (2) a collision resulting in injury or $50,000 in damage; or (3) a train incident that fatally injures any on-duty railroad employee. The testing is to be performed as soon as possible after the accident at an independent medical facility. An employee cannot be forced to undergo these tests, but, if he refuses, the rule requires the railroad to remove him from his operating job for a period of nine months. Subpart D authorizes -- but does not require -- the railroad to subject an employee to a breath or urine test (but not a blood test) in three circumstances (Section 219.301(b), (c): (1) if a supervisor (or, in the case of a urine test, two supervisors) has a reasonable, articulable suspicion that the employee is under the influence of alcohol or drugs; (2) if the employee is involved in an accident or incident that must be reported to the FRA and the supervisor has reasonable suspicion that the employee's actions contributed to the accident; and (3) if the employee is directly involved in a violation of one of a select few of the railroad's most important operating rules, which are listed in the regulations (Section 219.301(b)(3)). 3. The final regulations were promulgated on August 2, 1985, and scheduled to go into effect on November 1, 1985. On October 28, 1985, a request for reconsideration was denied in substantial part. On October 31, 1985, the plaintiffs, an association of national railway unions and various local unions, brought suit in the United States District Court for the Northern District of California to enjoin the implementation of the regulations on statutory and constitutional grounds. /3/ The court entered a temporary restraining order the next day. Afer a hearing, the district court granted the government's motion for summary judgment on November 26, 1985 (Tr. 59-67; Attachment C). On December 9, 1985, the court dissolved the temporary restraining order and denied the plaintiffs' motion for an injunction pending appeal. Thereafter, the FRA announced a new effective date of January 6, 1986, thereby giving the rail industry some time to prepare anew for implementation and allowing for resolution of plaintiffs' expected motion to enjoin the regulations. 50 Fed. Reg. 50888. On December 16, the plaintiffs applied to the Ninth Circuit for an injunction, and the government filed its opposition on December 19. On January 3, 1986, the last business day before the regulations were scheduled to go into effect, the court of appeals (per Nelson and Reinhardt, JJ.), by a 2-1 vote, issued a one sentence order (Attachment B) granting plaintiffs' "motion for a stay pending appeal," citing to its decision in Lopez v. Heckler, 713 F.2d 1432, 1535, rev'd, 463 U.S. 1328 (Rehnquist, Circuit Justice). /4/ Judge Wiggins dissented. ARGUMENT The court of appeals' extraordinary action of enjoining the implementation of an important, carefully crafted, nationwide regulatory program without giving any basis for such action warrants immediate intervention by this Court. While the Court does not lightly grant relief when a matter is pending before a court of appeals (see Atiyeh v. Capps, 449 U.S. 1312, 1313 (1981) (Rehnquist, Circuit Justice)), it has not hesitated to act when a court of appeals has disturbed the status quo by erroneously enjoining the enforcement of valid regulations. See, e.g., Office of Personnel Management v. AFGE, No. A-5 (July 5, 1985) (Burger, Circuit Justice); Coleman v. PACCAR, Inc., 424 U.S. 1301 (1976) (Rehnquist, Circuit Justice); Morton v. Quaker Action Group, 402 U.S. 926 (1971). The standard for the issuance of such relief was summarized in PACCAR, 424 U.S. at 1304: (A) Circuit Justice has jurisdiction to vacate a stay where it appears that the rights of the parties to a case pending in the court of appeals, which case could and very likely would be reviewed here upon final disposition in the court of appeals, may be seriously and irreparably injured by the stay, and the Circuit Justice is of the opinion that the court of appeals is demonstrably wrong in its application of accepted standards in deciding to issue the stay. This standard is plainly satisfied here. The regulations, which come to the court with a presumption of validity, have already been upheld by the district court, and the court of appeals has given no hint as to where the district court erred. The court of appeals' injunctive action is egregiously erroneous; the balance of harms tips sharply in favor of the immediate implementation of the regulations, and there is little prospect that plaintiffs will prevail on the merits. Moreover, because of the importance of the issue and the fact that a reversal by the court of appeals would place it in direct conflict with the Seventh Circuit's decision in Division 241 Amalgamated Transit Union v. Suscy, 538 F.2d 1264, cert. denied, 429 U.S. 1029 (1976), it is likely that this Court would grant certiorari in the event the plaintiffs prevail on their appeal. While the plaintiffs' appeal is pending, the court of appeals' unjustified order exposes the public to a significant additional risk of death and injury from rail accidents caused by employees under the influence of alcohol or drugs. In these circumstances, the Court should vacate that order, which will remain in force for at least several months unless this Court acts. /5/ 1. It is manifest that the balance of harms weighs strongly in favor of immediate implementation of the regulations and that for that reason alone the court of appeals erred in enjoining them. The most severe injury that could conceivably occur to plaintiffs if the regulations are permitted to go into effect is that some employees could be induced to submit to a blood test that they would have been entitled to avoid if it is ultimately held that the regulations violate the Fourth Amendment. While we do not dispute that the drawing of blood may reasonably be viewed as a mildly unpleasant experience that a person would prefer to avoid, this Court has recognized that "(s)uch tests are a commonplace in these days of periodic physical examinations * * * and that for most people the procedure involves virtually no risk, trauma, or pain." Schmerber v. California, 384 U.S. 757, 771 (1966). In short, the possibility of having to undergo an unnecessary blood test is a thin thread on which to hand a decision enjoining implementation of an important, nationwide safety regulatory program. Moreover, the number of employees subject to this testing would be relatively few because only employees involved in the serious accidents identified in Subpart C (estimated at 150-200 per year (50 Fed. Reg. 32543)) would be affected. And even these employees would not be forced to undergo the tests, although they would be subject to disciplinary action if they refused. The "authorized testing" of Subpart D would result in even less injury. The breath and urine tests authorized under that Subpart are not invasive at all and cannot be characterized as anything more than the most minimal of intrusions. And, again, the only employees tested would be those whose job performance -- judging from their direct involvement in the incidents specified in the regulation -- has given rise to questions about their fitness or those reasonably suspected of being under the influence of alcohol or drugs. On the other hand, the important government and public interest in allowing the regulations to go into effect immediately is compelling. An extensive administrative investigation has revealed that numerous rail accidents and fatalities have been caused by alcohol or drug use by operating personnel. Implementation of the regulations will help identify employees who might contribute to such accidents in the future and, more generally, create a strong deterrent to the use of alcohol or drugs on the job that will significantly enhance railroad safety without subjecting anyone to tests. In a very real sense, the order entered by the court of appeals may yield death and destruction in the railroad industry that could be avoided if the order is vacated. The court of appeals gave no clue as to how it balanced the hardships here. We submit, however, that there is no rational justification for treating the possibility of a blood or urine test -- performed under strict safeguards and only in certain specified situations -- as outweighing the possibility of death or injury due to the malfeasance of a railroad employee working while under the influence of alcohol or drugs. 2. In our view, the tremendous imbalance between the serious irreparable harm done to the public interest in rail safety by the court of appeals' order on the one hand and the extremely limited effect on the plaintiffs of allowing the regulations to go into effect on the other is alone sufficient to warrant vacating the court's order. In addition, however, the court's order cannot be supported by reference to the other relevant factor for issuing a stay or an injunction. There is little likelihood that the plaintiffs will prevail on the merits of their appeal. A testing program essentially indistinguishable from this one was upheld by the Seventh Circuit in Division 241 Amalgamated Transit Union v. Suscy, supra. There, the Chicago Transit Authority had instituted a program under which bus and train operators were required to submit to blood and urine tests when they were involved in a serious accident or when two supervisors suspected them of being under the influence of liquor or drugs. The court of appeals found that this program was "reasonable" within the meaning of the Fourth Amendment because the affected public interest in the safety of mass transit outweighed any infringement on individual interests occasioned by the testing. 538 F.2d at 1267. This conclusion is clearly correct. The touchstone of the Fourth Amendment is "reasonableness." Whether a particular search or seizure is reasonable is assessed by "balanc(ing) the nature and quality of the intrusion on the individual's Fourth Amendment interests against the importance of the governmental interests alleged to justify the intrusion." United States v. Place, 462 U.S. 696, 703 (1983). Here, the intrusion on the individual's interests is minimal; the most severe intrusion possible is a "safe, painless, and commonplace" (South Dakota v. Neville, 459 U.S. 553, 562 (1983)) blood test, and even that may occur only when the employee has been involved in a serious accident involving loss of life or major property damage. On the other hand, the intrusion is justified by a paramount government and public interest in rail safety. The regulations are narrowly drawn to deal effectively with a recognized safety problem that has been proven to have led to 37 fatalities in recent years and is suspected of causing more. It is surely reasonable for employees who work in an industry as imbued with public safety concerns as the rail industry to be expected to submit to a blood test when they have been involved in a serious accident. In their papers in the court of appeals the plaintiffs sought to avoid the manifest reasonableness of the regulations by arguing that, under the Fourth Amendment, testing for alcohol and drugs is inherently unreasonable in the absence of probable cause and a warrant. It is true, of course, that certain types of searches normally require probable cause to suspect criminal activity and a warrant, notably the traditional search for evidence of a crime where a suspect is singled out for investigation. We do not dispute that traditional probable cause is required when a blood test is taken in this individualized criminal investigation context. See Schmerber v. California, supra. But it is equally true that the warrant and probable cause requirements do not apply to every intrusion that is covered by the Fourth Amendment. This point was cogently explained by this Court in Delaware v. Prouse, 440 U.S. 648, 653-655 (1979) (footnotes omitted): The essential purpose of the proscriptions in the Fourth Amendment is to impose a standard of "reasonableness" upon the exercise of discretion by government officials, including law enforcement agents, in order "'to safeguard the privacy and security of individuals against arbitrary invasions. . . .'" Marshall v. Barlow's, Inc., 436 U.S. 307, 312 (1978), quoting Camara v. Municipal Court, 387 U.S. 523, 528 (1967). Thus, the permissibility of a particular law enforcement practice is judged by balancing its intrusion on the individual's Fourth Amendment interests against its promotion of legitimate government interests. Implemented in this manner, the reasonableness standard usually requires, at a minimum, that the facts upon which an intrusion is based be capable of measurement against "an objective standard," whether this be probable cause or a less stringent test. In those situations in which the balance of interests precludes insistence upon "some quantum of individualized suspicion," other safeguards are generally relied upon to assure that the individual's reasonable expectation of privacy is not "subject to the discretion of the official in the field," * * *. It is clearly inappropriate to require individualized probable cause and a warrant to conduct the testing involved here, and the regulations contain more than adequate safeguards to assure that employees' privacy is protected "against arbitrary invasions" and that employees are not subject to testing "at the unbridled discretion of * * * (the responsible) officials." Delaware v. Prouse, 440 U.S. at 654, 661. The post-accident testing mandated by the regulations (Subpart C) is not a search for evidence based on an individualized suspicion. Rather, it is part of a regulatory program designed to promote safety in the railroad industry, which is heavily regulated in the public interest. Such an administrative search, while subject to the Fourth Amendment, is not governed by the traditional probable cause standard applicable to the singling out of individuals for a search for evidence; rather, it is governed by the "administrative probable cause" standard described in Marshall v. Barlow's, supra, and Camara v, Municipal Court, supra. /6/ If the government interest involved reasonably justifies the degree of intrusion (as discussed above), then such an administrative search is permissible "on a showing that 'reasonable legislative or administrative standards for conducting an . . . inspection are satisfied with respect to a particular (establishment).'" Barlow's, 436 U.S. at 320 (quoting Camara, 387 U.S. at 538). Here, the regulations specify in detail the circumstances under which the tests must be conducted -- a defined class of serious accidents -- and it cannot seriously be suggested that these circumstances are not reasonable ones in which to require testing. Clearly, the tests satisfy the standards for administrative searches. /7/ There is absolutely no merit to plaintiffs' suggestion that the testing contemplated by the regulations requires a warrant. Even if probable cause in the criminal law sense were required, it is clear that, because the evidence of alcohol or drugs in the blood quickly dissipates, exigent circumstances exist in this context that make obtaining a warrant not feasible. See Schmerber v. California, 384 U.S. at 770-771. In any event, there is no need here for a magistrate to assess whether a particular test is part of a "neutral * * * administrative plan" of inspection (Barlow's, 436 U.S. at 321); the criteria for identifying the class of employees to be tested are published in the regulations and they are indisputably neutral. See generally United States v. Martinez-Fuerte, 428 U.S. 543, 564-566 (1976). Moreover, no employee is forced to submit to testing, although employees are subject to disciplinary action for refusing to do so. And, of course, employees are exposed to the possibility of testing only if they work in the railroad industry. When an employee chooses to work in a job that so greatly implicates the public safety, it is not unreasonable for him to accept, as a condition of that employment, the possibility that he will be required to submit to a blood test in the event he is involved in a serious accident. /8/ The regulations (Section 219.11) explicitly put an employee on notice that his remaining in such employment is an implied consent to that limited intrusion. Requiring such a consent is a valid regulatory requirement analogous to requiring a motorist to consent to a blood test in appropriate cases as a condition of operating his motor vehicle (see, e.g., South Dakota v. Neville, 459 U.S. at 559; Mackey v. Montrym, 443 U.S. 1, 3-4 (1979)) or requiring an airlines passenger to submit to a search as a condition of boarding a plane (United States v. Davis, 482 F.2d 893, 912-913 (9th Cir. 1973)). See also Wyman v. James, 400 U.S. 309 (1971) (receipt of welfare benefits may be conditioned on consent to home visit). The Fourth Amendment challenge to the "authorized testing" provisions contained in Subpart D is even weaker than the challenge to the mandatory testing. /9/ The intrusion involved in these tests (urine and breath) is truly minimal. No test can be required at all absent specific observations or performance failures that rationally raise questions about the sobriety of the employee or the safety of his performance. See Section 219.301. This scheme clearly satisfies Fourth Amendment standards. The validity of the testing based on performance failures identified in the regulations, viz., a major rule violation or the employee's contributing role in an accident, follows a fortiori from the validity of the more severe intrusion of a blood test upon the occurrence of a specified event (see pages 11-14, supra). The other type of authorized testing, viz., that based on a reasonable suspicion that an employee is presently under the influence of drugs or alcohol, is also reasonable under the Fourth Amendment because of its negligible intrusiveness; breath or urine tests are equivalent to the sorts of intrusions that this Court has recognized can reasonably by required on the basis of articulable suspicion that falls short of probable cause. See, e.g., New Jersey, v. T.L.O., No. 83-712 (Jan. 15, 1985), slip op. 14; Terry v. Ohio, 392 U.S. 1 (1968). /10/ In sum, the regulatory program involved here is a measured response to an important safety problem that plainly satisfies the reasonableness test of the Fourth Amendment. The court of appeals manifestly erred in enjoining it. CONCLUSION The "stay" issued by the court of appeals should be vacated. Respectfully submitted. CHARLES FRIED Solicitor General JANUARY 1986 /1/ For FRA reporting purposes, a train "accident" is an event involving on-track equipment that results in railroad property damage in excess of a periodically updated monetary threshold (currently $4,900). A train "incident" is an event involving the movement of on-track equipment that results in death, a reportable injury, or a reportable illness, but in which railroad property damage does not exceed the reporting threshold for train accidents. See 49 C.F.R. 225. We will use the term "accident" generally to refer to both types of events. /2/ The Southern Pacific Railroad began its own program of drug and alcohol testing and has reported that accidents and injuries attributable to human error dropped by 70% in the year that the testing was begun. The FRA did not rely on these figures because it had not yet had the opportunity to examine the specific procedures followed by the railroad or the manner in which the data were analyzed. 50 Fed. Reg. 31514. /3/ The plaintiffs' primary claim was that the regulations violate the Fourth Amendment. They also claimed a due process violation and that the regulations violate various statutes. These latter claims were summarily dismissed by the district court as without "much merit" (Tr. 61) and were not addressed by plaintiffs in their papers in the court of appeals. /4/ The court misused the term "stay" in its order. Because the district court had ruled in favor of the government there was no order for the court to stay; what it did in effect was to enter an injunction against the implementation of the regulations, which is in fact the relief that the plaintiffs sought. Had the district court entered such an order it would have been required to issue detailed findings under Fed. R. Civ. P. 65. The court of appeals, however, gave no clue as to the basis for its ruling. It also appears that the court of appeals has enjoined every part of the new regulatory program from going into effect even though the plaintiffs' Fourth Amendment objection goes to the validity only of Subparts C and D. /5/ The court of appeals' order states that the appeal is to be "expedited," but it then provides for the ordinary briefing schedule contained in Fed. R. App. P. 31(a). Thus, it will be three months before the case can even be set for oral argument. And it may be many months more until the court of appeals renders its decision. /6/ Even in the criminal law context, when an individual is not singled out for suspicion but instead is searched or seized as part of a group, the absence of individual stigma suggests that there is less reason to require the strict criminal probable cause standard. See Delaware v. Prouse, 440 U.S. at 663 & n.26; United States v. Martinez-Fuerte, 428 U.S. 543, 559 (1976). /7/ The plaintiffs argued below that the administrative search rationale could not apply here because there is no explicit congressional authorization and because it does not apply to searches of persons. There is no support for these supposed limitations on administrative searches; indeed, each is inconsistent with established Ninth Circuit precedent. See Balelo v. Baldrige, 724 F.2d 753, 764-765, cert. denied, No. 83-1734 (June 18, 1984) (en banc) (upholding regulation requiring porpoise fishermen to allow government observers on boat); United States v. Davis, 482 F.2d 893, 910-913 (1973) (pre-boarding search of airline passengers). /8/ Since 1927, the Federal Aviation Administration has required pilots and other flight crew members to undergo periodic physical examinations, which may include blood tests. See 14 C.F.R. Parts 61, 63, and 67. The Federal Highway Administration also requires physical examinations for drivers employed by motor carriers. 49 C.F.R. Part 391. There is no significant difference for Fourth Amendment purposes between regularly scheduled fitness examinations and examinations triggered by neutral criteria relating to the occurrence of specific events that reasonably call into question the fitness of involved employees. /9/ The contention that the Fourth Amendment applies at all to the authorized testing turns on the district court's finding that this testing is "state action" because it is specifically authorized by the regulations. This conclusion is questionable. The rulemaking proceeding explains that the authorized testing provision was included because of concern that the Railway Labor Act would be read to prevent the railroads from imposing such testing unilaterally. See 50 C.F.R. 31528, 31546, 31552. The testing nonetheless is not required by the government, and the employer is free to use or not to use Subpart D authority. The government has merely opened the door to allow such testing. If the employer does choose to test an individual employee under the authority conferred by this section, the test occurs only by private choice and is not governmental action covered by the Fourth Amendment. See, e.g., Blum v. Yaretsky, 457 U.S. 991 (1982); Flagg Bros. v. Brooks, 436 U.S. 149, 164-166 (1978). /10/ The reasonableness of the regulations in this regard is exemplified by the additional safeguard that urine tests cannot be required on the basis of reasonable suspicion unless two supervisors concur that the employee appears to be under the influence of alcohol or drugs. See Section 219.301(c)(2).

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032392

![](media/image1.jpeg){width="6.5in" height="0.9791666666666666in"} **COMMODITY NUTRITION ASSISTANCE PROGRAMS** ***Background*** Over many years, the Nation has built an array of nutrition assistance programs designed to help the most vulnerable populations avoid hunger and make healthy food choices. Taken together, the national nutrition safety net serves one in five Americans over the course of a year. Several components of the national nutrition safety net provide benefits in the form of commodities distributed to program participants. Of the \$50.9 billion in nutrition assistance spending in 2005, \$1.5 billion was for commodities. The commodity programs authorized or addressed by the Nutrition Title of the farm bill include: [The Food Distribution Program on Indian Reservations (FDPIR)]{.underline} FDPIR provides a food package as an alternative to food stamps for low-income families on or near reservations; the FDPIR cost \$78 million in 2005 and provided nearly 100,000 individuals with \$41 in food per month. [The Emergency Food Assistance Program (TEFAP)]{.underline} TEFAP provides purchased and bonus commodities to States for distribution to households and organizations that prepare meals for needy people. The program provided \$140 million for commodity purchases and over \$50 million for administrative expenses in 2005. [The Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} SFMNP provides low-income seniors access to fresh produce and supports farmers markets, roadside stands, and community-supported agriculture programs. The program provided \$15 million to support fruit and vegetable purchases in 2005. [The Commodity Supplemental Food Program (CSFP)]{.underline} CSFP provides supplemental foods to low-income women and their children and the elderly. The program cost about \$150 million in 2005 and served over 500,000 participants and provides funds each month per person valued at about \$18 for elderly individuals and \$25 for women and children. Other components of the national nutrition safety net---including the National School Lunch and Breakfast, Child and Adult Care Food, Summer Food Service, and Special Milk Programs and the Special Supplemental Nutrition Program for Women, Infants, and Children (WIC)---are authorized outside the farm bill, most recently in 2004. These programs complement USDA price and market support goals by providing outlets for the distribution of surplus commodities. They operate in partnership with State and local organizations that interact directly with program participants. States voluntarily enter into agreements with the Federal Government to operate programs according to Federal standards in exchange for program funds that cover all benefit costs and a portion of administrative expenses. ***General Opinions Expressed*** - General support for preserving commodity programs administered by the Food and Nutrition Service (FNS)---TEFAP, the CSFP, the FDPIR, and the SFMNP---without funding cuts; many supported increased funding to address unmet community needs and to improve infrastructure. - Some commenters recommended a uniform eligibility threshold of 185 percent of poverty for all nutrition programs. - Many commenters proposed a buy-locally-first approach to provide healthier and fresher commodities and to halt rising costs of warehousing, shipping, and reprocessing charges that are limiting services. New programs and policy tools are needed to link vulnerable food producers with vulnerable consumers, including farmers markets, community food projects, and increased procurement of locally grown food by institutions. Many commenters cited experiences with the Department of Defense Fresh Fruit and Vegetable Program and farm-to-school initiatives as a step in this direction. - There was general discussion about making improved nutritional status of Americans a national priority. Many expressed the position that the nutrition profile of food packages and the commodities provided by the Government through its nutrition programs should adhere to the 2005 Dietary Guidelines for Americans and include more whole grains and fresh fruits and vegetables. [Food Distribution Program on Indian Reservations (FDPIR)]{.underline} - Many suggested the need for improvements in the quality of the food package to ensure that it meets dietary guidelines and for improvements in delivery to ensure that food products are distributed before their expiration dates. - Indian tribal leaders suggested the importance of following appropriate Nation-to-Nation protocols and respecting existing treaty agreements when making changes to FDPIR. - Many provided comments on current efforts to establish a more equitable methodology for allocating FDPIR administrative funds among the Independent Tribal Organizations (ITO), with many voicing concerns about potential funding cuts and some proposing provisions to protect against funding cuts. - Many requested a separate allocation, as well as increased funding, for nutrition education to address obesity and diabetes and maintain food preparation skills. - Many Native Americans expressed the view that tribes should set their own eligibility guidelines. - Some discussed their preference for a national multi-food ordering and delivery system (similar to the Prime Vendor Pilots) with improved customer service, Internet-based ordering from actual inventory, reduced time between orders and delivery, and pre-set delivery schedules. - Many proposed coverage of Native Americans who live nearby in urban areas because of the shortage of housing on the reservations and who would rather have commodity foods than food stamp benefits. - Various participants requested additional traditional foods such as Indian corn and bison (accounting for differences among tribes) as permanent items in the food package. [The Emergency Food Assistance Program (TEFAP)]{.underline} - Many forum participants remarked about the important role TEFAP plays in community food banks. - Many said that they are seeing increased numbers of clients at food banks and serving them with reduced supplies of USDA commodities. - Many participants supported an increase in USDA commodity donations to fill local need while others favor augmenting food supplies with purchases from local farmers. - Many conveyed the concern that higher storage and delivery costs are putting a financial strain on emergency food providers, particularly in Western States that deliver to remote, rural locations. They proposed higher TEFAP administrative funding. - Some participants made suggestions for improving the nutritional content of commodities: more protein and dairy items, more foods appropriate for those with health-related or religious dietary restrictions. Others would like more culturally relevant food items. Many requested more variety in the food products made available and, therefore, more choices for food banks and for clients. - Many representatives of food banks spoke about the uncertainty of the content of TEFAP deliveries, leading to the proposal that USDA should share more information with food banks about the availability and distribution of TEFAP foods so that they are able to adequately plan for changes in the TEFAP food supply. [Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} - Many view SFMNP as a cost-effective means to provide low-income seniors resources to purchase locally grown fruits and vegetables and to strengthen community ties, with farmers helping seniors and seniors helping farmers. - Several would increase funding to allow participation by additional low-income seniors in current sites, and expand the program to accommodate all States and Indian Tribal Organizations. - Some requested that USDA set aside or modify proposed rules that establish new requirements for eligibility determination, benefit maximums, notifications, data collection, and reporting on the grounds that such requirements are burdensome compared to the program's modest benefits. - Many are concerned about the lack of administrative funding for the program. Some want a separate administrative fund; others would like the proposed limit for administrative costs raised from 8 percent to anywhere from 12 to 20 percent. - Some suggested adding products such as honey, nuts, eggs, and apple cider to the list of eligible products to improve the market basket and make participation more appealing. [Commodity Supplemental Food Program (CSFP)]{.underline} - Many favored making CSFP a national entitlement, expanding the program to all States or to States with approved State plans (Arkansas, Delaware, New Jersey, Oklahoma, and Utah). Some support was expressed for making the CSFP an elderly-only program. ```{=html}  ``` - Many spoke generally of increased funding for caseload and program administration. - Many participants supported increased access to program benefits by low-income elderly persons, setting them as a priority group and aligning elderly eligibility criteria with CSFP for women and children. - Many supported evaluation of CSFP to provide participant profiles and determine outcomes. - A few noted the disproportionate effect of grant reductions and increased administrative requirements on rural service levels and States that are not automated (e.g., New Hampshire). [Miscellaneous]{.underline} ```{=html}  ``` - Many participants requested increased funding for the Fresh Fruit and Vegetable Snack Program authorized under the Child Nutrition and WIC Reauthorization Act of 2004 and the Department of Defense Fresh Fruit and Vegetable Program. Some suggested doubling the funding, but the most common suggestion was to expand it to all 50 States and all Indian Tribal Organizations. - Some encouraged USDA to develop a greater role in nutrition research. Specific suggestions included: exploring the relationship between diet and health, examining the impacts of nutrition program participation on diet quality and health, improving the nutritional content of nutrition assistance benefits, understanding consumer behavior regarding the consumption and benefits of fruits and vegetables, creating a database of food safety and the nutrient composition of the food supply. ***Detailed Suggestions Expressed*** [Food Distribution Program on Indian Reservations (FDPIR)]{.underline} - There have been beneficial improvements in FDPIR that should continue: addition of frozen items, fresh fruits and vegetables, tailgate deliveries, and nutrition education. - Allow the carryover of unobligated administrative funds from one year to the next. ```{=html}  ``` - Some programs have difficulty meeting the 25 percent match requirement. Although warehouses cannot be used for in-kind match, the value of the land beneath warehouses or their salvage value should be considered. - Provide funding for bar coding and scanning systems in grocery centers. - Inform tribes that they are eligible to receive both FDPIR commodities and TEFAP commodities. - Provide more guidance to tribes about the tradeoffs between the food stamp program and FDPIR. - Provide technical assistance to tribes that want to develop a community garden. - Provide more food with commercial labels. - Teachers on reservations should be eligible for food packages in summer months. - Vary size of food package by income. Offer a complete package (not supplemental) for those without income. ```{=html}  ``` - Reform certification requirements that are a participation barrier for many tribal members. - More Native Americans are applying for food stamp program (FSP) benefits so that they can buy ready-to-eat foods; nutrition education is needed to teach them how to prepare foods. - Develop culturally sensitive nutrition education. - Funds are needed for tribal members to attend meetings and conferences. - Better ways are needed to verify income of applicants (particularly reports of zero income) to comply with program requirements. - Specific considerations proposed for the revision of the FDPIR administrative fund allocation formula are: (a) Funding reductions and reallocations can force some programs to change to tailgate services, increasing distances for participants to receive packages. (b) Allow more representation of other tribes in the group working on this issue. (c) Need to take into consideration the unique needs of various tribes such as geography, need for tailgating, and services needed. (d) Provide for waivers in using the new methodology. (e) Include cost-of-living adjustments in the formula. [The Emergency Food Assistance Program (TEFAP)]{.underline} - USDA should increase the mandatory commodity purchase level to \$500 million. - Administrative reimbursements should be based on the amount of food that food banks receive and distribute (based on a simple \$6 per case, for example). - Use Section 32 funds for increased administrative costs, to support costs associated with handling bonus commodities, and to help move commodities from farms to food banks. Allocate all Section 32 funds for increased TEFAP funding. - Alter the 60/40 allocation formula (based on unemployment and poverty) to better account for the number of people living in areas with chronic unemployment and other factors. - Some rural areas would prefer cash in lieu of commodities (allowing them to directly purchase commodities from vendors) because administrative costs often equal or exceed the cost of commodities. - Streamline and improve the current expense reimbursement process to reduce burden and more adequately cover expenses of nonprofit organizations. - Establish reimbursement limits that address the needs of some food banks for capital improvements, such as the purchase of an additional forklift. - Make USDA programs more accessible to small community and faith-based organizations. - Increase FNS control over food banks with contracts and establish an impartial board to review complaints. - Consider national uniform rules or identify model practices to improve quality and consistency of commodity distribution contracts. - Reduce overly burdensome paperwork requirements. Clients should not need to certify eligibility each time that they receive food. Allow the food distribution organization to monitor clients' eligibility status. - Instruct local providers that FDPIR participants are categorically eligible for TEFAP. - Integrate nutrition education with TEFAP so that nutrition education can occur at food pantries. - Use of commercially labeled commodities should be limited because they make it difficult to track allegations of fraud, sale, or misuse of TEFAP products. - Surplus commodities (bonus buys) should be distributed through the TEFAP network to improve the overall supply of commodities to the program. - Decisions on bonus buys should be based on the nutritional value of food instead of its availability as surplus. - USDA should purchase kosher foods and more protein-rich options for kosher clients, and display the kosher label. - Give programs more choice over commodities they distribute to their clients. - Reinstate the TEFAP cheese waiver in Wisconsin. - Grant waiver authority to allow food banks to turn excess unwanted commodities into useful products that clients will eat and appreciate. [Senior Farmers' Market Nutrition Program (SFMNP)]{.underline} - Adequately fund SFMNP to prevent reductions in the number of seniors served. - Reexamine the distribution of funds to the States. - Expand the program by reallocating program funds that are returned annually by States to FNS for use in subsequent years. - Make the program available year-round. - Provide larger benefits so that elderly can use the farmers markets more often. - Hawaii opposes the proposed rule to limit SFMNP benefits to \$50 per person and prefers a rule that allows them to continue their 2004 benefit levels. - Eliminate barriers that prevent people from accessing the benefits. - Allow self-declaration of income eligibility in SFMNP. - Simplify rules and paperwork requirements so that diverse organizations can help make the program more accessible to participants. - Simplify the application procedures to establish a SFMNP. - Distribution of funds should focus on enhancing access for older adults to food from local farmers. - Use Web-based training and conference calls instead of face-to-face training for farmers. - Allow State farmers market associations to apply for food stamp authorization for members. [Commodity Supplemental Food Program (CSFP)]{.underline} - Rather than increase CSFP, increase the minimum food stamp benefit to \$50 for elderly and disabled persons. - Give each State the authority to set its own priorities in CSFP based on its knowledge of demographics, local needs, services, and food supply. - New requirements for race and ethnic reporting in CSFP are too burdensome. - Develop culturally sensitive nutrition education. - Allow food banks to inventory products by the unpacked case, as in TEFAP. - Designate senior citizens as the first priority when receiving CSFP services and allow States to provide benefits to women and children if extra funds are available. [Miscellaneous]{.underline} ```{=html}  ``` - Support faith-based organizations because they are on the front lines of the fight against hunger. - All aspects of the farm bill, not just those deemed nutrition, should be evaluated in terms of the impact on the health and safety of vulnerable communities. - Enact a national fast food surcharge to generate revenues to fund TEFAP, CSFP, and SFMNP expansion. - Allow tribes to administer WIC, FSP, SFMNP, and CSFP as sovereign nations, rather than as a State-sponsored organization. (Note: Tribes already directly administer WIC, SFMNP, and CSFP.) - Increase the Defense Supply Purchasing Network. - Amend laws to provide for in-State or local preference, particularly regarding Department of Defense's farm-to-school purchases. - Increase the fruit and vegetable snack allowance per child to \$60. - Fund the Farm-to-Cafeteria project. - Pilot a farmers market voucher for low-income families to purchase fruits and vegetables in the summer, particularly in areas where there is no summer meal program. - Allow flexible program regulations in WIC, TEFAP, and CSFP to enable situation-variable responses during events like disasters (e.g., getting chilled baby-formula to infants in disaster areas). - Allow WIC participants in federally declared disaster areas to use their benefits in any State. - Increase funding for WIC. - Provide funding to expand EBT to WIC. - Make WIC available to seniors age 55 and older. - Increase spending for the WIC Farmers Market Program. - Improve WIC participants' access to farmers market produce. - Make nutrition education a part of the WIC Farmers Market Program. - Designate Expanded Food and Nutrition Education Program (EFNEP) as the nutrition educators for WIC offices. - Support the Expanded Food and Nutrition Education Program. - Change public perception of the Food Stamp Program, WIC program, and School Lunch Program as being "free handout programs" by continuing nutrition education. - Support Cent\$ible Nutrition Program. - Support continued investment in public education on the importance of nutrition for health, learning, and productivity. - Use listening sessions to inform potential stakeholders of the benefits of USDA programs (i.e., provide informational materials and/or a display of some sort). - Provide additional tax incentives to encourage charitable food donations to food banks and pantries. - Support food banks that purchase local food. - Federal tax law should provide additional incentives to encourage charitable food donations to food banks and pantries. - Increase support for community food projects through the competitive grants program. - Increase technical support to organize community food projects and support food retailers in minority neighborhoods. - Support the development of local and regional infrastructure, such as public wholesale terminals, local distribution systems, and local food reserves that would be available in times of crises and disasters. - Create food-related enterprise zones that build local food systems\--from producing to processing to distribution to retail. - Study the concerns of grandparents and other relatives who are caretakers raising children and identify ways to help them. - Concern was expressed about importation of Milk Protein Concentrate and other potentially "unsafe" imports that affect the U.S. food supply, including those provided to FNS program participants. - Perform research to evaluate health claims for food crops. - USDA agencies working on food and nutrition should be brought together. - Make broader use of the American Dietetic Association's evidence grading system to evaluate nutrition guidelines, claims, and education.

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029406

USGS Digital Spectral Library splib06a Clark and others 2007, USGS, Data Series 231. For further information on spectrsocopy, see: http://speclab.cr.usgs.gov ASCII Spectral Data file contents: line 15 title line 16 history line 17 to end: 3-columns of data: wavelength reflectance standard deviation (standard deviation of 0.000000 means not measured) ( -1.23e34 indicates a deleted number) ---------------------------------------------------- Epidote GDS26.a 75-200um W9R4Nbbb RREF copy of spd0300 r 1364 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 -1.23e34 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019780

U.S. DEPMtTMEWP OF HEALTH, EDUCATION, AND WELFARE. Smok+ and H&th: A Report of the Surgeon Geneml. DHEW Pub. No. 07960066. us. Department of Health, Education, and Welfare, Public Health Serviw, offi~ e the h-t ,%mtmy for Health, Offhx on Smoking and Health, 1979. U.S. DEPARTMENT OF HEALTH AND HUMAN SERVLCES. The Health am ~a- of &noking: Cancer. A hfq.wt of the &q&on &neml. DHHS pub. &. (pHs)8250179. U.S. Department of Health and Human Services, Public I&&b &IV&, office of the Assistant Secretary for Health Office on Smoking w Health, 1932. U.S. DEPARTMENT OF HEALTH AND = s-vK.!E% !t"he Health &- ~uence.g of Smokingz Chmnic Obstrueti~ Lung Disease A Repor of the Sugcon Ged. DEIHS Pub. No. @%S)34-50205. U.S. Department of Health and Hm &WV&S, public Healtb Service, office of the Assistant Secretary for Health, OfIiee on Smoking and Health, 1934. U.S. DEPARTMENT OF TRANSPORTATION and U.S. DEPARTMENT OF HEALTH, EDUCATION, AND WELFARE. Health Aspect.9 of Smoking in 32ane port Aitwaf% U.S. Department of Transportation, Federal Aviation Admi&tm- tion, and U.S. Department of Health, Education, and Welfare, National Inatit& for Occupational Safety and Health, December 1971. U.S. FED- TRADE COIvfIKMION. "Tar, "Nicotine and Gzrbon lldonozide of tke Smoke of 207 V&i&es of Dm&ic Cigarettes. U.S. Federal Trade Comm%m, January 1935. VAINIO, H., HEMMINRI R, WILBOURN, J. Data on the carcinogenici~ of chemicale in the IARC ddonogmphe p rogramme. Cunzinogenesis 6(11~1653-1665, November 1935. VILCINS, G., LEPHAIUYI?, J.O. Aging procewea of cigarette smoke: Formation of methyl nitrite. C&m&y and I&u&y 223974-975, November 15.1975. WADE, W.A. III, COTE, W.A., YOCUM, J.E. A study of indoor air quality. Joumai of Ule Air Pollution Control Association 25(9):93%939, September 1975. WALD, N., RITCHIE, C. Validation of studies on lung cancer in nonmokers married by .sders. (letter). Lamt 1@335):607, May 12,191~. WALLAcE,UpELLIzzARL E.D., HARWEL, T. SPRACINO, C., ZEI.QN, H. Personal exposures indoor-outdoor relationships and breath levels of volatile Ogaaics in New J-y. Atmospheric Envinmment, in press. WALSII, I% BLAcg, A., MORGAN, A., CF&%WSHAW, OH. Absorption of SO, by tppical indoor sllrfacee including wool carpets, wallpaper, and paint. Aanaepheric J%virowieent 11(11):1107-1111,1977* 176 CHAPTER 4 DEPOSITION AND ABSORPTION OF TOBACCO SMOKE CONSTITUENTS CONTENTS Deposition Size Distribution of Cigarette Smoke Mainstream Smoke Sidestream Smoke Particle Deposition in the Respiratory Tract Total Deposition Regional Deposition Respiratory Tract Dose of Environmental Tobacco Smoke Cigarette Smoke Particulate Mass Deposited The Concept of "Cigarette Equivalents" Markers of Absorption Carbon Monoxide Thiocyanate Nicotine C&nine Urinary Mutagenicity Populations in Which Exposure Has Been Demonstrated Experimental Studies Nonexperimental Exposures Quantification of Absorption Evidence of Absorption in Different Populations Quantification of Exposure Comparison of Absorption From Environmental Tobacco Smoke and From Active Smoking Conclusions References Introduction An understanding of the deposition of &arette smoke partick in the respiratory tract is important because many of the toxic cmstituents of cigarette smoke are conbined in the particles. me quantity retained, which c~nstitutea the dose, is some fraction of the quantity inhaled. Meas~reg of tobacco smoke constituents or their metabolites are also important because they reflect the absorption of tobacco smoke by the individual smoker or nonsmoker, and therefore may be more accurate markers of the actual exposure experienced by an individual. There is little experimental information describing the deposition of environmental tobacco smoke in the respiratory tract (Jarvis et al. 1983). However, cigarette smoke particles probably behave in a manner similar to other inhaled particles. I,n contrast, there are a number of observations of different markers in the biological fluids of smokers and nonsmokers. This review begins with a discussion of particle deposition in general and the factors that affect deposition. This understanding is then applied to the existing data on tobacco smoke deposition in the human respiratory tract. Subsequently, a variety of biologic markers of smoke absorp- tion are e namined, and the levels of these markers found in smokers and nonsmokers under a variety of circumstances are presented. ~inal.ly, an attempt is made to qua&it& the exposure of nonsmok- ers relative to that of active smokers using levels of these biologic markers. Deposition The term "deposition" refers to the transfer of a particle from inhaled air to the surface of any portion of the respiratory tract, from nose to alveolus. "Retention" is the quantity of deposited material remaining in the respiratory tract at a specified time following deposition. Retention decreases as clearance mechanisms such as mucociliary action and absorption reduce the respiratory tract burden of inhaled particles. Retention is not discussed in this review. An aerosol is a suspension of particles in a gaseous or vapor medium; cigarette smoke is an aerosol. Aerosols are characterized by such terms as mass median diameter @MD), the diameter below which lies one-half of the particles by mass, and count median diameter (CMD), the diameter below which lies one-half of the particles by number. Most naturally occurring aerosols have a log- normal size distribution, and the magnitude of the spread of particle size is the geometric standard deviation @SD). Particle ma88 is a function of the cube of the diameter; a particle with a diameter of 0.5 pm has one one-thousandth of the mass of a 5 pm particle. Thus, for au aerosol with a large geometric standard deviation, the mass 181 median heter may be considerably greater than the count median hemr. The smaller pdicle~ of an aerosol, despite tbeu relatively small mass, have a large total surface area because of their great number. A monodisperse aerosol has particles of one size, with C&ID equal to M&ID, and a G-SD of 1. For practical purposes, a GSD of 13 or less is accepted as monodisperse. Most naturally oawring mrmb EU-C? p~lydisperse, with GSDs in the 2 range. A lognormally &t&&cl aerosol with a GSD of 2 and a CMD of 0.1 will have an MMD of O.&-Z. In this discussion, when size is referred to, it is the JMI$D unless otherwise stated. Both the total deposition and the `deposition site in the respiratory tract vary substantially with particle size. site wtributlon of Cigarette Smoke m Smoke The size distribution of cigarette smoke hes been of interest to investigators for many years. The important relationship between size and respiratory tract deposition is discussed below. Most studier have been performed using mainstream smoke. Mainstream smoke is the smoke exiting from the butt of the cigarette during puff- drawing, and sidestream smoke is the smoke plume that drifts into the environment from the burning tip of a cigarette between puffk. Environmental tobacco smoke @TS) is the ambient burden of side&ream smoke and the smoke exhaled by a smoker. Involuntary smoking is the consumption of ETS by people, either smokers or nonsmokers, from the environment. One purpose in discus&g the size distribution and respiratory tract deposition of particles is to illustrate the discrepancy between the measured particle size of mamstresm smoke and its measured deposition in the human respiratory tract. The deposition fraction of mainstream smoke is several times higher than would be predicted on the basis of its particulate size. The measured deposition of side&ream smoke is more in keeping with its measured size (Hiller, McCusker et al. 1982). The standard laboratory smoke-generation technique is tc force air through the cigarette as would be done by a smoker, followed by the rapid dilution of the resulting mainstream smoke so that particle size can be measured. A standard 36 cma, 2-second puff is usdY used, although actual puff volume was shown to average 45 cm' in one tidy (Mitchell 1962) and 56 cm3 in mother; for individuals, the Puff vohme can vary from 20 to 30 ems UP to 70 to 80 ems (Hinds et al. 1983). The sire distribution of the diluted mainstream smoke aerosol in then m-u& by one of a variety of techniques such as light scattering devices, microscopic measurement, or impactor collectipg 182 devices. using various diluting and sizing techniques, particle s& measurements of mainstream cigarette smoke have been repor-teo from many laboratories (Table 1). One potential cause of error in measuring the Sk%3 distribution of main&-e&m cigarette smoke & the relative insensitivity to ultrafine particles of some previously used measurement methods. More recent studies using newer measure- ment techniques support the suggestions by the earlier investigators (Sinclair 1950) that there is an ultrafine, (< 0.1 pm) component u-~ the cigarette smoke. Size characteristics have been measured by electron microscopic methods, following rapid fixation of undiluted fresh tobacco smoke, as CMD 0.2 pm and GSD 1.5 (Keith 1982). me sb distribution measured with an electrical aerosol analyzer has been reported as CMD 0.1 pm, GSD 2.0, suggesting more ultrafine particles than previously recognized (Anderson and HjJ,ler 19%). Smaller particles (< 0.4 pm) of tobacco smoke have been shown to have a chemical composition different from that of larger particles (St&x 19&I), possibly because of the large surface area of smaller particles. Laboratory methods, such as rapid dilution, commonly used to study mainstream smoke, are highly artificial and may not accurate- ly duplicate the generation, dilution, and inhalation of mainstream smoke by the smoker. Smoking technique and respiratory tract conditions may promote changes in particle size. Therefore, the particulate sizes in the respiratory tract may differ from the sizes measured when mainstream smoke is diluted for size analysis or when diluted sidestream smoke is inhaled by the involuntary smoker. The smoker's puff is taken as a bolus in a relatively small volume of air into the humid upper respiratory tract. Smoking techniques vary widely (Griffrtbs and Henningfield 1982) and have been shown to vary significantly among groups classified as healthy smokers compared with those with emphysema and also between those with emphysema and those with bronchogenic carcinoma and bronchitis (Medici et al. 1985). Some smokers hold the puff in the mouth for several seconds prior to deep inhalation. The initial puff is highly concentrated, with approximately lo8 particles/ems. At this concentration, particle coagulation can occur rapidly, causing a tenfold to a hundredfold reduction in particle number and an increase in particle size (Hinds 1982). Also, the accumulation of water in or on the particles in the high humidity of the respiratory tract can increase particle diameter (Muir 1974), and may increase the diameter as much as 30 percent (Mitchell 1962). Some evidence suggests, however, that at least for dilute cigarette smoke, hygrc+ scopic growth occurs only under supersaturated conditions (Kousaka et al. 1982). Coagulation and water uptake by particles in the respiratory tract may considerably alter particle size distributions so that measurements under laboratory conditions probably do not 183 !i `l'ABLE L--Size distribution of mainstream tobacco smoke Study Size (pm). concentration [no. particles/cm'] Dilution Method Comment Wells and Gerke (1919) Sinclair (1950) DallaValle et al. (1959) CMD 0.27 Not given Oscillation amplitude CMD 0.0-0.3 fresh CMD 0.4-0.5 aged 0.1-025 Not given Light scattering Electrostatic separation Agedz size increase attributed to water accumulation Langer and Fisher m53 CMD 0.5 filter CMD 0.6 plain 12-6 x 1OY 1431 Microscopic impinger collection Compared with electrostatic precipitation mm 1.75 Keith and Derrick (1960 CMD 0.23 MMD 0.46 29&l Aerosol centrifuge Mic-pio GSD 1.64 C.dOUl&!d Porstendijrfer and ChlD 0.22 Schraub (1972) [5-7 x 108] 1OO,ocQ1 Related rate of deposition of radioactive decay products onto particles to particle 8ir.e Also measured deposition Pomtendiirfer (1973) CMD 0.42 CMD 0.22 lo:1 3,loo:l Radon daughter attached and deposited in spiral centrifuge Okada and Matsunuma (19741 CMD 0.16 MMD 0.29 1,50&l Liiht scattering GSD 1.46 TABLE l.-Continued Size (pm), concentration Study [no. particleelcm'] Dilution Method Comment Hinds (1978) McCusker et al. (19821 Chang et al. MMD 0.38-0.62 CMD 0.4 CMD 0.27 MMD 0.29-4.3 [4.2 x lO*] lO:l-7oo:l lo:1 3,loozl 126,000:1 Aermol centrifuge Laser doppler v&&o&y Size distribution decreases as dilution incrensee GSD 1.3-1.6 Aerodynamic diameter OSD 1.4 CMD 0.24-0.26 [3.6 x lay MMD 5.5 secondary mode &l-18:1 Electrical aerosol aaaIyzer (EAA) Anderson Cascade Impactor CD Bimodal distribution ww l-8 I 100 Primary mode @AA) CSD 1.18 Secoad mode (CD Sk-3046 of total mass NOTE: CMD = count median diameter: MMD = mass medii diimeter; GSD = geometric standard deviation. TABLE 2.-&e distribution of sidestream tobacco smoke StudJr size (pd DiIUtkUl comnl~t Keith and Derrick w6u CMD 0.16 296zl AWSOl Nature of sideetxeam centrifuee centrifuge smoke generation pmcmamakeadif6cult exact detednation of wncentration at generation and dilution Pol-sten&rfer and Schraub (1972) CMD0.24 Not given Rewed rate of depceition of mdiwctive decay products onto prticIee taparticIe&e Hiller, Mecusker et al. w32) CMD 0.31 Not &en Laser doppler veIwiIn* GED 1.6 NUlECMD=axmtmediMdiamaa;~=geometric etamid deviation represent distributions found in actual mainstream smoking condi- tions. Side&ream Smoke Sidestream smoke is generated by cigarettes burning spontaneous- ly between puffs and is quantitatively the major contributor to ETS. Fit+five percent of the tobacco in a cigarette is burned between puffs, forming sidestream smoke (see Chapter 3). Dilution takes place as smoke rises in the ambient air currents. This dilution with air reduces, but probably does not eliminate entirely, the coagulation that causes the particulate to increase in size, as they may in the highly concentrated state that occurs when a smoker draws a puff of mainstream smoke into the mouth and holds it briefly before inhalation. The size distribution of sidestream smoke might be expected to resemble that of diluted mainstream smoke. The results of several reports of sidestream smoke size measurements (Table 2) support this impression. Particle Deposition in the Respiratory Tract Total Deposition Total deposition haa been studied both theoretically and experi- mentally. Mathematical equations can be used to predict deposition by combining mathematical models of lung anatomy with equations describing the behavior of particles in tubes. The major property to be considered is particle size and its influence on impaction, sedimentation, and diffusion. Inertial impaction is the mechanism 186 that causes Particles moving in an airstream to be tile, because of exceesive mass, to follow the airstream around a bend. Large particles impact at the bend in the aimtmam or m the lung on or near a site of airway branching. The Iarger the particle the greater its chance of depositing by impaction. Impaction ia a relatively unimportant form of deposition for particles smaller than 0.6 pm. The effect of gravily on suspended particles causes them to fall, a process called sedimentation, which also becomes relatively unim- portant for particles less than 0.6 I.Lm in size. Larger particles fall faster, end for all particles, the greater the residence time (in the lung) the greater the likelihood of deposition by sedimentation. Diffusion is the net transport of particles caused by Brownian motion. It becomes increasingly important for particles less than 0.5 pm in size (Hinds 1982). The mass median diameter of aide&ream smoke is in the 0.3 to 0.5 w size range. Total deposition for inhaled particles is in the 10 to 30 percent range for 0.5 pm sixed particles. In Figure 1, Lippmann's review (1977) of the measurements of total deposition of monodisperse aerosols in human subjecta is modified to include more recent data and data on ultrafine particle depcsition. The respiratory pattern clearly affects particle deposition. Most important for all particles, including environmental tobacco smoke, is the residence time in the lung. Deposition increases with slow deep inspiration (Altshuler et al. 1957) and with breath holding (Pahnes et al. 1966, Anderson and Hiller 1985). In hamsters, the deposition of 0.38 pm particles rises in a nearly linear fashion with oxygen consumption (Harbison and Brain 1983). These data indicate that deposition of ETS during involuntary smoking increases with the increasing activity level of the exposed individual. The presence of an electrical charge on particles may increase deposition, Mainstream smoke is highly charged (Corn 1974). The addition of either a positive charge or a negative charge to inhaled particles increases deposition in animals (Fraser 19&l), and neutral- ization of the charge reduces deposition 21 percent in rats (Per-in et al. 1983). There is little information describing the effect of a charge on the deposition of either mainstream or side&ream smoke in human subjects. Particle growth by water absorption may affect deposition. Mathe- matical models that describe the effect of humidity on particle growth indicate the potential for a considerable change in size of some particles during transit in the humid rt -iratory tract (Perron 1977; Cocks and Fernando 1982; Renninger et al. 1981; Martonen and Pate1 1981) and that these changes could ~igniikmtly alter deposition @`err-on 1977). Growth of 0.4 to 0.5 p particles should increase their deposition fraction, but growth of a 0.07 pm particle to 0.1 pm, for example, would reduce its deposition (see Figure 1). Such 187 I I I 0.01 0.02 0.03 0.05 0.1 0.2 0.3 0.5 0.7 1.0 2 3 5 7 10 20 Aerodynembic dim&r-pm an effect has been shown for laboratory-generated aerosols in human subjects (Blanchard and Willeke 1983; Tu and Knudson 1984). While hygroscopic growth has been postulated for tobacco smoke (Muir 1974), it has been demonstrated in the laboratory to occur, at least for dilute smoke, only in supersaturated conditions (Kousaka et al. 1982). Many reports describe measured deposition of mainstream ciga- rette smoke in the human respiratory tract CTable 3). Although few studies of total sidestream smoke deposition are available, those few (Table 3) suggest that sidestream smoke does indeed deposit in a manner similar to that found for laboratoryde&ned research aerosols. The deposition fraction of mainstream smoke diluted 1:30 and inhaled by rata from chamber air containing 1.68 mg/L (assuming a rat tidal vo 1 ume of 1.5 mL and a respiratory rate of 85) is 138 8.1 percent @IUU et d. 1978). &positiop for the side&ream smoke has been measured in mouth-breathing human volunteers at 11 pertint, similar to that for similarly sized polystyrene latex spheres (Hiller, Mazumder et al. 1982). Environmental tobacco smoke exposure frequently occurs with breathing through the nose rather than through the mouth, but inert particles in the size range of ETS (0.2 to 0.4 pm) are not substantially reduced in number by passage through the nose. The fraction of inert 0.2 pm particles deposited in the alveolar region of the lung is similar for mouth breathing and nasal breathing (Raabe 1984). It is possible that the charged or reactive particles of J3TS may behave somewhat differently than inert particles, but it seems unlikely that nasal breathing substan- tially alters the deposition of the small particles of EY.CS in comparison with mouth breathing. Ftegiomd Deposition Total deposition is subdivided into the fractions depositing in the upper respiratory tract (larynx and above), the tracheobronchial region (trachea to and including terminal bronchioles), and the pulmonary region (respiratory bronchioles and beyond) (Figure 2). Deposition in these areas is referred to as regional deposition. Particle size is a major dete rminant of both total and regional deposition. A mathematical model prediction of regional deposition of polydisperse aerosols is shown in Figure 2 (ICRP 1966). Experimental verification of mathematical models of regional deposition is limited. Using isotope-labeled particles, it is possible to quantitate the upper respiratory tract deposition as a fraction of total deposition. By assuming that the aerosol depositing in the tracheobronchial region will be cleared within 24 hours, it is possible to measure alveolar deposition as the fraction of the total initial deposition below the larynx that is remaining at 24 hours and tracheobronchial deposition as the difference between the initial deposition and what is remaining at 24 hours. Using this method, the deposition of 3.5 pm particles was this: total deposition, 0.79; upper respiratory tract, 0.10; tracheobronchial region, 0.24; and pulmonary region (alveolar), 0.45 (Emmett et al. 1982). These measurements are below the estimated regional deposition for upper respiratory tract deposition and higher for the pulmonary deposition than are the measurements calculated by using the Task Group on Lung Dynam- ics model (ICRP 1966). `The regional deposition of mainstream cigarette smoke in smokers ha alSo been studied. Subjects inhaled smoke from cigarettes labeled with radioactive l-iodohexadecane (Black and Pritchard 1984; Pritchard and Black 1984). The results indicate that less than 40 percent of the particulate mass deposited in the pulmonary region, compared with an expected 90 percent deposition in the @I TABLE 3.-R aspiratory tract deposition of mainstream and aide&ream cinarette IWWSQ Study Mainstream smoke Deposition fraction Puff volume CmL) Smoke dilution Respiratory pattern Beumberger (1923) Schmahl et al. (1954 Polydorova (1961) Mitchell (1962) Dalhamn et al. U963) 88% 98% 80% (22-39 range) 32% (70-90 range) 98% + 3.1% SD @6-99 range) Not given 46 f 9.8 SD (33-65 range) 3s Puff time &and) Not given 1.9 f 0.6 SD 2 None None 3OOZl None Hinds et al. 41% m33) (22-75 range) 53 None Inhalation Usual spontaneous smoking pattern "Deep inhalation" Pretrahled shdard~ pattern (not dencried) Ueual epontaneoua smoking pattern Side&ream smoke Binns et al. (1978) Hiller, McCusker et al. (1932) 8% 11% Not applicable Not applicable 3o:l (in cbarnber~ 5I-100 palm' Spontaneous (rata) 1 L tidal volume, 12 breatheJmin Figure Z.-Regional deposition of particles inhaled during nasal breathing, as predicted using the deposition model proposed by the Tack Group on Lung Dynamics pulmonary region for 0.5 pm particles, the size reported for cigarette smoke (Table 1). This finding further supports the concept that mainstream smoke particles increase in size in the respiratory tract by coagulation, hygroscopic growth, or both, and that this growth affects total and regional deposition. The same group studied the effect of switching the tar content of cigarettes on regional deposi- tion. Using. cigarettes with between 16 and 17 mg tar, extrathoracic deposition was found to be 14 percent of the total deposition and intrathoracic deposition to be 86 percent, with 51 percent in the tracheobronchial area and 35 percent in the pulmonary region (Pritchard and Black 1984). After switching to cigarettes with between 8 and 9 mg tar, total deposition was 74 percent of that measured from cigarettes with the higher tar content, the extratho racic deposition was unchanged, the tracheobronchial deposition was from 34 to 42 percent, and the pulmonary deposition was 18 to 25 percent of the total mass deposited with the higher tar cigarettes. With the use of mathematical deposition modeling, the observed deposition pattern was consistent with one predicted for an aerosol with an MMD of 6.5 pm, more than 10 times greater than the MMD described for cigarette smoke (Black and Pritchard 1984). The deposition of particles is probably not uniform within a lung region. The mass deposited in the airways, for instance, may vary 191 widely. -4 deposition at specific anatomic sites may ba eswy important for mme inhalants. For example, the concentra- tion of carcinogenic subetances at a site may favor that site for cancer development. This may be e@ecmhY hW"rtant for c*arett@ smoke, hm lung mcer my occur at sites of high deposition such 88 my bifurcations. &p&ion of a 0.3 v laboratory-generated stable -1 has been shown to favor right upper lobe deposition, and on t-he ba& of surface density of deposition, the lobar bronchi (wesmger and Lippmann 1978). The deposition per airway genera- &n haa been d&~ for large particles, but has not received sufficient a-eon for p&idea in the size range of main&ream or Bidegtream smoke. A deposition peak has been Predicted, using a lung model for the fourth airway generation (trachea is 0) for 5 q particles, and a peak in airway surface concentration density was predicted for 8 w particles at the fourth generation (Gerrity et al. 1979). Both of these deposition peaks are calculated for particles &&&ially larger than those of cigarette smoke. )3q0&ions may be quite nonuniform even within a single airway generation. An enhanced deposition at bifurcations with highly concentrated deposition on carina ridges within bifurcations has been demonstrated in a five airway generation model of the human respiratory tract for both cigarette smoke (l&u-tonen and Lowe 1983a) and restxnch aerosols (Martonen and Lowe 1983153. Epidemiological studies of the pathophysiologic consequences of involuntary smoking have emphasized, among other things, an increase in the incidence of respiratory illness in children (see Chapter 2). The issue of the respiratory tract deposition of particles in children has been addressed only recently. Using morphometrm measurements from casts of the lungs of children and young adults aged 11 days to 21 years, a mathematical growth model was created. Using this model and conventional methods for predicting the behavior of particles in tubes, the deposition of particles at various ag- c-m be presided. On the basis of these calculations, tracheo- bronchial depositions per kilogram of body weight for 5 p particles Was &h&d b be six times higher in the resting newborn than m a resting adult @halen et al. 19851. Differences are predicted &o for particles the s&e of sidestream smoke, with tracheobroncm deposition m infancy beii twofold to threefold higher in adulthood. Total deposition has also been estimated using mathematical model- ing, with the total deposition estimated at approximately 15 percent at age 6 months and at 10 percent in adults (XU and YU 1936). 192 ResphtoW Tract Dose of EnvIronmental ~-cc0 smoke Cigarette Smoke Particulate lbht3 ~epoeited The dose of environmental tobacco smoke to the respiratory tract is the product of the mass in inhaled air and the deposition fraction. To this point, particle size and deposition fraction, which is related to both size and respiratory pattern as well as to other less understood factors such as particle charge and hygroscopicity have been addressed. To estimate dose, the content of smoke in inhaled air- must be known, as well as the respired minute volume. m content in inhaled air varies widely, as does minute volume, which depends considerably on activity level. Sidestream smoke concentrations have been raised as high as 16.5 mg/m5 in expetiental chambers (Hoegg 1972). High levels, 2 to 4 mg/ms, have also been estimated using measured carbon monoxide concentrations for rooms 146 m' in size containing 50 to 70 persons @ridge and Corn 1972). Such levels far exceed the EPA air quality standards for total suspended particulate of 75 w/m* annual average and the 260 w/m* 24-hour average in the United States and the 250 w/ma 24-hour average for the United Kingdom. Measurement8 of environmental smoke concentrations vary wide- ly, depending upon the location and measurement technique (Tables 4 and 5). Levels of total suspended particulates (TSP) measured under realistic circumstances have been found to be from 20 to 60 w/m3 in no-smoking areas, and can range from 100 to 700 &ms in the presence of smokers (Repace and Lowrey 1980). These measure- ments include all suspended particulates, and so could include part&e other than tobacco smoke. However, in a smoky indoor setting where measurements as high as 600 w/m9 have been found, tobacco smoke is the major contributor to particulate mass, with the non-tobaccwmoke contribution being small and similar to that measured for nonsmoking areas, namely in the 20 to 60 @mS range. This concept is supported by studies in which tobacco smoke concentration in the environment was determined by measuring the Gcotme content of suspended particulates. Using this technique (Hinds and First 1975), EI'S levels have been ehimati to be 20 to 4.80 p,g/ms in bus and airline waiting rooms and as bigh as 640 p&m" in cocktail lounges. These calculations of smoke concentrations were based on an average weighted nicotine fraction of 2.6 percent, an approach that may underestimate tobacco smoke particulate concen- tration. The mass deposition in the respiratory tract can be estimated if the atmospheric burden of cigarette smoke particulates, minute volume, and deposition fraction is known. Assuming a smoke concentration of 500 CLg/mS, a minute volume of 12 liters per minute, 193 TABLE 4.--Indoor concentration of total suspended p&cUlates (TSP) meamlred iu OIY%II~ living or work.ing situations Study Just et al. (1972) Hinds and First (1975) Location Coffee shop Conditions of location, owupancy, rmloking (5). nonsmoking @IS) 4 locations TSP pm/m' x &SD 1,160 Rackground pm/m* 670 ' Comments Bus waiting room Restaurant Cocktail lounge Arena A Arena B Arena C Not given Not given 40 m-68 200 (51-450) WE40) Not applicable Suspended paarticulates _ _ collected on filter; nicotine content measured for calculation; TSP = nicotine/O.026 Elliott and Rowe (1975) Attendance 9,660 Air conditioned (S) Attendance 14,300 Air conditioned (S) Attendance 2,900 Not air conditioned 9X Attendance 11,990 Natural ventilation (NS) 224 42 461 42 620 92 143 71 High volume sampler for suspended particulates; also measured Co at all locations and benr4alpyrene in arena A Cuddeback et al. (1976) Tavern 6 air changes/hr Tavern None apparent 0.31 f 0.05 (0.23-0.34) 0.99 8hr air sample collected on filter (6 pm pore size); TSP measured gravimetrically Neal et al. (1976) Hospital intensive care units Independent ventilation 30 66 Anderson personnel sampler systems ussd TABLE 4.-Continued Study Location Conditions of location, occupsncy, smoking 03, nonsmoking (NS) TSP pm/m" x &SD Sackground pm/m3 Comments Weber and Fischer (1930) Repace and Lowrey (1980) 44 offices Residences Libraries, churches, restaurants Restaurants, bars, bingo game Window ventilation; 32144 allowed unrestricted smoking Air conditioned 5 locations, 6 measurements, 10 * 8 persons/l00 m3, all NS 9 locations; 10 f 10 perwns/100 m', all NS 19 locations, 20 samples, 11 + 8 persons/100 ms, all S locations 7 locations with >l smoker/ms (mean 2.2 smokers/mJ) 18 f 7 persons/lo0 ma, with 1 smoker/l00 ma ,202 120 38 f 16 38 f 16 242 f 176 m-697) 406 * 188 (187-697) Subtracted from TSP Same Not done 36 + 10' (4 locations) 47 f 13' (13 locations) 53 f 8' TSP measured with pieeoefectric balance (see above) All samples colfected using pieroelectric balance with very high collection efficiency at 3.6 pm and 10% at 4 (cm; sample the l-60 min, outdoom 6-16 min z TABLE 4.-Continued Study Location Conditions of location, occupancy, smoking 6% nonsmoking (NS) TSP pmhn' I fsD Background pm/m' Comments Spengler et al. (1981) 35 homes 16 homes 5 homes 1 home* No smokers 1 smoker 2 smokers 2 smokers, tightly sealed, central air conditioning 24.4 f 11.6' 36.6 f. 14.6 70.4 f 42.9 144 21.1 zlz 11.9 all 55 homes Annual mean: respirable ma8s collected on filters after removal of nonrespirable fraction; `24-hr sample collected every 6 days ' Ambient prticulate concentration at site, but outdm~~. `This home is one of the !ive homes above. TABLE &-Indoor concentration of total suspended particulates (TPM) generated by smoking cigarettes under laboratory conditions chamber Cigarette TPM Study Test conditions Ventiition Size consumption mg/m' Comment.9 Penkala and Well mixed None 9.2 ma 3 simultan~usly, 2 q 3.0 de Oliveira (19'76) puffs Hoegg Sealed chamber; Portable fans 25 ma 24 simultaneously by 16.66 (1972) experimenter and test circulated air TPM measured gravimetrically machine after collection of suspended equipment in chamber; particulatea on fdten; measured 18 min sidestream smoke mlIected in pcetamoking chamber; mainstream smoke dischaqp?d Same, 150 min Same 4 simultaneously by 1.61 wetsmokina machine Hugod et al. (1978) Sealed room Unventilated 68 mJ 20 simultaneously by machine 6.76 TPM measured gravimetrically from 3hr collection on filter; mainstream smoke in chamber Cain et al. (1983) Muramahm 4-12 occupants Climata-controlled chamber Climatec0ntr0lled 11 ft3/min/oceupant 11 ma 4/hr (by occupants) 0.350 66 ft'lminloccupant 11 mJ 4/hr fby occupants) 0.16 11 ft'/min/occupant 11 ma 16/hr (by occupants) 1.26 68 ft'/min/occupant 11 mJ 16/hr (by GCGU~MW 0.40 16.4 air changes/hr 34 ms l/8 min to 60 min 0.19-0.26 F5ezoelectric balance messwed total mass over 0.01-20 pm Pieaoelectric balance et al. (1963) chamber Climate-controlled chamber 16.4 air changeslhr 30 ma 3 simultaneously, then 2/8 min 0.47-0.622 and a deposition fraction of 11 percent (Hiller, McCusker et al. 1982), mass deposition over an &hour work shift would be 0.317 mg. The Concept of "Cigarette Equivalents" Many investigators have attempted to estimate the potential toxicity of involuntary smoking for the nonsmoker by calculating "cigarette equivalents" (C.E.). To inhale one C.E. by involuntary smoking, the involuntary smoker would inhale the same mass quantity of ETS as is inhaled from one cigarette by a mainstream smoker. This approach has led to estimates from as low as 0.001 C.E. per hour to as high as 27 C.E. per day (Hoegg 1972; Hinds and First 1975; Hugod et al. 1978; Repace and Lowrey 1980). These differences of up to three orders of magnitude seem illogical when most reports of measurements of environmental concentrations of smoke, from the most clean to the most polluted with environmental tobacco smoke, are within tenfold to fiftyfold of each other. The following discussion demonstrates why the C.E. can vary so greatly as a measure of exposure. The calculation of C.E. is as follows: PMIw = TSP (mg/m') x Ox; where PM&,) equals the particulate mass inhaled by passive smoking, TSP equals the total suspended particulate, and VE equals the inhaled volume. C.E. = PMI&PML); where C.E. equals cigarette equivalent and PML) equals the mass inhaled by (mainstream) smoking one cigarette. (This is taken to be the tar content of a cigarette as reported by the U.S. Federal Trade Commission.) Cigarette equivalents can be calculated for any time interval chosen, i.e., per hour, per day. Although the example given is for particulate mass, C.E. can be calculated for any component of cigarette smoke, such as carbon monoxide and benzo[a]pyrene. The following calculations illustrate the different results from two different approaches to the calculation of C.E. Example 1 Example 2 SIB 0.36 mg/hr 20 ma/day PMIw 16.1 mg tar/@ 0.55 mg tar/cig TSP 40 CLg/mS 700 pg/m9 Example 1 PMIcp, = TSP x Ox = 40 P /m9 x 0.36 ms/hr = 14. CLg/hr C.E. = PMI&PM&ms, = (0.0144 mg/hr)/(l6.1 mg/cig) = 0.001 cig/hr 198 Example 2 PM&PI =TSPxOr = 700 w/ma x 20 ma/&y = 14,990 p&day C.E. = PMldwIk4 = (14 mgklay)/(O.65 mghig) = 245 &g/day These caktitiOn8 of C-E. approximate the approach- d h ho ~~rts-Exanw~e 1 by Kinds and Pi.& (1975) and Example 2 by Repace and Lowrey (198O)-and the results are similar. The exam- ples are the extremes used in the two studies, and are at the extremes Of CommOmy cited rep&a of C.E. Even if the Tsp concentration used in the two examples were the me, the multx would differ 24-fold because Example 1 is calculated per hour and Example 2 is calculated per day; 2%fold because of the aerence in inhaled minute volume; and 29-fold because of the difference in what is considered to be a `Wandard" cigarette. Even using the same TSP concentration, the results would be 1.6 x 10" different. If C.E. is to be calculated, all of the factors used in the calculation should be Standardized. The calculation of C.E. is deficient in several other ways. The deposition fraction of the total inhaled particulate mass in the respiratory tract from mainstream smoke is higher than from involuntary smoking. The deposition fraction for involuntary smok- ing is approximately 11 percent for mouth breathing (Hiller, Mazumder et al. 1982). The deposition from mainstream smoke has been reported to vary from 47 to 90 percent (Table 3). The cigarette equivalent calculation considers only the quantity inhaled, and if mm dose depoeited is considered, one C.E. from passive smoking will cause several times less mass to be deposited than the mainstream smoke of one cigarette. The differences in the chemical composition between sidestream smoke and mainstream smoke make the C.E. concept misleading unless C.E. is calculated for each smoke constituent. This has been accomplished (Hugod et al. 1973) using measured levels of various smoke co&ituente in a chamber filled with sidestream smoke. The redts indicate that one C.E. for carbon monoxide could b i&&j 5.5 times faster, and for aldehyde, 2.9 times faster, than for particulate mass. Measurements of total particulate matter and benxc(a]pyrene taken in an arena with active smoking revealed a fivefold rise in TSP above background and an eighteenfold increase in benzo[ajpyrene over background. Using the measured ben- zo[alpyrene concentration of 21.7 ng/ms, an inhaled volume of 2.4 ma, and 3.2 ng benxo[ajpyrene per cigarette, the occupant of such an environment would consume 6.4 C.E. for benzo[ajpyrene (IARC 1986, p. 87). The C.E. TSP would be 1.7. Therefore, a C.E. for the 199 carcinogen bedabyrene would be inhaled 3.6 times more rapidly w a C.E. for `JSP moth and Rowe 1975). me *de latitude h the results of C.E. calc~ations demonstrates the &pen&n= of the C.E. c.ahhtiOn On the numerical VahleS of the variables chosen, and correspondingly demonstrates the marked lotion of &e use of C.E. as an atmospheric measure of exposure b the wnb h en&m&d MOROCCO smoke. When the quantifica- con of an w ia needed, it is far more precise to use terms that defiae &e a of exposUre t0 the agent Of interest per unit he. However, the term cigarette equivalent is frequently used, not &ply 88 a mwure of exposure, but 88 a unit of disease risk that ~~them~ured~uresintoatikofdiseaseusingthe known daeresponse relationships between the number of ciga- re#es~~perdayandtheriskofdiseaee.IfC~.istobeusedasa tit of risk, the variables used to convert atmospheric measures into levels of rid for the active smoker need to be determined on the basis of the depcsition and smoke exposure measures for the average smoker. The deposition fraction of individual smoke constituents in t&e population of active smokers is needed rather than the range ob~rved in a few individuals. In addition, the actual average yield of the cigarettes smoked by the subjects in the prospective mortality studies would be needed to compare the dose-reeponse relationships accurately. The yield using the Federal Trade &nmission (Fl'c method may dramatically underestimate the actual yield of a cigarette when the puff volume, rate of draw, or number of puffs is increeeed; therefore, calculations using the Fl'C numbers may be inaccurate, particularly for the low-yield cigarettes. These limita- tions make exlxapolation from atmospheric measurea to c&are* equivalent units of disease risk a complex and potentially meanin- BleseP~. lAaiwa of Absorption In contrast, measuma of absorption of environmental tobacco smoke, particularly cotinine levels, can potentially overcome some of the limitations in translating environmental tobacco smoke expc+ sure3 into expected d&ease risk. Urinary cotinine levels are a reLatively accurate dosage measure of exposure to smoke; they have been measured in populations of smokers and nonsmokers, and are not subject to emrs in estimates of the minute ventilation or yield of the average cigarette. Potential differences in the half-life of cotinine in smokers and nonsmokers, differences in the absorption of nicotine relative to other toxic agents in the smoke, and differences in the ratio of nicotine to other toxic agents in mainstream smoke and sidestream smoke remain sources of error, but the accuracy with which active smoking and involuntary smoking exposure can be 200

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REPORT NO. 46407 B R O A D C A S T A C T I O N S 01/23/2007 STATE FILE NUMBER E/P CALL LETTERS APPLICANT AND LOCATION NATURE OF APPLICATION Actions of: 01/17/2007 FM STATION APPLICATIONS FOR MINOR CHANGE TO A LICENSED FACILITY GRANTED ----------------------------------------------------------------------- IN BPED-20061205AAC WWHI 47007 BALL STATE UNIVERSITY Minor change in licensed facilities. E 91.3 MHZ MUNCIE, IN Engineering Amendment filed 01/10/2007 Actions of: 01/18/2007 DIGITAL TV APPLICATIONS FOR CP EXTENSION DISMISSED -------------------------------------------------- SD BEPEDT-20060905AAR KUSD-DT 61072 SOUTH DAKOTA BOARD OF DIRECTORS FOR ED. TELECOMMUNICATIONS Extension of time to complete E CHAN-34 VERMILLION, SD construction authorized pursuant to a permit for a new DTV station: BPEDT-20050719AAN LOW POWER FM APPLICATIONS FOR LICENSE TO COVER DISMISSED -------------------------------------------------------- TX BLL-20061026AEK KZOE-LP 134743 THE SOUL CAFE, INC. 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512594

# Presentation: 512594 ## Slide 1 ## Status: Needs to be investigated further **Priority Rating: High** _**Issue:**_** Limited ability to define and assess well being and stress of animals under production in pasture based systems** _**Explanation:**_** Limited data concerning the well being of animals in pasture based production systems exist. ** **Agreement on defining well being & limited methods for assessing animal stress constrain researchers from developing protocols for reducing this stress.** ## Status: New and needs to be investigated **Priority Rating: Medium** _**Issue:**_** Limited empirical data concerning how utilization of grazing systems affect productive longevity of animals.** _**Explanation:**_** There is the assumption that animals completing their production cycles in extensive systems have increased productive longevity versus those in intensive systems of production.** ## Status: **Priority Rating: N/A** _**Issue:**_** Limited information on combining nontraditional and conventional management systems to increase resource utilization.** _**Explanation:**_** Combient Modeling** **Example: Conventional concentrated dry lot dairy with maxed nutrient credits might consider moving certain aspects of operation to pasture based systems (e.g., dry cows, cows with mastitis, heifers).** ## Status: Needs to be investigated further **Priority Rating: Medium** _**Issue:**_** There is limited empirical data quantifying the potential synergistic benefits of integrated grazing systems utilizing multiple forage-animal species.** _**Explanation:**_** Empirical data exists concerning the benefits of these systems under limited situations. ** **Synergistic benefits of these systems are still not well defined, thereby limiting development of management protocols to fully capture all resource inputs.** ## Status: Needs to be investigated further **Priority Rating: High** _**Issue:**_** Consistent product delivery from pasture finished meat animals suffers from a lack of predictability of input (e.g., forages) quantities & qualities.** _**Explanation:**_** Year round delivery of quality meat products from pasture finished meat animals requires improved understanding seasonal forage quality fluctuation & G*E interaction impacts on product quality & quantity.** ## Status: New and needs to be investigated **Priority Rating: High** _**Issue:**_** Lack of data concerning how to switch from conventional farming to organic farming while maintaining economic viability.** _**Explanation:**_** Farmers considering a transition to organic farming need information to guide them in making appropriate decisions during the transition to ensure sustainability of the new operation.** ## Status: Needs to be investigated further **Priority Rating: High** _**Issue:**_** Optimum supplementation of grazing dairy animals (includes: cattle, goats, sheep)** _**Explanation:**_** ** ## Status: New and needs to be investigated **Priority Rating: High** _**Issue:**_** Limited empirical data concerning effects of forage-based management and environment on equine health & production.** _**Explanation:**_** Horses are effected by many of the same issues affecting other grazing species (e.g., fescue toxicosis, salmonella, reproductive efficiency, etc.). However, horses have not routinely been recognized by ARS or other agencies for research funding.** ## Status: New and needs to be investigated **Priority Rating: Medium** _**Issue:**_** Limited empirical data effects of forage-based management and environment on grazing monogastric animal (e.g., chickens, pigs) health and production.** _**Explanation:**_** Much of the information available for grazing ruminant animals does not exist for these animals which are filling a niche market. Thus, development of sustainable production systems for these animals on pasture is particularly difficult.** ## Status: **Priority Rating: N/A** _**Issue:**_** Animal Identification & Disease Survey** _**Explanation:**_** After discussing this topic, it was decided that it was an APHIS issue & that APHIS would contact ARS if they needed ARS to research particular components.** ## Status: **Priority Rating: ** _**Issue:**_** How do we retain for the producer the value added to niche products?** _**Explanation:**_** This was not fully discussed. May not be a researchable issue - but rather a marketing issue.**

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# Presentation: 111081 ## Utilization of the Aura HIRDLS Spacecraft Pitch Manoeuvres **Utilization of the Aura HIRDLS Spacecraft Pitch Manoeuvres** **J. Barnett*, J. Craft**, J. ****Gille**, H. Lee**, C. Halvorson**, B. Nardi**, T. Eden**, C. Hepplewhite*** - *Atmospheric, Oceanic, and Planetary Physics, Oxford University - **Center for Limb Atmospheric Sounding (CLAS), University of Colorado at Boulder **Abstract** **During the Aura mission to-date there have been seven Aura spacecraft pitch manoeuvres and an eigth is due in early November 2006. These manoeuvres pitch up the HIRDLS telescope boresight so that the background signal of space is seen over the complete scan range. The spatial and temporal dependent radiance signal from the 21 HIRDLS detectors during the manoeuvere is used to characterize the emission from the obstruction in the telescope and validate the correction method adopted. In the past this has helped in the selection of optimum scan patterns used for the normal science acquisition mode. The salient attributes of the pitch are presented and the main aspects of the data and how they are used is described.** **Pitch Manoeuvres to date** **1 2004/344 16:41:02 to 20:07:00 to -5.25 deg** **2 2005/040 17:45:32 to 21:45:00 to -5.25 deg** **3 2005/194 14:30:32 to 22:27:00 to -5.25 deg** **4a 2005/306 12:38:55 to 14:25:00 to -2.62 deg** **4b 2005/306 15:55:32 to 21:50:00 to -5.25 deg** **5a 2006/053 12:21:55 to 14:07:00 to -2.62 deg** **5b 2006/053 17:20:32 to 22:53:00 to -5.25 deg** **6 2006/143 13:27:32 to 15:14:00 to -5.25 deg** **7a 2006/191 13:23:55 to 15:05:00 to -2.62 deg** **7b 2006/191 16:42:32 to 21:42:00 to -5.25 deg** **(times are for when the spacecraft is fully pitched)** **Constraints** - Sunlight should not expose dark (+Y) or Earth facing (+Z) sides of satellite to sunlight - - no problem. - Attitude rates and accelerations must not be excessive, to maintain pointing knowledge - - leads to slew times of approx 4 and 5.5 minutes to -2.62 and -5.25 deg respectively. - Real time data available for monitoring slews - Tracking and Data Relay Satellites - enable this at any point in the orbit, but competition for time can be a problem. - Moon must not be in HIRDLS atmospheric view at any point during the orbit - - a few orbits on 2 days per month excluded - Moon must not be in HIRDLS space reference port - a few days per year excluded. - The slews out and back give useful data so preferably located at orbit positions of slow - temperature change - slew out is preferred a few minutes after sun set. - Various temperatures on Day 143 2006. The arrows show the duration of the pitch manoeuvre which was to -5.25 deg. and lasted for 1.1 orbits. The six large peaks occur at sunset on successive orbits. The orbit cycles repeat accurately but small differences can be seen for the pitched orbit. **Pitch manoeuvres involve tilting the spacecraft in pitch by -2.62 or -5.25 deg so that the HIRDLS tangent heights at the end of the scan where there is a partial view of the atmosphere are well above the levels for which there is detectable atmospheric emission. This is used to perform a zero radiance calibration at angles which normally never receive zero radiance and is also used to calculate the fraction of beam area obstructed.** **The pitch angle is a compromise –** ***Too small***** a tilt and some channels will receive atmospheric emission at the bottom of the scan (for the HIRDLS view angle a -5.25 deg pitch rotation moves the scan up by approximately 190 km).** ***Too big***** a tilt and the instrument thermal balance will change enough to affect the behaviour.** **A smaller tilt of -2.62 deg is also employed as a check on the change on thermal balance (some channels see the atmosphere for part of the time) because a small change attributed to thermal balance is found.** **The instrument thermal behaviour varies:** **i) strongly around the orbit – necessitates at least one orbit of data for a given scan sequence** **ii) moderately with beta angle (angle between the orbit plane and the vector to the sun) – need measurements for different times of the year.** **iii) weakly from orbit to orbit due to variations in reflected sunlight and emissions from the earth and clouds – can be corrected for using spaceview radiances (from high altitudes).** - Example Pitch Manoeuvre scan containing an azimuth raster plus atmospheric elevation scans. Several different scan types are normally used for a manoeuvre including the standard sequence used for taking standard science data. Science scans are made at -23.5 deg azimuth shaft angle, which gives -47 deg view azimuth view direction. **Above**: Channel 18 standard science scan data (repeated vertical scans through the partially clear aperture at -47 deg azimuth view direction). The data have been high pass filtered to show oscillations caused by the obstruction. 1.8 orbits are plotted, time up the plot, but spacecraft pitched at -5.25 deg for ~49000-55000 sec., i.e. approximately the central 1 orbit. Time relative to bottom of scan is plotted horizontally. The time between about -4 and +4 secs corresponds to channel 18 viewing the atmosphere for normal orientation. During this time the atmospheric radiances mask the oscillations, but the correction process needs to function accurately. While pitched, the oscillations can be tracked all the way across (they undergo various amplitude changes), so correction methods can be devised and checked. **Right:** As above but for channel 5. The atmosphere is much more opaque for this channel, but the high opacity leads to smooth radiances at low altitudes and the oscillations again become visible but noisy in normal orientation. Where visible, the oscillations closely match those for channel 18. - Data is for day 143 2006. Scan pattern is 50601, standard geophysical scan. **Uses of pitch manoeuvre data:** - Pitch manoeuvre data are used for three distinct purposes: **1) Development and validation of deoscillation algorithms** - As the scan mirror moves it triggers oscillations in the optical blockage which cause oscillating radiance offsets. These are in-phase on all channels because they share a common input beam. Certain channels (notably 18) provide a means to observe these, measure their behaviour in real time, and provide a basis for extrapolating below the level where the channel receives radiation from the atmospheric scene. However these algorithms need to be developed and validated using data with zero scene radiance, which is only obtained for all necessary elevation angles if the spacecraft is pitched. **2) Modelling Radiometric zero** - The blockage adds radiance to the signal to be measured from the atmospheric or space scene in proportion to the obstructed area and the Planck function of the material, both of which vary with mirror angles. The gross effect of Planck function variations can be allowed for by subtracting the signal when viewing space at the top of the scan, but vertical variation must be modelled and predicted, partly based on gradients over the space part of the scan, and also using data obtained during pitch manoeuvres. **3) Derivation of the unobstructed area fraction.** - Once the blockage emission has been subtracted, the signal still needs to be increased (divided by the unobscured fraction) to allow for the diminished beam area which views the scene. Various methods have been used to derive this area (which varies with mirror position and channel), but these rely upon using radiance signals which include known scene emissions (e.g. zero when pitched). As with (2) the most important mirror angles are those where the atmosphere is in the view, so only a pitch manoeuvre will cause those angles to view space.

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# Presentation: 6LSZNL3PIAJZY7XWKHW2XXW4HQLVZPLL ## Tevatron Operational Stability - _A. Valishev_, G. Annala, D. Bollinger, B. Hanna, A. Jansson, - T. Johnson, R.S. Moore, D. Still, C.Y. Tan, J. Volk, X.L. Zhang **Fermilab, Batavia IL** - All Experimenters’ Meeting, May 18, 2009 ## Outline - Overview of collider operation and issues - Categorization of quenches - Orbit stabilization and optics stability - Losses during low-beta squeeze - Aperture at CDF - Beam-beam effects and chromaticity - Summary and outlook ## Peak Luminosity of the Tevatron ## Integrated Luminosity Performance - * V.Lebedev, MO1BCI02 - * ## Collider Fill Cycle - Limitations: - Np=3 1011/bunch - p=18  mm mrad – upstream machines - Na=1 1011/bunch –accumulation rate - a=7  mm mrad – beam-beam effects * - L0 – experiments - Store 6950 L0=3.5x1032 - Concentrate on repeatability** - * C.Y.Tan, TU6RFP053 - ** C.Gattuso, MO4RAC03 ## Categorization of Quenches - Total quenches since Oct. 2007 - 73 - Distribution - Injection: 4 - Ramp/Flattop: 6 - Squeeze: 21 - Initiate Collisions: 6 - Remove Halo: 5 - HEP: 31 - Most quenches in - squeeze (18) were - caused by a combination - of beam-beam and - orbit issues. - Only 1 beam related - quench in HEP ## Orbit and Tune Stability | zone | Hor ave (mm) | Hor sigma (mm) | | --- | --- | --- | | A | .29 | .35 | | B | .29 | .09 | | C | .15 | .05 | - A - B - C - Reference orbit: - 5850, Jan. 16, 2008 - 6138, May 13, 2008 - 06/2006 - 10/2007 - 2/12/2008 - 4/29/2008 ## Aperture Restriction in CDF IR ## Aperture Restriction in CDF IR ## D0 Q4 Quadrupole Rolls ## Beam-Beam Effects at Low-Beta Sequence 14 - a=8  mm mrad, =0.01 - C=12, different antiproton emittances - Beam separations at LB seq. 14 ## Normalized Proton Loss During Low-Beta Squeeze - Red traces – before chromaticity change at sequence 14, blue - after ## Luminosity and Timeline of Events | store | date | comment | | --- | --- | --- | | 5657 | 10/28 2007 | End of 2007 shutdown | | 5813 | 12/20 2007 | Tune adjustment based on Na | | 5871 | 1/17 2008 | Implemented antiproton blowup | | 5891 | 2/7 2008 | D0 optics correction | | 5903 | 2/12 2008 | fixing orbit stabilization | | 6099 | 4/29 2008 | Orbit stab. to reference | | 6489 | 10/11 2008 | Fixed CDF aperture. | | 6625 | 12/6 2008 | Lowered C in squeeze, D0 Q4 | ## Summary - Stability is the key to successful running in FY08 an FY09 - Orbit stabilization - Controlled antiproton emittance (or a/p ratio) - Controlled proton tune - Monitoring lattice stability - With stable machine and beam parameters beam-beam effects are no problem up to 3.5x1032 - Low-beta squeeze is the most demanding stage of the collider cycle - Losses are caused by long range beam-beam effects - Increase of aperture in the CDF IR improved situation - Chromaticity is a strong factor - Further (though not large) improvements are possible: ## Summary Continued - If beam-beam effects in squeeze are mitigated - Using new sextupole circuits - More work on helix

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SECURITIES ACT REGISTRATIONS June 19, 2008 The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be viewed in person in the Commission's Public Reference Branch at 100 F Street, N.E., Washington, D.C. To obtain paper copies, please refer to information on the Commission's Web site at http://www.sec.gov/answers/publicdocs.htm. In most cases, you can view and download this information by using the search function located at: http://www.sec.gov/edgar/searchedgar/companysearch.html. S-8 BUCKEYE TECHNOLOGIES INC, PO BOX 80407, MEMPHIS, TN, 38108-0407, 9013208174 - 3,500,000 ($33,285,000.00) Equity, (File 333-151724 - Jun. 18) (BR. 09B) S-3ASR CABOT OIL & GAS CORP, 1200 ENCLAVE PARKWAY, HOUSTON, TX, 77077, 2815894600 - 0 ($0.00) Equity, (File 333-151725 - Jun. 18) (BR. 04B) S-8 AVANT IMMUNOTHERAPEUTICS INC, 119 FOURTH AVE, NEEDHAM, MA, 02494, 7814330771 - 0 ($36,339,318.24) Equity, (File 333-151728 - Jun. 18) (BR. 01C) S-8 ZILA INC, 5227 NORTH 7TH STREET, PHOENIX, AZ, 85014-2800, 6022666700 - 3,000,000 ($1,170,000.00) Equity, (File 333-151729 - Jun. 18) (BR. 10C) S-8 SUN LIFE FINANCIAL INC, 150 KING STREET WEST, TORONTO ONTARIO, CANADA M5H 1J9, A6, 00000, 600,000 ($25,923,000.00) Equity, (File 333-151733 - Jun. 18) (BR. 01C) S-8 TRANSCANADA CORP, 450 - 1ST STREET S.W., CALGARY ALBERTA, A0, T2P 5H1, 4039202000 - 0 ($5,000,000.00) Equity, (File 333-151736 - Jun. 18) (BR. 02A) S-8 BARD C R INC /NJ/, 730 CENTRAL AVE, MURRAY HILL, NJ, 07974, 9082778000 - 0 ($242,089,000.00) Equity, (File 333-151740 - Jun. 18) (BR. 10A) S-8 Gamma Pharmaceuticals Inc, 7477 WEST LAKE MEAD BLVD., SUITE 170, LAS VEGAS, NV, 89128, 651-204-2048 - 300,000 ($225,000.00) Equity, (File 333-151741 - Jun. 18) (BR. 01A) F-6 GAZ DE FRANCE, 01133147542020 - 100,000,000 ($5,000,000.00) ADRs/ADSs, (File 333-151742 - Jun. 18) (BR. 02) S-8 ALASKA AIR GROUP INC, 19300 PACIFIC HWY SOUTH, SEATTLE, WA, 98188, 206.392.5040 - 2,179,712 ($40,106,700.00) Equity, (File 333-151743 - Jun. 18) (BR. 05A) S-8 ANTIGENICS INC /DE/, 630 FIFTH AVENUE SUITE 2100, NEW YORK, NY, 10111, 212-994-8200 - 0 ($4,140,000.00) Equity, (File 333-151745 - Jun. 18) (BR. 01B) S-8 FLOWERS FOODS INC, 1919 FLOWERS CIRCLE, THOMASVILLE, GA, 31757, 9122269110 - 1,500,000 ($40,920,000.00) Equity, (File 333-151746 - Jun. 18) (BR. 04B) S-1 OCEAN ENERGY, INC, 1984 ISAAC NEWTON SQUARE WEST, SUITE 202, RESTON, VA 20190, 1984 ISAAC NEWTON SQUARE WEST,, VA, 20190, (703) 227-7165 - 955,000 ($477,500.00) Equity, (File 333-151747 - Jun. 18) (BR. ) S-8 COSTCO WHOLESALE CORP /NEW, 999 LAKE DRIVE, ISSAQUAH, WA, 98027-, 4253138100 - 8,000,000 ($545,600,000.00) Equity, (File 333-151748 - Jun. 18) (BR. 02A) S-3 Pharmasset Inc, 303-A COLLEGE ROAD EAST, PRINCETON, NJ, 08540, 609-613-4100 - 0 ($100,000,000.00) Unallocated (Universal) Shelf, (File 333-151749 - Jun. 18) (BR. 01C) S-8 BION ENVIRONMENTAL TECHNOLOGIES INC, 641 LEXINGTON AVENUE, 17TH FLOOR, NEW YORK, NY, 10022, (212) 758-6622 - 1,000,000 ($2,060,000.00) Equity, (File 333-151751 - Jun. 18) (BR. 05B) S-8 SPACEHAB INC \WA\, 12130 HIGHWAY 3, BUILDING 1, WEBSTER, TX, 77598, 7135585000 - 0 ($3,685,000.00) Equity, (File 333-151752 - Jun. 18) (BR. 05C) S-3ASR PITNEY BOWES INC /DE/, WORLD HEADQUARTERS 61-11, ONE ELMCROFT ROAD, STAMFORD, CT, 06926, 2033565000 - 0 ($0.00) Other, (File 333-151753 - Jun. 18) (BR. 03B) S-8 IBERIABANK CORP, 200 WEST CONGRESS STREET, LAFAYETTE, LA, 70505, 3375214003 - 300,000 ($14,829,000.00) Equity, (File 333-151754 - Jun. 18) (BR. 07A) S-8 CVB FINANCIAL CORP, 701 N HAVEN AVE STE 300, ONTARIO, CA, 91764, 9099804030 - 0 ($42,224,334.79) Equity, (File 333-151755 - Jun. 18) (BR. 07B) S-8 WRIGHT MEDICAL GROUP INC, 5677 AIRLINE ROAD, ARLINGTON, TN, 38002, 9018679971 - 0 ($20,496,000.00) Equity, (File 333-151756 - Jun. 18) (BR. 10C) S-3 RYDER FUNDING II LP, 3600 N W 82ND AVE, RYDER LAW 5C, MIAMI, FL, 33166, 1,000,000 ($1,000,000.00) Asset-Backed Securities, (File 333-151759 - Jun. 18) (BR. ) S-3 PLURISTEM THERAPEUTICS INC, MATAM ADVANCED TECHNOLOGY PARK, BUILDING NO. 20, HAIFA, L3, 31905, 972-4-850-1080 - 0 ($15,000,000.00) Equity, (File 333-151761 - Jun. 18) (BR. 01B) S-8 CHESAPEAKE ENERGY CORP, 6100 N WESTERN AVE, OKLAHOMA CITY, OK, 73118, 4058488000 - 8,000,000 ($468,640,000.00) Equity, (File 333-151762 - Jun. 18) (BR. 04B) S-8 PHOTRONICS INC, 15 SECOR ROAD, PO BOX 5226, BROOKFIELD, CT, 06804, 2037759000 - 3,000,000 ($24,300,000.00) Equity, (File 333-151763 - Jun. 18) (BR. 10C) S-8 IXIA, 26601 W AGOURA RD, CALABASAS, CA, 91302, 8188711800 - 0 ($84,545,000.00) Equity, (File 333-151764 - Jun. 18) (BR. 10B)

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# DAG Concept Element 6 **(Trajectory Negotiation for User-preferred Separation Assurance)** # Overview Description # January 31, 2002 # NAS2-98005 # Technical Research in Advanced Air Transportation Technologies Final Overview Description # DAG Concept Element 6 # (Trajectory Negotiation for User-preferred Separation Assurance) CDRL Item 5b # Prepared under # RTO -- 62 # AATT Operational Concept for ATM -- Year 2002 Update #### January 31, 2002 #### Prepared For: NASA Ames Research Center #### Moffett Field, CA 94035-1000 #### Prepared By: Titan Systems Corporation -- SRC Division #### Billerica, MA 01821-4134 ![](media/image1.jpeg){width="5.416666666666667in" height="0.75in"} # DAG CE.6 - Trajectory Negotiation for User-preferred Separation Assurance **Overview Description** CE-6 operates in en route airspace to increase system flexibility and user preference accommodation through use of ATSP-user trajectory negotiation, augmented by advanced airborne and ground-based decision support automation. The two problems solved by CE-6 address complementary situations that require: (a) *Resolution of potential conflicts due to violations of aircraft minimum separation rules* (b) *Conformance with local TFM constraints* Situation "a" is the case in which trajectory negotiation is used to resolve potential aircraft conflicts in the absence of local TFM constraints. Situation "b" is the case in which trajectory negotiation is used to provide conformance with TFM constraints, but this conformance must also satisfy aircraft minimum separation requirements. Both situations may occur simultaneously, or situation "a" may occur in isolation from the other. The approach taken by CE-6 is to implement the general capability to resolve simultaneous potential violations of aircraft separation and local TFM constraints. CE-6 is designed to provide all the functions, processes, procedures and facilities to implement the general solution to the union of both situations. CE-6 enables the resolution of isolated potential aircraft conflicts as a sub-capability in which trajectory negotiation is simplified by the exclusion of TFM constraint factors. #### Overview CE-6 provides an ATSP focus for implementing en route trajectory negotiation within the framework of distributed decision-making between ATS users and providers. ATSP retains full responsibility for separation assurance, but users are integrated into the solution processes. Users are able to exercise initiatives and participate in the en route traffic management decision-making processes pertaining to the prevention of violations to aircraft separation and local TFM constraints. CE-6 provides the mechanisms for dynamically incorporating user-determined trajectory data and preferences into the assessment and the resolution or avoidance of potential violations. These mechanisms include processes for exchanging information, identifying and evaluating complex traffic situations, and determining and implementing solutions. The trajectory negotiation process implemented in CE-6 identifies, reviews and resolves traffic management situations requiring corrective or approval action with respect to potential violations of aircraft separation and local TFM constraints. This process emphasizes the use of continual updates of flight and atmospheric information together with advanced decision support tools to support high-fidelity trajectory prediction and situation assessment and real-time collaboration between users and ATSP. This approach: enables the ATSP, FD and AOC operations to accurately assess situations and formulate resolution options; affords ATSP the opportunity to present information to users describing traffic situation and trajectory constraints; affords users the opportunity to present self-optimization preferences for ATSP consideration; and promotes the application of resolutions that are sensitive to user preferences. The resulting ATSP flexibility in determining airspace use allows aircraft to fly efficient trajectories based on the changing traffic and atmospheric conditions. For effective trajectory negotiation, CE-6 requires development of advanced ATSP, FD and AOC automation, and their [operational and technical integration]{.underline} based on advanced communications capabilities and human-centered pilot and controller pilot procedures and technologies. These functions must be properly structured and integrated to enable users and ATSP to evaluate traffic situations accurately and determine and implement optimal courses of action. The operational integration focuses on the establishment of human-centered processes and interfaces for using the computer-derived information cooperatively among ATSP, FD and AOC to make the best use of trajectory negotiation. The technical integration focuses on derivation, transmission and compilation of valid flight data for use by computerized systems to evaluate and predict actual trajectories, identify and examine constraints and generate trajectory alternatives with high accuracy. #### Operational Integration CE-6 implements trajectory negotiation by providing ATSP and users with the means for exchanging potential conflict, TFM constraint and trajectory information to improve their situation assessment and planning processes. User-provided data enable ATSP automation to predict and evaluate trajectories accurately, and AOC-provided data enable users to determine appropriate trajectory preferences: - AOC provides user flight operations and aircraft performance descriptors to ATSP, and FD provides updates of trajectory status, intent, preference and atmospheric measurements to ATSP. This information is integrated into the ATSP surveillance, flight data and associated computational processes to enhance decision support tool performance. ```{=html}  ``` - ATSP provides the users with atmospheric forecasts and local TFM constraints such as required time of arrival (RTA), altitude, speed or spacing restrictions, route restrictions due to special use airspace, weather or sector traffic congestion, and airport acceptance rates and delays. - ATSP provides users with information describing potential violations of aircraft separation and TFM constraints, and may provide information describing ATSP-generated trajectory resolution alternatives or restrictions applicable to user-generated resolutions. These data exchange and trajectory evaluation exercises enable ATSP and users to determine and negotiate clearances that provide efficient resolutions of potential violations of aircraft separation and TFM constraints or permit efficient trajectory changes in response to user requests. The CE-6 operation employs a human-centered operational design that leverages the advanced capabilities of the automation, pilot and controller computer-human interface (CHI), and communication, navigation and surveillance (CNS) functions available in the DAG environment. A key component of these functions is improved trajectory prediction and assessment, which enables extended probing along the projected trajectory to perform aircraft CD&R and TFM constraint infraction detection and resolution. A theoretically perfect CE-6 trajectory prediction and assessment function would support resolution of all potential violations along the entire trajectory prior to each aircraft's entry into en route airspace. The theoretical limit of en route probing would be the implementation of user and ATSP-negotiated, violation-free 4-dimensional flight plans, which would eliminate potential conflicts while satisfying any local TFM constraints. Delays and diversions from the negotiated flight plan would be precluded in this theoretically perfect operation. In the realistic environment of CE-6, trajectory prediction and assessment is not perfect and its accuracy diminishes with longer look-ahead. However, trajectory analysis in the DAG environment would be superior to that of current operations, and CE-6 trajectory accuracy would support reliable aircraft CD&R and local TFM constraint probing well beyond the scope defined by current sector sizing practices. Hence, CE-6 implements trajectory negotiation for airspace that currently would be a multi-sector environment such that ATSP evaluates aircraft separation and local TFM requirements over an extended downstream look-ahead span. Trajectory negotiation is used to establish a reliable violation-free plan for the effective range of the aircraft CD&R and TFM constraint probe. Notionally, ATSP monitors the flight along a previously negotiated trajectory and would not intervene except when or until a violation is projected. This control-by-exception operation is based on a trajectory-centric, rather than sector-centric, concept for distributing separation assurance responsibility. Theoretically, a trajectory-orientated ATSP operation might be established without sectorization in a futuristic environment. However, for planning purposes based on practical considerations, CE-6 is assumed to operate in a sector structure similar to that currently employed. In this operation, the probe examines aircraft separation and local TFM constraints in the multi-sector airspace that includes the current and downstream sectors. Negotiation is used to agree on a violation-free trajectory plan for this extended range, alleviating requirements for subsequent downstream intervention. The CE-6 controller and pilot operating procedures and associated CHI are designed to support trajectory negotiation and dissemination of constraint information for single and multi-sector coverage. ATSP data entry and display, decision support tool and communication systems are structured to facilitate detection and assessment of potential violations and their resolution through ATSP-user negotiation and inter-controller coordination. The CHI allows for the handling of a range of complex potential violation or constraint conformance situations. The aircraft involved in a potential violation may be in the same sector as each other at the time of negotiation or in different sectors, and the location of the potential violation may be the sector containing one or more of the subject aircraft or a downstream sector. Trajectory constraint specifications may pertain to a single reference fix and control parameter, or a sequence of fixes and combinations of parameters defining crossing time, spacing, speed, altitude or other traffic management requirements. Controllers are provided with capabilities to define a trajectory solution or solution options, and to test, evaluate, bound, accept, adjust or reject trajectory options generated by ATSP automation tools and user-generated trajectory change requests. Pilots are provided with capabilities to assess, bound, accept, or reject FD or AOC-generated trajectory change requests and ATSP-generated trajectory resolutions. Dispatchers have analogous capabilities. Controllers, pilots and dispatchers are able to respond to each other's trajectory plans as part of the process of achieving consensus. #### Technical Integration The CE-6 operation is enabled by advanced ATSP, FD and AOC automation coupled with advanced CNS technology. These technologies provide the mechanisms for reliably determining and describing the attributes, state and intent of aircraft and the air traffic system, accurately evaluating aircraft separation and TFM constraint factors, correctly determining trajectory options and preferences, and effectively performing trajectory negotiation. A critical technical integration component is an air-ground and ground-ground data link system, which enables the efficient exchange of data among ATSP, FD and AOC. Automation tools are used in CE-6 to assist controllers, pilots and dispatchers in conducting aircraft separation and local TFM constraint conformance tasks. These automation tools perform trajectory prediction and assessment calculations using highly-accurate information describing aircraft operating characteristics, traffic, TFM constrains, and atmospheric conditions. Data link enables the automatic exchange of [calibration data]{.underline} describing aircraft and system attributes, and facilitates exchange of trajectory [negotiation data]{.underline} between ATSP and users. Calibration information are transmitted between ATSP and user computer operations using automated data link capabilities. These messages contain information used by ATSP, FD and AOC automation to perform high-fidelity modeling of trajectories, traffic situations and atmospheric conditions. Calibration data describe flight operations and aircraft performance factors, aircraft state and trajectory intent, and atmospheric measurements and forecasts. Negotiation transactions between controllers, pilots or dispatchers include trajectory preference and preference interrogation, trajectory change request, trajectory constraint, trajectory trial plan and clearance, and acceptance and rejection messages. ATSP decision support tools and surveillance functions are critical CE-6 components. Trajectory prediction and assessment automation functions assimilate calibration and appropriate negotiation data, evaluate aircraft separation and local TFM constraint conformance factors, generate and assess trial plan options where necessary, and provide controller interface capabilities for conducting trajectory negotiation with users. ATSP automation also processes and transmits atmospheric forecasts by data link. The ATSP surveillance system provides traffic situation data. User-derived aircraft status and intent data is fused with ATSP radar track data to provide the surveillance accuracy required for reliable trajectory prediction and assessment computations. Flight deck avionics systems are integrated into the CE-6 operation. Aircraft flight management systems (FMSs) process calibration and negotiation data. Advanced FMS units generate aircraft status, trajectory intent and atmospheric measurement information for air-ground down linking. FMSs also generate trajectory preference and restriction data, and provide pilot interface capabilities for conducting trajectory negotiation with ATSP. The accuracy of the status and intent data and the capability to maintain trajectory clearance conformance depend on the performance levels of the navigation and guidance systems onboard aircraft. AOCs generate flight plan and operations data that are used in ATSP and FMS trajectory prediction and assessment computations. AOC decision support tools provide dispatcher interface capabilities for conducting trajectory negotiation with ATSP by ground-ground data link and with pilots by air-ground data link. #### BIBLIOGRAPHY 1. **Couluris, G. J.,** *Detailed Description for CE-6, En route Trajectory Negotiation,* Seagull Technology, Inc., November 2000. 2. Advanced Air Transportation Technologies (AATT) Project, "Concept Definition for Distributed Air/Ground Traffic Management (DAG-TM)," Version 1.0, NASA, Aviation System Capacity Program, September 30, 1999. 3. Advanced Air Transportation Technologies (AATT) Project, "Research Plan for Distributed Air/Ground Traffic Management (DAG-TM)," Version 1.01, NASA, Aviation System Capacity Program, September 30, 1999. 4. Advanced Air Transportation Technologies (AATT) Project, NASA, Aviation System Capacity Program, "ATM Concept Definition," Version 1.0, NASA Ames Research Center, October 1997. 5. **Ballin, Mark G.; Wing, David J.; Hughes, Monica F.; and Conway, Sheila R**.: Airborne Separation Assurance and Traffic Management: Research of Concepts and Technology. 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FMS-ATM Next Generation (FANG) Team, "FMS-ATM Next Generation (FANG) Required Capabilities," DOT/FAA/AND-98-13, FAA, November 1998. 26. **Green, S.,** "AATT Concept for Constrained En route Airspace," NASA AATT Milestone 5.11, NASA Ames Research Center, September 1999. 27. **Green, S.,** "En route Spacing Tool: Efficient Conflict-free Spacing to Flow Restricted Airspace," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, June 2000. 28. **Green, S., den Braven, W., and Williams, D**., "Development and Evaluation of a Profile Negotiation Process for Integrating Aircraft and Air Traffic Control Automation," NASA TM 4360, April 1993. 29. **Green, S., Goka, T., and Williams, D.,** "Enabling User Preferences through Data Exchange," AIAA-97-3682, AIAA Guidance, Navigation, and Control Conference, August 1997. 30. Green, S., Grace, M., "Conflict-free Planning for En Route Spacing: A Concept for Integrating Conflict Probe and Miles-in-Trail," AIAA-99-3988 AIAA Guidance, Navigation, and Control Conference, August 1999. 31. Green, S., Vivona, R., "AATT En route Descent Advisor (EDA) Concept," NASA AATT Milestone 5.10, NASA Ames Research Center, September 30, 1999. 32. Green, S., Vivona, R., "Field Evaluation of Descent Advisor Trajectory Prediction Accuracy," AIAA-96-3764, AIAA Guidance, Navigation, and Control Conference, July 1996. 33. Green, S., Vivona, R., Grace, M., and Fang, T., "Field Evaluation of Descent Advisor Trajectory Prediction Accuracy for En Route Clearance Advisories," AIAA-98-4479, AIAA Guidance, Navigation, and Control Conference, August 1998. 34. Heimerman, Kathryn, "Proceedings of the First FAA Dynamic Density / Air Traffic Control Complexity Technical Exchange Meeting, November 1997," the MITRE Corporation, Center for Advanced Aviation System Development, McLean, VA, MP 98W0000015, November 1998. 35. Honeywell, Inc., "Documentation for En Route Data Exchange (EDX) Phase 2 AMI," NASA Contract No. NAS2-98001, RTO 25, October 1999. 36. Leiden, K., Green, S., "Trajectory Orientation: A Technology-Enabled Concept Requiring a Shift in Controller Roles and Responsibilities," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, Italy, June 2000. 37. NASA, "NASA Strategic Plan," NASA Policy Directive (NPD)-1000.1, 1998. 38. RTCA, \"Operational Concepts and Data Elements Required to Improve Air Traffic Management (ATM)-Aeronautical Operational Control (AOC) Ground-Ground Information Exchange to Facilitate Collaborative Decision Making,\" Document No. RTCA/DO-241, RTCA SC-169 (7 October 1997) 39. **Schleicher, D., Weidner, T.,** "NASA/FAA Initial User-CTAS Data Exchange Field Evaluation, Initial Project Plan," TM 98178-01, Seagull Technology, Inc., September 1998. 40. **Schleicher, D., Weidner, T., Coppenbarger, R.,** "En Route Data Exchange Phase 2 Field Evaluation, CTAS Software Requirements, Version 1.0," TM 99185.01-02, Seagull Technology, Inc., February 1999. 41. **Schleicher, D., Weidner, T., Coppenbarger, R.,** "NASA/FAA Initial User-CTAS Data Exchange (EDX Phase 2) Field Evaluation, Project Plan," TM 98185.01-01, Seagull Technology, Inc., February 1999. 42. Select Committee on Free Flight Implementation, "Joint Government/Industry Operational Concept for the Evolution of Free Flight," RTCA Inc., August 1997. 43. **Sridhar, B., Seth, K., and Grabbe, S,** "Airspace Complexity and its Application in Air Traffic Management," 2^nd^ USA/Europe Air Traffic Management R&D Seminar, Orlando, Florida, December 1998. 44. **Thedford, W.; Vivona, R.; and Hodgdon, C.:** En route Constrained Airspace Concept Definition. SRC final report, NASA Contract: RTO-07: NAS2-980005, September 1999. 45. **Vivona, R., Ballin, M., Green, S., Bach, R., McNally, D.,** "A System Concept for Facilitating User Preferences n En Route Airspace," NASA Technical Memorandum 4763, November 1996. 46. **Wanke, Craig**, "Using Air-Ground Data Link and Operator-Provided Planning Data to Improve ATM Decision Support System Performance," IEEE 0-7803-4150-3/97, March 1997. 47. **Weidner, J., Davidson, T.G., Birtcil, L.,** "Potential Benefits of User Preferred Descent Speed Profile," Seagull Technology, Inc., Report 00188.26-02, July 2000 48. **Weidner, J., Davidson, T.G., Dorsky, D.,** "En Route Descent Advisor (EDA) and En Route Data Exchange (EDX) ATM Interruption Benefits," Seagull Technology, Inc., Report 00188.26-01, July 2000 49. **Weidner, J., Green, S.,** "Modeling ATM Automation Metering Conformance Benefits," 3^rd^ USA/Europe Air Traffic Management R&D Seminar, Napoli, June 2000. 50. **Weidner, J., Mueller, T.**, "Comprehensive Benefits Assessment of En Route Data Exchange (EDX)," Seagull Technology, Inc., Report 00188.27-01, July 2000 51. **Weidner, T., Couluris, G. J., Sorensen, J. A.,** "Initial Data Link Enhancement to CTAS Build 2 Potential Benefits Analysis," TM 98151-01, FAA Prime Contract No. DTFA01-96-Y-01009, Seagull Technology, Inc., June 1998. 52. **Weidner, T., Davidson, T.G.,** "Fuel-Related Benefits Analysis of En Route Data Exchange," TM 98175.9-01, Seagull Technology, Inc., December 1998. 53. **Williams, D.H., and Green, S.M.,** "Airborne Four-Dimensional Flight Management in a Time-Based Air Traffic Control Environment," NASA TM 4269, March 1991. 54. **Williams, D.H., Green, S.M.,** "Pilot Simulation of an Air-Ground Profile Negotiation Process in a Time-Based air Traffic Control Environment," NASA Technical Memorandum 107748, April 1993. 55. **Williams, D.H., Green, S.M.,** "Flight Evaluation or the Center/TRACON Automation System Trajectory Prediction Process," NASA/TP-1998-208439, July 1998. 56. **Williams, D.H., Green, S.M., den Braven, W., Arbuckle, P.D.,** "Profile Negotiation: An Air/Ground Automation Integration Concept for Managing Arrival Traffic," AGARD Guidance and Control Panel 56^th^ Symposium on Machine Intelligence in Air Traffic Management, Berlin, Germany, May 1993.

en

log-files

613855

********************************************************** * running on : fcdfcaf1326.fnal.gov * command : ./mcProduction/scripts/MCProd -V 1 -l bqcdqc.0001.MCProd.0001.log -J 1 -b cdfpqcd -d bqcdqc -u 1000 -g 200 -x USE_TIKI=1 -x DATASET_DEFINITION_FILE=bqcdqc.0001.definition -x SCRIPT_TO_BE_SOURCED=bqcdqc.0001.mcprod.commands -x N_MCPROD=0 * CDF_USER_NAME : murat * MC_JOB : 1 * JOB_NAME : * EXEFILE : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim * EXE : * TCLFILE : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl * LOGFILE : bqcdqc.0001.MCProd.0001.log * BOOK : cdfpqcd * DATASET : ZZZZZZ * FILESET : * INPUT_FILE : * INPUT_TCL_FILE: * LAST_EVENT : * KEEP_L3 : * KEEP_COT_HITS : * RUN_NUMBER : 151435 * WORK_DIR : /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work * NEVENTS : 0 * JOB_NUMBER : 1 * JOB_OUTPUT_DIR: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work * OUTPUT_NAME : * OUTPUT_FILE : * VALGRIND_VER : v1_9_6 * RHOST : * RUSER : * RDIR : * USE_TIKI : 1 ********************************************************** Ticket cache: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/ticket/krb5cc_5849_1186973993 Default principal: snihur/cdf/glidecaf@FNAL.GOV Valid starting Expires Service principal 08/12/07 21:59:53 08/13/07 23:59:53 krbtgt/FNAL.GOV@FNAL.GOV renew until 08/18/07 06:07:48 #----------------------------------------------------------------------- # source some useful TCL files #----------------------------------------------------------------------- source $env(WORK_DIR)/TclUtils/scripts/getenv.tcl #----------------------------------------------------------------------- # variables which either should be substituted by the codegen or # defined in the submitter script #----------------------------------------------------------------------- set JOB_NUMBER $env(JOB_NUMBER) set DATASET_ID $env(DATASET_ID) set RUN_NUMBER $env(RUN_NUMBER) set RUN_SECTION $env(RUN_SECTION) set NEVENTS $env(NEVENTS) set RUNMC_FLAG $env(RUNMC_FLAG) set RANDOM_SEED_INPUT $env(RANDOM_SEED_INPUT) set RANDOM_SEED_OUTPUT $env(RANDOM_SEED_OUTPUT) set BEGIN_EVENT_NUMBER $env(BEGIN_EVENT_NUMBER) set FIRST_EVTS_TO_READ $env(FIRST_EVTS_TO_READ) #----------------------------------------------------------------------- # variables defined in source_me #----------------------------------------------------------------------- set INPUT_FILE $env(INPUT_FILE) set OUTPUT_FILE $env(OUTPUT_FILE) set RUNMC_TCL_DIR $env(RUNMC_TCL_DIR) #----------------------------------------------------------------------- # use official simulation tcl files #----------------------------------------------------------------------- set SIM_TCL_DIR $env(WORK_DIR)/SimulationMods/test set DECAY_PACKAGES_TCL [ getenv DECAY_PACKAGES_TCL "setup_tauola_evtgen.tcl" ] set STORE_USERINFO [ getenv STORE_USERINFO "0" ] #----------------------------------------------------------------------- # no more environment variables below this line #----------------------------------------------------------------------- set REPORT_FREQUENCY 100 #----------------------------------------------------------------------- # Third come all the tcl fragments that are part of this collection: #----------------------------------------------------------------------- if { $RUNMC_FLAG == "GENERATE_ONLY" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl set COT_Matching 0 set SI_Matching 0 } if { $RUNMC_FLAG == "READ_GENERATE_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } if { $RUNMC_FLAG == "GENERATE_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${SIM_TCL_DIR}/$DECAY_PACKAGES_TCL source ${RUNMC_TCL_DIR}/$env(MC_PROCESS_TCL) source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } if { $RUNMC_FLAG == "READ_AND_SIMULATE" } { source ${SIM_TCL_DIR}/setup_input.tcl source ${RUNMC_TCL_DIR}/$env(MC_FILTER_TCL) source ${SIM_TCL_DIR}/setup_simulation.tcl } source ${SIM_TCL_DIR}/setup_path.tcl set outputPath cdfSimPath source ${SIM_TCL_DIR}/setup_output.tcl #----------------------------------------------------------------------- # #----------------------------------------------------------------------- path list if { $NEVENTS > 0 } then { begin -nev $NEVENTS } else { begin } exit #----------------------------------------------------------------------- [MCProd]: Using default built-in database iomap file [MCProd]: MODE = 2 [MCProd]: DATASET_NAME = Pythia_dijet_18_MinBias_periods_9_to_11 [MCProd]: RUN_NUMBER = 151435 [MCProd]: JOB_NUMBER = 1 [MCProd]: NEVENTS = 0 [MCProd]: RUN_NUMBER = 222530 [MCProd]: RUN_SECTION = 1 [MCProd]: BEGIN_EVENT_NUMBER = 1 [MCProd]: NEVENTS = 2000 [MCProd]: INST_LUMI = 1.31e+32 [MCProd]: MINBIAS_MEAN = 4.7122141 [MCProd]: RUNMC_FLAG = GENERATE_ONLY [MCProd]: CDFSIM_INPUT = MC_GENERATOR [MCProd]: MC_PROCESS_TCL = mc_pythia_dijet18.tcl [MCProd]: MC_FILTER_TCL = mc_postgenNoFilter.tcl [MCProd]: INPUT_FILE = none [MCProd]: OUTPUT_FILE = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root [MCProd]: MODE = 2 [MCProd]: DATASET_NAME = Pythia_dijet_18_MinBias_periods_9_to_11 [MCProd]: RUN_NUMBER = 222530 [MCProd]: JOB_NUMBER = 1 [MCProd]: NEVENTS = 2000 [MCProd]: . /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl [MCProd]: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mc_pythia_dijet18.tcl # # # tcl file for QCD dijets with Pthat>18 GeV # # # #+++++++++++++++++++++++++++++++++++++++++++++++++++++# module enable Pythia talk Pythia PythiaMenu # # Set MSEL=1 (above) and comment out all the MSUB settings # qq processes [qcd group decides to use msel=1 instead of # msel=0 and msub settings below] msel set 1 commonMenu # kinematics # Ptmin (0, 18, 80, 140 GeV) # # set_ckin -index=3 -value=0.0 set_ckin -index=3 -value=18.0 # set_ckin -index=3 -value=80.0 # set_ckin -index=3 -value=140.0 # exit exit exit source $env(PROJECT_DIR)/mcProduction/tcl/mc_pythia_common.tcl [MCProd]: . /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 12-Aug-2007 22:00:39 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 HERWIG: ALL PARTICLE TYPE WITH A B QUARK SET STABLE, USE QQ HERWIG: ALL PARTICLE TYPE WITH A C QUARK SET STABLE, USE QQ HeavyQuarkGen Version: $Id: HeavyQuarkGenModule.cc,v 1.2 2003/04/15 18:26:09 paulini Exp $ HeavyQuarkGenModule: Constructor Bgenerator Version: $Id: BgeneratorModule.cc,v 1.12 2004/01/14 16:45:10 paus Exp $ BGEN_INI: Bgenerator Initialization CHKLOG: CDFDAB_DIR logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work BGEN_OPEN_SPECTRA: finished successfully. BGEN_INI: Hadrons/properties known to Bgenerator Number Name Mass Lifetime ----------------------[GeV]----[ps]--- 1 Bu+ 5.2776 1.5000 2 Bd0 5.2794 1.5000 3 Bs0 5.3700 1.5000 4 Bc+ 6.3900 1.5000 5 ALamB0 5.6400 1.5000 6 User 0.0000 0.0000 CHKLOG: HEPTBL logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/heptabl.dbt ---> The maximal weight value is: 0.100000E-05 Warning! You have to reinitialize this value with the maximal weight from your VECBOS MC generation ! ---> Default weight bank name is VECB. (eg. PAPA,VECB) ---> MC generrtor init number is: 87926891 HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 #### MODULE #### PythiaInfoModule created - PythiaInfoModule #### #### MODULE #### HepgFilter created - HepgFilter #### ********* PartFilter INITIALIZED ********** #### MODULE #### GenTrigModule created - GenTrigModule #### #### GenTrigXFT created -- XFT #### #### GenTrigXTRP created -- XTRP #### #### GenTrigSVT created -- SVT #### #### GenTrigCMU created -- CMU #### #### GenTrigCMX created -- CMX #### #### GenTrigL1Pair created -- L1Pr #### #### GenTrigL1Pair created -- L1L2Pr #### #### GenTrigL2Pair created -- L2Bs #### #### GenTrigL2Pair created -- L2Bd #### #### GenTrigL1Trip created -- L1Tr #### #### GenTrigL1Trip created -- L1L2Tr #### #### GenTrigL2Trip created -- L2Tr #### #### GenTrigL1DiMu created -- L1DM #### #### GenTrigL1DMuX created -- L1DMX #### #### GenTrigL2DiMu created -- L2DM #### #### GenTrigL1MuSvt created -- L1MS #### #### GenTrigL2MuSvt created -- L2MS #### #### GenTrigFiducial created - Fidu #### #### MODULE #### QuickCdfObjects created - QuickCdfObjects #### #### GenTrigCOT created -- CotHepg #### #### GenTrigCMU created -- CmuHepg #### #### MODULE #### MCInfoModule created - MCInfoModule #### MZSTOR. ZEBRA table base TAB(0) in /MZCC/ at adr 164840879 9D345AF HEX MZSTOR. Initialize Store 0 in /GCBANK/ with Store/Table at absolute adrs 103068549 164840879 HEX 624B385 9D345AF HEX FC516C12 0 relative adrs -61772782 0 with 1 Str. in 2 Links in 5300 Low words in 9999970 words. This store has a fence of 16 words. MZLOGL. Set Log Level 0 for store 0 --------------- HepPDT Version 1.00.01 --------------- 1***** GEANT Version 3.21/14 Released on 19032002 0***** Correction Cradle Version 0.1400 MZDIV. Initialize Division Constant in Store 0 NW/NWMAX= 20008000000, MODE/KIND= 1 2 Division 20 initialized. MZLINK. Initialize Link Area /GCLINK/ for Store 0 NL/NS= 20 20 MZLINK. Initialize Link Area /GCSLNK/ for Store 0 NL/NS= 100 100 #### MODULE #### SimpleCotTrkReco created - SimpleCotTrkReco #### #### MODULE #### SimpleSiTrkReco created - SimpleSiTrkReco #### <<<getenv>>> : Name= DECAY_PACKAGES_TCL Default= setup_tauola_evtgen.tcl x= setup_tauola_evtgen.tcl <<<getenv>>> : Name= STORE_USERINFO Default= 0 x= 0 <<<getenv>>> : Name= CDFSIM_INPUT Default= MC_GENERATOR x= MC_GENERATOR <<<getenv>>> : Name= INPUT_FILE Default= undefined x= none Current value of item(s) in the "RandomGenManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of RestoreRandomStreams for this module is true Value of SaveRandomStreams for this module is true Value of OutputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat Value of InputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat Current value of items on the "RandomNumberMenu" menu: Value of RandomSeedGRNDM1 for this module is 3591 Value of RandomSeedGRNDM2 for this module is 2309736 Value of RandomSeedPYTHIA1 for this module is 93453591 Value of RandomSeedPYTHIA2 for this module is 73436 Value of RandomSeedHERWIG1 for this module is 355391 Value of RandomSeedHERWIG2 for this module is 97336 setup_input.tcl:setup_mc_generator_input <<<getenv>>> : Name= REPORT_FREQUENCY Default= 1 x= 1 [setup_input.tcl:setup_mc_generator_input] FIRST_EVENT_OFFSET= 0 [setup_input.tcl:setup_mc_generator_input] RUN_NUMBER = 222530 [setup_input.tcl:setup_mc_generator_input] RUN_SECTION = 1 Current value of item(s) in the "GenInputManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 1 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module GenInputManager has 0 values (minimum 0, maximum 1000): classHideList in module GenInputManager has 0 values (minimum 0, maximum 1000): hideList in module GenInputManager has 0 values (minimum 0, maximum 1000): processDropList in module GenInputManager has 0 values (minimum 0, maximum 1000): keepFromProcessList in module GenInputManager has 0 values (minimum 0, maximum 1000): runSections: *:* selectEvents: *(*):*(*) runsTrigs: *(*):*(*) Value of recordType for this module is SIMPLE Value of run_number for this module is 222530 Value of run_type for this module is MC Value of section_number for this module is 1 Value of first_event for this module is 0 Value of genBeginRun for this module is true Value of specifyRuns for this module is false Value of RunSectionLength for this module is 1000000 Value of RunSectionOffset for this module is 0 Value of LumiWtRunsFromDB for this module is false Value of RewriteLRIH for this module is false Value of runNumberFile for this module is Value of runNumberAndLumiFile for this module is Value of useRunSections for this module is false Value of Nevent for this module is 0 <<<getenv>>> : Name= EVTGEN_USER_DECAY_FILE Default= 0 x= 0 Current value of item(s) in the "EvtGen" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of mode for this module is 0 Value of UseRootParticle for this module is false Value of RootParticlePx for this module is 0 Value of RootParticlePy for this module is 0 Value of RootParticlePz for this module is 0 Value of RootParticleHepID for this module is 0 Value of UseUserDecayFile for this module is false Value of UserDecayFile for this module is dummy Value of AdjustCPAsymm for this module is false Value of DecayPromptCharm for this module is true Value of DecayBMeson for this module is true Value of DecayBBaryon for this module is true Value of RandomSeed1 for this module is 0 Value of RandomSeed2 for this module is 0 Non-zero elements of MSTJ: MSTJ( 1) = 1 MSTJ( 2) = 3 MSTJ( 11) = 4 MSTJ( 12) = 2 MSTJ( 14) = 1 MSTJ( 16) = 2 MSTJ( 17) = 2 MSTJ( 18) = 10 MSTJ( 21) = 2 MSTJ( 22) = 1 MSTJ( 23) = 1 MSTJ( 24) = 2 MSTJ( 25) = 1 MSTJ( 26) = 2 MSTJ( 27) = 2 MSTJ( 41) = 2 MSTJ( 42) = 2 MSTJ( 43) = 4 MSTJ( 44) = 2 MSTJ( 45) = 5 MSTJ( 46) = 3 MSTJ( 47) = 3 MSTJ( 50) = 3 MSTJ( 52) = 3 MSTJ( 54) = 2 MSTJ( 57) = 1 MSTJ(101) = 5 MSTJ(102) = 2 MSTJ(103) = 7 MSTJ(104) = 5 MSTJ(105) = 1 MSTJ(106) = 1 MSTJ(108) = 2 MSTJ(110) = 2 MSTJ(115) = 1 MSTJ(116) = 1 Non-zero elements of MSTP: MSTP( 1) = 3 MSTP( 2) = 1 MSTP( 3) = 2 MSTP( 11) = 1 MSTP( 13) = 1 MSTP( 14) = 30 MSTP( 16) = 1 MSTP( 17) = 4 MSTP( 18) = 3 MSTP( 19) = 4 MSTP( 20) = 3 MSTP( 21) = 1 MSTP( 23) = 1 MSTP( 30) = 1 MSTP( 31) = 1 MSTP( 32) = 8 MSTP( 34) = 1 MSTP( 36) = 2 MSTP( 37) = 1 MSTP( 38) = 5 MSTP( 39) = 2 MSTP( 41) = 2 MSTP( 42) = 1 MSTP( 43) = 3 MSTP( 44) = 7 MSTP( 45) = 3 MSTP( 46) = 1 MSTP( 47) = 1 MSTP( 49) = 1 MSTP( 51) = 4046 MSTP( 52) = 2 MSTP( 53) = 3 MSTP( 54) = 1 MSTP( 55) = 5 MSTP( 56) = 1 MSTP( 57) = 1 MSTP( 58) = 5 MSTP( 59) = 1 MSTP( 60) = 7 MSTP( 61) = 2 MSTP( 62) = 3 MSTP( 63) = 2 MSTP( 64) = 2 MSTP( 65) = 1 MSTP( 66) = 5 MSTP( 67) = 2 MSTP( 68) = 1 MSTP( 71) = 1 MSTP( 81) = 1 MSTP( 82) = 4 MSTP( 83) = 100 MSTP( 86) = 2 MSTP( 91) = 1 MSTP( 92) = 3 MSTP( 93) = 1 MSTP( 94) = 3 MSTP(101) = 3 MSTP(102) = 1 MSTP(111) = 1 MSTP(112) = 1 MSTP(113) = 1 MSTP(122) = 1 MSTP(123) = 2 MSTP(124) = 1 MSTP(125) = 1 MSTP(126) = 100 MSTP(129) = 10 MSTP(132) = 4 MSTP(134) = 1 MSTP(172) = 2 MSTP(181) = 6 MSTP(182) = 216 MSTP(183) = 2003 MSTP(184) = 4 MSTP(185) = 7 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 4.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 2.00 PARP( 83) = 0.500 PARP( 84) = 0.400 PARP( 85) = 0.900 PARP( 86) = 0.950 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.80e+03 PARP( 90) = 0.250 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 <<<getenv>>> : Name= BEAM_SET_BY_HAND Default= 0 x= 0 <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:00:39 CDT run = 0 event = 0 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= BEAM_SIGMA_Z Default= 28.0 x= 28.0 <<<getenv>>> : Name= BEAM_SIGMA_T0 Default= 1.3 x= 1.3 Current value of item(s) in the "GenPrimVert" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of sigma_x for this module is 0.00257 Value of sigma_y for this module is 0.00258 Value of sigma_z for this module is 28 Value of sigma_t for this module is 1.3 Value of n_bunches for this module is 0 Value of bunch_spacing for this module is 400 Value of pv_central_x for this module is 0 Value of pv_central_y for this module is 0 Value of pv_central_z for this module is 0 Value of pv_slope_dxdz for this module is 0 Value of pv_slope_dydz for this module is 0 Value of BeamlineFromDB for this module is true Value of UseBetaStarBeamWidth for this module is true Value of UseBetaStarZVertex for this module is true Current value of items on the "RandomNumberMenu" menu: Value of RandomSeed1 for this module is 922883591 Value of RandomSeed2 for this module is 109735476 Current value of items on the "BeamBetaStarMenu" menu: Value of beamEmittanceX for this module is 1.26e-07 Value of beamEmittanceY for this module is 1.24e-07 Value of beamBetaStarX for this module is 38.6 Value of beamBetaStarY for this module is 38 Value of beamZ0X for this module is 14.2 Value of beamZ0Y for this module is -9.2 Current value of item(s) in the "GeometryManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of enableSimpleSi for this module is false Value of enableB4 for this module is false Value of enableBeamBox for this module is false Value of enableSimpleSvx for this module is false Value of enableSvx for this module is true Value of enableSimpleCot for this module is false Value of enableAlPlate for this module is false Value of enableCot for this module is true Value of enableMuon for this module is true Value of enableCalor for this module is true Value of enableMiniplug for this module is false Value of enableDetailedMiniplug for this module is false Value of enableClc for this module is false Value of enableTof for this module is true Value of enableStripChamber for this module is true Value of enablePassive for this module is true Value of enableBeampipeC for this module is true Value of enableBeampipe for this module is false Value of enableCPR for this module is true Value of enableAll for this module is false Current value of items on the "SiliconGeometryMenu" menu: Value of AlignmentSource for this module is frontier 220050 1 GOOD Value of AlignmentPrint for this module is 3 Value of AlignmentAlignWafers for this module is true Value of L00Alignment for this module is true Value of BuildPassive for this module is true Value of BuildPassivePHA for this module is true DisabledPassiveElements in module GeometryManager has 2 values (minimum 0, maximum 0): svxInnScreen svxBHTap Value of CreateOldPhantomLayer for this module is false Value of OldPhantomLayerThickness for this module is 0.2 Value of OldPhantomLayerHalfLength for this module is 165 Value of OldPhantomLayerMaterial for this module is SILICON Value of CreatePhantomLayer for this module is true PhantomLayerRmin in module GeometryManager has 10 values (minimum 0, maximum 99): 14.8 14.8 14.8 14.8 14.8 20.5 20.5 20.8 20.5 20.5 PhantomLayerZmin in module GeometryManager has 10 values (minimum 0, maximum 99): -60 -45 -15 15.1 45.1 -100 -45 -15 15.1 45.1 PhantomLayerZmax in module GeometryManager has 10 values (minimum 0, maximum 99): -45.1 -15.1 15 45 60 -45.1 -15.1 15 45 100 PhantomLayerThickness in module GeometryManager has 10 values (minimum 0, maximum 99): 0.9 0.9 0.2 0.9 0.9 0.4 0.15 0.1 0.15 0.4 PhantomLayerMaterial in module GeometryManager has 10 values (minimum 0, maximum 99): SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE PhantomLayerContainer in module GeometryManager has 10 values (minimum 0, maximum 99): SVCC SVCC SVCC SVCC SVCC ISLC ISLC ISLC ISLC ISLC Value of ReadSiliMapROOT for this module is false Value of ReadSiliMapROOTFileName for this module is Value of WriteSiliMapROOT for this module is false Value of WriteSiliMapROOTFileName for this module is UNKNOWN Value of ReadSiliMapDB for this module is false Value of SiliMapDBVersion for this module is 0 Value of WriteSiliMapDB for this module is false Value of ReadSiliMapASCII for this module is false Value of ReadSiliMapASCIIFileName for this module is UNKNOWN Value of WriteSiliMapASCII for this module is false Value of WriteSiliMapASCIIFileName for this module is UNKNOWN Value of UseCustomSiliMapDB for this module is false Value of CustomSiliMapDBID for this module is onotl_dev Value of SiliMapDEDxScale for this module is 1 Value of SiliMapI0Scale for this module is 1 Value of SiliMapX0Scale for this module is 1 Current value of items on the "Cot" menu: Value of run1CTCGeometry for this module is false Value of run1CTCData for this module is true Current value of items on the "MuonGeometryMenu" menu: Value of CMPGeometry for this module is true Value of CMUGeometry for this module is true Value of CMXGeometry for this module is true Value of IMUGeometry for this module is true Current value of items on the "CalorGeometryMenu" menu: Value of BuildPhantom for this module is false Value of PhantomThickness for this module is 0.1 Current value of items on the "TofGeometryMenu" menu: Value of GeometryModel for this module is Aligned Value of Verbosity for this module is None Current value of items on the "PrintMenu" menu: Value of printSvx for this module is false Value of printCot for this module is false Value of printMuon for this module is false Value of printCalor for this module is false Value of printTof for this module is false Value of printStripChamber for this module is false Value of printPassive for this module is false Value of printBeampipeC for this module is false Value of printCPR for this module is false Value of printAll for this module is false Value of printTree for this module is false Value of uniformField for this module is false Value of Bfield for this module is 14.1 Value of useCalibDB for this module is true Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of item(s) in the "SimInitManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of items on the "DebugMenu" menu: Value of showMaterials for this module is false Value of showMedia for this module is false Value of showLogicalVolumes for this module is false Value of showPhysicalVolumes for this module is false Value of resetCopyNumber for this module is false Value of applyAlignment for this module is true <<<getenv>>> : Name= CDFSIM_FAST_TRACK Default= false x= false <<<getenv>>> : Name= SHOW_ACTIVE_VOLUMES Default= false x= false <<<getenv>>> : Name= CDFSIM_DEBUG_LEVEL Default= 0 x= 0 Current value of items on the "DetectorMenu" menu: Value of simulateSvx for this module is true Value of simulateCot for this module is true Value of simulateMuon for this module is true Value of simulateCalor for this module is true Value of simulateTof for this module is true Value of simulateStripChamber for this module is false Value of simulatePassive for this module is true Value of simulateBeampipeC for this module is false This factory knows about 20 digitizer types. These types are: CalorDigiBFCoil CalorDigiCcal CalorDigiGeneric CalorDigiNoBFCoil CalorDigiPcal CalorDigiWcal ClcDigitizer CotDigitizer ImuDigiBMUGas ImuDigiBSUPaddle ImuDigiTSUPaddle MuonDigiCMP MuonDigiCMU MuonDigiCMX MuonDigiCSX SimpleCotDigitizer SimpleSiDigitizer SvxDigitizer TofDigi3Pack TofDigiBar Current value of item(s) in the "SimulationControlMod" module: The following detector elements have been configured with digitizers: BFCoil with digitizer CalorDigiBFCoil in group CalorGroup BMUGas with digitizer ImuDigiBMUGas in group ImuGroup BSUPaddle with digitizer ImuDigiBSUPaddle in group ImuGroup CMPPart with digitizer MuonDigiCMP in group MuonCMPdata CMUExtrusion with digitizer MuonDigiCMU in group MuonCMUdata CMXChamber with digitizer MuonDigiCMX in group MuonCMXdata CSXCounter with digitizer MuonDigiCSX in group MuonCSXdata CalorDetectorElement with digitizer CalorDigiGeneric in group CalorGroup CdfHalfLadder with digitizer SvxDigitizer in group SvxGroup CotSuperLayer with digitizer CotDigitizer in group CotGroup NoBFCoil with digitizer CalorDigiNoBFCoil in group CalorGroup TSUPaddle with digitizer ImuDigiTSUPaddle in group ImuGroup Tof3Pack with digitizer TofDigi3Pack in group TofGroup TofBar with digitizer TofDigiBar in group TofGroup <<<getenv>>> : Name= COT_DRIFT_MODEL Default= Garfield x= Garfield <<<getenv>>> : Name= COT_HIT_RESOLUTION_SCALE Default= 0.64 x= 0.64 Current value of items on the "CotGroup_CotSuperLayer" menu: Value of CreateCOTD for this module is true Value of CreateCOTQ for this module is false Value of CreateCOTM for this module is true Value of CreateMCOT for this module is false Value of CreateCotTrueXP for this module is false Value of CreatePropagatedParticleColl for this module is false Value of StepSize for this module is 1 Value of TimingGate for this module is 400 Value of TwoHitSeparation for this module is 10 Value of DriftModel for this module is Garfield Value of LoadExistingRawData for this module is false Value of HitResolutionScale for this module is 0.64 HitEfficiency in module SimulationControlMod has 8 values (minimum 8, maximum 8): 1 1 1 1 1 1 1 1 WidthScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.847 1.01 0.868 1.02 1.05 1.04 1.04 1.04 WidthSigmaScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.813 0.863 0.782 0.821 0.841 0.812 0.815 0.798 Current value of items on the "SvxGroup_CdfHalfLadder" menu: Value of CreateSIXD for this module is true Value of CreatePropagatedSi for this module is false Value of pick_svx_cdm for this module is PARAMETERIZED Value of svx_cdm_delta_rays for this module is ON Value of svx_cdm_magnetic_field for this module is ON Value of svx_cdm_noise for this module is THRESH7 svx_cdm_noise_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_crosstalk_list in module SimulationControlMod has 18 values (minimum 2, maximum 18): 2 0 0 0 0.43 0.2 0.47 0.19 0.49 0.51 0.41 0.24 0.46 0.5 0.355 0.355 0.355 0.355 svx_cdm_fractionlost_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_fractionlostfstrip_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_relgain_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 Value of svx_validation for this module is OFF Value of ToyPulseHeight for this module is 30 Value of GeoElossToADC for this module is 3e+05 Value of ZigZagL7 for this module is true Value of debug for this module is 0 Value of debugNtuple for this module is Value of useNoiseDB for this module is true Value of noiseDBRun for this module is -1 Value of noiseDBVersion for this module is -1 Value of noiseDBStatus for this module is Value of noiseDBName for this module is Value of LoadExistingRawData for this module is false Value of AlignmentAlignWafers for this module is true Current value of items on the "MuonCMPdata_CMPPart" menu: Value of writeHitCollection for this module is false Value of debugLevel for this module is 0 Value of disableBluebeam for this module is false Value of disableKeystone for this module is false Value of disableKeystoneWedge5 for this module is false Value of disableKeystoneWedge6 for this module is false Value of disableMiniskirts for this module is false Value of disableRunDependence for this module is false Value of realisticSmearing for this module is false <<<getenv>>> : Name= RUNMC_FLAG Default= GENERATE_AND_SIMULATE x= GENERATE_ONLY **** Listing of all available paths **** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Min Bias sequence MinBiasSequence() yes on 0 0 mbr yes on 0 0 MIX_FAKE_EVENT yes on 0 0 PythiaMinBias * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * cdfSimPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule ======================================================= Error Log established 12-Aug-2007 22:00:39 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:00:39 CDT run = 0 event = 0 CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() - TOF geometry system of type [ALIGNED] found. - Calibrator: Data ============ TofManager Initialized ============ RandomGenManager: restoring random state from file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat: BGENERATOR - 1234567,86543 EvtGen - 3244768,76744 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 6268819,11876 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 9876540,54798 SVX_SIM - 4756981,20932 TAUOLA - 3958375,47386 WGRAD - 9834262,35354 mbr - 2553412,53245 PythiaModule: Please note the following long lived strange particles have been set stable and cannot be set to decay K_0S, Lambda, Sigma, Xi and Omega. %ERLOG-e [PYTHIA_BMIXOF_R]: /cdf/scratch/beauche/MaxOpt_H/generatorMods/src/PythiaModule.cc : 106 PythiaModule: B-Bbar mixing is disabled and should be done using EvtGen Pythia 12-Aug-2007 22:01:12 CDT run = 0 event = 0 1 ****************************************************************************** ****************************************************************************** ** ** ** ** ** *......* Welcome to the Lund Monte Carlo! ** ** *:::!!:::::::::::* ** ** *::::::!!::::::::::::::* PPP Y Y TTTTT H H III A ** ** *::::::::!!::::::::::::::::* P P Y Y T H H I A A ** ** *:::::::::!!:::::::::::::::::* PPP Y T HHHHH I AAAAA ** ** *:::::::::!!:::::::::::::::::* P Y T H H I A A ** ** *::::::::!!::::::::::::::::*! P Y T H H III A A ** ** *::::::!!::::::::::::::* !! ** ** !! *:::!!:::::::::::* !! This is PYTHIA version 6.216 ** ** !! !* -><- * !! Last date of change: 7 Apr 2003 ** ** !! !! !! ** ** !! !! !! Now is 12 Aug 2007 at 22:01:12 ** ** !! !! ** ** !! lh !! Disclaimer: this program comes ** ** !! !! without any guarantees. Beware ** ** !! hh !! of errors and use common sense ** ** !! ll !! when interpreting results. ** ** !! !! ** ** !! Copyright T. Sjostrand (2003) ** ** ** ** An archive of program versions and documentation is found on the web: ** ** http://www.thep.lu.se/~torbjorn/Pythia.html ** ** ** ** When you cite this program, currently the official reference is ** ** T. Sjostrand, P. Eden, C. Friberg, L. Lonnblad, G. Miu, S. Mrenna and ** ** E. Norrbin, Computer Physics Commun. 135 (2001) 238. ** ** The large manual is ** ** T. Sjostrand, L. Lonnblad and S. Mrenna, LU TP 01-21 [hep-ph/0108264]. ** ** Also remember that the program, to a large extent, represents original ** ** physics research. Other publications of special relevance to your ** ** studies may therefore deserve separate mention. ** ** ** ** Main author: Torbjorn Sjostrand; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 48 16; e-mail: torbjorn@thep.lu.se ** ** Author: Leif Lonnblad; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 77 80; e-mail: leif@thep.lu.se ** ** Author: Stephen Mrenna; Computing Division, Simulations Group, ** ** Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA; ** ** phone: + 1 - 630 - 840 - 2556; e-mail: mrenna@fnal.gov ** ** Author: Peter Skands; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 31 92; e-mail: zeiler@thep.lu.se ** ** ** ** ** ****************************************************************************** ****************************************************************************** 1****************** PYINIT: initialization of PYTHIA routines ***************** ***** CERN Computer Program Library - Reference: W5051 ***** ***** PDFLIB Version: 8.04 Released on 2000-04-17 at 12.24 ***** PDFLIB : TMAS value Warning : NON standard settings, TMAS value = 175. set by user !! ============================================================================== I I I PYTHIA will be initialized for a p on pbar collider I I at 1960.000 GeV center-of-mass energy I I I ============================================================================== Nucleon PDFs : CTEQ Set 5L (LO) Structure Functions Ngroup = 4, Nset = 46 -------------------------------------------------------------------------------------- ******** PYMAXI: summary of differential cross-section maximum search ******** ========================================================== I I I I ISUB Subprocess name I Maximum value I I I I ========================================================== I I I I 11 f + f' -> f + f' (QCD) I 2.2206E-02 I I 12 f + fbar -> f' + fbar' I 1.8438E-04 I I 13 f + fbar -> g + g I 2.6731E-04 I I 28 f + g -> f + g I 1.6649E-01 I I 53 g + g -> f + fbar I 2.9355E-03 I I 68 g + g -> g + g I 1.2621E-01 I I 96 Semihard QCD 2 -> 2 I 7.0421E+03 I I I I ========================================================== ****** PYMULT: initialization of multiple interactions for MSTP(82) = 4 ****** pT0 = 2.04 GeV gives sigma(parton-parton) = 3.16E+02 mb: accepted ********************** PYINIT: initialization completed ********************** List of KF codes in program 1 d -1 dbar 2 u -2 ubar 3 s -3 sbar 4 c -4 cbar 5 b -5 bbar 6 t -6 tbar 7 b' -7 b'bar 8 t' -8 t'bar 11 e- -11 e+ 12 nu_e -12 nu_ebar 13 mu- -13 mu+ 14 nu_mu -14 nu_mubar 15 tau- -15 tau+ 16 nu_tau -16 nu_taubar 17 tau'- -17 tau'+ 18 nu'_tau -18 nu'_taubar 21 g 22 gamma 23 Z0 24 W+ -24 W- 25 h0 32 Z'0 33 Z"0 34 W'+ -34 W'- 35 H0 36 A0 37 H+ -37 H- 39 Graviton 41 R0 -41 Rbar0 42 LQ_ue -42 LQ_uebar 2101 ud_0 -2101 ud_0bar 3101 sd_0 -3101 sd_0bar 3201 su_0 -3201 su_0bar 4101 cd_0 -4101 cd_0bar 4201 cu_0 -4201 cu_0bar 4301 cs_0 -4301 cs_0bar 5101 bd_0 -5101 bd_0bar 5201 bu_0 -5201 bu_0bar 5301 bs_0 -5301 bs_0bar 5401 bc_0 -5401 bc_0bar 1103 dd_1 -1103 dd_1bar 2103 ud_1 -2103 ud_1bar 2203 uu_1 -2203 uu_1bar 3103 sd_1 -3103 sd_1bar 3203 su_1 -3203 su_1bar 3303 ss_1 -3303 ss_1bar 4103 cd_1 -4103 cd_1bar 4203 cu_1 -4203 cu_1bar 4303 cs_1 -4303 cs_1bar 4403 cc_1 -4403 cc_1bar 5103 bd_1 -5103 bd_1bar 5203 bu_1 -5203 bu_1bar 5303 bs_1 -5303 bs_1bar 5403 bc_1 -5403 bc_1bar 5503 bb_1 -5503 bb_1bar 111 pi0 211 pi+ -211 pi- 221 eta 311 K0 -311 Kbar0 130 K_L0 310 K_S0 321 K+ -321 K- 331 eta' 411 D+ -411 D- 421 D0 -421 Dbar0 431 D_s+ -431 D_s- 441 eta_c 511 B0 -511 Bbar0 521 B+ -521 B- 531 B_s0 -531 B_sbar0 541 B_c+ -541 B_c- 551 eta_b 113 rho0 213 rho+ -213 rho- 223 omega 313 K*0 -313 K*bar0 323 K*+ -323 K*- 333 phi 413 D*+ -413 D*- 423 D*0 -423 D*bar0 433 D*_s+ -433 D*_s- 443 J/psi 513 B*0 -513 B*bar0 523 B*+ -523 B*- 533 B*_s0 -533 B*_sbar0 543 B*_c+ -543 B*_c- 553 Upsilon 10113 b_10 10213 b_1+ -10213 b_1- 10223 h_1 10313 K_10 -10313 K_1bar0 10323 K_1+ -10323 K_1- 10333 h'_1 10413 D_1+ -10413 D_1- 10423 D_10 -10423 D_1bar0 10433 D_1s+ -10433 D_1s- 10443 h_1c 10513 B_10 -10513 B_1bar0 10523 B_1+ -10523 B_1- 10533 B_1s0 -10533 B_1sbar0 10543 B_1c+ -10543 B_1c- 10553 h_1b 10111 a_00 10211 a_0+ -10211 a_0- 10221 f_0 10311 K*_00 -10311 K*_0bar0 10321 K*_0+ -10321 K*_0- 10331 f'_0 10411 D*_0+ -10411 D*_0- 10421 D*_00 -10421 D*_0bar0 10431 D*_0s+ -10431 D*_0s- 10441 chi_0c 10511 B*_00 -10511 B*_0bar0 10521 B*_0+ -10521 B*_0- 10531 B*_0s0 -10531 B*_0sbar0 10541 B*_0c+ -10541 B*_0c- 10551 chi_0b 20113 a_10 20213 a_1+ -20213 a_1- 20223 f_1 20313 K*_10 -20313 K*_1bar0 20323 K*_1+ -20323 K*_1- 20333 f'_1 20413 D*_1+ -20413 D*_1- 20423 D*_10 -20423 D*_1bar0 20433 D*_1s+ -20433 D*_1s- 20443 chi_1c 20513 B*_10 -20513 B*_1bar0 20523 B*_1+ -20523 B*_1- 20533 B*_1s0 -20533 B*_1sbar0 20543 B*_1c+ -20543 B*_1c- 20553 chi_1b 115 a_20 215 a_2+ -215 a_2- 225 f_2 315 K*_20 -315 K*_2bar0 325 K*_2+ -325 K*_2- 335 f'_2 415 D*_2+ -415 D*_2- 425 D*_20 -425 D*_2bar0 435 D*_2s+ -435 D*_2s- 445 chi_2c 515 B*_20 -515 B*_2bar0 525 B*_2+ -525 B*_2- 535 B*_2s0 -535 B*_2sbar0 545 B*_2c+ -545 B*_2c- 555 chi_2b 100443 psi' 100553 Upsilon' 3122 Lambda0 -3122 Lambdabar0 4122 Lambda_c+ -4122 Lambda_cbar- 4132 Xi_c0 -4132 Xi_cbar0 4232 Xi_c+ -4232 Xi_cbar- 5122 Lambda_b0 -5122 Lambda_bbar0 5132 Xi_b- -5132 Xi_bbar+ 5232 Xi_b0 -5232 Xi_bbar0 5142 Xi_bc0 -5142 Xi_bcbar0 5242 Xi_bc+ -5242 Xi_bcbar- 5342 Omega_bc0 -5342 Omega_bcbar0 2112 n0 -2112 nbar0 2212 p+ -2212 pbar- 3112 Sigma- -3112 Sigmabar+ 3212 Sigma0 -3212 Sigmabar0 3222 Sigma+ -3222 Sigmabar- 3312 Xi- -3312 Xibar+ 3322 Xi0 -3322 Xibar0 4112 Sigma_c0 -4112 Sigma_cbar0 4212 Sigma_c+ -4212 Sigma_cbar- 4222 Sigma_c++ -4222 Sigma_cbar-- 4312 Xi'_c0 -4312 Xi'_cbar0 4322 Xi'_c+ -4322 Xi'_cbar- 4332 Omega_c0 -4332 Omega_cbar0 4412 Xi_cc+ -4412 Xi_ccbar- 4422 Xi_cc++ -4422 Xi_ccbar-- 4432 Omega_cc+ -4432 Omega_ccbar- 5112 Sigma_b- -5112 Sigma_bbar+ 5212 Sigma_b0 -5212 Sigma_bbar0 5222 Sigma_b+ -5222 Sigma_bbar- 5312 Xi'_b- -5312 Xi'_bbar+ 5322 Xi'_b0 -5322 Xi'_bbar0 5332 Omega_b- -5332 Omega_bbar+ 5412 Xi'_bc0 -5412 Xi'_bcbar0 5422 Xi'_bc+ -5422 Xi'_bcbar- 5432 Omega'_bc0 -5432 Omega'_bcba 5442 Omega_bcc+ -5442 Omega_bccbar- 5512 Xi_bb- -5512 Xi_bbbar+ 5522 Xi_bb0 -5522 Xi_bbbar0 5532 Omega_bb- -5532 Omega_bbbar+ 5542 Omega_bbc0 -5542 Omega_bbcbar0 1114 Delta- -1114 Deltabar+ 2114 Delta0 -2114 Deltabar0 2214 Delta+ -2214 Deltabar- 2224 Delta++ -2224 Deltabar-- 3114 Sigma*- -3114 Sigma*bar+ 3214 Sigma*0 -3214 Sigma*bar0 3224 Sigma*+ -3224 Sigma*bar- 3314 Xi*- -3314 Xi*bar+ 3324 Xi*0 -3324 Xi*bar0 3334 Omega- -3334 Omegabar+ 4114 Sigma*_c0 -4114 Sigma*_cbar0 4214 Sigma*_c+ -4214 Sigma*_cbar- 4224 Sigma*_c++ -4224 Sigma*_cbar-- 4314 Xi*_c0 -4314 Xi*_cbar0 4324 Xi*_c+ -4324 Xi*_cbar- 4334 Omega*_c0 -4334 Omega*_cbar0 4414 Xi*_cc+ -4414 Xi*_ccbar- 4424 Xi*_cc++ -4424 Xi*_ccbar-- 4434 Omega*_cc+ -4434 Omega*_ccbar- 4444 Omega*_ccc++ -4444 Omega*_cccbar- 5114 Sigma*_b- -5114 Sigma*_bbar+ 5214 Sigma*_b0 -5214 Sigma*_bbar0 5224 Sigma*_b+ -5224 Sigma*_bbar- 5314 Xi*_b- -5314 Xi*_bbar+ 5324 Xi*_b0 -5324 Xi*_bbar0 5334 Omega*_b- -5334 Omega*_bbar+ 5414 Xi*_bc0 -5414 Xi*_bcbar0 5424 Xi*_bc+ -5424 Xi*_bcbar- 5434 Omega*_bc0 -5434 Omega*_bcbar0 5444 Omega*_bcc+ -5444 Omega*_bccbar- 5514 Xi*_bb- -5514 Xi*_bbbar+ 5524 Xi*_bb0 -5524 Xi*_bbbar0 5534 Omega*_bb- -5534 Omega*_bbbar+ 5544 Omega*_bbc0 -5544 Omega*_bbcbar0 5554 Omega*_bbb- -5554 Omega*_bbbbar+ 1000001 ~d_L -1000001 ~d_Lbar 1000002 ~u_L -1000002 ~u_Lbar 1000003 ~s_L -1000003 ~s_Lbar 1000004 ~c_L -1000004 ~c_Lbar 1000005 ~b_1 -1000005 ~b_1bar 1000006 ~t_1 -1000006 ~t_1bar 1000011 ~e_L- -1000011 ~e_L+ 1000012 ~nu_eL -1000012 ~nu_eLbar 1000013 ~mu_L- -1000013 ~mu_L+ 1000014 ~nu_muL -1000014 ~nu_muLbar 1000015 ~tau_1- -1000015 ~tau_1+ 1000016 ~nu_tauL -1000016 ~nu_tauLbar 1000021 ~g 1000022 ~chi_10 1000023 ~chi_20 1000024 ~chi_1+ -1000024 ~chi_1- 1000025 ~chi_30 1000035 ~chi_40 1000037 ~chi_2+ -1000037 ~chi_2- 1000039 ~Gravitino 2000001 ~d_R -2000001 ~d_Rbar 2000002 ~u_R -2000002 ~u_Rbar 2000003 ~s_R -2000003 ~s_Rbar 2000004 ~c_R -2000004 ~c_Rbar 2000005 ~b_2 -2000005 ~b_2bar 2000006 ~t_2 -2000006 ~t_2bar 2000011 ~e_R- -2000011 ~e_R+ 2000012 ~nu_eR -2000012 ~nu_eRbar 2000013 ~mu_R- -2000013 ~mu_R+ 2000014 ~nu_muR -2000014 ~nu_muRbar 2000015 ~tau_2- -2000015 ~tau_2+ 2000016 ~nu_tauR -2000016 ~nu_tauRbar 3000111 pi_tc0 3000211 pi_tc+ -3000211 pi_tc- 3000221 pi'_tc0 3000331 eta_tc0 3000113 rho_tc0 3000213 rho_tc+ -3000213 rho_tc- 3000223 omega_tc 3100021 V8_tc 3100111 pi_22_1_tc 3200111 pi_22_8_tc 3100113 rho_11_tc 3200113 rho_12_tc 3300113 rho_21_tc 3400113 rho_22_tc 4000001 d* -4000001 d*bar 4000002 u* -4000002 u*bar 4000011 e*- -4000011 e*bar+ 4000012 nu*_e0 -4000012 nu*_ebar0 5000039 Graviton* 9900012 nu_Re 9900014 nu_Rmu 9900016 nu_Rtau 9900023 Z_R0 9900024 W_R+ -9900024 W_R- 9900041 H_L++ -9900041 H_L-- 9900042 H_R++ -9900042 H_R-- 9900110 rho_diff0 9900210 pi_diffr+ -9900210 pi_diffr- 9900220 omega_di 9900330 phi_diff 9900440 J/psi_di 9902110 n_diffr0 -9902110 n_diffrbar0 9902210 p_diffr+ -9902210 p_diffrbar- Event list level 1 ******************************************************** * STDHEP version 5.01 - June 10, 2002 * ******************************************************** Masses, Widths 0 - tauola par EvtGen:EvtGen version: alpha-00-14-05 plus bug fixes EvtGen:CDF Revision: 2.00 EvtGen:Initializing EvtGen EvtGen:Storing known decay models Will register EvtJetSet EvtGen:Registering CDF specific decay models EvtGen:Main decay file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:PDT table file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/pdt.table EvtGen:Initializing RadCorr=PHOTOS EvtGen:No RadCorr engine given in EvtGen::EvtGen constructor, will use default EvtPHOTOS. EvtGen:In readDecayFile, reading:/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:As requested, PHOTOS will be turned on. EvtGen:VSS_BMIXCPT will generate mixing and CPT/CP effects in mixing: Upsilon(4S) --> B0 + anti-B0 using parameters: delta(m) = 0.502 hbar/ps _freq = 1.67 hbar/mm dgog = 0.00 dGamma = 0.00 hbar/mm q/p = (1.00,0.00) z = (0.00,0.00) tau = 1.53 ps x = 0.770 chi(B0->B0bar) = 0.186 chi(B0bar->B0) = 0.186 Af = (1.00,0.00) Abarf = (0.00,0.00) Afbar = (0.00,0.00) Abarfbar = (1.00,0.00) EvtGen:Redefined Partial wave for D_1+ to D*+ pi0 (2) EvtGen:Redefined Partial wave for D_1+ to D*0 pi+ (2) EvtGen:Redefined Partial wave for D_1- to D*- pi0 (2) EvtGen:Redefined Partial wave for D_1- to anti-D*0 pi- (2) EvtGen:Redefined Partial wave for D_10 to D*0 pi0 (2) EvtGen:Redefined Partial wave for D_10 to D*+ pi- (2) EvtGen:Redefined Partial wave for anti-D_10 to anti-D*0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_10 to D*- pi+ (2) EvtGen:Redefined Partial wave for D_2*+ to D*+ pi0 (2) EvtGen:Redefined Partial wave for D_2*+ to D*0 pi+ (2) EvtGen:Redefined Partial wave for D_2*- to D*- pi0 (2) EvtGen:Redefined Partial wave for D_2*- to anti-D*0 pi- (2) EvtGen:Redefined Partial wave for D_2*0 to D*0 pi0 (2) EvtGen:Redefined Partial wave for D_2*0 to D*+ pi- (2) EvtGen:Redefined Partial wave for anti-D_2*0 to anti-D*0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_2*0 to D*- pi+ (2) EvtGen:Given allowed decays, resetting minMass B_s0*0 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s0*0 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s2*0 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B_s2*0 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c*0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c*0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c+ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c*++ 2.25 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c*-- 2.25 to 2.42 EvtGen:Done initializing EvtGen : EvtGenInterface:**************************************************************************** EvtGenInterface:**************************************************************************** EvtGenInterface: EvtGen will correct particle energies if the mass calculated from the EvtGenInterface: 4-vector differs from the hepevt mass by more than 500 keV. EvtGenInterface:**************************************************************************** EvtGenInterface:**************************************************************************** : ****| GENERATORS: generator configuration check PASSED |***** SiAlignmentManager will take alignments from frontier 220050 1 GOOD SiAlignmentManager opening db: frontier run: 220050 version: 1 status: GOOD CdfCalibDbFrontier(SiAlignFrame:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483739 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483741 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483743 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483745 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 MZLINK. Initialize Link Area /GCHVIR/ for Store 0 NL/NS= 4 1 MZLINK. Initialize Link Area /GCDINA/ for Store 0 NL/NS= 4 4 1************************************************************ * * * G E A N T Version 3.2114 DATE/TIME1070812/**** * * * * R U N 1 * * * ************************************************************ * * * Data structure Date Time GVERSN ZVERSN * * -------------- ---- ---- ------ ------ * * * * INIT 1070812 **** 3.2114 3.79 * * * * KINE 1070812 **** 3.2114 3.79 * * * * HITS 1070812 **** 3.2114 3.79 * * * * DIGI 1070812 **** 3.2114 3.79 * * * * Random number seeds: 9876 54321 * * -------------------- * * * *----------------------------------------------------------* * * * Standard TPAR for this run are * * ------------------------------ * * * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 1. ICOMP = 1. IPHOT = 1. * * IPFIS = 0. IDRAY = 0. IANNI = 1. * * IBREM = 1. IHADR = 1. IMUNU = 1. * * IDCAY = 1. ILOSS = 2. IMULS = 1. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 34 VACUUM B 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 38 VACUUM NoB 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0.***** ***** Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root on Sun Aug 12 22:01:17 2007 ***** GenInputManager Begin processing 1th record. Run 222530, Trigger 0 ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 53 VACUUM B 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 58 VACUUM NoB 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * ************************************************************ CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMUPosition:1.2,47603) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMPPosition:1.3,91693) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMXPosition:1.2,49871) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. MediumType: 0 Media ID: 41 MediumType: 9 Media ID: 41 MediumType: 8 Media ID: 42 MediumType: 9 Media ID: 43 MediumType: 3 Media ID: 44 MediumType: 0 Media ID: 41 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 0 Media ID: 41 MediumType: 4 Media ID: 46 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 47 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 48 MediumType: 0 Media ID: 48 MediumType: 10 Media ID: 49 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 2 Media ID: 51 MediumType: 5 Media ID: 52 ******************************************************** ******** GFLASH-14 *** Parameters ************ ******************************************************** **************** GFLASH STEERING ********************* ** PEM ** PHA ** CEM ** CHA ** WHA ** MPA ISSAMP 1 1 1 1 1 1 1 1 1 1 IFLASH1 4 4 4 4 4 4 4 4 4 4 IFLASH2 0 0 0 0 0 0 0 0 0 0 GFCNEU 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 GFCGAM 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 GFCPRO 0.0500 0.2500 0.0500 0.2500 0.2500 0.0500 0.2500 0.0500 0.2500 0.2500 CFLASH1 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH3 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH4 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 ******************************************************** **************** SHOWER RESPONSE ********************* ** PEM ** PHA ** CEM ** CHA ** WHA ** MPA RSPMIP 0.0776 0.0181 0.1658 0.0534 0.0534 0.1600 1.0000 1.0000 1.0000 0.0160 EBYMIP 0.7110 0.8950 0.6490 0.8840 0.8840 0.5000 1.0000 1.0000 1.0000 1.0000 PBYMIP 1.8200 3.2000 1.8500 2.3000 2.3000 2.2000 3.9000 3.9000 3.9000 3.9000 SAMELM1 0.1270 0.1800 0.1350 0.1900 0.1900 0.1800 0.1000 0.1000 0.1000 0.1800 SAMELM2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMELM3 0.0137 0.1000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD1 0.1600 0.1610 0.1500 0.1300 0.1300 0.0000 0.3600 0.3600 0.3600 0.3600 FLUHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD3 0.0440 0.0440 0.0530 0.0400 0.0400 0.4000 0.0000 0.0000 0.0000 0.0440 SAMHAD1 0.1200 0.3500 0.1800 0.2300 0.2300 0.4000 0.4000 0.4000 0.4000 0.4000 SAMHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMHAD3 0.0100 0.0320 0.0380 0.0430 0.0430 0.0000 0.0000 0.0000 0.0000 0.0000 RLTHAD 32.7000 23.7000 32.7000 23.7000 23.7000 32.7000 23.7000 23.7000 23.7000 23.7000 ECRIT 9.6600 22.0000 9.4800 22.0000 22.0000 10.0000 79.0000 22.0000 52.0000 22.0000 SFREQ 0.8775 0.0000 0.8890 0.0000 0.0000 0.8000 0.2000 0.0000 0.0000 0.0000 EBM 0.2960 0.1050 0.3500 0.1100 0.1100 0.3000 0.0000 0.0000 0.0000 0.0000 ******************************************************** ************ PMT simulation package *************** version 0.0600 simulation mode 7 sw_light 1 sw_gain 1 sw_pedestal 1 light yield 7.00 # of pes/mip pedestal sigma 0.100 snglpe sigma 0.170 mip energy 0.00240 GeV *************************************************** GenInputManager Begin processing 2th record. Run 222530, Trigger 1 GenInputManager Begin processing 3th record. Run 222530, Trigger 2 EvtGenFinding B Mesons and about to enter DecayAll PYEVNT event no. 2 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !d! 21 1 1 -2.338 -0.534 408.544 408.551 0.000 4 !u! 21 2 2 0.277 -0.370 -86.344 86.345 0.000 5 !g! 21 21 3 -1.186 0.278 46.239 46.255 0.000 6 !u! 21 2 4 0.353 0.615 -83.594 83.597 0.000 7 !g! 21 21 0 -8.017 -19.256 42.413 47.265 0.000 8 !u! 21 2 0 7.184 20.148 -79.768 82.587 0.330 ============================================================================== 9 pbar- 1 -2212 2 0.184 0.322 -539.224 539.225 0.938 10 (d) A 12 1 3 0.685 0.140 32.049 32.059 0.330 11 (g) I 12 21 3 0.557 -0.153 6.563 6.589 0.000 12 (g) I 12 21 0 -0.524 -0.072 81.503 81.504 0.000 13 (g) I 12 21 0 1.359 -0.116 29.986 30.017 0.000 14 (g) I 12 21 0 -0.379 1.188 14.886 14.938 0.000 15 (g) I 12 21 0 0.387 3.468 17.029 17.383 0.000 16 (g) I 12 21 0 0.742 0.320 1.299 1.530 0.000 17 (g) I 12 21 0 1.354 1.372 2.785 3.387 0.000 18 (g) I 12 21 0 -0.272 1.520 1.120 1.908 0.000 19 (g) I 12 21 0 0.165 0.518 -0.072 0.548 0.000 20 (g) I 12 21 0 -0.314 2.204 -2.562 3.394 0.000 21 (g) I 12 21 0 0.524 0.072 -1.359 1.458 0.000 22 (g) I 12 21 0 0.411 0.303 -1.248 1.349 0.000 23 (g) I 12 21 0 0.522 0.337 -3.042 3.105 0.000 24 (g) I 12 21 0 1.105 -0.133 -18.686 18.719 0.000 25 (g) I 12 21 0 -1.105 0.133 -56.246 56.257 0.000 26 (g) I 12 21 0 1.834 0.628 -94.285 94.305 0.000 27 (g) I 12 21 4 -0.079 -0.985 -2.577 2.760 0.000 28 (ubar) V 11 -2 2 -0.461 0.048 -157.510 157.511 0.330 29 (dbar) A 12 -1 3 -1.617 -1.005 104.112 104.130 0.330 30 (g) I 12 21 3 -0.139 0.231 120.828 120.829 0.000 31 (d) V 11 1 3 -1.505 -0.499 92.770 92.784 0.330 32 (u) A 12 2 8 4.910 15.523 -61.476 63.597 0.330 33 (g) I 12 21 8 2.259 4.582 -18.127 18.833 0.000 34 (g) I 12 21 0 -0.520 0.356 -3.043 3.107 0.000 35 (g) I 12 21 0 -0.522 -0.337 -2.688 2.759 0.000 36 (g) I 12 21 0 -0.742 -0.320 -1.865 2.032 0.000 37 (g) I 12 21 0 -0.305 -0.227 -0.500 0.629 0.000 38 (g) I 12 21 0 -0.411 -0.303 -0.705 0.871 0.000 39 (g) I 12 21 0 -1.834 -0.628 -1.739 2.604 0.000 40 (g) I 12 21 0 -0.387 -3.468 -3.419 4.885 0.000 41 (g) I 12 21 0 -0.165 -0.518 0.086 0.550 0.000 42 (g) I 12 21 7 -7.699 -18.743 37.347 42.490 0.000 43 (g) I 12 21 7 -0.303 -0.469 4.901 4.933 0.000 44 (g) I 12 21 0 0.314 -2.204 2.213 3.139 0.000 45 (g) I 12 21 0 0.520 -0.356 0.368 0.729 0.000 46 (g) I 12 21 0 0.541 -0.084 0.070 0.551 0.000 47 (g) I 12 21 0 -1.359 0.116 4.932 5.117 0.000 48 (g) I 12 21 0 0.379 -1.188 17.058 17.104 0.000 49 (g) I 12 21 0 0.272 -1.520 14.967 15.047 0.000 50 (g) I 12 21 0 -1.354 -1.372 15.857 15.973 0.000 51 (g) I 12 21 3 0.868 0.476 5.810 5.894 0.000 52 (uu_1) V 11 2203 1 2.338 0.534 356.836 356.845 0.771 53 (d) A 12 1 0 -0.560 -0.090 -0.434 0.714 0.000 54 (g) I 12 21 0 -0.541 0.084 0.192 0.580 0.000 55 (g) I 12 21 0 0.305 0.227 2.799 2.824 0.000 56 (dbar) V 11 -1 0 0.560 0.090 2.440 2.505 0.000 ============================================================================== 57 (string) 11 92 10 6.511 10.792 -150.366 528.721 506.731 58 (Sigma0) 11 3212 57 0.246 -0.534 54.668 54.685 1.193 59 Sigmabar- 1 -3222 57 1.241 0.510 40.329 40.369 1.189 60 (pi0) 11 111 57 -0.077 0.173 6.425 6.429 0.135 61 (Delta++) 11 2224 57 0.211 0.529 21.290 21.334 1.245 62 (pi0) 11 111 57 -0.761 0.450 12.541 12.573 0.135 63 (Deltabar--) 11 -2224 57 0.582 0.095 22.282 22.322 1.216 64 p+ 1 2212 57 0.094 1.638 9.878 10.058 0.938 65 nbar0 1 -2112 57 1.401 0.801 9.480 9.662 0.940 66 (Delta-) 11 1114 57 0.306 1.336 5.623 5.924 1.265 67 (Deltabar+) 11 -1114 57 0.047 1.937 2.253 3.267 1.359 68 (K0) 11 311 57 0.345 -0.244 1.030 1.219 0.498 69 (K*-) 11 -323 57 0.719 0.681 0.418 1.391 0.884 70 (K*+) 11 323 57 0.020 1.186 -1.534 2.132 0.885 71 (Kbar0) 11 -311 57 -0.131 0.347 0.486 0.789 0.498 72 pi- 1 -211 57 0.632 1.064 -2.146 2.481 0.140 73 (omega) 11 223 57 -0.380 0.735 -2.418 2.671 0.776 74 (rho+) 11 213 57 0.512 -0.187 -14.028 14.058 0.739 75 pi- 1 -211 57 -0.351 0.274 -2.976 3.012 0.140 76 pi+ 1 211 57 0.550 -0.248 -2.219 2.304 0.140 77 (K*0) 11 313 57 0.603 0.672 -13.836 13.894 0.894 78 (K*-) 11 -323 57 -0.164 -0.170 -10.940 10.976 0.852 79 pi+ 1 211 57 0.791 0.448 -74.861 74.866 0.140 80 (pi0) 11 111 57 -0.773 -0.033 -7.614 7.654 0.135 81 (omega) 11 223 57 0.215 -0.283 -9.359 9.398 0.780 82 (rho0) 11 113 57 0.979 -0.220 -45.876 45.894 0.782 83 (pi0) 11 111 57 -0.028 0.090 -1.870 1.877 0.135 84 (rho0) 11 113 57 0.301 0.376 -17.021 17.046 0.783 85 (K*0) 11 313 57 -0.594 -0.266 -11.544 11.599 0.919 86 (Kbar0) 11 -311 57 -0.409 -0.166 -37.820 37.826 0.498 87 (rho-) 11 -213 57 0.387 -0.197 -81.005 81.010 0.740 88 (string) 11 92 29 -3.260 -1.273 317.710 317.742 2.883 89 pi+ 1 211 88 -1.250 -0.142 74.466 74.477 0.140 90 K- 1 -321 88 0.036 -0.329 103.053 103.054 0.494 91 (K*0) 11 313 88 -2.045 -0.802 140.191 140.211 0.865 92 (string) 11 92 32 -3.200 -10.153 366.884 567.689 433.074 93 (K*+) 11 323 92 2.363 7.489 -29.813 30.843 0.885 94 K- 1 -321 92 3.325 7.839 -32.522 33.622 0.494 95 (rho+) 11 213 92 0.515 4.029 -14.620 15.198 0.845 96 (pi0) 11 111 92 0.063 0.163 -2.747 2.756 0.135 97 (eta) 11 221 92 -0.228 -0.354 -1.232 1.413 0.547 98 pi- 1 -211 92 0.022 0.122 -0.541 0.573 0.140 99 (eta) 11 221 92 -0.489 0.659 -1.123 1.495 0.547 100 (K*+) 11 323 92 -0.105 -0.084 -2.161 2.341 0.888 101 K- 1 -321 92 -1.198 -0.784 -3.415 3.736 0.494 102 (K*+) 11 323 92 -1.469 -1.019 -2.514 3.207 0.877 103 (K*bar0) 11 -313 92 -0.225 -1.799 -1.671 2.639 0.940 104 (omega) 11 223 92 0.213 -0.975 -0.471 1.351 0.779 105 pi- 1 -211 92 -0.284 -0.327 -0.190 0.493 0.140 106 (eta') 11 331 92 -1.116 -2.816 4.731 5.699 0.958 107 (rho+) 11 213 92 -2.280 -4.078 8.663 9.869 0.719 108 pi- 1 -211 92 -0.849 -3.667 7.352 8.260 0.140 109 (rho+) 11 213 92 -0.567 -3.320 5.039 6.145 1.012 110 (pi0) 11 111 92 -1.106 -0.480 1.857 2.218 0.135 111 (rho0) 11 113 92 -1.927 -3.605 8.301 9.280 0.717 112 pi- 1 -211 92 0.199 -0.447 1.784 1.855 0.140 113 (rho+) 11 213 92 0.557 -2.276 2.181 3.292 0.769 114 (rho-) 11 -213 92 -0.810 -0.888 4.581 4.866 1.118 115 (Delta0) 11 2114 92 0.061 -0.603 3.403 3.677 1.254 116 (rho+) 11 213 92 -0.040 -0.589 3.307 3.538 1.111 117 (Deltabar0) 11 -2114 92 0.465 -0.037 2.612 2.908 1.189 118 (Delta0) 11 2114 92 -1.054 -1.290 23.049 23.142 1.239 119 pi- 1 -211 92 -0.057 -0.180 2.317 2.329 0.140 120 (Deltabar0) 11 -2114 92 -0.184 -1.878 18.401 18.543 1.304 121 p+ 1 2212 92 0.489 0.359 19.709 19.740 0.938 122 (rho-) 11 -213 92 0.261 0.098 22.308 22.329 0.905 123 (Deltabar+) 11 -1114 92 0.949 0.411 109.491 109.502 1.209 124 n0 1 2112 92 0.749 -0.130 144.775 144.780 0.940 125 pi+ 1 211 92 0.556 0.303 66.047 66.050 0.140 126 (string) 11 92 53 -0.235 0.312 4.997 6.624 4.330 127 (rho-) 11 -213 126 -0.344 0.151 0.284 0.918 0.788 128 pi+ 1 211 126 -0.314 -0.082 0.640 0.731 0.140 129 (pi0) 11 111 126 0.434 0.362 0.739 0.941 0.135 130 pi- 1 -211 126 -0.415 -0.701 0.423 0.929 0.140 131 (rho+) 11 213 126 0.404 0.582 2.910 3.105 0.819 132 Lambda0 1 3122 58 0.160 -0.522 51.627 51.642 1.116 133 gamma 1 22 58 0.086 -0.013 3.042 3.043 0.000 134 gamma 1 22 60 -0.096 0.108 2.943 2.946 0.000 135 gamma 1 22 60 0.019 0.065 3.482 3.483 0.000 136 p+ 1 2212 61 0.400 0.484 17.253 17.290 0.938 137 pi+ 1 211 61 -0.189 0.045 4.037 4.044 0.140 138 gamma 1 22 62 -0.596 0.284 9.201 9.224 0.000 139 gamma 1 22 62 -0.165 0.166 3.340 3.348 0.000 140 pbar- 1 -2212 63 0.592 0.205 16.693 16.731 0.938 141 pi- 1 -211 63 -0.011 -0.110 5.589 5.591 0.140 142 n0 1 2112 66 0.201 1.064 5.186 5.381 0.940 143 pi- 1 -211 66 0.105 0.272 0.437 0.543 0.140 144 nbar0 1 -2112 67 0.079 1.851 2.294 3.095 0.940 145 pi+ 1 211 67 -0.032 0.086 -0.042 0.172 0.140 146 K_L0 1 130 68 0.345 -0.244 1.030 1.219 0.498 147 (Kbar0) 11 -311 69 0.813 0.493 0.369 1.135 0.498 148 pi- 1 -211 69 -0.094 0.187 0.048 0.256 0.140 149 (K0) 11 311 70 0.023 0.339 -0.470 0.764 0.498 150 pi+ 1 211 70 -0.003 0.848 -1.064 1.367 0.140 151 K_L0 1 130 71 -0.131 0.347 0.486 0.789 0.498 152 pi- 1 -211 73 -0.281 0.306 -0.593 0.738 0.140 153 pi+ 1 211 73 -0.038 0.382 -0.816 0.913 0.140 154 (pi0) 11 111 73 -0.061 0.047 -1.009 1.021 0.135 155 pi+ 1 211 74 0.118 -0.408 -6.825 6.840 0.140 156 (pi0) 11 111 74 0.394 0.221 -7.203 7.219 0.135 157 (K0) 11 311 77 0.425 0.162 -5.816 5.855 0.498 158 (pi0) 11 111 77 0.178 0.510 -8.020 8.039 0.135 159 (Kbar0) 11 -311 78 -0.331 -0.225 -6.939 6.969 0.498 160 pi- 1 -211 78 0.167 0.056 -4.001 4.007 0.140 161 gamma 1 22 80 -0.261 0.028 -2.106 2.122 0.000 162 gamma 1 22 80 -0.512 -0.062 -5.508 5.532 0.000 163 pi- 1 -211 81 0.088 -0.188 -3.930 3.938 0.140 164 pi+ 1 211 81 -0.149 0.022 -3.252 3.258 0.140 165 (pi0) 11 111 81 0.277 -0.117 -2.177 2.202 0.135 166 pi+ 1 211 82 0.957 0.046 -36.150 36.163 0.140 167 pi- 1 -211 82 0.022 -0.266 -9.726 9.730 0.140 168 gamma 1 22 83 0.013 -0.031 -0.586 0.587 0.000 169 gamma 1 22 83 -0.040 0.121 -1.284 1.290 0.000 170 pi- 1 -211 84 0.066 -0.131 -1.439 1.453 0.140 171 pi+ 1 211 84 0.234 0.507 -15.583 15.593 0.140 172 K+ 1 321 85 -0.057 -0.272 -6.336 6.361 0.494 173 pi- 1 -211 85 -0.537 0.006 -5.209 5.238 0.140 174 K_L0 1 130 86 -0.409 -0.166 -37.820 37.826 0.498 175 pi- 1 -211 87 0.072 -0.132 -5.625 5.629 0.140 176 (pi0) 11 111 87 0.315 -0.065 -75.380 75.381 0.135 177 K+ 1 321 91 -0.779 -0.291 48.893 48.903 0.494 178 pi- 1 -211 91 -1.266 -0.511 91.298 91.308 0.140 179 K+ 1 321 93 1.606 5.520 -20.847 21.631 0.494 180 (pi0) 11 111 93 0.757 1.968 -8.966 9.211 0.135 181 pi+ 1 211 95 0.173 3.476 -12.443 12.922 0.140 182 (pi0) 11 111 95 0.341 0.553 -2.177 2.276 0.135 183 gamma 1 22 96 0.095 0.157 -2.486 2.493 0.000 184 gamma 1 22 96 -0.033 0.007 -0.261 0.263 0.000 185 gamma 1 22 97 0.045 -0.364 -0.428 0.563 0.000 186 gamma 1 22 97 -0.272 0.010 -0.805 0.849 0.000 187 pi+ 1 211 99 -0.341 0.338 -0.625 0.800 0.140 188 pi- 1 -211 99 -0.144 0.135 -0.177 0.299 0.140 189 (pi0) 11 111 99 -0.004 0.186 -0.322 0.395 0.135 190 K+ 1 321 100 -0.232 -0.190 -1.973 2.056 0.494 191 (pi0) 11 111 100 0.128 0.105 -0.189 0.285 0.135 192 K+ 1 321 102 -1.032 -0.454 -1.285 1.780 0.494 193 (pi0) 11 111 102 -0.437 -0.564 -1.229 1.428 0.135 194 (Kbar0) 11 -311 103 0.060 -1.512 -1.146 1.962 0.498 195 (pi0) 11 111 103 -0.285 -0.287 -0.525 0.677 0.135 196 pi- 1 -211 104 -0.002 -0.576 -0.359 0.693 0.140 197 pi+ 1 211 104 -0.006 -0.312 0.041 0.345 0.140 198 (pi0) 11 111 104 0.221 -0.086 -0.153 0.313 0.135 199 pi+ 1 211 106 -0.135 -0.202 0.300 0.410 0.140 200 pi- 1 -211 106 -0.165 -0.449 0.608 0.786 0.140 201 (eta) 11 221 106 -0.816 -2.165 3.824 4.503 0.547 202 pi+ 1 211 107 -1.656 -2.480 5.038 5.856 0.140 203 (pi0) 11 111 107 -0.624 -1.598 3.625 4.013 0.135 204 pi+ 1 211 109 -0.281 -1.305 1.213 1.809 0.140 205 (pi0) 11 111 109 -0.286 -2.015 3.827 4.336 0.135 206 gamma 1 22 110 -0.204 -0.048 0.390 0.442 0.000 207 gamma 1 22 110 -0.902 -0.432 1.467 1.775 0.000 208 pi+ 1 211 111 -0.613 -1.765 3.422 3.902 0.140 209 pi- 1 -211 111 -1.314 -1.840 4.878 5.378 0.140 210 pi+ 1 211 113 -0.129 -0.459 0.635 0.807 0.140 211 (pi0) 11 111 113 0.686 -1.817 1.545 2.486 0.135 212 pi- 1 -211 114 -0.391 -0.638 4.093 4.164 0.140 213 (pi0) 11 111 114 -0.419 -0.250 0.488 0.703 0.135 214 n0 1 2112 115 0.231 -0.592 2.458 2.707 0.940 215 (pi0) 11 111 115 -0.171 -0.011 0.945 0.970 0.135 216 pi+ 1 211 116 -0.468 -0.490 1.235 1.416 0.140 217 (pi0) 11 111 116 0.428 -0.099 2.072 2.122 0.135 218 pbar- 1 -2212 117 0.394 -0.204 2.269 2.495 0.938 219 pi+ 1 211 117 0.071 0.167 0.344 0.413 0.140 220 p+ 1 2212 118 -0.741 -1.017 20.074 20.135 0.938 221 pi- 1 -211 118 -0.312 -0.273 2.974 3.006 0.140 222 pbar- 1 -2212 120 -0.207 -1.695 17.659 17.766 0.938 223 pi+ 1 211 120 0.023 -0.183 0.742 0.777 0.140 224 pi- 1 -211 122 -0.046 -0.264 15.180 15.183 0.140 225 (pi0) 11 111 122 0.307 0.362 7.129 7.146 0.135 226 nbar0 1 -2112 123 0.923 0.385 105.550 105.559 0.940 227 pi+ 1 211 123 0.026 0.026 3.941 3.943 0.140 228 pi- 1 -211 127 -0.503 0.087 -0.036 0.530 0.140 229 (pi0) 11 111 127 0.159 0.065 0.320 0.388 0.135 230 gamma 1 22 129 0.371 0.237 0.539 0.696 0.000 231 gamma 1 22 129 0.063 0.125 0.200 0.245 0.000 232 pi+ 1 211 131 0.262 0.230 0.350 0.513 0.140 233 (pi0) 11 111 131 0.142 0.351 2.560 2.591 0.135 234 K_S0 1 310 147 0.813 0.493 0.369 1.135 0.498 235 K_S0 1 310 149 0.023 0.339 -0.470 0.764 0.498 236 gamma 1 22 154 -0.048 -0.030 -0.192 0.200 0.000 237 gamma 1 22 154 -0.013 0.077 -0.817 0.820 0.000 238 gamma 1 22 156 0.005 0.004 -0.011 0.013 0.000 239 gamma 1 22 156 0.389 0.217 -7.192 7.206 0.000 240 K_S0 1 310 157 0.425 0.162 -5.816 5.855 0.498 241 gamma 1 22 158 0.116 0.214 -4.379 4.386 0.000 242 gamma 1 22 158 0.062 0.296 -3.641 3.653 0.000 243 K_S0 1 310 159 -0.331 -0.225 -6.939 6.969 0.498 244 gamma 1 22 165 -0.013 -0.018 -0.188 0.189 0.000 245 gamma 1 22 165 0.290 -0.099 -1.989 2.013 0.000 246 gamma 1 22 176 -0.012 -0.006 -1.418 1.419 0.000 247 gamma 1 22 176 0.327 -0.060 -73.962 73.962 0.000 248 gamma 1 22 180 0.167 0.524 -2.126 2.197 0.000 249 gamma 1 22 180 0.590 1.444 -6.839 7.015 0.000 250 gamma 1 22 182 0.021 0.023 -0.250 0.252 0.000 251 gamma 1 22 182 0.320 0.530 -1.927 2.024 0.000 252 gamma 1 GenInputManager Begin processing 4th record. Run 222530, Trigger 3 22 189 0.023 0.197 -0.292 0.353 0.000 253 gamma 1 22 189 -0.028 -0.012 -0.030 0.042 0.000 254 gamma 1 22 191 -0.013 0.047 -0.092 0.105 0.000 255 gamma 1 22 191 0.141 0.058 -0.096 0.180 0.000 256 gamma 1 22 193 -0.395 -0.531 -1.054 1.245 0.000 257 gamma 1 22 193 -0.042 -0.033 -0.175 0.183 0.000 258 K_L0 1 130 194 0.060 -1.512 -1.146 1.962 0.498 259 gamma 1 22 195 -0.151 -0.155 -0.386 0.443 0.000 260 gamma 1 22 195 -0.134 -0.132 -0.139 0.234 0.000 261 gamma 1 22 198 0.052 0.037 -0.034 0.072 0.000 262 gamma 1 22 198 0.169 -0.123 -0.119 0.241 0.000 263 (pi0) 11 111 201 -0.338 -0.763 1.309 1.558 0.135 264 (pi0) 11 111 201 -0.233 -0.992 1.826 2.095 0.135 265 (pi0) 11 111 201 -0.245 -0.411 0.689 0.849 0.135 266 gamma 1 22 203 -0.546 -1.448 3.178 3.535 0.000 267 gamma 1 22 203 -0.078 -0.149 0.447 0.478 0.000 268 gamma 1 22 205 -0.143 -1.041 1.832 2.112 0.000 269 gamma 1 22 205 -0.143 -0.974 1.995 2.224 0.000 270 gamma 1 22 211 0.235 -0.625 0.615 0.908 0.000 271 gamma 1 22 211 0.451 -1.192 0.931 1.578 0.000 272 gamma 1 22 213 -0.029 -0.025 0.106 0.113 0.000 273 gamma 1 22 213 -0.390 -0.224 0.382 0.590 0.000 274 gamma 1 22 215 -0.113 -0.052 0.367 0.387 0.000 275 gamma 1 22 215 -0.058 0.041 0.578 0.583 0.000 276 gamma 1 22 217 0.090 -0.070 0.683 0.692 0.000 277 gamma 1 22 217 0.339 -0.029 1.389 1.430 0.000 278 gamma 1 22 225 0.087 0.204 3.376 3.384 0.000 279 gamma 1 22 225 0.221 0.158 3.752 3.762 0.000 280 gamma 1 22 229 0.104 -0.027 0.195 0.223 0.000 281 gamma 1 22 229 0.055 0.092 0.125 0.165 0.000 282 gamma 1 22 233 0.168 0.287 2.176 2.201 0.000 283 gamma 1 22 233 -0.025 0.064 0.384 0.390 0.000 284 gamma 1 22 263 -0.088 -0.112 0.295 0.327 0.000 285 gamma 1 22 263 -0.250 -0.651 1.014 1.231 0.000 286 gamma 1 22 264 -0.029 -0.410 0.725 0.833 0.000 287 gamma 1 22 264 -0.205 -0.581 1.101 1.262 0.000 288 gamma 1 22 265 -0.245 -0.417 0.691 0.843 0.000 289 gamma 1 22 265 -0.001 0.006 -0.002 0.006 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGenFinding B Mesons and about to enter DecayAll PYEVNT event no. 3 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.215 -0.644 95.720 95.722 0.000 4 !g! 21 21 2 1.200 0.093 -99.875 99.883 0.000 5 !g! 21 21 3 3.471 15.514 27.984 32.184 0.000 6 !g! 21 21 4 -1.130 4.568 -26.420 26.836 0.000 7 !g! 21 21 0 20.944 19.724 -16.435 33.133 0.000 8 !g! 21 21 0 -18.602 0.359 17.999 25.887 0.000 ============================================================================== 9 (s) A 12 3 7 2.359 -0.093 -0.305 2.433 0.500 10 (g) I 12 21 7 -0.157 0.033 -0.146 0.217 0.000 11 (g) I 12 21 4 1.563 -1.506 -2.717 3.478 0.000 12 (g) I 12 21 4 -0.762 0.071 -12.815 12.838 0.000 13 (g) I 12 21 4 -0.171 -0.974 -5.527 5.615 0.000 14 (g) I 12 21 4 0.441 -3.741 -16.125 16.560 0.000 15 (g) I 12 21 4 -0.052 -0.026 0.080 0.099 0.000 16 (g) I 12 21 4 0.927 0.567 -18.431 18.463 0.000 17 (g) I 12 21 4 0.652 1.046 -13.423 13.480 0.000 18 (dbar) V 11 -1 2 -0.586 0.142 -19.301 19.314 0.330 19 (sbar) A 12 -3 7 12.016 12.611 -9.422 19.811 0.500 20 (g) I 12 21 7 6.126 7.055 -6.007 11.108 0.000 21 (g) I 12 21 8 -7.215 0.413 5.927 9.346 0.000 22 (g) I 12 21 8 -10.343 -0.707 10.554 14.794 0.000 23 (g) I 12 21 8 -0.445 0.771 0.964 1.312 0.000 24 (g) I 12 21 0 -2.193 -0.530 108.760 108.784 0.000 25 (g) I 12 21 0 2.193 0.530 7.875 8.192 0.000 26 (g) I 12 21 0 0.086 0.505 1.943 2.010 0.000 27 (g) I 12 21 3 -2.272 -4.770 29.877 30.341 0.000 28 (g) I 12 21 3 0.920 -8.339 25.263 26.620 0.000 29 (g) I 12 21 3 -0.381 -1.276 2.312 2.668 0.000 30 (g) I 12 21 3 -2.222 -1.685 5.787 6.423 0.000 31 (d) V 11 1 1 0.095 0.513 58.099 58.102 0.330 32 (uu_1) A 12 2203 1 0.119 0.130 707.240 707.240 0.771 33 (g) I 12 21 0 -0.086 -0.505 -0.300 0.594 0.000 34 (uu_1bar) V 11 -2203 2 -0.614 -0.235 -860.160 860.161 0.771 ============================================================================== 35 (string) 11 92 9 4.216 -4.482 -88.712 92.495 25.450 36 (K*-) 11 -323 35 1.878 -0.807 -0.461 2.265 0.858 37 pi+ 1 211 35 0.394 -0.056 -0.856 0.954 0.140 38 (pi0) 11 111 35 0.318 0.719 -1.000 1.279 0.135 39 (eta) 11 221 35 0.531 -0.531 -1.641 1.886 0.547 40 (eta') 11 331 35 0.463 -0.168 -1.284 1.676 0.958 41 (pi0) 11 111 35 0.084 -0.044 -0.587 0.610 0.135 42 (omega) 11 223 35 -0.307 -1.335 -6.472 6.658 0.754 43 n0 1 2112 35 0.048 -0.601 -9.735 9.799 0.940 44 pbar- 1 -2212 35 -0.135 -1.026 -5.503 5.677 0.938 45 (rho+) 11 213 35 -0.090 -0.879 -4.944 5.078 0.747 46 (eta') 11 331 35 0.583 -1.450 -8.505 8.700 0.958 47 (rho0) 11 113 35 -0.201 0.111 -5.397 5.453 0.745 48 (rho-) 11 -213 35 0.324 -0.200 -9.505 9.556 0.916 49 (pi0) 11 111 35 0.697 1.600 -20.542 20.617 0.135 50 pi+ 1 211 35 -0.371 0.184 -12.279 12.287 0.140 51 (string) 11 92 19 -3.635 5.092 241.932 299.510 176.454 52 K+ 1 321 51 10.219 11.346 -8.599 17.531 0.494 53 (rho-) 11 -213 51 2.067 1.709 -0.858 2.926 0.795 54 pi+ 1 211 51 5.537 5.477 -5.074 9.296 0.140 55 pi- 1 -211 51 -0.168 1.105 -0.899 1.442 0.140 56 (pi0) 11 111 51 -2.527 0.169 2.602 3.633 0.135 57 pi+ 1 211 51 -1.466 -0.143 2.169 2.626 0.140 58 (Deltabar--) 11 -2224 51 -4.712 0.415 3.742 6.148 1.195 59 pi+ 1 211 51 -4.257 -0.119 3.491 5.508 0.140 60 (Delta0) 11 2114 51 -1.930 0.673 2.691 3.589 1.211 61 (pi0) 11 111 51 -2.256 -1.018 4.181 4.860 0.135 62 (K*bar0) 11 -313 51 -0.151 0.440 3.175 3.330 0.887 63 K+ 1 321 51 -0.297 0.039 2.178 2.253 0.494 64 (omega) 11 223 51 -1.013 -0.620 46.272 46.294 0.779 65 (rho-) 11 -213 51 -0.867 0.300 21.198 21.224 0.509 66 pi+ 1 211 51 0.456 -0.301 26.477 26.483 0.140 67 (rho-) 11 -213 51 0.361 0.871 6.577 6.690 0.780 68 (pi0) 11 111 51 0.027 -0.197 0.888 0.920 0.135 69 (rho+) 11 213 51 0.779 0.032 4.958 5.106 0.939 70 pi- 1 -211 51 -0.039 -0.747 5.035 5.092 0.140 71 (omega) 11 223 51 -0.202 0.205 6.515 6.568 0.778 72 pi+ 1 211 51 -0.076 -0.344 1.802 1.841 0.140 73 pi- 1 -211 51 -0.386 0.204 2.179 2.227 0.140 74 (pi0) 11 111 51 -0.232 -4.939 17.781 18.456 0.135 75 pi+ 1 211 51 0.013 -0.234 2.820 2.833 0.140 76 (rho-) 11 -213 51 -0.318 -2.080 9.081 9.341 0.603 77 pi+ 1 211 51 -0.271 -1.156 3.850 4.031 0.140 78 (pi0) 11 111 51 -0.180 -0.867 2.030 2.219 0.135 79 (omega) 11 223 51 0.300 -2.174 8.932 9.230 0.774 80 (omega) 11 223 51 -0.952 -1.163 3.054 3.492 0.779 81 (rho-) 11 -213 51 -0.235 -1.811 3.846 4.339 0.837 82 (pi0) 11 111 51 -0.331 -0.120 1.919 1.955 0.135 83 (rho+) 11 213 51 -0.496 -0.491 11.398 11.440 0.696 84 (pi0) 11 111 51 0.075 0.750 18.182 18.198 0.135 85 (rho-) 11 -213 51 -0.443 0.081 14.398 14.428 0.801 86 (eta) 11 221 51 0.336 -0.203 13.943 13.959 0.547 87 (string) 11 92 32 -0.581 -0.609 -153.220 1567.995 1560.490 88 (rho+) 11 213 87 -0.230 0.015 352.800 352.802 0.898 89 p+ 1 2212 87 0.256 -0.667 201.383 201.386 0.938 90 (rho0) 11 113 87 -0.129 0.956 67.411 67.422 0.758 91 (K*-) 11 -323 87 0.183 -0.173 21.097 21.115 0.841 92 (K0) 11 311 87 0.453 0.464 34.373 34.383 0.498 93 (rho+) 11 213 87 -0.521 -0.650 16.329 16.357 0.482 94 pi- 1 -211 87 0.096 -0.005 7.307 7.309 0.140 95 (rho+) 11 213 87 -0.108 0.480 5.045 5.132 0.807 96 (pi0) 11 111 87 0.006 -0.534 1.103 1.233 0.135 97 (rho-) 11 -213 87 0.061 -0.021 -0.222 0.692 0.652 98 pi+ 1 211 87 0.336 0.265 -0.912 1.017 0.140 99 (rho-) 11 -213 87 -0.338 -0.659 -4.013 4.130 0.632 100 (omega) 11 223 87 -0.281 -0.072 -18.692 18.710 0.786 101 (rho+) 11 213 87 0.281 0.606 -7.265 7.321 0.612 102 (K*-) 11 -323 87 -0.173 -0.353 -95.414 95.419 0.935 103 (K*0) 11 313 87 0.172 0.009 -63.558 63.565 0.899 104 pi+ 1 211 87 -0.150 -0.092 -73.698 73.698 0.140 105 (pi0) 11 111 87 -0.245 0.115 -11.812 11.816 0.135 106 pbar- 1 -2212 87 0.269 -0.442 -316.515 316.517 0.938 107 (rho-) 11 -213 87 -0.521 0.150 -267.966 267.969 0.974 108 (Kbar0) 11 -311 36 1.810 -0.814 -0.496 2.105 0.498 109 pi- 1 -211 36 0.068 0.007 0.034 0.159 0.140 110 gamma 1 22 38 0.146 0.489 -0.639 0.818 0.000 111 gamma 1 22 38 0.172 0.230 -0.361 0.461 0.000 112 gamma 1 22 39 0.115 -0.486 -0.742 0.894 0.000 113 gamma 1 22 39 0.416 -0.045 -0.899 0.991 0.000 114 (pi0) 11 111 40 0.275 -0.007 -0.326 0.447 0.135 115 (pi0) 11 111 40 0.031 -0.107 -0.112 0.208 0.135 116 (eta) 11 221 40 0.157 -0.055 -0.846 1.021 0.547 117 gamma 1 22 41 0.036 -0.087 -0.266 0.282 0.000 118 gamma 1 22 41 0.048 0.043 -0.321 0.328 0.000 119 pi+ 1 211 42 -0.202 -0.226 -1.918 1.947 0.140 120 pi- 1 -211 42 -0.040 -0.388 -1.009 1.091 0.140 121 (pi0) 11 111 42 -0.065 -0.721 -3.545 3.620 0.135 122 pi+ 1 211 45 -0.363 -0.692 -3.643 3.729 0.140 123 (pi0) 11 111 45 0.273 -0.186 -1.301 1.349 0.135 124 pi- 1 -211 46 0.074 -0.091 -0.526 0.557 0.140 125 pi+ 1 211 46 0.074 -0.482 -2.521 2.572 0.140 126 (eta) 11 221 46 0.434 -0.876 -5.457 5.571 0.547 127 pi+ 1 211 47 -0.349 0.304 -3.915 3.944 0.140 128 pi- 1 -211 47 0.148 -0.193 -1.483 1.509 0.140 129 pi- 1 -211 48 0.319 -0.518 -7.052 7.080 0.140 130 (pi0) 11 111 48 0.006 0.317 -2.453 2.477 0.135 131 gamma 1 22 49 0.580 1.379 -18.068 18.129 0.000 132 gamma 1 22 49 0.118 0.221 -2.475 2.488 0.000 133 pi- 1 -211 53 1.557 0.939 -0.798 1.990 0.140 134 (pi0) 11 111 53 0.511 0.770 -0.060 0.936 0.135 135 gamma 1 22 56 -0.466 -0.021 0.482 0.671 0.000 136 gamma 1 22 56 -2.061 0.190 2.120 2.962 0.000 137 pbar- 1 -2212 58 -3.435 0.154 2.626 4.427 0.938 138 pi- 1 -211 58 -1.276 0.261 1.116 1.721 0.140 139 n0 1 2112 60 -1.650 0.700 2.525 3.236 0.940 140 (pi0) 11 111 60 -0.280 -0.027 0.165 0.353 0.135 141 gamma 1 22 61 -2.043 -0.933 3.716 4.342 0.000 142 gamma 1 22 61 -0.212 -0.085 0.465 0.518 0.000 143 K- 1 -321 62 -0.156 0.594 2.357 2.486 0.494 144 pi+ 1 211 62 0.004 -0.154 0.818 0.844 0.140 145 pi+ 1 211 64 -0.357 -0.004 9.627 9.635 0.140 146 pi- 1 -211 64 -0.653 -0.561 31.940 31.952 0.140 147 (pi0) 11 111 64 -0.002 -0.055 4.705 4.707 0.135 148 pi- 1 -211 65 -0.247 0.245 10.764 10.770 0.140 149 (pi0) 11 111 65 -0.620 0.055 10.434 10.453 0.135 150 pi- 1 -211 67 -0.207 0.160 1.316 1.349 0.140 151 (pi0) 11 111 67 0.569 0.712 5.261 5.341 0.135 152 gamma 1 22 68 -0.051 -0.040 0.223 0.232 0.000 153 gamma 1 22 68 0.078 -0.157 0.666 0.688 0.000 154 pi+ 1 211 69 0.914 -0.130 3.316 3.445 0.140 155 (pi0) 11 111 69 -0.135 0.162 1.642 1.661 0.135 156 pi- 1 -211 71 0.120 0.198 4.106 4.115 0.140 157 pi+ 1 211 71 -0.266 0.058 1.540 1.570 0.140 158 (pi0) 11 111 71 -0.056 -0.051 0.868 0.882 0.135 159 gamma 1 22 74 -0.239 -4.031 14.463 15.016 0.000 160 gamma 1 22 74 0.008 -0.908 3.318 3.440 0.000 161 pi- 1 -211 76 -0.243 -1.368 4.817 5.016 0.140 162 (pi0) 11 111 76 -0.075 -0.712 4.264 4.325 0.135 163 gamma 1 22 78 -0.165 -0.739 1.604 1.774 0.000 164 gamma 1 22 78 -0.016 -0.127 0.426 0.445 0.000 165 pi+ 1 211 79 0.017 -0.804 2.757 2.875 0.140 166 pi- 1 -211 79 0.222 -0.967 5.095 5.193 0.140 167 (pi0) 11 111 79 0.061 -0.404 1.080 1.163 0.135 168 pi+ 1 211 80 -0.345 -0.585 0.987 1.206 0.140 169 pi- 1 -211 80 -0.081 0.026 0.359 0.394 0.140 170 (pi0) 11 111 80 -0.526 -0.604 1.708 1.891 0.135 171 pi- 1 -211 81 -0.322 -1.259 3.286 3.537 0.140 172 (pi0) 11 111 81 0.086 -0.552 0.559 0.802 0.135 173 gamma 1 22 82 -0.226 -0.042 0.922 0.950 0.000 174 gamma 1 22 82 -0.106 -0.078 0.997 1.006 0.000 175 pi+ 1 211 83 -0.132 -0.557 6.430 6.457 0.140 176 (pi0) 11 111 83 -0.365 0.066 4.968 4.984 0.135 177 gamma 1 22 84 0.052 0.459 12.638 12.646 0.000 178 gamma 1 22 84 0.023 0.291 5.544 5.552 0.000 179 pi- 1 -211 85 -0.354 0.142 13.771 13.777 0.140 180 (pi0) 11 111 85 -0.089 -0.061 0.627 0.651 0.135 181 gamma 1 22 86 0.110 -0.373 7.590 7.600 0.000 182 gamma 1 22 86 0.226 0.170 6.353 6.359 0.000 183 pi+ 1 211 88 -0.538 -0.100 195.892 195.893 0.140 184 (pi0) 11 111 88 0.309 0.115 156.909 156.909 0.135 185 pi- 1 -211 90 -0.134 0.458 52.197 52.199 0.140 186 pi+ 1 211 90 0.006 0.498 15.214 15.223 0.140 187 (Kbar0) 11 -311 91 0.337 -0.099 18.056 18.066 0.498 188 pi- 1 -211 91 -0.154 -0.074 3.041 3.049 0.140 189 K_L0 1 130 92 0.453 0.464 34.373 34.383 0.498 190 pi+ 1 211 93 -0.049 -0.200 7.115 7.120 0.140 191 (pi0) 11 111 93 -0.471 -0.449 9.213 9.237 0.135 192 pi+ 1 211 95 0.179 -0.127 1.411 1.435 0.140 193 (pi0) 11 111 95 -0.287 0.607 3.633 3.697 0.135 194 gamma 1 22 96 0.033 -0.191 0.276 0.337 0.000 195 gamma 1 22 96 -0.027 -0.344 0.828 0.897 0.000 196 pi- 1 -211 97 -0.113 0.151 0.109 0.259 0.140 197 (pi0) 11 111 97 0.173 -0.172 -0.332 0.433 0.135 198 pi- 1 -211 99 -0.256 -0.106 -2.336 2.356 0.140 199 (pi0) 11 111 99 -0.081 -0.553 -1.678 1.774 0.135 200 pi+ 1 211 100 -0.094 -0.091 -1.968 1.977 0.140 201 pi- 1 -211 100 -0.107 -0.215 -7.342 7.347 0.140 202 (pi0) 11 111 100 -0.079 0.235 -9.382 9.386 0.135 203 pi+ 1 211 101 0.230 0.616 -6.826 6.859 0.140 204 (pi0) 11 111 101 0.051 -0.010 -0.439 0.462 0.135 205 (Kbar0) 11 -311 102 -0.134 -0.561 -70.784 70.789 0.498 206 pi- 1 -211 102 -0.038 0.207 -24.629 24.631 0.140 207 K+ 1 321 103 0.130 0.117 -59.721 59.724 0.494 208 pi- 1 -211 103 0.042 -0.108 -3.837 3.841 0.140 209 gamma 1 22 105 -0.035 -0.016 -3.393 3.393 0.000 210 gamma 1 22 105 -0.210 0.132 -8.419 8.423 0.000 211 pi- 1 -211 107 -0.500 0.275 -257.526 257.526 0.140 212 (pi0) 11 111 107 -0.020 -0.125 -10.441 10.442 0.135 213 K_S0 1 310 108 1.810 -0.814 -0.496 2.105 0.498 214 gamma 1 22 114 0.280 0.018 -0.300 0.411 0.000 215 gamma 1 22 114 -0.006 -0.024 -0.026 0.036 0.000 216 gamma 1 22 115 0.062 0.001 -0.053 0.081 0.000 217 gamma 1 22 115 -0.031 -0.107 -0.059 0.126 0.000 218 gamma 1 22 116 0.100 -0.167 -0.870 0.892 0.000 219 gamma 1 22 116 0.058 0.113 0.025 0.129 0.000 220 gamma 1 22 121 0.004 -0.319 -1.848 1.875 0.000 221 gamma 1 22 121 -0.069 -0.402 -1.697 1.745 0.000 222 gamma 1 22 123 0.255 -0.171 -1.284 1.320 0.000 223 gamma 1 22 123 0.018 -0.015 -0.017 0.029 0.000 224 pi+ 1 211 126 0.037 -0.084 -0.603 0.626 0.140 225 pi- 1 -211 126 0.061 -0.214 -1.305 1.331 0.140 226 (pi0) 11 111 126 0.336 -0.578 -3.549 3.614 0.135 227 gamma 1 22 130 -0.049 0.066 -0.431 0.439 0.000 228 gamma 1 22 130 0.055 0.251 -2.021 2.038 0.000 229 gamma 1 22 134 0.429 0.702 -0.083 0.827 0.000 230 gamma 1 22 134 0.081 0.068 0.023 0.108 0.000 231 gamma 1 22 140 -0.122 0.008 0.001 0.122 0.000 232 gamma 1 22 140 -0.158 -0.035 0.165 0.231 0.000 233 gamma 1 22 147 -0.007 -0.063 4.682 4.682 0.000 234 gamma 1 22 147 0.004 0.008 0.023 0.025 0.000 235 gamma 1 22 149 -0.359 -0.005 6.874 6.884 0.000 236 gamma 1 22 149 -0.261 0.059 3.560 3.570 0.000 237 gamma 1 22 151 0.307 0.278 2.330 2.366 0.000 238 gamma 1 22 151 0.261 0.434 2.931 2.975 0.000 239 gamma 1 22 155 -0.066 0.125 1.389 1.396 0.000 240 gamma 1 22 155 -0.069 0.037 0.253 0.265 0.000 241 gamma 1 22 158 0.036 0.015 0.302 0.305 0.000 242 gamma 1 22 158 -0.092 -0.066 0.566 0.578 0.000 243 gamma 1 22 162 -0.011 -0.154 1.292 1.301 0.000 244 gamma 1 22 162 -0.064 -0.558 2.971 3.024 0.000 245 gamma 1 22 167 -0.020 -0.070 0.098 0.122 0.000 246 gamma 1 22 167 0.081 -0.334 0.982 1.040 0.000 247 gamma 1 22 170 -0.362 -0.503 1.308 1.447 0.000 248 gamma 1 22 170 -0.164 -0.101 0.400 0.444 0.000 249 gamma 1 22 172 0.057 -0.383 0.294 0.486 0.000 250 gamma 1 22 172 0.029 -0.169 0.265 0.316 0.000 251 gamma 1 22 176 -0.346 0.074 4.063 4.078 0.000 252 gamma 1 GenInputManager Begin processing 5th record. Run 222530, Trigger 4 22 176 -0.018 -0.008 0.905 0.905 0.000 253 gamma 1 22 180 0.023 -0.013 0.302 0.303 0.000 254 gamma 1 22 180 -0.112 -0.047 0.325 0.347 0.000 255 gamma 1 22 184 0.284 0.054 132.307 132.307 0.000 256 gamma 1 22 184 0.024 0.061 24.602 24.602 0.000 257 K_L0 1 130 187 0.337 -0.099 18.056 18.066 0.498 258 gamma 1 22 191 -0.249 -0.162 3.612 3.624 0.000 259 gamma 1 22 191 -0.222 -0.287 5.602 5.614 0.000 260 gamma 1 22 193 0.013 0.034 0.137 0.141 0.000 261 gamma 1 22 193 -0.300 0.573 3.497 3.556 0.000 262 gamma 1 22 197 0.136 -0.141 -0.154 0.249 0.000 263 gamma 1 22 197 0.038 -0.031 -0.178 0.185 0.000 264 gamma 1 22 199 -0.096 -0.531 -1.503 1.597 0.000 265 gamma 1 22 199 0.014 -0.022 -0.175 0.177 0.000 266 gamma 1 22 202 -0.078 0.139 -3.708 3.712 0.000 267 gamma 1 22 202 -0.001 0.095 -5.673 5.674 0.000 268 gamma 1 22 204 0.032 0.034 -0.042 0.062 0.000 269 gamma 1 22 204 0.020 -0.043 -0.397 0.400 0.000 270 K_S0 1 310 205 -0.134 -0.561 -70.784 70.789 0.498 271 gamma 1 22 212 -0.035 -0.007 -5.782 5.782 0.000 272 gamma 1 22 212 0.015 -0.119 -4.658 4.660 0.000 273 gamma 1 22 226 0.315 -0.547 -3.463 3.520 0.000 274 gamma 1 22 226 0.021 -0.031 -0.086 0.093 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 4 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -1.606 0.155 19.460 19.527 0.000 4 !dbar! 21 -1 2 0.072 -1.243 -113.151 113.158 0.000 5 !g! 21 21 3 -0.467 -2.514 10.022 10.343 0.000 6 !dbar! 21 -1 4 0.071 -1.215 -110.646 110.652 0.000 7 !g! 21 21 0 -17.069 -15.914 -5.935 24.080 0.000 8 !dbar! 21 -1 0 16.673 12.185 -94.689 96.915 0.330 ============================================================================== 9 (dbar) A 12 -1 8 16.354 11.952 -92.878 95.062 0.330 10 (g) I 12 21 0 0.513 0.973 -3.803 3.959 0.000 11 (d) V 11 1 7 -6.659 -4.304 -1.148 8.019 0.330 12 (dbar) A 12 -1 7 -9.927 -11.652 -4.821 16.052 0.330 13 (g) I 12 21 7 -0.168 0.064 -0.191 0.262 0.000 14 (g) I 12 21 7 0.003 0.212 -1.586 1.600 0.000 15 (g) I 12 21 3 -1.036 -0.602 -0.500 1.298 0.000 16 (g) I 12 21 3 -0.618 1.264 3.184 3.481 0.000 17 (g) I 12 21 3 1.000 0.204 4.866 4.971 0.000 18 (u) V 11 2 1 1.117 -0.098 18.868 18.905 0.330 19 (ud_0) A 12 2101 1 0.489 -0.057 920.084 920.085 0.579 20 (g) I 12 21 3 -0.483 1.775 -0.616 1.940 0.000 21 (g) I 12 21 0 -0.513 -0.973 -5.286 5.399 0.000 22 (g) I 12 21 0 -0.934 0.293 -23.549 23.570 0.000 23 (g) I 12 21 0 0.934 -0.293 -700.558 700.559 0.000 24 (uu_1bar) V 11 -2203 2 -0.072 1.243 -132.608 132.616 0.771 25 (g) A 12 21 0 1.778 0.731 20.175 20.267 0.000 26 (g) V 11 21 0 -1.778 -0.731 0.367 1.957 0.000 ============================================================================== 27 (string) 11 92 9 10.208 8.620 -97.829 107.039 41.332 28 (rho0) 11 113 27 12.560 9.285 -72.284 73.954 0.545 29 (Kbar0) 11 -311 27 2.088 1.815 -10.571 10.939 0.498 30 (K*0) 11 313 27 0.884 0.811 -8.330 8.464 0.899 31 nbar0 1 -2112 27 0.572 0.475 -2.647 2.906 0.940 32 n0 1 2112 27 0.500 -0.243 -2.369 2.609 0.940 33 (eta) 11 221 27 -0.691 0.152 -0.328 0.953 0.547 34 pi+ 1 211 27 -2.030 -1.187 -0.553 2.420 0.140 35 (omega) 11 223 27 -1.385 -1.491 0.019 2.180 0.782 36 pi- 1 -211 27 -2.289 -0.997 -0.765 2.615 0.140 37 (string) 11 92 12 -9.628 -10.607 19.820 46.569 39.631 38 (eta) 11 221 37 -0.847 -1.530 -0.409 1.877 0.547 39 (eta) 11 221 37 -3.827 -3.361 -1.964 5.486 0.547 40 (rho+) 11 213 37 -1.720 -2.556 -1.139 3.353 0.673 41 (omega) 11 223 37 -1.315 -0.938 -0.877 1.996 0.780 42 (rho0) 11 113 37 -0.245 -0.950 -0.122 1.157 0.600 43 (rho-) 11 -213 37 -2.040 -2.036 -1.479 3.413 1.074 44 (eta) 11 221 37 -0.799 -0.402 -0.093 1.053 0.547 45 pi+ 1 211 37 0.139 0.396 -0.270 0.518 0.140 46 (rho-) 11 -213 37 -0.261 0.727 1.875 2.097 0.535 47 (rho0) 11 113 37 0.138 -0.645 0.655 1.234 0.812 48 (pi0) 11 111 37 0.006 0.329 0.183 0.400 0.135 49 pi+ 1 211 37 0.264 -0.443 1.240 1.350 0.140 50 (pi0) 11 111 37 0.240 0.101 0.196 0.353 0.135 51 pi- 1 -211 37 -0.320 0.208 0.776 0.876 0.140 52 (rho+) 11 213 37 -0.352 -0.175 8.456 8.489 0.634 53 (rho0) 11 113 37 1.310 0.667 12.792 12.918 1.042 54 (string) 11 92 19 -0.580 1.988 57.467 1784.168 1783.242 55 p+ 1 2212 54 -0.084 -0.072 229.693 229.695 0.938 56 pi- 1 -211 54 0.320 0.313 153.292 153.293 0.140 57 (rho+) 11 213 54 0.082 -0.462 402.013 402.015 0.839 58 (omega) 11 223 54 -0.443 0.290 64.830 64.838 0.801 59 (rho-) 11 -213 54 1.054 -0.120 50.723 50.740 0.775 60 (eta') 11 331 54 -0.669 0.184 6.497 6.604 0.958 61 (Deltabar+) 11 -1114 54 -0.153 0.205 5.324 5.473 1.242 62 Sigma- 1 3112 54 0.039 0.024 6.959 7.062 1.197 63 (K0) 11 311 54 0.178 -0.060 0.553 0.767 0.498 64 (rho0) 11 113 54 -0.768 0.859 -0.577 1.471 0.709 65 pi+ 1 211 54 0.403 -0.293 -1.257 1.359 0.140 66 (pi0) 11 111 54 0.201 0.356 -1.475 1.536 0.135 67 (rho0) 11 113 54 -0.986 0.068 -4.906 5.066 0.791 68 pbar- 1 -2212 54 -0.070 -0.654 -59.149 59.160 0.938 69 n0 1 2112 54 -0.420 0.308 -48.112 48.124 0.940 70 (rho0) 11 113 54 0.396 0.313 -66.715 66.722 0.804 71 pi+ 1 211 54 -0.032 -0.880 -99.029 99.033 0.140 72 (rho0) 11 113 54 -0.062 0.428 -109.308 109.311 0.694 73 (rho-) 11 -213 54 0.072 0.453 -170.925 170.928 0.980 74 (Deltabar0) 11 -2114 54 0.325 0.544 -291.056 291.060 1.286 75 pi- 1 -211 54 0.036 0.185 -9.911 9.913 0.140 76 (string) 11 92 25 0.000 0.000 20.542 22.223 8.479 77 (rho-) 11 -213 76 -0.283 0.173 1.259 1.390 0.486 78 (rho0) 11 113 76 0.802 0.518 5.275 5.428 0.854 79 (Delta0) 11 2114 76 -0.096 -0.659 3.888 4.138 1.252 80 nbar0 1 -2112 76 0.044 0.574 3.020 3.215 0.940 81 (omega) 11 223 76 0.073 -0.261 2.564 2.697 0.789 82 (rho+) 11 213 76 -0.530 -0.286 1.027 1.474 0.868 83 (rho0) 11 113 76 0.251 0.349 2.340 2.435 0.516 84 pi- 1 -211 76 -0.473 -0.259 0.810 0.983 0.140 85 pi+ 1 211 76 0.212 -0.149 0.359 0.464 0.140 86 pi- 1 -211 28 9.554 6.831 -54.482 55.734 0.140 87 pi+ 1 211 28 3.006 2.454 -17.802 18.220 0.140 88 K_L0 1 130 29 2.088 1.815 -10.571 10.939 0.498 89 (K0) 11 311 30 0.474 0.730 -4.592 4.700 0.498 90 (pi0) 11 111 30 0.410 0.081 -3.738 3.764 0.135 91 gamma 1 22 33 -0.619 0.107 -0.472 0.786 0.000 92 gamma 1 22 33 -0.072 0.045 0.144 0.167 0.000 93 pi- 1 -211 35 -0.858 -0.672 0.122 1.105 0.140 94 pi+ 1 211 35 -0.114 -0.233 -0.173 0.341 0.140 95 (pi0) 11 111 35 -0.413 -0.586 0.071 0.733 0.135 96 (pi0) 11 111 38 -0.350 -0.667 -0.355 0.844 0.135 97 (pi0) 11 111 38 -0.269 -0.424 -0.028 0.521 0.135 98 (pi0) 11 111 38 -0.228 -0.438 -0.027 0.513 0.135 99 gamma 1 22 39 -0.316 -0.381 -0.044 0.497 0.000 100 gamma 1 22 39 -3.511 -2.980 -1.919 4.989 0.000 101 pi+ 1 211 40 -0.212 -0.538 -0.425 0.731 0.140 102 (pi0) 11 111 40 -1.507 -2.018 -0.714 2.621 0.135 103 pi- 1 -211 41 -0.540 -0.529 -0.213 0.798 0.140 104 pi+ 1 211 41 -0.446 -0.434 -0.475 0.795 0.140 105 (pi0) 11 111 41 -0.330 0.025 -0.188 0.404 0.135 106 pi+ 1 211 42 -0.185 -0.187 -0.223 0.372 0.140 107 pi- 1 -211 42 -0.060 -0.763 0.101 0.785 0.140 108 pi- 1 -211 43 -1.636 -2.077 -1.276 2.939 0.140 109 (pi0) 11 111 43 -0.404 0.041 -0.203 0.473 0.135 110 pi- 1 -211 44 -0.085 -0.071 0.042 0.183 0.140 111 pi+ 1 211 44 -0.168 -0.059 -0.090 0.243 0.140 112 (pi0) 11 111 44 -0.547 -0.272 -0.045 0.627 0.135 113 pi- 1 -211 46 -0.105 0.660 1.119 1.311 0.140 114 (pi0) 11 111 46 -0.155 0.067 0.756 0.787 0.135 115 pi+ 1 211 47 0.367 -0.312 0.064 0.506 0.140 116 pi- 1 -211 47 -0.229 -0.332 0.590 0.729 0.140 117 gamma 1 22 48 0.049 0.293 0.134 0.326 0.000 118 gamma 1 22 48 -0.042 0.036 0.049 0.074 0.000 119 gamma 1 22 50 0.121 0.024 0.168 0.208 0.000 120 gamma 1 22 50 0.119 0.077 0.028 0.145 0.000 121 pi+ 1 211 52 0.109 -0.074 1.110 1.126 0.140 122 (pi0) 11 111 52 -0.461 -0.101 7.347 7.363 0.135 123 pi+ 1 211 53 0.479 -0.158 6.164 6.186 0.140 124 pi- 1 -211 53 0.831 0.825 6.627 6.732 0.140 125 pi+ 1 211 57 -0.343 -0.296 168.875 168.876 0.140 126 (pi0) 11 111 57 0.425 -0.166 233.138 233.139 0.135 127 pi+ 1 211 58 -0.122 0.248 10.928 10.932 0.140 128 pi- 1 -211 58 -0.258 0.174 31.038 31.040 0.140 129 (pi0) 11 111 58 -0.064 -0.132 22.865 22.866 0.135 130 pi- 1 -211 59 0.110 -0.194 4.916 4.923 0.140 131 (pi0) 11 111 59 0.945 0.074 45.807 45.817 0.135 132 gamma 1 22 60 -0.582 0.465 2.879 2.974 0.000 133 gamma 1 22 60 -0.087 -0.281 3.619 3.631 0.000 134 nbar0 1 -2112 61 0.075 0.287 3.968 4.088 0.940 135 pi+ 1 211 61 -0.229 -0.081 1.356 1.385 0.140 136 K_L0 1 130 63 0.178 -0.060 0.553 0.767 0.498 137 pi+ 1 211 64 -0.080 -0.075 -0.128 0.219 0.140 138 pi- 1 -211 64 -0.688 0.934 -0.448 1.252 0.140 139 gamma 1 22 66 0.197 0.225 -1.001 1.045 0.000 140 gamma 1 22 66 0.004 0.131 -0.473 0.491 0.000 141 pi- 1 -211 67 -0.380 -0.302 -1.442 1.528 0.140 142 pi+ 1 211 67 -0.606 0.370 -3.463 3.538 0.140 143 pi- 1 -211 70 0.283 -0.150 -13.750 13.755 0.140 144 pi+ 1 211 70 0.114 0.463 -52.965 52.967 0.140 145 pi- 1 -211 72 -0.348 0.260 -57.399 57.401 0.140 146 pi+ 1 211 72 0.286 0.168 -51.908 51.910 0.140 147 pi- 1 -211 73 -0.085 -0.101 -117.277 117.277 0.140 148 (pi0) 11 111 73 0.157 0.555 -53.648 53.651 0.135 149 nbar0 1 -2112 74 0.316 0.660 -212.883 212.886 0.940 150 (pi0) 11 111 74 0.009 -0.115 -78.174 78.174 0.135 151 pi- 1 -211 77 -0.180 -0.102 0.712 0.754 0.140 152 (pi0) 11 111 77 -0.103 0.275 0.547 0.636 0.135 153 pi+ 1 211 78 0.868 0.323 4.818 4.908 0.140 154 pi- 1 -211 78 -0.066 0.194 0.458 0.521 0.140 155 p+ 1 2212 79 0.024 -0.283 3.008 3.164 0.938 156 pi- 1 -211 79 -0.120 -0.377 0.879 0.974 0.140 157 pi- 1 -211 81 -0.100 -0.153 0.401 0.463 0.140 158 pi+ 1 211 81 0.251 0.093 1.276 1.312 0.140 159 (pi0) 11 111 81 -0.079 -0.201 0.887 0.923 0.135 160 pi+ 1 211 82 -0.682 -0.302 1.017 1.269 0.140 161 (pi0) 11 111 82 0.152 0.016 0.010 0.204 0.135 162 pi- 1 -211 83 -0.055 0.121 0.318 0.372 0.140 163 pi+ 1 211 83 0.307 0.228 2.022 2.063 0.140 164 K_L0 1 130 89 0.474 0.730 -4.592 4.700 0.498 165 gamma 1 22 90 -0.003 0.003 -0.004 0.006 0.000 166 gamma 1 22 90 0.414 0.078 -3.734 3.757 0.000 167 gamma 1 22 95 -0.335 -0.462 0.110 0.581 0.000 168 gamma 1 22 95 -0.078 -0.125 -0.039 0.152 0.000 169 gamma 1 22 96 -0.285 -0.575 -0.350 0.731 0.000 170 gamma 1 22 96 -0.065 -0.092 -0.005 0.113 0.000 171 gamma 1 22 97 0.010 -0.006 -0.014 0.018 0.000 172 gamma 1 22 97 -0.279 -0.418 -0.013 0.503 0.000 173 gamma 1 22 98 -0.105 -0.329 0.005 0.345 0.000 174 gamma 1 22 98 -0.123 -0.110 -0.032 0.168 0.000 175 gamma 1 22 102 -0.429 -0.500 -0.146 0.674 0.000 176 gamma 1 22 102 -1.079 -1.518 -0.568 1.947 0.000 177 gamma 1 22 105 -0.322 0.042 -0.200 0.382 0.000 178 gamma 1 22 105 -0.007 -0.017 0.012 0.022 0.000 179 gamma 1 22 109 -0.069 -0.044 -0.050 0.095 0.000 180 gamma 1 22 109 -0.335 0.085 -0.154 0.378 0.000 181 gamma 1 22 112 -0.336 -0.207 0.026 0.395 0.000 182 gamma 1 22 112 -0.211 -0.065 -0.070 0.231 0.000 183 gamma 1 22 114 -0.112 0.072 0.713 0.725 0.000 184 gamma 1 22 114 -0.043 -0.005 0.044 0.062 0.000 185 gamma 1 22 122 -0.394 -0.034 6.093 6.106 0.000 186 gamma 1 22 122 -0.067 -0.067 1.254 1.257 0.000 187 gamma 1 22 126 -0.008 -0.012 11.875 11.875 0.000 188 gamma 1 22 126 0.433 -0.154 221.263 221.263 0.000 189 gamma 1 22 129 -0.081 -0.118 12.023 12.024 0.000 190 gamma 1 22 129 0.017 -0.014 10.842 10.842 0.000 191 gamma 1 22 131 0.306 -0.038 14.301 14.304 0.000 192 gamma 1 22 131 0.638 0.112 31.507 31.513 0.000 193 gamma 1 22 148 0.164 0.506 -51.247 51.250 0.000 194 gamma 1 22 148 -0.007 0.049 -2.401 2.401 0.000 195 gamma 1 22 150 -0.016 -0.120 -74.934 74.935 0.000 196 gamma 1 22 150 0.025 0.005 -3.239 3.239 0.000 197 gamma 1 22 152 -0.116 0.122 0.315 0.357 0.000 198 gamma 1 22 152 0.013 0.153 0.233 0.279 0.000 199 gamma 1 22 159 -0.088 -0.151 0.819 0.838 0.000 200 gamma 1 22 159 0.010 -0.051 0.068 0.085 0.000 201 gammGenInputManager Begin processing 6th record. Run 222530, Trigger 5 a 1 22 161 0.092 -0.054 0.028 0.110 0.000 202 gamma 1 22 161 0.060 0.070 -0.018 0.094 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 5 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 0.383 0.334 20.327 20.333 0.000 4 !ubar! 21 -2 2 0.567 -0.256 -480.123 480.123 0.000 5 !g! 21 21 3 -0.952 -0.161 13.161 13.197 0.000 6 !g! 21 21 4 2.462 17.298 -31.203 35.762 0.000 7 !g! 21 21 0 -9.538 -6.374 -19.841 22.919 0.000 8 !g! 21 21 0 11.048 23.511 1.799 26.039 0.000 ============================================================================== 9 (u) A 12 2 4 -0.725 -16.398 -87.917 89.437 0.330 10 (g) I 12 21 4 -0.245 -0.147 -1.471 1.499 0.000 11 (g) I 12 21 4 -0.413 0.166 -0.289 0.531 0.000 12 (g) I 12 21 0 -2.530 5.260 5.630 8.110 0.000 13 (g) I 12 21 0 -0.263 0.790 0.653 1.058 0.000 14 (g) I 12 21 0 -0.417 0.753 0.693 1.105 0.000 15 (g) I 12 21 0 -1.230 0.907 1.107 1.887 0.000 16 (g) I 12 21 0 -1.680 1.592 4.029 4.646 0.000 17 (g) I 12 21 8 0.968 0.426 -0.248 1.087 0.000 18 (cbar) V 11 -4 8 9.511 19.633 1.184 21.899 1.500 19 (ubar) A 12 -2 4 -1.398 -3.279 -17.960 18.314 0.330 20 (g) I 12 21 4 -2.272 0.599 -1.022 2.562 0.000 21 (g) I 12 21 4 -2.124 1.164 -2.088 3.197 0.000 22 (g) I 12 21 4 1.167 -0.828 -82.342 82.354 0.000 23 (ud_1bar) V 11 -2103 2 -0.567 0.256 -327.508 327.509 0.771 24 (ubar) A 12 -2 4 2.987 0.684 -231.885 231.906 0.330 25 (g) I 12 21 4 0.762 0.087 -12.350 12.374 0.000 26 (g) I 12 21 4 -0.329 0.012 -6.065 6.074 0.000 27 (g) I 12 21 4 0.306 0.046 -0.191 0.364 0.000 28 (g) I 12 21 0 0.564 3.536 -1.119 3.751 0.000 29 (g) I 12 21 0 -0.293 1.242 -2.128 2.481 0.000 30 (g) I 12 21 0 1.041 0.881 -2.482 2.832 0.000 31 (g) I 12 21 0 0.722 0.634 -2.475 2.655 0.000 32 (g) I 12 21 0 1.740 1.570 -7.390 7.753 0.000 33 (g) I 12 21 0 -0.443 1.880 -9.655 9.847 0.000 34 (g) I 12 21 0 -1.740 -1.570 -32.369 32.454 0.000 35 (g) I 12 21 0 2.530 -5.260 -17.057 18.028 0.000 36 (g) I 12 21 0 0.443 -1.880 -7.076 7.335 0.000 37 (g) I 12 21 0 0.208 -1.052 -4.454 4.581 0.000 38 (g) I 12 21 0 -0.564 -3.536 -10.545 11.136 0.000 39 (g) I 12 21 0 1.680 -1.592 0.414 2.351 0.000 40 (g) I 12 21 0 0.111 -3.180 -0.343 3.201 0.000 41 (g) I 12 21 0 -1.469 0.523 0.027 1.559 0.000 42 (g) I 12 21 0 -0.401 0.024 -0.026 0.403 0.000 43 (g) I 12 21 0 -4.133 -1.068 0.375 4.285 0.000 44 (s) V 11 3 7 -0.062 -0.302 -0.029 0.588 0.500 45 (c) A 12 4 8 -0.324 2.046 0.070 2.559 1.500 46 (g) I 12 21 0 4.133 1.068 21.212 21.638 0.000 47 (g) I 12 21 0 0.401 -0.024 2.339 2.373 0.000 48 (g) I 12 21 0 1.469 -0.523 14.577 14.660 0.000 49 (g) I 12 21 0 0.808 0.121 10.197 10.230 0.000 50 (g) I 12 21 0 -0.111 3.180 35.409 35.552 0.000 51 (g) I 12 21 0 1.161 3.251 236.674 236.700 0.000 52 (g) I 12 21 0 -0.208 1.052 90.985 90.991 0.000 53 (g) I 12 21 0 -0.808 -0.121 79.689 79.693 0.000 54 (g) I 12 21 3 0.741 -0.172 0.982 1.242 0.000 55 (ud_1) V 11 2103 1 -0.301 -0.172 329.946 329.947 0.771 56 (sbar) A 12 -3 7 0.562 -0.556 -1.765 1.998 0.500 57 (g) I 12 21 7 -4.609 -1.310 -5.419 7.233 0.000 58 (g) I 12 21 7 -1.200 0.491 -1.249 1.800 0.000 59 (g) I 12 21 7 -1.024 0.168 -2.092 2.335 0.000 60 (g) I 12 21 7 -2.314 -3.460 -8.494 9.459 0.000 61 (g) I 12 21 0 0.299 -0.084 0.202 0.370 0.000 62 (g) I 12 21 0 1.230 -0.907 2.443 2.881 0.000 63 (g) I 12 21 0 0.293 -1.242 3.463 3.691 0.000 64 (g) I 12 21 0 0.263 -0.790 2.334 2.478 0.000 65 (g) I 12 21 0 0.417 -0.753 5.750 5.814 0.000 66 (g) I 12 21 0 -1.041 -0.881 8.860 8.965 0.000 67 (g) I 12 21 0 -1.161 -3.251 32.987 33.167 0.000 68 (g) I 12 21 0 -0.722 -0.634 12.308 12.345 0.000 69 (g) I 12 21 3 0.984 1.010 0.845 1.644 0.000 70 (u) V 11 2 1 -0.082 -0.162 41.851 41.852 0.330 71 (g) A 12 21 0 1.230 0.463 -1.379 1.905 0.000 72 (g) V 11 21 0 -1.230 -0.463 3.014 3.289 0.000 73 (g) A 12 21 0 -0.558 0.686 -44.991 45.000 0.000 74 (g) I 12 21 0 -0.299 0.084 -16.108 16.111 0.000 75 (g) V 11 21 0 0.558 -0.686 -0.265 0.923 0.000 ============================================================================== 76 (string) 11 92 9 2.976 12.982 -76.631 131.259 105.732 77 pi+ 1 211 76 0.348 -5.663 -29.819 30.354 0.140 78 (K*0) 11 313 76 -0.937 -5.042 -30.612 31.054 0.970 79 (Kbar0) 11 -311 76 -0.199 -2.659 -10.361 10.711 0.498 80 (pi0) 11 111 76 -0.298 -1.149 -8.486 8.569 0.135 81 (K*0) 11 313 76 0.078 -1.364 -7.959 8.122 0.872 82 (K*bar0) 11 -313 76 -0.098 -0.810 -1.542 1.947 0.866 83 (Sigma*-) 11 3114 76 -0.484 2.690 1.505 3.407 1.370 84 (rho0) 11 113 76 -1.725 0.743 1.556 2.540 0.711 85 (Sigmabar0) 11 -3212 76 -1.628 3.082 2.529 4.468 1.193 86 pi+ 1 211 76 -0.512 1.356 2.347 2.762 0.140 87 (omega) 11 223 76 -0.743 0.964 1.081 1.808 0.787 88 (rho-) 11 -213 76 -0.298 0.091 0.504 0.713 0.397 89 pi+ 1 211 76 -0.343 0.050 1.149 1.208 0.140 90 (omega) 11 223 76 0.647 2.387 0.402 2.621 0.770 91 (pi0) 11 111 76 0.108 0.135 0.127 0.253 0.135 92 (Sigma0) 11 3212 76 5.019 10.106 0.548 11.360 1.193 93 (Xi_cbar-) 11 -4232 76 4.040 8.065 0.400 9.360 2.466 94 (string) 11 92 19 -5.194 -2.089 -430.919 433.937 50.780 95 (rho-) 11 -213 94 -1.379 -1.938 -12.760 13.008 0.851 96 (eta') 11 331 94 -0.812 -0.549 -1.236 1.845 0.958 97 (rho0) 11 113 94 0.085 0.014 -2.996 3.082 0.715 98 (rho+) 11 213 94 -1.900 0.077 -1.886 2.787 0.770 99 (K*-) 11 -323 94 -0.939 0.535 -2.186 2.578 0.835 100 (K*0) 11 313 94 -0.871 -0.033 -0.506 1.249 0.737 101 pi+ 1 211 94 -0.131 -0.163 -20.048 20.050 0.140 102 (rho-) 11 -213 94 0.840 0.122 -23.256 23.286 0.846 103 pi+ 1 211 94 0.104 0.084 -3.530 3.535 0.140 104 (Deltabar-) 11 -2214 94 -0.191 -0.239 -362.515 362.517 1.261 105 (string) 11 92 24 3.660 -8.322 -346.825 365.958 116.424 106 (omega) 11 223 105 0.841 0.214 -67.401 67.412 0.783 107 (rho0) 11 113 105 0.715 0.137 -61.584 61.595 0.909 108 (pi0) 11 111 105 0.091 0.101 -2.932 2.938 0.135 109 (rho-) 11 -213 105 0.940 0.261 -36.834 36.854 0.713 110 (eta) 11 221 105 0.153 -0.276 -45.917 45.922 0.547 111 (rho0) 11 113 105 0.410 0.667 -26.216 26.242 0.869 112 (rho+) 11 213 105 0.640 -0.094 -7.522 7.579 0.670 113 pbar- 1 -2212 105 -0.091 0.238 -2.161 2.370 0.938 114 n0 1 2112 105 0.018 1.257 -0.771 1.748 0.940 115 (eta') 11 331 105 0.376 2.009 -1.518 2.720 0.958 116 (eta') 11 331 105 0.315 0.693 -2.205 2.522 0.958 117 (eta) 11 221 105 1.034 0.931 -2.302 2.745 0.547 118 pi+ 1 211 105 0.194 0.075 -0.018 0.251 0.140 119 pi- 1 -211 105 0.784 1.863 -5.979 6.313 0.140 120 (pi0) 11 111 105 0.149 -0.170 -0.699 0.747 0.135 121 pi+ 1 211 105 -0.065 0.733 -3.316 3.400 0.140 122 (rho0) 11 113 105 0.468 0.272 -2.871 3.059 0.908 123 (rho-) 11 -213 105 -0.176 1.109 -8.693 8.796 0.738 124 (K*bar0) 11 -313 105 -0.324 -0.539 -9.027 9.087 0.832 125 (K0) 11 311 105 -0.292 0.370 -5.247 5.292 0.498 126 (pi0) 11 111 105 -0.006 -0.311 -2.181 2.207 0.135 127 (rho+) 11 213 105 -0.323 -0.631 -10.546 10.607 0.881 128 pi- 1 -211 105 0.027 -0.150 -1.858 1.869 0.140 129 (K*bar0) 11 -313 105 0.463 -3.735 -13.229 13.789 0.987 130 (phi) 11 333 105 0.697 -3.233 -12.005 12.494 1.024 131 (K*+) 11 323 105 1.282 -1.950 -4.660 5.279 0.843 132 (rho-) 11 -213 105 -0.374 -1.660 -5.931 6.206 0.662 133 (omega) 11 223 105 0.413 -0.496 -0.565 1.161 0.782 134 (K*bar0) 11 -313 105 0.510 -1.375 -0.604 1.809 0.871 135 (eta) 11 221 105 -0.216 -0.730 -1.527 1.792 0.547 136 (phi) 11 333 105 0.470 -0.519 -0.592 1.372 1.020 137 K+ 1 321 105 -0.039 -0.196 -0.009 0.533 0.494 138 (pi0) 11 111 105 0.134 -0.073 -0.511 0.550 0.135 139 (rho-) 11 -213 105 0.056 -0.565 0.610 1.199 0.862 140 pi+ 1 211 105 -1.085 -0.715 -0.040 1.308 0.140 141 (pi0) 11 111 105 -0.236 -1.217 0.086 1.249 0.135 142 (rho-) 11 -213 105 -1.184 -0.197 0.011 1.525 0.940 143 (Kbar0) 11 -311 105 -1.957 0.140 -0.069 2.025 0.498 144 (eta) 11 221 105 -1.151 -0.557 0.009 1.391 0.547 145 (string) 11 92 45 6.961 9.706 822.081 825.584 75.029 146 (D*+) 11 413 145 0.370 1.604 1.380 2.942 2.010 147 (K0) 11 311 145 -0.509 -0.211 0.265 0.788 0.498 148 (Kbar0) 11 -311 145 0.299 0.577 0.593 1.010 0.498 149 pi- 1 -211 145 1.322 0.524 5.892 6.063 0.140 150 (pi0) 11 111 145 0.590 -0.208 3.850 3.903 0.135 151 (K*+) 11 323 145 2.268 0.732 19.851 20.018 0.988 152 (Kbar0) 11 -311 145 0.776 0.163 5.513 5.592 0.498 153 pi- 1 -211 145 0.381 -0.223 2.408 2.452 0.140 154 pi+ 1 211 145 -0.137 0.146 0.672 0.715 0.140 155 (K0) 11 311 145 1.080 1.131 28.197 28.245 0.498 156 (K*bar0) 11 -313 145 -0.354 0.824 11.332 11.397 0.823 157 (eta) 11 221 145 0.437 0.658 37.214 37.227 0.547 158 (pi0) 11 111 145 0.093 1.304 34.628 34.653 0.135 159 (rho-) 11 -213 145 0.308 0.659 71.201 71.209 0.725 160 pi+ 1 211 145 -0.128 -0.248 19.410 19.413 0.140 161 pi- 1 -211 145 0.062 0.545 46.413 46.417 0.140 162 (rho0) 11 113 145 0.081 1.061 38.579 38.601 0.734 163 (K*+) 11 323 145 0.118 1.026 112.560 112.569 0.922 164 (K*-) 11 -323 145 -0.291 0.225 21.646 21.666 0.877 165 (Delta+) 11 2214 145 0.503 0.239 11.287 11.374 1.291 166 (pi0) 11 111 145 -0.354 -0.759 33.013 33.024 0.135 167 (Deltabar-) 11 -2214 145 0.513 0.307 14.987 15.048 1.212 168 (eta) 11 221 145 -0.344 -0.430 9.908 9.938 0.547 169 (Delta++) 11 2224 145 0.227 0.419 35.804 35.827 1.174 170 (Deltabar--) 11 -2224 145 -0.053 -0.308 72.917 72.927 1.180 171 (Delta++) 11 2224 145 -0.022 -0.142 109.668 109.675 1.237 172 pi- 1 -211 145 -0.275 0.092 72.890 72.891 0.140 173 (string) 11 92 56 -8.105 -12.361 92.023 136.034 99.089 174 (K*0) 11 313 173 -0.736 -0.527 -1.521 1.952 0.824 175 (rho0) 11 113 173 -0.699 -0.382 -1.807 2.124 0.782 176 pi+ 1 211 173 0.048 -0.035 0.006 0.152 0.140 177 (rho0) 11 113 173 -0.719 0.609 -1.082 1.621 0.755 178 (eta') 11 331 173 -4.200 -1.226 -6.141 7.601 0.958 179 (K*-) 11 -323 173 -1.506 -2.117 -6.830 7.365 0.915 180 (K0) 11 311 173 -0.117 -0.379 -0.095 0.643 0.498 181 (rho+) 11 213 173 -0.107 -0.612 -0.775 1.267 0.786 182 (rho0) 11 113 173 0.176 -0.197 0.204 0.987 0.929 183 pi- 1 -211 173 -0.243 0.146 0.388 0.501 0.140 184 (K*bar0) 11 -313 173 0.750 -1.502 2.635 3.252 0.901 185 K+ 1 321 173 0.338 -0.506 2.400 2.524 0.494 186 (omega) 11 223 173 0.157 -0.821 2.993 3.204 0.783 187 (rho0) 11 113 173 0.018 -1.640 12.324 12.455 0.745 188 (rho-) 11 -213 173 -0.764 -1.381 20.102 20.190 1.017 189 pi+ 1 211 173 -0.269 -0.466 3.122 3.171 0.140 190 (pi0) 11 111 173 0.003 0.011 1.283 1.291 0.135 191 (pi0) 11 111 173 -0.048 -1.179 4.387 4.545 0.135 192 (rho-) 11 -213 173 -0.182 -0.068 6.342 6.373 0.602 193 (K*bar0) 11 -313 173 -0.328 -0.065 2.165 2.367 0.895 194 (K*0) 11 313 173 0.377 -0.349 4.677 4.788 0.889 195 (pi0) 11 111 173 -0.232 -0.282 9.118 9.127 0.135 196 pi+ 1 211 173 -0.225 0.092 0.304 0.413 0.140 197 (rho-) 11 -213 173 0.200 0.623 2.156 2.363 0.710 198 (K*bar0) 11 -313 173 0.120 -0.362 6.221 6.297 0.899 199 (K*+) 11 323 173 0.083 0.254 29.447 29.461 0.877 200 (string) 11 92 71 0.000 0.000 1.636 5.193 4.929 201 (rho+) 11 213 200 -0.456 -0.128 0.958 1.323 0.779 202 (rho-) 11 -213 200 -0.226 -0.038 1.273 1.453 0.664 203 (rho+) 11 213 200 0.189 0.079 -0.382 1.065 0.973 204 (omega) 11 223 200 0.042 -0.089 0.076 0.770 0.760 205 pi- 1 -211 200 0.451 0.175 -0.290 0.581 0.140 206 (string) 11 92 73 -0.299 0.084 -61.364 62.035 9.090 207 pi+ 1 211 206 0.100 -0.014 -1.070 1.084 0.140 208 pi- 1 -211 206 -0.129 -0.138 0.039 0.238 0.140 209 pi+ 1 211 206 0.334 -0.327 -0.455 0.667 0.140 210 pi- 1 -211 206 0.031 0.167 -0.332 0.399 0.140 211 pi+ 1 211 206 -0.062 -0.149 -7.489 7.492 0.140 212 pi- 1 -211 206 -0.446 0.717 -22.617 22.633 0.140 213 (pi0) 11 111 206 -0.386 -0.751 -11.152 11.185 0.135 214 (rho+) 11 213 206 0.186 0.510 -17.694 17.720 0.781 215 pi- 1 -211 206 0.073 0.070 -0.594 0.618 0.140 216 (K0) 11 311 78 -0.438 -2.250 -15.631 15.806 0.498 217 (pi0) 11 111 78 -0.499 -2.792 -14.981 15.248 0.135 218 K_S0 1 310 79 -0.199 -2.659 -10.361 10.711 0.498 219 gamma 1 22 80 -0.064 -0.344 -2.920 2.941 0.000 220 gamma 1 22 80 -0.234 -0.805 -5.565 5.628 0.000 221 (K0) 11 311 81 0.111 -1.374 -7.525 7.666 0.498 222 (pi0) 11 111 81 -0.033 0.011 -0.434 0.456 0.135 223 K- 1 -321 82 0.009 -0.759 -0.889 1.269 0.494 224 pi+ 1 211 82 -0.107 -0.050 -0.653 0.678 0.140 225 Lambda0 1 3122 83 -0.547 2.381 1.469 3.061 1.116 226 pi- 1 -211 83 0.063 0.308 0.036 0.346 0.140 227 pi+ 1 211 84 -1.345 0.369 1.367 1.958 0.140 228 pi- 1 -211 84 -0.380 0.374 0.189 0.582 0.140 229 Lambdabar0 1 -3122 85 -1.492 2.833 2.415 4.162 1.116 230 gamma 1 22 85 -0.136 0.249 0.114 0.306 0.000 231 pi+ 1 211 87 -0.533 0.310 0.421 0.760 0.140 232 pi- 1 -211 87 0.066 0.120 0.198 0.278 0.140 233 (pi0) 11 111 87 -0.275 0.534 0.462 0.770 0.135 234 pi- 1 -211 88 0.002 0.106 0.181 0.252 0.140 235 (pi0) 11 111 88 -0.300 -0.015 0.323 0.461 0.135 236 pi+ 1 211 90 0.152 0.289 -0.103 0.370 0.140 237 pi- 1 -211 90 0.095 1.055 0.230 1.093 0.140 238 (pi0) 11 111 90 0.401 1.043 0.276 1.158 0.135 239 gamma 1 22 91 0.014 0.066 -0.016 0.069 0.000 240 gamma 1 22 91 0.094 0.069 0.143 0.185 0.000 241 Lambda0 1 3122 92 4.563 9.058 0.485 10.215 1.116 242 gamma 1 22 92 0.456 1.048 0.063 1.145 0.000 243 (rho-) 11 -213 93 1.144 2.642 0.076 2.969 0.722 244 Sigmabar- 1 -3222 93 1.976 3.994 0.275 4.620 1.189 245 K+ 1 321 93 0.920 1.430 0.049 1.771 0.494 246 pi- 1 -211 95 0.009 -0.455 -1.922 1.981 0.140 247 (pi0) 11 111 95 -1.388 -1.483 -10.838 11.027 0.135 248 (pi0) 11 111 96 -0.252 -0.214 -0.368 0.513 0.135 249 (pi0) 11 111 96 -0.320 -0.089 -0.238 0.430 0.135 250 (eta) 11 221 96 -0.240 -0.246 -0.629 0.902 0.547 251 pi+ 1 211 97 -0.230 -0.038 -0.581 0.642 0.140 252 pi- 1 -211 97 0.315 0.051 -2.415 2.440 0.140 253 pi+ 1 211 98 -0.128 -0.171 -0.279 0.378 0.140 254 (pi0) 11 111 98 -1.772 0.248 -1.608 2.409 0.135 255 K- 1 -321 99 -0.665 0.213 -1.025 1.335 0.494 256 (pi0) 11 111 99 -0.274 0.322 -1.161 1.243 0.135 257 (K0) 11 311 100 -0.861 -0.008 -0.495 1.111 0.498 258 (pi0) 11 111 100 -0.010 -0.024 -0.011 0.138 0.135 259 pi- 1 -211 102 0.211 -0.323 -9.036 9.045 0.140 260 (pi0) 11 111 102 0.629 0.446 -14.219 14.241 0.135 261 nbar0 1 -2112 104 -0.251 -0.108 -219.481 219.483 0.940 262 pi- 1 -211 104 0.060 -0.131 -143.034 143.034 0.140 263 pi- 1 -211 106 0.332 0.434 -25.479 25.485 0.140 264 pi+ 1 211 106 0.509 -0.220 -41.923 41.927 0.140 265 pi+ 1 211 107 -0.071 0.300 -14.226 14.230 0.140 266 pi- 1 -211 107 0.786 -0.163 -47.358 47.365 0.140 267 gamma 1 22 108 0.008 0.095 -1.023 1.027 0.000 268 gamma 1 22 108 0.083 0.006 -1.909 1.911 0.000 269 pi- 1 -211 109 0.458 -0.072 -8.744 8.758 0.140 270 (pi0) 11 111 109 0.483 0.333 -28.090 28.097 0.135 271 (pi0) 11 111 110 0.144 -0.272 -30.965 30.967 0.135 272 (pi0) 11 111 110 -0.009 0.018 -7.476 7.477 0.135 273 (pi0) 11 111 110 0.018 -0.022 -7.476 7.478 0.135 274 pi- 1 -211 111 0.060 0.468 -21.811 21.817 0.140 275 pi+ 1 211 111 0.350 0.199 -4.405 4.426 0.140 276 pi+ 1 211 112 0.431 -0.230 -6.472 6.492 0.140 277 (pi0) 11 111 112 0.209 0.136 -1.050 1.088 0.135 278 pi+ 1 211 115 0.215 0.404 -0.426 0.640 0.140 279 pi- 1 -211 115 0.075 0.176 -0.154 0.282 0.140 280 (eta) 11 221 115 0.086 1.429 -0.938 1.797 0.547 281 gamma 1 22 116 0.172 -0.064 -0.221 0.287 0.000 282 (rho0) 11 113 116 0.144 0.757 -1.984 2.234 0.681 283 gamma 1 22 117 0.653 0.400 -1.664 1.832 0.000 284 gamma 1 22 117 0.381 0.531 -0.638 0.913 0.000 285 gamma 1 22 120 0.083 -0.034 -0.127 0.155 0.000 286 gamma 1 22 120 0.067 -0.137 -0.573 0.592 0.000 287 pi- 1 -211 122 -0.172 -0.159 -0.744 0.793 0.140 288 pi+ 1 211 122 0.640 0.431 -2.126 2.266 0.140 289 pi- 1 -211 123 0.000 0.161 -3.871 3.877 0.140 290 (pi0) 11 111 123 -0.176 0.948 -4.822 4.919 0.135 291 K- 1 -321 124 -0.090 -0.238 -6.851 6.873 0.494 292 pi+ 1 211 124 -0.234 -0.301 -2.176 2.213 0.140 293 K_S0 1 310 125 -0.292 0.370 -5.247 5.292 0.498 294 gamma 1 22 126 0.026 -0.006 -0.318 0.319 0.000 295 gamma 1 22 126 -0.032 -0.305 -1.863 1.888 0.000 296 pi+ 1 211 127 0.196 -0.477 -6.559 6.581 0.140 297 (pi0) 11 111 127 -0.518 -0.154 -3.987 4.026 0.135 298 K- 1 -321 129 0.116 -3.117 -10.351 10.822 0.494 299 pi+ 1 211 129 0.347 -0.618 -2.878 2.967 0.140 300 K_L0 1 130 130 0.490 -1.734 -6.506 6.770 0.498 301 K_S0 1 310 130 0.207 -1.500 -5.498 5.724 0.498 302 (K0) 11 311 131 1.125 -1.546 -4.145 4.592 0.498 303 pi+ 1 211 131 0.157 -0.404 -0.515 0.688 0.140 304 pi- 1 -211 132 -0.361 -0.428 -2.192 2.266 0.140 305 (pi0) 11 111 132 -0.014 -1.233 -3.739 3.939 0.135 306 pi- 1 -211 133 0.265 -0.235 -0.404 0.555 0.140 307 pi+ 1 211 133 0.062 -0.127 -0.296 0.357 0.140 308 (pi0) 11 111 133 0.086 -0.135 0.135 0.249 0.135 309 K- 1 -321 134 0.125 -0.446 -0.132 0.690 0.494 310 pi+ 1 211 134 0.384 -0.929 -0.472 1.120 0.140 311 (pi0) 11 111 135 -0.134 -0.536 -0.868 1.038 0.135 312 (pi0) 11 111 135 -0.055 -0.175 -0.404 0.464 0.135 313 (pi0) 11 111 135 -0.027 -0.019 -0.255 0.291 0.135 314 K_L0 1 130 136 0.337 -0.217 -0.271 0.694 0.498 315 K_S0 1 310 136 0.134 -0.302 -0.321 0.678 0.498 316 gamma 1 22 138 0.027 -0.002 -0.312 0.313 0.000 317 gamma 1 22 138 0.107 -0.071 -0.199 0.237 0.000 318 pi- 1 -211 139 -0.056 -0.298 -0.156 0.369 0.140 319 (pi0) 11 111 139 0.112 -0.267 0.766 0.830 0.135 320 gamma 1 22 141 -0.234 -0.904 0.074 0.937 0.000 321 gamma 1 22 141 -0.002 -0.312 0.011 0.313 0.000 322 pi- 1 -211 142 -0.294 0.268 -0.235 0.483 0.140 323 (pi0) 11 111 142 -0.890 -0.464 0.246 1.042 0.135 324 K_S0 1 310 143 -1.957 0.140 -0.069 2.025 0.498 325 pi- 1 -211 144 -0.282 -0.132 -0.047 0.345 0.140 326 pi+ 1 211 144 -0.264 -0.023 -0.038 0.302 0.140 327 (pi0) 11 111 144 -0.604 -0.402 0.094 0.744 0.135 328 (D0) 11 421 146 0.358 1.469 1.238 2.701 1.865 329 pi+ 1 211 146 0.012 0.135 0.142 0.241 0.140 330 K_L0 1 130 147 -0.509 -0.211 0.265 0.788 0.498 331 K_L0 1 130 148 0.299 0.577 0.593 1.010 0.498 332 gamma 1 22 150 0.047 -0.007 0.580 0.582 0.000 333 gamma 1 22 150 0.543 -0.201 3.270 3.321 0.000 334 (K0) 11 311 151 1.025 0.682 10.327 10.412 0.498 335 pi+ 1 211 151 1.243 0.050 9.524 9.606 0.140 336 K_S0 1 310 152 0.776 0.163 5.513 5.592 0.498 337 K_S0 1 310 155 1.080 1.131 28.197 28.245 0.498 338 (Kbar0) 11 -311 156 -0.014 0.412 5.069 5.110 0.498 339 (pi0) 11 111 156 -0.340 0.412 6.263 6.287 0.135 340 gamma 1 22 157 0.568 0.559 30.756 30.766 0.000 341 gamma 1 22 157 -0.131 0.099 6.459 6.461 0.000 342 gamma 1 22 158 0.035 1.123 29.965 29.986 0.000 343 gamma 1 22 158 0.058 0.181 4.664 4.668 0.000 344 pi- 1 -211 159 0.503 0.549 56.623 56.629 0.140 345 (pi0) 11 111 159 -0.195 0.110 14.578 14.580 0.135 346 pi+ 1 211 162 0.026 0.714 33.375 33.383 0.140 347 pi- 1 -211 162 0.055 0.347 5.204 5.217 0.140 348 K+ 1 321 163 0.336 0.940 89.142 89.149 0.494 349 (pi0) 11 111 163 -0.218 0.087 23.418 23.420 0.135 350 (Kbar0) 11 -311 164 -0.338 -0.086 13.886 13.899 0.498 351 pi- 1 -211 164 0.047 0.311 7.760 7.767 0.140 352 p+ 1 2212 165 0.212 0.406 8.369 8.434 0.938 353 (pi0) 11 111 165 0.291 -0.168 2.918 2.940 0.135 354 gamma 1 22 166 -0.061 -0.255 11.559 11.562 0.000 355 gamma 1 22 166 -0.294 -0.504 21.454 21.462 0.000 356 pbar- 1 -2212 167 0.583 0.391 12.498 12.552 0.938 357 (pi0) 11 111 167 -0.070 -0.084 2.489 2.495 0.135 358 pi+ 1 211 168 -0.172 -0.045 2.415 2.425 0.140 359 pi- 1 -211 168 -0.103 -0.066 3.191 3.196 0.140 360 (pi0) 11 111 168 -0.070 -0.319 4.303 4.317 0.135 361 p+ 1 2212 169 0.184 0.177 25.527 25.545 0.938 362 pi+ 1 211 169 0.043 0.242 10.277 10.281 0.140 363 pbar- 1 -2212 170 0.028 -0.284 49.874 49.883 0.938 364 pi- 1 -211 170 -0.081 -0.024 23.043 23.044 0.140 365 p+ 1 2212 171 -0.111 -0.224 102.835 102.839 0.938 366 pi+ 1 211 171 0.089 0.082 6.834 6.836 0.140 367 (K0) 11 311 174 -0.668 -0.250 -0.877 1.235 0.498 368 (pi0) 11 111 174 -0.068 -0.278 -0.644 0.717 0.135 369 pi+ 1 211 175 0.026 -0.295 -0.859 0.919 0.140 370 pi- 1 -211 175 -0.725 -0.088 -0.948 1.205 0.140 371 pi+ 1 211 177 -0.750 0.699 -0.974 1.421 0.140 372 pi- 1 -211 177 0.031 -0.090 -0.107 0.200 0.140 373 (pi0) 11 111 178 -1.553 -0.415 -2.237 2.758 0.135 374 (pi0) 11 111 178 -0.703 -0.124 -0.861 1.126 0.135 375 (eta) 11 221 178 -1.945 -0.687 -3.044 3.717 0.547 376 K- 1 -321 179 -0.719 -0.910 -2.515 2.813 0.494 377 (pi0) 11 111 179 -0.786 -1.207 -4.315 4.551 0.135 378 K_L0 1 130 180 -0.117 -0.379 -0.095 0.643 0.498 379 pi+ 1 211 181 0.269 -0.047 -0.187 0.359 0.140 380 (pi0) 11 111 181 -0.376 -0.565 -0.588 0.908 0.135 381 pi+ 1 211 182 -0.104 0.288 -0.077 0.345 0.140 382 pi- 1 -211 182 0.280 -0.485 0.281 0.642 0.140 383 (Kbar0) 11 -311 184 0.188 -0.602 1.433 1.643 0.498 384 (pi0) 11 111 184 0.562 -0.901 1.202 1.609 0.135 385 pi- 1 -211 186 -0.037 0.078 0.462 0.491 0.140 386 pi+ 1 211 186 0.155 -0.572 1.348 1.479 0.140 387 (pi0) 11 111 186 0.038 -0.327 1.182 1.235 0.135 388 pi+ 1 211 187 -0.129 -0.893 4.434 4.527 0.140 389 pi- 1 -211 187 0.148 -0.746 7.890 7.928 0.140 390 pi- 1 -211 188 -0.251 -0.769 5.098 5.164 0.140 391 (pi0) 11 111 188 -0.513 -0.612 15.004 15.026 0.135 392 gamma 1 22 190 -0.033 0.019 1.179 1.180 0.000 393 gamma 1 22 190 0.037 -0.008 0.104 0.111 0.000 394 gamma 1 22 191 -0.056 -0.368 1.570 1.614 0.000 395 gamma 1 22 191 0.008 -0.810 2.817 2.931 0.000 396 pi- 1 -211 192 0.153 0.060 1.376 1.393 0.140 397 (pi0) 11 111 192 -0.334 -0.128 4.966 4.981 0.135 398 K- 1 -321 193 -0.340 -0.286 1.790 1.909 0.494 399 pi+ 1 211 193 0.012 0.221 0.375 0.457 0.140 400 K+ 1 321 194 0.233 -0.357 1.995 2.099 0.494 401 pi- 1 -211 194 0.144 0.008 2.682 2.689 0.140 402 gamma 1 22 195 -0.075 -0.125 5.187 5.189 0.000 403 gamma 1 22 195 -0.156 -0.158 3.932 3.938 0.000 404 pi- 1 -211 197 0.432 0.399 1.180 1.326 0.140 405 (pi0) 11 111 197 -0.232 0.224 0.976 1.037 0.135 406 K- 1 -321 198 -0.198 -0.121 3.101 3.148 0.494 407 pi+ 1 211 198 0.319 -0.240 3.120 3.148 0.140 408 (K0) 11 311 199 0.161 0.201 27.796 27.802 0.498 409 pi+ 1 211 199 -0.078 0.054 1.651 1.659 0.140 410 pi+ 1 211 201 -0.621 0.041 0.621 0.890 0.140 411 (pi0) 11 111 201 0.165 -0.168 0.337 0.433 0.135 412 pi- 1 -211 202 -0.019 -0.107 0.024 0.179 0.140 413 (pi0) 11 111 202 -0.207 0.069 1.249 1.275 0.135 414 pi+ 1 211 203 -0.138 -0.351 -0.025 0.403 0.140 415 (pi0) 11 111 203 0.327 0.431 -0.357 0.662 0.135 416 pi- 1 -211 204 -0.170 -0.240 0.079 0.335 0.140 417 pi+ 1 211 204 0.164 0.109 0.093 0.258 0.140 418 (pi0) 11 111 204 0.048 0.041 -0.095 0.177 0.135 419 gamma 1 22 213 -0.022 -0.018 -0.768 0.769 0.000 420 gamma 1 22 213 -0.365 -0.734 -10.384 10.416 0.000 421 pi+ 1 211 214 -0.074 0.609 -10.458 10.477 0.140 422 (pi0) 11 111 214 0.260 -0.100 -7.236 7.243 0.135 423 K_L0 1 130 216 -0.438 -2.250 -15.631 15.806 0.498 424 gamma 1 22 217 -0.239 -0.996 -5.275 5.374 0.000 425 gamma 1 22 217 -0.260 -1.796 -9.706 9.875 0.000 426 K_S0 1 310 221 0.111 -1.374 -7.525 7.666 0.498 427 gamma 1 22 222 0.045 -0.017 -0.241 0.246 0.000 428 gamma 1 22 222 -0.078 0.027 -0.193 0.210 0.000 429 gamma 1 22 233 -0.135 0.356 0.350 0.517 0.000 430 gamma 1 22 233 -0.140 0.178 0.112 0.253 0.000 431 gamma 1 22 235 -0.313 -0.023 0.310 0.441 0.000 432 gamma 1 22 235 0.013 0.008 0.013 0.020 0.000 433 gamma 1 22 238 0.209 0.499 0.066 0.545 0.000 434 gamma 1 22 238 0.192 0.543 0.210 0.613 0.000 435 pi- 1 -211 243 0.932 2.126 0.317 2.347 0.140 436 (pi0) 11 111 243 0.213 0.516 -0.240 0.622 0.135 437 gamma 1 22 247 -0.531 -0.611 -4.641 4.712 0.000 438 gamma 1 22 247 -0.857 -0.872 -6.196 6.316 0.000 439 gamma 1 22 248 -0.232 -0.140 -0.330 0.427 0.000 440 gamma 1 22 248 -0.020 -0.074 -0.038 0.086 0.000 441 gamma 1 22 249 -0.070 -0.013 0.008 0.071 0.000 442 gamma 1 22 249 -0.250 -0.076 -0.246 0.359 0.000 443 gamma 1 22 250 0.056 0.125 -0.034 0.141 0.000 444 gamma 1 22 250 -0.297 -0.370 -0.595 0.761 0.000 445 gamma 1 22 254 -1.168 0.228 -1.066 1.597 0.000 446 gamma 1 22 254 -0.604 0.020 -0.542 0.812 0.000 447 gamma 1 22 256 -0.019 0.029 -0.253 0.255 0.000 448 gamma 1 22 256 -0.255 0.293 -0.908 0.988 0.000 449 K_L0 1 130 257 -0.861 -0.008 -0.495 1.111 0.498 450 gamma 1 22 258 0.046 -0.057 -0.011 0.074 0.000 451 gamma 1 22 258 -0.056 0.032 0.000 0.064 0.000 452 gamma 1 22 260 0.346 0.253 -6.662 6.676 0.000 453 gamma 1 22 260 0.283 0.193 -7.558 7.565 0.000 454 gamma 1 22 270 0.462 0.306 -27.397 27.403 0.000 455 gamma 1 22 270 0.021 0.027 -0.693 0.694 0.000 456 gamma 1 22 271 0.132 -0.250 -22.326 22.327 0.000 457 gamma 1 22 271 0.012 -0.022 -8.639 8.639 0.000 458 gamma 1 22 272 -0.025 0.015 -7.361 7.361 0.000 459 gamma 1 22 272 0.016 0.003 -0.115 0.116 0.000 460 gamma 1 22 273 0.062 -0.020 -6.456 6.456 0.000 461 gamma 1 22 273 -0.044 -0.002 -1.020 1.021 0.000 462 gamma 1 22 277 0.208 0.132 -0.788 0.825 0.000 463 gamma 1 22 277 0.001 0.004 -0.262 0.262 0.000 464 (pi0) 11 111 280 0.085 0.693 -0.532 0.888 0.135 465 (pi0) 11 111 280 -0.005 0.363 -0.321 0.503 0.135 466 (pi0) 11 111 280 0.006 0.374 -0.085 0.407 0.135 467 pi+ 1 211 282 0.110 -0.037 -0.166 0.246 0.140 468 pi- 1 -211 282 0.034 0.794 -1.818 1.989 0.140 469 gamma 1 22 290 -0.146 0.798 -3.771 3.857 0.000 470 gamma 1 22 290 -0.030 0.151 -1.051 1.062 0.000 471 gamma 1 22 297 -0.425 -0.171 -3.091 3.124 0.000 472 gamma 1 22 297 -0.093 0.017 -0.897 0.902 0.000 473 K_L0 1 130 302 1.125 -1.546 -4.145 4.592 0.498 474 gamma 1 22 305 0.004 -0.044 -0.234 0.238 0.000 475 gamma 1 22 305 -0.018 -1.189 -3.506 3.702 0.000 476 gamma 1 22 308 0.051 -0.024 0.119 0.131 0.000 477 gamma 1 22 308 0.035 -0.112 0.017 0.118 0.000 478 gamma 1 22 311 -0.044 -0.233 -0.495 0.549 0.000 479 gamma 1 22 311 -0.089 -0.303 -0.373 0.489 0.000 480 gamma 1 22 312 -0.091 -0.065 -0.218 0.244 0.000 481 gamma 1 22 312 0.035 -0.110 -0.187 0.220 0.000 482 gamma 1 22 313 0.008 0.042 -0.189 0.194 0.000 483 gamma 1 22 313 -0.035 -0.061 -0.067 0.097 0.000 484 gamma 1 22 319 0.015 -0.197 0.521 0.557 0.000 485 gamma 1 22 319 0.097 -0.070 0.245 0.273 0.000 486 gamma 1 22 323 -0.011 -0.014 0.024 0.030 0.000 487 gamma 1 22 323 -0.879 -0.451 0.222 1.013 0.000 488 gamma 1 22 327 -0.259 -0.099 0.058 0.283 0.000 489 gamma 1 22 327 -0.345 -0.303 0.036 0.460 0.000 490 K- 1 -321 328 -0.007 0.945 -0.015 1.066 0.494 491 (rho+) 11 213 328 0.365 0.524 1.254 1.635 0.833 492 K_S0 1 310 334 1.025 0.682 10.327 10.412 0.498 493 K_L0 1 130 338 -0.014 0.412 5.069 5.110 0.498 494 gamma 1 22 339 -0.310 0.411 6.082 6.103 0.000 495 gamma 1 22 339 -0.030 0.001 0.182 0.184 0.000 496 gamma 1 22 345 -0.197 0.071 10.110 10.113 0.000 497 gamma 1 22 345 0.002 0.039 4.467 4.468 0.000 498 gamma 1 22 349 0.009 -0.003 0.160 0.161 0.000 499 gamma 1 22 349 -0.227 0.090 23.258 23.259 0.000 500 K_L0 1 130 350 -0.338 -0.086 13.886 13.899 0.498 501 gamma 1 22 353 0.290 -0.175 2.560 2.582 0.000 502 gamma 1 22 353 0.001 0.008 0.358 0.358 0.000 503 gamma 1 22 357 -0.027 0.009 1.586 1.587 0.000 504 gamma 1 22 357 -0.042 -0.093 0.903 0.909 0.000 505 gamma 1 22 360 -0.099 -0.288 3.987 3.999 0.000 506 gamma 1 22 360 0.029 -0.030 0.316 0.319 0.000 507 K_S0 1 310 367 -0.668 -0.250 -0.877 1.235 0.498 508 gamma 1 22 368 -0.104 -0.142 -0.357 0.399 0.000 509 gamma 1 22 368 0.036 -0.135 -0.286 0.319 0.000 510 gamma 1 22 373 -0.076 0.006 -0.086 0.115 0.000 511 gamma 1 22 373 -1.477 -0.421 -2.151 2.643 0.000 512 gamma 1 22 374 -0.165 -0.001 -0.282 0.327 0.000 513 gamma 1 22 374 -0.537 -0.123 -0.578 0.799 0.000 514 gamma 1 22 375 -1.514 -0.340 -1.956 2.497 0.000 515 gamma 1 22 375 -0.430 -0.347 -1.088 1.221 0.000 516 gamma 1 22 377 -0.761 -1.191 -4.167 4.400 0.000 517 gamma 1 22 377 -0.025 -0.016 -0.148 0.151 0.000 518 gamma 1 22 380 -0.200 -0.217 -0.317 0.433 0.000 519 gamma 1 22 380 -0.176 -0.348 -0.271 0.475 0.000 520 K_S0 1 310 383 0.188 -0.602 1.433 1.643 0.498 521 gamma 1 22 384 0.415 -0.606 0.746 1.047 0.000 522 gamma 1 22 384 0.147 -0.294 0.456 0.563 0.000 523 gamma 1 22 387 0.067 -0.074 0.292 0.308 0.000 524 gamma 1 22 387 -0.029 -0.253 0.890 0.926 0.000 525 gamma 1 22 391 -0.492 -0.610 14.220 14.242 0.000 526 gamma 1 22 391 -0.022 -0.002 0.784 0.784 0.000 527 gamma 1 22 397 -0.285 -0.110 4.678 4.688 0.000 528 gamma 1 22 397 -0.049 -0.018 0.288 0.293 0.000 529 gamma 1 22 405 -0.165 0.188 0.878 0.913 0.000 530 gamma 1 22 405 -0.066 0.036 0.098 0.124 0.000 531 K_S0 1 310 408 0.161 0.201 27.796 27.802 0.498 532 gamma 1 22 411 0.079 -0.017 0.184 0.201 0.000 533 gamma 1 22 411 0.086 -0.152 0.153 0.232 0.000 534 gamma 1 22 413 -0.137 0.099 0.666 0.687 0.000 535 gamma 1 22 413 -0.069 -0.030 0.583 0.588 0.000 536 gamma 1 22 415 0.317 0.334 -0.289 0.543 0.000 537 gamma 1 22 415 0.011 0.097 -0.068 0.119 0.000 538 gamma 1 22 418 0.014 0.003 -0.119 0.120 0.000 539 gamma 1 22 418 0.034 0.039 0.024 0.057 0.000 540 gamma 1 22 422 0.099 -0.029 -1.334 1.338 0.000 541 gamma 1 22 422 0.161 -0.071 -5.903 5.905 0.000 542 gamma 1 22 436 0.037 0.016 -0.038 0.055 0.000 543 gamma 1 22 436 0.176 0.500 -0.202 0.567 0.000 544 gamma 1 22 464 0.100 0.689 -0.523 0.871 0.000 545 gamma 1 22 464 -0.014 0.004 -0.008 0.017 0.000 546 gamma 1 22 465 0.011 0.324 -0.327 0.461 0.000 547 gamma 1 22 465 -0.016 0.038 0.006 0.042 0.000 548 gamma 1 22 466 0.034 0.047 0.021 0.062 0.000 549 gamma 1 22 466 -0.029 0.327 -0.106 0.345 0.000 550 pi+ 1 211 491 0.170 -0.048 0.887 0.915 0.140 551 (pi0) 11 111 491 0.195 0.572 0.367 0.720 0.135 552 gamma 1 22 551 0.110 0.450 0.228 0.516 0.000 553 gamma 1 22 551 0.085 0.122 0.139 0.203 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGen:Will initialize JetSet. 1 ****************************************************************************** ****************************************************************************** ** ** ** ** ** PPP Y Y TTTTT H H III A JJJJ EEEE TTTTT SSS EEEE TTTTT ** ** P P Y Y T H H I A A J E T S E T ** ** PPP Y T HHHHH I AAAAA J EEE T SSS EEE T ** ** P Y T H H I A A J J E T S E T ** ** P Y T H H III A A JJ EEEE T SSS EEEE T ** ** ** ** ** ** *......* Welcome to the Lund Monte Carlo! ** ** *:::!!:::::::::::* ** ** *::::::!!::::::::::::::* Warning: this is jetset7.4_fkw ** ** *::::::::!!::::::::::::::::* All refs to pythia were excised! ** ** *:::::::::!!:::::::::::::::::* PYTHIA !!! ** ** *:::::::::!!:::::::::::::::::* it was altered by fkw 7.410 ** ** *::::::::!!::::::::::::::::*! on 3.29.00 20 Jan 1997 ** ** *::::::!!::::::::::::::* !! to this effect !!! ** ** !! *:::!!:::::::::::* !! Main author: ** ** !! !* -><- * !! Torbjorn Sjostrand ** ** !! !! !! Dept. of theoretical physics 2 ** ** !! !! !! University of Lund ** ** !! !! Solvegatan 14A ** ** !! ep !! S-223 62 Lund, Sweden ** ** !! !! phone: +46 - 46 - 222 48 16 ** ** !! pp !! E-mail: torbjorn@thep.lu.se ** ** !! e+e- !! ** ** !! !! Copyright Torbjorn Sjostrand ** ** !! and CERN, Geneva 1993 ** ** ** ** ** ** The latest program versions and documentation is found on WWW address ** ** http://thep.lu.se/tf2/staff/torbjorn/Welcome.html ** ** This is fkw version !!! ** ** When you cite these programs, priority should always be given to the ** ** latest published description. Currently this is ** ** T. Sjostrand, Computer Physics Commun. 82 (1994) 74. ** ** The most recent long description (unpublished) is ** ** T. Sjostrand, LU TP 95-20 and CERN-TH.7112/93 (revised August 1995). ** ** Also remember that the programs, to a large extent, represent original ** ** physics research. Other publications of special relevance to your ** ** studies may therefore deserve separate mention. ** ** ** ** ** ****************************************************************************** ****************************************************************************** Warning: Jetset7.4_fkw independent of PYTHIA! MSTJ(104) changed from 5 to 5 MSTJ(107) changed from 0 to 1 MSTJ(11) changed from 4 to 4 PARJ(41) changed from 0.30000 to 0.30000 PARJ(42) changed from 0.58000 to 0.58000 PARJ(43) changed from 0.50000 to 0.50000 PARJ(44) changed from 0.90000 to 0.90000 PARJ(54) changed from -0.05000 to -0.04000 PARJ(55) changed from -0.00500 to -0.00400 MSTJ(26) changed from 2 to 0 PARJ(13) changed from 0.75000 to 0.40000 PARJ(26) changed from 0.40000 to 0.10000 PARJ(25) changed from 1.00000 to 0.60000 PARJ(2) changed from 0.30000 to 0.26000 PARJ(12) changed from 0.60000 to 0.55000 PARJ(11) changed from 0.50000 to 0.40000 PARJ(1) changed from 0.10000 to 0.06500 PARJ(14) changed from 0.00000 to 0.05000 PARJ(15) changed from 0.00000 to 0.05000 PARJ(16) changed from 0.00000 to 0.05000 PARJ(17) changed from 0.00000 to 0.05000 PARJ(33) changed from 0.80000 to 0.30000 EvtGen:Done initializing JetSet. GenInputManager Begin processing 7th record. Run 222530, Trigger 6 1 ******************************************************************************** * * * ========================== * * PHOTOS, Version: 2. 2 * * Released at: 15/ 3/99 * * ========================== * * * * PHOTOS QED Corrections in Particle Decays * * * * Monte Carlo Program - by E. Barberio, B. van Eijk and Z. Was * * From version 2.0 on - by E.B. and Z.W. * * * ******************************************************************************** * * * Internal input parameters: * * * * INTERF= T ISEC= T IFTOP= T * * ALPHA_QED= 0.00730 XPHCUT= 0.01000 * * * * option with interference is active * * option with double photons is active * * emision in t tbar production is active * * * * WARNING (1): /HEPEVT/ is not anymore the standard common block * * This version of PHOTOS uses /XHEPEVT/ with double * * precision (REAL*8) variables * * WARNING (2): check dims. of /hepevt/ /phoqed/ /ph_hepevt/. * * HERE: d_h_nmxhep=4000 and NMXHEP=10000 * * * ******************************************************************************** Message from PHCORK(MODCOR):: initialization MODOP=1 -- no corrections on event: DEFAULT ******************************************************************************** * * * PHOTOS: Available Phase Space below Cut-off: 0.005930 GeV/c^2 * * * ******************************************************************************** PYEVNT event no. 6 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 -0.500 0.624 189.906 189.908 0.000 4 !u! 21 2 2 -0.039 0.473 -86.921 86.922 0.000 5 !g! 21 21 3 -2.301 -0.414 120.493 120.516 0.000 6 !g! 21 21 4 0.446 3.547 -3.778 5.202 0.000 7 !g! 21 21 0 -16.980 16.237 85.245 88.423 0.000 8 !g! 21 21 0 15.126 -13.104 31.470 37.294 0.000 ============================================================================== 9 (Deltabar--) 11 -2224 2 0.147 -0.441 -302.156 302.160 1.357 10 (u) A 12 2 3 0.406 1.509 33.654 33.692 0.330 11 (g) I 12 21 3 0.852 0.311 19.829 19.850 0.000 12 (g) I 12 21 3 0.659 -0.712 10.108 10.154 0.000 13 (g) I 12 21 0 -2.135 -0.064 31.765 31.837 0.000 14 (g) I 12 21 0 -0.857 -0.710 12.279 12.329 0.000 15 (g) I 12 21 0 -0.660 -0.157 5.423 5.465 0.000 16 (g) I 12 21 0 -1.075 -0.052 6.067 6.162 0.000 17 (g) I 12 21 0 -0.169 -1.617 5.603 5.834 0.000 18 (g) I 12 21 0 -0.327 -1.085 2.329 2.590 0.000 19 (g) I 12 21 0 2.135 0.064 13.253 13.424 0.000 20 (g) I 12 21 0 1.473 0.141 10.040 10.148 0.000 21 (g) I 12 21 0 0.338 0.206 1.421 1.475 0.000 22 (g) I 12 21 0 0.660 0.157 1.957 2.071 0.000 23 (g) I 12 21 0 0.169 1.617 2.480 2.966 0.000 24 (g) I 12 21 0 0.327 1.085 1.902 2.214 0.000 25 (g) I 12 21 0 0.083 1.792 2.658 3.207 0.000 26 (g) I 12 21 0 -2.244 -0.056 -0.582 2.319 0.000 27 (g) I 12 21 0 -1.031 1.685 -0.159 1.982 0.000 28 (g) I 12 21 4 0.009 0.680 0.014 0.680 0.000 29 (g) I 12 21 4 0.694 -2.945 2.738 4.080 0.000 30 (g) I 12 21 4 0.311 2.625 -69.358 69.408 0.000 31 (g) I 12 21 4 -0.013 -0.983 -2.235 2.442 0.000 32 (dbar) V 11 -1 2 -0.107 -0.031 -280.106 280.107 0.330 33 (u) A 12 2 4 0.678 -2.584 -7.521 7.988 0.330 34 (g) I 12 21 4 -1.087 -0.562 -0.801 1.463 0.000 35 (g) I 12 21 4 -1.194 0.624 -0.158 1.356 0.000 36 (g) I 12 21 0 0.212 0.677 -1.943 2.068 0.000 37 (g) I 12 21 0 -2.635 1.247 -10.261 10.667 0.000 38 (g) I 12 21 0 0.763 0.773 -22.266 22.293 0.000 39 (g) I 12 21 0 0.243 0.502 -88.551 88.553 0.000 40 (g) I 12 21 0 2.635 -1.247 -124.229 124.263 0.000 41 (g) I 12 21 0 -0.243 -0.502 -13.954 13.965 0.000 42 (g) I 12 21 0 -0.212 -0.677 -4.254 4.313 0.000 43 (g) I 12 21 0 -0.409 -0.938 -4.799 4.907 0.000 44 (g) I 12 21 0 0.245 -3.871 -8.718 9.542 0.000 45 (g) I 12 21 0 1.002 0.470 -2.872 3.078 0.000 46 (g) I 12 21 0 1.682 0.765 -2.121 2.813 0.000 47 (g) I 12 21 0 0.637 0.453 -0.822 1.134 0.000 48 (g) I 12 21 0 1.075 0.052 -0.882 1.391 0.000 49 (g) I 12 21 0 2.244 0.056 -1.560 2.734 0.000 50 (g) I 12 21 0 0.857 0.710 -0.057 1.115 0.000 51 (g) I 12 21 8 0.230 0.188 0.105 0.315 0.000 52 (g) I 12 21 8 4.250 -4.304 8.987 10.833 0.000 53 (g) I 12 21 8 1.575 -1.114 4.758 5.135 0.000 54 (g) I 12 21 0 1.031 -1.685 2.431 3.133 0.000 55 (g) I 12 21 0 0.519 -0.048 0.756 0.918 0.000 56 (g) I 12 21 0 0.384 -0.533 1.126 1.303 0.000 57 (g) I 12 21 0 -0.083 -1.792 1.239 2.180 0.000 58 (g) I 12 21 0 -1.682 -0.765 2.713 3.282 0.000 59 (g) I 12 21 0 -1.002 -0.470 1.439 1.815 0.000 60 (g) I 12 21 0 -1.473 -0.141 2.849 3.210 0.000 61 (g) I 12 21 7 0.544 6.242 4.879 7.941 0.000 62 (g) I 12 21 7 0.445 1.966 2.731 3.395 0.000 63 (g) I 12 21 7 -1.249 4.351 6.477 7.902 0.000 64 (g) I 12 21 7 -0.383 0.734 1.632 1.830 0.000 65 (g) I 12 21 7 -0.876 0.174 4.444 4.533 0.000 66 (g) I 12 21 7 -1.947 3.382 21.910 22.255 0.000 67 (g) I 12 21 7 -0.277 -1.927 14.246 14.378 0.000 68 (g) I 12 21 7 -3.111 -5.479 38.986 39.492 0.000 69 (g) I 12 21 7 -1.056 -1.080 7.560 7.709 0.000 70 (g) I 12 21 0 -0.384 0.533 1.750 1.869 0.000 71 (g) I 12 21 0 -0.245 3.871 27.008 27.285 0.000 72 (g) I 12 21 0 0.409 0.938 7.567 7.636 0.000 73 (g) I 12 21 0 -0.519 0.048 33.759 33.763 0.000 74 (g) I 12 21 0 -0.338 -0.206 45.907 45.909 0.000 75 (ud_1) V 11 2103 1 0.500 -0.624 496.444 496.445 0.771 76 (u) A 12 2 0 0.920 0.031 -0.569 1.082 0.000 77 (ubar) V 11 -2 0 -0.920 -0.031 -0.526 1.060 0.000 78 (g) A 12 21 0 -1.650 0.021 -1.069 1.966 0.000 79 (g) I 12 21 0 1.650 -0.021 -1.906 2.521 0.000 80 (g) I 12 21 0 -0.763 -0.773 -0.795 1.346 0.000 81 (g) V 11 21 0 -0.637 -0.453 -1.079 1.332 0.000 82 (g) A 12 21 0 -0.569 -0.810 -7.414 7.480 0.000 83 (g) V 11 21 0 0.569 0.810 58.502 58.510 0.000 ============================================================================== 84 pbar- 1 -2212 9 -0.134 -0.359 -266.777 266.779 0.938 85 pi- 1 -211 9 0.280 -0.082 -35.380 35.381 0.140 86 (string) 11 92 10 -0.503 3.462 -188.920 524.436 489.214 87 pi+ 1 211 86 0.191 0.121 2.319 2.335 0.140 88 pi- 1 -211 86 0.852 0.014 21.908 21.925 0.140 89 (K*+) 11 323 86 -0.409 0.346 12.519 12.563 0.898 90 (Kbar0) 11 -311 86 -0.156 0.507 13.162 13.182 0.498 91 (omega) 11 223 86 0.649 0.321 21.602 21.629 0.781 92 pi- 1 -211 86 -1.961 -0.525 18.683 18.794 0.140 93 (rho+) 11 213 86 -0.176 -0.246 7.435 7.470 0.651 94 (eta) 11 221 86 -0.123 -0.663 7.324 7.375 0.547 95 (pi0) 11 111 86 -0.990 -0.003 8.831 8.887 0.135 96 pi- 1 -211 86 -0.134 -0.152 4.634 4.641 0.140 97 K+ 1 321 86 -0.789 -0.499 2.191 2.432 0.494 98 (K*bar0) 11 -313 86 1.299 -1.345 10.580 10.782 0.898 99 (K0) 11 311 86 -0.397 -0.100 3.761 3.816 0.498 100 (K*-) 11 -323 86 0.973 0.067 5.165 5.340 0.942 101 (eta) 11 221 86 0.320 0.289 1.612 1.756 0.547 102 (K*+) 11 323 86 0.637 0.590 4.503 4.660 0.827 103 K- 1 -321 86 0.165 0.147 1.912 1.987 0.494 104 (rho+) 11 213 86 0.403 0.489 1.908 2.143 0.743 105 pi- 1 -211 86 0.066 0.382 3.475 3.500 0.140 106 (rho+) 11 213 86 0.615 0.339 2.118 2.311 0.602 107 (rho0) 11 113 86 0.639 0.422 1.211 1.623 0.763 108 (pi0) 11 111 86 0.378 -0.067 1.710 1.758 0.135 109 (rho0) 11 113 86 -0.352 0.998 0.972 1.626 0.762 110 (omega) 11 223 86 -0.915 0.607 0.672 1.497 0.763 111 (eta) 11 221 86 -0.304 1.006 0.256 1.212 0.547 112 (K*0) 11 313 86 -0.746 0.450 -0.147 1.242 0.873 113 (K*-) 11 -323 86 -0.208 -0.859 0.457 1.343 0.903 114 (rho+) 11 213 86 0.169 0.466 -0.121 0.794 0.608 115 (rho-) 11 -213 86 -0.652 0.138 0.249 1.149 0.903 116 pi+ 1 211 86 -0.008 -0.095 0.488 0.517 0.140 117 (eta') 11 331 86 0.109 -0.040 -0.035 0.965 0.958 118 (pi0) 11 111 86 -0.115 -0.378 0.107 0.431 0.135 119 pi- 1 -211 86 -0.258 -0.397 -0.478 0.687 0.140 120 (rho+) 11 213 86 0.264 -0.172 0.344 0.835 0.693 121 (rho-) 11 -213 86 0.208 -0.329 -2.050 2.200 0.697 122 (omega) 11 223 86 -0.367 0.856 -2.987 3.226 0.788 123 pi+ 1 211 86 0.184 -0.470 -2.596 2.648 0.140 124 (rho-) 11 -213 86 -0.126 0.561 -2.067 2.260 0.710 125 (omega) 11 223 86 0.573 0.048 -16.430 16.458 0.779 126 pi+ 1 211 86 0.236 0.026 -7.517 7.522 0.140 127 pi- 1 -211 86 -0.479 0.049 -0.618 0.796 0.140 128 (rho+) 11 213 86 1.008 0.798 -43.636 43.660 0.656 129 (rho-) 11 -213 86 -0.618 -0.309 -4.559 4.662 0.694 130 (K*+) 11 323 86 -0.442 -0.006 -177.289 177.292 0.907 131 (Kbar0) 11 -311 86 0.390 0.316 -67.844 67.847 0.498 132 (pi0) 11 111 86 -0.104 -0.239 -22.655 22.657 0.135 133 (string) 11 92 33 1.756 -1.795 445.934 1058.107 959.546 134 pi+ 1 211 133 0.556 -1.936 -5.651 6.001 0.140 135 pi- 1 -211 133 -0.621 -0.403 -0.700 1.028 0.140 136 (K*+) 11 323 133 -0.044 -0.388 -2.039 2.260 0.892 137 (phi) 11 333 133 -0.415 0.232 -0.590 1.269 1.018 138 (K*bar0) 11 -313 133 -0.880 0.501 -1.212 1.839 0.940 139 pi- 1 -211 133 0.144 -0.168 -0.385 0.465 0.140 140 p+ 1 2212 133 -1.495 0.829 -6.213 6.512 0.938 141 pbar- 1 -2212 133 -0.024 -0.238 -6.881 6.949 0.938 142 (Delta++) 11 2224 133 0.138 1.011 -11.399 11.500 1.136 143 (omega) 11 223 133 -0.727 0.346 -6.180 6.281 0.781 144 (Deltabar--) 11 -2224 133 0.104 0.248 -28.570 28.596 1.205 145 (rho0) 11 113 133 0.226 0.228 -32.617 32.626 0.667 146 (rho+) 11 213 133 1.557 -0.448 -83.016 83.036 0.853 147 (rho-) 11 -213 133 0.696 -0.364 -42.714 42.730 0.839 148 (pi0) 11 111 133 -0.107 -0.357 -10.544 10.551 0.135 149 (rho+) 11 213 133 0.050 -0.376 -24.746 24.761 0.772 150 pi- 1 -211 133 0.454 -0.597 -5.746 5.796 0.140 151 (rho+) 11 213 133 -0.359 -1.343 -2.995 3.407 0.842 152 pi- 1 -211 133 0.018 -0.397 -2.534 2.569 0.140 153 K+ 1 321 133 -0.375 -1.650 -14.620 14.726 0.494 154 K- 1 -321 133 1.673 -0.329 -1.256 2.174 0.494 155 (rho0) 11 113 133 1.556 0.111 -1.835 2.555 0.853 156 pi+ 1 211 133 0.145 0.119 -0.181 0.295 0.140 157 (omega) 11 223 133 1.551 0.901 -1.703 2.608 0.829 158 (K*0) 11 313 133 1.934 -0.445 0.164 2.172 0.868 159 (K*-) 11 -323 133 0.653 0.262 -0.413 1.207 0.890 160 (rho0) 11 113 133 0.468 -0.043 0.259 0.772 0.556 161 pi+ 1 211 133 0.265 -0.032 0.160 0.341 0.140 162 (K*0) 11 313 133 0.755 -0.707 1.640 2.144 0.916 163 (K*-) 11 -323 133 1.331 -0.979 1.773 2.587 0.903 164 (rho+) 11 213 133 0.251 -0.880 2.398 2.683 0.783 165 (K*0) 11 313 133 0.903 -0.652 1.899 2.399 0.954 166 K- 1 -321 133 2.754 -2.986 5.831 7.124 0.494 167 (rho+) 11 213 133 0.785 -0.694 1.708 2.177 0.851 168 (pi0) 11 111 133 -0.143 -0.499 1.824 1.901 0.135 169 (eta) 11 221 133 -0.007 -0.175 0.220 0.615 0.547 170 pi- 1 -211 133 0.408 -0.750 1.698 1.905 0.140 171 pi+ 1 211 133 -1.997 -0.897 2.328 3.199 0.140 172 (eta) 11 221 133 -0.504 0.395 1.100 1.386 0.547 173 pi- 1 -211 133 0.226 0.359 0.024 0.447 0.140 174 (eta) 11 221 133 -0.472 0.175 1.062 1.297 0.547 175 K+ 1 321 133 0.141 0.442 0.742 1.005 0.494 176 Sigma- 1 3112 133 0.119 1.126 1.956 2.558 1.197 177 (rho+) 11 213 133 -0.808 2.024 2.974 3.803 0.934 178 nbar0 1 -2112 133 -0.743 0.955 2.899 3.279 0.940 179 pi- 1 -211 133 -0.033 1.825 1.383 2.295 0.140 180 p+ 1 2212 133 0.200 1.232 2.093 2.611 0.938 181 nbar0 1 -2112 133 -0.325 2.160 2.952 3.791 0.940 182 (rho-) 11 -213 133 -0.200 0.904 2.295 2.590 0.764 183 p+ 1 2212 133 -1.640 1.422 9.989 10.265 0.938 184 (rho+) 11 213 133 0.311 1.250 5.609 5.820 0.873 185 (Deltabar--) 11 -2224 133 -1.310 -0.780 6.714 6.991 1.212 186 (Delta++) 11 2224 133 -0.257 -0.867 9.502 9.621 1.210 187 pi- 1 -211 133 -0.045 -0.975 4.616 4.720 0.140 188 (Sigma*bar0) 11 -3214 133 -2.439 0.426 21.208 21.397 1.389 189 (phi) 11 333 133 -0.237 -0.713 10.215 10.294 1.028 190 (K*bar0) 11 -313 133 -1.003 -2.495 13.833 14.120 0.891 191 (rho-) 11 -213 133 -0.740 0.639 14.237 14.289 0.732 192 pi+ 1 211 133 -0.429 0.451 4.207 4.255 0.140 193 (eta) 11 221 133 0.510 0.558 4.466 4.563 0.547 194 (rho-) 11 -213 133 -0.431 0.183 7.010 7.064 0.740 195 (rho+) 11 213 133 -0.353 -0.066 10.146 10.183 0.798 196 pi- 1 -211 133 0.102 -0.033 4.503 4.506 0.140 197 (rho+) 11 213 133 -0.219 1.112 11.421 11.483 0.376 198 (rho-) 11 -213 133 0.095 0.175 8.377 8.422 0.852 199 (K*+) 11 323 133 0.313 1.072 27.271 27.308 0.892 200 (K*bar0) 11 -313 133 -0.393 -0.506 110.002 110.007 0.892 201 n0 1 2112 133 0.407 0.155 135.329 135.333 0.940 202 (eta) 11 221 133 -0.267 -0.455 280.636 280.637 0.547 203 (string) 11 92 76 0.000 0.000 -1.095 2.142 1.841 204 (pi0) 11 111 203 0.820 0.148 -0.504 0.983 0.135 205 (eta) 11 221 203 -0.820 -0.148 -0.591 1.159 0.547 206 (string) 11 92 78 -1.399 -1.226 -4.848 7.164 4.936 207 (eta) 11 221 206 0.208 -0.463 -1.085 1.317 0.547 208 pi- 1 -211 206 0.000 -0.151 -0.270 0.339 0.140 209 (pi0) 11 111 206 -0.372 -0.341 -0.748 0.912 0.135 210 (rho+) 11 213 206 -0.304 0.401 -0.399 1.004 0.772 211 pi- 1 -211 206 -0.244 -0.967 -1.534 1.835 0.140 212 pi+ 1 211 206 -0.469 0.070 -0.278 0.568 0.140 213 (rho-) 11 -213 206 -0.039 0.175 -0.563 0.954 0.748 214 pi+ 1 211 206 -0.180 0.050 0.029 0.235 0.140 215 (string) 11 92 82 0.000 0.000 51.087 65.990 41.771 216 (omega) 11 223 215 -0.018 0.161 1.705 1.896 0.815 217 (eta) 11 221 215 0.119 -0.313 -2.464 2.547 0.547 218 (rho-) 11 -213 215 -0.539 -0.310 -1.285 1.618 0.762 219 pi+ 1 211 215 0.291 0.083 -1.211 1.256 0.140 220 pbar- 1 -2212 215 -0.051 0.488 -1.005 1.460 0.938 221 p+ 1 2212 215 -0.426 -0.421 0.135 1.121 0.938 222 (pi0) 11 111 215 -0.176 -0.289 0.031 0.366 0.135 223 pi- 1 -211 215 -0.054 0.378 2.330 2.365 0.140 224 (Kbar0) 11 -311 215 0.181 -0.214 9.984 10.001 0.498 225 (eta) 11 221 215 0.493 0.184 14.234 14.254 0.547 226 (K*+) 11 323 215 0.090 0.343 16.551 16.578 0.885 227 (rho-) 11 -213 215 -0.288 -0.404 4.904 4.990 0.777 228 (rho0) 11 113 215 0.406 0.846 2.296 2.574 0.685 229 (rho+) 11 213 215 -0.027 -0.531 4.883 4.966 0.733 230 (K0) 11 311 89 -0.391 0.326 12.085 12.106 0.498 231 pi+ 1 211 89 -0.018 0.020 0.435 0.457 0.140 232 K_S0 1 310 90 -0.156 0.507 13.162 13.182 0.498 233 pi+ 1 211 91 0.083 -0.081 8.766 8.768 0.140 234 pi- 1 -211 91 0.203 0.049 3.050 3.060 0.140 235 (pi0) 11 111 91 0.364 0.353 9.787 9.801 0.135 236 pi+ 1 211 93 0.197 -0.069 3.898 3.906 0.140 237 (pi0) 11 111 93 -0.373 -0.177 3.538 3.564 0.135 238 (pi0) 11 111 94 -0.056 -0.357 2.942 2.967 0.135 239 (pi0) 11 111 94 -0.110 -0.288 3.046 3.064 0.135 240 (pi0) 11 111 94 0.043 -0.018 1.336 1.344 0.135 241 gamma 1 22 95 -0.816 -0.021 7.662 7.706 0.000 242 gamma 1 22 95 -0.173 0.018 1.169 1.182 0.000 243 K- 1 -321 98 1.327 -1.297 9.961 10.144 0.494 244 pi+ 1 211 98 -0.028 -0.048 0.620 0.638 0.140 245 K_L0 1 130 99 -0.397 -0.100 3.761 3.816 0.498 246 (Kbar0) 11 -311 100 0.731 0.323 4.179 4.284 0.498 247 pi- 1 -211 100 0.242 -0.256 0.986 1.056 0.140 248 gamma 1 22 101 0.344 0.351 1.617 1.690 0.000 249 gamma 1 22 101 -0.024 -0.062 -0.004 0.067 0.000 250 (K0) 11 311 102 0.554 0.283 2.411 2.539 0.498 251 pi+ 1 211 102 0.082 0.307 2.093 2.121 0.140 252 pi+ 1 211 104 0.454 0.135 0.583 0.764 0.140 253 (pi0) 11 111 104 -0.052 0.354 1.325 1.379 0.135 254 pi+ 1 211 106 0.406 0.057 0.557 0.705 0.140 255 (pi0) 11 111 106 0.209 0.283 1.561 1.605 0.135 256 pi+ 1 211 107 0.382 -0.128 0.305 0.524 0.140 257 pi- 1 -211 107 0.257 0.550 0.905 1.099 0.140 258 gamma 1 22 108 0.367 -0.058 1.702 1.742 0.000 259 gamma 1 22 108 0.011 -0.009 0.009 0.016 0.000 260 pi+ 1 211 109 -0.166 0.416 0.874 0.992 0.140 261 pi- 1 -211 109 -0.186 0.582 0.098 0.635 0.140 262 gamma 1 22 110 -0.853 0.273 0.234 0.926 0.000 263 (pi0) 11 111 110 -0.062 0.334 0.439 0.571 0.135 264 gamma 1 22 111 -0.068 0.425 0.379 0.573 0.000 265 gamma 1 22 111 -0.236 0.581 -0.123 0.639 0.000 266 K+ 1 321 112 -0.359 0.419 0.121 0.750 0.494 267 pi- 1 -211 112 -0.387 0.031 -0.268 0.492 0.140 268 (Kbar0) 11 -311 113 0.113 -0.334 0.352 0.704 0.498 269 pi- 1 -211 113 -0.321 -0.524 0.104 0.639 0.140 270 pi+ 1 211 114 0.125 -0.052 0.094 0.216 0.140 271 (pi0) 11 111 114 0.044 0.518 -0.215 0.578 0.135 272 pi- 1 -211 115 -0.658 -0.004 -0.164 0.692 0.140 273 (pi0) 11 111 115 0.006 0.142 0.412 0.457 0.135 274 gamma 1 22 117 0.003 0.090 0.158 0.181 0.000 275 (rho0) 11 113 117 0.105 -0.129 -0.192 0.784 0.741 276 gamma 1 22 118 0.009 -0.110 0.076 0.134 0.000 277 gamma 1 22 118 -0.124 -0.267 0.031 0.296 0.000 278 pi+ 1 211 120 0.408 -0.277 0.136 0.530 0.140 279 (pi0) 11 111 120 -0.144 0.105 0.208 0.305 0.135 280 pi- 1 -211 121 0.114 0.175 -0.467 0.531 0.140 281 (pi0) 11 111 121 0.094 -0.504 -1.583 1.669 0.135 282 pi+ 1 211 122 -0.013 0.051 -0.836 0.850 0.140 283 pi- 1 -211 122 -0.420 0.585 -1.732 1.881 0.140 284 (pi0) 11 111 122 0.065 0.220 -0.418 0.496 0.135 285 pi- 1 -211 124 0.124 0.017 -0.131 0.229 0.140 286 (pi0) 11 111 124 -0.250 0.544 -1.936 2.031 0.135 287 pi+ 1 211 125 -0.031 -0.134 -3.125 3.132 0.140 288 pi- 1 -211 125 0.229 0.217 -7.892 7.900 0.140 289 (pi0) 11 111 125 0.376 -0.035 -5.412 5.427 0.135 290 pi+ 1 211 128 0.632 0.254 -28.966 28.974 0.140 291 (pi0) 11 111 128 0.376 0.544 -14.670 14.685 0.135 292 pi- 1 -211 129 -0.246 0.045 -3.047 3.061 0.140 293 (pi0) 11 111 129 -0.371 -0.354 -1.511 1.602 0.135 294 (K0) 11 311 130 -0.107 0.242 -109.086 109.087 0.498 295 pi+ 1 211 130 -0.335 -0.247 -68.204 68.205 0.140 296 K_S0 1 310 131 0.390 0.316 -67.844 67.847 0.498 297 gamma 1 22 132 -0.038 -0.107 -5.036 5.038 0.000 298 gamma 1 22 132 -0.066 -0.132 -17.619 17.619 0.000 299 (K0) 11 311 136 -0.136 -0.504 -1.236 1.431 0.498 300 pi+ 1 211 136 0.092 0.116 -0.804 0.829 0.140 301 K- 1 -321 137 -0.329 0.104 -0.372 0.708 0.494 302 K+ 1 321 137 -0.087 0.128 -0.218 0.561 0.494 303 K- 1 -321 138 -0.945 0.556 -0.965 1.542 0.494 304 pi+ 1 211 138 0.065 -0.055 -0.247 0.296 0.140 305 p+ 1 2212 142 0.081 0.974 -9.594 9.689 0.938 306 pi+ 1 211 142 0.057 0.037 -1.805 1.811 0.140 307 pi- 1 -211 143 -0.101 -0.050 -1.689 1.698 0.140 308 pi+ 1 211 143 -0.594 0.161 -3.380 3.439 0.140 309 (pi0) 11 111 143 -0.032 0.235 -1.111 1.144 0.135 310 pbar- 1 -2212 144 0.093 -0.009 -21.794 21.814 0.938 311 pi- 1 -211 144 0.011 0.256 -6.776 6.782 0.140 312 pi+ 1 211 145 0.362 0.335 -24.335 24.340 0.140 313 pi- 1 -211 145 -0.136 -0.107 -8.283 8.286 0.140 314 pi+ 1 211 146 0.093 0.082 -19.764 19.764 0.140 315 (pi0) 11 111 146 1.464 -0.531 -63.252 63.271 0.135 316 pi- 1 -211 147 -0.117 0.078 -10.510 10.512 0.140 317 (pi0) 11 111 147 0.813 -0.442 -32.204 32.218 0.135 318 gamma 1 22 148 -0.044 -0.223 -4.620 4.626 0.000 319 gamma 1 22 148 -0.063 -0.133 -5.924 5.926 0.000 320 pi+ 1 211 149 0.127 0.045 -17.493 17.494 0.140 321 (pi0) 11 111 149 -0.077 -0.421 -7.253 7.267 0.135 322 pi+ 1 211 151 -0.579 -0.635 -1.530 1.761 0.140 323 (pi0) 11 111 151 0.220 -0.708 -1.464 1.647 0.135 324 pi- 1 -211 155 1.286 -0.221 -1.210 1.785 0.140 325 pi+ 1 211 155 0.270 0.331 -0.625 0.770 0.140 326 pi+ 1 211 157 0.658 0.569 -0.553 1.040 0.140 327 pi- 1 -211 157 0.201 -0.034 -0.142 0.285 0.140 328 (pi0) 11 111 157 0.692 0.365 -1.008 1.283 0.135 329 K+ 1 321 158 1.613 -0.570 0.228 1.795 0.494 330 pi- 1 -211 158 0.321 0.125 -0.064 0.377 0.140 331 K- 1 -321 159 0.671 0.406 -0.400 1.009 0.494 332 (pi0) 11 111 159 -0.017 -0.144 -0.013 0.198 0.135 333 pi+ 1 211 160 0.396 -0.227 0.226 0.528 0.140 334 pi- 1 -211 160 0.072 0.184 0.033 0.244 0.140 335 (K0) 11 311 162 0.229 -0.086 0.524 0.763 0.498 336 gamma 1 22 162 0.526 -0.621 1.116 1.381 0.000 337 K- 1 -321 163 0.762 -0.741 1.487 1.893 0.494 338 (pi0) 11 111 163 0.569 -0.238 0.287 0.694 0.135 339 pi+ 1 211 164 0.392 -0.186 0.664 0.806 0.140 340 (pi0) 11 111 164 -0.141 -0.694 1.733 1.877 0.135 341 K+ 1 321 165 0.582 -0.782 1.449 1.815 0.494 342 pi- 1 -211 165 0.321 0.130 0.450 0.585 0.140 343 pi+ 1 211 167 -0.073 0.054 0.078 0.184 0.140 344 (pi0) 11 111 167 0.858 -0.748 1.630 1.993 0.135 345 gamma 1 22 168 -0.081 -0.379 1.143 1.207 0.000 346 gamma 1 22 168 -0.063 -0.120 0.680 0.694 0.000 347 gamma 1 22 169 0.006 -0.230 0.090 0.247 0.000 348 pi- 1 -211 169 -0.009 -0.070 0.070 0.171 0.140 349 pi+ 1 211 169 -0.004 0.125 0.060 0.197 0.140 350 gamma 1 22 172 -0.285 -0.095 0.474 0.561 0.000 351 gamma 1 22 172 -0.219 0.490 0.626 0.825 0.000 352 gamma 1 22 174 -0.041 0.152 0.745 0.761 0.000 353 gamma 1 22 174 -0.431 0.023 0.318 0.536 0.000 354 pi+ 1 211 177 -0.164 0.232 1.037 1.084 0.140 355 (pi0) 11 111 177 -0.644 1.791 1.937 2.719 0.135 356 pi- 1 -211 182 0.172 0.237 1.233 1.275 0.140 357 (pi0) 11 111 182 -0.372 0.667 1.062 1.315 0.135 358 pi+ 1 211 184 0.060 -0.058 0.258 0.305 0.140 359 (pi0) 11 111 184 0.251 1.308 5.350 5.515 0.135 360 pbar- 1 -2212 185 -0.919 -0.550 4.272 4.503 0.938 361 pi- 1 -211 185 -0.391 -0.231 2.443 2.488 0.140 362 p+ 1 2212 186 0.003 -0.652 6.979 7.072 0.938 363 pi+ 1 211 186 -0.261 -0.215 2.523 2.549 0.140 364 Lambdabar0 1 -3122 188 -2.136 0.180 18.672 18.828 1.116 365 (pi0) 11 111 188 -0.303 0.247 2.536 2.569 0.135 366 K_L0 1 130 189 -0.099 -0.213 4.841 4.872 0.498 367 K_S0 1 310 189 -0.138 -0.500 5.374 5.422 0.498 368 (Kbar0) 11 -311 190 -0.971 -1.735 10.575 10.772 0.498 369 (pi0) 11 111 190 -0.032 -0.759 3.258 3.348 0.135 370 pi- 1 -211 191 -0.830 0.504 12.697 12.735 0.140 371 (pi0) 11 111 191 0.090 0.135 1.539 1.554 0.135 372 gamma 1 22 193 0.401 0.631 3.039 3.130 0.000 373 gamma 1 22 193 0.108 -0.072 1.427 1.433 0.000 374 pi- 1 -211 194 -0.171 0.397 5.106 5.127 0.140 375 (pi0) 11 111 194 -0.260 -0.214 1.903 1.938 0.135 376 pi+ 1 211 195 -0.475 0.099 3.869 3.902 0.140 377 (pi0) 11 111 195 0.122 -0.165 6.277 6.282 0.135 378 pi+ 1 211 197 -0.121 0.924 8.865 8.915 0.140 379 (pi0) 11 111 197 -0.098 0.189 2.556 2.569 0.135 380 pi- 1 -211 198 0.303 0.345 6.818 6.835 0.140 381 (pi0) 11 111 198 -0.208 -0.170 1.558 1.587 0.135 382 K+ 1 321 199 0.429 0.502 17.248 17.268 0.494 383 (pi0) 11 111 199 -0.116 0.569 10.023 10.040 0.135 384 K- 1 -321 200 -0.317 -0.087 79.113 79.115 0.494 385 pi+ 1 211 200 -0.076 -0.420 30.889 30.892 0.140 386 gamma 1 22 202 -0.309 -0.030 152.419 152.419 0.000 387 gamma 1 22 202 0.043 -0.425 128.217 128.218 0.000 388 gamma 1 22 204 0.401 0.106 -0.181 0.452 0.000 389 gamma 1 22 204 0.419 0.043 -0.323 0.531 0.000 390 gamma 1 22 205 -0.183 0.180 -0.274 0.375 0.000 391 gamma 1 22 205 -0.637 -0.328 -0.317 0.784 0.000 392 gamma 1 22 207 0.106 0.045 -0.586 0.597 0.000 393 gamma 1 22 207 0.102 -0.509 -0.499 0.720 0.000 394 gamma 1 22 209 -0.319 -0.330 -0.606 0.760 0.000 395 gamma 1 22 209 -0.052 -0.011 -0.142 0.152 0.000 396 pi+ 1 211 210 -0.086 0.197 -0.577 0.631 0.140 397 (pi0) 11 111 210 -0.219 0.204 0.178 0.373 0.135 398 pi- 1 -211 213 -0.091 -0.231 -0.061 0.292 0.140 399 (pi0) 11 111 213 0.053 0.406 -0.502 0.662 0.135 400 pi+ 1 211 216 0.061 0.065 0.893 0.908 0.140 401 pi- 1 -211 216 -0.035 -0.134 0.088 0.215 0.140 402 (pi0) 11 111 216 -0.043 0.230 0.724 0.773 0.135 403 gamma 1 22 217 0.269 -0.341 -2.186 2.229 0.000 404 gamma 1 22 217 -0.150 0.028 -0.278 0.317 0.000 405 pi- 1 -211 218 -0.050 0.209 -0.306 0.399 0.140 406 (pi0) 11 111 218 -0.489 -0.519 -0.979 1.219 0.135 407 gamma 1 22 222 -0.021 0.000 -0.025 0.033 0.000 408 gamma 1 22 222 -0.155 -0.289 0.057 0.333 0.000 409 K_L0 1 130 224 0.181 -0.214 9.984 10.001 0.498 410 pi+ 1 211 225 0.132 0.153 3.380 3.389 0.140 411 pi- 1 -211 225 0.287 -0.047 7.388 7.395 0.140 412 (pi0) 11 111 225 0.074 0.077 3.466 3.470 0.135 413 K+ 1 321 226 -0.166 0.377 9.733 9.755 0.494 414 (pi0) 11 111 226 0.256 -0.034 6.818 6.824 0.135 415 pi- 1 -211 227 0.038 -0.044 3.405 3.409 0.140 416 (pi0) 11 111 227 -0.326 -0.360 1.498 1.581 0.135 417 pi- 1 -211 228 -0.158 0.276 0.647 0.734 0.140 418 pi+ 1 211 228 0.564 0.570 1.650 1.840 0.140 419 pi+ 1 211 229 0.125 -0.504 4.497 4.529 0.140 420 (pi0) 11 111 229 -0.152 -0.028 0.386 0.437 0.135 421 K_L0 1 130 230 -0.391 0.326 12.085 12.106 0.498 422 gamma 1 22 235 0.080 0.015 1.852 1.854 0.000 423 gamma 1 22 235 0.285 0.338 7.935 7.947 0.000 424 gamma 1 22 237 -0.194 -0.153 1.732 1.750 0.000 425 e- 1 11 237 -0.068 -0.009 0.688 0.691 0.001 426 e+ 1 -11 237 -0.110 -0.015 1.118 1.124 0.001 427 gamma 1 22 238 -0.002 -0.304 2.532 2.550 0.000 428 gamma 1 22 238 -0.055 -0.053 0.410 0.417 0.000 429 gamma 1 22 239 -0.142 -0.236 2.469 2.485 0.000 430 gamma 1 22 239 0.032 -0.052 0.576 0.580 0.000 431 gamma 1 22 240 0.087 -0.028 0.682 0.688 0.000 432 gamma 1 22 240 -0.044 0.010 0.655 0.656 0.000 433 K_S0 1 310 246 0.731 0.323 4.179 4.284 0.498 434 K_S0 1 310 250 0.554 0.283 2.411 2.539 0.498 435 gamma 1 22 253 -0.062 0.358 1.313 1.363 0.000 436 gamma 1 22 253 0.011 -0.004 0.012 0.016 0.000 437 gamma 1 22 255 0.118 0.114 0.990 1.004 0.000 438 gamma 1 22 255 0.091 0.168 0.571 0.602 0.000 439 gamma 1 22 263 -0.013 0.296 0.401 0.499 0.000 440 gamma 1 22 263 -0.049 0.038 0.037 0.072 0.000 441 K_L0 1 130 268 0.113 -0.334 0.352 0.704 0.498 442 gamma 1 22 271 -0.048 0.178 -0.083 0.203 0.000 443 gamma 1 22 271 0.092 0.339 -0.131 0.375 0.000 444 gamma 1 22 273 -0.009 0.021 -0.003 0.023 0.000 445 gamma 1 22 273 0.016 0.121 0.416 0.433 0.000 446 pi- 1 -211 275 -0.234 -0.186 -0.242 0.409 0.140 447 pi+ 1 211 275 0.340 0.056 0.049 0.375 0.140 448 gamma 1 22 279 -0.141 0.131 0.157 0.248 0.000 449 gamma 1 22 279 -0.003 -0.026 0.050 0.057 0.000 450 gamma 1 22 281 0.031 -0.015 -0.150 0.154 0.000 451 gamma 1 22 281 0.063 -0.489 -1.433 1.516 0.000 452 gamma 1 22 284 -0.033 0.080 -0.087 0.123 0.000 453 gamma 1 22 284 0.098 0.139 -0.331 0.373 0.000 454 gamma 1 22 286 -0.092 0.358 -1.184 1.240 0.000 455 gamma 1 22 286 -0.158 0.186 -0.753 0.791 0.000 456 gamma 1 22 289 0.359 -0.004 -4.573 4.587 0.000 457 gamma 1 22 289 0.017 -0.032 -0.839 0.840 0.000 458 gamma 1 22 291 0.265 0.475 -12.023 12.035 0.000 459 gamma 1 22 291 0.111 0.069 -2.647 2.650 0.000 460 gamma 1 22 293 -0.025 -0.061 -0.326 0.332 0.000 461 gamma 1 22 293 -0.346 -0.294 -1.186 1.269 0.000 462 K_L0 1 130 294 -0.107 0.242 -109.086 109.087 0.498 463 K_L0 1 130 299 -0.136 -0.504 -1.236 1.431 0.498 464 gamma 1 22 309 0.024 -0.002 -0.054 0.060 0.000 465 gamma 1 22 309 -0.057 0.238 -1.056 1.084 0.000 466 gamma 1 22 315 0.171 -0.100 -7.012 7.015 0.000 467 gamma 1 22 315 1.293 -0.430 -56.240 56.257 0.000 468 gamma 1 22 317 0.644 -0.387 -27.370 27.380 0.000 469 gamma 1 22 317 0.169 -0.056 -4.834 4.837 0.000 470 gamma 1 22 321 -0.099 -0.238 -4.832 4.838 0.000 471 gamma 1 22 321 0.022 -0.183 -2.422 2.429 0.000 472 gamma 1 22 323 0.089 -0.365 -0.601 0.709 0.000 473 gamma 1 22 323 0.130 -0.343 -0.863 0.938 0.000 474 gamma 1 22 328 0.325 0.141 -0.357 0.503 0.000 475 gamma 1 22 328 0.367 0.224 -0.651 0.780 0.000 476 gamma 1 22 332 0.046 -0.008 0.008 0.047 0.000 477 gamma 1 22 332 -0.063 -0.136 -0.021 0.152 0.000 478 K_L0 1 130 335 0.229 -0.086 0.524 0.763 0.498 479 gamma 1 22 338 0.551 -0.226 0.301 0.667 0.000 480 gamma 1 22 338 0.018 -0.012 -0.015 0.026 0.000 481 gamma 1 22 340 -0.043 -0.108 0.420 0.436 0.000 482 gamma 1 22 340 -0.098 -0.586 1.313 1.441 0.000 483 gamma 1 22 344 0.831 -0.730 1.614 1.956 0.000 484 gamma 1 22 344 0.027 -0.018 0.017 0.037 0.000 485 gamma 1 22 355 -0.446 1.158 1.179 1.711 0.000 486 gamma 1 22 355 -0.198 0.633 0.758 1.008 0.000 487 gamma 1 22 357 -0.215 0.469 0.792 0.945 0.000 488 gamma 1 22 357 -0.157 0.199 0.270 0.370 0.000 489 gamma 1 22 359 0.156 0.470 1.943 2.006 0.000 490 gamma 1 22 359 0.095 0.837 3.407 3.510 0.000 491 gamma 1 22 365 -0.163 0.204 1.410 1.434 0.000 492 gamma 1 22 365 -0.140 0.042 1.125 1.135 0.000 493 K_L0 1 130 368 -0.971 -1.735 10.575 10.772 0.498 494 gamma 1 22 369 0.047 -0.325 1.270 1.312 0.000 495 gamma 1 22 369 -0.079 -0.434 1.988 2.037 0.000 496 gamma 1 22 371 -0.029 0.019 0.127 0.131 0.000 497 gamma 1 22 371 0.119 0.117 1.413 1.422 0.000 498 gamma 1 22 375 -0.153 -0.134 1.475 1.489 0.000 499 gamma 1 22 375 -0.107 -0.080 0.428 0.448 0.000 500 gamma 1 22 377 0.147 -0.144 5.828 5.832 0.000 501 gamma 1 22 377 -0.025 -0.022 0.449 0.450 0.000 502 gamma 1 22 379 -0.035 0.182 2.069 2.078 0.000 503 gamma 1 22 379 -0.063 0.006 0.487 0.491 0.000 504 gamma 1 22 381 -0.155 -0.116 0.729 0.754 0.000 505 gamma 1 22 381 -0.053 -0.054 0.829 0.833 0.000 506 gamma 1 22 383 -0.102 0.234 3.663 3.672 0.000 507 gamma 1 22 383 -0.014 0.335 6.360 6.368 0.000 508 gamma 1 GenInputManager Begin processing 8th record. Run 222530, Trigger 7 22 397 -0.040 0.126 0.058 0.144 0.000 509 gamma 1 22 397 -0.179 0.078 0.120 0.229 0.000 510 gamma 1 22 399 -0.025 0.082 -0.174 0.194 0.000 511 gamma 1 22 399 0.078 0.325 -0.328 0.468 0.000 512 gamma 1 22 402 0.036 0.065 0.332 0.340 0.000 513 gamma 1 22 402 -0.079 0.165 0.392 0.433 0.000 514 gamma 1 22 406 -0.208 -0.318 -0.526 0.649 0.000 515 gamma 1 22 406 -0.282 -0.201 -0.453 0.570 0.000 516 gamma 1 22 412 0.079 0.002 0.997 1.000 0.000 517 gamma 1 22 412 -0.005 0.075 2.469 2.470 0.000 518 gamma 1 22 414 0.258 -0.024 6.779 6.784 0.000 519 gamma 1 22 414 -0.003 -0.010 0.038 0.039 0.000 520 gamma 1 22 416 -0.091 -0.145 0.358 0.397 0.000 521 gamma 1 22 416 -0.235 -0.215 1.140 1.184 0.000 522 gamma 1 22 420 -0.079 -0.076 0.155 0.190 0.000 523 gamma 1 22 420 -0.073 0.049 0.230 0.246 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 7 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !d! 21 1 1 0.954 -0.184 413.610 413.611 0.000 4 !dbar! 21 -1 2 0.936 -0.899 -218.962 218.966 0.000 5 !g! 21 21 3 -0.572 0.893 233.010 233.012 0.000 6 !c! 21 4 4 4.869 1.428 -15.906 16.696 0.000 7 !g! 21 21 0 10.080 16.198 229.423 230.215 0.000 8 !c! 21 4 0 -5.783 -13.876 -12.319 19.494 1.500 ============================================================================== 9 (cbar) A 12 -4 4 -2.687 -1.366 -12.040 12.502 1.500 10 (uu_1bar) V 11 -2203 2 -0.936 0.899 -554.407 554.409 0.771 11 (d) A 12 1 3 1.199 -1.763 164.805 164.819 0.330 12 (g) I 12 21 3 0.334 0.683 14.717 14.736 0.000 13 (g) I 12 21 0 0.889 1.134 58.068 58.086 0.000 14 (g) I 12 21 7 0.923 0.761 10.461 10.529 0.000 15 (g) I 12 21 7 5.963 7.313 110.390 110.793 0.000 16 (g) I 12 21 7 2.876 7.610 101.462 101.788 0.000 17 (g) I 12 21 0 1.230 0.457 10.036 10.122 0.000 18 (g) I 12 21 0 0.649 -0.068 1.204 1.370 0.000 19 (g) I 12 21 0 0.164 0.210 0.457 0.529 0.000 20 (g) I 12 21 0 0.880 0.316 0.591 1.106 0.000 21 (g) I 12 21 0 -0.649 0.068 -0.629 0.907 0.000 22 (g) I 12 21 0 -0.164 -0.210 -22.241 22.243 0.000 23 (g) I 12 21 0 -0.343 -0.696 -111.711 111.714 0.000 24 (g) I 12 21 0 -0.289 0.681 -47.894 47.900 0.000 25 (g) I 12 21 0 0.325 0.228 -12.535 12.542 0.000 26 (g) I 12 21 0 0.343 0.696 -7.248 7.289 0.000 27 (g) I 12 21 0 0.681 0.076 -2.307 2.407 0.000 28 (g) I 12 21 4 -0.169 0.557 0.034 0.583 0.000 29 (g) I 12 21 4 -1.004 0.443 -2.375 2.616 0.000 30 (g) I 12 21 4 -0.569 -1.181 -134.770 134.776 0.000 31 (dbar) V 11 -1 4 0.488 -0.777 -52.828 52.837 0.330 32 (c) A 12 4 8 -3.954 -2.671 -3.632 6.181 1.500 33 (g) I 12 21 8 -7.934 -4.280 -4.376 10.020 0.000 34 (g) I 12 21 8 -0.262 -1.294 0.014 1.321 0.000 35 (g) I 12 21 8 0.969 -0.794 -0.279 1.283 0.000 36 (g) I 12 21 8 5.715 -4.323 3.063 7.793 0.000 37 (g) I 12 21 0 0.289 -0.681 -1.162 1.377 0.000 38 (g) I 12 21 0 -0.325 -0.228 0.512 0.648 0.000 39 (g) I 12 21 0 -0.880 -0.316 3.780 3.894 0.000 40 (g) I 12 21 0 -1.230 -0.457 32.362 32.388 0.000 41 (g) I 12 21 0 -0.889 -1.134 155.858 155.865 0.000 42 (g) I 12 21 0 -0.681 -0.076 58.138 58.142 0.000 43 (uu_1) V 11 2203 1 -0.954 0.184 244.483 244.486 0.771 ============================================================================== 44 (string) 11 92 9 -3.623 -0.467 -566.447 566.911 22.637 45 (D*-) 11 -413 44 -2.976 -1.663 -17.982 18.412 2.010 46 (pi0) 11 111 44 0.152 0.292 -4.386 4.401 0.135 47 (omega) 11 223 44 0.123 0.028 -54.578 54.584 0.778 48 (Deltabar-) 11 -2214 44 -0.156 -0.032 -66.958 66.969 1.210 49 (rho0) 11 113 44 -0.766 0.908 -422.543 422.545 0.756 50 (string) 11 92 11 13.758 16.538 77.686 869.690 865.946 51 (K*0) 11 313 50 0.655 -0.423 77.483 77.492 0.874 52 (K*bar0) 11 -313 50 0.491 -0.434 55.586 55.597 0.912 53 pi- 1 -211 50 0.463 0.118 19.005 19.012 0.140 54 (pi0) 11 111 50 0.041 0.129 4.755 4.759 0.135 55 pi+ 1 211 50 -0.171 -0.156 21.898 21.899 0.140 56 (rho0) 11 113 50 0.956 0.255 27.866 27.894 0.752 57 (omega) 11 223 50 0.525 1.171 16.893 16.960 0.782 58 (rho-) 11 -213 50 1.646 2.104 45.075 45.163 0.885 59 (rho+) 11 213 50 1.614 1.908 36.032 36.130 0.885 60 pi- 1 -211 50 0.851 2.188 23.562 23.679 0.140 61 (rho0) 11 113 50 2.770 4.313 68.756 68.952 0.834 62 K+ 1 321 50 2.491 2.790 41.988 42.157 0.494 63 (K*-) 11 -323 50 0.112 1.339 21.593 21.653 0.888 64 (eta) 11 221 50 0.502 0.692 1.669 1.953 0.547 65 pi+ 1 211 50 1.317 0.204 7.608 7.725 0.140 66 (rho0) 11 113 50 0.240 0.374 1.027 1.389 0.822 67 (K*0) 11 313 50 -0.169 -0.171 0.794 1.211 0.881 68 (K*bar0) 11 -313 50 0.343 0.624 -0.214 1.201 0.943 69 (K*0) 11 313 50 -0.170 -0.303 -3.541 3.679 0.936 70 (K*bar0) 11 -313 50 0.035 0.035 -73.600 73.605 0.889 71 p+ 1 2212 50 0.164 0.428 -25.528 25.550 0.938 72 pi- 1 -211 50 -0.028 -0.368 -21.060 21.064 0.140 73 (Deltabar-) 11 -2214 50 -0.453 0.477 -58.215 58.233 1.264 74 (rho0) 11 113 50 0.290 -0.253 -5.624 5.696 0.813 75 (rho+) 11 213 50 0.096 -0.086 -9.711 9.749 0.860 76 n0 1 2112 50 -0.046 0.884 -4.234 4.426 0.940 77 pi- 1 -211 50 -0.047 0.520 -0.562 0.780 0.140 78 nbar0 1 -2112 50 -0.082 -0.003 -2.750 2.907 0.940 79 K+ 1 321 50 -0.094 -0.444 -2.826 2.905 0.494 80 (phi) 11 333 50 -0.025 0.176 -3.488 3.638 1.020 81 (phi) 11 333 50 -0.917 0.643 -19.130 19.190 1.022 82 K- 1 -321 50 0.276 -1.308 -65.921 65.936 0.494 83 (rho+) 11 213 50 0.082 -0.882 -97.502 97.508 0.597 84 (string) 11 92 32 -10.135 -16.071 488.761 523.399 186.273 85 (D*0) 11 423 84 -8.462 -4.867 -6.146 11.708 2.007 86 K+ 1 321 84 -2.361 -2.136 -1.018 3.379 0.494 87 (K*-) 11 -323 84 0.096 -0.663 -0.159 1.129 0.895 88 (omega) 11 223 84 -0.055 -0.036 -0.495 0.929 0.783 89 (pi0) 11 111 84 -0.208 -0.076 -0.219 0.339 0.135 90 pi+ 1 211 84 0.656 -0.878 1.155 1.599 0.140 91 (pi0) 11 111 84 0.137 -0.725 -0.275 0.799 0.135 92 pi- 1 -211 84 1.359 -1.300 0.309 1.911 0.140 93 (pi0) 11 111 84 0.251 0.045 0.246 0.379 0.135 94 K+ 1 321 84 0.398 -0.760 0.173 1.005 0.494 95 (Kbar0) 11 -311 84 2.024 -2.279 -0.139 3.091 0.498 96 (rho0) 11 113 84 0.520 -0.110 0.782 1.357 0.974 97 (omega) 11 223 84 -0.271 -0.133 1.276 1.535 0.798 98 (rho-) 11 -213 84 -0.322 -0.253 1.184 1.483 0.795 99 (eta') 11 331 84 0.062 0.213 2.329 2.528 0.958 100 (rho+) 11 213 84 0.084 -0.661 2.754 2.900 0.617 101 (rho0) 11 113 84 0.264 0.169 1.969 2.111 0.693 102 pi- 1 -211 84 -0.436 -0.033 6.832 6.847 0.140 103 pi+ 1 211 84 0.129 -0.088 2.564 2.572 0.140 104 (Sigma0) 11 3212 84 -0.471 -0.196 10.849 10.927 1.193 105 Lambdabar0 1 -3122 84 -0.076 -0.722 32.483 32.510 1.116 106 pi- 1 -211 84 -0.578 -0.323 29.679 29.687 0.140 107 (K*+) 11 323 84 -0.965 0.500 35.353 35.381 0.891 108 K- 1 -321 84 -0.358 -0.346 49.227 49.232 0.494 109 (Delta++) 11 2224 84 -0.894 -0.631 170.545 170.553 1.271 110 (rho0) 11 113 84 -0.658 0.217 147.506 147.509 0.710 111 (D-) 11 -411 45 -2.710 -1.538 -16.584 16.977 1.869 112 (pi0) 11 111 45 -0.266 -0.125 -1.399 1.435 0.135 113 gamma 1 22 46 0.120 0.171 -1.944 1.956 0.000 114 gamma 1 22 46 0.031 0.122 -2.442 2.445 0.000 115 pi- 1 -211 47 0.020 0.065 -34.866 34.866 0.140 116 pi+ 1 211 47 -0.048 0.127 -7.134 7.137 0.140 117 (pi0) 11 111 47 0.151 -0.163 -12.578 12.581 0.135 118 nbar0 1 -2112 48 -0.199 0.164 -55.019 55.028 0.940 119 pi- 1 -211 48 0.042 -0.196 -11.939 11.941 0.140 120 pi+ 1 211 49 0.116 0.135 -74.328 74.328 0.140 121 pi- 1 -211 49 -0.882 0.772 -348.215 348.217 0.140 122 (K0) 11 311 51 0.207 -0.423 39.072 39.078 0.498 123 (pi0) 11 111 51 0.448 0.000 38.412 38.414 0.135 124 K- 1 -321 52 0.276 -0.120 44.789 44.792 0.494 125 pi+ 1 211 52 0.216 -0.314 10.797 10.805 0.140 126 gamma 1 22 54 -0.019 0.000 0.106 0.108 0.000 127 gamma 1 22 54 0.060 0.129 4.649 4.651 0.000 128 pi- 1 -211 56 0.979 0.290 20.209 20.236 0.140 129 pi+ 1 211 56 -0.024 -0.036 7.657 7.658 0.140 130 pi+ 1 211 57 0.384 0.546 9.343 9.368 0.140 131 pi- 1 -211 57 0.189 0.215 2.032 2.057 0.140 132 (pi0) 11 111 57 -0.048 0.409 5.519 5.536 0.135 133 pi- 1 -211 58 1.376 1.107 28.012 28.068 0.140 134 (pi0) 11 111 58 0.269 0.998 17.063 17.095 0.135 135 pi+ 1 211 59 -0.049 0.066 2.711 2.716 0.140 136 (pi0) 11 111 59 1.663 1.842 33.321 33.414 0.135 137 pi+ 1 211 61 1.779 3.393 51.152 51.295 0.140 138 pi- 1 -211 61 0.990 0.920 17.605 17.657 0.140 139 (Kbar0) 11 -311 63 0.292 0.606 10.302 10.336 0.498 140 pi- 1 -211 63 -0.180 0.733 11.290 11.316 0.140 141 (pi0) 11 111 64 0.190 0.445 0.995 1.115 0.135 142 (pi0) 11 111 64 0.059 0.075 0.220 0.276 0.135 143 (pi0) 11 111 64 0.252 0.171 0.453 0.563 0.135 144 pi+ 1 211 66 -0.256 0.286 0.506 0.650 0.140 145 pi- 1 -211 66 0.496 0.089 0.521 0.738 0.140 146 K+ 1 321 67 0.154 -0.129 0.613 0.812 0.494 147 pi- 1 -211 67 -0.323 -0.042 0.181 0.398 0.140 148 K- 1 -321 68 0.098 0.721 -0.118 0.887 0.494 149 pi+ 1 211 68 0.245 -0.097 -0.096 0.313 0.140 150 K+ 1 321 69 -0.085 -0.165 -3.354 3.395 0.494 151 pi- 1 -211 69 -0.084 -0.138 -0.187 0.283 0.140 152 (Kbar0) 11 -311 70 0.120 0.205 -64.656 64.658 0.498 153 (pi0) 11 111 70 -0.085 -0.170 -8.944 8.947 0.135 154 pbar- 1 -2212 73 -0.144 0.201 -35.525 35.538 0.938 155 (pi0) 11 111 73 -0.309 0.276 -22.691 22.695 0.135 156 pi- 1 -211 74 -0.087 0.168 -2.922 2.932 0.140 157 pi+ 1 211 74 0.377 -0.421 -2.702 2.764 0.140 158 pi+ 1 211 75 0.126 -0.188 -9.306 9.310 0.140 159 (pi0) 11 111 75 -0.030 0.102 -0.404 0.439 0.135 160 K+ 1 321 80 0.004 0.201 -1.598 1.685 0.494 161 K- 1 -321 80 -0.029 -0.026 -1.890 1.953 0.494 162 K_L0 1 130 81 -0.356 0.234 -9.211 9.234 0.498 163 K_S0 1 310 81 -0.561 0.409 -9.919 9.956 0.498 164 pi+ 1 211 83 -0.097 -0.020 -20.130 20.131 0.140 165 (pi0) 11 111 83 0.179 -0.862 -77.372 77.377 0.135 166 (D0) 11 421 85 -7.405 -4.184 -5.397 10.244 1.865 167 gamma 1 22 85 -1.057 -0.683 -0.749 1.465 0.000 168 (Kbar0) 11 -311 87 -0.196 -0.243 -0.082 0.593 0.498 169 pi- 1 -211 87 0.292 -0.421 -0.076 0.536 0.140 170 pi- 1 -211 88 -0.091 0.109 0.115 0.230 0.140 171 pi+ 1 211 88 0.036 -0.135 -0.295 0.355 0.140 172 (pi0) 11 111 88 -0.001 -0.010 -0.316 0.344 0.135 173 gamma 1 22 89 -0.131 -0.109 -0.114 0.205 0.000 174 gamma 1 22 89 -0.076 0.033 -0.105 0.134 0.000 175 gamma 1 22 91 0.113 -0.344 -0.184 0.406 0.000 176 gamma 1 22 91 0.023 -0.381 -0.090 0.393 0.000 177 gamma 1 22 93 0.139 0.038 0.049 0.152 0.000 178 gamma 1 22 93 0.112 0.007 0.197 0.227 0.000 179 K_L0 1 130 95 2.024 -2.279 -0.139 3.091 0.498 180 pi- 1 -211 96 0.041 -0.306 0.747 0.820 0.140 181 pi+ 1 211 96 0.479 0.196 0.035 0.537 0.140 182 pi+ 1 211 97 0.101 -0.104 0.077 0.216 0.140 183 pi- 1 -211 97 -0.106 0.123 0.539 0.580 0.140 184 (pi0) 11 111 97 -0.265 -0.152 0.659 0.739 0.135 185 pi- 1 -211 98 0.143 0.135 0.171 0.296 0.140 186 (pi0) 11 111 98 -0.465 -0.388 1.013 1.188 0.135 187 pi- 1 -211 99 0.001 0.220 0.843 0.883 0.140 188 pi+ 1 211 99 0.052 0.019 0.222 0.268 0.140 189 (eta) 11 221 99 0.010 -0.026 1.263 1.377 0.547 190 pi+ 1 211 100 0.180 -0.251 0.508 0.611 0.140 191 (pi0) 11 111 100 -0.096 -0.410 2.246 2.289 0.135 192 pi+ 1 211 101 0.120 -0.228 0.546 0.620 0.140 193 pi- 1 -211 101 0.144 0.397 1.423 1.491 0.140 194 Lambda0 1 3122 104 -0.376 -0.199 9.665 9.739 1.116 195 gamma 1 22 104 -0.094 0.003 1.184 1.188 0.000 196 (K0) 11 311 107 -0.629 0.033 22.474 22.488 0.498 197 pi+ 1 211 107 -0.336 0.467 12.879 12.893 0.140 198 p+ 1 2212 109 -0.840 -0.362 152.420 152.425 0.938 199 pi+ 1 211 109 -0.054 -0.269 18.125 18.128 0.140 200 pi- 1 -211 110 -0.091 0.354 54.961 54.963 0.140 201 pi+ 1 211 110 -0.568 -0.137 92.544 92.546 0.140 202 mu- 1 13 111 -0.884 -0.996 -6.983 7.110 0.106 203 nu_mubar 1 -14 111 -1.647 -0.436 -6.466 6.687 0.000 204 (K0) 11 311 111 -0.179 -0.105 -3.135 3.181 0.498 205 gamma 1 22 112 -0.095 0.015 -0.302 0.316 0.000 206 gamma 1 22 112 -0.172 -0.140 -1.097 1.119 0.000 207 gamma 1 22 117 0.173 -0.128 -9.726 9.728 0.000 208 gamma 1 22 117 -0.022 -0.035 -2.852 2.853 0.000 209 K_S0 1 310 122 0.207 -0.423 39.072 39.078 0.498 210 gamma 1 22 123 0.207 0.067 17.223 17.224 0.000 211 e+ 1 -11 123 0.205 -0.057 18.020 18.021 0.001 212 e- 1 11 123 0.036 -0.010 3.169 3.169 0.001 213 gamma 1 22 132 -0.003 0.322 4.736 4.747 0.000 214 gamma 1 22 132 -0.044 0.087 0.783 0.789 0.000 215 gamma 1 22 134 -0.014 0.057 1.144 1.145 0.000 216 gamma 1 22 134 0.283 0.941 15.919 15.949 0.000 217 gamma 1 22 136 1.632 1.784 32.229 32.320 0.000 218 gamma 1 22 136 0.031 0.057 1.092 1.094 0.000 219 K_L0 1 130 139 0.292 0.606 10.302 10.336 0.498 220 gamma 1 22 141 0.044 0.014 0.118 0.126 0.000 221 gamma 1 22 141 0.147 0.431 0.877 0.988 0.000 222 gamma 1 22 142 0.001 0.066 0.204 0.214 0.000 223 gamma 1 22 142 0.059 0.010 0.017 0.062 0.000 224 gamma 1 22 143 0.107 0.154 0.251 0.313 0.000 225 gamma 1 22 143 0.145 0.018 0.202 0.250 0.000 226 K_L0 1 130 152 0.120 0.205 -64.656 64.658 0.498 227 gamma 1 22 153 -0.001 0.008 -2.510 2.510 0.000 228 gamma 1 22 153 -0.084 -0.178 -6.434 6.437 0.000 229 gamma 1 22 155 -0.157 0.117 -14.134 14.135 0.000 230 gamma 1 22 155 -0.152 0.159 -8.557 8.560 0.000 231 gamma 1 22 159 0.030 0.062 -0.074 0.101 0.000 232 gamma 1 22 159 -0.060 0.040 -0.331 0.339 0.000 233 gamma 1 22 165 0.009 -0.059 -9.031 9.031 0.000 234 gamma 1 22 165 0.170 -0.803 -68.341 68.346 0.000 235 (Kbar0) 11 -311 166 -3.195 -1.340 -1.693 3.888 0.498 236 pi+ 1 211 166 -0.696 -0.502 -0.713 1.125 0.140 237 pi- 1 -211 166 -1.347 -0.826 -1.008 1.879 0.140 238 (pi0) 11 111 166 -1.566 -1.036 -1.650 2.503 0.135 239 (pi0) 11 111 166 -0.601 -0.480 -0.333 0.849 0.135 240 K_L0 1 130 168 -0.196 -0.243 -0.082 0.593 0.498 241 gamma 1 22 172 0.027 0.028 -0.020 0.044 0.000 242 gamma 1 22 172 -0.028 -0.038 -0.296 0.300 0.000 243 gamma 1 22 184 -0.152 -0.103 0.529 0.560 0.000 244 gamma 1 22 184 -0.113 -0.049 0.131 0.179 0.000 245 gamma 1 22 186 -0.254 -0.285 0.691 0.789 0.000 246 gamma 1 22 186 -0.211 -0.103 0.322 0.399 0.000 247 gamma 1 22 189 0.151 0.130 1.080 1.098 0.000 248 gamma 1 22 189 -0.141 -0.156 0.183 0.279 0.000 249 gamma 1 22 191 -0.125 -0.292 1.737 1.766 0.000 250 gamma 1 22 191 0.029 -0.117 0.509 0.523 0.000 251 K_L0 1 130 196 -0.629 0.033 22.474 22.488 0.498 252 K_L0 1 GenInputManager Begin processing 9th record. Run 222530, Trigger 8 130 204 -0.179 -0.105 -3.135 3.181 0.498 253 K_L0 1 130 235 -3.195 -1.340 -1.693 3.888 0.498 254 gamma 1 22 238 -1.260 -0.787 -1.252 1.943 0.000 255 gamma 1 22 238 -0.305 -0.250 -0.397 0.560 0.000 256 gamma 1 22 239 -0.061 -0.082 -0.005 0.102 0.000 257 gamma 1 22 239 -0.541 -0.398 -0.327 0.747 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 8 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 -0.173 -0.182 196.250 196.250 0.000 4 !dbar! 21 -1 2 0.523 -0.358 -132.080 132.082 0.000 5 !u! 21 2 3 11.565 0.459 128.837 129.355 0.000 6 !g! 21 21 4 -3.678 -3.459 -22.370 22.933 0.000 7 !u! 21 2 0 25.438 27.306 110.878 116.990 0.330 8 !g! 21 21 0 -17.551 -30.306 -4.412 35.298 0.000 ============================================================================== 9 (d) A 12 1 4 6.188 5.687 2.032 8.653 0.330 10 (g) I 12 21 4 2.952 1.781 0.740 3.527 0.000 11 (g) I 12 21 0 0.520 -1.196 -30.546 30.574 0.000 12 (g) I 12 21 0 -0.512 -0.156 -28.111 28.116 0.000 13 (g) I 12 21 0 1.366 1.191 -71.239 71.262 0.000 14 (g) I 12 21 0 0.089 -3.074 -6.725 7.395 0.000 15 (g) I 12 21 0 -1.366 -1.191 -0.812 1.986 0.000 16 (dbar) V 11 -1 8 2.560 -4.957 -1.131 5.702 0.330 17 (dbar) A 12 -1 4 -0.894 -1.938 0.870 2.329 0.330 18 (g) I 12 21 4 -2.630 -1.705 5.445 6.283 0.000 19 (g) I 12 21 4 1.092 0.654 -5.584 5.727 0.000 20 (g) I 12 21 4 0.159 -1.130 -7.452 7.539 0.000 21 (uu_1bar) V 11 -2203 2 -0.523 0.358 -642.915 642.916 0.771 22 (dbar) A 12 -1 4 0.486 0.969 -82.384 82.392 0.330 23 (g) I 12 21 4 -0.939 -0.386 -2.901 3.073 0.000 24 (g) I 12 21 0 -5.217 -0.619 -25.395 25.933 0.000 25 (g) I 12 21 0 -1.041 -0.264 -7.747 7.821 0.000 26 (g) I 12 21 0 -1.583 0.105 -9.326 9.460 0.000 27 (g) I 12 21 0 -1.523 1.208 -2.354 3.053 0.000 28 (g) I 12 21 0 -0.520 1.196 -1.778 2.205 0.000 29 (g) I 12 21 0 0.512 0.156 -0.558 0.773 0.000 30 (g) I 12 21 0 1.200 1.783 0.964 2.356 0.000 31 (g) I 12 21 0 0.837 0.189 1.579 1.797 0.000 32 (g) I 12 21 7 1.665 1.864 2.777 3.736 0.000 33 (g) I 12 21 7 1.658 2.334 8.372 8.848 0.000 34 (g) I 12 21 7 6.899 6.269 23.079 24.891 0.000 35 (g) I 12 21 7 1.638 1.948 6.836 7.294 0.000 36 (u) V 11 2 7 12.501 13.633 65.789 68.341 0.330 37 (s) A 12 3 8 -2.029 0.272 2.090 2.968 0.500 38 (g) I 12 21 0 -0.401 -0.220 0.289 0.541 0.000 39 (g) I 12 21 0 -1.200 -1.783 1.633 2.699 0.000 40 (g) I 12 21 0 2.243 -4.250 2.708 5.516 0.000 41 (g) I 12 21 0 2.400 -1.822 7.280 7.879 0.000 42 (g) I 12 21 0 -0.089 3.074 21.134 21.357 0.000 43 (g) I 12 21 0 -2.243 4.250 47.770 48.011 0.000 44 (g) I 12 21 0 -1.057 0.520 21.605 21.637 0.000 45 (g) I 12 21 0 -0.499 0.379 11.501 11.518 0.000 46 (g) I 12 21 0 -0.837 -0.189 17.087 17.108 0.000 47 (g) I 12 21 0 -2.400 1.822 177.547 177.573 0.000 48 (g) I 12 21 0 0.116 0.558 16.936 16.946 0.000 49 (g) I 12 21 0 1.861 -0.258 40.744 40.788 0.000 50 (g) I 12 21 0 5.217 0.619 89.248 89.402 0.000 51 (g) I 12 21 0 0.499 -0.379 6.164 6.196 0.000 52 (g) I 12 21 0 -0.116 -0.558 6.993 7.016 0.000 53 (g) I 12 21 0 1.057 -0.520 10.431 10.497 0.000 54 (g) I 12 21 3 0.038 0.168 0.147 0.226 0.000 55 (g) I 12 21 3 -0.648 0.371 1.527 1.700 0.000 56 (g) I 12 21 3 -12.016 -1.513 4.894 13.062 0.000 57 (g) I 12 21 3 0.174 -0.021 -0.099 0.201 0.000 58 (g) I 12 21 3 -0.040 -1.786 8.182 8.375 0.000 59 (g) I 12 21 3 -3.359 1.721 13.896 14.399 0.000 60 (g) I 12 21 3 0.934 0.000 3.261 3.392 0.000 61 (g) I 12 21 3 0.968 -0.411 15.128 15.164 0.000 62 (ud_0) V 11 2101 1 0.173 0.182 286.741 286.742 0.579 63 (sbar) A 12 -3 8 -0.031 -0.753 0.755 1.178 0.500 64 (g) I 12 21 8 -0.271 -0.126 -0.116 0.320 0.000 65 (g) I 12 21 8 -0.830 -2.291 -0.110 2.439 0.000 66 (g) I 12 21 8 -3.889 -4.469 -0.592 5.954 0.000 67 (d) V 11 1 8 -11.987 -16.722 -1.283 20.617 0.330 68 (d) A 12 1 0 -1.856 3.380 3.306 5.079 0.000 69 (g) I 12 21 0 -1.861 0.258 1.587 2.459 0.000 70 (g) I 12 21 0 1.041 0.264 0.469 1.171 0.000 71 (g) I 12 21 0 0.401 0.220 -0.031 0.458 0.000 72 (g) I 12 21 0 1.583 -0.105 0.220 1.602 0.000 73 (g) I 12 21 0 1.523 -1.208 -0.225 1.957 0.000 74 (dbar) V 11 -1 0 1.856 -3.380 -4.604 6.006 0.000 75 (s) A 12 3 0 0.524 0.284 -2.306 2.381 0.000 76 (sbar) V 11 -3 0 -0.524 -0.284 -3.433 3.484 0.000 77 (cluster) 11 91 75 0.000 0.000 -5.738 5.865 1.214 78 (eta') 11 331 77 0.000 0.000 -4.527 4.627 0.958 79 (dbar) A 12 -1 22 0.486 0.969 -82.384 82.392 0.330 80 (g) I 12 21 77 0.000 0.000 -1.211 1.238 0.256 81 (g) I 12 21 23 -0.939 -0.386 -2.901 3.073 0.000 82 (g) I 12 21 24 -5.217 -0.619 -25.395 25.933 0.000 83 (g) I 12 21 25 -1.041 -0.264 -7.747 7.821 0.000 84 (g) I 12 21 26 -1.583 0.105 -9.326 9.460 0.000 85 (g) I 12 21 27 -1.523 1.208 -2.354 3.053 0.000 86 (g) I 12 21 28 -0.520 1.196 -1.778 2.205 0.000 87 (g) I 12 21 29 0.512 0.156 -0.558 0.773 0.000 88 (g) I 12 21 30 1.200 1.783 0.964 2.356 0.000 89 (g) I 12 21 31 0.837 0.189 1.579 1.797 0.000 90 (g) I 12 21 32 1.665 1.864 2.777 3.736 0.000 91 (g) I 12 21 33 1.658 2.334 8.372 8.848 0.000 92 (g) I 12 21 34 6.899 6.269 23.079 24.891 0.000 93 (g) I 12 21 35 1.638 1.948 6.836 7.294 0.000 94 (u) V 11 2 36 12.501 13.633 65.789 68.341 0.330 ============================================================================== 95 (string) 11 92 9 11.798 -1.915 -135.791 157.215 78.322 96 pi- 1 -211 95 2.255 1.594 0.202 2.773 0.140 97 pi+ 1 211 95 2.675 2.241 1.045 3.645 0.140 98 (rho-) 11 -213 95 2.834 2.255 1.389 3.956 0.773 99 pi+ 1 211 95 0.942 1.358 -0.410 1.709 0.140 100 (eta) 11 221 95 0.430 -0.463 -0.737 1.115 0.547 101 (rho-) 11 -213 95 -0.321 0.211 -5.751 5.804 0.678 102 (eta) 11 221 95 0.171 -0.408 -1.811 1.943 0.547 103 pi+ 1 211 95 0.559 0.087 -2.612 2.677 0.140 104 (pi0) 11 111 95 -0.388 0.282 -12.662 12.672 0.135 105 (eta) 11 221 95 0.713 -0.091 -16.347 16.372 0.547 106 n0 1 2112 95 0.242 0.388 -27.792 27.812 0.940 107 (eta) 11 221 95 -0.132 -0.265 -10.432 10.450 0.547 108 Lambdabar0 1 -3122 95 0.092 -0.301 -38.414 38.431 1.116 109 K- 1 -321 95 0.488 0.269 -4.097 4.164 0.494 110 (K*+) 11 323 95 -0.553 -1.334 -5.869 6.115 0.926 111 K- 1 -321 95 1.183 -0.199 -5.020 5.185 0.494 112 (rho+) 11 213 95 -1.447 -1.172 -2.642 3.275 0.526 113 pi- 1 -211 95 0.492 -0.738 -1.966 2.162 0.140 114 (pi0) 11 111 95 -0.282 -0.900 -0.691 1.177 0.135 115 p+ 1 2212 95 -0.025 -1.398 -0.024 1.684 0.938 116 nbar0 1 -2112 95 1.870 -3.327 -1.150 4.095 0.940 117 (string) 11 92 17 -2.796 -3.762 -649.635 664.793 141.077 118 (rho+) 11 213 117 -0.494 -1.278 0.932 1.798 0.698 119 (rho-) 11 -213 117 -1.339 -1.232 2.591 3.340 1.064 120 pi+ 1 211 117 -1.012 0.044 0.422 1.106 0.140 121 pbar- 1 -2212 117 0.222 -0.740 0.767 1.437 0.938 122 n0 1 2112 117 -0.180 -0.116 0.338 1.021 0.940 123 (eta) 11 221 117 -0.194 0.043 0.196 0.615 0.547 124 pi+ 1 211 117 -0.172 -0.283 -1.769 1.805 0.140 125 (pi0) 11 111 117 -0.162 0.247 -0.527 0.619 0.135 126 pbar- 1 -2212 117 0.592 -0.394 -1.870 2.210 0.938 127 n0 1 2112 117 0.340 0.068 -8.520 8.579 0.940 128 (Kbar0) 11 -311 117 0.308 -0.402 -5.684 5.728 0.498 129 (K*+) 11 323 117 -0.077 0.247 -19.761 19.783 0.911 130 (Deltabar--) 11 -2224 117 -0.628 0.035 -616.750 616.752 1.263 131 (string) 11 92 37 -11.255 0.225 814.837 830.913 162.270 132 (phi) 11 333 131 -1.414 -0.633 1.430 2.341 1.019 133 (Kbar0) 11 -311 131 -1.062 -0.107 1.489 1.898 0.498 134 (K*0) 11 313 131 0.040 -0.820 0.778 1.505 0.993 135 (K*-) 11 -323 131 0.177 -1.233 0.840 1.778 0.951 136 (rho+) 11 213 131 0.331 -1.542 1.819 2.561 0.872 137 (Delta-) 11 1114 131 0.864 -1.874 2.622 3.575 1.284 138 pi+ 1 211 131 0.095 0.730 2.583 2.690 0.140 139 nbar0 1 -2112 131 0.979 -0.872 1.832 2.442 0.940 140 (omega) 11 223 131 0.755 -0.405 3.315 3.511 0.778 141 (rho0) 11 113 131 -0.138 0.435 6.215 6.285 0.819 142 (rho-) 11 -213 131 0.126 1.460 15.806 15.894 0.792 143 pi+ 1 211 131 -0.804 0.875 13.103 13.158 0.140 144 (rho-) 11 -213 131 -0.285 1.045 10.274 10.372 0.921 145 (K*+) 11 323 131 -0.620 1.491 18.759 18.851 0.932 146 K- 1 -321 131 -1.308 0.801 16.622 16.700 0.494 147 pi+ 1 211 131 -0.568 0.889 22.208 22.233 0.140 148 n0 1 2112 131 -0.526 0.467 45.988 46.003 0.940 149 nbar0 1 -2112 131 -0.669 0.050 31.998 32.019 0.940 150 (eta') 11 331 131 -0.457 0.772 39.957 39.979 0.958 151 (rho-) 11 -213 131 -0.516 -0.036 50.972 50.981 0.815 152 (rho+) 11 213 131 -0.648 0.306 35.012 35.027 0.733 153 (pi0) 11 111 131 3.829 0.350 81.027 81.118 0.135 154 n0 1 2112 131 2.164 0.433 44.096 44.161 0.940 155 (rho-) 11 -213 131 1.216 -0.542 16.123 16.195 0.739 156 (Deltabar+) 11 -1114 131 0.158 0.201 9.018 9.117 1.314 157 (Delta-) 11 1114 131 0.322 0.289 3.905 4.140 1.306 158 pi+ 1 211 131 -0.821 -0.545 2.804 2.975 0.140 159 pbar- 1 -2212 131 -0.025 -0.443 1.536 1.854 0.938 160 K+ 1 321 131 -1.126 -0.523 1.385 1.924 0.494 161 (phi) 11 333 131 -3.275 0.591 0.980 3.616 1.020 162 K- 1 -321 131 -1.035 -0.208 0.636 1.327 0.494 163 (pi0) 11 111 131 -5.208 -0.790 1.912 5.606 0.135 164 pi+ 1 211 131 -0.049 -0.250 0.251 0.384 0.140 165 pi- 1 -211 131 -0.456 -0.504 3.648 3.714 0.140 166 (rho+) 11 213 131 -0.359 0.276 2.616 2.871 1.095 167 pi- 1 -211 131 -0.378 -0.707 2.338 2.476 0.140 168 pi+ 1 211 131 -0.535 0.804 2.534 2.715 0.140 169 (rho-) 11 -213 131 -0.116 -0.684 4.750 4.853 0.714 170 (omega) 11 223 131 -1.209 0.452 6.697 6.866 0.793 171 K+ 1 321 131 0.118 -0.069 2.220 2.278 0.494 172 (K*bar0) 11 -313 131 0.523 -0.278 12.250 12.298 0.911 173 n0 1 2112 131 -0.595 0.745 12.760 12.830 0.940 174 Lambdabar0 1 -3122 131 0.446 -0.016 19.222 19.259 1.116 175 (K*bar0) 11 -313 131 0.417 -0.292 22.347 22.370 0.873 176 n0 1 2112 131 0.385 0.133 236.161 236.163 0.940 177 (string) 11 92 63 -17.007 -24.361 -1.346 30.509 6.802 178 (K*0) 11 313 177 -0.686 -0.846 0.272 1.440 0.903 179 (omega) 11 223 177 -1.522 -2.901 -0.204 3.372 0.774 180 (Deltabar0) 11 -2114 177 -1.945 -3.718 -0.143 4.342 1.106 181 pi- 1 -211 177 -6.126 -7.473 -0.358 9.671 0.140 182 (Delta+) 11 2214 177 -6.728 -9.424 -0.913 11.684 1.266 183 (string) 11 92 68 2.685 -0.571 0.721 18.732 18.516 184 n0 1 2112 183 -1.190 1.298 1.560 2.533 0.940 185 pbar- 1 -2212 183 -1.332 2.385 2.875 4.076 0.938 186 (rho+) 11 213 183 -0.353 0.257 0.574 1.164 0.914 187 (pi0) 11 111 183 -0.379 -0.132 0.186 0.462 0.135 188 pi- 1 -211 183 2.181 -0.314 -0.111 2.211 0.140 189 pi+ 1 211 183 1.418 0.461 0.068 1.500 0.140 190 (rho0) 11 113 183 2.340 -4.527 -4.430 6.787 0.691 191 pi+ 1 211 78 -0.005 -0.024 -0.348 0.376 0.140 192 pi- 1 -211 78 0.058 0.141 -1.496 1.510 0.140 193 (eta) 11 221 78 -0.053 -0.116 -2.682 2.741 0.547 194 (string) 11 92 79 16.575 30.383 -24.259 253.212 249.659 195 pi+ 1 211 194 0.329 -0.236 -8.778 8.788 0.140 196 (rho-) 11 -213 194 0.280 1.091 -54.387 54.404 0.779 197 (K*bar0) 11 -313 194 -0.226 -0.139 -12.426 12.461 0.884 198 Lambdabar0 1 -3122 194 -1.389 -0.152 -7.317 7.533 1.116 199 pi- 1 -211 194 -2.579 0.246 -25.540 25.672 0.140 200 (Delta++) 11 2224 194 -5.232 -0.979 -19.140 19.911 1.327 201 (rho-) 11 -213 194 0.041 0.756 -2.607 2.868 0.924 202 (omega) 11 223 194 0.183 1.094 -0.762 1.562 0.793 203 (pi0) 11 111 194 0.214 -0.188 -0.259 0.408 0.135 204 pi+ 1 211 194 -1.349 1.066 -0.961 1.974 0.140 205 pi- 1 -211 194 -0.013 0.698 -0.459 0.847 0.140 206 pi+ 1 211 194 0.475 -0.285 -0.371 0.681 0.140 207 (K*-) 11 -323 194 1.287 1.625 3.076 3.815 0.894 208 (K*0) 11 313 194 0.773 0.414 1.346 1.802 0.817 209 (rho+) 11 213 194 0.877 1.307 2.191 2.817 0.812 210 pi- 1 -211 194 2.430 1.991 7.608 8.232 0.140 211 (omega) 11 223 194 4.261 5.193 19.968 21.082 0.771 212 pi+ 1 211 194 0.796 0.788 1.796 2.121 0.140 213 (K*-) 11 -323 194 2.002 1.670 6.053 6.653 0.911 214 (phi) 11 333 194 7.518 7.521 35.660 37.225 1.011 215 K+ 1 321 194 5.896 6.903 31.051 32.355 0.494 216 pi- 1 -211 98 0.349 0.587 0.150 0.713 0.140 217 (pi0) 11 111 98 2.486 1.668 1.240 3.243 0.135 218 pi+ 1 211 100 0.177 -0.045 -0.307 0.383 0.140 219 pi- 1 -211 100 0.098 -0.167 -0.076 0.250 0.140 220 (pi0) 11 111 100 0.155 -0.252 -0.355 0.481 0.135 221 pi- 1 -211 101 -0.238 0.428 -3.560 3.596 0.140 222 (pi0) 11 111 101 -0.084 -0.217 -2.191 2.207 0.135 223 gamma 1 22 102 0.292 -0.156 -1.446 1.483 0.000 224 gamma 1 22 102 -0.121 -0.252 -0.365 0.460 0.000 225 gamma 1 22 104 -0.326 0.190 -8.591 8.599 0.000 226 gamma 1 22 104 -0.062 0.091 -4.071 4.073 0.000 227 pi- 1 -211 105 0.129 -0.032 -6.125 6.128 0.140 228 pi+ 1 211 105 0.298 0.005 -6.353 6.361 0.140 229 (pi0) 11 111 105 0.286 -0.064 -3.869 3.883 0.135 230 (pi0) 11 111 107 0.003 -0.123 -2.469 2.476 0.135 231 (pi0) 11 111 107 -0.102 0.020 -5.483 5.485 0.135 232 (pi0) 11 111 107 -0.033 -0.162 -2.480 2.489 0.135 233 (K0) 11 311 110 -0.632 -0.751 -4.100 4.245 0.498 234 pi+ 1 211 110 0.079 -0.583 -1.769 1.870 0.140 235 pi+ 1 211 112 -1.297 -0.869 -2.219 2.717 0.140 236 (pi0) 11 111 112 -0.150 -0.303 -0.423 0.558 0.135 237 gamma 1 22 114 -0.108 -0.176 -0.122 0.240 0.000 238 gamma 1 22 114 -0.174 -0.724 -0.569 0.937 0.000 239 pi+ 1 211 118 -0.352 -1.233 0.941 1.596 0.140 240 (pi0) 11 111 118 -0.143 -0.046 -0.009 0.202 0.135 241 pi- 1 -211 119 0.122 -0.288 0.268 0.435 0.140 242 (pi0) 11 111 119 -1.461 -0.943 2.323 2.905 0.135 243 gamma 1 22 123 -0.277 -0.121 0.281 0.413 0.000 244 gamma 1 22 123 0.083 0.164 -0.085 0.202 0.000 245 gamma 1 22 125 -0.136 0.239 -0.525 0.592 0.000 246 gamma 1 22 125 -0.025 0.008 -0.002 0.027 0.000 247 K_L0 1 130 128 0.308 -0.402 -5.684 5.728 0.498 248 (K0) 11 311 129 -0.227 0.229 -8.431 8.452 0.498 249 pi+ 1 211 129 0.150 0.018 -11.329 11.331 0.140 250 pbar- 1 -2212 130 -0.340 0.181 -516.661 516.662 0.938 251 pi- 1 -211 130 -0.289 -0.146 -100.089 100.090 0.140 252 K_L0 1 130 132 -0.525 -0.240 0.577 0.956 0.498 253 K_S0 1 310 132 -0.889 -0.393 0.853 1.386 0.498 254 K_L0 1 130 133 -1.062 -0.107 1.489 1.898 0.498 255 K+ 1 321 134 0.015 -0.088 0.132 0.519 0.494 256 pi- 1 -211 134 0.025 -0.731 0.646 0.986 0.140 257 (Kbar0) 11 -311 135 0.188 -1.126 0.954 1.569 0.498 258 pi- 1 -211 135 -0.011 -0.107 -0.114 0.210 0.140 259 pi+ 1 211 136 0.586 -1.132 1.133 1.711 0.140 260 (pi0) 11 111 136 -0.255 -0.411 0.686 0.850 0.135 261 n0 1 2112 137 0.378 -1.392 1.710 2.426 0.940 262 pi- 1 -211 137 0.486 -0.482 0.912 1.149 0.140 263 pi+ 1 211 140 0.363 -0.016 0.614 0.727 0.140 264 pi- 1 -211 140 0.367 -0.328 1.830 1.900 0.140 265 (pi0) 11 111 140 0.025 -0.061 0.871 0.884 0.135 266 pi- 1 -211 141 -0.082 0.409 6.027 6.043 0.140 267 pi+ 1 211 141 -0.056 0.026 0.188 0.242 0.140 268 pi- 1 -211 142 0.012 1.225 14.607 14.659 0.140 269 (pi0) 11 111 142 0.114 0.235 1.200 1.235 0.135 270 pi- 1 -211 144 0.090 0.011 3.809 3.813 0.140 271 (pi0) 11 111 144 -0.375 1.033 6.465 6.559 0.135 272 K+ 1 321 145 -0.343 0.388 6.658 6.696 0.494 273 (pi0) 11 111 145 -0.277 1.103 12.101 12.155 0.135 274 pi+ 1 211 150 -0.043 0.119 11.542 11.544 0.140 275 pi- 1 -211 150 -0.091 0.120 8.938 8.940 0.140 276 (eta) 11 221 150 -0.322 0.533 19.477 19.495 0.547 277 pi- 1 -211 151 -0.545 0.198 43.695 43.699 0.140 278 (pi0) 11 111 151 0.028 -0.234 7.277 7.282 0.135 279 pi+ 1 211 152 0.078 0.135 3.750 3.756 0.140 280 (pi0) 11 111 152 -0.726 0.172 31.262 31.271 0.135 281 gamma 1 22 153 2.586 0.250 56.038 56.098 0.000 282 gamma 1 22 153 1.243 0.100 24.989 25.020 0.000 283 pi- 1 -211 155 0.377 -0.078 8.595 8.604 0.140 284 (pi0) 11 111 155 0.839 -0.464 7.529 7.591 0.135 285 nbar0 1 -2112 156 0.105 -0.113 7.457 7.517 0.940 286 pi+ 1 211 156 0.053 0.314 1.561 1.599 0.140 287 n0 1 2112 157 0.089 0.465 3.003 3.181 0.940 288 pi- 1 -211 157 0.233 -0.176 0.902 0.958 0.140 289 K_L0 1 130 161 -1.271 0.223 0.374 1.433 0.498 290 K_S0 1 310 161 -2.003 0.368 0.606 2.183 0.498 291 gamma 1 22 163 -0.734 -0.099 0.221 0.773 0.000 292 gamma 1 22 163 -4.474 -0.691 1.690 4.833 0.000 293 pi+ 1 211 166 0.360 -0.008 0.674 0.777 0.140 294 (pi0) 11 111 166 -0.720 0.284 1.941 2.094 0.135 295 pi- 1 -211 169 -0.178 -0.066 2.614 2.625 0.140 296 (pi0) 11 111 169 0.062 -0.618 2.136 2.229 0.135 297 pi+ 1 211 170 -0.592 0.437 3.497 3.576 0.140 298 pi- 1 -211 170 -0.347 -0.005 0.972 1.041 0.140 299 (pi0) 11 111 170 -0.270 0.021 2.228 2.249 0.135 300 (Kbar0) 11 -311 172 0.583 -0.007 9.526 9.557 0.498 301 (pi0) 11 111 172 -0.059 -0.271 2.723 2.741 0.135 302 K- 1 -321 175 0.313 -0.029 18.735 18.744 0.494 303 pi+ 1 211 175 0.103 -0.263 3.612 3.626 0.140 304 (K0) 11 311 178 -0.748 -0.620 0.054 1.093 0.498 305 (pi0) 11 111 178 0.062 -0.226 0.218 0.347 0.135 306 pi- 1 -211 179 -0.368 -0.428 -0.113 0.593 0.140 307 pi+ 1 211 179 -1.022 -2.186 -0.183 2.424 0.140 308 (pi0) 11 111 179 -0.132 -0.286 0.093 0.355 0.135 309 pbar- 1 -2212 180 -1.749 -3.246 -0.057 3.805 0.938 310 pi+ 1 211 180 -0.196 -0.472 -0.086 0.537 0.140 311 n0 1 2112 182 -3.982 -5.853 -0.579 7.165 0.940 312 pi+ 1 211 182 -2.746 -3.571 -0.333 4.519 0.140 313 pi+ 1 211 186 0.025 -0.177 0.523 0.570 0.140 314 (pi0) 11 111 186 -0.378 0.434 0.050 0.594 0.135 315 gamma 1 22 187 -0.027 0.024 0.003 0.036 0.000 316 gamma 1 22 187 -0.352 -0.156 0.183 0.426 0.000 317 pi+ 1 211 190 0.232 -0.907 -0.704 1.180 0.140 318 pi- 1 -211 190 2.107 -3.620 -3.726 5.608 0.140 319 gamma 1 22 193 -0.068 0.141 -0.949 0.962 0.000 320 pi- 1 -211 193 -0.031 -0.075 -0.599 0.620 0.140 321 pi+ 1 211 193 0.047 -0.183 -1.134 1.158 0.140 322 pi- 1 -211 196 0.090 0.958 -29.992 30.008 0.140 323 (pi0) 11 111 196 0.190 0.133 -24.394 24.396 0.135 324 K- 1 -321 197 -0.182 0.173 -6.184 6.209 0.494 325 pi+ 1 211 197 -0.044 -0.312 -6.242 6.252 0.140 326 p+ 1 2212 200 -5.142 -0.978 -18.461 19.211 0.938 327 pi+ 1 211 200 -0.090 -0.001 -0.679 0.699 0.140 328 pi- 1 -211 201 0.056 0.061 -1.743 1.750 0.140 329 (pi0) 11 111 201 -0.014 0.695 -0.864 1.118 0.135 330 pi- 1 -211 202 0.120 0.646 -0.211 0.704 0.140 331 pi+ 1 211 202 0.132 0.434 -0.515 0.701 0.140 332 (pi0) 11 111 202 -0.070 0.014 -0.036 0.157 0.135 333 gamma 1 22 203 0.038 0.019 -0.046 0.063 0.000 334 gamma 1 22 203 0.176 -0.207 -0.213 0.345 0.000 335 K- 1 -321 207 0.412 0.443 1.066 1.321 0.494 336 (pi0) 11 111 207 0.874 1.182 2.010 2.494 0.135 337 K+ 1 321 208 0.330 0.327 0.535 0.863 0.494 338 pi- 1 -211 208 0.443 0.087 0.811 0.939 0.140 339 pi+ 1 211 209 0.461 0.156 0.407 0.650 0.140 340 (pi0) 11 111 209 0.416 1.150 1.785 2.168 0.135 341 gamma 1 22 211 3.859 4.900 18.134 19.177 0.000 342 (pi0) 11 111 211 0.402 0.293 1.834 1.906 0.135 343 (Kbar0) 11 -311 213 1.361 0.808 4.036 4.363 0.498 344 pi- 1 -211 213 0.640 0.862 2.018 2.290 0.140 345 K_L0 1 130 214 3.912 3.892 18.196 19.021 0.498 346 K_S0 1 310 214 3.606 3.630 17.463 18.204 0.498 347 gamma 1 22 217 1.703 1.217 0.866 2.265 0.000 348 gamma 1 22 217 0.783 0.451 0.374 0.978 0.000 349 gamma 1 22 220 -0.024 -0.020 -0.042 0.052 0.000 350 gamma 1 22 220 0.179 -0.232 -0.313 0.429 0.000 351 gamma 1 22 222 -0.097 -0.210 -1.646 1.663 0.000 352 gamma 1 22 222 0.013 -0.006 -0.545 0.545 0.000 353 gamma 1 22 229 0.087 -0.055 -0.750 0.757 0.000 354 gamma 1 22 229 0.198 -0.008 -3.119 3.125 0.000 355 gamma 1 22 230 0.036 0.006 -0.244 0.246 0.000 356 gamma 1 22 230 -0.034 -0.129 -2.225 2.229 0.000 357 gamma 1 22 231 -0.076 -0.036 -4.480 4.481 0.000 358 gamma 1 22 231 -0.026 0.055 -1.003 1.004 0.000 359 gamma 1 22 232 -0.081 -0.119 -1.441 1.448 0.000 360 gamma 1 22 232 0.048 -0.043 -1.039 1.041 0.000 361 K_L0 1 130 233 -0.632 -0.751 -4.100 4.245 0.498 362 gamma 1 22 236 -0.088 -0.280 -0.377 0.478 0.000 363 gamma 1 22 236 -0.062 -0.023 -0.046 0.080 0.000 364 gamma 1 22 240 -0.118 -0.088 0.013 0.148 0.000 365 gamma 1 22 240 -0.025 0.043 -0.022 0.054 0.000 366 gamma 1 22 242 -0.199 -0.132 0.401 0.466 0.000 367 gamma 1 22 242 -1.262 -0.812 1.922 2.439 0.000 368 K_L0 1 130 248 -0.227 0.229 -8.431 8.452 0.498 369 K_S0 1 310 257 0.188 -1.126 0.954 1.569 0.498 370 gamma 1 22 260 -0.166 -0.207 0.472 0.542 0.000 371 gamma 1 22 260 -0.089 -0.203 0.214 0.308 0.000 372 gamma 1 22 265 -0.014 -0.093 0.514 0.523 0.000 373 e- 1 11 265 0.024 0.031 0.232 0.235 0.001 374 e+ 1 -11 265 0.015 0.002 0.125 0.126 0.001 375 gamma 1 22 269 0.109 0.147 0.552 0.581 0.000 376 gamma 1 22 269 0.005 0.088 0.648 0.654 0.000 377 gamma 1 22 271 -0.306 0.748 5.026 5.091 0.000 378 gamma 1 22 271 -0.069 0.285 1.439 1.469 0.000 379 gamma 1 22 273 -0.040 0.081 0.678 0.684 0.000 380 e- 1 11 273 -0.202 0.875 9.785 9.826 0.001 381 e+ 1 -11 273 -0.034 0.147 1.638 1.645 0.001 382 gamma 1 22 276 0.138 0.216 4.562 4.570 0.000 383 gamma 1 22 276 -0.460 0.317 14.915 14.925 0.000 384 gamma 1 22 278 -0.010 -0.116 5.249 5.250 0.000 385 gamma 1 22 278 0.038 -0.118 2.028 2.032 0.000 386 gamma 1 22 280 -0.068 -0.006 4.515 4.515 0.000 387 gamma 1 22 280 -0.657 0.177 26.747 26.756 0.000 388 gamma 1 22 284 0.252 -0.083 2.356 2.370 0.000 389 gamma 1 22 284 0.588 -0.380 5.173 5.220 0.000 390 gamma 1 22 294 -0.381 0.187 0.904 0.999 0.000 391 gamma 1 22 294 -0.339 0.097 1.037 1.095 0.000 392 gamma 1 22 296 -0.006 -0.003 0.003 0.008 0.000 393 gamma 1 22 296 0.068 -0.615 2.133 2.221 0.000 394 gamma 1 22 299 -0.236 -0.024 1.546 1.564 0.000 395 gamma 1 22 299 -0.033 0.045 0.682 0.685 0.000 396 K_L0 1 130 300 0.583 -0.007 9.526 9.557 0.498 397 gamma 1 22 301 0.010 -0.195 2.091 2.100 0.000 398 gamma 1 22 301 -0.070 -0.075 0.632 0.640 0.000 399 K_L0 1 130 304 -0.748 -0.620 0.054 1.093 0.498 400 gamma 1 22 305 0.012 -0.219 0.184 0.286 0.000 401 gamma 1 22 305 0.050 -0.007 0.034 0.061 0.000 402 gamma 1 22 308 -0.151 -0.273 0.104 0.329 0.000 403 gamma 1 22 308 0.020 -0.014 -0.011 0.026 0.000 404 gamma 1 22 314 -0.090 0.087 0.067 0.142 0.000 405 gamma 1 22 314 -0.288 0.347 -0.017 0.451 GenInputManager Begin processing 10th record. Run 222530, Trigger 9 0.000 406 gamma 1 22 323 -0.002 0.047 -7.736 7.736 0.000 407 gamma 1 22 323 0.193 0.086 -16.659 16.660 0.000 408 gamma 1 22 329 0.050 0.449 -0.592 0.745 0.000 409 gamma 1 22 329 -0.065 0.246 -0.272 0.372 0.000 410 gamma 1 22 332 -0.073 0.005 -0.082 0.110 0.000 411 gamma 1 22 332 0.003 0.009 0.046 0.047 0.000 412 gamma 1 22 336 0.764 1.086 1.849 2.277 0.000 413 gamma 1 22 336 0.111 0.096 0.160 0.217 0.000 414 gamma 1 22 340 0.092 0.427 0.683 0.811 0.000 415 gamma 1 22 340 0.324 0.723 1.102 1.357 0.000 416 gamma 1 22 342 -0.001 0.015 0.014 0.020 0.000 417 gamma 1 22 342 0.403 0.278 1.821 1.885 0.000 418 K_S0 1 310 343 1.361 0.808 4.036 4.363 0.498 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.001 1960.001 PYEVNT event no. 9 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.999 -0.356 302.150 302.152 0.000 4 !d! 21 1 2 -0.358 -0.414 -160.588 160.589 0.000 5 !g! 21 21 3 -0.319 -2.935 17.494 17.741 0.000 6 !d! 21 1 4 -0.353 -0.408 -158.050 158.051 0.000 7 !g! 21 21 0 -25.267 -14.279 3.508 29.234 0.000 8 !d! 21 1 0 24.596 10.937 -144.064 146.557 0.330 ============================================================================== 9 nbar0 1 -2112 2 -0.237 0.165 -306.399 306.400 0.940 10 (d) A 12 1 8 22.720 11.632 -131.334 133.792 0.330 11 (g) I 12 21 8 1.760 -0.757 -12.544 12.690 0.000 12 (g) I 12 21 3 0.472 1.865 3.337 3.852 0.000 13 (g) I 12 21 3 -0.341 -0.756 0.886 1.214 0.000 14 (g) I 12 21 3 -1.229 -0.026 2.550 2.831 0.000 15 (g) I 12 21 3 -0.966 0.659 0.809 1.422 0.000 16 (ud_0) V 11 2101 1 0.502 -0.011 462.583 462.584 0.579 17 (u) A 12 2 1 0.497 0.367 215.263 215.264 0.330 18 (g) I 12 21 3 -0.282 -0.053 0.864 0.910 0.000 19 (g) I 12 21 3 -0.164 0.024 2.100 2.106 0.000 20 (g) I 12 21 3 0.671 -0.277 31.924 31.932 0.000 21 (g) I 12 21 3 -0.958 2.576 229.413 229.430 0.000 22 (g) I 12 21 3 -0.778 0.060 9.464 9.496 0.000 23 (g) I 12 21 3 0.192 0.333 0.238 0.452 0.000 24 (g) I 12 21 3 2.697 -1.833 0.533 3.304 0.000 25 (g) I 12 21 7 -7.741 -3.618 0.333 8.551 0.000 26 (g) I 12 21 7 -7.002 -4.637 2.116 8.661 0.000 27 (g) I 12 21 7 -7.400 -3.693 0.983 8.329 0.000 28 (g) I 12 21 7 -3.008 -2.269 -0.110 3.769 0.000 29 (ubar) V 11 -2 2 0.595 0.249 -513.010 513.010 0.330 ============================================================================== 30 (string) 11 92 10 22.918 12.605 326.287 618.384 524.644 31 n0 1 2112 30 10.176 5.175 -57.455 58.586 0.940 32 nbar0 1 -2112 30 3.333 1.320 -22.440 22.744 0.940 33 (K0) 11 311 30 9.055 4.446 -51.648 52.626 0.498 34 (K*-) 11 -323 30 0.041 0.093 -1.079 1.435 0.940 35 (omega) 11 223 30 1.817 0.331 -9.585 9.793 0.794 36 (eta') 11 331 30 0.217 -0.107 -0.673 1.195 0.958 37 pi+ 1 211 30 -0.517 -0.285 -0.051 0.609 0.140 38 (rho0) 11 113 30 0.505 0.758 0.736 1.361 0.692 39 (pi0) 11 111 30 0.010 -0.033 0.448 0.470 0.135 40 (rho0) 11 113 30 0.368 -0.059 1.687 1.894 0.775 41 pi- 1 -211 30 -1.146 0.621 1.147 1.742 0.140 42 (pi0) 11 111 30 -0.332 0.083 1.428 1.474 0.135 43 (rho+) 11 213 30 -0.283 -0.135 0.759 1.066 0.679 44 (pi0) 11 111 30 -0.262 0.320 1.561 1.620 0.135 45 pi- 1 -211 30 -0.402 0.424 1.510 1.625 0.140 46 (rho+) 11 213 30 -0.046 -0.305 4.104 4.199 0.834 47 pi- 1 -211 30 0.148 -0.133 2.020 2.035 0.140 48 (rho0) 11 113 30 -0.611 -0.199 10.540 10.595 0.871 49 (omega) 11 223 30 0.211 -0.301 43.085 43.094 0.790 50 pi+ 1 211 30 0.275 0.382 63.067 63.069 0.140 51 pi- 1 -211 30 0.186 0.611 36.789 36.795 0.140 52 (pi0) 11 111 30 -0.075 -0.306 3.027 3.046 0.135 53 p+ 1 2212 30 0.250 -0.098 297.309 297.311 0.938 54 (string) 11 92 17 -22.680 -12.770 -19.889 1035.215 1034.697 55 (eta) 11 221 54 0.113 0.023 94.111 94.113 0.547 56 (eta) 11 221 54 0.202 0.134 40.143 40.148 0.547 57 (pi0) 11 111 54 0.085 0.021 3.430 3.433 0.135 58 (rho+) 11 213 54 -0.165 -0.039 69.450 69.454 0.685 59 (K*0) 11 313 54 0.504 -0.447 19.840 19.868 0.806 60 (K*bar0) 11 -313 54 -0.277 0.716 43.752 43.768 0.893 61 (K*0) 11 313 54 -0.519 0.664 58.134 58.146 0.871 62 K- 1 -321 54 0.042 0.669 85.435 85.439 0.494 63 pi+ 1 211 54 0.079 -0.083 2.057 2.065 0.140 64 (Delta-) 11 1114 54 -0.219 0.199 16.824 16.870 1.206 65 (pi0) 11 111 54 -0.025 0.540 5.524 5.552 0.135 66 (Deltabar+) 11 -1114 54 -0.407 -0.462 18.273 18.323 1.209 67 (rho-) 11 -213 54 -0.073 0.921 21.474 21.521 1.079 68 (rho0) 11 113 54 -0.147 0.132 7.915 7.940 0.606 69 pi+ 1 211 54 0.301 0.044 1.718 1.750 0.140 70 pi- 1 -211 54 -0.046 -0.310 1.568 1.605 0.140 71 (pi0) 11 111 54 1.003 -0.585 -0.120 1.175 0.135 72 pi+ 1 211 54 0.082 0.030 -0.405 0.437 0.140 73 (pi0) 11 111 54 0.047 -0.231 0.679 0.732 0.135 74 (Delta0) 11 2114 54 -2.287 -2.190 0.063 3.409 1.261 75 pi- 1 -211 54 -0.257 0.233 0.244 0.447 0.140 76 (Deltabar+) 11 -1114 54 -1.237 -1.266 0.060 2.156 1.229 77 pi- 1 -211 54 -0.729 -0.289 0.141 0.809 0.140 78 p+ 1 2212 54 -2.026 -1.673 0.693 2.875 0.938 79 pbar- 1 -2212 54 -6.931 -3.587 0.283 7.865 0.938 80 (pi0) 11 111 54 -1.739 -0.822 0.530 2.000 0.135 81 p+ 1 2212 54 -2.170 -1.588 0.361 2.871 0.938 82 nbar0 1 -2112 54 -6.358 -3.679 0.631 7.432 0.940 83 (pi0) 11 111 54 0.415 0.087 -1.408 1.477 0.135 84 n0 1 2112 54 -0.384 -0.388 -3.972 4.118 0.940 85 pbar- 1 -2212 54 0.140 0.132 -6.624 6.693 0.938 86 pi+ 1 211 54 0.061 0.394 -34.450 34.452 0.140 87 n0 1 2112 54 -0.549 -0.033 -78.294 78.302 0.940 88 nbar0 1 -2112 54 0.111 -0.261 -38.063 38.076 0.940 89 pi- 1 -211 54 0.655 0.428 -59.509 59.514 0.140 90 pi+ 1 211 54 -0.254 -0.562 -96.152 96.154 0.140 91 pi- 1 -211 54 0.280 0.356 -194.224 194.225 0.140 92 K_S0 1 310 33 9.055 4.446 -51.648 52.626 0.498 93 K- 1 -321 34 -0.021 0.330 -0.965 1.134 0.494 94 (pi0) 11 111 34 0.062 -0.236 -0.114 0.302 0.135 95 pi- 1 -211 35 0.759 0.188 -3.265 3.360 0.140 96 pi+ 1 211 35 0.155 0.114 -0.692 0.731 0.140 97 (pi0) 11 111 35 0.902 0.030 -5.628 5.702 0.135 98 gamma 1 22 36 0.104 -0.152 -0.061 0.194 0.000 99 (rho0) 11 113 36 0.113 0.045 -0.612 1.001 0.783 100 pi- 1 -211 38 0.369 0.090 0.458 0.611 0.140 101 pi+ 1 211 38 0.136 0.668 0.278 0.750 0.140 102 gamma 1 22 39 -0.012 0.050 0.137 0.146 0.000 103 gamma 1 22 39 0.022 -0.083 0.311 0.323 0.000 104 pi+ 1 211 40 0.094 -0.380 0.837 0.935 0.140 105 pi- 1 -211 40 0.273 0.321 0.850 0.959 0.140 106 gamma 1 22 42 -0.319 0.084 1.422 1.459 0.000 107 gamma 1 22 42 -0.014 -0.002 0.006 0.015 0.000 108 pi+ 1 211 43 0.155 -0.021 0.464 0.509 0.140 109 (pi0) 11 111 43 -0.438 -0.114 0.295 0.557 0.135 110 gamma 1 22 44 -0.247 0.213 1.141 1.187 0.000 111 gamma 1 22 44 -0.015 0.108 0.420 0.434 0.000 112 pi+ 1 211 46 0.074 -0.369 0.855 0.945 0.140 113 (pi0) 11 111 46 -0.120 0.064 3.249 3.255 0.135 114 pi+ 1 211 48 -0.329 -0.295 9.335 9.347 0.140 115 pi- 1 -211 48 -0.281 0.096 1.205 1.249 0.140 116 pi- 1 -211 49 -0.158 -0.063 9.206 9.209 0.140 117 pi+ 1 211 49 0.118 -0.262 23.718 23.720 0.140 118 (pi0) 11 111 49 0.251 0.025 10.161 10.165 0.135 119 gamma 1 22 52 0.000 -0.201 1.409 1.424 0.000 120 gamma 1 22 52 -0.074 -0.106 1.618 1.623 0.000 121 gamma 1 22 55 0.122 0.246 72.285 72.285 0.000 122 gamma 1 22 55 -0.009 -0.223 21.827 21.828 0.000 123 (pi0) 11 111 56 0.028 0.135 23.542 23.543 0.135 124 (pi0) 11 111 56 0.139 -0.039 7.877 7.879 0.135 125 (pi0) 11 111 56 0.035 0.038 8.725 8.726 0.135 126 gamma 1 22 57 0.114 -0.015 2.402 2.405 0.000 127 gamma 1 22 57 -0.029 0.036 1.028 1.029 0.000 128 pi+ 1 211 58 -0.319 0.054 20.226 20.229 0.140 129 (pi0) 11 111 58 0.154 -0.092 49.224 49.225 0.135 130 K+ 1 321 59 0.542 -0.476 14.929 14.955 0.494 131 pi- 1 -211 59 -0.038 0.029 4.911 4.914 0.140 132 (Kbar0) 11 -311 60 -0.054 0.343 15.057 15.069 0.498 133 (pi0) 11 111 60 -0.224 0.373 28.695 28.699 0.135 134 K+ 1 321 61 -0.224 0.087 25.498 25.503 0.494 135 pi- 1 -211 61 -0.295 0.577 32.636 32.643 0.140 136 n0 1 2112 64 -0.292 0.307 15.134 15.169 0.940 137 pi- 1 -211 64 0.073 -0.107 1.690 1.701 0.140 138 gamma 1 22 65 -0.021 0.208 1.522 1.537 0.000 139 gamma 1 22 65 -0.004 0.332 4.002 4.015 0.000 140 nbar0 1 -2112 66 -0.205 -0.207 11.967 12.007 0.940 141 pi+ 1 211 66 -0.202 -0.255 6.306 6.316 0.140 142 pi- 1 -211 67 0.065 1.075 13.657 13.700 0.140 143 (pi0) 11 111 67 -0.138 -0.153 7.817 7.821 0.135 144 pi- 1 -211 68 0.129 0.039 1.037 1.055 0.140 145 pi+ 1 211 68 -0.277 0.093 6.877 6.885 0.140 146 gamma 1 22 71 0.122 -0.035 -0.041 0.133 0.000 147 gamma 1 22 71 0.881 -0.551 -0.079 1.042 0.000 148 gamma 1 22 73 0.079 -0.148 0.318 0.360 0.000 149 gamma 1 22 73 -0.032 -0.083 0.361 0.372 GenInputManager Begin processing 11th record. Run 222530, Trigger 10 0.000 150 p+ 1 2212 74 -2.199 -1.895 -0.054 3.052 0.938 151 pi- 1 -211 74 -0.088 -0.295 0.117 0.358 0.140 152 nbar0 1 -2112 76 -0.817 -1.034 -0.124 1.623 0.940 153 pi+ 1 211 76 -0.420 -0.233 0.184 0.533 0.140 154 gamma 1 22 80 -0.427 -0.139 0.120 0.465 0.000 155 gamma 1 22 80 -1.312 -0.683 0.411 1.535 0.000 156 gamma 1 22 83 0.399 0.048 -1.283 1.345 0.000 157 gamma 1 22 83 0.015 0.039 -0.125 0.132 0.000 158 gamma 1 22 94 0.048 -0.106 0.015 0.117 0.000 159 gamma 1 22 94 0.014 -0.131 -0.129 0.184 0.000 160 gamma 1 22 97 0.542 -0.048 -3.383 3.427 0.000 161 gamma 1 22 97 0.360 0.078 -2.245 2.275 0.000 162 pi- 1 -211 99 0.402 -0.090 -0.414 0.600 0.140 163 pi+ 1 211 99 -0.289 0.136 -0.198 0.401 0.140 164 gamma 1 22 109 -0.305 -0.079 0.127 0.340 0.000 165 gamma 1 22 109 -0.133 -0.035 0.168 0.217 0.000 166 gamma 1 22 113 0.016 0.016 1.348 1.349 0.000 167 gamma 1 22 113 -0.136 0.049 1.901 1.906 0.000 168 gamma 1 22 118 0.233 0.025 10.032 10.035 0.000 169 gamma 1 22 118 0.018 0.000 0.129 0.130 0.000 170 gamma 1 22 123 0.023 0.069 20.244 20.244 0.000 171 gamma 1 22 123 0.005 0.066 3.298 3.299 0.000 172 gamma 1 22 124 0.141 0.013 6.465 6.466 0.000 173 gamma 1 22 124 -0.002 -0.051 1.412 1.413 0.000 174 gamma 1 22 125 0.025 0.087 6.515 6.516 0.000 175 gamma 1 22 125 0.010 -0.049 2.210 2.210 0.000 176 gamma 1 22 129 0.130 -0.001 29.461 29.462 0.000 177 gamma 1 22 129 0.024 -0.091 19.763 19.763 0.000 178 K_S0 1 310 132 -0.054 0.343 15.057 15.069 0.498 179 gamma 1 22 133 -0.118 0.090 7.559 7.561 0.000 180 gamma 1 22 133 -0.106 0.283 21.136 21.138 0.000 181 gamma 1 22 143 -0.083 -0.031 4.918 4.919 0.000 182 gamma 1 22 143 -0.055 -0.122 2.899 2.902 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 10 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !u! 21 2 1 1.396 0.056 387.812 387.814 0.000 4 !ubar! 21 -2 2 0.058 1.209 -395.799 395.800 0.000 5 !g! 21 21 3 -8.778 6.556 24.087 26.462 0.000 6 !g! 21 21 4 5.645 -4.900 -46.483 47.080 0.000 7 !s! 21 3 0 -20.358 30.076 -16.030 39.702 0.500 8 !sbar! 21 -3 0 17.225 -28.420 -6.366 33.840 0.500 ============================================================================== 9 gamma 1 22 4 0.037 0.015 -0.017 0.043 0.000 10 gamma 1 22 3 3.031 -0.099 98.827 98.874 0.000 11 (u) A 12 2 3 12.639 -16.215 39.774 44.775 0.330 12 (g) I 12 21 3 -0.408 -0.267 2.947 2.987 0.000 13 (sbar) V 11 -3 3 -1.551 4.639 27.190 27.631 0.500 14 (s) A 12 3 3 -1.577 6.326 46.025 46.488 0.500 15 (g) I 12 21 3 -0.647 0.257 0.964 1.189 0.000 16 (g) I 12 21 3 -0.133 0.049 -0.065 0.156 0.000 17 (g) I 12 21 0 -0.311 1.382 3.448 3.728 0.000 18 (g) I 12 21 0 0.969 1.274 2.405 2.889 0.000 19 (g) I 12 21 0 1.403 -0.008 0.862 1.647 0.000 20 (g) I 12 21 0 2.479 1.886 -2.824 4.204 0.000 21 (g) I 12 21 0 0.607 0.560 -1.381 1.609 0.000 22 (g) I 12 21 0 0.443 1.007 -30.189 30.209 0.000 23 (g) I 12 21 0 -0.443 -1.007 -30.098 30.119 0.000 24 (g) I 12 21 4 0.391 -0.144 -0.601 0.731 0.000 25 (g) I 12 21 4 0.228 -0.125 -1.123 1.152 0.000 26 (g) I 12 21 4 -0.646 -0.193 -6.910 6.943 0.000 27 (ubar) V 11 -2 4 -5.113 6.932 -255.282 255.427 0.330 28 (s) A 12 3 7 -20.371 26.840 -13.569 36.328 0.500 29 (g) I 12 21 7 -0.084 1.755 -1.555 2.346 0.000 30 (g) I 12 21 7 0.531 0.790 -0.897 1.308 0.000 31 (g) I 12 21 0 -0.969 -1.274 0.313 1.631 0.000 32 (g) I 12 21 0 -1.403 0.008 0.658 1.550 0.000 33 (g) I 12 21 3 -0.431 -0.291 7.934 7.951 0.000 34 (g) I 12 21 3 -0.475 -0.364 92.063 92.065 0.000 35 (g) I 12 21 3 0.451 -1.141 43.130 43.148 0.000 36 (ud_0) V 11 2101 1 -1.396 -0.056 417.800 417.803 0.579 37 (sbar) A 12 -3 8 13.342 -22.920 -4.145 26.847 0.500 38 (g) I 12 21 8 1.390 -2.145 0.120 2.559 0.000 39 (g) I 12 21 8 0.604 -0.976 -0.475 1.242 0.000 40 (g) I 12 21 8 1.455 -1.689 -1.874 2.912 0.000 41 (g) I 12 21 0 -0.607 -0.560 -2.762 2.883 0.000 42 (g) I 12 21 4 -0.203 0.148 -1.448 1.470 0.000 43 (g) I 12 21 4 -1.391 0.385 -74.580 74.594 0.000 44 (g) I 12 21 4 0.386 -0.302 -4.421 4.448 0.000 45 (ud_0bar) V 11 -2101 2 -0.058 -1.209 -513.007 513.009 0.579 46 (u) A 12 2 0 -0.265 3.164 14.801 15.138 0.000 47 (g) I 12 21 0 -2.479 -1.886 5.568 6.380 0.000 48 (ubar) V 11 -2 0 0.265 -3.164 5.827 6.636 0.000 49 (g) A 12 21 0 1.599 -2.567 28.480 28.640 0.000 50 (g) I 12 21 0 0.311 -1.382 86.967 86.979 0.000 51 (g) V 11 21 0 -1.599 2.567 21.119 21.334 0.000 ============================================================================== 52 (string) 11 92 11 10.680 -11.843 69.911 75.393 23.284 53 (rho+) 11 213 52 8.032 -10.401 25.129 28.370 0.823 54 (eta) 11 221 52 2.551 -2.568 7.366 8.226 0.547 55 (rho-) 11 -213 52 1.702 -3.019 7.585 8.369 0.708 56 (eta') 11 331 52 0.219 0.696 5.250 5.386 0.958 57 (rho0) 11 113 52 0.184 -0.050 0.874 0.990 0.423 58 K+ 1 321 52 -2.006 3.499 23.707 24.052 0.494 59 (string) 11 92 14 -2.351 18.194 -274.767 386.491 271.185 60 (K*bar0) 11 -313 59 -1.397 4.533 32.393 32.753 0.965 61 (rho-) 11 -213 59 -0.437 1.336 8.262 8.446 1.049 62 pi+ 1 211 59 0.129 -0.020 0.176 0.260 0.140 63 (rho0) 11 113 59 -0.438 1.130 3.932 4.193 0.804 64 (rho-) 11 -213 59 -0.196 0.471 3.920 4.007 0.658 65 (rho+) 11 213 59 0.701 0.426 0.806 1.350 0.707 66 pi- 1 -211 59 0.330 -0.055 0.114 0.380 0.140 67 (K*+) 11 323 59 0.133 1.360 3.289 3.677 0.917 68 (K*bar0) 11 -313 59 1.538 0.702 -0.360 1.936 0.873 69 pi- 1 -211 59 0.612 0.565 -1.560 1.774 0.140 70 (rho+) 11 213 59 0.507 0.320 -0.114 1.052 0.857 71 (rho-) 11 -213 59 0.929 0.615 -1.888 2.301 0.698 72 p+ 1 2212 59 0.090 0.114 -3.324 3.456 0.938 73 nbar0 1 -2112 59 0.095 0.249 -9.056 9.108 0.940 74 pi- 1 -211 59 -0.053 0.155 -2.171 2.182 0.140 75 (rho+) 11 213 59 0.378 -0.125 -8.741 8.787 0.800 76 pi- 1 -211 59 0.086 0.588 -5.540 5.574 0.140 77 (omega) 11 223 59 -0.061 -0.635 -8.887 8.944 0.782 78 (Delta0) 11 2114 59 -0.191 0.047 -19.091 19.134 1.266 79 (eta) 11 221 59 0.742 -0.414 -5.994 6.078 0.547 80 (Deltabar+) 11 -1114 59 -4.095 4.271 -155.576 155.693 1.142 81 (rho-) 11 -213 59 -1.752 2.561 -105.357 105.406 0.809 82 (string) 11 92 28 -24.147 26.268 545.877 604.129 256.353 83 Xi- 1 3312 82 -13.688 18.074 -9.256 24.524 1.321 84 Xibar+ 1 -3312 82 -3.513 5.400 -2.991 7.224 1.321 85 K- 1 -321 82 -1.126 1.357 -0.588 1.924 0.494 86 (Sigma*+) 11 3224 82 -0.871 2.208 -1.670 3.213 1.379 87 (Sigma*bar-) 11 -3224 82 -1.046 1.581 -1.032 2.571 1.397 88 (omega) 11 223 82 -0.188 0.003 0.200 0.830 0.783 89 pi+ 1 211 82 -0.253 -0.193 -0.294 0.455 0.140 90 (pi0) 11 111 82 -0.004 0.371 0.277 0.483 0.135 91 (rho-) 11 -213 82 -0.909 -0.196 0.341 1.255 0.770 92 pi+ 1 211 82 0.008 -0.581 0.173 0.622 0.140 93 (omega) 11 223 82 -0.696 -0.131 3.717 3.864 0.782 94 n0 1 2112 82 -0.214 0.149 6.630 6.702 0.940 95 (omega) 11 223 82 -0.459 -0.535 50.316 50.327 0.828 96 nbar0 1 -2112 82 0.334 -0.040 11.395 11.439 0.940 97 pi- 1 -211 82 -0.131 -0.407 6.009 6.026 0.140 98 p+ 1 2212 82 -0.003 0.011 57.259 57.266 0.938 99 pbar- 1 -2212 82 0.148 -0.848 102.036 102.044 0.938 100 p+ 1 2212 82 -1.535 0.044 323.356 323.361 0.938 101 (string) 11 92 37 14.917 -29.267 -602.594 629.964 180.711 102 (K*0) 11 313 101 7.675 -13.017 -2.117 15.275 0.706 103 nbar0 1 -2112 101 2.257 -3.544 -1.084 4.439 0.940 104 n0 1 2112 101 1.841 -2.825 -0.892 3.612 0.940 105 (pi0) 11 111 101 0.459 -0.942 -0.290 1.095 0.135 106 pi+ 1 211 101 2.079 -4.140 -0.928 4.726 0.140 107 (rho0) 11 113 101 1.054 -1.936 -0.496 2.403 0.819 108 K- 1 -321 101 0.014 -0.463 -0.108 0.685 0.494 109 K+ 1 321 101 -0.244 0.232 -0.635 0.871 0.494 110 pbar- 1 -2212 101 0.763 -1.114 -4.128 4.443 0.938 111 p+ 1 2212 101 0.334 0.120 -1.508 1.812 0.938 112 pi- 1 -211 101 0.340 -0.067 -5.218 5.232 0.140 113 (K*bar0) 11 -313 101 -0.805 -0.542 -6.630 6.761 0.903 114 (K*+) 11 323 101 -0.903 0.414 -45.592 45.609 0.788 115 pi- 1 -211 101 0.324 -0.566 -22.754 22.763 0.140 116 (eta) 11 221 101 -0.241 0.339 -19.711 19.723 0.547 117 pi+ 1 211 101 0.419 -0.030 -40.645 40.647 0.140 118 (Deltabar--) 11 -2224 101 -0.449 -1.102 -232.872 232.878 1.256 119 pi+ 1 211 101 0.000 -0.085 -216.987 216.987 0.140 120 (string) 11 92 46 -2.479 -1.886 26.196 28.153 9.833 121 (omega) 11 223 120 -0.222 2.369 13.976 14.198 0.784 122 pi+ 1 211 120 -0.877 0.194 1.975 2.174 0.140 123 (pi0) 11 111 120 -0.422 -0.250 0.187 0.542 0.135 124 (omega) 11 223 120 0.024 -1.399 4.928 5.182 0.781 125 (rho0) 11 113 120 -1.050 -2.582 4.749 5.592 0.973 126 pi- 1 -211 120 0.068 -0.217 0.381 0.465 0.140 127 (string) 11 92 49 0.311 -1.382 136.566 136.953 10.192 128 pi- 1 -211 127 0.043 0.073 17.582 17.582 0.140 129 pi+ 1 211 127 0.308 0.075 2.351 2.377 0.140 130 (rho-) 11 -213 127 -0.751 0.398 9.768 9.821 0.566 131 (K*+) 11 323 127 0.407 -0.432 17.605 17.632 0.793 132 (eta') 11 331 127 -0.085 0.025 6.237 6.311 0.957 133 (Kbar0) 11 -311 127 -0.038 -0.153 5.690 5.714 0.498 134 (rho-) 11 -213 127 0.684 -0.895 56.161 56.180 0.970 135 pi+ 1 211 127 -0.235 0.189 2.047 2.074 0.140 136 pi- 1 -211 127 -0.133 -0.193 0.412 0.494 0.140 137 (rho0) 11 113 127 0.210 -0.122 10.989 11.033 0.959 138 pi+ 1 211 127 -0.099 -0.345 7.724 7.733 0.140 139 pi+ 1 211 53 2.884 -4.295 10.225 11.460 0.140 140 (pi0) 11 111 53 5.148 -6.106 14.904 16.910 0.135 141 gamma 1 22 54 1.229 -1.218 4.139 4.487 0.000 142 gamma 1 22 54 1.321 -1.350 3.227 3.739 0.000 143 pi- 1 -211 55 1.151 -2.463 5.467 6.107 0.140 144 (pi0) 11 111 55 0.551 -0.556 2.118 2.262 0.135 145 gamma 1 22 56 -0.079 0.010 0.208 0.223 0.000 146 (rho0) 11 113 56 0.297 0.686 5.041 5.163 0.826 147 pi- 1 -211 57 0.262 -0.014 0.502 0.583 0.140 148 pi+ 1 211 57 -0.077 -0.036 0.373 0.407 0.140 149 K- 1 -321 60 -0.645 2.626 16.494 16.722 0.494 150 pi+ 1 211 60 -0.752 1.907 15.899 16.031 0.140 151 pi- 1 -211 61 -0.033 1.312 5.894 6.040 0.140 152 (pi0) 11 111 61 -0.404 0.023 2.368 2.406 0.135 153 pi+ 1 211 63 -0.234 1.166 3.083 3.308 0.140 154 pi- 1 -211 63 -0.204 -0.036 0.849 0.885 0.140 155 pi- 1 -211 64 -0.311 0.513 2.448 2.524 0.140 156 (pi0) 11 111 64 0.115 -0.042 1.472 1.483 0.135 157 pi+ 1 211 65 0.537 0.248 0.873 1.064 0.140 158 (pi0) 11 111 65 0.165 0.179 -0.068 0.286 0.135 159 (K0) 11 311 67 -0.121 0.539 1.878 2.020 0.498 160 pi+ 1 211 67 0.254 0.821 1.410 1.657 0.140 161 K- 1 -321 68 0.496 0.411 -0.132 0.823 0.494 162 pi+ 1 211 68 1.041 0.291 -0.229 1.114 0.140 163 pi+ 1 211 70 0.084 0.289 0.297 0.446 0.140 164 (pi0) 11 111 70 0.423 0.031 -0.411 0.606 0.135 165 pi- 1 -211 71 0.241 -0.113 -0.367 0.474 0.140 166 (pi0) 11 111 71 0.688 0.728 -1.521 1.827 0.135 167 pi+ 1 211 75 0.590 -0.036 -5.160 5.196 0.140 168 (pi0) 11 111 75 -0.212 -0.089 -3.581 3.591 0.135 169 pi- 1 -211 77 -0.065 -0.289 -2.618 2.638 0.140 170 pi+ 1 211 77 0.089 0.090 -1.104 1.120 0.140 171 (pi0) 11 111 77 -0.084 -0.437 -5.164 5.185 0.135 172 n0 1 2112 78 0.076 -0.026 -15.971 15.999 0.940 173 (pi0) 11 111 78 -0.267 0.074 -3.120 3.135 0.135 174 (pi0) 11 111 79 0.437 -0.190 -3.701 3.734 0.135 175 (pi0) 11 111 79 0.184 -0.105 -1.562 1.582 0.135 176 (pi0) 11 111 79 0.121 -0.119 -0.730 0.762 0.135 177 nbar0 1 -2112 80 -3.406 3.632 -133.964 134.059 0.940 178 pi+ 1 211 80 -0.689 0.640 -21.612 21.633 0.140 179 pi- 1 -211 81 -0.433 0.974 -26.765 26.786 0.140 180 (pi0) 11 111 81 -1.320 1.587 -78.593 78.620 0.135 181 Lambda0 1 3122 86 -0.710 2.089 -1.372 2.828 1.116 182 pi+ 1 211 86 -0.161 0.119 -0.298 0.385 0.140 183 Lambdabar0 1 -3122 87 -0.662 0.972 -0.702 1.766 1.116 184 pi- 1 -211 87 -0.384 0.609 -0.330 0.804 0.140 185 pi- 1 -211 88 0.061 0.095 0.144 0.230 0.140 186 pi+ 1 211 88 -0.074 -0.258 0.103 0.319 0.140 187 (pi0) 11 111 88 -0.175 0.165 -0.047 0.280 0.135 188 gamma 1 22 90 -0.038 0.129 0.167 0.214 0.000 189 gamma 1 22 90 0.033 0.242 0.111 0.268 0.000 190 pi- 1 -211 91 -0.881 -0.177 0.504 1.040 0.140 191 (pi0) 11 111 91 -0.028 -0.018 -0.163 0.215 0.135 192 pi+ 1 211 93 -0.068 0.052 1.275 1.285 0.140 193 pi- 1 -211 93 -0.276 0.122 0.801 0.867 0.140 194 (pi0) 11 111 93 -0.352 -0.305 1.642 1.712 0.135 195 gamma 1 22 95 -0.453 -0.502 19.996 20.008 0.000 196 (pi0) 11 111 95 -0.006 -0.033 30.319 30.320 0.135 197 K+ 1 321 102 4.259 -7.200 -1.233 8.470 0.494 198 pi- 1 -211 102 3.417 -5.817 -0.884 6.806 0.140 199 gamma 1 22 105 0.237 -0.587 -0.226 0.672 0.000 200 gamma 1 22 105 0.222 -0.355 -0.065 0.423 0.000 201 pi+ 1 211 107 0.148 -0.385 0.190 0.475 0.140 202 pi- 1 -211 107 0.906 -1.551 -0.686 1.928 0.140 203 K- 1 -321 113 -0.508 -0.556 -5.783 5.853 0.494 204 pi+ 1 211 113 -0.297 0.015 -0.846 0.908 0.140 205 K+ 1 321 114 -0.725 0.500 -39.568 39.581 0.494 206 (pi0) 11 111 114 -0.177 -0.086 -6.024 6.029 0.135 207 gamma 1 22 116 -0.082 0.001 -1.190 1.193 0.000 208 pi+ 1 211 116 -0.263 0.204 -11.189 11.194 0.140 209 pi- 1 -211 116 0.105 0.134 -7.332 7.335 0.140 210 pbar- 1 -2212 118 -0.171 -0.962 -164.415 164.420 0.938 211 pi- 1 -211 118 -0.278 -0.141 -68.457 68.458 0.140 212 pi+ 1 211 121 0.018 0.482 3.713 3.747 0.140 213 pi- 1 -211 121 -0.126 0.176 1.235 1.262 0.140 214 (pi0) 11 111 121 -0.114 1.710 9.027 9.189 0.135 215 gamma 1 22 123 -0.333 -0.189 0.082 0.392 0.000 216 gamma 1 22 123 -0.089 -0.062 0.105 0.150 0.000 217 pi- 1 -211 124 -0.274 -0.538 1.324 1.462 0.140 218 pi+ 1 211 124 0.298 -0.861 3.604 3.720 0.140 219 pi- 1 -211 125 -0.063 -0.449 0.309 0.566 0.140 220 pi+ 1 211 125 -0.987 -2.133 4.440 5.026 0.140 221 pi- 1 -211 130 -0.603 0.401 8.893 8.923 0.140 222 (pi0) 11 111 130 -0.148 -0.003 0.875 0.898 0.135 223 (K0) 11 311 131 0.479 -0.460 14.500 14.523 0.498 224 pi+ 1 211 131 -0.072 0.027 3.105 3.109 0.140 225 pi+ 1 211 132 0.011 -0.042 0.955 0.967 0.140 226 pi- 1 -211 132 -0.175 -0.015 2.268 2.279 0.140 227 (eta) 11 221 132 0.079 0.082 3.014 3.065 0.547 228 K_L0 1 130 133 -0.038 -0.153 5.690 5.714 0.498 229 pi- 1 -211 134 0.335 -0.821 49.885 49.893 0.140 230 (pi0) 11 111 134 0.349 -0.075 6.275 6.287 0.135 231 pi+ 1 211 137 -0.339 -0.195 4.259 4.279 0.140 232 pi- 1 -211 137 0.549 0.074 6.730 6.754 0.140 233 gamma 1 22 140 0.966 -1.114 2.651 3.033 0.000 234 e+ 1 -11 140 3.468 -4.139 10.163 11.509 0.001 235 e- 1 11 140 0.714 -0.853 2.090 2.368 0.001 236 gamma 1 22 144 0.032 -0.089 0.305 0.320 0.000 237 gamma 1 22 144 0.518 -0.467 1.813 1.942 0.000 238 pi+ 1 211 146 0.508 0.407 2.253 2.349 0.140 239 pi- 1 -211 146 -0.211 0.279 2.789 2.814 0.140 240 gamma 1 22 152 -0.034 0.025 0.503 0.505 0.000 241 gamma 1 22 152 -0.370 -0.001 1.865 1.902 0.000 242 gamma 1 22 156 0.099 0.034 0.808 0.815 0.000 243 gamma 1 22 156 0.016 -0.076 0.664 0.668 0.000 244 gamma 1 22 158 -0.011 -0.007 -0.023 0.027 0.000 245 gamma 1 22 158 0.176 0.186 -0.045 0.260 0.000 246 K_S0 1 310 159 -0.121 0.539 1.878 2.020 0.498 247 gamma 1 22 164 0.037 0.044 -0.039 0.070 0.000 248 gamma 1 22 164 0.386 -0.013 -0.372 0.536 0.000 249 gamma 1 22 166 0.367 0.472 -0.959 1.131 0.000 250 gamma 1 22 166 0.322 0.256 -0.562 0.696 0.000 251 gamma 1 22 168 -0.056 -0.069 -0.694 0.700 0.000 252 gamma 1 GenInputManager Begin processing 12th record. Run 222530, Trigger 11 22 168 -0.156 -0.021 -2.887 2.891 0.000 253 gamma 1 22 171 -0.083 -0.415 -5.094 5.112 0.000 254 gamma 1 22 171 -0.001 -0.022 -0.070 0.074 0.000 255 gamma 1 22 173 -0.151 0.022 -1.021 1.032 0.000 256 gamma 1 22 173 -0.116 0.051 -2.099 2.103 0.000 257 gamma 1 22 174 0.088 -0.101 -1.131 1.139 0.000 258 gamma 1 22 174 0.349 -0.089 -2.570 2.595 0.000 259 gamma 1 22 175 0.000 -0.020 -0.025 0.032 0.000 260 e+ 1 -11 175 0.050 -0.024 -0.462 0.465 0.001 261 e- 1 11 175 0.134 -0.061 -1.076 1.086 0.001 262 gamma 1 22 176 0.096 -0.135 -0.700 0.719 0.000 263 gamma 1 22 176 0.026 0.015 -0.030 0.042 0.000 264 gamma 1 22 180 -0.981 1.136 -55.058 55.078 0.000 265 gamma 1 22 180 -0.338 0.451 -23.535 23.542 0.000 266 gamma 1 22 187 -0.082 0.157 -0.004 0.178 0.000 267 gamma 1 22 187 -0.093 0.008 -0.043 0.102 0.000 268 gamma 1 22 191 -0.072 -0.047 -0.095 0.128 0.000 269 gamma 1 22 191 0.044 0.028 -0.068 0.086 0.000 270 gamma 1 22 194 -0.236 -0.271 1.324 1.373 0.000 271 gamma 1 22 194 -0.116 -0.034 0.317 0.339 0.000 272 gamma 1 22 196 0.023 0.048 11.148 11.148 0.000 273 gamma 1 22 196 -0.030 -0.080 19.172 19.172 0.000 274 gamma 1 22 206 -0.122 -0.057 -2.127 2.132 0.000 275 gamma 1 22 206 -0.056 -0.029 -3.897 3.897 0.000 276 gamma 1 22 214 0.029 0.291 1.619 1.646 0.000 277 gamma 1 22 214 -0.143 1.419 7.408 7.544 0.000 278 gamma 1 22 222 -0.093 0.062 0.421 0.436 0.000 279 gamma 1 22 222 -0.055 -0.066 0.454 0.462 0.000 280 K_S0 1 310 223 0.479 -0.460 14.500 14.523 0.498 281 gamma 1 22 227 0.248 0.131 2.606 2.621 0.000 282 gamma 1 22 227 -0.169 -0.049 0.408 0.444 0.000 283 gamma 1 22 230 0.101 -0.044 3.016 3.018 0.000 284 gamma 1 22 230 0.249 -0.031 3.259 3.269 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 11 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.154 0.883 29.946 29.959 0.000 4 !dbar! 21 -1 2 0.324 0.505 -189.834 189.835 0.000 5 !g! 21 21 3 -0.331 1.083 9.075 9.145 0.000 6 !g! 21 21 4 0.597 1.875 -156.983 156.995 0.000 7 !g! 21 21 0 -18.456 -3.730 -2.057 18.941 0.000 8 !g! 21 21 0 18.722 6.688 -145.851 147.199 0.000 ============================================================================== 9 (dbar) A 12 -1 4 -0.399 0.533 -1.063 1.297 0.330 10 (g) I 12 21 4 -0.081 -0.367 -1.994 2.029 0.000 11 (g) I 12 21 0 -0.256 0.033 -11.562 11.565 0.000 12 (g) I 12 21 0 -0.983 0.566 -4.881 5.011 0.000 13 (g) I 12 21 0 -3.804 2.279 -13.749 14.446 0.000 14 (g) I 12 21 7 -4.383 -0.752 -0.592 4.486 0.000 15 (g) I 12 21 7 -9.823 -1.804 -3.343 10.532 0.000 16 (g) I 12 21 7 -3.255 -0.792 0.807 3.446 0.000 17 (g) I 12 21 7 -0.883 -0.347 0.465 1.056 0.000 18 (g) I 12 21 0 -0.900 -5.253 40.902 41.248 0.000 19 (g) I 12 21 0 -0.852 -3.520 31.420 31.628 0.000 20 (g) I 12 21 0 0.983 -0.566 12.541 12.593 0.000 21 (g) I 12 21 0 -2.289 -1.185 107.043 107.074 0.000 22 (u) V 11 2 1 -0.087 -0.559 82.402 82.405 0.330 23 (c) A 12 4 3 0.899 0.635 15.312 15.424 1.500 24 (ud_0) V 11 2101 1 0.241 -0.324 637.023 637.023 0.579 25 (cbar) A 12 -4 3 -0.714 -0.855 5.114 5.445 1.500 26 (g) I 12 21 0 0.852 3.520 16.170 16.570 0.000 27 (g) I 12 21 0 0.256 -0.033 0.635 0.685 0.000 28 (g) I 12 21 0 3.804 -2.279 1.499 4.681 0.000 29 (g) I 12 21 0 2.289 1.185 1.147 2.821 0.000 30 (g) I 12 21 0 0.900 5.253 -4.128 6.741 0.000 31 (g) I 12 21 8 17.669 6.276 -141.608 142.844 0.000 32 (g) I 12 21 8 0.940 0.377 -3.638 3.776 0.000 33 (g) I 12 21 4 0.061 -1.046 -7.317 7.391 0.000 34 (g) I 12 21 4 0.547 -0.560 -12.184 12.210 0.000 35 (g) I 12 21 4 -0.410 0.090 -9.849 9.857 0.000 36 (uu_1bar) V 11 -2203 2 -0.324 -0.505 -750.115 750.116 0.771 37 (u) A 12 2 0 -0.096 1.053 14.273 14.313 0.000 38 (ubar) V 11 -2 0 0.096 -1.053 -0.734 1.287 0.000 ============================================================================== 39 (string) 11 92 9 -27.011 -11.735 238.398 328.816 224.541 40 (eta) 11 221 39 -0.027 0.145 -0.975 1.128 0.547 41 pi+ 1 211 39 -0.789 0.124 -6.399 6.450 0.140 42 (rho0) 11 113 39 -0.221 0.624 -3.960 4.033 0.372 43 pi- 1 -211 39 0.109 -0.362 -0.933 1.016 0.140 44 (rho+) 11 213 39 -2.220 1.438 -10.148 10.513 0.748 45 pi- 1 -211 39 0.036 0.004 -0.601 0.618 0.140 46 (rho+) 11 213 39 -0.833 0.371 -4.473 4.688 1.067 47 (Deltabar--) 11 -2224 39 -1.545 -0.064 -4.324 4.757 1.241 48 pi+ 1 211 39 -1.114 0.402 -1.400 1.839 0.140 49 (Delta0) 11 2114 39 -2.260 -0.075 -0.518 2.647 1.275 50 (pi0) 11 111 39 -0.431 -0.180 -0.109 0.498 0.135 51 (K*bar0) 11 -313 39 -3.068 -1.012 -1.158 3.532 0.836 52 (K*0) 11 313 39 -6.209 -0.964 0.064 6.344 0.877 53 (pi0) 11 111 39 0.321 0.082 -0.095 0.370 0.135 54 (omega) 11 223 39 -4.046 -0.929 -0.928 4.339 0.859 55 (rho0) 11 113 39 -0.976 -0.345 3.100 3.356 0.765 56 (eta) 11 221 39 -0.407 0.197 0.119 0.720 0.547 57 (rho0) 11 113 39 0.066 -0.916 4.603 4.749 0.724 58 nbar0 1 -2112 39 -0.410 -1.919 11.410 11.616 0.940 59 n0 1 2112 39 -0.726 -1.351 16.992 17.087 0.940 60 pi+ 1 211 39 -0.392 -2.886 23.811 23.989 0.140 61 pi- 1 -211 39 0.310 -0.237 2.085 2.126 0.140 62 (Kbar0) 11 -311 39 -0.620 -1.082 13.852 13.917 0.498 63 (K*0) 11 313 39 -0.299 -0.424 25.887 25.908 0.898 64 (rho0) 11 113 39 -0.764 -0.762 25.293 25.326 0.724 65 pi+ 1 211 39 0.097 0.213 8.245 8.249 0.140 66 pi- 1 -211 39 0.378 -1.023 33.761 33.779 0.140 67 pi+ 1 211 39 -0.035 0.386 11.978 11.985 0.140 68 (rho0) 11 113 39 -0.937 -1.190 93.220 93.235 0.735 69 (string) 11 92 23 1.140 0.311 652.335 652.448 12.085 70 (D_s+) 11 431 69 0.811 0.178 28.203 28.284 1.968 71 (Kbar0) 11 -311 69 0.062 0.450 12.244 12.262 0.498 72 pi- 1 -211 69 -0.393 0.163 131.105 131.106 0.140 73 pi+ 1 211 69 0.613 0.315 44.517 44.523 0.140 74 pi- 1 -211 69 -0.198 -0.552 69.637 69.639 0.140 75 pi+ 1 211 69 0.630 -0.419 112.436 112.439 0.140 76 n0 1 2112 69 -0.386 0.175 254.192 254.194 0.940 77 (string) 11 92 25 25.872 11.424 -904.272 963.137 330.339 78 (Dbar0) 11 -421 77 -0.018 0.772 6.187 6.508 1.865 79 pi- 1 -211 77 -0.237 0.040 2.116 2.134 0.140 80 (rho+) 11 213 77 -0.429 0.114 3.068 3.155 0.590 81 pi- 1 -211 77 -0.142 0.388 1.372 1.440 0.140 82 (rho+) 11 213 77 1.061 0.300 4.709 4.894 0.749 83 (Deltabar--) 11 -2224 77 0.299 -0.278 1.884 2.236 1.133 84 pi+ 1 211 77 -0.107 -0.028 0.026 0.180 0.140 85 (Delta+) 11 2214 77 1.426 0.642 2.111 2.921 1.278 86 pi- 1 -211 77 0.037 -0.391 0.142 0.440 0.140 87 (Deltabar0) 11 -2114 77 1.337 0.305 1.524 2.397 1.241 88 (eta) 11 221 77 1.615 -0.524 -0.001 1.784 0.547 89 p+ 1 2212 77 0.264 0.249 0.159 1.019 0.938 90 (rho-) 11 -213 77 1.548 0.686 0.713 1.977 0.730 91 (rho+) 11 213 77 0.535 3.366 -3.541 4.979 0.799 92 K- 1 -321 77 0.262 0.777 -0.479 1.070 0.494 93 (K*+) 11 323 77 0.914 0.057 -4.278 4.470 0.914 94 (eta) 11 221 77 0.673 1.223 -9.882 9.995 0.547 95 (K*-) 11 -323 77 6.888 2.138 -56.900 57.362 0.838 96 (K*0) 11 313 77 2.909 1.101 -14.972 15.319 0.909 97 pi+ 1 211 77 1.776 1.017 -21.234 21.333 0.140 98 (omega) 11 223 77 3.087 0.504 -18.578 18.856 0.775 99 pi- 1 -211 77 0.948 0.162 -13.104 13.140 0.140 100 (eta') 11 331 77 0.902 -0.457 -13.019 13.094 0.958 101 (rho+) 11 213 77 0.646 -0.141 -6.567 6.696 1.130 102 pi- 1 -211 77 -0.052 -0.086 -44.095 44.095 0.140 103 (K*bar0) 11 -313 77 -0.044 -0.338 -137.998 138.002 0.892 104 K+ 1 321 77 0.070 0.169 -48.882 48.885 0.494 105 pi- 1 -211 77 -0.306 0.217 -24.845 24.848 0.140 106 nbar0 1 -2112 77 -0.085 -0.316 -189.297 189.299 0.940 107 pi- 1 -211 77 0.095 -0.245 -320.610 320.610 0.140 108 (string) 11 92 37 0.000 0.000 13.540 15.600 7.748 109 (rho+) 11 213 108 -0.319 -0.144 1.661 1.852 0.739 110 pi- 1 -211 108 0.257 0.396 2.404 2.454 0.140 111 (K*+) 11 323 108 -0.361 0.499 7.262 7.335 0.835 112 (K*bar0) 11 -313 108 0.192 -0.301 1.952 2.161 0.856 113 (rho-) 11 -213 108 -0.016 0.264 0.213 0.817 0.743 114 pi+ 1 211 108 -0.078 -0.325 -0.183 0.406 0.140 115 pi- 1 -211 108 0.325 -0.388 0.231 0.574 0.140 116 gamma 1 22 40 0.148 -0.009 -0.026 0.151 0.000 117 gamma 1 22 40 -0.175 0.154 -0.949 0.977 0.000 118 pi+ 1 211 42 -0.030 0.264 -2.191 2.211 0.140 119 pi- 1 -211 42 -0.191 0.360 -1.769 1.821 0.140 120 pi+ 1 211 44 -1.955 1.002 -8.641 8.917 0.140 121 (pi0) 11 111 44 -0.265 0.436 -1.507 1.597 0.135 122 pi+ 1 211 46 0.193 0.073 -0.372 0.448 0.140 123 (pi0) 11 111 46 -1.026 0.298 -4.101 4.240 0.135 124 pbar- 1 -2212 47 -0.849 0.033 -2.811 3.083 0.938 125 pi- 1 -211 47 -0.696 -0.097 -1.513 1.674 0.140 126 n0 1 2112 49 -1.844 0.050 -0.176 2.078 0.940 127 (pi0) 11 111 49 -0.416 -0.125 -0.342 0.569 0.135 128 gamma 1 22 50 -0.421 -0.195 -0.090 0.472 0.000 129 gamma 1 22 50 -0.010 0.015 -0.018 0.026 0.000 130 K- 1 -321 51 -1.175 -0.488 -0.548 1.471 0.494 131 pi+ 1 211 51 -1.893 -0.524 -0.610 2.061 0.140 132 K+ 1 321 52 -3.453 -0.299 0.158 3.504 0.494 133 pi- 1 -211 52 -2.756 -0.665 -0.094 2.840 0.140 134 gamma 1 22 53 0.035 0.057 0.004 0.067 0.000 135 gamma 1 22 53 0.286 0.026 -0.099 0.304 0.000 136 pi+ 1 211 54 -1.878 -0.356 -0.263 1.935 0.140 137 pi- 1 -211 54 -0.242 -0.009 -0.191 0.339 0.140 138 (pi0) 11 111 54 -1.926 -0.564 -0.474 2.066 0.135 139 pi+ 1 211 55 -0.161 -0.326 0.537 0.663 0.140 140 pi- 1 -211 55 -0.815 -0.019 2.563 2.693 0.140 141 pi- 1 -211 56 -0.034 0.037 -0.051 0.157 0.140 142 pi+ 1 211 56 -0.063 -0.018 0.045 0.161 0.140 143 (pi0) 11 111 56 -0.310 0.178 0.126 0.402 0.135 144 pi- 1 -211 57 0.319 -0.745 2.959 3.071 0.140 145 pi+ 1 211 57 -0.253 -0.170 1.645 1.679 0.140 146 K_S0 1 310 62 -0.620 -1.082 13.852 13.917 0.498 147 K+ 1 321 63 -0.142 -0.237 23.029 23.036 0.494 148 pi- 1 -211 63 -0.157 -0.187 2.858 2.872 0.140 149 pi- 1 -211 64 -0.618 -0.155 11.433 11.452 0.140 150 pi+ 1 211 64 -0.145 -0.607 13.860 13.875 0.140 151 pi- 1 -211 68 0.002 -0.474 26.374 26.379 0.140 152 pi+ 1 211 68 -0.939 -0.716 66.845 66.856 0.140 153 (eta) 11 221 70 0.163 0.951 15.941 15.980 0.547 154 pi+ 1 211 70 0.649 -0.773 12.262 12.304 0.140 155 K_L0 1 130 71 0.062 0.450 12.244 12.262 0.498 156 K+ 1 321 78 -0.559 0.379 2.964 3.080 0.494 157 pi- 1 -211 78 0.310 -0.117 1.844 1.879 0.140 158 (pi0) 11 111 78 -0.049 0.288 0.565 0.651 0.135 159 (pi0) 11 111 78 0.280 0.222 0.814 0.899 0.135 160 pi+ 1 211 80 -0.529 0.056 2.527 2.586 0.140 161 (pi0) 11 111 80 0.100 0.058 0.541 0.569 0.135 162 pi+ 1 211 82 0.388 -0.137 2.551 2.588 0.140 163 (pi0) 11 111 82 0.672 0.437 2.157 2.306 0.135 164 pbar- 1 -2212 83 0.229 -0.352 1.669 1.960 0.938 165 pi- 1 -211 83 0.071 0.074 0.215 0.276 0.140 166 p+ 1 2212 85 1.211 0.787 1.871 2.543 0.938 167 (pi0) 11 111 85 0.215 -0.145 0.240 0.378 0.135 168 nbar0 1 -2112 87 1.387 0.286 1.450 2.234 0.940 169 (pi0) 11 111 87 -0.050 0.019 0.075 0.163 0.135 170 (pi0) 11 111 88 0.995 -0.209 -0.014 1.026 0.135 171 (pi0) 11 111 88 0.417 -0.251 0.028 0.506 0.135 172 (pi0) 11 111 88 0.203 -0.064 -0.015 0.253 0.135 173 pi- 1 -211 90 0.542 0.597 0.400 0.911 0.140 174 (pi0) 11 111 90 1.006 0.089 0.313 1.066 0.135 175 pi+ 1 211 91 0.253 1.905 -2.509 3.164 0.140 176 (pi0) 11 111 91 0.283 1.461 -1.032 1.815 0.135 177 K+ 1 321 93 0.802 0.165 -4.055 4.166 0.494 178 (pi0) 11 111 93 0.112 -0.108 -0.224 0.304 0.135 179 (pi0) 11 111 94 0.379 0.578 -4.991 5.040 0.135 180 (pi0) 11 111 94 0.078 0.088 -1.148 1.162 0.135 181 (pi0) 11 111 94 0.216 0.557 -3.743 3.793 0.135 182 K- 1 -321 95 3.269 0.842 -25.964 26.187 0.494 183 (pi0) 11 111 95 3.620 1.296 -30.936 31.174 0.135 184 K+ 1 321 96 2.174 1.092 -11.985 12.240 0.494 185 pi- 1 -211 96 0.734 0.008 -2.987 3.079 0.140 186 pi+ 1 211 98 0.640 -0.057 -3.645 3.704 0.140 187 pi- 1 -211 98 0.466 0.123 -2.140 2.198 0.140 188 (pi0) 11 111 98 1.982 0.439 -12.793 12.954 0.135 189 gamma 1 22 100 0.481 -0.576 -8.440 8.474 0.000 190 (rho0) 11 113 100 0.421 0.119 -4.579 4.620 0.431 191 pi+ 1 211 101 0.766 0.245 -5.212 5.275 0.140 192 (pi0) 11 111 101 -0.120 -0.387 -1.355 1.421 0.135 193 K- 1 -321 103 -0.276 -0.154 -106.164 106.166 0.494 194 pi+ 1 211 103 0.232 -0.184 -31.834 31.836 0.140 195 pi+ 1 211 109 -0.324 -0.070 1.659 1.698 0.140 196 (pi0) 11 111 109 0.005 -0.073 0.002 0.154 0.135 197 (K0) 11 311 111 -0.325 0.595 6.505 6.559 0.498 198 pi+ 1 211 111 -0.036 -0.096 0.757 0.777 0.140 199 K- 1 -321 112 0.314 -0.385 1.687 1.827 0.494 200 pi+ 1 211 112 -0.123 0.084 0.265 0.334 0.140 201 pi- 1 -211 113 0.126 0.139 -0.223 0.323 0.140 202 (pi0) 11 111 113 -0.142 0.125 0.436 0.494 0.135 203 gamma 1 22 121 -0.073 0.165 -0.725 0.748 0.000 204 gamma 1 22 121 -0.192 0.271 -0.782 0.849 0.000 205 gamma 1 22 123 -0.743 0.236 -3.198 3.291 0.000 206 gamma 1 22 123 -0.284 0.062 -0.903 0.949 0.000 207 gamma 1 22 127 -0.318 -0.094 -0.326 0.465 0.000 208 gamma 1 22 127 -0.098 -0.032 -0.016 0.104 0.000 209 gamma 1 22 138 -1.139 -0.267 -0.294 1.206 0.000 210 gamma 1 22 138 -0.787 -0.297 -0.180 0.860 0.000 211 gamma 1 22 143 -0.227 0.151 0.151 0.311 0.000 212 gamma 1 22 143 -0.083 0.028 -0.025 0.091 0.000 213 gamma 1 22 153 0.072 0.932 11.614 11.651 0.000 214 gamma 1 22 153 0.091 0.019 4.327 4.328 0.000 215 gamma 1 22 158 -0.056 0.300 0.554 0.632 0.000 216 gamma 1 22 158 0.007 -0.012 0.012 0.018 0.000 217 gamma 1 22 159 0.242 0.178 0.530 0.610 0.000 218 gamma 1 22 159 0.037 0.044 0.283 0.289 0.000 219 gamma 1 22 161 0.091 -0.013 0.408 0.419 0.000 220 gamma 1 22 161 0.009 0.071 0.132 0.150 0.000 221 gamma 1 22 163 0.506 0.364 1.795 1.900 0.000 222 gamma 1 22 163 0.167 0.073 0.362 0.406 0.000 223 gamma 1 22 167 0.037 -0.048 -0.005 0.060 0.000 224 gamma 1 22 167 0.179 -0.098 0.244 0.318 0.000 225 gamma 1 22 169 -0.052 0.071 0.067 0.110 0.000 226 gamma 1 22 169 0.002 -0.052 0.008 0.053 0.000 227 gamma 1 22 170 0.630 -0.074 0.024 0.635 0.000 228 gamma 1 22 170 0.365 -0.135 -0.038 0.391 0.000 229 gamma 1 22 171 0.024 -0.003 0.033 0.041 0.000 230 gamma 1 22 171 0.393 -0.248 -0.005 0.465 0.000 231 gamma 1 22 172 0.032 -0.045 0.044 0.071 0.000 232 gamma 1 22 172 0.171 -0.019 -0.059 0.182 0.000 233 gamma 1 22 174 0.699 0.017 0.261 0.746 0.000 234 gamma 1 22 174 0.306 0.072 0.052 0.319 0.000 235 gamma 1 22 176 0.093 0.719 -0.563 0.918 0.000 236 gamma 1 22 176 0.190 0.741 -0.469 0.897 0.000 237 gamma 1 22 178 0.094 -0.138 -0.160 0.231 0.000 238 gamma 1 22 178 0.018 0.030 -0.064 0.073 0.000 239 gamma 1 22 179 0.069 0.176 -1.704 1.714 0.000 240 gamma 1 22 179 0.311 0.402 -3.287 3.326 0.000 241 gamma 1 22 180 0.083 0.037 -0.329 0.341 0.000 242 gamma 1 22 180 -0.005 0.050 -0.820 0.821 0.000 243 gamma 1 22 181 0.147 0.215 -1.414 1.438 0.000 244 gamma 1 22 181 0.069 0.342 -2.329 2.355 0.000 245 gamma 1 22 183 1.988 0.767 -16.788 16.922 0.000 246 gamma 1 22 183 1.632 0.530 -14.148 14.252 0.000 247 gamma 1 22 188 0.177 0.077 -1.299 1.313 0.000 248 gamma 1 22 188 1.805 0.362 -11.494 11.641 0.000 249 pi+ 1 211 190 0.345 0.199 -2.717 2.749 0.140 250 pi- 1 -211 190 0.076 -0.080 -1.862 1.871 0.140 251 gamma 1 22 192 -0.099 -0.264 -0.714 0.768 0.000 252 gamma 1 GenInputManager Begin processing 13th record. Run 222530, Trigger 12 GenInputManager Begin processing 14th record. Run 222530, Trigger 13 GenInputManager Begin processing 15th record. Run 222530, Trigger 14 GenInputManager Begin processing 16th record. Run 222530, Trigger 15 GenInputManager Begin processing 17th record. Run 222530, Trigger 16 GenInputManager Begin processing 18th record. Run 222530, Trigger 17 GenInputManager Begin processing 19th record. Run 222530, Trigger 18 GenInputManager Begin processing 20th record. Run 222530, Trigger 19 GenInputManager Begin processing 21th record. Run 222530, Trigger 20 GenInputManager Begin processing 22th record. Run 222530, Trigger 21 GenInputManager Begin processing 23th record. Run 222530, Trigger 22 GenInputManager Begin processing 24th record. Run 222530, Trigger 23 GenInputManager Begin processing 25th record. Run 222530, Trigger 24 GenInputManager Begin processing 26th record. Run 222530, Trigger 25 GenInputManager Begin processing 27th record. Run 222530, Trigger 26 GenInputManager Begin processing 28th record. Run 222530, Trigger 27 GenInputManager Begin processing 29th record. Run 222530, Trigger 28 GenInputManager Begin processing 30th record. Run 222530, Trigger 29 GenInputManager Begin processing 31th record. Run 222530, Trigger 30 GenInputManager Begin processing 32th record. Run 222530, Trigger 31 GenInputManager Begin processing 33th record. Run 222530, Trigger 32 GenInputManager Begin processing 34th record. Run 222530, Trigger 33 GenInputManager Begin processing 35th record. Run 222530, Trigger 34 GenInputManager Begin processing 36th record. Run 222530, Trigger 35 GenInputManager Begin processing 37th record. Run 222530, Trigger 36 GenInputManager Begin processing 38th record. Run 222530, Trigger 37 GenInputManager Begin processing 39th record. Run 222530, Trigger 38 GenInputManager Begin processing 40th record. Run 222530, Trigger 39 22 192 -0.021 -0.123 -0.641 0.653 0.000 253 gamma 1 22 196 0.038 -0.063 -0.052 0.090 0.000 254 gamma 1 22 196 -0.033 -0.011 0.054 0.064 0.000 255 K_L0 1 130 197 -0.325 0.595 6.505 6.559 0.498 256 gamma 1 22 202 -0.032 0.099 0.298 0.316 0.000 257 gamma 1 22 202 -0.110 0.026 0.138 0.178 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 HEPEVT before cleanup... nhep = 530 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99955 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99955 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31462 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73473 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62262 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47567 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90258 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38796 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05627 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64448 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61500 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06993 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12388 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86794 823.44418 371.20283 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54096 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87997 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72384 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26348 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K*(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09527 51.10336 0.76516 138 (K*(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K*(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K*(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K*(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K*(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67202 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10473 147.10482 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04882 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma*~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K*(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12830 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68107 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37455 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85889 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59479 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52031 273.22718 19.54095 203 (K*(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69916 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84070 0.82764 209 (Sigma*~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10520 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 406 408 -0.10884 0.18046 2.30472 2.91785 1.77700 220 (D*(2010)+) 2 413 82 0 409 410 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 411 412 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 413 414 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 415 416 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 417 418 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 419 420 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18817 51.18845 0.13957 233 (pi0) 2 111 90 0 421 422 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 423 425 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 426 427 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 428 429 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 430 431 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 432 433 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 434 435 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 436 437 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 438 439 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 440 441 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 442 443 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 444 445 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 446 447 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 448 449 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 450 451 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 452 452 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 453 454 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 455 456 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 457 458 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 459 460 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 461 462 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 463 464 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 465 466 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 467 467 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 468 469 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 470 471 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 472 473 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 474 475 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 476 477 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 478 479 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 480 481 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 482 483 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 484 485 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 486 487 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 488 489 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 490 491 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 492 493 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 494 495 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 496 497 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 498 499 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 500 501 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 502 503 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 504 505 -0.95497 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82218 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 506 507 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77375 0.93957 393 (pi0) 2 111 207 0 508 509 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 510 511 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 512 513 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 514 515 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 516 518 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 nu_tau 1 16 219 0 0 0 -0.23628 0.02637 1.44739 1.46679 0.00000 407 pi- 1 -211 219 0 0 0 0.01213 -0.18753 0.55974 0.60672 0.13957 408 (rho(770)0) 2 113 219 0 519 520 0.11531 0.34161 0.29758 0.84435 0.70312 409 (D0) 2 421 220 0 521 522 0.69438 -1.18628 11.80284 12.02800 1.86450 410 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 411 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 412 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 413 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 414 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 415 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 416 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 417 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 418 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 419 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 420 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 421 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 422 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 423 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 424 (tau+) 2 -15 234 0 523 524 -1.44889 0.55040 0.81388 2.49446 1.77700 425 (Lambda_c~-) 2 -4122 234 0 525 526 -1.49060 4.46748 2.53316 5.81531 2.28490 426 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 427 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 428 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 429 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 430 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 431 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 432 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 433 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 434 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 435 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 436 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 437 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 438 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 439 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 440 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 441 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 442 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 443 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 444 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 445 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 446 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 447 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 448 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 449 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 450 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 451 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 452 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 453 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 454 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 455 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 456 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 457 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 458 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 459 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 460 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 461 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 462 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 463 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 464 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 465 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 466 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 467 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 468 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 469 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 470 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 471 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 472 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 473 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 474 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 475 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 476 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 477 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 478 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 479 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 480 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 481 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 482 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 483 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 484 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 485 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 486 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 487 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 488 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 489 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 490 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 491 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 492 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 493 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 494 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 495 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 496 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 497 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 498 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 499 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 500 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 501 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 502 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 503 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 504 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 505 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 506 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 507 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 508 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 509 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 510 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 511 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 512 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 513 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 514 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 515 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 516 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 517 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 518 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 519 pi- 1 -211 408 0 0 0 0.05012 0.47239 0.01296 0.49529 0.13957 520 pi+ 1 211 408 0 0 0 0.06519 -0.13077 0.28463 0.34906 0.13957 521 K- 1 -321 409 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 522 pi+ 1 211 409 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 523 nu_tau~ 1 -16 424 0 0 0 0.08018 -0.03499 0.84640 0.85091 0.00000 524 pi+ 1 211 424 0 0 0 -1.52907 0.58539 -0.03252 1.64355 0.13957 525 Lambda~0 1 -3122 425 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 526 (rho(770)-) 2 -213 425 0 527 528 -1.41388 2.84843 1.25656 3.46975 0.58963 527 pi- 1 -211 526 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 528 (pi0) 2 111 526 0 529 530 -0.47338 1.14869 0.74949 1.45723 0.13498 529 gamma 1 22 528 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 530 gamma 1 22 528 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 Remove particles : 1 406 Remove particles : 2 407 Remove particles : 3 408 Remove particles : 4 519 Remove particles : 5 520 Remove particles : 6 523 Remove particles : 7 524 HEPEVT after cleanup: nhep= 523 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31464 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73474 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62261 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47566 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90257 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38795 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05626 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64447 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61501 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06992 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12387 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86792 823.44421 371.20282 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54097 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87996 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72383 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26349 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K*(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09528 51.10336 0.76516 138 (K*(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K*(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K*(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K*(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K*(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67203 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10472 147.10481 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04881 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma*~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K*(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12829 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68106 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37454 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85888 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59480 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52032 273.22717 19.54095 203 (K*(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69915 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84069 0.82764 209 (Sigma*~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10519 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 0 0 -0.10884 0.18046 2.30472 2.91785 1.77700 220 (D*(2010)+) 2 413 82 0 406 407 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 408 409 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 410 411 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 412 413 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 414 415 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 416 417 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18818 51.18845 0.13957 233 (pi0) 2 111 90 0 418 419 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 420 422 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 423 424 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 425 426 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 427 428 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 429 430 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 431 432 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 433 434 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 435 436 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 437 438 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 439 440 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 441 442 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 443 444 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 445 446 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 447 448 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 449 449 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 450 451 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 452 453 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 454 455 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 456 457 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 458 459 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 460 461 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 462 463 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 464 464 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 465 466 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 467 468 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 469 470 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 471 472 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 473 474 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 475 476 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 477 478 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 479 480 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 481 482 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 483 484 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 485 486 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 487 488 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 489 490 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 491 492 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 493 494 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 495 496 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 497 498 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 499 500 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 501 502 -0.95496 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82217 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 503 504 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77376 0.93957 393 (pi0) 2 111 207 0 505 506 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 507 508 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 509 510 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 511 512 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 513 515 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 (D0) 2 421 220 0 516 517 0.69438 -1.18628 11.80284 12.02800 1.86450 407 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 408 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 409 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 410 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 411 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 412 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 413 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 414 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 415 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 416 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 417 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 418 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 419 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 420 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 421 (tau+) 2 -15 234 0 0 0 -1.44889 0.55040 0.81388 2.49446 1.77700 422 (Lambda_c~-) 2 -4122 234 0 518 519 -1.49060 4.46748 2.53316 5.81531 2.28490 423 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 424 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 425 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 426 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 427 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 428 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 429 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 430 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 431 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 432 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 433 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 434 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 435 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 436 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 437 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 438 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 439 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 440 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 441 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 442 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 443 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 444 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 445 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 446 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 447 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 448 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 449 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 450 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 451 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 452 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 453 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 454 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 455 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 456 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 457 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 458 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 459 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 460 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 461 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 462 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 463 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 464 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 465 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 466 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 467 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 468 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 469 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 470 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 471 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 472 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 473 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 474 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 475 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 476 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 477 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 478 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 479 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 480 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 481 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 482 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 483 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 484 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 485 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 486 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 487 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 488 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 489 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 490 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 491 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 492 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 493 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 494 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 495 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 496 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 497 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 498 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 499 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 500 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 501 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 502 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 503 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 504 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 505 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 506 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 507 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 508 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 509 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 510 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 511 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 512 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 513 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 514 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 515 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 516 K- 1 -321 406 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 517 pi+ 1 211 406 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 518 Lambda~0 1 -3122 422 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 519 (rho(770)-) 2 -213 422 0 520 521 -1.41388 2.84843 1.25656 3.46975 0.58963 520 pi- 1 -211 519 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 521 (pi0) 2 111 519 0 522 523 -0.47338 1.14869 0.74949 1.45723 0.13498 522 gamma 1 22 521 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 523 gamma 1 22 521 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 Will redecay tau # 219 ID = 15 Mother particle #. 82 ID = -511 TAUCHI : Tau mother is not W,Z,H..random polarity *************************************************************************** * *****TAUOLA LIBRARY: VERSION 2.6 ****** * * ***********August 1995*************** * * **AUTHORS: S.JADACH, Z.WAS************* * * **R. DECKER, M. JEZABEK, J.H.KUEHN***** * * **AVAILABLE FROM: WASM AT CERNVM ****** * * ***** PUBLISHED IN COMP. PHYS. COMM.*** * * *******CERN-TH-5856 SEPTEMBER 1990***** * * *******CERN-TH-6195 SEPTEMBER 1991***** * * *******CERN-TH-6793 NOVEMBER 1992***** * * **5 or more pi dec.: precision limited * * ******DEXAY ROUTINE: INITIALIZATION**** * * 0 JAK1 = DECAY MODE FERMION1 (TAU+) * * 0 JAK2 = DECAY MODE FERMION2 (TAU-) * *************************************************************************** *************************************************** YOU ARE USING THE 4 PION DECAY MODE FORM FACTORS WHICH HAVE BEEN DESCRIBED IN: R. DECKER, M. FINKEMEIER, P. HEILIGER AND H.H. JONSSON "TAU DECAYS INTO FOUR PIONS" UNIVERSITAET KARLSRUHE PREPRINT TTP 94-13 (1994); LNF-94/066(IR); HEP-PH/9410260 PLEASE NOTE THAT THIS ROUTINE IS USING PARAMETERS RELATED TO THE 3 PION DECAY MODE (A1 MODE), SUCH AS THE A1 MASS AND WIDTH (TAKEN FROM THE COMMON /PARMAS/) AND THE 2 PION VECTOR RESONANCE FORM FACTOR (BY USING THE ROUTINE FPIKM) THUS IF YOU DECIDE TO CHANGE ANY OF THESE, YOU WILL HAVE TO REFIT THE 4 PION PARAMETERS IN THE COMMON BLOCK /TAU4PI/, OR YOU MIGHT GET A BAD DISCRIPTION OF TAU -> 4 PIONS for these formfactors set in routine CHOICE for mnum.eq.102 -- AMRX=1.42 and GAMRX=.21 mnum.eq.101 -- AMRX=1.3 and GAMRX=.46 PROB1,PROB2=0.2 to optimize phase space parametrization *************************************************** coded by M. Finkemeier and P. Heiliger, 29. sept. 1994 incorporated to TAUOLA by Z. Was 17. jan. 1995 changed by: Z. Was on 17.01.95 changes by: M. Finkemeier on 30.01.95 Will redecay tau # 421 ID = -15 Mother particle #. 234 ID = -5122 TAUCHI : Tau mother is not W,Z,H..random polarity HEPEVT after TAUOLA decays: NHEP= 538 Event listing (HEP format) Event: 39 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !u! 3 2 1 0 0 0 0.63369 -0.70838 67.38225 67.38895 0.00000 4 !g! 3 21 2 0 0 0 0.11181 0.56992 -126.15094 126.15228 0.00000 5 !g! 3 21 3 0 0 0 3.71035 -6.25803 13.25560 15.12086 0.00000 6 !g! 3 21 4 0 0 0 -0.91652 1.82563 -81.36466 81.39030 0.00000 7 !g! 3 21 5 6 0 0 30.64960 -13.55969 -16.96970 37.56639 0.00000 8 !g! 3 21 5 6 0 0 -27.85576 9.12728 -51.13937 58.94477 0.00000 9 (b) 2 5 3 0 81 81 0.57718 -2.28310 11.76884 12.92638 4.80000 10 (g) 2 21 3 0 81 81 0.64501 0.20768 4.07209 4.12809 0.00000 11 (g) 2 21 3 0 81 81 -0.39656 0.43648 4.48893 4.52750 0.00000 12 (ud_0) 2 2101 1 0 81 81 -0.63369 0.70838 380.31464 380.31625 0.57933 13 (b~) 2 -5 3 0 92 92 -3.74318 5.84282 2.83447 8.90079 4.80000 14 (g) 2 21 0 0 92 92 0.88453 -0.55758 3.80249 3.94363 0.00000 15 (g) 2 21 0 0 92 92 3.42791 -0.42224 7.88695 8.61004 0.00000 16 (g) 2 21 0 0 92 92 -1.54165 3.71155 10.65257 11.38550 0.00000 17 (g) 2 21 0 0 92 92 -0.14277 2.20342 4.15717 4.70718 0.00000 18 (g) 2 21 0 0 92 92 -0.67998 0.42868 1.00676 1.28830 0.00000 19 (g) 2 21 0 0 92 92 -0.37718 0.58717 0.44349 0.82687 0.00000 20 (g) 2 21 0 0 92 92 -1.29526 -0.38981 1.13527 1.76593 0.00000 21 (g) 2 21 0 0 92 92 -1.71042 0.83143 -0.22487 1.91504 0.00000 22 (g) 2 21 0 0 92 92 -0.42439 -1.94965 -2.05054 2.86110 0.00000 23 (g) 2 21 8 0 92 92 -12.30538 4.20188 -22.06726 25.61332 0.00000 24 (g) 2 21 8 0 92 92 -12.94287 4.83555 -27.92099 31.15256 0.00000 25 (g) 2 21 8 0 92 92 -0.26971 0.46637 -0.55938 0.77663 0.00000 26 (g) 2 21 8 0 92 92 -0.57764 -1.07506 0.10328 1.22478 0.00000 27 (g) 2 21 0 0 92 92 -3.42791 0.42224 -4.15819 5.40549 0.00000 28 (g) 2 21 0 0 92 92 -0.59252 -1.73303 -7.40933 7.63235 0.00000 29 (g) 2 21 0 0 92 92 -0.95420 -0.61182 -3.32357 3.51154 0.00000 30 (g) 2 21 0 0 92 92 -0.54845 -0.07628 -1.41897 1.52318 0.00000 31 (g) 2 21 0 0 92 92 -0.87011 -0.80639 -5.78857 5.90888 0.00000 32 (g) 2 21 0 0 92 92 -3.61472 -1.47125 -24.31673 24.62791 0.00000 33 (g) 2 21 0 0 92 92 -0.15472 -0.41906 -8.50732 8.51904 0.00000 34 (g) 2 21 0 0 92 92 -0.01085 -0.56146 -10.07809 10.09373 0.00000 35 (g) 2 21 0 0 92 92 -0.44024 -0.38917 -96.40283 96.40462 0.00000 36 (g) 2 21 0 0 92 92 0.95420 0.61182 -119.34464 119.35002 0.00000 37 (g) 2 21 0 0 92 92 0.01085 0.56146 -60.00726 60.00989 0.00000 38 (g) 2 21 4 0 92 92 1.10499 0.69367 -0.69217 1.47692 0.00000 39 (g) 2 21 4 0 92 92 2.18387 -0.04270 -3.22509 3.89516 0.00000 40 (g) 2 21 4 0 92 92 2.03665 0.34195 -1.50225 2.55375 0.00000 41 (g) 2 21 4 0 92 92 -0.52215 -0.53332 -0.34082 0.82051 0.00000 42 (g) 2 21 4 0 92 92 -1.90180 0.30756 -9.81679 10.00404 0.00000 43 (ud_0~) 2 -2101 2 0 92 92 -0.19497 -0.39433 -356.73474 356.73547 0.57933 44 (u) 2 2 3 0 153 153 -0.03331 2.17510 22.30708 22.41533 0.33000 45 (g) 2 21 3 0 153 153 -0.63867 0.05224 2.21358 2.30446 0.00000 46 (g) 2 21 0 0 153 153 1.54165 -3.71155 7.75052 8.73057 0.00000 47 (g) 2 21 0 0 153 153 0.42002 -1.79853 2.06515 2.77056 0.00000 48 (g) 2 21 7 0 153 153 2.31080 -2.29948 -4.16551 5.28951 0.00000 49 (g) 2 21 7 0 153 153 9.90990 -4.62261 -6.57376 12.75888 0.00000 50 (g) 2 21 7 0 153 153 15.36962 -6.54805 -7.27046 18.21982 0.00000 51 (g) 2 21 7 0 153 153 1.29910 0.60900 0.34502 1.47566 0.00000 52 (g) 2 21 0 0 153 153 1.71042 -0.83143 -1.06166 2.17805 0.00000 53 (g) 2 21 0 0 153 153 1.29526 0.38981 -0.22416 1.37110 0.00000 54 (g) 2 21 0 0 153 153 1.00648 -0.01716 -1.40366 1.72730 0.00000 55 (g) 2 21 0 0 153 153 3.61472 1.47125 -6.74923 7.79634 0.00000 56 (g) 2 21 0 0 153 153 0.59252 1.73303 -1.93014 2.66081 0.00000 57 (g) 2 21 0 0 153 153 -0.42002 1.79853 -12.47402 12.61001 0.00000 58 (g) 2 21 0 0 153 153 0.44024 0.38917 -6.68370 6.70948 0.00000 59 (g) 2 21 0 0 153 153 0.15472 0.41906 -7.86014 7.87282 0.00000 60 (g) 2 21 4 0 153 153 -1.78989 -2.78255 -20.61591 20.87971 0.00000 61 (g) 2 21 4 0 153 153 0.42954 -0.12187 -2.15158 2.19742 0.00000 62 (u~) 2 -2 2 0 153 153 0.08316 -0.17559 -33.07878 33.08100 0.33000 63 (d) 2 1 0 0 188 188 2.74739 -1.19038 39.52601 39.63926 0.00000 64 (g) 2 21 0 0 188 188 1.44496 -2.07451 20.74912 20.90257 0.00000 65 (g) 2 21 0 0 188 188 0.44236 -0.91138 14.62988 14.66492 0.00000 66 (g) 2 21 0 0 188 188 0.14277 -2.20342 53.20214 53.24794 0.00000 67 (g) 2 21 0 0 188 188 0.54845 0.07628 9.27757 9.29408 0.00000 68 (g) 2 21 0 0 188 188 0.42439 1.94965 39.00471 39.05571 0.00000 69 (g) 2 21 0 0 188 188 0.87011 0.80639 12.64200 12.69754 0.00000 70 (g) 2 21 0 0 188 188 -1.44496 2.07451 12.38480 12.64020 0.00000 71 (d~) 2 -1 0 0 188 188 -2.74739 1.19038 10.95831 11.36000 0.00000 72 (d) 2 1 0 0 202 202 0.01980 -1.52344 204.38228 204.38795 0.00000 73 (g) 2 21 0 0 202 202 -0.88453 0.55758 35.68246 35.69778 0.00000 74 (g) 2 21 0 0 202 202 -0.44236 0.91138 31.05626 31.07278 0.00000 75 (d~) 2 -1 0 0 202 202 -0.01980 1.52344 1.39930 2.06865 0.00000 76 (u) 2 2 0 0 211 211 -1.04650 -0.35198 -28.81154 28.83269 0.00000 77 (g) 2 21 0 0 211 211 -1.00648 0.01716 -40.08265 40.09528 0.00000 78 (g) 2 21 0 0 211 211 0.37718 -0.58717 -1.97049 2.09043 0.00000 79 (g) 2 21 0 0 211 211 0.67998 -0.42868 -2.19303 2.33570 0.00000 80 (u~) 2 -2 0 0 211 211 1.04650 0.35198 -1.05234 1.52527 0.00000 81 (gen. code) 2 92 9 12 82 91 0.19194 -0.93057 400.64447 401.89822 31.70604 82 (B~0) 2 -511 81 0 218 220 0.64998 -1.16747 14.79703 15.76729 5.27920 83 (eta) 2 221 81 0 221 223 -0.51510 -0.62957 4.13583 4.25047 0.54745 84 pi- 1 -211 81 0 0 0 0.58815 -0.10714 13.03018 13.04463 0.13957 85 (pi0) 2 111 81 0 224 225 -0.13024 0.19346 0.70667 0.75630 0.13498 86 (eta') 2 331 81 0 226 228 0.23849 -0.55195 15.69198 15.73268 0.95775 87 pi+ 1 211 81 0 0 0 0.34093 0.29099 5.87420 5.89293 0.13957 88 (rho(770)-) 2 -213 81 0 229 230 0.10330 -0.28762 25.59577 25.61501 0.94427 89 K+ 1 321 81 0 0 0 -0.69737 0.83184 49.62618 49.64051 0.49360 90 (phi(1020)) 2 333 81 0 231 233 0.14999 -0.03734 74.06277 74.06992 1.01788 91 Lambda0 1 3122 81 0 0 0 -0.53622 0.53422 197.12387 197.12849 1.11568 92 (gen. code) 2 92 13 43 93 152 -38.64005 14.61443 -733.86792 823.44421 371.20282 93 (Sigma_b~-) 2 -5222 92 0 234 235 -2.73274 5.10891 3.63313 8.96708 5.80000 94 pi+ 1 211 92 0 0 0 -0.31887 -0.23153 0.02531 0.41881 0.13957 95 n0 1 2112 92 0 0 0 0.16163 0.60830 1.74632 2.08052 0.93957 96 (rho(770)+) 2 213 92 0 236 237 1.66260 0.35633 3.47362 3.95656 0.83496 97 (pi0) 2 111 92 0 238 239 -0.03748 -0.36959 2.41148 2.44366 0.13498 98 pi- 1 -211 92 0 0 0 1.32079 -0.24455 2.91598 3.21352 0.13957 99 n~0 1 -2112 92 0 0 0 -0.31133 1.38288 3.62974 4.00838 0.93957 100 p+ 1 2212 92 0 0 0 -0.30307 0.69447 3.43309 3.63876 0.93827 101 pi- 1 -211 92 0 0 0 -0.18506 1.35879 4.05156 4.27962 0.13957 102 (rho(770)+) 2 213 92 0 240 241 -1.17710 1.81773 2.66273 3.51693 0.76743 103 (pi0) 2 111 92 0 242 243 -0.27046 0.13903 2.60684 2.62798 0.13498 104 (pi0) 2 111 92 0 244 245 -0.77844 0.73568 0.48927 1.18524 0.13498 105 pi- 1 -211 92 0 0 0 -0.08686 0.05251 0.05452 0.18098 0.13957 106 (rho(770)+) 2 213 92 0 246 247 -0.63572 0.07102 0.01942 1.14693 0.95178 107 (rho(770)0) 2 113 92 0 248 249 -0.47714 -0.08631 -0.03499 0.95863 0.82621 108 (eta) 2 221 92 0 250 252 -0.36399 -0.33608 -0.57262 0.93436 0.54745 109 pi- 1 -211 92 0 0 0 -0.03546 -0.22864 0.25863 0.37404 0.13957 110 (rho(770)0) 2 113 92 0 253 254 -2.00761 0.14301 -1.60137 2.67213 0.72453 111 (pi0) 2 111 92 0 255 256 0.21501 0.16171 -1.60272 1.63074 0.13498 112 pi+ 1 211 92 0 0 0 -1.75344 0.20942 -1.82171 2.54097 0.13957 113 pi- 1 -211 92 0 0 0 -2.50177 1.56662 -5.24138 6.01703 0.13957 114 (rho(770)0) 2 113 92 0 257 258 -5.11537 0.59995 -10.46582 11.69068 0.78216 115 (omega(782)) 2 223 92 0 259 261 -6.06260 2.42203 -12.06379 13.73919 0.78054 116 (rho(770)+) 2 213 92 0 262 263 -2.57247 1.01204 -4.00032 4.91119 0.68949 117 (omega(782)) 2 223 92 0 264 266 -1.83329 0.94218 -5.43036 5.86081 0.78208 118 K- 1 -321 92 0 0 0 -1.50097 -0.05529 -1.92150 2.48833 0.49360 119 (K0) 2 311 92 0 267 267 -0.21742 0.38842 -0.78124 1.02769 0.49767 120 p~- 1 -2212 92 0 0 0 -2.45498 0.48433 -3.02660 4.03759 0.93827 121 (Delta+) 2 2214 92 0 268 269 -3.14548 0.01523 -7.25002 7.98715 1.15651 122 (pi0) 2 111 92 0 270 271 0.17608 -0.48092 0.09492 0.53807 0.13498 123 pi+ 1 211 92 0 0 0 -1.06514 0.26343 -2.03731 2.31820 0.13957 124 (rho(770)-) 2 -213 92 0 272 273 -0.55644 -0.32513 -1.17051 1.53366 0.75278 125 (omega(782)) 2 223 92 0 274 276 -1.32434 -0.66616 -4.86454 5.14052 0.75072 126 pi+ 1 211 92 0 0 0 -0.24224 -0.00391 -2.00884 2.02820 0.13957 127 pi- 1 -211 92 0 0 0 -0.23331 -0.78798 -2.53257 2.66623 0.13957 128 (Delta~+) 2 -1114 92 0 277 278 -3.08256 -1.25527 -18.72215 19.05028 1.14732 129 (rho(770)-) 2 -213 92 0 279 280 -0.33790 -1.63265 -31.59789 31.65149 0.78146 130 (Delta+) 2 2214 92 0 281 282 -0.87611 -0.10899 -11.87996 11.97460 1.21578 131 Sigma~- 1 -3222 92 0 0 0 -0.27236 0.29506 -19.72383 19.76374 1.18937 132 (pi0) 2 111 92 0 283 284 -0.09492 -0.26349 -12.94320 12.94693 0.13498 133 (Sigma0) 2 3212 92 0 285 286 0.02653 0.16114 -49.55426 49.56887 1.19255 134 (rho(770)0) 2 113 92 0 287 288 0.02930 0.19058 -33.26238 33.26541 0.40525 135 (rho(770)+) 2 213 92 0 289 290 -0.15638 -0.08517 -11.15949 11.18832 0.78266 136 pi- 1 -211 92 0 0 0 -0.35038 0.11990 -24.64065 24.64383 0.13957 137 (K*(892)~0) 2 -313 92 0 291 292 0.04820 -0.48857 -51.09528 51.10336 0.76516 138 (K*(892)0) 2 313 92 0 293 294 0.23351 0.27474 -14.99681 15.02128 0.77762 139 (eta) 2 221 92 0 295 297 0.82349 0.26509 -11.55250 11.59777 0.54745 140 pi+ 1 211 92 0 0 0 -0.64946 0.12160 -27.41792 27.42624 0.13957 141 (rho(770)-) 2 -213 92 0 298 299 0.15516 0.56154 -2.68524 2.88318 0.87339 142 (rho(770)0) 2 113 92 0 300 301 1.21926 0.04238 -5.30873 5.50715 0.81096 143 (rho(770)+) 2 213 92 0 302 303 2.79669 -0.02902 -1.78033 3.39199 0.71675 144 (K*(892)-) 2 -323 92 0 304 305 0.35574 0.13927 -1.38338 1.68742 0.88753 145 (K*(892)0) 2 313 92 0 306 307 -0.01612 -0.25748 -1.15696 1.49391 0.90920 146 (rho(770)+) 2 213 92 0 308 309 0.33048 -0.24560 -2.11262 2.26103 0.69251 147 (K*(892)-) 2 -323 92 0 310 311 -0.92537 0.30724 -5.14858 5.31437 0.88545 148 (K*(892)+) 2 323 92 0 312 313 -0.80877 0.02520 -7.61778 7.71038 0.87440 149 (eta) 2 221 92 0 314 315 -0.18759 0.59541 -33.11627 33.12668 0.54745 150 K- 1 -321 92 0 0 0 -0.03675 -0.65744 -34.31335 34.32322 0.49360 151 Sigma~+ 1 -3112 92 0 0 0 -0.05152 -0.24885 -136.67203 136.67751 1.19744 152 pi- 1 -211 92 0 0 0 -0.04776 0.06990 -147.10472 147.10481 0.13957 153 (gen. code) 2 92 44 62 154 187 37.29625 -13.87165 -77.56136 173.04881 149.48811 154 (rho(770)0) 2 113 153 0 316 317 -0.07353 1.06474 7.01161 7.11617 0.58143 155 (eta) 2 221 153 0 318 320 -0.00923 0.04597 1.56369 1.65742 0.54745 156 (pi0) 2 111 153 0 321 322 0.02264 -0.63554 6.83037 6.86124 0.13498 157 (Delta++) 2 2224 153 0 323 324 0.09860 -0.17501 5.17816 5.32212 1.21295 158 (rho(770)0) 2 113 153 0 325 326 0.27766 0.50840 4.47661 4.61186 0.94534 159 (Delta~--) 2 -2224 153 0 327 328 0.18315 -0.77100 3.23794 3.55778 1.24319 160 (omega(782)) 2 223 153 0 329 331 -0.45869 -0.90968 2.34216 2.67081 0.78079 161 pi+ 1 211 153 0 0 0 1.49391 -1.88930 2.89697 3.77003 0.13957 162 (rho(770)-) 2 -213 153 0 332 333 0.45768 -0.85499 0.10296 1.18823 0.67883 163 (rho(770)+) 2 213 153 0 334 335 0.29516 0.03394 -0.89226 1.20140 0.74763 164 (rho(770)-) 2 -213 153 0 336 337 2.22429 -2.18891 -2.04466 3.79438 0.69129 165 (rho(770)+) 2 213 153 0 338 339 4.06675 -1.86061 -3.34976 5.64591 0.80943 166 pi- 1 -211 153 0 0 0 4.38373 -1.41016 -1.73727 4.92374 0.13957 167 (rho(770)+) 2 213 153 0 340 341 1.37527 -0.93096 -0.81342 1.96831 0.67420 168 (rho(770)-) 2 -213 153 0 342 343 7.58682 -3.97859 -4.91351 9.88930 0.51641 169 (Delta+) 2 2214 153 0 344 345 4.68520 -1.61871 -2.08968 5.53429 1.30014 170 (Sigma*~0) 2 -3214 153 0 346 347 3.91594 -0.59892 -1.04536 4.33516 1.41690 171 (K*(892)-) 2 -323 153 0 348 349 1.63837 -0.15457 -2.05379 2.78438 0.90916 172 pi+ 1 211 153 0 0 0 0.78581 0.48034 -0.32647 0.98706 0.13957 173 (Delta+) 2 2214 153 0 350 351 1.76980 -0.39704 -2.83388 3.57412 1.20568 174 pi- 1 -211 153 0 0 0 0.06459 -0.04454 0.02588 0.16219 0.13957 175 p~- 1 -2212 153 0 0 0 2.12829 1.00819 -2.42692 3.50947 0.93827 176 (pi0) 2 111 153 0 352 353 0.14168 0.65924 -1.59710 1.73886 0.13498 177 (rho(770)+) 2 213 153 0 354 355 0.39462 0.88746 -6.46201 6.59262 0.87275 178 (pi0) 2 111 153 0 356 357 0.62506 0.62065 -0.86804 1.24403 0.13498 179 (K0) 2 311 153 0 358 358 0.48385 0.69542 -2.02152 2.24765 0.49767 180 Lambda0 1 3122 153 0 0 0 -0.83420 0.13604 -9.68106 9.78173 1.11568 181 (rho(770)0) 2 113 153 0 359 360 -0.19775 -0.42235 -5.44150 5.49518 0.60793 182 p~- 1 -2212 153 0 0 0 0.13412 0.62617 -12.64297 12.69391 0.93827 183 K+ 1 321 153 0 0 0 0.14312 -0.09062 -3.74788 3.78404 0.49360 184 K- 1 -321 153 0 0 0 -0.31040 -0.08879 -16.78965 16.80001 0.49360 185 (pi0) 2 111 153 0 361 362 0.45939 -0.68520 -10.85983 10.89196 0.13498 186 (rho(770)0) 2 113 153 0 363 364 -0.91515 -0.29023 -7.69571 7.79200 0.75473 187 (pi0) 2 111 153 0 365 366 0.25969 -0.64249 -8.89348 8.92146 0.13498 188 (gen. code) 2 92 63 71 189 201 2.42808 -0.28249 212.37454 213.50223 21.77792 189 (rho(770)-) 2 -213 188 0 367 368 2.27439 -2.18411 33.09450 33.25343 0.77584 190 (omega(782)) 2 223 188 0 369 371 0.25936 -0.96926 29.83140 29.85888 0.79624 191 (rho(770)+) 2 213 188 0 372 373 1.67141 -0.51184 25.08098 25.14967 0.62837 192 pi- 1 -211 188 0 0 0 0.45039 -0.76137 9.27495 9.31809 0.13957 193 K+ 1 321 188 0 0 0 0.62273 -1.11741 13.18751 13.25860 0.49360 194 (phi(1020)) 2 333 188 0 374 375 0.79251 0.54060 36.56809 36.59480 1.01669 195 K- 1 -321 188 0 0 0 -0.16708 0.36664 6.04803 6.08150 0.49360 196 (rho(770)0) 2 113 188 0 376 377 -0.75788 0.27974 12.43081 12.47978 0.75310 197 (pi0) 2 111 188 0 378 379 -0.03129 1.11821 22.83567 22.86345 0.13498 198 pi+ 1 211 188 0 0 0 0.43795 0.42258 1.33290 1.47190 0.13957 199 pi- 1 -211 188 0 0 0 -0.39768 0.56206 5.81827 5.86053 0.13957 200 (rho(770)+) 2 213 188 0 380 381 -1.08506 0.66292 7.12508 7.32316 1.11584 201 (rho(770)0) 2 113 188 0 382 383 -1.64167 1.30874 9.74636 9.98844 0.60781 202 (gen. code) 2 92 72 75 203 210 -1.32690 1.46896 272.52032 273.22717 19.54095 203 (K*(892)0) 2 313 202 0 384 385 -0.67790 0.09766 45.69915 45.71252 0.86739 204 (eta) 2 221 202 0 386 387 0.25424 -0.71489 114.73551 114.73933 0.54745 205 (K~0) 2 -311 202 0 388 388 -0.49015 0.72801 48.20185 48.21241 0.49767 206 (omega(782)) 2 223 202 0 389 391 0.15926 -0.64647 39.00531 39.01882 0.78169 207 (Delta0) 2 2114 202 0 392 393 -0.07734 0.65790 10.82279 10.91358 1.23887 208 (rho(770)+) 2 213 202 0 394 395 -0.46140 0.04043 4.74687 4.84069 0.82764 209 (Sigma*~-) 2 -3224 202 0 396 397 0.02132 0.57139 8.36083 8.49001 1.36008 210 (K~0) 2 -311 202 0 398 398 -0.05493 0.73493 0.94799 1.29981 0.49767 211 (gen. code) 2 92 76 80 212 217 0.05069 -0.99869 -74.11005 74.87938 10.65937 212 (eta) 2 221 211 0 399 401 0.25506 0.12860 -5.59433 5.62831 0.54745 213 pi+ 1 211 211 0 0 0 -2.34298 -0.42336 -58.05623 58.10519 0.13957 214 (pi0) 2 111 211 0 402 403 0.15762 -0.16446 -1.55665 1.57901 0.13498 215 n0 1 2112 211 0 0 0 0.96400 -0.28625 -5.50499 5.67441 0.93957 216 (pi0) 2 111 211 0 404 405 -0.16638 0.22453 -0.46195 0.55652 0.13498 217 p~- 1 -2212 211 0 0 0 1.18337 -0.47775 -2.93589 3.33593 0.93827 218 nu_tau~ 1 -16 82 0 0 0 0.00163 -0.10261 -0.00989 0.10310 0.00000 219 (tau-) 2 15 82 0 524 525 -0.10884 0.18046 2.30472 2.91787 1.77703 220 (D*(2010)+) 2 413 82 0 406 407 0.75719 -1.24532 12.50220 12.74634 2.01000 221 (pi0) 2 111 83 0 408 409 -0.06445 -0.20748 1.14223 1.17052 0.13498 222 (pi0) 2 111 83 0 410 411 -0.29375 -0.39404 1.93907 2.00493 0.13498 223 (pi0) 2 111 83 0 412 413 -0.15689 -0.02805 1.05453 1.07501 0.13498 224 gamma 1 22 85 0 0 0 -0.15843 0.15656 0.57123 0.61312 0.00000 225 gamma 1 22 85 0 0 0 0.02820 0.03690 0.13544 0.14319 0.00000 226 pi- 1 -211 86 0 0 0 0.13925 -0.17879 3.11954 3.13088 0.13957 227 pi+ 1 211 86 0 0 0 -0.01262 -0.15230 1.66298 1.67581 0.13957 228 (eta) 2 221 86 0 414 415 0.11187 -0.22086 10.90946 10.92599 0.54745 229 pi- 1 -211 88 0 0 0 -0.16488 -0.49190 9.52996 9.54509 0.13957 230 (pi0) 2 111 88 0 416 417 0.26818 0.20428 16.06581 16.06991 0.13498 231 pi+ 1 211 90 0 0 0 0.02596 0.15916 8.07938 8.08219 0.13957 232 pi- 1 -211 90 0 0 0 -0.00499 0.09562 51.18818 51.18845 0.13957 233 (pi0) 2 111 90 0 418 419 0.12902 -0.29211 14.79522 14.79928 0.13498 234 (Lambda_b~0) 2 -5122 93 0 420 422 -2.64396 4.90837 3.58013 8.70178 5.64100 235 pi- 1 -211 93 0 0 0 -0.08878 0.20054 0.05300 0.26530 0.13957 236 pi+ 1 211 96 0 0 0 1.27356 0.47640 3.09901 3.38707 0.13957 237 (pi0) 2 111 96 0 423 424 0.38904 -0.12007 0.37461 0.56949 0.13498 238 gamma 1 22 97 0 0 0 -0.04515 -0.03379 0.25392 0.26011 0.00000 239 gamma 1 22 97 0 0 0 0.00768 -0.33580 2.15756 2.18355 0.00000 240 pi+ 1 211 102 0 0 0 -0.05612 0.00999 0.29437 0.33073 0.13957 241 (pi0) 2 111 102 0 425 426 -1.12098 1.80774 2.36836 3.18619 0.13498 242 gamma 1 22 103 0 0 0 -0.03714 0.06851 0.96634 0.96947 0.00000 243 gamma 1 22 103 0 0 0 -0.23332 0.07052 1.64050 1.65851 0.00000 244 gamma 1 22 104 0 0 0 -0.36123 0.36094 0.16100 0.53543 0.00000 245 gamma 1 22 104 0 0 0 -0.41721 0.37474 0.32827 0.64981 0.00000 246 pi+ 1 211 106 0 0 0 -0.31054 0.47757 0.12293 0.59925 0.13957 247 (pi0) 2 111 106 0 427 428 -0.32518 -0.40655 -0.10351 0.54768 0.13498 248 pi+ 1 211 107 0 0 0 0.20118 -0.00818 0.06771 0.25417 0.13957 249 pi- 1 -211 107 0 0 0 -0.67832 -0.07813 -0.10270 0.70445 0.13957 250 (pi0) 2 111 108 0 429 430 -0.22225 -0.23329 -0.45563 0.57413 0.13498 251 (pi0) 2 111 108 0 431 432 -0.08448 0.00263 -0.06754 0.17299 0.13498 252 (pi0) 2 111 108 0 433 434 -0.05727 -0.10542 -0.04945 0.18724 0.13498 253 pi- 1 -211 110 0 0 0 -1.13572 -0.11734 -0.55094 1.27540 0.13957 254 pi+ 1 211 110 0 0 0 -0.87189 0.26035 -1.05043 1.39673 0.13957 255 gamma 1 22 111 0 0 0 0.19944 0.07787 -1.06616 1.08744 0.00000 256 gamma 1 22 111 0 0 0 0.01557 0.08384 -0.53657 0.54330 0.00000 257 pi+ 1 211 114 0 0 0 -0.61560 0.27795 -1.20088 1.38485 0.13957 258 pi- 1 -211 114 0 0 0 -4.49977 0.32200 -9.26494 10.30583 0.13957 259 pi+ 1 211 115 0 0 0 -3.60101 1.57397 -7.30469 8.29595 0.13957 260 pi- 1 -211 115 0 0 0 -1.55708 0.38233 -3.08662 3.48100 0.13957 261 (pi0) 2 111 115 0 435 436 -0.90451 0.46573 -1.67247 1.96225 0.13498 262 pi+ 1 211 116 0 0 0 -2.17170 0.96436 -3.66163 4.36730 0.13957 263 (pi0) 2 111 116 0 437 438 -0.40076 0.04768 -0.33869 0.54389 0.13498 264 pi+ 1 211 117 0 0 0 -1.07999 0.61869 -2.99869 3.24974 0.13957 265 pi- 1 -211 117 0 0 0 -0.46602 -0.00865 -1.11421 1.21581 0.13957 266 (pi0) 2 111 117 0 439 440 -0.28728 0.33215 -1.31746 1.39527 0.13498 267 KS0 1 310 119 0 0 0 -0.21742 0.38842 -0.78124 1.02769 0.49767 268 n0 1 2112 121 0 0 0 -2.62976 -0.10633 -6.26414 6.85924 0.93957 269 pi+ 1 211 121 0 0 0 -0.51572 0.12156 -0.98587 1.12790 0.13957 270 gamma 1 22 122 0 0 0 0.03946 -0.03031 -0.01959 0.05348 0.00000 271 gamma 1 22 122 0 0 0 0.13662 -0.45062 0.11451 0.48460 0.00000 272 pi- 1 -211 124 0 0 0 -0.41619 0.12278 -0.79959 0.92039 0.13957 273 (pi0) 2 111 124 0 441 442 -0.14024 -0.44792 -0.37092 0.61327 0.13498 274 pi- 1 -211 125 0 0 0 -0.86364 -0.49640 -3.18634 3.34134 0.13957 275 pi+ 1 211 125 0 0 0 -0.25551 0.05364 -1.01847 1.06063 0.13957 276 (pi0) 2 111 125 0 443 444 -0.20519 -0.22340 -0.65972 0.73855 0.13498 277 n~0 1 -2112 128 0 0 0 -2.55479 -0.89824 -15.48147 15.74460 0.93957 278 pi+ 1 211 128 0 0 0 -0.52777 -0.35703 -3.24068 3.30568 0.13957 279 pi- 1 -211 129 0 0 0 -0.01481 -0.17191 -1.51978 1.53590 0.13957 280 (pi0) 2 111 129 0 445 446 -0.32309 -1.46074 -30.07811 30.11559 0.13498 281 n0 1 2112 130 0 0 0 -0.53008 -0.15761 -9.84137 9.90157 0.93957 282 pi+ 1 211 130 0 0 0 -0.34603 0.04862 -2.03860 2.07303 0.13957 283 gamma 1 22 132 0 0 0 -0.02946 -0.02138 -0.55377 0.55496 0.00000 284 gamma 1 22 132 0 0 0 -0.06547 -0.24210 -12.38943 12.39197 0.00000 285 Lambda0 1 3122 133 0 0 0 0.05894 0.17716 -44.12851 44.14301 1.11568 286 gamma 1 22 133 0 0 0 -0.03241 -0.01602 -5.42574 5.42587 0.00000 287 pi+ 1 211 134 0 0 0 0.15517 0.14441 -17.53041 17.53225 0.13957 288 pi- 1 -211 134 0 0 0 -0.12587 0.04617 -15.73198 15.73317 0.13957 289 pi+ 1 211 135 0 0 0 0.12663 -0.20477 -8.87005 8.87442 0.13957 290 (pi0) 2 111 135 0 447 448 -0.28301 0.11960 -2.28944 2.31390 0.13498 291 K- 1 -321 137 0 0 0 0.06664 -0.28775 -23.66180 23.66879 0.49360 292 pi+ 1 211 137 0 0 0 -0.01843 -0.20082 -27.43347 27.43457 0.13957 293 (K0) 2 311 138 0 449 449 0.27974 0.37068 -12.54615 12.56461 0.49767 294 (pi0) 2 111 138 0 450 451 -0.04623 -0.09594 -2.45065 2.45668 0.13498 295 pi- 1 -211 139 0 0 0 0.17413 0.01901 -1.63471 1.64998 0.13957 296 pi+ 1 211 139 0 0 0 0.22972 0.00554 -3.22098 3.23218 0.13957 297 (pi0) 2 111 139 0 452 453 0.41965 0.24054 -6.69681 6.71561 0.13498 298 pi- 1 -211 141 0 0 0 0.25128 -0.14293 -0.69835 0.76860 0.13957 299 (pi0) 2 111 141 0 454 455 -0.09611 0.70447 -1.98689 2.11458 0.13498 300 pi+ 1 211 142 0 0 0 0.37372 -0.33768 -1.69152 1.77042 0.13957 301 pi- 1 -211 142 0 0 0 0.84555 0.38006 -3.61722 3.73673 0.13957 302 pi+ 1 211 143 0 0 0 1.41536 0.02950 -1.28560 1.91738 0.13957 303 (pi0) 2 111 143 0 456 457 1.38133 -0.05852 -0.49473 1.47461 0.13498 304 K- 1 -321 144 0 0 0 0.11385 0.31170 -0.62993 0.86636 0.49360 305 (pi0) 2 111 144 0 458 459 0.24189 -0.17243 -0.75345 0.82107 0.13498 306 K+ 1 321 145 0 0 0 0.06793 0.07610 -0.93274 1.06021 0.49360 307 pi- 1 -211 145 0 0 0 -0.08404 -0.33357 -0.22422 0.43369 0.13957 308 pi+ 1 211 146 0 0 0 0.42293 0.02443 -1.58115 1.64286 0.13957 309 (pi0) 2 111 146 0 460 461 -0.09244 -0.27003 -0.53147 0.61818 0.13498 310 K- 1 -321 147 0 0 0 -0.68711 0.18357 -4.66799 4.74759 0.49360 311 (pi0) 2 111 147 0 462 463 -0.23827 0.12366 -0.48059 0.56679 0.13498 312 (K0) 2 311 148 0 464 464 -0.38122 0.07389 -5.91283 5.94643 0.49767 313 pi+ 1 211 148 0 0 0 -0.42756 -0.04869 -1.70495 1.76395 0.13957 314 gamma 1 22 149 0 0 0 0.10455 0.18177 -3.62525 3.63131 0.00000 315 gamma 1 22 149 0 0 0 -0.29214 0.41364 -29.49102 29.49537 0.00000 316 pi+ 1 211 154 0 0 0 0.05581 0.89827 6.18682 6.25350 0.13957 317 pi- 1 -211 154 0 0 0 -0.12933 0.16647 0.82479 0.86267 0.13957 318 (pi0) 2 111 155 0 465 466 -0.07927 0.08381 0.41520 0.45158 0.13498 319 (pi0) 2 111 155 0 467 468 0.00220 -0.11991 0.41690 0.45432 0.13498 320 (pi0) 2 111 155 0 469 470 0.06784 0.08208 0.73159 0.75152 0.13498 321 gamma 1 22 156 0 0 0 0.02397 -0.20961 2.95808 2.96559 0.00000 322 gamma 1 22 156 0 0 0 -0.00133 -0.42593 3.87230 3.89565 0.00000 323 p+ 1 2212 157 0 0 0 0.27223 -0.20071 3.97330 4.09657 0.93827 324 pi+ 1 211 157 0 0 0 -0.17363 0.02570 1.20486 1.22555 0.13957 325 pi+ 1 211 158 0 0 0 -0.18949 -0.00640 0.33177 0.40681 0.13957 326 pi- 1 -211 158 0 0 0 0.46715 0.51480 4.14484 4.20505 0.13957 327 p~- 1 -2212 159 0 0 0 0.07901 -0.34153 2.02119 2.25576 0.93827 328 pi- 1 -211 159 0 0 0 0.10415 -0.42947 1.21675 1.30202 0.13957 329 pi- 1 -211 160 0 0 0 -0.42730 -0.72236 1.32386 1.57368 0.13957 330 pi+ 1 211 160 0 0 0 0.07408 -0.17459 0.62850 0.67117 0.13957 331 (pi0) 2 111 160 0 471 472 -0.10547 -0.01273 0.38980 0.42597 0.13498 332 pi- 1 -211 162 0 0 0 0.14194 -0.55776 -0.21912 0.63146 0.13957 333 (pi0) 2 111 162 0 473 474 0.31574 -0.29722 0.32208 0.55677 0.13498 334 pi+ 1 211 163 0 0 0 -0.04423 -0.10650 -0.77064 0.79162 0.13957 335 (pi0) 2 111 163 0 475 476 0.33939 0.14043 -0.12162 0.40978 0.13498 336 pi- 1 -211 164 0 0 0 1.52851 -1.85222 -1.43818 2.80266 0.13957 337 (pi0) 2 111 164 0 477 478 0.69578 -0.33669 -0.60648 0.99172 0.13498 338 pi+ 1 211 165 0 0 0 2.29641 -1.11178 -1.44040 2.93322 0.13957 339 (pi0) 2 111 165 0 479 480 1.77034 -0.74882 -1.90936 2.71269 0.13498 340 pi+ 1 211 167 0 0 0 0.57997 -0.67996 -0.20575 0.92764 0.13957 341 (pi0) 2 111 167 0 481 482 0.79530 -0.25100 -0.60767 1.04067 0.13498 342 pi- 1 -211 168 0 0 0 5.29690 -2.97142 -3.38137 6.95267 0.13957 343 (pi0) 2 111 168 0 483 484 2.28992 -1.00717 -1.53214 2.93663 0.13498 344 p+ 1 2212 169 0 0 0 4.02082 -1.23674 -1.52139 4.57072 0.93827 345 (pi0) 2 111 169 0 485 486 0.66438 -0.38197 -0.56829 0.96357 0.13498 346 Lambda~0 1 -3122 170 0 0 0 3.69004 -0.63875 -0.83469 3.99573 1.11568 347 (pi0) 2 111 170 0 487 488 0.22589 0.03982 -0.21067 0.33943 0.13498 348 K- 1 -321 171 0 0 0 1.46047 -0.26090 -1.45211 2.13385 0.49360 349 (pi0) 2 111 171 0 489 490 0.17790 0.10633 -0.60167 0.65053 0.13498 350 p+ 1 2212 173 0 0 0 1.28739 -0.11687 -1.95717 2.52624 0.93827 351 (pi0) 2 111 173 0 491 492 0.48240 -0.28018 -0.87671 1.04788 0.13498 352 gamma 1 22 176 0 0 0 0.13988 0.66015 -1.59932 1.73586 0.00000 353 gamma 1 22 176 0 0 0 0.00180 -0.00091 0.00222 0.00300 0.00000 354 pi+ 1 211 177 0 0 0 -0.08055 0.48414 -1.39043 1.48110 0.13957 355 (pi0) 2 111 177 0 493 494 0.47517 0.40332 -5.07158 5.11152 0.13498 356 gamma 1 22 178 0 0 0 0.30588 0.26820 -0.48800 0.63533 0.00000 357 gamma 1 22 178 0 0 0 0.31918 0.35245 -0.38004 0.60871 0.00000 358 KS0 1 310 179 0 0 0 0.48385 0.69542 -2.02152 2.24765 0.49767 359 pi+ 1 211 181 0 0 0 -0.08245 -0.35110 -4.97132 4.98634 0.13957 360 pi- 1 -211 181 0 0 0 -0.11529 -0.07126 -0.47018 0.50884 0.13957 361 gamma 1 22 185 0 0 0 0.45616 -0.62813 -9.87423 9.90470 0.00000 362 gamma 1 22 185 0 0 0 0.00324 -0.05708 -0.98560 0.98726 0.00000 363 pi+ 1 211 186 0 0 0 -0.02933 -0.21503 -2.98332 2.99446 0.13957 364 pi- 1 -211 186 0 0 0 -0.88582 -0.07519 -4.71239 4.79754 0.13957 365 gamma 1 22 187 0 0 0 0.02968 -0.19519 -2.03190 2.04147 0.00000 366 gamma 1 22 187 0 0 0 0.23000 -0.44730 -6.86158 6.87999 0.00000 367 pi- 1 -211 189 0 0 0 0.23079 -0.02421 2.74097 2.75431 0.13957 368 (pi0) 2 111 189 0 495 496 2.04360 -2.15990 30.35353 30.49912 0.13498 369 pi+ 1 211 190 0 0 0 0.42696 -0.53071 16.25238 16.26724 0.13957 370 pi- 1 -211 190 0 0 0 -0.08588 -0.08565 5.90094 5.90384 0.13957 371 (pi0) 2 111 190 0 497 498 -0.08173 -0.35290 7.67808 7.68780 0.13498 372 pi+ 1 211 191 0 0 0 0.92636 -0.11663 16.27844 16.30579 0.13957 373 (pi0) 2 111 191 0 499 500 0.74505 -0.39521 8.80254 8.84388 0.13498 374 KL0 1 130 194 0 0 0 0.34798 0.24627 14.81695 14.83144 0.49767 375 KS0 1 310 194 0 0 0 0.44453 0.29433 21.75113 21.76336 0.49767 376 pi+ 1 211 196 0 0 0 -0.31482 -0.19363 6.50093 6.51292 0.13957 377 pi- 1 -211 196 0 0 0 -0.44306 0.47338 5.92988 5.96686 0.13957 378 gamma 1 22 197 0 0 0 0.01579 0.05007 0.69434 0.69632 0.00000 379 gamma 1 22 197 0 0 0 -0.04707 1.06814 22.14133 22.16713 0.00000 380 pi+ 1 211 200 0 0 0 -0.13010 0.46763 1.00814 1.12757 0.13957 381 (pi0) 2 111 200 0 501 502 -0.95496 0.19529 6.11694 6.19559 0.13498 382 pi- 1 -211 201 0 0 0 -0.42847 0.10906 2.49826 2.54092 0.13957 383 pi+ 1 211 201 0 0 0 -1.21320 1.19968 7.24810 7.44752 0.13957 384 K+ 1 321 203 0 0 0 -0.47509 0.02146 41.38232 41.38800 0.49360 385 pi- 1 -211 203 0 0 0 -0.20281 0.07620 4.31683 4.32452 0.13957 386 gamma 1 22 204 0 0 0 -0.14003 -0.27484 55.82132 55.82217 0.00000 387 gamma 1 22 204 0 0 0 0.39426 -0.44005 58.91419 58.91715 0.00000 388 KL0 1 130 205 0 0 0 -0.49015 0.72801 48.20185 48.21241 0.49767 389 pi+ 1 211 206 0 0 0 0.20845 -0.41344 26.39645 26.40088 0.13957 390 pi- 1 -211 206 0 0 0 -0.10417 -0.27346 9.24980 9.25548 0.13957 391 (pi0) 2 111 206 0 503 504 0.05498 0.04042 3.35906 3.36246 0.13498 392 n0 1 2112 207 0 0 0 -0.00410 0.30414 8.71800 8.77376 0.93957 393 (pi0) 2 111 207 0 505 506 -0.07324 0.35376 2.10479 2.13983 0.13498 394 pi+ 1 211 208 0 0 0 -0.53454 0.14226 4.48137 4.51754 0.13957 395 (pi0) 2 111 208 0 507 508 0.07314 -0.10183 0.26550 0.32316 0.13498 396 Lambda~0 1 -3122 209 0 0 0 0.00441 0.48672 5.92980 6.05344 1.11568 397 pi- 1 -211 209 0 0 0 0.01691 0.08467 2.43103 2.43657 0.13957 398 KL0 1 130 210 0 0 0 -0.05493 0.73493 0.94799 1.29981 0.49767 399 (pi0) 2 111 212 0 509 510 0.00144 -0.07782 -2.07722 2.08306 0.13498 400 (pi0) 2 111 212 0 511 512 0.06007 0.11706 -1.77096 1.78096 0.13498 401 (pi0) 2 111 212 0 513 515 0.19356 0.08936 -1.74615 1.76429 0.13498 402 gamma 1 22 214 0 0 0 -0.01427 0.01173 -0.09565 0.09742 0.00000 403 gamma 1 22 214 0 0 0 0.17189 -0.17619 -1.46099 1.48159 0.00000 404 gamma 1 22 216 0 0 0 -0.11059 0.04702 -0.13848 0.18335 0.00000 405 gamma 1 22 216 0 0 0 -0.05579 0.17751 -0.32347 0.37317 0.00000 406 (D0) 2 421 220 0 516 517 0.69438 -1.18628 11.80284 12.02800 1.86450 407 pi+ 1 211 220 0 0 0 0.06281 -0.05904 0.69936 0.71834 0.13957 408 gamma 1 22 221 0 0 0 -0.08109 -0.06553 0.33892 0.35460 0.00000 409 gamma 1 22 221 0 0 0 0.01663 -0.14195 0.80331 0.81593 0.00000 410 gamma 1 22 222 0 0 0 -0.08611 -0.03540 0.28922 0.30383 0.00000 411 gamma 1 22 222 0 0 0 -0.20765 -0.35864 1.64985 1.70110 0.00000 412 gamma 1 22 223 0 0 0 -0.07547 0.05355 0.41687 0.42702 0.00000 413 gamma 1 22 223 0 0 0 -0.08143 -0.08161 0.63765 0.64799 0.00000 414 gamma 1 22 228 0 0 0 -0.13504 0.03526 0.95165 0.96183 0.00000 415 gamma 1 22 228 0 0 0 0.24691 -0.25612 9.95780 9.96416 0.00000 416 gamma 1 22 230 0 0 0 0.08523 -0.00179 3.07599 3.07717 0.00000 417 gamma 1 22 230 0 0 0 0.18296 0.20607 12.98982 12.99274 0.00000 418 gamma 1 22 233 0 0 0 0.02251 -0.16141 5.12177 5.12436 0.00000 419 gamma 1 22 233 0 0 0 0.10651 -0.13070 9.67344 9.67491 0.00000 420 nu_tau 1 16 234 0 0 0 0.29553 -0.10950 0.23309 0.39200 0.00000 421 (tau+) 2 -15 234 0 533 534 -1.44889 0.55040 0.81388 2.49449 1.77703 422 (Lambda_c~-) 2 -4122 234 0 518 519 -1.49060 4.46748 2.53316 5.81531 2.28490 423 gamma 1 22 237 0 0 0 0.21609 -0.12297 0.27140 0.36807 0.00000 424 gamma 1 22 237 0 0 0 0.17295 0.00289 0.10321 0.20143 0.00000 425 gamma 1 22 241 0 0 0 -0.04328 0.12426 0.12480 0.18135 0.00000 426 gamma 1 22 241 0 0 0 -1.07770 1.68348 2.24356 3.00485 0.00000 427 gamma 1 22 247 0 0 0 -0.17007 -0.21674 0.01398 0.27585 0.00000 428 gamma 1 22 247 0 0 0 -0.15511 -0.18981 -0.11750 0.27183 0.00000 429 gamma 1 22 250 0 0 0 -0.00067 -0.07877 -0.09125 0.12055 0.00000 430 gamma 1 22 250 0 0 0 -0.22157 -0.15451 -0.36438 0.45358 0.00000 431 gamma 1 22 251 0 0 0 -0.11918 -0.01444 -0.05707 0.13293 0.00000 432 gamma 1 22 251 0 0 0 0.03470 0.01707 -0.01047 0.04006 0.00000 433 gamma 1 22 252 0 0 0 -0.02823 -0.10178 -0.08895 0.13809 0.00000 434 gamma 1 22 252 0 0 0 -0.02903 -0.00364 0.03949 0.04915 0.00000 435 gamma 1 22 261 0 0 0 -0.22500 0.13244 -0.32618 0.41780 0.00000 436 gamma 1 22 261 0 0 0 -0.67951 0.33328 -1.34629 1.54444 0.00000 437 gamma 1 22 263 0 0 0 -0.00228 0.01881 -0.04254 0.04657 0.00000 438 gamma 1 22 263 0 0 0 -0.39848 0.02887 -0.29615 0.49732 0.00000 439 gamma 1 22 266 0 0 0 -0.26947 0.34475 -1.25840 1.33230 0.00000 440 gamma 1 22 266 0 0 0 -0.01781 -0.01261 -0.05906 0.06297 0.00000 441 gamma 1 22 273 0 0 0 0.01381 0.00083 -0.00862 0.01631 0.00000 442 gamma 1 22 273 0 0 0 -0.15406 -0.44875 -0.36230 0.59697 0.00000 443 gamma 1 22 276 0 0 0 -0.11092 -0.20465 -0.41841 0.47881 0.00000 444 gamma 1 22 276 0 0 0 -0.09428 -0.01874 -0.24131 0.25975 0.00000 445 gamma 1 22 280 0 0 0 -0.29521 -1.07980 -22.00862 22.03707 0.00000 446 gamma 1 22 280 0 0 0 -0.02788 -0.38094 -8.06949 8.07852 0.00000 447 gamma 1 22 290 0 0 0 -0.28586 0.12966 -2.01830 2.04256 0.00000 448 gamma 1 22 290 0 0 0 0.00285 -0.01006 -0.27114 0.27134 0.00000 449 KL0 1 130 293 0 0 0 0.27974 0.37068 -12.54615 12.56461 0.49767 450 gamma 1 22 294 0 0 0 -0.06435 -0.09446 -1.10394 1.10984 0.00000 451 gamma 1 22 294 0 0 0 0.01811 -0.00147 -1.34671 1.34683 0.00000 452 gamma 1 22 297 0 0 0 0.03584 0.01293 -1.24108 1.24166 0.00000 453 gamma 1 22 297 0 0 0 0.38380 0.22761 -5.45573 5.47395 0.00000 454 gamma 1 22 299 0 0 0 -0.10151 0.38953 -1.24936 1.31261 0.00000 455 gamma 1 22 299 0 0 0 0.00540 0.31494 -0.73753 0.80198 0.00000 456 gamma 1 22 303 0 0 0 0.30977 -0.06946 -0.10706 0.33503 0.00000 457 gamma 1 22 303 0 0 0 1.07156 0.01094 -0.38766 1.13958 0.00000 458 gamma 1 22 305 0 0 0 0.01323 -0.07752 -0.18925 0.20493 0.00000 459 gamma 1 22 305 0 0 0 0.22865 -0.09491 -0.56421 0.61613 0.00000 460 gamma 1 22 309 0 0 0 -0.01663 -0.22333 -0.34160 0.40847 0.00000 461 gamma 1 22 309 0 0 0 -0.07581 -0.04670 -0.18987 0.20971 0.00000 462 gamma 1 22 311 0 0 0 -0.14524 0.07990 -0.40954 0.44182 0.00000 463 gamma 1 22 311 0 0 0 -0.09303 0.04377 -0.07105 0.12497 0.00000 464 KS0 1 310 312 0 0 0 -0.38122 0.07389 -5.91283 5.94643 0.49767 465 gamma 1 22 318 0 0 0 -0.06472 0.06749 0.10499 0.14060 0.00000 466 gamma 1 22 318 0 0 0 -0.01454 0.01632 0.31021 0.31098 0.00000 467 gamma 1 22 319 0 0 0 -0.00401 -0.08617 0.41044 0.41941 0.00000 468 gamma 1 22 319 0 0 0 0.00621 -0.03374 0.00645 0.03491 0.00000 469 gamma 1 22 320 0 0 0 -0.02172 0.02633 0.44195 0.44327 0.00000 470 gamma 1 22 320 0 0 0 0.08956 0.05575 0.28964 0.30826 0.00000 471 gamma 1 22 331 0 0 0 -0.08754 0.05119 0.18910 0.21457 0.00000 472 gamma 1 22 331 0 0 0 -0.01792 -0.06392 0.20070 0.21139 0.00000 473 gamma 1 22 333 0 0 0 0.14026 -0.21301 0.14364 0.29271 0.00000 474 gamma 1 22 333 0 0 0 0.17548 -0.08421 0.17844 0.26405 0.00000 475 gamma 1 22 335 0 0 0 0.09469 0.01198 -0.09074 0.13169 0.00000 476 gamma 1 22 335 0 0 0 0.24470 0.12845 -0.03089 0.27809 0.00000 477 gamma 1 22 337 0 0 0 0.23149 -0.12656 -0.28890 0.39124 0.00000 478 gamma 1 22 337 0 0 0 0.46429 -0.21013 -0.31758 0.60048 0.00000 479 gamma 1 22 339 0 0 0 0.47756 -0.25075 -0.59333 0.80186 0.00000 480 gamma 1 22 339 0 0 0 1.29277 -0.49807 -1.31603 1.91083 0.00000 481 gamma 1 22 341 0 0 0 0.42463 -0.13261 -0.24069 0.50580 0.00000 482 gamma 1 22 341 0 0 0 0.37067 -0.11839 -0.36698 0.53487 0.00000 483 gamma 1 22 343 0 0 0 2.02941 -0.85747 -1.38246 2.60095 0.00000 484 gamma 1 22 343 0 0 0 0.26052 -0.14970 -0.14968 0.33568 0.00000 485 gamma 1 22 345 0 0 0 0.47038 -0.33395 -0.39604 0.69974 0.00000 486 gamma 1 22 345 0 0 0 0.19399 -0.04802 -0.17224 0.26383 0.00000 487 gamma 1 22 347 0 0 0 0.01868 0.04031 -0.00070 0.04444 0.00000 488 gamma 1 22 347 0 0 0 0.20721 -0.00049 -0.20997 0.29500 0.00000 489 gamma 1 22 349 0 0 0 -0.01454 0.03960 -0.07879 0.08937 0.00000 490 gamma 1 22 349 0 0 0 0.19244 0.06673 -0.52289 0.56116 0.00000 491 gamma 1 22 351 0 0 0 0.30754 -0.22311 -0.67730 0.77659 0.00000 492 gamma 1 22 351 0 0 0 0.17486 -0.05707 -0.19941 0.27129 0.00000 493 gamma 1 22 355 0 0 0 0.05374 0.11545 -1.01097 1.01895 0.00000 494 gamma 1 22 355 0 0 0 0.42143 0.28788 -4.06061 4.09256 0.00000 495 gamma 1 22 368 0 0 0 0.05228 -0.06920 0.69704 0.70241 0.00000 496 gamma 1 22 368 0 0 0 1.99131 -2.09070 29.65649 29.79671 0.00000 497 gamma 1 22 371 0 0 0 0.00321 -0.13883 4.07964 4.08200 0.00000 498 gamma 1 22 371 0 0 0 -0.08494 -0.21407 3.59844 3.60580 0.00000 499 gamma 1 22 373 0 0 0 0.24179 -0.16516 3.64455 3.65629 0.00000 500 gamma 1 22 373 0 0 0 0.50326 -0.23005 5.15799 5.18759 0.00000 501 gamma 1 22 381 0 0 0 -0.20391 0.06907 1.06276 1.08435 0.00000 502 gamma 1 22 381 0 0 0 -0.75106 0.12622 5.05419 5.11124 0.00000 503 gamma 1 22 391 0 0 0 -0.01790 -0.03784 1.24091 1.24162 0.00000 504 gamma 1 22 391 0 0 0 0.07288 0.07826 2.11815 2.12084 0.00000 505 gamma 1 22 393 0 0 0 -0.03462 0.05094 0.16412 0.17530 0.00000 506 gamma 1 22 393 0 0 0 -0.03863 0.30282 1.94067 1.96453 0.00000 507 gamma 1 22 395 0 0 0 0.02829 -0.10916 0.25147 0.27559 0.00000 508 gamma 1 22 395 0 0 0 0.04485 0.00733 0.01404 0.04756 0.00000 509 gamma 1 22 399 0 0 0 0.03326 -0.01091 -1.57603 1.57642 0.00000 510 gamma 1 22 399 0 0 0 -0.03182 -0.06691 -0.50119 0.50664 0.00000 511 gamma 1 22 400 0 0 0 -0.02865 -0.00875 -0.17007 0.17269 0.00000 512 gamma 1 22 400 0 0 0 0.08872 0.12580 -1.60089 1.60827 0.00000 513 gamma 1 22 401 0 0 0 0.00710 0.06303 -0.39682 0.40185 0.00000 514 e+ 1 -11 401 0 0 0 0.15289 0.02259 -1.12746 1.13801 0.00051 515 e- 1 11 401 0 0 0 0.03356 0.00374 -0.22187 0.22443 0.00051 516 K- 1 -321 406 0 0 0 0.20313 -1.52616 9.82706 9.95917 0.49360 517 pi+ 1 211 406 0 0 0 0.49125 0.33989 1.97578 2.06883 0.13957 518 Lambda~0 1 -3122 422 0 0 0 -0.07672 1.61905 1.27660 2.34556 1.11568 519 (rho(770)-) 2 -213 422 0 520 521 -1.41388 2.84843 1.25656 3.46975 0.58963 520 pi- 1 -211 519 0 0 0 -0.94050 1.69973 0.50707 2.01252 0.13957 521 (pi0) 2 111 519 0 522 523 -0.47338 1.14869 0.74949 1.45723 0.13498 522 gamma 1 22 521 0 0 0 -0.26070 0.54275 0.29501 0.67051 0.00000 523 gamma 1 22 521 0 0 0 -0.21268 0.60594 0.45447 0.78673 0.00000 524 nu_tau 1 16 219 219 0 0 0.00209 0.32455 0.39791 0.51358 0.01000 525 (a_1(1260)-) 2 -20213 219 219 526 528 -0.11093 -0.14409 1.90681 2.40429 1.45314 526 (pi0) 2 111 525 525 529 530 -0.09210 0.03910 -0.00800 0.16821 0.13498 527 (pi0) 2 111 525 525 531 532 0.02268 0.33223 0.14581 0.38778 0.13498 528 pi- 1 -211 525 525 0 0 -0.04150 -0.51542 1.76900 1.84830 0.13957 529 gamma 1 22 526 526 0 0 -0.05254 0.08680 -0.02386 0.10423 0.00000 530 gamma 1 22 526 526 0 0 -0.03956 -0.04771 0.01586 0.06398 0.00000 531 gamma 1 22 527 527 0 0 0.06130 0.18681 0.13172 0.23666 0.00000 532 gamma 1 22 527 527 0 0 -0.03862 0.14542 0.01408 0.15112 0.00000 533 nu_tau~ 1 -16 421 421 GenInputManager Begin processing 41th record. 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Run 222530, Trigger 54 GenInputManager Begin processing 56th record. Run 222530, Trigger 55 GenInputManager Begin processing 57th record. Run 222530, Trigger 56 GenInputManager Begin processing 58th record. Run 222530, Trigger 57 GenInputManager Begin processing 59th record. Run 222530, Trigger 58 GenInputManager Begin processing 60th record. Run 222530, Trigger 59 GenInputManager Begin processing 61th record. Run 222530, Trigger 60 GenInputManager Begin processing 62th record. Run 222530, Trigger 61 GenInputManager Begin processing 63th record. Run 222530, Trigger 62 GenInputManager Begin processing 64th record. Run 222530, Trigger 63 GenInputManager Begin processing 65th record. Run 222530, Trigger 64 GenInputManager Begin processing 66th record. Run 222530, Trigger 65 GenInputManager Begin processing 67th record. Run 222530, Trigger 66 GenInputManager Begin processing 68th record. Run 222530, Trigger 67 GenInputManager Begin processing 69th record. 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Run 222530, Trigger 82 GenInputManager Begin processing 84th record. Run 222530, Trigger 83 GenInputManager Begin processing 85th record. Run 222530, Trigger 84 GenInputManager Begin processing 86th record. Run 222530, Trigger 85 GenInputManager Begin processing 87th record. Run 222530, Trigger 86 GenInputManager Begin processing 88th record. Run 222530, Trigger 87 GenInputManager Begin processing 89th record. Run 222530, Trigger 88 GenInputManager Begin processing 90th record. Run 222530, Trigger 89 GenInputManager Begin processing 91th record. Run 222530, Trigger 90 GenInputManager Begin processing 92th record. Run 222530, Trigger 91 GenInputManager Begin processing 93th record. Run 222530, Trigger 92 GenInputManager Begin processing 94th record. Run 222530, Trigger 93 GenInputManager Begin processing 95th record. Run 222530, Trigger 94 GenInputManager Begin processing 96th record. Run 222530, Trigger 95 GenInputManager Begin processing 97th record. 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Run 222530, Trigger 124 GenInputManager Begin processing 126th record. Run 222530, Trigger 125 GenInputManager Begin processing 127th record. Run 222530, Trigger 126 GenInputManager Begin processing 128th record. Run 222530, Trigger 127 GenInputManager Begin processing 129th record. Run 222530, Trigger 128 GenInputManager Begin processing 130th record. Run 222530, Trigger 129 GenInputManager Begin processing 131th record. Run 222530, Trigger 130 GenInputManager Begin processing 132th record. Run 222530, Trigger 131 GenInputManager Begin processing 133th record. Run 222530, Trigger 132 GenInputManager Begin processing 134th record. Run 222530, Trigger 133 GenInputManager Begin processing 135th record. Run 222530, Trigger 134 GenInputManager Begin processing 136th record. Run 222530, Trigger 135 GenInputManager Begin processing 137th record. Run 222530, Trigger 136 GenInputManager Begin processing 138th record. Run 222530, Trigger 137 GenInputManager Begin processing 139th record. Run 222530, Trigger 138 GenInputManager Begin processing 140th record. Run 222530, Trigger 139 GenInputManager Begin processing 141th record. Run 222530, Trigger 140 GenInputManager Begin processing 142th record. Run 222530, Trigger 141 GenInputManager Begin processing 143th record. Run 222530, Trigger 142 GenInputManager Begin processing 144th record. Run 222530, Trigger 143 GenInputManager Begin processing 145th record. Run 222530, Trigger 144 GenInputManager Begin processing 146th record. Run 222530, Trigger 145 GenInputManager Begin processing 147th record. Run 222530, Trigger 146 GenInputManager Begin processing 148th record. Run 222530, Trigger 147 GenInputManager Begin processing 149th record. Run 222530, Trigger 148 GenInputManager Begin processing 150th record. Run 222530, Trigger 149 GenInputManager Begin processing 151th record. Run 222530, Trigger 150 GenInputManager Begin processing 152th record. Run 222530, Trigger 151 GenInputManager Begin processing 153th record. Run 222530, Trigger 152 GenInputManager Begin processing 154th record. Run 222530, Trigger 153 GenInputManager Begin processing 155th record. Run 222530, Trigger 154 GenInputManager Begin processing 156th record. Run 222530, Trigger 155 GenInputManager Begin processing 157th record. Run 222530, Trigger 156 GenInputManager Begin processing 158th record. Run 222530, Trigger 157 GenInputManager Begin processing 159th record. Run 222530, Trigger 158 GenInputManager Begin processing 160th record. Run 222530, Trigger 159 GenInputManager Begin processing 161th record. Run 222530, Trigger 160 GenInputManager Begin processing 162th record. Run 222530, Trigger 161 GenInputManager Begin processing 163th record. Run 222530, Trigger 162 GenInputManager Begin processing 164th record. Run 222530, Trigger 163 GenInputManager Begin processing 165th record. Run 222530, Trigger 164 GenInputManager Begin processing 166th record. Run 222530, Trigger 165 GenInputManager Begin processing 167th record. Run 222530, Trigger 166 GenInputManager Begin processing 168th record. Run 222530, Trigger 167 GenInputManager Begin processing 169th record. Run 222530, Trigger 168 GenInputManager Begin processing 170th record. Run 222530, Trigger 169 GenInputManager Begin processing 171th record. Run 222530, Trigger 170 GenInputManager Begin processing 172th record. Run 222530, Trigger 171 GenInputManager Begin processing 173th record. Run 222530, Trigger 172 GenInputManager Begin processing 174th record. Run 222530, Trigger 173 GenInputManager Begin processing 175th record. Run 222530, Trigger 174 GenInputManager Begin processing 176th record. Run 222530, Trigger 175 GenInputManager Begin processing 177th record. Run 222530, Trigger 176 GenInputManager Begin processing 178th record. Run 222530, Trigger 177 GenInputManager Begin processing 179th record. Run 222530, Trigger 178 GenInputManager Begin processing 180th record. Run 222530, Trigger 179 GenInputManager Begin processing 181th record. Run 222530, Trigger 180 GenInputManager Begin processing 182th record. Run 222530, Trigger 181 GenInputManager Begin processing 183th record. Run 222530, Trigger 182 GenInputManager Begin processing 184th record. Run 222530, Trigger 183 GenInputManager Begin processing 185th record. Run 222530, Trigger 184 GenInputManager Begin processing 186th record. Run 222530, Trigger 185 GenInputManager Begin processing 187th record. Run 222530, Trigger 186 GenInputManager Begin processing 188th record. Run 222530, Trigger 187 GenInputManager Begin processing 189th record. Run 222530, Trigger 188 GenInputManager Begin processing 190th record. Run 222530, Trigger 189 GenInputManager Begin processing 191th record. Run 222530, Trigger 190 GenInputManager Begin processing 192th record. Run 222530, Trigger 191 GenInputManager Begin processing 193th record. Run 222530, Trigger 192 GenInputManager Begin processing 194th record. Run 222530, Trigger 193 GenInputManager Begin processing 195th record. Run 222530, Trigger 194 GenInputManager Begin processing 196th record. Run 222530, Trigger 195 GenInputManager Begin processing 197th record. Run 222530, Trigger 196 GenInputManager Begin processing 198th record. Run 222530, Trigger 197 GenInputManager Begin processing 199th record. Run 222530, Trigger 198 GenInputManager Begin processing 200th record. Run 222530, Trigger 199 GenInputManager Begin processing 201th record. Run 222530, Trigger 200 GenInputManager Begin processing 202th record. Run 222530, Trigger 201 GenInputManager Begin processing 203th record. Run 222530, Trigger 202 GenInputManager Begin processing 204th record. Run 222530, Trigger 203 GenInputManager Begin processing 205th record. Run 222530, Trigger 204 GenInputManager Begin processing 206th record. Run 222530, Trigger 205 GenInputManager Begin processing 207th record. Run 222530, Trigger 206 GenInputManager Begin processing 208th record. Run 222530, Trigger 207 GenInputManager Begin processing 209th record. Run 222530, Trigger 208 GenInputManager Begin processing 210th record. Run 222530, Trigger 209 GenInputManager Begin processing 211th record. Run 222530, Trigger 210 GenInputManager Begin processing 212th record. Run 222530, Trigger 211 GenInputManager Begin processing 213th record. Run 222530, Trigger 212 GenInputManager Begin processing 214th record. Run 222530, Trigger 213 GenInputManager Begin processing 215th record. Run 222530, Trigger 214 GenInputManager Begin processing 216th record. Run 222530, Trigger 215 GenInputManager Begin processing 217th record. Run 222530, Trigger 216 GenInputManager Begin processing 218th record. Run 222530, Trigger 217 GenInputManager Begin processing 219th record. Run 222530, Trigger 218 GenInputManager Begin processing 220th record. Run 222530, Trigger 219 GenInputManager Begin processing 221th record. Run 222530, Trigger 220 GenInputManager Begin processing 222th record. Run 222530, Trigger 221 GenInputManager Begin processing 223th record. Run 222530, Trigger 222 GenInputManager Begin processing 224th record. Run 222530, Trigger 223 GenInputManager Begin processing 225th record. Run 222530, Trigger 224 GenInputManager Begin processing 226th record. Run 222530, Trigger 225 GenInputManager Begin processing 227th record. Run 222530, Trigger 226 GenInputManager Begin processing 228th record. Run 222530, Trigger 227 GenInputManager Begin processing 229th record. Run 222530, Trigger 228 GenInputManager Begin processing 230th record. Run 222530, Trigger 229 GenInputManager Begin processing 231th record. Run 222530, Trigger 230 GenInputManager Begin processing 232th record. Run 222530, Trigger 231 GenInputManager Begin processing 233th record. Run 222530, Trigger 232 GenInputManager Begin processing 234th record. Run 222530, Trigger 233 GenInputManager Begin processing 235th record. Run 222530, Trigger 234 GenInputManager Begin processing 236th record. Run 222530, Trigger 235 GenInputManager Begin processing 237th record. Run 222530, Trigger 236 GenInputManager Begin processing 238th record. Run 222530, Trigger 237 GenInputManager Begin processing 239th record. Run 222530, Trigger 238 GenInputManager Begin processing 240th record. Run 222530, Trigger 239 GenInputManager Begin processing 241th record. Run 222530, Trigger 240 GenInputManager Begin processing 242th record. Run 222530, Trigger 241 GenInputManager Begin processing 243th record. Run 222530, Trigger 242 GenInputManager Begin processing 244th record. Run 222530, Trigger 243 GenInputManager Begin processing 245th record. Run 222530, Trigger 244 GenInputManager Begin processing 246th record. Run 222530, Trigger 245 GenInputManager Begin processing 247th record. Run 222530, Trigger 246 GenInputManager Begin processing 248th record. Run 222530, Trigger 247 GenInputManager Begin processing 249th record. Run 222530, Trigger 248 GenInputManager Begin processing 250th record. Run 222530, Trigger 249 GenInputManager Begin processing 251th record. Run 222530, Trigger 250 GenInputManager Begin processing 252th record. Run 222530, Trigger 251 GenInputManager Begin processing 253th record. Run 222530, Trigger 252 GenInputManager Begin processing 254th record. Run 222530, Trigger 253 GenInputManager Begin processing 255th record. Run 222530, Trigger 254 GenInputManager Begin processing 256th record. Run 222530, Trigger 255 GenInputManager Begin processing 257th record. Run 222530, Trigger 256 GenInputManager Begin processing 258th record. Run 222530, Trigger 257 GenInputManager Begin processing 259th record. Run 222530, Trigger 258 GenInputManager Begin processing 260th record. Run 222530, Trigger 259 GenInputManager Begin processing 261th record. Run 222530, Trigger 260 GenInputManager Begin processing 262th record. Run 222530, Trigger 261 GenInputManager Begin processing 263th record. Run 222530, Trigger 262 GenInputManager Begin processing 264th record. Run 222530, Trigger 263 GenInputManager Begin processing 265th record. Run 222530, Trigger 264 GenInputManager Begin processing 266th record. Run 222530, Trigger 265 GenInputManager Begin processing 267th record. Run 222530, Trigger 266 GenInputManager Begin processing 268th record. Run 222530, Trigger 267 GenInputManager Begin processing 269th record. Run 222530, Trigger 268 GenInputManager Begin processing 270th record. Run 222530, Trigger 269 GenInputManager Begin processing 271th record. Run 222530, Trigger 270 GenInputManager Begin processing 272th record. Run 222530, Trigger 271 GenInputManager Begin processing 273th record. Run 222530, Trigger 272 GenInputManager Begin processing 274th record. Run 222530, Trigger 273 GenInputManager Begin processing 275th record. Run 222530, Trigger 274 GenInputManager Begin processing 276th record. Run 222530, Trigger 275 GenInputManager Begin processing 277th record. Run 222530, Trigger 276 GenInputManager Begin processing 278th record. Run 222530, Trigger 277 GenInputManager Begin processing 279th record. Run 222530, Trigger 278 GenInputManager Begin processing 280th record. Run 222530, Trigger 279 GenInputManager Begin processing 281th record. Run 222530, Trigger 280 GenInputManager Begin processing 282th record. Run 222530, Trigger 281 GenInputManager Begin processing 283th record. Run 222530, Trigger 282 GenInputManager Begin processing 284th record. Run 222530, Trigger 283 GenInputManager Begin processing 285th record. Run 222530, Trigger 284 GenInputManager Begin processing 286th record. Run 222530, Trigger 285 GenInputManager Begin processing 287th record. Run 222530, Trigger 286 GenInputManager Begin processing 288th record. Run 222530, Trigger 287 GenInputManager Begin processing 289th record. Run 222530, Trigger 288 GenInputManager Begin processing 290th record. Run 222530, Trigger 289 GenInputManager Begin processing 291th record. Run 222530, Trigger 290 GenInputManager Begin processing 292th record. Run 222530, Trigger 291 GenInputManager Begin processing 293th record. Run 222530, Trigger 292 GenInputManager Begin processing 294th record. Run 222530, Trigger 293 GenInputManager Begin processing 295th record. Run 222530, Trigger 294 GenInputManager Begin processing 296th record. Run 222530, Trigger 295 GenInputManager Begin processing 297th record. Run 222530, Trigger 296 GenInputManager Begin processing 298th record. Run 222530, Trigger 297 GenInputManager Begin processing 299th record. Run 222530, Trigger 298 GenInputManager Begin processing 300th record. Run 222530, Trigger 299 GenInputManager Begin processing 301th record. Run 222530, Trigger 300 GenInputManager Begin processing 302th record. Run 222530, Trigger 301 GenInputManager Begin processing 303th record. Run 222530, Trigger 302 GenInputManager Begin processing 304th record. Run 222530, Trigger 303 GenInputManager Begin processing 305th record. Run 222530, Trigger 304 GenInputManager Begin processing 306th record. Run 222530, Trigger 305 GenInputManager Begin processing 307th record. Run 222530, Trigger 306 GenInputManager Begin processing 308th record. Run 222530, Trigger 307 GenInputManager Begin processing 309th record. Run 222530, Trigger 308 GenInputManager Begin processing 310th record. Run 222530, Trigger 309 GenInputManager Begin processing 311th record. Run 222530, Trigger 310 GenInputManager Begin processing 312th record. Run 222530, Trigger 311 GenInputManager Begin processing 313th record. Run 222530, Trigger 312 GenInputManager Begin processing 314th record. Run 222530, Trigger 313 GenInputManager Begin processing 315th record. Run 222530, Trigger 314 GenInputManager Begin processing 316th record. Run 222530, Trigger 315 GenInputManager Begin processing 317th record. Run 222530, Trigger 316 GenInputManager Begin processing 318th record. Run 222530, Trigger 317 GenInputManager Begin processing 319th record. Run 222530, Trigger 318 GenInputManager Begin processing 320th record. Run 222530, Trigger 319 GenInputManager Begin processing 321th record. Run 222530, Trigger 320 GenInputManager Begin processing 322th record. Run 222530, Trigger 321 GenInputManager Begin processing 323th record. Run 222530, Trigger 322 GenInputManager Begin processing 324th record. Run 222530, Trigger 323 GenInputManager Begin processing 325th record. Run 222530, Trigger 324 GenInputManager Begin processing 326th record. Run 222530, Trigger 325 GenInputManager Begin processing 327th record. Run 222530, Trigger 326 GenInputManager Begin processing 328th record. Run 222530, Trigger 327 GenInputManager Begin processing 329th record. Run 222530, Trigger 328 GenInputManager Begin processing 330th record. Run 222530, Trigger 329 GenInputManager Begin processing 331th record. Run 222530, Trigger 330 GenInputManager Begin processing 332th record. Run 222530, Trigger 331 GenInputManager Begin processing 333th record. Run 222530, Trigger 332 GenInputManager Begin processing 334th record. Run 222530, Trigger 333 GenInputManager Begin processing 335th record. Run 222530, Trigger 334 GenInputManager Begin processing 336th record. Run 222530, Trigger 335 GenInputManager Begin processing 337th record. Run 222530, Trigger 336 GenInputManager Begin processing 338th record. Run 222530, Trigger 337 GenInputManager Begin processing 339th record. Run 222530, Trigger 338 GenInputManager Begin processing 340th record. Run 222530, Trigger 339 GenInputManager Begin processing 341th record. Run 222530, Trigger 340 GenInputManager Begin processing 342th record. Run 222530, Trigger 341 GenInputManager Begin processing 343th record. Run 222530, Trigger 342 GenInputManager Begin processing 344th record. Run 222530, Trigger 343 GenInputManager Begin processing 345th record. Run 222530, Trigger 344 GenInputManager Begin processing 346th record. Run 222530, Trigger 345 GenInputManager Begin processing 347th record. Run 222530, Trigger 346 GenInputManager Begin processing 348th record. Run 222530, Trigger 347 GenInputManager Begin processing 349th record. Run 222530, Trigger 348 GenInputManager Begin processing 350th record. Run 222530, Trigger 349 GenInputManager Begin processing 351th record. Run 222530, Trigger 350 GenInputManager Begin processing 352th record. Run 222530, Trigger 351 GenInputManager Begin processing 353th record. Run 222530, Trigger 352 GenInputManager Begin processing 354th record. Run 222530, Trigger 353 GenInputManager Begin processing 355th record. Run 222530, Trigger 354 GenInputManager Begin processing 356th record. Run 222530, Trigger 355 GenInputManager Begin processing 357th record. Run 222530, Trigger 356 GenInputManager Begin processing 358th record. Run 222530, Trigger 357 GenInputManager Begin processing 359th record. Run 222530, Trigger 358 GenInputManager Begin processing 360th record. Run 222530, Trigger 359 GenInputManager Begin processing 361th record. Run 222530, Trigger 360 GenInputManager Begin processing 362th record. Run 222530, Trigger 361 GenInputManager Begin processing 363th record. Run 222530, Trigger 362 GenInputManager Begin processing 364th record. Run 222530, Trigger 363 GenInputManager Begin processing 365th record. Run 222530, Trigger 364 GenInputManager Begin processing 366th record. Run 222530, Trigger 365 GenInputManager Begin processing 367th record. Run 222530, Trigger 366 GenInputManager Begin processing 368th record. Run 222530, Trigger 367 GenInputManager Begin processing 369th record. Run 222530, Trigger 368 GenInputManager Begin processing 370th record. Run 222530, Trigger 369 GenInputManager Begin processing 371th record. Run 222530, Trigger 370 GenInputManager Begin processing 372th record. Run 222530, Trigger 371 GenInputManager Begin processing 373th record. Run 222530, Trigger 372 GenInputManager Begin processing 374th record. Run 222530, Trigger 373 GenInputManager Begin processing 375th record. Run 222530, Trigger 374 GenInputManager Begin processing 376th record. Run 222530, Trigger 375 GenInputManager Begin processing 377th record. 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Run 222530, Trigger 390 GenInputManager Begin processing 392th record. Run 222530, Trigger 391 GenInputManager Begin processing 393th record. Run 222530, Trigger 392 GenInputManager Begin processing 394th record. Run 222530, Trigger 393 GenInputManager Begin processing 395th record. Run 222530, Trigger 394 GenInputManager Begin processing 396th record. Run 222530, Trigger 395 GenInputManager Begin processing 397th record. Run 222530, Trigger 396 GenInputManager Begin processing 398th record. Run 222530, Trigger 397 GenInputManager Begin processing 399th record. Run 222530, Trigger 398 GenInputManager Begin processing 400th record. Run 222530, Trigger 399 GenInputManager Begin processing 401th record. Run 222530, Trigger 400 GenInputManager Begin processing 402th record. Run 222530, Trigger 401 GenInputManager Begin processing 403th record. Run 222530, Trigger 402 GenInputManager Begin processing 404th record. Run 222530, Trigger 403 GenInputManager Begin processing 405th record. 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Run 222530, Trigger 418 GenInputManager Begin processing 420th record. Run 222530, Trigger 419 GenInputManager Begin processing 421th record. Run 222530, Trigger 420 GenInputManager Begin processing 422th record. Run 222530, Trigger 421 GenInputManager Begin processing 423th record. Run 222530, Trigger 422 GenInputManager Begin processing 424th record. Run 222530, Trigger 423 GenInputManager Begin processing 425th record. Run 222530, Trigger 424 GenInputManager Begin processing 426th record. Run 222530, Trigger 425 GenInputManager Begin processing 427th record. Run 222530, Trigger 426 GenInputManager Begin processing 428th record. Run 222530, Trigger 427 GenInputManager Begin processing 429th record. Run 222530, Trigger 428 GenInputManager Begin processing 430th record. Run 222530, Trigger 429 GenInputManager Begin processing 431th record. Run 222530, Trigger 430 GenInputManager Begin processing 432th record. Run 222530, Trigger 431 GenInputManager Begin processing 433th record. Run 222530, Trigger 432 GenInputManager Begin processing 434th record. Run 222530, Trigger 433 GenInputManager Begin processing 435th record. Run 222530, Trigger 434 GenInputManager Begin processing 436th record. Run 222530, Trigger 435 GenInputManager Begin processing 437th record. Run 222530, Trigger 436 GenInputManager Begin processing 438th record. Run 222530, Trigger 437 GenInputManager Begin processing 439th record. Run 222530, Trigger 438 GenInputManager Begin processing 440th record. Run 222530, Trigger 439 GenInputManager Begin processing 441th record. Run 222530, Trigger 440 GenInputManager Begin processing 442th record. Run 222530, Trigger 441 GenInputManager Begin processing 443th record. Run 222530, Trigger 442 GenInputManager Begin processing 444th record. Run 222530, Trigger 443 GenInputManager Begin processing 445th record. Run 222530, Trigger 444 GenInputManager Begin processing 446th record. Run 222530, Trigger 445 GenInputManager Begin processing 447th record. Run 222530, Trigger 446 GenInputManager Begin processing 448th record. Run 222530, Trigger 447 GenInputManager Begin processing 449th record. Run 222530, Trigger 448 GenInputManager Begin processing 450th record. Run 222530, Trigger 449 GenInputManager Begin processing 451th record. Run 222530, Trigger 450 GenInputManager Begin processing 452th record. Run 222530, Trigger 451 GenInputManager Begin processing 453th record. Run 222530, Trigger 452 GenInputManager Begin processing 454th record. Run 222530, Trigger 453 GenInputManager Begin processing 455th record. Run 222530, Trigger 454 GenInputManager Begin processing 456th record. Run 222530, Trigger 455 GenInputManager Begin processing 457th record. Run 222530, Trigger 456 GenInputManager Begin processing 458th record. Run 222530, Trigger 457 GenInputManager Begin processing 459th record. Run 222530, Trigger 458 GenInputManager Begin processing 460th record. Run 222530, Trigger 459 GenInputManager Begin processing 461th record. Run 222530, Trigger 460 GenInputManager Begin processing 462th record. Run 222530, Trigger 461 GenInputManager Begin processing 463th record. Run 222530, Trigger 462 GenInputManager Begin processing 464th record. Run 222530, Trigger 463 GenInputManager Begin processing 465th record. Run 222530, Trigger 464 GenInputManager Begin processing 466th record. Run 222530, Trigger 465 GenInputManager Begin processing 467th record. Run 222530, Trigger 466 GenInputManager Begin processing 468th record. Run 222530, Trigger 467 GenInputManager Begin processing 469th record. Run 222530, Trigger 468 GenInputManager Begin processing 470th record. Run 222530, Trigger 469 GenInputManager Begin processing 471th record. Run 222530, Trigger 470 GenInputManager Begin processing 472th record. Run 222530, Trigger 471 GenInputManager Begin processing 473th record. Run 222530, Trigger 472 GenInputManager Begin processing 474th record. Run 222530, Trigger 473 GenInputManager Begin processing 475th record. Run 222530, Trigger 474 GenInputManager Begin processing 476th record. Run 222530, Trigger 475 GenInputManager Begin processing 477th record. Run 222530, Trigger 476 GenInputManager Begin processing 478th record. Run 222530, Trigger 477 GenInputManager Begin processing 479th record. Run 222530, Trigger 478 GenInputManager Begin processing 480th record. Run 222530, Trigger 479 GenInputManager Begin processing 481th record. Run 222530, Trigger 480 GenInputManager Begin processing 482th record. Run 222530, Trigger 481 GenInputManager Begin processing 483th record. Run 222530, Trigger 482 GenInputManager Begin processing 484th record. Run 222530, Trigger 483 GenInputManager Begin processing 485th record. Run 222530, Trigger 484 GenInputManager Begin processing 486th record. Run 222530, Trigger 485 GenInputManager Begin processing 487th record. Run 222530, Trigger 486 GenInputManager Begin processing 488th record. Run 222530, Trigger 487 GenInputManager Begin processing 489th record. Run 222530, Trigger 488 GenInputManager Begin processing 490th record. Run 222530, Trigger 489 GenInputManager Begin processing 491th record. Run 222530, Trigger 490 GenInputManager Begin processing 492th record. Run 222530, Trigger 491 GenInputManager Begin processing 493th record. Run 222530, Trigger 492 GenInputManager Begin processing 494th record. Run 222530, Trigger 493 GenInputManager Begin processing 495th record. Run 222530, Trigger 494 GenInputManager Begin processing 496th record. Run 222530, Trigger 495 GenInputManager Begin processing 497th record. Run 222530, Trigger 496 GenInputManager Begin processing 498th record. Run 222530, Trigger 497 GenInputManager Begin processing 499th record. Run 222530, Trigger 498 GenInputManager Begin processing 500th record. Run 222530, Trigger 499 GenInputManager Begin processing 501th record. Run 222530, Trigger 500 GenInputManager Begin processing 502th record. Run 222530, Trigger 501 GenInputManager Begin processing 503th record. Run 222530, Trigger 502 GenInputManager Begin processing 504th record. Run 222530, Trigger 503 GenInputManager Begin processing 505th record. Run 222530, Trigger 504 GenInputManager Begin processing 506th record. Run 222530, Trigger 505 GenInputManager Begin processing 507th record. Run 222530, Trigger 506 GenInputManager Begin processing 508th record. Run 222530, Trigger 507 GenInputManager Begin processing 509th record. Run 222530, Trigger 508 GenInputManager Begin processing 510th record. Run 222530, Trigger 509 GenInputManager Begin processing 511th record. Run 222530, Trigger 510 GenInputManager Begin processing 512th record. Run 222530, Trigger 511 GenInputManager Begin processing 513th record. Run 222530, Trigger 512 GenInputManager Begin processing 514th record. Run 222530, Trigger 513 GenInputManager Begin processing 515th record. Run 222530, Trigger 514 GenInputManager Begin processing 516th record. Run 222530, Trigger 515 GenInputManager Begin processing 517th record. Run 222530, Trigger 516 GenInputManager Begin processing 518th record. Run 222530, Trigger 517 GenInputManager Begin processing 519th record. Run 222530, Trigger 518 GenInputManager Begin processing 520th record. Run 222530, Trigger 519 GenInputManager Begin processing 521th record. Run 222530, Trigger 520 GenInputManager Begin processing 522th record. Run 222530, Trigger 521 GenInputManager Begin processing 523th record. Run 222530, Trigger 522 GenInputManager Begin processing 524th record. Run 222530, Trigger 523 GenInputManager Begin processing 525th record. Run 222530, Trigger 524 GenInputManager Begin processing 526th record. Run 222530, Trigger 525 GenInputManager Begin processing 527th record. Run 222530, Trigger 526 GenInputManager Begin processing 528th record. Run 222530, Trigger 527 GenInputManager Begin processing 529th record. Run 222530, Trigger 528 GenInputManager Begin processing 530th record. Run 222530, Trigger 529 GenInputManager Begin processing 531th record. Run 222530, Trigger 530 GenInputManager Begin processing 532th record. Run 222530, Trigger 531 GenInputManager Begin processing 533th record. Run 222530, Trigger 532 GenInputManager Begin processing 534th record. Run 222530, Trigger 533 GenInputManager Begin processing 535th record. Run 222530, Trigger 534 GenInputManager Begin processing 536th record. Run 222530, Trigger 535 GenInputManager Begin processing 537th record. Run 222530, Trigger 536 GenInputManager Begin processing 538th record. Run 222530, Trigger 537 GenInputManager Begin processing 539th record. Run 222530, Trigger 538 GenInputManager Begin processing 540th record. Run 222530, Trigger 539 GenInputManager Begin processing 541th record. Run 222530, Trigger 540 GenInputManager Begin processing 542th record. Run 222530, Trigger 541 GenInputManager Begin processing 543th record. Run 222530, Trigger 542 GenInputManager Begin processing 544th record. Run 222530, Trigger 543 GenInputManager Begin processing 545th record. Run 222530, Trigger 544 GenInputManager Begin processing 546th record. Run 222530, Trigger 545 GenInputManager Begin processing 547th record. Run 222530, Trigger 546 GenInputManager Begin processing 548th record. Run 222530, Trigger 547 GenInputManager Begin processing 549th record. Run 222530, Trigger 548 GenInputManager Begin processing 550th record. Run 222530, Trigger 549 GenInputManager Begin processing 551th record. Run 222530, Trigger 550 GenInputManager Begin processing 552th record. Run 222530, Trigger 551 GenInputManager Begin processing 553th record. Run 222530, Trigger 552 GenInputManager Begin processing 554th record. Run 222530, Trigger 553 GenInputManager Begin processing 555th record. Run 222530, Trigger 554 GenInputManager Begin processing 556th record. Run 222530, Trigger 555 GenInputManager Begin processing 557th record. Run 222530, Trigger 556 GenInputManager Begin processing 558th record. Run 222530, Trigger 557 GenInputManager Begin processing 559th record. Run 222530, Trigger 558 GenInputManager Begin processing 560th record. Run 222530, Trigger 559 GenInputManager Begin processing 561th record. Run 222530, Trigger 560 GenInputManager Begin processing 562th record. Run 222530, Trigger 561 GenInputManager Begin processing 563th record. Run 222530, Trigger 562 GenInputManager Begin processing 564th record. Run 222530, Trigger 563 GenInputManager Begin processing 565th record. Run 222530, Trigger 564 GenInputManager Begin processing 566th record. Run 222530, Trigger 565 GenInputManager Begin processing 567th record. Run 222530, Trigger 566 GenInputManager Begin processing 568th record. Run 222530, Trigger 567 GenInputManager Begin processing 569th record. Run 222530, Trigger 568 GenInputManager Begin processing 570th record. Run 222530, Trigger 569 GenInputManager Begin processing 571th record. Run 222530, Trigger 570 GenInputManager Begin processing 572th record. Run 222530, Trigger 571 GenInputManager Begin processing 573th record. Run 222530, Trigger 572 GenInputManager Begin processing 574th record. Run 222530, Trigger 573 GenInputManager Begin processing 575th record. Run 222530, Trigger 574 GenInputManager Begin processing 576th record. Run 222530, Trigger 575 GenInputManager Begin processing 577th record. Run 222530, Trigger 576 GenInputManager Begin processing 578th record. Run 222530, Trigger 577 GenInputManager Begin processing 579th record. Run 222530, Trigger 578 GenInputManager Begin processing 580th record. Run 222530, Trigger 579 GenInputManager Begin processing 581th record. Run 222530, Trigger 580 GenInputManager Begin processing 582th record. Run 222530, Trigger 581 GenInputManager Begin processing 583th record. Run 222530, Trigger 582 GenInputManager Begin processing 584th record. Run 222530, Trigger 583 GenInputManager Begin processing 585th record. Run 222530, Trigger 584 GenInputManager Begin processing 586th record. Run 222530, Trigger 585 GenInputManager Begin processing 587th record. Run 222530, Trigger 586 GenInputManager Begin processing 588th record. Run 222530, Trigger 587 GenInputManager Begin processing 589th record. Run 222530, Trigger 588 GenInputManager Begin processing 590th record. Run 222530, Trigger 589 GenInputManager Begin processing 591th record. Run 222530, Trigger 590 GenInputManager Begin processing 592th record. Run 222530, Trigger 591 GenInputManager Begin processing 593th record. Run 222530, Trigger 592 GenInputManager Begin processing 594th record. Run 222530, Trigger 593 GenInputManager Begin processing 595th record. Run 222530, Trigger 594 GenInputManager Begin processing 596th record. Run 222530, Trigger 595 GenInputManager Begin processing 597th record. Run 222530, Trigger 596 GenInputManager Begin processing 598th record. Run 222530, Trigger 597 GenInputManager Begin processing 599th record. Run 222530, Trigger 598 GenInputManager Begin processing 600th record. Run 222530, Trigger 599 GenInputManager Begin processing 601th record. Run 222530, Trigger 600 GenInputManager Begin processing 602th record. Run 222530, Trigger 601 GenInputManager Begin processing 603th record. Run 222530, Trigger 602 GenInputManager Begin processing 604th record. Run 222530, Trigger 603 GenInputManager Begin processing 605th record. Run 222530, Trigger 604 GenInputManager Begin processing 606th record. Run 222530, Trigger 605 GenInputManager Begin processing 607th record. Run 222530, Trigger 606 GenInputManager Begin processing 608th record. Run 222530, Trigger 607 GenInputManager Begin processing 609th record. Run 222530, Trigger 608 GenInputManager Begin processing 610th record. Run 222530, Trigger 609 GenInputManager Begin processing 611th record. Run 222530, Trigger 610 GenInputManager Begin processing 612th record. Run 222530, Trigger 611 GenInputManager Begin processing 613th record. Run 222530, Trigger 612 GenInputManager Begin processing 614th record. Run 222530, Trigger 613 GenInputManager Begin processing 615th record. Run 222530, Trigger 614 GenInputManager Begin processing 616th record. Run 222530, Trigger 615 GenInputManager Begin processing 617th record. Run 222530, Trigger 616 GenInputManager Begin processing 618th record. Run 222530, Trigger 617 GenInputManager Begin processing 619th record. Run 222530, Trigger 618 GenInputManager Begin processing 620th record. Run 222530, Trigger 619 GenInputManager Begin processing 621th record. Run 222530, Trigger 620 GenInputManager Begin processing 622th record. Run 222530, Trigger 621 GenInputManager Begin processing 623th record. Run 222530, Trigger 622 GenInputManager Begin processing 624th record. Run 222530, Trigger 623 GenInputManager Begin processing 625th record. Run 222530, Trigger 624 GenInputManager Begin processing 626th record. Run 222530, Trigger 625 GenInputManager Begin processing 627th record. Run 222530, Trigger 626 GenInputManager Begin processing 628th record. Run 222530, Trigger 627 GenInputManager Begin processing 629th record. Run 222530, Trigger 628 GenInputManager Begin processing 630th record. Run 222530, Trigger 629 GenInputManager Begin processing 631th record. Run 222530, Trigger 630 GenInputManager Begin processing 632th record. Run 222530, Trigger 631 GenInputManager Begin processing 633th record. Run 222530, Trigger 632 GenInputManager Begin processing 634th record. Run 222530, Trigger 633 GenInputManager Begin processing 635th record. Run 222530, Trigger 634 GenInputManager Begin processing 636th record. Run 222530, Trigger 635 GenInputManager Begin processing 637th record. Run 222530, Trigger 636 GenInputManager Begin processing 638th record. Run 222530, Trigger 637 GenInputManager Begin processing 639th record. Run 222530, Trigger 638 GenInputManager Begin processing 640th record. Run 222530, Trigger 639 GenInputManager Begin processing 641th record. Run 222530, Trigger 640 GenInputManager Begin processing 642th record. Run 222530, Trigger 641 GenInputManager Begin processing 643th record. Run 222530, Trigger 642 GenInputManager Begin processing 644th record. Run 222530, Trigger 643 GenInputManager Begin processing 645th record. Run 222530, Trigger 644 GenInputManager Begin processing 646th record. Run 222530, Trigger 645 GenInputManager Begin processing 647th record. Run 222530, Trigger 646 GenInputManager Begin processing 648th record. Run 222530, Trigger 647 GenInputManager Begin processing 649th record. Run 222530, Trigger 648 GenInputManager Begin processing 650th record. Run 222530, Trigger 649 GenInputManager Begin processing 651th record. Run 222530, Trigger 650 GenInputManager Begin processing 652th record. Run 222530, Trigger 651 GenInputManager Begin processing 653th record. Run 222530, Trigger 652 GenInputManager Begin processing 654th record. Run 222530, Trigger 653 GenInputManager Begin processing 655th record. Run 222530, Trigger 654 GenInputManager Begin processing 656th record. Run 222530, Trigger 655 GenInputManager Begin processing 657th record. Run 222530, Trigger 656 GenInputManager Begin processing 658th record. Run 222530, Trigger 657 GenInputManager Begin processing 659th record. Run 222530, Trigger 658 GenInputManager Begin processing 660th record. Run 222530, Trigger 659 GenInputManager Begin processing 661th record. Run 222530, Trigger 660 GenInputManager Begin processing 662th record. Run 222530, Trigger 661 GenInputManager Begin processing 663th record. Run 222530, Trigger 662 GenInputManager Begin processing 664th record. Run 222530, Trigger 663 GenInputManager Begin processing 665th record. Run 222530, Trigger 664 GenInputManager Begin processing 666th record. Run 222530, Trigger 665 GenInputManager Begin processing 667th record. Run 222530, Trigger 666 GenInputManager Begin processing 668th record. Run 222530, Trigger 667 GenInputManager Begin processing 669th record. Run 222530, Trigger 668 GenInputManager Begin processing 670th record. Run 222530, Trigger 669 GenInputManager Begin processing 671th record. Run 222530, Trigger 670 GenInputManager Begin processing 672th record. Run 222530, Trigger 671 GenInputManager Begin processing 673th record. Run 222530, Trigger 672 GenInputManager Begin processing 674th record. Run 222530, Trigger 673 GenInputManager Begin processing 675th record. Run 222530, Trigger 674 GenInputManager Begin processing 676th record. Run 222530, Trigger 675 GenInputManager Begin processing 677th record. Run 222530, Trigger 676 GenInputManager Begin processing 678th record. Run 222530, Trigger 677 GenInputManager Begin processing 679th record. Run 222530, Trigger 678 GenInputManager Begin processing 680th record. Run 222530, Trigger 679 GenInputManager Begin processing 681th record. Run 222530, Trigger 680 GenInputManager Begin processing 682th record. Run 222530, Trigger 681 GenInputManager Begin processing 683th record. Run 222530, Trigger 682 GenInputManager Begin processing 684th record. Run 222530, Trigger 683 GenInputManager Begin processing 685th record. Run 222530, Trigger 684 GenInputManager Begin processing 686th record. Run 222530, Trigger 685 GenInputManager Begin processing 687th record. Run 222530, Trigger 686 GenInputManager Begin processing 688th record. Run 222530, Trigger 687 GenInputManager Begin processing 689th record. Run 222530, Trigger 688 GenInputManager Begin processing 690th record. Run 222530, Trigger 689 GenInputManager Begin processing 691th record. Run 222530, Trigger 690 GenInputManager Begin processing 692th record. Run 222530, Trigger 691 GenInputManager Begin processing 693th record. Run 222530, Trigger 692 GenInputManager Begin processing 694th record. Run 222530, Trigger 693 GenInputManager Begin processing 695th record. Run 222530, Trigger 694 GenInputManager Begin processing 696th record. Run 222530, Trigger 695 GenInputManager Begin processing 697th record. Run 222530, Trigger 696 GenInputManager Begin processing 698th record. Run 222530, Trigger 697 GenInputManager Begin processing 699th record. Run 222530, Trigger 698 GenInputManager Begin processing 700th record. Run 222530, Trigger 699 GenInputManager Begin processing 701th record. Run 222530, Trigger 700 GenInputManager Begin processing 702th record. Run 222530, Trigger 701 GenInputManager Begin processing 703th record. Run 222530, Trigger 702 GenInputManager Begin processing 704th record. Run 222530, Trigger 703 GenInputManager Begin processing 705th record. Run 222530, Trigger 704 GenInputManager Begin processing 706th record. Run 222530, Trigger 705 GenInputManager Begin processing 707th record. Run 222530, Trigger 706 GenInputManager Begin processing 708th record. Run 222530, Trigger 707 GenInputManager Begin processing 709th record. Run 222530, Trigger 708 GenInputManager Begin processing 710th record. Run 222530, Trigger 709 GenInputManager Begin processing 711th record. Run 222530, Trigger 710 GenInputManager Begin processing 712th record. Run 222530, Trigger 711 GenInputManager Begin processing 713th record. Run 222530, Trigger 712 GenInputManager Begin processing 714th record. Run 222530, Trigger 713 GenInputManager Begin processing 715th record. Run 222530, Trigger 714 GenInputManager Begin processing 716th record. Run 222530, Trigger 715 GenInputManager Begin processing 717th record. Run 222530, Trigger 716 GenInputManager Begin processing 718th record. Run 222530, Trigger 717 GenInputManager Begin processing 719th record. Run 222530, Trigger 718 GenInputManager Begin processing 720th record. Run 222530, Trigger 719 GenInputManager Begin processing 721th record. Run 222530, Trigger 720 GenInputManager Begin processing 722th record. Run 222530, Trigger 721 GenInputManager Begin processing 723th record. Run 222530, Trigger 722 GenInputManager Begin processing 724th record. Run 222530, Trigger 723 GenInputManager Begin processing 725th record. Run 222530, Trigger 724 GenInputManager Begin processing 726th record. Run 222530, Trigger 725 GenInputManager Begin processing 727th record. Run 222530, Trigger 726 GenInputManager Begin processing 728th record. Run 222530, Trigger 727 GenInputManager Begin processing 729th record. Run 222530, Trigger 728 GenInputManager Begin processing 730th record. Run 222530, Trigger 729 GenInputManager Begin processing 731th record. Run 222530, Trigger 730 GenInputManager Begin processing 732th record. Run 222530, Trigger 731 GenInputManager Begin processing 733th record. Run 222530, Trigger 732 GenInputManager Begin processing 734th record. Run 222530, Trigger 733 GenInputManager Begin processing 735th record. Run 222530, Trigger 734 GenInputManager Begin processing 736th record. Run 222530, Trigger 735 GenInputManager Begin processing 737th record. Run 222530, Trigger 736 GenInputManager Begin processing 738th record. Run 222530, Trigger 737 GenInputManager Begin processing 739th record. Run 222530, Trigger 738 GenInputManager Begin processing 740th record. Run 222530, Trigger 739 GenInputManager Begin processing 741th record. Run 222530, Trigger 740 GenInputManager Begin processing 742th record. Run 222530, Trigger 741 GenInputManager Begin processing 743th record. Run 222530, Trigger 742 GenInputManager Begin processing 744th record. Run 222530, Trigger 743 GenInputManager Begin processing 745th record. Run 222530, Trigger 744 GenInputManager Begin processing 746th record. Run 222530, Trigger 745 GenInputManager Begin processing 747th record. Run 222530, Trigger 746 GenInputManager Begin processing 748th record. Run 222530, Trigger 747 GenInputManager Begin processing 749th record. Run 222530, Trigger 748 GenInputManager Begin processing 750th record. Run 222530, Trigger 749 GenInputManager Begin processing 751th record. Run 222530, Trigger 750 GenInputManager Begin processing 752th record. Run 222530, Trigger 751 GenInputManager Begin processing 753th record. Run 222530, Trigger 752 GenInputManager Begin processing 754th record. Run 222530, Trigger 753 GenInputManager Begin processing 755th record. Run 222530, Trigger 754 GenInputManager Begin processing 756th record. Run 222530, Trigger 755 GenInputManager Begin processing 757th record. Run 222530, Trigger 756 GenInputManager Begin processing 758th record. Run 222530, Trigger 757 GenInputManager Begin processing 759th record. Run 222530, Trigger 758 GenInputManager Begin processing 760th record. Run 222530, Trigger 759 GenInputManager Begin processing 761th record. Run 222530, Trigger 760 GenInputManager Begin processing 762th record. Run 222530, Trigger 761 GenInputManager Begin processing 763th record. Run 222530, Trigger 762 GenInputManager Begin processing 764th record. Run 222530, Trigger 763 GenInputManager Begin processing 765th record. Run 222530, Trigger 764 GenInputManager Begin processing 766th record. Run 222530, Trigger 765 GenInputManager Begin processing 767th record. Run 222530, Trigger 766 GenInputManager Begin processing 768th record. Run 222530, Trigger 767 GenInputManager Begin processing 769th record. Run 222530, Trigger 768 GenInputManager Begin processing 770th record. Run 222530, Trigger 769 GenInputManager Begin processing 771th record. Run 222530, Trigger 770 GenInputManager Begin processing 772th record. Run 222530, Trigger 771 GenInputManager Begin processing 773th record. Run 222530, Trigger 772 GenInputManager Begin processing 774th record. Run 222530, Trigger 773 GenInputManager Begin processing 775th record. Run 222530, Trigger 774 GenInputManager Begin processing 776th record. Run 222530, Trigger 775 GenInputManager Begin processing 777th record. Run 222530, Trigger 776 GenInputManager Begin processing 778th record. Run 222530, Trigger 777 GenInputManager Begin processing 779th record. Run 222530, Trigger 778 GenInputManager Begin processing 780th record. Run 222530, Trigger 779 GenInputManager Begin processing 781th record. Run 222530, Trigger 780 GenInputManager Begin processing 782th record. Run 222530, Trigger 781 GenInputManager Begin processing 783th record. Run 222530, Trigger 782 GenInputManager Begin processing 784th record. Run 222530, Trigger 783 GenInputManager Begin processing 785th record. Run 222530, Trigger 784 GenInputManager Begin processing 786th record. Run 222530, Trigger 785 GenInputManager Begin processing 787th record. Run 222530, Trigger 786 GenInputManager Begin processing 788th record. Run 222530, Trigger 787 GenInputManager Begin processing 789th record. Run 222530, Trigger 788 GenInputManager Begin processing 790th record. Run 222530, Trigger 789 GenInputManager Begin processing 791th record. Run 222530, Trigger 790 GenInputManager Begin processing 792th record. Run 222530, Trigger 791 GenInputManager Begin processing 793th record. Run 222530, Trigger 792 GenInputManager Begin processing 794th record. Run 222530, Trigger 793 GenInputManager Begin processing 795th record. Run 222530, Trigger 794 GenInputManager Begin processing 796th record. Run 222530, Trigger 795 GenInputManager Begin processing 797th record. Run 222530, Trigger 796 GenInputManager Begin processing 798th record. Run 222530, Trigger 797 GenInputManager Begin processing 799th record. Run 222530, Trigger 798 GenInputManager Begin processing 800th record. Run 222530, Trigger 799 GenInputManager Begin processing 801th record. Run 222530, Trigger 800 GenInputManager Begin processing 802th record. Run 222530, Trigger 801 GenInputManager Begin processing 803th record. Run 222530, Trigger 802 GenInputManager Begin processing 804th record. Run 222530, Trigger 803 GenInputManager Begin processing 805th record. Run 222530, Trigger 804 GenInputManager Begin processing 806th record. Run 222530, Trigger 805 GenInputManager Begin processing 807th record. Run 222530, Trigger 806 GenInputManager Begin processing 808th record. Run 222530, Trigger 807 GenInputManager Begin processing 809th record. Run 222530, Trigger 808 GenInputManager Begin processing 810th record. Run 222530, Trigger 809 GenInputManager Begin processing 811th record. Run 222530, Trigger 810 GenInputManager Begin processing 812th record. Run 222530, Trigger 811 GenInputManager Begin processing 813th record. Run 222530, Trigger 812 GenInputManager Begin processing 814th record. Run 222530, Trigger 813 GenInputManager Begin processing 815th record. Run 222530, Trigger 814 GenInputManager Begin processing 816th record. Run 222530, Trigger 815 GenInputManager Begin processing 817th record. Run 222530, Trigger 816 GenInputManager Begin processing 818th record. Run 222530, Trigger 817 GenInputManager Begin processing 819th record. Run 222530, Trigger 818 GenInputManager Begin processing 820th record. Run 222530, Trigger 819 GenInputManager Begin processing 821th record. Run 222530, Trigger 820 GenInputManager Begin processing 822th record. Run 222530, Trigger 821 GenInputManager Begin processing 823th record. Run 222530, Trigger 822 GenInputManager Begin processing 824th record. Run 222530, Trigger 823 GenInputManager Begin processing 825th record. Run 222530, Trigger 824 GenInputManager Begin processing 826th record. Run 222530, Trigger 825 GenInputManager Begin processing 827th record. Run 222530, Trigger 826 GenInputManager Begin processing 828th record. Run 222530, Trigger 827 GenInputManager Begin processing 829th record. Run 222530, Trigger 828 GenInputManager Begin processing 830th record. Run 222530, Trigger 829 GenInputManager Begin processing 831th record. Run 222530, Trigger 830 GenInputManager Begin processing 832th record. Run 222530, Trigger 831 GenInputManager Begin processing 833th record. Run 222530, Trigger 832 GenInputManager Begin processing 834th record. Run 222530, Trigger 833 GenInputManager Begin processing 835th record. Run 222530, Trigger 834 GenInputManager Begin processing 836th record. Run 222530, Trigger 835 GenInputManager Begin processing 837th record. Run 222530, Trigger 836 GenInputManager Begin processing 838th record. Run 222530, Trigger 837 GenInputManager Begin processing 839th record. Run 222530, Trigger 838 GenInputManager Begin processing 840th record. Run 222530, Trigger 839 GenInputManager Begin processing 841th record. Run 222530, Trigger 840 GenInputManager Begin processing 842th record. Run 222530, Trigger 841 GenInputManager Begin processing 843th record. Run 222530, Trigger 842 GenInputManager Begin processing 844th record. Run 222530, Trigger 843 GenInputManager Begin processing 845th record. Run 222530, Trigger 844 GenInputManager Begin processing 846th record. Run 222530, Trigger 845 GenInputManager Begin processing 847th record. Run 222530, Trigger 846 GenInputManager Begin processing 848th record. Run 222530, Trigger 847 GenInputManager Begin processing 849th record. Run 222530, Trigger 848 GenInputManager Begin processing 850th record. Run 222530, Trigger 849 GenInputManager Begin processing 851th record. Run 222530, Trigger 850 GenInputManager Begin processing 852th record. Run 222530, Trigger 851 GenInputManager Begin processing 853th record. Run 222530, Trigger 852 GenInputManager Begin processing 854th record. Run 222530, Trigger 853 GenInputManager Begin processing 855th record. Run 222530, Trigger 854 GenInputManager Begin processing 856th record. Run 222530, Trigger 855 GenInputManager Begin processing 857th record. Run 222530, Trigger 856 GenInputManager Begin processing 858th record. Run 222530, Trigger 857 GenInputManager Begin processing 859th record. Run 222530, Trigger 858 GenInputManager Begin processing 860th record. Run 222530, Trigger 859 GenInputManager Begin processing 861th record. Run 222530, Trigger 860 GenInputManager Begin processing 862th record. Run 222530, Trigger 861 GenInputManager Begin processing 863th record. Run 222530, Trigger 862 GenInputManager Begin processing 864th record. Run 222530, Trigger 863 GenInputManager Begin processing 865th record. Run 222530, Trigger 864 GenInputManager Begin processing 866th record. Run 222530, Trigger 865 GenInputManager Begin processing 867th record. Run 222530, Trigger 866 GenInputManager Begin processing 868th record. Run 222530, Trigger 867 GenInputManager Begin processing 869th record. Run 222530, Trigger 868 GenInputManager Begin processing 870th record. Run 222530, Trigger 869 GenInputManager Begin processing 871th record. Run 222530, Trigger 870 GenInputManager Begin processing 872th record. Run 222530, Trigger 871 GenInputManager Begin processing 873th record. Run 222530, Trigger 872 GenInputManager Begin processing 874th record. Run 222530, Trigger 873 GenInputManager Begin processing 875th record. Run 222530, Trigger 874 GenInputManager Begin processing 876th record. Run 222530, Trigger 875 GenInputManager Begin processing 877th record. Run 222530, Trigger 876 GenInputManager Begin processing 878th record. Run 222530, Trigger 877 GenInputManager Begin processing 879th record. Run 222530, Trigger 878 GenInputManager Begin processing 880th record. Run 222530, Trigger 879 GenInputManager Begin processing 881th record. Run 222530, Trigger 880 GenInputManager Begin processing 882th record. Run 222530, Trigger 881 GenInputManager Begin processing 883th record. Run 222530, Trigger 882 GenInputManager Begin processing 884th record. Run 222530, Trigger 883 GenInputManager Begin processing 885th record. Run 222530, Trigger 884 GenInputManager Begin processing 886th record. Run 222530, Trigger 885 GenInputManager Begin processing 887th record. Run 222530, Trigger 886 GenInputManager Begin processing 888th record. Run 222530, Trigger 887 GenInputManager Begin processing 889th record. Run 222530, Trigger 888 GenInputManager Begin processing 890th record. Run 222530, Trigger 889 GenInputManager Begin processing 891th record. Run 222530, Trigger 890 GenInputManager Begin processing 892th record. Run 222530, Trigger 891 GenInputManager Begin processing 893th record. Run 222530, Trigger 892 GenInputManager Begin processing 894th record. Run 222530, Trigger 893 GenInputManager Begin processing 895th record. Run 222530, Trigger 894 GenInputManager Begin processing 896th record. Run 222530, Trigger 895 GenInputManager Begin processing 897th record. Run 222530, Trigger 896 GenInputManager Begin processing 898th record. Run 222530, Trigger 897 GenInputManager Begin processing 899th record. Run 222530, Trigger 898 GenInputManager Begin processing 900th record. Run 222530, Trigger 899 GenInputManager Begin processing 901th record. Run 222530, Trigger 900 GenInputManager Begin processing 902th record. Run 222530, Trigger 901 GenInputManager Begin processing 903th record. Run 222530, Trigger 902 GenInputManager Begin processing 904th record. Run 222530, Trigger 903 GenInputManager Begin processing 905th record. Run 222530, Trigger 904 GenInputManager Begin processing 906th record. Run 222530, Trigger 905 GenInputManager Begin processing 907th record. Run 222530, Trigger 906 GenInputManager Begin processing 908th record. Run 222530, Trigger 907 GenInputManager Begin processing 909th record. Run 222530, Trigger 908 GenInputManager Begin processing 910th record. Run 222530, Trigger 909 GenInputManager Begin processing 911th record. Run 222530, Trigger 910 GenInputManager Begin processing 912th record. Run 222530, Trigger 911 GenInputManager Begin processing 913th record. Run 222530, Trigger 912 GenInputManager Begin processing 914th record. Run 222530, Trigger 913 GenInputManager Begin processing 915th record. Run 222530, Trigger 914 GenInputManager Begin processing 916th record. Run 222530, Trigger 915 GenInputManager Begin processing 917th record. Run 222530, Trigger 916 GenInputManager Begin processing 918th record. Run 222530, Trigger 917 GenInputManager Begin processing 919th record. Run 222530, Trigger 918 GenInputManager Begin processing 920th record. Run 222530, Trigger 919 GenInputManager Begin processing 921th record. Run 222530, Trigger 920 GenInputManager Begin processing 922th record. Run 222530, Trigger 921 GenInputManager Begin processing 923th record. Run 222530, Trigger 922 GenInputManager Begin processing 924th record. Run 222530, Trigger 923 GenInputManager Begin processing 925th record. Run 222530, Trigger 924 GenInputManager Begin processing 926th record. Run 222530, Trigger 925 GenInputManager Begin processing 927th record. Run 222530, Trigger 926 GenInputManager Begin processing 928th record. Run 222530, Trigger 927 GenInputManager Begin processing 929th record. Run 222530, Trigger 928 GenInputManager Begin processing 930th record. Run 222530, Trigger 929 GenInputManager Begin processing 931th record. Run 222530, Trigger 930 GenInputManager Begin processing 932th record. Run 222530, Trigger 931 GenInputManager Begin processing 933th record. Run 222530, Trigger 932 GenInputManager Begin processing 934th record. Run 222530, Trigger 933 GenInputManager Begin processing 935th record. Run 222530, Trigger 934 GenInputManager Begin processing 936th record. Run 222530, Trigger 935 GenInputManager Begin processing 937th record. Run 222530, Trigger 936 GenInputManager Begin processing 938th record. Run 222530, Trigger 937 GenInputManager Begin processing 939th record. Run 222530, Trigger 938 GenInputManager Begin processing 940th record. Run 222530, Trigger 939 GenInputManager Begin processing 941th record. Run 222530, Trigger 940 GenInputManager Begin processing 942th record. Run 222530, Trigger 941 GenInputManager Begin processing 943th record. Run 222530, Trigger 942 GenInputManager Begin processing 944th record. Run 222530, Trigger 943 GenInputManager Begin processing 945th record. Run 222530, Trigger 944 GenInputManager Begin processing 946th record. Run 222530, Trigger 945 GenInputManager Begin processing 947th record. Run 222530, Trigger 946 GenInputManager Begin processing 948th record. Run 222530, Trigger 947 GenInputManager Begin processing 949th record. Run 222530, Trigger 948 GenInputManager Begin processing 950th record. Run 222530, Trigger 949 GenInputManager Begin processing 951th record. Run 222530, Trigger 950 GenInputManager Begin processing 952th record. Run 222530, Trigger 951 GenInputManager Begin processing 953th record. Run 222530, Trigger 952 GenInputManager Begin processing 954th record. Run 222530, Trigger 953 GenInputManager Begin processing 955th record. Run 222530, Trigger 954 GenInputManager Begin processing 956th record. Run 222530, Trigger 955 GenInputManager Begin processing 957th record. Run 222530, Trigger 956 GenInputManager Begin processing 958th record. Run 222530, Trigger 957 GenInputManager Begin processing 959th record. Run 222530, Trigger 958 GenInputManager Begin processing 960th record. Run 222530, Trigger 959 GenInputManager Begin processing 961th record. Run 222530, Trigger 960 GenInputManager Begin processing 962th record. Run 222530, Trigger 961 GenInputManager Begin processing 963th record. Run 222530, Trigger 962 GenInputManager Begin processing 964th record. Run 222530, Trigger 963 GenInputManager Begin processing 965th record. Run 222530, Trigger 964 GenInputManager Begin processing 966th record. Run 222530, Trigger 965 GenInputManager Begin processing 967th record. Run 222530, Trigger 966 GenInputManager Begin processing 968th record. Run 222530, Trigger 967 GenInputManager Begin processing 969th record. Run 222530, Trigger 968 GenInputManager Begin processing 970th record. Run 222530, Trigger 969 GenInputManager Begin processing 971th record. Run 222530, Trigger 970 GenInputManager Begin processing 972th record. Run 222530, Trigger 971 GenInputManager Begin processing 973th record. Run 222530, Trigger 972 GenInputManager Begin processing 974th record. Run 222530, Trigger 973 GenInputManager Begin processing 975th record. Run 222530, Trigger 974 GenInputManager Begin processing 976th record. Run 222530, Trigger 975 GenInputManager Begin processing 977th record. Run 222530, Trigger 976 GenInputManager Begin processing 978th record. Run 222530, Trigger 977 GenInputManager Begin processing 979th record. Run 222530, Trigger 978 GenInputManager Begin processing 980th record. Run 222530, Trigger 979 GenInputManager Begin processing 981th record. Run 222530, Trigger 980 GenInputManager Begin processing 982th record. Run 222530, Trigger 981 GenInputManager Begin processing 983th record. Run 222530, Trigger 982 GenInputManager Begin processing 984th record. Run 222530, Trigger 983 GenInputManager Begin processing 985th record. Run 222530, Trigger 984 GenInputManager Begin processing 986th record. Run 222530, Trigger 985 GenInputManager Begin processing 987th record. Run 222530, Trigger 986 GenInputManager Begin processing 988th record. Run 222530, Trigger 987 GenInputManager Begin processing 989th record. Run 222530, Trigger 988 GenInputManager Begin processing 990th record. Run 222530, Trigger 989 GenInputManager Begin processing 991th record. Run 222530, Trigger 990 GenInputManager Begin processing 992th record. Run 222530, Trigger 991 GenInputManager Begin processing 993th record. Run 222530, Trigger 992 GenInputManager Begin processing 994th record. Run 222530, Trigger 993 GenInputManager Begin processing 995th record. Run 222530, Trigger 994 GenInputManager Begin processing 996th record. Run 222530, Trigger 995 GenInputManager Begin processing 997th record. Run 222530, Trigger 996 GenInputManager Begin processing 998th record. Run 222530, Trigger 997 GenInputManager Begin processing 999th record. Run 222530, Trigger 998 GenInputManager Begin processing 1000th record. Run 222530, Trigger 999 GenInputManager Begin processing 1001th record. Run 222530, Trigger 1000 GenInputManager Begin processing 1002th record. Run 222530, Trigger 1001 GenInputManager Begin processing 1003th record. Run 222530, Trigger 1002 GenInputManager Begin processing 1004th record. Run 222530, Trigger 1003 GenInputManager Begin processing 1005th record. Run 222530, Trigger 1004 GenInputManager Begin processing 1006th record. Run 222530, Trigger 1005 GenInputManager Begin processing 1007th record. Run 222530, Trigger 1006 GenInputManager Begin processing 1008th record. Run 222530, Trigger 1007 GenInputManager Begin processing 1009th record. Run 222530, Trigger 1008 GenInputManager Begin processing 1010th record. Run 222530, Trigger 1009 GenInputManager Begin processing 1011th record. Run 222530, Trigger 1010 GenInputManager Begin processing 1012th record. Run 222530, Trigger 1011 GenInputManager Begin processing 1013th record. Run 222530, Trigger 1012 GenInputManager Begin processing 1014th record. Run 222530, Trigger 1013 GenInputManager Begin processing 1015th record. Run 222530, Trigger 1014 GenInputManager Begin processing 1016th record. Run 222530, Trigger 1015 GenInputManager Begin processing 1017th record. Run 222530, Trigger 1016 GenInputManager Begin processing 1018th record. Run 222530, Trigger 1017 GenInputManager Begin processing 1019th record. Run 222530, Trigger 1018 GenInputManager Begin processing 1020th record. Run 222530, Trigger 1019 GenInputManager Begin processing 1021th record. Run 222530, Trigger 1020 GenInputManager Begin processing 1022th record. Run 222530, Trigger 1021 GenInputManager Begin processing 1023th record. Run 222530, Trigger 1022 GenInputManager Begin processing 1024th record. Run 222530, Trigger 1023 GenInputManager Begin processing 1025th record. Run 222530, Trigger 1024 GenInputManager Begin processing 1026th record. Run 222530, Trigger 1025 GenInputManager Begin processing 1027th record. Run 222530, Trigger 1026 GenInputManager Begin processing 1028th record. Run 222530, Trigger 1027 GenInputManager Begin processing 1029th record. Run 222530, Trigger 1028 GenInputManager Begin processing 1030th record. Run 222530, Trigger 1029 GenInputManager Begin processing 1031th record. Run 222530, Trigger 1030 GenInputManager Begin processing 1032th record. Run 222530, Trigger 1031 GenInputManager Begin processing 1033th record. Run 222530, Trigger 1032 GenInputManager Begin processing 1034th record. Run 222530, Trigger 1033 GenInputManager Begin processing 1035th record. Run 222530, Trigger 1034 GenInputManager Begin processing 1036th record. Run 222530, Trigger 1035 GenInputManager Begin processing 1037th record. Run 222530, Trigger 1036 GenInputManager Begin processing 1038th record. Run 222530, Trigger 1037 GenInputManager Begin processing 1039th record. Run 222530, Trigger 1038 GenInputManager Begin processing 1040th record. Run 222530, Trigger 1039 GenInputManager Begin processing 1041th record. Run 222530, Trigger 1040 GenInputManager Begin processing 1042th record. Run 222530, Trigger 1041 GenInputManager Begin processing 1043th record. Run 222530, Trigger 1042 GenInputManager Begin processing 1044th record. Run 222530, Trigger 1043 GenInputManager Begin processing 1045th record. Run 222530, Trigger 1044 GenInputManager Begin processing 1046th record. Run 222530, Trigger 1045 GenInputManager Begin processing 1047th record. Run 222530, Trigger 1046 GenInputManager Begin processing 1048th record. Run 222530, Trigger 1047 GenInputManager Begin processing 1049th record. Run 222530, Trigger 1048 GenInputManager Begin processing 1050th record. Run 222530, Trigger 1049 GenInputManager Begin processing 1051th record. Run 222530, Trigger 1050 GenInputManager Begin processing 1052th record. Run 222530, Trigger 1051 GenInputManager Begin processing 1053th record. Run 222530, Trigger 1052 GenInputManager Begin processing 1054th record. Run 222530, Trigger 1053 GenInputManager Begin processing 1055th record. Run 222530, Trigger 1054 GenInputManager Begin processing 1056th record. Run 222530, Trigger 1055 GenInputManager Begin processing 1057th record. Run 222530, Trigger 1056 GenInputManager Begin processing 1058th record. Run 222530, Trigger 1057 GenInputManager Begin processing 1059th record. Run 222530, Trigger 1058 GenInputManager Begin processing 1060th record. Run 222530, Trigger 1059 GenInputManager Begin processing 1061th record. Run 222530, Trigger 1060 GenInputManager Begin processing 1062th record. Run 222530, Trigger 1061 GenInputManager Begin processing 1063th record. Run 222530, Trigger 1062 GenInputManager Begin processing 1064th record. Run 222530, Trigger 1063 GenInputManager Begin processing 1065th record. Run 222530, Trigger 1064 GenInputManager Begin processing 1066th record. Run 222530, Trigger 1065 GenInputManager Begin processing 1067th record. Run 222530, Trigger 1066 GenInputManager Begin processing 1068th record. Run 222530, Trigger 1067 GenInputManager Begin processing 1069th record. Run 222530, Trigger 1068 GenInputManager Begin processing 1070th record. Run 222530, Trigger 1069 GenInputManager Begin processing 1071th record. Run 222530, Trigger 1070 GenInputManager Begin processing 1072th record. Run 222530, Trigger 1071 GenInputManager Begin processing 1073th record. Run 222530, Trigger 1072 GenInputManager Begin processing 1074th record. Run 222530, Trigger 1073 GenInputManager Begin processing 1075th record. Run 222530, Trigger 1074 GenInputManager Begin processing 1076th record. Run 222530, Trigger 1075 GenInputManager Begin processing 1077th record. Run 222530, Trigger 1076 GenInputManager Begin processing 1078th record. Run 222530, Trigger 1077 GenInputManager Begin processing 1079th record. Run 222530, Trigger 1078 GenInputManager Begin processing 1080th record. Run 222530, Trigger 1079 GenInputManager Begin processing 1081th record. Run 222530, Trigger 1080 GenInputManager Begin processing 1082th record. Run 222530, Trigger 1081 GenInputManager Begin processing 1083th record. Run 222530, Trigger 1082 GenInputManager Begin processing 1084th record. Run 222530, Trigger 1083 GenInputManager Begin processing 1085th record. Run 222530, Trigger 1084 GenInputManager Begin processing 1086th record. Run 222530, Trigger 1085 GenInputManager Begin processing 1087th record. Run 222530, Trigger 1086 GenInputManager Begin processing 1088th record. Run 222530, Trigger 1087 GenInputManager Begin processing 1089th record. Run 222530, Trigger 1088 GenInputManager Begin processing 1090th record. Run 222530, Trigger 1089 GenInputManager Begin processing 1091th record. Run 222530, Trigger 1090 GenInputManager Begin processing 1092th record. Run 222530, Trigger 1091 GenInputManager Begin processing 1093th record. Run 222530, Trigger 1092 GenInputManager Begin processing 1094th record. Run 222530, Trigger 1093 GenInputManager Begin processing 1095th record. Run 222530, Trigger 1094 GenInputManager Begin processing 1096th record. Run 222530, Trigger 1095 GenInputManager Begin processing 1097th record. Run 222530, Trigger 1096 GenInputManager Begin processing 1098th record. Run 222530, Trigger 1097 GenInputManager Begin processing 1099th record. Run 222530, Trigger 1098 GenInputManager Begin processing 1100th record. Run 222530, Trigger 1099 GenInputManager Begin processing 1101th record. Run 222530, Trigger 1100 GenInputManager Begin processing 1102th record. Run 222530, Trigger 1101 GenInputManager Begin processing 1103th record. Run 222530, Trigger 1102 GenInputManager Begin processing 1104th record. Run 222530, Trigger 1103 GenInputManager Begin processing 1105th record. Run 222530, Trigger 1104 GenInputManager Begin processing 1106th record. Run 222530, Trigger 1105 GenInputManager Begin processing 1107th record. Run 222530, Trigger 1106 GenInputManager Begin processing 1108th record. Run 222530, Trigger 1107 GenInputManager Begin processing 1109th record. Run 222530, Trigger 1108 GenInputManager Begin processing 1110th record. Run 222530, Trigger 1109 GenInputManager Begin processing 1111th record. Run 222530, Trigger 1110 GenInputManager Begin processing 1112th record. Run 222530, Trigger 1111 GenInputManager Begin processing 1113th record. Run 222530, Trigger 1112 GenInputManager Begin processing 1114th record. Run 222530, Trigger 1113 GenInputManager Begin processing 1115th record. Run 222530, Trigger 1114 GenInputManager Begin processing 1116th record. Run 222530, Trigger 1115 GenInputManager Begin processing 1117th record. Run 222530, Trigger 1116 GenInputManager Begin processing 1118th record. Run 222530, Trigger 1117 GenInputManager Begin processing 1119th record. Run 222530, Trigger 1118 GenInputManager Begin processing 1120th record. Run 222530, Trigger 1119 GenInputManager Begin processing 1121th record. Run 222530, Trigger 1120 GenInputManager Begin processing 1122th record. Run 222530, Trigger 1121 GenInputManager Begin processing 1123th record. Run 222530, Trigger 1122 GenInputManager Begin processing 1124th record. Run 222530, Trigger 1123 GenInputManager Begin processing 1125th record. Run 222530, Trigger 1124 GenInputManager Begin processing 1126th record. Run 222530, Trigger 1125 GenInputManager Begin processing 1127th record. Run 222530, Trigger 1126 GenInputManager Begin processing 1128th record. Run 222530, Trigger 1127 GenInputManager Begin processing 1129th record. Run 222530, Trigger 1128 GenInputManager Begin processing 1130th record. Run 222530, Trigger 1129 GenInputManager Begin processing 1131th record. Run 222530, Trigger 1130 GenInputManager Begin processing 1132th record. Run 222530, Trigger 1131 GenInputManager Begin processing 1133th record. Run 222530, Trigger 1132 GenInputManager Begin processing 1134th record. Run 222530, Trigger 1133 GenInputManager Begin processing 1135th record. Run 222530, Trigger 1134 GenInputManager Begin processing 1136th record. Run 222530, Trigger 1135 GenInputManager Begin processing 1137th record. Run 222530, Trigger 1136 GenInputManager Begin processing 1138th record. Run 222530, Trigger 1137 GenInputManager Begin processing 1139th record. Run 222530, Trigger 1138 GenInputManager Begin processing 1140th record. Run 222530, Trigger 1139 GenInputManager Begin processing 1141th record. Run 222530, Trigger 1140 GenInputManager Begin processing 1142th record. Run 222530, Trigger 1141 GenInputManager Begin processing 1143th record. Run 222530, Trigger 1142 GenInputManager Begin processing 1144th record. Run 222530, Trigger 1143 GenInputManager Begin processing 1145th record. Run 222530, Trigger 1144 GenInputManager Begin processing 1146th record. Run 222530, Trigger 1145 GenInputManager Begin processing 1147th record. Run 222530, Trigger 1146 GenInputManager Begin processing 1148th record. Run 222530, Trigger 1147 GenInputManager Begin processing 1149th record. Run 222530, Trigger 1148 GenInputManager Begin processing 1150th record. Run 222530, Trigger 1149 GenInputManager Begin processing 1151th record. Run 222530, Trigger 1150 GenInputManager Begin processing 1152th record. Run 222530, Trigger 1151 GenInputManager Begin processing 1153th record. Run 222530, Trigger 1152 GenInputManager Begin processing 1154th record. Run 222530, Trigger 1153 GenInputManager Begin processing 1155th record. Run 222530, Trigger 1154 GenInputManager Begin processing 1156th record. Run 222530, Trigger 1155 GenInputManager Begin processing 1157th record. Run 222530, Trigger 1156 GenInputManager Begin processing 1158th record. Run 222530, Trigger 1157 GenInputManager Begin processing 1159th record. Run 222530, Trigger 1158 GenInputManager Begin processing 1160th record. Run 222530, Trigger 1159 GenInputManager Begin processing 1161th record. Run 222530, Trigger 1160 GenInputManager Begin processing 1162th record. Run 222530, Trigger 1161 GenInputManager Begin processing 1163th record. Run 222530, Trigger 1162 GenInputManager Begin processing 1164th record. Run 222530, Trigger 1163 GenInputManager Begin processing 1165th record. Run 222530, Trigger 1164 GenInputManager Begin processing 1166th record. Run 222530, Trigger 1165 GenInputManager Begin processing 1167th record. Run 222530, Trigger 1166 GenInputManager Begin processing 1168th record. Run 222530, Trigger 1167 GenInputManager Begin processing 1169th record. Run 222530, Trigger 1168 GenInputManager Begin processing 1170th record. Run 222530, Trigger 1169 GenInputManager Begin processing 1171th record. Run 222530, Trigger 1170 GenInputManager Begin processing 1172th record. Run 222530, Trigger 1171 GenInputManager Begin processing 1173th record. Run 222530, Trigger 1172 GenInputManager Begin processing 1174th record. Run 222530, Trigger 1173 GenInputManager Begin processing 1175th record. Run 222530, Trigger 1174 GenInputManager Begin processing 1176th record. Run 222530, Trigger 1175 GenInputManager Begin processing 1177th record. Run 222530, Trigger 1176 GenInputManager Begin processing 1178th record. Run 222530, Trigger 1177 GenInputManager Begin processing 1179th record. Run 222530, Trigger 1178 GenInputManager Begin processing 1180th record. Run 222530, Trigger 1179 GenInputManager Begin processing 1181th record. Run 222530, Trigger 1180 GenInputManager Begin processing 1182th record. Run 222530, Trigger 1181 GenInputManager Begin processing 1183th record. Run 222530, Trigger 1182 GenInputManager Begin processing 1184th record. Run 222530, Trigger 1183 GenInputManager Begin processing 1185th record. Run 222530, Trigger 1184 GenInputManager Begin processing 1186th record. Run 222530, Trigger 1185 GenInputManager Begin processing 1187th record. Run 222530, Trigger 1186 GenInputManager Begin processing 1188th record. Run 222530, Trigger 1187 GenInputManager Begin processing 1189th record. Run 222530, Trigger 1188 GenInputManager Begin processing 1190th record. Run 222530, Trigger 1189 GenInputManager Begin processing 1191th record. Run 222530, Trigger 1190 GenInputManager Begin processing 1192th record. Run 222530, Trigger 1191 GenInputManager Begin processing 1193th record. Run 222530, Trigger 1192 GenInputManager Begin processing 1194th record. Run 222530, Trigger 1193 GenInputManager Begin processing 1195th record. Run 222530, Trigger 1194 GenInputManager Begin processing 1196th record. Run 222530, Trigger 1195 GenInputManager Begin processing 1197th record. Run 222530, Trigger 1196 GenInputManager Begin processing 1198th record. Run 222530, Trigger 1197 GenInputManager Begin processing 1199th record. Run 222530, Trigger 1198 GenInputManager Begin processing 1200th record. Run 222530, Trigger 1199 GenInputManager Begin processing 1201th record. Run 222530, Trigger 1200 GenInputManager Begin processing 1202th record. Run 222530, Trigger 1201 GenInputManager Begin processing 1203th record. Run 222530, Trigger 1202 GenInputManager Begin processing 1204th record. Run 222530, Trigger 1203 GenInputManager Begin processing 1205th record. Run 222530, Trigger 1204 GenInputManager Begin processing 1206th record. Run 222530, Trigger 1205 GenInputManager Begin processing 1207th record. Run 222530, Trigger 1206 GenInputManager Begin processing 1208th record. Run 222530, Trigger 1207 GenInputManager Begin processing 1209th record. Run 222530, Trigger 1208 GenInputManager Begin processing 1210th record. Run 222530, Trigger 1209 GenInputManager Begin processing 1211th record. Run 222530, Trigger 1210 GenInputManager Begin processing 1212th record. Run 222530, Trigger 1211 GenInputManager Begin processing 1213th record. Run 222530, Trigger 1212 GenInputManager Begin processing 1214th record. Run 222530, Trigger 1213 GenInputManager Begin processing 1215th record. Run 222530, Trigger 1214 GenInputManager Begin processing 1216th record. Run 222530, Trigger 1215 GenInputManager Begin processing 1217th record. Run 222530, Trigger 1216 GenInputManager Begin processing 1218th record. Run 222530, Trigger 1217 GenInputManager Begin processing 1219th record. Run 222530, Trigger 1218 GenInputManager Begin processing 1220th record. Run 222530, Trigger 1219 GenInputManager Begin processing 1221th record. Run 222530, Trigger 1220 GenInputManager Begin processing 1222th record. Run 222530, Trigger 1221 GenInputManager Begin processing 1223th record. Run 222530, Trigger 1222 GenInputManager Begin processing 1224th record. Run 222530, Trigger 1223 GenInputManager Begin processing 1225th record. Run 222530, Trigger 1224 GenInputManager Begin processing 1226th record. Run 222530, Trigger 1225 GenInputManager Begin processing 1227th record. Run 222530, Trigger 1226 GenInputManager Begin processing 1228th record. Run 222530, Trigger 1227 GenInputManager Begin processing 1229th record. Run 222530, Trigger 1228 GenInputManager Begin processing 1230th record. Run 222530, Trigger 1229 GenInputManager Begin processing 1231th record. Run 222530, Trigger 1230 GenInputManager Begin processing 1232th record. Run 222530, Trigger 1231 GenInputManager Begin processing 1233th record. Run 222530, Trigger 1232 GenInputManager Begin processing 1234th record. Run 222530, Trigger 1233 GenInputManager Begin processing 1235th record. Run 222530, Trigger 1234 GenInputManager Begin processing 1236th record. Run 222530, Trigger 1235 GenInputManager Begin processing 1237th record. Run 222530, Trigger 1236 GenInputManager Begin processing 1238th record. Run 222530, Trigger 1237 GenInputManager Begin processing 1239th record. Run 222530, Trigger 1238 GenInputManager Begin processing 1240th record. Run 222530, Trigger 1239 GenInputManager Begin processing 1241th record. Run 222530, Trigger 1240 GenInputManager Begin processing 1242th record. Run 222530, Trigger 1241 GenInputManager Begin processing 1243th record. Run 222530, Trigger 1242 GenInputManager Begin processing 1244th record. Run 222530, Trigger 1243 GenInputManager Begin processing 1245th record. Run 222530, Trigger 1244 GenInputManager Begin processing 1246th record. Run 222530, Trigger 1245 GenInputManager Begin processing 1247th record. Run 222530, Trigger 1246 GenInputManager Begin processing 1248th record. Run 222530, Trigger 1247 GenInputManager Begin processing 1249th record. Run 222530, Trigger 1248 GenInputManager Begin processing 1250th record. Run 222530, Trigger 1249 GenInputManager Begin processing 1251th record. Run 222530, Trigger 1250 GenInputManager Begin processing 1252th record. Run 222530, Trigger 1251 GenInputManager Begin processing 1253th record. Run 222530, Trigger 1252 GenInputManager Begin processing 1254th record. Run 222530, Trigger 1253 GenInputManager Begin processing 1255th record. Run 222530, Trigger 1254 GenInputManager Begin processing 1256th record. Run 222530, Trigger 1255 GenInputManager Begin processing 1257th record. Run 222530, Trigger 1256 GenInputManager Begin processing 1258th record. Run 222530, Trigger 1257 GenInputManager Begin processing 1259th record. Run 222530, Trigger 1258 GenInputManager Begin processing 1260th record. Run 222530, Trigger 1259 GenInputManager Begin processing 1261th record. Run 222530, Trigger 1260 GenInputManager Begin processing 1262th record. Run 222530, Trigger 1261 GenInputManager Begin processing 1263th record. Run 222530, Trigger 1262 GenInputManager Begin processing 1264th record. Run 222530, Trigger 1263 GenInputManager Begin processing 1265th record. Run 222530, Trigger 1264 GenInputManager Begin processing 1266th record. Run 222530, Trigger 1265 GenInputManager Begin processing 1267th record. Run 222530, Trigger 1266 GenInputManager Begin processing 1268th record. Run 222530, Trigger 1267 GenInputManager Begin processing 1269th record. Run 222530, Trigger 1268 GenInputManager Begin processing 1270th record. Run 222530, Trigger 1269 GenInputManager Begin processing 1271th record. Run 222530, Trigger 1270 GenInputManager Begin processing 1272th record. Run 222530, Trigger 1271 GenInputManager Begin processing 1273th record. Run 222530, Trigger 1272 GenInputManager Begin processing 1274th record. Run 222530, Trigger 1273 GenInputManager Begin processing 1275th record. Run 222530, Trigger 1274 GenInputManager Begin processing 1276th record. Run 222530, Trigger 1275 GenInputManager Begin processing 1277th record. Run 222530, Trigger 1276 GenInputManager Begin processing 1278th record. Run 222530, Trigger 1277 GenInputManager Begin processing 1279th record. Run 222530, Trigger 1278 GenInputManager Begin processing 1280th record. Run 222530, Trigger 1279 GenInputManager Begin processing 1281th record. Run 222530, Trigger 1280 GenInputManager Begin processing 1282th record. Run 222530, Trigger 1281 GenInputManager Begin processing 1283th record. Run 222530, Trigger 1282 GenInputManager Begin processing 1284th record. Run 222530, Trigger 1283 GenInputManager Begin processing 1285th record. Run 222530, Trigger 1284 GenInputManager Begin processing 1286th record. Run 222530, Trigger 1285 GenInputManager Begin processing 1287th record. Run 222530, Trigger 1286 GenInputManager Begin processing 1288th record. Run 222530, Trigger 1287 GenInputManager Begin processing 1289th record. Run 222530, Trigger 1288 GenInputManager Begin processing 1290th record. Run 222530, Trigger 1289 GenInputManager Begin processing 1291th record. Run 222530, Trigger 1290 GenInputManager Begin processing 1292th record. Run 222530, Trigger 1291 GenInputManager Begin processing 1293th record. Run 222530, Trigger 1292 GenInputManager Begin processing 1294th record. Run 222530, Trigger 1293 GenInputManager Begin processing 1295th record. Run 222530, Trigger 1294 GenInputManager Begin processing 1296th record. Run 222530, Trigger 1295 GenInputManager Begin processing 1297th record. Run 222530, Trigger 1296 GenInputManager Begin processing 1298th record. Run 222530, Trigger 1297 GenInputManager Begin processing 1299th record. Run 222530, Trigger 1298 GenInputManager Begin processing 1300th record. Run 222530, Trigger 1299 GenInputManager Begin processing 1301th record. Run 222530, Trigger 1300 GenInputManager Begin processing 1302th record. Run 222530, Trigger 1301 GenInputManager Begin processing 1303th record. Run 222530, Trigger 1302 GenInputManager Begin processing 1304th record. Run 222530, Trigger 1303 GenInputManager Begin processing 1305th record. Run 222530, Trigger 1304 GenInputManager Begin processing 1306th record. Run 222530, Trigger 1305 GenInputManager Begin processing 1307th record. Run 222530, Trigger 1306 GenInputManager Begin processing 1308th record. Run 222530, Trigger 1307 GenInputManager Begin processing 1309th record. Run 222530, Trigger 1308 GenInputManager Begin processing 1310th record. Run 222530, Trigger 1309 GenInputManager Begin processing 1311th record. Run 222530, Trigger 1310 GenInputManager Begin processing 1312th record. Run 222530, Trigger 1311 GenInputManager Begin processing 1313th record. Run 222530, Trigger 1312 GenInputManager Begin processing 1314th record. Run 222530, Trigger 1313 GenInputManager Begin processing 1315th record. Run 222530, Trigger 1314 GenInputManager Begin processing 1316th record. Run 222530, Trigger 1315 GenInputManager Begin processing 1317th record. Run 222530, Trigger 1316 GenInputManager Begin processing 1318th record. Run 222530, Trigger 1317 GenInputManager Begin processing 1319th record. Run 222530, Trigger 1318 GenInputManager Begin processing 1320th record. Run 222530, Trigger 1319 GenInputManager Begin processing 1321th record. Run 222530, Trigger 1320 GenInputManager Begin processing 1322th record. Run 222530, Trigger 1321 GenInputManager Begin processing 1323th record. Run 222530, Trigger 1322 GenInputManager Begin processing 1324th record. Run 222530, Trigger 1323 GenInputManager Begin processing 1325th record. Run 222530, Trigger 1324 GenInputManager Begin processing 1326th record. Run 222530, Trigger 1325 GenInputManager Begin processing 1327th record. Run 222530, Trigger 1326 GenInputManager Begin processing 1328th record. Run 222530, Trigger 1327 GenInputManager Begin processing 1329th record. Run 222530, Trigger 1328 GenInputManager Begin processing 1330th record. Run 222530, Trigger 1329 GenInputManager Begin processing 1331th record. Run 222530, Trigger 1330 GenInputManager Begin processing 1332th record. Run 222530, Trigger 1331 GenInputManager Begin processing 1333th record. Run 222530, Trigger 1332 GenInputManager Begin processing 1334th record. Run 222530, Trigger 1333 GenInputManager Begin processing 1335th record. Run 222530, Trigger 1334 GenInputManager Begin processing 1336th record. Run 222530, Trigger 1335 GenInputManager Begin processing 1337th record. Run 222530, Trigger 1336 GenInputManager Begin processing 1338th record. Run 222530, Trigger 1337 GenInputManager Begin processing 1339th record. Run 222530, Trigger 1338 GenInputManager Begin processing 1340th record. Run 222530, Trigger 1339 GenInputManager Begin processing 1341th record. Run 222530, Trigger 1340 GenInputManager Begin processing 1342th record. Run 222530, Trigger 1341 GenInputManager Begin processing 1343th record. Run 222530, Trigger 1342 GenInputManager Begin processing 1344th record. Run 222530, Trigger 1343 GenInputManager Begin processing 1345th record. Run 222530, Trigger 1344 GenInputManager Begin processing 1346th record. Run 222530, Trigger 1345 GenInputManager Begin processing 1347th record. Run 222530, Trigger 1346 GenInputManager Begin processing 1348th record. Run 222530, Trigger 1347 GenInputManager Begin processing 1349th record. Run 222530, Trigger 1348 GenInputManager Begin processing 1350th record. Run 222530, Trigger 1349 GenInputManager Begin processing 1351th record. Run 222530, Trigger 1350 GenInputManager Begin processing 1352th record. Run 222530, Trigger 1351 GenInputManager Begin processing 1353th record. Run 222530, Trigger 1352 GenInputManager Begin processing 1354th record. Run 222530, Trigger 1353 GenInputManager Begin processing 1355th record. Run 222530, Trigger 1354 GenInputManager Begin processing 1356th record. Run 222530, Trigger 1355 GenInputManager Begin processing 1357th record. Run 222530, Trigger 1356 GenInputManager Begin processing 1358th record. Run 222530, Trigger 1357 GenInputManager Begin processing 1359th record. Run 222530, Trigger 1358 GenInputManager Begin processing 1360th record. Run 222530, Trigger 1359 GenInputManager Begin processing 1361th record. Run 222530, Trigger 1360 GenInputManager Begin processing 1362th record. Run 222530, Trigger 1361 GenInputManager Begin processing 1363th record. Run 222530, Trigger 1362 GenInputManager Begin processing 1364th record. Run 222530, Trigger 1363 GenInputManager Begin processing 1365th record. Run 222530, Trigger 1364 GenInputManager Begin processing 1366th record. Run 222530, Trigger 1365 GenInputManager Begin processing 1367th record. Run 222530, Trigger 1366 GenInputManager Begin processing 1368th record. Run 222530, Trigger 1367 GenInputManager Begin processing 1369th record. Run 222530, Trigger 1368 GenInputManager Begin processing 1370th record. Run 222530, Trigger 1369 GenInputManager Begin processing 1371th record. Run 222530, Trigger 1370 GenInputManager Begin processing 1372th record. Run 222530, Trigger 1371 GenInputManager Begin processing 1373th record. Run 222530, Trigger 1372 GenInputManager Begin processing 1374th record. Run 222530, Trigger 1373 GenInputManager Begin processing 1375th record. Run 222530, Trigger 1374 GenInputManager Begin processing 1376th record. Run 222530, Trigger 1375 GenInputManager Begin processing 1377th record. Run 222530, Trigger 1376 GenInputManager Begin processing 1378th record. Run 222530, Trigger 1377 GenInputManager Begin processing 1379th record. Run 222530, Trigger 1378 GenInputManager Begin processing 1380th record. Run 222530, Trigger 1379 GenInputManager Begin processing 1381th record. Run 222530, Trigger 1380 GenInputManager Begin processing 1382th record. Run 222530, Trigger 1381 GenInputManager Begin processing 1383th record. Run 222530, Trigger 1382 GenInputManager Begin processing 1384th record. Run 222530, Trigger 1383 GenInputManager Begin processing 1385th record. Run 222530, Trigger 1384 GenInputManager Begin processing 1386th record. Run 222530, Trigger 1385 GenInputManager Begin processing 1387th record. Run 222530, Trigger 1386 GenInputManager Begin processing 1388th record. Run 222530, Trigger 1387 GenInputManager Begin processing 1389th record. Run 222530, Trigger 1388 GenInputManager Begin processing 1390th record. Run 222530, Trigger 1389 GenInputManager Begin processing 1391th record. Run 222530, Trigger 1390 GenInputManager Begin processing 1392th record. Run 222530, Trigger 1391 GenInputManager Begin processing 1393th record. Run 222530, Trigger 1392 GenInputManager Begin processing 1394th record. Run 222530, Trigger 1393 GenInputManager Begin processing 1395th record. Run 222530, Trigger 1394 GenInputManager Begin processing 1396th record. Run 222530, Trigger 1395 GenInputManager Begin processing 1397th record. Run 222530, Trigger 1396 GenInputManager Begin processing 1398th record. Run 222530, Trigger 1397 GenInputManager Begin processing 1399th record. Run 222530, Trigger 1398 GenInputManager Begin processing 1400th record. Run 222530, Trigger 1399 GenInputManager Begin processing 1401th record. Run 222530, Trigger 1400 GenInputManager Begin processing 1402th record. Run 222530, Trigger 1401 GenInputManager Begin processing 1403th record. Run 222530, Trigger 1402 GenInputManager Begin processing 1404th record. Run 222530, Trigger 1403 GenInputManager Begin processing 1405th record. Run 222530, Trigger 1404 GenInputManager Begin processing 1406th record. Run 222530, Trigger 1405 GenInputManager Begin processing 1407th record. Run 222530, Trigger 1406 GenInputManager Begin processing 1408th record. Run 222530, Trigger 1407 GenInputManager Begin processing 1409th record. Run 222530, Trigger 1408 GenInputManager Begin processing 1410th record. Run 222530, Trigger 1409 GenInputManager Begin processing 1411th record. Run 222530, Trigger 1410 GenInputManager Begin processing 1412th record. Run 222530, Trigger 1411 GenInputManager Begin processing 1413th record. Run 222530, Trigger 1412 GenInputManager Begin processing 1414th record. Run 222530, Trigger 1413 GenInputManager Begin processing 1415th record. Run 222530, Trigger 1414 GenInputManager Begin processing 1416th record. Run 222530, Trigger 1415 GenInputManager Begin processing 1417th record. Run 222530, Trigger 1416 GenInputManager Begin processing 1418th record. Run 222530, Trigger 1417 GenInputManager Begin processing 1419th record. Run 222530, Trigger 1418 GenInputManager Begin processing 1420th record. Run 222530, Trigger 1419 GenInputManager Begin processing 1421th record. Run 222530, Trigger 1420 GenInputManager Begin processing 1422th record. Run 222530, Trigger 1421 GenInputManager Begin processing 1423th record. Run 222530, Trigger 1422 GenInputManager Begin processing 1424th record. Run 222530, Trigger 1423 GenInputManager Begin processing 1425th record. Run 222530, Trigger 1424 GenInputManager Begin processing 1426th record. Run 222530, Trigger 1425 GenInputManager Begin processing 1427th record. Run 222530, Trigger 1426 GenInputManager Begin processing 1428th record. Run 222530, Trigger 1427 GenInputManager Begin processing 1429th record. Run 222530, Trigger 1428 GenInputManager Begin processing 1430th record. Run 222530, Trigger 1429 GenInputManager Begin processing 1431th record. Run 222530, Trigger 1430 GenInputManager Begin processing 1432th record. Run 222530, Trigger 1431 GenInputManager Begin processing 1433th record. Run 222530, Trigger 1432 GenInputManager Begin processing 1434th record. Run 222530, Trigger 1433 GenInputManager Begin processing 1435th record. Run 222530, Trigger 1434 GenInputManager Begin processing 1436th record. Run 222530, Trigger 1435 GenInputManager Begin processing 1437th record. Run 222530, Trigger 1436 GenInputManager Begin processing 1438th record. Run 222530, Trigger 1437 GenInputManager Begin processing 1439th record. Run 222530, Trigger 1438 GenInputManager Begin processing 1440th record. Run 222530, Trigger 1439 GenInputManager Begin processing 1441th record. Run 222530, Trigger 1440 GenInputManager Begin processing 1442th record. Run 222530, Trigger 1441 GenInputManager Begin processing 1443th record. Run 222530, Trigger 1442 GenInputManager Begin processing 1444th record. Run 222530, Trigger 1443 GenInputManager Begin processing 1445th record. Run 222530, Trigger 1444 GenInputManager Begin processing 1446th record. Run 222530, Trigger 1445 GenInputManager Begin processing 1447th record. Run 222530, Trigger 1446 GenInputManager Begin processing 1448th record. Run 222530, Trigger 1447 GenInputManager Begin processing 1449th record. Run 222530, Trigger 1448 GenInputManager Begin processing 1450th record. Run 222530, Trigger 1449 GenInputManager Begin processing 1451th record. Run 222530, Trigger 1450 GenInputManager Begin processing 1452th record. Run 222530, Trigger 1451 GenInputManager Begin processing 1453th record. Run 222530, Trigger 1452 GenInputManager Begin processing 1454th record. Run 222530, Trigger 1453 GenInputManager Begin processing 1455th record. Run 222530, Trigger 1454 GenInputManager Begin processing 1456th record. Run 222530, Trigger 1455 GenInputManager Begin processing 1457th record. Run 222530, Trigger 1456 GenInputManager Begin processing 1458th record. Run 222530, Trigger 1457 GenInputManager Begin processing 1459th record. Run 222530, Trigger 1458 GenInputManager Begin processing 1460th record. Run 222530, Trigger 1459 GenInputManager Begin processing 1461th record. Run 222530, Trigger 1460 GenInputManager Begin processing 1462th record. Run 222530, Trigger 1461 GenInputManager Begin processing 1463th record. Run 222530, Trigger 1462 GenInputManager Begin processing 1464th record. Run 222530, Trigger 1463 GenInputManager Begin processing 1465th record. Run 222530, Trigger 1464 GenInputManager Begin processing 1466th record. Run 222530, Trigger 1465 GenInputManager Begin processing 1467th record. Run 222530, Trigger 1466 GenInputManager Begin processing 1468th record. Run 222530, Trigger 1467 GenInputManager Begin processing 1469th record. Run 222530, Trigger 1468 GenInputManager Begin processing 1470th record. Run 222530, Trigger 1469 GenInputManager Begin processing 1471th record. Run 222530, Trigger 1470 GenInputManager Begin processing 1472th record. Run 222530, Trigger 1471 GenInputManager Begin processing 1473th record. Run 222530, Trigger 1472 GenInputManager Begin processing 1474th record. Run 222530, Trigger 1473 GenInputManager Begin processing 1475th record. Run 222530, Trigger 1474 GenInputManager Begin processing 1476th record. Run 222530, Trigger 1475 GenInputManager Begin processing 1477th record. Run 222530, Trigger 1476 GenInputManager Begin processing 1478th record. Run 222530, Trigger 1477 GenInputManager Begin processing 1479th record. Run 222530, Trigger 1478 GenInputManager Begin processing 1480th record. Run 222530, Trigger 1479 GenInputManager Begin processing 1481th record. Run 222530, Trigger 1480 GenInputManager Begin processing 1482th record. Run 222530, Trigger 1481 GenInputManager Begin processing 1483th record. Run 222530, Trigger 1482 GenInputManager Begin processing 1484th record. Run 222530, Trigger 1483 GenInputManager Begin processing 1485th record. Run 222530, Trigger 1484 GenInputManager Begin processing 1486th record. Run 222530, Trigger 1485 GenInputManager Begin processing 1487th record. Run 222530, Trigger 1486 GenInputManager Begin processing 1488th record. Run 222530, Trigger 1487 GenInputManager Begin processing 1489th record. Run 222530, Trigger 1488 GenInputManager Begin processing 1490th record. Run 222530, Trigger 1489 GenInputManager Begin processing 1491th record. Run 222530, Trigger 1490 GenInputManager Begin processing 1492th record. Run 222530, Trigger 1491 GenInputManager Begin processing 1493th record. Run 222530, Trigger 1492 GenInputManager Begin processing 1494th record. Run 222530, Trigger 1493 GenInputManager Begin processing 1495th record. Run 222530, Trigger 1494 GenInputManager Begin processing 1496th record. Run 222530, Trigger 1495 GenInputManager Begin processing 1497th record. Run 222530, Trigger 1496 GenInputManager Begin processing 1498th record. Run 222530, Trigger 1497 GenInputManager Begin processing 1499th record. Run 222530, Trigger 1498 GenInputManager Begin processing 1500th record. Run 222530, Trigger 1499 GenInputManager Begin processing 1501th record. Run 222530, Trigger 1500 GenInputManager Begin processing 1502th record. Run 222530, Trigger 1501 GenInputManager Begin processing 1503th record. Run 222530, Trigger 1502 GenInputManager Begin processing 1504th record. Run 222530, Trigger 1503 GenInputManager Begin processing 1505th record. Run 222530, Trigger 1504 GenInputManager Begin processing 1506th record. Run 222530, Trigger 1505 GenInputManager Begin processing 1507th record. Run 222530, Trigger 1506 GenInputManager Begin processing 1508th record. Run 222530, Trigger 1507 GenInputManager Begin processing 1509th record. Run 222530, Trigger 1508 GenInputManager Begin processing 1510th record. Run 222530, Trigger 1509 GenInputManager Begin processing 1511th record. Run 222530, Trigger 1510 GenInputManager Begin processing 1512th record. Run 222530, Trigger 1511 GenInputManager Begin processing 1513th record. Run 222530, Trigger 1512 GenInputManager Begin processing 1514th record. Run 222530, Trigger 1513 GenInputManager Begin processing 1515th record. Run 222530, Trigger 1514 GenInputManager Begin processing 1516th record. Run 222530, Trigger 1515 GenInputManager Begin processing 1517th record. Run 222530, Trigger 1516 GenInputManager Begin processing 1518th record. Run 222530, Trigger 1517 GenInputManager Begin processing 1519th record. Run 222530, Trigger 1518 GenInputManager Begin processing 1520th record. Run 222530, Trigger 1519 GenInputManager Begin processing 1521th record. Run 222530, Trigger 1520 GenInputManager Begin processing 1522th record. Run 222530, Trigger 1521 GenInputManager Begin processing 1523th record. Run 222530, Trigger 1522 GenInputManager Begin processing 1524th record. Run 222530, Trigger 1523 GenInputManager Begin processing 1525th record. Run 222530, Trigger 1524 GenInputManager Begin processing 1526th record. Run 222530, Trigger 1525 GenInputManager Begin processing 1527th record. Run 222530, Trigger 1526 GenInputManager Begin processing 1528th record. Run 222530, Trigger 1527 GenInputManager Begin processing 1529th record. Run 222530, Trigger 1528 GenInputManager Begin processing 1530th record. Run 222530, Trigger 1529 GenInputManager Begin processing 1531th record. Run 222530, Trigger 1530 GenInputManager Begin processing 1532th record. Run 222530, Trigger 1531 GenInputManager Begin processing 1533th record. Run 222530, Trigger 1532 GenInputManager Begin processing 1534th record. Run 222530, Trigger 1533 GenInputManager Begin processing 1535th record. Run 222530, Trigger 1534 GenInputManager Begin processing 1536th record. Run 222530, Trigger 1535 GenInputManager Begin processing 1537th record. Run 222530, Trigger 1536 GenInputManager Begin processing 1538th record. Run 222530, Trigger 1537 GenInputManager Begin processing 1539th record. Run 222530, Trigger 1538 GenInputManager Begin processing 1540th record. Run 222530, Trigger 1539 GenInputManager Begin processing 1541th record. Run 222530, Trigger 1540 GenInputManager Begin processing 1542th record. Run 222530, Trigger 1541 GenInputManager Begin processing 1543th record. Run 222530, Trigger 1542 GenInputManager Begin processing 1544th record. Run 222530, Trigger 1543 GenInputManager Begin processing 1545th record. Run 222530, Trigger 1544 GenInputManager Begin processing 1546th record. Run 222530, Trigger 1545 GenInputManager Begin processing 1547th record. Run 222530, Trigger 1546 GenInputManager Begin processing 1548th record. Run 222530, Trigger 1547 GenInputManager Begin processing 1549th record. Run 222530, Trigger 1548 GenInputManager Begin processing 1550th record. Run 222530, Trigger 1549 GenInputManager Begin processing 1551th record. Run 222530, Trigger 1550 GenInputManager Begin processing 1552th record. Run 222530, Trigger 1551 GenInputManager Begin processing 1553th record. Run 222530, Trigger 1552 GenInputManager Begin processing 1554th record. Run 222530, Trigger 1553 GenInputManager Begin processing 1555th record. Run 222530, Trigger 1554 GenInputManager Begin processing 1556th record. Run 222530, Trigger 1555 GenInputManager Begin processing 1557th record. Run 222530, Trigger 1556 GenInputManager Begin processing 1558th record. Run 222530, Trigger 1557 GenInputManager Begin processing 1559th record. Run 222530, Trigger 1558 GenInputManager Begin processing 1560th record. Run 222530, Trigger 1559 GenInputManager Begin processing 1561th record. Run 222530, Trigger 1560 GenInputManager Begin processing 1562th record. Run 222530, Trigger 1561 GenInputManager Begin processing 1563th record. Run 222530, Trigger 1562 GenInputManager Begin processing 1564th record. Run 222530, Trigger 1563 GenInputManager Begin processing 1565th record. Run 222530, Trigger 1564 GenInputManager Begin processing 1566th record. Run 222530, Trigger 1565 GenInputManager Begin processing 1567th record. Run 222530, Trigger 1566 GenInputManager Begin processing 1568th record. Run 222530, Trigger 1567 GenInputManager Begin processing 1569th record. Run 222530, Trigger 1568 GenInputManager Begin processing 1570th record. Run 222530, Trigger 1569 GenInputManager Begin processing 1571th record. Run 222530, Trigger 1570 GenInputManager Begin processing 1572th record. Run 222530, Trigger 1571 GenInputManager Begin processing 1573th record. Run 222530, Trigger 1572 GenInputManager Begin processing 1574th record. Run 222530, Trigger 1573 GenInputManager Begin processing 1575th record. Run 222530, Trigger 1574 GenInputManager Begin processing 1576th record. Run 222530, Trigger 1575 GenInputManager Begin processing 1577th record. Run 222530, Trigger 1576 GenInputManager Begin processing 1578th record. Run 222530, Trigger 1577 GenInputManager Begin processing 1579th record. Run 222530, Trigger 1578 GenInputManager Begin processing 1580th record. Run 222530, Trigger 1579 GenInputManager Begin processing 1581th record. Run 222530, Trigger 1580 GenInputManager Begin processing 1582th record. Run 222530, Trigger 1581 GenInputManager Begin processing 1583th record. Run 222530, Trigger 1582 GenInputManager Begin processing 1584th record. Run 222530, Trigger 1583 GenInputManager Begin processing 1585th record. Run 222530, Trigger 1584 GenInputManager Begin processing 1586th record. Run 222530, Trigger 1585 GenInputManager Begin processing 1587th record. Run 222530, Trigger 1586 GenInputManager Begin processing 1588th record. Run 222530, Trigger 1587 GenInputManager Begin processing 1589th record. Run 222530, Trigger 1588 GenInputManager Begin processing 1590th record. Run 222530, Trigger 1589 GenInputManager Begin processing 1591th record. Run 222530, Trigger 1590 GenInputManager Begin processing 1592th record. Run 222530, Trigger 1591 GenInputManager Begin processing 1593th record. Run 222530, Trigger 1592 GenInputManager Begin processing 1594th record. Run 222530, Trigger 1593 GenInputManager Begin processing 1595th record. Run 222530, Trigger 1594 GenInputManager Begin processing 1596th record. Run 222530, Trigger 1595 GenInputManager Begin processing 1597th record. Run 222530, Trigger 1596 GenInputManager Begin processing 1598th record. Run 222530, Trigger 1597 GenInputManager Begin processing 1599th record. Run 222530, Trigger 1598 GenInputManager Begin processing 1600th record. Run 222530, Trigger 1599 GenInputManager Begin processing 1601th record. Run 222530, Trigger 1600 GenInputManager Begin processing 1602th record. Run 222530, Trigger 1601 GenInputManager Begin processing 1603th record. Run 222530, Trigger 1602 GenInputManager Begin processing 1604th record. Run 222530, Trigger 1603 GenInputManager Begin processing 1605th record. Run 222530, Trigger 1604 GenInputManager Begin processing 1606th record. Run 222530, Trigger 1605 GenInputManager Begin processing 1607th record. Run 222530, Trigger 1606 GenInputManager Begin processing 1608th record. Run 222530, Trigger 1607 GenInputManager Begin processing 1609th record. Run 222530, Trigger 1608 GenInputManager Begin processing 1610th record. Run 222530, Trigger 1609 GenInputManager Begin processing 1611th record. Run 222530, Trigger 1610 GenInputManager Begin processing 1612th record. Run 222530, Trigger 1611 GenInputManager Begin processing 1613th record. Run 222530, Trigger 1612 GenInputManager Begin processing 1614th record. Run 222530, Trigger 1613 GenInputManager Begin processing 1615th record. Run 222530, Trigger 1614 GenInputManager Begin processing 1616th record. Run 222530, Trigger 1615 GenInputManager Begin processing 1617th record. Run 222530, Trigger 1616 GenInputManager Begin processing 1618th record. Run 222530, Trigger 1617 GenInputManager Begin processing 1619th record. Run 222530, Trigger 1618 GenInputManager Begin processing 1620th record. Run 222530, Trigger 1619 GenInputManager Begin processing 1621th record. Run 222530, Trigger 1620 GenInputManager Begin processing 1622th record. Run 222530, Trigger 1621 GenInputManager Begin processing 1623th record. Run 222530, Trigger 1622 GenInputManager Begin processing 1624th record. Run 222530, Trigger 1623 GenInputManager Begin processing 1625th record. Run 222530, Trigger 1624 GenInputManager Begin processing 1626th record. Run 222530, Trigger 1625 GenInputManager Begin processing 1627th record. Run 222530, Trigger 1626 GenInputManager Begin processing 1628th record. Run 222530, Trigger 1627 GenInputManager Begin processing 1629th record. Run 222530, Trigger 1628 GenInputManager Begin processing 1630th record. Run 222530, Trigger 1629 GenInputManager Begin processing 1631th record. Run 222530, Trigger 1630 GenInputManager Begin processing 1632th record. Run 222530, Trigger 1631 GenInputManager Begin processing 1633th record. Run 222530, Trigger 1632 GenInputManager Begin processing 1634th record. Run 222530, Trigger 1633 GenInputManager Begin processing 1635th record. Run 222530, Trigger 1634 GenInputManager Begin processing 1636th record. Run 222530, Trigger 1635 GenInputManager Begin processing 1637th record. Run 222530, Trigger 1636 GenInputManager Begin processing 1638th record. Run 222530, Trigger 1637 GenInputManager Begin processing 1639th record. Run 222530, Trigger 1638 GenInputManager Begin processing 1640th record. Run 222530, Trigger 1639 GenInputManager Begin processing 1641th record. Run 222530, Trigger 1640 GenInputManager Begin processing 1642th record. Run 222530, Trigger 1641 GenInputManager Begin processing 1643th record. Run 222530, Trigger 1642 GenInputManager Begin processing 1644th record. Run 222530, Trigger 1643 GenInputManager Begin processing 1645th record. Run 222530, Trigger 1644 GenInputManager Begin processing 1646th record. Run 222530, Trigger 1645 GenInputManager Begin processing 1647th record. Run 222530, Trigger 1646 GenInputManager Begin processing 1648th record. Run 222530, Trigger 1647 GenInputManager Begin processing 1649th record. Run 222530, Trigger 1648 GenInputManager Begin processing 1650th record. Run 222530, Trigger 1649 GenInputManager Begin processing 1651th record. Run 222530, Trigger 1650 GenInputManager Begin processing 1652th record. Run 222530, Trigger 1651 GenInputManager Begin processing 1653th record. Run 222530, Trigger 1652 GenInputManager Begin processing 1654th record. Run 222530, Trigger 1653 GenInputManager Begin processing 1655th record. Run 222530, Trigger 1654 GenInputManager Begin processing 1656th record. Run 222530, Trigger 1655 GenInputManager Begin processing 1657th record. Run 222530, Trigger 1656 GenInputManager Begin processing 1658th record. Run 222530, Trigger 1657 GenInputManager Begin processing 1659th record. Run 222530, Trigger 1658 GenInputManager Begin processing 1660th record. Run 222530, Trigger 1659 GenInputManager Begin processing 1661th record. Run 222530, Trigger 1660 GenInputManager Begin processing 1662th record. Run 222530, Trigger 1661 GenInputManager Begin processing 1663th record. Run 222530, Trigger 1662 GenInputManager Begin processing 1664th record. Run 222530, Trigger 1663 GenInputManager Begin processing 1665th record. Run 222530, Trigger 1664 GenInputManager Begin processing 1666th record. Run 222530, Trigger 1665 GenInputManager Begin processing 1667th record. Run 222530, Trigger 1666 GenInputManager Begin processing 1668th record. Run 222530, Trigger 1667 GenInputManager Begin processing 1669th record. Run 222530, Trigger 1668 GenInputManager Begin processing 1670th record. Run 222530, Trigger 1669 GenInputManager Begin processing 1671th record. Run 222530, Trigger 1670 GenInputManager Begin processing 1672th record. Run 222530, Trigger 1671 GenInputManager Begin processing 1673th record. Run 222530, Trigger 1672 GenInputManager Begin processing 1674th record. Run 222530, Trigger 1673 GenInputManager Begin processing 1675th record. Run 222530, Trigger 1674 GenInputManager Begin processing 1676th record. Run 222530, Trigger 1675 GenInputManager Begin processing 1677th record. Run 222530, Trigger 1676 GenInputManager Begin processing 1678th record. Run 222530, Trigger 1677 GenInputManager Begin processing 1679th record. Run 222530, Trigger 1678 GenInputManager Begin processing 1680th record. Run 222530, Trigger 1679 GenInputManager Begin processing 1681th record. Run 222530, Trigger 1680 GenInputManager Begin processing 1682th record. Run 222530, Trigger 1681 GenInputManager Begin processing 1683th record. Run 222530, Trigger 1682 GenInputManager Begin processing 1684th record. Run 222530, Trigger 1683 GenInputManager Begin processing 1685th record. Run 222530, Trigger 1684 GenInputManager Begin processing 1686th record. Run 222530, Trigger 1685 GenInputManager Begin processing 1687th record. Run 222530, Trigger 1686 GenInputManager Begin processing 1688th record. Run 222530, Trigger 1687 GenInputManager Begin processing 1689th record. Run 222530, Trigger 1688 GenInputManager Begin processing 1690th record. Run 222530, Trigger 1689 GenInputManager Begin processing 1691th record. Run 222530, Trigger 1690 GenInputManager Begin processing 1692th record. Run 222530, Trigger 1691 GenInputManager Begin processing 1693th record. Run 222530, Trigger 1692 GenInputManager Begin processing 1694th record. Run 222530, Trigger 1693 GenInputManager Begin processing 1695th record. Run 222530, Trigger 1694 GenInputManager Begin processing 1696th record. Run 222530, Trigger 1695 GenInputManager Begin processing 1697th record. Run 222530, Trigger 1696 GenInputManager Begin processing 1698th record. Run 222530, Trigger 1697 GenInputManager Begin processing 1699th record. Run 222530, Trigger 1698 GenInputManager Begin processing 1700th record. Run 222530, Trigger 1699 GenInputManager Begin processing 1701th record. Run 222530, Trigger 1700 GenInputManager Begin processing 1702th record. Run 222530, Trigger 1701 GenInputManager Begin processing 1703th record. Run 222530, Trigger 1702 GenInputManager Begin processing 1704th record. Run 222530, Trigger 1703 GenInputManager Begin processing 1705th record. Run 222530, Trigger 1704 GenInputManager Begin processing 1706th record. Run 222530, Trigger 1705 GenInputManager Begin processing 1707th record. Run 222530, Trigger 1706 GenInputManager Begin processing 1708th record. Run 222530, Trigger 1707 GenInputManager Begin processing 1709th record. Run 222530, Trigger 1708 GenInputManager Begin processing 1710th record. Run 222530, Trigger 1709 GenInputManager Begin processing 1711th record. Run 222530, Trigger 1710 GenInputManager Begin processing 1712th record. Run 222530, Trigger 1711 GenInputManager Begin processing 1713th record. Run 222530, Trigger 1712 GenInputManager Begin processing 1714th record. Run 222530, Trigger 1713 GenInputManager Begin processing 1715th record. Run 222530, Trigger 1714 GenInputManager Begin processing 1716th record. Run 222530, Trigger 1715 GenInputManager Begin processing 1717th record. Run 222530, Trigger 1716 GenInputManager Begin processing 1718th record. Run 222530, Trigger 1717 GenInputManager Begin processing 1719th record. Run 222530, Trigger 1718 GenInputManager Begin processing 1720th record. Run 222530, Trigger 1719 GenInputManager Begin processing 1721th record. Run 222530, Trigger 1720 GenInputManager Begin processing 1722th record. Run 222530, Trigger 1721 GenInputManager Begin processing 1723th record. Run 222530, Trigger 1722 GenInputManager Begin processing 1724th record. Run 222530, Trigger 1723 GenInputManager Begin processing 1725th record. Run 222530, Trigger 1724 GenInputManager Begin processing 1726th record. Run 222530, Trigger 1725 GenInputManager Begin processing 1727th record. Run 222530, Trigger 1726 GenInputManager Begin processing 1728th record. Run 222530, Trigger 1727 GenInputManager Begin processing 1729th record. Run 222530, Trigger 1728 GenInputManager Begin processing 1730th record. Run 222530, Trigger 1729 GenInputManager Begin processing 1731th record. Run 222530, Trigger 1730 GenInputManager Begin processing 1732th record. Run 222530, Trigger 1731 GenInputManager Begin processing 1733th record. Run 222530, Trigger 1732 GenInputManager Begin processing 1734th record. Run 222530, Trigger 1733 GenInputManager Begin processing 1735th record. Run 222530, Trigger 1734 GenInputManager Begin processing 1736th record. Run 222530, Trigger 1735 GenInputManager Begin processing 1737th record. Run 222530, Trigger 1736 GenInputManager Begin processing 1738th record. Run 222530, Trigger 1737 GenInputManager Begin processing 1739th record. Run 222530, Trigger 1738 GenInputManager Begin processing 1740th record. Run 222530, Trigger 1739 GenInputManager Begin processing 1741th record. Run 222530, Trigger 1740 GenInputManager Begin processing 1742th record. Run 222530, Trigger 1741 GenInputManager Begin processing 1743th record. Run 222530, Trigger 1742 GenInputManager Begin processing 1744th record. Run 222530, Trigger 1743 GenInputManager Begin processing 1745th record. Run 222530, Trigger 1744 GenInputManager Begin processing 1746th record. Run 222530, Trigger 1745 GenInputManager Begin processing 1747th record. Run 222530, Trigger 1746 GenInputManager Begin processing 1748th record. Run 222530, Trigger 1747 GenInputManager Begin processing 1749th record. Run 222530, Trigger 1748 GenInputManager Begin processing 1750th record. Run 222530, Trigger 1749 GenInputManager Begin processing 1751th record. Run 222530, Trigger 1750 GenInputManager Begin processing 1752th record. Run 222530, Trigger 1751 GenInputManager Begin processing 1753th record. Run 222530, Trigger 1752 GenInputManager Begin processing 1754th record. Run 222530, Trigger 1753 GenInputManager Begin processing 1755th record. Run 222530, Trigger 1754 GenInputManager Begin processing 1756th record. Run 222530, Trigger 1755 GenInputManager Begin processing 1757th record. Run 222530, Trigger 1756 GenInputManager Begin processing 1758th record. Run 222530, Trigger 1757 GenInputManager Begin processing 1759th record. Run 222530, Trigger 1758 GenInputManager Begin processing 1760th record. Run 222530, Trigger 1759 GenInputManager Begin processing 1761th record. Run 222530, Trigger 1760 GenInputManager Begin processing 1762th record. Run 222530, Trigger 1761 GenInputManager Begin processing 1763th record. Run 222530, Trigger 1762 GenInputManager Begin processing 1764th record. Run 222530, Trigger 1763 GenInputManager Begin processing 1765th record. Run 222530, Trigger 1764 GenInputManager Begin processing 1766th record. Run 222530, Trigger 1765 GenInputManager Begin processing 1767th record. Run 222530, Trigger 1766 GenInputManager Begin processing 1768th record. Run 222530, Trigger 1767 GenInputManager Begin processing 1769th record. Run 222530, Trigger 1768 GenInputManager Begin processing 1770th record. Run 222530, Trigger 1769 GenInputManager Begin processing 1771th record. Run 222530, Trigger 1770 GenInputManager Begin processing 1772th record. Run 222530, Trigger 1771 GenInputManager Begin processing 1773th record. Run 222530, Trigger 1772 GenInputManager Begin processing 1774th record. Run 222530, Trigger 1773 GenInputManager Begin processing 1775th record. Run 222530, Trigger 1774 GenInputManager Begin processing 1776th record. Run 222530, Trigger 1775 GenInputManager Begin processing 1777th record. Run 222530, Trigger 1776 GenInputManager Begin processing 1778th record. Run 222530, Trigger 1777 GenInputManager Begin processing 1779th record. Run 222530, Trigger 1778 GenInputManager Begin processing 1780th record. Run 222530, Trigger 1779 GenInputManager Begin processing 1781th record. Run 222530, Trigger 1780 GenInputManager Begin processing 1782th record. Run 222530, Trigger 1781 GenInputManager Begin processing 1783th record. Run 222530, Trigger 1782 GenInputManager Begin processing 1784th record. Run 222530, Trigger 1783 GenInputManager Begin processing 1785th record. Run 222530, Trigger 1784 GenInputManager Begin processing 1786th record. Run 222530, Trigger 1785 GenInputManager Begin processing 1787th record. Run 222530, Trigger 1786 GenInputManager Begin processing 1788th record. Run 222530, Trigger 1787 GenInputManager Begin processing 1789th record. Run 222530, Trigger 1788 GenInputManager Begin processing 1790th record. Run 222530, Trigger 1789 GenInputManager Begin processing 1791th record. Run 222530, Trigger 1790 GenInputManager Begin processing 1792th record. Run 222530, Trigger 1791 GenInputManager Begin processing 1793th record. Run 222530, Trigger 1792 GenInputManager Begin processing 1794th record. Run 222530, Trigger 1793 GenInputManager Begin processing 1795th record. Run 222530, Trigger 1794 GenInputManager Begin processing 1796th record. Run 222530, Trigger 1795 GenInputManager Begin processing 1797th record. Run 222530, Trigger 1796 GenInputManager Begin processing 1798th record. Run 222530, Trigger 1797 GenInputManager Begin processing 1799th record. Run 222530, Trigger 1798 GenInputManager Begin processing 1800th record. Run 222530, Trigger 1799 GenInputManager Begin processing 1801th record. Run 222530, Trigger 1800 GenInputManager Begin processing 1802th record. Run 222530, Trigger 1801 GenInputManager Begin processing 1803th record. Run 222530, Trigger 1802 GenInputManager Begin processing 1804th record. Run 222530, Trigger 1803 GenInputManager Begin processing 1805th record. Run 222530, Trigger 1804 GenInputManager Begin processing 1806th record. Run 222530, Trigger 1805 GenInputManager Begin processing 1807th record. Run 222530, Trigger 1806 GenInputManager Begin processing 1808th record. Run 222530, Trigger 1807 GenInputManager Begin processing 1809th record. Run 222530, Trigger 1808 GenInputManager Begin processing 1810th record. Run 222530, Trigger 1809 GenInputManager Begin processing 1811th record. Run 222530, Trigger 1810 GenInputManager Begin processing 1812th record. Run 222530, Trigger 1811 GenInputManager Begin processing 1813th record. Run 222530, Trigger 1812 GenInputManager Begin processing 1814th record. Run 222530, Trigger 1813 GenInputManager Begin processing 1815th record. Run 222530, Trigger 1814 GenInputManager Begin processing 1816th record. Run 222530, Trigger 1815 GenInputManager Begin processing 1817th record. Run 222530, Trigger 1816 GenInputManager Begin processing 1818th record. Run 222530, Trigger 1817 GenInputManager Begin processing 1819th record. Run 222530, Trigger 1818 GenInputManager Begin processing 1820th record. Run 222530, Trigger 1819 GenInputManager Begin processing 1821th record. Run 222530, Trigger 1820 GenInputManager Begin processing 1822th record. Run 222530, Trigger 1821 GenInputManager Begin processing 1823th record. Run 222530, Trigger 1822 GenInputManager Begin processing 1824th record. Run 222530, Trigger 1823 GenInputManager Begin processing 1825th record. Run 222530, Trigger 1824 GenInputManager Begin processing 1826th record. Run 222530, Trigger 1825 GenInputManager Begin processing 1827th record. Run 222530, Trigger 1826 GenInputManager Begin processing 1828th record. Run 222530, Trigger 1827 GenInputManager Begin processing 1829th record. Run 222530, Trigger 1828 GenInputManager Begin processing 1830th record. Run 222530, Trigger 1829 GenInputManager Begin processing 1831th record. Run 222530, Trigger 1830 GenInputManager Begin processing 1832th record. Run 222530, Trigger 1831 GenInputManager Begin processing 1833th record. Run 222530, Trigger 1832 GenInputManager Begin processing 1834th record. Run 222530, Trigger 1833 GenInputManager Begin processing 1835th record. Run 222530, Trigger 1834 GenInputManager Begin processing 1836th record. Run 222530, Trigger 1835 GenInputManager Begin processing 1837th record. Run 222530, Trigger 1836 GenInputManager Begin processing 1838th record. Run 222530, Trigger 1837 GenInputManager Begin processing 1839th record. Run 222530, Trigger 1838 GenInputManager Begin processing 1840th record. Run 222530, Trigger 1839 GenInputManager Begin processing 1841th record. Run 222530, Trigger 1840 GenInputManager Begin processing 1842th record. Run 222530, Trigger 1841 GenInputManager Begin processing 1843th record. Run 222530, Trigger 1842 GenInputManager Begin processing 1844th record. Run 222530, Trigger 1843 GenInputManager Begin processing 1845th record. Run 222530, Trigger 1844 GenInputManager Begin processing 1846th record. Run 222530, Trigger 1845 GenInputManager Begin processing 1847th record. Run 222530, Trigger 1846 GenInputManager Begin processing 1848th record. Run 222530, Trigger 1847 GenInputManager Begin processing 1849th record. Run 222530, Trigger 1848 GenInputManager Begin processing 1850th record. Run 222530, Trigger 1849 GenInputManager Begin processing 1851th record. Run 222530, Trigger 1850 GenInputManager Begin processing 1852th record. Run 222530, Trigger 1851 GenInputManager Begin processing 1853th record. Run 222530, Trigger 1852 GenInputManager Begin processing 1854th record. Run 222530, Trigger 1853 GenInputManager Begin processing 1855th record. Run 222530, Trigger 1854 GenInputManager Begin processing 1856th record. Run 222530, Trigger 1855 GenInputManager Begin processing 1857th record. Run 222530, Trigger 1856 GenInputManager Begin processing 1858th record. Run 222530, Trigger 1857 GenInputManager Begin processing 1859th record. Run 222530, Trigger 1858 GenInputManager Begin processing 1860th record. Run 222530, Trigger 1859 GenInputManager Begin processing 1861th record. Run 222530, Trigger 1860 GenInputManager Begin processing 1862th record. Run 222530, Trigger 1861 GenInputManager Begin processing 1863th record. Run 222530, Trigger 1862 GenInputManager Begin processing 1864th record. Run 222530, Trigger 1863 GenInputManager Begin processing 1865th record. Run 222530, Trigger 1864 GenInputManager Begin processing 1866th record. Run 222530, Trigger 1865 GenInputManager Begin processing 1867th record. Run 222530, Trigger 1866 GenInputManager Begin processing 1868th record. Run 222530, Trigger 1867 GenInputManager Begin processing 1869th record. Run 222530, Trigger 1868 GenInputManager Begin processing 1870th record. Run 222530, Trigger 1869 GenInputManager Begin processing 1871th record. Run 222530, Trigger 1870 GenInputManager Begin processing 1872th record. Run 222530, Trigger 1871 GenInputManager Begin processing 1873th record. Run 222530, Trigger 1872 GenInputManager Begin processing 1874th record. Run 222530, Trigger 1873 GenInputManager Begin processing 1875th record. Run 222530, Trigger 1874 GenInputManager Begin processing 1876th record. Run 222530, Trigger 1875 GenInputManager Begin processing 1877th record. Run 222530, Trigger 1876 GenInputManager Begin processing 1878th record. Run 222530, Trigger 1877 GenInputManager Begin processing 1879th record. Run 222530, Trigger 1878 GenInputManager Begin processing 1880th record. Run 222530, Trigger 1879 GenInputManager Begin processing 1881th record. Run 222530, Trigger 1880 GenInputManager Begin processing 1882th record. Run 222530, Trigger 1881 GenInputManager Begin processing 1883th record. Run 222530, Trigger 1882 GenInputManager Begin processing 1884th record. Run 222530, Trigger 1883 GenInputManager Begin processing 1885th record. Run 222530, Trigger 1884 GenInputManager Begin processing 1886th record. Run 222530, Trigger 1885 GenInputManager Begin processing 1887th record. Run 222530, Trigger 1886 GenInputManager Begin processing 1888th record. Run 222530, Trigger 1887 GenInputManager Begin processing 1889th record. Run 222530, Trigger 1888 GenInputManager Begin processing 1890th record. Run 222530, Trigger 1889 GenInputManager Begin processing 1891th record. Run 222530, Trigger 1890 GenInputManager Begin processing 1892th record. Run 222530, Trigger 1891 GenInputManager Begin processing 1893th record. Run 222530, Trigger 1892 GenInputManager Begin processing 1894th record. Run 222530, Trigger 1893 GenInputManager Begin processing 1895th record. Run 222530, Trigger 1894 GenInputManager Begin processing 1896th record. Run 222530, Trigger 1895 GenInputManager Begin processing 1897th record. Run 222530, Trigger 1896 GenInputManager Begin processing 1898th record. Run 222530, Trigger 1897 GenInputManager Begin processing 1899th record. Run 222530, Trigger 1898 GenInputManager Begin processing 1900th record. Run 222530, Trigger 1899 GenInputManager Begin processing 1901th record. Run 222530, Trigger 1900 GenInputManager Begin processing 1902th record. Run 222530, Trigger 1901 GenInputManager Begin processing 1903th record. Run 222530, Trigger 1902 GenInputManager Begin processing 1904th record. Run 222530, Trigger 1903 GenInputManager Begin processing 1905th record. Run 222530, Trigger 1904 GenInputManager Begin processing 1906th record. Run 222530, Trigger 1905 GenInputManager Begin processing 1907th record. Run 222530, Trigger 1906 GenInputManager Begin processing 1908th record. Run 222530, Trigger 1907 GenInputManager Begin processing 1909th record. Run 222530, Trigger 1908 GenInputManager Begin processing 1910th record. Run 222530, Trigger 1909 GenInputManager Begin processing 1911th record. Run 222530, Trigger 1910 GenInputManager Begin processing 1912th record. Run 222530, Trigger 1911 GenInputManager Begin processing 1913th record. Run 222530, Trigger 1912 GenInputManager Begin processing 1914th record. Run 222530, Trigger 1913 GenInputManager Begin processing 1915th record. Run 222530, Trigger 1914 GenInputManager Begin processing 1916th record. Run 222530, Trigger 1915 GenInputManager Begin processing 1917th record. Run 222530, Trigger 1916 GenInputManager Begin processing 1918th record. Run 222530, Trigger 1917 GenInputManager Begin processing 1919th record. Run 222530, Trigger 1918 GenInputManager Begin processing 1920th record. Run 222530, Trigger 1919 GenInputManager Begin processing 1921th record. Run 222530, Trigger 1920 GenInputManager Begin processing 1922th record. Run 222530, Trigger 1921 GenInputManager Begin processing 1923th record. Run 222530, Trigger 1922 GenInputManager Begin processing 1924th record. Run 222530, Trigger 1923 GenInputManager Begin processing 1925th record. Run 222530, Trigger 1924 GenInputManager Begin processing 1926th record. Run 222530, Trigger 1925 GenInputManager Begin processing 1927th record. Run 222530, Trigger 1926 GenInputManager Begin processing 1928th record. Run 222530, Trigger 1927 GenInputManager Begin processing 1929th record. Run 222530, Trigger 1928 GenInputManager Begin processing 1930th record. Run 222530, Trigger 1929 GenInputManager Begin processing 1931th record. Run 222530, Trigger 1930 GenInputManager Begin processing 1932th record. Run 222530, Trigger 1931 GenInputManager Begin processing 1933th record. Run 222530, Trigger 1932 GenInputManager Begin processing 1934th record. Run 222530, Trigger 1933 GenInputManager Begin processing 1935th record. Run 222530, Trigger 1934 GenInputManager Begin processing 1936th record. Run 222530, Trigger 1935 GenInputManager Begin processing 1937th record. Run 222530, Trigger 1936 GenInputManager Begin processing 1938th record. Run 222530, Trigger 1937 GenInputManager Begin processing 1939th record. Run 222530, Trigger 1938 GenInputManager Begin processing 1940th record. Run 222530, Trigger 1939 GenInputManager Begin processing 1941th record. Run 222530, Trigger 1940 GenInputManager Begin processing 1942th record. Run 222530, Trigger 1941 GenInputManager Begin processing 1943th record. Run 222530, Trigger 1942 GenInputManager Begin processing 1944th record. Run 222530, Trigger 1943 GenInputManager Begin processing 1945th record. Run 222530, Trigger 1944 GenInputManager Begin processing 1946th record. Run 222530, Trigger 1945 GenInputManager Begin processing 1947th record. Run 222530, Trigger 1946 GenInputManager Begin processing 1948th record. Run 222530, Trigger 1947 GenInputManager Begin processing 1949th record. Run 222530, Trigger 1948 GenInputManager Begin processing 1950th record. Run 222530, Trigger 1949 GenInputManager Begin processing 1951th record. Run 222530, Trigger 1950 GenInputManager Begin processing 1952th record. Run 222530, Trigger 1951 GenInputManager Begin processing 1953th record. Run 222530, Trigger 1952 GenInputManager Begin processing 1954th record. Run 222530, Trigger 1953 GenInputManager Begin processing 1955th record. Run 222530, Trigger 1954 GenInputManager Begin processing 1956th record. Run 222530, Trigger 1955 GenInputManager Begin processing 1957th record. Run 222530, Trigger 1956 GenInputManager Begin processing 1958th record. Run 222530, Trigger 1957 GenInputManager Begin processing 1959th record. Run 222530, Trigger 1958 GenInputManager Begin processing 1960th record. Run 222530, Trigger 1959 GenInputManager Begin processing 1961th record. Run 222530, Trigger 1960 GenInputManager Begin processing 1962th record. Run 222530, Trigger 1961 GenInputManager Begin processing 1963th record. Run 222530, Trigger 1962 GenInputManager Begin processing 1964th record. Run 222530, Trigger 1963 GenInputManager Begin processing 1965th record. Run 222530, Trigger 1964 GenInputManager Begin processing 1966th record. Run 222530, Trigger 1965 GenInputManager Begin processing 1967th record. Run 222530, Trigger 1966 GenInputManager Begin processing 1968th record. Run 222530, Trigger 1967 GenInputManager Begin processing 1969th record. Run 222530, Trigger 1968 GenInputManager Begin processing 1970th record. Run 222530, Trigger 1969 GenInputManager Begin processing 1971th record. Run 222530, Trigger 1970 GenInputManager Begin processing 1972th record. Run 222530, Trigger 1971 GenInputManager Begin processing 1973th record. Run 222530, Trigger 1972 GenInputManager Begin processing 1974th record. Run 222530, Trigger 1973 GenInputManager Begin processing 1975th record. Run 222530, Trigger 1974 GenInputManager Begin processing 1976th record. Run 222530, Trigger 1975 GenInputManager Begin processing 1977th record. Run 222530, Trigger 1976 GenInputManager Begin processing 1978th record. Run 222530, Trigger 1977 GenInputManager Begin processing 1979th record. Run 222530, Trigger 1978 GenInputManager Begin processing 1980th record. Run 222530, Trigger 1979 GenInputManager Begin processing 1981th record. Run 222530, Trigger 1980 GenInputManager Begin processing 1982th record. Run 222530, Trigger 1981 GenInputManager Begin processing 1983th record. Run 222530, Trigger 1982 GenInputManager Begin processing 1984th record. Run 222530, Trigger 1983 GenInputManager Begin processing 1985th record. Run 222530, Trigger 1984 GenInputManager Begin processing 1986th record. Run 222530, Trigger 1985 GenInputManager Begin processing 1987th record. Run 222530, Trigger 1986 GenInputManager Begin processing 1988th record. Run 222530, Trigger 1987 GenInputManager Begin processing 1989th record. Run 222530, Trigger 1988 GenInputManager Begin processing 1990th record. Run 222530, Trigger 1989 GenInputManager Begin processing 1991th record. Run 222530, Trigger 1990 GenInputManager Begin processing 1992th record. Run 222530, Trigger 1991 GenInputManager Begin processing 1993th record. Run 222530, Trigger 1992 GenInputManager Begin processing 1994th record. Run 222530, Trigger 1993 GenInputManager Begin processing 1995th record. Run 222530, Trigger 1994 GenInputManager Begin processing 1996th record. Run 222530, Trigger 1995 GenInputManager Begin processing 1997th record. Run 222530, Trigger 1996 GenInputManager Begin processing 1998th record. Run 222530, Trigger 1997 GenInputManager Begin processing 1999th record. Run 222530, Trigger 1998 GenInputManager Begin processing 2000th record. Run 222530, Trigger 1999 GenInputManager Begin processing 2001th record. Run 222530, Trigger 2000 0 0 -0.91530 0.20019 1.12849 1.46678 0.01000 534 (rho(770)+) 2 213 421 421 535 536 -0.53359 0.35021 -0.31460 1.02771 0.74152 535 pi+ 1 211 534 534 0 0 0.01965 0.19901 0.14209 0.28224 0.13957 536 (pi0) 2 111 534 534 537 538 -0.55324 0.15120 -0.45669 0.74547 0.13498 537 gamma 1 22 536 536 0 0 -0.42918 0.13689 -0.28465 0.53288 0.00000 538 gamma 1 22 536 536 0 0 -0.12406 0.01430 -0.17204 0.21258 0.00000 RandomGenManager: saving current random state in/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat BGENERATOR - 1234567,86543 EvtGen - 1608285037,1700756471 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 1091226588,36144207 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 922813451,356767476 SVX_SIM - 4756981,20932 TAUOLA - 1141736869,932929770 WGRAD - 9834262,35354 mbr - 2553412,53245 Call PYSTAT at endJob 1********* PYSTAT: Statistics on Number of Events and Cross-sections ********* ============================================================================== I I I I I Subprocess I Number of points I Sigma I I I I I I----------------------------------I----------------------------I (mb) I I I I I I N:o Type I Generated Tried I I I I I I ============================================================================== I I I I I 0 All included subprocesses I 2000 13073 I 5.044E-02 I I 11 f + f' -> f + f' (QCD) I 157 944 I 3.594E-03 I I 12 f + fbar -> f' + fbar' I 3 6 I 7.615E-05 I I 13 f + fbar -> g + g I 0 6 I 3.736E-05 I I 28 f + g -> f + g I 909 6825 I 2.299E-02 I I 53 g + g -> f + fbar I 38 115 I 8.769E-04 I I 68 g + g -> g + g I 893 5177 I 2.286E-02 I I I I I ============================================================================== ********* Fraction of events that fail fragmentation cuts = 0.00050 ********* GOODBYE from TauolaModule *** CotqModule Summary: In 0 Out 0 *** SvxqModule Summary: In 0 Out 0 ***** ***** Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root ***** after 2001 records, with a total size of 22443kBytes written. ***** 2000 of those records were phyics events, ***** whose average size is: 12.0kBytes/event ***** #### SVT Summary - SVT #### Tracks in cracks: 0 Physical Barrel crossers: 0 Electrical Barrel crossers: 0 Wedge crossers: 0 Tracks in dead areas: 0 Number of selected tracks: 0 Total number of tracks: 0 #### End of SVT Summary - SVT #### Termination Summary Process cdfSim type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DEBUG .. DBEventLogger 71* 71 2 Geant3GeometryInterf .. GlobalLibraryLog 1199* 1199 3 SimulatorGeometryInt .. GlobalLibraryLog 74292* 74292 4 [CDFHEPEVT_NEW_HEPG] .. GlobalLibraryLog AppFileBasedStre 2000* 2000 5 [CDFTAUEVT_NEW_TAUG] .. GlobalLibraryLog AppFileBasedStre 2000* 2000 6 [G3_DECLARE_PHYS] .. GlobalLibraryLog 15832* 15832 7 [G3_INIT_PAWC] .. GlobalLibraryLog 1* 1 8 [G3_VOL_ORDER_Z] .. GlobalLibraryLog 1* 1 9 DBACC_G -! DBEventLogger 31* 31 10 [G3_DECLARE_LVOL] -! GlobalLibraryLog 1191* 1191 11 [G3_DECLARE_MAT] -! GlobalLibraryLog 34* 34 12 [G3_DECLARE_PHYS] -! GlobalLibraryLog 15831* 15831 13 [G3_DECLARE_ROT] -! GlobalLibraryLog 3311* 3311 14 [G3_DECLARE_TMED] -! GlobalLibraryLog 58* 58 15 Bfield::setUniform -i GlobalLibraryLog 1* 1 16 DBCON_J -i DBEventLogger 2* 2 17 DBCON_O -i DBEventLogger 48* 48 18 DEPRECATED -i CalibDB 15* 15 19 SiPassiveMaterial::S -i GlobalLibraryLog 1* 1 20 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 21 [G3_DECLARE_TANG] -i GlobalLibraryLog 5857* 5857 22 [G3_OLD_ROT] -i GlobalLibraryLog 10598* 10598 23 [G3_PHYS_NO_PARENT] -i GlobalLibraryLog 1* 1 24 [G3_ROT_IDENTITY] -i GlobalLibraryLog 1922* 1922 25 [SIMINIT:BEGINJOB] -i SimInitManager 2* 2 26 [SIMINIT:FINISHED_IN -i SimInitManager 2* 2 27 RCP put failure -w CalibrationManag 2 2 28 [PYTHIA_BMIXOF_R] -e Pythia 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DEBUG 0/0 0/0 222530/0 2 Geant3GeometryInterf 0/0 0/0 0/0 3 SimulatorGeometryInt 0/0 0/0 0/0 4 [CDFHEPEVT_NEW_HEPG] 222530/1 222530/2 222530/2000 5 [CDFTAUEVT_NEW_TAUG] 222530/1 222530/2 222530/2000 6 [G3_DECLARE_PHYS] 0/0 0/0 0/0 7 [G3_INIT_PAWC] 0/0 8 [G3_VOL_ORDER_Z] 0/0 9 DBACC_G 0/0 0/0 222530/0 10 [G3_DECLARE_LVOL] 0/0 0/0 0/0 11 [G3_DECLARE_MAT] 0/0 0/0 0/0 12 [G3_DECLARE_PHYS] 0/0 0/0 0/0 13 [G3_DECLARE_ROT] 0/0 0/0 0/0 14 [G3_DECLARE_TMED] 0/0 0/0 0/0 15 Bfield::setUniform 0/0 16 DBCON_J 0/0 222530/2000 17 DBCON_O 0/0 0/0 222530/0 18 DEPRECATED 0/0 0/0 0/0 19 SiPassiveMaterial::S 0/0 20 SiPassiveMaterial::c 0/0 0/0 0/0 21 [G3_DECLARE_TANG] 0/0 0/0 0/0 22 [G3_OLD_ROT] 0/0 0/0 0/0 23 [G3_PHYS_NO_PARENT] 0/0 24 [G3_ROT_IDENTITY] 0/0 0/0 0/0 25 [SIMINIT:BEGINJOB] 0/0 0/0 26 [SIMINIT:FINISHED_IN 0/0 0/0 27 RCP put failure 0/0 0/0 28 [PYTHIA_BMIXOF_R] 0/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 95396 95396 Success 20456 20456 Info 18454 18454 Warning 2 2 Error 1 1 [MCProd]: RUNMC_FLAG=GENERATE_ONLY EXEFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim TCLFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl rc=0 [MCProd]: ######################################################## [MCProd]: # MODE 2, step 2 [MCProd]: ######################################################## [MCProd]: RUNMC_FLAG=READ_GENERATE_AND_SIMULATE [MCProd]: CDFSIM_INPUT=HEPG_FILE [MCProd]: INPUT_FILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root [MCProd]: OUTPUT_FILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root [MCProd]: MC_PROCESS_TCL=mc_Pythia_Minbias.tcl [MCProd]: MC_FILTER_TCL=mc_postgenNoFilter.tcl [MCProd]: source /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl [MCProd]: ############## MC_PROCESS_TCL ################### #----------------------------------------------------------------------- # generate minbias events with Pythia #----------------------------------------------------------------------- mod enable Pythia mod talk Pythia MODE set [ getenv MINBIAS_MODE FIXED ] MEAN set [ getenv MINBIAS_MEAN 1 ] PythiaMenu msel set 2 cmEnergy set 1960. listFirst set 1 listLast set 10 commonMenu set_msub -index=91 -value=0 ; # switch ppbar elastic OFF set_ckin -index=3 -value=0.0 ; # Pt(min) = 0 show_parp exit exit list exit #----------------------------------------------------------------------- # Pythia tunings #----------------------------------------------------------------------- source $env(RUNMC_TCL_DIR)/mc_Pythia_pdf_CTEQ5L.tcl source $env(RUNMC_TCL_DIR)/mc_Pythia_underlying_event_A.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/tcl/mcprod_template.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 12-Aug-2007 22:01:51 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 HERWIG: ALL PARTICLE TYPE WITH A B QUARK SET STABLE, USE QQ HERWIG: ALL PARTICLE TYPE WITH A C QUARK SET STABLE, USE QQ HeavyQuarkGen Version: $Id: HeavyQuarkGenModule.cc,v 1.2 2003/04/15 18:26:09 paulini Exp $ HeavyQuarkGenModule: Constructor Bgenerator Version: $Id: BgeneratorModule.cc,v 1.12 2004/01/14 16:45:10 paus Exp $ BGEN_INI: Bgenerator Initialization CHKLOG: CDFDAB_DIR logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work BGEN_OPEN_SPECTRA: finished successfully. BGEN_INI: Hadrons/properties known to Bgenerator Number Name Mass Lifetime ----------------------[GeV]----[ps]--- 1 Bu+ 5.2776 1.5000 2 Bd0 5.2794 1.5000 3 Bs0 5.3700 1.5000 4 Bc+ 6.3900 1.5000 5 ALamB0 5.6400 1.5000 6 User 0.0000 0.0000 CHKLOG: HEPTBL logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/heptabl.dbt ---> The maximal weight value is: 0.100000E-05 Warning! You have to reinitialize this value with the maximal weight from your VECBOS MC generation ! ---> Default weight bank name is VECB. (eg. PAPA,VECB) ---> MC generrtor init number is: 87926891 HERWIG 6.510 31st Oct. 2005 Please reference: G. Marchesini, B.R. Webber, G.Abbiendi, I.G.Knowles, M.H.Seymour & L.Stanco Computer Physics Communications 67 (1992) 465 and G.Corcella, I.G.Knowles, G.Marchesini, S.Moretti, K.Odagiri, P.Richardson, M.H.Seymour & B.R.Webber, JHEP 0101 (2001) 010 #### MODULE #### PythiaInfoModule created - PythiaInfoModule #### #### MODULE #### HepgFilter created - HepgFilter #### ********* PartFilter INITIALIZED ********** #### MODULE #### GenTrigModule created - GenTrigModule #### #### GenTrigXFT created -- XFT #### #### GenTrigXTRP created -- XTRP #### #### GenTrigSVT created -- SVT #### #### GenTrigCMU created -- CMU #### #### GenTrigCMX created -- CMX #### #### GenTrigL1Pair created -- L1Pr #### #### GenTrigL1Pair created -- L1L2Pr #### #### GenTrigL2Pair created -- L2Bs #### #### GenTrigL2Pair created -- L2Bd #### #### GenTrigL1Trip created -- L1Tr #### #### GenTrigL1Trip created -- L1L2Tr #### #### GenTrigL2Trip created -- L2Tr #### #### GenTrigL1DiMu created -- L1DM #### #### GenTrigL1DMuX created -- L1DMX #### #### GenTrigL2DiMu created -- L2DM #### #### GenTrigL1MuSvt created -- L1MS #### #### GenTrigL2MuSvt created -- L2MS #### #### GenTrigFiducial created - Fidu #### #### MODULE #### QuickCdfObjects created - QuickCdfObjects #### #### GenTrigCOT created -- CotHepg #### #### GenTrigCMU created -- CmuHepg #### #### MODULE #### MCInfoModule created - MCInfoModule #### MZSTOR. ZEBRA table base TAB(0) in /MZCC/ at adr 164840879 9D345AF HEX MZSTOR. Initialize Store 0 in /GCBANK/ with Store/Table at absolute adrs 103068549 164840879 HEX 624B385 9D345AF HEX FC516C12 0 relative adrs -61772782 0 with 1 Str. in 2 Links in 5300 Low words in 9999970 words. This store has a fence of 16 words. MZLOGL. Set Log Level 0 for store 0 --------------- HepPDT Version 1.00.01 --------------- 1***** GEANT Version 3.21/14 Released on 19032002 0***** Correction Cradle Version 0.1400 MZDIV. Initialize Division Constant in Store 0 NW/NWMAX= 20008000000, MODE/KIND= 1 2 Division 20 initialized. MZLINK. Initialize Link Area /GCLINK/ for Store 0 NL/NS= 20 20 MZLINK. Initialize Link Area /GCSLNK/ for Store 0 NL/NS= 100 100 #### MODULE #### SimpleCotTrkReco created - SimpleCotTrkReco #### #### MODULE #### SimpleSiTrkReco created - SimpleSiTrkReco #### <<<getenv>>> : Name= DECAY_PACKAGES_TCL Default= setup_tauola_evtgen.tcl x= setup_tauola_evtgen.tcl <<<getenv>>> : Name= STORE_USERINFO Default= 0 x= 0 <<<getenv>>> : Name= CDFSIM_INPUT Default= MC_GENERATOR x= HEPG_FILE <<<getenv>>> : Name= INPUT_FILE Default= undefined x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root Current value of item(s) in the "RandomGenManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of RestoreRandomStreams for this module is true Value of SaveRandomStreams for this module is true Value of OutputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat Value of InputFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat Current value of items on the "RandomNumberMenu" menu: Value of RandomSeedGRNDM1 for this module is 3591 Value of RandomSeedGRNDM2 for this module is 2309736 Value of RandomSeedPYTHIA1 for this module is 93453591 Value of RandomSeedPYTHIA2 for this module is 73436 Value of RandomSeedHERWIG1 for this module is 355391 Value of RandomSeedHERWIG2 for this module is 97336 Current value of item(s) in the "FileInput" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 100 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module FileInput has 0 values (minimum 0, maximum 1000): classHideList in module FileInput has 0 values (minimum 0, maximum 1000): hideList in module FileInput has 0 values (minimum 0, maximum 1000): processDropList in module FileInput has 0 values (minimum 0, maximum 1000): keepFromProcessList in module FileInput has 0 values (minimum 0, maximum 1000): runSections: *:* selectEvents: *(*):*(*) runsTrigs: *(*):*(*) Value of recordType for this module is SIMPLE Listing of current input sources and their status: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root Value of timeout for this module is 86400 Value of rawRS for this module is false Value of luminosityLog for this module is NONE Value of requireCatalog for this module is true Value of dropInput for this module is false Value of useBlockIO for this module is false Value of primaryBasketSz for this module is 131072 Value of readRawTrig for this module is true Value of readRawTrack for this module is true Value of readRawCalor for this module is true Value of readTrack for this module is true Value of readCalor for this module is true Value of readMuon for this module is true Value of readElectron for this module is true Value of readPadCalor for this module is true Value of readPadTrack for this module is true Value of readL3 for this module is true Value of blockIORawTrig for this module is false Value of blockIORawTrack for this module is false Value of blockIORawCalor for this module is false Value of blockIOTrack for this module is false Value of blockIOCalor for this module is false Value of blockIOMuon for this module is false Value of blockIOElectron for this module is false Value of blockIOPadCalor for this module is false Value of blockIOPadTrack for this module is false Value of blockIOL3 for this module is false Value of skipOver for this module is -1 There are no run/event requests for FileInput <<<getenv>>> : Name= EVTGEN_USER_DECAY_FILE Default= 0 x= 0 Current value of item(s) in the "EvtGen" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of mode for this module is 0 Value of UseRootParticle for this module is false Value of RootParticlePx for this module is 0 Value of RootParticlePy for this module is 0 Value of RootParticlePz for this module is 0 Value of RootParticleHepID for this module is 0 Value of UseUserDecayFile for this module is false Value of UserDecayFile for this module is dummy Value of AdjustCPAsymm for this module is false Value of DecayPromptCharm for this module is true Value of DecayBMeson for this module is true Value of DecayBBaryon for this module is true Value of RandomSeed1 for this module is 0 Value of RandomSeed2 for this module is 0 <<<getenv>>> : Name= MINBIAS_MODE Default= FIXED x= POISSON <<<getenv>>> : Name= MINBIAS_MEAN Default= 1 x= 4.7122141 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 1.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 1.90 PARP( 83) = 0.500 PARP( 84) = 0.200 PARP( 85) = 0.330 PARP( 86) = 0.660 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.00e+03 PARP( 90) = 0.160 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 Non-zero elements of MSTJ: MSTJ( 1) = 1 MSTJ( 2) = 3 MSTJ( 11) = 4 MSTJ( 12) = 2 MSTJ( 14) = 1 MSTJ( 16) = 2 MSTJ( 17) = 2 MSTJ( 18) = 10 MSTJ( 21) = 2 MSTJ( 22) = 1 MSTJ( 23) = 1 MSTJ( 24) = 2 MSTJ( 25) = 1 MSTJ( 26) = 2 MSTJ( 27) = 2 MSTJ( 41) = 2 MSTJ( 42) = 2 MSTJ( 43) = 4 MSTJ( 44) = 2 MSTJ( 45) = 5 MSTJ( 46) = 3 MSTJ( 47) = 3 MSTJ( 50) = 3 MSTJ( 52) = 3 MSTJ( 54) = 2 MSTJ( 57) = 1 MSTJ(101) = 5 MSTJ(102) = 2 MSTJ(103) = 7 MSTJ(104) = 5 MSTJ(105) = 1 MSTJ(106) = 1 MSTJ(108) = 2 MSTJ(110) = 2 MSTJ(115) = 1 MSTJ(116) = 1 Non-zero elements of MSTP: MSTP( 1) = 3 MSTP( 2) = 1 MSTP( 3) = 2 MSTP( 11) = 1 MSTP( 13) = 1 MSTP( 14) = 30 MSTP( 16) = 1 MSTP( 17) = 4 MSTP( 18) = 3 MSTP( 19) = 4 MSTP( 20) = 3 MSTP( 21) = 1 MSTP( 23) = 1 MSTP( 30) = 1 MSTP( 31) = 1 MSTP( 32) = 8 MSTP( 34) = 1 MSTP( 36) = 2 MSTP( 37) = 1 MSTP( 38) = 5 MSTP( 39) = 2 MSTP( 41) = 2 MSTP( 42) = 1 MSTP( 43) = 3 MSTP( 44) = 7 MSTP( 45) = 3 MSTP( 46) = 1 MSTP( 47) = 1 MSTP( 49) = 1 MSTP( 51) = 4046 MSTP( 52) = 2 MSTP( 53) = 3 MSTP( 54) = 1 MSTP( 55) = 5 MSTP( 56) = 1 MSTP( 57) = 1 MSTP( 58) = 5 MSTP( 59) = 1 MSTP( 60) = 7 MSTP( 61) = 2 MSTP( 62) = 3 MSTP( 63) = 2 MSTP( 64) = 2 MSTP( 65) = 1 MSTP( 66) = 5 MSTP( 67) = 2 MSTP( 68) = 1 MSTP( 71) = 1 MSTP( 81) = 1 MSTP( 82) = 4 MSTP( 83) = 100 MSTP( 86) = 2 MSTP( 91) = 1 MSTP( 92) = 3 MSTP( 93) = 1 MSTP( 94) = 3 MSTP(101) = 3 MSTP(102) = 1 MSTP(111) = 1 MSTP(112) = 1 MSTP(113) = 1 MSTP(122) = 1 MSTP(123) = 2 MSTP(124) = 1 MSTP(125) = 1 MSTP(126) = 100 MSTP(129) = 10 MSTP(132) = 4 MSTP(134) = 1 MSTP(172) = 2 MSTP(181) = 6 MSTP(182) = 216 MSTP(183) = 2003 MSTP(184) = 4 MSTP(185) = 7 Non-zero elements of PARP: PARP( 1) = 0.250 PARP( 2) = 10.0 PARP( 13) = 1.00 PARP( 14) = 0.0100 PARP( 15) = 0.500 PARP( 16) = 1.00 PARP( 17) = 1.00 PARP( 18) = 0.400 PARP( 31) = 1.50 PARP( 32) = 2.00 PARP( 33) = 0.0750 PARP( 34) = 1.00 PARP( 35) = 0.200 PARP( 37) = 1.00 PARP( 38) = 0.700 PARP( 39) = 0.00600 PARP( 41) = 0.0200 PARP( 42) = 2.00 PARP( 43) = 0.100 PARP( 44) = 1.00e+03 PARP( 45) = 2.05e+03 PARP( 46) = 123. PARP( 47) = 246. PARP( 48) = 50.0 PARP( 50) = 0.0540 PARP( 61) = 0.250 PARP( 62) = 1.00 PARP( 63) = 0.250 PARP( 64) = 1.00 PARP( 65) = 2.00 PARP( 66) = 0.00100 PARP( 67) = 4.00 PARP( 68) = 0.00100 PARP( 71) = 4.00 PARP( 72) = 0.250 PARP( 81) = 1.90 PARP( 82) = 2.00 PARP( 83) = 0.500 PARP( 84) = 0.400 PARP( 85) = 0.900 PARP( 86) = 0.950 PARP( 87) = 0.700 PARP( 88) = 0.500 PARP( 89) = 1.80e+03 PARP( 90) = 0.250 PARP( 91) = 1.00 PARP( 92) = 0.400 PARP( 93) = 5.00 PARP( 94) = 1.00 PARP( 96) = 3.00 PARP( 97) = 1.00 PARP( 98) = 0.750 PARP( 99) = 1.00 PARP(100) = 5.00 PARP(101) = 0.500 PARP(102) = 0.280 PARP(103) = 1.00 PARP(104) = 0.800 PARP(110) = 1.00 PARP(111) = 2.00 PARP(115) = 1.50 PARP(116) = 0.500 PARP(117) = 0.600 PARP(118) = 2.50 PARP(119) = 2.00 PARP(120) = 1.00 PARP(121) = 1.00 PARP(122) = 0.400 PARP(131) = 0.0100 PARP(161) = 2.20 PARP(162) = 23.6 PARP(163) = 18.4 PARP(164) = 11.5 PARP(165) = 0.500 PARP(174) = 1.00 PARP(181) = 0.100 PARP(182) = 0.0100 PARP(183) = 0.0100 PARP(184) = 0.0100 PARP(185) = 0.100 PARP(186) = 0.0100 PARP(187) = 0.0100 PARP(188) = 0.0100 PARP(189) = 0.300 PARP(190) = 0.640 PARP(191) = 0.640 PARP(192) = 5.00 <<<getenv>>> : Name= BEAM_SET_BY_HAND Default= 0 x= 0 <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:01:51 CDT run = 0 event = 0 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= BEAM_SIGMA_Z Default= 28.0 x= 28.0 <<<getenv>>> : Name= BEAM_SIGMA_T0 Default= 1.3 x= 1.3 Current value of item(s) in the "GenPrimVert" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of sigma_x for this module is 0.00257 Value of sigma_y for this module is 0.00258 Value of sigma_z for this module is 28 Value of sigma_t for this module is 1.3 Value of n_bunches for this module is 0 Value of bunch_spacing for this module is 400 Value of pv_central_x for this module is 0 Value of pv_central_y for this module is 0 Value of pv_central_z for this module is 0 Value of pv_slope_dxdz for this module is 0 Value of pv_slope_dydz for this module is 0 Value of BeamlineFromDB for this module is true Value of UseBetaStarBeamWidth for this module is true Value of UseBetaStarZVertex for this module is true Current value of items on the "RandomNumberMenu" menu: Value of RandomSeed1 for this module is 922883591 Value of RandomSeed2 for this module is 109735476 Current value of items on the "BeamBetaStarMenu" menu: Value of beamEmittanceX for this module is 1.26e-07 Value of beamEmittanceY for this module is 1.24e-07 Value of beamBetaStarX for this module is 38.6 Value of beamBetaStarY for this module is 38 Value of beamZ0X for this module is 14.2 Value of beamZ0Y for this module is -9.2 Current value of item(s) in the "GeometryManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of enableSimpleSi for this module is false Value of enableB4 for this module is false Value of enableBeamBox for this module is false Value of enableSimpleSvx for this module is false Value of enableSvx for this module is true Value of enableSimpleCot for this module is false Value of enableAlPlate for this module is false Value of enableCot for this module is true Value of enableMuon for this module is true Value of enableCalor for this module is true Value of enableMiniplug for this module is false Value of enableDetailedMiniplug for this module is false Value of enableClc for this module is false Value of enableTof for this module is true Value of enableStripChamber for this module is true Value of enablePassive for this module is true Value of enableBeampipeC for this module is true Value of enableBeampipe for this module is false Value of enableCPR for this module is true Value of enableAll for this module is false Current value of items on the "SiliconGeometryMenu" menu: Value of AlignmentSource for this module is frontier 220050 1 GOOD Value of AlignmentPrint for this module is 3 Value of AlignmentAlignWafers for this module is true Value of L00Alignment for this module is true Value of BuildPassive for this module is true Value of BuildPassivePHA for this module is true DisabledPassiveElements in module GeometryManager has 2 values (minimum 0, maximum 0): svxInnScreen svxBHTap Value of CreateOldPhantomLayer for this module is false Value of OldPhantomLayerThickness for this module is 0.2 Value of OldPhantomLayerHalfLength for this module is 165 Value of OldPhantomLayerMaterial for this module is SILICON Value of CreatePhantomLayer for this module is true PhantomLayerRmin in module GeometryManager has 10 values (minimum 0, maximum 99): 14.8 14.8 14.8 14.8 14.8 20.5 20.5 20.8 20.5 20.5 PhantomLayerZmin in module GeometryManager has 10 values (minimum 0, maximum 99): -60 -45 -15 15.1 45.1 -100 -45 -15 15.1 45.1 PhantomLayerZmax in module GeometryManager has 10 values (minimum 0, maximum 99): -45.1 -15.1 15 45 60 -45.1 -15.1 15 45 100 PhantomLayerThickness in module GeometryManager has 10 values (minimum 0, maximum 99): 0.9 0.9 0.2 0.9 0.9 0.4 0.15 0.1 0.15 0.4 PhantomLayerMaterial in module GeometryManager has 10 values (minimum 0, maximum 99): SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE SVX_BIAS_CABLE PhantomLayerContainer in module GeometryManager has 10 values (minimum 0, maximum 99): SVCC SVCC SVCC SVCC SVCC ISLC ISLC ISLC ISLC ISLC Value of ReadSiliMapROOT for this module is false Value of ReadSiliMapROOTFileName for this module is Value of WriteSiliMapROOT for this module is false Value of WriteSiliMapROOTFileName for this module is UNKNOWN Value of ReadSiliMapDB for this module is false Value of SiliMapDBVersion for this module is 0 Value of WriteSiliMapDB for this module is false Value of ReadSiliMapASCII for this module is false Value of ReadSiliMapASCIIFileName for this module is UNKNOWN Value of WriteSiliMapASCII for this module is false Value of WriteSiliMapASCIIFileName for this module is UNKNOWN Value of UseCustomSiliMapDB for this module is false Value of CustomSiliMapDBID for this module is onotl_dev Value of SiliMapDEDxScale for this module is 1 Value of SiliMapI0Scale for this module is 1 Value of SiliMapX0Scale for this module is 1 Current value of items on the "Cot" menu: Value of run1CTCGeometry for this module is false Value of run1CTCData for this module is true Current value of items on the "MuonGeometryMenu" menu: Value of CMPGeometry for this module is true Value of CMUGeometry for this module is true Value of CMXGeometry for this module is true Value of IMUGeometry for this module is true Current value of items on the "CalorGeometryMenu" menu: Value of BuildPhantom for this module is false Value of PhantomThickness for this module is 0.1 Current value of items on the "TofGeometryMenu" menu: Value of GeometryModel for this module is Aligned Value of Verbosity for this module is None Current value of items on the "PrintMenu" menu: Value of printSvx for this module is false Value of printCot for this module is false Value of printMuon for this module is false Value of printCalor for this module is false Value of printTof for this module is false Value of printStripChamber for this module is false Value of printPassive for this module is false Value of printBeampipeC for this module is false Value of printCPR for this module is false Value of printAll for this module is false Value of printTree for this module is false Value of uniformField for this module is false Value of Bfield for this module is 14.1 Value of useCalibDB for this module is true Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of item(s) in the "SimInitManager" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "DetectorMenu" menu: Value of declareSvx for this module is true Value of declareCot for this module is true Value of declareMuon for this module is true Value of declareCalor for this module is true Value of declareTof for this module is true Value of declareStripChamber for this module is true Value of declarePassive for this module is true Value of declareBeampipeC for this module is true Value of declareCPR for this module is false Value of declareAll for this module is true Current value of items on the "DebugMenu" menu: Value of showMaterials for this module is false Value of showMedia for this module is false Value of showLogicalVolumes for this module is false Value of showPhysicalVolumes for this module is false Value of resetCopyNumber for this module is false Value of applyAlignment for this module is true <<<getenv>>> : Name= CDFSIM_FAST_TRACK Default= false x= false <<<getenv>>> : Name= SHOW_ACTIVE_VOLUMES Default= false x= false <<<getenv>>> : Name= CDFSIM_DEBUG_LEVEL Default= 0 x= 0 Current value of items on the "DetectorMenu" menu: Value of simulateSvx for this module is true Value of simulateCot for this module is true Value of simulateMuon for this module is true Value of simulateCalor for this module is true Value of simulateTof for this module is true Value of simulateStripChamber for this module is false Value of simulatePassive for this module is true Value of simulateBeampipeC for this module is false This factory knows about 20 digitizer types. These types are: CalorDigiBFCoil CalorDigiCcal CalorDigiGeneric CalorDigiNoBFCoil CalorDigiPcal CalorDigiWcal ClcDigitizer CotDigitizer ImuDigiBMUGas ImuDigiBSUPaddle ImuDigiTSUPaddle MuonDigiCMP MuonDigiCMU MuonDigiCMX MuonDigiCSX SimpleCotDigitizer SimpleSiDigitizer SvxDigitizer TofDigi3Pack TofDigiBar Current value of item(s) in the "SimulationControlMod" module: The following detector elements have been configured with digitizers: BFCoil with digitizer CalorDigiBFCoil in group CalorGroup BMUGas with digitizer ImuDigiBMUGas in group ImuGroup BSUPaddle with digitizer ImuDigiBSUPaddle in group ImuGroup CMPPart with digitizer MuonDigiCMP in group MuonCMPdata CMUExtrusion with digitizer MuonDigiCMU in group MuonCMUdata CMXChamber with digitizer MuonDigiCMX in group MuonCMXdata CSXCounter with digitizer MuonDigiCSX in group MuonCSXdata CalorDetectorElement with digitizer CalorDigiGeneric in group CalorGroup CdfHalfLadder with digitizer SvxDigitizer in group SvxGroup CotSuperLayer with digitizer CotDigitizer in group CotGroup NoBFCoil with digitizer CalorDigiNoBFCoil in group CalorGroup TSUPaddle with digitizer ImuDigiTSUPaddle in group ImuGroup Tof3Pack with digitizer TofDigi3Pack in group TofGroup TofBar with digitizer TofDigiBar in group TofGroup <<<getenv>>> : Name= COT_DRIFT_MODEL Default= Garfield x= Garfield <<<getenv>>> : Name= COT_HIT_RESOLUTION_SCALE Default= 0.64 x= 0.64 Current value of items on the "CotGroup_CotSuperLayer" menu: Value of CreateCOTD for this module is true Value of CreateCOTQ for this module is false Value of CreateCOTM for this module is true Value of CreateMCOT for this module is false Value of CreateCotTrueXP for this module is false Value of CreatePropagatedParticleColl for this module is false Value of StepSize for this module is 1 Value of TimingGate for this module is 400 Value of TwoHitSeparation for this module is 10 Value of DriftModel for this module is Garfield Value of LoadExistingRawData for this module is false Value of HitResolutionScale for this module is 0.64 HitEfficiency in module SimulationControlMod has 8 values (minimum 8, maximum 8): 1 1 1 1 1 1 1 1 WidthScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.847 1.01 0.868 1.02 1.05 1.04 1.04 1.04 WidthSigmaScale in module SimulationControlMod has 8 values (minimum 8, maximum 8): 0.813 0.863 0.782 0.821 0.841 0.812 0.815 0.798 Current value of items on the "SvxGroup_CdfHalfLadder" menu: Value of CreateSIXD for this module is true Value of CreatePropagatedSi for this module is false Value of pick_svx_cdm for this module is PARAMETERIZED Value of svx_cdm_delta_rays for this module is ON Value of svx_cdm_magnetic_field for this module is ON Value of svx_cdm_noise for this module is THRESH7 svx_cdm_noise_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_crosstalk_list in module SimulationControlMod has 18 values (minimum 2, maximum 18): 2 0 0 0 0.43 0.2 0.47 0.19 0.49 0.51 0.41 0.24 0.46 0.5 0.355 0.355 0.355 0.355 svx_cdm_fractionlost_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_fractionlostfstrip_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 svx_cdm_relgain_list in module SimulationControlMod has 2 values (minimum 2, maximum 18): 0 0 Value of svx_validation for this module is OFF Value of ToyPulseHeight for this module is 30 Value of GeoElossToADC for this module is 3e+05 Value of ZigZagL7 for this module is true Value of debug for this module is 0 Value of debugNtuple for this module is Value of useNoiseDB for this module is true Value of noiseDBRun for this module is -1 Value of noiseDBVersion for this module is -1 Value of noiseDBStatus for this module is Value of noiseDBName for this module is Value of LoadExistingRawData for this module is false Value of AlignmentAlignWafers for this module is true Current value of items on the "MuonCMPdata_CMPPart" menu: Value of writeHitCollection for this module is false Value of debugLevel for this module is 0 Value of disableBluebeam for this module is false Value of disableKeystone for this module is false Value of disableKeystoneWedge5 for this module is false Value of disableKeystoneWedge6 for this module is false Value of disableMiniskirts for this module is false Value of disableRunDependence for this module is false Value of realisticSmearing for this module is false <<<getenv>>> : Name= RUNMC_FLAG Default= GENERATE_AND_SIMULATE x= READ_GENERATE_AND_SIMULATE **** Listing of all available paths **** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * Min Bias sequence MinBiasSequence() yes on 0 0 mbr yes on 0 0 MIX_FAKE_EVENT yes on 0 0 PythiaMinBias * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * cdfSimPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 RandomGenManager * Hard Scat. generator sequence HardScatGenSequence * yes on 0 0 Pythia yes on 0 0 Isajet yes on 0 0 herwig yes on 0 0 HeavyQuarkGen yes on 0 0 Bgenerator yes on 0 0 FAKE_EVENT yes on 0 0 Ariadne yes on 0 0 MCFM yes on 0 0 WGRAD yes on 0 0 Wbbgen yes on 0 0 VecbosModule no on 0 0 VecunwModule no on 0 0 Vecher yes on 0 0 LesHouchesModule * Decay Package Sequence DecayPackageSequence * no on 0 0 TauolaModule no on 0 0 QQModule * no on 0 0 EvtGen * no on 0 0 GenOutputManager * no on 0 0 TofManager * yes on 0 0 HepRootManager * no on 0 0 GenPrimVert * Generator Level Filter Sequence GenTrigSequence no on 0 0 PythiaInfoModule yes on 0 0 HepgFilter yes on 0 0 TauMCFilterModule yes on 0 0 AddBMixingToMc yes on 0 0 PartFilter yes on 0 0 svtfilter yes on 0 0 GenTrigModule yes on 0 0 QuickCdfObjects no on 0 0 MCInfoModule yes on 0 0 PythiaMinBias * no on 0 0 SimInitManager * no on 0 0 SimulationControlMod yes on 0 0 SimValModule yes on 0 0 SimpleCotTrkReco yes on 0 0 SimpleSiTrkReco no on 0 0 SiClusteringModule * no on 0 0 CotqModule * no on 0 0 SvxqModule ======================================================= Error Log established 12-Aug-2007 22:01:51 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 12-Aug-2007 22:01:51 CDT run = 0 event = 0 CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() - TOF geometry system of type [ALIGNED] found. - Calibrator: Data ============ TofManager Initialized ============ RandomGenManager: restoring random state from file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_input_1.dat: BGENERATOR - 1234567,86543 EvtGen - 3244768,76744 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 6567091,29076 GRNDM - 5341980,7914 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 6268819,11876 QFL - 5583289,88238 QQModule - 3721993,69470 SIMULATION - 9876540,54798 SVX_SIM - 4756981,20932 TAUOLA - 3958375,47386 WGRAD - 9834262,35354 mbr - 2553412,53245 PythiaModule: Please note the following long lived strange particles have been set stable and cannot be set to decay K_0S, Lambda, Sigma, Xi and Omega. %ERLOG-e [PYTHIA_BMIXOF_R]: /cdf/scratch/beauche/MaxOpt_H/generatorMods/src/PythiaModule.cc : 106 PythiaModule: B-Bbar mixing is disabled and should be done using EvtGen Pythia 12-Aug-2007 22:01:53 CDT run = 0 event = 0 1 ****************************************************************************** ****************************************************************************** ** ** ** ** ** *......* Welcome to the Lund Monte Carlo! ** ** *:::!!:::::::::::* ** ** *::::::!!::::::::::::::* PPP Y Y TTTTT H H III A ** ** *::::::::!!::::::::::::::::* P P Y Y T H H I A A ** ** *:::::::::!!:::::::::::::::::* PPP Y T HHHHH I AAAAA ** ** *:::::::::!!:::::::::::::::::* P Y T H H I A A ** ** *::::::::!!::::::::::::::::*! P Y T H H III A A ** ** *::::::!!::::::::::::::* !! ** ** !! *:::!!:::::::::::* !! This is PYTHIA version 6.216 ** ** !! !* -><- * !! Last date of change: 7 Apr 2003 ** ** !! !! !! ** ** !! !! !! Now is 12 Aug 2007 at 22:01:53 ** ** !! !! ** ** !! lh !! Disclaimer: this program comes ** ** !! !! without any guarantees. Beware ** ** !! hh !! of errors and use common sense ** ** !! ll !! when interpreting results. ** ** !! !! ** ** !! Copyright T. Sjostrand (2003) ** ** ** ** An archive of program versions and documentation is found on the web: ** ** http://www.thep.lu.se/~torbjorn/Pythia.html ** ** ** ** When you cite this program, currently the official reference is ** ** T. Sjostrand, P. Eden, C. Friberg, L. Lonnblad, G. Miu, S. Mrenna and ** ** E. Norrbin, Computer Physics Commun. 135 (2001) 238. ** ** The large manual is ** ** T. Sjostrand, L. Lonnblad and S. Mrenna, LU TP 01-21 [hep-ph/0108264]. ** ** Also remember that the program, to a large extent, represents original ** ** physics research. Other publications of special relevance to your ** ** studies may therefore deserve separate mention. ** ** ** ** Main author: Torbjorn Sjostrand; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 48 16; e-mail: torbjorn@thep.lu.se ** ** Author: Leif Lonnblad; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 77 80; e-mail: leif@thep.lu.se ** ** Author: Stephen Mrenna; Computing Division, Simulations Group, ** ** Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA; ** ** phone: + 1 - 630 - 840 - 2556; e-mail: mrenna@fnal.gov ** ** Author: Peter Skands; Department of Theoretical Physics 2, ** ** Lund University, Solvegatan 14A, S-223 62 Lund, Sweden; ** ** phone: + 46 - 46 - 222 31 92; e-mail: zeiler@thep.lu.se ** ** ** ** ** ****************************************************************************** ****************************************************************************** 1****************** PYINIT: initialization of PYTHIA routines ***************** ***** CERN Computer Program Library - Reference: W5051 ***** ***** PDFLIB Version: 8.04 Released on 2000-04-17 at 12.24 ***** PDFLIB : TMAS value Warning : NON standard settings, TMAS value = 175. set by user !! ============================================================================== I I I PYTHIA will be initialized for a p on pbar collider I I at 1960.000 GeV center-of-mass energy I I I ============================================================================== Nucleon PDFs : CTEQ Set 5L (LO) Structure Functions Ngroup = 4, Nset = 46 -------------------------------------------------------------------------------------- ******** PYMAXI: summary of differential cross-section maximum search ******** ========================================================== I I I I ISUB Subprocess name I Maximum value I I I I ========================================================== I I I I 91 Elastic scattering I 1.5021E+01 I I 92 Single diffractive (XB) I 6.2365E+00 I I 93 Single diffractive (AX) I 6.2365E+00 I I 94 Double diffractive I 6.9541E+00 I I 95 Low-pT scattering I 3.9529E+01 I I 96 Semihard QCD 2 -> 2 I 7.0421E+03 I I I I ========================================================== ****** PYMULT: initialization of multiple interactions for MSTP(82) = 4 ****** pT0 = 2.04 GeV gives sigma(parton-parton) = 3.16E+02 mb: accepted ********************** PYINIT: initialization completed ********************** List of KF codes in program 1 d -1 dbar 2 u -2 ubar 3 s -3 sbar 4 c -4 cbar 5 b -5 bbar 6 t -6 tbar 7 b' -7 b'bar 8 t' -8 t'bar 11 e- -11 e+ 12 nu_e -12 nu_ebar 13 mu- -13 mu+ 14 nu_mu -14 nu_mubar 15 tau- -15 tau+ 16 nu_tau -16 nu_taubar 17 tau'- -17 tau'+ 18 nu'_tau -18 nu'_taubar 21 g 22 gamma 23 Z0 24 W+ -24 W- 25 h0 32 Z'0 33 Z"0 34 W'+ -34 W'- 35 H0 36 A0 37 H+ -37 H- 39 Graviton 41 R0 -41 Rbar0 42 LQ_ue -42 LQ_uebar 2101 ud_0 -2101 ud_0bar 3101 sd_0 -3101 sd_0bar 3201 su_0 -3201 su_0bar 4101 cd_0 -4101 cd_0bar 4201 cu_0 -4201 cu_0bar 4301 cs_0 -4301 cs_0bar 5101 bd_0 -5101 bd_0bar 5201 bu_0 -5201 bu_0bar 5301 bs_0 -5301 bs_0bar 5401 bc_0 -5401 bc_0bar 1103 dd_1 -1103 dd_1bar 2103 ud_1 -2103 ud_1bar 2203 uu_1 -2203 uu_1bar 3103 sd_1 -3103 sd_1bar 3203 su_1 -3203 su_1bar 3303 ss_1 -3303 ss_1bar 4103 cd_1 -4103 cd_1bar 4203 cu_1 -4203 cu_1bar 4303 cs_1 -4303 cs_1bar 4403 cc_1 -4403 cc_1bar 5103 bd_1 -5103 bd_1bar 5203 bu_1 -5203 bu_1bar 5303 bs_1 -5303 bs_1bar 5403 bc_1 -5403 bc_1bar 5503 bb_1 -5503 bb_1bar 111 pi0 211 pi+ -211 pi- 221 eta 311 K0 -311 Kbar0 130 K_L0 310 K_S0 321 K+ -321 K- 331 eta' 411 D+ -411 D- 421 D0 -421 Dbar0 431 D_s+ -431 D_s- 441 eta_c 511 B0 -511 Bbar0 521 B+ -521 B- 531 B_s0 -531 B_sbar0 541 B_c+ -541 B_c- 551 eta_b 113 rho0 213 rho+ -213 rho- 223 omega 313 K*0 -313 K*bar0 323 K*+ -323 K*- 333 phi 413 D*+ -413 D*- 423 D*0 -423 D*bar0 433 D*_s+ -433 D*_s- 443 J/psi 513 B*0 -513 B*bar0 523 B*+ -523 B*- 533 B*_s0 -533 B*_sbar0 543 B*_c+ -543 B*_c- 553 Upsilon 10113 b_10 10213 b_1+ -10213 b_1- 10223 h_1 10313 K_10 -10313 K_1bar0 10323 K_1+ -10323 K_1- 10333 h'_1 10413 D_1+ -10413 D_1- 10423 D_10 -10423 D_1bar0 10433 D_1s+ -10433 D_1s- 10443 h_1c 10513 B_10 -10513 B_1bar0 10523 B_1+ -10523 B_1- 10533 B_1s0 -10533 B_1sbar0 10543 B_1c+ -10543 B_1c- 10553 h_1b 10111 a_00 10211 a_0+ -10211 a_0- 10221 f_0 10311 K*_00 -10311 K*_0bar0 10321 K*_0+ -10321 K*_0- 10331 f'_0 10411 D*_0+ -10411 D*_0- 10421 D*_00 -10421 D*_0bar0 10431 D*_0s+ -10431 D*_0s- 10441 chi_0c 10511 B*_00 -10511 B*_0bar0 10521 B*_0+ -10521 B*_0- 10531 B*_0s0 -10531 B*_0sbar0 10541 B*_0c+ -10541 B*_0c- 10551 chi_0b 20113 a_10 20213 a_1+ -20213 a_1- 20223 f_1 20313 K*_10 -20313 K*_1bar0 20323 K*_1+ -20323 K*_1- 20333 f'_1 20413 D*_1+ -20413 D*_1- 20423 D*_10 -20423 D*_1bar0 20433 D*_1s+ -20433 D*_1s- 20443 chi_1c 20513 B*_10 -20513 B*_1bar0 20523 B*_1+ -20523 B*_1- 20533 B*_1s0 -20533 B*_1sbar0 20543 B*_1c+ -20543 B*_1c- 20553 chi_1b 115 a_20 215 a_2+ -215 a_2- 225 f_2 315 K*_20 -315 K*_2bar0 325 K*_2+ -325 K*_2- 335 f'_2 415 D*_2+ -415 D*_2- 425 D*_20 -425 D*_2bar0 435 D*_2s+ -435 D*_2s- 445 chi_2c 515 B*_20 -515 B*_2bar0 525 B*_2+ -525 B*_2- 535 B*_2s0 -535 B*_2sbar0 545 B*_2c+ -545 B*_2c- 555 chi_2b 100443 psi' 100553 Upsilon' 3122 Lambda0 -3122 Lambdabar0 4122 Lambda_c+ -4122 Lambda_cbar- 4132 Xi_c0 -4132 Xi_cbar0 4232 Xi_c+ -4232 Xi_cbar- 5122 Lambda_b0 -5122 Lambda_bbar0 5132 Xi_b- -5132 Xi_bbar+ 5232 Xi_b0 -5232 Xi_bbar0 5142 Xi_bc0 -5142 Xi_bcbar0 5242 Xi_bc+ -5242 Xi_bcbar- 5342 Omega_bc0 -5342 Omega_bcbar0 2112 n0 -2112 nbar0 2212 p+ -2212 pbar- 3112 Sigma- -3112 Sigmabar+ 3212 Sigma0 -3212 Sigmabar0 3222 Sigma+ -3222 Sigmabar- 3312 Xi- -3312 Xibar+ 3322 Xi0 -3322 Xibar0 4112 Sigma_c0 -4112 Sigma_cbar0 4212 Sigma_c+ -4212 Sigma_cbar- 4222 Sigma_c++ -4222 Sigma_cbar-- 4312 Xi'_c0 -4312 Xi'_cbar0 4322 Xi'_c+ -4322 Xi'_cbar- 4332 Omega_c0 -4332 Omega_cbar0 4412 Xi_cc+ -4412 Xi_ccbar- 4422 Xi_cc++ -4422 Xi_ccbar-- 4432 Omega_cc+ -4432 Omega_ccbar- 5112 Sigma_b- -5112 Sigma_bbar+ 5212 Sigma_b0 -5212 Sigma_bbar0 5222 Sigma_b+ -5222 Sigma_bbar- 5312 Xi'_b- -5312 Xi'_bbar+ 5322 Xi'_b0 -5322 Xi'_bbar0 5332 Omega_b- -5332 Omega_bbar+ 5412 Xi'_bc0 -5412 Xi'_bcbar0 5422 Xi'_bc+ -5422 Xi'_bcbar- 5432 Omega'_bc0 -5432 Omega'_bcba 5442 Omega_bcc+ -5442 Omega_bccbar- 5512 Xi_bb- -5512 Xi_bbbar+ 5522 Xi_bb0 -5522 Xi_bbbar0 5532 Omega_bb- -5532 Omega_bbbar+ 5542 Omega_bbc0 -5542 Omega_bbcbar0 1114 Delta- -1114 Deltabar+ 2114 Delta0 -2114 Deltabar0 2214 Delta+ -2214 Deltabar- 2224 Delta++ -2224 Deltabar-- 3114 Sigma*- -3114 Sigma*bar+ 3214 Sigma*0 -3214 Sigma*bar0 3224 Sigma*+ -3224 Sigma*bar- 3314 Xi*- -3314 Xi*bar+ 3324 Xi*0 -3324 Xi*bar0 3334 Omega- -3334 Omegabar+ 4114 Sigma*_c0 -4114 Sigma*_cbar0 4214 Sigma*_c+ -4214 Sigma*_cbar- 4224 Sigma*_c++ -4224 Sigma*_cbar-- 4314 Xi*_c0 -4314 Xi*_cbar0 4324 Xi*_c+ -4324 Xi*_cbar- 4334 Omega*_c0 -4334 Omega*_cbar0 4414 Xi*_cc+ -4414 Xi*_ccbar- 4424 Xi*_cc++ -4424 Xi*_ccbar-- 4434 Omega*_cc+ -4434 Omega*_ccbar- 4444 Omega*_ccc++ -4444 Omega*_cccbar- 5114 Sigma*_b- -5114 Sigma*_bbar+ 5214 Sigma*_b0 -5214 Sigma*_bbar0 5224 Sigma*_b+ -5224 Sigma*_bbar- 5314 Xi*_b- -5314 Xi*_bbar+ 5324 Xi*_b0 -5324 Xi*_bbar0 5334 Omega*_b- -5334 Omega*_bbar+ 5414 Xi*_bc0 -5414 Xi*_bcbar0 5424 Xi*_bc+ -5424 Xi*_bcbar- 5434 Omega*_bc0 -5434 Omega*_bcbar0 5444 Omega*_bcc+ -5444 Omega*_bccbar- 5514 Xi*_bb- -5514 Xi*_bbbar+ 5524 Xi*_bb0 -5524 Xi*_bbbar0 5534 Omega*_bb- -5534 Omega*_bbbar+ 5544 Omega*_bbc0 -5544 Omega*_bbcbar0 5554 Omega*_bbb- -5554 Omega*_bbbbar+ 1000001 ~d_L -1000001 ~d_Lbar 1000002 ~u_L -1000002 ~u_Lbar 1000003 ~s_L -1000003 ~s_Lbar 1000004 ~c_L -1000004 ~c_Lbar 1000005 ~b_1 -1000005 ~b_1bar 1000006 ~t_1 -1000006 ~t_1bar 1000011 ~e_L- -1000011 ~e_L+ 1000012 ~nu_eL -1000012 ~nu_eLbar 1000013 ~mu_L- -1000013 ~mu_L+ 1000014 ~nu_muL -1000014 ~nu_muLbar 1000015 ~tau_1- -1000015 ~tau_1+ 1000016 ~nu_tauL -1000016 ~nu_tauLbar 1000021 ~g 1000022 ~chi_10 1000023 ~chi_20 1000024 ~chi_1+ -1000024 ~chi_1- 1000025 ~chi_30 1000035 ~chi_40 1000037 ~chi_2+ -1000037 ~chi_2- 1000039 ~Gravitino 2000001 ~d_R -2000001 ~d_Rbar 2000002 ~u_R -2000002 ~u_Rbar 2000003 ~s_R -2000003 ~s_Rbar 2000004 ~c_R -2000004 ~c_Rbar 2000005 ~b_2 -2000005 ~b_2bar 2000006 ~t_2 -2000006 ~t_2bar 2000011 ~e_R- -2000011 ~e_R+ 2000012 ~nu_eR -2000012 ~nu_eRbar 2000013 ~mu_R- -2000013 ~mu_R+ 2000014 ~nu_muR -2000014 ~nu_muRbar 2000015 ~tau_2- -2000015 ~tau_2+ 2000016 ~nu_tauR -2000016 ~nu_tauRbar 3000111 pi_tc0 3000211 pi_tc+ -3000211 pi_tc- 3000221 pi'_tc0 3000331 eta_tc0 3000113 rho_tc0 3000213 rho_tc+ -3000213 rho_tc- 3000223 omega_tc 3100021 V8_tc 3100111 pi_22_1_tc 3200111 pi_22_8_tc 3100113 rho_11_tc 3200113 rho_12_tc 3300113 rho_21_tc 3400113 rho_22_tc 4000001 d* -4000001 d*bar 4000002 u* -4000002 u*bar 4000011 e*- -4000011 e*bar+ 4000012 nu*_e0 -4000012 nu*_ebar0 5000039 Graviton* 9900012 nu_Re 9900014 nu_Rmu 9900016 nu_Rtau 9900023 Z_R0 9900024 W_R+ -9900024 W_R- 9900041 H_L++ -9900041 H_L-- 9900042 H_R++ -9900042 H_R-- 9900110 rho_diff0 9900210 pi_diffr+ -9900210 pi_diffr- 9900220 omega_di 9900330 phi_diff 9900440 J/psi_di 9902110 n_diffr0 -9902110 n_diffrbar0 9902210 p_diffr+ -9902210 p_diffrbar- Event list level 1 ******************************************************** * STDHEP version 5.01 - June 10, 2002 * ******************************************************** Masses, Widths 0 - tauola par EvtGen:EvtGen version: alpha-00-14-05 plus bug fixes EvtGen:CDF Revision: 2.00 EvtGen:Initializing EvtGen EvtGen:Storing known decay models Will register EvtJetSet EvtGen:Registering CDF specific decay models EvtGen:Main decay file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:PDT table file name :/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/pdt.table EvtGen:Initializing RadCorr=PHOTOS EvtGen:No RadCorr engine given in EvtGen::EvtGen constructor, will use default EvtPHOTOS. EvtGen:In readDecayFile, reading:/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/DECAY.DEC EvtGen:As requested, PHOTOS will be turned on. EvtGen:VSS_BMIXCPT will generate mixing and CPT/CP effects in mixing: Upsilon(4S) --> B0 + anti-B0 using parameters: delta(m) = 0.502 hbar/ps _freq = 1.67 hbar/mm dgog = 0.00 dGamma = 0.00 hbar/mm q/p = (1.00,0.00) z = (0.00,0.00) tau = 1.53 ps x = 0.770 chi(B0->B0bar) = 0.186 chi(B0bar->B0) = 0.186 Af = (1.00,0.00) Abarf = (0.00,0.00) Afbar = (0.00,0.00) Abarfbar = (1.00,0.00) EvtGen:Redefined Partial wave for D_1+ to D*+ pi0 (2) EvtGen:Redefined Partial wave for D_1+ to D*0 pi+ (2) EvtGen:Redefined Partial wave for D_1- to D*- pi0 (2) EvtGen:Redefined Partial wave for D_1- to anti-D*0 pi- (2) EvtGen:Redefined Partial wave for D_10 to D*0 pi0 (2) EvtGen:Redefined Partial wave for D_10 to D*+ pi- (2) EvtGen:Redefined Partial wave for anti-D_10 to anti-D*0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_10 to D*- pi+ (2) EvtGen:Redefined Partial wave for D_2*+ to D*+ pi0 (2) EvtGen:Redefined Partial wave for D_2*+ to D*0 pi+ (2) EvtGen:Redefined Partial wave for D_2*- to D*- pi0 (2) EvtGen:Redefined Partial wave for D_2*- to anti-D*0 pi- (2) EvtGen:Redefined Partial wave for D_2*0 to D*0 pi0 (2) EvtGen:Redefined Partial wave for D_2*0 to D*+ pi- (2) EvtGen:Redefined Partial wave for anti-D_2*0 to anti-D*0 pi0 (2) EvtGen:Redefined Partial wave for anti-D_2*0 to D*- pi+ (2) EvtGen:Given allowed decays, resetting minMass B_s0*0 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s0*0 5.68 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass anti-B_s10 5.69 to 5.77 EvtGen:Given allowed decays, resetting minMass B_s2*0 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B_s2*0 5.65 to 5.82 EvtGen:Given allowed decays, resetting minMass B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass anti-B'_s10 5.64 to 5.82 EvtGen:Given allowed decays, resetting minMass Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1405)0 0.656 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1800)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass anti-Lambda(1810)0 0.00 to 1.33 EvtGen:Given allowed decays, resetting minMass Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1660)0 0.160 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass anti-Sigma(1775)0 0.00 to 1.25 EvtGen:Given allowed decays, resetting minMass Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c0 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c*0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c*0 2.32 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c+ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c++ 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c-- 2.42 to 2.42 EvtGen:Given allowed decays, resetting minMass Sigma_c*++ 2.25 to 2.42 EvtGen:Given allowed decays, resetting minMass anti-Sigma_c*-- 2.25 to 2.42 EvtGen:Done initializing EvtGen : EvtGenInterface:**************************************************************************** EvtGenInterface:**************************************************************************** EvtGenInterface: EvtGen will correct particle energies if the mass calculated from the EvtGenInterface: 4-vector differs from the hepevt mass by more than 500 keV. EvtGenInterface:**************************************************************************** EvtGenInterface:**************************************************************************** : ****| GENERATORS: generator configuration check PASSED |***** SiAlignmentManager will take alignments from frontier 220050 1 GOOD SiAlignmentManager opening db: frontier run: 220050 version: 1 status: GOOD CdfCalibDbFrontier(SiAlignFrame:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483739 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483741 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483743 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=483745 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 MZLINK. Initialize Link Area /GCHVIR/ for Store 0 NL/NS= 4 1 MZLINK. Initialize Link Area /GCDINA/ for Store 0 NL/NS= 4 4 1************************************************************ * * * G E A N T Version 3.2114 DATE/TIME1070812/**** * * * * R U N 1 * * * ************************************************************ * * * Data structure Date Time GVERSN ZVERSN * * -------------- ---- ---- ------ ------ * * * * INIT 1070812 **** 3.2114 3.79 * * * * KINE 1070812 **** 3.2114 3.79 * * * * HITS 1070812 **** 3.2114 3.79 * * * * DIGI 1070812 **** 3.2114 3.79 * * * * Random number seeds: 9876 54321 * * -------------------- * * * *----------------------------------------------------------* * * * Standard TPAR for this run are * * ------------------------------ * * * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 1. ICOMP = 1. IPHOT = 1. * * IPFIS = 0. IDRAY = 0. IANNI = 1. * * IBREM = 1. IHADR = 1. IMUNU = 1. * * IDCAY = 1. ILOSS = 2. IMULS = 1. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 34 VACUUM B 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 38 VACUUM NoB 1 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 53 VACUUM B 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * * Special TPAR for TMED 58 VACUUM NoB 2 * * ------------------------- * * CUTGAM= 1.00 MeV CUTELE= 1.00 MeV CUTNEU= 10.00 MeV * * CUTHAD= 10.00 MeV CUTMUO= 10.00 MeV * * BCUTE = 1.00 MeV BCUTM = 1.00 MeV * * DCUTE = 10.00 TeV DCUTM = 10.00 TeV PPCUTM= 10.00 MeV * * IPAIR = 0. ICOMP = 0. IPHOT = 0. * * IPFIS = 0. IDRAY = 0. IANNI = 0. * * IBREM = 0. IHADR = 0. IMUNU = 0. * * IDCAY = 1. ILOSS = 0. IMULS = 0. * * IRAYL = 0. ILABS = 0. ISYNC = 0. * * ISTRA = 0. * * * * * ************************************************************ ***** ***** Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/gen.0001.10158.root ***** ***** ***** Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root on Sun Aug 12 22:01:58 2007 ***** CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMUPosition:1.2,47603) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMPPosition:1.3,91693) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CMXPosition:1.2,49871) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. Using drift model Garfield.. MediumType: 0 Media ID: 41 MediumType: 9 Media ID: 41 MediumType: 8 Media ID: 42 MediumType: 9 Media ID: 43 MediumType: 3 Media ID: 44 MediumType: 0 Media ID: 41 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 7 Media ID: 45 MediumType: 0 Media ID: 41 MediumType: 4 Media ID: 46 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 47 MediumType: 0 Media ID: 41 MediumType: 0 Media ID: 48 MediumType: 0 Media ID: 48 MediumType: 10 Media ID: 49 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 1 Media ID: 50 MediumType: 2 Media ID: 51 MediumType: 5 Media ID: 52 ******************************************************** ******** GFLASH-14 *** Parameters ************ ******************************************************** **************** GFLASH STEERING ********************* ** PEM ** PHA ** CEM ** CHA ** WHA ** MPA ISSAMP 1 1 1 1 1 1 1 1 1 1 IFLASH1 4 4 4 4 4 4 4 4 4 4 IFLASH2 0 0 0 0 0 0 0 0 0 0 GFCNEU 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 0.0500 GFCGAM 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 0.0100 GFCPRO 0.0500 0.2500 0.0500 0.2500 0.2500 0.0500 0.2500 0.0500 0.2500 0.2500 CFLASH1 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH3 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 CFLASH4 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 ******************************************************** **************** SHOWER RESPONSE ********************* ** PEM ** PHA ** CEM ** CHA ** WHA ** MPA RSPMIP 0.0776 0.0181 0.1658 0.0534 0.0534 0.1600 1.0000 1.0000 1.0000 0.0160 EBYMIP 0.7110 0.8950 0.6490 0.8840 0.8840 0.5000 1.0000 1.0000 1.0000 1.0000 PBYMIP 1.8200 3.2000 1.8500 2.3000 2.3000 2.2000 3.9000 3.9000 3.9000 3.9000 SAMELM1 0.1270 0.1800 0.1350 0.1900 0.1900 0.1800 0.1000 0.1000 0.1000 0.1800 SAMELM2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMELM3 0.0137 0.1000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD1 0.1600 0.1610 0.1500 0.1300 0.1300 0.0000 0.3600 0.3600 0.3600 0.3600 FLUHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 FLUHAD3 0.0440 0.0440 0.0530 0.0400 0.0400 0.4000 0.0000 0.0000 0.0000 0.0440 SAMHAD1 0.1200 0.3500 0.1800 0.2300 0.2300 0.4000 0.4000 0.4000 0.4000 0.4000 SAMHAD2 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 0.0000 SAMHAD3 0.0100 0.0320 0.0380 0.0430 0.0430 0.0000 0.0000 0.0000 0.0000 0.0000 RLTHAD 32.7000 23.7000 32.7000 23.7000 23.7000 32.7000 23.7000 23.7000 23.7000 23.7000 ECRIT 9.6600 22.0000 9.4800 22.0000 22.0000 10.0000 79.0000 22.0000 52.0000 22.0000 SFREQ 0.8775 0.0000 0.8890 0.0000 0.0000 0.8000 0.2000 0.0000 0.0000 0.0000 EBM 0.2960 0.1050 0.3500 0.1100 0.1100 0.3000 0.0000 0.0000 0.0000 0.0000 ******************************************************** ************ PMT simulation package *************** version 0.0600 simulation mode 7 sw_light 1 sw_gain 1 sw_pedestal 1 light yield 7.00 # of pes/mip pedestal sigma 0.100 snglpe sigma 0.170 mip energy 0.00240 GeV *************************************************** PYEVNT event no. 2 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 0.301 -0.136 979.836 980.162 25.282 4 !p_diffrbar? 21-9902210 2 -0.301 0.136 -979.836 979.838 1.592 ============================================================================== 5 (ud_0) A 12 2101 3 0.301 -0.136 979.832 979.832 0.579 6 (u) V 11 2 3 0.000 0.000 0.004 0.330 0.330 7 (pi0) 11 111 4 -0.331 0.408 -535.659 535.659 0.135 8 pbar- 1 -2212 4 0.030 -0.272 -444.177 444.178 0.938 ============================================================================== 9 (string) 11 92 5 0.301 -0.136 979.836 980.162 25.282 10 n0 1 2112 9 0.110 0.014 612.011 612.012 0.940 11 pi+ 1 211 9 0.613 -0.436 114.420 114.423 0.140 12 pi- 1 -211 9 -0.252 0.752 83.212 83.216 0.140 13 (Sigmabar0) 11 -3212 9 -0.164 -0.432 51.659 51.675 1.193 14 Sigma+ 1 3222 9 0.052 0.440 74.120 74.131 1.189 15 pi- 1 -211 9 -0.257 -0.234 17.777 17.781 0.140 16 pi+ 1 211 9 0.329 -0.193 1.649 1.698 0.140 17 (rho-) 11 -213 9 -0.307 -0.010 2.593 2.700 0.687 18 (pi0) 11 111 9 0.221 0.496 21.236 21.243 0.135 19 pi+ 1 211 9 -0.044 -0.532 1.159 1.284 0.140 20 gamma 1 22 7 -0.288 0.408 -492.942 492.942 0.000 21 gamma 1 22 7 -0.043 0.000 -42.717 42.717 0.000 22 Lambdabar0 1 -3122 13 -0.159 -0.337 49.048 49.062 1.116 23 gamma 1 22 13 -0.005 -0.095 2.611 2.613 0.000 24 pi- 1 -211 17 -0.020 0.250 1.604 1.629 0.140 25 (pi0) 11 111 17 -0.287 -0.259 0.989 1.070 0.135 26 gamma 1 22 18 0.213 0.344 16.297 16.302 0.000 27 gamma 1 22 18 0.008 0.152 4.939 4.941 0.000 28 gamma 1 22 25 -0.124 -0.202 0.568 0.616 0.000 29 e- 1 11 25 -0.043 -0.015 0.115 0.124 0.001 30 e+ 1 -11 25 -0.119 -0.042 0.306 0.331 0.001 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 3 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 -0.110 -0.304 979.999 980.000 0.938 4 !pbar-! 21 -2212 2 0.110 0.304 -979.999 980.000 0.938 ============================================================================== 5 p+ 1 2212 3 -0.110 -0.304 979.999 980.000 0.938 6 pbar- 1 -2212 4 0.110 0.304 -979.999 980.000 0.938 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 4 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 -0.134 0.017 980.000 980.000 0.938 4 !pbar-! 21 -2212 2 0.134 -0.017 -980.000 980.000 0.938 ============================================================================== 5 p+ 1 2212 3 -0.134 0.017 980.000 980.000 0.938 6 pbar- 1 -2212 4 0.134 -0.017 -980.000 980.000 0.938 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGenFinding B Mesons and about to enter DecayAll EvtGenFinding B Mesons and about to enter DecayAll CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) mxgkin 250 CHKLOG: ces_data:Frz_5_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_5_set1_31stp_2.dab CHKLOG: ces_data:Frz_10_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_10_set1_31stp_2.dab CHKLOG: ces_data:Frz_25_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_25_set1_31stp_2.dab CHKLOG: ces_data:Frz_50_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_50_set1_31stp_2.dab CHKLOG: ces_data:Frz_100_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_100_set1_31stp_2.dab CHKLOG: ces_data:Frz_150_Set1_31STP_2.Dab logical translation defaults to /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/cesData/frz_150_set1_31stp_2.dab %MostRecent: creating a 100% full SiDBInfoSet with dummy SiDBInfos. This may take a while. %MostRecent: done with creating a full SiDBInfoSet. CdfCalibDbFrontier(SiChipPed:1.2,489475) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Pedestals are present for run 222530 Retrieved run=222529 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiStripDH:1.2,482699) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Dead channels are present for run 222530 Retrieved run=221805 version=1 status=COMPLETE from the database. PYEVNT event no. 5 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.179 0.066 70.392 70.392 0.000 4 !g! 21 21 2 -0.044 1.039 -83.759 83.765 0.000 5 !g! 21 21 3 0.813 0.752 49.753 49.766 0.000 6 !g! 21 21 4 2.359 2.419 2.610 4.270 0.000 7 !g! 21 21 0 7.857 3.577 33.471 34.566 0.000 8 !g! 21 21 0 -4.685 -0.406 18.893 19.469 0.000 ============================================================================== 9 (ud_0) A 12 2101 1 -0.553 0.204 765.243 765.244 0.579 10 (g) I 12 21 7 1.831 0.465 11.049 11.209 0.000 11 (g) I 12 21 7 4.134 1.590 14.753 15.403 0.000 12 (g) I 12 21 7 1.281 1.313 6.633 6.882 0.000 13 (ud_0bar) V 11 -2101 2 -0.048 -0.321 -856.778 856.778 0.579 14 (u) A 12 2 1 0.732 -0.270 115.669 115.672 0.330 15 (g) I 12 21 3 -0.975 -0.663 17.113 17.154 0.000 16 (g) I 12 21 0 -0.676 0.802 26.369 26.390 0.000 17 (g) I 12 21 8 0.138 0.258 0.890 0.937 0.000 18 (g) I 12 21 8 -0.190 0.501 1.948 2.021 0.000 19 (g) I 12 21 8 -4.022 -0.956 17.091 17.584 0.000 20 (g) I 12 21 0 0.676 -0.802 1.894 2.165 0.000 21 (g) I 12 21 0 -1.048 -1.317 -5.051 5.324 0.000 22 (g) I 12 21 0 1.048 1.317 -32.825 32.868 0.000 23 (g) I 12 21 4 -1.735 -0.331 -67.035 67.059 0.000 24 (g) I 12 21 4 -0.963 -0.513 -12.017 12.067 0.000 25 (g) I 12 21 4 0.278 -0.560 -3.791 3.843 0.000 26 (ubar) V 11 -2 2 0.092 -0.718 -1.154 1.402 0.330 ============================================================================== 27 (string) 11 92 9 6.645 3.252 -59.100 1655.516 1654.444 28 pi- 1 -211 27 -0.518 0.389 637.132 637.132 0.140 29 (Delta++) 11 2224 27 0.024 0.120 66.367 66.380 1.301 30 (rho-) 11 -213 27 0.268 -0.144 51.359 51.365 0.664 31 (omega) 11 223 27 0.388 0.199 7.141 7.197 0.782 32 (pi0) 11 111 27 0.599 -0.259 3.134 3.205 0.135 33 (omega) 11 223 27 0.503 0.092 4.694 4.787 0.790 34 (rho+) 11 213 27 1.847 1.552 13.488 13.726 0.798 35 pi- 1 -211 27 0.338 0.020 0.830 0.907 0.140 36 (rho+) 11 213 27 2.055 0.556 5.779 6.242 1.015 37 pi- 1 -211 27 -0.370 -0.035 1.727 1.772 0.140 38 pi+ 1 211 27 0.332 0.135 0.394 0.551 0.140 39 (omega) 11 223 27 0.659 0.226 3.144 3.313 0.780 40 (pi0) 11 111 27 0.398 0.774 0.606 1.069 0.135 41 (eta) 11 221 27 -0.228 -0.354 0.678 0.968 0.547 42 K- 1 -321 27 0.399 0.519 -0.464 0.942 0.494 43 (K*0) 11 313 27 -0.086 -0.378 -0.609 1.133 0.873 44 (rho+) 11 213 27 -0.025 -0.159 -2.855 2.975 0.823 45 (rho-) 11 -213 27 0.211 0.365 -1.763 1.929 0.659 46 pi+ 1 211 27 -0.044 -0.235 -3.750 3.761 0.140 47 (omega) 11 223 27 0.104 -0.208 -13.845 13.869 0.771 48 (omega) 11 223 27 -0.137 0.596 -93.256 93.261 0.776 49 (eta) 11 221 27 -0.116 -0.027 -103.468 103.469 0.547 50 pi- 1 -211 27 -0.035 -0.386 -88.643 88.644 0.140 51 nbar0 1 -2112 27 0.081 -0.106 -546.921 546.922 0.940 52 (string) 11 92 14 -6.645 -3.252 59.100 304.484 298.602 53 (eta) 11 221 52 -0.043 -0.270 40.343 40.348 0.547 54 (pi0) 11 111 52 0.161 0.027 23.999 24.000 0.135 55 (pi0) 11 111 52 0.574 -0.132 17.158 17.169 0.135 56 (K*+) 11 323 52 -0.771 0.033 36.018 36.037 0.877 57 (K*-) 11 -323 52 0.098 0.034 17.058 17.083 0.926 58 (omega) 11 223 52 -0.248 0.202 5.176 5.245 0.784 59 pi+ 1 211 52 -0.680 -0.427 19.225 19.242 0.140 60 (omega) 11 223 52 -2.116 0.455 9.865 10.130 0.784 61 pi- 1 -211 52 0.232 -0.075 1.179 1.212 0.140 62 (K*+) 11 323 52 -0.791 0.236 4.448 4.603 0.848 63 (phi) 11 333 52 -0.666 -0.516 3.391 3.639 1.016 64 (K*bar0) 11 -313 52 -0.120 -0.212 2.601 2.756 0.878 65 (rho-) 11 -213 52 -0.302 -0.800 -2.551 2.790 0.737 66 (rho+) 11 213 52 0.259 -0.157 0.121 0.804 0.734 67 (rho-) 11 -213 52 -0.399 0.206 -7.871 7.919 0.746 68 pi+ 1 211 52 0.331 -0.204 -7.309 7.321 0.140 69 pi- 1 -211 52 -0.614 -0.199 -4.727 4.773 0.140 70 (omega) 11 223 52 0.176 0.202 -23.785 23.799 0.780 71 pi+ 1 211 52 -0.240 0.040 -2.391 2.408 0.140 72 (K*0) 11 313 52 -0.577 -0.072 -23.449 23.474 0.909 73 (Sigma*-) 11 3114 52 0.001 -0.676 -19.174 19.234 1.358 74 pi+ 1 211 52 0.147 0.511 -3.860 3.899 0.140 75 pbar- 1 -2212 52 -1.399 -0.752 -21.631 21.709 0.938 76 (eta') 11 331 52 0.344 -0.706 -4.731 4.891 0.958 77 p+ 1 2212 29 -0.084 0.360 51.644 51.653 0.938 78 pi+ 1 211 29 0.108 -0.240 14.723 14.726 0.140 79 pi- 1 -211 30 0.192 0.163 11.148 11.152 0.140 80 (pi0) 11 111 30 0.075 -0.307 40.211 40.213 0.135 81 pi- 1 -211 31 0.070 -0.062 1.762 1.770 0.140 82 pi+ 1 211 31 0.093 0.288 1.395 1.434 0.140 83 (pi0) 11 111 31 0.225 -0.027 3.984 3.992 0.135 84 gamma 1 22 32 0.544 -0.274 2.831 2.896 0.000 85 gamma 1 22 32 0.055 0.015 0.303 0.308 0.000 86 pi- 1 -211 33 0.075 0.175 1.660 1.677 0.140 87 pi+ 1 211 33 0.491 0.008 2.313 2.369 0.140 88 (pi0) 11 111 33 -0.064 -0.091 0.721 0.742 0.135 89 pi+ 1 211 34 0.036 0.283 2.078 2.102 0.140 90 (pi0) 11 111 34 1.812 1.269 11.410 11.623 0.135 91 pi+ 1 211 36 1.598 0.135 3.159 3.546 0.140 92 (pi0) 11 111 36 0.457 0.422 2.620 2.696 0.135 93 pi- 1 -211 39 0.002 0.100 0.341 0.382 0.140 94 pi+ 1 211 39 0.456 0.266 1.435 1.535 0.140 95 (pi0) 11 111 39 0.201 -0.140 1.368 1.396 0.135 96 gamma 1 22 40 0.010 0.073 0.090 0.116 0.000 97 gamma 1 22 40 0.388 0.700 0.517 0.953 0.000 98 gamma 1 22 41 0.014 -0.395 0.584 0.705 0.000 99 gamma 1 22 41 -0.241 0.041 0.094 0.262 0.000 100 K+ 1 321 43 -0.187 -0.054 -0.545 0.760 0.494 101 pi- 1 -211 43 0.100 -0.324 -0.064 0.373 0.140 102 pi+ 1 211 44 0.036 -0.194 -2.805 2.815 0.140 103 (pi0) 11 111 44 -0.061 0.035 -0.050 0.160 0.135 104 pi- 1 -211 45 0.005 -0.027 -1.157 1.166 0.140 105 (pi0) 11 111 45 0.207 0.392 -0.606 0.763 0.135 106 pi+ 1 211 47 -0.217 -0.115 -4.762 4.771 0.140 107 pi- 1 -211 47 0.148 -0.177 -3.652 3.662 0.140 108 (pi0) 11 111 47 0.173 0.083 -5.432 5.437 0.135 109 pi- 1 -211 48 -0.099 0.324 -21.603 21.606 0.140 110 pi+ 1 211 48 -0.082 -0.015 -43.554 43.554 0.140 111 (pi0) 11 111 48 0.043 0.287 -28.099 28.101 0.135 112 gamma 1 22 49 -0.064 0.211 -79.099 79.099 0.000 113 gamma 1 22 49 -0.053 -0.237 -24.368 24.370 0.000 114 gamma 1 22 53 0.059 -0.414 23.367 23.370 0.000 115 gamma 1 22 53 -0.102 0.143 16.976 16.977 0.000 116 gamma 1 22 54 0.121 -0.031 19.225 19.225 0.000 117 gamma 1 22 54 0.040 0.059 4.774 4.774 0.000 118 gamma 1 22 55 0.418 -0.060 10.670 10.678 0.000 119 gamma 1 22 55 0.155 -0.073 6.488 6.490 0.000 120 (K0) 11 311 56 -0.350 -0.090 27.170 27.177 0.498 121 pi+ 1 211 56 -0.421 0.123 8.848 8.860 0.140 122 K- 1 -321 57 0.117 -0.055 5.343 5.367 0.494 123 (pi0) 11 111 57 -0.019 0.089 11.715 11.716 0.135 124 pi- 1 -211 58 -0.061 -0.050 0.365 0.399 0.140 125 pi+ 1 211 58 -0.196 -0.007 3.179 3.188 0.140 126 (pi0) 11 111 58 0.009 0.260 1.632 1.658 0.135 127 pi+ 1 211 60 -0.659 0.054 2.265 2.364 0.140 128 pi- 1 -211 60 -0.321 0.023 2.586 2.609 0.140 129 (pi0) 11 111 60 -1.137 0.377 5.014 5.157 0.135 130 K+ 1 321 62 -0.209 0.233 2.305 2.378 0.494 131 (pi0) 11 111 62 -0.583 0.003 2.143 2.225 0.135 132 K- 1 -321 63 -0.423 -0.274 2.088 2.204 0.494 133 K+ 1 321 63 -0.243 -0.242 1.304 1.435 0.494 134 K- 1 -321 64 -0.347 -0.185 2.016 2.113 0.494 135 pi+ 1 211 64 0.227 -0.028 0.584 0.643 0.140 136 pi- 1 -211 65 -0.010 -0.795 -1.829 1.999 0.140 137 (pi0) 11 111 65 -0.293 -0.006 -0.722 0.791 0.135 138 pi+ 1 211 66 0.296 -0.121 -0.234 0.420 0.140 139 (pi0) 11 111 66 -0.036 -0.037 0.356 0.384 0.135 140 pi- 1 -211 67 -0.250 0.067 -7.181 7.187 0.140 141 (pi0) 11 111 67 -0.150 0.139 -0.691 0.733 0.135 142 pi- 1 -211 70 -0.018 0.277 -12.640 12.644 0.140 143 pi+ 1 211 70 0.078 0.085 -2.262 2.269 0.140 144 (pi0) 11 111 70 0.116 -0.160 -8.882 8.886 0.135 145 K+ 1 321 72 -0.254 -0.242 -18.288 18.298 0.494 146 pi- 1 -211 72 -0.323 0.170 -5.161 5.176 0.140 147 Lambda0 1 3122 73 0.092 -0.736 -16.753 16.807 1.116 148 pi- 1 -211 73 -0.090 0.060 -2.421 2.428 0.140 149 pi+ 1 211 76 0.107 -0.061 -0.319 0.370 0.140 150 pi- 1 -211 76 0.023 -0.057 -0.569 0.589 0.140 151 (eta) 11 221 76 0.213 -0.588 -3.843 3.932 0.547 152 gamma 1 22 80 -0.031 -0.026 3.241 3.241 0.000 153 gamma 1 22 80 0.106 -0.281 36.970 36.971 0.000 154 gamma 1 22 83 0.012 0.032 0.988 0.988 0.000 155 gamma 1 22 83 0.213 -0.059 2.996 3.004 0.000 156 gamma 1 22 88 -0.053 -0.094 0.722 0.730 0.000 157 gamma 1 22 88 -0.011 0.003 -0.002 0.011 0.000 158 gamma 1 22 90 1.547 1.023 9.558 9.736 0.000 159 gamma 1 22 90 0.264 0.246 1.852 1.887 0.000 160 gamma 1 22 92 0.106 0.116 0.933 0.946 0.000 161 gamma 1 22 92 0.351 0.306 1.687 1.750 0.000 162 gamma 1 22 95 0.095 -0.033 0.876 0.882 0.000 163 gamma 1 22 95 0.106 -0.107 0.491 0.514 0.000 164 gamma 1 22 103 0.042 -0.005 -0.014 0.044 0.000 165 gamma 1 22 103 -0.102 0.041 -0.036 0.116 0.000 166 gamma 1 22 105 0.022 0.157 -0.271 0.314 0.000 167 gamma 1 22 105 0.184 0.236 -0.335 0.449 0.000 168 gamma 1 22 108 0.116 -0.008 -1.998 2.001 0.000 169 gamma 1 22 108 0.057 0.092 -3.434 3.435 0.000 170 gamma 1 22 111 0.013 0.261 -19.762 19.763 0.000 171 gamma 1 22 111 0.031 0.026 -8.337 8.337 0.000 172 K_L0 1 130 120 -0.350 -0.090 27.170 27.177 0.498 173 gamma 1 22 123 -0.042 -0.007 1.396 1.397 0.000 174 gamma 1 22 123 0.023 0.096 10.319 10.319 0.000 175 gamma 1 22 126 -0.002 0.253 1.228 1.254 0.000 176 gamma 1 22 126 0.010 0.006 0.404 0.404 0.000 177 gamma 1 22 129 -0.177 0.079 1.026 1.044 0.000 178 gamma 1 22 129 -0.959 0.299 3.988 4.113 0.000 179 gamma 1 22 131 -0.452 -0.047 1.735 1.793 0.000 180 gamma 1 22 131 -0.130 0.050 0.408 0.431 0.000 181 gamma 1 22 137 -0.282 0.032 -0.636 0.696 0.000 182 gamma 1 22 137 -0.011 -0.037 -0.087 0.095 0.000 183 gamma 1 22 139 -0.087 -0.015 0.197 0.216 0.000 184 gamma 1 22 139 0.051 -0.022 0.159 0.168 0.000 185 gamma 1 22 141 -0.154 0.143 -0.694 0.726 0.000 186 gamma 1 22 141 0.004 -0.004 0.004 0.007 0.000 187 gamma 1 22 144 0.083 -0.010 -2.698 2.700 0.000 188 gamma 1 22 144 0.032 -0.150 -6.184 6.186 0.000 189 pi- 1 -211 151 -0.072 -0.204 -1.528 1.550 0.140 190 pi+ 1 211 151 0.181 -0.181 -1.043 1.083 0.140 191 (pi0) 11 111 151 0.104 -0.203 -1.273 1.300 0.135 192 gamma 1 22 191 0.117 -0.185 -0.885 0.912 0.000 193 gamma 1 22 191 -0.013 -0.018 -0.387 0.388 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 6 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.903 0.397 60.766 60.774 0.000 4 !ubar! 21 -2 2 0.501 -0.833 -79.857 79.863 0.000 5 !g! 21 21 3 -0.799 0.351 53.733 53.741 0.000 6 !g! 21 21 4 1.392 1.285 1.761 2.586 0.000 7 !g! 21 21 0 1.352 -1.254 50.302 50.335 0.000 8 !g! 21 21 0 -0.759 2.891 5.193 5.992 0.000 ============================================================================== 9 (ubar) A 12 -2 4 0.722 -2.233 -78.753 78.789 0.330 10 (g) I 12 21 4 -0.712 0.091 3.957 4.021 0.000 11 (g) I 12 21 8 0.634 0.589 0.699 1.113 0.000 12 (g) I 12 21 8 -1.250 2.061 8.163 8.511 0.000 13 (g) I 12 21 0 -0.263 -0.001 4.360 4.368 0.000 14 (g) I 12 21 0 -1.388 0.254 65.701 65.716 0.000 15 (g) I 12 21 0 -1.721 -1.256 119.458 119.477 0.000 16 (u) V 11 2 1 0.366 0.129 291.335 291.336 0.330 17 (ud_0) A 12 2101 1 0.538 -0.526 435.314 435.315 0.579 18 (g) I 12 21 7 1.696 -0.977 32.427 32.486 0.000 19 (g) I 12 21 7 -0.272 -0.095 11.065 11.069 0.000 20 (g) I 12 21 7 -0.215 0.058 3.141 3.149 0.000 21 (g) I 12 21 0 -0.121 -0.452 -1.179 1.268 0.000 22 (g) I 12 21 0 0.263 0.001 -1.677 1.697 0.000 23 (g) I 12 21 0 -0.194 -0.178 -2.391 2.406 0.000 24 (g) I 12 21 0 -1.639 0.273 -78.328 78.346 0.000 25 (g) I 12 21 0 0.121 0.452 -1.054 1.153 0.000 26 (g) I 12 21 0 1.721 1.256 -2.245 3.095 0.000 27 (g) I 12 21 0 1.639 -0.273 0.329 1.694 0.000 28 (g) I 12 21 0 1.388 -0.254 0.883 1.665 0.000 29 (g) I 12 21 0 0.194 0.178 0.121 0.290 0.000 30 (g) I 12 21 4 -0.095 -0.419 -0.058 0.433 0.000 31 (g) I 12 21 4 -0.910 0.488 0.269 1.067 0.000 32 (ud_0bar) V 11 -2101 2 -0.501 0.833 -811.536 811.537 0.579 ============================================================================== 33 (string) 11 92 9 -3.613 -0.366 414.919 573.330 395.646 34 (omega) 11 223 33 0.557 -1.352 -52.144 52.170 0.785 35 (Deltabar--) 11 -2224 33 0.277 -0.611 -17.891 17.947 1.235 36 (rho0) 11 113 33 -0.177 -0.036 -2.249 2.384 0.769 37 p+ 1 2212 33 0.087 -0.378 -2.733 2.916 0.938 38 pi+ 1 211 33 -0.347 0.277 -0.363 0.590 0.140 39 (rho-) 11 -213 33 0.106 -0.498 -1.062 1.411 0.778 40 (omega) 11 223 33 0.050 0.737 -1.212 1.617 0.776 41 (rho+) 11 213 33 -0.147 -0.121 -0.130 0.683 0.643 42 (rho-) 11 -213 33 0.118 0.051 1.739 1.898 0.749 43 (rho+) 11 213 33 -0.354 0.384 2.765 2.920 0.782 44 pi- 1 -211 33 0.343 0.848 1.329 1.620 0.140 45 (K*bar0) 11 -313 33 -1.348 0.634 11.960 12.088 0.932 46 (K0) 11 311 33 0.019 0.401 1.801 1.911 0.498 47 (omega) 11 223 33 -0.657 0.055 31.955 31.972 0.779 48 (eta) 11 221 33 -0.476 0.043 11.986 12.008 0.547 49 (rho+) 11 213 33 -0.216 -0.408 52.090 52.093 0.369 50 (rho-) 11 -213 33 -0.675 0.300 55.523 55.533 0.800 51 (K*bar0) 11 -313 33 -0.579 -0.510 89.632 89.640 0.929 52 (K*0) 11 313 33 -0.606 0.086 191.428 191.431 0.878 53 pi+ 1 211 33 0.410 -0.270 40.496 40.499 0.140 54 (string) 11 92 17 3.613 0.366 -414.919 1386.670 1323.134 55 (omega) 11 223 54 0.333 -0.012 325.184 325.185 0.779 56 n0 1 2112 54 1.138 -0.873 90.088 90.104 0.940 57 (Deltabar+) 11 -1114 54 -0.385 0.026 30.420 30.448 1.257 58 (pi0) 11 111 54 0.309 -0.282 20.932 20.937 0.135 59 (Sigma*-) 11 3114 54 0.436 -0.445 11.038 11.143 1.392 60 (K0) 11 311 54 0.023 -0.230 0.497 0.740 0.498 61 (rho+) 11 213 54 -0.109 0.183 1.582 1.713 0.622 62 pi- 1 -211 54 -0.153 -0.414 1.044 1.142 0.140 63 nbar0 1 -2112 54 0.088 0.122 -0.391 1.029 0.940 64 n0 1 2112 54 0.423 -0.107 -0.343 1.091 0.940 65 (rho0) 11 113 54 -0.257 0.368 -0.890 1.303 0.838 66 (rho+) 11 213 54 0.139 -1.014 -13.215 13.273 0.706 67 (rho0) 11 113 54 -0.959 0.016 -15.041 15.088 0.703 68 pi- 1 -211 54 -0.259 0.468 -12.206 12.219 0.140 69 pi+ 1 211 54 0.088 0.274 -12.393 12.397 0.140 70 K- 1 -321 54 -0.220 0.242 -6.758 6.783 0.494 71 (K*+) 11 323 54 -0.105 -0.118 -3.814 3.923 0.908 72 (K*-) 11 -323 54 0.394 0.444 -14.931 14.970 0.911 73 (K*+) 11 323 54 0.158 0.143 -1.217 1.430 0.720 74 K- 1 -321 54 0.024 0.060 0.160 0.523 0.494 75 (K*0) 11 313 54 0.832 0.011 -2.404 2.698 0.899 76 (rho+) 11 213 54 -0.094 0.260 -0.854 1.194 0.788 77 (rho-) 11 -213 54 1.259 0.325 -0.792 1.804 0.967 78 pi+ 1 211 54 -0.040 0.088 0.217 0.276 0.140 79 (pi0) 11 111 54 -0.032 0.086 0.037 0.168 0.135 80 (rho-) 11 -213 54 1.297 -0.561 0.360 1.656 0.786 81 pi+ 1 211 54 0.551 -0.160 0.286 0.656 0.140 82 pi- 1 -211 54 -0.829 0.617 -1.677 1.974 0.140 83 (rho+) 11 213 54 0.316 0.050 -0.562 1.087 0.874 84 (omega) 11 223 54 -0.269 -0.156 -0.875 1.219 0.789 85 (rho0) 11 113 54 0.149 0.215 -4.839 4.928 0.896 86 (eta) 11 221 54 -0.677 0.501 -599.450 599.451 0.547 87 pbar- 1 -2212 54 0.043 0.239 -204.115 204.117 0.938 88 pi+ 1 211 34 0.084 -0.411 -19.888 19.893 0.140 89 pi- 1 -211 34 0.365 -0.920 -26.431 26.450 0.140 90 (pi0) 11 111 34 0.108 -0.021 -5.824 5.827 0.135 91 pbar- 1 -2212 35 0.223 -0.264 -14.432 14.466 0.938 92 pi- 1 -211 35 0.054 -0.346 -3.460 3.480 0.140 93 pi- 1 -211 36 -0.061 0.289 -1.625 1.657 0.140 94 pi+ 1 211 36 -0.115 -0.325 -0.625 0.727 0.140 95 pi- 1 -211 39 0.293 -0.056 -0.129 0.353 0.140 96 (pi0) 11 111 39 -0.187 -0.442 -0.933 1.058 0.135 97 pi+ 1 211 40 -0.008 -0.091 -0.211 0.269 0.140 98 pi- 1 -211 40 0.140 0.434 -0.478 0.675 0.140 99 (pi0) 11 111 40 -0.082 0.393 -0.523 0.673 0.135 100 pi+ 1 211 41 -0.274 -0.285 -0.046 0.422 0.140 101 (pi0) 11 111 41 0.127 0.164 -0.084 0.261 0.135 102 pi- 1 -211 42 -0.215 -0.034 1.294 1.320 0.140 103 (pi0) 11 111 42 0.333 0.084 0.445 0.578 0.135 104 pi+ 1 211 43 0.146 0.135 1.633 1.651 0.140 105 (pi0) 11 111 43 -0.500 0.249 1.132 1.269 0.135 106 K- 1 -321 45 -1.263 0.338 8.793 8.903 0.494 107 pi+ 1 211 45 -0.085 0.296 3.167 3.185 0.140 108 K_S0 1 310 46 0.019 0.401 1.801 1.911 0.498 109 gamma 1 22 47 -0.386 -0.037 28.287 28.290 0.000 110 (pi0) 11 111 47 -0.271 0.092 3.668 3.682 0.135 111 (pi0) 11 111 48 -0.330 0.055 5.184 5.197 0.135 112 (pi0) 11 111 48 -0.036 0.081 2.858 2.863 0.135 113 (pi0) 11 111 48 -0.110 -0.093 3.944 3.949 0.135 114 pi+ 1 211 49 -0.139 -0.380 35.036 35.038 0.140 115 (pi0) 11 111 49 -0.077 -0.027 17.054 17.055 0.135 116 pi- 1 -211 50 -0.233 0.485 36.205 36.209 0.140 117 (pi0) 11 111 50 -0.441 -0.185 19.318 19.324 0.135 118 K- 1 -321 51 -0.179 -0.522 67.592 67.596 0.494 119 pi+ 1 211 51 -0.400 0.013 22.040 22.044 0.140 120 (K0) 11 311 52 -0.162 0.121 135.209 135.210 0.498 121 (pi0) 11 111 52 -0.444 -0.035 56.219 56.221 0.135 122 gamma 1 22 55 0.346 0.010 56.164 56.165 0.000 123 (pi0) 11 111 55 -0.013 -0.022 269.020 269.020 0.135 124 nbar0 1 -2112 57 -0.226 0.257 23.624 23.645 0.940 125 pi+ 1 211 57 -0.159 -0.232 6.795 6.803 0.140 126 gamma 1 22 58 0.133 -0.063 9.637 9.638 0.000 127 gamma 1 22 58 0.176 -0.219 11.295 11.299 0.000 128 Lambda0 1 3122 59 0.275 -0.156 8.845 8.921 1.116 129 pi- 1 -211 59 0.161 -0.289 2.193 2.222 0.140 130 K_S0 1 310 60 0.023 -0.230 0.497 0.740 0.498 131 pi+ 1 211 61 0.051 0.353 1.025 1.095 0.140 132 (pi0) 11 111 61 -0.160 -0.170 0.556 0.618 0.135 133 pi+ 1 211 65 -0.446 0.026 -0.709 0.850 0.140 134 pi- 1 -211 65 0.190 0.342 -0.182 0.453 0.140 135 pi+ 1 211 66 0.313 -0.195 -4.017 4.036 0.140 136 (pi0) 11 111 66 -0.174 -0.820 -9.198 9.237 0.135 137 pi- 1 -211 67 0.015 0.060 -0.912 0.925 0.140 138 pi+ 1 211 67 -0.974 -0.043 -14.128 14.163 0.140 139 (K0) 11 311 71 0.043 -0.077 -1.206 1.308 0.498 140 pi+ 1 211 71 -0.148 -0.042 -2.607 2.616 0.140 141 (Kbar0) 11 -311 72 0.193 0.020 -5.227 5.254 0.498 142 pi- 1 -211 72 0.201 0.424 -9.704 9.716 0.140 143 (K0) 11 311 73 0.180 0.038 -0.666 0.851 0.498 144 pi+ 1 211 73 -0.022 0.105 -0.551 0.578 0.140 145 K+ 1 321 75 0.298 -0.136 -1.641 1.745 0.494 146 pi- 1 -211 75 0.535 0.147 -0.763 0.953 0.140 147 pi+ 1 211 76 -0.289 -0.078 -0.117 0.350 0.140 148 (pi0) 11 111 76 0.194 0.338 -0.737 0.844 0.135 149 pi- 1 -211 77 0.832 -0.156 -0.124 0.866 0.140 150 (pi0) 11 111 77 0.428 0.480 -0.668 0.937 0.135 151 gamma 1 22 79 0.036 -0.004 0.041 0.055 0.000 152 gamma 1 22 79 -0.067 0.091 -0.004 0.113 0.000 153 pi- 1 -211 80 -0.027 -0.172 0.103 0.246 0.140 154 (pi0) 11 111 80 1.324 -0.388 0.257 1.410 0.135 155 pi+ 1 211 83 0.201 0.290 0.073 0.386 0.140 156 (pi0) 11 111 83 0.115 -0.240 -0.635 0.701 0.135 157 pi- 1 -211 84 0.018 -0.151 -0.532 0.571 0.140 158 pi+ 1 211 84 -0.001 0.117 -0.026 0.184 0.140 159 (pi0) 11 111 84 -0.287 -0.122 -0.316 0.464 0.135 160 pi+ 1 211 85 -0.294 -0.084 -1.157 1.205 0.140 161 pi- 1 -211 85 0.443 0.300 -3.682 3.723 0.140 162 pi+ 1 211 86 -0.433 0.256 -335.635 335.635 0.140 163 pi- 1 -211 86 -0.214 0.135 -192.773 192.773 0.140 164 (pi0) 11 111 86 -0.030 0.110 -71.043 71.043 0.135 165 gamma 1 22 90 -0.030 0.011 -1.272 1.272 0.000 166 gamma 1 22 90 0.138 -0.032 -4.553 4.555 0.000 167 gamma 1 22 96 -0.165 -0.446 -0.887 1.007 0.000 168 gamma 1 22 96 -0.022 0.005 -0.046 0.051 0.000 169 gamma 1 22 99 0.031 0.148 -0.154 0.215 0.000 170 gamma 1 22 99 -0.113 0.246 -0.369 0.458 0.000 171 gamma 1 22 101 0.142 0.173 -0.062 0.233 0.000 172 gamma 1 22 101 -0.016 -0.009 -0.022 0.029 0.000 173 gamma 1 22 103 0.189 -0.005 0.302 0.356 0.000 174 gamma 1 22 103 0.144 0.089 0.143 0.222 0.000 175 gamma 1 22 105 -0.498 0.249 1.056 1.194 0.000 176 gamma 1 22 105 -0.002 0.001 0.075 0.075 0.000 177 gamma 1 22 110 -0.105 -0.025 0.962 0.968 0.000 178 gamma 1 22 110 -0.166 0.117 2.706 2.713 0.000 179 gamma 1 22 111 -0.004 -0.022 0.525 0.525 0.000 180 gamma 1 22 111 -0.326 0.077 4.659 4.671 0.000 181 gamma 1 22 112 0.016 0.028 0.142 0.146 0.000 182 gamma 1 22 112 -0.052 0.053 2.716 2.717 0.000 183 gamma 1 22 113 -0.052 -0.008 0.393 0.397 0.000 184 gamma 1 22 113 -0.059 -0.085 3.551 3.552 0.000 185 gamma 1 22 115 -0.058 0.021 14.851 14.851 0.000 186 gamma 1 22 115 -0.019 -0.048 2.203 2.204 0.000 187 gamma 1 22 117 -0.206 -0.095 11.801 11.804 0.000 188 gamma 1 22 117 -0.235 -0.090 7.516 7.520 0.000 189 K_S0 1 310 120 -0.162 0.121 135.209 135.210 0.498 190 gamma 1 22 121 -0.436 -0.030 49.929 49.931 0.000 191 gamma 1 22 121 -0.007 -0.005 6.290 6.290 0.000 192 gamma 1 22 123 -0.038 -0.031 36.334 36.334 0.000 193 gamma 1 22 123 0.025 0.009 232.686 232.686 0.000 194 gamma 1 22 132 0.020 -0.044 0.132 0.140 0.000 195 gamma 1 22 132 -0.180 -0.126 0.425 0.478 0.000 196 gamma 1 22 136 -0.038 -0.278 -2.456 2.472 0.000 197 gamma 1 22 136 -0.136 -0.541 -6.741 6.765 0.000 198 K_L0 1 130 139 0.043 -0.077 -1.206 1.308 0.498 199 K_S0 1 310 141 0.193 0.020 -5.227 5.254 0.498 200 K_L0 1 130 143 0.180 0.038 -0.666 0.851 0.498 201 gamma 1 22 148 0.143 0.308 -0.533 0.632 0.000 202 gamma 1 22 148 0.051 0.029 -0.204 0.212 0.000 203 gamma 1 22 150 0.202 0.231 -0.223 0.380 0.000 204 gamma 1 22 150 0.225 0.250 -0.445 0.558 0.000 205 gamma 1 22 154 0.304 -0.083 0.117 0.336 0.000 206 e+ 1 -11 154 0.100 -0.030 0.014 0.105 0.001 207 e- 1 11 154 0.921 -0.276 0.126 0.970 0.001 208 gamma 1 22 156 0.103 -0.093 -0.407 0.430 0.000 209 gamma 1 22 156 0.012 -0.147 -0.228 0.271 0.000 210 gamma 1 22 159 -0.083 -0.021 -0.179 0.199 0.000 211 gamma 1 22 159 -0.204 -0.101 -0.137 0.265 0.000 212 gamma 1 22 164 -0.046 0.134 -50.990 50.990 0.000 213 gamma 1 22 164 0.016 -0.025 -20.053 20.053 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 7 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -0.432 0.622 25.993 26.004 0.000 4 !ubar! 21 -2 2 -0.565 -1.024 -0.228 1.191 0.000 5 !u! 21 2 3 1.549 -1.251 7.182 7.453 0.000 6 !ubar! 21 -2 4 -0.290 -0.526 -0.117 0.612 0.000 7 !u! 21 2 0 0.520 -0.348 6.139 6.180 0.330 8 !ubar! 21 -2 0 0.739 -1.430 0.926 1.886 0.330 ============================================================================== 9 (u) A 12 2 7 0.520 -0.348 6.139 6.180 0.330 10 (g) I 12 21 0 0.654 -0.560 18.878 18.898 0.000 11 (g) I 12 21 0 0.422 -0.905 0.320 1.049 0.000 12 (ubar) V 11 -2 8 0.739 -1.430 0.926 1.886 0.330 13 (ubar) A 12 -2 3 -1.361 2.086 8.440 8.806 0.330 14 (d) V 11 1 1 -0.253 -0.643 194.854 194.856 0.330 15 (uu_1) A 12 2203 1 0.685 0.022 738.531 738.531 0.771 16 (g) I 12 21 3 -0.895 -0.711 10.261 10.324 0.000 17 (g) I 12 21 0 -0.654 0.560 0.214 0.887 0.000 18 (g) I 12 21 0 -0.422 0.905 -24.844 24.864 0.000 19 (ud_1bar) V 11 -2103 2 0.565 1.024 -953.719 953.720 0.771 ============================================================================== 20 (string) 11 92 9 2.334 -3.242 26.264 28.012 8.884 21 (eta) 11 221 20 0.201 -1.008 12.546 12.600 0.547 22 (K*+) 11 323 20 0.534 -0.369 1.774 2.130 0.985 23 (K*bar0) 11 -313 20 0.671 0.380 5.857 5.974 0.892 24 (rho-) 11 -213 20 0.516 -1.114 3.067 3.429 0.919 25 pi+ 1 211 20 -0.110 0.247 1.859 1.883 0.140 26 (rho-) 11 -213 20 0.521 -1.378 1.161 1.995 0.678 27 (string) 11 92 13 -1.614 1.443 203.295 203.662 12.038 28 (eta) 11 221 27 -0.595 1.172 5.020 5.219 0.547 29 (rho-) 11 -213 27 -1.071 0.366 9.788 9.889 0.848 30 pi+ 1 211 27 0.296 0.272 2.752 2.785 0.140 31 pi- 1 -211 27 0.478 -0.209 40.536 40.539 0.140 32 (pi0) 11 111 27 -0.384 0.277 5.886 5.906 0.135 33 pi+ 1 211 27 -0.376 -0.562 87.140 87.142 0.140 34 (rho-) 11 -213 27 0.037 0.126 52.174 52.182 0.918 35 (string) 11 92 15 -0.720 1.800 -229.558 1728.326 1713.012 36 pi+ 1 211 35 -0.186 -0.281 254.497 254.497 0.140 37 p+ 1 2212 35 0.980 0.322 415.650 415.652 0.938 38 (rho-) 11 -213 35 -0.792 -0.435 34.941 34.958 0.614 39 (pi0) 11 111 35 -0.128 -0.065 15.423 15.424 0.135 40 pi+ 1 211 35 0.150 0.056 0.286 0.356 0.140 41 (pi0) 11 111 35 0.161 0.164 0.746 0.792 0.135 42 (rho0) 11 113 35 -0.053 0.004 13.830 13.844 0.619 43 (K*-) 11 -323 35 -0.577 -0.009 8.417 8.486 0.914 44 (K*0) 11 313 35 0.409 0.484 3.419 3.592 0.899 45 (rho+) 11 213 35 -0.257 0.037 0.497 1.090 0.934 46 pi- 1 -211 35 -0.201 -0.703 0.293 0.800 0.140 47 (pi0) 11 111 35 -0.118 -0.199 0.171 0.317 0.135 48 (rho+) 11 213 35 -0.024 0.546 -1.325 1.628 0.773 49 (pi0) 11 111 35 0.273 -0.340 -1.827 1.883 0.135 50 pi- 1 -211 35 -0.114 0.103 -0.389 0.441 0.140 51 (Kbar0) 11 -311 35 -0.088 -0.025 -1.795 1.865 0.498 52 K+ 1 321 35 -0.528 0.557 -3.461 3.580 0.494 53 (Deltabar-) 11 -2214 35 0.142 -0.017 -6.069 6.176 1.138 54 (Sigma0) 11 3212 35 -0.028 0.188 -18.110 18.150 1.193 55 (K*0) 11 313 35 -0.084 0.034 -12.344 12.376 0.889 56 pi+ 1 211 35 -0.330 -0.297 -33.697 33.700 0.140 57 (omega) 11 223 35 0.754 1.120 -246.336 246.341 0.773 58 (Deltabar--) 11 -2224 35 -0.445 0.336 -397.125 397.128 1.279 59 pi+ 1 211 35 0.363 0.221 -255.250 255.250 0.140 60 gamma 1 22 21 0.041 -0.831 7.083 7.131 0.000 61 gamma 1 22 21 0.160 -0.177 5.463 5.468 0.000 62 K+ 1 321 22 0.201 -0.378 1.605 1.733 0.494 63 (pi0) 11 111 22 0.334 0.008 0.169 0.398 0.135 64 K- 1 -321 23 0.674 0.120 4.930 5.002 0.494 65 pi+ 1 211 23 -0.003 0.260 0.927 0.973 0.140 66 pi- 1 -211 24 0.357 0.006 0.601 0.713 0.140 67 (pi0) 11 111 24 0.160 -1.120 2.466 2.716 0.135 68 pi- 1 -211 26 0.536 -1.308 1.172 1.842 0.140 69 (pi0) 11 111 26 -0.014 -0.070 -0.011 0.153 0.135 70 (pi0) 11 111 28 -0.357 0.711 3.080 3.184 0.135 71 (pi0) 11 111 28 -0.088 0.079 0.581 0.608 0.135 72 (pi0) 11 111 28 -0.150 0.382 1.359 1.426 0.135 73 pi- 1 -211 29 -0.876 0.467 5.286 5.380 0.140 74 (pi0) 11 111 29 -0.194 -0.101 4.502 4.509 0.135 75 gamma 1 22 32 -0.220 0.107 3.627 3.635 0.000 76 gamma 1 22 32 -0.164 0.170 2.258 2.271 0.000 77 pi- 1 -211 34 -0.227 -0.131 41.438 41.439 0.140 78 (pi0) 11 111 34 0.264 0.257 10.736 10.743 0.135 79 pi- 1 -211 38 -0.565 -0.347 15.183 15.198 0.140 80 (pi0) 11 111 38 -0.227 -0.088 19.758 19.760 0.135 81 gamma 1 22 39 -0.016 0.005 8.426 8.426 0.000 82 gamma 1 22 39 -0.112 -0.070 6.997 6.998 0.000 83 gamma 1 22 41 0.110 0.114 0.289 0.330 0.000 84 gamma 1 22 41 0.051 0.050 0.457 0.463 0.000 85 pi- 1 -211 42 -0.066 0.233 10.261 10.265 0.140 86 pi+ 1 211 42 0.013 -0.230 3.568 3.579 0.140 87 (Kbar0) 11 -311 43 -0.669 0.057 5.459 5.522 0.498 88 pi- 1 -211 43 0.092 -0.066 2.959 2.964 0.140 89 K+ 1 321 44 0.148 0.475 2.984 3.065 0.494 90 pi- 1 -211 44 0.261 0.009 0.435 0.526 0.140 91 pi+ 1 211 45 -0.304 -0.099 0.715 0.795 0.140 92 (pi0) 11 111 45 0.047 0.136 -0.218 0.294 0.135 93 gamma 1 22 47 -0.105 -0.194 0.094 0.239 0.000 94 gamma 1 22 47 -0.013 -0.005 0.077 0.078 0.000 95 pi+ 1 211 48 0.014 0.071 -1.051 1.063 0.140 96 (pi0) 11 111 48 -0.038 0.475 -0.274 0.566 0.135 97 gamma 1 22 49 0.284 -0.321 -1.653 1.707 0.000 98 gamma 1 22 49 -0.012 -0.019 -0.174 0.175 0.000 99 K_L0 1 130 51 -0.088 -0.025 -1.795 1.865 0.498 100 pbar- 1 -2212 53 0.063 -0.122 -4.717 4.811 0.938 101 (pi0) 11 111 53 0.078 0.105 -1.352 1.365 0.135 102 Lambda0 1 3122 54 -0.018 0.157 -18.008 18.043 1.116 103 gamma 1 22 54 -0.010 0.031 -0.102 0.107 0.000 104 (K0) 11 311 55 0.062 0.221 -10.241 10.255 0.498 105 (pi0) 11 111 55 -0.146 -0.187 -2.103 2.120 0.135 106 pi- 1 -211 57 0.353 0.705 -119.001 119.004 0.140 107 pi+ 1 211 57 0.222 0.417 -103.205 103.206 0.140 108 (pi0) 11 111 57 0.179 -0.002 -24.130 24.131 0.135 109 pbar- 1 -2212 58 -0.408 0.501 -359.567 359.569 0.938 110 pi- 1 -211 58 -0.037 -0.166 -37.558 37.558 0.140 111 gamma 1 22 63 0.059 0.020 -0.018 0.065 0.000 112 gamma 1 22 63 0.275 -0.012 0.187 0.333 0.000 113 gamma 1 22 67 0.155 -0.987 2.066 2.295 0.000 114 gamma 1 22 67 0.005 -0.133 0.399 0.421 0.000 115 gamma 1 22 69 0.051 0.006 0.009 0.052 0.000 116 gamma 1 22 69 -0.065 -0.076 -0.020 0.101 0.000 117 gamma 1 22 70 -0.330 0.637 2.581 2.679 0.000 118 gamma 1 22 70 -0.027 0.075 0.499 0.505 0.000 119 gamma 1 22 71 -0.003 -0.025 0.245 0.246 0.000 120 gamma 1 22 71 -0.084 0.104 0.336 0.362 0.000 121 gamma 1 22 72 -0.039 0.274 0.848 0.892 0.000 122 gamma 1 22 72 -0.111 0.107 0.511 0.534 0.000 123 gamma 1 22 74 0.003 0.021 0.676 0.677 0.000 124 gamma 1 22 74 -0.197 -0.122 3.825 3.832 0.000 125 gamma 1 22 78 0.097 0.051 1.871 1.874 0.000 126 gamma 1 22 78 0.167 0.206 8.865 8.869 0.000 127 gamma 1 22 80 -0.172 -0.011 15.294 15.295 0.000 128 gamma 1 22 80 -0.055 -0.076 4.464 4.465 0.000 129 K_L0 1 130 87 -0.669 0.057 5.459 5.522 0.498 130 gamma 1 22 92 -0.007 0.076 -0.196 0.210 0.000 131 gamma 1 22 92 0.054 0.061 -0.022 0.084 0.000 132 gamma 1 22 96 -0.024 0.095 -0.122 0.157 0.000 133 gamma 1 22 96 -0.014 0.379 -0.152 0.409 0.000 134 gamma 1 22 101 0.044 -0.017 -0.642 0.643 0.000 135 gamma 1 22 101 0.035 0.123 -0.710 0.721 0.000 136 K_L0 1 130 104 0.062 0.221 -10.241 10.255 0.498 137 gamma 1 22 105 -0.114 -0.072 -0.727 0.739 0.000 138 gamma 1 22 105 -0.031 -0.115 -1.376 1.381 0.000 139 gamma 1 22 108 0.175 -0.040 -17.251 17.252 0.000 140 gamma 1 22 108 0.004 0.038 -6.879 6.879 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 8 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 -0.265 -0.211 979.997 980.002 3.229 4 !pbar-! 21 -2212 2 0.265 0.211 -979.997 979.998 0.938 ============================================================================== 5 (ud_0) A 12 2101 3 -0.262 -0.208 969.420 969.420 0.579 6 (u) V 11 2 3 -0.003 -0.002 10.577 10.582 0.330 7 pbar- 1 -2212 4 0.265 0.211 -979.997 979.998 0.938 ============================================================================== 8 (string) 11 92 5 -0.265 -0.211 979.997 980.002 3.229 9 (rho0) 11 113 8 -0.147 -0.230 373.346 373.347 0.813 10 n0 1 2112 8 -0.127 -0.030 603.633 603.633 0.940 11 pi+ 1 211 8 0.009 0.050 3.018 3.022 0.140 12 pi- 1 -211 9 -0.318 0.110 96.570 96.570 0.140 13 pi+ 1 211 9 0.171 -0.341 276.777 276.777 0.140 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 9 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !g! 21 21 1 -1.320 0.358 61.406 61.421 0.000 4 !d! 21 1 2 -0.246 -0.380 -10.537 10.547 0.000 5 !g! 21 21 3 -2.002 1.535 30.192 30.298 0.000 6 !d! 21 1 4 -0.238 -0.368 -10.204 10.213 0.000 7 !g! 21 21 0 0.452 1.882 30.026 30.088 0.000 8 !d! 21 1 0 -2.693 -0.714 -10.038 10.423 0.330 ============================================================================== 9 nbar0 1 -2112 2 0.266 0.160 -561.126 561.127 0.940 10 (d) A 12 1 8 -1.278 0.036 -9.109 9.204 0.330 11 (g) I 12 21 8 -1.408 -0.723 -0.491 1.657 0.000 12 (g) I 12 21 3 0.724 -0.880 9.628 9.696 0.000 13 (g) I 12 21 3 0.045 -0.892 21.142 21.161 0.000 14 (ud_0) V 11 2101 1 0.612 -0.123 892.021 892.022 0.579 15 (u) A 12 2 1 0.708 -0.234 26.554 26.566 0.330 16 (g) I 12 21 3 -0.096 0.582 0.110 0.600 0.000 17 (g) I 12 21 7 0.446 1.854 29.588 29.650 0.000 18 (ubar) V 11 -2 2 -0.020 0.219 -408.317 408.317 0.330 ============================================================================== 19 (string) 11 92 10 -1.305 -2.582 913.192 933.740 194.787 20 (pi0) 11 111 19 -1.060 0.251 -3.916 4.067 0.135 21 (omega) 11 223 19 -0.433 -0.814 -3.860 4.045 0.784 22 pi- 1 -211 19 -0.017 0.156 0.185 0.280 0.140 23 (eta) 11 221 19 -0.233 -0.131 0.208 0.644 0.547 24 (Delta++) 11 2224 19 -0.491 0.029 -0.081 1.299 1.199 25 (rho-) 11 -213 19 0.324 0.406 0.108 0.906 0.734 26 (Deltabar0) 11 -2114 19 0.500 -0.265 0.760 1.500 1.164 27 (K*0) 11 313 19 -0.465 -0.419 2.026 2.264 0.792 28 (Kbar0) 11 -311 19 -0.910 -0.098 0.470 1.143 0.498 29 (rho0) 11 113 19 0.468 -0.727 6.521 6.630 0.830 30 n0 1 2112 19 0.140 0.031 8.889 8.939 0.940 31 pbar- 1 -2212 19 0.026 -0.086 5.317 5.399 0.938 32 (pi0) 11 111 19 0.307 0.428 40.399 40.403 0.135 33 (pi0) 11 111 19 -0.417 -0.472 15.653 15.666 0.135 34 (K*+) 11 323 19 0.113 -0.441 19.243 19.270 0.912 35 (K*-) 11 -323 19 -0.140 -0.197 47.943 47.951 0.834 36 (pi0) 11 111 19 0.329 0.206 31.441 31.443 0.135 37 (Delta0) 11 2114 19 0.591 -0.430 548.724 548.726 1.327 38 pi+ 1 211 19 0.065 -0.008 193.165 193.165 0.140 39 (string) 11 92 15 1.039 2.421 -352.066 465.133 303.960 40 pi+ 1 211 39 0.143 -0.165 8.916 8.920 0.140 41 pi- 1 -211 39 0.185 0.612 7.475 7.504 0.140 42 (pi0) 11 111 39 0.558 -0.840 2.676 2.863 0.135 43 (omega) 11 223 39 -0.732 0.970 15.262 15.332 0.809 44 (rho+) 11 213 39 0.424 0.253 2.718 2.853 0.716 45 (rho-) 11 -213 39 0.667 0.541 4.158 4.368 1.028 46 (eta) 11 221 39 -0.511 0.179 3.241 3.331 0.547 47 (rho+) 11 213 39 -0.527 0.289 11.472 11.513 0.760 48 (pi0) 11 111 39 0.944 0.149 -2.343 2.533 0.135 49 pi- 1 -211 39 0.188 0.113 -0.245 0.357 0.140 50 n0 1 2112 39 -0.587 -0.293 -5.275 5.398 0.940 51 (Deltabar+) 11 -1114 39 0.457 0.341 -25.340 25.378 1.260 52 (rho-) 11 -213 39 -0.170 0.272 -374.781 374.782 0.747 53 gamma 1 22 20 -0.076 0.015 -0.435 0.441 0.000 54 gamma 1 22 20 -0.984 0.236 -3.482 3.626 0.000 55 pi- 1 -211 21 -0.366 -0.355 -1.132 1.249 0.140 56 pi+ 1 211 21 0.051 -0.196 -0.676 0.720 0.140 57 (pi0) 11 111 21 -0.119 -0.263 -2.052 2.076 0.135 58 pi- 1 -211 23 -0.145 -0.104 0.000 0.227 0.140 59 pi+ 1 211 23 0.026 0.045 0.163 0.221 0.140 60 (pi0) 11 111 23 -0.114 -0.072 0.046 0.196 0.135 61 p+ 1 2212 24 -0.476 0.157 0.055 1.065 0.938 62 pi+ 1 211 24 -0.015 -0.128 -0.136 0.234 0.140 63 pi- 1 -211 25 0.464 0.472 0.158 0.695 0.140 64 (pi0) 11 111 25 -0.141 -0.065 -0.050 0.211 0.135 65 pbar- 1 -2212 26 0.355 -0.195 0.781 1.287 0.938 66 pi+ 1 211 26 0.144 -0.070 -0.022 0.214 0.140 67 (K0) 11 311 27 -0.440 -0.142 1.590 1.729 0.498 68 (pi0) 11 111 27 -0.025 -0.277 0.436 0.535 0.135 69 K_L0 1 130 28 -0.910 -0.098 0.470 1.143 0.498 70 pi- 1 -211 29 -0.116 -0.343 3.714 3.735 0.140 71 pi+ 1 211 29 0.584 -0.385 2.807 2.896 0.140 72 gamma 1 22 32 0.162 0.188 23.736 23.737 0.000 73 gamma 1 22 32 0.144 0.241 16.663 16.665 0.000 74 gamma 1 22 33 0.006 -0.035 0.811 0.812 0.000 75 gamma 1 22 33 -0.423 -0.437 14.842 14.854 0.000 76 (K0) 11 311 34 0.268 -0.457 10.831 10.856 0.498 77 pi+ 1 211 34 -0.155 0.016 8.411 8.414 0.140 78 (Kbar0) 11 -311 35 -0.293 -0.280 37.549 37.554 0.498 79 pi- 1 -211 35 0.153 0.083 10.394 10.396 0.140 80 gamma 1 22 36 0.159 0.039 16.170 16.171 0.000 81 gamma 1 22 36 0.170 0.167 15.271 15.273 0.000 82 p+ 1 2212 37 0.134 -0.367 408.166 408.167 0.938 83 pi- 1 -211 37 0.457 -0.062 140.558 140.559 0.140 84 gamma 1 22 42 0.340 -0.427 1.578 1.669 0.000 85 gamma 1 22 42 0.218 -0.413 1.099 1.194 0.000 86 pi+ 1 211 43 -0.520 0.610 6.133 6.187 0.140 87 pi- 1 -211 43 -0.168 0.097 4.388 4.395 0.140 88 (pi0) 11 111 43 -0.044 0.264 4.741 4.750 0.135 89 pi+ 1 211 44 -0.059 0.090 1.680 1.689 0.140 90 (pi0) 11 111 44 0.484 0.162 1.038 1.164 0.135 91 pi- 1 -211 45 0.620 0.763 2.509 2.698 0.140 92 (pi0) 11 111 45 0.047 -0.222 1.649 1.670 0.135 93 gamma 1 22 46 0.066 0.179 0.945 0.964 0.000 94 gamma 1 22 46 -0.576 0.001 2.296 2.367 0.000 95 pi+ 1 211 47 -0.603 -0.018 7.990 8.013 0.140 96 (pi0) 11 111 47 0.076 0.307 3.483 3.499 0.135 97 gamma 1 22 48 0.652 0.161 -1.570 1.707 0.000 98 gamma 1 22 48 0.292 -0.012 -0.773 0.826 0.000 99 nbar0 1 -2112 51 0.123 0.133 -18.926 18.950 0.940 100 pi+ 1 211 51 0.333 0.208 -6.415 6.428 0.140 101 pi- 1 -211 52 0.015 -0.056 -17.346 17.346 0.140 102 (pi0) 11 111 52 -0.185 0.328 -357.435 357.436 0.135 103 gamma 1 22 57 -0.088 -0.083 -0.528 0.542 0.000 104 gamma 1 22 57 -0.031 -0.180 -1.524 1.535 0.000 105 gamma 1 22 60 -0.132 -0.094 0.033 0.165 0.000 106 gamma 1 22 60 0.018 0.022 0.013 0.031 0.000 107 gamma 1 22 64 0.000 -0.009 -0.059 0.060 0.000 108 gamma 1 22 64 -0.140 -0.057 0.010 0.152 0.000 109 K_L0 1 130 67 -0.440 -0.142 1.590 1.729 0.498 110 gamma 1 22 68 0.043 -0.194 0.244 0.314 0.000 111 gamma 1 22 68 -0.068 -0.083 0.193 0.220 0.000 112 K_S0 1 310 76 0.268 -0.457 10.831 10.856 0.498 113 K_S0 1 310 78 -0.293 -0.280 37.549 37.554 0.498 114 gamma 1 22 88 0.027 0.198 3.507 3.513 0.000 115 gamma 1 22 88 -0.070 0.065 1.234 1.238 0.000 116 gamma 1 22 90 0.322 0.077 0.788 0.854 0.000 117 gamma 1 22 90 0.162 0.085 0.250 0.310 0.000 118 gamma 1 22 92 0.067 -0.034 0.482 0.488 0.000 119 gamma 1 22 92 -0.020 -0.188 1.167 1.182 0.000 120 gamma 1 22 96 -0.022 0.115 1.685 1.689 0.000 121 gamma 1 22 96 0.098 0.192 1.798 1.810 0.000 122 gamma 1 22 102 -0.011 0.141 -105.790 105.790 0.000 123 gamma 1 22 102 -0.174 0.187 -251.645 251.645 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 10 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p_diffr+! 21 9902210 1 -0.204 0.619 962.919 997.079 258.752 4 !p_diffrbar? 21-9902210 2 0.204 -0.619 -962.919 962.921 1.584 ============================================================================== 5 (uu_1) A 12 2203 3 -0.191 0.579 901.017 901.018 0.771 6 (g) I 12 21 3 0.004 -0.011 -17.079 17.079 0.000 7 (d) V 11 1 3 -0.017 0.051 78.982 78.982 0.330 8 pi+ 1 211 4 0.080 0.031 -47.100 47.100 0.140 9 (Deltabar--) 11 -2224 4 0.124 -0.650 -915.820 915.821 1.352 ============================================================================== 10 (string) 11 92 5 -0.204 0.619 962.919 997.079 258.752 11 (rho+) 11 213 10 0.255 0.251 340.963 340.964 0.665 12 (Delta0) 11 2114 10 -0.191 -0.319 256.653 256.656 1.221 13 (rho+) 11 213 10 -0.232 0.873 125.877 125.882 0.689 14 pi- 1 -211 10 -0.310 -0.117 55.072 55.073 0.140 15 (K*bar0) 11 -313 10 0.489 -0.265 95.292 95.297 0.896 16 (eta') 11 331 10 -0.114 0.431 17.786 17.818 0.958 17 (K*0) 11 313 10 -0.224 -0.202 3.472 3.610 0.941 18 (pi0) 11 111 10 0.469 -0.012 1.235 1.328 0.135 19 (rho+) 11 213 10 -0.518 -0.093 0.632 1.125 0.768 20 (eta') 11 331 10 -0.279 0.156 0.235 1.037 0.958 21 pi- 1 -211 10 0.542 -0.579 1.307 1.535 0.140 22 (rho0) 11 113 10 0.082 0.345 -0.378 0.954 0.801 23 (omega) 11 223 10 -0.321 0.081 -0.134 0.861 0.783 24 (rho+) 11 213 10 0.097 0.497 -1.379 1.626 0.698 25 K- 1 -321 10 0.606 -0.596 0.109 0.988 0.494 26 (phi) 11 333 10 -0.667 0.255 -2.743 3.013 1.021 27 Sigmabar+ 1 -3112 10 0.026 0.205 -1.959 2.306 1.197 28 (rho0) 11 113 10 -0.120 0.077 -1.985 2.084 0.616 29 (Delta0) 11 2114 10 0.677 -0.226 -5.091 5.291 1.252 30 (rho-) 11 -213 10 0.027 -0.015 -0.087 0.719 0.714 31 (rho+) 11 213 10 -1.175 -0.200 1.975 2.479 0.909 32 pi- 1 -211 10 0.592 -0.394 0.704 1.010 0.140 33 (K*bar0) 11 -313 10 0.161 0.137 18.119 18.143 0.904 34 (K0) 11 311 10 -0.412 0.384 11.883 11.907 0.498 35 (eta') 11 331 10 0.336 -0.056 45.360 45.371 0.958 36 pbar- 1 -2212 9 0.319 -0.226 -642.251 642.252 0.938 37 pi- 1 -211 9 -0.195 -0.424 -273.568 273.569 0.140 38 pi+ 1 211 11 0.314 -0.102 131.328 131.328 0.140 39 (pi0) 11 111 11 -0.058 0.353 209.635 209.636 0.135 40 p+ 1 2212 12 -0.370 -0.246 210.543 210.546 0.938 41 pi- 1 -211 12 0.179 -0.073 46.110 46.111 0.140 42 pi+ 1 211 13 -0.029 -0.016 38.538 38.538 0.140 43 (pi0) 11 111 13 -0.203 0.889 87.340 87.344 0.135 44 (Kbar0) 11 -311 15 0.150 0.097 41.181 41.185 0.498 45 (pi0) 11 111 15 0.340 -0.362 54.110 54.113 0.135 46 gamma 1 22 16 -0.215 0.012 1.071 1.093 0.000 47 (rho0) 11 113 16 0.101 0.419 16.715 16.725 0.380 48 K+ 1 321 17 -0.017 -0.366 2.902 2.966 0.494 49 pi- 1 -211 17 -0.208 0.164 0.570 0.644 0.140 50 gamma 1 22 18 0.189 -0.068 0.563 0.598 0.000 51 gamma 1 22 18 0.280 0.056 0.672 0.730 0.000 52 pi+ 1 211 19 -0.244 -0.095 0.743 0.800 0.140 53 (pi0) 11 111 19 -0.274 0.002 -0.111 0.325 0.135 54 pi- 1 -211 20 -0.116 0.093 -0.027 0.206 0.140 55 pi+ 1 211 20 -0.192 0.005 0.084 0.252 0.140 56 (eta) 11 221 20 0.029 0.058 0.178 0.579 0.547 57 pi+ 1 211 22 -0.323 0.057 -0.195 0.407 0.140 58 pi- 1 -211 22 0.405 0.288 -0.183 0.548 0.140 59 pi+ 1 211 23 -0.286 -0.091 0.017 0.332 0.140 60 pi- 1 -211 23 -0.134 0.134 0.073 0.247 0.140 61 (pi0) 11 111 23 0.099 0.038 -0.224 0.282 0.135 62 pi+ 1 211 24 0.368 0.337 -0.879 1.020 0.140 63 (pi0) 11 111 24 -0.271 0.160 -0.500 0.606 0.135 64 K- 1 -321 26 -0.274 0.085 -1.563 1.664 0.494 65 K+ 1 321 26 -0.392 0.170 -1.180 1.349 0.494 66 pi+ 1 211 28 0.083 0.089 -1.686 1.696 0.140 67 pi- 1 -211 28 -0.202 -0.012 -0.300 0.388 0.140 68 p+ 1 2212 29 0.518 -0.421 -4.171 4.327 0.938 69 pi- 1 -211 29 0.159 0.195 -0.920 0.964 0.140 70 pi- 1 -211 30 0.238 -0.033 -0.286 0.399 0.140 71 (pi0) 11 111 30 -0.211 0.018 0.199 0.321 0.135 72 pi+ 1 211 31 -0.601 0.204 1.460 1.598 0.140 73 (pi0) 11 111 31 -0.573 -0.405 0.515 0.881 0.135 74 (Kbar0) 11 -311 33 0.323 -0.088 13.647 13.660 0.498 75 (pi0) 11 111 33 -0.162 0.225 4.473 4.483 0.135 76 K_S0 1 310 34 -0.412 0.384 11.883 11.907 0.498 77 gamma 1 22 35 0.000 0.011 12.063 12.063 0.000 78 (omega) 11 223 35 0.337 -0.067 33.297 33.308 0.800 79 gamma 1 22 39 0.004 0.298 157.765 157.765 0.000 80 gamma 1 22 39 -0.063 0.055 51.870 51.870 0.000 81 gamma 1 22 43 -0.153 0.692 72.741 72.744 0.000 82 gamma 1 22 43 -0.050 0.196 14.599 14.600 0.000 83 K_L0 1 130 44 0.150 0.097 41.181 41.185 0.498 84 gamma 1 22 45 0.190 -0.194 22.330 22.332 0.000 85 gamma 1 22 45 0.150 -0.168 31.780 31.781 0.000 86 pi- 1 -211 47 -0.083 0.178 6.921 6.925 0.140 87 pi+ 1 211 47 0.184 0.241 9.794 9.800 0.140 88 gamma 1 22 53 -0.162 0.039 -0.123 0.207 0.000 89 gamma 1 22 53 -0.112 -0.036 0.011 0.119 0.000 90 (pi0) 11 111 56 0.037 -0.048 0.051 0.157 0.135 91 (pi0) 11 111 56 0.006 0.118 0.200 0.268 0.135 92 (pi0) 11 111 56 -0.015 -0.012 -0.073 0.154 0.135 93 gamma 1 22 61 0.107 0.036 -0.240 0.265 0.000 94 gamma 1 22 61 -0.008 0.002 0.016 0.017 0.000 95 gamma 1 22 63 -0.049 0.018 -0.200 0.207 0.000 96 gamma 1 22 63 -0.222 0.142 -0.300 0.399 0.000 97 gamma 1 22 71 -0.200 0.057 0.147 0.255 0.000 98 gamma 1 22 71 -0.012 -0.039 0.052 0.066 0.000 99 gamma 1 22 73 -0.063 -0.103 0.107 0.161 0.000 100 gamma 1 22 73 -0.510 -0.302 0.408 0.720 0.000 101 K_L0 1 130 74 0.323 -0.088 13.647 13.660 0.498 102 gamma 1 22 75 -0.006 0.109 1.253 1.258 0.000 103 gamma 1 22 75 -0.156 0.115 3.220 3.226 0.000 104 pi- 1 -211 78 0.124 -0.171 19.502 19.504 0.140 105 pi+ 1 211 78 -0.058 0.082 7.961 7.963 0.140 106 (pi0) 11 111 78 0.271 0.021 5.834 5.841 0.135 107 gamma 1 22 90 0.038 -0.048 -0.035 0.071 0.000 108 gamma 1 22 90 -0.001 0.000 0.086 0.086 0.000 109 gamma 1 22 91 0.068 0.077 0.096 0.141 0.000 110 gamma 1 22 91 -0.062 0.041 0.104 0.128 0.000 111 gamma 1 22 92 0.035 -0.058 -0.030 0.074 0.000 112 gamma 1 22 92 -0.050 0.046 -0.042 0.080 0.000 113 gamma 1 22 106 0.185 0.046 4.884 4.888 0.000 114 gamma 1 22 106 0.085 -0.025 0.949 0.954 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 PYEVNT event no. 11 level 1 Event listing (summary) I particle/jet KS KF orig p_x p_y p_z E m 1 !p+! 21 2212 0 0.000 0.000 980.000 980.000 0.938 2 !pbar-! 21 -2212 0 0.000 0.000 -980.000 980.000 0.938 ============================================================================== 3 !p+! 21 2212 1 0.074 0.269 977.607 977.607 0.938 4 !p_diffrbar? 21-9902210 2 -0.074 -0.269 -977.607 982.393 96.855 ============================================================================== 5 p+ 1 2212 3 0.074 0.269 977.607 977.607 0.938 6 (uu_1bar) A 12 -2203 4 -0.066 -0.237 -860.927 860.927 0.771 7 (g) I 12 21 4 0.000 0.001 2.393 2.393 0.000 8 (dbar) V 11 -1 4 -0.009 -0.033 -119.073 119.073 0.330 ============================================================================== 9 (string) 11 92 6 -0.074 -0.269 -977.607 982.393 96.855 10 (rho-) 11 -213 9 0.026 -0.120 -391.405 391.406 0.795 11 nbar0 1 -2112 9 -0.387 -0.016 -214.919 214.921 0.940 12 pi- 1 -211 9 0.444 -0.108 -229.330 229.331 0.140 13 pi+ 1 211 9 0.089 0.168 -10.415 10.418 0.140 14 (omega) 11 223 9 -0.028 -0.297 -3.298 3.403 0.785 15 (omega) 11 223 9 -0.011 0.260 -8.090 8.132 0.780 16 (K0) 11 311 9 0.295 0.069 0.112 0.594 0.498 17 K- 1 -321 9 -0.472 0.025 -0.663 0.952 0.494 18 (omega) 11 223 9 -0.170 -0.022 -1.472 1.679 0.790 19 (Delta0) 11 2114 9 0.006 0.133 -0.451 1.375 1.292 20 (eta') 11 331 9 0.681 -0.416 -1.024 1.614 0.958 21 (Deltabar+) 11 -1114 9 -0.686 0.167 -0.325 1.470 1.248 22 pi- 1 -211 9 0.348 -0.321 0.081 0.500 0.140 23 pi+ 1 211 9 -0.137 0.025 -4.007 4.012 0.140 24 (rho-) 11 -213 9 -0.047 0.410 -7.294 7.336 0.662 25 pi+ 1 211 9 -0.387 -0.309 -4.544 4.573 0.140 26 (rho0) 11 113 9 0.331 0.139 -14.328 14.354 0.786 27 (pi0) 11 111 9 -0.095 0.254 -2.242 2.263 0.135 28 pi- 1 -211 9 0.246 -0.322 -3.253 3.282 0.140 29 (rho+) 11 213 9 -0.698 0.403 -38.982 38.998 0.799 30 (rho-) 11 -213 9 0.605 -0.438 -15.697 15.721 0.434 31 pi+ 1 211 9 -0.028 0.050 -26.060 26.060 0.140 32 pi- 1 -211 10 0.328 0.067 -266.642 266.643 0.140 33 (pi0) 11 111 10 -0.302 -0.187 -124.762 124.763 0.135 34 gamma 1 22 14 -0.274 -0.444 -2.118 2.181 0.000 35 (pi0) 11 111 14 0.246 0.147 -1.180 1.222 0.135 36 pi+ 1 211 15 0.172 -0.127 -2.310 2.324 0.140 37 pi- 1 -211 15 -0.167 0.278 -2.738 2.761 0.140 38 (pi0) 11 111 15 -0.016 0.109 -3.042 3.047 0.135 39 K_S0 1 310 16 0.295 0.069 0.112 0.594 0.498 40 pi+ 1 211 18 0.207 -0.097 -0.389 0.472 0.140 41 pi- 1 -211 18 -0.340 -0.005 -0.679 0.773 0.140 42 (pi0) 11 111 18 -0.037 0.080 -0.403 0.434 0.135 43 n0 1 2112 19 -0.053 0.349 -0.224 1.028 0.940 44 (pi0) 11 111 19 0.059 -0.216 -0.227 0.346 0.135 45 gamma 1 22 20 -0.064 0.042 -0.063 0.099 0.000 46 (rho0) 11 113 20 0.745 -0.458 -0.961 1.515 0.778 47 nbar0 1 -2112 21 -0.618 0.357 -0.328 1.225 0.940 48 pi+ 1 211 21 -0.068 -0.190 0.003 0.245 0.140 49 pi- 1 -211 24 0.113 0.235 -1.218 1.253 0.140 50 (pi0) 11 111 24 -0.160 0.174 -6.077 6.083 0.135 51 pi+ 1 211 26 0.409 -0.178 -5.847 5.865 0.140 52 pi- 1 -211 26 -0.078 0.316 -8.482 8.489 0.140 53 gamma 1 22 27 -0.055 0.011 -0.467 0.470 0.000 54 gamma 1 22 27 -0.041 0.243 -1.776 1.793 0.000 55 pi+ 1 211 29 -0.119 0.202 -3.384 3.395 0.140 56 (pi0) 11 111 29 -0.580 0.201 -35.598 35.604 0.135 57 pi- 1 -211 30 0.095 -0.029 -5.002 5.005 0.140 58 (pi0) 11 111 30 0.510 -0.409 -10.695 10.715 0.135 59 gamma 1 22 33 -0.234 -0.169 -112.966 112.966 0.000 60 gamma 1 22 33 -0.068 -0.018 -11.796 11.797 0.000 61 gamma 1 22 35 0.091 0.003 -0.542 0.549 0.000 62 gamma 1 22 35 0.155 0.144 -0.638 0.672 0.000 63 gamma 1 22 38 0.056 0.070 -1.835 1.837 0.000 64 gamma 1 22 38 -0.072 0.040 -1.207 1.210 0.000 65 gamma 1 22 42 -0.041 0.016 -0.025 0.050 0.000 66 gamma 1 22 42 0.004 0.065 -0.378 0.384 0.000 67 gamma 1 22 44 -0.016 0.013 -0.014 0.024 0.000 68 gamma 1 22 44 0.075 -0.229 -0.213 0.322 0.000 69 pi- 1 -211 46 0.826 -0.332 -0.550 1.055 0.140 70 pi+ 1 211 46 -0.080 -0.126 -0.411 0.459 0.140 71 gamma 1 22 50 0.019 0.026 -1.337 1.338 0.000 72 gamma 1 22 50 -0.179 0.148 -4.739 4.745 0.000 73 gamma 1 22 56 -0.292 0.104 -21.778 21.780 0.000 74 gamma 1 22 56 -0.288 0.097 -13.820 13.824 0.000 75 gamma 1 22 58 0.452 -0.409 -9.827 9.846 0.000 76 gamma 1 22 58 0.059 -0.001 -0.868 0.870 0.000 ============================================================================== sum: 0.00 0.000 0.000 0.000 1960.000 1960.000 EvtGen:Will initialize JetSet. 1 ****************************************************************************** ****************************************************************************** ** ** ** ** ** PPP Y Y TTTTT H H III A JJJJ EEEE TTTTT SSS EEEE TTTTT ** ** P P Y Y T H H I A A J E T S E T ** ** PPP Y T HHHHH I AAAAA J EEE T SSS EEE T ** ** P Y T H H I A A J J E T S E T ** ** P Y T H H III A A JJ EEEE T SSS EEEE T ** ** ** ** ** ** *......* Welcome to the Lund Monte Carlo! ** ** *:::!!:::::::::::* ** ** *::::::!!::::::::::::::* Warning: this is jetset7.4_fkw ** ** *::::::::!!::::::::::::::::* All refs to pythia were excised! ** ** *:::::::::!!:::::::::::::::::* PYTHIA !!! ** ** *:::::::::!!:::::::::::::::::* it was altered by fkw 7.410 ** ** *::::::::!!::::::::::::::::*! on 3.29.00 20 Jan 1997 ** ** *::::::!!::::::::::::::* !! to this effect !!! ** ** !! *:::!!:::::::::::* !! Main author: ** ** !! !* -><- * !! Torbjorn Sjostrand ** ** !! !! !! Dept. of theoretical physics 2 ** ** !! !! !! University of Lund ** ** !! !! Solvegatan 14A ** ** !! ep !! S-223 62 Lund, Sweden ** ** !! !! phone: +46 - 46 - 222 48 16 ** ** !! pp !! E-mail: torbjorn@thep.lu.se ** ** !! e+e- !! ** ** !! !! Copyright Torbjorn Sjostrand ** ** !! and CERN, Geneva 1993 ** ** ** ** ** ** The latest program versions and documentation is found on WWW address ** ** http://thep.lu.se/tf2/staff/torbjorn/Welcome.html ** ** This is fkw version !!! ** ** When you cite these programs, priority should always be given to the ** ** latest published description. Currently this is ** ** T. Sjostrand, Computer Physics Commun. 82 (1994) 74. ** ** The most recent long description (unpublished) is ** ** T. Sjostrand, LU TP 95-20 and CERN-TH.7112/93 (revised August 1995). ** ** Also remember that the programs, to a large extent, represent original ** ** physics research. Other publications of special relevance to your ** ** studies may therefore deserve separate mention. ** ** ** ** ** ****************************************************************************** ****************************************************************************** Warning: Jetset7.4_fkw independent of PYTHIA! MSTJ(104) changed from 5 to 5 MSTJ(107) changed from 0 to 1 MSTJ(11) changed from 4 to 4 PARJ(41) changed from 0.30000 to 0.30000 PARJ(42) changed from 0.58000 to 0.58000 PARJ(43) changed from 0.50000 to 0.50000 PARJ(44) changed from 0.90000 to 0.90000 PARJ(54) changed from -0.05000 to -0.04000 PARJ(55) changed from -0.00500 to -0.00400 MSTJ(26) changed from 2 to 0 PARJ(13) changed from 0.75000 to 0.40000 PARJ(26) changed from 0.40000 to 0.10000 PARJ(25) changed from 1.00000 to 0.60000 PARJ(2) changed from 0.30000 to 0.26000 PARJ(12) changed from 0.60000 to 0.55000 PARJ(11) changed from 0.50000 to 0.40000 PARJ(1) changed from 0.10000 to 0.06500 PARJ(14) changed from 0.00000 to 0.05000 PARJ(15) changed from 0.00000 to 0.05000 PARJ(16) changed from 0.00000 to 0.05000 PARJ(17) changed from 0.00000 to 0.05000 PARJ(33) changed from 0.80000 to 0.30000 EvtGen:Done initializing JetSet. FileInput Begin processing 100th record. Run 222530, Trigger 99 1 ******************************************************************************** * * * ========================== * * PHOTOS, Version: 2. 2 * * Released at: 15/ 3/99 * * ========================== * * * * PHOTOS QED Corrections in Particle Decays * * * * Monte Carlo Program - by E. Barberio, B. van Eijk and Z. Was * * From version 2.0 on - by E.B. and Z.W. * * * ******************************************************************************** * * * Internal input parameters: * * * * INTERF= T ISEC= T IFTOP= T * * ALPHA_QED= 0.00730 XPHCUT= 0.01000 * * * * option with interference is active * * option with double photons is active * * emision in t tbar production is active * * * * WARNING (1): /HEPEVT/ is not anymore the standard common block * * This version of PHOTOS uses /XHEPEVT/ with double * * precision (REAL*8) variables * * WARNING (2): check dims. of /hepevt/ /phoqed/ /ph_hepevt/. * * HERE: d_h_nmxhep=4000 and NMXHEP=10000 * * * ******************************************************************************** Message from PHCORK(MODCOR):: initialization MODOP=1 -- no corrections on event: DEFAULT ******************************************************************************** * * * PHOTOS: Available Phase Space below Cut-off: 0.005930 GeV/c^2 * * * ******************************************************************************** ************************************************************ =====> TRACK 296 STACK NR 25 NTMULT= 12770 POSITRON TOFG = 9.120 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS 120.9112 74.3787 -157.1351 141.9567 TOF3 **** 14.1629 0.8807 0.0 eV 10.855 MeV NULL *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 62 Random Seeds = 9876 54321 Track 903 stack 126 NTMULT 5491 EM_Shower Time of flight 9.541 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 71 Random Seeds = 9876 54321 Track 1307 stack 140 NTMULT 12309 GAMMA Time of flight 5.664 ns Track 1307 stack 140 NTMULT 12309 GAMMA Time of flight 5.664 ns =====> TRACK 856 STACK NR 0 NTMULT= 6072 PION + TOFG = 0.289 NS X Y Z R FileInput Begin processing 200th record. Run 222530, Trigger 199 FileInput Begin processing 300th record. Run 222530, Trigger 299 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:27:05 CDT run = 222530 event = 366 FileInput Begin processing 400th record. Run 222530, Trigger 399 FileInput Begin processing 500th record. Run 222530, Trigger 499 FileInput Begin processing 600th record. Run 222530, Trigger 599 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:46:47 CDT run = 222530 event = 630 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:49:15 CDT run = 222530 event = 667 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 22:50:57 CDT run = 222530 event = 690 FileInput Begin processing 700th record. Run 222530, Trigger 699 FileInput Begin processing 800th record. Run 222530, Trigger 799 FileInput Begin processing 900th record. Run 222530, Trigger 899 NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -7.4117 -12.8104 -36.1129 14.8000 PCBC 549 1.1528 8.0032 0.0 eV 34.000 MeV NULL *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 175 Random Seeds = 9876 54321 Track 1302 stack 121 NTMULT 9953 GAMMA Time of flight 7.074 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 270 Random Seeds = 9876 54321 Track 744 stack 183 NTMULT 4897 EM_Shower Time of flight 8.744 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 288 Random Seeds = 9876 54321 Track 344 stack 27 NTMULT 11517 GAMMA Time of flight 71.367 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 321 Random Seeds = 9876 54321 Track 192 stack 10 NTMULT 9920 GAMMA Time of flight 8.821 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 450 Random Seeds = 9876 54321 Track 372 stack 228 NTMULT 94 GAMMA Time of flight 6.656 ns Track 372 stack 228 NTMULT 94 GAMMA Time of flight 6.656 ns =====> TRACK 989 STACK NR 71 NTMULT= 2162 POSITRON TOFG = 11.165 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -7.4985 -12.7598 -37.9533 14.8000 PCBC 549 0.2175 1.7177 0.0 eV 21.641 MeV NULL -7.4985 -12.7598 -37.9533 14.8000 PCBC 549 0.2175 1.7177 0.0 eV 21.641 MeV NULL -7.4985 -12.7598 -37.9534 14.8000 PCBC 549 0.2176 1.7177 0.0 eV 21.641 MeV NULL *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 535 Random Seeds = 9876 54321 Track 182 stack 183 NTMULT 1085 GAMMA Time of flight 7.421 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 907 Random Seeds = 9876 54321 Track 69 stack 79 NTMULT 5194 GAMMA Time of flight 43.333 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 926 Random Seeds = 9876 54321 Track 524 stack 156 NTMULT 324 GAMMA Time of flight 50.960 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 932 Random Seeds = 9876 54321 Track 95 stack 99 NTMULT 2333 GAMMA Time of flight 7.817 ns Track 95 stack 99 NTMULT 2333 GAMMA Time of flight 7.817 ns =====> TRACK 90 STACK NR 91 NTMULT= 3615 GAMMA TOFG = 119.491 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -65.8355 -124.0343 -157.6360 140.4237 TOFN **** 88.2000********** 0.0 eV 6.577 MeV NULL *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 963 Random Seeds = 9876 54321 Track 650 stack 240 NTMULT 514 EM_Shower Time of flight 7.299 ns HEPEVT before cleanup... nhep = 235 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99955 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99955 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57943 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61011 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20736 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97442 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20015 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40544 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87129 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95429 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66792 325.61189 136.38540 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63198 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90324 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B*~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83381 1266.46364 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03327 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47724 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79810 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K*(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K*(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K*(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84075 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K*(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93006 187.93241 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39089 286.39379 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59980 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D*_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15629 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21571 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 219 220 -1.58096 1.15562 -5.00465 5.66032 1.77700 182 (D*(2010)+) 2 413 113 0 221 222 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36062 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 223 224 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K*(892)~0) 2 -313 174 0 225 226 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 227 228 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 nu_tau 1 16 181 0 0 0 -0.29089 0.17232 -3.24674 3.26430 0.00000 220 pi- 1 -211 181 0 0 0 -1.29007 0.98330 -1.75791 2.39602 0.13957 221 (D0) 2 421 182 0 229 233 -0.75426 0.61140 -3.63763 4.20136 1.86450 222 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 223 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 224 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 225 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 226 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 227 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 228 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 229 pi+ 1 211 221 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 230 pi+ 1 211 221 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 231 pi- 1 -211 221 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 232 pi- 1 -211 221 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 233 (pi0) 2 111 221 0 234 235 -0.42541 0.12855 -1.28055 1.36217 0.13498 234 gamma 1 22 233 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 235 gamma 1 22 233 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 Remove particles : 1 219 Remove particles : 2 220 HEPEVT after cleanup: nhep= 233 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57942 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61012 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20737 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97441 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20014 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40546 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87128 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95428 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66791 325.61191 136.38539 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63197 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90323 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B*~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83386 1266.46362 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03326 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47723 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79811 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K*(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K*(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K*(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84076 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K*(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93007 187.93240 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39090 286.39380 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59979 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D*_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15630 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21570 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 0 0 -1.58096 1.15562 -5.00465 5.66032 1.77700 182 (D*(2010)+) 2 413 113 0 219 220 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36061 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 221 222 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K*(892)~0) 2 -313 174 0 223 224 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 225 226 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 (D0) 2 421 182 0 227 231 -0.75426 0.61140 -3.63763 4.20136 1.86450 220 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 221 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 222 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 223 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 224 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 225 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 226 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 227 pi+ 1 211 219 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 228 pi+ 1 211 219 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 229 pi- 1 -211 219 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 230 pi- 1 -211 219 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 231 (pi0) 2 111 219 0 232 233 -0.42541 0.12855 -1.28055 1.36217 0.13498 232 gamma 1 22 231 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 233 gamma 1 22 231 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 Will redecay tau # 181 ID = 15 Mother particle #. 113 ID = -511 TAUCHI : Tau mother is not W,Z,H..random polarity *************************************************************************** * *****TAUOLA LIBRARY: VERSION 2.6 ****** * * ***********August 1995*************** * * **AUTHORS: S.JADACH, Z.WAS************* * * **R. DECKER, M. JEZABEK, J.H.KUEHN***** * * **AVAILABLE FROM: WASM AT CERNVM ****** * * ***** PUBLISHED IN COMP. PHYS. COMM.*** * * *******CERN-TH-5856 SEPTEMBER 1990***** * * *******CERN-TH-6195 SEPTEMBER 1991***** * * *******CERN-TH-6793 NOVEMBER 1992***** * * **5 or more pi dec.: precision limited * * ******DEXAY ROUTINE: INITIALIZATION**** * * 0 JAK1 = DECAY MODE FERMION1 (TAU+) * * 0 JAK2 = DECAY MODE FERMION2 (TAU-) * *************************************************************************** *************************************************** YOU ARE USING THE 4 PION DECAY MODE FORM FACTORS WHICH HAVE BEEN DESCRIBED IN: R. DECKER, M. FINKEMEIER, P. HEILIGER AND H.H. JONSSON "TAU DECAYS INTO FOUR PIONS" UNIVERSITAET KARLSRUHE PREPRINT TTP 94-13 (1994); LNF-94/066(IR); HEP-PH/9410260 PLEASE NOTE THAT THIS ROUTINE IS USING PARAMETERS RELATED TO THE 3 PION DECAY MODE (A1 MODE), SUCH AS THE A1 MASS AND WIDTH (TAKEN FROM THE COMMON /PARMAS/) AND THE 2 PION VECTOR RESONANCE FORM FACTOR (BY USING THE ROUTINE FPIKM) THUS IF YOU DECIDE TO CHANGE ANY OF THESE, YOU WILL HAVE TO REFIT THE 4 PION PARAMETERS IN THE COMMON BLOCK /TAU4PI/, OR YOU MIGHT GET A BAD DISCRIPTION OF TAU -> 4 PIONS for these formfactors set in routine CHOICE for mnum.eq.102 -- AMRX=1.42 and GAMRX=.21 mnum.eq.101 -- AMRX=1.3 and GAMRX=.46 PROB1,PROB2=0.2 to optimize phase space parametrization *************************************************** coded by M. Finkemeier and P. Heiliger, 29. sept. 1994 incorporated to TAUOLA by Z. Was 17. jan. 1995 changed by: Z. Was on 17.01.95 changes by: M. Finkemeier on 30.01.95 HEPEVT after TAUOLA decays: NHEP= 242 Event listing (HEP format) Event: 4669 I particle/jet ISTHEP IDHEP JMOHEP JDAHEP PHEP(1,I) PHEP(2,I) PHEP(3,I) PHEP(4,I) PHEP(5,I) 1 !p+! 3 2212 0 0 0 0 0.00000 0.00000 979.99957 980.00000 0.93827 2 !p~-! 3 -2212 0 0 0 0 0.00000 0.00000 -979.99957 980.00000 0.93827 3 !g! 3 21 1 0 0 0 0.38241 -0.56137 1.34230 1.50438 0.00000 4 !d~! 3 -1 2 0 0 0 0.40276 1.19111 -237.57610 237.57942 0.00000 5 !b! 3 5 3 0 0 0 -0.18984 1.09925 0.66979 1.30116 0.00000 6 !g! 3 21 4 0 0 0 -0.29624 0.41407 -108.61012 108.61131 0.00000 7 !b! 3 5 5 6 0 0 -4.50873 4.13095 -15.42953 17.27726 4.80000 8 !g! 3 21 5 6 0 0 4.02265 -2.61763 -92.51079 92.63520 0.00000 9 (b~) 2 -5 3 0 31 31 0.53178 -1.60855 -14.53923 15.40453 4.80000 10 (u) 2 2 1 0 31 31 0.09315 0.11879 310.20715 310.20737 0.33000 11 (d~) 2 -1 4 0 41 41 0.00156 0.44259 -84.79060 84.79240 0.33000 12 (g) 2 21 4 0 41 41 0.73790 0.28238 -28.96364 28.97441 0.00000 13 (g) 2 21 0 0 41 41 -1.51508 -0.22140 -9.20014 9.32669 0.00000 14 (g) 2 21 0 0 41 41 -0.48821 2.04799 -5.82485 6.19366 0.00000 15 (g) 2 21 0 0 41 41 0.00872 0.20412 0.08693 0.22203 0.00000 16 (b) 2 5 7 0 41 41 -4.39210 4.02698 -15.31805 17.12279 4.80000 17 (ud_0) 2 2101 1 0 51 51 -0.47556 0.44258 485.40466 485.40546 0.57933 18 (g) 2 21 0 0 51 51 0.12339 0.69450 2.35927 2.46246 0.00000 19 (g) 2 21 0 0 51 51 0.48821 -2.04799 0.20918 2.11574 0.00000 20 (g) 2 21 8 0 51 51 0.44025 -0.27120 -2.07012 2.13372 0.00000 21 (g) 2 21 8 0 51 51 2.40406 -2.05619 -74.87128 74.93809 0.00000 22 (g) 2 21 8 0 51 51 1.06171 -0.18627 -15.68086 15.71786 0.00000 23 (g) 2 21 0 0 51 51 0.62728 -1.34510 -3.56141 3.85829 0.00000 24 (g) 2 21 0 0 51 51 1.51508 0.22140 -8.31998 8.45970 0.00000 25 (g) 2 21 0 0 51 51 -0.62728 1.34510 -78.77423 78.78821 0.00000 26 (uu_1~) 2 -2203 2 0 51 51 -0.40276 -1.19111 -634.95258 634.95428 0.77133 27 (g) 2 21 0 0 85 85 -0.04717 -1.86310 5.65917 5.95816 0.00000 28 (g) 2 21 0 0 85 85 -0.12339 -0.69450 29.33178 29.34026 0.00000 29 (g) 2 21 0 0 85 85 -0.00872 -0.20412 19.38813 19.38920 0.00000 30 (g) 2 21 0 0 85 85 0.04717 1.86310 124.22072 124.23470 0.00000 31 (gen. code) 2 92 9 10 32 40 0.62493 -1.48976 295.66791 325.61191 136.38539 32 (Lambda_b~0) 2 -5122 31 0 97 98 0.95009 -1.46646 -13.63182 14.85599 5.64100 33 p+ 1 2212 31 0 0 0 -0.72622 -0.33140 1.00239 1.58819 0.93827 34 pi- 1 -211 31 0 0 0 0.93957 0.29011 0.17613 1.00869 0.13957 35 (rho(770)0) 2 113 31 0 99 100 -0.51492 -0.15545 27.58014 27.58824 0.39691 36 (rho(770)+) 2 213 31 0 101 102 0.14599 0.49635 24.62522 24.64452 0.82660 37 (rho(770)-) 2 -213 31 0 103 104 0.14078 -0.41711 134.50702 134.50937 0.66104 38 pi+ 1 211 31 0 0 0 0.01808 0.02883 13.64803 13.64879 0.13957 39 pi- 1 -211 31 0 0 0 -0.04962 0.51364 26.08664 26.09212 0.13957 40 pi+ 1 211 31 0 0 0 -0.27881 -0.44827 81.67417 81.67599 0.13957 41 (gen. code) 2 92 11 16 42 50 -5.64720 6.78266 -144.01036 146.63197 26.15449 42 (pi0) 2 111 41 0 105 106 0.75903 0.20569 -40.09163 40.09957 0.13498 43 pi+ 1 211 41 0 0 0 -0.14735 0.65038 -40.61388 40.61959 0.13957 44 pi- 1 -211 41 0 0 0 -0.69705 -0.20155 -19.88951 19.90323 0.13957 45 pi+ 1 211 41 0 0 0 -0.53041 0.02958 -2.13064 2.20030 0.13957 46 (pi0) 2 111 41 0 107 108 0.55561 0.29522 -2.86615 2.93750 0.13498 47 Sigma~- 1 -3222 41 0 0 0 -0.38789 0.08858 -11.53035 11.59836 1.18937 48 (phi(1020)) 2 333 41 0 109 110 -0.06045 0.63029 -6.56327 6.67384 1.03084 49 (Sigma0) 2 3212 41 0 111 112 -0.93940 0.80289 -5.25503 5.52853 1.19255 50 (B*~0) 2 -513 41 0 113 114 -4.19928 4.28157 -15.06989 17.07105 5.32480 51 (gen. code) 2 92 17 26 52 84 5.15438 -4.39428 -330.25735 1308.83386 1266.46362 52 (rho(770)0) 2 113 51 0 115 116 -0.23361 0.19293 180.03326 180.03513 0.76152 53 (Delta0) 2 2114 51 0 117 118 0.23802 -0.12327 161.47723 161.48198 1.20779 54 pi+ 1 211 51 0 0 0 0.06026 0.17656 17.22443 17.22601 0.13957 55 pi- 1 -211 51 0 0 0 -0.76611 0.09076 59.18628 59.19147 0.13957 56 (Delta~0) 2 -2114 51 0 119 120 -0.06283 0.59810 20.74573 20.79206 1.24999 57 (Delta+) 2 2214 51 0 121 122 0.57872 -0.43831 34.04697 34.07866 1.27728 58 (pi0) 2 111 51 0 123 124 -0.20743 0.19662 7.79214 7.79855 0.13498 59 pi- 1 -211 51 0 0 0 0.05384 0.20018 0.19459 0.31673 0.13957 60 (rho(770)+) 2 213 51 0 125 126 0.12852 -0.53801 2.72709 2.89482 0.79811 61 pi- 1 -211 51 0 0 0 -0.26188 0.26092 4.06994 4.08908 0.13957 62 (rho(770)0) 2 113 51 0 127 128 0.36699 -0.69636 -0.16397 1.25842 0.96805 63 (omega(782)) 2 223 51 0 129 131 0.23010 -0.39358 -0.22922 0.93736 0.78628 64 pi+ 1 211 51 0 0 0 -0.21415 0.02501 0.00641 0.25692 0.13957 65 pi- 1 -211 51 0 0 0 0.24831 -0.64168 -0.65729 0.96173 0.13957 66 (pi0) 2 111 51 0 132 133 0.45396 -0.10599 -2.38846 2.43727 0.13498 67 (rho(770)+) 2 213 51 0 134 135 0.00311 0.15896 -3.57833 3.65969 0.75070 68 (K*(892)-) 2 -323 51 0 136 137 0.02309 -0.05989 -6.39143 6.45428 0.89623 69 (K0) 2 311 51 0 138 138 0.62680 -0.79918 -8.92201 8.99342 0.49767 70 (omega(782)) 2 223 51 0 139 141 0.41765 -0.18073 -8.41000 8.45860 0.78276 71 pi+ 1 211 51 0 0 0 0.52718 -0.27067 -17.25003 17.26077 0.13957 72 p~- 1 -2212 51 0 0 0 0.53337 -0.61916 -20.85038 20.88747 0.93827 73 n0 1 2112 51 0 0 0 1.03858 -1.01950 -11.64559 11.77373 0.93957 74 (K~0) 2 -311 51 0 142 142 0.38650 -0.03342 -7.49320 7.51973 0.49767 75 (K*(892)+) 2 323 51 0 143 144 0.97626 -0.02130 -10.53457 10.61075 0.81087 76 pi- 1 -211 51 0 0 0 0.03483 -0.35796 -4.32320 4.34038 0.13957 77 (pi0) 2 111 51 0 145 146 -0.15678 0.03176 -3.00946 3.01673 0.13498 78 (rho(770)+) 2 213 51 0 147 148 0.36867 -0.32503 -5.22107 5.29692 0.74578 79 K- 1 -321 51 0 0 0 0.78945 -0.27436 -7.15268 7.21824 0.49360 80 (K*(892)0) 2 313 51 0 149 150 -0.26600 1.08429 -32.81025 32.84076 0.86944 81 (K~0) 2 -311 51 0 151 151 -0.34248 -0.34859 -31.29811 31.30588 0.49767 82 (K*(892)+) 2 323 51 0 152 153 0.25617 -0.15905 -187.93007 187.93240 0.88911 83 p~- 1 -2212 51 0 0 0 -0.85236 0.23497 -286.39090 286.39380 0.93827 84 (rho(770)-) 2 -213 51 0 154 155 0.17763 -0.23930 -161.11124 161.11411 0.91540 85 (gen. code) 2 92 27 30 86 96 -0.13211 -0.89862 178.59979 178.92232 10.69966 86 (pi0) 2 111 85 0 156 157 0.44046 -0.35225 5.66066 5.69029 0.13498 87 (eta) 2 221 85 0 158 159 0.08446 0.35312 19.26115 19.27235 0.54745 88 (rho(770)+) 2 213 85 0 160 161 -0.46215 -0.58332 6.24763 6.33657 0.75187 89 pi- 1 -211 85 0 0 0 0.13024 0.32752 7.01651 7.02674 0.13957 90 n~0 1 -2112 85 0 0 0 0.30527 -0.77804 13.72444 13.78193 0.93957 91 (eta') 2 331 85 0 162 163 -0.30689 0.11682 14.97876 15.01293 0.95773 92 n0 1 2112 85 0 0 0 -0.02796 -0.05323 35.57283 35.58528 0.93957 93 (pi0) 2 111 85 0 164 165 -0.19506 0.31625 15.95388 15.95878 0.13498 94 (rho(770)+) 2 213 85 0 166 167 0.41913 0.15166 21.65018 21.66802 0.75782 95 (omega(782)) 2 223 85 0 168 170 -0.02017 -0.38148 7.00008 7.05148 0.75908 96 pi- 1 -211 85 0 0 0 -0.49944 -0.01567 31.53368 31.53795 0.13957 97 (Lambda_c~-) 2 -4122 32 0 171 173 0.40008 0.93766 -4.29509 4.97070 2.28490 98 (D*_s+) 2 433 32 0 174 175 0.55000 -2.40412 -9.33672 9.88529 2.11240 99 pi- 1 -211 35 0 0 0 -0.15293 0.04838 6.29843 6.30202 0.13957 100 pi+ 1 211 35 0 0 0 -0.36199 -0.20383 21.28171 21.28622 0.13957 101 pi+ 1 211 36 0 0 0 0.06920 -0.18072 3.64264 3.65044 0.13957 102 (pi0) 2 111 36 0 176 177 0.07680 0.67707 20.98259 20.99408 0.13498 103 pi- 1 -211 37 0 0 0 -0.03190 -0.18302 14.07609 14.07801 0.13957 104 (pi0) 2 111 37 0 178 179 0.17268 -0.23409 120.43093 120.43136 0.13498 105 gamma 1 22 42 0 0 0 0.68966 0.19420 -34.09765 34.10518 0.00000 106 gamma 1 22 42 0 0 0 0.06936 0.01149 -5.99398 5.99439 0.00000 107 gamma 1 22 46 0 0 0 0.00916 0.02812 -0.07058 0.07652 0.00000 108 gamma 1 22 46 0 0 0 0.54645 0.26710 -2.79557 2.86097 0.00000 109 KL0 1 130 48 0 0 0 -0.11754 0.36008 -2.90579 2.97233 0.49767 110 KS0 1 310 48 0 0 0 0.05709 0.27021 -3.65749 3.70151 0.49767 111 Lambda0 1 3122 49 0 0 0 -0.87746 0.81724 -5.16381 5.41734 1.11568 112 gamma 1 22 49 0 0 0 -0.06195 -0.01435 -0.09122 0.11119 0.00000 113 (B~0) 2 -511 50 0 180 182 -4.14483 4.28479 -14.99772 16.98060 5.27920 114 gamma 1 22 50 0 0 0 -0.05444 -0.00321 -0.07217 0.09046 0.00000 115 pi+ 1 211 52 0 0 0 -0.11832 -0.26368 59.65115 59.65201 0.13957 116 pi- 1 -211 52 0 0 0 -0.11529 0.45661 120.38212 120.38312 0.13957 117 n0 1 2112 53 0 0 0 0.29462 0.03215 145.15295 145.15630 0.93957 118 (pi0) 2 111 53 0 183 184 -0.05660 -0.15542 16.32429 16.32569 0.13498 119 n~0 1 -2112 56 0 0 0 -0.09700 0.20373 13.87581 13.90941 0.93957 120 (pi0) 2 111 56 0 185 186 0.03417 0.39436 6.86993 6.88264 0.13498 121 n0 1 2112 57 0 0 0 0.70545 -0.25072 27.18874 27.21527 0.93957 122 pi+ 1 211 57 0 0 0 -0.12672 -0.18759 6.85823 6.86339 0.13957 123 gamma 1 22 58 0 0 0 -0.03594 0.05672 0.77035 0.77327 0.00000 124 gamma 1 22 58 0 0 0 -0.17149 0.13990 7.02179 7.02528 0.00000 125 pi+ 1 211 60 0 0 0 0.11590 -0.52829 0.87722 1.03996 0.13957 126 (pi0) 2 111 60 0 187 188 0.01263 -0.00972 1.84987 1.85486 0.13498 127 pi- 1 -211 62 0 0 0 0.48093 -0.73619 -0.38539 0.97019 0.13957 128 pi+ 1 211 62 0 0 0 -0.11394 0.03983 0.22142 0.28822 0.13957 129 pi- 1 -211 63 0 0 0 -0.16918 -0.02762 0.00013 0.22105 0.13957 130 pi+ 1 211 63 0 0 0 0.12413 -0.31254 -0.15930 0.39742 0.13957 131 (pi0) 2 111 63 0 189 190 0.27515 -0.05343 -0.07004 0.31888 0.13498 132 gamma 1 22 66 0 0 0 0.12066 -0.09198 -0.74205 0.75740 0.00000 133 gamma 1 22 66 0 0 0 0.33330 -0.01401 -1.64641 1.67986 0.00000 134 pi+ 1 211 67 0 0 0 -0.19030 0.13820 -3.21123 3.22285 0.13957 135 (pi0) 2 111 67 0 191 192 0.19340 0.02076 -0.36710 0.43683 0.13498 136 (K~0) 2 -311 68 0 193 193 0.06886 -0.06935 -2.10184 2.16216 0.49767 137 pi- 1 -211 68 0 0 0 -0.04577 0.00946 -4.28960 4.29212 0.13957 138 KS0 1 310 69 0 0 0 0.62680 -0.79918 -8.92201 8.99342 0.49767 139 pi- 1 -211 70 0 0 0 0.23305 0.05773 -1.90339 1.92355 0.13957 140 pi+ 1 211 70 0 0 0 0.29503 -0.14613 -5.33266 5.34464 0.13957 141 (pi0) 2 111 70 0 194 195 -0.11043 -0.09233 -1.17395 1.19042 0.13498 142 KL0 1 130 74 0 0 0 0.38650 -0.03342 -7.49320 7.51973 0.49767 143 K+ 1 321 75 0 0 0 0.79900 0.05048 -6.31011 6.37982 0.49360 144 (pi0) 2 111 75 0 196 197 0.17725 -0.07179 -4.22445 4.23093 0.13498 145 gamma 1 22 77 0 0 0 -0.12700 -0.00445 -2.75870 2.76162 0.00000 146 gamma 1 22 77 0 0 0 -0.02978 0.03620 -0.25076 0.25510 0.00000 147 pi+ 1 211 78 0 0 0 0.34355 -0.38051 -1.90960 1.98213 0.13957 148 (pi0) 2 111 78 0 198 199 0.02512 0.05548 -3.31147 3.31478 0.13498 149 (K0) 2 311 80 0 200 200 -0.20458 1.12497 -27.47663 27.50491 0.49767 150 (pi0) 2 111 80 0 201 202 -0.06142 -0.04068 -5.33362 5.33584 0.13498 151 KL0 1 130 81 0 0 0 -0.34248 -0.34859 -31.29811 31.30588 0.49767 152 (K0) 2 311 82 0 203 203 -0.04894 -0.28335 -104.97767 104.97924 0.49767 153 pi+ 1 211 82 0 0 0 0.30510 0.12430 -82.95240 82.95317 0.13957 154 pi- 1 -211 84 0 0 0 0.24660 -0.24635 -25.25112 25.25391 0.13957 155 (pi0) 2 111 84 0 204 205 -0.06897 0.00705 -135.86012 135.86020 0.13498 156 gamma 1 22 86 0 0 0 0.13703 -0.07536 1.08272 1.09396 0.00000 157 gamma 1 22 86 0 0 0 0.30343 -0.27690 4.57794 4.59634 0.00000 158 gamma 1 22 87 0 0 0 0.09645 0.46899 11.04544 11.05581 0.00000 159 gamma 1 22 87 0 0 0 -0.01199 -0.11587 8.21570 8.21653 0.00000 160 pi+ 1 211 88 0 0 0 -0.30660 0.08718 1.71034 1.74538 0.13957 161 (pi0) 2 111 88 0 206 207 -0.15555 -0.67050 4.53729 4.59119 0.13498 162 gamma 1 22 91 0 0 0 -0.06448 -0.15481 2.43219 2.43796 0.00000 163 (rho(770)0) 2 113 91 0 208 209 -0.24241 0.27163 12.54657 12.57497 0.76223 164 gamma 1 22 93 0 0 0 -0.12506 0.08250 6.75780 6.75946 0.00000 165 gamma 1 22 93 0 0 0 -0.07000 0.23375 9.19608 9.19932 0.00000 166 pi+ 1 211 94 0 0 0 -0.11682 -0.10449 2.73628 2.74432 0.13957 167 (pi0) 2 111 94 0 210 211 0.53595 0.25615 18.91389 18.92370 0.13498 168 pi- 1 -211 95 0 0 0 -0.06691 0.03579 0.80722 0.82270 0.13957 169 pi+ 1 211 95 0 0 0 -0.17759 -0.31157 3.43195 3.45346 0.13957 170 (pi0) 2 111 95 0 212 213 0.22433 -0.10570 2.76091 2.77531 0.13498 171 K+ 1 321 97 0 0 0 0.03578 0.24364 -0.84098 1.00575 0.49360 172 (rho(770)-) 2 -213 97 0 214 215 0.21139 0.31967 -1.61738 1.86318 0.84181 173 p~- 1 -2212 97 0 0 0 0.15291 0.37436 -1.83673 2.10178 0.93827 174 (D_s+) 2 431 98 0 216 218 0.47569 -2.04653 -8.41024 8.88941 1.96850 175 gamma 1 22 98 0 0 0 0.07432 -0.35759 -0.92649 0.99588 0.00000 176 gamma 1 22 102 0 0 0 0.07926 0.66236 20.84843 20.85910 0.00000 177 gamma 1 22 102 0 0 0 -0.00246 0.01470 0.13416 0.13498 0.00000 178 gamma 1 22 104 0 0 0 0.00160 -0.10561 35.24157 35.24173 0.00000 179 gamma 1 22 104 0 0 0 0.17108 -0.12848 85.18936 85.18963 0.00000 180 nu_tau~ 1 -16 113 0 0 0 -1.72974 2.49993 -6.11707 6.83083 0.00000 181 (tau-) 2 15 113 0 234 235 -1.58096 1.15562 -5.00465 5.66032 1.77703 182 (D*(2010)+) 2 413 113 0 219 220 -0.83413 0.62923 -3.87600 4.48946 2.01000 183 gamma 1 22 118 0 0 0 0.03859 -0.01172 3.68681 3.68703 0.00000 184 gamma 1 22 118 0 0 0 -0.09518 -0.14370 12.63748 12.63865 0.00000 185 gamma 1 22 120 0 0 0 0.01467 0.38852 6.05810 6.07057 0.00000 186 gamma 1 22 120 0 0 0 0.01950 0.00584 0.81182 0.81208 0.00000 187 gamma 1 22 126 0 0 0 0.00747 -0.04310 0.20392 0.20856 0.00000 188 gamma 1 22 126 0 0 0 0.00515 0.03339 1.64595 1.64630 0.00000 189 gamma 1 22 131 0 0 0 0.26754 -0.01499 -0.07761 0.27897 0.00000 190 gamma 1 22 131 0 0 0 0.00761 -0.03844 0.00756 0.03991 0.00000 191 gamma 1 22 135 0 0 0 0.01836 0.01527 0.00604 0.02463 0.00000 192 gamma 1 22 135 0 0 0 0.17504 0.00549 -0.37314 0.41220 0.00000 193 KS0 1 310 136 0 0 0 0.06886 -0.06935 -2.10184 2.16216 0.49767 194 gamma 1 22 141 0 0 0 -0.05594 0.02377 -0.23417 0.24193 0.00000 195 gamma 1 22 141 0 0 0 -0.05450 -0.11610 -0.93979 0.94850 0.00000 196 gamma 1 22 144 0 0 0 0.03074 0.03147 -1.46763 1.46829 0.00000 197 gamma 1 22 144 0 0 0 0.14651 -0.10326 -2.75683 2.76265 0.00000 198 gamma 1 22 148 0 0 0 -0.04454 0.05884 -1.29227 1.29438 0.00000 199 gamma 1 22 148 0 0 0 0.06966 -0.00336 -2.01920 2.02040 0.00000 200 KL0 1 130 149 0 0 0 -0.20458 1.12497 -27.47663 27.50491 0.49767 201 gamma 1 22 150 0 0 0 -0.03398 -0.01739 -5.02195 5.02210 0.00000 202 gamma 1 22 150 0 0 0 -0.02744 -0.02329 -0.31167 0.31375 0.00000 203 KL0 1 130 152 0 0 0 -0.04894 -0.28335 -104.97767 104.97924 0.49767 204 gamma 1 22 155 0 0 0 -0.04088 -0.05919 -89.49950 89.49953 0.00000 205 gamma 1 22 155 0 0 0 -0.02809 0.06624 -46.36061 46.36067 0.00000 206 gamma 1 22 161 0 0 0 -0.00257 -0.15677 0.75558 0.77167 0.00000 207 gamma 1 22 161 0 0 0 -0.15298 -0.51373 3.78172 3.81951 0.00000 208 pi+ 1 211 163 0 0 0 0.19943 0.29256 5.49004 5.50321 0.13957 209 pi- 1 -211 163 0 0 0 -0.44184 -0.02094 7.05653 7.07176 0.13957 210 gamma 1 22 167 0 0 0 0.23238 0.04237 8.04538 8.04884 0.00000 211 gamma 1 22 167 0 0 0 0.30357 0.21379 10.86852 10.87486 0.00000 212 gamma 1 22 170 0 0 0 0.10027 -0.00544 0.58460 0.59316 0.00000 213 gamma 1 22 170 0 0 0 0.12406 -0.10026 2.17631 2.18214 0.00000 214 pi- 1 -211 172 0 0 0 0.28238 0.08558 -0.13255 0.35230 0.13957 215 (pi0) 2 111 172 0 221 222 -0.07099 0.23409 -1.48482 1.51088 0.13498 216 K+ 1 321 174 0 0 0 0.37765 -0.77750 -1.95233 2.19143 0.49360 217 (K*(892)~0) 2 -313 174 0 223 224 -0.22035 -0.95086 -4.70994 4.88796 0.86940 218 (pi0) 2 111 174 0 225 226 0.31839 -0.31817 -1.74796 1.81003 0.13498 219 (D0) 2 421 182 0 227 231 -0.75426 0.61140 -3.63763 4.20136 1.86450 220 pi+ 1 211 182 0 0 0 -0.07986 0.01783 -0.23837 0.28809 0.13957 221 gamma 1 22 215 0 0 0 -0.05310 0.04589 -0.19437 0.20666 0.00000 222 gamma 1 22 215 0 0 0 -0.01789 0.18820 -1.29045 1.30422 0.00000 223 K- 1 -321 217 0 0 0 -0.13387 -0.48612 -3.66878 3.73602 0.49360 224 pi+ 1 211 217 0 0 0 -0.08647 -0.46474 -1.04116 1.15194 0.13957 225 gamma 1 22 218 0 0 0 -0.00267 -0.05423 -0.20131 0.20850 0.00000 226 gamma 1 22 218 0 0 0 0.32105 -0.26393 -1.54666 1.60152 0.00000 227 pi+ 1 211 219 0 0 0 -0.11015 -0.21403 -0.70760 0.76034 0.13957 228 pi+ 1 211 219 0 0 0 -0.52407 0.45624 -0.76112 1.03999 0.13957 229 pi- 1 -211 219 0 0 0 0.07289 -0.00059 -0.15687 0.22226 0.13957 230 pi- 1 -211 219 0 0 0 0.23249 0.24123 -0.73151 0.81659 0.13957 231 (pi0) 2 111 219 0 232 233 -0.42541 0.12855 -1.28055 1.36217 0.13498 232 gamma 1 22 231 0 0 0 -0.30208 0.06932 -0.69697 0.76277 0.00000 233 gamma 1 22 231 0 0 0 -0.12333 0.05922 -0.58358 0.59940 0.00000 234 nu_tau 1 16 181 181 0 0 -0.91853 0.96889 -2.63278 2.95196 0.01000 235 (a_1(1260)-) 2 -20213 181 181 236 238 -0.66243 0.18673 -2.37187 2.70836 1.11165 236 (pi0) 2 111 235 FileInput Begin processing 1000th record. Run 222530, Trigger 999 FileInput Begin processing 1100th record. Run 222530, Trigger 1099 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:23:09 CDT run = 222530 event = 1134 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:24:44 CDT run = 222530 event = 1156 FileInput Begin processing 1200th record. Run 222530, Trigger 1199 FileInput Begin processing 1300th record. Run 222530, Trigger 1299 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:40:33 CDT run = 222530 event = 1386 FileInput Begin processing 1400th record. Run 222530, Trigger 1399 235 239 240 -0.25015 -0.29127 -0.62275 0.74394 0.13498 237 (pi0) 2 111 235 235 241 242 -0.45113 0.15724 -1.31473 1.40534 0.13498 238 pi- 1 -211 235 235 0 0 0.03885 0.32076 -0.43439 0.55908 0.13957 239 gamma 1 22 236 236 0 0 -0.23260 -0.26217 -0.61683 0.70945 0.00000 240 gamma 1 22 236 236 0 0 -0.01755 -0.02910 -0.00592 0.03450 0.00000 241 gamma 1 22 237 237 0 0 -0.17488 0.13189 -0.57973 0.61973 0.00000 242 gamma 1 22 237 237 0 0 -0.27626 0.02535 -0.73500 0.78561 0.00000 *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1042 Random Seeds = 9876 54321 Track 399 stack 74 NTMULT 13417 EM_Shower Time of flight 11.742 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1118 Random Seeds = 9876 54321 Track 971 stack 83 NTMULT 3755 GAMMA Time of flight 27.409 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1213 Random Seeds = 9876 54321 Track 1726 stack 23 NTMULT 16943 GAMMA Time of flight 8.367 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1257 Random Seeds = 9876 54321 Track 425 stack 47 NTMULT 3035 EM_Shower Time of flight 8.925 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1378 Random Seeds = 9876 54321 Track 2484 stack 31 NTMULT 19920 GAMMA Time of flight 10.663 ns Track 2484 stack 31 NTMULT 19920 GAMMA Time of flight 10.663 ns =====> TRACK 602 STACK NR 89 NTMULT= 14621 NEUTRINO TOFG = 833.100 NS X Y Z R NAME NUMBER SLENG STEP DESTEP GEKIN MECHANISMS -120.9080 69.4648 157.7454 139.4422 TOFR **** 51.6234********** 0.0 eV 46.011 MeV NULL -120.9080 69.4648 157.7454 139.4422 TOFR **** 51.6234********** 0.0 eV 46.011 MeV NULL -120.9098 69.4658 157.7454 139.4441 TOFR **** 51.6254********** 0.0 eV 46.011 MeV NULL -120.9098 69.4658 157.7454 139.4441 TOFR **** 51.6254********** 0.0 eV 46.011 MeV NULL -120.9116 69.4667 157.7454 139.4461 TOFR **** 51.6274********** 0.0 eV 46.011 MeV NULL -120.9116 69.4667 157.7454 139.4461 TOFR **** 51.6274********** 0.0 eV 46.011 MeV NULL -120.9133 69.4676 157.7454 139.4481 TOFR **** 51.6294********** 0.0 eV 46.011 MeV NULL -120.9133 69.4676 157.7454 139.4481 TOFR **** 51.6294********** 0.0 eV 46.011 MeV NULL -120.9151 69.4685 157.7454 139.4501 TOFR **** 51.6314********** 0.0 eV 46.011 MeV NULL -120.9151 69.4685 157.7454 139.4501 TOFR **** 51.6314********** 0.0 eV 46.011 MeV NULL -120.9169 69.4694 157.7454 139.4521 TOFR **** 51.6334********** 0.0 eV 46.011 MeV NULL -120.9169 69.4694 157.7454 139.4521 TOFR **** 51.6334********** 0.0 eV 46.011 MeV NULL -120.9186 69.4703 157.7454 139.4541 TOFR **** 51.6354********** 0.0 eV 46.011 MeV NULL -120.9186 69.4703 157.7454 139.4541 TOFR **** 51.6354********** 0.0 eV 46.011 MeV NULL -120.9204 69.4713 157.7454 139.4561 TOFR **** 51.6374********** 0.0 eV 46.011 MeV NULL -120.9204 69.4713 157.7454 139.4561 TOFR **** 51.6374********** 0.0 eV 46.011 MeV NULL -120.9222 69.4722 157.7454 139.4581 TOFR **** 51.6394********** 0.0 eV 46.011 MeV NULL -120.9222 69.4722 157.7454 139.4581 TOFR **** 51.6394********** 0.0 eV 46.011 MeV NULL -120.9240 69.4731 157.7454 139.4601 TOFR **** 51.6414********** 0.0 eV 46.011 MeV NULL -120.9240 69.4731 157.7454 139.4601 TOFR **** 51.6414********** 0.0 eV 46.011 MeV NULL -120.9257 69.4740 157.7454 139.4621 TOFR **** 51.6434********** 0.0 eV 46.011 MeV NULL -120.9257 69.4740 157.7454 139.4621 TOFR **** 51.6434********** 0.0 eV 46.011 MeV NULL -120.9275 69.4749 157.7454 139.4641 TOFR **** 51.6454********** 0.0 eV 46.011 MeV NULL -120.9275 69.4749 157.7454 139.4641 TOFR **** 51.6454********** 0.0 eV 46.011 MeV NULL -120.9293 69.4758 157.7454 139.4660 TOFR **** 51.6474********** 0.0 eV 46.011 MeV NULL -120.9293 69.4758 157.7454 139.4660 TOFR **** 51.6474********** 0.0 eV 46.011 MeV NULL -120.9310 69.4767 157.7454 139.4680 TOFR **** 51.6494********** 0.0 eV 46.011 MeV NULL -120.9310 69.4767 157.7454 139.4680 TOFR **** 51.6494********** 0.0 eV 46.011 MeV NULL -120.9328 69.4777 157.7454 139.4700 TOFR **** 51.6514********** 0.0 eV 46.011 MeV NULL -120.9328 69.4777 157.7454 139.4700 TOFR **** 51.6514********** 0.0 eV 46.011 MeV NULL -120.9346 69.4786 157.7454 139.4720 TOFR **** 51.6534********** 0.0 eV 46.011 MeV NULL -120.9346 69.4786 157.7454 139.4720 TOFR **** 51.6534********** 0.0 eV 46.011 MeV NULL -120.9363 69.4795 157.7454 139.4740 TOFR **** 51.6554********** 0.0 eV 46.011 MeV NULL -120.9363 69.4795 157.7454 139.4740 TOFR **** 51.6554********** 0.0 eV 46.011 MeV NULL -120.9381 69.4804 157.7454 139.4760 TOFR **** 51.6574********** 0.0 eV 46.011 MeV NULL -120.9381 69.4804 157.7454 139.4760 TOFR **** 51.6574********** 0.0 eV 46.011 MeV NULL -120.9399 69.4813 157.7454 139.4780 TOFR **** 51.6594********** 0.0 eV 46.011 MeV NULL -120.9399 69.4813 157.7454 139.4780 TOFR **** 51.6594********** 0.0 eV 46.011 MeV NULL -120.9417 69.4822 157.7454 139.4800 TOFR **** 51.6614********** 0.0 eV 46.011 MeV NULL -120.9417 69.4822 157.7454 139.4800 TOFR **** 51.6614********** 0.0 eV 46.011 MeV NULL -120.9434 69.4832 157.7454 139.4820 TOFR **** 51.6634********** 0.0 eV 46.011 MeV NULL -120.9434 69.4832 157.7454 139.4820 TOFR **** 51.6634********** 0.0 eV 46.011 MeV NULL -120.9452 69.4841 157.7454 139.4840 TOFR **** 51.6654********** 0.0 eV 46.011 MeV NULL -120.9452 69.4841 157.7454 139.4840 TOFR **** 51.6654********** 0.0 eV 46.011 MeV NULL -120.9470 69.4850 157.7454 139.4859 TOFR **** 51.6674********** 0.0 eV 46.011 MeV NULL -120.9470 69.4850 157.7454 139.4859 TOFR **** 51.6674********** 0.0 eV 46.011 MeV NULL -120.9487 69.4859 157.7454 139.4879 TOFR **** 51.6694********** 0.0 eV 46.011 MeV NULL -120.9487 69.4859 157.7454 139.4879 TOFR **** 51.6694********** 0.0 eV 46.011 MeV NULL -120.9505 69.4868 157.7454 139.4899 TOFR **** 51.6714********** 0.0 eV 46.011 MeV NULL -120.9505 69.4868 157.7454 139.4899 TOFR **** 51.6714********** 0.0 eV 46.011 MeV NULL -120.9523 69.4877 157.7454 139.4919 TOFR **** 51.6734********** 0.0 eV 46.011 MeV NULL -120.9523 69.4877 157.7454 139.4919 TOFR **** 51.6734********** 0.0 eV 46.011 MeV NULL -120.9540 69.4886 157.7454 139.4939 TOFR **** 51.6754********** 0.0 eV 46.011 MeV NULL -120.9540 69.4886 157.7454 139.4939 TOFR **** 51.6754********** 0.0 eV 46.011 MeV NULL -120.9558 69.4896 157.7454 139.4959 TOFR **** 51.677FileInput Begin processing 1500th record. Run 222530, Trigger 1499 FileInput Begin processing 1600th record. Run 222530, Trigger 1599 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 %ERLOG-w time out of bounds in BmuHitPrecursor: /cdf/scratch/beauche/MaxOpt_H/MuonSim/src/BmuHitPrecursor.cc : 80 GlobalLibraryLogger AppFileBasedStream::configure() 12-Aug-2007 23:58:50 CDT run = 222530 event = 1654 FileInput Begin processing 1700th record. Run 222530, Trigger 1699 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:03:16 CDT run = 222530 event = 1717 FileInput Begin processing 1800th record. Run 222530, Trigger 1799 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:09:07 CDT run = 222530 event = 1803 %ERLOG-e CAFE word: Corrupt ADC response: negative charge!!! GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:10:11 CDT run = 222530 event = 1818 FileInput Begin processing 1900th record. Run 222530, Trigger 1899 FileInput Begin processing 2000th record. Run 222530, Trigger 1999 4********** 0.0 eV 46.011 MeV NULL -120.9558 69.4896 157.7454 139.4959 TOFR **** 51.6774********** 0.0 eV 46.011 MeV NULL -120.9576 69.4905 157.7454 139.4979 TOFR **** 51.6794********** 0.0 eV 46.011 MeV NULL -120.9576 69.4905 157.7454 139.4979 TOFR **** 51.6794********** 0.0 eV 46.011 MeV NULL -120.9594 69.4914 157.7454 139.4999 TOFR **** 51.6814********** 0.0 eV 46.011 MeV NULL -120.9594 69.4914 157.7454 139.4999 TOFR **** 51.6814********** 0.0 eV 46.011 MeV NULL -120.9611 69.4923 157.7454 139.5019 TOFR **** 51.6834********** 0.0 eV 46.011 MeV NULL -120.9611 69.4923 157.7454 139.5019 TOFR **** 51.6834********** 0.0 eV 46.011 MeV NULL -120.9629 69.4932 157.7454 139.5039 TOFR **** 51.6854********** 0.0 eV 46.011 MeV NULL *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1474 Random Seeds = 9876 54321 Track 608 stack 0 NTMULT 5513 MUON + Time of flight 414.684 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1512 Random Seeds = 9876 54321 Track 562 stack 79 NTMULT 4345 GAMMA Time of flight 11.666 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1531 Random Seeds = 9876 54321 Track 928 stack 55 NTMULT 7827 EM_Shower Time of flight 12.567 ns *** GTRACK *** More than 10000 steps, tracking abandoned! IEVENT= 0 IDEVT= 1817 Random Seeds = 9876 54321 Track 968 stack 25 NTMULT 10715 EM_Shower Time of flight 9.505 ns RandomGenManager: saving current random state in/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/random_seed_output_1.dat BGENERATOR - 1234567,86543 EvtGen - 454180350,623759606 FAKE_EVENT - 9785434,33548 GEN_PRIM_VERT - 588236872,1677473255 GRNDM - 665170008,1599803492 HEAVYQUARKGEN - 7349792,39794 HERWIG - 1868326,52386 PYTHIA - 566322028,1646755273 QFL - 1364966998,1393215880 QQModule - 3721993,69470 SIMULATION - 434384655,1795091344 SVX_SIM - 1371400684,565566478 TAUOLA - 1054757888,1382485712 WGRAD - 9834262,35354 mbr - 2553412,53245 Call PYSTAT at endJob 1********* PYSTAT: Statistics on Number of Events and Cross-sections ********* ============================================================================== I I I I I Subprocess I Number of points I Sigma I I I I I I----------------------------------I----------------------------I (mb) I I I I I I N:o Type I Generated Tried I I I I I I ============================================================================== I I I I I 0 All included subprocesses I 9366 891336 I 7.392E+01 I I 11 f + f' -> f + f' (QCD) I 1405 0 I 1.119E+01 I I 12 f + fbar -> f' + fbar' I 0 0 I 0.000E+00 I I 13 f + fbar -> g + g I 1 0 I 7.961E-03 I I 28 f + g -> f + g I 1170 0 I 9.315E+00 I I 53 g + g -> f + fbar I 52 0 I 4.140E-01 I I 68 g + g -> g + g I 2337 0 I 1.861E+01 I I 91 Elastic scattering I 1958 1958 I 1.502E+01 I I 92 Single diffractive (XB) I 780 780 I 6.236E+00 I I 93 Single diffractive (AX) I 767 767 I 6.236E+00 I I 94 Double diffractive I 896 904 I 6.893E+00 I I 95 Low-pT scattering I 0 4999 I 0.000E+00 I I I I I ============================================================================== ********* Fraction of events that fail fragmentation cuts = 0.00362 ********* GOODBYE from TauolaModule Output run section ranges: (222530,1):(222530,2) Input run section ranges: (222530,1):(222530,2) *** CotqModule Summary: In 76869572 Out 38525884 Compression 1.995 *** SvxqModule Summary: In 124015024 Out 66651868 Compression 1.861 ***** ***** Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root ***** after 2001 records, with a total size of 286464kBytes written. ***** 2000 of those records were phyics events, ***** whose average size is: 144.kBytes/event ***** #### SVT Summary - SVT #### Tracks in cracks: 0 Physical Barrel crossers: 0 Electrical Barrel crossers: 0 Wedge crossers: 0 Tracks in dead areas: 0 Number of selected tracks: 0 Total number of tracks: 0 #### End of SVT Summary - SVT #### Termination Summary Process cdfSim type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DEBUG .. DBEventLogger 146* 146 2 Geant3GeometryInterf .. GlobalLibraryLog 1199* 1199 3 SimulatorGeometryInt .. GlobalLibraryLog 74292* 74292 4 [CDFHEPEVT_NEW_HEPG] .. GlobalLibraryLog AppFileBasedStre 9366* 9366 5 [CDFTAUEVT_NEW_TAUG] .. GlobalLibraryLog AppFileBasedStre 9366* 9366 6 [G3_DECLARE_PHYS] .. GlobalLibraryLog 15832* 15832 7 [G3_INIT_PAWC] .. GlobalLibraryLog 1* 1 8 [G3_VOL_ORDER_Z] .. GlobalLibraryLog 1* 1 9 DBACC_G -! DBEventLogger 84* 84 10 [G3_DECLARE_LVOL] -! GlobalLibraryLog 1191* 1191 11 [G3_DECLARE_MAT] -! GlobalLibraryLog 34* 34 12 [G3_DECLARE_PHYS] -! GlobalLibraryLog 15831* 15831 13 [G3_DECLARE_ROT] -! GlobalLibraryLog 3311* 3311 14 [G3_DECLARE_TMED] -! GlobalLibraryLog 58* 58 15 Bfield::setUniform -i GlobalLibraryLog 1* 1 16 DBCON_J -i DBEventLogger 2* 2 17 DBCON_O -i DBEventLogger 98* 98 18 DEPRECATED -i CalibDB 26* 26 19 ParameterizedDeposit -i GlobalLibraryLog AppFileBasedStre 420* 420 20 SiPassiveMaterial::S -i GlobalLibraryLog 1* 1 21 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 22 [G3_DECLARE_TANG] -i GlobalLibraryLog 5857* 5857 23 [G3_OLD_ROT] -i GlobalLibraryLog 10598* 10598 24 [G3_PHYS_NO_PARENT] -i GlobalLibraryLog 1* 1 25 [G3_ROT_IDENTITY] -i GlobalLibraryLog 1922* 1922 26 [SIMINIT:BEGINJOB] -i SimInitManager 2* 2 27 [SIMINIT:FINISHED_IN -i SimInitManager 2* 2 28 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 1* 1 29 generateBeginFileFra -i FileInput openNextFile 1* 1 30 generateBeginRunSect -i FileInput nextEvent 1* 1 31 RCP put failure -w CalibrationManag 2 2 32 time out of bounds i -w GlobalLibraryLog AppFileBasedStre 4 4 33 CAFE word -e GlobalLibraryLog AppFileBasedStre 10 10 34 [PYTHIA_BMIXOF_R] -e Pythia 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DEBUG 0/0 0/0 222530/1 2 Geant3GeometryInterf 0/0 0/0 0/0 3 SimulatorGeometryInt 0/0 0/0 0/0 4 [CDFHEPEVT_NEW_HEPG] 222530/1 222530/1 222530/2000 5 [CDFTAUEVT_NEW_TAUG] 222530/1 222530/1 222530/2000 6 [G3_DECLARE_PHYS] 0/0 0/0 0/0 7 [G3_INIT_PAWC] 0/0 8 [G3_VOL_ORDER_Z] 0/0 9 DBACC_G 0/0 0/0 222530/1 10 [G3_DECLARE_LVOL] 0/0 0/0 0/0 11 [G3_DECLARE_MAT] 0/0 0/0 0/0 12 [G3_DECLARE_PHYS] 0/0 0/0 0/0 13 [G3_DECLARE_ROT] 0/0 0/0 0/0 14 [G3_DECLARE_TMED] 0/0 0/0 0/0 15 Bfield::setUniform 0/0 16 DBCON_J 0/0 222530/2000 17 DBCON_O 0/0 0/0 222530/1 18 DEPRECATED 0/0 0/0 222530/1 19 ParameterizedDeposit 222530/9 222530/20 222530/1999 20 SiPassiveMaterial::S 0/0 21 SiPassiveMaterial::c 0/0 0/0 0/0 22 [G3_DECLARE_TANG] 0/0 0/0 0/0 23 [G3_OLD_ROT] 0/0 0/0 0/0 24 [G3_PHYS_NO_PARENT] 0/0 25 [G3_ROT_IDENTITY] 0/0 0/0 0/0 26 [SIMINIT:BEGINJOB] 0/0 0/0 27 [SIMINIT:FINISHED_IN 0/0 0/0 28 calor::Calib: 222530/1 29 generateBeginFileFra 0/0 30 generateBeginRunSect 222530/1 31 RCP put failure 0/0 0/0 32 time out of bounds i 222530/1654 222530/1654 222530/1654 33 CAFE word 222530/366 222530/630 222530/1818 34 [PYTHIA_BMIXOF_R] 0/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 110203 110203 Success 20509 20509 Info 18938 18938 Warning 6 6 Error 11 11 [MCProd]: RUNMC_FLAG=READ_GENERATE_AND_SIMULATE EXEFILE=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/cdfSim rc=0 [MCProd]: before if [mode == 1] [MCProd]: before if [MODE == 0] MODE=2 [MCProd]: finally print TRGSim++ [MCProd]: ########################################################## [MCProd]: # TRGSim++ input TCL file: [MCProd]: ########################################################## ############################################################### # # this is an example script to run TRGSim # This example can the Consumer Interface so it connects # to the Consumer Server and requests events # # Tell the calibrarion manager the used set # you need TclUtils package available / in the tarball (it is there by default) #------------------------------------------------------------------------------ source $env(WORK_DIR)/TclUtils/scripts/getenv.tcl #------------------------------------------------------------------------------ set run [ getenv RUN_NUMBER 151435 ] set TRIGSIM_INPUT_FILE [ getenv TRIGSIM_INPUT_FILE trigsim.input ] set TRIGSIM_OUTPUT_FILE [ getenv TRIGSIM_OUTPUT_FILE trigsim.output ] #------------------------------------------------------------------------------ creator set TRG path enable AllPath path list show path ################################################### # ErrorLoggerManager ################################################### module talk ErrorLoggerManager errfile set TrgSimError.log limit set 10 severity set ERROR exit ################################################### # PuffModule ################################################### module talk PuffModule puffOnly add CalData exit ############################################################################# # puffing --- this is to be used with 5.3.1pre1 onward if there are Pad banks ############################################################################# # enable the following 2 modules if you have: PadSqz::COTQ,PadSqz::SVXQ, # otherwise disable module disable CalqModule module disable SmxqModule #module disable CotqModule #module disable SvxqModule ############################################################################### # CalorimetryModule - to be used when CalData needs to be repuffed # into D-banks and the following banks are NOT present in the event record # CEMD, CHAD, PHAD, PEMD, WHAD -- NB they could be puffed by CalqModule, # so if you use CalqModule, don't use CalorimetryModule ############################################################################### module talk CalorimetryModule makeDbanks set f show exit ################################################### # FileInput ################################################### module input DHInput module talk DHInput requireCatalog set t include file $TRIGSIM_INPUT_FILE show #include file root://fcdfsgi2.fnal.gov//cdf/data38a/s2/exotic/rolli/LQ/mc/signal/cdfsim/cdfSim_LQ_200_mumu_5000evt_531pre1.root #include file root://fcdfsgi2.fnal.gov//cdf/data38a/s2/exotic/rolli/LQ/mc/signal/cdfsim/cdfSim_LQ_200_5000evt_491.root_1 #input file /home/rolli/software/jan14/jh021cb9.0001bot0.sim #input file /mnt/firewire/simona/LQ/varie/top_herwig_1.root_1 #input file /mnt/firewire/simona/software/data/anakin/jh021cb9.0001bot0.sim #selectEvents exclude run=151435 event=1 #selectEvents exclude run=151435 event=2 #selectEvents exclude run=151435 event=19 exit ################################################### # FileOutput ################################################### module output FileOutput module talk FileOutput # output create test_stream TRGSim_MC_anakin_sim_prereq.root # output create test_stream TRGSim_MC_anakin_sim_prereqBit23.root # output create test_stream TRGSim_MC_anakin_sim_prereqBit48.root output create test_stream $TRIGSIM_OUTPUT_FILE # output create test_stream TRGSim_MC_LQ_4.9.1_XFTSimCorrected.root output path test_stream AllPath output keepList test_stream EVCL_StorableBank output keepList test_stream LRIH_StorableBank output keepList test_stream HEPG_StorableBank output keepList test_stream PESD_StorableBank output keepList test_stream CESD_StorableBank output keepList test_stream CPRD_StorableBank # Calo banks output keepList test_stream CEMD_StorableBank output keepList test_stream CHAD_StorableBank output keepList test_stream PEMD_StorableBank output keepList test_stream PHAD_StorableBank output keepList test_stream WHAD_StorableBank # for release prior 5.3.x #output keepList test_stream COTQ #output keepList test_stream COTD_StorableBank #output keepList test_stream SIXD_StorableBank # for releases posterior to 5.3.x check with the Production tcl switch... output keepList test_stream -add PadSqz::COTQ output keepList test_stream -add PadSqz::SVXQ output keepList test_stream COTM_StorableObject output keepList test_stream MuonXZHitColl output keepList test_stream MuonTHitColl output keepList test_stream IMUE_StorableBank #Muon banks output keepList test_stream CMPD_StorableBank output keepList test_stream CSPD_StorableBank output keepList test_stream CMUD_StorableBank output keepList test_stream CMXD_StorableBank output keepList test_stream SIXD_StorableBank output keepList test_stream MSVX_StorableBank output keepList test_stream ISLD_StorableBank output keepList test_stream MISL_StorableBank output keepList test_stream TOFD_StorableBank output keepList test_stream OBSP_StorableBank output keepList test_stream OBSV_StorableBank output keepList test_stream FastZVertexColl output keepList test_stream CdfTrackIdManager output keepList test_stream CdfTrackColl output keepList test_stream XFFD_StorableBank output keepList test_stream XFLD_StorableBank output keepList test_stream XTRD_StorableBank output keepList test_stream XTRPMatchboxData output keepList test_stream SVTD_StorableBank output keepList test_stream TC2D_StorableBank output keepList test_stream TC1D_StorableBank output keepList test_stream TL1D_StorableBank output keepList test_stream TL2D_StorableBank output keepList test_stream TCMD_StorableBank output keepList test_stream TFRD_StorableBank output keepList test_stream TL2D_StorableBank # IMPORTANT!!!!! KEEP THE LINE BELOW !!!! output dropList test_stream TL1D_StorableBank:CalTrig_Simulated_Trigger_Bank \ TL2D_StorableBank:Calorimeter_TL2D_Bank exit ################################################### # CalibrationManager ################################################### source $env(CDFSOFT2_DIR)/Production/setup_calibration.tcl # database options if { $USE_FRONTIER_DB } { set dbname "frontier" } else { set dbname "ofotl_prd_read" } ############################################################################### # TrigSimModule: this is the monitoring module, producing several of the # sets of histos of TrigMon ############################################################################### # see menu and change options: module talk TrigSimModule verbose set f # turns display server on/off startServer set f # turns TrigSim.map on/off saveMemoryMapFile set f saveROOTFile set t updateFreq set 10 jobName set TrigSim CalTriggerMonitor CalTriggerMonitor set t # Check_Freq set t exit XFTTriggerMonitor2 XFTTriggerMonitor2 set f # XFT_Check_Freq set f exit XTRDMonitor XTRDMonitor set f exit exit ###################################################### # TRGSim++ -- this is the main trigger emulation code ###################################################### module disable TrigSimModule #module disable svtsim #module disable XFTSim #module disable XTRPSim #module disable MuonTriggerMaker #module disable CalTriggerDataMaker #module disable L2Sim #module disable FredSim ################################################ #XFT # manual setting (without DB access) module talk XFTSim # to run on simulated data: # data_flag set false # useCOTQ set true data_flag set false # with 5.3.1pre1 onward CotqModule will puff a COTD back, for previous releasese activete the line below # useCOTQ set true # MCPedestalCorrection, it has been introduced for COTD in releases 5.x. onward # to be set to 0 for older MC data MCPedestalCorr set 1 DEBUG set true # debug_xfld set true # printlvl set 4 dataLinker_flag set false # minHitsReq set 5 5 5 5 # # patch for 1-miss 2-miss from run number # if {$run < 152636} then { minHitsReq set 10 10 10 10 puts "setting XFTSim for 2-miss" } else { minHitsReq set 11 11 11 11 } # # this is also run-dependant # startBrdShift set 11 shiftedBeam set true if {$run < 174770} then { beamOffset set r_0p4 } else { if {$run < 176574} then { beamOffset set r_0p55 } else { beamOffset set r_0p25 } } if {$run > 179056} then { puts "COT problems in this run ?" } # shiftedBeam set true # beamOffset set r_0p4 # startBrdShift set 11 monitoring set false debug_level set 1. useOnlineDB set false # summaryFile set false exit ################################################ #XTRP #To showcase the XTRPSimModule, we're going to set each talk-to, # even though some of the values are default # only assign boards to the first two slots # assign serial numbers 1-12 # specify REAL_MAP lookup talk XTRPSim # to run on simulated data: data_flag set false # to overwrite the run number for simulated data with a physical run number ( and access TriggerDB) # run_Number set $run # run_Number list # to get input from simulated XFLD standalone set false readMaps set false slot6 set true slot7 set true slot8 set true slot9 set true slot10 set true slot11 set true slot12 set true slot13 set true slot14 set true slot15 set true slot16 set true slot17 set true serialNum0 set 1 serialNum1 set 2 serialNum2 set 3 serialNum3 set 4 serialNum4 set 5 serialNum5 set 6 serialNum6 set 7 serialNum7 set 8 serialNum8 set 9 serialNum9 set 10 serialNum10 set 11 serialNum11 set 12 lookupVar set 3 corkSeed set 0 # not really needed, we're using REAL_MAPS # 1 for real data - 0 for simulated # data_flag set f DataDB set $dbname exit ################################################ ##svtsim module talk svtsim ################################################ # is using realistic simulation ################ ############################################### dataFileDir set "$env(CDFSOFT2_DIR)/svtsim/svtdata" # this is from Simona's page # DBRunNumber set 142110 writeBank set true useDB set true dbConn set $dbname debugPrint set f sixdProcessName set "NSIM" sixdDescription set "CORRECTED" BeamMenu useBeamLineFromDatabase set false useBeamLineFromAsciiFile set true beamDatabaseFileName set "$env(CDFSOFT2_DIR)/svtsim/test/testSVTBeam" exit show exit ################################################ #MuonTrigger module talk MuonTriggerMaker show exit ################################################ ################################################### # CalTriggerDataMaker ################################################### module talk CalTriggerDataMaker online set t online list debug_level set 0.0 debug_level list DEBUG set f use_hardware_L1 set f use_software_CAL_banks set t run_Number set $run run_Number list use_xtrp set t use_hardware_xtrd set f # database manager set to f when using CalibrationManager ( THIS CASE) databaseManager set f databaseManager list # commissioning run flag ( scale factors) #commissioning_run set f #commissioning_run list new_sum_rule_run set 137164 #need this for frontier DataDB set $dbname exit ################################################ filter -path AllPath SpikeFilter off ################################################ talk FredSim debug_DBAccess set f debug_Prefred set t debug_TFRD set t #turn this off for real data use_simTL1D set t check_TSID set f check_SL1D set f fill_SimTFRD set t #fake run number for mc data run_Number set $run #need this for frontier DataDB set $dbname exit module talk L2Sim standalone set false #need this for frontier DataDB set $dbname ### need to set runNumber when the MC file does NOT have a physical run number in the data stream # ex: if run number from data stream is 142110 DO NOT set runNumber # if run number from data stream is 0 then set it... #runNumber set $run exit ###################################################### #### Prereq - the following talk-to passes everything ###################################################### module enable Prereq module talk Prereq bankType set "Simulated Trigger Bank" bankType list printTriggerMap set true printTriggerSummary set true UseUnprescaledBits set true GetL1TriggerBitsFromTFRD set false GetL1TriggerBitsFromTL2D set true L1Accept set true # L1Accept set false # L1TriggerNames set L1_JET5_PS20 # L1TriggerBits set 21 48 L2Accept set true L3Accept set true production set false debug set false verbose set true show exit ################################################ #### Start running ################################################ #action on "Name Action" begin show path show timer exit [MCProd]: source /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/mcProduction/scripts/run_executable /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/TRGSim++ /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/TriggerMods/test/run_TRGSim++_MC.tcl ################################################################## run_executable: exe_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/TRGSim++ tcl_file=/local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/TriggerMods/test/run_TRGSim++_MC.tcl debug= ################################################################## ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 13-Aug-2007 00:24:23 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM <<<getenv>>> : Name= RUN_NUMBER Default= 151435 x= 222530 <<<getenv>>> : Name= TRIGSIM_INPUT_FILE Default= trigsim.input x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root <<<getenv>>> : Name= TRIGSIM_OUTPUT_FILE Default= trigsim.output x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root **** Listing of all available paths **** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 EventDump * no on 0 0 CalqModule * no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 CalorimetryModule * no on 0 0 XFTSim * no on 0 0 XTRPSim * no on 0 0 svtsim * no on 0 0 CalTriggerDataMaker * no on 0 0 MuonTriggerMaker * no on 0 0 TL1DMaker * no on 0 0 FredSim * yes on 0 0 SpikeFilter * no on 0 0 L2Sim * no on 0 0 TrigSimModule * yes on 0 0 Prereq **** Listing of all available paths **** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 0 0 ErrorLoggerManager * no on 0 0 PuffModule * no on 0 0 CalibrationManager * no on 0 0 GeometryManager * no on 0 0 SignalManager yes on 0 0 ConfigManager * no on 0 0 EventDump * no on 0 0 CalqModule * no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 CalorimetryModule * no on 0 0 XFTSim * no on 0 0 XTRPSim * no on 0 0 svtsim * no on 0 0 CalTriggerDataMaker * no on 0 0 MuonTriggerMaker * no on 0 0 TL1DMaker * no on 0 0 FredSim * yes on 0 0 SpikeFilter * no on 0 0 L2Sim * no on 0 0 TrigSimModule * yes on 0 0 Prereq Current value of item(s) in the "CalorimetryModule" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of thresholds for this module is true Value of spikeKiller for this module is 0 Value of minEtTower for this module is 0 Value of plugGain for this module is 0 Value of useMPALumiCalib for this module is true Value of accessDB for this module is true Value of makeDbanks for this module is false Value of makeOfflineLers for this module is true Value of createCalData for this module is true Value of useOffScl for this module is true Current value of item(s) in the "DHInput" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of events for this module is 2147483646 Value of maxReadErrors for this module is 2 Value of report for this module is 100 Value of statusFile for this module is 0 Value of firstEvent for this module is -1 dropList in module DHInput has 0 values (minimum 0, maximum 1000): classHideList in module DHInput has 0 values (minimum 0, maximum 1000): hideList in module DHInput has 0 values (minimum 0, maximum 1000): processDropList in module DHInput has 0 values (minimum 0, maximum 1000): keepFromProcessList in module DHInput has 0 values (minimum 0, maximum 1000): runSections: *:* selectEvents: *(*):*(*) runsTrigs: *(*):*(*) Value of recordType for this module is SIMPLE Value of timeout for this module is 86400 Value of rawRS for this module is false Value of luminosityLog for this module is NONE Value of requireCatalog for this module is true Value of dropInput for this module is false Value of useBlockIO for this module is false Value of primaryBasketSz for this module is 131072 Value of readRawTrig for this module is true Value of readRawTrack for this module is true Value of readRawCalor for this module is true Value of readTrack for this module is true Value of readCalor for this module is true Value of readMuon for this module is true Value of readElectron for this module is true Value of readPadCalor for this module is true Value of readPadTrack for this module is true Value of readL3 for this module is true Value of blockIORawTrig for this module is false Value of blockIORawTrack for this module is false Value of blockIORawCalor for this module is false Value of blockIOTrack for this module is false Value of blockIOCalor for this module is false Value of blockIOMuon for this module is false Value of blockIOElectron for this module is false Value of blockIOPadCalor for this module is false Value of blockIOPadTrack for this module is false Value of blockIOL3 for this module is false Value of skipOver for this module is -1 There are no run/event requests for DHInput Data not processed yet: Static Files: ------------- /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root Catalog files: -------------- No DataSets Read files: 0 of maximum requested: unlimited Elapsed clock time: 0 of maximum requested: 2592000 (2592000 seconds left) This job processes section 1 of total 1 of input data Value of maxFiles for this module is 0 Value of maxTime for this module is 2592000 parameter in module DHInput has 0 values (minimum 0, maximum 0): Current value of items on the "sam" menu: Value of project for this module is Value of station for this module is Value of group for this module is test Value of cache for this module is DCACHE <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is false Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:24:23 CDT run = 0 event = 0 COT problems in this run ? Current value of item(s) in the "svtsim" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of dataFileDir for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/svtdata Value of useDB for this module is true Value of dbConn for this module is frontier Value of mapSet for this module is svt Value of hwSet for this module is svt Value of debugPrint for this module is false Value of writeBank for this module is true Value of DBRunNumber for this module is 0 Value of sixdProcessName for this module is NSIM Value of sixdDescription for this module is CORRECTED Current value of items on the "ExpertMenu" menu: Value of L1BitXTFMaskLow for this module is -1 Value of L1BitXTFMaskHigh for this module is -1 Value of ImposeL1BitMaskFromTalkTo for this module is false Current value of items on the "BeamMenu" menu: Value of subtractBeamLine for this module is true Value of useBeamLineFromTalkTo for this module is false Value of useBeamLineFromSVDD for this module is true Value of useBeamLineFromDatabase for this module is false Value of useBeamLineFromAsciiFile for this module is true Value of beamDatabaseFileName for this module is /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/test/testSVTBeam Value of BeamlinedbConn for this module is ofotl_prd_read Value of BeamlinedbStatus for this module is TEST Value of BeamlinedbVersion for this module is -1 Value of BeamlinedbExpert for this module is false Value of X0b0 for this module is 0 Value of Y0b0 for this module is 0 Value of X0b1 for this module is 0 Value of Y0b1 for this module is 0 Value of X0b2 for this module is 0 Value of Y0b2 for this module is 0 Value of X0b3 for this module is 0 Value of Y0b3 for this module is 0 Value of X0b4 for this module is 0 Value of Y0b4 for this module is 0 Value of X0b5 for this module is 0 Value of Y0b5 for this module is 0 Current value of item(s) in the "MuonTriggerMaker" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Value of cmu for this module is true Value of cmx for this module is true Value of cmp for this module is true Value of bmu for this module is true Value of bsu for this module is true Value of tsu for this module is true Value of hat for this module is true Value of BMU_LoPt_Threshold for this module is 128 Value of BMU_MedPt_Threshold for this module is 128 Value of BMU_HiPt_Threshold for this module is 50 Value of CMU_LoPt_Threshold for this module is 396 Value of CMU_MedPt_Threshold for this module is 396 Value of CMU_HiPt_Threshold for this module is 124 Value of CMX_LoPt_Threshold for this module is 396 Value of CMX_MedPt_Threshold for this module is 396 Value of CMX_HiPt_Threshold for this module is 124 Value of BSU_Gate_min for this module is 98 Value of BSU_Gate_max for this module is 181 Value of TSU_Gate_min for this module is 98 Value of TSU_Gate_max for this module is 181 Value of HAT_Gate_min for this module is 500 Value of HAT_Gate_max for this module is 600 Value of BMU_mask_east0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_west0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_east0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_west0 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_east1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of BMU_mask_west1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_east1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of CMU_mask_west1 for this module is 000000000000000000000000000000000000000000000000000000000000000000000000 Value of online for this module is true Value of debug_level for this module is 0 Value of run_Number for this module is 222530 Value of databaseManager for this module is false Value of bankType for this module is Simulated Trigger Bank Current value of item(s) in the "Prereq" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is true Value of production for this module is false Value of GetL1TriggerBitsFromTFRD for this module is false Value of GetL1TriggerBitsFromTL2D for this module is true Value of GetL3TriggerBitsFromTL3D for this module is false Value of UseUnprescaledBits for this module is true Value of CompareFullName for this module is false L1TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerBits in module Prereq has 0 values (minimum 0, maximum 0): L1TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerIds in module Prereq has 0 values (minimum 0, maximum 0): Value of databaseForTrigger for this module is ofotl_prd_read Value of printTriggerMap for this module is true Value of printTriggerSummary for this module is true L1TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): L2TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): L3TriggerNames in module Prereq has 0 values (minimum 0, maximum 0): TriggerTableNames in module Prereq has 0 values (minimum 0, maximum 0): Value of L1Accept for this module is true Value of L2Accept for this module is true Value of L3Accept for this module is true Value of debug for this module is false Value of useEvclBits for this module is false Value of integralPrescale for this module is 1 Value of randomPrescale for this module is 1 Value of RandomSeed for this module is 1485669224 Value of bankType for this module is Simulated Trigger Bank ======================================================= Error Log established 13-Aug-2007 00:24:23 CDT ======================================================= CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() svtsimmodule::beginJob Read 2793 lines from input beam file /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/test/testSVTBeam DB Identifier = frontier FredSim begin Job DHInputModule_2.cc: releasing file ***** ***** Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root ***** ***** ***** Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root on Mon Aug 13 00:27:22 2007 ***** CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) GOT startBrdShiftDB 0 GOT beamOffsetDB r_0p25 Initializing the XFT System.... Done New Run 222530 detected file name = 222530XTRPSim_Summary.txt XTRPSimModule::getFromD applying conditions from run 222530 CdfRoDbFrontier::init(PHYSICSTABLES:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) physics_table = PHYSICS_4_00_v6, table number = 4.0006 %ERLOG-e Error fetching TrgSimRows, return code : /cdf/scratch/beauche/MaxOpt_H/XTRPSim/src/XTRPSimModule.cc : 1949 IOModuleNotFound XTRPSim XTRPSimModule::getFromDB() 13-Aug-2007 00:28:56 CDT run = 222530 event = 0 **** XTRPSim: Generating lookup tables...done. svtsimmodule::beginRun: run=222530 run=222530 m=512kpatt_20060701205806 mc=1850820936 h=20060731141716 hc=1917088578 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) dataFileDir = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/svtsim/svtdata usedb = 1 mapSet = 512kpatt_20060701205806 hwSet = 20060731141716 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfloading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 ofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xloading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 loading hwset 20060731141716.hwset, CRC 1917088578, hwsetCrc 1917088578 loading mapset 512kpatt_20060701205806.mapset, CRC 1850820936, mapsetCrc 1850820936 svtsim_gb_useMaps: mk=gb_final unique=1 svtsim_rw_useMaps: mk=rw_w00 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w01 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w02 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w03 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w04 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w05 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w06 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w07 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w08 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w09 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w10 passthru=1 version=0 svtsim_rw_useMaps: mk=rw_w11 passthru=1 version=0 xxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 *** Kill On Bit 18 enabled! *** *** Hit Sorting enabled! *** TFPP_32K_ROADS 0 TFPP_128K_ROADS 0 applying conditions from run 222530 to simulated data! CalTrigger : beginRun() 222530 file name = 222530CalTrigger_Summary.txt in begin run, call load_LUT LUT filename = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/CalTrigger/memories/LUTblock.file load_lut Pair 0 load_lut Pair 1 load_lut Pair 2 myonline is =1 CalTriggerDataMaker::dirac_files_database(): nRun = 222530 physics_table_name = PHYSICS_4_00 physics_table_tag = 6 sql_string2 = WHERE PHYSICS_TABLE_NAME = 'PHYSICS_4_00' and PHYSICS_TABLE_TAG = '6' CdfRoDbFrontier::init(TRIGGER_FILES_VIEW:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) TriggerResource = DIRAC_CENTRAL_TT File Name = PHYSICS_4_00_v-6.dirac_central_tt PHYSICS_4_00_v-6.dirac_central_tt TriggerResource = DIRAC_CENTRAL_TR File Name = PHYSICS_4_00_v-6.dirac_central_tr PHYSICS_4_00_v-6.dirac_central_tr TriggerResource = DIRAC_PLUG_TT File Name = PHYSICS_4_00_v-6.dirac_plug_tt PHYSICS_4_00_v-6.dirac_plug_tt TriggerResource = DIRAC_PLUG_TR File Name = PHYSICS_4_00_v-6.dirac_plug_tr PHYSICS_4_00_v-6.dirac_plug_tr TriggerResource = DIRAC_CSUM_MUX File Name = PHYSICS_4_00_v-6.dirac_csum_mux PHYSICS_4_00_v-6.dirac_csum_mux CalTriggerDataMaker::accessDB database_access_result files = 1 CalTriggerDataMaker::dirac_masks_database(): nRun = 222530 CdfRoDbFrontier::init(DIRAC_CONFIGURATIONS:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) TYPE[0]=1 AUX_EN0[0]=0 AUX_EN1[0]=0 ET_THRESHOLD[0]=0 CSUM_MUX_INT_REG[0]=0 EM_MASKS[0]=0 HAD_MASKS[0]=0 TYPE[1]=0 AUX_EN0[1]=0 AUX_EN1[1]=1 ET_THRESHOLD[1]=0 CSUM_MUX_INT_REG[1]=0 EM_MASKS[1]=0 HAD_MASKS[1]=0 TYPE[2]=0 AUX_EN0[2]=1 AUX_EN1[2]=0 ET_THRESHOLD[2]=0 CSUM_MUX_INT_REG[2]=0 EM_MASKS[2]=0 HAD_MASKS[2]=0 TYPE[3]=1 AUX_EN0[3]=0 AUX_EN1[3]=0 ET_THRESHOLD[3]=0 CSUM_MUX_INT_REG[3]=0 EM_MASKS[3]=0 HAD_MASKS[3]=0 TYPE[4]=1 AUX_EN0[4]=0 AUX_EN1[4]=0 ET_THRESHOLD[4]=0 CSUM_MUX_INT_REG[4]=0 EM_MASKS[4]=0 HAD_MASKS[4]=0 TYPE[5]=0 AUX_EN0[5]=0 AUX_EN1[5]=1 ET_THRESHOLD[5]=0 CSUM_MUX_INT_REG[5]=0 EM_MASKS[5]=0 HAD_MASKS[5]=0 TYPE[6]=0 AUX_EN0[6]=1 AUX_EN1[6]=0 ET_THRESHOLD[6]=0 CSUM_MUX_INT_REG[6]=0 EM_MASKS[6]=0 HAD_MASKS[6]=0 TYPE[7]=1 AUX_EN0[7]=0 AUX_EN1[7]=0 ET_THRESHOLD[7]=0 CSUM_MUX_INT_REG[7]=0 EM_MASKS[7]=0 HAD_MASKS[7]=0 TYPE[8]=1 AUX_EN0[8]=0 AUX_EN1[8]=0 ET_THRESHOLD[8]=0 CSUM_MUX_INT_REG[8]=0 EM_MASKS[8]=0 HAD_MASKS[8]=0 TYPE[9]=0 AUX_EN0[9]=0 AUX_EN1[9]=1 ET_THRESHOLD[9]=0 CSUM_MUX_INT_REG[9]=0 EM_MASKS[9]=0 HAD_MASKS[9]=0 TYPE[10]=0 AUX_EN0[10]=1 AUX_EN1[10]=0 ET_THRESHOLD[10]=0 CSUM_MUX_INT_REG[10]=0 EM_MASKS[10]=0 HAD_MASKS[10]=0 TYPE[11]=1 AUX_EN0[11]=0 AUX_EN1[11]=0 ET_THRESHOLD[11]=0 CSUM_MUX_INT_REG[11]=0 EM_MASKS[11]=0 HAD_MASKS[11]=0 TYPE[12]=1 AUX_EN0[12]=0 AUX_EN1[12]=0 ET_THRESHOLD[12]=0 CSUM_MUX_INT_REG[12]=0 EM_MASKS[12]=0 HAD_MASKS[12]=0 TYPE[13]=0 AUX_EN0[13]=0 AUX_EN1[13]=1 ET_THRESHOLD[13]=0 CSUM_MUX_INT_REG[13]=0 EM_MASKS[13]=0 HAD_MASKS[13]=0 TYPE[14]=0 AUX_EN0[14]=1 AUX_EN1[14]=0 ET_THRESHOLD[14]=0 CSUM_MUX_INT_REG[14]=0 EM_MASKS[14]=0 HAD_MASKS[14]=0 TYPE[15]=1 AUX_EN0[15]=0 AUX_EN1[15]=0 ET_THRESHOLD[15]=0 CSUM_MUX_INT_REG[15]=0 EM_MASKS[15]=0 HAD_MASKS[15]=0 TYPE[16]=1 AUX_EN0[16]=0 AUX_EN1[16]=0 ET_THRESHOLD[16]=0 CSUM_MUX_INT_REG[16]=0 EM_MASKS[16]=0 HAD_MASKS[16]=0 TYPE[17]=0 AUX_EN0[17]=0 AUX_EN1[17]=1 ET_THRESHOLD[17]=0 CSUM_MUX_INT_REG[17]=0 EM_MASKS[17]=0 HAD_MASKS[17]=0 TYPE[18]=0 AUX_EN0[18]=1 AUX_EN1[18]=0 ET_THRESHOLD[18]=0 CSUM_MUX_INT_REG[18]=0 EM_MASKS[18]=0 HAD_MASKS[18]=0 TYPE[19]=1 AUX_EN0[19]=0 AUX_EN1[19]=0 ET_THRESHOLD[19]=0 CSUM_MUX_INT_REG[19]=0 EM_MASKS[19]=0 HAD_MASKS[19]=0 TYPE[20]=1 AUX_EN0[20]=0 AUX_EN1[20]=0 ET_THRESHOLD[20]=0 CSUM_MUX_INT_REG[20]=0 EM_MASKS[20]=0 HAD_MASKS[20]=0 TYPE[21]=0 AUX_EN0[21]=0 AUX_EN1[21]=1 ET_THRESHOLD[21]=0 CSUM_MUX_INT_REG[21]=0 EM_MASKS[21]=0 HAD_MASKS[21]=0 TYPE[22]=0 AUX_EN0[22]=1 AUX_EN1[22]=0 ET_THRESHOLD[22]=0 CSUM_MUX_INT_REG[22]=0 EM_MASKS[22]=0 HAD_MASKS[22]=0 TYPE[23]=1 AUX_EN0[23]=0 AUX_EN1[23]=0 ET_THRESHOLD[23]=0 CSUM_MUX_INT_REG[23]=0 EM_MASKS[23]=0 HAD_MASKS[23]=0 TYPE[24]=1 AUX_EN0[24]=0 AUX_EN1[24]=0 ET_THRESHOLD[24]=0 CSUM_MUX_INT_REG[24]=0 EM_MASKS[24]=0 HAD_MASKS[24]=0 TYPE[25]=0 AUX_EN0[25]=0 AUX_EN1[25]=1 ET_THRESHOLD[25]=0 CSUM_MUX_INT_REG[25]=0 EM_MASKS[25]=0 HAD_MASKS[25]=0 TYPE[26]=0 AUX_EN0[26]=1 AUX_EN1[26]=0 ET_THRESHOLD[26]=0 CSUM_MUX_INT_REG[26]=0 EM_MASKS[26]=0 HAD_MASKS[26]=0 TYPE[27]=1 AUX_EN0[27]=0 AUX_EN1[27]=0 ET_THRESHOLD[27]=0 CSUM_MUX_INT_REG[27]=0 EM_MASKS[27]=0 HAD_MASKS[27]=0 TYPE[28]=1 AUX_EN0[28]=0 AUX_EN1[28]=0 ET_THRESHOLD[28]=0 CSUM_MUX_INT_REG[28]=0 EM_MASKS[28]=0 HAD_MASKS[28]=0 TYPE[29]=0 AUX_EN0[29]=0 AUX_EN1[29]=1 ET_THRESHOLD[29]=0 CSUM_MUX_INT_REG[29]=0 EM_MASKS[29]=0 HAD_MASKS[29]=0 TYPE[30]=0 AUX_EN0[30]=1 AUX_EN1[30]=0 ET_THRESHOLD[30]=0 CSUM_MUX_INT_REG[30]=0 EM_MASKS[30]=0 HAD_MASKS[30]=0 TYPE[31]=1 AUX_EN0[31]=0 AUX_EN1[31]=0 ET_THRESHOLD[31]=0 CSUM_MUX_INT_REG[31]=0 EM_MASKS[31]=0 HAD_MASKS[31]=0 TYPE[32]=1 AUX_EN0[32]=0 AUX_EN1[32]=0 ET_THRESHOLD[32]=0 CSUM_MUX_INT_REG[32]=0 EM_MASKS[32]=0 HAD_MASKS[32]=0 TYPE[33]=0 AUX_EN0[33]=0 AUX_EN1[33]=1 ET_THRESHOLD[33]=0 CSUM_MUX_INT_REG[33]=0 EM_MASKS[33]=0 HAD_MASKS[33]=0 TYPE[34]=0 AUX_EN0[34]=1 AUX_EN1[34]=0 ET_THRESHOLD[34]=0 CSUM_MUX_INT_REG[34]=0 EM_MASKS[34]=0 HAD_MASKS[34]=0 TYPE[35]=1 AUX_EN0[35]=0 AUX_EN1[35]=0 ET_THRESHOLD[35]=0 CSUM_MUX_INT_REG[35]=0 EM_MASKS[35]=0 HAD_MASKS[35]=0 TYPE[36]=1 AUX_EN0[36]=0 AUX_EN1[36]=0 ET_THRESHOLD[36]=0 CSUM_MUX_INT_REG[36]=0 EM_MASKS[36]=0 HAD_MASKS[36]=0 TYPE[37]=0 AUX_EN0[37]=0 AUX_EN1[37]=1 ET_THRESHOLD[37]=0 CSUM_MUX_INT_REG[37]=0 EM_MASKS[37]=0 HAD_MASKS[37]=0 TYPE[38]=0 AUX_EN0[38]=1 AUX_EN1[38]=0 ET_THRESHOLD[38]=0 CSUM_MUX_INT_REG[38]=0 EM_MASKS[38]=0 HAD_MASKS[38]=0 TYPE[39]=1 AUX_EN0[39]=0 AUX_EN1[39]=0 ET_THRESHOLD[39]=0 CSUM_MUX_INT_REG[39]=0 EM_MASKS[39]=0 HAD_MASKS[39]=0 TYPE[40]=1 AUX_EN0[40]=0 AUX_EN1[40]=0 ET_THRESHOLD[40]=0 CSUM_MUX_INT_REG[40]=0 EM_MASKS[40]=0 HAD_MASKS[40]=0 TYPE[41]=0 AUX_EN0[41]=0 AUX_EN1[41]=1 ET_THRESHOLD[41]=0 CSUM_MUX_INT_REG[41]=0 EM_MASKS[41]=0 HAD_MASKS[41]=0 TYPE[42]=0 AUX_EN0[42]=1 AUX_EN1[42]=0 ET_THRESHOLD[42]=0 CSUM_MUX_INT_REG[42]=0 EM_MASKS[42]=0 HAD_MASKS[42]=0 TYPE[43]=1 AUX_EN0[43]=0 AUX_EN1[43]=0 ET_THRESHOLD[43]=0 CSUM_MUX_INT_REG[43]=0 EM_MASKS[43]=0 HAD_MASKS[43]=0 TYPE[44]=1 AUX_EN0[44]=0 AUX_EN1[44]=0 ET_THRESHOLD[44]=0 CSUM_MUX_INT_REG[44]=0 EM_MASKS[44]=0 HAD_MASKS[44]=0 TYPE[45]=0 AUX_EN0[45]=0 AUX_EN1[45]=1 ET_THRESHOLD[45]=0 CSUM_MUX_INT_REG[45]=0 EM_MASKS[45]=0 HAD_MASKS[45]=0 TYPE[46]=0 AUX_EN0[46]=1 AUX_EN1[46]=0 ET_THRESHOLD[46]=0 CSUM_MUX_INT_REG[46]=0 EM_MASKS[46]=0 HAD_MASKS[46]=0 TYPE[47]=1 AUX_EN0[47]=0 AUX_EN1[47]=0 ET_THRESHOLD[47]=0 CSUM_MUX_INT_REG[47]=0 EM_MASKS[47]=0 HAD_MASKS[47]=0 TYPE[48]=1 AUX_EN0[48]=0 AUX_EN1[48]=0 ET_THRESHOLD[48]=0 CSUM_MUX_INT_REG[48]=0 EM_MASKS[48]=0 HAD_MASKS[48]=0 TYPE[49]=0 AUX_EN0[49]=0 AUX_EN1[49]=1 ET_THRESHOLD[49]=0 CSUM_MUX_INT_REG[49]=0 EM_MASKS[49]=0 HAD_MASKS[49]=0 TYPE[50]=0 AUX_EN0[50]=1 AUX_EN1[50]=0 ET_THRESHOLD[50]=0 CSUM_MUX_INT_REG[50]=0 EM_MASKS[50]=0 HAD_MASKS[50]=0 TYPE[51]=1 AUX_EN0[51]=0 AUX_EN1[51]=0 ET_THRESHOLD[51]=0 CSUM_MUX_INT_REG[51]=0 EM_MASKS[51]=0 HAD_MASKS[51]=0 TYPE[52]=1 AUX_EN0[52]=0 AUX_EN1[52]=0 ET_THRESHOLD[52]=0 CSUM_MUX_INT_REG[52]=0 EM_MASKS[52]=0 HAD_MASKS[52]=0 TYPE[53]=0 AUX_EN0[53]=0 AUX_EN1[53]=1 ET_THRESHOLD[53]=0 CSUM_MUX_INT_REG[53]=0 EM_MASKS[53]=0 HAD_MASKS[53]=0 TYPE[54]=0 AUX_EN0[54]=1 AUX_EN1[54]=0 ET_THRESHOLD[54]=0 CSUM_MUX_INT_REG[54]=0 EM_MASKS[54]=0 HAD_MASKS[54]=0 TYPE[55]=1 AUX_EN0[55]=0 AUX_EN1[55]=0 ET_THRESHOLD[55]=0 CSUM_MUX_INT_REG[55]=0 EM_MASKS[55]=0 HAD_MASKS[55]=0 TYPE[56]=1 AUX_EN0[56]=0 AUX_EN1[56]=0 ET_THRESHOLD[56]=0 CSUM_MUX_INT_REG[56]=0 EM_MASKS[56]=0 HAD_MASKS[56]=0 TYPE[57]=0 AUX_EN0[57]=0 AUX_EN1[57]=1 ET_THRESHOLD[57]=0 CSUM_MUX_INT_REG[57]=0 EM_MASKS[57]=0 HAD_MASKS[57]=0 TYPE[58]=0 AUX_EN0[58]=1 AUX_EN1[58]=0 ET_THRESHOLD[58]=0 CSUM_MUX_INT_REG[58]=0 EM_MASKS[58]=0 HAD_MASKS[58]=0 TYPE[59]=1 AUX_EN0[59]=0 AUX_EN1[59]=0 ET_THRESHOLD[59]=0 CSUM_MUX_INT_REG[59]=0 EM_MASKS[59]=0 HAD_MASKS[59]=0 TYPE[60]=1 AUX_EN0[60]=0 AUX_EN1[60]=0 ET_THRESHOLD[60]=0 CSUM_MUX_INT_REG[60]=0 EM_MASKS[60]=0 HAD_MASKS[60]=0 TYPE[61]=0 AUX_EN0[61]=0 AUX_EN1[61]=1 ET_THRESHOLD[61]=0 CSUM_MUX_INT_REG[61]=0 EM_MASKS[61]=0 HAD_MASKS[61]=0 TYPE[62]=0 AUX_EN0[62]=1 AUX_EN1[62]=0 ET_THRESHOLD[62]=0 CSUM_MUX_INT_REG[62]=0 EM_MASKS[62]=0 HAD_MASKS[62]=0 TYPE[63]=1 AUX_EN0[63]=0 AUX_EN1[63]=0 ET_THRESHOLD[63]=0 CSUM_MUX_INT_REG[63]=0 EM_MASKS[63]=0 HAD_MASKS[63]=0 TYPE[64]=1 AUX_EN0[64]=0 AUX_EN1[64]=0 ET_THRESHOLD[64]=0 CSUM_MUX_INT_REG[64]=0 EM_MASKS[64]=0 HAD_MASKS[64]=0 TYPE[65]=0 AUX_EN0[65]=0 AUX_EN1[65]=1 ET_THRESHOLD[65]=0 CSUM_MUX_INT_REG[65]=0 EM_MASKS[65]=0 HAD_MASKS[65]=0 TYPE[66]=0 AUX_EN0[66]=1 AUX_EN1[66]=0 ET_THRESHOLD[66]=0 CSUM_MUX_INT_REG[66]=0 EM_MASKS[66]=0 HAD_MASKS[66]=0 TYPE[67]=1 AUX_EN0[67]=0 AUX_EN1[67]=0 ET_THRESHOLD[67]=0 CSUM_MUX_INT_REG[67]=0 EM_MASKS[67]=0 HAD_MASKS[67]=0 TYPE[68]=1 AUX_EN0[68]=0 AUX_EN1[68]=0 ET_THRESHOLD[68]=0 CSUM_MUX_INT_REG[68]=0 EM_MASKS[68]=0 HAD_MASKS[68]=0 TYPE[69]=0 AUX_EN0[69]=0 AUX_EN1[69]=1 ET_THRESHOLD[69]=0 CSUM_MUX_INT_REG[69]=0 EM_MASKS[69]=0 HAD_MASKS[69]=0 TYPE[70]=0 AUX_EN0[70]=1 AUX_EN1[70]=0 ET_THRESHOLD[70]=0 CSUM_MUX_INT_REG[70]=0 EM_MASKS[70]=0 HAD_MASKS[70]=0 TYPE[71]=1 AUX_EN0[71]=0 AUX_EN1[71]=0 ET_THRESHOLD[71]=0 CSUM_MUX_INT_REG[71]=0 EM_MASKS[71]=0 HAD_MASKS[71]=0 TYPE[72]=1 AUX_EN0[72]=0 AUX_EN1[72]=0 ET_THRESHOLD[72]=0 CSUM_MUX_INT_REG[72]=0 EM_MASKS[72]=0 HAD_MASKS[72]=0 TYPE[73]=0 AUX_EN0[73]=0 AUX_EN1[73]=1 ET_THRESHOLD[73]=0 CSUM_MUX_INT_REG[73]=0 EM_MASKS[73]=0 HAD_MASKS[73]=0 TYPE[74]=0 AUX_EN0[74]=1 AUX_EN1[74]=0 ET_THRESHOLD[74]=0 CSUM_MUX_INT_REG[74]=0 EM_MASKS[74]=0 HAD_MASKS[74]=1 TYPE[75]=1 AUX_EN0[75]=0 AUX_EN1[75]=0 ET_THRESHOLD[75]=0 CSUM_MUX_INT_REG[75]=0 EM_MASKS[75]=0 HAD_MASKS[75]=0 TYPE[76]=1 AUX_EN0[76]=0 AUX_EN1[76]=0 ET_THRESHOLD[76]=0 CSUM_MUX_INT_REG[76]=0 EM_MASKS[76]=0 HAD_MASKS[76]=0 TYPE[77]=0 AUX_EN0[77]=0 AUX_EN1[77]=1 ET_THRESHOLD[77]=0 CSUM_MUX_INT_REG[77]=0 EM_MASKS[77]=0 HAD_MASKS[77]=0 TYPE[78]=0 AUX_EN0[78]=1 AUX_EN1[78]=0 ET_THRESHOLD[78]=0 CSUM_MUX_INT_REG[78]=0 EM_MASKS[78]=0 HAD_MASKS[78]=0 TYPE[79]=1 AUX_EN0[79]=0 AUX_EN1[79]=0 ET_THRESHOLD[79]=0 CSUM_MUX_INT_REG[79]=0 EM_MASKS[79]=0 HAD_MASKS[79]=0 TYPE[80]=1 AUX_EN0[80]=0 AUX_EN1[80]=0 ET_THRESHOLD[80]=0 CSUM_MUX_INT_REG[80]=0 EM_MASKS[80]=0 HAD_MASKS[80]=0 TYPE[81]=0 AUX_EN0[81]=0 AUX_EN1[81]=1 ET_THRESHOLD[81]=0 CSUM_MUX_INT_REG[81]=0 EM_MASKS[81]=0 HAD_MASKS[81]=0 TYPE[82]=0 AUX_EN0[82]=1 AUX_EN1[82]=0 ET_THRESHOLD[82]=0 CSUM_MUX_INT_REG[82]=0 EM_MASKS[82]=0 HAD_MASKS[82]=0 TYPE[83]=1 AUX_EN0[83]=0 AUX_EN1[83]=0 ET_THRESHOLD[83]=0 CSUM_MUX_INT_REG[83]=0 EM_MASKS[83]=0 HAD_MASKS[83]=0 TYPE[84]=1 AUX_EN0[84]=0 AUX_EN1[84]=0 ET_THRESHOLD[84]=0 CSUM_MUX_INT_REG[84]=0 EM_MASKS[84]=0 HAD_MASKS[84]=0 TYPE[85]=0 AUX_EN0[85]=0 AUX_EN1[85]=1 ET_THRESHOLD[85]=0 CSUM_MUX_INT_REG[85]=0 EM_MASKS[85]=0 HAD_MASKS[85]=0 TYPE[86]=0 AUX_EN0[86]=1 AUX_EN1[86]=0 ET_THRESHOLD[86]=0 CSUM_MUX_INT_REG[86]=0 EM_MASKS[86]=0 HAD_MASKS[86]=0 TYPE[87]=1 AUX_EN0[87]=0 AUX_EN1[87]=0 ET_THRESHOLD[87]=0 CSUM_MUX_INT_REG[87]=0 EM_MASKS[87]=0 HAD_MASKS[87]=0 TYPE[88]=1 AUX_EN0[88]=0 AUX_EN1[88]=0 ET_THRESHOLD[88]=0 CSUM_MUX_INT_REG[88]=0 EM_MASKS[88]=0 HAD_MASKS[88]=0 TYPE[89]=0 AUX_EN0[89]=0 AUX_EN1[89]=1 ET_THRESHOLD[89]=0 CSUM_MUX_INT_REG[89]=0 EM_MASKS[89]=0 HAD_MASKS[89]=0 TYPE[90]=0 AUX_EN0[90]=1 AUX_EN1[90]=0 ET_THRESHOLD[90]=0 CSUM_MUX_INT_REG[90]=0 EM_MASKS[90]=0 HAD_MASKS[90]=0 TYPE[91]=1 AUX_EN0[91]=0 AUX_EN1[91]=0 ET_THRESHOLD[91]=0 CSUM_MUX_INT_REG[91]=0 EM_MASKS[91]=0 HAD_MASKS[91]=0 TYPE[92]=1 AUX_EN0[92]=0 AUX_EN1[92]=0 ET_THRESHOLD[92]=0 CSUM_MUX_INT_REG[92]=0 EM_MASKS[92]=0 HAD_MASKS[92]=0 TYPE[93]=0 AUX_EN0[93]=0 AUX_EN1[93]=1 ET_THRESHOLD[93]=0 CSUM_MUX_INT_REG[93]=0 EM_MASKS[93]=0 HAD_MASKS[93]=0 TYPE[94]=0 AUX_EN0[94]=1 AUX_EN1[94]=0 ET_THRESHOLD[94]=0 CSUM_MUX_INT_REG[94]=0 EM_MASKS[94]=0 HAD_MASKS[94]=0 TYPE[95]=1 AUX_EN0[95]=0 AUX_EN1[95]=0 ET_THRESHOLD[95]=0 CSUM_MUX_INT_REG[95]=0 EM_MASKS[95]=0 HAD_MASKS[95]=0 TYPE[0]=1 AUX_EN0[0]=0 AUX_EN1[0]=0 ET_THRESHOLD[0]=0 CSUM_MUX_INT_REG[0]=0 EM_MASKS[0]=0 HAD_MASKS[0]=0 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::load_dirac_masks() , TOW_GRAN = 0.5 CalTriggerDB::load_dirac_masks() , HAD_EM_SEL = 0.25 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) HAD_EM_SEL[0]=1 TOW_GRAN[0]=1 HAD_EM_SEL[1]=1 TOW_GRAN[1]=1 HAD_EM_SEL[2]=1 TOW_GRAN[2]=1 HAD_EM_SEL[3]=1 TOW_GRAN[3]=1 HAD_EM_SEL[4]=1 TOW_GRAN[4]=1 HAD_EM_SEL[5]=1 TOW_GRAN[5]=1 HAD_EM_SEL[6]=1 TOW_GRAN[6]=1 HAD_EM_SEL[7]=1 TOW_GRAN[7]=1 HAD_EM_SEL[8]=1 TOW_GRAN[8]=1 HAD_EM_SEL[9]=1 TOW_GRAN[9]=1 HAD_EM_SEL[10]=1 TOW_GRAN[10]=1 HAD_EM_SEL[11]=1 TOW_GRAN[11]=1 HAD_EM_SEL[12]=1 TOW_GRAN[12]=1 HAD_EM_SEL[13]=1 TOW_GRAN[13]=1 HAD_EM_SEL[14]=1 TOW_GRAN[14]=1 HAD_EM_SEL[15]=1 TOW_GRAN[15]=1 HAD_EM_SEL[16]=1 TOW_GRAN[16]=1 HAD_EM_SEL[17]=1 TOW_GRAN[17]=1 HAD_EM_SEL[18]=1 TOW_GRAN[18]=1 HAD_EM_SEL[19]=1 TOW_GRAN[19]=1 HAD_EM_SEL[20]=1 TOW_GRAN[20]=1 HAD_EM_SEL[21]=1 TOW_GRAN[21]=1 HAD_EM_SEL[22]=1 TOW_GRAN[22]=1 HAD_EM_SEL[23]=1 TOW_GRAN[23]=1 HAD_EM_SEL[24]=1 TOW_GRAN[24]=1 HAD_EM_SEL[25]=1 TOW_GRAN[25]=1 HAD_EM_SEL[26]=1 TOW_GRAN[26]=1 HAD_EM_SEL[27]=1 TOW_GRAN[27]=1 HAD_EM_SEL[28]=1 TOW_GRAN[28]=1 HAD_EM_SEL[29]=1 TOW_GRAN[29]=1 HAD_EM_SEL[30]=1 TOW_GRAN[30]=1 HAD_EM_SEL[31]=1 TOW_GRAN[31]=1 HAD_EM_SEL[32]=1 TOW_GRAN[32]=1 HAD_EM_SEL[33]=1 TOW_GRAN[33]=1 HAD_EM_SEL[34]=1 TOW_GRAN[34]=1 HAD_EM_SEL[35]=1 TOW_GRAN[35]=1 HAD_EM_SEL[36]=1 TOW_GRAN[36]=1 HAD_EM_SEL[37]=1 TOW_GRAN[37]=1 HAD_EM_SEL[38]=1 TOW_GRAN[38]=1 HAD_EM_SEL[39]=1 TOW_GRAN[39]=1 HAD_EM_SEL[40]=1 TOW_GRAN[40]=1 HAD_EM_SEL[41]=1 TOW_GRAN[41]=1 HAD_EM_SEL[42]=1 TOW_GRAN[42]=1 HAD_EM_SEL[43]=1 TOW_GRAN[43]=1 HAD_EM_SEL[44]=1 TOW_GRAN[44]=1 HAD_EM_SEL[45]=1 TOW_GRAN[45]=1 HAD_EM_SEL[46]=1 TOW_GRAN[46]=1 HAD_EM_SEL[47]=1 TOW_GRAN[47]=1 HAD_EM_SEL[48]=1 TOW_GRAN[48]=1 HAD_EM_SEL[49]=1 TOW_GRAN[49]=1 HAD_EM_SEL[50]=1 TOW_GRAN[50]=1 HAD_EM_SEL[51]=1 TOW_GRAN[51]=1 HAD_EM_SEL[52]=1 TOW_GRAN[52]=1 HAD_EM_SEL[53]=1 TOW_GRAN[53]=1 HAD_EM_SEL[54]=1 TOW_GRAN[54]=1 HAD_EM_SEL[55]=1 TOW_GRAN[55]=1 HAD_EM_SEL[56]=1 TOW_GRAN[56]=1 HAD_EM_SEL[57]=1 TOW_GRAN[57]=1 HAD_EM_SEL[58]=1 TOW_GRAN[58]=1 HAD_EM_SEL[59]=1 TOW_GRAN[59]=1 HAD_EM_SEL[60]=1 TOW_GRAN[60]=1 HAD_EM_SEL[61]=1 TOW_GRAN[61]=1 HAD_EM_SEL[62]=1 TOW_GRAN[62]=1 HAD_EM_SEL[63]=1 TOW_GRAN[63]=1 HAD_EM_SEL[64]=1 TOW_GRAN[64]=1 HAD_EM_SEL[65]=1 TOW_GRAN[65]=1 HAD_EM_SEL[66]=1 TOW_GRAN[66]=1 HAD_EM_SEL[67]=1 TOW_GRAN[67]=1 HAD_EM_SEL[68]=1 TOW_GRAN[68]=1 HAD_EM_SEL[69]=1 TOW_GRAN[69]=1 HAD_EM_SEL[70]=1 TOW_GRAN[70]=1 HAD_EM_SEL[71]=1 TOW_GRAN[71]=1 HAD_EM_SEL[72]=1 TOW_GRAN[72]=1 HAD_EM_SEL[73]=1 TOW_GRAN[73]=1 HAD_EM_SEL[74]=1 TOW_GRAN[74]=1 HAD_EM_SEL[75]=1 TOW_GRAN[75]=1 HAD_EM_SEL[76]=1 TOW_GRAN[76]=1 HAD_EM_SEL[77]=1 TOW_GRAN[77]=1 HAD_EM_SEL[78]=1 TOW_GRAN[78]=1 HAD_EM_SEL[79]=1 TOW_GRAN[79]=1 HAD_EM_SEL[80]=1 TOW_GRAN[80]=1 HAD_EM_SEL[81]=1 TOW_GRAN[81]=1 HAD_EM_SEL[82]=1 TOW_GRAN[82]=1 HAD_EM_SEL[83]=1 TOW_GRAN[83]=1 HAD_EM_SEL[84]=1 TOW_GRAN[84]=1 HAD_EM_SEL[85]=1 TOW_GRAN[85]=1 HAD_EM_SEL[86]=1 TOW_GRAN[86]=1 HAD_EM_SEL[87]=1 TOW_GRAN[87]=1 HAD_EM_SEL[88]=1 TOW_GRAN[88]=1 HAD_EM_SEL[89]=1 TOW_GRAN[89]=1 HAD_EM_SEL[90]=1 TOW_GRAN[90]=1 HAD_EM_SEL[91]=1 TOW_GRAN[91]=1 HAD_EM_SEL[92]=1 TOW_GRAN[92]=1 HAD_EM_SEL[93]=1 TOW_GRAN[93]=1 HAD_EM_SEL[94]=1 TOW_GRAN[94]=1 HAD_EM_SEL[95]=1 TOW_GRAN[95]=1 CalTriggerDataMaker::accessDB database_access_result = 1 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerPatterns.cc : 166 CalTriggerDataMaker CalTriggerDataMaker::Construct_TTMEM_Central() 13-Aug-2007 00:31:35 CDT run = 222530 event = 0 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerPatterns.cc : 543 CalTriggerDataMaker CalTriggerDataMaker::Construct_TTMEM_Plug() 13-Aug-2007 00:31:35 CDT run = 222530 event = 0 CalTriggerData::memory_load(): something = -1 CalTriggerDataMaker::load_PreFredTh(): nRun = 222530 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::load_PreFredTh() , TOW_GRAN = 0.5 %ERLOG-e Error fetching TrgSimRows: /cdf/scratch/beauche/MaxOpt_H/CalTrigger/src/CalTriggerDB.cc : 2168 CalTriggerDataMaker CalTriggerDataMaker::load_PreFredTh() 13-Aug-2007 00:31:36 CDT run = 222530 event = 0 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) getting scale factors Printout from CalibL1 - valid for data Only! Calorimeter ADMEM SCLs: CEM = 0.003496 CHA = 0.003184 WHA = 0.003062 PEM = 0.00444 PHA = 0.003931 Calorimeter ADMEM PEDs: CEM = 50 CHA = 50 WHA = 50 PEM = 50 PHA = 50 End of printout from CalibL1 - valid for data Only! CEM_SCL = 3.496 CHAD_SCL = 3.184 WHAD_SCL = 3.062 PHAD_SCL = 3.931 PEM_SCL = 4.44 Printout from CalTriggerDB - valid for MC Only ! CEM_SCL = 3.496 CHAD_SCL = 3.184 WHAD_SCL = 3.062 PEM_SCL = 4.44 PHAD_SCL = 3.931 End of printout from CalTriggerDB - valid for MC Only ! accessing scale factors, result = 1 getting trigger weights CdfCalibDbFrontier(CALTrigWeights:1.5,33755) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Weight 11: 0.99178 Weight 10: 0.93235 Weight 9: 0.83916 Weight 8: 0.73966 Weight 7: 0.6457 Weight 6: 0.55064 Weight 5: 0.45865 Weight 4: 0.37299 Weight 3: 0.28402 Weight 2: 0.21559 Weight 1: 0.16935 Weight 0: 0.09932 trigger weight[0]: 0.09932 trigger weight[1]: 0.16935 trigger weight[2]: 0.21559 trigger weight[3]: 0.28402 trigger weight[4]: 0.37299 trigger weight[5]: 0.45865 trigger weight[6]: 0.55064 trigger weight[7]: 0.6457 trigger weight[8]: 0.73966 trigger weight[9]: 0.83916 trigger weight[10]: 0.93235 trigger weight[11]: 0.99178 trigger weight[12]: 0.99178 trigger weight[13]: 0.93235 trigger weight[14]: 0.83916 trigger weight[15]: 0.73966 trigger weight[16]: 0.6457 trigger weight[17]: 0.55064 trigger weight[18]: 0.45865 trigger weight[19]: 0.37299 trigger weight[20]: 0.28402 trigger weight[21]: 0.21559 trigger weight[22]: 0.16935 trigger weight[23]: 0.09932 accessing trigger weights, result = 1 DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CalTriggerDB::getSpikeKillerFlag(), SpikeKillerFlag = 1 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) accessing spikeKillerFlag, result = 1 TL1DMaker::Begin Run! L1GlobalTriggerMaker Begin Run ! run number 222530 file name = 222530FredSim_Summary.txt accessing Trigger Database Retrieving physics table from Trigger DB, run 222530 CdfRoDbFrontier::init(PHYSICSTABLES:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) L2DecisionMaker: Fetching trigger table: PHYSICS_4_00_v-6 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) nontrack mask 231924342254796799 nontrack2 mask 979699219388415 track mask 1155184342891233280 track2 mask 75439691805665280 L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM L2DecisionMaker: unrecognized CUT XFT_STEREO_CONFIRM DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) *** XFTTriggerMonitor::event *** Run = 222530 Event = 1 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 *** XFTTriggerMonitor::event *** Run = 222530 Event = 2 *** XFTTriggerMonitor::event *** Run = 222530 Event = 3 *** XFTTriggerMonitor::event *** Run = 222530 Event = 4 *** XFTTriggerMonitor::event *** Run = 222530 Event = 5 *** XFTTriggerMonitor::event *** Run = 222530 Event = 6 *** XFTTriggerMonitor::event *** Run = 222530 Event = 7 *** XFTTriggerMonitor::event *** Run = 222530 Event = 8 *** XFTTriggerMonitor::event *** Run = 222530 Event = 9 *** XFTTriggerMonitor::event *** Run = 222530 Event = 10 *** XFTTriggerMonitor::event *** Run = 222530 Event = 11 *** XFTTriggerMonitor::event *** Run = 222530 Event = 12 *** XFTTriggerMonitor::event *** Run = 222530 Event = 13 *** XFTTriggerMonitor::event *** Run = 222530 Event = 14 *** XFTTriggerMonitor::event *** Run = 222530 Event = 15 *** XFTTriggerMonitor::event *** Run = 222530 Event = 16 *** XFTTriggerMonitor::event *** Run = 222530 Event = 17 *** XFTTriggerMonitor::event *** Run = 222530 Event = 18 *** XFTTriggerMonitor::event *** Run = 222530 Event = 19 *** XFTTriggerMonitor::event *** Run = 222530 Event = 20 *** XFTTriggerMonitor::event *** Run = 222530 Event = 21 *** XFTTriggerMonitor::event *** Run = 222530 Event = 22 *** XFTTriggerMonitor::event *** Run = 222530 Event = 23 *** XFTTriggerMonitor::event *** Run = 222530 Event = 24 *** XFTTriggerMonitor::event *** Run = 222530 Event = 25 *** XFTTriggerMonitor::event *** Run = 222530 Event = 26 *** XFTTriggerMonitor::event *** Run = 222530 Event = 27 *** XFTTriggerMonitor::event *** Run = 222530 Event = 28 *** XFTTriggerMonitor::event *** Run = 222530 Event = 29 *** XFTTriggerMonitor::event *** Run = 222530 Event = 30 *** XFTTriggerMonitor::event *** Run = 222530 Event = 31 *** XFTTriggerMonitor::event *** Run = 222530 Event = 32 *** XFTTriggerMonitor::event *** Run = 222530 Event = 33 *** XFTTriggerMonitor::event *** Run = 222530 Event = 34 *** XFTTriggerMonitor::event *** Run = 222530 Event = 35 *** XFTTriggerMonitor::event *** Run = 222530 Event = 36 *** XFTTriggerMonitor::event *** Run = 222530 Event = 37 *** XFTTriggerMonitor::event *** Run = 222530 Event = 38 *** XFTTriggerMonitor::event *** Run = 222530 Event = 39 *** XFTTriggerMonitor::event *** Run = 222530 Event = 40 *** XFTTriggerMonitor::event *** Run = 222530 Event = 41 *** XFTTriggerMonitor::event *** Run = 222530 Event = 42 *** XFTTriggerMonitor::event *** Run = 222530 Event = 43 *** XFTTriggerMonitor::event *** Run = 222530 Event = 44 *** XFTTriggerMonitor::event *** Run = 222530 Event = 45 *** XFTTriggerMonitor::event *** Run = 222530 Event = 46 *** XFTTriggerMonitor::event *** Run = 222530 Event = 47 *** XFTTriggerMonitor::event *** Run = 222530 Event = 48 *** XFTTriggerMonitor::event *** Run = 222530 Event = 49 *** XFTTriggerMonitor::event *** Run = 222530 Event = 50 *** XFTTriggerMonitor::event *** Run = 222530 Event = 51 *** XFTTriggerMonitor::event *** Run = 222530 Event = 52 *** XFTTriggerMonitor::event *** Run = 222530 Event = 53 *** XFTTriggerMonitor::event *** Run = 222530 Event = 54 *** XFTTriggerMonitor::event *** Run = 222530 Event = 55 *** XFTTriggerMonitor::event *** Run = 222530 Event = 56 *** XFTTriggerMonitor::event *** Run = 222530 Event = 57 *** XFTTriggerMonitor::event *** Run = 222530 Event = 58 *** XFTTriggerMonitor::event *** Run = 222530 Event = 59 *** XFTTriggerMonitor::event *** Run = 222530 Event = 60 *** XFTTriggerMonitor::event *** Run = 222530 Event = 61 *** XFTTriggerMonitor::event *** Run = 222530 Event = 62 *** XFTTriggerMonitor::event *** Run = 222530 Event = 63 *** XFTTriggerMonitor::event *** Run = 222530 Event = 64 *** XFTTriggerMonitor::event *** Run = 222530 Event = 65 *** XFTTriggerMonitor::event *** Run = 222530 Event = 66 *** XFTTriggerMonitor::event *** Run = 222530 Event = 67 *** XFTTriggerMonitor::event *** Run = 222530 Event = 68 *** XFTTriggerMonitor::event *** Run = 222530 Event = 69 *** XFTTriggerMonitor::event *** Run = 222530 Event = 70 *** XFTTriggerMonitor::event *** Run = 222530 Event = 71 *** XFTTriggerMonitor::event *** Run = 222530 Event = 72 *** XFTTriggerMonitor::event *** Run = 222530 Event = 73 *** XFTTriggerMonitor::event *** Run = 222530 Event = 74 *** XFTTriggerMonitor::event *** Run = 222530 Event = 75 *** XFTTriggerMonitor::event *** Run = 222530 Event = 76 *** XFTTriggerMonitor::event *** Run = 222530 Event = 77 *** XFTTriggerMonitor::event *** Run = 222530 Event = 78 *** XFTTriggerMonitor::event *** Run = 222530 Event = 79 *** XFTTriggerMonitor::event *** Run = 222530 Event = 80 *** XFTTriggerMonitor::event *** Run = 222530 Event = 81 *** XFTTriggerMonitor::event *** Run = 222530 Event = 82 *** XFTTriggerMonitor::event *** Run = 222530 Event = 83 *** XFTTriggerMonitor::event *** Run = 222530 Event = 84 *** XFTTriggerMonitor::event *** Run = 222530 Event = 85 *** XFTTriggerMonitor::event *** Run = 222530 Event = 86 *** XFTTriggerMonitor::event *** Run = 222530 Event = 87 *** XFTTriggerMonitor::event *** Run = 222530 Event = 88 *** XFTTriggerMonitor::event *** Run = 222530 Event = 89 *** XFTTriggerMonitor::event *** Run = 222530 Event = 90 *** XFTTriggerMonitor::event *** Run = 222530 Event = 91 *** XFTTriggerMonitor::event *** Run = 222530 Event = 92 *** XFTTriggerMonitor::event *** Run = 222530 Event = 93 *** XFTTriggerMonitor::event *** Run = 222530 Event = 94 *** XFTTriggerMonitor::event *** Run = 222530 Event = 95 *** XFTTriggerMonitor::event *** Run = 222530 Event = 96 *** XFTTriggerMonitor::event *** Run = 222530 Event = 97 *** XFTTriggerMonitor::event *** Run = 222530 Event = 98 DHInput Begin processing 100th record. Run 222530, Trigger 99 *** XFTTriggerMonitor::event *** Run = 222530 Event = 99 *** XFTTriggerMonitor::event *** Run = 222530 Event = 100 *** XFTTriggerMonitor::event *** Run = 222530 Event = 101 *** XFTTriggerMonitor::event *** Run = 222530 Event = 102 *** XFTTriggerMonitor::event *** Run = 222530 Event = 103 *** XFTTriggerMonitor::event *** Run = 222530 Event = 104 *** XFTTriggerMonitor::event *** Run = 222530 Event = 105 *** XFTTriggerMonitor::event *** Run = 222530 Event = 106 *** XFTTriggerMonitor::event *** Run = 222530 Event = 107 *** XFTTriggerMonitor::event *** Run = 222530 Event = 108 *** XFTTriggerMonitor::event *** Run = 222530 Event = 109 *** XFTTriggerMonitor::event *** Run = 222530 Event = 110 *** XFTTriggerMonitor::event *** Run = 222530 Event = 111 *** XFTTriggerMonitor::event *** Run = 222530 Event = 112 *** XFTTriggerMonitor::event *** Run = 222530 Event = 113 *** XFTTriggerMonitor::event *** Run = 222530 Event = 114 *** XFTTriggerMonitor::event *** Run = 222530 Event = 115 *** XFTTriggerMonitor::event *** Run = 222530 Event = 116 *** XFTTriggerMonitor::event *** Run = 222530 Event = 117 *** XFTTriggerMonitor::event *** Run = 222530 Event = 118 *** XFTTriggerMonitor::event *** Run = 222530 Event = 119 *** XFTTriggerMonitor::event *** Run = 222530 Event = 120 *** XFTTriggerMonitor::event *** Run = 222530 Event = 121 *** XFTTriggerMonitor::event *** Run = 222530 Event = 122 *** XFTTriggerMonitor::event *** Run = 222530 Event = 123 *** XFTTriggerMonitor::event *** Run = 222530 Event = 124 *** XFTTriggerMonitor::event *** Run = 222530 Event = 125 *** XFTTriggerMonitor::event *** Run = 222530 Event = 126 *** XFTTriggerMonitor::event *** Run = 222530 Event = 127 *** XFTTriggerMonitor::event *** Run = 222530 Event = 128 *** XFTTriggerMonitor::event *** Run = 222530 Event = 129 *** XFTTriggerMonitor::event *** Run = 222530 Event = 130 *** XFTTriggerMonitor::event *** Run = 222530 Event = 131 *** XFTTriggerMonitor::event *** Run = 222530 Event = 132 *** XFTTriggerMonitor::event *** Run = 222530 Event = 133 *** XFTTriggerMonitor::event *** Run = 222530 Event = 134 *** XFTTriggerMonitor::event *** Run = 222530 Event = 135 *** XFTTriggerMonitor::event *** Run = 222530 Event = 136 *** XFTTriggerMonitor::event *** Run = 222530 Event = 137 *** XFTTriggerMonitor::event *** Run = 222530 Event = 138 *** XFTTriggerMonitor::event *** Run = 222530 Event = 139 *** XFTTriggerMonitor::event *** Run = 222530 Event = 140 *** XFTTriggerMonitor::event *** Run = 222530 Event = 141 *** XFTTriggerMonitor::event *** Run = 222530 Event = 142 *** XFTTriggerMonitor::event *** Run = 222530 Event = 143 *** XFTTriggerMonitor::event *** Run = 222530 Event = 144 *** XFTTriggerMonitor::event *** Run = 222530 Event = 145 *** XFTTriggerMonitor::event *** Run = 222530 Event = 146 *** XFTTriggerMonitor::event *** Run = 222530 Event = 147 *** XFTTriggerMonitor::event *** Run = 222530 Event = 148 *** XFTTriggerMonitor::event *** Run = 222530 Event = 149 *** XFTTriggerMonitor::event *** Run = 222530 Event = 150 *** XFTTriggerMonitor::event *** Run = 222530 Event = 151 *** XFTTriggerMonitor::event *** Run = 222530 Event = 152 *** XFTTriggerMonitor::event *** Run = 222530 Event = 153 *** XFTTriggerMonitor::event *** Run = 222530 Event = 154 *** XFTTriggerMonitor::event *** Run = 222530 Event = 155 *** XFTTriggerMonitor::event *** Run = 222530 Event = 156 *** XFTTriggerMonitor::event *** Run = 222530 Event = 157 *** XFTTriggerMonitor::event *** Run = 222530 Event = 158 *** XFTTriggerMonitor::event *** Run = 222530 Event = 159 *** XFTTriggerMonitor::event *** Run = 222530 Event = 160 *** XFTTriggerMonitor::event *** Run = 222530 Event = 161 *** XFTTriggerMonitor::event *** Run = 222530 Event = 162 *** XFTTriggerMonitor::event *** Run = 222530 Event = 163 *** XFTTriggerMonitor::event *** Run = 222530 Event = 164 *** XFTTriggerMonitor::event *** Run = 222530 Event = 165 *** XFTTriggerMonitor::event *** Run = 222530 Event = 166 *** XFTTriggerMonitor::event *** Run = 222530 Event = 167 *** XFTTriggerMonitor::event *** Run = 222530 Event = 168 *** XFTTriggerMonitor::event *** Run = 222530 Event = 169 *** XFTTriggerMonitor::event *** Run = 222530 Event = 170 *** XFTTriggerMonitor::event *** Run = 222530 Event = 171 *** XFTTriggerMonitor::event *** Run = 222530 Event = 172 *** XFTTriggerMonitor::event *** Run = 222530 Event = 173 *** XFTTriggerMonitor::event *** Run = 222530 Event = 174 *** XFTTriggerMonitor::event *** Run = 222530 Event = 175 *** XFTTriggerMonitor::event *** Run = 222530 Event = 176 *** XFTTriggerMonitor::event *** Run = 222530 Event = 177 *** XFTTriggerMonitor::event *** Run = 222530 Event = 178 *** XFTTriggerMonitor::event *** Run = 222530 Event = 179 *** XFTTriggerMonitor::event *** Run = 222530 Event = 180 *** XFTTriggerMonitor::event *** Run = 222530 Event = 181 *** XFTTriggerMonitor::event *** Run = 222530 Event = 182 *** XFTTriggerMonitor::event *** Run = 222530 Event = 183 *** XFTTriggerMonitor::event *** Run = 222530 Event = 184 *** XFTTriggerMonitor::event *** Run = 222530 Event = 185 *** XFTTriggerMonitor::event *** Run = 222530 Event = 186 *** XFTTriggerMonitor::event *** Run = 222530 Event = 187 *** XFTTriggerMonitor::event *** Run = 222530 Event = 188 *** XFTTriggerMonitor::event *** Run = 222530 Event = 189 *** XFTTriggerMonitor::event *** Run = 222530 Event = 190 *** XFTTriggerMonitor::event *** Run = 222530 Event = 191 *** XFTTriggerMonitor::event *** Run = 222530 Event = 192 *** XFTTriggerMonitor::event *** Run = 222530 Event = 193 *** XFTTriggerMonitor::event *** Run = 222530 Event = 194 *** XFTTriggerMonitor::event *** Run = 222530 Event = 195 *** XFTTriggerMonitor::event *** Run = 222530 Event = 196 *** XFTTriggerMonitor::event *** Run = 222530 Event = 197 *** XFTTriggerMonitor::event *** Run = 222530 Event = 198 DHInput Begin processing 200th record. Run 222530, Trigger 199 *** XFTTriggerMonitor::event *** Run = 222530 Event = 199 *** XFTTriggerMonitor::event *** Run = 222530 Event = 200 *** XFTTriggerMonitor::event *** Run = 222530 Event = 201 *** XFTTriggerMonitor::event *** Run = 222530 Event = 202 *** XFTTriggerMonitor::event *** Run = 222530 Event = 203 *** XFTTriggerMonitor::event *** Run = 222530 Event = 204 *** XFTTriggerMonitor::event *** Run = 222530 Event = 205 *** XFTTriggerMonitor::event *** Run = 222530 Event = 206 *** XFTTriggerMonitor::event *** Run = 222530 Event = 207 *** XFTTriggerMonitor::event *** Run = 222530 Event = 208 *** XFTTriggerMonitor::event *** Run = 222530 Event = 209 *** XFTTriggerMonitor::event *** Run = 222530 Event = 210 *** XFTTriggerMonitor::event *** Run = 222530 Event = 211 *** XFTTriggerMonitor::event *** Run = 222530 Event = 212 *** XFTTriggerMonitor::event *** Run = 222530 Event = 213 *** XFTTriggerMonitor::event *** Run = 222530 Event = 214 *** XFTTriggerMonitor::event *** Run = 222530 Event = 215 *** XFTTriggerMonitor::event *** Run = 222530 Event = 216 *** XFTTriggerMonitor::event *** Run = 222530 Event = 217 *** XFTTriggerMonitor::event *** Run = 222530 Event = 218 *** XFTTriggerMonitor::event *** Run = 222530 Event = 219 *** XFTTriggerMonitor::event *** Run = 222530 Event = 220 *** XFTTriggerMonitor::event *** Run = 222530 Event = 221 *** XFTTriggerMonitor::event *** Run = 222530 Event = 222 *** XFTTriggerMonitor::event *** Run = 222530 Event = 223 *** XFTTriggerMonitor::event *** Run = 222530 Event = 224 *** XFTTriggerMonitor::event *** Run = 222530 Event = 225 *** XFTTriggerMonitor::event *** Run = 222530 Event = 226 *** XFTTriggerMonitor::event *** Run = 222530 Event = 227 *** XFTTriggerMonitor::event *** Run = 222530 Event = 228 *** XFTTriggerMonitor::event *** Run = 222530 Event = 229 *** XFTTriggerMonitor::event *** Run = 222530 Event = 230 *** XFTTriggerMonitor::event *** Run = 222530 Event = 231 *** XFTTriggerMonitor::event *** Run = 222530 Event = 232 *** XFTTriggerMonitor::event *** Run = 222530 Event = 233 *** XFTTriggerMonitor::event *** Run = 222530 Event = 234 *** XFTTriggerMonitor::event *** Run = 222530 Event = 235 *** XFTTriggerMonitor::event *** Run = 222530 Event = 236 *** XFTTriggerMonitor::event *** Run = 222530 Event = 237 *** XFTTriggerMonitor::event *** Run = 222530 Event = 238 *** XFTTriggerMonitor::event *** Run = 222530 Event = 239 *** XFTTriggerMonitor::event *** Run = 222530 Event = 240 *** XFTTriggerMonitor::event *** Run = 222530 Event = 241 *** XFTTriggerMonitor::event *** Run = 222530 Event = 242 *** XFTTriggerMonitor::event *** Run = 222530 Event = 243 *** XFTTriggerMonitor::event *** Run = 222530 Event = 244 *** XFTTriggerMonitor::event *** Run = 222530 Event = 245 *** XFTTriggerMonitor::event *** Run = 222530 Event = 246 *** XFTTriggerMonitor::event *** Run = 222530 Event = 247 *** XFTTriggerMonitor::event *** Run = 222530 Event = 248 *** XFTTriggerMonitor::event *** Run = 222530 Event = 249 *** XFTTriggerMonitor::event *** Run = 222530 Event = 250 *** XFTTriggerMonitor::event *** Run = 222530 Event = 251 *** XFTTriggerMonitor::event *** Run = 222530 Event = 252 *** XFTTriggerMonitor::event *** Run = 222530 Event = 253 *** XFTTriggerMonitor::event *** Run = 222530 Event = 254 *** XFTTriggerMonitor::event *** Run = 222530 Event = 255 *** XFTTriggerMonitor::event *** Run = 222530 Event = 256 *** XFTTriggerMonitor::event *** Run = 222530 Event = 257 *** XFTTriggerMonitor::event *** Run = 222530 Event = 258 *** XFTTriggerMonitor::event *** Run = 222530 Event = 259 *** XFTTriggerMonitor::event *** Run = 222530 Event = 260 *** XFTTriggerMonitor::event *** Run = 222530 Event = 261 *** XFTTriggerMonitor::event *** Run = 222530 Event = 262 *** XFTTriggerMonitor::event *** Run = 222530 Event = 263 *** XFTTriggerMonitor::event *** Run = 222530 Event = 264 *** XFTTriggerMonitor::event *** Run = 222530 Event = 265 *** XFTTriggerMonitor::event *** Run = 222530 Event = 266 *** XFTTriggerMonitor::event *** Run = 222530 Event = 267 *** XFTTriggerMonitor::event *** Run = 222530 Event = 268 *** XFTTriggerMonitor::event *** Run = 222530 Event = 269 *** XFTTriggerMonitor::event *** Run = 222530 Event = 270 *** XFTTriggerMonitor::event *** Run = 222530 Event = 271 *** XFTTriggerMonitor::event *** Run = 222530 Event = 272 *** XFTTriggerMonitor::event *** Run = 222530 Event = 273 *** XFTTriggerMonitor::event *** Run = 222530 Event = 274 *** XFTTriggerMonitor::event *** Run = 222530 Event = 275 *** XFTTriggerMonitor::event *** Run = 222530 Event = 276 *** XFTTriggerMonitor::event *** Run = 222530 Event = 277 *** XFTTriggerMonitor::event *** Run = 222530 Event = 278 *** XFTTriggerMonitor::event *** Run = 222530 Event = 279 *** XFTTriggerMonitor::event *** Run = 222530 Event = 280 *** XFTTriggerMonitor::event *** Run = 222530 Event = 281 *** XFTTriggerMonitor::event *** Run = 222530 Event = 282 *** XFTTriggerMonitor::event *** Run = 222530 Event = 283 *** XFTTriggerMonitor::event *** Run = 222530 Event = 284 *** XFTTriggerMonitor::event *** Run = 222530 Event = 285 *** XFTTriggerMonitor::event *** Run = 222530 Event = 286 *** XFTTriggerMonitor::event *** Run = 222530 Event = 287 *** XFTTriggerMonitor::event *** Run = 222530 Event = 288 *** XFTTriggerMonitor::event *** Run = 222530 Event = 289 *** XFTTriggerMonitor::event *** Run = 222530 Event = 290 *** XFTTriggerMonitor::event *** Run = 222530 Event = 291 *** XFTTriggerMonitor::event *** Run = 222530 Event = 292 *** XFTTriggerMonitor::event *** Run = 222530 Event = 293 *** XFTTriggerMonitor::event *** Run = 222530 Event = 294 *** XFTTriggerMonitor::event *** Run = 222530 Event = 295 *** XFTTriggerMonitor::event *** Run = 222530 Event = 296 *** XFTTriggerMonitor::event *** Run = 222530 Event = 297 *** XFTTriggerMonitor::event *** Run = 222530 Event = 298 DHInput Begin processing 300th record. Run 222530, Trigger 299 *** XFTTriggerMonitor::event *** Run = 222530 Event = 299 *** XFTTriggerMonitor::event *** Run = 222530 Event = 300 *** XFTTriggerMonitor::event *** Run = 222530 Event = 301 *** XFTTriggerMonitor::event *** Run = 222530 Event = 302 *** XFTTriggerMonitor::event *** Run = 222530 Event = 303 *** XFTTriggerMonitor::event *** Run = 222530 Event = 304 *** XFTTriggerMonitor::event *** Run = 222530 Event = 305 *** XFTTriggerMonitor::event *** Run = 222530 Event = 306 *** XFTTriggerMonitor::event *** Run = 222530 Event = 307 *** XFTTriggerMonitor::event *** Run = 222530 Event = 308 *** XFTTriggerMonitor::event *** Run = 222530 Event = 309 *** XFTTriggerMonitor::event *** Run = 222530 Event = 310 *** XFTTriggerMonitor::event *** Run = 222530 Event = 311 *** XFTTriggerMonitor::event *** Run = 222530 Event = 312 *** XFTTriggerMonitor::event *** Run = 222530 Event = 313 *** XFTTriggerMonitor::event *** Run = 222530 Event = 314 *** XFTTriggerMonitor::event *** Run = 222530 Event = 315 *** XFTTriggerMonitor::event *** Run = 222530 Event = 316 *** XFTTriggerMonitor::event *** Run = 222530 Event = 317 *** XFTTriggerMonitor::event *** Run = 222530 Event = 318 *** XFTTriggerMonitor::event *** Run = 222530 Event = 319 *** XFTTriggerMonitor::event *** Run = 222530 Event = 320 *** XFTTriggerMonitor::event *** Run = 222530 Event = 321 *** XFTTriggerMonitor::event *** Run = 222530 Event = 322 *** XFTTriggerMonitor::event *** Run = 222530 Event = 323 *** XFTTriggerMonitor::event *** Run = 222530 Event = 324 *** XFTTriggerMonitor::event *** Run = 222530 Event = 325 *** XFTTriggerMonitor::event *** Run = 222530 Event = 326 *** XFTTriggerMonitor::event *** Run = 222530 Event = 327 *** XFTTriggerMonitor::event *** Run = 222530 Event = 328 *** XFTTriggerMonitor::event *** Run = 222530 Event = 329 *** XFTTriggerMonitor::event *** Run = 222530 Event = 330 *** XFTTriggerMonitor::event *** Run = 222530 Event = 331 *** XFTTriggerMonitor::event *** Run = 222530 Event = 332 *** XFTTriggerMonitor::event *** Run = 222530 Event = 333 *** XFTTriggerMonitor::event *** Run = 222530 Event = 334 *** XFTTriggerMonitor::event *** Run = 222530 Event = 335 *** XFTTriggerMonitor::event *** Run = 222530 Event = 336 *** XFTTriggerMonitor::event *** Run = 222530 Event = 337 *** XFTTriggerMonitor::event *** Run = 222530 Event = 338 *** XFTTriggerMonitor::event *** Run = 222530 Event = 339 *** XFTTriggerMonitor::event *** Run = 222530 Event = 340 *** XFTTriggerMonitor::event *** Run = 222530 Event = 341 *** XFTTriggerMonitor::event *** Run = 222530 Event = 342 *** XFTTriggerMonitor::event *** Run = 222530 Event = 343 *** XFTTriggerMonitor::event *** Run = 222530 Event = 344 *** XFTTriggerMonitor::event *** Run = 222530 Event = 345 *** XFTTriggerMonitor::event *** Run = 222530 Event = 346 *** XFTTriggerMonitor::event *** Run = 222530 Event = 347 *** XFTTriggerMonitor::event *** Run = 222530 Event = 348 *** XFTTriggerMonitor::event *** Run = 222530 Event = 349 *** XFTTriggerMonitor::event *** Run = 222530 Event = 350 *** XFTTriggerMonitor::event *** Run = 222530 Event = 351 *** XFTTriggerMonitor::event *** Run = 222530 Event = 352 *** XFTTriggerMonitor::event *** Run = 222530 Event = 353 *** XFTTriggerMonitor::event *** Run = 222530 Event = 354 *** XFTTriggerMonitor::event *** Run = 222530 Event = 355 *** XFTTriggerMonitor::event *** Run = 222530 Event = 356 *** XFTTriggerMonitor::event *** Run = 222530 Event = 357 *** XFTTriggerMonitor::event *** Run = 222530 Event = 358 *** XFTTriggerMonitor::event *** Run = 222530 Event = 359 *** XFTTriggerMonitor::event *** Run = 222530 Event = 360 *** XFTTriggerMonitor::event *** Run = 222530 Event = 361 *** XFTTriggerMonitor::event *** Run = 222530 Event = 362 *** XFTTriggerMonitor::event *** Run = 222530 Event = 363 *** XFTTriggerMonitor::event *** Run = 222530 Event = 364 *** XFTTriggerMonitor::event *** Run = 222530 Event = 365 *** XFTTriggerMonitor::event *** Run = 222530 Event = 366 *** XFTTriggerMonitor::event *** Run = 222530 Event = 367 *** XFTTriggerMonitor::event *** Run = 222530 Event = 368 *** XFTTriggerMonitor::event *** Run = 222530 Event = 369 *** XFTTriggerMonitor::event *** Run = 222530 Event = 370 *** XFTTriggerMonitor::event *** Run = 222530 Event = 371 *** XFTTriggerMonitor::event *** Run = 222530 Event = 372 *** XFTTriggerMonitor::event *** Run = 222530 Event = 373 *** XFTTriggerMonitor::event *** Run = 222530 Event = 374 *** XFTTriggerMonitor::event *** Run = 222530 Event = 375 *** XFTTriggerMonitor::event *** Run = 222530 Event = 376 *** XFTTriggerMonitor::event *** Run = 222530 Event = 377 *** XFTTriggerMonitor::event *** Run = 222530 Event = 378 *** XFTTriggerMonitor::event *** Run = 222530 Event = 379 *** XFTTriggerMonitor::event *** Run = 222530 Event = 380 *** XFTTriggerMonitor::event *** Run = 222530 Event = 381 *** XFTTriggerMonitor::event *** Run = 222530 Event = 382 *** XFTTriggerMonitor::event *** Run = 222530 Event = 383 *** XFTTriggerMonitor::event *** Run = 222530 Event = 384 *** XFTTriggerMonitor::event *** Run = 222530 Event = 385 *** XFTTriggerMonitor::event *** Run = 222530 Event = 386 *** XFTTriggerMonitor::event *** Run = 222530 Event = 387 *** XFTTriggerMonitor::event *** Run = 222530 Event = 388 *** XFTTriggerMonitor::event *** Run = 222530 Event = 389 *** XFTTriggerMonitor::event *** Run = 222530 Event = 390 *** XFTTriggerMonitor::event *** Run = 222530 Event = 391 *** XFTTriggerMonitor::event *** Run = 222530 Event = 392 *** XFTTriggerMonitor::event *** Run = 222530 Event = 393 *** XFTTriggerMonitor::event *** Run = 222530 Event = 394 *** XFTTriggerMonitor::event *** Run = 222530 Event = 395 *** XFTTriggerMonitor::event *** Run = 222530 Event = 396 *** XFTTriggerMonitor::event *** Run = 222530 Event = 397 *** XFTTriggerMonitor::event *** Run = 222530 Event = 398 DHInput Begin processing 400th record. Run 222530, Trigger 399 *** XFTTriggerMonitor::event *** Run = 222530 Event = 399 *** XFTTriggerMonitor::event *** Run = 222530 Event = 400 *** XFTTriggerMonitor::event *** Run = 222530 Event = 401 *** XFTTriggerMonitor::event *** Run = 222530 Event = 402 *** XFTTriggerMonitor::event *** Run = 222530 Event = 403 *** XFTTriggerMonitor::event *** Run = 222530 Event = 404 *** XFTTriggerMonitor::event *** Run = 222530 Event = 405 *** XFTTriggerMonitor::event *** Run = 222530 Event = 406 *** XFTTriggerMonitor::event *** Run = 222530 Event = 407 *** XFTTriggerMonitor::event *** Run = 222530 Event = 408 *** XFTTriggerMonitor::event *** Run = 222530 Event = 409 *** XFTTriggerMonitor::event *** Run = 222530 Event = 410 *** XFTTriggerMonitor::event *** Run = 222530 Event = 411 *** XFTTriggerMonitor::event *** Run = 222530 Event = 412 *** XFTTriggerMonitor::event *** Run = 222530 Event = 413 *** XFTTriggerMonitor::event *** Run = 222530 Event = 414 *** XFTTriggerMonitor::event *** Run = 222530 Event = 415 *** XFTTriggerMonitor::event *** Run = 222530 Event = 416 *** XFTTriggerMonitor::event *** Run = 222530 Event = 417 *** XFTTriggerMonitor::event *** Run = 222530 Event = 418 *** XFTTriggerMonitor::event *** Run = 222530 Event = 419 *** XFTTriggerMonitor::event *** Run = 222530 Event = 420 *** XFTTriggerMonitor::event *** Run = 222530 Event = 421 *** XFTTriggerMonitor::event *** Run = 222530 Event = 422 *** XFTTriggerMonitor::event *** Run = 222530 Event = 423 *** XFTTriggerMonitor::event *** Run = 222530 Event = 424 *** XFTTriggerMonitor::event *** Run = 222530 Event = 425 *** XFTTriggerMonitor::event *** Run = 222530 Event = 426 *** XFTTriggerMonitor::event *** Run = 222530 Event = 427 *** XFTTriggerMonitor::event *** Run = 222530 Event = 428 *** XFTTriggerMonitor::event *** Run = 222530 Event = 429 *** XFTTriggerMonitor::event *** Run = 222530 Event = 430 *** XFTTriggerMonitor::event *** Run = 222530 Event = 431 *** XFTTriggerMonitor::event *** Run = 222530 Event = 432 *** XFTTriggerMonitor::event *** Run = 222530 Event = 433 *** XFTTriggerMonitor::event *** Run = 222530 Event = 434 *** XFTTriggerMonitor::event *** Run = 222530 Event = 435 *** XFTTriggerMonitor::event *** Run = 222530 Event = 436 *** XFTTriggerMonitor::event *** Run = 222530 Event = 437 *** XFTTriggerMonitor::event *** Run = 222530 Event = 438 *** XFTTriggerMonitor::event *** Run = 222530 Event = 439 *** XFTTriggerMonitor::event *** Run = 222530 Event = 440 *** XFTTriggerMonitor::event *** Run = 222530 Event = 441 *** XFTTriggerMonitor::event *** Run = 222530 Event = 442 *** XFTTriggerMonitor::event *** Run = 222530 Event = 443 *** XFTTriggerMonitor::event *** Run = 222530 Event = 444 *** XFTTriggerMonitor::event *** Run = 222530 Event = 445 *** XFTTriggerMonitor::event *** Run = 222530 Event = 446 *** XFTTriggerMonitor::event *** Run = 222530 Event = 447 *** XFTTriggerMonitor::event *** Run = 222530 Event = 448 *** XFTTriggerMonitor::event *** Run = 222530 Event = 449 *** XFTTriggerMonitor::event *** Run = 222530 Event = 450 *** XFTTriggerMonitor::event *** Run = 222530 Event = 451 *** XFTTriggerMonitor::event *** Run = 222530 Event = 452 *** XFTTriggerMonitor::event *** Run = 222530 Event = 453 *** XFTTriggerMonitor::event *** Run = 222530 Event = 454 *** XFTTriggerMonitor::event *** Run = 222530 Event = 455 *** XFTTriggerMonitor::event *** Run = 222530 Event = 456 *** XFTTriggerMonitor::event *** Run = 222530 Event = 457 *** XFTTriggerMonitor::event *** Run = 222530 Event = 458 *** XFTTriggerMonitor::event *** Run = 222530 Event = 459 *** XFTTriggerMonitor::event *** Run = 222530 Event = 460 *** XFTTriggerMonitor::event *** Run = 222530 Event = 461 *** XFTTriggerMonitor::event *** Run = 222530 Event = 462 *** XFTTriggerMonitor::event *** Run = 222530 Event = 463 *** XFTTriggerMonitor::event *** Run = 222530 Event = 464 *** XFTTriggerMonitor::event *** Run = 222530 Event = 465 *** XFTTriggerMonitor::event *** Run = 222530 Event = 466 *** XFTTriggerMonitor::event *** Run = 222530 Event = 467 *** XFTTriggerMonitor::event *** Run = 222530 Event = 468 *** XFTTriggerMonitor::event *** Run = 222530 Event = 469 *** XFTTriggerMonitor::event *** Run = 222530 Event = 470 *** XFTTriggerMonitor::event *** Run = 222530 Event = 471 *** XFTTriggerMonitor::event *** Run = 222530 Event = 472 *** XFTTriggerMonitor::event *** Run = 222530 Event = 473 *** XFTTriggerMonitor::event *** Run = 222530 Event = 474 *** XFTTriggerMonitor::event *** Run = 222530 Event = 475 *** XFTTriggerMonitor::event *** Run = 222530 Event = 476 *** XFTTriggerMonitor::event *** Run = 222530 Event = 477 *** XFTTriggerMonitor::event *** Run = 222530 Event = 478 *** XFTTriggerMonitor::event *** Run = 222530 Event = 479 *** XFTTriggerMonitor::event *** Run = 222530 Event = 480 *** XFTTriggerMonitor::event *** Run = 222530 Event = 481 *** XFTTriggerMonitor::event *** Run = 222530 Event = 482 *** XFTTriggerMonitor::event *** Run = 222530 Event = 483 *** XFTTriggerMonitor::event *** Run = 222530 Event = 484 *** XFTTriggerMonitor::event *** Run = 222530 Event = 485 *** XFTTriggerMonitor::event *** Run = 222530 Event = 486 *** XFTTriggerMonitor::event *** Run = 222530 Event = 487 *** XFTTriggerMonitor::event *** Run = 222530 Event = 488 *** XFTTriggerMonitor::event *** Run = 222530 Event = 489 *** XFTTriggerMonitor::event *** Run = 222530 Event = 490 *** XFTTriggerMonitor::event *** Run = 222530 Event = 491 *** XFTTriggerMonitor::event *** Run = 222530 Event = 492 *** XFTTriggerMonitor::event *** Run = 222530 Event = 493 *** XFTTriggerMonitor::event *** Run = 222530 Event = 494 *** XFTTriggerMonitor::event *** Run = 222530 Event = 495 *** XFTTriggerMonitor::event *** Run = 222530 Event = 496 *** XFTTriggerMonitor::event *** Run = 222530 Event = 497 *** XFTTriggerMonitor::event *** Run = 222530 Event = 498 DHInput Begin processing 500th record. Run 222530, Trigger 499 *** XFTTriggerMonitor::event *** Run = 222530 Event = 499 *** XFTTriggerMonitor::event *** Run = 222530 Event = 500 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 *** XFTTriggerMonitor::event *** Run = 222530 Event = 501 *** XFTTriggerMonitor::event *** Run = 222530 Event = 502 *** XFTTriggerMonitor::event *** Run = 222530 Event = 503 *** XFTTriggerMonitor::event *** Run = 222530 Event = 504 *** XFTTriggerMonitor::event *** Run = 222530 Event = 505 *** XFTTriggerMonitor::event *** Run = 222530 Event = 506 *** XFTTriggerMonitor::event *** Run = 222530 Event = 507 *** XFTTriggerMonitor::event *** Run = 222530 Event = 508 *** XFTTriggerMonitor::event *** Run = 222530 Event = 509 *** XFTTriggerMonitor::event *** Run = 222530 Event = 510 *** XFTTriggerMonitor::event *** Run = 222530 Event = 511 *** XFTTriggerMonitor::event *** Run = 222530 Event = 512 *** XFTTriggerMonitor::event *** Run = 222530 Event = 513 *** XFTTriggerMonitor::event *** Run = 222530 Event = 514 *** XFTTriggerMonitor::event *** Run = 222530 Event = 515 *** XFTTriggerMonitor::event *** Run = 222530 Event = 516 *** XFTTriggerMonitor::event *** Run = 222530 Event = 517 *** XFTTriggerMonitor::event *** Run = 222530 Event = 518 *** XFTTriggerMonitor::event *** Run = 222530 Event = 519 *** XFTTriggerMonitor::event *** Run = 222530 Event = 520 *** XFTTriggerMonitor::event *** Run = 222530 Event = 521 *** XFTTriggerMonitor::event *** Run = 222530 Event = 522 *** XFTTriggerMonitor::event *** Run = 222530 Event = 523 *** XFTTriggerMonitor::event *** Run = 222530 Event = 524 *** XFTTriggerMonitor::event *** Run = 222530 Event = 525 *** XFTTriggerMonitor::event *** Run = 222530 Event = 526 *** XFTTriggerMonitor::event *** Run = 222530 Event = 527 *** XFTTriggerMonitor::event *** Run = 222530 Event = 528 *** XFTTriggerMonitor::event *** Run = 222530 Event = 529 *** XFTTriggerMonitor::event *** Run = 222530 Event = 530 *** XFTTriggerMonitor::event *** Run = 222530 Event = 531 *** XFTTriggerMonitor::event *** Run = 222530 Event = 532 *** XFTTriggerMonitor::event *** Run = 222530 Event = 533 *** XFTTriggerMonitor::event *** Run = 222530 Event = 534 *** XFTTriggerMonitor::event *** Run = 222530 Event = 535 *** XFTTriggerMonitor::event *** Run = 222530 Event = 536 *** XFTTriggerMonitor::event *** Run = 222530 Event = 537 *** XFTTriggerMonitor::event *** Run = 222530 Event = 538 *** XFTTriggerMonitor::event *** Run = 222530 Event = 539 *** XFTTriggerMonitor::event *** Run = 222530 Event = 540 *** XFTTriggerMonitor::event *** Run = 222530 Event = 541 *** XFTTriggerMonitor::event *** Run = 222530 Event = 542 *** XFTTriggerMonitor::event *** Run = 222530 Event = 543 *** XFTTriggerMonitor::event *** Run = 222530 Event = 544 *** XFTTriggerMonitor::event *** Run = 222530 Event = 545 *** XFTTriggerMonitor::event *** Run = 222530 Event = 546 *** XFTTriggerMonitor::event *** Run = 222530 Event = 547 *** XFTTriggerMonitor::event *** Run = 222530 Event = 548 *** XFTTriggerMonitor::event *** Run = 222530 Event = 549 *** XFTTriggerMonitor::event *** Run = 222530 Event = 550 *** XFTTriggerMonitor::event *** Run = 222530 Event = 551 *** XFTTriggerMonitor::event *** Run = 222530 Event = 552 *** XFTTriggerMonitor::event *** Run = 222530 Event = 553 *** XFTTriggerMonitor::event *** Run = 222530 Event = 554 *** XFTTriggerMonitor::event *** Run = 222530 Event = 555 *** XFTTriggerMonitor::event *** Run = 222530 Event = 556 *** XFTTriggerMonitor::event *** Run = 222530 Event = 557 *** XFTTriggerMonitor::event *** Run = 222530 Event = 558 *** XFTTriggerMonitor::event *** Run = 222530 Event = 559 *** XFTTriggerMonitor::event *** Run = 222530 Event = 560 *** XFTTriggerMonitor::event *** Run = 222530 Event = 561 *** XFTTriggerMonitor::event *** Run = 222530 Event = 562 *** XFTTriggerMonitor::event *** Run = 222530 Event = 563 *** XFTTriggerMonitor::event *** Run = 222530 Event = 564 *** XFTTriggerMonitor::event *** Run = 222530 Event = 565 *** XFTTriggerMonitor::event *** Run = 222530 Event = 566 *** XFTTriggerMonitor::event *** Run = 222530 Event = 567 *** XFTTriggerMonitor::event *** Run = 222530 Event = 568 *** XFTTriggerMonitor::event *** Run = 222530 Event = 569 *** XFTTriggerMonitor::event *** Run = 222530 Event = 570 *** XFTTriggerMonitor::event *** Run = 222530 Event = 571 *** XFTTriggerMonitor::event *** Run = 222530 Event = 572 *** XFTTriggerMonitor::event *** Run = 222530 Event = 573 *** XFTTriggerMonitor::event *** Run = 222530 Event = 574 *** XFTTriggerMonitor::event *** Run = 222530 Event = 575 *** XFTTriggerMonitor::event *** Run = 222530 Event = 576 *** XFTTriggerMonitor::event *** Run = 222530 Event = 577 *** XFTTriggerMonitor::event *** Run = 222530 Event = 578 *** XFTTriggerMonitor::event *** Run = 222530 Event = 579 *** XFTTriggerMonitor::event *** Run = 222530 Event = 580 *** XFTTriggerMonitor::event *** Run = 222530 Event = 581 *** XFTTriggerMonitor::event *** Run = 222530 Event = 582 *** XFTTriggerMonitor::event *** Run = 222530 Event = 583 *** XFTTriggerMonitor::event *** Run = 222530 Event = 584 *** XFTTriggerMonitor::event *** Run = 222530 Event = 585 *** XFTTriggerMonitor::event *** Run = 222530 Event = 586 *** XFTTriggerMonitor::event *** Run = 222530 Event = 587 *** XFTTriggerMonitor::event *** Run = 222530 Event = 588 *** XFTTriggerMonitor::event *** Run = 222530 Event = 589 *** XFTTriggerMonitor::event *** Run = 222530 Event = 590 *** XFTTriggerMonitor::event *** Run = 222530 Event = 591 *** XFTTriggerMonitor::event *** Run = 222530 Event = 592 *** XFTTriggerMonitor::event *** Run = 222530 Event = 593 *** XFTTriggerMonitor::event *** Run = 222530 Event = 594 *** XFTTriggerMonitor::event *** Run = 222530 Event = 595 *** XFTTriggerMonitor::event *** Run = 222530 Event = 596 *** XFTTriggerMonitor::event *** Run = 222530 Event = 597 *** XFTTriggerMonitor::event *** Run = 222530 Event = 598 DHInput Begin processing 600th record. Run 222530, Trigger 599 *** XFTTriggerMonitor::event *** Run = 222530 Event = 599 *** XFTTriggerMonitor::event *** Run = 222530 Event = 600 *** XFTTriggerMonitor::event *** Run = 222530 Event = 601 *** XFTTriggerMonitor::event *** Run = 222530 Event = 602 *** XFTTriggerMonitor::event *** Run = 222530 Event = 603 *** XFTTriggerMonitor::event *** Run = 222530 Event = 604 *** XFTTriggerMonitor::event *** Run = 222530 Event = 605 *** XFTTriggerMonitor::event *** Run = 222530 Event = 606 *** XFTTriggerMonitor::event *** Run = 222530 Event = 607 *** XFTTriggerMonitor::event *** Run = 222530 Event = 608 *** XFTTriggerMonitor::event *** Run = 222530 Event = 609 *** XFTTriggerMonitor::event *** Run = 222530 Event = 610 *** XFTTriggerMonitor::event *** Run = 222530 Event = 611 *** XFTTriggerMonitor::event *** Run = 222530 Event = 612 *** XFTTriggerMonitor::event *** Run = 222530 Event = 613 *** XFTTriggerMonitor::event *** Run = 222530 Event = 614 *** XFTTriggerMonitor::event *** Run = 222530 Event = 615 *** XFTTriggerMonitor::event *** Run = 222530 Event = 616 *** XFTTriggerMonitor::event *** Run = 222530 Event = 617 *** XFTTriggerMonitor::event *** Run = 222530 Event = 618 *** XFTTriggerMonitor::event *** Run = 222530 Event = 619 *** XFTTriggerMonitor::event *** Run = 222530 Event = 620 *** XFTTriggerMonitor::event *** Run = 222530 Event = 621 *** XFTTriggerMonitor::event *** Run = 222530 Event = 622 *** XFTTriggerMonitor::event *** Run = 222530 Event = 623 *** XFTTriggerMonitor::event *** Run = 222530 Event = 624 *** XFTTriggerMonitor::event *** Run = 222530 Event = 625 *** XFTTriggerMonitor::event *** Run = 222530 Event = 626 *** XFTTriggerMonitor::event *** Run = 222530 Event = 627 *** XFTTriggerMonitor::event *** Run = 222530 Event = 628 *** XFTTriggerMonitor::event *** Run = 222530 Event = 629 *** XFTTriggerMonitor::event *** Run = 222530 Event = 630 *** XFTTriggerMonitor::event *** Run = 222530 Event = 631 *** XFTTriggerMonitor::event *** Run = 222530 Event = 632 *** XFTTriggerMonitor::event *** Run = 222530 Event = 633 *** XFTTriggerMonitor::event *** Run = 222530 Event = 634 *** XFTTriggerMonitor::event *** Run = 222530 Event = 635 *** XFTTriggerMonitor::event *** Run = 222530 Event = 636 *** XFTTriggerMonitor::event *** Run = 222530 Event = 637 *** XFTTriggerMonitor::event *** Run = 222530 Event = 638 *** XFTTriggerMonitor::event *** Run = 222530 Event = 639 *** XFTTriggerMonitor::event *** Run = 222530 Event = 640 *** XFTTriggerMonitor::event *** Run = 222530 Event = 641 *** XFTTriggerMonitor::event *** Run = 222530 Event = 642 *** XFTTriggerMonitor::event *** Run = 222530 Event = 643 *** XFTTriggerMonitor::event *** Run = 222530 Event = 644 *** XFTTriggerMonitor::event *** Run = 222530 Event = 645 *** XFTTriggerMonitor::event *** Run = 222530 Event = 646 *** XFTTriggerMonitor::event *** Run = 222530 Event = 647 *** XFTTriggerMonitor::event *** Run = 222530 Event = 648 *** XFTTriggerMonitor::event *** Run = 222530 Event = 649 *** XFTTriggerMonitor::event *** Run = 222530 Event = 650 *** XFTTriggerMonitor::event *** Run = 222530 Event = 651 *** XFTTriggerMonitor::event *** Run = 222530 Event = 652 *** XFTTriggerMonitor::event *** Run = 222530 Event = 653 *** XFTTriggerMonitor::event *** Run = 222530 Event = 654 *** XFTTriggerMonitor::event *** Run = 222530 Event = 655 *** XFTTriggerMonitor::event *** Run = 222530 Event = 656 *** XFTTriggerMonitor::event *** Run = 222530 Event = 657 *** XFTTriggerMonitor::event *** Run = 222530 Event = 658 *** XFTTriggerMonitor::event *** Run = 222530 Event = 659 *** XFTTriggerMonitor::event *** Run = 222530 Event = 660 *** XFTTriggerMonitor::event *** Run = 222530 Event = 661 *** XFTTriggerMonitor::event *** Run = 222530 Event = 662 *** XFTTriggerMonitor::event *** Run = 222530 Event = 663 *** XFTTriggerMonitor::event *** Run = 222530 Event = 664 *** XFTTriggerMonitor::event *** Run = 222530 Event = 665 *** XFTTriggerMonitor::event *** Run = 222530 Event = 666 *** XFTTriggerMonitor::event *** Run = 222530 Event = 667 *** XFTTriggerMonitor::event *** Run = 222530 Event = 668 *** XFTTriggerMonitor::event *** Run = 222530 Event = 669 *** XFTTriggerMonitor::event *** Run = 222530 Event = 670 *** XFTTriggerMonitor::event *** Run = 222530 Event = 671 *** XFTTriggerMonitor::event *** Run = 222530 Event = 672 *** XFTTriggerMonitor::event *** Run = 222530 Event = 673 *** XFTTriggerMonitor::event *** Run = 222530 Event = 674 *** XFTTriggerMonitor::event *** Run = 222530 Event = 675 *** XFTTriggerMonitor::event *** Run = 222530 Event = 676 *** XFTTriggerMonitor::event *** Run = 222530 Event = 677 *** XFTTriggerMonitor::event *** Run = 222530 Event = 678 *** XFTTriggerMonitor::event *** Run = 222530 Event = 679 *** XFTTriggerMonitor::event *** Run = 222530 Event = 680 *** XFTTriggerMonitor::event *** Run = 222530 Event = 681 *** XFTTriggerMonitor::event *** Run = 222530 Event = 682 *** XFTTriggerMonitor::event *** Run = 222530 Event = 683 *** XFTTriggerMonitor::event *** Run = 222530 Event = 684 *** XFTTriggerMonitor::event *** Run = 222530 Event = 685 *** XFTTriggerMonitor::event *** Run = 222530 Event = 686 *** XFTTriggerMonitor::event *** Run = 222530 Event = 687 *** XFTTriggerMonitor::event *** Run = 222530 Event = 688 *** XFTTriggerMonitor::event *** Run = 222530 Event = 689 *** XFTTriggerMonitor::event *** Run = 222530 Event = 690 *** XFTTriggerMonitor::event *** Run = 222530 Event = 691 *** XFTTriggerMonitor::event *** Run = 222530 Event = 692 *** XFTTriggerMonitor::event *** Run = 222530 Event = 693 *** XFTTriggerMonitor::event *** Run = 222530 Event = 694 *** XFTTriggerMonitor::event *** Run = 222530 Event = 695 *** XFTTriggerMonitor::event *** Run = 222530 Event = 696 *** XFTTriggerMonitor::event *** Run = 222530 Event = 697 *** XFTTriggerMonitor::event *** Run = 222530 Event = 698 DHInput Begin processing 700th record. Run 222530, Trigger 699 *** XFTTriggerMonitor::event *** Run = 222530 Event = 699 *** XFTTriggerMonitor::event *** Run = 222530 Event = 700 *** XFTTriggerMonitor::event *** Run = 222530 Event = 701 *** XFTTriggerMonitor::event *** Run = 222530 Event = 702 *** XFTTriggerMonitor::event *** Run = 222530 Event = 703 *** XFTTriggerMonitor::event *** Run = 222530 Event = 704 *** XFTTriggerMonitor::event *** Run = 222530 Event = 705 *** XFTTriggerMonitor::event *** Run = 222530 Event = 706 *** XFTTriggerMonitor::event *** Run = 222530 Event = 707 *** XFTTriggerMonitor::event *** Run = 222530 Event = 708 *** XFTTriggerMonitor::event *** Run = 222530 Event = 709 *** XFTTriggerMonitor::event *** Run = 222530 Event = 710 *** XFTTriggerMonitor::event *** Run = 222530 Event = 711 *** XFTTriggerMonitor::event *** Run = 222530 Event = 712 *** XFTTriggerMonitor::event *** Run = 222530 Event = 713 *** XFTTriggerMonitor::event *** Run = 222530 Event = 714 *** XFTTriggerMonitor::event *** Run = 222530 Event = 715 *** XFTTriggerMonitor::event *** Run = 222530 Event = 716 *** XFTTriggerMonitor::event *** Run = 222530 Event = 717 *** XFTTriggerMonitor::event *** Run = 222530 Event = 718 *** XFTTriggerMonitor::event *** Run = 222530 Event = 719 *** XFTTriggerMonitor::event *** Run = 222530 Event = 720 *** XFTTriggerMonitor::event *** Run = 222530 Event = 721 *** XFTTriggerMonitor::event *** Run = 222530 Event = 722 *** XFTTriggerMonitor::event *** Run = 222530 Event = 723 *** XFTTriggerMonitor::event *** Run = 222530 Event = 724 *** XFTTriggerMonitor::event *** Run = 222530 Event = 725 *** XFTTriggerMonitor::event *** Run = 222530 Event = 726 *** XFTTriggerMonitor::event *** Run = 222530 Event = 727 *** XFTTriggerMonitor::event *** Run = 222530 Event = 728 *** XFTTriggerMonitor::event *** Run = 222530 Event = 729 *** XFTTriggerMonitor::event *** Run = 222530 Event = 730 *** XFTTriggerMonitor::event *** Run = 222530 Event = 731 *** XFTTriggerMonitor::event *** Run = 222530 Event = 732 *** XFTTriggerMonitor::event *** Run = 222530 Event = 733 *** XFTTriggerMonitor::event *** Run = 222530 Event = 734 *** XFTTriggerMonitor::event *** Run = 222530 Event = 735 *** XFTTriggerMonitor::event *** Run = 222530 Event = 736 *** XFTTriggerMonitor::event *** Run = 222530 Event = 737 *** XFTTriggerMonitor::event *** Run = 222530 Event = 738 *** XFTTriggerMonitor::event *** Run = 222530 Event = 739 *** XFTTriggerMonitor::event *** Run = 222530 Event = 740 *** XFTTriggerMonitor::event *** Run = 222530 Event = 741 *** XFTTriggerMonitor::event *** Run = 222530 Event = 742 *** XFTTriggerMonitor::event *** Run = 222530 Event = 743 *** XFTTriggerMonitor::event *** Run = 222530 Event = 744 *** XFTTriggerMonitor::event *** Run = 222530 Event = 745 *** XFTTriggerMonitor::event *** Run = 222530 Event = 746 *** XFTTriggerMonitor::event *** Run = 222530 Event = 747 *** XFTTriggerMonitor::event *** Run = 222530 Event = 748 *** XFTTriggerMonitor::event *** Run = 222530 Event = 749 *** XFTTriggerMonitor::event *** Run = 222530 Event = 750 *** XFTTriggerMonitor::event *** Run = 222530 Event = 751 *** XFTTriggerMonitor::event *** Run = 222530 Event = 752 *** XFTTriggerMonitor::event *** Run = 222530 Event = 753 *** XFTTriggerMonitor::event *** Run = 222530 Event = 754 *** XFTTriggerMonitor::event *** Run = 222530 Event = 755 *** XFTTriggerMonitor::event *** Run = 222530 Event = 756 *** XFTTriggerMonitor::event *** Run = 222530 Event = 757 *** XFTTriggerMonitor::event *** Run = 222530 Event = 758 *** XFTTriggerMonitor::event *** Run = 222530 Event = 759 *** XFTTriggerMonitor::event *** Run = 222530 Event = 760 *** XFTTriggerMonitor::event *** Run = 222530 Event = 761 *** XFTTriggerMonitor::event *** Run = 222530 Event = 762 *** XFTTriggerMonitor::event *** Run = 222530 Event = 763 *** XFTTriggerMonitor::event *** Run = 222530 Event = 764 *** XFTTriggerMonitor::event *** Run = 222530 Event = 765 *** XFTTriggerMonitor::event *** Run = 222530 Event = 766 *** XFTTriggerMonitor::event *** Run = 222530 Event = 767 *** XFTTriggerMonitor::event *** Run = 222530 Event = 768 *** XFTTriggerMonitor::event *** Run = 222530 Event = 769 *** XFTTriggerMonitor::event *** Run = 222530 Event = 770 *** XFTTriggerMonitor::event *** Run = 222530 Event = 771 *** XFTTriggerMonitor::event *** Run = 222530 Event = 772 *** XFTTriggerMonitor::event *** Run = 222530 Event = 773 *** XFTTriggerMonitor::event *** Run = 222530 Event = 774 *** XFTTriggerMonitor::event *** Run = 222530 Event = 775 *** XFTTriggerMonitor::event *** Run = 222530 Event = 776 *** XFTTriggerMonitor::event *** Run = 222530 Event = 777 *** XFTTriggerMonitor::event *** Run = 222530 Event = 778 *** XFTTriggerMonitor::event *** Run = 222530 Event = 779 *** XFTTriggerMonitor::event *** Run = 222530 Event = 780 *** XFTTriggerMonitor::event *** Run = 222530 Event = 781 *** XFTTriggerMonitor::event *** Run = 222530 Event = 782 *** XFTTriggerMonitor::event *** Run = 222530 Event = 783 *** XFTTriggerMonitor::event *** Run = 222530 Event = 784 *** XFTTriggerMonitor::event *** Run = 222530 Event = 785 *** XFTTriggerMonitor::event *** Run = 222530 Event = 786 *** XFTTriggerMonitor::event *** Run = 222530 Event = 787 *** XFTTriggerMonitor::event *** Run = 222530 Event = 788 *** XFTTriggerMonitor::event *** Run = 222530 Event = 789 *** XFTTriggerMonitor::event *** Run = 222530 Event = 790 *** XFTTriggerMonitor::event *** Run = 222530 Event = 791 *** XFTTriggerMonitor::event *** Run = 222530 Event = 792 *** XFTTriggerMonitor::event *** Run = 222530 Event = 793 *** XFTTriggerMonitor::event *** Run = 222530 Event = 794 *** XFTTriggerMonitor::event *** Run = 222530 Event = 795 *** XFTTriggerMonitor::event *** Run = 222530 Event = 796 *** XFTTriggerMonitor::event *** Run = 222530 Event = 797 *** XFTTriggerMonitor::event *** Run = 222530 Event = 798 DHInput Begin processing 800th record. Run 222530, Trigger 799 *** XFTTriggerMonitor::event *** Run = 222530 Event = 799 *** XFTTriggerMonitor::event *** Run = 222530 Event = 800 *** XFTTriggerMonitor::event *** Run = 222530 Event = 801 *** XFTTriggerMonitor::event *** Run = 222530 Event = 802 *** XFTTriggerMonitor::event *** Run = 222530 Event = 803 *** XFTTriggerMonitor::event *** Run = 222530 Event = 804 *** XFTTriggerMonitor::event *** Run = 222530 Event = 805 *** XFTTriggerMonitor::event *** Run = 222530 Event = 806 *** XFTTriggerMonitor::event *** Run = 222530 Event = 807 *** XFTTriggerMonitor::event *** Run = 222530 Event = 808 *** XFTTriggerMonitor::event *** Run = 222530 Event = 809 *** XFTTriggerMonitor::event *** Run = 222530 Event = 810 *** XFTTriggerMonitor::event *** Run = 222530 Event = 811 *** XFTTriggerMonitor::event *** Run = 222530 Event = 812 *** XFTTriggerMonitor::event *** Run = 222530 Event = 813 *** XFTTriggerMonitor::event *** Run = 222530 Event = 814 *** XFTTriggerMonitor::event *** Run = 222530 Event = 815 *** XFTTriggerMonitor::event *** Run = 222530 Event = 816 *** XFTTriggerMonitor::event *** Run = 222530 Event = 817 *** XFTTriggerMonitor::event *** Run = 222530 Event = 818 *** XFTTriggerMonitor::event *** Run = 222530 Event = 819 *** XFTTriggerMonitor::event *** Run = 222530 Event = 820 *** XFTTriggerMonitor::event *** Run = 222530 Event = 821 *** XFTTriggerMonitor::event *** Run = 222530 Event = 822 *** XFTTriggerMonitor::event *** Run = 222530 Event = 823 *** XFTTriggerMonitor::event *** Run = 222530 Event = 824 *** XFTTriggerMonitor::event *** Run = 222530 Event = 825 *** XFTTriggerMonitor::event *** Run = 222530 Event = 826 *** XFTTriggerMonitor::event *** Run = 222530 Event = 827 *** XFTTriggerMonitor::event *** Run = 222530 Event = 828 *** XFTTriggerMonitor::event *** Run = 222530 Event = 829 *** XFTTriggerMonitor::event *** Run = 222530 Event = 830 *** XFTTriggerMonitor::event *** Run = 222530 Event = 831 *** XFTTriggerMonitor::event *** Run = 222530 Event = 832 *** XFTTriggerMonitor::event *** Run = 222530 Event = 833 *** XFTTriggerMonitor::event *** Run = 222530 Event = 834 *** XFTTriggerMonitor::event *** Run = 222530 Event = 835 *** XFTTriggerMonitor::event *** Run = 222530 Event = 836 *** XFTTriggerMonitor::event *** Run = 222530 Event = 837 *** XFTTriggerMonitor::event *** Run = 222530 Event = 838 *** XFTTriggerMonitor::event *** Run = 222530 Event = 839 *** XFTTriggerMonitor::event *** Run = 222530 Event = 840 *** XFTTriggerMonitor::event *** Run = 222530 Event = 841 *** XFTTriggerMonitor::event *** Run = 222530 Event = 842 *** XFTTriggerMonitor::event *** Run = 222530 Event = 843 *** XFTTriggerMonitor::event *** Run = 222530 Event = 844 *** XFTTriggerMonitor::event *** Run = 222530 Event = 845 *** XFTTriggerMonitor::event *** Run = 222530 Event = 846 *** XFTTriggerMonitor::event *** Run = 222530 Event = 847 *** XFTTriggerMonitor::event *** Run = 222530 Event = 848 *** XFTTriggerMonitor::event *** Run = 222530 Event = 849 *** XFTTriggerMonitor::event *** Run = 222530 Event = 850 *** XFTTriggerMonitor::event *** Run = 222530 Event = 851 *** XFTTriggerMonitor::event *** Run = 222530 Event = 852 *** XFTTriggerMonitor::event *** Run = 222530 Event = 853 *** XFTTriggerMonitor::event *** Run = 222530 Event = 854 *** XFTTriggerMonitor::event *** Run = 222530 Event = 855 *** XFTTriggerMonitor::event *** Run = 222530 Event = 856 *** XFTTriggerMonitor::event *** Run = 222530 Event = 857 *** XFTTriggerMonitor::event *** Run = 222530 Event = 858 *** XFTTriggerMonitor::event *** Run = 222530 Event = 859 *** XFTTriggerMonitor::event *** Run = 222530 Event = 860 *** XFTTriggerMonitor::event *** Run = 222530 Event = 861 *** XFTTriggerMonitor::event *** Run = 222530 Event = 862 *** XFTTriggerMonitor::event *** Run = 222530 Event = 863 *** XFTTriggerMonitor::event *** Run = 222530 Event = 864 *** XFTTriggerMonitor::event *** Run = 222530 Event = 865 *** XFTTriggerMonitor::event *** Run = 222530 Event = 866 *** XFTTriggerMonitor::event *** Run = 222530 Event = 867 *** XFTTriggerMonitor::event *** Run = 222530 Event = 868 *** XFTTriggerMonitor::event *** Run = 222530 Event = 869 *** XFTTriggerMonitor::event *** Run = 222530 Event = 870 *** XFTTriggerMonitor::event *** Run = 222530 Event = 871 *** XFTTriggerMonitor::event *** Run = 222530 Event = 872 *** XFTTriggerMonitor::event *** Run = 222530 Event = 873 *** XFTTriggerMonitor::event *** Run = 222530 Event = 874 *** XFTTriggerMonitor::event *** Run = 222530 Event = 875 *** XFTTriggerMonitor::event *** Run = 222530 Event = 876 *** XFTTriggerMonitor::event *** Run = 222530 Event = 877 *** XFTTriggerMonitor::event *** Run = 222530 Event = 878 *** XFTTriggerMonitor::event *** Run = 222530 Event = 879 *** XFTTriggerMonitor::event *** Run = 222530 Event = 880 *** XFTTriggerMonitor::event *** Run = 222530 Event = 881 *** XFTTriggerMonitor::event *** Run = 222530 Event = 882 *** XFTTriggerMonitor::event *** Run = 222530 Event = 883 *** XFTTriggerMonitor::event *** Run = 222530 Event = 884 *** XFTTriggerMonitor::event *** Run = 222530 Event = 885 *** XFTTriggerMonitor::event *** Run = 222530 Event = 886 *** XFTTriggerMonitor::event *** Run = 222530 Event = 887 *** XFTTriggerMonitor::event *** Run = 222530 Event = 888 *** XFTTriggerMonitor::event *** Run = 222530 Event = 889 *** XFTTriggerMonitor::event *** Run = 222530 Event = 890 *** XFTTriggerMonitor::event *** Run = 222530 Event = 891 *** XFTTriggerMonitor::event *** Run = 222530 Event = 892 *** XFTTriggerMonitor::event *** Run = 222530 Event = 893 *** XFTTriggerMonitor::event *** Run = 222530 Event = 894 *** XFTTriggerMonitor::event *** Run = 222530 Event = 895 *** XFTTriggerMonitor::event *** Run = 222530 Event = 896 *** XFTTriggerMonitor::event *** Run = 222530 Event = 897 *** XFTTriggerMonitor::event *** Run = 222530 Event = 898 DHInput Begin processing 900th record. Run 222530, Trigger 899 *** XFTTriggerMonitor::event *** Run = 222530 Event = 899 *** XFTTriggerMonitor::event *** Run = 222530 Event = 900 *** XFTTriggerMonitor::event *** Run = 222530 Event = 901 *** XFTTriggerMonitor::event *** Run = 222530 Event = 902 *** XFTTriggerMonitor::event *** Run = 222530 Event = 903 *** XFTTriggerMonitor::event *** Run = 222530 Event = 904 *** XFTTriggerMonitor::event *** Run = 222530 Event = 905 *** XFTTriggerMonitor::event *** Run = 222530 Event = 906 *** XFTTriggerMonitor::event *** Run = 222530 Event = 907 *** XFTTriggerMonitor::event *** Run = 222530 Event = 908 *** XFTTriggerMonitor::event *** Run = 222530 Event = 909 *** XFTTriggerMonitor::event *** Run = 222530 Event = 910 *** XFTTriggerMonitor::event *** Run = 222530 Event = 911 *** XFTTriggerMonitor::event *** Run = 222530 Event = 912 *** XFTTriggerMonitor::event *** Run = 222530 Event = 913 *** XFTTriggerMonitor::event *** Run = 222530 Event = 914 *** XFTTriggerMonitor::event *** Run = 222530 Event = 915 *** XFTTriggerMonitor::event *** Run = 222530 Event = 916 *** XFTTriggerMonitor::event *** Run = 222530 Event = 917 *** XFTTriggerMonitor::event *** Run = 222530 Event = 918 *** XFTTriggerMonitor::event *** Run = 222530 Event = 919 *** XFTTriggerMonitor::event *** Run = 222530 Event = 920 *** XFTTriggerMonitor::event *** Run = 222530 Event = 921 *** XFTTriggerMonitor::event *** Run = 222530 Event = 922 *** XFTTriggerMonitor::event *** Run = 222530 Event = 923 *** XFTTriggerMonitor::event *** Run = 222530 Event = 924 *** XFTTriggerMonitor::event *** Run = 222530 Event = 925 *** XFTTriggerMonitor::event *** Run = 222530 Event = 926 *** XFTTriggerMonitor::event *** Run = 222530 Event = 927 *** XFTTriggerMonitor::event *** Run = 222530 Event = 928 *** XFTTriggerMonitor::event *** Run = 222530 Event = 929 *** XFTTriggerMonitor::event *** Run = 222530 Event = 930 *** XFTTriggerMonitor::event *** Run = 222530 Event = 931 *** XFTTriggerMonitor::event *** Run = 222530 Event = 932 *** XFTTriggerMonitor::event *** Run = 222530 Event = 933 *** XFTTriggerMonitor::event *** Run = 222530 Event = 934 *** XFTTriggerMonitor::event *** Run = 222530 Event = 935 *** XFTTriggerMonitor::event *** Run = 222530 Event = 936 *** XFTTriggerMonitor::event *** Run = 222530 Event = 937 *** XFTTriggerMonitor::event *** Run = 222530 Event = 938 *** XFTTriggerMonitor::event *** Run = 222530 Event = 939 *** XFTTriggerMonitor::event *** Run = 222530 Event = 940 *** XFTTriggerMonitor::event *** Run = 222530 Event = 941 *** XFTTriggerMonitor::event *** Run = 222530 Event = 942 *** XFTTriggerMonitor::event *** Run = 222530 Event = 943 *** XFTTriggerMonitor::event *** Run = 222530 Event = 944 *** XFTTriggerMonitor::event *** Run = 222530 Event = 945 *** XFTTriggerMonitor::event *** Run = 222530 Event = 946 *** XFTTriggerMonitor::event *** Run = 222530 Event = 947 *** XFTTriggerMonitor::event *** Run = 222530 Event = 948 *** XFTTriggerMonitor::event *** Run = 222530 Event = 949 *** XFTTriggerMonitor::event *** Run = 222530 Event = 950 *** XFTTriggerMonitor::event *** Run = 222530 Event = 951 *** XFTTriggerMonitor::event *** Run = 222530 Event = 952 *** XFTTriggerMonitor::event *** Run = 222530 Event = 953 *** XFTTriggerMonitor::event *** Run = 222530 Event = 954 *** XFTTriggerMonitor::event *** Run = 222530 Event = 955 *** XFTTriggerMonitor::event *** Run = 222530 Event = 956 *** XFTTriggerMonitor::event *** Run = 222530 Event = 957 *** XFTTriggerMonitor::event *** Run = 222530 Event = 958 *** XFTTriggerMonitor::event *** Run = 222530 Event = 959 *** XFTTriggerMonitor::event *** Run = 222530 Event = 960 *** XFTTriggerMonitor::event *** Run = 222530 Event = 961 *** XFTTriggerMonitor::event *** Run = 222530 Event = 962 *** XFTTriggerMonitor::event *** Run = 222530 Event = 963 *** XFTTriggerMonitor::event *** Run = 222530 Event = 964 *** XFTTriggerMonitor::event *** Run = 222530 Event = 965 *** XFTTriggerMonitor::event *** Run = 222530 Event = 966 *** XFTTriggerMonitor::event *** Run = 222530 Event = 967 *** XFTTriggerMonitor::event *** Run = 222530 Event = 968 *** XFTTriggerMonitor::event *** Run = 222530 Event = 969 *** XFTTriggerMonitor::event *** Run = 222530 Event = 970 *** XFTTriggerMonitor::event *** Run = 222530 Event = 971 *** XFTTriggerMonitor::event *** Run = 222530 Event = 972 *** XFTTriggerMonitor::event *** Run = 222530 Event = 973 *** XFTTriggerMonitor::event *** Run = 222530 Event = 974 *** XFTTriggerMonitor::event *** Run = 222530 Event = 975 *** XFTTriggerMonitor::event *** Run = 222530 Event = 976 *** XFTTriggerMonitor::event *** Run = 222530 Event = 977 *** XFTTriggerMonitor::event *** Run = 222530 Event = 978 *** XFTTriggerMonitor::event *** Run = 222530 Event = 979 *** XFTTriggerMonitor::event *** Run = 222530 Event = 980 *** XFTTriggerMonitor::event *** Run = 222530 Event = 981 *** XFTTriggerMonitor::event *** Run = 222530 Event = 982 *** XFTTriggerMonitor::event *** Run = 222530 Event = 983 *** XFTTriggerMonitor::event *** Run = 222530 Event = 984 *** XFTTriggerMonitor::event *** Run = 222530 Event = 985 *** XFTTriggerMonitor::event *** Run = 222530 Event = 986 *** XFTTriggerMonitor::event *** Run = 222530 Event = 987 *** XFTTriggerMonitor::event *** Run = 222530 Event = 988 *** XFTTriggerMonitor::event *** Run = 222530 Event = 989 *** XFTTriggerMonitor::event *** Run = 222530 Event = 990 *** XFTTriggerMonitor::event *** Run = 222530 Event = 991 *** XFTTriggerMonitor::event *** Run = 222530 Event = 992 *** XFTTriggerMonitor::event *** Run = 222530 Event = 993 *** XFTTriggerMonitor::event *** Run = 222530 Event = 994 *** XFTTriggerMonitor::event *** Run = 222530 Event = 995 *** XFTTriggerMonitor::event *** Run = 222530 Event = 996 *** XFTTriggerMonitor::event *** Run = 222530 Event = 997 *** XFTTriggerMonitor::event *** Run = 222530 Event = 998 DHInput Begin processing 1000th record. Run 222530, Trigger 999 *** XFTTriggerMonitor::event *** Run = 222530 Event = 999 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1000 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1001 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1002 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1003 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1004 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1005 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1006 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1007 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1008 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1009 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1010 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1011 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1012 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1013 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1014 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1015 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1016 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1017 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1018 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1019 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1020 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1021 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1022 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1023 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1024 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1025 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1026 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1027 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1028 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1029 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1030 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1031 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1032 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1033 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1034 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1035 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1036 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1037 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1038 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1039 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1040 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1041 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1042 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1043 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1044 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1045 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1046 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1047 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1048 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1049 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1050 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1051 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1052 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1053 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1054 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1055 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1056 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1057 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1058 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1059 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1060 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1061 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1062 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1063 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1064 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1065 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1066 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1067 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1068 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1069 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1070 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1071 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1072 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1073 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1074 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1075 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1076 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1077 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1078 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1079 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1080 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1081 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1082 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1083 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1084 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1085 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1086 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1087 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1088 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1089 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1090 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1091 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1092 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1093 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1094 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1095 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1096 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1097 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1098 DHInput Begin processing 1100th record. Run 222530, Trigger 1099 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1099 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1100 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1101 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1102 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1103 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1104 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1105 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1106 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1107 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1108 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1109 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1110 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1111 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1112 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1113 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1114 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1115 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1116 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1117 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1118 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1119 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1120 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1121 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1122 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1123 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1124 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1125 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1126 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1127 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1128 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1129 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1130 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1131 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1132 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1133 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1134 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1135 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1136 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1137 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1138 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1139 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1140 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1141 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1142 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1143 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1144 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1145 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1146 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1147 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1148 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1149 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1150 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1151 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1152 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1153 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1154 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1155 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1156 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1157 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1158 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1159 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1160 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1161 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1162 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1163 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1164 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1165 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1166 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1167 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1168 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1169 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1170 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1171 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1172 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1173 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1174 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1175 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1176 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1177 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1178 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1179 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1180 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1181 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1182 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1183 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1184 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1185 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1186 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1187 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1188 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1189 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1190 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1191 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1192 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1193 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1194 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1195 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1196 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1197 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1198 DHInput Begin processing 1200th record. Run 222530, Trigger 1199 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1199 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1200 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1201 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1202 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1203 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1204 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1205 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1206 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1207 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1208 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1209 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1210 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1211 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1212 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1213 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1214 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1215 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1216 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1217 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1218 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1219 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1220 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1221 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1222 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1223 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1224 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1225 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1226 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1227 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1228 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1229 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1230 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1231 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1232 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1233 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1234 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1235 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1236 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1237 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1238 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1239 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1240 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1241 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1242 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1243 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1244 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1245 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1246 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1247 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1248 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1249 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1250 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1251 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1252 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1253 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1254 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1255 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1256 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1257 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1258 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1259 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1260 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1261 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1262 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1263 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1264 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1265 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1266 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1267 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1268 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1269 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1270 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1271 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1272 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1273 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1274 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1275 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1276 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1277 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1278 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1279 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1280 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1281 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1282 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1283 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1284 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1285 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1286 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1287 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1288 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1289 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1290 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1291 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1292 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1293 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1294 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1295 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1296 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1297 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1298 DHInput Begin processing 1300th record. Run 222530, Trigger 1299 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1299 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1300 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1301 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1302 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1303 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1304 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1305 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1306 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1307 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1308 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1309 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1310 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1311 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1312 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1313 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1314 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1315 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1316 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1317 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1318 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1319 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1320 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1321 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1322 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1323 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1324 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1325 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1326 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1327 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1328 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1329 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1330 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1331 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1332 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1333 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1334 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1335 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1336 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1337 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1338 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1339 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1340 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1341 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1342 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1343 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1344 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1345 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1346 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1347 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1348 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1349 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1350 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1351 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1352 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1353 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1354 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1355 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1356 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1357 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1358 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1359 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1360 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1361 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1362 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1363 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1364 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1365 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1366 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1367 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1368 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1369 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1370 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1371 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1372 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1373 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1374 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1375 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1376 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1377 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1378 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1379 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1380 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1381 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1382 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1383 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1384 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1385 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1386 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1387 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1388 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1389 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1390 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1391 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1392 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1393 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1394 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1395 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1396 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1397 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1398 DHInput Begin processing 1400th record. Run 222530, Trigger 1399 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1399 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1400 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1401 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1402 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1403 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1404 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1405 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1406 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1407 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1408 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1409 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1410 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1411 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1412 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1413 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1414 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1415 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1416 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1417 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1418 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1419 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1420 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1421 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1422 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1423 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1424 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1425 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1426 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1427 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1428 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1429 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1430 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1431 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1432 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1433 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1434 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1435 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1436 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1437 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1438 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1439 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1440 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1441 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1442 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1443 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1444 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1445 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1446 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1447 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1448 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1449 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1450 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1451 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1452 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1453 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1454 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1455 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1456 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1457 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1458 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1459 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1460 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1461 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1462 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1463 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1464 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1465 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1466 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1467 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1468 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1469 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1470 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1471 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1472 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1473 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1474 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1475 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1476 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1477 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1478 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1479 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1480 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1481 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1482 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1483 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1484 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1485 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1486 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1487 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1488 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1489 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1490 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1491 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1492 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1493 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1494 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1495 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1496 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1497 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1498 DHInput Begin processing 1500th record. Run 222530, Trigger 1499 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1499 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1500 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1501 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1502 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1503 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1504 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1505 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1506 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1507 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1508 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1509 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1510 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1511 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1512 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1513 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1514 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1515 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1516 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1517 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1518 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1519 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1520 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1521 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1522 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1523 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1524 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1525 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1526 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1527 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1528 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1529 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1530 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1531 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1532 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1533 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1534 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1535 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1536 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1537 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1538 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1539 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1540 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1541 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1542 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1543 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1544 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1545 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1546 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1547 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1548 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1549 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1550 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1551 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1552 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1553 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1554 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1555 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1556 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1557 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1558 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1559 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1560 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1561 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1562 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1563 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1564 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1565 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1566 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1567 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1568 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1569 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1570 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1571 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1572 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1573 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1574 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1575 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1576 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1577 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1578 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1579 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1580 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1581 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1582 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1583 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1584 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1585 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1586 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1587 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1588 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1589 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1590 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1591 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1592 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1593 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1594 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1595 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1596 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1597 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1598 DHInput Begin processing 1600th record. Run 222530, Trigger 1599 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1599 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1600 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1601 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1602 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1603 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1604 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1605 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1606 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1607 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1608 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1609 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1610 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1611 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1612 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1613 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1614 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1615 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1616 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1617 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1618 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1619 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1620 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1621 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1622 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1623 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1624 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1625 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1626 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1627 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1628 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1629 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1630 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1631 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1632 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1633 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1634 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1635 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1636 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1637 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1638 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1639 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1640 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1641 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1642 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1643 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1644 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1645 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1646 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1647 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1648 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1649 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1650 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1651 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1652 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1653 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1654 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1655 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1656 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1657 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1658 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1659 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1660 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1661 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1662 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1663 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1664 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1665 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1666 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1667 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1668 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1669 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1670 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1671 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1672 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1673 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1674 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1675 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1676 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1677 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1678 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1679 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1680 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1681 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1682 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1683 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1684 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1685 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1686 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1687 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1688 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1689 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1690 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1691 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1692 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1693 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1694 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1695 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1696 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1697 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1698 DHInput Begin processing 1700th record. Run 222530, Trigger 1699 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1699 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1700 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1701 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1702 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1703 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1704 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1705 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1706 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1707 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1708 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1709 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1710 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1711 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1712 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1713 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1714 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1715 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1716 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1717 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1718 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1719 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1720 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1721 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1722 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1723 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1724 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1725 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1726 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1727 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1728 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1729 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1730 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1731 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1732 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1733 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1734 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1735 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1736 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1737 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1738 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1739 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1740 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1741 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1742 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1743 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1744 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1745 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1746 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1747 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1748 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1749 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1750 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1751 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1752 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1753 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1754 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1755 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1756 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1757 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1758 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1759 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1760 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1761 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1762 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1763 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1764 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1765 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1766 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1767 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1768 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1769 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1770 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1771 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1772 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1773 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1774 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1775 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1776 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1777 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1778 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1779 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1780 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1781 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1782 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1783 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1784 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1785 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1786 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1787 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1788 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1789 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1790 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1791 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1792 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1793 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1794 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1795 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1796 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1797 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1798 DHInput Begin processing 1800th record. Run 222530, Trigger 1799 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1799 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1800 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1801 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1802 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1803 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1804 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1805 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1806 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1807 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1808 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1809 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1810 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1811 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1812 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1813 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1814 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1815 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1816 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1817 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1818 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1819 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1820 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1821 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1822 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1823 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1824 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1825 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1826 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1827 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1828 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1829 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1830 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1831 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1832 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1833 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1834 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1835 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1836 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1837 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1838 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1839 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1840 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1841 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1842 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1843 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1844 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1845 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1846 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1847 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1848 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1849 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1850 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1851 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1852 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1853 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1854 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1855 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1856 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1857 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1858 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1859 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1860 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1861 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1862 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1863 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1864 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1865 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1866 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1867 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1868 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1869 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1870 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1871 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1872 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1873 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1874 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1875 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1876 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1877 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1878 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1879 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1880 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1881 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1882 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1883 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1884 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1885 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1886 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1887 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1888 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1889 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1890 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1891 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1892 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1893 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1894 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1895 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1896 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1897 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1898 DHInput Begin processing 1900th record. Run 222530, Trigger 1899 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1899 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1900 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1901 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1902 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1903 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1904 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1905 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1906 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1907 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1908 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1909 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1910 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1911 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1912 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1913 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1914 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1915 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1916 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1917 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1918 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1919 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1920 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1921 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1922 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1923 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1924 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1925 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1926 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1927 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1928 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1929 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1930 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1931 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1932 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1933 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1934 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1935 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1936 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1937 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1938 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1939 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1940 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1941 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1942 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1943 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1944 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1945 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1946 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1947 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1948 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1949 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1950 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1951 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1952 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1953 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1954 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1955 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1956 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1957 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1958 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1959 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1960 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1961 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1962 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1963 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1964 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1965 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1966 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1967 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1968 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1969 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1970 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1971 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1972 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1973 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1974 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1975 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1976 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1977 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1978 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1979 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1980 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1981 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1982 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1983 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1984 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1985 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1986 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1987 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1988 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1989 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1990 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1991 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1992 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1993 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1994 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1995 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1996 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1997 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1998 DHInput Begin processing 2000th record. Run 222530, Trigger 1999 *** XFTTriggerMonitor::event *** Run = 222530 Event = 1999 *** XFTTriggerMonitor::event *** Run = 222530 Event = 2000 CalTriggerEvent: PreFredThresholds Sumet = 0 , 0 CalTriggerEvent: PreFredThresholds Met = 0 , 0 ***** Closing Input File: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root after 2001 records read. ***** DHInputModule_2.cc: releasing file **** Listing of all available paths **** * = Enabled; ! = Active * Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * no on 2000 2000 EventDump no on 0 0 CalqModule no on 0 0 SmxqModule * no on 2000 2000 CotqModule * no on 2000 2000 SvxqModule * no on 2000 2000 CalorimetryModule * no on 2000 2000 XFTSim * no on 2000 2000 XTRPSim * no on 2000 2000 svtsim * no on 2000 2000 CalTriggerDataMaker * no on 2000 2000 MuonTriggerMaker * no on 2000 2000 TL1DMaker * no on 2000 2000 FredSim * yes off 2000 2000 SpikeFilter * no on 2000 2000 L2Sim no on 0 0 TrigSimModule * yes on 2000 2000 Prereq **** Execution Times for all Modules Run so Far **** During Begin Job: ================= Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: CalTriggerDataM 1 0.000000 0.000113 0.000000 CalibrationMana 1 0.030000 178.426654 0.000000 CalorimetryModu 1 0.000000 0.000054 0.000000 CotqModule 1 0.010000 0.007450 0.000000 DHInput 1 0.000000 0.000031 0.000000 DummyInput 1 0.000000 0.008593 0.000000 DummyOutput 1 0.010000 0.008156 0.000000 ErrorLoggerMana 1 0.000000 0.002500 0.000000 EventDump 1 0.000000 0.002505 0.000000 FileInput 1 0.010000 0.011639 0.000000 FileOutput 1 0.000000 0.000003 0.000000 FredSim 1 0.000000 0.000009 0.000000 GeometryManager 1 0.120000 0.316655 0.000000 L2Sim 1 0.000000 0.000003 0.000000 MuonTriggerMake 1 0.000000 0.000003 0.000000 OldDHInput 1 0.000000 0.009196 0.000000 OldDHOutput 1 0.000000 0.008140 0.000000 Prereq 1 0.000000 0.000056 0.000000 PuffModule 1 0.000000 0.000002 0.000000 SignalManager 1 0.000000 0.012942 0.000000 SpikeFilter 1 0.000000 0.000111 0.000000 SvxqModule 1 0.000000 0.002311 0.000000 TL1DMaker 1 0.010000 0.005898 0.000000 XFTSim 1 0.000000 0.000004 0.000000 XTRPSim 1 0.000000 0.000002 0.000000 XXXDiskFileInpu 1 0.000000 0.001914 0.000000 YbosDiskFileInp 1 0.010000 0.001703 0.000000 svtsim 1 0.140000 0.160602 0.000000 During Begin Run: ================= Module name: Calls: Mean cpu time: Mean clk time: Cpu StdDev: CalTriggerDataM 1 0.190000 1.171573 0.000000 CalibrationMana 1 0.000000 92.084285 0.000000 CalorimetryModu 1 0.020000 0.123217 0.000000 CotqModule 1 0.000000 0.000001 0.000000 DHInput 1 0.000000 0.000081 0.000000 DummyInput 1 0.000000 0.000002 0.000000 DummyOutput 1 0.000000 0.000002 0.000000 ErrorLoggerMana 1 0.000000 0.000009 0.000000 EventDump 1 0.000000 0.000002 0.000000 FileInput 1 0.000000 0.000005 0.000000 FileOutput 1 0.000000 0.000010 0.000000 FredSim 1 0.060000 0.886461 0.000000 GeometryManager 1 0.090000 0.103910 0.000000 L2Sim 1 0.000000 0.357000 0.000000 MuonTriggerMake 1 0.000000 0.000002 0.000000 OldDHInput 1 0.000000 0.000003 0.000000 OldDHOutput 1 0.000000 0.000002 0.000000 Prereq 1 0.010000 0.213858 0.000000 PuffModule 1 0.000000 0.000001 0.000000 SignalManager 1 0.000000 0.000002 0.000000 SpikeFilter 1 0.000000 0.000002 0.000000 SvxqModule 1 0.000000 0.000001 0.000000 TL1DMaker 1 0.000000 0.000006 0.000000 XFTSim 1 0.900000 0.993805 0.000000 XTRPSim 1 2.250000 2.269718 0.000000 XXXDiskFileInpu 1 0.000000 0.000003 0.000000 YbosDiskFileInp 1 0.000000 0.000003 0.000000 svtsim 1 11.530000 157.043256 0.000000 During End Job: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During End Run: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During Event Processing: ======================== Module name: # Calls: Mean cpu time: Mean clk time: Total Cpu: ----------------------------------------------------------------------------------- CalTriggerDataMaker 2000 0.002825+/-0.000101 0.002794+/-0.000011 5.650 CalibrationManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 CalorimetryModule 2000 0.006440+/-0.000107 0.006492+/-0.000024 12.880 CotqModule 2000 0.003025+/-0.000103 0.003055+/-0.000020 6.050 DHInput 4004 0.002925+/-0.000077 0.003842+/-0.000141 11.710 ErrorLoggerManager 2000 0.000010+/-0.000007 0.000002+/-0.000000 0.020 EventDump 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 FileOutput 4002 0.011754+/-0.000221 0.012164+/-0.000263 47.040 FredSim 2000 0.000695+/-0.000057 0.000758+/-0.000045 1.390 GeometryManager 2000 0.000005+/-0.000005 0.000002+/-0.000000 0.010 L2Sim 2000 0.000420+/-0.000045 0.000433+/-0.000038 0.840 MuonTriggerMaker 2000 0.000580+/-0.000052 0.000522+/-0.000013 1.160 Prereq 2000 0.000060+/-0.000017 0.000072+/-0.000000 0.120 PuffModule 2000 0.000040+/-0.000014 0.000034+/-0.000000 0.080 SignalManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 SpikeFilter 2000 0.000060+/-0.000017 0.000071+/-0.000000 0.120 SvxqModule 2000 0.004235+/-0.000111 0.004204+/-0.000018 8.470 TL1DMaker 2000 0.000045+/-0.000015 0.000045+/-0.000002 0.090 XFTSim 2000 0.080925+/-0.000432 0.081370+/-0.000430 161.850 XTRPSim 2000 0.000320+/-0.000039 0.000299+/-0.000006 0.640 svtsim 2000 0.029710+/-0.000151 0.030222+/-0.000130 59.420 ----------------------------------------------------------------------------------- Mean Cpu total = 0.144074; Mean Clock total = 0.146388 Sum total Cpu = 288.147397; Sum total Clock = 292.775298 *** CotqModule Summary: In 0 Out 0 *** SvxqModule Summary: In 0 Out 0 CalTrigger ending ! FredSim end Job Prereq: L1 trigger bits, names and events passing: 0 L1_EM8_&_CMU1.5_PT1.5_v-7 0 1 L1_JET5_PS50_v-1 0 2 L1_CMU1.5_PT1.5_&_CMX1.5_PT2_CSX_v-3 4 3 L1_TWO_GAP_&_JET5_PS100_v-1 0 4 L1_EM8_&_CEM4_PT4_v-2 0 5 L1_CEM4_PT4_&_TRK2_DPHI100_LUMI_140_v-1 0 6 L1_CEM4_PT4_&_CMX1.5_PT2_CSX_v-3 0 7 L1_CEM4_PT4_&_CMU1.5_PT1.5_v-1 0 8 L1_TWO_GAP_&_CMU1.5_PT1.5_v-1 0 9 L1_CEM4_PT4_PS250_v-1 0 10 L1_TWO_TRK2_DPHI90_&_CMU1.5_PT1.5_LUMI_100_v-1 10 11 L1_TWO_TRK2_DPHI90_&_CMU1.5_PT1.5_NCLC64_v-1 0 12 L1_EM8_&_CMX1.5_PT2_CSX_v-8 0 13 L1_TWO_TRK2_DPHI90_&_CMX1.5_PT2_LUMI_100_v-1 11 14 L1_TWO_TRK2_DPHI90_&_CMX1.5_PT2_NCLC64_v-1 0 15 L1_EM8_PS250_v-2 0 18 L1_TWO_TRK2_&_TWO_CJET5_v-4 0 19 L1_TWO_TRK6_DPHI30_&_TWO_CJET5_v-3 0 20 L1_JET10_&_SUMET90_v-5 0 21 L1_TWO_TRK2_PS20K_v-1 303 22 L1_TRK5.5_TRK2.5_&_CJET5_LUMI_150_v-1 0 23 L1_MB_XING_PS1M_v-2 2000 25 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_NCLC64_LUMI_130_v-1 0 27 L1_TWO_TRK2_OPPQ_DPHI135_SUMPT5.5_LUMI_60_v-2 303 28 L1_TWO_TRK2_DPHI90_LUMI_35_v-1 303 29 L1_CEM8_PT8_v-5 0 30 L1_CMUP6_PT4_v-2 0 31 L1_CMX6_PT8_CSX_v-2 0 32 L1_MET25_v-6 2000 33 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_PS2_LUMI_70_v-1 303 34 L1_JET20_v-1 0 35 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_PS250_v-1 303 36 L1_EM12_v-2 0 37 L1_TWO_TRK2.5_OPPQ_DPHI120_MT7_SUMPT6.5_NCLC64_PS50_v-1 0 38 L1_COT_SPIKE_v-1 0 39 L1_JET10_PS8_v-1 0 40 L1_TAU0_TRK10_LUMI_0_40_v-1 0 41 L1_TEN_TRK2_PS250_v-1 303 42 L1_TAU10_PT10_v-1 0 43 L1_TWO_TRK2_DPHI90_PS2_LUMI_50_v-1 303 44 L1_TEST_CEM8_PT8_3D_v-1 0 45 L1_TEST_MUON_PHI_GAP_PT15_v-1 32 46 L1_TOF20_PT0_v-1 1809 47 L1_TWO_CEM4_PT4_v-2 0 48 L1_BMU10_BSUR_TSUO_&_CLC_v-1 0 49 L1_TWO_CMU1.5_PT1.5_v-4 0 50 L1_TWO_EM8_v-2 0 51 L1_TWO_TRK10_DPHI20_LUMI_0_60_v-1 303 52 L1_TWO_GAP_&_EM2_v-2 0 53 L1_MB_CLC_PS100K_v-1 0 56 L1_MET15_&_JET5_&_TWO_TRK2_v-7 0 57 L1_EM8_&_MET15_v-10 0 60 L1_TWO_TRK2_OPPQ_DPHI135_SUMPT5.5_UPS_v-1 9 L1 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 4 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 1 0 0 1 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 10 0 0 1 11 0 0 0 12 0 0 13 11 Bit # 14 15 18 19 20 21 22 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 1 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 10 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 11 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 18 0 0 0 0 0 19 0 0 0 0 20 0 0 0 21 303 0 22 0 Bit # 23 25 27 28 29 30 31 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 0 1 1 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 0 10 10 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 0 11 11 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 0 303 303 0 0 0 22 0 0 0 0 0 0 0 23 2000 0 303 303 0 0 0 25 0 0 0 0 0 0 27 303 303 0 0 0 28 303 0 0 0 29 0 0 0 30 0 0 31 0 Bit # 32 33 34 35 36 37 38 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 1 0 1 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 10 0 10 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 11 0 11 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 303 0 303 0 0 0 22 0 0 0 0 0 0 0 23 2000 303 0 303 0 0 0 25 0 0 0 0 0 0 0 27 303 303 0 303 0 0 0 28 303 303 0 303 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 2000 303 0 303 0 0 0 33 303 0 303 0 0 0 34 0 0 0 0 0 35 303 0 0 0 36 0 0 0 37 0 0 38 0 Bit # 39 40 41 42 43 44 45 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 1 0 1 0 4 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 10 0 10 0 10 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 11 0 11 0 1 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 303 0 303 0 12 22 0 0 0 0 0 0 0 23 0 0 303 0 303 0 32 25 0 0 0 0 0 0 0 27 0 0 303 0 303 0 12 28 0 0 303 0 303 0 12 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 303 0 303 0 32 33 0 0 303 0 303 0 12 34 0 0 0 0 0 0 0 35 0 0 303 0 303 0 12 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 41 303 0 303 0 12 42 0 0 0 0 43 303 0 12 44 0 0 45 32 Bit # 46 47 48 49 50 51 52 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 4 0 0 0 0 1 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 10 0 0 0 0 10 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 11 0 0 0 0 11 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 303 0 0 0 0 303 0 22 0 0 0 0 0 0 0 23 1809 0 0 0 0 303 0 25 0 0 0 0 0 0 0 27 303 0 0 0 0 303 0 28 303 0 0 0 0 303 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 1809 0 0 0 0 303 0 33 303 0 0 0 0 303 0 34 0 0 0 0 0 0 0 35 303 0 0 0 0 303 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 303 0 0 0 0 303 0 42 0 0 0 0 0 0 0 43 303 0 0 0 0 303 0 44 0 0 0 0 0 0 0 45 32 0 0 0 0 12 0 46 1809 0 0 0 0 303 0 47 0 0 0 0 0 0 48 0 0 0 0 0 49 0 0 0 0 50 0 0 0 51 303 0 52 0 Bit # 53 56 57 60 0 0 0 0 0 1 0 0 0 0 2 0 0 0 1 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 8 0 0 0 0 9 0 0 0 0 10 0 0 0 1 11 0 0 0 0 12 0 0 0 0 13 0 0 0 9 14 0 0 0 0 15 0 0 0 0 18 0 0 0 0 19 0 0 0 0 20 0 0 0 0 21 0 0 0 9 22 0 0 0 0 23 0 0 0 9 25 0 0 0 0 27 0 0 0 9 28 0 0 0 9 29 0 0 0 0 30 0 0 0 0 31 0 0 0 0 32 0 0 0 9 33 0 0 0 9 34 0 0 0 0 35 0 0 0 9 36 0 0 0 0 37 0 0 0 0 38 0 0 0 0 39 0 0 0 0 40 0 0 0 0 41 0 0 0 9 42 0 0 0 0 43 0 0 0 9 44 0 0 0 0 45 0 0 0 1 46 0 0 0 9 47 0 0 0 0 48 0 0 0 0 49 0 0 0 0 50 0 0 0 0 51 0 0 0 9 52 0 0 0 0 53 0 0 0 0 56 0 0 0 57 0 0 60 9 Prereq: L2 trigger bits, names and events passing: 0 L2_AUTO_L1_COT_SPIKE_v-1 0 1 L2_AUTO_L1_MB_XING_v-2 0 2 L2_AUTO_L1_TOF20_PT0_v-1 0 3 L2_AUTO_L1_TWO_GAP_&_CMU1.5_PT1.5_v-1 0 4 L2_AUTO_L1_TWO_GAP_&_JET5_v-2 0 5 L2_BJET15_D120_DPS_v-2 0 6 L2_BJET15_D120_JET10_ETA1.8_v-1 0 7 L2_B_CHARM_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 8 L2_B_CHARM_HIGHPT_L1_CLCM_PS50_v-1 0 9 L2_B_CHARM_HIGHPT_L1_LUMI_70_v-1 0 10 L2_B_CHARM_HIGHPT_L1_PS250_v-1 0 11 L2_B_CHARM_L1_SCENA_LUMI_60_v-1 0 12 L2_B_CHARM_L1_SCENA_UPS_v-1 0 13 L2_B_CHARM_LOWPT_CMU_DPS_L1_CLCM_v-1 0 14 L2_B_CHARM_LOWPT_CMU_L1_LUMI_100_v-1 0 15 L2_B_CHARM_LOWPT_CMX_DPS_L1_CLCM_v-1 0 16 L2_B_CHARM_LOWPT_CMX_L1_LUMI_100_v-1 0 17 L2_B_CHARM_LOWPT_L1_SCENLOW_v-1 0 18 L2_B_CHARM_LOWPT_L1_SCENLOW_PS2_v-1 0 19 L2_B_CHARM_PHI_L1_SCENLOW_v-1 0 20 L2_B_CHARM_PHI_L1_SCENLOW_PS2_v-1 0 21 L2_B_PIPI_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 22 L2_B_PIPI_HIGHPT_L1_CLCM_PS50_v-1 0 23 L2_B_PIPI_HIGHPT_L1_LUMI_70_v-1 0 24 L2_B_PIPI_HIGHPT_L1_PS250_v-1 0 25 L2_B_PIPI_L1_SCENA_LUMI_60_v-1 0 26 L2_B_PIPI_L1_SCENA_UPS_v-1 0 27 L2_CEM12_ISO_&_SUMET20_&_TWO_JET3_ETA1.8_v-4 0 28 L2_CEM12_ISO_&_TRK2_D120_v-3 0 29 L2_CEM12_ISO_DPS_v-6 0 30 L2_CEM16_PT8_v-4 0 31 L2_CEM20_L1_MET15_v-1 0 32 L2_CEM4_PT4_CES3_&_CMUP6_PT4_v-1 0 33 L2_CEM4_PT4_CES3_&_CMUP6_PT8_v-1 0 34 L2_CEM4_PT4_CES3_&_CMX1.5_PT4_CSX_v-1 0 35 L2_CEM4_PT4_CES3_&_PEM8_v-1 0 36 L2_CEM4_PT4_CES3_PS5_v-1 0 37 L2_CEM8_PT8_CES3_&_TRK8_v-1 0 38 L2_CEM8_PT8_CES3_DPS_v-3 0 39 L2_CJET10_JET10_L1_MET25_v-4 0 40 L2_CJET15_L1_BMU10_BSUR_TSUO_v-5 0 41 L2_CJET15_PS24_v-4 0 42 L2_CMU1.5_PT1.5_&_CMX1.5_PT2_DPHI120_OPPQ_DPS_v-2 0 43 L2_CMU1.5_PT2_&_CMX1.5_PT2_DPHI120_OPPQ_PS2_v-1 0 44 L2_CMUP1.5_PT3_&_CMU1.5_PT1.5_DPS_v-1 0 45 L2_CMUP1.5_PT3_&_CMX1.5_PT2_CSX_DPS_v-1 0 46 L2_CMUP6_PT15_v-1 0 47 L2_CMUP6_PT4_&_CMX1.5_PT4_CSX_v-1 0 48 L2_CMUP6_PT4_&_TRK2_D120_DPHI90_DPS_v-3 0 49 L2_CMUP6_PT4_SVT_&_TRK2_D120_DPHI90_v-2 0 50 L2_CMUP6_PT8_&_TRK5_v-1 0 51 L2_CMUP6_PT8_&_TRK8_v-1 0 52 L2_CMUP6_PT8_DPS_v-2 0 53 L2_CMX6_PT15_v-1 0 54 L2_CMX6_PT8_&_TRK5_v-1 0 55 L2_CMX6_PT8_&_TRK8_v-1 0 56 L2_DPS_L1_CMUP6_PT4_v-3 0 57 L2_EM10_ISO_PS6_v-1 0 58 L2_EM12_ISO_&_CMUP1.5_PT3_v-1 0 59 L2_EM12_ISO_&_CMX1.5_PT2_CSX_v-1 0 60 L2_EM21_ISO_PASS4_v-1 0 61 L2_EM40_v-2 0 62 L2_EM70_v-4 0 63 L2_ERROR_v-2 0 64 L2_FOUR_JET15_SUMET175_v-4 0 65 L2_INCLUSIVE_NOTRACK_1HZ_v-1 0 66 L2_INCLUSIVE_TRACK_1HZ_v-1 0 67 L2_JET15_PS25_v-4 0 68 L2_JET40_v-5 0 69 L2_JET60_v-2 0 70 L2_JET90_v-6 0 71 L2_JPSI_TWO_CEM2_v-3 0 72 L2_MET35_v-1 0 73 L2_PEM20_L1_EM8_&_MET15_v-2 0 74 L2_PEM20_PS25_v-1 0 75 L2_PEM8_&_CMUP6_PT4_v-3 0 76 L2_PEM8_&_CMX1.5_PT4_CSX_v-1 0 77 L2_PEM8_ISO_&_TAU4_PT5_DPS_v-1 0 78 L2_PS0_L1_TEN_TRK2_v-1 0 79 L2_PS1000_L1_JET5_v-1 0 80 L2_PS100_L1_CEM8_PT8_v-2 0 81 L2_PS100_L1_CEM8_PT8_ROXFT_v-1 0 82 L2_PS100_L1_EM8_&_MET15_v-1 0 83 L2_PS10_L1_EM8_v-1 0 84 L2_PS125_L1_JET10_v-1 0 85 L2_PS200_L1_CMU1.5_PT1.5_&_CMX1.5_PT2_CSX_v-1 0 86 L2_PS200_L1_MET25_v-1 0 87 L2_PS200_L1_TWO_CMU1.5_PT1.5_v-1 0 88 L2_PS20K_L1_CLCM_LUMI_130_v-1 0 89 L2_PS20K_L1_SCENC_PS2_LUMI_70_v-1 0 90 L2_PS2500_L1_CEM4_PT4_&_TRK2_DPHI100_v-1 0 91 L2_PS250_L1_CMUP6_PT4_v-1 0 92 L2_PS40_TRK2_D120_L1_CMUP6_PT4_v-1 0 93 L2_PS4K_L1_MET15_&_JET5_&_TWO_TRK2_v-1 0 94 L2_PS4K_L1_SCENC_PS250_v-1 0 95 L2_PS50_L1_CMX6_PT8_CSX_v-1 0 96 L2_PS50_L1_TWO_TRK2_v-1 0 97 L2_PS5_L1_CEM4_PT4_v-1 0 98 L2_RL3HZ_L1_MB_CLC_v-1 0 99 L2_TAU10_PT10_&_MET20_v-7 0 100 L2_TAU4_PT5_&_L1_BMU10_BSUR_TSUO_v-1 0 101 L2_TAU4_PT5_CEM8_PT8_CES3_v-1 0 102 L2_TEST_CEM16_PT8_3D_v-2 0 103 L2_TEST_CEM16_PT8_3D_L13D_v-2 0 104 L2_TEST_CEM16_PT8_L13D_v-2 0 105 L2_TEST_CEM4_PT4_CES3_&_CEM8_PT8_CES3_v-1 0 106 L2_TEST_CEM4_PT4_CES3_&_CMX6_PT8_CSX_v-1 0 107 L2_TEST_CEM8_PT8_CES3_&_CMUP6_PT4_v-3 0 108 L2_TEST_CEM8_PT8_CES3_&_CMX1.5_PT4_CSX_v-1 0 109 L2_TEST_CMP3_PT15_v-1 0 110 L2_TEST_CMU1.5_PT1.7_&_CMU1.5_PT2.5_1.7MT4.5_v-1 0 111 L2_TEST_CMUP6_PT4_&_CMUP6_PT8_v-1 0 112 L2_TEST_PEM20_L1_EM8_&_MET15_v-1 0 113 L2_TEST_PS1K_L1_JET10_v-1 0 114 L2_THREE_EM10_v-2 0 115 L2_TRK15_TRKISO30_&_TRK15_D0_v-1 0 116 L2_TRK2_D120_&_CEM4_PT4_CES3_2DPHI90_DPS_v-4 0 117 L2_TRK2_D120_&_CEM4_PT4_SVT_CES3_2DPHI90_v-2 0 118 L2_TRK2_D120_PS4_L1_CEM4_PT4_v-2 0 119 L2_TRK8_PS100_L1_CMUP6_PT4_v-1 0 120 L2_TWO_CEM4_PT4_CES3_v-1 0 121 L2_TWO_CMU1.5_PT1.5_DPHI120_OPPQ_DPS_v-2 0 122 L2_TWO_CMU1.5_PT2_DPHI120_OPPQ_PS2_v-1 0 123 L2_TWO_CMUP6_PT4_v-1 0 124 L2_TWO_EM10_ISO_v-2 0 125 L2_TWO_EM16_v-2 0 126 L2_TWO_EM2_v-1 0 127 L2_TWO_JET15_ETA1.5_&_TWO_TRK2_D100_DPS_v-8 0 128 L2_TWO_PEM20_v-2 0 129 L2_TWO_TAU10_PT10_v-1 0 130 L2_TWO_TAU10_PT6_&_MET10_v-1 0 131 L2_TWO_TRK10_D0_DPHI20_L1_LUMI_60_v-1 0 132 L2_TWO_TRK2_D100_v-5 0 133 L2_TWO_TRK2_D100_&_BJET15_&_MET15_DPS_v-2 0 134 L2_TWO_TRK2_D120_&_THREE_JET10_SUMET90_DPS_v-3 0 135 L2_Z_BB_BJET_OS_v-1 0 136 L2_Z_BB_BJET_SS_v-1 0 L2 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 0 0 0 0 11 0 0 0 12 0 0 13 0 Bit # 14 15 16 17 18 19 20 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 16 0 0 0 0 0 17 0 0 0 0 18 0 0 0 19 0 0 20 0 Bit # 21 22 23 24 25 26 27 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 23 0 0 0 0 0 24 0 0 0 0 25 0 0 0 26 0 0 27 0 Bit # 28 29 30 31 32 33 34 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 30 0 0 0 0 0 31 0 0 0 0 32 0 0 0 33 0 0 34 0 Bit # 35 36 37 38 39 40 41 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 37 0 0 0 0 0 38 0 0 0 0 39 0 0 0 40 0 0 41 0 Bit # 42 43 44 45 46 47 48 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 44 0 0 0 0 0 45 0 0 0 0 46 0 0 0 47 0 0 48 0 Bit # 49 50 51 52 53 54 55 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 0 44 0 0 0 0 0 0 0 45 0 0 0 0 0 0 0 46 0 0 0 0 0 0 0 47 0 0 0 0 0 0 0 48 0 0 0 0 0 0 0 49 0 0 0 0 0 0 0 50 0 0 0 0 0 0 51 0 0 0 0 0 52 0 0 0 0 53 0 0 0 54 0 0 55 0 Bit # 56 57 58 59 60 61 62 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 0 44 0 0 0 0 0 0 0 45 0 0 0 0 0 0 0 46 0 0 0 0 0 0 0 47 0 0 0 0 0 0 0 48 0 0 0 0 0 0 0 49 0 0 0 0 0 0 0 50 0 0 0 0 0 0 0 51 0 0 0 0 0 0 0 52 0 0 0 0 0 0 0 53 0 0 0 0 0 0 0 54 0 0 0 0 0 0 0 55 0 0 0 0 0 0 0 56 0 0 0 0 0 0 0 57 0 0 0 0 0 0 58 0 0 0 0 0 59 0 0 0 0 60 0 0 0 61 0 0 62 0 Bit # 63 64 65 66 67 68 69 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 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0 0 0 0 7 0 0 0 0 8 0 0 0 0 9 0 0 0 0 10 0 0 0 0 11 0 0 0 0 12 0 0 0 0 13 0 0 0 0 14 0 0 0 0 15 0 0 0 0 16 0 0 0 0 17 0 0 0 0 18 0 0 0 0 19 0 0 0 0 20 0 0 0 0 21 0 0 0 0 22 0 0 0 0 23 0 0 0 0 24 0 0 0 0 25 0 0 0 0 26 0 0 0 0 27 0 0 0 0 28 0 0 0 0 29 0 0 0 0 30 0 0 0 0 31 0 0 0 0 32 0 0 0 0 33 0 0 0 0 34 0 0 0 0 35 0 0 0 0 36 0 0 0 0 37 0 0 0 0 38 0 0 0 0 39 0 0 0 0 40 0 0 0 0 41 0 0 0 0 42 0 0 0 0 43 0 0 0 0 44 0 0 0 0 45 0 0 0 0 46 0 0 0 0 47 0 0 0 0 48 0 0 0 0 49 0 0 0 0 50 0 0 0 0 51 0 0 0 0 52 0 0 0 0 53 0 0 0 0 54 0 0 0 0 55 0 0 0 0 56 0 0 0 0 57 0 0 0 0 58 0 0 0 0 59 0 0 0 0 60 0 0 0 0 61 0 0 0 0 62 0 0 0 0 63 0 0 0 0 64 0 0 0 0 65 0 0 0 0 66 0 0 0 0 67 0 0 0 0 68 0 0 0 0 69 0 0 0 0 70 0 0 0 0 71 0 0 0 0 72 0 0 0 0 73 0 0 0 0 74 0 0 0 0 75 0 0 0 0 76 0 0 0 0 77 0 0 0 0 78 0 0 0 0 79 0 0 0 0 80 0 0 0 0 81 0 0 0 0 82 0 0 0 0 83 0 0 0 0 84 0 0 0 0 85 0 0 0 0 86 0 0 0 0 87 0 0 0 0 88 0 0 0 0 89 0 0 0 0 90 0 0 0 0 91 0 0 0 0 92 0 0 0 0 93 0 0 0 0 94 0 0 0 0 95 0 0 0 0 96 0 0 0 0 97 0 0 0 0 98 0 0 0 0 99 0 0 0 0 100 0 0 0 0 101 0 0 0 0 102 0 0 0 0 103 0 0 0 0 104 0 0 0 0 105 0 0 0 0 106 0 0 0 0 107 0 0 0 0 108 0 0 0 0 109 0 0 0 0 110 0 0 0 0 111 0 0 0 0 112 0 0 0 0 113 0 0 0 0 114 0 0 0 0 115 0 0 0 0 116 0 0 0 0 117 0 0 0 0 118 0 0 0 0 119 0 0 0 0 120 0 0 0 0 121 0 0 0 0 122 0 0 0 0 123 0 0 0 0 124 0 0 0 0 125 0 0 0 0 126 0 0 0 0 127 0 0 0 0 128 0 0 0 0 129 0 0 0 0 130 0 0 0 0 131 0 0 0 0 132 0 0 0 0 133 0 0 0 0 134 0 0 0 135 0 0 136 0 Prereq: L3 trigger bits, names and events passing: 0 AAAAA_ALL_RECO_5.1_NOCOMP_v-1 0 1 BBBAR_CMUP3_CMU1.5_DPS_v-1 0 2 BBBAR_CMUP3_CMX2_DPS_v-1 0 3 BBBAR_TWO_CMUP3_DPS_v-1 0 4 B_CHARM_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 5 B_CHARM_HIGHPT_L1_CLCM_PS50_v-1 0 6 B_CHARM_HIGHPT_L1_PS250_v-1 0 7 B_CHARM_HIGHPT_L1_PS2_LUMI_70_v-2 0 8 B_CHARM_L1_SCENA_LUMI_60_v-1 0 9 B_CHARM_L1_SCENA_UPS_v-1 0 10 B_CHARM_LOWPT_CMU_DPS_L1_CLCM_v-1 0 11 B_CHARM_LOWPT_CMU_L1_LUMI100_v-1 0 12 B_CHARM_LOWPT_CMX_DPS_L1_CLCM_v-1 0 13 B_CHARM_LOWPT_CMX_L1_LUMI100_v-1 0 14 B_CHARM_LOWPT_L1_SCENLOW_LUMI_35_v-1 0 15 B_CHARM_LOWPT_L1_SCENLOW_PS2_LUMI_50_v-1 0 16 B_CHARM_PHI_L1_SCENLOW_LUMI_35_v-1 0 17 B_CHARM_PHI_L1_SCENLOW_PS2_LUMI_50_v-1 0 18 B_D0_L1_PS250_v-1 0 19 B_D0_L1_PS2_LUMI_70_v-2 0 20 B_HAD_L3TAG_L1_SCENC_CLCM_LUMI_130_v-1 0 21 B_HAD_L3TAG_L1_SCENC_PS250_v-1 0 22 B_HAD_L3TAG_L1_SCENC_PS2_LUMI_70_v-2 0 23 B_HAD_L3TAG_L1_TWO_TRK2_v-10 0 24 B_HAD_L3TAG_L2_TWO_TRK2_D100_v-11 0 25 B_PIPI_HIGHPT_DPS_L1_CLCM_LUMI_130_v-1 0 26 B_PIPI_HIGHPT_L1_CLCM_PS50_v-1 0 27 B_PIPI_HIGHPT_L1_PS250_v-1 0 28 B_PIPI_HIGHPT_L1_PS2_LUMI_70_v-2 0 29 B_PIPI_L1_SCENA_LUMI_60_v-1 0 30 B_PIPI_L1_SCENA_UPS_v-1 0 31 B_SEMI_CEM4_SVT_TRACK2_D120_L1_LUMI_140_v-1 0 32 B_SEMI_CEM4_TRACK2_D120_DPS_L1_LUMI_140_v-1 0 33 B_SEMI_CMUP4_SVT_TRACK2_D120_v-3 0 34 B_SEMI_CMUP4_TRACK2_D120_DPS_v-4 0 35 B_SEMI_L2_TRK2_D120_L1_CEM_4_PT4_v-4 0 36 B_SEMI_L3PS10_L2_TRK2_D120_L1_CMUP6_PT4_v-1 0 37 CEM4_CMUP4_v-9 0 38 CEM4_CMX4_v-11 0 39 CEM4_PEM8_v-8 0 40 CMUP4_PEM8_v-13 0 41 CMX4_PEM8_v-14 0 42 DIELECTRON_CENTRAL_2_4_NOL2_L1_LUMI_140_v-1 0 43 DIELECTRON_CENTRAL_4_v-7 0 44 DIFF_CHIC_CMU1.5_PT1.5_TRK_v-2 0 45 DIFF_DIPHOTON2_v-1 0 46 DIFF_GAP_GAP_ST5_v-6 0 47 DIMUON_CMUP4_CMX4_v-9 0 48 DIMUON_CMUPCMUP4_v-6 0 49 DIMUON_L2PS200_L1_CMU1.5_PT1.5_&_CMX1.5_PT2_v-1 0 50 DIMUON_L2PS200_L1_TWO_CMU1.5_PT1.5_v-1 0 51 DIPHOTON_12_v-14 0 52 DIPHOTON_18_v-13 0 53 DITAU_L2_PT10_v-1 0 54 DITAU_MET_v-1 0 55 ELECTRON70_L2_JET_v-8 0 56 ELECTRON_20_VOLUNTEER_v-2 0 57 ELECTRON_CENTRAL_16_v-2 0 58 ELECTRON_CENTRAL_18_v-9 0 59 ELECTRON_CENTRAL_18_LOOSE_L3PS50_v-2 0 60 ELECTRON_CENTRAL_18_NO_L2_v-10 0 61 ELECTRON_CENTRAL_4_v-13 0 62 ELECTRON_CENTRAL_4_NOL2_v-7 0 63 ELECTRON_CENTRAL_8_&_TRACK8_v-2 0 64 ELECTRON_CENTRAL_8_L2_DPS_v-5 0 65 ELECTRON_CENTRAL_8_NO_L2_v-9 0 66 ELECTRON_CENTRAL_PS2K_L1_CEM8_PT8_v-2 0 67 ELECTRON_CENTRAL_PS50_L1_CEM4_PT4_v-1 0 68 EXO_TWO_TRACK_L1_LUMI_60_v-1 0 69 EXPRESS_ELECTRON_CENTRAL_20_v-3 0 70 EXPRESS_MET_PEM_v-10 0 71 EXPRESS_MUON_CMUP22_L2_PT15_v-1 0 72 EXPRESS_MUON_CMX22_L2_PT15_v-1 0 73 EXPRESS_W_v-6 0 74 EXPRESS_W_NOTRACK_v-10 0 75 EXPRESS_Z_v-7 0 76 HIGGS_HIGH_PT_BJET_v-1 0 77 HIGGS_MULTI_JET_DPS_v-8 0 78 HIGH_PT_BJET_DPS_v-2 0 79 HIGH_PT_BJET_LOOSE_DPS_v-10 0 80 JET_100_v-9 0 81 JET_20_v-12 0 82 JET_20_CENTRAL_v-6 0 83 JET_20_NO_L2_v-11 0 84 JET_50_v-8 0 85 JET_70_v-9 0 86 JET_70_NO_L2_v-9 0 87 JET_CAL_SINGLETOWER_10_v-3 0 88 JET_CAL_SINGLETOWER_5_v-4 0 89 JET_CAL_TRK15_D0_L2ISO_v-3 0 90 JPSI_CEM4CEM2_L1_LUMI_140_v-1 0 91 JPSI_CMU1.5_CMX2_DPS_v-2 0 92 JPSI_CMU1.5_CMX2_NOL2_v-5 0 93 JPSI_CMU2_CMX2_PS2_v-1 0 94 JPSI_CMUCMU1.5_DPS_v-3 0 95 JPSI_CMUCMU1.5_NOL2_v-4 0 96 JPSI_CMUCMU2_PS2_v-1 0 97 JPSI_CMUP4_CMU_L2_DPS_v-4 0 98 JPSI_CMUP4_CMX_L2_DPS_v-4 0 99 JPSI_CMUPCMU_HIGHPT_DPS_v-2 0 100 JPSI_CMUPCMX_HIGHPT_DPS_v-2 0 101 MET35_&_CJET_&_JET_v-9 0 102 MET45_v-11 0 103 MET_BJET_DPS_v-14 0 104 MET_L2PS200_L1_MET25_v-1 0 105 MET_L2PS4K_L1_MET15_&_JET5_&_TWO_TRK2_v-1 0 106 MET_PEM_v-20 0 107 MET_PEM_L1_EM8_&_MET15_v-15 0 108 MINBIAS_1HZ_v-4 0 109 MINBIAS_3HZ_EXTRA_v-1 0 110 MONITOR_COT_SPIKE_v-1 0 111 MONITOR_DAQ_ERROR_v-1 0 112 MONITOR_L1_TEN_TRK2_PS250_v-1 0 113 MONITOR_L2_ERROR_v-2 0 114 MONITOR_L2_INCLUSIVE_NOTRACK_v-1 0 115 MONITOR_L2_INCLUSIVE_TRACK_v-1 0 116 MONITOR_L3TAG_PS200_v-1 0 117 MONOPOLE_v-2 0 118 MUON_CENTRAL_JET20_L1_BMU10_BSUR_v-7 0 119 MUON_CMUP15_v-1 0 120 MUON_CMUP18_L2_PT15_v-1 0 121 MUON_CMUP18_VOLUNTEER_v-2 0 122 MUON_CMUP4_v-8 0 123 MUON_CMUP8_&_TRACK8_v-1 0 124 MUON_CMUP8_DPS_v-2 0 125 MUON_CMUP8_NOL2_v-2 0 126 MUON_CMX15_v-1 0 127 MUON_CMX18_L2_PT15_v-1 0 128 MUON_CMX8_v-2 0 129 MUON_CMX8_&_TRACK8_v-1 0 130 MUON_PS1000_L1_CMUP6_PT4_v-3 0 131 PHOTON_10_ISO_v-12 0 132 PHOTON_15_TIGHT_L2_DPS_v-13 0 133 PHOTON_25_ISO_PASS4_v-7 0 134 PHOTON_25_ISO_TRACK_5_ISO_v-11 0 135 PHOTON_B_JET_v-18 0 136 PHOTON_CMUP_v-13 0 137 PHOTON_CMX_v-15 0 138 PHOTON_DIJET_v-20 0 139 PHOTON_L1_EM8_v-10 0 140 PHOTON_L3PS100_L2_EM21_ISO_PASS4_v-7 0 141 PLUG_ELECTRON_20_v-13 0 142 PLUG_Z_v-10 0 143 RAREB_CMU2CMX_LXY_PS2_v-1 0 144 RAREB_CMU2CMX_SUMPT_PS2_v-1 0 145 RAREB_CMUCMU1.5_LXY_DPS_v-2 0 146 RAREB_CMUCMU1.5_SUMPT_DPS_v-2 0 147 RAREB_CMUCMU_LXY_PS2_v-1 0 148 RAREB_CMUCMU_SUMPT_PS2_v-1 0 149 RAREB_CMUCMX_LXY_DPS_v-2 0 150 RAREB_CMUCMX_SUMPT_DPS_v-2 0 151 RAREB_CMUPCMU_DPS_v-1 0 152 RAREB_CMUPCMX_DPS_v-1 0 153 SUPER_PHOTON70_L2_EM_v-7 0 154 SUPER_PHOTON70_L2_JET_v-10 0 155 TAU_BMUR8_v-1 0 156 TAU_CMUP8_v-1 0 157 TAU_CMUP8_TRACK5_ISO_v-9 0 158 TAU_CMX8_v-1 0 159 TAU_CMX8_TRACK5_ISO_v-8 0 160 TAU_ELECTRON8_v-2 0 161 TAU_ELECTRON8_TRACK5_ISO_v-10 0 162 TAU_MET_v-11 0 163 TAU_PEM8_L2TAU4_PT5_DPS_v-5 0 164 TEST_CEM4_CMUP8_v-2 0 165 TEST_CEM4_CMX8_v-1 0 166 TEST_CEM8_CMUP4_v-2 0 167 TEST_CEM8_CMX4_v-1 0 168 TEST_DIELECTRON_CEM4CEM8_v-1 0 169 TEST_DIMUON_CMUP4CMUP8_v-1 0 170 TEST_ELECTRON_CENTRAL_18_L13D_v-3 0 171 TEST_ELECTRON_CENTRAL_18_L13D_L23D_v-3 0 172 TEST_ELECTRON_CENTRAL_18_L23D_v-2 0 173 TEST_ELECTRON_CENTRAL_L13D_L2CEM16_L3PS10_v-3 0 174 TEST_ELECTRON_CENTRAL_L23D_L2CEM16_L3PS10_v-2 0 175 TEST_EVB_JET_70_NO_L2_v-2 0 176 TEST_JPSI_CMUCMU_L2_MT_v-2 0 177 TEST_MET_PEM_v-6 0 178 TEST_MUON_CMP18_PHIGAP_v-1 0 179 TEST_MUON_CMP18_PHIGAP_L3TAG_v-1 0 180 TOP_MULTI_JET_v-9 0 181 TRIPHOTON_v-14 0 182 ULTRA_PHOTON50_v-13 0 183 UPSILON_CMUP_CMU_DPS_v-1 0 184 UPSILON_CMUP_CMX_DPS_v-1 0 185 W_NOTRACK_v-20 0 186 W_NOTRACK_NO_L2_v-15 0 187 ZEROBIAS_NOL3FILT_L1_MB_XING_PS1M_v-3 0 188 Z_BB_L2_BJET_OS_L1_LUMI_150_v-1 0 189 Z_BB_L2_BJET_SS_L1_LUMI_150_v-1 0 190 Z_NOTRACK_v-10 0 191 _MULTIPLICITY_20_v-1 0 192 _Z_COMPRESSION_v-1 0 L3 correlation matrix: Bit # 0 1 2 3 4 5 6 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 2 0 0 0 0 0 3 0 0 0 0 4 0 0 0 5 0 0 6 0 Bit # 7 8 9 10 11 12 13 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 9 0 0 0 0 0 10 0 0 0 0 11 0 0 0 12 0 0 13 0 Bit # 14 15 16 17 18 19 20 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 16 0 0 0 0 0 17 0 0 0 0 18 0 0 0 19 0 0 20 0 Bit # 21 22 23 24 25 26 27 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 23 0 0 0 0 0 24 0 0 0 0 25 0 0 0 26 0 0 27 0 Bit # 28 29 30 31 32 33 34 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 30 0 0 0 0 0 31 0 0 0 0 32 0 0 0 33 0 0 34 0 Bit # 35 36 37 38 39 40 41 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 37 0 0 0 0 0 38 0 0 0 0 39 0 0 0 40 0 0 41 0 Bit # 42 43 44 45 46 47 48 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 0 0 0 0 14 0 0 0 0 0 0 0 15 0 0 0 0 0 0 0 16 0 0 0 0 0 0 0 17 0 0 0 0 0 0 0 18 0 0 0 0 0 0 0 19 0 0 0 0 0 0 0 20 0 0 0 0 0 0 0 21 0 0 0 0 0 0 0 22 0 0 0 0 0 0 0 23 0 0 0 0 0 0 0 24 0 0 0 0 0 0 0 25 0 0 0 0 0 0 0 26 0 0 0 0 0 0 0 27 0 0 0 0 0 0 0 28 0 0 0 0 0 0 0 29 0 0 0 0 0 0 0 30 0 0 0 0 0 0 0 31 0 0 0 0 0 0 0 32 0 0 0 0 0 0 0 33 0 0 0 0 0 0 0 34 0 0 0 0 0 0 0 35 0 0 0 0 0 0 0 36 0 0 0 0 0 0 0 37 0 0 0 0 0 0 0 38 0 0 0 0 0 0 0 39 0 0 0 0 0 0 0 40 0 0 0 0 0 0 0 41 0 0 0 0 0 0 0 42 0 0 0 0 0 0 0 43 0 0 0 0 0 0 44 0 0 0 0 0 45 0 0 0 0 46 0 0 0 47 0 0 48 0 Bit # 49 50 51 52 53 54 55 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 2 0 0 0 0 0 0 0 3 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 5 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 7 0 0 0 0 0 0 0 8 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 10 0 0 0 0 0 0 0 11 0 0 0 0 0 0 0 12 0 0 0 0 0 0 0 13 0 0 0 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0 0 126 0 0 0 0 127 0 0 0 0 128 0 0 0 0 129 0 0 0 0 130 0 0 0 0 131 0 0 0 0 132 0 0 0 0 133 0 0 0 0 134 0 0 0 0 135 0 0 0 0 136 0 0 0 0 137 0 0 0 0 138 0 0 0 0 139 0 0 0 0 140 0 0 0 0 141 0 0 0 0 142 0 0 0 0 143 0 0 0 0 144 0 0 0 0 145 0 0 0 0 146 0 0 0 0 147 0 0 0 0 148 0 0 0 0 149 0 0 0 0 150 0 0 0 0 151 0 0 0 0 152 0 0 0 0 153 0 0 0 0 154 0 0 0 0 155 0 0 0 0 156 0 0 0 0 157 0 0 0 0 158 0 0 0 0 159 0 0 0 0 160 0 0 0 0 161 0 0 0 0 162 0 0 0 0 163 0 0 0 0 164 0 0 0 0 165 0 0 0 0 166 0 0 0 0 167 0 0 0 0 168 0 0 0 0 169 0 0 0 0 170 0 0 0 0 171 0 0 0 0 172 0 0 0 0 173 0 0 0 0 174 0 0 0 0 175 0 0 0 0 176 0 0 0 0 177 0 0 0 0 178 0 0 0 0 179 0 0 0 0 180 0 0 0 0 181 0 0 0 0 182 0 0 0 0 183 0 0 0 0 184 0 0 0 0 185 0 0 0 0 186 0 0 0 0 187 0 0 0 0 188 0 0 0 0 189 0 0 0 0 190 0 0 0 191 0 0 192 0 Output run section ranges: (222530,1):(222530,2) Input run section ranges: (222530,1):(222530,2) ***** ***** Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root ***** after 2001 records, with a total size of 393121kBytes written. ***** 2000 of those records were phyics events, ***** whose average size is: 198kBytes/event ***** ********************************** RUN NUMBER = 222530 TRGSim SUMMARY AFTER 0 EVENTS ********************************** ********** DIRAC SUMMARY ********** ********** DIRAC BOUNCH COUNTER SUMMARY ********** ********** CRATESUM SUMMARY ********** ********** CRATESUM BOUNCH COUNTER SUMMARY ********** ********** CRATESUM/DIRAC BC SUMMARY ********** ********** HOT CABLES SUMMARY *********** ********** DCAS SUMMARY *********** L2SimModule destructor! XFTTriggerMonitor destructor Termination Summary Process TRGSim++ type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DBSQL_O .. DBEventLogger 941* 941 2 DEBUG .. DBEventLogger 2294* 2294 3 DBACC_G -! DBEventLogger 102* 102 4 DBACC_O -! DBEventLogger 941* 941 5 Bfield::setUniform -i GlobalLibraryLog 1* 1 6 DBCON_A -i DBEventLogger 187* 187 7 DBCON_J -i DBEventLogger 2* 2 8 DBCON_O -i DBEventLogger 278* 278 9 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 10 There are no more fi -i DHInput openNextFile 1* 1 11 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 2* 2 12 calor::CalibL1: -i GlobalLibraryLog AppFileBasedStre 1* 1 13 generateBeginFileFra -i DHInput openNextFile 1* 1 14 generateBeginRunSect -i DHInput nextEvent 1* 1 15 RCP put failure -w CalibrationManag 2* 2 16 RCP put failure -w SpikeFilter 1* 1 17 more_chances -w DBObjects::dbOTL 5* 5 18 svtsim: -w svtsim 2000* 2000 19 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 20 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 21 Error fetching TrgSi -e CalTriggerDataMa CalTriggerDataMa 1 1 22 Error fetching TrgSi -e XTRPSim XTRPSimModule::g 1 1 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DBSQL_O 222530/0 222530/0 222530/0 2 DEBUG 0/0 0/0 222530/0 3 DBACC_G 0/0 0/0 222530/0 4 DBACC_O 222530/0 222530/0 222530/0 5 Bfield::setUniform 0/0 6 DBCON_A 222530/0 222530/0 222530/0 7 DBCON_J 0/0 222530/2000 8 DBCON_O 0/0 0/0 222530/0 9 SiPassiveMaterial::c 0/0 0/0 0/0 10 There are no more fi 222530/2000 11 calor::Calib: 222530/0 222530/0 12 calor::CalibL1: 222530/0 13 generateBeginFileFra 0/0 14 generateBeginRunSect 222530/1 15 RCP put failure 0/0 0/0 16 RCP put failure 0/0 17 more_chances 222530/0 222530/0 222530/0 18 svtsim: 222530/1 222530/2 222530/2000 19 Error fetching TrgSi 222530/0 20 Error fetching TrgSi 222530/0 21 Error fetching TrgSi 222530/0 22 Error fetching TrgSi 222530/0 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 3235 3235 Success 1043 1043 Info 479 479 Warning 2008 2008 Error 4 4 [MCProd]: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/bin/Linux2_SL-GCC_3_4-maxopt/ProductionExe /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/Production/ProductionExe.tcl -i /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root -o /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root ....... loading libdiskcache_i.so v2_07_05 ....... Release version = 6.1.4mc ======================================================= Error Log established 13-Aug-2007 00:37:07 CDT ======================================================= CHKLOG: BFIELDM logical translation: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/dbt/bfieldmap.dbt Bfield::print: nominal magnetic field is: 14.116; field is NON-UNIFORM Using $Id: TimingCollMaker.cc,v 1.21 2005/07/13 01:37:42 maxi Exp $ instance TimingCollMaker **************************************** ********** CES CLUSTER****************** **************************************** Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule Using $Id: CesMatchingModule.cc,v 1.19 2005/05/12 00:01:13 aa Exp $ instance CesMatchingModule Using $Id: Pi0ReconstructionModule.cc,v 1.17 2005/09/16 19:17:08 aa Exp $ instance Pi0ReconstructionModule Using $Id: TauFinderModule.cc,v 1.23 2002/11/22 07:22:41 ratnikov Exp $ instance TauFinderModule <<<getenv>>> : Name= RAW_STREAM Default= b x= <<<getenv>>> : Name= NEVENTS Default= 0 x= 2000 <<<getenv>>> : Name= PASS Default= 0c x= 0c <<<getenv>>> : Name= PROD_on_MC Default= x= 1 <<<getenv>>> : Name= USING_PRODUCTIONEXE_TCL Default= 1 x= 1 <<<getenv>>> : Name= COT_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= SI_MATCHING Default= 0 x= 0 <<<getenv>>> : Name= TheFile Default= x= <<<getenv>>> : Name= TheFileList Default= x= <<<getenv>>> : Name= CALIB_USE_FRONTIER Default= 0 x= 1 <<<getenv>>> : Name= CALIB_PROC_NAME Default= PROD_PHYSICS_CDF x= PROD_PHYSICS_CDF <<<getenv>>> : Name= CALIB_PASS_NAME Default= 17 x= 17 <<<getenv>>> : Name= CALIB_PARM_SET_NAME Default= PASS17PROD x= PASS17PROD Running PhoenixElectrons::PhoenixElectrons(const char* const theName,const char* const theDescription) Current value of item(s) in the "CalibrationManager" module: Value of parmSetName for this module is PASS17PROD Value of verbose for this module is false Value of production for this module is true Value of IomapFile for this module is NONE Value of ProcessName for this module is PROD_PHYSICS_CDF Value of Version for this module is 9999999 Value of Database for this module is frontier Value of DataDB for this module is frontier Value of LoadAll for this module is false Value of Jobset for this module is -1 Value of ConnectionTimeout for this module is -1 Value of PassName for this module is 17 Value of Dest for this module is PROD Value of Mode for this module is PHYSICS Value of System for this module is CDF Value of PrintDBStats for this module is false Value of NotifySeverityLevel for this module is NONE Value of Debug for this module is false Value of UseKeyDB for this module is true Value of ExpertRemoveEntry for this module is %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 %ERLOG-w RCP put failure: unable to store RCP for GeometryManager write failed. GeometryManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone0.4 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone1.0 Using $Id: JetCluModule.cc,v 1.44 2003/06/26 21:25:41 beate Exp $ instance JetCluModule-cone0.7 **************************************** ********** CES CLUSTER****************** **************************************** Using $Id: TimingCollMaker.cc,v 1.21 2005/07/13 01:37:42 maxi Exp $ instance TimingCollMaker-RAW Current value of item(s) in the "TauFinderModule" module: Value of parmSetName for this module is IGNORE Value of verbose for this module is false Value of production for this module is false Current value of items on the "makeTauFromClusters" menu: Value of InUse for this module is true Value of CaloSeedEt for this module is 4 Value of CaloShoulderEt for this module is 1 Value of CaloNumberOfTowers for this module is 6 Value of CaloEta for this module is 1.3 Value of SeedTrackPt for this module is 4.5 Value of ShoulderTrackPt for this module is 1 Value of Pi0Et for this module is 0.5 Value of TrackIsolationNumberOfTracks for this module is 999 Value of TrackIsolation for this module is 999 Value of TrackMass for this module is 999 Value of VertexStrategy for this module is 1 Value of SeedToVertexDist for this module is 1e-06 Value of TrackToVertexDist for this module is 5 Value of CollectionName for this module is CdfTauCollection Value of Pi0CollectionName for this module is Pi0CandidateCollection Value of TrackAssociationAlgorithm for this module is 2 Current value of items on the "makeTauFromTracks" menu: Value of InUse for this module is false Value of CaloSeedEt for this module is 4 Value of CaloShoulderEt for this module is 1 Value of CaloNumberOfTowers for this module is 6 Value of Seed2ClusterCone for this module is 0.4 Value of SeedTrackPt for this module is 4.5 Value of SeedTrackEta for this module is 1 Value of ShoulderTrackPt for this module is 1 Value of Pi0Et for this module is 0.5 Value of TrackIsolationNumberOfTracks for this module is 0 Value of TrackIsolation for this module is 999 Value of TrackMass for this module is 1.8 Value of VertexStrategy for this module is 0 Value of SeedToVertexDist for this module is 1e-06 Value of TrackToVertexDist for this module is 5 Value of CollectionName for this module is CdfSeededTauCollection Value of Pi0CollectionName for this module is Pi0CandidateCollection Value of TrackAssociationAlgorithm for this module is 1 <<<getenv>>> : Name= SUEN Default= 0 x= 0 <<<getenv>>> : Name= ONE_TO_ONE Default= 0 x= 0 <<<getenv>>> : Name= OUTPUT_DATASET Default= xtst0b x= xtst0b <<<getenv>>> : Name= OUTPUT_FILE Default= undefined x= /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/sim.0001.10158.root <<<get_output_file>>>: output file = /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root Listing of current output destinations and their associated paths: stream: File: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root Paths: AllPath Production Objects Dropped: CT_HitSet:* CdfTrackColl:COT_Global_Tracking CdfTrackColl:COT_Global_Tracking_HL CdfTrackColl:COT_Global_Tracking_SL CdfTrackColl:GlobalSI_Tracking CdfTrackColl:IOTracks CdfTrackHits:COT Hits for CdfTrack ISLD_StorableBank:* PhysicsTowerData:* SIXD_StorableBank:* SiClusterSet:* StorableRun2SiStripSet ZVertexColl:ZVerCollCotStand Processes Dropped: (none) Objects Kept From Processes: (none) Objects Kept: CC2Q:* CC2Q_Storable:* CEMTowerCorrColl:* CHATowerCorrColl:* COTQ:* CP2Q:* CP2Q_Storable:* CalData:* CalorTdcTowerColl:* CdfEmClusterColl:* CdfEmObjectColl:* CdfEmObjectView:* CdfJetColl:* CdfMet:* CdfMuon:* CdfMuonColl:* CdfMuonView:* CdfTauCollection:* CdfTrack:* CdfTrackColl:* CdfTrackHits:* CdfTrackIdManager:* CdfTrackMatch:* CdfTrackView:* CesClusterColl:* CesMatchCollection:* ClcData:* CosmicRayInfo:* CprClusterColl:* DBUsedSetInfoList:* ErrorSummary:* FastZVertexColl:* GrowResultList:* ISLD_StorableBank:* L3SummaryObject:* LRIH_StorableBank:* Level3ModuleMap:* MPATowerCorrColl:* MuonStubColl:* MuonTHitColl:* MuonXHitColl:* MuonXZHitColl:* PEMTowerCorrColl:* PHATowerCorrColl:* PPRTowerCorrColl:* PadSqz::CALQ:* PadSqz::COTQ:* PadSqz::SMXQ:* PadSqz::SVXQ:* Pes2dClusterColl:* PesClusterColl:* Pi0CandidateCollection:* PlugStripColl:* ReleaseHistory:* SIXD_StorableBank:* SiClusterSet:* SiHitSet:* StorableRun2SiStripSet:* TofHitBarColl:* TofMatchesColl:* TofPulsesColl:* TofT0Coll:* TofTrackPulseColl:* TofTrackView:* TopSummary:* UniverseRegion:* Vertex:* VertexColl:* VertexFitCommand:* VertexFitResults:* WHATowerCorrColl:* WorldRegion:* ZVertexColl:* ======================================================= Error Log established 13-Aug-2007 00:37:08 CDT ======================================================= %ERLOG-w RCP put failure: unable to store RCP for CalibrationManager write failed. CalibrationManager 13-Aug-2007 00:37:08 CDT run = 0 event = 0 Processes Kept: (none) CdfRoDbFrontier::init(PassesByPassname:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassesByPassname:1. DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(PassCalibsByIndex:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER INFO: NO_CACHE request to PassCalibsByIndex:1. %ERLOG-w RCP put failure: unable to store RCP for GeometryManager write failed. GeometryManager 13-Aug-2007 00:40:01 CDT run = 0 event = 0 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) PcalDetectorElement::makeTop() **************************************** Parameters used in the strip collection **************************************** *** Seed Threshold (strip)*** 0.15 *** *** Seed Threshold (wire)*** 0.06 *** *** Strip Threshold *** 0.15 *** *** Wire Threshold *** 0.06 *** *** Printout *** 0 *** *** Using Q banks *** 0 *** *** Number of strips for unbiased clusters*** 11 *** *** Number of wires for unbiased clusters*** 11 *** *** Number of strips for track-based clusters*** 7 *** *** Number of wires for track-based clusters*** 7 *** *** Collection Strategy *** 2 *** *** Pt(track) Cut *** 1 *** *** Eta(track) Min *** -1.2 *** *** Eta(track) Max *** 1.2 *** **************************************** **************************************** Parameters used in the strip collection **************************************** *** Seed Threshold (strip) *** 0.15 *** *** Seed Threshold (wire) *** 0.06 *** *** Strip Threshold *** 0.15 *** *** Wire Threshold *** 0.06 *** *** Printout *** 0 *** *** Number of strips in unbiased collection *** 11 *** *** Number of wires in unbiased collection *** 11 *** *** Number of strips in track collection *** 7 *** *** Number of wires in track collection *** 7 *** *** Minimum Number of strips in unbiased collection *** 2 *** *** Minimum Number of wires in unbiased collection *** 2 *** *** Minimum Number of strips in track collection*** 1 *** *** Minimum Number of wires in track collection*** 1 *** *** Chi2 cut *** 100 *** *** Energy cut *** 0 *** **************************************** TofGeometricHitFinder(0xe8a5530) instantiated. - TOF geometry system of type [ALIGNED] found. ++++++++++++++++++++++++++++++++++++++++++++++++++ + TrackingKal is running on DETAILED geometry. + ++++++++++++++++++++++++++++++++++++++++++++++++++ KalConverter: KalDetector: got geometry information for 728 wafers (1456 codes) KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). KalOIStrategy around ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 3 nominate, pursue and accept timers. CdfMetModule::beginJob Starting PhoenixElectrons::beginJob(AbsEvent* aJob) Creating HepFileManager...OK Booking Histograms...OK Finishing PhoenixElectrons::beginJob(AbsEvent* aJob) **************************************** Parameters used in the strip collection **************************************** *** Seed Threshold (strip)*** 0.15 *** *** Seed Threshold (wire)*** 0.06 *** *** Strip Threshold *** 0.15 *** *** Wire Threshold *** 0.06 *** *** Printout *** 0 *** *** Using Q banks *** 0 *** *** Number of strips for unbiased clusters*** 5 *** *** Number of wires for unbiased clusters*** 5 *** *** Number of strips for track-based clusters*** 7 *** *** Number of wires for track-based clusters*** 7 *** *** Collection Strategy *** 0 *** *** Pt(track) Cut *** 1 *** *** Eta(track) Min *** -1.2 *** *** Eta(track) Max *** 1.2 *** **************************************** **************************************** Parameters used in the strip collection **************************************** *** Seed Threshold (strip) *** 0.15 *** *** Seed Threshold (wire) *** 0.06 *** *** Strip Threshold *** 0.15 *** *** Wire Threshold *** 0.06 *** *** Printout *** 0 *** *** Number of strips in unbiased collection *** 5 *** *** Number of wires in unbiased collection *** 5 *** *** Number of strips in track collection *** 7 *** *** Number of wires in track collection *** 7 *** *** Minimum Number of strips in unbiased collection *** 2 *** *** Minimum Number of wires in unbiased collection *** 2 *** *** Minimum Number of strips in track collection*** 1 *** *** Minimum Number of wires in track collection*** 1 *** *** Chi2 cut *** 100 *** *** Energy cut *** 0 *** **************************************** KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 2 nominate, pursue and accept timers. KalConverter::useSiliMap() WARNING: The KalDetector is already read. SiliMap usage flag unchanged. SiPatternRecModule: using SimpleSiliconIntegrator (default). ============================================= Initialization report from siPatternRecModule Pass all candidates is 0 Pt ranges are 0.2 < pt Bank writing flag is 1 ============================================= SiPatternRec: Creating 2 nominate, pursue and accept timers. DHInputModule_2.cc: releasing file ***** ***** Opened input file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root ***** ***** ***** Opened output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root on Mon Aug 13 00:40:04 2007 ***** CdfRoDbFrontier::init(CalibDB_Used_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Valid_Sets:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_Set_Run_Maps_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(CalibDB_MultiRunList_ByJobset:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SvxBeamPosition:1.8,495539) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CotBeamPosition:1.8,495541) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) SiAlignmentManager will use db default alignment CdfCalibDbFrontier(SiAlignFrame:1.1,483737) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignBarrel:1.1,483739) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignLadder:1.1,483741) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWafer:1.5,483743) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiAlignWarp:1.1,483745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) Alignment: on: 1 wafers on:1 Contents of SiAlignFrame : Run = 220050 Ver = 1 Stat = GOOD Size = 1 AlignFrame tag: -0.10920 0.13493 0.26900 0.0003101 0.0007654 0.0015700 Contents of SiAlignBarrel: Run = 220050 Ver = 1 Stat = GOOD Size = 8 AlignBarrel tag: 0.00103 -0.00082 -0.03430 -0.0001172 -0.0000972 -0.0004300 Contents of SiAlignLadder: Run = 220050 Ver = 1 Stat = GOOD Size = 352 AlignLadder tag: -0.00397 0.00073 0.00000 -0.0000359 -0.0000813 0.0027272 Contents of SiAlignWafer: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWafer tag: 0.00693 -0.00028 -0.00115 -0.0000742 0.0017680 -0.0004231 Contents of SiAlignWarp: Run = 220050 Ver = 1 Stat = GOOD Size = 1752 AlignWarp tag : 0.0001242 -0.0000593 0.0000291 CdfCalibDbFrontier(CALDigiToGeV3:1.2,440123) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CALL1Peds3:1.2,374985) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHASlewing:1.2,370551) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHASlewing:1.1,370561) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHASlewing:1.2,370557) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAEfficiency:1.2,370565) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAEfficiency:1.2,370573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAEfficiency:1.2,370569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PPRLinEResponse:1.1,494275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMOffLER:1.2,518357) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHAOffLER:1.2,518371) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHAOffLER:1.2,520575) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMOffLER:1.2,520585) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHAOffLER:1.2,520587) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CP2OffLER:1.2,420570) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CCROffLER:1.2,355896) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(OffSCL:1.1,120091) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMBadChannels:1.1,295718) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHABadChannels:1.1,295724) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHABadChannels:1.1,520573) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMBadChannels:1.1,295734) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHABadChannels:1.1,295730) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(MPAOffLumiCalib:1.2,519569) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) %ERLOG-w PlugStripMaker::setMonte: /home/cdfsoft/dist/packages/ShowerMax/V00-01-07/src/PlugStripMaker.cc : 373 Plug Showermax: not applying calibrations to MC; Using raw values. GlobalLibraryLogger AppFileBasedStream::configure() 13-Aug-2007 00:40:04 CDT run = 222530 event = 0 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFOfflineA:1.3,517887) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFPedLookup:1.1,493135) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TOFTacParm:1.1,493131) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) MostRecentSiCalibration:: ChipStatus DB set to frontier %MostRecent: creating a 100% full SiDBInfoSet with dummy SiDBInfos. This may take a while. %MostRecent: done with creating a full SiDBInfoSet. CdfCalibDbFrontier(SiChipPed:1.2,489475) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Pedestals are present for run 222530 Retrieved run=222529 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiStripDH:1.2,482699) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) >>>> Dead channels are present for run 222530 Retrieved run=221805 version=1 status=COMPLETE from the database. CdfCalibDbFrontier(SiChipOn:1.1,489745) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(SiStripMask:1.1,80436) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfMetModule::beginRun DEBUG ChipStatus::ChipStatus dbname = frontier CdfRoDbFrontier::init(SVX_Rundate_ViewByRunnumber:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfRoDbFrontier::init(SVX_ConfigurationsByRunnumber:1) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX CTVMFT First call in program XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX VtxsMax 6 TrksMax 50 ConsMax 4 DimsMax 189 ItrsMax 10 UDim: 3713 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMLinEResponse:1.4,314129) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CEMLinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=495059 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMLinEResponse:1.4,469429) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PEMLinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=622735 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHALinEResponse:1.4,469439) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(CHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=615763 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHALinEResponse:1.4,469955) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(WHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=520583 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHALinEResponse:1.4,469431) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(PHALinEResponse:1.4,-1(undefined)) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) FRONTIER: getCID()!!! FRONTIER: getCID() done, cid=622737 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcCemSlewing:1.3,518269) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLConnect(cdf_reader/xxxxx@cdfofread) CdfCalibDbFrontier(TdcPemSlewing:1.3,518273) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcChaSlewing:1.1,518275) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcWhaSlewing:1.1,518277) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPhaSlewing:1.1,518279) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcCemEfficiency:1.3,518281) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPemEfficiency:1.3,518283) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcChaEfficiency:1.1,518285) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcWhaEfficiency:1.1,518287) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) CdfCalibDbFrontier(TdcPhaEfficiency:1.1,518289) DBEventLogger::OTLConnect(fn:=cdfdbfrontier1.fnal.gov) %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:33 CDT run = 222530 event = 1 DBEventLogger::OTLrelease(fn:=cdfdbfrontier1.fnal.gov) --------------- HepPDT Version 1.00.01 --------------- %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:33 CDT run = 222530 event = 2 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:34 CDT run = 222530 event = 3 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:34 CDT run = 222530 event = 4 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:35 CDT run = 222530 event = 5 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:35 CDT run = 222530 event = 6 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:36 CDT run = 222530 event = 7 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:36 CDT run = 222530 event = 8 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:37 CDT run = 222530 event = 9 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:37 CDT run = 222530 event = 10 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:39 CDT run = 222530 event = 12 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:45:39 CDT run = 222530 event = 12 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:41 CDT run = 222530 event = 16 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:43 CDT run = 222530 event = 20 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:44 CDT run = 222530 event = 22 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:45:48 CDT run = 222530 event = 30 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:45:50 CDT run = 222530 event = 33 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:46:01 CDT run = 222530 event = 50 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:46:03 CDT run = 222530 event = 53 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:46:05 CDT run = 222530 event = 56 Warning: inversion of error matrix failed %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:46:24 CDT run = 222530 event = 90 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:46:28 CDT run = 222530 event = 96 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:46:28 CDT run = 222530 event = 98 DHInput Begin processing 100th record. Run 222530, Trigger 99 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:46:30 CDT run = 222530 event = 102 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:46:39 CDT run = 222530 event = 117 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:47:01 CDT run = 222530 event = 156 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:47:03 CDT run = 222530 event = 160 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:47:09 CDT run = 222530 event = 170 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:47:24 CDT run = 222530 event = 193 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:47:25 CDT run = 222530 event = 194 DHInput Begin processing 200th record. Run 222530, Trigger 199 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:47:57 CDT run = 222530 event = 254 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:48:24 CDT run = 222530 event = 293 DHInput Begin processing 300th record. Run 222530, Trigger 299 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:48:31 CDT run = 222530 event = 304 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:48:31 CDT run = 222530 event = 304 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:48:45 CDT run = 222530 event = 330 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:49:26 CDT run = 222530 event = 392 DHInput Begin processing 400th record. Run 222530, Trigger 399 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:50:29 CDT run = 222530 event = 489 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:50:29 CDT run = 222530 event = 489 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:50:33 CDT run = 222530 event = 496 DHInput Begin processing 500th record. Run 222530, Trigger 499 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:50:47 CDT run = 222530 event = 518 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:51:04 CDT run = 222530 event = 547 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:51:12 CDT run = 222530 event = 561 DHInput Begin processing 600th record. Run 222530, Trigger 599 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:51:48 CDT run = 222530 event = 613 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:51:48 CDT run = 222530 event = 613 Warning: couldn't invert error matrix, skipping. %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:52:01 CDT run = 222530 event = 634 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:52:12 CDT run = 222530 event = 650 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:52:36 CDT run = 222530 event = 689 DHInput Begin processing 700th record. Run 222530, Trigger 699 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 00:53:22 CDT run = 222530 event = 760 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 800th record. Run 222530, Trigger 799 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 00:54:25 CDT run = 222530 event = 868 DHInput Begin processing 900th record. Run 222530, Trigger 899 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:54:45 CDT run = 222530 event = 899 Warning: couldn't invert error matrix, skipping. %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 00:55:15 CDT run = 222530 event = 945 DHInput Begin processing 1000th record. Run 222530, Trigger 999 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 00:56:48 CDT run = 222530 event = 1088 DHInput Begin processing 1100th record. Run 222530, Trigger 1099 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1200th record. Run 222530, Trigger 1199 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:58:36 CDT run = 222530 event = 1269 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger TClass::Load() 13-Aug-2007 00:58:36 CDT run = 222530 event = 1269 %ERLOG-w List of dead PES strips not found: GlobalLibraryLogger PlugStripClusterMaker::fillDead () 13-Aug-2007 00:58:47 CDT run = 222530 event = 1290 DHInput Begin processing 1300th record. Run 222530, Trigger 1299 Warning: couldn't invert error matrix, skipping. Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1400th record. Run 222530, Trigger 1399 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.7 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone0.4 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w JetCluModule: /home/cdfsoft/dist/packages/JetMods/V00-00-63/src/JetCluModule.cc : 122 Could not make requested vertex. Using vertex z = 0. JetCluModule-cone1.0 13-Aug-2007 01:00:38 CDT run = 222530 event = 1473 %ERLOG-w grid seed error: GlobalLibraryLogger PEMChiSquare::DpemGrid () 13-Aug-2007 01:00:41 CDT run = 222530 event = 1479 DHInput Begin processing 1500th record. Run 222530, Trigger 1499 %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger chi2wrtVertex() 13-Aug-2007 01:01:13 CDT run = 222530 event = 1531 DHInput Begin processing 1600th record. Run 222530, Trigger 1599 Warning: couldn't invert error matrix, skipping. Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1700th record. Run 222530, Trigger 1699 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1800th record. Run 222530, Trigger 1799 Warning: couldn't invert error matrix, skipping. DHInput Begin processing 1900th record. Run 222530, Trigger 1899 Warning: couldn't invert error matrix, skipping. %ERLOG-e CprWireCollectionMaker: : /home/cdfsoft/dist/packages/Calor/V00-01-72/src/CprWireCollectionMaker.cc : 188 Error CPRD RawDataBank not found GlobalLibraryLogger vxfit0() 13-Aug-2007 01:05:44 CDT run = 222530 event = 1977 DHInput Begin processing 2000th record. Run 222530, Trigger 1999 DBEventLogger::OTLrelease(cdf_reader/xxxxx@cdfofread) **** Execution Times for all Modules Run so Far **** During Begin Job: ================= Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: BMU_DtoEModule 1 0.0000 0.0126 0.0000 BMU_StubModule 1 0.0000 0.0011 0.0000 BSU_DtoEModule 1 0.0000 0.0037 0.0000 BscModule 1 0.0000 0.0034 0.0000 CC2QModule 1 0.0000 0.0009 0.0000 CMP_DtoEModule 1 0.0000 0.0022 0.0000 CMU_DtoEModule 1 0.0000 0.0129 0.0000 CMX_DtoEModule 1 0.0000 0.0020 0.0000 CMX_EtoSModule 1 0.0000 0.0005 0.0000 COTQ_Module 1 0.0100 0.0027 0.0000 CP2QModule 1 0.0000 0.0011 0.0000 CSP_DtoEModule 1 0.0000 0.0050 0.0000 CSX_DtoEModule 1 0.0100 0.0041 0.0000 CT_TrackingModu 1 0.0000 0.0001 0.0000 CalibrationMana 1 0.0400 173.6161 0.0000 CalorimetryModu 1 0.0100 0.0156 0.0000 CdfEmObjectModu 1 0.0000 0.0041 0.0000 CdfMetModule 1 0.0100 0.0125 0.0000 CentralStripClu 1 0.0000 0.0077 0.0000 CentralStripClu 1 0.0000 0.0014 0.0000 CesMatchingModu 1 0.0000 0.0000 0.0000 CotqModule 1 0.0000 0.0101 0.0000 CprClusterModul 1 0.0000 0.0000 0.0000 DHInput 1 0.0000 0.0000 0.0000 DummyInput 1 0.0100 0.0145 0.0000 DummyOutput 1 0.0100 0.0082 0.0000 EmClusterModule 1 0.0000 0.0040 0.0000 ErrorLoggerMana 1 0.0000 0.0111 0.0000 FileInput 1 0.0000 0.0000 0.0000 FileOutput 1 0.0000 0.0000 0.0000 GeometryManager 1 0.1200 0.1432 0.0000 IOTrackModule 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0038 0.0000 JetCluModule-co 1 0.0100 0.0038 0.0000 JetCluModule-co 1 0.0000 0.0038 0.0000 Level3SummaryWr 1 0.0000 0.0000 0.0000 MPAQModule 1 0.0100 0.0032 0.0000 MuonLinkerModul 1 0.0000 0.0000 0.0000 MuonStubModule 1 0.0000 0.0000 0.0000 PESQ_Module 1 0.0000 0.0020 0.0000 PVFinder 1 0.1200 0.1173 0.0000 PadTrackMaker 1 0.0000 0.0000 0.0000 PesDtoEModule 1 0.0000 0.0010 0.0000 PhoenixElectron 1 0.0000 0.0000 0.0000 PhoenixTracking 1 0.0000 0.0001 0.0000 Pi0Reconstructi 1 0.0000 0.0000 0.0000 PlugStripCluste 1 0.0000 0.0010 0.0000 Prereq 1 0.0000 0.0012 0.0000 PrimeVtxModule 1 0.0000 0.0075 0.0000 PuffModule 1 0.0000 0.0000 0.0000 SiClusteringMod 1 0.0000 0.0799 0.0000 SiPatternRecMod 1 0.0000 0.0026 0.0000 SiPatternRecMod 1 0.0000 0.0002 0.0000 SiPatternRecMod 1 0.0000 0.0003 0.0000 SignalManager 1 0.0000 0.0116 0.0000 SvxqModule 1 0.0000 0.0023 0.0000 TauFinderModule 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0006 0.0000 TofModule 1 0.0000 0.0003 0.0000 TrackObspMatch 1 0.0100 0.0083 0.0000 ZVertexModule 1 0.0000 0.0001 0.0000 ZVertexModule-C 1 0.0000 0.0001 0.0000 vxprim 1 0.0000 0.0001 0.0000 During Begin Run: ================= Module name: Calls: Mean cpu time: Mean clk time: Cpu StdDev: BMU_DtoEModule 1 0.0000 0.0000 0.0000 BMU_StubModule 1 0.0000 0.0000 0.0000 BSU_DtoEModule 1 0.0000 0.0000 0.0000 BscModule 1 0.0000 0.0000 0.0000 CC2QModule 1 0.0000 0.0012 0.0000 CMP_DtoEModule 1 0.0000 0.0000 0.0000 CMU_DtoEModule 1 0.0000 0.0000 0.0000 CMX_DtoEModule 1 0.0000 0.0000 0.0000 CMX_EtoSModule 1 0.0000 0.0024 0.0000 COTQ_Module 1 0.0000 0.0000 0.0000 CP2QModule 1 0.0000 0.0012 0.0000 CSP_DtoEModule 1 0.0000 0.0000 0.0000 CSX_DtoEModule 1 0.0000 0.0000 0.0000 CT_TrackingModu 1 0.0000 0.0003 0.0000 CalibrationMana 1 0.0000 0.0406 0.0000 CalorimetryModu 1 0.0200 0.1186 0.0000 CdfEmObjectModu 1 0.0000 0.0000 0.0000 CdfMetModule 1 0.0000 0.0001 0.0000 CentralStripClu 1 0.0100 0.0012 0.0000 CentralStripClu 1 0.0100 0.0011 0.0000 CesMatchingModu 1 0.0000 0.0000 0.0000 CotqModule 1 0.0000 0.0000 0.0000 CprClusterModul 1 0.0000 0.0011 0.0000 DHInput 1 0.0000 0.0001 0.0000 DummyInput 1 0.0000 0.0000 0.0000 DummyOutput 1 0.0000 0.0000 0.0000 EmClusterModule 1 0.0000 0.0000 0.0000 ErrorLoggerMana 1 0.0000 0.0000 0.0000 FileInput 1 0.0000 0.0000 0.0000 FileOutput 1 0.0000 0.0000 0.0000 GeometryManager 1 0.0800 0.1051 0.0000 IOTrackModule 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 JetCluModule-co 1 0.0000 0.0000 0.0000 Level3SummaryWr 1 0.0000 0.0000 0.0000 MPAQModule 1 0.0000 0.0000 0.0000 MuonLinkerModul 1 0.0000 0.0000 0.0000 MuonStubModule 1 0.0000 0.0000 0.0000 PESQ_Module 1 0.0000 0.0000 0.0000 PVFinder 1 0.0000 0.0000 0.0000 PadTrackMaker 1 0.0000 0.0000 0.0000 PesDtoEModule 1 0.0000 0.0002 0.0000 PhoenixElectron 1 0.0000 0.0000 0.0000 PhoenixTracking 1 0.0000 0.0000 0.0000 Pi0Reconstructi 1 0.0000 0.0000 0.0000 PlugStripCluste 1 0.0000 0.0084 0.0000 Prereq 1 0.0000 0.0000 0.0000 PrimeVtxModule 1 0.0000 0.0001 0.0000 PuffModule 1 0.0000 0.0000 0.0000 SiClusteringMod 1 0.5300 0.8292 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SiPatternRecMod 1 0.0000 0.0000 0.0000 SignalManager 1 0.0000 0.0000 0.0000 SvxqModule 1 0.0000 0.0000 0.0000 TauFinderModule 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TimingCollMaker 1 0.0000 0.0000 0.0000 TofModule 1 0.0100 0.0282 0.0000 TrackObspMatch 1 0.0000 0.0000 0.0000 ZVertexModule 1 0.0000 0.0001 0.0000 ZVertexModule-C 1 0.0000 0.0001 0.0000 vxprim 1 0.0000 0.0000 0.0000 During End Job: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During End Run: =============== Module name: No. of calls: Mean cpu time: Mean clk time: Cpu StdDev: During Event Processing: ======================== Module name: # Calls: Mean cpu time: Mean clk time: Total Cpu: ----------------------------------------------------------------------------------- BMU_DtoEModule 2000 0.0000+/-0.0000 0.0000+/-0.0000 0.040 BMU_StubModule 2000 0.000015+/-0.000009 0.000032+/-0.000002 0.030 BSU_DtoEModule 2000 0.000025+/-0.000011 0.000035+/-0.000000 0.050 BscModule 2000 0.000040+/-0.000014 0.000045+/-0.000000 0.080 CC2QModule 2000 0.000020+/-0.000010 0.000022+/-0.000000 0.040 CMP_DtoEModule 2000 0.000015+/-0.000009 0.000019+/-0.000000 0.030 CMU_DtoEModule 2000 0.000025+/-0.000011 0.000022+/-0.000000 0.050 CMX_DtoEModule 2000 0.000020+/-0.000010 0.000019+/-0.000000 0.040 CMX_EtoSModule 2000 0.000045+/-0.000015 0.000021+/-0.000000 0.090 CP2QModule 2000 0.000110+/-0.000023 0.000065+/-0.000000 0.220 CSP_DtoEModule 2000 0.000025+/-0.000011 0.000019+/-0.000000 0.050 CSX_DtoEModule 2000 0.000010+/-0.000007 0.000020+/-0.000001 0.020 CT_TrackingModule 2000 0.229615+/-0.002077 0.231990+/-0.002108 459.230 CalibrationManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 CalorimetryModule 2000 0.006590+/-0.000106 0.006541+/-0.000040 13.180 CdfEmObjectModule 2000 0.000625+/-0.000054 0.000597+/-0.000014 1.250 CdfMetModule 2000 0.001195+/-0.000073 0.001120+/-0.000014 2.390 CentralStripClusterModu 2000 0.001535+/-0.000081 0.001647+/-0.000015 3.070 CentralStripClu-pi0reco 2000 0.000660+/-0.000056 0.000642+/-0.000005 1.320 CesMatchingModule 2000 0.000080+/-0.000020 0.000048+/-0.000000 0.160 CotqModule 2000 0.003375+/-0.000106 0.003186+/-0.000028 6.750 CprClusterModule 2000 0.000340+/-0.000041 0.000385+/-0.000007 0.680 DHInput 4002 0.006327+/-0.000115 0.006562+/-0.000116 25.320 EmClusterModule 2000 0.003610+/-0.000109 0.003801+/-0.000055 7.220 ErrorLoggerManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 FileOutput 4001 0.018610+/-0.000339 0.019184+/-0.000370 74.460 GeometryManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 IOTrackModule 2000 0.022790+/-0.000406 0.022951+/-0.000402 45.580 JetCluModule-cone0.4 2000 0.004880+/-0.000113 0.004859+/-0.000042 9.760 JetCluModule-cone0.7 2000 0.008925+/-0.000106 0.009279+/-0.000070 17.850 JetCluModule-cone1.0 2000 0.006715+/-0.000138 0.006830+/-0.000098 13.430 Level3SummaryWriterModu 2000 0.000125+/-0.000025 0.000123+/-0.000000 0.250 MuonLinkerModule 2000 0.001915+/-0.000098 0.001889+/-0.000083 3.830 MuonStubModule 2000 0.000050+/-0.000016 0.000052+/-0.000001 0.100 PVFinder 2000 0.010445+/-0.000152 0.010682+/-0.000125 20.890 PadTrackMaker 2000 0.022785+/-0.000217 0.023110+/-0.000206 45.570 PesDtoEModule 2000 0.007990+/-0.000092 0.008133+/-0.000044 15.980 PhoenixElectrons 2000 0.000075+/-0.000019 0.000077+/-0.000000 0.150 PhoenixTracking 2000 0.000205+/-0.000032 0.000148+/-0.000002 0.410 Pi0ReconstructionModule 2000 0.008610+/-0.000093 0.008655+/-0.000049 17.220 PlugStripClusterModule 2000 0.001230+/-0.000073 0.001215+/-0.000017 2.460 PrimeVtxModule 2000 0.004445+/-0.000121 0.004565+/-0.000073 8.890 PuffModule 2000 0.000025+/-0.000011 0.000029+/-0.000000 0.050 SiClusteringModule 2000 0.029470+/-0.000133 0.029736+/-0.000118 58.940 SiPatternRecModule 2000 0.056880+/-0.000590 0.057334+/-0.000592 113.760 SiPatternRecMod-Phoenix 2000 0.000295+/-0.000038 0.000354+/-0.000004 0.590 SiPatternRecModu-StVert 2000 0.084205+/-0.002117 0.085371+/-0.002139 168.410 SignalManager 2000 0.000000+/-0.000000 0.000002+/-0.000000 0.000 SvxqModule 2000 0.004130+/-0.000110 0.004417+/-0.000024 8.260 TauFinderModule 2000 0.006790+/-0.000160 0.006816+/-0.000130 13.580 TimingCollMaker 2000 0.000090+/-0.000039 0.000631+/-0.000576 0.180 TimingCollMaker-RAW 2000 0.000535+/-0.000052 0.163528+/-0.162982 1.070 TofModule 2000 0.003465+/-0.000106 0.003443+/-0.000028 6.930 TrackObspMatch 2000 0.009230+/-0.000099 0.009196+/-0.000061 18.460 ZVertexModule 2000 0.000950+/-0.000066 0.000883+/-0.000010 1.900 ZVertexModule-CotSt 2000 0.000985+/-0.000067 0.000864+/-0.000010 1.970 vxprim 2000 0.009640+/-0.000288 0.009810+/-0.000280 19.280 ----------------------------------------------------------------------------------- Mean Cpu total = 0.580807; Mean Clock total = 0.751031 Sum total Cpu = 1161.614368; Sum total Clock = 1502.062790 **** Listing of all available paths **** * = Enabled; ! = Active Default (all modules) path AllPath Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * yes on 0 0 Level3SummaryWriterModule no on 0 0 CalqModule no on 0 0 SmxqModule * no on 0 0 CotqModule * no on 0 0 SvxqModule * no on 0 0 TimingCollMaker * no on 0 0 CalorimetryModule * no on 0 0 CprClusterModule * Muon Reconstruction sequence MuonRecoSequence * no on 2000 2000 CMU_DtoEModule * no on 2000 2000 CMP_DtoEModule * no on 2000 2000 CMX_DtoEModule * no on 2000 2000 BMU_DtoEModule * no on 2000 2000 CSP_DtoEModule * no on 2000 2000 CSX_DtoEModule * no on 2000 2000 BSU_DtoEModule * no on 2000 2000 MuonStubModule * no on 2000 2000 CMX_EtoSModule * no on 2000 2000 BMU_StubModule * no on 2000 2000 MuonLinkerModule * no on 0 0 CentralStripClusterModule * no on 0 0 PesDtoEModule * no on 0 0 PlugStripClusterModule * no on 0 0 TofModule * no on 0 0 SiClusteringModule * no on 0 0 PVFinder * no on 0 0 CT_TrackingModule * no on 0 0 SiPatternRecModule * no on 0 0 IOTrackModule * no on 0 0 TrackObspMatch * no on 0 0 ZVertexModule * no on 0 0 vxprim * no on 0 0 PrimeVtxModule no on 0 0 JetCluModule * no on 0 0 CdfMetModule * no on 0 0 EmClusterModule * no on 0 0 CdfEmObjectModule * no on 0 0 CesMatchingModule * no on 0 0 Pi0ReconstructionModule * no on 0 0 TauFinderModule * yes on 0 0 PhoenixTracking * yes on 0 0 PhoenixElectrons * yes on 0 0 Prereq * no on 0 0 COTQ_Module * no on 0 0 CP2QModule * no on 0 0 CC2QModule * no on 0 0 PESQ_Module * no on 0 0 PadTrackMaker * no on 0 0 BscModule * no on 0 0 MPAQModule * no on 0 0 JetCluModule-cone0.4 * no on 0 0 JetCluModule-cone1.0 * no on 0 0 JetCluModule-cone0.7 * no on 0 0 CentralStripClusterModule-pi0reco * no on 0 0 TimingCollMaker-RAW * no on 0 0 SiPatternRecModule-StVert * no on 0 0 ZVertexModule-CotSt * no on 0 0 SiPatternRecModule-Phoenix * Null Filter? Mask nQuery nPassed * no on 2000 2000 PuffModule * Production Filter? Mask nQuery nPassed * CDF required manager sequence ManagerSequence * no on 2000 2000 ErrorLoggerManager * no on 2000 2000 PuffModule * no on 2000 2000 CalibrationManager * no on 2000 2000 GeometryManager * no on 2000 2000 SignalManager yes on 0 0 ConfigManager * yes on 2000 2000 Level3SummaryWriterModule * no on 2000 2000 CotqModule * no on 2000 2000 SvxqModule no on 0 0 CalqModule no on 0 0 SmxqModule * no on 2000 2000 CP2QModule * no on 2000 2000 CC2QModule * no on 2000 2000 SiClusteringModule * no on 2000 2000 PVFinder * no on 2000 2000 CT_TrackingModule * no on 2000 2000 SiPatternRecModule * no on 2000 2000 ZVertexModule-CotSt * no on 2000 2000 SiPatternRecModule-StVert * no on 2000 2000 IOTrackModule * no on 2000 2000 PadTrackMaker * no on 2000 2000 ZVertexModule * no on 2000 2000 vxprim * no on 2000 2000 PrimeVtxModule * no on 2000 2000 CalorimetryModule * no on 2000 2000 TimingCollMaker-RAW * no on 2000 2000 TimingCollMaker * no on 2000 2000 PesDtoEModule * no on 2000 2000 BscModule * Muon Reconstruction sequence MuonRecoSequence * no on 2000 2000 CMU_DtoEModule * no on 2000 2000 CMP_DtoEModule * no on 2000 2000 CMX_DtoEModule * no on 2000 2000 BMU_DtoEModule * no on 2000 2000 CSP_DtoEModule * no on 2000 2000 CSX_DtoEModule * no on 2000 2000 BSU_DtoEModule * no on 2000 2000 MuonStubModule * no on 2000 2000 CMX_EtoSModule * no on 2000 2000 BMU_StubModule * no on 2000 2000 MuonLinkerModule * no on 2000 2000 CprClusterModule * no on 2000 2000 CentralStripClusterModule * no on 2000 2000 PlugStripClusterModule * no on 2000 2000 CentralStripClusterModule-pi0reco * no on 2000 2000 TofModule * no on 2000 2000 CdfMetModule * no on 2000 2000 JetCluModule-cone0.7 * no on 2000 2000 JetCluModule-cone0.4 * no on 2000 2000 JetCluModule-cone1.0 * no on 2000 2000 EmClusterModule * no on 2000 2000 CdfEmObjectModule * no on 2000 2000 CesMatchingModule * no on 2000 2000 Pi0ReconstructionModule * no on 2000 2000 TauFinderModule * yes on 2000 2000 PhoenixTracking * no on 2000 2000 SiPatternRecModule-Phoenix * yes on 2000 2000 PhoenixElectrons * no on 2000 2000 TrackObspMatch Unprocessed data are: Static Files: ------------- /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/trig.0001.10158.root Catalog files: -------------- No DataSets %ERLOG-w DHInputDataList->: Not all requested data were processed. Probably job was interrupted or data delivery failed. GlobalLibraryLogger DHInputDataList::endJob() 13-Aug-2007 01:05:59 CDT run = 222530 event = 2000 *** CotqModule Summary: In 0 Out 0 *** SvxqModule Summary: In 0 Out 0 SiClusteringModule end job Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 2.00000e-05 2.63815e-05 2.18500e-02 2.20671e-02 1.00000e-05 8.92550e-06 1 5.00000e-06 1.87430e-05 2.24500e-02 2.24965e-02 4.00000e-05 2.28475e-05 2 5.00000e-06 1.95080e-05 1.16450e-02 1.17239e-02 0.00000e+00 5.89600e-06 vxprim: calls:2000 efficiency:96.20000% mean number of discarded tracks:17.56450 Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 0.00000e+00 3.52050e-06 0.00000e+00 1.85770e-05 0.00000e+00 1.14650e-06 1 8.39100e-02 8.49457e-02 0.00000e+00 1.64950e-06 5.00000e-06 4.42650e-06 Execution Times for all SiPatternRec strategies run so far. ============================================================ Strategy #: CPU(nom) CLK(nom) CPU(pur) CLK(pur) CPU(acc) CKL(acc) ----------------------------------------------------------------------- 0 5.00000e-06 1.92500e-06 1.50000e-05 2.32030e-05 0.00000e+00 1.44650e-06 1 0.00000e+00 2.33150e-06 1.00000e-05 7.44300e-06 0.00000e+00 1.50150e-06 Output run section ranges: (222530,1):(222530,2) Input run section ranges: (222530,1):(222530,2) ***** ***** Closing output file: /local/stage1/condor/execute/dir_4901/glide_fL4924/tmp/starter-tmp-dir-n7DxDC/execute/dir_5837/work/prod.0001.10158.root ***** after 2001 records, with a total size of 440141kBytes written. ***** 2000 of those records were phyics events, ***** whose average size is: 223.00000kBytes/event ***** Goodbye from CentralStripClusterModule GOODBYE from Module SiPatternRec Running PhoenixElectrons::~PhoenixElectrons() Goodbye from CentralStripClusterModule GOODBYE from Module SiPatternRec GOODBYE from Module SiPatternRec Termination Summary Process ProductionExe type message id sev module subroutine count total ---- -------------------- -- ---------------- ---------------- ----- ----- 1 DBSQL_O .. DBEventLogger 52* 52 2 DEBUG .. DBEventLogger 301* 301 3 DBACC_G -! DBEventLogger 288* 288 4 DBACC_O -! DBEventLogger 52* 52 5 Bfield::setUniform -i GlobalLibraryLog 1* 1 6 DBCON_A -i DBEventLogger 2* 2 7 DBCON_J -i DBEventLogger 2* 2 8 DBCON_O -i DBEventLogger 132* 132 9 DEPRECATED -i CalibDB 26* 26 10 Pes2dCluster collect -i GlobalLibraryLog CalDrivenCdfEmOb 495* 495 11 ROOT-XTRPMatchboxDat -i GlobalLibraryLog TClass::Load 2000* 2000 12 SiPassiveMaterial::c -i GlobalLibraryLog 5* 5 13 TrackingSI -i GlobalLibraryLog AppFileBasedStre 2* 2 14 calor::Calib: -i GlobalLibraryLog AppFileBasedStre 7* 7 15 generateBeginFileFra -i DHInput openNextFile 1* 1 16 generateBeginRunSect -i DHInput nextEvent 1* 1 17 no primary vertex fo -i vxprim 70* 70 18 not enough tracks -i vxprim 6* 6 19 DHInputDataList-> -w GlobalLibraryLog DHInputDataList: 1 1 20 JetCluModule -w JetCluModule-con 4 4 21 JetCluModule -w JetCluModule-con 4 4 22 JetCluModule -w JetCluModule-con 4 4 23 List of dead PES str -w GlobalLibraryLog PlugStripCluster 2000* 2000 24 PlugStripMaker::setM -w GlobalLibraryLog AppFileBasedStre 1 1 25 RCP put failure -w CalibrationManag 2 2 26 RCP put failure -w GeometryManager 2 2 27 grid seed error -w GlobalLibraryLog PEMChiSquare::Dp 26* 26 28 CprWireCollectionMak -e GlobalLibraryLog TClass::Load 12* 12 29 CprWireCollectionMak -e GlobalLibraryLog chi2wrtVertex 3328* 3328 30 CprWireCollectionMak -e GlobalLibraryLog vxfit0 660* 660 * Some occurrences of this message were suppressed in all logs, due to limits. type message id Examples: run/evt run/evt run/evt ---- -------------------- ---------------- ---------------- ---------------- 1 DBSQL_O 222530/1 222530/1 222530/1 2 DEBUG 0/0 0/0 222530/1 3 DBACC_G 0/0 0/0 222530/1 4 DBACC_O 222530/1 222530/1 222530/1 5 Bfield::setUniform 0/0 6 DBCON_A 222530/1 222530/1 7 DBCON_J 0/0 222530/2000 8 DBCON_O 0/0 0/0 222530/1 9 DEPRECATED 222530/0 222530/0 222530/0 10 Pes2dCluster collect 222530/21 222530/32 222530/1996 11 ROOT-XTRPMatchboxDat 222530/0 222530/1 222530/1999 12 SiPassiveMaterial::c 0/0 0/0 0/0 13 TrackingSI 222530/0 222530/0 14 calor::Calib: 222530/0 222530/0 222530/0 15 generateBeginFileFra 0/0 16 generateBeginRunSect 222530/1 17 no primary vertex fo 222530/23 222530/36 222530/1993 18 not enough tracks 222530/304 222530/489 222530/1473 19 DHInputDataList-> 222530/2000 20 JetCluModule 222530/96 222530/518 222530/1473 21 JetCluModule 222530/96 222530/518 222530/1473 22 JetCluModule 222530/96 222530/518 222530/1473 23 List of dead PES str 222530/1 222530/2 222530/2000 24 PlugStripMaker::setM 222530/0 25 RCP put failure 0/0 0/0 26 RCP put failure 0/0 0/0 27 grid seed error 222530/117 222530/156 222530/1687 28 CprWireCollectionMak 222530/304 222530/304 222530/1473 29 CprWireCollectionMak 222530/1 222530/1 222530/2000 30 CprWireCollectionMak 222530/3 222530/3 222530/1997 Severity # Occurrences Total Occurrences -------- ------------- ----------------- .. 353 353 Success 340 340 Info 2750 2750 Warning 2044 2044 Error 4000 4000 DFC_COMPATIBLE_NAME bc036542.0001qcdq processor : 0 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 0 siblings : 2 core id : 0 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4658.27 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 1 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 3 siblings : 2 core id : 6 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4655.03 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 2 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 0 siblings : 2 core id : 1 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4654.99 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: processor : 3 vendor_id : GenuineIntel cpu family : 6 model : 15 model name : Intel(R) Xeon(R) CPU 5148 @ 2.33GHz stepping : 6 cpu MHz : 2327.506 cache size : 4096 KB physical id : 3 siblings : 2 core id : 7 cpu cores : 2 fpu : yes fpu_exception : yes cpuid level : 10 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl est tm2 cx16 xtpr bogomips : 4655.04 clflush size : 64 cache_alignment : 64 address sizes : 36 bits physical, 48 bits virtual power management: fcdfcaf1326.fnal.gov [MCProd]: END OF THE JOB rc=0 [run1segment] [Mon Aug 13 01:06:00 CDT 2007] 0 MCProd success ---------------------------------

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# Presentation: 406730 ## Automating One-loop Amplitudes For the LHC - Darren Forde (SLAC) - In collaboration with C. Berger, Z. Bern, L. Dixon, F. Febres Cordero, T. Gleisberg, D. Maitre, H. Ita & D. Kosower. ## Overview ## What’s the problem? - The LHC - Maximise its discovery potential ## Switch On - A major event, even google commemorated it! - Celebrations, Swiss embassy annex in San Francisco. ## Started With A Bang - First beams successful circulated! Ran for 9 days. - Unfortunate incident caused by bad solder joint. - Delayed until Oct 2009. ## New Physics - Use the LHC to discover new physics. - many possibilities: Higgs? SUSY? Extra-dimensions? ... - “New” particles typically decay into Standard Model (SM) particles and/or missing energy. - Will we be able to distinguish this new physics from the SM? ## Avoid “Discovering” SUSY - No new physics. A precise understanding of the Standard Model accounted for this. - Need to be careful when claiming a discovery! ## Searching for SUSY - Outline of a SUSY Search (Early ATLAS TDR). - Predict background using PYTHIA. - Compute background at Leading Order (ALPGEN)  better prediction. ## Is Leading Order Good Enough? - Look at data/theory. - CDF data for W + n jet cross sections. Theory Monte-Carlo + Parton Showers (incl. LO) and NLO computation. [T. Aaltonen et al. [CDF Collaboration]] **Notes:** Useful for verifying theory backgrounds in high multiplicity events ## Normalisation & Shapes - Examine data/theory for the *E**t* distribution of the first jet. [T. Aaltonen et al. [CDF Collaboration]] - LO does not get the shape correct here, NLO does. ## Shapes & Scale Dependence - Shapes of distributions become more accurate and scale dependence reduces at NLO. - Rapidity Distribution for an on-shell Z at the LHC. [Anastasiou,Dixon,Melnikov,Petriello] - Complete result independent of scale choice. ## Beyond NLO - Change of shape  K-factor differs for different rapidity's, [Anastasiou,Dixon,Melnikov,Petriello] - Also precise theory knowledge needed for luminosity determination, PDF measurements, extract couplings, etc. ## NLO Corrections - Example : W + n jets, an important process at the LHC, (backgrounds in searches etc.) - Loop amplitudes are the bottleneck. - “State of the art” using standard (Feynman) techniques is generally 5-point (limited 6-point results i.e. six quarks). ## A History of One-Loop (W + n jets) - What about W+4 jets, another 15 years? No, within reach. | | | | | | --- | --- | --- | --- | | Amplitudes : | Early 80’s [Ellis, Martinelli, Petronzio] | 1996 [Bern, Dixon, Kosower], | 2008 | | NLO Corrections : | Mid 80’s [Arnold, Ellis, Reno], | MCFM 2002 [Campbell, Ellis] | 2009 | ## Automation - We want to go from ## Towards Automated Tools - Want numerical methods, let the computer do the hard work! - Numerical approaches using Feynman diagrams for high multiplicity amplitudes (n>5) difficult. - Challenge to preserve numerical stability. - New generation of automatic programs from new methods. - “BlackHat”- n-gluons, first computation of leading colour W+3 jet amplitudes. [Berger, Bern, Dixon, Febres Cordero, DF, Ita, Kosower, Maître] - “Rocket”- n-gluons, complete W+3 jets, tt+3 gluons. [Ellis, Giele, Kunszt, Melnikov, Zanderighi], ## Why do we need new methods? - Schwinger and Feynman showed us how to compute loop amplitudes, so what’s the problem? - Use Passarino-Veltman to decompose a tensor one-loop integral into a sum of scalar integrals (one of many terms in an amplitude) ## Complicated results - A Factorial growth in the number of terms. - “Each term effectively carries the same complexity as the combination of all the diagrams.” ## On-shell Off-shell - Propagators go off shell, all four components are free. - In a loop the loop momentum is off-shell. - Want to work with on-shell quantities only i.e. amplitudes. ## Spinor helicity - Appropriate choice of variables gives simpler/more compact** **results. - Describe all momenta using spinors carrying +’ve or -’ve helicity. - Rewrite all vectors in terms of spinors e.g. polarisation vectors. - Products of spinors are related to Lorentz products. ## Simple results! - Calculated amplitudes much simpler than expected. - Look at different spin components of an amplitude (textbooks usually teach us to sum them all together). - Amazing simplifications! e.g. all gluon amplitudes. [Parke, Taylor] (proved using Berends-Giele recursion relations) - Need a better computational technique. ## New techniques & the Complex Plane - A key feature of new developments is the use of complex momenta. - We can then, for example, define a non-zero on-shell three-point function, - All other tree amplitudes can be built from just this. (For most field theories this is not obvious at all!) - Take better advantage of the analytic structure of amplitudes. ## Amplitudes and the Complex Plane - An amplitude is a function of its external momenta (and helicity). - Shift the momentum of two external legs so that they become complex. [Britto, Cachazo, Feng, Witten] - Keeps both legs on-shell. - Conserves momentum in the amplitude. - Introduces poles into the amplitude. ## A simple idea - Tree amplitude contains only simple poles - Amplitude given by the sum of the residues at these poles. *A**n*(0), the amplitude with real momentum. - This is what we want. - Cauchy’s Theorem ## A simple idea - Amplitude is a sum of residues of poles. - Location of these poles given by factorisations of the amplitude. ## On-shell recursion relations - Build larger amplitudes from smaller. - Reuse existing results  Compact efficient forms. - Build up from just the 3-pt vertex. - Everything is On-shell  Good. ## What about one-loop amplitudes? - A “simple” 5 gluon amplitude, [Bern, Dixon, Kosower] - More complicated analytic structure. ## Structure of a 1-loop Amplitude - Trees, completely rational, only simple poles. - Divide a One-loop amplitude into two parts. - Use knowledge from tree level to compute? ## One-loop integral basis - Cut pieces described by a basis of one-loop integrals - Decomposition of any - one-loop amplitude ## Unitarity cutting techniques - Unitarity cutting techniques - Basic idea, “glue” together tree amplitudes to form a loop. [Bern,Dixon,Dunbar,Kosower] - Relate product of cut amplitudes to known basis structure. - Compute coefficients of integral basis. - Only computes terms with Branch Cuts, - 4 dimensional cuts will miss rational terms. ## Box Coefficients - Quadruple cuts freeze the box integral  coefficient [Britto, Cachazo, Feng] ## Two-particle and triple cuts - What about bubble and triangle terms? - Triple cut  Scalar triangle coefficients? - Two-particle cut  Scalar bubble coefficients? - How do we extract these unique coefficients? ## Extracting coefficients - Two-particle Cut Unitarity technique. [Bern, Dixon, Dunbar, Kosower] - OPP method - Solve for all the coefficients of the general structure of a one-loop integrand. [Ossola, Papadopoulos, Pittau] - Use the large parameter behaviour of the integrand. [DF] - Approach is very general. - Applied even to computing gravity and super gravity amplitudes. [Bern, Carrasco, DF, Ita, Johansson], [Arkani-Hamed, Cachazo, Kaplan] ## Triangle Coefficietns - Apply a triple cut to an amplitude*.* ## Large Parameter Behaviour - Which piece of the integrand corresponds to the scalar triangle coefficient? - Choose parameterization of *l**μ*(*t*) so that all integrals over *t* vanish. - Coefficient given by piece independent of *t*. - Analytically : Limit in large *t* isolates this term. - Numerically : Discrete Fourier Projection around *t=0*. - Similar approach for bubbles. ## Rational Terms - What about the remaining rational pieces. - Two approaches - implemented in BlackHat - Unitarity cuts not in 4 dimensions - Compute rational terms from cuts. - [Bern, Morgan], [Anastasiou, Britto, Feng, Kunszt, Mastrolia], - [Ellis, Giele, Kunszt, Melnikov, Zanderighi], [Badger], [Ossola, Papadopoulos, Pittau] ## Loops, Branch cuts & Rational Terms - One-loop amplitude on the complex plane  more complicated structure. - Shift external momenta by *z*. ## Loop On-shell recursion relations - Very similar to tree level recursion. - At one-loop recursion using on-shell tree amplitudes, *T*, and rational pieces of one-loop amplitudes, *L*. ## BlackHat **BlackHat** - Numerical implementation of the unitarity bootstrap approach in **c++**. - Much fewer terms to compute - & no large cancelations compared - with Feynman diagrams. ## Numerical Stability - How can we know that we can trust our results? - Rare exceptional momentum configurations, lead to numerical instabilities. - Caused by spurious singularities (Gramm determinants) in pieces that cancel in the sum of terms. - Rare but will occur when evaluating 100,000’s of points. - BlackHat Strategy : - Use double precision for majority of points  good precision. - For a small number of exceptional points use higher precision (up to ~32 or ~64 digits.) ## Testing Numerical Stability - Need to know when you have a “bad” point. - Detect exceptional points using three tests, - Bubble coefficients in the cut must satisfy, - For each spurious pole, *z**s*, the sum of all bubbles must be zero, - Large cancellation between cut and rational terms. ## 6 Gluon amplitude - Precision tests using 100,000 phase space points with some simple “standard” cuts. *E**T**>*0.01*√s, *Pseudo-rapidity *η**>*3, ΔR>4, ## W+3 jet amplitudes - First computation of Leading colour contribution for W+3jets. - The dominant terms in NLO corrections. - Precision - Log10 number of points ## Next Steps - BlackHat computes amplitudes, use these to compute observables and cross sections. - Interface with automated programs for the tree level pieces of an NLO computation. - Example : Use SHERPA - BlackHat produces one-loop amplitudes. (virtual part) - SHERPA computes tree amplitudes for the NLO term (real part). - SHERPA does the phase space integration of real and virtual. Including automatic subtraction of IR poles. (Catani-Seymour dipole subtraction) ## W+3 jets at NLO - Compute all Leading Colour (large *N**c*) sub-processes. - From W+1 and 2 jets expect remaining sub-leading terms to contribute a few %. - Single sub-process. [Ellis, Melnikov, Zanderighi] ## W+3 jets at NLO : Et of third jet - Cuts : ETe > 20 GeV, |ηe| < 1.1, E T  > 30 GeV, MWT > 20 GeV, and Etjet > 20 GeV. ## Transverse Energy distribution, Ht - Total transverse energy ## Di-jet Mass Distribution - Di-jet mass of - leading two jets. ## Further Steps... - Produce more NLO results. (Full Colour W+3 jets, W+4 jets,...) - Interface with other phase space integration codes, e.g. MadGraph. - Incorporate BlackHat Amplitudes into NLO Parton shower programs. - Also expand the processes we can deal with, i.e. include more masses. - Straightforward to do, the procedure is completely general. ## Conclusion

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# Presentation: 613747 ## Nerve agents - Ziad Kazzi, MD - Medical Toxicology Fellow - Centers for Disease Control and Prevention ## Introduction - “Nerve agents” are aptly named, since they affect the nervous system. - Structural name for these agents is organic phosphorous compounds (OPCs) - Term “nerve agents” commonly used to refer to a specific **military** class of OPCs - soman, sarin, tabun, VX ## Introduction (continued) - In fact, the OPCs also include several hundred “nonmilitary” OPCs. - Malathion - Parathion - Others - Used commonly as insecticides, where military OPCs are used to kill humans - Both can kill humans, just differently. ## Introduction (continued) - Carbamates have similar mechanism of action. They are separate from organophosphates. - Reversible enzyme binding - Nerve agents are used in the treatment of myasthenia gravis and anticholinergic drug poisoning. ## Background - Developed in pre-World War II Germany by Gerhardt Schrader, who discovered tabun in 1934. - Germany later developed sarin and soman. These are the G agents. - Never used by the Germans. The British (R. Gosh) synthesized VX (the acronym allegedly stands for venomous) after WWII**.** ## Background (continued) - Iraq reportedly used tabun and maybe sarin in the Iran-Iraq war (1984–1988). - Iranian soldiers had atropine auto-injectors. - Many had atropine overdoses from misuse of their auto-injectors. ## Background (continued) - Sarin gas was released in the Tokyo subway system by the Aum Shinrikyo Cult, creating more than 5,000 victims and causing 12 deaths. - The same cult had released sarin in an apartment complex in Matsumoto in 1994, killing seven and injuring more than 600 people. - In Tokyo, sarin was concealed in lunch boxes and bags. The terrorists punctured the bags with umbrellas and ran out of the subway tunnel. ## Background (continued) - The United States has over 30,000 tons of VX and sarin. - The government is planning the destruction of this stock and has already destroyed small batches. - Dupont Chemical is negotiating for the contract to destroy 1,200 tons of VX stored in the Newport chemical depot. - There is an ongoing discussion about the best way to dispose of the end products. ## Military Designations - Tabun= GA - Sarin= GB - Soman= GD - Cyclosarin= GF - VX ## Physical Properties - Liquids with varying volatility and persistence - VX is the least volatile but the most persistent; “oily.” Soman is odorless. - Tabun, sarin, and soman have significant volatility. Sarin is the most volatile. - Absorbed via skin, mucus membranes, lungs, and gastrointestinal system. ## Toxicity - Dermal toxicity: One drop of VX,1–10 ml of the G agents may be fatal. - Onset of symptoms may be delayed several hours from exposure to the liquid form, especially VX (up to 18 hours). - Rapid development of symptoms after exposure is more likely. ## Lethality of VX - An amount of VX equal in size to one column of the building depicted on the back of this penny would be lethal. ## Mechanism of Action - Nerve agents bind and inhibit acetylcholine esterases. - Acetylcholine esterase breaks down acetylcholine (ACh). - ACh mediates neurotransmission at - nicotinic muscular junctions, - autonomic nicotinic synaptic junctions (sympathetic and parasympathetic), and - muscarinic end-organ synapses (GI tract, glands, bladder, pupils). ## Autonomic Nervous System Somatic Central - N ** ****Autonomic Nervous System**** **** Somatic Central** - Parasympathetic Sympathetic - N - N - N - ACh - ACh - ACh - ACh - ACh - M - M - ACh - ACh - A - A - Epinephrine - Norepinephrine - N - ACh **Sweat Glands** **Glands** **Bladder** **Gut** **Heart** **Heart** **Blood Pressure** - Neuromuscular Junction - Brain - AutonomicGanglia - End Organ - M ## Mechanism of Action (continued) - Enzyme inhibition is reversible within a certain period of time that is agent dependent. - This time period in which structural changes to the enzyme occur is called “aging.” - Soman ages within minutes, whereas sarin takes hours. - After aging occurs, the enzyme is inactivated. Enzyme regeneration usually takes several weeks. - Excess ACh at all these synapses accounts for the clinical presentation. ## Clinical Presentation - Muscarinic: - SLUDGE— BBBs— ** ****Salivation**** **** **** **** **** Bradycardia** ** ****Lacrimation**** **** **** **** **** **** Bronchorrhea** ** ****Urination**** **** **** **** **** Bronchospasm** ** ****Diaphoresis** ** ****GI distress (diarrhea, vomiting)** ** ****Emesis** ** **** **** **** **** *****Miosis*** ## Clinical Presentation (continued) **Nicotinic: MTWThF ** **Mydriasis** **Tachycardia** **Weakness** **Hyperthermia** **Fasciculation** ## Clinical Presentation (continued) - Military class OPCs (sarin, soman, etc.) - Preferential affinity for nicotinic receptors - Muscle paralysis - Effective battlefield weapon - Insecticide class OPCs (malathion) - Preferential affinity for muscarinic receptors - SLUDGE - BBBs ## Clinical Presentation (continued) - Dim vision and eye pain from ciliary spasm or direct cortical effect? - Cardiovascular effects are less predictable and range from bradycardia with AV blocks to tachycardia. ## Clinical Presentation (continued) - Compared with adults, children exposed to nerve agents are thought to be less likely to have miosis and more likely to have increased secretions. - Children are also thought to have more seizures, hypotonia, and weakness than adults. - No studies have been done on nerve agents and children, even though historical incidents have affected children. - Assumptions about children and nerve agents are based on knowledge of organophosphates and of characteristics of children such as lower weight, less active metabolism (paroxanase activity), and greater ventilatory rate. ## Differential Diagnosis for Nerve Agent Poisoning - Gastroenteritis - Ingestion of muscarinic mushrooms (*Amanita muscaria*, *Clytocybe*, *Inocybe*) - Pesticide poisoning - Carbamate overdose - Metal ingestion ## Diagnostic Workup - No lab workup is useful for acute nerve agent poisoning. - RBC and plasma cholinesterase (butylcholinesterase) levels may be checked**.** These results are usually not immediately available. ## Prehospital Care and Decontamination - First responders: Respirators, goggles, protective clothing - Self-contained breathing apparatus (SCBA) is recommended in response to any nerve agent vapor or liquid. - Butyl rubber gloves (most agents are lipophilic) - 20% of healthcare workers in Tokyo had mild symptoms after taking care of patients. These symptoms included nausea, eye pain, and headache. ## Prehospital Care and Decontamination (continued) - Inhalation exposure: removal from exposure - Dermal: wash with soap and water or mild (0.5%) sodium hypochlorite (bleach) solution if availability of water is limited - Ingestion: no charcoal as these patients are at risk for vomiting and aspiration ## Antidotes: Atropine - Muscarinic receptor antagonist. - Only treats muscarinic symptoms. - Given IV, IM, or by ET tube. - Dose is 2 mg every 5–10 minutes. End point is resolution of bronchorrhea. - For children, give 0.5–1.0 mg IM/IV every 5–20 minutes. For children < 6 months old, the dose is 0.05 mg/kg, with the minimum dose being 0.1 mg. Same end point. - If given early, atropine may prevent seizures. - Glycopyrrolate may also be used but does not penetrate the CNS. ## Antidotes: Oximes - Reverses the binding of the nerve agent to the enzyme, especially if given prior to aging. Also acts as a scavenger and inactivates circulating nerve agents. - Pralidoxime: Slow IV bolus. Dose is 25–50 mg/kg in children or 2 g in adults, targeting a serum level of > 4 mg/L. If given IM using the auto-injector, level is achieved in 8 minutes. - May repeat dose in 1 h. Effect is lost after 3 h of exposure to sarin because of aging. ## Antidotes: Oximes (continued) - Side effect: elevated BP and EKG abnormalities - Other oximes (such as obidoxime and P2S) are used in other countries and have variable efficacy. - There is ongoing research to develop better agents. ## Antidotes: Benzodiazepines - Used to treat the seizures - Diazepam IM/IV appears to be better than other benzodiazepines. - Dose is 5 mg IV/IM. May be repeated every 5–15 minutes. ## Antidotes: Pyridostygmine - Subjects pretreated with pyridostigmine will be less vulnerable to nerve agents. - The U.S Army used pyridostigmine during the Gulf War. - Pyridostigmine is a carbamate that binds reversibly to AChE. It does not cross the CNS. - Pretreated individuals will have a store of AChE that is bound to pyridostigmine and is protected from the nerve agent. ## Antidotes: Pyridostygmine (continued) - Bound pyridostigmine-AChE spontaneously breaks after several hours, releasing normal AChE. Administration of 2-PAM stimulates release of AChE that was protected from the nerve agent by pyridostigmine. ## Antidotes: Pyridostigmine ## Antidotes: MARK I Kit - Contains pralidoxime (600 mg) and atropine (2 mg) self injectors ## Psychological Impact - Psychological impact has been seen after exposure to nerve agents as well as other terrorist attacks. - Post traumatic stress disorder seen in 60% of victims of the Tokyo sarin gas attack at 6 months. - Fear of riding the subway, nightmares, and depression were some of the common symptoms (Kawana N, Ishimatsu S, Kanda K. Psycho-physiological effects of the terrorist sarin attack on the Tokyo subway system. Military Medicine 166(12 Suppl):23–6, 2001 Dec.). ## Experimental Therapies for Nerve Agent Exposure - Exogenous choline esterases to bind the nerve agents - Paroxinases that degrade the nerve agents - Hl-6 thought to work better than pralidoxime for exposure to soman, which ages quickly. HI-6 has been shown to work when it is administered to rats up to 2 hours before exposure (Kassa J, Fusek J. The influence of oxime selection on the efficacy of antidotal treatment of soman-poisoned rats. Acta Medica 45(1):19–27, 2002). ## Helpful Resources - _[http://www.bt.cdc.gov/agent](http://www.bt.cdc.gov/agent)_ - Your regional poison center - Medical Management of Chemical Casualties Handbook (_[http://www.fas.org/nuke/guide/usa/doctrine/army/mmcch/NervAgnt.htm](http://www.fas.org/nuke/guide/usa/doctrine/army/mmcch/NervAgnt.htm)_) ## Acknowledgments - Edwin M. Kilbourne, MD - Joshua Schier, MD

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Douglas Isbell Headquarters, Washington, DC October 5, 1995 (Phone: 202/358-1547) Fred Brown Goddard Space Flight Center, Greenbelt, MD (Phone: 301/286-7277) RELEASE: 95-194 (170) IUE OPERATIONS TRANSFERRED TO EUROPE, ENDING AN ERA After nearly two decades of continuous operations support, NASA has transferred primary control of the International Ultraviolet Explorer (IUE) to a partnership of the European Space Agency (ESA) and the Particle Physics and Astronomy Research Council (PPARC) of the United Kingdom. As part of the U.S. space agency's continuing cost reduction efforts, day-to-day operational control of IUE was fully transferred to ESA on October 1. IUE-related science programs will be combined, and NASA will concentrate on the completion of the IUE data archive. NASA's Goddard Space Flight Center, Greenbelt, MD, has operated the IUE in collaboration with ESA and the PPARC since the spacecraft's launch on Jan. 26, 1978. This arrangement allowed astronomers and astrophysicists in both the U.S. and Europe to make around-the-clock observations using IUE, in much the same way as telescopes at ground- based observatories are operated. The new mission design enables scientists world wide to continue to use the IUE for ongoing science programs. The IUE is a great NASA success story and has had a tremendous impact on the astronomical community, said Dr. Andrea Dupree, the President-Elect of the American Astronomical Society. "The IUE marked the first true space observatory to be used by professional astronomers and students all over the world. The various IUE programs demonstrate superb cooperation among scientists from many different nations to address challenging problems, and the spacecraft was operated with care and ingenuity by NASA. " A past winner of the U.S. Presidential Award for Design Excellence, IUE uses spectrographic instruments to study astronomical and cosmic phenomena visible in ultraviolet light. The observatory has observed nearly 100,000 astronomical sources, including planets, comets, stars and galaxies. The spacecraft was designed for a three-year lifetime. According to Dr. Andrew Michalitsianos, the IUE deputy project manager at Goddard, IUE results have been used as the basis for more than 100 Ph.D. and master's degree theses in the U.S. alone. "IUE has been and continues to be used as a central facility in most multiwavelength observations," said Michalitsianos. "Multiwavelength observation is an important modern approach in astrophysical research. In fact, the forthcoming X-Ray Timing Explorer mission is counting on the continued availability of IUE -- not to mention some observers using the Hubble Space Telescope," he said. Some of IUE's discoveries and research results are: Comparative studies of aurorae on Jupiter, Saturn, and Uranus Discovery of molecular sulfur emission from the nucleus of a comet Identification of many stars with magnetic fields and surface activity Identification of previously unknown stellar companions to cool stars Measurements of stellar "winds" Mapping of low-density gas bubbles around the Sun and nearby stars Supernova observations in the Large Magellanic Cloud (a nearby galaxy) Measurements of the composition of planetary nebulae Discovery of hot (180,000 degrees Fahrenheit) gas surrounding the Milky Way Estimates of active galaxy sizes Even after almost 18 years of operation, the demand for IUE observation time exceeds the time available. "More than 2,000 astronomers have used the NASA observatory at Goddard and the ESA observatory in Spain as guest observers," Michalitsianos said. "The results of these observations have been described in more than 3,000 scientific papers that appeared in major peer-reviewed astronomical journals by the end of 1994. This makes IUE the most productive and successful telescope of all time." More information on IUE is available on the Internet at URL: http://iuewww.gsfc.nasa.gov/iuedac/iuedac_homepage.html -end- NASA press releases and other information are available automatically by sending an Internet electronic mail message to domo@hq.nasa.gov. In the body of the message (not the subject line) users should type the words "subscribe press- release" (no quotes). The system will reply with a confirmation via E-mail of each subscription. A second automatic message will include additional information on the service. Questions should be directed to (202) 358-4043.

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502570

# Presentation: 502570 ## Preventing Chronic Homelessness What Works? - Deborah Dennis - Policy Research Associates, Inc. - Delmar, NY - Policy Academy on Chronic Homelessness - Olympia, WA - April 29, 2004 ## Why Address Prevention? - Until we address the role of mainstream systems in creating and resolving chronic homelessness, we will never be able to end chronic homelessness. ## Why Focus on Mainstream Programs? - People who experience chronic homelessness are heavy users of expensive mainstream services. - Levels of disability and poverty make them likely to be eligible for mainstream programs. - Approaches that work for this subgroup may make mainstream services more accessible for others. ## How Can Chronic Homelessness Be Prevented? - Identify risk and protective factors to help prevent chronic homelessness among persons at risk. - Use evidence-based practices to prevent chronic homelessness. ## Some Individual Risk Factors... - Chronic health conditions, mental illness and/or substance use disorders - Limited or no social support networks - Domestic violence and other victimization or trauma-related factors - Family instability as a child (out-of-home placement, family homelessness, incarceration of a parent) - Combat experiences for veterans. ## Some System-Based Risk Factors... - Lack of permanent affordable housing - Very low or no income - Discharge from jail, prison, hospitals, detox and residential substance abuse treatment, and foster care. ## Discharge from Institutions - Data from Massachusetts Housing and Shelter Alliance showed that people coming into shelters were well-known to the state’s mainstream systems: - 18-24 year olds aging out of state services - Ex-offenders released from state or county facilities with no place to go - People from detox at the beginning of their recovery - People with mental or serious physical illnesses released directly from a hospital. ## Discharges from Jails and Prisons - Arrangements for housing are seldom considered - Benefits have often been lost - Inmates with mental illness (16% of all inmates nationally) incarcerated for more than a year must reapply for SSI benefits upon release - Often lose Medicaid upon incarceration even though federal regulations allow for suspension rather than termination of this benefit. ## Transition from Foster Care - People who are chronically homeless are 7-13 times more likely to have had an out of home placement than the general population (Burt et al., 2001). - 30 percent of youth leaving foster care experience homelessness within 2 years of discharge (Schwab Foundation, 2003). ## Evidence-Based Prevention Practices - Few evidence-based interventions - Several promising practices - Housing subsidies - Eviction prevention - Discharge/transition planning. ## Housing Subsidies - Studies find housing subsidies one of the most effective interventions to prevent housing loss. - Receipt of subsidized housing is the primary predictor of housing stability among homeless families. (Shinn and Weitzman) - SAMHSA’s multi-site homelessness prevention study found access to housing subsidies or supported housing was the strongest predictor of residential stability for people with mental illnesses or co-occurring disorders. ## A State Example... *Missouri *Department of Mental Health provides funding for temporary vouchers for people with serious mental illness who are on the Section 8 waiting list. *Minnesota* Department of Human Services has had a similar program since 1992 that is now providing $1.7M in temporary rental vouchers per year. ## Eviction Prevention - Promising practices include: - Representative payees and other money management interventions - Emergency rent and utility payments - Landlord/tenant mediation services - Respite for family caregivers. ## Local and State Examples... *Pathways to Housing* in NYC, a housing first model, uses money management―one of two key tools (the other being ACT teams)―to keep people who were chronically homeless in housing of their choice. - In *Minnesota*, the legislature created a $424K annual fund to pay rent, mortgage and/or utilities for up to 90 days while an individual with serious mental illness is in inpatient psychiatric or substance abuse treatment. - The *Alaska* Department of Mental Health and Developmental Disabilities provides flexible service funds of up to $2,000 per person for any expense needed to keep a client in community-based housing. ## What Mainstream Systems Can Do - Adopt protocols to assess housing needs and resources of clients - Adopt practices to help individuals and families in crisis retain their housing through financial assistance, mediation or case management. ## Discharge or Transition Planning... - Must be linked to affordable housing and aftercare - Is a strategy to prevent chronic homelessness - Is critical for people with health and behavioral health disorders. ## Systems Change Examples... *Massachusetts* uses homelessness and housing outcomes to evaluate contractors in their mental health, corrections, youth services, and substance abuse treatment systems. These outcomes are then tied to contract penalties and incentives in each system. *Philadelphia* is applying this same principle with shelter providers. Shelters are given incentives to place people in housing and provide services to keep them there―shelter beds have decreased by 5% annually as a result. ## Program-level Examples... *Critical Time Intervention and Short-term ACT Services**―*are intensive clinical services for 6-12 months during and following transition from shelters, hospitals or jails. Proven effective in maintaining residential stability and linkage to mainstream treatment and support services *after* intervention is scaled back or withdrawn. *Respite Care**―*Boston Health Care for the Homeless operates 90 recuperative care beds that bridge the period following hospital discharge for people who are homeless. Similar effort in Savannah, GA, is estimated to have saved two local hospitals $1.8 million, more than doubling their individual $250K investments. *Transition Planning in Corrections***emphasize access to housing and clinical case management upon release. *Youth in Transition**―*federal Independent Living Program funds can be used to provide housing and services for youth transitioning from foster care until they reach the age of 21. ## Conclusions... - Preventing chronic homelessness is not the same as ending poverty or promoting economic self-sufficiency. ## Conclusions... - Providing housing subsidies that target the worst-case housing needs is an effective strategy. - Eviction prevention programs and discharge planning efforts are promising practices. - Services to support people who have been chronically homeless in housing―particularly during periods of transition are critical.

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709348

# Presentation: 709348 ## VIRTUAL ACCELERATOR MANAGER ## Motivation - At this time we have “Trace3D”,”Parmila”, and “Transport” as existing and possible engines for virtual accelerator. - Common: - FORTRAN - Input ASCII file with input parameters - Tracking particles or beam center through the lattice elements at a stage of dynamics calculation - Having huge main program - We can write one C/C++ and FORTRAN interface to these programs that will deal with the CAS. We can call this interface as “Virtual Accelerator Manager”. It enable users to work only with FORTRAN code of engines during developing the virtual accelerator. ## The Structure of the Model - LAN - Portable CAS - with real and model dependent PVs - CA client - with an interface to - the FORTRAN code - CA Client - MATLAB or JAVA - scripts with CA - commands - Trace3D, Parmila, or Transport ## The Manager Structure - The Class baseFileTranslator - Reads input file, change it and write as a temporary input file - caDefinition.cc - CA functions and structures - CInterface2model.cc - C interface to the FORTRAN subroutines and functions - The Class modelManager.cc - Puts and gets PVs from CAS - Starts and restarts the model - Modified FORTRAN Code of the Model ## File Translator - line 1 ========= 0.111 === - line 2 ========= MEBT_Mag:DCH_1:FieldSet === - line 3 ========= 0.333 === - line 4 ========= 0.444 === - Input - File: - line 1 ========= 0.111 === - line 2 ========= 0.00407 === - line 3 ========= 0.333 === - line 4 ========= 0.444 === - Output - File: - MEBT_Mag:DCH_1:FieldSet MEBT_Mag:DCH_1:FieldRB 0.00407 - MEBT_Mag:DCH_4:FieldSet MEBT_Mag:DCH_4:FieldRB 3700.0 - MEBT_Mag:DCH_5:FieldSet NULL 0.099403 - MEBT_Mag:DCH_10:FieldSet MEBT_Mag:DCH_10:FieldRB 0.05 - MEBT_Mag:DCH_11:FieldSet NULL 0.040178 - According to the file: ## The C Interface to the FORTRAN Subroutines - //Calls main subroutine in the Model initial code - extern "C" void submain_(const char* file_name, int length_of_name); - //Disables output for the Model code - extern "C" void dsblout_(); - //Permits output for the Model code - extern "C" void prmtout_(); - //Initializes interface variables - extern "C" void intrini_(); - //Restores information for interface variables to repeat run - extern "C" void intrres_(); - //Defines how to calculate PV values inside the model - extern "C" void pvinit_(int* i_cell,int* i_type); - //Returns the calculated values of PVs - extern "C" void pvget_(int* i_n, int* i_cell, int* i_type, double* value); ## FORTRAN Interface Subroutines - C+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ - C-----These subroutines are called from C to manage the Model - C+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ - subroutine submain(p_in_file) - c---------------------------------------------------- - c-----p_in_file - name of input file for Model - c---------------------------------------------------- - implicit real*8 (a-h,o-z) - character p_in_file*64 - call mainParmila(p_in_file) - return - end - subroutine pvget(i_n,i_cell,i_type,value) - c---------------------------------------------------------------------- - c-----returns the output PV calculated values - c-----i_status = 0 means the value was not calculated - c---------------------------------------------------------------------- - implicit real*8 (a-h,o-z) - parameter (max_n_pv=100) - common - */com_int_2/ n_pv,i_cellA(max_n_pv), - * i_typeA(max_n_pv), - * i_status(max_n_pv) - */com_int_3/ pv_val(max_n_pv) - value = pv_val(i_n) - return - end ## FORTRAN Interface Subroutines (next) - subroutine pv_setup(i_cell) - implicit real*8 (a-h,o-z) - c---------------------------------------------------------------------- - c-----calculates the output PV values - c-----i_status = 0 means the value was not calculated - c---------------------------------------------------------------------- - parameter (max_n_pv=100) - common - */com_int_2/ n_pv,i_cellA(max_n_pv), - * i_typeA(max_n_pv), - * i_status(max_n_pv) - */com_int_3/ pv_val(max_n_pv) - do i = 1,n_pv - if(i_cellA(i) .eq. i_cell) then - i_type = i_typeA(i) - i_status(i) = 0 - select case (i_type) - case (1) - C---------this place for pv_val(i) calculation as x BPM position - pv_val(i) = x_bpm_f() - i_status(i) = 1 - case (2) - C---------this place for pv_val(i) calculation as y BPM position - pv_val(i) = y_bpm_f() - i_status(i) = 1 - endselect - endif - enddo - return - end ## Main Program of Virtual Accelerator ** ****int counter = 0; int i_start = 0; double time_delay = 0.5;** ** ****modelManager* manager = new modelManager::modelManager();** ** ****manager->initialization( ****file_in_parmila, file_in_param, file_calc_PV****);** ** ****manager->defineNameOfTmpFile("parmila_input.tmp");** ** ****manager->defineNameOfStartPV("MODEL:Parmila:SimStart");** ** ****manager->sendInitialPVtoCAS(time_delay);** ** ****manager->disableModelOutGraph();** ** ****manager->startModel();** ** ****//Main loop for calculation** ** ****while(1){ ** ** ****i_start = manager->getStartPV(time_delay);** ** ****if(i_start == 1){** ** ****manager->getPVfromCAS(time_delay);** ** ****manager->startModel(); ** ** ****manager->sendPVtoCAS(time_delay);** ** ** ** ****i_start = 0;** ** ****manager->setStartPV(i_start,time_delay);** ** ****counter++;** ** ****cout << "The Parmila's run N = "<< counter <<endl;** ** ****}** ** ****}** ## How to Find the Source Code - On Linux1 - /work2/ca_client_Parmila/ - Here you can find source files, Make file, and examples

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788753

# Presentation: 788753 ## TIME IS LIFE - Update of diagnosis and - treatment of - Acute Coronary Syndromes (ACS) - Stephanie Allen, MSN, MS, RN Nurse Educator - Doreen A. Mays, NP, MS, Program Manager, Urgent Care - Kathleen Smith, RN Case Manager, Cardiology - Kathleen Woods, RN, MSN, NP Clinical Cardiology **D****EPARTMENT OF ****V****ETERANS ****A****FFAIRS** **Hudson Valley Health Care System**** ** **Montrose and Castle Point Medical Centers** ## Objectives - Apply knowledge to effectively identify and treat veterans with signs and symptoms of Acute Coronary Syndrome - Increase knowledge of the VA’s _Time is Life_ Heart Attack Program in order to reinforce the education of patients in: - Recognizing signs and symptoms of a heart attack - Calling 911 - Preparing an action plan in the case of a heart attack ## Objectives - Recognize the importance of timely interventions for the diagnosis and treatment of ACS. ## Acute Coronary Syndrome * *_Definition_* - ACS includes myocardial infarction (MI) and the various patterns of *unstable* angina: new-onset angina, rest angina, or crescendo-pattern angina (more frequent, prolonged, or severe episodes in a patient with known angina). * * *These entities should be identified quickly so that immediate treatment to prevent MI or salvage the myocardium can be initiated. ## Did You Know? - 931,108 people died in 2001 from acute coronary syndrome (AHA, 2004) - Mortality related to Acute Coronary Syndromes is divided almost equally between males and females - More than half of these deaths occurred suddenly, within one hour of the onset of symptoms and outside of the hospital setting ## Study Reported in The New England Journal of Medicine - The VA contracted with researchers from the Harvard Medical School, Price Waterhouse Coopers, IBM, and the Lewin Group to evaluate outcomes of patients treated for heart attacks. The study used administrative data to compare mortality data for VA and Medicare patients who had suffered heart attacks. ## New England Journal StudyResults - From 1997-1999, there was a statistically significant higher mortality rate among VA patients at 30 days after their heart attack and at 1, 2, and 3 year points. ## New England Journal StudyResults - Veterans were less likely than Medicare patients to undergo invasive cardiac procedures such as angiography, angioplasty and surgery. - On average, veterans traveled twice as far for VA cardiac care compared to Medicare patients. ## We can MAKE A DIFFERENCE !!! _**Goals for patients with **_ _**Chest Pain**_ - 1. Immediate assessment of patients - with chest pain. - 2. Timely initiation of treatment. - 3. Rapid determination of need for transfer to another facility. ## CBOC PATIENTS - Call 911 - Obtain 12 lead EKG - EMT’s will administer medications and treatments per their protocol - Determine cardiac rhythm on monitor. - Labs – CBC, SMA7, CK-MB, PT, PTT, U/A - Troponin with results within 1 hour of draw - Aspirin 325 mg chewable, if no ASA taken in - past 3 hours. - Nitroglycerine 0.4 mg sl if BP>100 systolic. - Repeat x 2 five minutes apart if needed. - Insert saline lock. - Monitor vital signs q 15 minutes. - Morphine IV as per provider if chest pain not relieved by nitroglycerine. - Beta blockers as per provider if deemed beneficial. - Orders for Immediate Treatment ## If EKG shows – ST elevation or new LBBB - Provider to call ER to obtain accepting physician: - Vassar- 454-8500 for Castle Point pts - HVH- 737-9000 for Montrose pts - Initiate immediate ACLS transport. - Start lovenox 1mg/kg sq if no contraindications. ## If EKG shows - No ST elevation: - Determine TIMI Score - Page cardiology at Castle Point for consultation or call Manhattan VA during WHEN hours. - Determine disposition based on provider assessment, and TIMI score recommendations.* ** * ## What is a TIMI Score? - TIMI is the Thrombolysis in Myocardial Infarction risk score. This score is a simple prognostic tool used to categorize a patient’s risk of death and ischemic events, and provides a basis for therapeutic decision-making. ** **_**Score **_** **_**Risk Factor**_ - 0-1 4.7% - 2 8.3% - 3 13.2% - 4 19.9% - 5 26.2% - 6-7 40.9% ## TIMI Score - ___ Age over 65 - ___ 3 or more risk factors for coronary disease* - ___ Established CAD - ___ 2 or more angina events in past 24 hours - ___ Use of ASA in past 7 days - ___ Elevated enzymes - ___ ST depression _>_ 0.5mm - Number of checks = TIMI Score ______ - Risk Factors = hypertension, cigarette smoking, obesity, physical inactivity, dislipidemia, DM, micro-albuminuria, - GFR <60/min, family h/o premature CVD ## “Time is Life” Heart Attack Education Program - This program was developed to assist clinicians in encouraging veterans to develop a personal acute myocardial infarction survival plan, and to seek medical attention as quickly as possible after symptoms first appear. ## Key Objectives of the Patient Education Program - Recognize the signs and/or symptoms of a heart attack - Call 911 for initiation of early treatment and emergency transport to the nearest hospital facility - Develop a personal survival plan ## Recognize the Signs and/or Symptoms of a Heart Attack - Reinforce the common warning signs (chest pain/pressure/squeezing, neck/shoulder/ back/arm pain, chest discomfort with lightheadedness/fainting/ sweating/ nausea/vomiting/shortness of breath, or chest discomfort with feeling of doom or imminent death) - Instruct that women may also experience fatigue, shortness of breath without chest pain, or lower chest pain ## Call 911 for theInitiation of Early Treatment - If the patient is having signs/symptoms of a heart attack, instruct him/her: - Don’t delay - Call 911 immediately - Tell the ambulance driver s/he is having chest pain - Take 1 regular aspirin unless allergic - Don’t drive to the hospital ## Develop a Personal Survival Plan - Emphasize the need for the patient to know the importance of: - Learning the heart attack warning signs - Reducing the risks of heart attack - Completing a Survival Plan Wallet Card - Sharing the plan with family and friends ## Modalities of Patient Education - Patients will have access to and be exposed to the “Time is Life” Education Program through: - Clinicians - “Combat Heart Attack and Survive: Time is Life” video - “Time is Life” brochure, poster, and wallet card - Risk Assessment Action Plan ## WE CAN MAKE A DIFFERENCE !!! - Remember, for patients with chest pain: - Start oxygen, get a 12-lead EKG and have it read within 10 minutes! - If ST changes are present, initiate immediate transfer to nearest private hospital. - If no ST changes are present, include the TIMI score in determining disposition of the patient. - Educate your patients on action to take if chest pain occurs.

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722228

CHAPTER 400 - INVESTIGATIONS **(400)- 420 [Foreign Language Award Program]{.underline}** 1. [Overview.]{.underline} This Section establishes TIGTA policy and procedures for granting cash awards to law enforcement officers who possess and make substantial use of one or more foreign languages in the performance of their official duties. This Section contains information regarding: - [Authorities](#Authorities) - [Definitions](#Definitions) - [Qualifying Foreign Languages](#QualifyingForeignLanguages) - [Foreign Language Capability](#ForeignLanguageCapability) - [Foreign Language Proficiency Testing](#ForeignLanguageProficiencyTesting) - [Eligibility Requirements](#EligibilityRequiriements) - [Cash Award Amounts](#CashAwardAmounts) - [Employee Responsibilities](#EmployeeResponsibilities) - [Manager Responsibilities](#ManagerResponsibilities) - [Approving Official Responsibilities](#ApprovingOfficialResponsibilities) - [Reconsideration Procedures](#ReconsiderationProcedures) - [Program Timetable](#ProgramTimetable) 420.1.1 [Acronyms Table.](../../../../../../../../I:/chapter400-inv/acronyms-table/acronyms-table.doc) 420.2 []{#Authorities .anchor}[Authorities.]{.underline} The following authorities authorize payment of a cash award and establish policy and procedures for granting a cash award to law enforcement officers who possess and substantially use one or more foreign languages in the performance of official duties: - [5 U.S.C. §§ 4521- 4523](http://assembler.law.cornell.edu/uscode/search/display.html?terms=4521&url=/uscode/html/uscode05/usc_sec_05_00004521----000-.html) - Treasury Personnel Manual, Chapter 451.1 420.3 []{#Definitions .anchor}[Definitions.]{.underline} The following are definitions of terms used in the application of the TIGTA Foreign Language Award Program (FLAP). **Law Enforcement Officer** -- a law enforcement officer as defined by [5 U.S.C. § 8331(20)](http://assembler.law.cornell.edu/uscode/html/uscode05/usc_sec_05_00008331----000-.html) and [5 U.S.C. § 8401(17)](http://assembler.law.cornell.edu/uscode/html/uscode05/usc_sec_05_00008401----000-.html). TIGTA employees eligible for this award are employees in the ES/GS-1811 series. **Basic Pay** -- the rate of pay fixed by law or administrative action for the position held by an employee before deductions and exclusive of additional pay of any kind. Basic pay **does not** include: - Overtime pay - scheduled or administratively uncontrollable - Law Enforcement Availability Pay (LEAP) - Sunday or holiday pay - Night differential - Post differentials or cost of living allowances - Interim geographic adjustments - Special pay adjustments for law enforcement officers in selected cities under § 404 of the Federal Law Enforcement Reform Act of 1990, [5 U.S.C. § 5305, note](http://assembler.law.cornell.edu/uscode/search/display.html?terms=5305&url=/uscode/html/uscode05/usc_sec_05_00005305----000-notes.html). - Locality-based comparability payments for GS employees in locality pay areas Basic pay **does** include the higher minimum rates for law enforcement officers under § 403 of the Federal Law Enforcement Reform Act of 1990, [5 U.S.C. § 5305, note](http://assembler.law.cornell.edu/uscode/search/display.html?terms=5305&url=/uscode/html/uscode05/usc_sec_05_00005305----000-notes.html) and the special salary rates. The foreign language cash award is computed on a Special Agent's (S/A) basic pay in effect during the last pay period of the calendar year in which the S/A's foreign language use is being reviewed. The cash award is considered part of an S/A's annual aggregate pay and therefore is subject to a limitation. Specifically, total aggregate pay cannot exceed the annual rate of basic pay for Level V of the Executive Schedule for any calendar year. The cash award is in addition to basic pay and does not increase a S/A's base salary for purposes of retirement or life insurance. The cash award is subject to income tax withholding. **Possesses a Foreign Language** -- achieving a specified speaking skill level using the Federal Interagency Language Roundtable (FILR) proficiency testing and rating system. To be eligible for an award under the FLAP, S/A's must possess a minimum proficiency rating of S-2 or above. See [420.6.1](#RequestingProficiencyTesting) of this Section for proficiency ratings. **Substantial Use** -- the usage of one or more foreign languages in the performance of official duties for at least 10 percent of the scheduled duty hours in a calendar year. For **full-time** S/A's**,** substantial use equates to 209 hours or more of foreign language use while performing official duties ([e.g.]{.underline} 10 percent of a 2087-hour work year). Use of a foreign language during LEAP hours worked in the same calendar year are included in the computation for substantial use. For **part-time** S/A's**,** substantial use is determined by calculating the percentage of a 40-hour week that a S/A is scheduled to work, and multiplying that percentage by 209 hours (the minimum number of hours a full-time S/A would have to use a foreign language in order to meet the substantial use requirement). For example, a S/A scheduled to work 24 hours per week would have to use a foreign language for 125 hours during the calendar year (24/40 = 60%, 209 x .60 = 125.4 or 125 hours). S/A's who do not meet the full-time or prorated part-time substantial use requirements may not be considered for an award under the FLAP. If a S/A meets these requirements while using a foreign language for official duties for only a portion of the award year ([e.g.]{.underline}, 6 months or 9 months as a result of retiring or resigning), the amount of the award will be prorated based on that portion of the calendar year that the foreign language was used in the performance of official duties. S/A's who do not meet the requirements for a foreign language award ([e.g.]{.underline} incidents of one-time or short term use) may be considered for a Special Act Award. See [Chapter 600, Section 70.9.1](../../../../../../../../I:/chapter600-ms/600-70/chapter600-70.doc#PMPpurp7091051st) of the TIGTA Operations Manual for award guidelines. **Official Duties** - normally relate to the duties and responsibilities described in a S/A\'s position description. Examples include, but are not limited to, the following: - Teaching - Speaking - Reading - Writing - Surveillance - Protection assignments - Conducting or being a witness to an interview - Official public relations work Hours spent learning a foreign language, attending class as a student, or taking the proficiency test to participate in the FLAP are not official duties for the purpose of qualifying for an award in the FLAP. The Deputy Inspector General for Investigations (DIGI) makes the final decision on what constitutes use of a foreign language in the performance of official duties. 4. []{#QualifyingForeignLanguages .anchor}[Qualifying Foreign Languages.]{.underline} Foreign languages that qualify for the FLAP are those recognized as a method of speech and communication by the FILR and are generally not restricted. Sign language where a foreign language is not involved does not qualify for the FLAP. Where English is not the primary language used in performing the S/A's official duties, substantial use of English does not qualify for the FLAP. For example, if Spanish is the primary language used in performing official duties and a S/A speaks English only occasionally during the performance of his/her responsibilities, the S/A cannot receive an award for use of the English language under the FLAP. Additionally, using a foreign language as a matter of personal preference rather than as a work requirement does not qualify for an award. The DIGI makes the final decision on whether the use of a foreign language in the performance of official duties qualifies for the FLAP. 5. []{#ForeignLanguageCapability .anchor}[Foreign Language Capability.]{.underline} S/A's applying for the FLAP must report their foreign language capability to their Special Agent in Charge (SAC) through their Assistant Special Agent in Charge (ASAC). S/A's must complete a Foreign Language Award Program Application (Form OI 9731) indicating each language for which the S/A wishes to be tested and recognized as well as a brief self-assessment of the estimated proficiency level for each foreign language identified. The abbreviated descriptions of the foreign language proficiency levels attached to the application may be used as a guide for writing the self-assessment or the S/A may identify the speaking level ([e.g.]{.underline} speaking S-2+, S-3) that is closest to the S/A's estimated skill level. S/A's applying for the FLAP who already possess FILR proficiency ratings must identify the following on the Form OI 9731: - Foreign language - Proficiency rating - Date and place of last rating Attach a copy of the test results to the Form OI 9731, if available. The completed Form OI 9731 is filed in the S/A's or ASAC's Employee Personnel File (EPF). 4. []{#ForeignLanguageProficiencyTesting .anchor}[Foreign Language Proficiency Testing.]{.underline} To be eligible for the program, S/A's must demonstrate their foreign language(s) proficiency by attaining a tested FILR foreign language proficiency rating of at least a Speaking Level 2 (S-2). S/A's without a current FILR rating will be tested in the foreign language(s) for which they claim proficiency. S/A's who have been tested must have a current FILR proficiency rating based on the testing schedule listed in [420.6.3](#TestingSchedule) of this Section. Proficiency testing is required to participate in the FLAP. An outside testing agency conducts the proficiency testing. The testing agency uses the FILR proficiency testing/rating system as required by Treasury Personnel Manual, Chapter 451.1 and when necessary, is responsible for justifying the validity and reliability of the testing procedures. All speaking proficiency tests are conducted over the telephone and are taped by the testing agency. No cellular telephones shall be used for testing purposes. The National Training Program Coordinator provides the test result to the SAC. The SAC provides the S/A with a copy of the test result through his/her ASAC. The test result is used to determine eligibility for participation in the FLAP. The SAC notifies the Performance and Results Information System (PARIS) Coordinator of the S/A's certification. The PARIS Coordinator updates the S/A's PARIS employee record to indicate the certification, the foreign language the S/A is certified to use, and the expiration date of the certification. 420.6.1 []{#RequestingProficiencyTesting .anchor}[Requesting Proficiency Testing.]{.underline} The SAC must coordinate testing through the National Training Program Coordinator. During the first quarter of each year, the SAC of each division must submit a Request, Authorization, Agreement and Certification of Training (SF 182) that identifies all S/A's in the division who request to be tested or require retesting. See the retest schedule in [420.6.3](#TestingSchedule) of this Section. Each SF 182 must contain a roster with the following information for each S/A to be tested: - S/A name - SSN - Office location - Test type - speaking proficiency - Foreign language to be tested Submit the completed SF 182 with attached roster and Privacy Act statements to the National Training Program Coordinator for submission to, payment of, and scheduling with the testing agency. The National Training Program Coordinator notifies the SAC of the test schedules for their divisions. 420.6.2 []{#ProficiencyRatings .anchor}[Proficiency Ratings.]{.underline} The following are abbreviated descriptions of the speaking skill levels established by the FILR: > *[Speaking 0, No Proficiency (S-0)]{.underline}* -- Employee is unable > to function in the spoken language. Oral production is limited to > occasional isolated words. Has essentially no communicative ability. > > *[Speaking 0+, Memorized Proficiency (S-0+)]{.underline}* -- Employee > is able to satisfy immediate needs using rehearsed utterances. Shows > little real autonomy of expression, flexibility or spontaneity. Can > ask questions or make statements with reasonable accuracy only with > memorized utterances or formulae. Attempts at creating speech are > usually unsuccessful. > > *[Speaking 1, Elementary Proficiency (S-1)]{.underline}* -- Employee > is able to satisfy minimum courtesy requirements and maintain very > simple face-to-face conversations on familiar topics. > > *[Speaking 1+, Elementary Proficiency, Plus (S-1+)]{.underline}* -- > Employee can initiate and maintain predictable face-to-face > conversations and satisfy limited social demands. > > *[Speaking 2, Limited Working Proficiency (S-2)]{.underline}* -- > Employee is able to satisfy routine social demands and limited work > requirements. Can handle routine work-related interactions that are > limited in scope. > > *[Speaking 2+, Limited Working Proficiency, Plus (S-2+)]{.underline}* > -- Employee is able to satisfy most work requirements with language > usage that is often, but not always, acceptable and effective. The > individual shows considerable ability to communicate effectively on > topics relating to particular interests and special fields of > competence. > > *[Speaking 3, General Professional Proficiency (S-3)]{.underline}* -- > Employee is able to speak the language with sufficient structural > accuracy and vocabulary to participate effectively in most formal and > informal conversations on practical, social and professional topics. > > *[Speaking 3+, Professional Proficiency, Plus (S-3+)]{.underline}* -- > Employee is often able to use the language to satisfy professional > needs in a wide range of sophisticated and demanding tasks. > > *[Speaking 4, Advanced Professional Proficiency (S-4)]{.underline}* -- > Employee is able to use the language fluently and accurately on all > levels normally pertinent to professional needs. > > *[Speaking 4+, Advanced Professional Proficiency, Plus > (S-4+)]{.underline}* -- Employee's speaking proficiency is regularly > superior in all respects, usually equivalent to that of a > well-educated, highly articulate native speaker. > > *[Speaking 5, Functionally Native Proficiency (S-5)]{.underline}* -- > Employee's speaking proficiency is functionally equivalent to that of > a highly articulate, well-educated native speaker and reflects the > cultural standards of the country where the language is natively > spoken. 420.6.3 []{#TestingSchedule .anchor}[Testing Schedule.]{.underline} All applicants will be tested as they enter the program and are retested according to their FILR rating: > Less than S-2 - may be retested on a yearly basis > > S-2 through S-3+ - must be retested every two years > > S-4 and above - must be retested every four years 4. []{#EligibilityRequiriements .anchor}[Eligibility Requirements.]{.underline} S/A's who apply to participate in the FLAP must meet the following eligibility requirements to be admitted into the FLAP: - A permanent full-time or part-time S/A. - A "Successful" rating on their most recent rating of record. The ASAC or SAC must confirm this requirement before a S/A is scheduled for testing or, if the S/A has a current FILR proficiency rating, before the S/A is admitted into the FLAP. - Attained a tested proficiency rating of at least a Speaking Level 2 (S-2). See proficiency rating definitions in [420.6.2](#ProficiencyRatings) of this Section. 420.8 []{#CashAwardAmounts .anchor}[Cash Award Amounts.]{.underline} Pursuant to [5 U.S.C. § 4523](http://assembler.law.cornell.edu/uscode/search/display.html?terms=4523&url=/uscode/html/uscode05/usc_sec_05_00004523----000-.html), the cash award is based on both proficiency and substantial use of a foreign language in the performance of official duties. The amount of the award may be up to five percent of basic pay for the calendar year. In order to improve proficiency and use, S/A's with a higher proficiency rating level and/or greater use in the performance of official duties may be eligible for larger awards. **All awards are subject to the availability of funds.** 420.8.1 []{#SingleForeignLanguageAwards .anchor}[Single Foreign Language Awards.]{.underline} Single foreign language award percentages are computed based on the table below. To compute an award percentage, identify the tested FILR speaking skill level and the number of qualifying hours of annual foreign language use. Use the table below to determine the award percentage. For example, a full-time S/A with a speaking proficiency rating of S-2+ and 390 hours of foreign language use may be eligible for an award of 2 percent of his/her basic pay. ### CASH AWARD COMPUTATION TABLE +------------+---------------+-----------+-------------+------------+ | | **Qualifying | | | | | | Hours for | | | | | | Foreign | | | | | | Language | | | | | | Awards** | | | | | | | | | | | | **and Awards | | | | | | Percentages** | | | | +------------+---------------+-----------+-------------+------------+ | **Tested | **Level 1** | **Level | **Level 3** | **Level | | Skill** | | 2** | | 4** | | | 209-311 | | 416-519 | | | **Levels** | | 312-415 | | 520+ | | | hours used | | hours used | | | | | hours | | hours used | | | | used | | | +------------+---------------+-----------+-------------+------------+ | S-3 & | 2% award | 3% award | 4% award | 5% award | | above | | | | | +------------+---------------+-----------+-------------+------------+ | S-2 & S-2+ | 1% award | 2% award | 3% award | 4% award | +------------+---------------+-----------+-------------+------------+ 420.8.2 [Multiple Foreign Language Awards.]{.underline} S/A's who have qualifying proficiency ratings and substantial use in more than one foreign language, must submit supporting documentation for each foreign language used. An award percentage is computed for each foreign language. The award percentages for each foreign language are added together to determine the total award percentage, however, the total award may not exceed five percent of the S/A's basic pay for the calendar year. 420.8.3 [Part-Time Special Agent Awards.]{.underline} A part-time S/A who meets the eligibility requirements shall also be considered for a foreign language award. First, the ASAC must determine if the S/A's hours of foreign language use for the calendar year meet the part-time substantial use requirement as defined in [420.3](#Definitions) of this Section. If the hours of use do not meet the part-time substantial use requirement, then the S/A is not eligible for an award. If the part-time substantial use requirement is met, the award percentage is computed by determining the appropriate range of qualifying hours in the table in [420.8.1](#SingleForeignLanguageAwards) of this Section and prorating the hours by the percentage calculated for the part-time substantial use requirement. For example, a S/A who works 16 hours per week, with a S-2 speaking proficiency rating and 110 hours of foreign language use for the calendar year, the award percentage shall be calculated as follows: - Determine the percentage of the work week for the part-time S/A\ (e.g. 16 hours divided by 40 hours = 40%). - Prorate the first range of qualifying hours in the table to determine where the 110 hours of foreign language use will fall by multiplying 209 and 311 hours by 40% (209 hours x .40 = 83.6 or 84 hours; 311 hours x .40 = 124.4 or 124 hours). The prorated range becomes 84-124 hours. Since the S/A's 110 hours of foreign language use falls within this level, no further calculations are required. If the hours of foreign language use exceed the first level, prorate the second and third levels, as necessary. - Apply the qualifying prorated hours and the S/A's S-2 tested proficiency rating to the table. The S/A may be eligible for an award of one percent of basic pay for the calendar year. 420.8.4 [Development and Maintenance Costs.]{.underline} Foreign language training, development, and/or maintenance costs will not be deducted from foreign language award amounts. 420.9 []{#EmployeeResponsibilities .anchor}[Employee Responsibilities.]{.underline} Since the amount of the award depends on the foreign language proficiency rating and substantial use in the performance of official duties for the calendar year, the number of hours of foreign language use must be verifiable and documented. S/A's who participate in the FLAP must document their foreign language use in their bi- weekly PARIS time reports. The hours of foreign language use must be entered in the "FL" column of the PARIS time report. The foreign language hours are the total number of hours a foreign language was used for specific activities. Foreign language hours are a portion of the Regular and LEAP hours worked each day. S/A's must also document the official duties for which the foreign language was used by entering the activities in the "Comments" column of the PARIS time report. If a S/A is tracking use of two or more foreign languages, in addition to documenting the activity in the "Comments" column, he/she must also document the foreign language used and the number of hours the foreign language was used for each activity. 420.10 []{#ManagerResponsibilities .anchor}[Manager Responsibilities.]{.underline} ASAC's and SAC's must review and approve authorized foreign language use that is documented in the bi-weekly PARIS time report. Use the foreign language PARIS time report as the supporting documentation for calendar year-end FLAP award recommendations. Within 30 days following the end of each calendar year, initiate FALP award recommendations using HR Connect and forward to the SAC or appropriate Assistant Inspector General for Investigations (AIGI) for approval. Use the following procedures to submit the FLAP award through HR Connect: - **Type of Award:** Foreign Language (Law Enforcement) - **Award Amount** - **Account Code:** Current fiscal year DIGI accounting code ```{=html}  ``` - **Justification:** "Other" and in the Justification Box, prepare a short justification that includes the following information: ```{=html}  ``` - Why the award is being recommended. - The S/A's certification to participate in the FLAP. - The number of foreign language hours as documented in approved > bi-weekly PARIS time reports. - Any special projects or enhancements to investigations in which the foreign language was used. - **Comments:** Enter any additional information the Bureau of Public Debt (BPD) should be aware of in processing the award. - Sign the award recommendation as Initiating Official. - Attach the applicable PARIS time reports. The SAC retains a copy of each award recommendation. 420.11 []{#ApprovingOfficialResponsibilities .anchor}[Approving Official Responsibilities.]{.underline} The SAC is the approving official for award recommendations submitted for a S/A. The appropriate AIGI is the approving official for award recommendations submitted for an ASAC. The SAC must certify the availability of award funds with the Office of Investigations National Budget Coordinator. After review, approval and certification of funds, the SAC or AIGI submits the award through HR Connect for processing by the BPD. The SAC forwards a copy of the approved award package to the respective ASAC for retention in the S/A's EPF or for ASAC's, retains a copy in the ASAC's EPF. The ASAC is responsible for ensuring the S/A receives a copy of the award package. 430.12 []{#ReconsiderationProcedures .anchor}[Reconsideration Procedures.]{.underline} Since an outside testing agency administers the foreign language proficiency test, test results may not be grieved. If a S/A disagrees with the test result and the SAC cannot immediately resolve the disagreement, the S/A can request that the testing agency conduct a formal review of the test result in dispute. The testing agency will issue a second opinion on the test results. If the S/A still disagrees with the test results, the S/A will be scheduled for retesting on the foreign language for which the test result is in dispute. The testing agency must conduct the retest. The retest rating is the S/A's official rating and cannot be disputed. The S/A may be retested according to the testing schedule in [420.6.3](#TestingSchedule) of this Section. S/A's who disagree with the number of hours certified by the ASAC and SAC, or the hours approved by the AIGI, may submit requests for reconsideration. The S/A must state the disagreement in writing and submit it to his/her ASAC within 15 days of the S/A becoming aware of the decision with which he/she disagrees. The S/A must state the reasons and facts for his/her disagreement and must attach any available evidence or documents that support his/her request. Once foreign language use and/or testing issues have been resolved, the amount of the cash award will be determined by using the computations contained in [420.8](#CashAwardAmounts) of this Section. Any errors in mathematics or in applying the computation table must be immediately rectified. 420.13 []{#ProgramTimetable .anchor}[Program Timetable.]{.underline} # January: ASAC must initiate award recommendations for S/A's for the previous calendar year to the SAC. The SAC must initiate award recommendations for ASAC's. January -- February: SAC or appropriate AIGI reviews and approves award recommendations. After funds have been certified and awards approved, the SAC forwards awards recommendations to BPD for processing. A copy of the award package is sent to the S/A's ASAC for retention in the S/A's EPF. A copy of an ASAC's award package is retained by the SAC in the ASAC's EPF. January -- March: New applicants are tested or current participants are retested as required by the proficiency rating levels and retesting schedule. January - December: S/A's and ASAC's approved to participate in the FLAP, track their hours and activities in their PARIS time reports for the current calendar year. The ASAC or SAC approves foreign language hours documented in bi-weekly PARIS time reports. October - December: S/A's may apply for participation in the FLAP by submitting a completed Form OI 9731 to their SAC through their ASAC. ASAC's may apply for participation in the FLAP by submitting a completed Form OI 9731 to their SAC. SAC's submit SF 182's to the National Training Program Coordinator identifying S/A's who require testing or retesting. #

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# Presentation: 728463 - Edward G. Holland - Senior Special Agent - Office of Export Enforcement ## Export Enforcement’s Roles - Protect National Security and Foreign Policy Goals - Preventative and Detection - Investigation and Prosecution - Law Enforcement Cooperation ## Office of Export EnforcementRegions **Boston** **New ** **York** **Washington** **Ft. Lauderdale** **San Jose** **Irvine** **Dallas** **Chicago** - _International Attaches_ - Moscow Beijing - Hong Kong Singapore - Egypt - United Arab Emirates ## Case Examples ## Case Example 1:Miami Export Purchasing Corp. - _EXPORT PURCHASING CORP_ - Case Example 1:Miami Export Purchasing Corp. ## Miami Export Purchasing Corp. - Company in the United Arab Emirates ordered pulsed neutron generators through a automobile export company in Miami, Florida. The generators are controlled under ECCN 3A231. - Miami company applied for a Commerce Department export license. - Stated end-use was for oil well logging, but model ordered was for lab use. ## Miami Export Purchasing Corp. - Commerce initiated a pre-license check through our embassy in the UAE. - U.S. Embassy reported back that the end-user listed on the license did not order the pulsed neutron generators. - Export Enforcement arrested the Miami man that signed the license application for making false statements and conspiring to violate U.S. export control laws. ## Case example 2:Berkeley Nucleonics Corporation ## The indictment alleges that Berkeley Nucleonics Corporation of San Rafael, California, was indicted August 28, 2001, by a federal grand jury on one count of conspiracy in violation of Title 18, United States Code, Section 371 and six counts of violations of Export Administration Regulations regarding exports to India in violation of Title 50, United States Code, **Berkeley Nucleonics Corp** ## Berkeley Nucleonics Corp - Section 1705(b). Berkeley - Nucleonics Corporation ("BNC") and three of its employees solicited business for and knowingly exported nuclear pulse generators and related parts to various entities in India without the export license required by the Department of Commerce ## Berkeley Nucleonics Corp - Both of the entities to which BNC is alleged to have shipped the nuclear pulse generators, Bhaba Atomic Research Center ("BARC") and Nuclear Power Corporation ("NPC"), are divisions of the Government of India's Department of Atomic Energy and—at the time of shipment—were on the Department of Commerce's Entities List. ## In the same indictment, company president David Brown, marketing director Richard Hamilton were each indicted on one count of conspiracy and one count of violating the Export Administration Regulations. Vincent Delfino, former Operations Manager, was also charged with one count of conspiracy and six counts of violating the Export Administration Regulations. **Berkeley Nucleonics Corp** ## Case Example 3 - Case Example 3 - Omega Engineering Inc. ## Omega, a Connecticut company, was indicted on charges it illegally shipped measurement equipment—with potential nuclear use—to Pakistan through a German subsidiary after the Department of Commerce denied an export license. Company claimed the shipment to Pakistan was separate from the license application and did not require a license. - Company claimed the shipment to Pakistan was separate from the license application and did not require a license. **Omega Engineering Inc.** ## Company also claimed the order was made by an intermediary for a Pakistani university and consisted of items for an introductory science class. Company went through every step of the licensing process, including appealing the Intent to Deny letter, appealing the denial, appearing in person at DOC Headquarters, and writing its Congressman. - Company went through every step of the licensing process, including appealing the Intent to Deny letter, appealing the denial, appearing in person at DOC Headquarters, and writing its Congressman. **Omega Engineering Inc.** ## Commerce rejected company’s arguments at each stage of process based on risk of diversion to an unsafeguarded nuclear facility. Some of company’s employees tried to alert senior executives of the employees’ concerns about the export. - Some of company’s employees tried to alert senior executives of the employees’ concerns about the export. **Omega Engineering Inc.** ## Company’s CFO directed that the equipment be shipped. Recently Omega pled to an information charging it with a criminal violation of the IEEPA for exporting commodities to Pakistan through its German subsidiary after being denied an export license to ship directly to the end-user. This case is ongoing. - Recently Omega pled to an information charging it with a criminal violation of the IEEPA for exporting commodities to Pakistan through its German subsidiary after being denied an export license to ship directly to the end-user. - This case is ongoing. **Omega Engineering Inc.**

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# Presentation: 517245 ## FY 1999 Accomplishments - NASA GSFC Code 588 - Advanced Architectures and Automation Branch - Information Systems Center ## Agenda - 588’s Technology Development Milestones - Technology Development Support - Talks and Publications - Awards - Information Sharing - Proposals - New Starts - Next Year’s Infusion & Impact Goals - Success Measures ## 588’s Technology Development Milestones ## NGST Scientist’s Expert Assistant (SEA) ***1999 Infusion*** - Final version of software completed on schedule, with full capabilities as planned - Project credited with effecting a significant change in STScI software development practices and paradigms - SEA work and tools are widely known and respected within the scientific community - SEA VTT and ETC were adopted for operational use by the STScI for HST Cycle 9 Phase II in January ’00 - Demonstrated the NGST SEA at 2 AAS meetings, as well as the ADASS meeting; invited to join the “J-Sky Panel” to build a Java library for astronomical tools *Deliver an interface * *to guide a scientist * *through observation* *specification* ## Avatar Visualization And Graphical Environment (VisAGE) ***1999 Infusion*** - Version 3 completed with full - capabilities as planned - Technology delivered to MAP as Web-Altairis, and used in spacecraft I&T - Software installed for Triana use via ITOS - Commercialization in progress - A 3D surface plot for astronomical image analysis was delivered and integrated as part of the SEA Rel 4 - SOFIA and HAWC strip chart visualizations were delivered and integrated into the IRC *Develop and apply * *visualization technology * *to assist in mission * *control * ## Spacecraft Emergency Response System (SERS) ***1999 Infusion*** - SERS 2.1 software was completed; technology was delivered and infused into 10 missions, contributing to estimated lights-out savings of $1 Million per mission per year; commercialization and placement on GSA schedule is in progress - Human-in-the-loop autonomy, - Telephony - Monitoring of environmental conditions - Demonstrated proof-of-concept prototypes for (1) Pocket SERS, and (2) Multi/Spacecraft Integrated SERS View - Completed study, analysis, and demonstration of OTS technology for wireless LANs and WANs *Develop and infuse * *technology to enable * *distributed, on-call* *mission operations* ## Instrument Remote Control (IRC) - SPIRE - Met all development milestones (V1, V2) in support of downselect in 12/99 - Algorithms and visualizations to characterize the instrument data - Procedures for calibration and autolock of detectors - HAWC / SAFIRE - Supported PDR and Delta-PDR – 9/98 & 12/99 - Completed V1 prototype– 12/98 - Proof of concept - Supported SOFIA interface testing 12/99 - EAGAL - Supported phase 1 test – 12/98 - Proof of concept *Deliver a cross-* *platform distributed* *framework for remote* *instrument control* ## Operating Missions as Nodes on the Internet (OMNI) *1999 New Start* - Proof of Concept V1 Demo – 3/99 - OMNI flew on a Plymouth Voyager Van in Very LEO - Scientists from Lewis were able to control instruments - Pure off-the-shelf IP - Proof of Concept V2 Demo – 8/99 - Enabled students across the nation to view the Solar Eclipse in realtime from a ship in the Black Sea - Students were able to control a camera aboard the ship - Students were able to analyze data from a number of instruments - Pure off-the-shelf IP - Architecture Review – 10/99 *Infuse technologies* *to enable spacecraft * *communication via* *off-the-shelf IP* ## InVision *1999 New Start* - Visualization - Clementine video, completed 1/99 - Triana video which was presented at their SD – 5/99 and Triana Web visualization, integrated wit the Triana Web site –6/99 - Completed Image 2000 Demo prototype V1 – 3/99 - Directed Acyclic Graph (DAG) editor - Javascripting, Application Framework, and Infrastructure for XML definition of UI - Image 2000 V2 Design review – 5/99 - Completed Image 2000 Demo prototype V2 – 9/99 - Enhancements to DAG, robust plug-in architecture, and ability to import GEOTIFF file - JOIN (New concept defined for decentralized, dynamic dataset distribution) *Bring data visualization* *technology to PI’s* *working from standard* *desktop equipment* ## Common Planning And Scheduling System (ComPASS) - Completed Planning - Language specification – 3/99 - Demonstrated prototype V1 – 6/99 - Framework and proof-of-concept - Demonstrated prototype V2 – 9/99 - Scientific planning - Selected application for FY 00: to provide tools which assist scientists in planning observations which are coordinated over multiple observatories (eg. HST, Chandra, XTE) - Selected target application and customer *End-to-end planning* *and scheduling * *environment for* *interoperability* ## Advanced FDIR (Automated Multimodal Trend Analysis System – AMTAS) - Demonstrated AMTAS V1 prototype – 4/99 - Initial framework - Project refocused - Demonstrated AMTAS V2 prototype – 9/99 - Proof of concept - Demonstrated statistical error detection - Valuable feedback from mission personnel *Increase the level of* *control center * *automation via machine* *learning for FDIR* ## Scientist’s Mission Assistant and Research Tool (SMART) *1999 New Start* - Presented Concept Definition – 7/99 - Presented Architecture – 9/99 - Interactive Web-based tool suite to assist science and mission teams in specification of high level science objectives and mapping of appropriate resources - Knowledge management - Collaborative tools - Web portal to interactive services - Concept maps - Conversational Case-Based Reasoning - Integration of OTS components - Partnering with NRL *Develop tools to assist* *scientists in resource * *utilization based on* *scientific objectives* ## Agents / Autonomy Lab - Developed component-based agent architecture, agent community concepts, and agent communication protocols - Developed Nanosat-based scenario - Completed ACT Architecture, ACT Design, and ACL Documentation - Developed prototype illustrating natural language interface to agent-based system - Developed Autonomy Lab Requirements *Develop and validate * *Agent community * *concepts* ## Onboard Component Architecture (OCA) *1999 New Start* - Completed installation and - configuration of development environment - Motorola PowerPC VMC - VxWorks - TAO and ACE - Downloaded Triana flight software code, and began analysis - Compiled by editing makefiles and revising code to resolve undefined symbols, etc. - Began analysis and reverse engineering of code to IDL - Together Enterprise - Command Ingest, and Telemetry Output *Develop a component* *based architecture for* *flight software to* *enable reuse* ## Onboard Artificial Intelligence (OAI) *1999 New Start* - Completed full model of the - WIRE spacecraft, less than 13K in size - Began integration and testing with WIRE flight software *Demonstrate and* *assess AI technology* *for onboard * *applications* ## Usability Engineering Center (UEC) - Provided education regarding usable - web design (handbook, seminar) - Developed UEC Web Site, brochure, and poster - Supported usability engineering for IFMP, Triana, Virtual Science Fair, ISC web site, Image2000 - Published paper on user-centered design of spacecraft ground data systems at GSFC for the 2nd International Symposium on Spacecraft Ground Control an Data Systems *Improve the usability* *of information systems* *developed at GSFC* ## Technology Development Support ## STAAC – Synchronous Product Generator (SPG) - Completed study of applicable - COTS products - Completed Release 1 of the Synchronous Product Generator (SPG) - template creation - user interface - asynchronous and synchronous editing and review of documents ## IFMP – Executive Information System (EIS) - Developed and demonstrated three user interface prototypes; demonstrated, installed, an conducted usability testing at all 10 NASA centers – 6/99, 8/99 - Developed custom, java-based front end to incorporate COTS products in a single, cohesive system - Executed user questionnaire related to the prototype; presented findings to the EIS user community, and used them as input for subsequent prototypes ## TSO Development - Developed Web Sites and Systems for - Telecommunications Service Requests - EO-1, and EO-1 Image Tracking - HAWC - Code 945 – Microwave Sensors Branch - GSFC Education Showcase - Code 130 Meteorology Educator’s Training Seminar - Code 130 – Web Site Evaluation Form - Agent-Based Systems Workshop - KIST ## Talks and Publications ## Industry Recognition (1) - JavaOne Conference - Hosted “Birds of a Feather” session entitled “Java in Astronomy” - Using XML and Java for Astronomical Instrument Control - Presented at ADASS, JavaOne, XML World, and WWW8 - Code as Examples in Textbooks - Inside XML DTD’s – St. Laurent and Biggar – McGraw-Hill - XML: A Primer – St. Laurent – M&T Books - Expert Systems - Co-authored chapter in Wiley’s Encyclopedia for Electrical and Electronics Engineering - Cooperative Intelligent Agents 1999 Conference - Invited Lead Speaker on “Agents from a NASA Perspective” ## Industry Recognition (2) - Scientific American - Article on “XML and The Second-Generation Web” references IRC’s AIML - Sky and Telescope - Article called “Software by Internet” discusses Image2000 - ADASS – 10/98 - NGST SEA was invited to give a talk entitled “The Next Generation User Support Tools” - An image from the NGST SEA’s Visual Target Tuner (VTT) was used on the cover of the ADASS proceedings - The IRC presented a paper on using Java and XML for Astronomical Instrument Control ## Published Papers - Agents: - “Information Systems for Nanosatellite Constellations” at AIAA Space Technology Conference and Expo - “Multiagent Planning and Scheduling for Enhanced Spacecraft Autonomy” at iSTARS - “Nanosat Intelligent Power System Development” at the 2nd International Conference on Integrated MicroNanotechnology for Space Applications - AMTAS: - “ASCAL: Autonomous Attitude Sensor Calibration” in the Flight Mechanics Symposium at GSFC - “Data Visualization via the Integration of Java Technologies” at WWW8 - Avatar: - “The Relative Contributions of Stereo, Lighting, and Background Scenes in Promoting 3D Depth Visualization”” at ACM’s TOCHI - IRC: http://pioneer.gsfc.nasa.gov/public/irc/IRC-presentations.html - “Using XML and Java for Astronomical Instrument Control” for ADASS, JavaOne, XML World, and WWW8 - “Using XML for Instrument Description, Communication and Control” for the 2nd International Symposium on Spacecraft Ground Control and Data Systems - “Using XML for Instrument Description, Communication, and Control fo the SOFIA / HAWC Instrument” for AAS - “NASA’s Instrument Control Markup Language (ICML)” for ADASS - SERS: - “The Spacecraft Emergency Response System (SERS) for Autonomous Mission Operations” at the 3rd International Symposium on Reducing the Cost of Spacecraft Ground Systems and Operations - “User-Centered Design of Spacecraft Ground Data Systems at NASA's Goddard Space Flight Center” and “Web-Based Automated Reporting: Saving Time, Money, and Trees” at the 2nd International Symposium on Spacecraft Ground Control and Data Systems - SEA: http://aaaprod.gsfc.nasa.gov/SEA/papers/Default.htm - “The Next Generation User Support Tools” at ADASS - “An Expert Assistant System to Support the General Observer Program for NGST”, “Visualization Tools to Support Proposal Submission” for SPIE ## Awards ## Awards - GSFC Engineering Excellence Award - Troy Ames - Best on the Internet Award - IRC - NASA Software of the Year Runner Up - GenIE - ISC Paper Honorable Mention - AMTAS: Nigel Ziyad, Chariya Peterson - NASA Honor Award - Group Achievement for NASA Grants Management Process – Walt T ## Information Sharing ## Studies - Security Study - Issues in distributed spacecraft control - Risk assessment - Technology assessment - Policy summary - Constellation Study - Planned missions internal and external - Capabilities needed - Technology opportunities and ideas - Onboard AI - Applicability of AI techniques on-board ## Technology Education and Assessment Seminars (TEAS) - 16 TEAS presented - Average 35, maximum 60 people per TEA Seminar - Total attendance for FY 99 was 650 - Two TEAS were Web-broadcast, with approximately 320 hits (total) ## Proposal Workshop - Hosted a Proposal Workshop for the ISC - Attendees included: 40 civil servants from across the ISC - Companies Represented: Appnet/Century, Knowledge Evolution, CSC, LM, and GST; graphic arts by Paul Baker - Produced draft proposal handling process ## Observer Tools Workshop - Hosted an international workshop whose purpose was to discuss the role of collaboration in the development of future observing tools - Attendees included approximately 50 people from around the world including: - Advanced X-ray Astrophysics Facility (AXAF) , European Southern Observatory (ESO), Gemini 8m Telescopes Project, National Optical Astronomy Observatories (NOAO), The Infrared Processing and Analysis Center (IPAC), UK Astronomy Technology Center, and others - Formed 6 working groups - Target Visualization Tools - Exposure Time Calculators - Defining an Observation - Optimizing Calibration Observations for Ground Based Observatories - Common Observatory Definition - Data Services ## Technology Scanning and Assessment (TSA) - Developed TSA Web-site with technology hierarchy - Established partnership with the GSFC library - Supported several requests for information ## Branch Advertising / Reporting - Web Site - Completed database design and update capability - All projects and products now represented - AAA Home Page - http://aaa.gsfc.nasa.gov - Posters - Completed 8 new posters representing Branch projects - Two SOMO Reviews - Completed Technology Demonstration and Infusion Facility redesign - Web broadcast capability - Advanced audio/visual display capabilities - Schedulable via the Web from the AAA Home Page ## Proposals ## Proposals - 1/99 – 3 to SOFIA NRA - 4/99 – 4 to CIO - 7/99 – 8 to ESTO RFI - 7/99 – 10 to CETDP - 9/99 – 4 to AISRP - 9/99 – 5 to DDF - 11/99 – 6 to GSFC IRAD _*FY 99 Quantity*_* – Novice proposal writers, learning about funding sources, generating ideas* _*FY 00 Quality*_* – Outstanding proposal writers, refining proposals, targeting ideas to sources* ## New Starts ## New Starts in FY ‘99 - Constellation Challenge - Target and meet the challenges of mission control for constellations - JOIN - Use off-the-shelf Java technology to build a decentralized, dynamic dataset distribution mechanism ## Next Year’s Infusion & Impact Goals ## Next Year’s Infusion & Impact Goals (1) - IRC will be completed and operational for HAWC/SOFIA - PI’s will be able to control their instruments via the advanced, cross-platform framework (GUI, XML configurable instrument specs, plug-and-play architecture) - Future instruments will realize savings of 80%-90% in instrument control software development costs. - OMNI will be demonstrated on a simulated “Flatsat” & will obtain flight commitment - Missions will achieve cost savings by using commercial-off-the-shelf IP standard components rather than custom developed components - Missions will leverage from industry driven developments in the IP standards ## Next Year’s Infusion & Impact Goals (2) - Image2000 will be used by 5000 educators - Educators will be able to use imaging tools on their PC’s, which were previously only available for the MacIntosh platform - Educators will be able to build their own macros and scripts, without having to rely on experienced programmers - Educators will use the more robust tool-suite and be able to do more advanced image manipulation - The IFMP EIS front end will be incorporated into the production system - Will be used by 4300 agency users to synthesize and display critical administrative information ## Next Year’s Infusion & Impact Goals (3) - ComPASS will deliver tools which facilitate planning of observations which must be coordinated across multiple platforms - PI’s will use these tools to plan across existing observatories (ie. HST, Chandra, XTE) - An on-board Finite State Modeling application will be demonstrated (Altair MCS on WIRE to drive dynamic data downlink) - On-board autonomy will be more dynamic and driven by various stimuli rather than being fixed and time-tagged - Mission controllers will be able to easily modify the automation logic (without recompile) by uplinking a revised spacecraft model - Automation tasks will be able to easily migrate from ground to space, so will be optimally distributed / located for each mission - Downlink bandwidth will be optimized by sending state changes rather than individual telemetry points - Based on the demonstration, a new mission will elect to adopt the technology ## Next Year’s Infusion & Impact Goals (4) - The STScI will develop and deploy their “Astronomer’s Prototype Tools” as a direct result of the SEA, and building upon the SEA foundation - Astronomical tools will be Web-based, more graphical, intuitive, and interoperable - VisAGE will be used by Triana and MAP - Mission operators will be able to access engineering data visualizations via the Web - Mission operators will be provided with more advanced visualizations, such as 3D, to enable rapid analysis and analysis of complex data ## Next Year’s Infusion & Impact Goals (5) - SMART IMDA and IRP prototypes will be deployed and evaluated by candidate users - Validate approach, verify need, target user and funding source - The following year SMART will be infused to assist scientists in locating, identifying, and selecting observatory and other mission resources - Avatar will complete a follow-on shadow study and publish the results - The ACT prototype will be completed and demonstrated in a Nanosat scenario for evaluation by candidate missions - Select target mission and obtain buy-in (ie. ST-5) - Ultimately, the ACT will enable a new level of automation among communities of spacecraft which work cooperatively - The TSA will provide automated support to users via Agent technology ## Next Year’s Infusion & Impact Goals (6) - Constellation Challenge will demonstrate an end-to-end prototype for constellation control which encompasses: - Visualization - Avatar will demonstrate a revolutionary UI design to enable rapid comprehension of engineering information for hundreds of spacecraft concurrently - Planning – ComPASS concepts will be demonstrated across multiple existing observatories, and concepts will be extensible to constellation planning - FDIR – AMTAS will demonstrate machine learning of fault recognition and human procedures for fault isolation and recovery, and will automate and repeat human actions - Agents / Robotics – AL will use robots to demonstrate inter-spacecraft coordination and collaboration - Costellation Challenge concepts will be adopted by the ST-5 mission (’03 launch) ## Success Measures ## Success Measures - Cost-Benefit Ratio - Cost: How many hours you spend on this project - Benefit: - Reduced mission costs - Increased mission capabilities - Improve effectiveness of scientific research - Infusion Rate - Used? - By how many? - What impact? - What benefit to NASA? Scientists? Taxpayers? - Proposal Win Rate - Paper Publication Rate

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+--------------------------------------+-------------------------------+ | ## | Instructions: Complete ALL of | | | the information below and | | ## REQ | attach it to the appropriate | | UEST FOR PERSONNEL SECURITY SERVICES | paperwork. | | | | | #### U.S. DEPARTMENT OF AGRICULTURE | | +--------------------------------------+-------------------------------+ +-----------------------------------------------------------------------+ | **[The following action is requested on the individual named | | below:]{.underline}** | | | | INITIAL INVESTIGATION | | | | REINVESTIGATION | | | | INTERIM SECURITY CLEARANCE | | | | UPGRADE SECURITY CLEARANCE | | | | INTERNAL TRANSFER OF SUITABILITY/SECURITY DETERMINATION (CHANGE IN | | USDA DEPT) | | | | RECIPROCITY: TRANSFER INVESTIGATION CONDUCTED BY ANOTHER AGENCY | +-----------------------------------------------------------------------+ EMPLOYEE INFORMATION +---------------------------------+------------------------------------+ | 1\. **NAME: ** | 2\. **JOB STATUS:** EMPLOYEE | | | CONTRACTOR | | | | | | APPLICANT OTHER/VOLUNTEER | +---------------------------------+------------------------------------+ | 3\. **POSITION TITLE: ** | 4\. **DOB/POB: ** | +---------------------------------+------------------------------------+ JOB INFORMATION ------------------------------------ ---------------------------------- 5\. **USDA AGENCY: ** 6\. **DUTY LOCATION:** ------------------------------------ ---------------------------------- +------------------------------------+---------------+-----------------+ | > 9\. **TYPE OF INVESTIGATION** | | | +------------------------------------+---------------+-----------------+ | ##### TYPE OF INVESTIGATION | **Priority** | **Standard** | | | | | | (PICK ONE) | **(A)** | **(C)** | +------------------------------------+---------------+-----------------+ | SSBI | | | +------------------------------------+---------------+-----------------+ | BI | | | +------------------------------------+---------------+-----------------+ | LBI | | | +------------------------------------+---------------+-----------------+ | MBI | | | +------------------------------------+---------------+-----------------+ | ANACI | | | +------------------------------------+---------------+-----------------+ | NACLC | | | +------------------------------------+---------------+-----------------+ | SGI (SBI upgrade) | | | +------------------------------------+---------------+-----------------+ | SAC | | | +------------------------------------+---------------+-----------------+ | SSBI-PR | | | +------------------------------------+---------------+-----------------+ | PRI | | | +------------------------------------+---------------+-----------------+ | BGI (BI upgrade) | | | | | | | | PPR | | | | | | | | PTSBI | | | +------------------------------------+---------------+-----------------+ +-----------------------------------------------------------------------+ | 10\. **REQUIRED ACCOUNTING INFORMATION** | | | | OPAC-ALC: | | | | MISCELLANEOUS OBLIGATION NUMBER: | | | | | | | | AGENCY DATA: ** ** | +-----------------------------------------------------------------------+ *POSITION DESIGNATION INFORMATION* +-----------------------------------------------------------------------+ | 7. **NATIONAL SECURITY POSITION (SF-86):** YES NO, GO TO QUESTION #8 | | | | > **POSITION SENSITIVITY LEVEL:** SPECIAL-SENS(4) CRITICAL-SENS(3) | | > NON-CRITICAL SENS(2) | | | | **LEVEL OF CLEARANCE**: TS/SCI(4) TOP SECRET(3) SECRET(2) | | CONFIDENTIAL(1) NONE(0) | | | | > \*\*\*IF YOU ARE REQUESTING A SECURITY CLEARANCE, THE | | > ***'JUSTIFICATION FOR REQUESTED SECURITY CLEARANCE'*** FORM | | > (AD-1188) MUST BE ATTACHED UNLESS YOU ARE REQUESTING A | | > REINVESTIGATION FOR THE SAME POSITION/LEVEL OF CLEARANCE. | +-----------------------------------------------------------------------+ +-----------------------------------------------------------------------+ | 8. **PUBLIC TRUST POSITION (SF-85P):** YES NO | | | | > **POSITION SENSITIVITY LEVEL:** HIGH RISK MODERATE RISK | +-----------------------------------------------------------------------+ +-------------------------------+---------+----------------------------+ | 12. **REQUESTED BY:** | 13\. | 14\. **POINT OF CONTACT:** | | | * | | | \_\_\_\_\_\_\_\_ | *DATE** | NAME: | | \_\_\_\_\_\_\_\_\_\_\_\_\_\_\ | | | | _\_\_\_\_\_\_\_\_\_\_\_\_\_\_ | > ** | PHONE: | | | ** | | | AUTHORIZING SIGNATURE | | | +-------------------------------+---------+----------------------------+ ----------------------------------------------------------------------- 11\. **REMARKS/NOTES:** -----------------------------------------------------------------------

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Voluntary Report - public distribution **Date:** 7/28/2006 **GAIN Report Number:** RS6311 RS6311 **Russian Federation** **Wine** **Stamp Numbers No Longer Needed** **2006** **Approved by:** ![](media/image1.wmf)Allan Mustard American Embassy, Moscow **Prepared by:** Yelena Vassilieva and Tyler Wiltgen **Report Highlights:** Resolution 452 of July 22, 2006 stipulates that traders no longer have to provide excise stamp numbers on the form that accompanies a customs declaration; rather they must give notice that their products are marked with excise stamps. The replacement of numbers with notification of excise stamp marking will help to facilitate excisable product trade. Includes PSD Changes: No Includes Trade Matrix: No Unscheduled Report Moscow ATO \[RS4\] \[RS\] # Summary {#summary-1} In July, retail trade in wine and spirits was nearly halted in Russia due to a shortage of new excise stamps and the inability of traders to get the equipment necessary for application of these excise stamps. In addition, importers faced malfunctions in software designed to monitor product movement between producers/importers and consumers based on the excise stamps. These problems were forecast in GAIN Report RS5316 *New Alcohol Law Likely to Disrupt Wine and Spirits Imports in January*, GAIN Report RS5322 *New Spirits Law Amended*, GAIN Report RS6305 *Russian Wine and Spirits Imports Halted Temporarily*, and GAIN Report RS6309 *Imported Wine and Spirits Removed from Store Shelves.* In order to implement the new alcohol law, the Russian Government issued several resolutions, including Resolution 872 on December 31, 2005, entitled "On Documentation Attached to the Cargo Customs Declaration", which envisaged that importers would complete a form containing all importer/trader data and excise stamp numbers. Supervision of this process was delegated to the Federal Service for Consumer Rights Protection and Human Well-being (Rospotrebnadzor). Absence of this form may have been the reason for the withdrawal of wine from the market. Resolution 452 of July 22, 2006, stipulates that traders no longer have to provide excise stamp numbers on the form, but rather they must simply give notice that their products are marked with excise stamps. The replacement of numbers with simple notification of excise stamp marking will facilitate excisable product trade. The amendment also shows that government intentions of creating a national product movement control system failed, even while using the most modern technologies. An unofficial translation of Resolution 452 follows below. In addition to this new resolution, it is expected that the government will issue further instructions to importers based on difficulties surrounding the registration computer system. Importers cannot effectively use the Uniform State Computerized Information System (EGAIS), because they import many different brands and varieties of wine, and it takes weeks to input their information into EGAIS. *Izvestiya* newspaper claims acting Prime Minister Medvedev will sign a document stipulating that the EGAIS system begin a "trial implementation," during which importers must only notify the system of imported products and do not have to wait for the system\'s registration confirmation. *Izvestiya* comments that it will make no difference whether the system actually \"sees\" the commodity or not, rendering the system useless for its prescribed function---monitoring the movement of each bottle. # Resolution of the Russian Federation Government #452 (Unofficial translation) Resolution of the Government of the Russian Federation "On Amending GOR Resolution 872 dated December 31, 2005". Number 452, July 22, 2006 The Government of the Russian Federation decrees: To approve the attached amendments to GOR Resolution 872 dated December 31, 2005, "On Documentation Attached to the Cargo Customs Declaration" (Code of Laws of the Russian Federation, 2006, #4, Art. 323). Chairman of the Government\ of the Russian Federation M. Fradkov Amendments to Resolution 872 of the Government of the Russian Federation dated December 31, 2005, "On Documentation Attached to the Cargo Customs Declaration" 1\. In Item 3 of the form attached to the cargo customs declaration, which was approved by the said resolution: replace the words "excise stamps" with the words "notification of the presence of excise stamps marking the commodity", replace the words "serial number and numbers of excise stamps" with the words "commodity has been marked with excise stamps," 2\. In subparagraph "c" of paragraph 5 of "Rules for Filing of the Form Attached to the Cargo Customs Declaration," which were approved by the said resolution: replace the words "excise stamps" with the words "notification of the presence of excise stamps marking the commodity"; replace the words "to specify the serial number and numbers of excise stamps marking the commodity" with the words "for confirmation of marking of commodities with excise stamps" and the words "commodity has been marked with excise stamps" shall be written down.

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ROBERT A HICKEY, PETITIONER V. UNITED STATES OF AMERICA No. 90-7563 In The Supreme Court Of The United States October Term, 1990 On Petition For A Writ Of Certiorari To The United States Court Of Appeals For The First Circuit Brief For The United States In Opposition OPINION BELOW The opinion of the court of appeals is reported at 918 F.2d 254. The opinion of the district court denying petitioner's motion to suppress (Pet. App. 1a-5a) is not reported. JURISDICTION The judgment of the court of appeals was entered on November 2, 1990. By order dated January 22, 1991, Justice Souter granted an extension of time to file a petition for a writ of certiorari to and including April 1, 1991. The petition was filed on that date. The jurisdiction of this Court is invoked under 28 U.S.C. 1254(1). QUESTIONS PRESENTED 1. Whether the police had probable cause to search the car that petitioner's co-defendants were driving. 2. Whether the warrantless search of bags inside the car's trunk was lawful when the police had probable cause to believe that the bags contained contraband or other evidence of crime. 3. Whether a police officer should have been precluded from identifying petitioner in court because the officer, after positively identifying petitioner in two photospreads, also saw petitioner when he was arrested and booked. STATEMENT Following a jury trial in the United States District Court for the District of Massachusetts, petitioner was convicted of armed bank robbery, in violation of 18 U.S.C. 2113(d), conspiracy to commit that offense, in violation of 18 U.S.C. 371, and using a firearm during a crime of violence, in violation of 18 U.S.C. 924(c). He was sentenced to concurrent terms of imprisonment of 216 months on the bank robbery count and 60 months on the conspiracy count, and to a consecutive term of 60 months' supervised release. He was also ordered to pay $29,933 in restitution. The court of appeals affirmed. /1/ 1. The evidence at trial established that on October 18, 1988, at about 12:30 p.m., three men in nylon stocking masks robbed a branch of the Bank of New England in Braintree, Massachusetts. Two men jumped over the counter and took cash from the tellers' drawers. The smaller of the two men, identified as co-defendant John Maguire, was armed with a small handgun and pushed a teller into a closet. A third robber, identified as Thomas Kavanagh, brandished a large, long-barreled gun in the lobby. The three men left with $29,985.45 in cash and fled in a waiting car, driven by a fourth man. 918 F.2d at 256. While the robbery was in progress, one of the bank tellers tripped the bank's silent alarm system, and the police broadcast a bank-robbery-in-progress report over the police radio. Lt. Donald Murphy, an off-duty police officer, heard the report while he was at home. Murphy, a 16-year veteran of the Braintree Police Department, knew from prior experience that other robbers of the Braintree Branch of the Bank of New England had switched getaway cars at the South Shore Plaza, which is less than one mile from his house and from the bank. Murphy immediately drove towards the plaza in his private, unmarked truck. 918 F.2d at 257. En route to the plaza, Lt. Murphy heard another police radio report stating that the three armed men had fled the bank by car. Drawing on his experience, Murphy assumed that there was a fourth man driving the car, and he also assumed the men were white, since the report did not identify their race. As he neared the plaza, Murphy saw four men, each carrying a bag, climb down a highway embankment and crawl through a fence separating the embankment from the street that runs alongside the plaza. /2/ At this point two minutes had passed since the initial report of the robbery. Ibid. The men brushed off their pants and neatened their hair as they stopped to cross the street; crossing it, they passed within a few feet in front of Murphy's truck and he clearly saw their faces. The men conferred briefly, then split into pairs and walked to two cars in the parking lot of the plaza, an Oldsmobile and a Hyundai. Each man placed the bag he was carrying in the trunk of one of the cars. Murphy noticed that one bag, a blue and tan one carried by Maguire, appeared to be very heavy and of the size and shape it would be if it contained guns and money. That bag, along with a paper bag carried by Kavanagh, was placed in the trunk of the Oldsmobile. Murphy recorded the license plate numbers of both cars and took another look at the two men in the Hyundai. Then he radioed for backup and followed the Oldsmobile out of the parking lot. 918 F.2d at 257. As he followed the car, Murphy saw both of its occupants bend over as if they were changing their shoes, and he observed the car swerve as Maguire, who was driving, changed his jacket. Suddenly the car made a U-turn into a gas station. Murphy held up his police radio so the men could see that he was following them, and the driver shifted into reverse, as if to escape. By that time, however, another police car had arrived, which blocked the car's escape. The men were ordered out of the car and frisked. When asked, Maguire denied that he had been at the South Shore Plaza. Ibid. Murphy searched the car, including its trunk. He felt two guns in the blue and tan bag, opened it, and found two loaded revolvers inside. He also opened the paper bag, which contained a radar detector and a police scanner. (The police scanner was later identified as belonging to petitioner, and petitioner's fingerprints were found on batteries inside the scanner. Gov't C.A. Br. 10-11.) Maguire admitted that he had no permit for the guns, and the two men were arrested. 918 F.2d at 257. On the same day as the robbery, at police headquarters in Boston, Lt. Murphy was shown a photospread of known associates of Maguire and Kavanagh, and he identified a photo of petitioner as the driver of the Hyundai. 918 F.2d at 262-263. At the FBI office on the following day, Murphy was shown a different array of photographs, and he again chose a photo of petitioner as the driver of the Hyundai. (The Hyundai was later determined to be registered to petitioner. Gov't C.A. Br. 9.) Lt. Murphy also saw petitioner on two other occasions before trial. Murphy was the officer who booked petitioner at the Braintree Police Station on October 20, 1988, and Murphy was present when petitioner was arrested and booked by federal agents on October 26, 1988. 918 F.2d at 262. 2. The district court denied petitioner's motion to suppress the evidence seized from bags found in the trunk of the Oldsmobile. The court noted that the police officers were entitled to search the bags "as part of the automobile" if the officers had probable cause to search the entire car, and not just the bags. Pet. App. 4a-5a. The court found that Lt. Murphy had probable cause to believe that the car's occupants were the bank robbers and that the car contained "guns, money and other items related to the bank robbery." Id. at 4a. Accordingly, the court held that the bags contained in the trunk were properly searched. Id. at 5a. The district court also denied petitioner's motion to suppress evidence of Lt. Murphy's photographic identifications and to bar him from making an in-court identification. The court found that there was "no evidence" supporting petitioner's claim that the photospreads from which Murphy identified petitioner were suggestive so as to "render the evidence inadmissible or disqualify Murphy from making an identification in court." Pet. App. 2a. 3. The court of appeals affirmed. The court first concluded that the police had probable cause to arrest the occupants of the Oldsmobile given the "totality of circumstances," including Officer Murphy's experience with bank robberies and the "tightly forged chain of circumstances" surrounding the arrest. 918 F.2d at 258. The court further held that the officers had probable cause to search both the interior and the trunk of the car because they could reasonably believe that the entire car contained evidence of the bank robbery. Id. at 259-260. Distinguishing United States v. Chadwick, 433 U.S. 1 (1977), and Arkansas v. Sanders, 442 U.S. 753 (1979), the court of appeals held that the search of the containers was lawful under Untied States v. Ross, 456 U.S. 798 (1982). 918 F.2d at 260-261. /3/ The court of appeals also found no error in the admission of the out-of-court and in-court identifications of petitioner by Officer Murphy. The court held that the two photospreads from which Officer Murphy identified petitioner -- one at the police station on the day of the robbery, the other at an FBI office a day later -- were not impermissibly suggestive because they were comprised of a sufficient number of pictures, the men in the pictures were all of similar appearance, and Murphy was not influenced to pick petitioner's picture out of the group by those administering the photospread. 918 F.2d at 262-263. The court also found that, even if the photospreads had been suggestive, Murphy's identification of petitioner was sufficiently reliable to satisfy the test established by this Court in Neil v. Biggers, 409 U.S. 188, 199-200 (1972). The court noted that Murphy's photo identifications of petitioner were based on two clear viewings of petitioner -- once when Murphy observed petitioner in full face and in profile as he walked within 6 feet of the truck in which Murphy sat, and again when Murphy drove past petitioner in the parking lot as petitioner and his cohorts conferred for a brief time before driving away. 918 F.2d at 263-264. For the same reasons, the court found that Murphy's in-court identification of petitioner was also proper. Id. at 264-265. ARGUMENT 1. Petitioner contends (Pet. 17-20) that the police did not have probable cause to search the trunk of the Oldsmobile. However, the factual conclusion of both courts below that the police had probable cause to search the Oldsmobile when they stopped it was plainly correct. Moreover, this Court has already denied review of this question in this very case, see Maguire v. United States, No. 90-6759, cert. denied April 1, 1991, and petitioner has advanced no further reason why review would be appropriate. /4/ After Lt. Murphy, an experienced police officer, learned of the bank robbery, he correctly deduced that four white men were involved; within minutes of the report, he saw four such men, in a place they could logically have reached from the bank, each carrying a bag, one of which was the shape and weight of a bag that contained guns and money. From Murphy's experinece with previous bank robberies at the very branch that had just been robbed, he believed that the robbers would likely use a certain parking lot to switch getaway cars, as other would-be robbers had done. Sure enough, the four men climbed down an expressway embankment, through a fence, and toward the vary parking lot on which Murphy's suspicions had focused. They split up and entered separate cars after placing the bags they had been carrying in the trunks of the two cars. As Murphy followed one of the cars, he saw that the men inside appeared to be changing clothes, as if to conceal their identities. The driver made an abrupt U-turn into a gas station, and attempted to flee once Murphy revealed his identity. When asked if he had come from the parking lot from which Murphy had followed him, Maguire lied and said no. On these facts, the police had probable cause to believe that the men were two of the bank robbers and that the car they were driving contained evidence of the robbery. 918 F.2d at 258-260. The district court and court of appeals assessment of the facts in this case represents a reasonable analysis of the totality of the circumstances according to the proper standard of practical and common sense notions of probabilities. Cf. Illinois v. Gates, 462 U.S. 213, 231-232 (1983). In any event, the conclusion of both courts below that the particular set of circumstances presented in this case provided the officers with probable cause is the kind of fact-bound determination that does not merit further review by this Court. 2. Petitioner also contends (Pet. 20-27) that the police acted illegally in opening without a warrant the paper bag they found inside the car trunk which contained petitioner's police scanner and batteries with his fingerprints on them. He argues that Officer Murphy had probable cause only to believe that the bags in the trunk contained evidence of the robbery, and that his warrantless search of the bag therefore violated the Fourth Amendment under this Court's decisions in United States v. Chadwick, 433 U.S. 1 (1976), and Arkansas v. Sanders, 442 U.S. 753 (1979). In light of this Court's decision in California v. Acevedo, No. 89-1690 (May 30, 1991), it does not matter whether Officer Murphy had probable cause to search the entire car, as the court of appeals held, or whether Officer Murphy's probable cause focused entirely on the bags in the trunk of the car, as petitioner argues. In either case, Officer Murphy was entitled to search the bags in the trunk without first obtaining a warrant. Acevedo, slip op. at 10-11, 14. 3. Finally, petitioner challenges (Pet. 32-35) the admissibility of Officer Murphy's in-court identification of him. He no longer disputes that the two photospreads from which Officer Murphy positively identified petitioner immediately after the robbery were proper. See 918 F.2d at 262-264. He now argues only (Pet. 32-33) that Murphy's viewings of petitioner at his arrest and booking, which occurred after the photospread identifications but before trial, were so impermissibly suggestive that they tainted Murphy's in-court identification. Contrary to petitioner's contention (Pet. 33), the court of appeals did not fail to address this aspect of his claim. After finding that Officer Murphy's positive identification of petitioner in two separate photospreads was properly admitted at trial -- both because the photospreads were not suggestive and because Murphy's identification was reliable -- the court of appeals concluded that any suggestive impact that the later show-ups might otherwise have had on Murphy's in-court identification of petitioner was inconsequential. 918 F.2d at 262, 264-265. That conclusion is entirely sensible. Even assuming that one-on-one show-ups, as a general matter, are "inherently suggestive" (Pet. 34-35), it is highly doubtful that the two intervening show-ups in this case so undermined Murphy's identification of petitioner at trial as to "give rise to a very substantial likelihood of irreparable misidentification." Simmons v. United States, 390 U.S. 377, 384 (1968). On the contrary, Murphy had already positively identified petitioner in two settings that were not suggestive in the least. Manson v. Brathwaite, 432 U.S. 98, 114 (1977) ("reliability is the linchpin in determining the admissibility of identification testimony"); see also Neil v. Biggers, 409 U.S. 188, 199-200 (1972). CONCLUSION The petition for a writ of certiorari should be denied. Respectfully submitted. KENNETH W. STARR Solicitor General ROBERT S. MUELLER, III Assistant Attorney General KATHLEEN A. FELTON Attorney MAY 1991 /1/ Petitioner was charged together with John J. Maguire, Thomas M. Kavanagh, and William Ferreira. Petitioner's motion for severance was granted, and he was tried separately. All four men were convicted on all counts. 918 F.2d at 256. Petitioner, Maguire, and Kavanagh appealed their convictions, which the court of appeals consolidated. Ibid. Maguire filed a separate petition for a writ of certiorari, No. 90-6759, which was denied on April 1, 1991. /2/ The only way to get from the highway to the South Shore Plaza is by climbing down the embankment. Within an hour, the car in which the robbers had escaped was found abandoned on the expressway adjacent to the embankment, about 20 yards from where the four men had crawled through the fence. /3/ Because the court found that the search of the trunk was proper, it did not decide whether the district court correctly determined, Pet. App. 3a, that petitioner had standing to challenge that search. 918 F.2d at 261. It did note, however, that under First Circuit precedent, petitioner did not have a privacy interest in the trunk of a car he did not own, possess, or ride in sufficient to be able to raise a Fourth Amendment challenge to the search of the car. Ibid. /4/ Petitioner is mistaken in claiming (Pet. 28) that the issue of his standing is not properly before this Court. Although the First Circuit found it unnecessary to resolve that question in light of its holding that the search of the car trunk was lawful, this Court could not avoid the question. Unlike the consolidated case before the First Circuit, in which two of the three appellants clearly had standing to challenge the search, this petition involves only one petitioner whose right to contest the validity of the search is seriously in question. As we argued before the district court and the First Circuit, petitioner exhibited no legitimate expectation of privacy merely by permitting his property to be concealed in someone else's car. See Gov't C.A. Br. 12-18. This Court could therefore not properly decide the Fourth Amendment claim pressed by petitioner unless it first established that petitioner had standing to assert the claim. See Rakas v. Illinois, 439 U.S. 128, 138-140 (1978) (question of standing is inextricably linked to whether a Fourth Amendment violation has occurred).

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**SUMMARY OF TELECONFERENCE DISCUSSION** **July 27 2006, 1 pm -- 3 pm EST** **Present:** T. Hamill (CDC), J. Anderson and J. Tribbia (NCAR), C. Bishop and Dan (NRL), M. Zupanski (CIRA/CSU), I. Szunyogh (UMD), Y. Song, Z. Toth and M. Wei (NCEP/EMC) ( E. Kostelich, J. Whitaker and E. Kalnay on vacation or leave) **Agenda:** > 1). Review of progress by each group (with slides if possible) > > 2). Plans for the next 3-6 months by each group > > 3). Status of benchmark, discussion on unified verification of results Craig Bishop and Dan: Showed a new way of doing covariance localization for ensemble based Kalman filter data assimilation system. They provided 3 slides showing how to estimate the forecast error covariance matrix using historical data by modulation. The experiments using this method on a simple system showed positive results. A full description of this method is expected at later stage. Milija Zupanski: After securing accounts on NCEP IBM computers and experiments have started to test his MLEF (maximum likelihood ensemble filter). MLEF is similar to ETKF, except solves for mode (instead of mean) of distribution. It has tested the simulated and real obs in NCEP operational environment. Further experiments are planned. Tom Hamill: After successfully compared their ensemble data assimilation results with T62 NCEP SSI benchmark, using same or less amount of conventional data, some satellite data have been added to the experiments. The preliminary results are very positive. The pace of further experiments is delayed by the lack of computer resources. They are looking NCEP for help. Istvan Szunyogh: Started work with real obs, and applied ETKF formulation to local patches, each grid point at a time. The algorithm is very efficient. They gave the code to Jeff Whitaker to compare with his square root filter. Plan to do more research on use of additive inflation procedures. Studied the effect of imperfect model on DA results, using bias correction. Two slides distributed showed positive results. Jeff Anderson (Unfunded collaborator): No funding from NOAA. Developed a more scalable generic filter, looked at sampling error in ensemble filters. The system runs an ensemble of ensembles (4-8) to estimate the error covariance localization factors. This procedure is very expensive, but only needs to do it once in a while. They argued that this method of generating covariance localization factors will make the filter more scalable and more generic. Yucheng Song: Briefly described a new NCEP T62 SSI benchmark analysis/forecast data set . The new benchmark is based on using satellite data as more groups are ready to handle larger number of observations. Zoltan Toth: Pointed out there is a need for different groups to share some common verification packages in order to compare different algorithms and filters. NCEP/EMC will initiate the discussion toward the development of common verification software.. **SUMMARY OF TELECONFERENCE DISCUSSION** **July 29 2005, 11 am -- 1 pm EST** **Present:** J. Whitaker (CDC), J. Anderson (NCAR), C. Bishop (NRL), M. Zupanski (CIRA/CSU), I. Szunyogh, E. Kostelich (UM), Y. Song, and Z. Toth (NCEP/EMC) (T. Hamill missed the call, M. Wei on travel) **Agenda:** > 1\. Brief description of activities in first year - Each group > described their work and main results Jeff Whitaker Successfully compared their ensemble data assimilation results with T62 NCEP SSI benchmark, using same or less amount of data (in fact, only 75-150k pieces of data were used, compared with \~300k in SSI -- only data from +/-1 hr window used, and even that was thinned). No radiance, radar, or scatterometer data used. Results are very encouraging, 5-10% rms error reduction compared with SSI results (see his slides). Processing of remotely sensed data with same sequential algorithm is not practical, looking for alternative solutions (ETKF?) Tested 3 types of variance inflation methods, difference between successive archived analysis fields may work best, simple inflation by a coefficient almost as good Istvan Szunyogh Started work with simulated obs, worked well. Adapted ETKF formulation, still applied locally (region by region), very efficient algorithm. When switched to assimilation of real observations some bugs got into code, working on clearing up software. Expects some results by end of summer 2005. Looking into use of additive inflation procedures. Analyzing effect of imperfect model on DA results, using bias estimation ideas. Discussed a slide indicating that a relatively small ensemble may be able to well describe low dimensional dynamics for global circulation (PECA-type analysis). Craig Bishop Was unable to hire post-doc, working with Master level student, had to adjust research plans somewhat. Worked on producing large ensembles with ETKF. In parallel, work on generating ensemble perturbations to be centered around NAVDAS variational analysis, similar to M. Wei's research at NCEP: use estimate of analysis error variance derived from NAVDAS to constrain initial ensemble variance using ET algorithm. Reports that successfully used ET technique to inflate covariance: uses ET to transform old archived ensemble data tfor inflating variance in tropics of current ensemble Toth points out link between this work and that of D. Hou at EMC who plans to use similar technique to introduce stochastic perturbations. Plans to experiment with combining ensembles from different sources. Milija Zupanski Hired postdoc, secured accounts on NCEP IBM computers. Plans to test his method, similar to ETKF, except solves for mode (instead of mean) of distribution. Currently setting up software on NCEP machines, will start testing with simulated obs soon, in couple of mos will start using real obs. Plans using bos operators and other applicable software from NCEP SSI code. This will enable quick technology transfer to NCEP operations if research is successful. Jeff Anderson (Unfunded collaborator) Made an attempt to port GFS system to NCAR. Work is not complete, no funding from NOAA. Worked on generic filters, looked at sampling error in ensemble filters. Found a solution where no inflation is needed in perfect model setup. Ran some experiments, without much tuning, with NCAR T85 CAM climate model, real observations, January 2003 cases, using radiosonde and other traditional data, but no radiances. Compared results with GFS T254 operational system (p. 16 of his slides). Very encouraging results, 5-10+% rms error reduction for temperature, even larger reduction for low level wind errors. Problem with winds higher up traced to use of inaccurate obs error variances with ACAR data. Yucheng Song Briefly described NCEP T62 SSI benchmark analysis/forecast data set that he prepared for use by other groups (see below) Zoltan Toth Pointed out few links between external research and NCEP development activities: Connection between model error studies of B. Hunt (UM) and M. Pena (EMC); ET initialization by C. Bishop (NRL) and M. Wei (EMC); Inflation with ET method by C. Bishop (NRL) and D. Hou (EMC). > 2). Preliminary discussion on plans for 2^nd^ year ZT commented that the results by JW-TH & FA are very encouraging, and warrant continuation of ensemble-based DA research work. There was general agreement on this. JW and CB discussed potential for using ensemble covariance information for improving variational schemes. They pointed out the demonstrated ability of variational schemes to process large amounts of data. JA made the point that ensemble-based DA is a new field and there is no evidence that these methods could not be modified to cope with heavy data volume, all agreed on this. MZ mentioned that after working on 4DVAR for 10 yrs, he switched to ens-DA methods because he believes they offer a theoretically more appealing approach. IS & ZT pointed out that CPU limitations on current operational machines should not constrain research aimed at 3-5 years into the future. Focus should be on understanding whether and how much improvements can be gained by using ens-DA methods compared to variational methods. Algorithms should be built with resource limitations in mind, but that should not be the primary consideration at this stage. Optimization of procedures can be considered and will become more important as the research evolves. ZT suggested each group to continue their work under their proposal, and the project to keep focusing on ensemble-based data assimilation methods. Work on hybrid methods (where information from a set of ensemble members are used in variational DA) is encouraged but the THORPEX ens-DA funds should support the development and testing of ensemble-based DA schemes. This research has a horizon of 3-5 yrs, as compared to hybrid applications that if funded through other mechanisms may bring some benefits on shorter time scale. > 3\) Collaborative work within the project ZT discussed the possibility of JW-TH, beyond their own research, playing a central role in trying to build prototype ens-DA system as time goes that would include useful and new results from any of the participating groups. This will be further discussed at next meeting. Proposed dates/time for next meeting: Sept 7, 1-3 pm eastern time Sept 9, 11 am -- 1 pm eastern time Proposed agenda: 1) Review detailed plans for yr2 (each group present their plans) 2) What should be our stated goal for yr2 as a group? Like for first year, we wanted to generate a benchmark, have initial comparison; what should we aim to accomplish by end of yr2? 3) How to enhance collaboration? **The NCEP T62 Benchmark run** Yucheng Song This document summarizes the benchmark experiment done at NCEP in preparation for the inter-comparison of different ensemble-based data assimilation schemes. **MODEL VERSION** To be comparable to the four independent groups that work on ensemble-based data assimilation (EBDA), we used the executable of global forecast model (named global_fcst6228, which is Triangular truncation T62 with 28 levels) archived at NCEP high performance storage system (HPSS). For the assimilation, we used the executable compiled on March 2 (which is named as global_ssi). For interested users who have accounts at NCEP, the source is /hpssprod/runhistory/rh2004/200405/20040530/nwprod.tar **TEST PERIOD** From January 1 to the February 29 of 2004, the first \~15 days are also archived, thought they might be excluded from the evaluation. **EXPERIMENT PLATFORM** The benchmark experiment is finished on NCEP IBM BLUE machines. **OBSERVATIONS TO BE USED** The post quality control (post-qc) files are used for the experiment. A note here is that the data has been processed by comparing with the high-resolution gdas guess files. The input data files used are archived onto HPSS as well which is named /hpssuser/g01/wx20ys/Benchmark/dump.tar. The file also contains SST, ICE and SNOW data files used for the experiment. **ARCHIVED FILES** Every 6 hours, for the 00Z and 12Z cycle, pgb (pressure level grib) files are archived on the NCEP HPSS system. Bias correction, satellite angle, surface analysis as well as sigma analysis files are also archived. There are 31 levels in the pgb file, they are: 1000 975 950 925 900 850 800 750 700 650 600 550 500 450 400 350 300 250 200 150 100 70 50 30 20 10 7 5 3 2 1mb **HOW TO GET THE FILES** Data are archived on HPSS by day, for example, to get the data file for Feb 24, in your desired directory, you can issue command like -- hpsstar get /hpssuser/g01/wx20ys/Benchmark/20040224.tar The command hpsstar is Mark Iredell's version of tar which is convenient to use. Users can also use htar to get the files. **QUESTIONS or COMMENTS** If after going through this entire document, you still have questions, please let me know. I can be reached at yucheng.song@noaa.gov. **SUMMARY OF TELECONFERENCE DISCUSSION** **April 7, 2004, 2-3 pm EST** **Present:** J. Whitaker, T. Hamill (CDC), J. Anderson, J. Tribbia (NCAR), C. Bishop (NRL, joined later), M. Zupanski (CIRA/CSU), I. Szunyogh, E. Kostelich (UM), M. Wei, R. Wobus, Y. Zhu, and Z. Toth (NCEP/EMC) **General issues:** 1) Funding ZT mentioned that two participating groups will likely receive more funding than initially thought, restoring funding level to that originally requested by one group. 2) Use of real observations or simulated observations in a perfect model framework? ZT emphasized the main focus should be on inter-comparison of different methods using real data. Several participants pointed out science advantages of carrying out perfect model data assimilation experiments as well. It was agreed that if resources permit, the project would include perfect model DA experiments as well. Rest of the discussion focused on real obs experiments, since this is the primary interest from NCEP's point of view, and this is the setup that should drive basic experimental design etc. It was noted that the addition of perfect model DA experiments would not double resources needed for the project. JA noted that NCAR could generate data based on a model integration. ZT pointed to the NCEP OSSE software that should preferably be exercised for generating simulated data (with realistic observational error). Participants (including EMC) are asked to assess whether the addition of perfect model experiments is within their reach. In case it is, details of the perfect model setup will be discussed after plans are fleshed out, and work begins with real observations. 3) Software infrastructure to be used. ZT recalled that whenever possible, software available from NCEP (NWP model, observation operators, file format, verification routines, etc) should be used. In case new software needs to be developed in the inter-comparison project, it should be compatible with existing NCEP software and practices. These practices will insure that as the project progresses, participants can easily exchange parts of their software, can start working jointly on a prototype software, that can later be tested in an operational environment. **Experimental design:** 1) Test period After short discussion, participants agreed to use Jan-Feb 2004 as a test period. The first \~15 days will be excluded from the evaluation. 2) Observations to be used *Data types.* After some discussion, participants agreed that in the main experiment, the following data types will be used: Surface observations, radiosondes, ACAR winds, cloud drift winds. Participants can ignore some of the observation types as they wish. *Data files.* The NCEP prebufr files from the final gdas analysis cycle will be used. EMC is going to make the gdas1 prepbufr files (including restricted access data, please confirm you have privileges to use that, and whether you can all use blocked data format) available on the IBM machine in a few days. There was some discussion about using CDAS data files. These files use a much longer data cut-off time that does not allow for their use in real time weather forecasting. Also, they may not contain some new data types that in further analysis we may want to consider. In addition to the basic experiment, participating groups can also run a second experiment where they include additional data types. *Observational period.* Following the usual practice (also reflected in +/-3 hrs time window for data included in prepbufr files) analyses performed at the nominal 0000 UTC time, for example, will use data up to 3 hrs after the nominal analysis time (0300 UTC). It was noted that unlike 3DVAR where through time interpolation, "future" data are used (currently up to 3 hrs into the future), ensemble-based schemes are filters that may use data only up to the time of the analysis. Therefore, if participants desire, they can choose to perform an analysis step at 0300 UTC (using data up to that valid time), for a comparison with SSI forecasts initialized at 0000 UTC (that also use data up to 0300 UTC). Issues not discussed/settled yet: *Observational error statistics.* This has not been discussed*. Suggestion* -- use observational error statistics as used in operational 3DVAR, given in prepbufr files. *Quality control.* This issue has not been discussed yet. *Suggestion* -- use operational QC marks as given in prepbufr files. Agree about cut-off value regarding QC mark below/above which data will/will not be used. 3) Data assimilation *Cycling frequency:* Each group decide on their own. *Suggestion* - required minimum analysis frequency every 6 hrs (available at 00, 06, 12, and 1800 UTC). **Next meeting, tentative:** Monday, 11 April, 10 am Pacific, 11 am Mountain, 1 pm Eastern time Continue with discussion of remaining experimental design issues in strawperson plan. **INTERCOMPARISON OF DIFFERENT ENSEMBLE-BASED DATA ASSIMILATION SCHEMES (Jan. 21, 2004)** **GENERAL DESCRIPTION** **BACKGROUND.** Currently there are four groups that work independently with different ensemble-based data assimilation (EBDA), or ensemble generation schemes using the NCEP global assimilation/forecasting software: *Jeff Anderson and David Parrish* -- developed EBDA software (Ensemble Adjustment Filter, EAF) and are in the process of testing it with T62 GFS system *Mozheng Wei et al*. -- developed/adapted ensemble perturbation software based on EBDA concept using Ensemble Transform Kalman Filter (ETKF) algorithm, in the process of testing initial perturbation scheme. This scheme will first be tested only as an initial perturbation generation tool. Later it can be adapted and tested for data assimilation applications, too. *Istvan Szunyogh et al.* -- developed EBDA software (regional variant of ETKF, RETKF) using GFS model, tested in perfect model environment, in the process of setting up software to assimilate actual observations *Whitaker and Hamill* -- developed EBDA software (Ensemble Square Root Filter, ESRF, related to EAF), and tested it using limited surface observations **OBJECTIVE.** Compare the performance of the different schemes in terms of the quality of their data assimilation and ensemble initial perturbations results. Identify the strengths and weaknesses of each scheme. **WORK SCHEDULE**. The inter-comparison part of the project will be completed in 12 months, depending on available resources. Suggested starting date is Febr. 1, 2004. Febr. 04 Work plan finalized March-May Prepare software June-Oct. Run (and if necessary, rerun) experiments Nov.-Dec. Verification/evaluation Jan. 05 Short summary report, with recommendations for future work **LONG TERM BENEFITS**. The most promising elements identified in the different EBDA schemes will be used to construct an EBDA scheme to be further developed and later tested in a quasi-operational environment. It is anticipated that most or preferably all groups will contribute to the design of a scheme for future development. **PROJECT CREDO**. The four groups will seek agreement on the specifics of an experimental design that each group can accept and adopt, allowing for a fair comparison of the different techniques. The four groups will agree to use a common set of values/procedures for several important aspects of the experiments. The use of a *common experimental design* will allow the identification and attribution of differences in performance that arise due to the differences between the various *EBDA schemes themselves*. **WORK PLAN.** Each group will make the necessary modifications to their software and will perform the experiments on their own computers. Verification software and benchmark experiments will be provided by NCEP. **EXPERIMENTAL DESIGN** **BACKGROUND.** The specifics below are based on initial discussions with some project participants and are presented here only as a starting point for discussions. The four groups are expected to develop and agree on the details of the inter-comparison study. **EXPERIMENTS** *Test period:* 2-month period from most recent winter (Jan-Febr 2004?) **OBSERVATIONS** *Data set:* NCEP operational prepbufr and satellite data files, containing data in +/-3hr chunks > *Data selection*: There are two options here. Each group uses (1) all > data they can; (2) the largest set of observations that every group > can assimilate (ie, model variables with height assignment)? > > *Error statistics* As given in operational data files **DATA ASSIMILATION** *Output frequency:* 6 hourly? > *Model error*: Common approach (eg, multiplicative noise), or allow > different treatment by each group? **FORECASTS** *Model version*: NCEP GFS, operational at start of project > *Resolution:* T62L28 *Digital filter*: Turned off? **ENSEMBLE** *Size*: 50-100 members (40?) *Surface fields*: Same for all members? *Frequency/length:* Once per day (00Z), output every 12 hrs out to 7.5 (or 16?) days *Output format:* Enspost files *Output variables:* 1000 & 500 hPa geop. height, 850 hPa temp, u&v winds at 850 & 250 hPa, and precip **VERIFICATION** *Data assimilation* Fit of mean of first guess forecasts (in sigma or standard pressure GRIB file) to observations, based on standard statistics used at NCEP > *Initial perturbations* Reposition initial ensemble members to be > centered around operational SSI analysis. Run set of ensemble > forecasts and evaluate them using standard NCEP probabilistic > verification measures **BENCHMARK** *Data assimilation*: Operational SSI analysis, run at equivalent resolution > *Initial perturbations*: Operational bred perturbations (at equivalent > resolution

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![](media/image1.png){width="5.96875in" height="0.41944444444444445in"} Top of Form ## Complete Summary #### GUIDELINE TITLE Urinary tract infection---child. #### BIBLIOGRAPHIC SOURCE(S) Podberesky DJ, Unsell BJ, Gunderman R, Blatt ER, Coley BD, Fordham L, Prince JS, Feins N, Rodriguez W, Expert Panel on Pediatric Imaging. Urinary tract infection - child. \[online publication\]. Reston (VA): American College of Radiology (ACR); 2006. 7 p. \[70 references\] #### GUIDELINE STATUS This is the current release of the guideline. This guideline updates a previous version: Gelfand MJ, Parker BR, Kushner DC, Babcock DS, Cohen HL, Hernandez RJ, McAlister WH, Royal SA, Slovis TL, Smith WL, Strain JD, Strife JL, Rushton HG. Urinary tract infection. American College of Radiology. ACR Appropriateness Criteria. Radiology 2000 Jun;215(Suppl):847-54. The appropriateness criteria are reviewed annually and updated by the panels as needed, depending on introduction of new and highly significant scientific evidence. ### COMPLETE SUMMARY CONTENT SCOPE\ METHODOLOGY - including Rating Scheme and Cost Analysis\ RECOMMENDATIONS\ EVIDENCE SUPPORTING THE RECOMMENDATIONS\ BENEFITS/HARMS OF IMPLEMENTING THE GUIDELINE RECOMMENDATIONS\ QUALIFYING STATEMENTS\ IMPLEMENTATION OF THE GUIDELINE\ INSTITUTE OF MEDICINE (IOM) NATIONAL HEALTHCARE QUALITY REPORT CATEGORIES\ IDENTIFYING INFORMATION AND AVAILABILITY\ DISCLAIMER ### SCOPE #### DISEASE/CONDITION(S) Urinary tract infection (UTI) #### GUIDELINE CATEGORY Diagnosis #### CLINICAL SPECIALTY Family Practice\ Nephrology\ Pediatrics\ Radiology\ Urology #### INTENDED USERS Health Plans\ Hospitals\ Managed Care Organizations\ Physicians\ Utilization Management #### GUIDELINE OBJECTIVE(S) To evaluate the appropriateness of initial radiologic examinations in pediatric patients with urinary tract infection #### TARGET POPULATION Pediatric patients with urinary tract infection #### INTERVENTIONS AND PRACTICES CONSIDERED 1. Invasive (INV), voiding cystourethrography (VCUG) 2. Nuclear medicine (NM) - Radionuclide cystography (RNC) - Renal cortical scintigraphy (RCS) plus pinhole imaging or single photon emission computed tomography (SPECT) 3. Ultrasound (US), kidneys and bladder, including power Doppler sonography 4. Computed tomography (CT), abdomen, with contrast 5. Magnetic resonance imaging (MRI), abdomen and pelvis, with contrast 6. X-ray, intravenous pyelography (IVP) #### MAJOR OUTCOMES CONSIDERED Utility of radiologic examinations in differential diagnosis ### METHODOLOGY #### METHODS USED TO COLLECT/SELECT EVIDENCE Searches of Electronic Databases #### DESCRIPTION OF METHODS USED TO COLLECT/SELECT THE EVIDENCE The guideline developer performed literature searches of peer-reviewed medical journals and the major applicable articles were identified and collected. #### NUMBER OF SOURCE DOCUMENTS The total number of source documents identified as the result of the literature search is not known. #### METHODS USED TO ASSESS THE QUALITY AND STRENGTH OF THE EVIDENCE Weighting According to a Rating Scheme (Scheme Not Given) #### RATING SCHEME FOR THE STRENGTH OF THE EVIDENCE Not stated #### METHODS USED TO ANALYZE THE EVIDENCE Review of Published Meta-Analyses\ Systematic Review with Evidence Tables #### DESCRIPTION OF THE METHODS USED TO ANALYZE THE EVIDENCE One or two topic leaders within a panel assume the responsibility of developing an evidence table for each clinical condition, based on analysis of the current literature. These tables serve as a basis for developing a narrative specific to each clinical condition. #### METHODS USED TO FORMULATE THE RECOMMENDATIONS Expert Consensus (Delphi) #### DESCRIPTION OF METHODS USED TO FORMULATE THE RECOMMENDATIONS Since data available from existing scientific studies are usually insufficient for meta-analysis, broad-based consensus techniques are needed for reaching agreement in the formulation of the appropriateness criteria. The American College of Radiology (ACR) Appropriateness Criteria panels use a modified Delphi technique to arrive at consensus. Serial surveys are conducted by distributing questionnaires to consolidate expert opinions within each panel. These questionnaires are distributed to the participants along with the evidence table and narrative as developed by the topic leader(s). Questionnaires are completed by participants in their own professional setting without influence of the other members. Voting is conducted using a scoring system from 1-9, indicating the least to the most appropriate imaging examination or therapeutic procedure. The survey results are collected, tabulated in anonymous fashion, and redistributed after each round. A maximum of three rounds is conducted and opinions are unified to the highest degree possible. Eighty percent agreement is considered a consensus. This modified Delphi technique enables individual, unbiased expression, is economical, easy to understand, and relatively simple to conduct. If consensus cannot be reached by the Delphi technique, the panel is convened and group consensus techniques are utilized. The strengths and weaknesses of each test or procedure are discussed and consensus reached whenever possible. If \"No consensus\" appears in the rating column, reasons for this decision are added to the comment sections. #### RATING SCHEME FOR THE STRENGTH OF THE RECOMMENDATIONS Not applicable #### COST ANALYSIS A formal cost analysis was not performed and published cost analyses were not reviewed. #### METHOD OF GUIDELINE VALIDATION Internal Peer Review #### DESCRIPTION OF METHOD OF GUIDELINE VALIDATION Criteria developed by the Expert Panels are reviewed by the American College of Radiology (ACR) Committee on Appropriateness Criteria. ### RECOMMENDATIONS #### MAJOR RECOMMENDATIONS **ACR Appropriateness Criteria®** **Clinical Condition: Urinary Tract Infection \-- Child** **Variant 1: Age 0-2 years; maximum temperature \<38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Should be cycled. NM, radionuclide 9 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (girls) 8 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Should be cycled. NM, renal cortical 6 Small infants may present with scintigraphy (RCS) pyelonephritis without fever. Consider pinhole and/or SPECT. CT, abdomen, with 4 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 4 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Variant 2: Age 0-2 years; maximum temperature ≥38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Should be cycled. NM, radionuclide 9 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (girls) 8 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Should be cycled. NM, renal cortical 6 Small infants may present with scintigraphy (RCS) pyelonephritis without fever. Consider pinhole and/or SPECT. CT, abdomen, with 5 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 5 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Variant 3: Age 2-7 years; maximum temperature \<38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- US, kidneys and 9 Power Doppler sonography should be bladder included. INV, VCUG (boys) 8 Accurate in evaluation of reflux. Better anatomic differentiation. Consider cycling. NM, radionuclide 8 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. INV, VCUG (girls) 7 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Consider cycling. CT, abdomen, with 4 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 4 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. NM, renal cortical 3 Consider pinhole and/or SPECT. scintigraphy (RCS) X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Variant 4: Age 2-7 years; maximum temperature ≥38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- INV, VCUG (boys) 9 Accurate in evaluation of reflux. Better anatomic differentiation. Consider cycling. US, kidneys and 9 Power Doppler sonography should be bladder included. NM, radionuclide 8 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Use in girls (girls) when no anatomic abnormality is suspected. INV, VCUG (girls) 7 Useful in girls when significant anatomic abnormality is suspected in addition to reflux. Consider cycling. NM, renal cortical 6 Consider pinhole and/or SPECT. scintigraphy (RCS) CT, abdomen, with 5 Also an acceptable method of contrast cortical imaging. Higher radiation dose. MRI, abdomen and 5 Also an acceptable method of pelvis, with cortical imaging. No ionizing contrast radiation. Sedation required. NM, radionuclide 2 Accurate in evaluation of reflux. cystography (RNC) Lower radiation dose. Poor (boys) anatomic differentiation. X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Variant 5: Age 8+ years; maximum temperature \<38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- US, kidneys and 8 Power Doppler sonography should be bladder included. INV, VCUG (boys) 5 INV, VCUG (girls) 5 NM, radionuclide 5 cystography (RNC) (boys) NM, radionuclide 5 cystography (RNC) (girls) CT, abdomen, with 4 contrast MRI, abdomen and 4 No ionizing radiation and sedation pelvis, with likely not required in this age contrast group. NM, renal cortical 2 Consider pinhole and/or SPECT. scintigraphy (RCS) X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Variant 6: Age 8+ years; maximum temperature ≥38.5 degrees C.** --------------------------------------------------------------------------- **Radiologic **Appropriateness **Comments** Procedure** Rating** -------------------- ------------------- ---------------------------------- US, kidneys and 8 Power Doppler sonography should be bladder included. INV, VCUG (boys) 5 INV, VCUG (girls) 5 NM, radionuclide 5 cystography (RNC) (boys) NM, radionuclide 5 cystography (RNC) (girls) NM, renal cortical 4 Most appropriate if localizing scintigraphy (RCS) symptoms not apparent. Consider pinhole and/or SPECT. CT, abdomen, with 4 contrast MRI, abdomen and 4 No ionizing radiation and sedation pelvis, with likely not required in this age contrast group. X-ray, intravenous 2 pyelography (IVP) ***Appropriateness Criteria Scale*\ 1 2 3 4 5 6 7 8 9\ 1 = Least appropriate 9 = Most appropriate** --------------------------------------------------------------------------- Note: Abbreviations used in the tables are listed at the end of the \"Major Recommendations\" field. **Summary of Literature Review** **Definition of Urinary Tract Infection** The urinary tract infection (UTI) should be well documented. Specimens from infants and young children collected in plastic bags are not acceptable because they are frequently contaminated; the use of bagged specimens leads to a child undergoing unnecessary imaging procedures. **Sequelae of Urinary Tract Infection** Cystitis in the absence of pyelonephritis is not associated with long-term sequelae. The incidence of scarring in children following infection of the renal parenchyma varies widely in the literature, with a mean of about 40% to 45% of cases across a wide age range. Renal insufficiency is an uncommon sequela of pyelonephritis in childhood, except in cases where there has been substantial prenatal injury due to obstruction or vesicoureteral reflux, and in cases with bilateral renal scarring. Hypertension appears to be a more common sequelum of moderately severe or severe scarring, affecting 10%--25% of young adults with significant renal scarring in increasing frequency through their second, third, and fourth decades. At this time, there is no evidence that a few scattered small parenchymal scars predispose adolescents or young adults to hypertension, but there may be some risk of hypertension associated with medium-sized scars. **Risk of Pyelonephritis** Children with vesicoureteral reflux (VUR) are at increased risk for pyelonephritis and parenchymal scarring. Long-term low-dose antibiotic suppression is widely used after the acute infection in children with VUR. Until 1986, it was thought that pyelonephritis in children occurred only when VUR was present, but it has become clear that more than half the cases of acute pyelonephritis occur in the absence of VUR. The incidence of acute pyelonephritis in the absence of documented VUR is much too high to be explained by intermittent VUR. Pyelonephritis in these children appears to be due to the same pathogens as in children with documented VUR. Previous episodes of pyelonephritis and VUR each place the child at increased risk for future episodes of pyelonephritis. Accurate diagnosis of acute pyelonephritis may affect the length of stay in hospitalized patients and may also affect treatment after the acute infection -- for example, the decision whether to place the child on antibiotic suppression. **Imaging Evaluation** *Clinical Diagnosis of Acute Pyelonephritis* Approximately 50% to 90% of children hospitalized for acute pyelonephritis have evidence of acute pyelonephritis by the most accurate imaging examinations, and clinical signs and laboratory examinations are only moderately useful. The usual clinical definition of acute pyelonephritis (particularly in Europe) is fever of greater than 38.5°C, UTI adequately proven by culture, and elevated acute phase reactants (usually C-reactive protein \[CRP\] levels \>10 mg/L). In most series, approximately 50%--80% of children who meet these criteria have evidence of acute pyelonephritis on cortical scintigraphy. *Voiding Cystography and VUR* VUR is detected with equal sensitivity by fluoroscopic contrast voiding cystourethrography (VCUG) and direct radionuclide cystography (RNC). Failure to detect reflux by either method is usually due to intermittent low-grade VUR; in other words, the patient has intermittent VUR but simply did not reflux at the time the bladder was filled and imaged. A second filling of the bladder (cyclic cystography) is appropriate in children under 2 years of age who cannot inhibit voiding, and when there is a high suspicion that VUR is present, as children in both of these groups are at higher risk of developing renal damage from urinary infection. Cyclic cystography may be appropriate in children over 2 years of age as well. RNC has a much lower absorbed radiation dose than VCUG, but it does not have the spatial resolution needed to identify anatomic abnormalities of the urethra, bladder, and ureters. RNC is appropriate for follow-up of VUR and for screening asymptomatic siblings of children with VUR. Initial evaluation of VUR in girls may be done by RNC, unless there is reason to believe that a significant anatomic abnormality of the upper urinary tract is present (for example, from a prior ultrasound). The frequency of lower urinary tract findings other than VUR in girls with UTI is extremely low. Initial evaluation of VUR in boys should not be done exclusively by RNC, as adequate anatomic imaging of the urethra and bladder can only be done with VCUG. **Detection of Acute Pyelonephritis and Renal Parenchymal Scarring** *Renal Cortical Scintigraphy (RCS)* RCS using technetium-99m DMSA or technetium-99m glucoheptonate is sensitive and specific for detecting acute pyelonephritis in animal studies, with sensitivity of about 90% and specificity of 95%. RCS is more sensitive than ultrasound (US) and intravenous pyelography (IVP) in detecting renal parenchymal scars. In the typical clinical setting, however, acute pyelonephritis and renal parenchymal scarring are usually but not always distinguishable from each other by RCS. Although RCS images are of somewhat higher quality when technetium-99m DMSA is used, technetium-99m glucoheptonate has equal sensitivity for detecting acute and chronic pyelonephritis and allows identification of most dilated uropathies (which is somewhat more difficult with DMSA) due to its approximately 40% to 65% renal excretion. However, in the presence of significant hydronephrosis or dilative VUR, it may be difficult to differentiate cortical activity from collecting system activity with technetium-99m-glucoheptonate, which makes DMSA a more desirable agent for renal cortical imaging in most cases. Technetium-99m DMSA is preferred in small infants, in poorly functioning kidneys, and when other studies have identified dilated uropathy or high-grade VUR. Pinhole imaging or single photon emission computed tomography (SPECT) should be considered to maximize the sensitivity of RCS without loss of specificity. RCS may require sedation in young children. *Ultrasonography (US)* Gray-scale ultrasonography identifies about 25% of acute pyelonephritis and about 40% of chronic parenchymal scarring. Acute pyelonephritic changes, particularly renal enlargement, cannot be identified on US 1 to 2 weeks after presentation, when the acute infection has cleared. US reliably identifies severe parenchymal scarring, but not moderate or minimal scarring. Inter- and intraobserver error makes assessment of renal growth unreliable after the first year of life unless the period of observation is at least 12 to 18 months. US cannot reliably identify VUR, but it is extremely effective in identifying urinary tract malformations such as hydronephrosis, hydroureter, and ureterocele. It is noninvasive and does not involve ionizing radiation. While animal studies have shown power Doppler imaging to be significantly less accurate in detecting acute pyelonephritis when compared with other imaging modalities, recent clinical studies in children have shown good results. A positive power Doppler US may be able to obviate the need for a renal cortical scan in the detection of acute pyelonephritis in children. *Contrast-Enhanced Computed Tomography and Magnetic Resonance Imaging* Helical contrast-enhanced computed tomography (CT) and magnetic resonance imaging (MRI) after contrast administration are probably as sensitive as RCS in detecting acute pyelonephritis. Both CT and MRI provide more anatomic information about the collecting systems and ureters than is available from RCS, and both can provide information about renal scarring. CT has a considerably higher effective absorbed radiation dose than RCS. MRI is more expensive than CT, typically requires sedation in young children, and utilizes no ionizing radiation. MRI may be used to identify ectopic ureters and can provide renal functional data. Early studies indicate that post-gadolinium imaging may be most effective in identifying acute pyelonephritis, while T1-weighted sequences may be all that is necessary for identifying renal scarring. *Intravenous Pyelography (IVP)* IVP is insensitive when compared with other imaging modalities in the diagnosis of acute pyelonephritis or post-infectious scar. It is valuable in identifying detailed ureteral and calyceal anatomy, permitting characterization of duplication anomalies when this information is needed. Routine anatomic diagnosis is usually done by ultrasonography. IVP examinations in infants are often of poor quality. **Choice of Upper Urinary Tract Examination in Children** Acute pyelonephritis may occur in the absence of fever in an infant. If only a single upper urinary tract examination can be performed, the physician must compare the relative risk of failing to detect acute pyelonephritis when only power Doppler US is used to the risk of failing to detect dilated uropathy when only RCS is used. Appropriate sequencing of RCS and US also may be used to improve diagnostic yield and control imaging costs. Whenever it is important to identify both pyelonephritis and urinary tract dilatation (in an individual or a subpopulation), both RCS and US should be used, or alternatively, a single contrast-enhanced CT or MRI examination may be performed. **Age and the Choice of Examination** Findings on imaging studies vary considerably according to the age at which the child is imaged. It is well known that the incidence of VUR decreases with age. The prevalence of VUR in children with UTI drops from approximately 50% to 30% from 0 to about 2 years of age, plateaus at approximately 30% from about 2 to about 7 years of age, and then drops precipitously at about 7 years of age. Another factor that may support the use of age-specific algorithms is the higher incidence of acute pyelonephritis in young children with UTI when compared to infants with UTI. Infants and toddlers appear to be at greater risk for extensive renal injury from acute pyelonephritis than older children, and afebrile pyelonephritis is probably rare after the first year of life. In the school-age period, children between 5 and 8 years of age acquire the ability to identify acute pyelonephritis as flank pain. At the same time, the incidence of acute pyelonephritis is relatively low, and the incidence of VUR continues to decrease. **Abbreviations** - C, Celsius - CT, computed tomography - INV, invasive - IVP, intravenous pyelography - MRI, magnetic resonance imaging - NM, nuclear medicine - RCS, renal cortical scintigraphy - RNC, radionuclide cystography - SPECT, single photon emission computed tomography - US, ultrasound - VCUG, voiding cystourethrography #### CLINICAL ALGORITHM(S) Algorithms were not developed from criteria guidelines. ### EVIDENCE SUPPORTING THE RECOMMENDATIONS #### TYPE OF EVIDENCE SUPPORTING THE RECOMMENDATIONS The recommendations are based on analysis of the current literature and expert panel consensus. ### BENEFITS/HARMS OF IMPLEMENTING THE GUIDELINE RECOMMENDATIONS #### POTENTIAL BENEFITS Selection of appropriate radiologic imaging procedures for evaluation of pediatric patients with urinary tract infection #### POTENTIAL HARMS - Computed tomography (CT), radionuclide cystography (RNC), renal cortical scintigraphy (RCS), and voiding cystourethrography (VCUG) are associated with radiation. - Magnetic resonance imaging (MRI) in small children (under 8 years of age) requires sedation. ### QUALIFYING STATEMENTS #### QUALIFYING STATEMENTS An American College of Radiology (ACR) Committee on Appropriateness Criteria and its expert panels have developed criteria for determining appropriate imaging examinations for diagnosis and treatment of specified medical condition(s). These criteria are intended to guide radiologists, radiation oncologists, and referring physicians in making decisions regarding radiologic imaging and treatment. Generally, the complexity and severity of a patient\'s clinical condition should dictate the selection of appropriate imaging procedures or treatments. Only those exams generally used for evaluation of the patient\'s condition are ranked. Other imaging studies necessary to evaluate other co-existent diseases or other medical consequences of this condition are not considered in this document. The availability of equipment or personnel may influence the selection of appropriate imaging procedures or treatments. Imaging techniques classified as investigational by the U.S. Food and Drug Administration (FDA) have not been considered in developing these criteria; however, study of new equipment and applications should be encouraged. The ultimate decision regarding the appropriateness of any specific radiologic examination or treatment must be made by the referring physician and radiologist in light of all the circumstances presented in an individual examination. ### IMPLEMENTATION OF THE GUIDELINE #### DESCRIPTION OF IMPLEMENTATION STRATEGY An implementation strategy was not provided. #### IMPLEMENTATION TOOLS Personal Digital Assistant (PDA) Downloads For information about [availability](#identifying-information-and-availability), see the \"Availability of Companion Documents\" and \"Patient Resources\" fields below. ### INSTITUTE OF MEDICINE (IOM) NATIONAL HEALTHCARE QUALITY REPORT CATEGORIES #### IOM CARE NEED Getting Better #### IOM DOMAIN Effectiveness ### IDENTIFYING INFORMATION AND AVAILABILITY #### BIBLIOGRAPHIC SOURCE(S) Podberesky DJ, Unsell BJ, Gunderman R, Blatt ER, Coley BD, Fordham L, Prince JS, Feins N, Rodriguez W, Expert Panel on Pediatric Imaging. Urinary tract infection - child. \[online publication\]. Reston (VA): American College of Radiology (ACR); 2006. 7 p. \[70 references\] #### ADAPTATION Not applicable: The guideline was not adapted from another source. #### DATE RELEASED 1999 (revised 2006) #### GUIDELINE DEVELOPER(S) American College of Radiology - Medical Specialty Society #### SOURCE(S) OF FUNDING The American College of Radiology (ACR) provided the funding and the resources for these ACR Appropriateness Criteria®. #### GUIDELINE COMMITTEE Committee on Appropriateness Criteria, Expert Panel on Pediatric Imaging #### COMPOSITION OF GROUP THAT AUTHORED THE GUIDELINE *Panel Members*: Daniel J. Podberesky, MD; Bryan J. Unsell, MD; Richard Gunderman, MD, PhD; Ellen R. Blatt, MD; Brian D. Coley, MD; Lynn Fordham, MD; Jeffrey Scott Prince, MD; Neil Feins, MD; William Rodriguez, MD #### FINANCIAL DISCLOSURES/CONFLICTS OF INTEREST Not stated #### GUIDELINE STATUS This is the current release of the guideline. This guideline updates a previous version: Gelfand MJ, Parker BR, Kushner DC, Babcock DS, Cohen HL, Hernandez RJ, McAlister WH, Royal SA, Slovis TL, Smith WL, Strain JD, Strife JL, Rushton HG. Urinary tract infection. American College of Radiology. ACR Appropriateness Criteria. Radiology 2000 Jun;215(Suppl):847-54. The appropriateness criteria are reviewed annually and updated by the panels as needed, depending on introduction of new and highly significant scientific evidence. #### GUIDELINE AVAILABILITY Electronic copies: Available in Portable Document Format (PDF) from the [American College of Radiology (ACR) Web site](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/pdf/ExpertPanelonPediatricImaging/UrinaryTractInfectionChildDoc10.aspx). ACR Appropriateness Criteria® *Anytime*, *Anywhere*™ (PDA application). Available from the [ACR Web site](http://www.acr.org/SecondaryMainMenuCategories/ACRStore/FeaturedCategories/QualityandSafety/ac_pda.aspx). Print copies: Available from the American College of Radiology, 1891 Preston White Drive, Reston, VA 20191. Telephone: (703) 648-8900. #### AVAILABILITY OF COMPANION DOCUMENTS The following is available: - ACR Appropriateness Criteria®. Background and development. Reston (VA): American College of Radiology; 2 p. Electronic copies: Available in Portable Document Format (PDF) from the [American College of Radiology (ACR) Web site](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/pdf/background_dev.aspx). #### PATIENT RESOURCES None available #### NGC STATUS This NGC summary was completed by ECRI Institute on May 15, 2007. #### COPYRIGHT STATEMENT Instructions for downloading, use, and reproduction of the American College of Radiology (ACR) Appropriateness Criteria® may be found on the [ACR Web site.](http://www.acr.org/SecondaryMainMenuCategories/quality_safety/app_criteria/ACRAppropriatenessCriteriaTermsandConditionsDoc1.aspx) ### DISCLAIMER #### NGC DISCLAIMER The National Guideline Clearinghouse™ (NGC) does not develop, produce, approve, or endorse the guidelines represented on this site. All guidelines summarized by NGC and hosted on our site are produced under the auspices of medical specialty societies, relevant professional associations, public or private organizations, other government agencies, health care organizations or plans, and similar entities. Guidelines represented on the NGC Web site are submitted by guideline developers, and are screened solely to determine that they meet the NGC Inclusion Criteria which may be found at <http://www.guideline.gov/about/inclusion.aspx> . NGC, AHRQ, and its contractor ECRI Institute make no warranties concerning the content or clinical efficacy or effectiveness of the clinical practice guidelines and related materials represented on this site. Moreover, the views and opinions of developers or authors of guidelines represented on this site do not necessarily state or reflect those of NGC, AHRQ, or its contractor ECRI Institute, and inclusion or hosting of guidelines in NGC may not be used for advertising or commercial endorsement purposes. Readers with questions regarding guideline content are directed to contact the guideline developer. Bottom of Form © 1998-2008 National Guideline Clearinghouse Date Modified: 11/10/2008

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Federal Communications Commission FCC 07-233 1 Before the Federal Communications Commission Washington, D.C. 20554 In the Matter of Paxson Management Corporation and Lowell W. Paxson (Transferors) and CIG Media LLC (Transferee) For Transfer of Control of ION Media Networks, Inc., and Certain Subsidiaries, Licensees of Station KPPX(TV), Tolleson, Arizona, et al. ) ) ) ) ) ) ) ) ) ) ) ) ) ) File Nos. BTCCT-20070514AOR et al. MEMORANDUM OPINION AND ORDER Adopted: December 30, 2007 Released: December 31, 2007 By the Commission: Commissioner Copps concurring and issuing a statement. I. INTRODUCTION 1. Before the Commission are the applications listed in the attached Appendix that seek to transfer control of licensee subsidiaries of ION Media Networks, Inc. (ION),1 from Lowell W. Paxson and Paxson Management Corporation (PMC) to CIG Media LLC (CIG Media). ION is the direct or indirect parent of licensee subsidiaries that hold 59 full-service broadcast television licenses and associated low-power, Class A, and television translator licenses. ION stockholders Gradient Partners, L.P., Gradient OC Master, Ltd., Caspian Capital Advisors, LLC, River Vail Holdings, L.L.C., Latigo Master Fund, Ltd., Par-Four Master Fund, Ltd., and Southpaw Credit Opportunity Master Funds LP (the Petitioners), filed a consolidated petition to deny on June 18, 2007, which they supplemented on June 29, 2007.2 ION, CIG Media, and NBC Universal, Inc. (NBC) filed separate oppositions on July 11, 1 Paxson Communications Corporation (Paxson) changed its corporate name to ION on February 28, 2006. 2 The Petitioners allege viewer standing under Office of Communication of the United Church of Christ v. FCC, 359 F.2d 994 (D.C. Cir. 1966). Citing various decisions of the U.S. Court of Appeals for the District of Columbia Circuit, ION, CIG Media, and NBC argue that viewer standing does not pertain here because grant of the applications would not harm the petitioners as viewers of the stations in question. See, e.g., ION Opposition, at 4, note 5, citing Rainbow/Push Coalition v. FCC, 330 F.3d 539, 545-546 (D.C. Cir. 2003). As noted in previous cases, [o]ur administrative standard for broadcast standing is less stringent than the judicial standard applied to petitioners appealing Commission decisions in federal court. Sagittarius Broadcasting Corp., Memorandum Opinion and Order, 18 FCC Rcd 22551, 22554, n. 20 (2003). Section 309(d)(1) of the Communications Act of 1934, as amended (the Act), provides that a party filing a petition to deny must demonstrate that he or she is a party in interest. 47 U.S.C. 309(d)(1). The Commission has granted viewer standing to petitioners raising similar allegations in the past. Shareholders of Hispanic Broadcasting Corporation, Memorandum Opinion and Order, 18 (continued....) Federal Communications Commission FCC 07-233 2 2007. For the reasons set forth below, we deny the petition to deny and grant the applications. II. BACKGROUND A. The Transaction 2. Initially, IONs capitalization consisted of two classes of common stock, both of which carried voting rights, and four classes of preferred stock, one of which carried voting rights. Lowell Paxson holds voting control through his ownership of IONs Class B common stock, which carries super- voting rights entitling him to an approximately 52.3% voting interest. On November 7, 2005, PMC also entered into a PMC Management and Proxy Agreement with the purpose of placing more operational control over the individual stations with Lowell Paxson.3 Lowell Paxson has a 99% voting and equity interest in PMC. Though the proposed transaction and recapitalization effort will occur in several stages, after consummation, CIG Media, which currently owns one class of ION nonvoting stock, will have acquired Lowell Paxsons control stock. It will then terminate the PMC Management and Proxy Agreement, and take the company private. 3. CIG Media is ultimately controlled by Kenneth Griffin, Todd Gjervold and Joe Russell. Equity ownership of CIG media is divided between two private equity funds Citadel Wellington, LLC (Citadel Wellington), and Citadel Kensington Global Strategies Fund, Ltd. (Citadel Kensington). Both Citadel Wellington and Citadel Kensington operate as insulated, limited members of CIG Media,4 while management and voting control of Citadel Wellington, Citadel Kensington, and CIG Media rests with the Citadel Limited Partnership. The Citadel Investment Group, L.L.C. and its 100% direct and indirect owner, Kenneth Griffin, serve as General Partner of the Citadel Limited Partnership, while the Citadel Limited Partnership is otherwise managed by its Portfolio Managers Todd Gjervold and Joe Russell. 4. In 1999 NBC entered into an investment relationship with Paxson, which was reflected in three agreements: an Investment Agreement; a Stockholder Agreement; and a Warrant and Call Agreement. These agreements were filed with the Commission pursuant to Section 73.3613 of the Commissions rules.5 As a result of the agreements, NBC acquired an economic interest in Paxson, reflected originally in a separate class of nonvoting preferred stock that was convertible to voting common stock. NBC also acquired an option to purchase the control stock held by Lowell Paxson, which could not be exercised unless and until the Commissions multiple ownership rules were modified. In addition to the financial (...continued from previous page) FCC Rcd 18834, 18835, n. 4 (2003) (2003 Univision Order). Even if the Petitioners lacked viewer standing, their allegation of economic injury would entitle them to party-in-interest standing. Office of Communication of the United Church of Christ v. FCC, 359 F.2d at 1000 (noting that judicial concept of standing has traditionally encompassed those alleging some economic injury). In this case, the Petitioners have alleged that the transaction is designed to forcibly extract from [Petitioners] hundreds of millions of dollars. Petition to Deny, at 5-6. We, thus, find that the petitioners have demonstrated standing in the instant case. 3 Paxson filed an FCC Form 316 transfer of control application reflecting the November 7, 2005, Management and Proxy Agreement, which the Commission granted on September 2, 2005. See, e.g., File No. BTCCT- 20050817ADL. 4 Applications For Transfer of Control, at Exhibit 14-Supplement. Individuals or entities holding partnership and non-insulated limited partnership interests are generally subject to the Commissions broadcast multiple and cross- ownership rules, regardless of the amount or percentage of equity held. 47 C.F.R. 73.3555, Note (f)(1). An exception from attribution applies to insulated limited partners as set forth in the Notes to Section 73.3555. Id. at Note (f)(1) and (2). 5 47 C.F.R. 73.3613. Federal Communications Commission FCC 07-233 3 relationship between NBC and Paxson, the 1999 Investment Agreement contained provisions setting forth certain aspects of the corporate governance of Paxson. Under Section 4.1 of the Investment Agreement, NBC held approval rights over certain Paxson corporate actions. As set forth in the 1999 Stockholder Agreement, NBC also had the right to nominate three members to the Paxson Board of Directors. 5. In 2001, Paxson initiated arbitration alleging that NBCs planned acquisition of Telemundo Communications Group, Inc. (Telemundo) violated the 1999 agreements. Paxson also filed a Petition to Deny and Request for Declaratory Ruling opposing the transfer of control applications, in which it alleged that certain actions by the NBC-nominated members of Paxsons board of directors have violated certain terms of their 1999 agreements and may have caused attribution of Paxsons television stations to NBC contrary to the multiple ownership rules.6 The Commission granted in part the Request for Declaratory Ruling, and admonished NBC for the conduct of its nominees after their election.7 6. In 2005, ION and NBC restructured their investment relationship. Among other changes to the relationship, NBC waived a number of its rights under the 1999 agreements, which included significantly limiting those corporate actions requiring prior NBC approval.8 Lowell Paxson also stepped down as director, Chairman and Chief Executive Officer of ION, and was replaced by Brandon Burgess, who resigned from his employment with NBC to take the position.9 Mr. Burgess was subsequently appointed to the ION Board of Directors. 7. In connection with the proposed transaction, the parties have entered into five primary agreements: (1) a Master Transaction Agreement describing the recapitalization process, in particular the process by which CIG Media will acquire Lowell Paxsons shares;10 (2) a Call Agreement between CIG Media and a subsidiary of NBC granting the NBC subsidiary an option to acquire, subject to Commission approval, the shares CIG Media will acquire from Lowell Paxson as part of the proposed transaction; (3) a second Call Agreement granting the NBC subsidiary an option to purchase additional shares held by Lowell Paxson; (4) a Stockholders Agreement governing the corporate governance of the post- transaction ION, the relevant provisions of which will take effect after consummation; and (5) a separate Put/Call Agreement, whereby CIG Media will, under certain circumstances, have the right to put its ION shares to NBC, and NBC will have the right to call those ION shares held by CIG Media. Pursuant to the May 4, 2007, Stockholders Agreement, NBC will have the right to nominate two members to the ION Board of Directors once its voting interest reaches a certain threshold. While originally part of the 2007 Stockholders Agreement, ION notified the Commission on November 26, 2007, that it had removed a related provision contained in Section 3.1(b)(iii) that provided NBC with the contingent right to name two board observers should it not be entitled to nominate members to the ION Board of Directors. The 2007 Stockholders Agreement also restored several of the minority investor protection rights relinquished in 2005. Pursuant to the November 26, 2007, amendment, ION revised Sections 5(d), (f), and (m) of the May 4, 2007, Stockholders Agreement. Under the revised Sections 5(d) and (m), ION does not need 6 Telemundo Communications Group, Inc., Memorandum Opinion and Order, 17 FCC Rcd 6958, 6967 (2002) (2002 Telemundo Order). 7 Id. at 6974. The Commission admonished Paxson as well, stating that [w]e further clarify that we do not admonish Paxson for the decision to approve as directors NBCs employees, but rather for the decision not to remove the directors as offered by NBC and to continue this relationship in place, despite the actions taken by the NBC directors. Id. 8 NBC Opposition, at 8. 9 The 2005 agreements were filed with the Commission pursuant to Section 73.3613 of the Commissions rules. 47 C.F.R. 73.3613. 10 Certain aspects of the Master Transaction Agreement not effecting ultimate control of ION will take effect prior to closing. Federal Communications Commission FCC 07-233 4 written approval from NBC prior to entering into individual station agreements relating to the use of the digital spectrum, or entering into joints sales, local marketing and similar agreements relating to a certain proportion of IONs stations. Under the revised Section 5(f), NBC will have the right to approve the sale of individual ION station sales, if the station is located in one of the 10 largest DMAs, and has a fair market value of 10 percent or greater than the book value of IONs consolidated tangible assets. B. Petitioners Allegations 8. The Petitioners filed a request to enjoin the transaction in the Court of Chancery of the State of Delaware in connection with a suit challenging an exchange offer involving their shares. The Court denied the request for injunction on June 10, 2007, but the civil suit remains pending. Petitioners allege both here and in the pending civil suit that the transaction is designed to forcibly extract from [Petitioners] hundreds of millions of dollars, give that extracted value to [CIG Media] and NBC, and thereby force Petitioners to pay for the acquisition of [ION] by [CIG Media] and NBC.11 9. The Petitioners argue that the rights granted NBC in the May 4, 2007, Stockholders Agreement will render IONs television stations attributable to NBC, thus resulting in violation of the Section 73.3555 of the Commissions rules (the local television ownership rule) in several markets.12 They contend, more specifically, that the rights contained in the 2007 Stockholders Agreement exceed the limits the 2002 Telemundo Order placed upon the NBC/Paxson relationship. The Petitioners state that NBC is attempting here what it could not do in 2002, namely, take control of ION. 10. The Petitioners cite, in particular, NBCs right to nominate two members to the ION Board of Directors. They state that, [w]hile there is no assurance that [NBCs] nominees will be elected, there is no assurance that they will not be elected.13 They maintain that NBC will use its financial influence, and right to approve certain corporate actions, to ensure their nominees election. Further, they note that election of NBC employees to the Paxson board was a critical factor in the 2002 Telemundo Order, and that Section 3.1(b)(ii) of the 2007 Stockholders Agreement only precludes the nomination of NBC employees until such time as [NBC] determines, in its reasonable discretion, that the Communications Act permits [NBC] to nominate an employee of [NBC] or any of its affiliates to be an [ION Director.]14 They argue that such language improperly usurps the FCCs role as arbiter of what is acceptable under the attribution rules.15 They also contend that Brandon Burgess is not independent, and cite NBCs contingent right to name two board observers, noting that board observers were at each of the meetings in 2007 at which alternative recapitalization proposals were discussed.16 As noted above, however, the right to name board observers been removed from the 2007 Stockholders Agreement. 11. In addition to allegedly holding an attributable interest in ION, the Petitioners argue that CIG [Media] and NBC have orchestrated a premature, unauthorized transfer of control of [ION] through a number of strategies.17 First, the Petitioners state that NBC will transfer its call rights to CIG for no apparent comparable monetary consideration, other than reciprocal call rights.18 The Petitioners claim 11 Petition to Deny, at 5-6. 12 47 C.F.R. 73.3555(b). 13 Petition to Deny, at 9 (emphasis in original). 14 May 4, 2007, Stockholders Agreement, at 3.1(b)(ii). 15 Petition to Deny, at 10. 16 Id. at 11 17 Id. 18 Id. Federal Communications Commission FCC 07-233 5 that this transaction violates business logic and sound fiduciary judgment because ION will incur $580 million in new long term debt - which could swell to $650 million in new long term debt depending on the outcome of the exchange transaction with IONs preferred shareholders - in exchange for only $100 million in new money. Second, the Petitioners challenge the new call rights granted NBC, in particular the fact that NBC paid 80% of the exercise price as consideration. Finally, the Petitioners claim that the 2005 agreements between ION and NBC resulted in a change of control because ION is allegedly obligated by the agreements to support any NBC-sponsored transaction. 12. In its supplement, the Petitioners challenge NBCs limited veto right over IONs budget items. They also argue for the first time that CIG Media has acquired unauthorized control over ION. The Petitioners cite Section 10.03 of the 2007 Master Transaction Agreement, in which CIG Media allegedly has the current right to designate two members of the ION board of directors, and is further allegedly entitled to designate a director to fill any vacancy resulting from the departure of representatives of certain classes of stock. Petitioners also allege that Section 3.3 of the November 7, 2005, Amended and Restated Stockholder Agreement among Paxson Communications Corporation, Lowell Paxson, and NBC also required Mr. Paxson to vote his control stock for directors in the same manner as the Class A stock, 90% of which was held by CIG Media at the time the supplement was filed. Consequently, the Petitoners argue that CIG Media presently has the power to elect all members of the ION Board of Directors. The Petitioners cite provisions in the 2007 Master Transaction Agreement that require CIG and NBC to keep each other informed about the status of any stockholder litigation, require both CIG and NBC to consent to the settlement of that litigation, and provide both parties with the right to jointly participate in the defense of any stockholder litigation. 13. ION, CIG Media, and NBC argue in their respective oppositions that the Petitioners allegations stem from a private business dispute among ION shareholders of a type that the Commission has long stated is best resolved by courts of competent jurisdiction. They contend that, contrary to the Petitioners allegations, the various agreements entered into as part of the proposed transaction have been structured to comply with the 2002 Telemundo Order. They maintain, for instance, that the 2002 Telemundo Order did not prohibit NBCs right to nominate two members to the ION Board of Directors so long as the nominees are neither employees or agents of NBC.19 They further maintain that the appointment of Mr. Burgess as CEO of ION and member of the ION Board of Directors complies with the 2002 Telemundo Order because Mr. Burgess completely severed his employment and financial relationship with [NBC] and pledged to remain independent from [NBC] in all ways.20 NBC argues, in particular, that Section 3.1(b)(ii) of the 2007 Stockholders Agreement simply permits it to respond to a change of Commission rules, is standard in such agreements, and does not usurp the Commissions role in determining what interests are attributable. ION, CIG Media, and NBC also contend that the Commission specifically approved NBCs right to approve certain ION corporate actions contained in Section 5 of the May 2007 Stockholders Agreement. They state, in particular, that the Commission, in the 2002 Telemundo Order, approved a budget approval right that provided for a default to the prior years budget in the event of a dispute.21 NBC argues, in particular, that the budget approval right contained in the 2007 Stockholders Agreement is even more limited than the one considered in 2002 since it does not permit NBC to reject an entire budget. ION, CIG Media, and NBC also argue that the mere right to consent to settlement of litigation has been approved by the Commission as a permissible minority shareholder right that does not evince de facto control.22 19 NBC Opposition, at 21. 20 Id., at 19. 21 Id., at 26. 22 CIG Media Opposition, at 28. CIG Media cites Roy M. Speer, 11 FCC Rcd 18393, 14156 (1996) as support. Federal Communications Commission FCC 07-233 6 14. ION, CIG Media, and NBC argue that whether the proposed transaction violates business logic or sound fiduciary judgment is not within the jurisdiction of the Commission to determine. They maintain that, in any case, a special committee of independent directors has already approved the transaction. ION and NBC argue that NBCs option to acquire CIG Medias control shares is permissible since the Commission has long held that unexercised options do not result in attribution. They also argue that the up-front payment of 80% of the option price is not indicative of an unauthorized transfer of control and does not otherwise violate Commission rules so long as the payment combined with NBCs other investments in ION comply with the Equity/Debt Plus (EDP) attribution threshold.23 NBC argues that the Petitioners have not alleged that the consideration paid for the option would result in attribution under the EDP attribution standard. 15. With respect to whether CIG Media has already acquired de facto control of ION, ION, CIG Media, and NBC all argue that the transaction has been structured so that control will not transferred until CIG Media closes on its acquisition of Lowell Paxsons control shares. They argue that under the 2007 Master Transaction Agreement, CIG Media can at most place two directors on the ION Board of Directors prior to acquisition of Lowell Paxsons control shares. They argue that this language in the 2007 Master Transaction Agreement supersedes the November 7, 2005, Amended and Restated Stockholder Agreement requiring that Lowell Paxson vote his shares in the same manner as the majority of Class A common stock. Instead, NBC argues that this provision of the November 7, 2005, agreement was meant to ensure that Lowell Paxson followed through on the commitments undertaken to restructure NBCs relationship with ION. Regardless, ION, CIG Media, and NBC all argue that PMC retains separate voting and operational control of IONs licensee subsidiaries as a result of the 2005 PMC Management and Proxy Agreement, and that this agreement will not be transferred until consummation of the instant transaction. III. DISCUSSION A. Standard of Review 16. Section 310(d) of the Act provides that no station license shall be transferred or assigned until the Commission, upon application, determines that the public interest, convenience, and necessity will be served thereby. In making this assessment, the Commission must first determine whether the proposed transaction would comply with the specific provisions of the Act,24 other applicable statutes, and the Rules.25 If the transaction would not violate a statute or rule, the Commission considers whether it could result in public interest harms by substantially frustrating or impairing the objectives or implementation 23 See 47 C.F.R. 73.3555, Note 2(i). 24 Section 310(d) requires that the Commission consider the applications as if the proposed transferee were applying for the licenses directly. 47 U.S.C. 310(d). See SBC Communications Inc. and AT&T Corp. Applications for Approval of Transfer of Control, 20 FCC Rcd 18290, 18300 16 (2005) (SBC-AT&T Order); Verizon Communications, Inc. and MCI, Inc. Applications for Approval of Transfer of Control, 20 FCC Rcd 18433, 18442- 43 16 (2005) (Verizon-MCI Order); Applications of Nextel Communications, Inc. and Sprint Corporation, 20 FCC Rcd 13967, 13976 20 (2005) (Sprint-Nextel Order); News Corp.-Hughes Order, 19 FCC Rcd at 483 15; Comcast-AT&T Order, 17 FCC Rcd at 23255 26. 25 See, e.g., SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18442-43 16; Applications for Consent to the Assignment of Licenses Pursuant to Section 310(d) of the Communications Act from NextWave Personal Communications, Inc., Debtor-in-Possession, and NextWave Power Partners, Inc., Debtor-in- Possession, to Subsidiaries of Cingular Wireless LLC, 19 FCC Rcd 2570, 2580-81 24 (2004); EchoStar Communications Corp., General Motors Corp. and Hughes Electronics Corp., and EchoStar Communications Corp., Hearing Designation Order, 17 FCC Rcd 20559, 20574 25 (2002) (EchoStar-DIRECTV HDO). Federal Communications Commission FCC 07-233 7 of the Act or related statutes.26 The Commission then employs a balancing process, weighing any potential public interest harms of the proposed transaction against any potential public interest benefits.27 The applicants bear the burden of proving, by a preponderance of the evidence, that the proposed transaction, on balance, would serve the public interest.28 17. In reviewing the petition to deny under the public interest standard, the Commission applies a two-step analysis. The Commission must first determine whether the petition contains specific allegations of fact sufficient to show that granting the application would be prima facie inconsistent with the public interest.29 This first step is much like that performed by a trial judge considering a motion for directed verdict: if all the supporting facts alleged in the [petition] were true, could a reasonable factfinder conclude that the ultimate fact in dispute had been established.30 If a petition meets this first step, the Commission must determine whether, on the basis of the application, the pleadings filed, or other matters which [the Commission] may officially notice, the petitioner has raised a substantial and material question of fact as to whether granting the application would serve the public interest.31 We find that the Petitioners have failed to raise a substantial and material question of fact as to whether NBC has acquired an attributable interest in ION. We further find that the Petitioners have failed to raise a substantial and material questions of fact as to whether NBC and/or CIG Media have prematurely acquired control over ION. B. Attribution 18. The Commissions attribution rules seek to identify those interests in or relationships to licensees that confer on their holders a degree of influence or control such that the holders have a realistic potential to affect the programming decisions of licensees or other core operating functions.32 Such interests, which are set forth both in Note 2 to Section 73.3555 of the Commissions rules and Commission precedent, 33 will be attributed to their holders and deemed cognizable for purposes of determining compliance with the Commissions multiple ownership rules. In this case, NBC acknowledges that attribution of its interest in ION would result in violation of the Commissions broadcast television multiple ownership rule in multiple markets.34 For the reasons below, we conclude that neither NBCs existing interest in ION nor the interests in ION that NBC would obtain as a result of the proposed transfers are attributable to NBC for purposes for the Commissions multiple ownership 26 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Sprint-Nextel Order, 20 FCC Rcd at 13976 20. 27 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Sprint-Nextel Order, 20 FCC Rcd at 13976 20; News Corp.-Hughes Order, 19 FCC Rcd at 483 15; Comcast-AT&T Order, 17 FCC Rcd at 23255 26. 28 See SBC-AT&T Order, 20 FCC Rcd at 18300 16; Verizon-MCI Order, 20 FCC Rcd at 18443 16; Comcast- AT&T Order, 17 FCC Rcd at 23255 26; EchoStar-DIRECTV HDO, 17 FCC Rcd at 20574 25. 29 47 U.S.C. 309(d)(1); Astroline Communications Co. Ltd. Partnership v. FCC, 857 F.2d 1556 (D.C. Cir. 1988) (Astroline). 30 Gencom, Inc. v. FCC, 832 F.2d 171, 181 (D.C. Cir. 1987) (Gencom). See also Serafyn v. FCC, 149 F.3d 1213, 1216 (D.C. Cir. 1998) (affirming two-step public interest analysis) (Serafyn). 31 Astroline, 857 F.2d at 1561; 47 U.S.C. 309(e). See also Gencom, Inc., 832 F.2d at 181. 32 Review of the Commissions Regulations Governing Attribution of Broadcast and Cable/MDS Interests, Report and Order, 14 FCC Rcd 12559 (1999) (1999 Attribution Order). 33 47 C.F.R. 73.3555, Note 2. 34 See 47 C.F.R. 73.3555(b). Federal Communications Commission FCC 07-233 8 rules. 1. Approval Rights Over Certain Corporate Actions 19. In the past, the Commission has generally permitted nonattributable investors to hold certain minority investor protection rights, including the right to approve certain corporate matters that would alter, fundamentally, the nature and value of their investments. Approval rights permitted in the past have included such fundamental corporate matters as issuance of stock;35 amendments to the certificate of incorporation;36 acquisition or disposition of assets constituting more than 10% of the companys market or book value;37 merger, sale, liquidation, bankruptcy or winding-up of an entity;38 and certain transactions outside the ordinary course of business.39 Permitting a certain level of minority investor protection without implicating the multiple ownership rules is generally in the public interest because it encourages investment in broadcast properties, and thus enhances the ability of stations to provide better programming to the public. It also provides investors with the ability to invest in properties that they would not be able to own outright. However, as stated in previous cases, minority investor protections, in particular the right to approve certain corporate actions, must be narrowly circumscribed,40 so that the investor does not become involved in the overarching policymaking activities of the entity or the day- to-day operations of [its] stations.41 20. Section 5 of the May 4, 2007, Stockholders Agreement between ION, CIG Media, and NBC, as revised on November 26, 2007, states that ION must obtain the prior written approval of NBC and CIG Media before it: (1) adopts any shareholders rights plan or enters into any material agreement that would prevent the acquisition of stock by NBC or CIG Media; (2) takes any action that would cause NBC or CIG Media to have an attributable interest in a broadcast facility, newspaper, or other communications facility licensed by the FCC; (3) adopts an annual budget, with the proviso that the prior years budget will be used if the parties cannot reach agreement; (4) amends the certificate of incorporation or by-laws; (5) sells any station in the top 10 DMAs, provided that the station has a fair market value of 10 percent or more of the book value of IONs consolidated tangible assets; (6) sells assets during a 1-year period that constitute more than 20% of IONs book value, acquires assets during a 1-year period that constitute more than 10% of IONs book value, or enters into any merger where ION is not the surviving entity; (7) issues new stock, subject to certain exceptions; (8) splits, combines or reclassifies stock in a manner adverse to NBC or CIG Media; (9) enters into certain employment agreements; (10) increases the size of the board; and (11) files for bankruptcy or winds up the company. 21. We find the provisions contained in Section 5 of the May 4, 2007, Stockholders Agreement, as listed above, mirror rights the Commission has previously approved. In particular, a budget approval right similar to the one contained in the 2007 Stockholders Agreement was challenged by Paxson in its 2001 Petition to Deny and Request for Declaratory Ruling. As was the case in the 2002 Telemundo Order, we find the 2007 budget approval right does not result in attribution of NBCs interest since, as was the case for the 1999 agreements, it provides for the use of the prior years budget in case of 35 Shareholders of AMFM, Inc., Memorandum Opinion and Order, 15 FCC Rcd 16062, 16077 (2000). 36 Id. 37 Roy M. Speer, Memorandum Opinion and Order, 11 FCC Rcd 14147, 14155-56, 14158 (1996). 38 Quincy D. Jones, 11 FCC Rcd at 2482-2483. 39 Roy M. Speer, 11 FCC Rcd at 14155; Quincy D. Jones, 11 FCC Rcd at 2482. 40 BBC License Subsidiary, Inc. (WLUK-TV), 10 FCC Rcd at 7933. See, also, Quincy D. Jones, 11 FCC Rcd at 2487; News International PLC, Memorandum Opinion and Order, 97 FCC 2d 349, 354 (1984). 41 Roy M. Speer, 11 FCC Rcd at 14158. Federal Communications Commission FCC 07-233 9 disagreement between NBC and Paxson/ION.42 To the extent any of the rights named above have not been specifically addressed in previous cases, we find that they are sufficiently circumscribed, so as not to insert NBC into the overarching policymaking activities of ION or the day-to-day operations of its stations. 2. Nomination Right 22. Pursuant to Section 3.1(b)(ii) of the 2007 Stockholders Agreement, NBC has the right to nominate two members to the ION Board of Directors contingent upon consummation of CIG Medias acquisition of Lowell Paxsons control shares, and specifically conditioned upon the nominee not being an employee of NBC or any of its subsidiaries and affiliates. We conclude that this right complies with the 2002 Telemundo Order, and is consistent with non-attributable status. In the 2002 Telemundo Order, the Commission stated that the placement of NBC employees on Paxsons board as well as the subsequent actions of these directors resulted in NBC having an attributable interest in Paxson.43 The Commission, consistent with past precedent addressing identical rights, did not find that the nomination right per se resulted in attribution. As stated by NBC in its opposition, NBCs nomination right does not ensure that its nominees will be elected to the board. The 2002 Telemundo Order did, however, caution that future directors of ION not be NBC employees or agents but persons who would reasonably be expected to act independently in all future matters.44 23. With respect to Mr. Burgesss ongoing role with ION, the evidence of record indicates that Mr. Burgess severed his employment relationship with NBC prior to the 2005 restructuring of the NBC/Paxson relationship. As noted above, Mr. Burgess became a member of the Paxson board and was selected as CEO of Paxson concurrent with the 2005 restructuring, and he will retain these positions following consummation of the proposed transaction. In the 2002 Telemundo Order, the Commission noted that Mr. Burgess sent a letter, on NBC letterhead, to Paxson demanding certain concessions be made with respect to the original agreements between the companies.45 The Commission stated that [t]he fact that [Mr. Burgess] was speaking on behalf of NBC about high-level business matters demonstrates that Mr. Burgess was acting as a senior NBC executive protecting NBCs interests and not as an independent member of Paxsons board.46 24. In BBC License Subsidiary, L.P. (WLUK-TV), the Commission permitted a senior employee of Fox Television Stations, Inc. (Fox) to terminate his employment relationship and take an executive position with a separate broadcast licensee in which Fox held a substantial interest.47 The Commission determined, conditioned upon the outcome of the then-pending review of the Commissions broadcast attribution rules, that the former employer could take the position without rendering Foxs interest attributable despite Foxs 25% nonvoting stock interest with an option to acquire a 50% voting stock interest, its present right to vote on certain extraordinary corporate actions, and the stations affiliation agreement with the Fox Television Network.48 Neither the Commissions 1999 revision of the attribution rules, nor subsequent precedent, prohibits Mr. Burgess, as an ex-employee of NBC, from taking a 42 Id. at 6974. 43 2002 Telemundo Order, 17 FCC Rcd at 6973. 44 Id. at 6974. 45 Id. at 6972. 46 Id. 47 BBC License Subsidiary, Inc. (WLUK-TV), 10 FCC Rcd at 7933. 48 Id. Federal Communications Commission FCC 07-233 10 position with ION. NBC states, specifically, that the 2005 Master Transaction Agreement between [NBC] and ION provided (and continues to provide) that neither Mr. Burgess (nor any member of his immediate family or entity owned or controlled by him) would be an agent of [NBC] or any subsidiary or affiliate of [NBC]; that there were, and would be, no commitments, arrangements, or understandings, written or oral, between Mr. Burgess and [NBC] pursuant to which Mr. Burgess would have any legal or financial obligation to [NBC]; and that Mr. Burgess would not be entitled to receive now or in the future from [NBC]any compensation or benefits of any kind, or other valuable consideration (including but not limited to any offer of future positions with [NBC] or any of its subsidiaries or affiliates) beyond his severance, vested pension benefits, and the like.49 Thus, we do not believe the fact that Mr. Burgess was a former employee, whether considered in isolation or in combination with NBCs other interests, results in attribution of IONs stations to NBC. NBC has denied that Mr. Burgesss appointment as CEO was a condition of the 2005 restructuring or the 2007 agreements, and review of the agreements does not indicate otherwise. 25. Further, the Petitioners have not provided specific evidence of the kind of conduct that concerned the Commission in the 2002 Telemundo Order. Apparently, ION has taken steps to prevent any conflict of interest resulting from Mr. Burgesss former position with NBC. Mr. Burgess, for instance, is prohibited from participating in any tender offer for company shares commenced by an affiliate of his former employer.50 Thus, not only do we find that Mr. Burgess is not an agent of NBC, but that his employment does not violate the Commissions admonition in the 2002 Telemundo Order that any NBC nominees be reasonably expected to act independently in all Paxson matters.51 Our determination, however, is based on the facts before us, and we reserve the right to revisit Mr. Burgesss role should new facts come to our attention. 26. The Commission, in the 2002 Telemundo Order, made clear that nomination of an NBC employee or agent to the ION Board of Directors will result in attribution of NBCs interest. Both NBC and ION are obligated to comply with the 2002 Telemundo Order until either the Commission or a court of competent jurisdiction reverses it, regardless of language contained in the 2007 Stockholders Agreement. Section 3.1(b)(ii) of the 2007 Stockholders Agreement states that [f]or the avoidance of doubt.no individual nominated by [NBC] shall be an employee of [NBC] or any of its affiliates. We do not agree that the reference to NBCs reasonable discretion in Section 3.1(b)(ii) usurps the Commissions regulatory role. Instead, this provision appears to protect NBCs rights to nominate its employees to the ION board in the event that the Commission alters the policy set forth in the 2002 Telemundo Order. 3. Options 27. As noted above, NBC has entered into two Call Option Agreements and one Put-Call Agreement in connection with the proposed transaction. We do not find that these agreements, whether considered together or in isolation, or the price paid as consideration for these agreements, results in attribution of IONs stations to NBC. The Commission has held that unexercised options do not result in attribution since such interests do not provide the interest holder with the incentive or means of exerting influence over the core operations of a licensee.52 The fact that NBC paid 80% of the exercise price as 49 NBC Opposition, at 9. 50 ION Opposition, at 14. 51 2002 Telemundo Order, 17 FCC Rcd at 6974. 52 Review of the Commissions Regulations Governing Attribution of Broadcast and Cable/MDS Interests, Order on Reconsideration, 16 FCC Rcd 1097, 1112 (2001) (Attribution Reconsideration). Federal Communications Commission FCC 07-233 11 consideration for the option does not, in itself, result in attribution of NBCs interest.53 The Commission does, however, include the amount of consideration paid for the option in determining whether the option holders interest is attributable under the EDP attribution standard.54 Under the EDP standard, the Commission will attribute financial interests amounting to over 33% of the total assets of a mass media entity where the interest holder is either a major program supplier to the entity or a same-market media entity.55 In this case, the Petitioners do not allege that the consideration, along with NBCs other investment in ION will meet the EDP threshold of 33% of IONs total assets. In addition, on June 25, 2007, CIG Media filed an amendment to the applications setting forth in detail the post-consummation capitalization of ION, and certifying that the post-consummation EDP interest of NBC will be 15.91%.56 C. De Facto Control 28. Lowell Paxson currently holds de jure control over ION as a result of his ownership of Class B common stock, and his ownership of PMC. Legal control of ION, therefore, will not pass to CIG Media until it consummates its acquisition of the control stock and terminates the 2005 PMC Management and Proxy Agreement. In assessing de facto control the Commission looks beyond legal title and financial interests to determine who controls the policies governing programming, personnel and finances.57 An unauthorized transfer of de facto control would violate Section 310(d) of the Act.58 29. The Petitioners have not provided specific evidence of conduct indicating that NBC or CIG Media actually determine IONs policies governing programming, personnel and finances. NBCs financial investment does not, in itself, demonstrate control over IONs basic operating policies. ION states that a Special Committee made up of independent members of the ION Board of Directors ultimately chose the proposed transaction over other alternative recapitalization offers.59 ION further states that the Special Committee retained its own independent financial and legal advisors, and that the step-by-step process by which the Special Committee solicited and evaluated competing offers was disclosed in a Section 14D-9 Solicitation/Recommendation Statement filed with the SEC. NBCs right to consent to settlement of shareholder litigation is not evidence of de facto control. The Commission has long recognized such a right as a permissible minority shareholder protection.60 30. We further do not agree that CIG Media has prematurely acquired control over ION. CIG Medias current right to designate two members to the ION Board of Directors does not indicate a transfer of control since the board will have a total of 13 members. The Petitioners have not alleged that the right to fill any vacancies prior to closing will result in CIG Media designating a majority of the members of the ION board. The Petitioners cite Section 3.3 of the November 7, 2005, Amended and Restated Stockholder Agreement among Paxson Communications Corporation, Lowell Paxson, and NBC as support for both its contention that NBC has acquired control, and its alternative allegation that CIG Media has acquired control. With respect to NBC, the Petitioners argue that the provision forces Lowell 53 See, e.g. Solar Broadcasting Company, Inc., 17 FCC Rcd 5467, 5487 (2002) 54 Attribution Reconsideration, 16 FCC Rcd at 1112. 55 1999 Attribution Order, 14 FCC Rcd at 12579. 56 Applications For Transfer of Control, at Exhibit 14-Supplement, page 3. 57 WGPR, Inc., 10 FCC Rcd 8140, 8142 (1995); Choctaw Broadcasting Corp., 12 FCC Rcd 8534, 8539 (1997); Southwest Texas Broadcasting Council, 85 F.C.C. 2d 713, 715 (1981). 58 47 U.S.C. 310(d). 59 ION Opposition, at 15. 60 Roy M. Speer, 11 FCC Rcd at 14156. Federal Communications Commission FCC 07-233 12 Paxson to vote his control shares for any NBC-sponsored transaction. The Petitioners argue that it also gives CIG Media the current right to designate all members to the Board of Directors. It appears, however, that this provision is limited to circumstances pertaining to the 2005 restructuring, and that the 2007 Master Transaction Agreement limiting CIG Medias designation right to two members supersedes any contrary provisions in the 2005 agreement. The Petitioners have provided no evidence that NBC used this provision to force ION into a transaction that Lowell Paxson, or the ION Board of Directors, opposed. D. Alleged Violations of Corporate Law and Fiduciary Duties. 31. The Petitioners allegation that they will be forced to pay for the acquisition of ION by CIG Media through a disadvantageous exchange offer, that the transaction violates sound business logic or fiduciary judgment, and that the ION Board of Directors ignored more attractive competing offers are all aspects of the financial and business dispute before the Court of Chancery of the State of Delaware. Whether or not the transaction violated the rights of shareholders is a question of state law and private contract, matters which the Commission has historically and consistently left to local courts of appropriate jurisdiction.61 These allegations fail to demonstrate that grant of the applications would be prima facie inconsistent with the public interest. The Commission, in ruling on the instant applications, is solely determining whether grant would comply with the Commissions rules, and would otherwise serve the public interest, convenience, and necessity. Our consent does not require consummation prior to resolution of the Petitioners civil suit and, therefore, in no way prejudices the Petitioners rights. E. Pending Renewals 32. On September 1, 2004, the Office of Communication of the United Church of Christ, Inc., and the Center for Digital Democracy (UCC), filed a Petition to Deny opposing the license renewal applications of Station WPXW(TV), Manassas, Virginia, licensed to ION subsidiary Paxson Washington License, Inc. (Paxson Washington), and Station WDCA(TV), Washington, D.C., licensed to Fox Television Stations, Inc. UCC argues that the program Miracle Pets aired by Station WPXW(TV) during significant portions of the previous license term fails to qualify as programming specifically designed to serve the educational and informational needs of children (core programming), and that, therefore, Paxson Washington has failed to comply with the processing guidelines of Section 73.671 of the Commissions rules, and has otherwise failed to demonstrate compliance with the Childrens Television Act of 1990 (CTA).62 Station WPXW(TV)s Form 398 Childrens Television Programming Report for the quarter ending September 30, 2002, described Miracle Pets as a one-hour live-action program depicting short reenactments of pets/animals doing heroic, extraordinary acts, which provides children with positive role models, prosocial values and the importance of taking care of the pets in their lives.63 Miracle Pets was aired by Station WPXW(TV) from the first quarter of 2001 to the third quarter of 2005. 33. In the past, the Commission has stated that in multi-station transactions, it will grant the transfer of control application while [a] renewal application is pending as long as there are no basic qualification issues pending against the transferor or transferee that could not be resolved in the context of the transfer proceeding, and the transferee explicitly assents to standing in the stead of the transferor in 61 2002 Telemundo Order, 17 FCC Rcd at 6966. Northwest Broadcasting, Inc., Memorandum Opinion and Order, 12 FCC Rcd 3289, 3293 (1997); John F. Runner, Receiver, Memorandum Opinion and Order, 36 RR 2d 773, 778 (1976). 62 47 C.F.R. 73.671; Pub. L. No. 101-437, 104 Stat. 996-1000, codified at 47 U.S.C. Sections 303a, 303b and 394. 63 Station WPXW(TV) FCC 398 Childrens Television Programming Report for the quarter ending September 30, 2002. Federal Communications Commission FCC 07-233 13 the pending renewal proceeding.64 CIG Media has agreed to succeed to the position of Transferors in any pending renewal applications and assume responsibility for any actions to be taken by the Commission in those proceedings.65 We note that UCCs allegations involve only one of the 60 full- service television stations that are subject to the proposed transaction, and that the Station WPXW(TV) renewal is the only one that remains outstanding. Without reaching a conclusion as to whether such programming qualifies as core programming, we find that UCCs allegations do not raise a qualification issue involving Paxson Washington that would preclude action on the instant transfer of control applications. UCC has provided no evidence that Paxson Washington has engaged in intentional misrepresentation. IV. CONCLUSION 34. We have reviewed the proposed merger and related pleadings and conclude that grant of the applications will comply with the Commissions rules. We conclude that the applicants are fully qualified and that grant of above-captioned applications, will serve the public interest, convenience, and necessity. V. ORDERING CLAUSES 35. IT IS ORDERED, That the petition to deny filed by Gradient Partners, L.P., Gradient OC Master, Ltd., Caspian Capital Advisors, LLC, River Vail Holdings, L.L.C., Latigo Master Fund, Ltd., Par- Four Master Fund, Ltd., and Southpaw Credit Opportunity Master Funds LP IS DENIED. 36. IT IS FURTHER ORDERED, That the applications listed in the attached Appendix seeking consent to transfer control of ION Media Networks, Inc., from Lowell W. Paxson and Paxson Management Corporation to CIG Media LLC, ARE GRANTED. FEDERAL COMMUNICATIONS COMMISSION Marlene H. Dortch Secretary 64 Shareholders of CBS Corporation, Memorandum Opinion and Order, 16 FCC Rcd 16072, 16072-16073 (2001). See, also, Stockholders of CBS, Inc., Memorandum Opinion and Order, 11 FCC Rcd 3733 (1995), affd, Serafyn v. FCC, 149 F.3d 1213 (D.C. Cir. 1998); Capital Cities/ABC, Inc., Memorandum Opinion and Order, 11 FCC Rcd 5841 (1996). 65 Applications for Transfer of Control, at Exhibit 14, page 5. Federal Communications Commission FCC 07-233 14 APPENDIX Authorizations to be Transferred from Ion Media Networks, Inc., to CIG Media LLC Licensee Call Sign(s) Facility ID Number(s) File Number America 51, LP KPPX(TV), Tolleson, AZ 26655 BTCCT-20070514AOR Ocean State Television, LLC WPXQ(TV), Block Island, RI 50063 BTCCT-20070514APH Paxson Akron License, Inc. WVPX(TV), Akron, OH 70491 BTCCT-20070514APL Paxson Albany License, Inc. WYPX(TV), Amsterdam, NY 13933 BTCCT-20070514APU Paxson Atlanta License, Inc. WPXA(TV), Rome, GA 51969 BTCCT-20070514AQY Paxson Battle Creek License, Inc. WZPX(TV), Battle Creek, MI 71871 BTCCT-20070514AQZ Paxson Boston-68 License, Inc. WBPX(TV), Boston, MA WMPX-LP, Dennis, MA WDPX(TV), Vineyard Haven, MA WPXG(TV), Concord, NH 7692 6477 6476 48406 BTCCT-20070514ARA BTCTTL-20070514ARD BTCCT-20070514ARB BTCCT-20070514ARC Paxson Buffalo License, Inc. WPXJ-TV, Batavia, NY 2325 BTCCT-20070514ARE Paxson Charleston License, Inc. WLPX-TV, Charleston, WV 73189 BTCCT-20070514ARF Paxson Chicago License, Inc. WCPX(TV), Chicago, IL 10981 BTCCT-20070514ARG Paxson Communications License Company, LLC WPXN-TV, New York, NY WPXH(TV), Gadsden, AL WXPX(TV), Bradenton, FL WPXJ-LP, Jacksonville, FL WPXM(TV), Miami, FL WIPX-LP, Indianapolis, IN KPXR(TV), Cedar Rapids, IA WPXD(TV), Ann Arbor, MI W48AV, Detroit, MI WFPX(TV), Fayetteville, NC KPXG-LP, Portland, OR WNPX(TV), Cookeville, TN WPXV(TV), Norfolk, VA WPXR(TV), Roanoke, VA KWPX(TV), Bellevue, WA 73356 73312 6601 29716 48608 65121 21156 5800 68544 21245 69792 28468 67077 70251 56852 BTCCT-20070514ARH BTCCT-20070514ARJ BTCCT-20070514ARL BTCTTL-20070514ARW BTCCT-20070514ARM BTCTT-20070514ARU BTCCT-20070514ARO BTCCT-20070514ASF BTCTT-20070514ARQ BTCTTL-20070514ARK BTCTTL-20070514ART BTCCT-20070514ARN BTCCT-20070514ARR BTCCT-20070514ARI BTCCT-20070514ARS Paxson WPXU-LP, Amityville, NY 2129 BTCTTL-20070514ARY Federal Communications Commission FCC 07-233 15 Communications LPTV, Inc. KPXH-LP, Ft. Collins, CO WPXB-LP, Daytona Beach, FL W40BO, Boston, MA WNPX-LP, Nashville, TN KBPX-LP, Houston, TX 18509 10321 55114 30258 17746 BTCTT-20070514ASB BTCTT-20070514ARZ BTCTT-20070514ASC BTCTVL-20070514ASD BTCTTL-20070514ASA Paxson Dallas License, Inc. KPXD(TV), Arlington, TX 68834 BTCCT-20070514ASF Paxson Denver License, Inc. KPXC-TV, Denver, CO 68695 BTCCT-20070514ASG Paxson Des Moines License, Inc. KFPX(TV), Newton, IA 81509 BTCCT-20070514ASH Paxson Greensboro License, Inc. WGPX(TV), Burlington, NC 65074 BTCCT-20070514ASI Paxson Greenville License, Inc. WEPX(TV), Greenville, NC 81508 BTCCT-20070514ASJ Paxson Hartford License, Inc. WHPX(TV), New London, CT 51980 BTCCT-20070514ASK Paxson Hawaii License, Inc. KPXO(TV), Kaneohe, HI 77483 BTCCT-20070514ASL Paxson Houston License, Inc. KPXB(TV), Conroe, TX 58835 BTCCT-20070514ASM Paxson Indianapolis License, Inc. WIPX(TV), Bloomington, IN 10253 BTCCT-20070514ASO Paxson Jacksonville License, Inc. WPXU-TV, Jacksonville, NC 37971 BTCCT-20070514ASP Paxson Jax License, Inc. WPXC-TV, Brunswick, GA 71236 BTCCT-20070514ASQ Paxson Kansas City License, Inc. KPXE(TV), Kansas City, MO 33337 BTCCT-20070514ASR Paxson Knoxville License, Inc. WPXK(TV), Jellico, TN 52628 BTCCT-20070514ASS Paxson Lexington License, Inc. WUPX-TV, Morehead, KY 23138 BTCCT-20070514AST Paxson Los Angeles License, Inc. KPXN(TV), San Bernardino, CA 58978 BTCCT-20070514ASU Paxson Milwaukee License, Inc. WPXE(TV), Kenosha, WI 37104 BTCCT-20070514ASV Paxson Minneapolis License, Inc. KPXM(TV), St. Cloud, MN 35907 BTCCT-20070514ASW Federal Communications Commission FCC 07-233 16 Paxson Oklahoma City License, Inc. KOPX(TV), Oklahoma City, OK 2566 BTCCT-20070514ASX Paxson Orlando License, Inc. WOPX(TV), Melbourne, FL 67602 BTCCT-20070514ASY Paxson Philadelphia License, Inc. WPPX(TV), Wilmington, DE 51984 BTCCT-20070514ASZ Paxson Raleigh License, Inc. WRPX(TV), Rocky Mount, NC 20590 BTCCT-20070514ATA Paxson Sacramento License, Inc. KSPX(TV), Sacramento, CA 52953 BTCCT-20070514ATB Paxson Salem License, Inc. KPXG(TV), Salem, OR 5801 BTCCT-20070514ATC Paxson Salt Lake City License, Inc. KUPX(TV), Provo, UT 57884 BTCCT-20070514ATD Paxson San Antonio License, Inc. KPXL(TV), Uvalde, TX 61173 BTCCT-20070514ATE Paxson San Jose License, Inc. KKPX(TV), San Jose, CA 22644 BTCCT-20070514ATF Paxson Scranton License, Inc. WQPX(TV), Scranton, PA 64690 BTCCT-20070514ATG Paxson Spokane License, Inc. KGPX(TV), Spokane, WA 81694 BTCCT-20070514ATH Paxson Syracuse License, Inc. WSPX-TV, Syracuse, NY 64352 BTCCT-20070514ATJ Paxson Tulsa License, Inc. KTPX(TV), Okmulgee, OK 7078 BTCCT-20070514ATK Paxson Washington License, Inc. WPXW(TV), Manassas, VA 74091 BTCCT-20070514ATL Paxson Washington- 60 License, Inc. WWPX(TV), Martinsburg, WV 23264 BTCCT-20070514ATN Paxson Wausau License, Inc. WTPX(TV), Antigo, WI 86496 BTCCT-20070514ATM Paxson West Palm Beach License, Inc. WPXP(TV), Lake Worth, FL 27290 BTCCT-20070514ATO Ion Media Memphis License, Inc. WPXX-TV, Memphis, TN 21726 BTCCT-20070823AEO Federal Communications Commission FCC 07-233 17 Ion Media New Orleans License, Inc. WPXL(TV), New Orleans, LA 21729 BTCCT-20070823AER Federal Communications Commission FCC 07-233 18 CONCURRING STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: Paxson Management Corporation and Lowell W. Paxson and CIG Media LLC. Todays transaction involves the transfer of 60 full-service television broadcast licenses to a purchaser about which the Commission knows precious little. We do not know the identity of the investors in this particular fund, and we do not know how this fund has treated other companies it has owned in recent years. Though we know that the fund does not own other media properties, we do not know whether our attribution rules adequately capture the real distribution of power within this new corporate owner. Indeed, we are not even sure what type of entity we are dealing with here: Most press reports refer to it as a hedge fund, our own Order refers to it as a private equity fund, while the companys own website describes it as one of the worlds most sophisticated alternative investment institutions.1 In short, we dont have anywhere near the information or context necessary to know whether this change in control will harm viewers in the 60 communities that the company is licensed to serve. This is an especially urgent question because the stations at issue hereroughly 3% of the total TV stations in the United Statesrepresent some of the only outlets for independent broadcast programming available today. So while it is certainly a good omen that the new owners will retain the networks existing management, I do not believe the Commission has enough information before it right now to say, with confidence, that the networks commitment to programming diversity on the public airwaves will endure under the new ownership structure. I, for one, will be watching closely to see that it does. At some level, the Commissions fundamental lack of curiosity about the identity of our new licensees is hardly a surprise. Even as private equity firms have begun to acquire substantial numbers of broadcast stations (witness the Univision and Clear Channel acquisitions just this year), the Commission has been content to emulate the figures in the famous see no evil, hear no evil, speak no evil carving. This in stark contrast to other branches of our governmentlike the Presidents Working Group on Financial Markets and the Securities and Exchange Commissionwhich have shown far greater interest in attempting to understand the regulatory implications of hedge funds and similar financial creations. Accordingly, I must concur in todays Order and renew my call for a general Commission inquiry into the impact of private equity, hedge funds, and other related investment vehicles on our ability to protect, serve, and sustain the public interest in our broadcast media. 1 See Marcia Vickers, A Hedge Fund Superstar, Fortune (April 3, 2007); Citadel Investment Group, LLC: About Us, available at http://www.citadelgroup.com/ (last visited 12/28/07).

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# Presentation: 410925 ## DØ Silicon Hookup and Commissioning - Goals and timeline - Overview of Silicon Read out - “Stand alone” commissioning - Cosmic Ray Stand - Barrel / Disk read-out - Commissioning in Collision Hall - Marcel Demarteau - Fermilab** ** - _Outline_ - Director’s Review on Installation and Commissioning - D0 Dir Review Inst/Com - Dec 7, 1999 ## Goals - Ensure data integrity at the level of 1014 - 1015, i.e allow for loss of 1 bit in 1014 - 1015 bits transferred - Provide adequate operating margin for device - Ensure adequate diagnostics tools and controls - Exercise control logic - Exercise Data Acquisition and filtering scheme - Exercise offline software - _Timeline_ - Commission read out electronics in phases “on the bench” without detectors attached - Integrate final components as soon as available - Read out small scale setup in final configuration - Enlarge scope of read out - D0 Dir Review Inst/Com - Dec 7, 1999 ## Current Status - Complete read out system installed in cleanroom in LabC - Final version of all read out components, except Interface Board - System run in checksum mode in Level 3 node - SVX chips downloaded to read out set data value - All channels read out; data constant - Calculate checksum (sum of all bits) in VBD - Data transferred to L3 node; checksum compared - If checksum different: read in and analyze even - D0 Dir Review Inst/Com - Dec 7, 1999 ## Very low noise on data transfer backplane Proper handshaking between read out elements Data integrity > 1013 (~ 1 non-fatal error every ~30 minutes) - System equivalent of ~22,000 channels - Data transfer on VME at ~ 12 Mbytes/s - Very low noise on data transfer backplane - Proper handshaking between read out elements - Data integrity > 1013 (~ 1 non-fatal error every ~30 minutes) **B)** Ran with single chain (hdi) in close to final configuration, including low mass cable, 30’ 3M/50 conductor cable. Optimized impedance matching for data and control lines on sending and receiving ends - Successfully operated all hdi types - Mapped out operating margin for all hdi types - Data integrity > 1013 for all hdi types with comfortable operating margin **C)** Written raw data to disk, unpacked and analyzed “offline” within L3 framework and online monitoring program (Examine) - D0 Dir Review Inst/Com - Dec 7, 1999 ## Upper limits - DØ - D7 - Data bus lines - Clock strobe - Read out at 53 MHz - DValid - 18.8 ns - Strobe channel id - Strobe data - 7-8 ns Operating Margin - Bus lines D0/D7 - WCLK and DVALID - signal risetime of 2-3 ns - D0 Dir Review Inst/Com - Dec 7, 1999 ## Schedule and Resources - 12/05/99: Expand to 6 chains with low mass configuration - 12/15/99: Implement new interface board - 50  80 conductor cable with SVX power provided through cable - monitoring capabilities added - Verification of data acquisition and data integrity will be ongoing effort - D0 Dir Review Inst/Com - Dec 7, 1999 ## Cosmic Ray Setup - Install up to 12 ladders in spare Be support structure and exercise full read out system, DAQ, L3 and on/offline software, controls and monitoring - First step in trying to operate full barrel disk - Array of 4 scintillator counters form external trigger - Momentum analyzing steel, pT > 2 GeV/c - Data Rate ~ 1 cosmic/min - Ladder installation in progress - D0 Dir Review Inst/Com - Dec 7, 1999 ## Setup - 6 ladders read out through low mass cable in final configuration - 6 ladders read out through high mass cable: Total of 9216 channels - Barrels will be cooled and interlocked - First cosmic ray recorded 12/20/99 _**Ingredients**_ - Detector Control and Monitoring - Secondary Data Path - Data Acquisition - Online data monitoring (Examine) - D0 Dir Review Inst/Com - Dec 7, 1999 ## Detector Controls and Monitoring - All slow controls and monitoring uses 1553 protocol 1553 interface to Si detector only available with new Int.Brd. **Detector** **Readout Crate** **Controls Crate** *UNIX Hosts* *Control Room PCs* **EPICS Clients:** ** ****SVX Download** ** ****Low Voltage** ** ****High Voltage** ** ****1553 Devices** ** ****Rack Monitor** *Controls* *Ethernet* ***1553*** - Download of Sequencer and SVX chips, not optimized - SVX and bias Voltage control done, need implementation - 1553 Monitoring devices, currents, temperatures - Cooling monitoring and interlock - Oracle database design population and interface - _Available_ - _In progress_ - D0 Dir Review Inst/Com - Dec 7, 1999 ## Secondary Data Path - Intended for calibration processes and monitoring For Silicon: calculation of pedestals and gains - Front-End software finished as stand alone - _Available_ - _In Progress_ - Porting to cosmic ray setup Jan 00 - Exercise system Feb 00 - Database interface first pass March 00 - Database retrieval April 00 **L3 Node** - D0 Dir Review Inst/Com - Dec 7, 1999 ## Run Configuration - Module addressing and read out - chip id, pedestal, gain, ladder barrel, Temp address, I address **Readout Configuration** **Geometry parameters** **Calibration Constants** **Monitoring Devices** **Control Parameters** - D0 Dir Review Inst/Com - Dec 7, 1999 ## Data Acquisition - All pieces to exercise full data acquisition chain are in place - Read out to L3 system extensively tested - Online Examine SMT analysis code tested on raw data - First pass at full read out with 12 ladder test Dec 99/Jan 00 - Will slowly ramp up to enlarge read out and complexity of tools - L3 Tools: data unpacking, hit finding, track reconstruction - D0 Dir Review Inst/Com - Dec 7, 1999 ## Timeline for development - Dec 99: - 6-12 ladder setup and test controls and monitoring - Dec 99 - Jan 00: - Cosmic Ray data taking; online monitoring with Examine - Feb 00: - First pass at L3 filtering and alignment - First pass at secondary data path - Mar 00: - Database integration - D0 Dir Review Inst/Com - Dec 7, 1999 ## March 15/00: Hook up of full H-disk, 48 detectors, 36864 channels; exercise all components April 1/00: Hook up barrel, 72 detectors April 15/00: Hook up barrel and F disk, 96 detectors (~10%) May 1/00: 15 more detector assemblies to go (5 barrel/disk, 6 F disks, 1+3 H disks) one week for read out and debugging per assembly Done Aug 15/00 Note, doubling the time per assembly (23 assemblies) would give completion date of Oct 7/00. Still adequate (7 H disk assemblies can go last) - Hook up of full H-disk, 48 detectors, 36864 channels; exercise all components - April 1/00: - Hook up barrel, 72 detectors - April 15/00: - Hook up barrel and F disk, 96 detectors (~10%) - May 1/00: - 15 more detector assemblies to go (5 barrel/disk, 6 F disks, 1+3 H disks) - one week for read out and debugging per assembly - Done Aug 15/00 - Note, doubling the time per assembly (23 assemblies) would give completion date of Oct 7/00. Still adequate (7 H disk assemblies can go last) _**Timeline**_ - So far discussed development on small scale system (12 ladders) and commissioning of read out system. Move to full subsystem in March 00. **No assembly (barrel or disk) leaves the silicon facility without having been read out.** - D0 Dir Review Inst/Com - Dec 7, 1999 ## Meanwhile in the Pit **VRB ** **Controller** **Optical Link** **1Gb/s ** **3/6/8/9 Chips** **Sensor** **V****B****D** **V****R****B** **V****R****B** **V****R****B** **V****R****B** **68k** **Secondary Datapath** **VME** **Low Mass** **3M** **1** **5** **5** **3** **NRZ / CLK** **SVX EMULATOR** **IB** **Monitoring Control** **L3** **HOST** **Examine** - Concurrent with work at the silicon facility, a complete shake down of the read out system will take place at the assembly hall of final read out configuration downstream from the interface board, including online data checking (Examine). See M. Johnsons presentation - D0 Dir Review Inst/Com - Dec 7, 1999 ## Barrel and disk hookup at DAB - Hookup of cooling system immediately - Run coolant above dewpoint, so no damage to detectors. Procedure verified at silicon facility - Starting 9/26/00, 5 weeks allocated for check out of silicon detector - 1.5 weeks allocated for cabling each detector end. Note, read out has HDI-enable line, therefore, system can be fully powered at hookup time, thus instant hdi checkout. Procedure should be developed at silicon facility during full barrel/disk tests - Complete Barrel and F disk hookup in 3 weeks. - Assuming 7days/week, 12hrs/day, this gives ~20 mins of debugging time per hdi - Two additional weeks for debugging complete barrel and F disk assembly. Hookup of H disks in parallel. - D0 Dir Review Inst/Com - Dec 7, 1999 ## Resources - D0 Dir Review Inst/Com - Dec 7, 1999 ## Summary - Read out system will be verified continuously. Current level of data integrity for single hdi would be adequate. - Partial barrel with cosmic ray data taking first step to final system configuration - All system components will be exercised at the silicon facility and procedures developed for DAB hookup and commissioning - Many DAQ components exist already in stand alone form, but are not integrated. - All full assemblies will have been read out at the silicon facility before installation. Development of procedures at facility crucial. - Schedule is tight but feasible - D0 Dir Review Inst/Com - Dec 7, 1999

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NASA Glenn Research Center **Safety and Mission Assurance Directorate** ####### ####### SUMMARY OF KEY ACTIVITIES ####### May 6, 2005 The following are highlights of key activities during the week ending May 6, 2005 for the Glenn Code Q/Safety and Mission Assurance Directorate (SMAD): **[Risk Related Decisions/Actions]{.underline}:** **[Programmatic]{.underline}:** None Reported **[Institutional]{.underline}:** None Reported **[Key Activities]{.underline}:** **[Code QD/Plum Brook Reactor Decommissioning Program Office]{.underline}:** Two individuals from the Decommissioning Project Team were recognized at the Safety and Mission Assurance Directorate Quarterly All Hands Meeting. Julie Fuerstenberg was given an award for her Administrative Support to the directorate and William Stoner, the Project Radiation Safety Officer, was recognized as the Employee of the Quarter by his peers on the Decommissioning Project. [Current Site Activities]{.underline} \-- The Embedded Piping Evaluation Team continues to make progress toward refining the options and scenarios that will be evaluated for cost and schedule impacts to the project. This evaluation will continue until mid-June. Once the evaluation team completes its work and makes recommendations to the US Army Corps of Engineers (USACE) and NASA, a path forward will be selected. The USACE had an independent contractor evaluate the Embedded Piping Evaluation Team this week. The conclusion reached by the evaluator was that the evaluation process appeared to be sufficient to provide the information for decision making in the June time frame. There were two cautions given by the evaluator; first, that the risks for all scenarios should be determined and understood by the decision makers; and second, that the waste streams from each option should be considered fully. There is an interim update to NASA and USACE management planned for the week of May 23, 2005. **[Code QE/Risk Management Office (RMO)]{.underline}:** **[PROGRAM SMA]{.underline}** **[Exploration Systems Mission Directorate]{.underline}** **Human System Research and Technologies** [Fluids and Combustion Facility (FCF)]{.underline} \-- Initiated review of the revised Combustion Integrated Rack (CIR) Phase III Flight Safety Data Package. Continued independent review of CIR hazard control verifications. (215 out of 358 CIR verifications are scheduled for review.) To date, 6.5% are complete and 5% with findings are being worked with the Project. Continued to witness software tests. The CIR Software Hazard Control test, CIR Health monitoring test and Fuel-Oxidizer Management Assembly (FOMA) Control Unit test were completed. The IPSU-A (Image Processing and Storage Unit Analog) test verified the software successfully, but a hardware anomaly was documented. Participated in the Software Change Control Board for a FOMA Control Unit software change. (Because of its importance for safety, FOMA changes are rigorously scrutinized.) Also, reviewed changes to the IOP (Input-Output Processor) and IPSU. Supported a software load of IPSU Main Processor software on a CIR IPSU. Also witnessed a load of IOP software on the CIR rack. Participated in a meeting to discuss the software change process and agreed to begin implementing a more formal process, including approval/rejection of software changes through an ERB (Engineering Review Board). Reviewed the updated signals list and provided comments and questions. Also updated several PRACAs (Problem Reports and Corrective Action) and prepared some for closure at the PRACA Review Board meeting. Recalculated effective mean time between failure (MTBF) for about 95% of the blocks in the CIR and Fluids Integrated Rack (FIR) availability models. (Will use as inputs for updated availability predictions based on revised duty cycles.) Also, discussed sparing options for various Orbital Replacement Units (ORUs) and workarounds for certain types of failures. Sent comments to Prime Contractor on their Limited-Life Items (LLI) List. Working with the contractor to correct deficiencies. Met with Contract Risk Manager to review and update closure rationale on open risks. Finished developing rationale on all remaining open risks. Supported the Software Test Team weekly meeting to review open software risks and action items. Closed seven action items and five risks. [Flow Enclosure Accommodating Novel Investigations in the Combustion of Solids (FEANICS)]{.underline} \-- Met with lead operations engineer and electrical engineer to discuss preliminary failure modes and effects analysis (FMEA) and possible design changes to the PI box configuration. Also began evaluation of proposed modification to the radiant heater halogen bulb design. RMO Safety establishing a simple one page chart to more easily identify the different categories of safety-critical fasteners. This will mitigate the risk of specifying, procuring and/or installing the wrong type of fastener for safety-critical applications. Reviewed two commercial off-the-shelf (COTS) boards for parts issues. Recommended these boards may be used for flight provided handling and environmental screening procedures for COTS are followed, but radiation testing is recommended. [Flame Extinguishment Experiment (FLEX)]{.underline} \-- Reviewing the Phase III Flight Safety Data Package. [Smoke Aerosol Measurement Experiment (SAME)]{.underline} \-- Met with Project Manager and team to discuss the draft Product Assurance Plan. Reviewed deviations proposed for \"fast track approach\" and possible options for mitigating risk. Completed the review and signed-off on the Phase II Flight Safety Data Package. [Dust Aerosol measurement Feasibility Test (DAFT)]{.underline} \-- Supported very successful Technical Interchange Meeting (TIM) with the Payload Safety Review Panel (PSRP) related to hardware damage that occurred during transportation between JSC and KSC. The TIM included discussions on the repair/re-verification of the hardware. All repairs and re-verifications were found to be acceptable by the PSRP. [Packed Bed Reactor Experiment (PBRE)]{.underline} \-- Reviewed the preliminary Form 1230 for use at the upcoming Requirements Definition Review (RDR). Reviewing venting methodologies. [Binary Colloidal Alloy Tests (BCAT)]{.underline} \-- Drafted memo concerning BCAT-3 operations (including updates to Safety Data Package) to support continued on-orbit testing of BCAT samples during Increment 12 on the International Space Station. **Integrated Product Teams (IPT)** Supported S&MA Integrated Product Team (IPT) Reconciliation Workshop at University of Maryland. Eight IPTs asked to reduce bottoms-up resource estimates by 60% overall (30% for S&MA Team) and identify associated risks. Worked with JSC and MSFC to re-scope S&MA proposal using reduced resources. (Final resource allocation expected by end of May.) **Project Prometheus Program** [Prometheus]{.underline} I \-- A risk identification workshop was facilitated for the Power Process Unit element. After a brief presentation, the team discussed the current risks and identified new risks. A presentation was created to give for the Electric Propulsion (EP) Implementation Review to be held May 12, 2005. The first draft of the EP Segment Risk Management Plan was completed. This plan should prevent any further concerns with roles and responsibilities for risk management on the EP Segment Project. **Constellation** [Crew Exploration Vehicle (CEV)]{.underline} \-- Participated in the Crew Exploration Vehicle (CEV) Capture team meeting on May 3, 2005. A GRC "Experience & Capabilities for CEV" package presentation to senior GRC managers was reviewed. **[Space Operations Mission Directorate]{.underline}** [Return to Flight]{.underline} \-- The Failure Modes and Effects Analysis for the Orbiter Integrated Sensor Inspection System (ISIS) \[Sensor Package 1\] was reviewed and comments provided. Some concern was expressed about two failure modes. The Pan Tilt Unit (PTU) mounting fixture shaft fails to rotate (jammed due to contamination or induced damage). This means that the crew cannot aim the Laser Dynamic Range Imager and Intensified Television Camera to pan all the area needed to carry out inspection. The other failure mode is PTU Motor Failure. The drive motor that rotates the sensor package fails: No Output. These comments were forwarded to JSC for discussion. Ballistics testing was witnessed for the reinforced carbon-carbon composite (RCC) panels with PDL (Product Development Laboratory) foam at 45 degrees at different velocities. The tested panels were then taken to the Nondestructive Evaluation Laboratory (NDE) to determine the damage area. It was determined that the PDL foam was more destructive to the RCC panels than the BX-265 foam that encases the external tanks. These tests are considered on the critical path for the shuttle launch. **[Science Mission Directorate]{.underline}** [Stirling Radio-isotope Generator (SRG)]{.underline} \-- Simulations were carried out using Rapid Assessment Prototyping Tool for Operational Readiness (RAPTOR) programs for three, fourteen, and seventeen year SRG-110 missions addressing seven active subsystems. The subsystems include: two heat sources, two converters, a gas management valve (GMV), a pressure relief device (PRD), and an electronic controller. Subsystem mean time to failures (MTTF) was varied from 10 times to 1000 times the mission duration to make relative comparisons of system availability and reliability. Preliminary reliability data was received from Lockheed Martin concerning the GMV and the PRD. Further detail is needed before including data in simulations. RMO participated in the Reliability Working Group (RWG) Tele-Conference call. Discussion occurred regarding the Reliability Summit meeting in Stevenson, Washington slated for June 21st thru June 23rd. The GRC Lead Project Engineer furnished an e-mail to the group explaining the objective of the Summit, which is to create a basis from which an overarching Stirling power conversion reliability plan can be developed that provides guidance to the developers of the technology, and offers verification of reliability to the potential end users. The summit is intended to be a first meeting of independent thought with subsequent follow-up meetings. **[Aeronautics Research Mission Directorate]{.underline}** Started working with the software safety and flight software development groups to develop a brief overview of GRC capability relative to the certifiability of the software planned for the autonomous/resilient vehicle systems demonstrations. Plan to meet with GRC AVSSP (Aviation Safety and Security Program Security Program) management to discuss this in-house capability. **[SMA TECHNOLOGY]{.underline}** **[NASA Engineering and Safety Center]{.underline}** [NESC ISS Recurring Anomaly Review Team]{.underline} \-- The assessment of which Quick Disconnects (QD) PRACAs are related to human factors (i.e. the discrepancies resulted in modifications to ground and flight procedures, or the development of tools to assist in QD maintenance functions) was completed. [(NESC) Safety and Mission Assurance]{.underline} \-- Participated in the NASA Safety Engineering Center (NESC) Safety and Mission Assurance (SMA) Working Group Meeting telecon on May 11, 2005, led by Wayne Frazier and Ken Cameron. Discussions centered on the Space Shuttle Program (SSP) Assurance Process Analysis, led by Dr. Steve Newman. This SSP Assurance Process was outlined in detail as to the roles and responsibilities of each of the interactive SMA functions throughout the Agency. The NESC Management Communication Center (MCC) status was discussed with regard to the use of a Microsoft Widows sharing tool being used for knowledge sharing and its link to the Chief Engineer office. **[Safety and Mission Assurance]{.underline}** [Electrical, Electronic, Electromechanical (EEE) Parts]{.underline} \-- Participated in the NASA Electronics Parts Advisory Group International Telecom on May 4, 2005. Topics of discussion were European surface mount devices, the use of pure tin in NASA parts, the International Audit schedule and the definition of \"Space qualified\" parts. **[Code QV/Quality Management Office (QMO)]{.underline}:** **[PROGRAM QUALITY ASSURANCE]{.underline}** **[Exploration Systems Mission Directorate]{.underline}** **Human System Research and Technologies** [Fluids and Combustion Facility (FCF)]{.underline} \-- The Quality Management Office (QMO), is reviewing and accepting FCF hardware and attending documentation, assuring that hardware turned over to the government conforms to the Delivery Order requirements. DD250s will be signed by QMO for 44 FCF packages, consisting of approximately 1200 kits. [Flow Enclosure Accommodating Novel Investigations in the Combustion of Solids (FEANICS)]{.underline} \-- QMO is helping the project select baffle and screen materials associated with the filter section. QMO is working to establish and document a better method of identifying safety-critical fasteners during the design phase to benefit the project in the procurement of flight fasteners. Quality Management Office personnel attended the TEST procedure review meeting of FEANICS-TEST-0-120 for testing the Fit Functional Model in the Combustion Integration Rack (CIR), Engineering Model (EM). The team detailed procedural inputs incorporating the latest comments and iterations. Pending any further comments or revisions, the document should be updated and routed for signatures. > Quality Management Office (QMO), provided guidance in electronic parts > selection and in key assembly procurements to best support NASA flight > qualification requirements. [Investigating the Structure of Paramagnetic Aggregates from Colloidal Emulsions (InSPACE-2)]{.underline} \--Participated in a meeting to review project status and the storage review plan. Made recommendations on bonded storage of hardware and Ground Support Equipment (GSE) and discussed concerns about having GSE operating at the launch site. [Light Microscopy Module (LMM)]{.underline} \-- Provided support to the Light Microscopy Module (LMM) Project Engineering Review Board for the LMM humidity exception. [Smoke Aerosol Measurement Experiment (SAME)]{.underline} \-- Participated in the SAME Project meeting to discuss potential modifications to the Product Assurance Plan (PAP) to reflect the fact that it is a fast-track project. Gave numerous recommendations for achieving more flight-worthy hardware while reducing paperwork and costs. **[INSTITUTIONAL QUALITY ASSURANCE]{.underline}** [Lessons Learned]{.underline} \-- Hosted NASA Headquarters sponsored workshop on the NASA Lessons Learned Process, establishing an effective NASA Center Process for Lessons Learned. Participants at this workshop included GRC\'s Chief Engineer and representatives from various GRC Offices and Directorates. The participants were very outspoken and provided NASA Headquarters with much valuable feedback and opinion about this topic and how it relates to GRC. **[Code QS/Glenn Safety Office (GSO)]{.underline}:** Ken O'Connor of the GSO received the Wings of Excellence Award from outstanding service to the Agency and the community. The award is given by the Cleveland\'s Federal Executive Board. [Safety, Health and Environmental Board]{.underline} \-- GSO supported a special meeting of the Safety, Health and Environmental Board. The Board discussed the Center\'s Emergency Management Program. [GSO Support for Design of Projects Impacted by Airport Expansion]{.underline} \-- Worked with the GSO Fire Protection and Life Safety Engineer to finalize Altitude Combustion Stand (ACS) project specification sections of interest to the Glenn Safety Office. The completed sections are due by 5/6/05 to meet the SAA3 Project Manager\'s schedule. Updated the GSO Chief on the status of the Altitude Combustion Stand (ACS) project. Presented a schedule for the completion of the design as well as a schedule for the procurement and construction phase. Subsequently, gave a similar presentation to the appropriate GSO staff. Consulted with the Central Chemical Storage Facility (CCSF) B215 Building Manager regarding some chemical fume hood design issues. [Safety Training]{.underline} \-- An extension was issued by the Chief, GSO on fire extinguisher training to all GRC personnel requiring Hot Work Permit for welding and grinding at the Center. The extension was issue to support scheduled work tasks while training requirements are fulfilled. **[Code QO/Environmental Management Office (EMO)]{.underline}:** Dan White of the EMO received the Wings of Excellence Award from outstanding service to the Agency and the community. The award was given by the Cleveland\'s Federal Executive Board. **[CHEMICAL MANAGEMENT]{.underline}** [Hazard Communication Training]{.underline} **\--** Hazard communication training was given to two civil servants in the Building 21 Learning Center auxiliary room on April 27. The next scheduled hazard communication training will be May 10 in the Building 21 Learning Center auxiliary room. The Chemical Management Team (CMT) has also been working with Sue Gott to set up hazard communication training for college interns. Since CMT posted the availability of the web based hazard communication refresher training, 234 individuals have taken the refresher training. [Chemical Inventory Program]{.underline} \-- The CMT converted 22 chemical containers to "active" status and 113 containers to "inactive" status. The CMT initiated the active scanning process in Building 77. The CMT also organized a meeting with the building manager, some of the key branch managers in the Building 5 complex, and the Waste Management Team to discuss issues pertinent to the Chemical Inventory Audit scheduled to begin the week of May 9. The CMT began hand entering data for newly bar coded containers discovered during the physical inventories of Buildings 49 and 106. Over 500 entries have been made in the past week. **[ENVIRONMENTAL]{.underline}** The Closure Report for the 315 gallon diesel tank removed from the Building 43 parking area has been approved and sent to the Bureau of Underground Storage Tank Regulations. The Environmental Team (ET) submitted the asbestos blanket authorization report to the Cleveland Bureau of Air Pollution Control. The ET provided comments on the draft revision of the Firing Range remedial design. The document was revised and then submitted to the Ohio Environmental Protection Agency (EPA). The ET evaluated the data failures for the four wells near Building 109, determined the cause, and proposed a solution to the Ohio EPA. Ohio EPA agreed with the proposed solution. Selected wells will be re-sampled, but only for polychlorinated biphenyls analysis. The ET has been working with the Facilities Division on soil and water issues related to the Altitude Wind Tunnel Demolition, Phase II. The National Environmental Policy Act (NEPA) process of Environmental Assessment and Finding of No Significant Impact (FONSI) is complete for the Expansion and Renovation of DeLaRoche Hall at St. Bonaventure University in the Town of Allegany, Cattaraugus County, New York. The final NEPA notice appeared in the Olean Times Herald on May 3 and 4, 2005. There is no requirement to wait an additional 30 days, based on the fact that the draft FONSI was previously published for 30-day public comment period and remained unchanged from draft version to final. **[INDUSTRIAL HYGIENE AND HEALTH PHYSICS]{.underline}** The Industrial Hygiene and Health Physics Team (IHHPT) responded to a request for assistance from the First Responders regarding an odor complaint in the clean room high bay area of Building 110. Once the high bay was cleared of the odors, an office-type waste can containing waste rags was found to be the cause. The IHHPT has been meeting with employees in the area to review material cleaning procedures. The IHHPT conducted employee exposure monitoring during the removal of aluminized Mylar wrap in Building 301, VF-5. After about an hour of removal, the employee, who was wearing a filtering face piece, was asked to stop work so the need for half-mask respirators could be evaluated. The IHHPT recommended that employees not be allowed to move into a presently vacant space in Building 14 until a mold contaminated wall is safely removed by professionally trained mold remediation workers.

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**SOUTHERN CROSS UNIVERSITY** ![](media/image1.wmf){width="4.50625in" height="0.6395833333333333in"} School of Human Services Course Accreditation Document Graduate Certificate in Community Development (Emergency Management Human Services) Graduate Diploma in Community Development (Emergency Management Human Services) Masters of Community Development (Emergency Management Human Services) ![](media/image2.png){width="1.3194444444444444e-2in" height="1.3194444444444444e-2in"} **Table of Contents** CONTENT PAGE Course Overview 1 Resource Impact Statement 8 Course Entry Requirements 10 Teaching/Learning Methods 10 Assessment Methods 10 Course Monitoring 11 Unit Statements Perspectives of Community Development 12 Political, Economic and Cultural Aspects of Community Development 17 Community Education 22 Issues in Disaster Management 27 Disaster Preparedness and Prevention 33 Living in a Hazardous Environment 39 Social Dimensions of Disasters 44 Analytical Methodologies in Emergency Management 51 Conceptual Contexts of Human Services 56 Analysis of Contemporary Policy in Human Services 60 Delivery Systems in Human Services 64 Evaluation and Accountability in Human Services 68 Staffing and Resources 71 Rules Graduate Certificate in Community Development 72 Graduate Diploma in Community Development 75 Masters in Community Development 78 **Course Overview** **Course Title and Title Abbreviation** *Title* Master of Community Development (Emergency Management/Human Services) Graduate Diploma of Community Development (Emergency Management/Human Services) Graduate Certificate of Community Development (Emergency Management/Human Services) *Abbreviation* MCD (EM/HS) GDCD (EM/HS) GCCD (EM/HS) *Generic Title* Master of Community Development Graduate Diploma of Community Development Graduate Certificate of Community Development **Level of Course** Masters by Coursework Graduate Diploma by Coursework Graduate Certificate by Coursework **Aims of Course and Relationship to University Plan** This course aims to provide flexible options in postgraduate course work for people working in the community in the specific area of Emergency Services or generic Human Services. Underpinning Community Development to both these areas of practice is unique. For Emergency Services, the course aims to: - be an internationally recognized program of study for people involved in emergency management in Australia and the Asian and Pacific regions; - link community development and emergency management; - be unique, as most emergency management programs concentrating on the macro issues of prediction, response and logistics rather than prevention of severe effects of disasters in communities; - meet the needs of regional, national and international agencies responsible for emergency management; and - meet an identified deficit in emergency management education. For Human Services, the course aims to: - provide an opportunity for practitioners to apply community development concepts to the developing area of human services; - incorporate community development into human services practice; - give community practitioners the opportunity to enhance their skills in community development within the human service area; and - provide Social Science and other similar graduates with an opportunity to advance their skills and knowledge in community development. The proposed course serves the University Plan by: - providing a course which meets needs of regional, national and international communities; - being innovative and responsive to an identified need that is compatible with the undergraduate offerings of the university; - delivering a unique program in a region that has a considerable need for disaster preparedness and response; - providing the course in partnership and collaboration with other world leaders in disaster management education; - responding to the objectives of International Decade for Natural Disaster Reduction of the United Nations which is concerned with limiting the effect of natural disasters; - providing a course which is income generating and has potential for international students as well as industry partnerships within Australia; and - combining two course approval documents (Masters in Human Services and Masters in Community Development) into one flexible and innovative course, thus reducing the course offerings and maximizing the course opportunities for students. **Need for Course** The School of Human Services has been working on the development of postgraduate fee paying course for some time. Previously the University Council has approved the development of a Masters of Human Services and more recently, a Masters in Community Development (Emergency Management). This proposal combines both those course development submissions into one flexible course. At the close of 1997 Jean Griffiths and Stewart Hase visited the University of Madison-Wisconsin which is the major developer of disaster management programs in the world; the Federal Emergency Management Agency in Washington, which is the United States government agency responsible for disaster management, response and education; Coventry University which delivers degree programs in disaster management; the Moreton-on-Marsh Fire College; and the United Nations Office of Humanitarian Affairs, I.D.N.D.R. Secretariat. These meetings clarified that the international emphasis for disaster management has shifted from one of response to one of disaster reduction which is encompassed in the community development processes. No such disaster management program currently exists in the world that includes Community Development as a major focus. Lastly, it was pointed out that Australia is positioned in a region where disasters are commonplace but where community development initiatives in disaster reduction are critical and yet remain poorly developed. The ever increasing incidence of disasters requiring international communities to provide extensive and expensive aid has highlighted that these vulnerable communities need assistance in taking action to reduce the effects of such disasters. The University of Madison-Wisconsin, the Federal Emergency Management Agency in Washington, Coventry University, Moreton-on-Marsh Fire College and the United Nations Office of Humanitarian Affairs, I.D.N.D.R. Secretariat expressed their willingness to partner Southern Cross in developing and delivering postgraduate and undergraduate programs in community development in the area of disaster reduction. This partnering includes making available to Southern Cross University existing accredited university course material from the Federal Emergency Management Agency of the United States Government and the Office of Humanitarian Affairs of the U.N. for adaptation to distance delivery in this program. The Graduate Certificate, Graduate Diploma and Masters courses proposed here are aimed at those people involved in emergency management and training, as well as community development and implementation in Australia, Asia and Pacific countries. It is envisaged that some students may be obtained from Australia and New Zealand. The Queensland Police and the Australian Emergency Management Institute (AEMI) have also showed a keen interest in this program and its appropriateness for developing their staff. Police services throughout Australia have a major role in emergency management and AEMI provides professional development to emergency services throughout Australia. This linking ensures relevance and collaboration with those operating in this field, which are vital requirements for the successful implementation of this program. Thus it was recommended to the Vice-Chancellor that we move rapidly to establish such a disaster management program which uses a combination of materials already developed by the above institutions as well as the new community development strand developed by Southern Cross University's School of Human Services with an emphasis on community education aspects of disaster prevention. This should be accomplished by forming partnerships with The Centre for Disaster Management at Wisconsin University, the Emergency Management Institute of the Federal Emergency Management Agency in Washington, and the current Coventry University-Fire Training College alliance in the United Kingdom. To formulate the Community Development/Community Education strand, we have consulted with the IDNDR Secretariat of the Office of Humanitarian Affairs in United Nations in Geneva and the Australian Emergency Management Institute. As a result the Vice-Chancellor has provided funds for the development of the Graduate Certificate, Graduate Diploma and Masters courses recognizing the potential niche market globally for this program. **Sources of Advice** Advice regarding this course has been obtained from the following group from which an Advisory Committee will be formed: Mr. Alan Hodges, Director General, Emergency Management, Australia Mr. Rod McKinnon, Director, Policy Planning and Coordination, Emergency Management, Australia. Mr. John Salter, Australian Emergency Management Institute, Mt Macedon Vic Dr. Don Schramm, University of Wisconsin, Madison Professor Chris Pratt, Coventry University Dr. Tony Genes, Moreton-In-Marsh Fire College Mr. Ken McKay, Director, Federal Emergency Management Agency, USA Mr. Stephen Sharro, Deputy Director, Training Division, Federal Emergency Management Agency, USA Mr. Phillipe Boulle, Director IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Dr. Wayne Blanchard, Federal Emergency Management Agency, USA Mr. Terry Jeggle, IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Ms. Christine Schneider, IDNDR Secretariat, Department of Humanitarian Affairs, United Nations, Geneva Dr. Elizabeth Ozanne, Department of Social Work and Social Policy, University of Melbourne Dr. Jim Ife, School of Social Work and Social Administration, University of Western Australia Mr. Mark Wilson, Manager, Primary and Extended Care, Mid North Coast Health Service, Northern Sector Dr. Tony Vinson, Director of Research, UNIYA Jesuit Social Justice Centre Ms. Jean Griffiths, Head, School of Human Services Ms. Uschi Bay, School of Human Services Dr. Stewart Hase, School of Social and Workplace Development Dr. Herbert Biggs, School of Human Services **Duration of Course** Like other coursework postgraduate programs offered at Southern Cross University the three awards represent entry and exit levels. ------------------- -------------------- --------------- ---------------- Graduate 4 Units of 150 hours 1 Trimester F/T 2 Trimesters P/T Certificate Graduate Diploma 8 Units of 150 hours 2 Trimesters 4 Trimesters P/T F/T Masters 12 Units of 150 3 Trimesters 6 Trimesters P/T hours F/T ------------------- -------------------- --------------- ---------------- **Year of Introduction** The course will be introduced in the second Trimester of 1999. **Field of Study** 030299 Humanities and Social Sciences-Other **Delivery Mode** The course will be offered as a combination of external and internal study, full and part-time. **Transitional Arrangements** Not Applicable **Intake in EFTSU for First Three Intakes** 1999 20 EFTSU 2000 20 EFTSU 2001 20 EFTSU **Intake in Persons by Attendance Status** 1999 40 students in a combination external-internal study 2000 40 students in a combination external-internal study 2001 40 students in a combination external-internal study **Resource Impact Statement** See Attached Documentation **Fees** This will be a full fee course. **Indicative Course Structure** While the units for each of the awards appear as discrete subject areas there are a number of themes that provide the substantive theoretical underpinning for the course. These themes are: - rights and responsibilities of communities; - social development; - application to industry/community; - ethics; - learning communities; and - critical thinking and inquiry. ***Graduate Certificate*** *Core Units* Principles of Community Development New Political, Economic and Cultural Aspects of Community New *Emergency Management Strand* Issues in Emergency Management New Disaster Preparedness & Prevention New *Human Services Strand* Conceptual Contexts of Human Services New Delivery Systems in Human Services New ***Graduate Diploma*** *Core Unit* Community Education New *Emergency Management Strand* Living in a Hazardous Environment New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New *Human Service Strand* Analysis of Contemporary Policy in Human Services New Evaluation and Accountability in Human Services New Elective from existing post graduate units of SCU Existing ***Masters*** Research Dissertation ED756 Independent Study Unit IS165 **Off Campus Practical Requirements** Nil **Professional Recognition** Nil **Schedule of Units** Principles of Community Development (Core) New Community Education in Emergency Management (Core) New Political, Economic and Cultural Aspects of Community (Core) New Issues in Emergency Management New Living in a Hazardous Environment New Disaster Preparedness & Prevention New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New Conceptual Context of Human Services New Analysis of Contemporary Policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Research Dissertation ED756 Independent Study Unit IS165 Elective **RESOURCE IMPACT STATEMENT** **COURSE DEVELOPMENT APPROVAL/ACCREDITATION** **[1. New Academic Staff Costs]{.underline}** Year 1 .5 Lecturer C Year 2 .5 Lecturer B Year 3 Nil Year 4 Nil **[2. New General Staff]{.underline}** Year 1 .2 HEW 3 Year 2 .2 HEW 3 Year 3 Nil Year 4 Nil **[3. Cost Savings]{.underline}** Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil **[4. Set Up Costs]{.underline}** **Equipment:** **(a) Computing** Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil **(b) Other Items Over \$5,000** The major cost of this program is the development of distance materials which has already been funded with an innovation grant. Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil **[5. Other Non-Salary Items]{.underline}** Year 1 \$7000 Year 2 \$7000 Year 3 \$7000 Year 4 \$7000 The major NSI costs for this program are in the cost of providing external study materials and in travel to maintain partnerships with the organizations collaborating on the program, thus ensuring that the material in the program is current and maintained at the "cutting edge". It is anticipated that the majority of these costs will be met through the income generated and through the School of Human Services. **[6. Work Experience]{.underline}** Year 1 Nil Year 2 Nil Year 3 Nil Year 4 Nil **[7. Library and Facilities Costs]{.underline}** **(a) Library** No library resources required above those normally allocated to the school. **(b) Facilities** Number of additional: - staff offices required Nil - lecture theatres required Nil - tutorial rooms required Nil - computers required Nil - laboratories required Nil - other requirements Nil No additional facilities are required as it is anticipated that all these requirements can be met from the School of Human Services current allocation and from utilizing the computer laboratories during the major non-teaching period. **[8. Expected Sources of Funds]{.underline}** Full fee paying **Course Entry Requirements** Applicants for admission to these courses in Emergency Management shall: $a$ have fulfilled all the requirements for admission to a degree or qualification of equivalent standing at this or another university or tertiary institution; or $b$ have demonstrated academic achievement, professional standing or experience (or a combination of these) considered to be equivalent to the requirement of (a). **Teaching/Learning Methods** This course will be offered primarily by external studies using a variety of teaching methods including printed study guides, reading resources, internet access, teleconferencing, email tutorials, on-site mentoring, and work-based learning. The courses will be mounted on the internet using the model currently being developed by the University's on-line pilot projects. The School of Human Services has extensive experience in offering courses by external studies as evidenced by the success of the Bachelor of Social Sciences. While prescribed content is delivered through self-instructional materials there is flexibility in activities and assessment for the participant to apply learning in their own specific context. Thus elements of the learning experience are negotiated between the academic, the participant and, in some cases, the sponsor. The option will be provided to overseas participants and by negotiation with their sponsoring agency or government to attend a face-to-face component at Southern Cross University, to be conducted at a time suitable to access university facilities and to the student. In these cases the course will involve a mix of distance and face-to-face methods. **Assessment Methods** The School of Human Services uses a variety of assessment methods designed to address the Unit objectives and is as individualized as practicable. The School is particularly concerned that the assessment is relevant, weighted appropriately, formative and that the student is not over-assessed. Assessment methods used by the School are consistent with common practice in higher education and include essays, project reports, research reports, and practical activities. This course will mainly utilize case studies, learning contracts or projects. Since assessment is formative, extensive feedback is given students as well as additional tutorials (by telephone or email) as required. Marking criteria and standards are continuously evaluated by cross-marking and by peer appraisal. **Course Monitoring** Course monitoring is a continuous process through student feedback and formal appraisal, annual review of the curricula and assessment by a meeting of staff, and feedback by sponsors. A comprehensive review involving all stakeholders of this course will be undertaken every 3 years to ensure its relevance to the emergency management community and in recognition of the rapidly changing areas of community development and emergency management. This is well within the University policy of course review every six years. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Perspectives of Community Development** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Community development is increasingly being utilized as a process by which social change is initiated. This Unit aims to introduce students to the theoretical and contextual components that influence the process of community development in a variety of situations. **Objectives** On completion of this Unit students should be able to: 1. Identify the contextual factors of the global environment and national and regional characteristics that impact upon community development. 2. Discuss the theoretical underpinnings of community development. 3. Critically analyze the context in which community development occurs. 4. Differentiate between approaches to community development. 5. Apply community development methodologies to different situations. **Handbook Entry** Provides students with an overview of the contextual and theoretical elements of Community Development. Approaches to community development will be critically analyzed using the contextual and theoretical elements and apply the process of community development to a variety of settings. **Syllabus** Overview of Community Contextual Factors: Global environment National and Regional Characteristics Emerging Themes in Community Development Theoretical Elements of Community Development Community Development Across a Variety of Settings Approaches to Community Development Strategies and Methods of Community Development Community Development in Human Services and Emergency Management **Prescribed Text** TBA **Reference Materials** Bennett, L., (1997) Urban redevelopment and grassroots action in Chicago and Sheffield: themes, variations and uncertain legacies. *International Journal of Urban and Regional Research. Vol 21* No 4 pp 664-677. Booth, M., (1997) (Community Development: 'Oiling the Wheels of Participation'? *Community Development Journal Vol 32* No 2 pp 151-158. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) *Community Care: A Reader.* Macmillan: London. Campfens, H Ed (1997). *Community Development around the world: Practice, Theory, Research* & *Training.* University of Toronto Press: Toronto Canada. Coulton, CJ., (1996) Poverty, work, and community: a research agenda for an era of diminishing federal responsibility. *Social Work Vol 41* No 5, pp 509-520. Craig, G & Mayo, M Eds (1995) *Community Empowerment: A Reader in Participation and Development.* Zed Books: London. Craig, G., (1998) Community Development in a Global Context *Community Development Journal. Vol 33* No 1 pp 2-17. Crow, G., (1997) *Comparative Sociology and Social Theory: Beyond the Three Worlds.* Macmillan: London. Ife, J., (1995) *Community Development: Creating community alternatives - vision, analysis and practice.* Addison Wesley: Melbourne. Friedman, J (1992), *Empowerment: The Politics of Alternative Development.* Blackwell: Oxford. Gilbert, A., (1994) Third world cities: poverty, employment, gender roles and the environment during a time of restructuring. *Urban Studies. Vol 31* No 4-5, pp 605-34. Handy, J W., (1993) Community economic development: some critical issues. *Review of Black Political Economy. Vol 21* No 3 pp 41-65. Hesselbein, F., Goldsmith, M., Beckhard, R., & Schubert, R F Eds (1998) *The Community of the Future.* Jossey-Bass Publisher: San Francisco. Howes, M., (1997) NGO's and the institutional development of membership organizations: a Kenyan case. *Journal of Development Studies. Vol 33* No 6, pp 820-848. Kenny, S., (1994) *Developing Communities for the Future: Community Development in Australia.* Nelson: Melbourne. Knack, R., (1993) Empowerment to the people. *Planning. Vol 59* No 2 pp 21-9. Nowak, J., (1997) Neighbourhood initiative and the regional economy. *Economic Development Quarterly. Vol 11* No 1 pp 3-11. Packham, C., (1998) Community Auditing as community development. *Community Development Journal. Vol 33* No 3 pp 249-259. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. *OECD Observer,* April - May, (205) p 6-10. Rahman, A., (1993) *People's Self-development: Perspectives on Participatory Action Research.* Zed Books: London. Riches, G., (1997) *First World Hunger.* Macmillan: London. Sadan, E., & Churchman. A., (1997) Process-focused and product-focused community planning: Two variations of empowering professional practice. *Community Development Journal. Vol 32* No 1 pp 3-16. Stafford, C., Furz B., (1997) *Society and Change: A Sociological Introduction to Contemporary Australia.* 2nd edit. Macmillan: Sydney. Titterton, M., Ed (1994) *Caring for People in the Community: The New Welfare.* Jessica Kingsley Publishers: London. **Journals** American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces **Web Sites** **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to objectives 1 & 2 **Type:** Essay **Length:** 2000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to objectives 1, 2, 3, 4 & 5 **Type:** Case Study **Length:** 3,500-4,000 words **Value:** 60% **Due Date:** **Intended Distribution Of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Political, Economic and Cultural Aspects of Community Development** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Community development can only occur with a thorough understanding of the political, economic and cultural context in which it occurs. This Unit aims to challenge students to analyze those contextual elements which impact significantly on the process of community development. In addition students will be challenged to question their own values and beliefs in relation to the political, economic and cultural elements of communities. **Objectives** On completion of this Unit students should be able to: 1. Identify their own values and beliefs about the political, economic and cultural influences on communities. 2. Analyze the political influences and processes of communities. 3. Determine the economic needs of the community within a social development context. 4. Differentiate between the cultural elements of the community, the host culture and the development process. **Handbook Entry** Students will explore their personal values and beliefs as they impact on the process of community development. They will explore in depth the political processes and influences on the communities, as well as economic influences within a social development framework. Culture within the community will be examined. **Syllabus** Overview of the Context of Communities Personal Values and Beliefs and Perceptions Political elements in Communities - Global, National, Regional and Local - Power versus Empowerment - Paternalism versus Self Determination Economic needs within social development framework - Social Development and Economic Paternalism - Economic Development versus Human Rights - Humanitarianism versus Community Empowerment Cultural Dimensions of Community - Cultural sensitivity and significance - Community Culture within a host culture - Conflicts between cultural elements Case studies from a variety of countries **Prescribed Text** TBA **Reference Materials** Bennett, L (1997) Urban redevelopment and grassroots action in Chicago and Sheffield: themes, variations and uncertain legacies. *International Journal of Urban and Regional Research,* Dec 1997 v21 n4 p 664-677. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) *Community Care: A Reader.* Macmillan: London. Campfens, H, Ed (1997). *Community Development around the world: Practice, Theory, Research* & *Training.* University of Toronto Press: Toronto Canada. Clark. A M (1995) Non-governmental organizations and their influence on international society. *Journal of International Affairs,* Wntr 1995 v48 n2 p 507-525. Clarke, S E & Gaile, G L (1997) Local politics in a global era: thinking locally, acting globally. *The Annals of the American Academy of Political and Social Science* May 1997 v551 p 28-42. Craig, G & Mayo, M Eds (1995) *Community Empowerment: A Reader in Participation and Development.* Zed Books: London. Esman, MJ (1997) Public administration, ethnic conflict, and economic development *Public Administration Review,* Nov-Dec 1997 v57 n6 p 527-534. Friedman, J (1992). *Empowerment: The Politics of Alternative Development.* Blackwell: Oxford. Grayson, D (1998) Take your partners for the future. *New Statesman* (1996), April 24, 1998 v127 n4382 p 26. Handy, J W., (1993) Community economic development: some critical issues. *The Review of Black Political Economy. Vol 21* No 3 pp 41-65. Jakobsen, P V (1996) National interest, humanitarianism or CNN: what triggers UN peace enforcement after the Cold War? *Journal of Peace Research,* May 1996 *Vol 33* no 2 pp 205-16. Kenny, S., (1994) *Developing Communities for the Future: Community Development in Australia.* Nelson: Melbourne. Knudsen, D C (1997) Response: what works best? Reflections on the role of theory in planning. *Economic Development Quarterly,* August 1997 *Vol 11* no 3 pp 208-212. Lattas, A (1996) Humanitarianism and Australian nationalism in colonial Papua: *The Australian Journal of Anthropology,* August 1996 v7 n2 pp 141-66. Lloyd, J (1997) Charities and other big international agencies aren't best placed to deal with famine. The better answer is to cultivate democracy and rights in the countries concerned. *New Statesman* (1996), August 22, 1997 *Vol 126* no4348 p 9. Lucy, R., (1993) *The Australian Form of Government: Models in Dispute.* Macmillan: Melbourne. Morrison, B M (1998) The transcendence of locality and the persistence of community in Sri Lanka, 1980-1995. *Journal of Asian and African Studies, Vol 33* No 2 pp 205-233. Pearson, M, & Scherer. P., (1997) Balancing security and sustainability in social policy. *OECD Observer.* April-May, (205) p 6-10. Peterson, W H (1998) Rational ignorance or citizenship education? Our second democracy? *Vital Speeches,* April 1, 1998 v64 n12 p 368-71. Rahman, A., (1993) *People's Self-development: Perspectives on Participatory Action Research.* Zed Books: London. Riches, G., (1997) *First World Hunger* Macmillan: London. Robinson, M (1997) Imaginative possessions: John Galway Foster Lecture. *Critical* *Quarterly,* Winter 97 v39 n4 p 3-9. Roberts, A., (1994) The road to hell: humanitarian intervention. *Current,* June 1994 n363 p 24-9. Sollis, P (1994) The relief-development continuum: some notes on rethinking assistance for civilian victims of conflict. *Journal of International Affairs,* Wntr 1994 Vol 47 n2 p 451-471. Sullivan, P (1996) All Free Man Now: Culture, Community and Politics in the Kimberley Region, *North-Western Australia Australian Institute of Aboriginal and Torres Strait Islander Studies, Report Series,* 1996, pp xiv + 130, ISBN 0 85575 274 2. Titterton, M., Ed (1994) *Caring for People in the Community: The New Welfare.* Jessica Kingsley Publishers: London. Talhami G H (1997) Palestinians in Jerusalem: the denationalization of a community. *Middle East Policy,* Sep 1997 v5 n3 p 57-69. Widner, J & Mundt, A (1998) Researching social capital in Africa *Africa,* Wntr1998 v68 n1 p1-25. Yin, J S (1998) The community development industry system: a case study of politics and institution in Cleveland, 1967-1997. *Journal of Urban Affairs,* Spring 1998 v20 n2 p 137-58. **Journals** American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces **Web Sites** **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to objectives 1, 2, 3 & 4 **Type:** Project analyzing a community **Length:** 5,000-6,000 words **Value:** 100% **Due Date:** **Intended Distribution Of Student Load** The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Community Education** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Principles of Community Development Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Education at the community level is one of the major strategies of Community Development. This Unit aims to introduce students to the processes involved in educating communities for both immediate and longer-term problems. The unit will utilize educational techniques to facilitate the development of learning communities. **Objectives** On completion of this Unit students should be able to: 1. Discuss the principles of adult and organizational learning as they apply to learning communities. 2. Identify factors which influence community learning. 3. Analyze the learning needs of the community in a variety of situations. 4. Distinguish between the various roles of community educator and how the various roles impact on the choice of learning strategies. 5. Develop and implement an educational program at the community level. **Handbook Entry** Provides students with an overview of learning theories and educational strategies as they apply to community education. The unit explores the various educational roles as they relate to community educational needs. **Syllabus** Overview of Learning Communities Principles of Adult and Public Education Learning Theories Role of Community Educator Factors which influence community learning: - Social - Political - Economic - Cultural Assessing Community Learning Needs Emergency Situations versus Social Change Case studies in Community Education **Prescribed Text** TBA **Reference Materials** Beggs, J J, Haines, V A & Hurlbert, J S (1996) Situational contingencies surrounding the receipt of informal support. *Social Forces, Vol 75* No1 pp 201-223. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) *Community Care: A Reader.* Macmillan: London. Campfens, H Ed (1997). *Community Development around the world: Practice, Theory, Research* & *Training.* University of Toronto Press: Toronto Canada. Craig, G & Mayo, M Eds (1995) *Community Empowerment: A* *Reader in* *Participation and Development.* Zed Books: London. Crowther, J., & Shaw M., (1997) Social Movements and the Education of Desire. *Community Development Journal. Vol 32* No 3 pp 266-279. Ife, J., (1995) *Community Development: Creating community alternatives - vision, analysis and practice.* Addison Wesley: Melbourne. Foley G. Ed. (1995) *Understanding adult education and training.* Allen & Unwin: Sydney. Friedman, J (1992), *Empowerment: The Politics of Alternative Development.* Blackwell: Oxford. Gillespie, D F., & Murty, S., (1994) Cracks in a postdisaster service delivery network. *American Journal of Community Psychology. Vol 22* , No 5 pp 639-661. Hesselbein, F., Goldsmith, M., Beckhard, R., & Schubert, R F Eds (1998) *The Community of the Future.* Jossey-Bass Publisher: San Francisco. Kenny, S., (1994) *Developing Communities for the Future: Community Development in Australia.* Nelson: Melbourne. Knowles, M., (1990) *The Adult Learner: A neglected species.* Gulf Publishing: Houston Texas. Newman, M., (1994) *Defining the Enemy: Adult Education in Social Action.* Stewart Victor Publishing: Sydney. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. *OECD Observer,* April-May, (205) p 6-10. Poster, C., & Kruger, A., Eds (1990). *Community Education in the Western World.* Routledge: London. Rahman, A., (1993) *People's Self-development: Perspectives on Participatory Action Research.* Zed Books: London. Riches, G., (1997) *First World Hunger* Macmillan: London. Schram, B., & Mandell, B. R., (1994) *An Introduction to Human Services: Policy and Practice.* 2nd edit., New York: Macmillan. Stafford, C., Furz B., (1997) *Society and Change: A* *Sociological Introduction to Contemporary Australia.* 2nd edit. Macmillan: Sydney. Thorpe, M., Edwards, R., & Hanson, A., Eds (1993) *Culture and Process of Adult Learning.* Routledge: London. Titterton, M., Ed (1994) *Caring for People in the Community: The New Welfare.* Jessica Kingsley Publishers: London. **Journals** American Journal of Community Psychology Community Development Journal Community Quarterly Journal of Housing and Community Social Forces **Web Sites** **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to objectives 1 & 2 **Type:** Essay **Length:** 2000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to objectives 3, 4 & 5 **Type:** Community Education Proposal **Length:** 3,500-4,000 words **Value:** 60% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Issues in Disaster Management** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Presents a number of major concepts underpinning disaster management and preparedness in the context of community development. These concepts are: the scope of disaster management; an overview of the principles and practice of disaster response and recovery; economics and disaster; legal and ethical issues of disasters; politics and disasters; and community development. **Objectives** On completion of this Unit students should be able to: 1. Outline the development of international, national and local government policy in emergency management. 2. Describe the types, effects and threat of disasters worldwide. 3. Compare and contrast policy and processes associated with disaster response, disaster recovery, disaster preparedness and hazard mitigation. 4. Describe the role of major international and national agencies involved in emergency management. 5. Analyze the economic, social, legal and ethical implications of a community development approach to disaster preparedness and mitigation. 6. Outline the major issues involved in community education and preparedness for disasters. 7. Describe the role of technology in disaster preparedness. **Handbook Entry** A number of major issues in contemporary emergency management are covered in this Unit that is a foundation for the rest of the course which has a more specific community development orientation. The Unit provides a broad outline of the nature of disasters, response, recovery, preparedness and mitigation from an international perspective. **Syllabus** The aims and scope of disaster management International, national and local agencies involved in disaster management The politics of disaster The nature of disasters Hazardous environments International trends in disaster management Policy and planning for disaster management Ethics and disasters Hazard mitigation Economic and social issues in disaster preparedness Community education Technology, change and disaster management The future of disaster management **Prescribed Text** TBA **Reference Materials** Alexander, D., (1993) *Natural Disasters.* New York: Chapman & Hall. Allison, R E (1993) *Global Disasters: Inquiries into Management Ethics* Des Moines IA: Prentice Hall. Auf der Heide, E (1989) *Disaster Response: Principles of Preparation and Coordination.* St Louis: Mosby. Baldi, B., (1995) *Emergency Preparedness Policy-Making: A* *comparative Analysis between California and Italy.* Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) Linking Preparedness and Organisational Disaster Response Effectiveness. *Journal of Community Practice. Vol 2* No 3. Beatley, T., (1989) Towards a Moral Philosophy of Natural Disaster Mitigation *International Journal of* *Mass Emergencies and Disasters, Vol 7* pp 5-32. Bourriau, J (1992) *Understanding Catastrophe: Its Impact on Life on Earth* New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. *The Journal of Disaster Studies and Management. Vol 20* No 1, pp 49-60. Cole, L., (1994) *Element of Risk: the Politics of Radon.* New York: Oxford University Press. Comfort, L K Ed. (1988) *Managing Disaster: Strategies and Policy Perspectives.* Durham NC: Duke University Press, 1988. Cutter S., Ed (1994) *Environment Risks and Hazards.* Englewood Cliffs NJ: Prentice Hall. Drabek, T E (1990) *Emergency Management: Strategies for Maintaining Organizational Integrity* New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) *Emergency Management: Principles and* *Practice for Local Government.* Washington DC: International City Management Association. Drabek, T E (1994) *Disaster Evacuation and the Tourist Industry.* Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) *Disaster Evacuation Behaviour: Tourist and other Transients.* Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney K J Eds (1994) *Disasters, Collective Behaviour and Social Organisation* Newark DE: University of Delaware Press. Erickson K (1994) *A New Species of Trouble: Explorations in Disaster, Trauma and Community* New York: WW Norton & Co. Gillespie D F (1993) *Partnerships for Community Preparedness.* Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. *Journal of Applied Social Science Vol 17* No 2 pp 219-236. Houts P The SWOT Analysis: Another Planning Tool for Emergency Management. *Australian Journal of Emergency Management Vol 11* No 3 pp 12-19. Lindell, M K., (1992) *Behavioural Foundations of Community Emergency Planning.* Washington DC: Hemisphere Publishing. Lindell, M K., (1994) Are Local Emergency Planning Committees Effective in Developing Community Disaster Preparedness? *International Journal of Mass Emergencies and Disasters. Vol 12* pp 159-182. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance *Journal of Policy Analysis and Management Vol 15* No 2 pp 171-201. May P J (1996) *Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability.* London: Routledge. Merriman, P A & Browitt, CWA Eds (1993) *Natural Disasters: Protecting Vulnerable Communities.* London: Thomas Telford. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach *Disasters Vol 19* pp 327-337. Nigg, J M (1995) *Disaster Recovery as a Social Process.* Newark DE: Disaster Research Centre. Paton, D & Long, N Eds (1996) *Psychological Aspects of Disasters: Impact, Coping and Intervention* Palmerston North New Zealand: Dunmore Press. Perry, R W & Lindell M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. *International Journal of Mass Emergencies and Disasters, Vol 9* No 1 pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. *International Journal of Mass Emergencies and Disasters, Vol 11* No 1 pp 99-110. Phillips, B.D., (1993) Cultural Diversity in Disaster Situations. *International Journal of Mass Emergencies and Disasters.* March 1993. Quarentelli, E L (1995) *Disasters are Different: Therefore Planning For and Managing them requires innovative as well as Traditional Behaviours.* Newark DE: Disaster Research Institute. Quarentelli, E L (1995) *The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends.* Newark DE: Disaster Research Institute. Raphael, B., (1986) *When Disaster Strikes: How Individuals and Communities Cope.* New York: Basic Books. Sylverstein, M (1992) *Disasters: Your Right to Survive.* Washington DC: Brassey's. Sylves, R T, (1991) Adopting Integrated Emergency Management in the United States: Political and Organisational challenges. *International Journal of Mass Emergencies and Disasters Vol 9*, pp 413-424. Sylves, R T., Ed (1996) *Disaster Management in the U.S. and Canada.* Springfield IL: Charles C. Thomas. Waugh, W L & Ronald, J H Eds *(1990) Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters.* Westport CN: Greenwood Press. I World Health Organisation (1995) *Establishing a Mass Casualty Management System* Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. **Journals** Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to objectives 1--7 **Type:** Essay **Length:** 2500 words **Value:** 50% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 1--7 **Type:** Project Report **Length:** 2500 words **Value:** 50% **Due Date:** **Intended Distribution of Student Load** The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Disaster Preparedness and Prevention** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Planning for potential disaster to reduce its impact is a major responsibility for communities and involves significant policy development and implementation. This Unit prepares participants to develop and implement plans using available community, government and private sources that will mitigate the effects of disasters. **Objectives** On completion of this Unit students should be able to: 1. Identify international best practice in disaster planning and mitigation. 2. Describe the principles and processes involved in disaster preparedness. 3. Coordinate the essential community and government agencies to develop a disaster preparedness and mitigation plan. 4. Undertake a disaster preparedness and mitigation plan. 5. Develop a disaster and mitigation plan to the community and relevant agencies. 6. Communicate a disaster and mitigation plan to the community and relevant agencies. 7. Critically evaluate existing disaster and mitigation plans. **Handbook Entry** Provides a foundation understanding and practical application of planning for disaster preparedness by communities. The Unit examines international practice in community disaster planning processes, the theory and practice of community preparedness, and how to prepare an effective disaster plan. **Syllabus** International policy in disaster planning and mitigation International best practice in disaster preparedness and mitigation Pre-planning requirements The theory of mitigation Hazard and risk assessment/vulnerability/resource assessment Hazard mitigation Community assessment The planning process and methodologies Generic and hazard-specific disaster/hazard plans Coordination of the plan and team/community building Community growth/development impact Mutual aid agreements Exercising disaster plans Legal issues **Prescribed Text** TBA **Reference Materials** Alexander, D., (1993) *Natural Disasters.* New York: Chapman & Hall. Allison, R E (1993) *Global Disasters: Inquiries into Management Ethics* Des Moines IA: Prentice Hall. Auf der Heide, E (1989) *Disaster Response: Principles of Preparation and Coordination.* St Louis: Mosby. Baldi, B., (1995) *Emergency Preparedness Policy-Making: A Comparative Analysis between California and Italy.* Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) Linking Preparedness and Organisational Disaster Response Effectiveness. *Journal of Community Practice. Vol 2* No 3. Beatley, T., (1989) Towards a Moral Philosophy of Natural Disaster Mitigation *International Journal of Mass Emergencies and Disasters, Vol 7* pp 5-32. Bourriau, J (1992) *Understanding Catastrophe: Its Impact on Life on Earth* New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. *The Journal of Disaster Studies and Management. Vo l20* No 1, pp 49-60. Comfort, L K Ed (1988) *Managing Disaster: Strategies and Policy Perspectives.* Durham NC: Duke University Press, 1988. Cutter S., Ed (1994) *Environment Risks and Hazards.* Englewood Cliffs NJ: Prentice Hall. Drabek, T E (1990) *Emergency Management: Strategies for Maintaining Organizational Integrity.* New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) *Emergency Management: Principles and Practice for Local Government.* Washington DC: International City Management Association. Drabek, T E (1994) *Disaster Evacuation and the Tourist Industry.* Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) *Disaster Evacuation Behaviour: Tourist and other Transients.* Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney, K J Eds (1994) *Disasters, Collective Behaviour and Social Organisation* Newark DE: University of Delaware Press. Erickson K (1994) *A New Species of Trouble: Explorations in Disaster, Trauma and Community* New York: WW Norton & Co. Freeman, R. M., (1998) The real event model or the organizational convenience model? A national survey of correctional emergency preparedness evaluation methodology*. Prison Journal Vol 78* No 2 pp 152-166. Gillespie D F (1993) *Partnerships for Community Preparedness.* Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee, M M (1993) Prevention Planning and Disaster Preparedness. *Journal of Applied Social Science Vol 17* No 2 pp 219-236. Houts, P The SWOT Analysis: Another Planning Tool for Emergency Management. *Australian Journal of Emergency Management Vol 11* No 3 pp 12-19. Lindell, M K., (1992) *Behavioural Foundations of Community Emergency Planning.* Washington DC: Hemisphere Publishing. Lindell, M K (1994) Are Local Emergency Planning Committees Effective in Developing Community Disaster Preparedness? *International Journal of Mass Emergencies and Disaters. Vol 12* pp 159-182. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance *Journal of Policy Analysis and Management* *Vol 15* No 2 pp 171-201. May, P J (1996) *Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability.* London: Routledge. Merriman, P A & Browitt, C W A Eds (1993) *Natural Disasters: Protecting Vulnerable Communities.* London: Thomas Telford. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach *Disasters Vol 19* pp 327-337. Nigg, J M (1995) *Disaster Recovery as* a *Social Process.* Newark DE: Disaster Research Centre. Paton, D & Long, N Eds (1996) *Psychological Aspects of Disasters: Impact, Coping and Intervention* Palmerston North New Zealand: Dunmore Press. Perry, R W & Lindell, M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. *International Journal of Mass Emergencies and Disasters* *Vol 9* pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. *International Journal of Mass Emergencies and Disasters, Vol 11* No 1 pp 99-110. Phillips, B D, (1993) Cultural Diversity in Disaster Situations. *International Journal of Mass Emergencies and Disasters.* March 1993. Quarentelli, E L (1995) *Disasters are Different: Therefore Planning For and Managing them requires Innovative as well as* *Traditional Behaviours.* Newark DE: Disaster Research Institute. Quarentelli, E L (1995) *The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends.* Newark DE: Disaster Research Institute. Raphael, B., (1986) *When Disaster Strikes: How Individuals and Communities Cope.* New York: Basic Books. Sylves, R T., Ed (1996) *Disaster Management in the US and Canada.* Springfield IL: Charles C Thomas. Waugh, W L & Ronald, J H Eds (1990) *Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters.* Westport CN: Greenwood Press. World Health Organisation (1995) *Establishing a Mass Casualty Management System* Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. **Journals** Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1, 2 & 7 **Type:** Essay **Length:** 2500 words **Value:** 50% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 3 - 5 & 6 **Type:** Project Report **Length:** 3000 words **Value:** 50% **Due Date:** **Intended Distribution of Student Load** The assumed student Workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Living in a Hazardous Environment** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Understanding the nature and effects of hazardous environments, hazardous materials, and terrorism are central to effective disaster preparedness. This Unit provides a detailed analysis of many different hazards, their causes, effects, distribution, mitigation and community preparedness. **Objectives** On completion of this Unit the student should be able to: 1. Describe the causes, characteristics and effects of known hazards in the student's own region. 2. Map the distribution of major hazards internationally 3. Develop mitigation plans for major hazards in the student's own region. 4. Critically analyze mitigation plans for common major hazards. 5. Prepare citizen awareness and preparedness programs for common local hazards. **Handbook Entry** Provides a detailed understanding of most of the known natural and human made hazards that can lead to disasters and major emergencies. The Unit then examines the principles and practice of mitigation for a number of local and international hazards. **Syllabus** The causes, characteristics and effects of: Avalanche Civil disorder Drought Earthquake Epidemics Fires Flood Hail Hazardous materials Hurricanes, cyclones and storms Industrial accidents Landslides Nuclear plant accident Terrorism Transport accidents Tsunamis Volcanoes Bush fires and wildfires War **Prescribed Text** TBA **Reference Materials** Aguirre, B., (1993) The Human Ecology of Tornadoes *Demography Vol 4* pp 623-633. Aguirre, B., (1994) Population and the detection of Weak Tornadoes. *International Journal of Mass Emergencies and Disasters. Vol 12* pp 261-277. Aguirre, B., (1995) The Social Organisation of Search and Rescue: Evidence from the Guadalajara Gasoline Explosion. *International Journal of Mass Emergencies and Disasters, Vol 13* pp 67-92. Alexander, D., (1993) *Natural Disasters.* New York: Chapman & Hall. Baldwin,T K., (1993) Earthquake Awareness in Southeast Missouri: A Study in Pluralistic Ignorance. *International Journal of Mass Emergencies and Disasters Vol 11* pp 351-363. Baron, J., (1993) Attitudes toward Managing Hazardous Waste: What should be cleaned up and who should pay for it? *Risk Analysis Vol 13* pp 183-192. Bradford, J K (1994) Biological Hazards and Emergency Management *Journal of Contingencies and Crisis Management Vol 2* No 1 pp 39-48. Boulton, P., (1993) Community Context and Uncertainty Following a Damaging Earthquake: Low-lncome Latinos in Los Angeles, California. *Environmental Professional Vol 15* pp 240-247. Bourriau, J (1992) *Understanding Catastrophe: Its Impact on Life on Earth* New York: Cambridge University Press. Burby, R J., & Wagner, F. (1996) Protecting Tourists from Death and Injury in Coastal Storms. *The Journal of Disaster Studies and Management. Vol 20* No 1, pp 49-60. Burton, I. M., Kates, R.W. & White, G. F. (1993) *The Environment as Hazard.* 2nd edit. New York: Guilford Press. Cutter S. (1993) *Living with Risk* London: Edward Arnold. Cutter S., Ed (1994) *Environment Risks and Hazards.* Englewood Cliffs NJ: Prentice Hall. Flin, R., Stewart, K & Slaven, G., (1996) Emergency decision making in the offshore oil and gas industry. *Human Factors. Vol 38* No2. pp 262-278. Handmer, J (1996) Policy Design and Local Attributes for Flood Hazard Management. *Journal of Contingencies and Crisis Management Vol 4* No 4 pp 189-197. Hoffman, B R & Riley K J (1995) *Domestic Terrorism: A National Assessment of State and Local Preparedness.* Santa Monica, CA: Rand Corp. Irvin T R & Strong, C B *Emergency Response and Hazardous Chemical Management: Principles and Practices* Delray Beach FL: St Lucie Press. Jasanoff, S (1994) *Learning from Disaster: Risk Management after Bhopal.* Philadelphia, PA University of Pennsylvania Press. Johnson, D, Sullivan, S & Jones, G W (1996) A survey of emergency response planning as practiced in boiler/industrial furnace facilities burning hazardous waste derived fuels. *Journal of Environment Health. Vol 59* No 1 pp 12-19. Kapoor R., (1992) *The psychosocial Consequences of an Environmental Disaster: Selected Case Studies after the Bhopal Gas Tragedy.* New York: Human Sciences Press. Keating M., (1997) Preparing for the Increasing Threat of Terrorism. *Disaster Recovery Journal Vol 118* No 1 pp 10-11. Kletz T., (1993) *Lessons from Disaster: How Organisations have no memory and accidents recur.* Houston: Gulf Publishing Co. Kreps, G A (1995) Disaster as Systemic Event and Social Catalyst: A Clarification of Subject Matter. *International Journal of Mass Emergencies and Disasters. Vol 13* No 3 pp 255-284. Lindell, M K., & Meier, M J (1994) Effectiveness of Community Planning for Toxic Chemical Emergencies *Journal of the American Planning Association Vol 60* pp 222-234. May, P J & Burby, R J (1996) Coercive Versus Cooperative Policies: Comparing Intergovernmental Mandate Performance *Journal of Policy Analysis and Management Vol 15* No 2 pp 171-201. May, P J (1996) *Environmental Management and Governance: Intergovernmental Approaches to Hazards and Sustainability.* London: Routledge. McGuire B., (1997) Waiting for the big one. *Geographical Magazine* *Vol 17* pp 66-71. Medvedev, Z., (1990) *The Legacy of Chernobyl* New York: Basic Books. Quarentelli, E L (1995) *Disasters are Different: Therefore Planning For and Managing them requires Innovative as well as Traditional Behaviours.* Newark DE: Disaster Research Institute. Quarentelli, E L (1995) The *Future is* *not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends.* Newark DE: Disaster Research Institute. Phillips, B (1992) Planning for the Expected: Evacuation in a Chemical Emergency. *Disaster Management Vol 4* No 2 pp 103-108. Raphael, B., (1986) *When Disaster Strikes: How Individuals and Communities Cope.* New York: Basic Books. Rosenthal, U & Kouzmin A., (1997) Crises and crisis management: toward comprehensive government decision making. *Journal of Public Administration Research and Theory. Vol 7* No 2 pp 277-305. Shlapentokh. V., (1998) Fear of the future in the modern world: a Russian case. *International Journal of Comparative Sociology. Vol 39* No 2 pp 161-177. Sylverstein. M (1992) *Disasters: Your Right to Survive.* Washington DC: Brassey's. Sylves, R T., (1991) Adopting Integrated Emergency Management in the United States: Political and Organisational Challenges. *International Journal of Mass Emergencies and Disasters. Vol 9*, pp 413-424. Sylves, R T., Ed (1996) *Disaster Management in the US and Canada.* Springfield IL: Charles C Thomas. Washington, G T (1998) After the flood: a strategic primary health care plan for homeless and migrant populations. *Nursing and Health Care Perspectives. Vol 19* No 2 pp 66-72. Waugh, W L & Ronald, J H Eds (1990) *Handbook of Emergency Management: Policies and Programs for Dealing with Major Hazards and Disasters.* Westport CN: Greenwood Press. World Health Organisation (1995) *Establishing* a *Mass Casualty Management System* Washington DC: Pan American Health Organisation, Pan American Sanitary Bureau. **Journals** Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters Journal of Contingencies and Crisis Management Prehospital and Disaster Medicine Journal **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1, 2 & 3 **Type:** Essay **Length:** 2500 words **Value:** 50% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 4 & 5 **Type:** Essay **Length:** 3000 words **Value:** 50% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Social Dimensions of Disasters** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Community reactions to disaster and to disaster preparedness are determined by complex social and psychological factors. This Unit examines these factors in detail so that the student may better understand how to design appropriate disaster preparedness and hazard mitigation programs. **Objectives** On completion of this Unit students should be able to: 1. Critically evaluate the history and research regarding human behaviour in relation to disaster and disaster preparedness. 2. Describe the four phases of the Disaster Life Cycle. 3. Outline disaster mythology patterns, their sources and their effects on people. 4. Predict common human responses to disasters and disaster preparedness. 5. Describe the role of stress on a person's reaction to disaster and basic prevention methods. 6. Determine the most appropriate communication strategies in communities given known human responses to disasters and disaster preparedness. 7. Identify potential problems in the ways organisations might behave in response to disaster, hazard mitigation and preparedness. **Handbook Entry** Provides a detailed analysis of the sociological and psychological aspects of disasters and disaster preparedness in individuals, communities and organisations. **Syllabus** Definitions of disasters History of research in human behaviour associated with disasters The Disaster Life Cycle Disaster mythology Disaster warnings Community evacuation behaviour Building effective warning systems Victim response in disasters Non-victim responses Looting behaviour. Crisis decision making Disaster response and recovery in communities Stress Communication in communities during disaster Communication and preparedness **Prescribed Text** TBA **Reference Materials** Alexander, D., (1993) *Natural Disasters.* New York: Chapman & Hall. Allison, R E (1993) *Global Disasters: Inquiries into Management Ethics* Des Moines IA: Prentice Hall. Aguirre, B., (1995) The Social Organisation of Search and Rescue: Evidence from the Guadalajara Gasoline Explosion. *International Journal of Mass Emergencies and Disasters, Vol 13* pp 67-92. Becker, S M., (1997) Psychosocial Assistance after Environmental Accidents: A policy Perspective. *Environmental Health Perspectives. Vol 105.* Dec. pp 1557-1563. Buckle, P., (1995) Community Based Management of Social Disruption Following Disasters. *The Australian Journal of Emergency Management. Vol 10* pp 31-38. Comfort, L K Ed (1988) *Managing Disaster: Strategies and Policy Perspectives.* Durham NC: Duke University Press, 1988. Drabek, T E (1990) *Emergency Management: Strategies for Maintaining Organizational Integrity.* New York: Springer-Veriag. Drabek, T E & Hoetmer, G J Eds (1991) *Emergency Management: Principles and Practice for Local Government.* Washington DC: International City Management Association. Drabek, T E (1994) *Disaster Evacuation and the Tourist Industry.* Boulder CO: Institute of Behavioural Science, University of Colorado. Drabek, T E (1996) *Disaster Evacuation Behaviour: Tourist and other Transients.* Boulder CO: Institute of Behavioural Science, University of Colorado. Dynes, R. & Tierney K J Eds (1994) *Disasters, Collective Behaviour and Social Organisation* Newark DE: University of Delaware Press. Dynes, R (1995) Working Sociologists as Globetrotters: Utilising Disaster Research and Policy Networks. *Journal of Applied Sociology. Vol 12*. Dynes, R., (1994) *Situational Altruism: Toward and Explanation of Pathologies in Disaster Assistance* Disaster Research Center, University of Delaware. Enarson, E., & Morrow, B H Eds (1998) *The Gendered Terrain of Disaster: Through the Eyes of Women* Westport, CT: Greenwood Publishing. Fischer, H W (1994) *Response to Disaster: Fact versus Fiction* & *its Perpetuation-the Sociology of Disaster* Lanham MD: University Press of America. Gillespie D F (1993) *Partnerships for Community Preparedness.* Boulder CO: Institute of Behavioural Science, University of Colorado. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. *Journal of Applied Social Science Vol 17* No 2 pp 219-236. Johnston, W & Davey, C L (1997) The psychological impact of negative TV news bulletins: the catastrophizing of personal worries. *British Journal of Psychology. Vol 88* No 1 pp 85-92. Lindell, M K., (1992) *Behavioural Foundations of Community Emergency Planning.* Washington DC: Hemisphere Publishing. Kreps, G. & Bosworth S L (1994) Disaster, Organising, and Role Enactment: A Structural Approach. *American Journal of Sociology.* pp 428-463. Kreps, G., (1995) Disaster as Systemic Event and Social Catalyst: a Clarification of Subject Matter. *International Journal of Mass Emergencies and Disasters. Vol 13* No 3, pp 255-284. Kroll-Smith, J & Couch, S R (1990) Sociological Knowledge and the Public at Risk: A 'Self-Study' of Sociology, Technological Hazards and Moral Dilemmas. *Sociological Practice Review. Vol 1* No 1 pp 102-127. Merriman, P A & Browitt, C W A Eds (1993) *Natural Disasters: Protecting Vulnerable Communities.* London: Thomas Telford. Moran, C., & Colless (1995) Positive Reactions Following Emergency and Disaster Responses. *Disaster Prevention and Management Vol 4* No 1 pp 55-60. Neal, D M & Phillips, B D (1995) Effective Emergency Management: Reconsidering the Bureaucratic Approach *Disasters Vol 19* pp 327-337. Nigg, J M (1994) *Influence of Symbolic Interaction of Disaster Research.* Newark DE: Disaster Research Centre. Nilson, D., (1994) Disaster Beliefs and Ideological Orientation. *Journal of Contingencies and Crisis Management. Vol 3* No 1 pp 12-17. Paton, D & Long, N Eds (1996) *Psychological Aspects of Disasters: Impact, Coping and Intervention* Palmerston North New Zealand: Dunmore Press. Peacock, W G., Morrow, B G., & Gladwin, H. Eds (1997) *Hurricane Andrew: Ethnicity, Gender, and the Sociology of Disasters.* London: Routledge. Perry, R W & Lindell, M K (1991) The Effects of Ethnicity on Evacuation Decision-Making. *International Journal of Mass Emergencies and Disasters* *Vol 9* pp 47-68. Phillips, B D (1993) Cultural Diversity in Disasters: Sheltering, Housing and Long Term Recovery. *International Journal of Mass Emergencies and Disasters, Vol 11* No 1 pp 99-110. Phillips, B.D., Garza, L & Neal, D M (1994) Intergroup Relations in Disasters: Service Delivery Barriers After Hurricane Andrew. *The Journal of Intergroup Relations.* *Vol 21* pp 19-27. Quarentelli, E L (1995) *Disasters and Catastrophes: Their Conditions in and Consequences for Social Development.* Newark DE: Disaster Research Institute. Quarentelli, E L (1994) *Draft of a Sociological Research Agenda for the Future: Theoretical, Methodological and Empirical Issues.* Newark DE: Disaster Research Institute. Quarentelli, E L (1994) *Looting and Antisocial Behaviour in Disasters.* Newark DE: Disaster Research Institute. Raphael, B., (1986) *When Disaster Strikes: How Individuals and Communities Cope.* New York: Basic Books. Rosso, I., (1993) *Community Reconstruction After an Earthquake: Dialetical Sociology in Action* Westport CT: Praeger. Shlapentokh, V., (1998) Fear of the future in the modern world: a Russian case. *International Journal of Comparative Sociology. Vol 39*. No 2 pp 161-177. Simile, C M (1995) *Disaster Settings and Mobilizations for Contentious Collective Action: Case Studies of Hurricane Hugo and the Loma Prieta Earthquake.* Tierney, K (1995) *Societal Impacts and Emergency Response.* Newark DE: Disaster Research Institute. Tierney, K (1994) *Sociology's Unique Contributions to the Study of Risk.* Newark DE: Disaster Research Institute. **Journals** Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 4, 5, 6 & 7 **Type:** Essay **Length:** 2500 words **Value:** 50% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 4 & 5 **Type:** Project Report **Length:** 3000 words **Value:** 50% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Analytical Methodologies in Emergency Management** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Prepares the student to use critical methods to evaluate disaster preparedness and hazard mitigation, undertake effective community consultation and analyze current research in the area of disaster management. **Objectives** On completion of this Unit students should be able to: 1. Describe the range of evaluation methods that have been used in disaster research. 2. Utilize common quantitative and qualitative designs to evaluate disaster preparedness programs. 3. Undertake effective community consultation processes. 4. Critically evaluate studies and evaluation about disaster management and disaster preparedness. 5. Prepare professional reports on evaluations of disaster management programs. **Handbook Entry** Provides the student with a range of methods for the evaluation of current research and for the conduct of evaluations of disaster preparedness programs. A number of qualitative and quantitative approaches to evaluation are examined as well as current examples of evaluation studies in emergency management. **Syllabus** Overview of analytical methods Theory and evaluation Unique characteristics of emergency management research Ethical issues Problem formulation Data collection Survey techniques Case study methods Community consultation methods Cost-benefit analysis Report writing **Prescribed Text** TBA **Reference Materials** Alexander, D., (1993) *Natural Disasters.* New York: Chapman & Hall. Baldi, B., (1995) *Emergency Preparedness Policy-Making: A* *comparative Analysis between California and Italy.* Newark DE: Disaster Research Centre. Banerjee, M M & Gillespie, D F., (1995) linking Preparedness and Organisational Disaster Response Effectiveness. *Journal of Community Practice. Vol 2* No 3. Bourriau, J (1992) *Understanding Catastrophe: Its Impact on Life on Earth* New York: Cambridge University Press. Comfort, L K Ed (1988) *Managing Disaster: Strategies and Policy Perspectives.* Durham NC: Duke University Press, 1988. Dawson, G (1993) A Comparison of Research and Practice: A Practitioners View. *International Journal of Mass Emergencies and Disasters. Vol 11.* pp 55-62. De Vaus, D. (1995). Surveys in social research (4th Ed). Sydney: Allen & Unwin. Dynes, R. & Tierney, K J Eds (1994) The Structure of Disaster Research: Its Policy and Disciplinary Implications. *International Journal of Mass Emergencies and Disasters* *Vol 15,* pp 5-23. Dynes, R (1995) Working Sociologists as Globetrotters Utilising Disaster Research and Policy Networks. *Journal of Applied Sociology. Vol 12* pp Freeman, R. M., (1998) The real event model or the organizational convenience model? A national survey of correctional emergency preparedness evaluation methodology. *Prison Journal Vol 78* No 2 pp 152-166. Jones, A. & May, J: (1992). Working in human service organisations. Melbourne: Longman Cheshire. Kellehear, A. (1993). The unobstrusive researcher: A guide to methods. Sydney: Allen & Unwin. Gillespie, D F & Banerjee M M (1993) Prevention Planning and Disaster Preparedness. *Journal of Applied Social Science Vol 17* No 2 pp 219-236. Lindell, M K., (1992) *Behavioural Foundations of Community Emergency Planning.* Washington DC: Hemisphere Publishing. Marshall, C & Rossman, G B (1989) *Designing Qualitative Research* Newbury Park: Sage. May, T. (1997). *Social Research* (2nd Ed). London: Open University Press. Merrian, S., (1988) *Case Study Research in Education:* A *Qualitative Approach.* San Francisco: Jossey-Bass. Newman, W L (1997) *Social Research Methods.* 3rd Edit. Boston: Allen & Unwin. Nigg, J M (1995) *Disaster Recovery as a Social Process.* Newark DE: Disaster Research Centre. Paton D & Long N Eds (1996) *Psychological Aspects of Disasters: Impact, Coping and Intervention* Palmerston North New Zealand: Dunmore Press. Patton, M. Q. (1990). *Qualitative evaluation and research methods.* Newbury Park, Calif: Sage Publications. Patton, M. Q. (1987). *Qualitative methods in evaluation.* Newbury Park, Calif: Sage Publications. Phillips, B.D., (1993) Cultural Diversity in Disaster Situations. *International Journal of Mass Emergencies and Disasters.* March 1993. Quarentelli, E L (1995): *The Future is not the Past Repeated: Projecting Disasters of the 21st Century from Present Trends.* Newark DE: Disaster Research Institute. Raphael, B., (1986) *When Disaster Strikes: How Individuals and Communities Cope.* New York: Basic Books. Robson, C. (1993). *Real world research: A* *resource for social scientists and practitioner-researchers.* Oxford: Blackwell Publishers. Strauss, A., & Corbin, J., (1990) *Basics of Qualitative Research: Grounded Theory Procedures and Techniques* Newbury Park: Sage. Silverman, D., (1993) *Interpreting Qualitative Data: Methods for Analysing Talk, Text and Interaction.* Newbury Park: Sage. Stringer. E. T. (1996). *Action research: A handbook for practitioners.* Perth: Curtin University of Technology. Uhr, J. (Ed) (1991). *Program Evaluation.* Federalism Research Centre. Canberra: ANU. Wadsworth, Y. (1997). *Everyday evaluation on the run.* 2nd Ed Sydney: Allen & Unwin. **Journals** Australian Journal of Emergency Management Disaster Prevention and Management Disaster Recovery International Journal of Mass Emergencies and Disasters **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1, 2 & 3 **Type:** Project Report **Length:** 2500 words **Value:** 50% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 4 & 5 **Type:** Project Report **Length:** 2500 words **Value:** 50% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Conceptual Contexts of Human Services** Unit Code: TBA Award Name: **Masters of Community Development** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Human Service organizations and practitioners have endured rapid changes over the past decade and this Unit will analyze some of those historical changes. To enable the development of advanced skills in analysis and synthesis, it is essential that students have a thorough understanding of the philosophical context of current human services. This Unit aims to provide a framework in which human services will be critically analyzed in this and subsequent units of the course **Objectives** On completion of this Unit students should be able to: 1. Describe the historical development of human services and how this impacts upon the contemporary directions and practices in human services. 2. Analyze the conceptual filters to understanding human services practice 3. Critically analyze the differing discourses in human services. 4. Apply the framework and analyze a human service. **Handbook Entry** Provides students with an overview of the complexities of Human Services from a historical, socio-political perspective. In order to critically analyze the industry, students will examine some of the filters to their understanding and also examine a theoretical framework for human services discourse. The Unit will apply the framework to human services and link the subsequent core units in the course. **Syllabus** Overview of Human Services Historical review Socio-political context of Human Services development Ethics and Values -- social and personal Power & Knowledge Dichotomies- Positivist/Humanist; Hierarchical/Anarchist Theoretical Frameworks for Human Services Application of frameworks to analysis of Human Services **Prescribed Text** Ife, J. (1997). *Rethinking social work: Towards critical practice.* Sydney: Longman. Study Guide and Book of Readings for this unit. **Reference Materials** Agger, B., (1998) *Critical Social Theories: An Introduction.* Macmillan: Melbourne. Billis, D., (1993) *Organising Public and Voluntary Agencies.* London: Routledge. Bournat, J., Johnson, J., Pereira, C., Pilgrim, D., Williams, F., Eds (1997) *Community Care: A* *Reader.* Macmillan: London. Canova, T.A., (1994). The Swedish model betrayed. *Challenge!* *Vol 37,* No 3 May/June, pp 36040. Clark, E., Soulsby, A., (1998) Organisation-community embeddedness: The social impact of enterprise restructuring in the post-communist Czech Republic. *Human Relations. Vol 51* No 1, pp 25-50. Coulton, C J., (1996) Poverty, work, and community: a research aagenda for an era of diminishing federal responsibility. *Social Work Vol 41* No 5, pp 509-520. Crow, G., (1997) *Comparative Sociology and Social Theory: Beyond the Three Worlds.* Macmillan: London. Dalley, G., (1996) *Ideologies of Caring.* 2nd edit. Macmillan: London. Farrar, A., & Inglis, J., Eds*. Keeping it Together: State and Civil Society in Australia.* Sydney: Pluto Press. Freeman, E., (1996) Welfare reforms and services for children and families: setting a new practice, research and policy agenda. *Social Work, Vol 41* (5): pp 521-33. Holton, R.J., (1998). *Globalization and the Nation-State* Macmillan: Melbourne. Hugman, R., (1998) *Social Welfare and Social Value: Policy and Practice.* Macmillan: Melbourne. Jones, A., & May, (1992) *Working in Human Service Organisations: A Critical Introduction.* Melbourne: Longman. Ife, J., (1995) *Community Development: Creating community alternatives - vision, analysis and practice.* Addison Wesley: Melbourne. Midwinter, E., (1994) *The Development of Social Welfare in Britain.* Buckingham: Open University Press. Papadakis. E., (1993) Class interests, class politics and welfare state regime. *The* *British Journal of Sociology. Vol 44* (2) pp 249-271. Pearson, M., & Scherer, P., (1997) Balancing security and sustainability in social policy. *OECD Observer,* April-May, (205) p 6-10. Riches, G., (1997) *First World Hunger* Macmillan: London. Schram, B., & Mandell, B. R., (1994) *An Introduction to Human Services: Policy and Practice.* 2nd edit., New York: Macmillan. Stafford, C., Furz B., (1997) *Society and Change:* A *Sociological Introduction to Contemporary Australia.* 2nd edit. Macmillan: Sydney. Thieman, A A & Dail, P W., (1997) Predictors of out-of-home placement in a family preservation program: Are welfare recipients particularly vulnerable? *Policy Studies Journal Vol 25* No 1, pp 124-140. Titterton, M., Ed (1994) *Caring for People in the Community: The New Welfare.* Jessica Kingsley Publishers: London. Thomas, A., (1996). The International Labour Organisation. Its origins, development and future. *International Labour Review. Vol 135* No 3-19974, pp 261-276. Wilson, J., Thomson, J., McMahon, A., (1996). *The Australian Welfare State: Key Documents and Themes.* Macmillan: Sydney. **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1 & 2 **Type:** Essay **Length:** 2500-3000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 3 & 4 **Type:** Project **Length:** 3500-4000 words **Value:** 60% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Analysis of Contemporary Policy in Human Services** Unit Code: TBA Award Name: **Masters of Human Services** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** The aim of this Unit is to introduce students to key discourses in the field of policy analysis. Students will be encouraged to uncover the underlying philosophies in human service policy. Policies will be analyzed to distinguish the impact of various paradigms on policy development, implementation and review. **Objectives** On completion of this Unit, students should be able to: 1. Analyze the processes of policy implementation. 2. Define and analyze conflicting policy analysis paradigms. 3. Compare and contrast key discourses in the field of human service policy analysis. 4. Distinguish between various policy paradigms as applied to human service policy. **Handbook Entry** Identifies key discourses in the field of public policy analysis as it applies to human services. Defines the conflicting paradigms available to policy analysts and explores current policies by uncovering the underlying arguments. Utilizing these paradigms of analysis, the policies are contextualized historically, ideologically, socially and politically and are related to policy development implementation and review. **Syllabus** The process of policy analysis and development processa positivist perspective The rhetorical turn in policy analysisa post-positivist perspective Comparative discourses applied to policy analysis Contemporary human service policy. Issues such as globalization, human rights, competitive tendering, risk management, corporatization, monetary policy. **Prescribed Text** Patton, C. & Sawicki, D. 1993, *Basic Methods of policy analysis and planning,* Prentice Hall, Englewood Cliffs, NJ. Fischer, F. & Forester, J.(eds) 1993, *The argumentative turn in policy analysis and planning,* Duke University Press, Durham and London. **Reference Materials** Considine, M. (1994) *Public Policy in Australia: A Critical Approach,* Melbourne: MacMillan. Dalton, T., Draper, M., Weeks, W., & Wiseman, J. (1996), *Making Social Policy in* *Australia: An Introduction,* Sydney: Allen & Unwin. Davis, G., Wanna, J., Warhurst, J. & Weller, P. (1993), *Public Policy in Australia,* Sydney: Allen & Unwin. Danziger, M. (1995) Policy Analysis Postmodernized: Some Political and Pedagogical Ramifications, *Policy Studies Journal,* 23, 3, 435-450. Donnison, D. (1997) *Policies for a Just society,* Melbourne: MacMillan. Esping-Andersen, G. (1990) *The Three Worlds of Welfare Capitalism,* Cambridge Polity Press. Formaini, R. (1990), *The Myth of Scientific Public Policy,* New Brunswick NJ: Transaction Books. Lasch, C. (1995), *The revolt of the elites and the betrayal of democracy,* New York: W.W. Norton. NSW Council of Social Services (1997). *Investing in our Community: Social and economic priorities for the 1998/99* *State Budget,* NCOSS, Sydney. Postman, N. (1992), *Technology: The surrender of culture to technology,* New York: Knopf. Roe, E. (1994), Narrative policy analysis: Theory and Practice, London: Duke University Press. Stone, D.A. (1988), *Policy paradox and political reason,* New York: HarperCollins. Thorgmorton, J. A. (1991), The rhetorics of policy analysis, *Policy Sciences,* 24, 153-179. **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1 & 2 **Type:** Essay **Length:** 2500-3000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 3 & 4 **Type:** Essay and Analysis **Length:** 3500-4000 words **Value:** 60% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Delivery Systems in Human Services** Unit Code: TBA Award Name: **Masters of Human Services** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Delivery systems in human services have operated on a number of models and have undergone substantial change. Using a model of competing discourses in human services, this Unit aims to critically evaluate human service delivery within an organizational context. Consideration is given to the relationship of the service user and the delivery system. **Objectives** Upon completion of this Unit, students should be able to: 1. Apply organizational theory to human service delivery. 2. Evaluate discourses in relation to human service delivery systems. 3. Critically analyze the goals, beliefs, and philosophies of organizations in program development and delivery. 4. Identify the nature and role of change in human service delivery. 5. Analyze the construct of 'service user'. 6. Articulate the processes in developing human service delivery systems. **Handbook Entry** Provides students with a critical evaluation of human service delivery systems and an understanding of these developments in the Australian environment. Organizational contexts of delivery and the role of change are examined, as is the role of the individual service user. **Syllabus** Overview of human service delivery systems in contemporary Australia Organizations and human services Underpinnings of human service delivery Impact of change in human service delivery The service user and the delivery system **Prescribed Text** Healey, J (1998) *Welfare Options.* Allen and Unwin St Leonard's NSW. Inglis, J and Rogan, L. (Eds) (1993). *Beyond Swings and Roundabouts: Shaping the Future of Community Services in Australia,* Pluto Press, Leichhardt NSW. **Reference Materials** Au, C. (1996) Rethinking Organizational Effectiveness: Theoretical and Methodological Issues in the Study of Organizational Effectiveness for Social Welfare Organizations, *Administration in Social Work, Fall Vol 20,* 4, pp. 1-22. Bargal, D. and Scmid, H (1992) Organizational Change and Development in Human Service Organizations: a Prefatory Essay, *Administration in Social Work Summer-Fall Vol 16*, 3-4, pp. 1-14. Barlow, D.M. (1997) Electronic Community Networks in Rural Australia: A Model for Social Development in the Information Society, *Australian Social Work* *Vol 50, 1*, *March,* pp 3-8. Bielefeld, W. and Corbin, J.J. (1996) The Institutionalization of Nonprofit Human Service Delivery: the Role of Political Culture, *Administration and Society, November, Vol 28*, 3, pp. 362-390. Bills, D. (1993) *Organizing Public and Voluntary Agencies,* Routledge, London. Braye, S. and Preston-Shoot, M (1995) *Empowering Practice in Social Care,* Open University Press, Buckingham UK. Crawford, F. (1997) No Continuing City: A Postmodern Story of Social Work, *Australian Social Work Vol 50,* 1, *March,* pp 23-30. Gutierrez, L and Alvarez, R.A. and Nemon, H and Lewis, EA. (1996) Multicultural Community Organizing: a strategy for change, *Social Work, September,* *Vol 41*, 5, pp 501-509. Industry Commission (1995) *Charitable Organisations in Australia,* Melbourne: AGPS. McDonald, C. (1995) The Challenge from Within Organisational Commitment in Nonprofit Human Service Organisations, *Australian Social Work Vol 48*, 1, *March,* pp 3-11. Jones, A. and May, J. (1992) *Working in Human Service Organisations:* A *Critical Introduction,* Longman, Melbourne. Mehr, J. (1995) *Human Services Concept and Intervention Strategies,* 6th ed., Massachusetts: Allyn & Bacon. Neukrug, E. (1994) *Theory, Practice and Trends in Human Services: An Overview of an Emerging Profession,* Pacific Grove CA: Brooks/Cole. Schram, B and Reid Mandell, B (1994) *An Introduction to Human Services Policy and Practice* 2nd ed, Macmillan College Publishing, Massachusetts. Sonin, D. and Horn, D. (1996) Practitioners' Experience in Telstra, *Australian Social Work Vol 49*, 1, *March,* pp 31-36. Titterton, M. ed (1994) *Caring for People in the Community: The New Welfare,* Jessica Kingsley Publishers, London. Woodside, M. & McClam, T. (1994) *An Introduction to Human Services,* 2nd ed, Pacific Grove CA: Brooks/Cole. **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1, 2 & 3 **Type:** Essay **Length:** 1500-2000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 4, 5 & 6 **Type:** Project **Length:** 3000-3500 words **Value:** 60% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Southern Cross University** **School of Human Services** ------------------------------- --------------------------------------- **Unit Statement** **Unit Title:** **Evaluation and Accountability in Human Services** Unit Code: TBA Award Name: **Masters of Human Services** Type of Unit: Core Pre-requisites: Nil Co-requisites: Nil Mode of Study: External Semester Offered: Teaching Unit: School of Human Services DEET Discipline: 2.01 Staffing: TBA ------------------------------- --------------------------------------- **Aims** Practitioners in Human Service organizations are increasingly required to be accountable for the delivery, assessment and evaluation of services and programs. To enable appropriate accountability, students require a thorough understanding of the theoretical and process dimensions of evaluative research in human services. This Unit aims to provide an overview of research, evaluation theory and practice currently relevant to human services. Evaluation research in human services will be explained using models of competing discourses. **Objectives** On completion of this Unit students should be able to: 1. Apply the theoretical dimensions of evaluative research in human services. 2. Relate accountability to the basic processes of research and evaluation methods. 3. Describe the complex ethical issues in evaluating human services. 4. Analyze the complex reporting issues in human service evaluations. 5. Evaluate a human service program or project. 6. Critically assess published evaluations in human services. **Handbook** This Unit aims to look at the role of evaluation and accountability in human service practice. Students will be introduced to methods and techniques of data collection and analysis that facilitate evaluative research while at the same time satisfying ethical and accountability dimensions. Students will be provided with skills to critically evaluate a human service program or project and to assess published evaluations in human services. **Syllabus** Accountability and evaluation in human services Research models in human services Evaluation models in human services Evaluative research processes Ethics and accountability in evaluative research Reporting the evaluative research Roles of the practitioner/researcher The role of enquiry in promoting change Analysis of published evaluations **Prescribed Test** Newman, W.L. (1997) *Social research methods* 3rd ed. Boston: Allen & Unwin. **Reference Materials** De Vaus, D. (1995). *Surveys in social research* 4th ed. Sydney: Allen & Unwin. Jones, A. & May, J. (1992). *Working in human service organisations.* Melbourne: Longman Cheshire. Kellehear, A. (1993) *The unobtrusive researcher: A* *guide to methods.* Sydney: Allen & Unwin. May, T. (1997). *Social Research* 2nd ed. Open University Press. Patton, M. Q. (1990). *Qualitative evaluation and research methods.* Newbury Park, Calif: Sage Publications. Patton, M. Q. (1987) *Qualitative methods in evaluation.* Newbury Park, Calif: Sage Publications. Robson; C. (1993). *Real world research:* A *resource for social scientists and practitioner-researchers.* Oxford: Blackwell Publishers. Stringer. E. T. (1996). *Action research: A handbook for practitioners.* Perth: Curtin University of Technology. Uhr, J. (Ed) (1991). *Program Evaluation.* Federalism Research Centre. Canberra: ANU. Wadsworth, Y. (1997) *Everyday evaluation on the run.* 2^nd^ ed. Sydney: Allen *&* Unwin. **Student Assessment Requirements** **Assessment Item 1** This assessment item relates to Unit objectives 1& 2 **Type:** Project **Length:** 2000 words **Value:** 40% **Due Date:** **Assessment Item 2** This assessment item relates to Unit objectives 3, 4, 5 & 6 **Type:** Research Proposal **Length:** 2500-3000 words **Value:** 60% **Due Date:** **Intended Distribution of Student Load** The assumed student workload for the Unit is 150 hours which comprises reading the Study Guide and undertaking guided activities, examining readings and texts, accessing other resources and preparation of assessments. **Staffing and Resources** U.U.H. BAY MSW(Melb) H.C. BIGGS BA(Hons)(Qld), PhD(Massey)MAPS H.G. BYRNE RN, BEdNurs(ArmCAE), MHlthSc(NE), FRCNA J.E. FOSTER BSocSc(SocWk)(PIT), MSW(Melb) J.A. GRIFFITHS BA(Qld), GradDipCoun (BCAE), MNA(UNSW) R.P. HOLLOWAY BEd (N'cleCAE) E.M. NUSKE BSc(Hns)SocStuds, MA AppliedSocStuds, CQSW R.N. VAN DER VEEN BA(Wat), BSW(Hons)(Lake), MSW(James Cook) Emeritus Professor Tony VINSON BADipSocStud(Syd), MA(Hons) DipSocPhD(UNSW) **Rules** **Graduate Certificate in Community Development** **(Emergency Management/Human Services)** **Abbreviated Title: GCCD (EM/HS)** **Introduction** The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates senior emergency services personnel and human services practitioners to undertake advanced study in community development. **Course Structure** The Graduate Certificate requires completion of at least four (4) Units described in the accompanying schedule. **Rules Governing Candidature** 1. **Admission to Candidature** 1.1 Applicants for admission to candidature for the Graduate Certificate shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have demonstrated academic, professional standing or work experience considered to be equivalent to the requirement of (a). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3 Admission to candidature and the trimester of commencement shall be determined by the Head of School. 1.4 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. **Requirements for the Graduate Certificate** > To satisfy requirements for the Graduate Certificate the candidate > shall complete a program equivalent to at least four (4) units of > study approved by the Head of School, including units selected from > the appropriate Schedule annexed to these Rules. In special > circumstances other coursework units may be approved by the Head of > School. 3. **Period of Candidature** 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than three (3) fifteen (15) week trimesters of full time study and not more than six (6) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. **Enrollment** Unless the Head of School otherwise determines: (a) a candidate shall remain enrolled for the duration of each semester; and (b) a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in any one semester. ```{=html}  ``` 5. **Completion of a Unit** A candidate shall have completed a unit when either: a. a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or b. the candidate has been granted advanced standing in the Unit. ```{=html}  ``` 6. **Advanced Standing** 6.1 Advanced standing may be awarded for up to three (3) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to two (2) units on the basis of units completed at this University or at another University or tertiary institution, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to two (2) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who, within three (3) months of completing all the requirements for the Graduate Certificate, elects to enroll in the Graduate Diploma or Masters shall be granted advanced standing for four (4) units towards those degrees subject to the candidate surrendering the right to be awarded the Graduate Certificate. 6.5 A candidate granted advanced standing in accordance with the provision of 6.3 and 6.4 but who subsequently fails to complete the Graduate Diploma or Masters on application shall be entitled to be awarded the Graduate Certificate at the next appropriate graduation ceremony. 7. **Admission to the Graduate Certificate** > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University may be admitted to the Graduate > Certificate in Community Development (Emergency Management/Human > services). **Schedule of Units** Principles of Community Development (Core) New Political, Economic and Cultural Aspects of Community (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Disaster Preparedness and Prevention New [Human Services Strand]{.underline} Conceptual Contexts of Human Services New Delivery Systems in Human Services New **Graduate Diploma in Community Development** **(Emergency Management/Human Services)** **Abbreviated Title: GDCD (EM/HS)** **Introduction** The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates, senior emergency services personnel and human services practitioners the opportunities to undertake advanced study in community development. **Course Structure** The Graduate Diploma requires completion of at least eight (8) units described in the accompanying schedule. Progression from the Graduate Certificate to the Graduate Diploma to the Masters degree is permitted within the rules. **Rules Governing Candidature** 1. **Admission to Candidature** 1.1 Applicants for admission to candidature for the Graduate Diploma shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have completed the Graduate Certificate in Community Development (Emergency Management/Human Services) (c) have demonstrated academic, professional standing or work experience considered by the School Board to be equivalent to the requirement of (a) or (b). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3 Admission to candidature and the trimester of commencement shall be determined by the Head of School. 1.4 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. **Requirements for the Graduate Diploma** > To satisfy requirements for the Graduate Diploma the candidate shall > complete a program equivalent to at least eight (8) units of study > approved by the Head of School, including units selected from the > appropriate Schedule annexed to these Rules. In special circumstances > other coursework units may be approved by the Head of the School. 3. **Period of Candidature** 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than three (3) fifteen (15) week trimesters of full time study and not more than six (6) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. **Enrollment** Unless the Head of School otherwise determines: (a) a candidate shall remain enrolled for the duration of each semester; and (b) a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in anyone semester. ```{=html}  ``` 5. **Completion of a Unit** A candidate shall have completed a unit when either: (a) a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or (b) the candidate has been granted advanced standing in the unit. ```{=html}  ``` 6. **Advanced Standing** 6.1 Advanced standing may be awarded for up to four (4) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to four: (4) units on the basis of units completed at this University or at another University or tertiary institution, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to four (4) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who has completed all the requirements for the Graduate Certificate may be granted advanced standing for up to four (4) units. 6.5 A candidate who, within three (3) months of completing all the requirements for the Graduate Diploma, elects to enroll in the Masters shall be granted advanced standing for eight (8) units towards those degrees subject to the candidate surrendering the right to be awarded the Graduate Diploma. 6.6 A candidate granted advanced standing in accordance with the provision of 6.2 to 6.4 but who subsequently fails to complete the Masters on application shall be entitled to be awarded the Graduate Diploma at the next appropriate graduation ceremony. 7. **Admission to the Graduate Certificate** > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University, may be admitted to the Graduate > Diploma in Community Development (Emergency Management/Human > Services). **Schedule of Units** Principles of Community Development (Core) New Community Education in Emergency Management (Core) New Political, Economic and Cultural aspects of Community (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Living in a Hazardous Environment New Disaster Preparedness & Prevention New Social Dimensions of Disaster New Analytical Methodologies in Emergency Management New [Human Services Strand]{.underline} Conceptual Context of Human Services New Analysis of contemporary policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Elective **Masters in Community Development** **(Emergency Management/Human Services)** **Abbreviated Title: MCD (EM/HS)** **Introduction** The Graduate Certificate, Graduate Diploma and Masters in Community Development (Emergency Management/Human Services) are designed to provide graduates senior emergency services personnel and human services practitioners the opportunity to undertake advanced study in community development. **Course Structure** The Masters requires completion of at least twelve (12) units described in the accompanying schedule. Progression from the Graduate Certificate to the Graduate Diploma to the Masters degree is permitted within the rules. **Rules Governing Candidature** 1. **Admission to Candidature** 1.1 Applicants for admission to candidature for the Masters shall: (a) have fulfilled all the requirements for admission to a degree or qualifications of equivalent standing at this or another university or tertiary institution; or (b) have completed the Graduate Diploma in Community Development (Emergency Management/Human Services) (c) have demonstrated academic, professional standing or work experience considered by the School Board to be equivalent to the requirement of (a) or (b). 1.2 An applicant for candidature shall apply to the Head, School of Human Services on the prescribed form. 1.3.1 Admission to candidature and the trimester of commencement shall be determined by the Head of School 1.3.2 After admission to candidature, a candidate shall submit a program of study for approval by the Head of School. 2. **Requirements for the Masters** > To satisfy requirements for the Masters the candidate shall complete a > program equivalent to at least twelve (12) units of study approved by > the Head of School including units selected from the appropriate > Schedule annexed to these Rules. In special circumstances other > coursework units may be approved by the Head of School. 3. **Period of Candidature** 3.1 Except with the permission of the School Board, a full-time candidate shall pursue the approved course of study for not more than nine (9) fifteen (15) week trimesters of full time study and not more than eighteen (18) trimesters of part-time study. There will be three (3) fifteen (15) week trimesters in each calendar year. 3.2 The School Board may grant leave of absence from candidature and the period of such leave shall not be counted as part of the prescribed period of candidature. 4. **Enrolment** Unless the Head of School otherwise determines: a. a candidate shall remain enrolled for the duration of each semester; and b. a candidate shall enroll in not more than four (4) units in anyone semester. Provided that where the Head of School's discretion is exercised such a candidate shall be permitted to enroll in not more than five (5) units in any one semester. ```{=html}  ``` 5. **Completion of a Unit** A candidate shall have completed a unit when either: a. a grade indicating satisfactory completion of the unit has been attained as prescribed in Assessment and Examination Rule 9; or b. the candidate has been granted advanced standing in the unit. ```{=html}  ``` 6. **Advanced Standing** 6.1 Advanced standing may be awarded for up to six (6) units of the course. 6.2 At the discretion of the School Board, a candidate may be granted advanced standing for up to six (6) units on the basis of units completed at this University of at another University or tertiary institution for the Masters, provided that those units have not been counted towards another qualification and they have a reasonable correspondence to units prescribed for the coursework program. 6.3 At the discretion of the School Board, a candidate may be granted advanced standing for up to six (6) units on the basis of professional standing and/or work experience deemed to be equivalent to the objectives of the course. 6.4 A candidate who has completed all the requirements for the Graduate Certificate may be granted advanced standing for up to four (4) units. 6.5 A candidate who has completed all the requirements for the Graduate Diploma may be granted advanced standing for up to eight (8) units. 6.6 A candidate granted advanced standing in accordance with the provision of 6.2 to 6.5 but who subsequently fails to complete the Masters on application shall be entitled to be awarded the Graduate Diploma at the next appropriate graduation ceremony. 7. **Admission to the Masters** > A candidate who has fulfilled the requirements of these Rules and > otherwise has complied with the provision of all By-laws and other > Rules applicable to the University, may be admitted to the Masters in > Community Development (Emergency Management/Human Services). **Schedule of Units** Principles of Community Development (Core) New Political, Economic and Cultural aspects of Community (Core) New Community Education (Core) New [Emergency Management Strand]{.underline} Issues in Emergency Management New Disaster Preparedness and Prevention New Living in a Hazardous Environment New Social Dimension of Disaster New Research Dissertation ED756 Independent Study Unit IS165 [Human Services Strand]{.underline} Analytical Methodologies in Emergency Management New Conceptual Context of Human Services New Analysis of Contemporary Policy in Human Services New Delivery Systems in Human Service New Evaluation and Accountability in Human Services New Research Dissertation ED756 Independent Study Unit IS165

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|PNS |3435.A |ASO |1.05| |PENSACOLA REGIONAL AIRPORT |0322002| |PENSACOLA |FLORIDA | |NAD83 |5 CM | |NAVD88 |25 CM | | 1.1|0322002| | 120.7| |17+0 |0322002| | 165.0| |0322002| | 302823.9| -871114.8| @ |8 |P|0322002| |N|0322002| | 302816.8021| -871145.3709| 780338| 5999|150|0322002| | 94.8| |0322002| | | | | | | 0| 94.1| |0322002| | 475| 94.8| |0322002| | 1419| 92.1| |0322002| | 2568| 93.0| |0322002| | 3844| 95.8| |0322002| | 5282| 108.7| |0322002| | 5999| 111.1| |0322002| # |26 |P|0322002| |N|0322002| | 302829.0810| -871038.3030|2580412| 5999|150|0322002| | 111.1| |0322002| | | | | | | 0| 111.1| |0322002| | 717| 108.7| |0322002| | 2155| 95.8| |0322002| | 3430| 93.0| |0322002| | 4580| 92.1| |0322002| | 5524| 94.8| |0322002| | 5999| 94.1| |0322002| # |17 |P|0322002| |Y|0322002| | 302858.4711| -871126.3725|1665905| 7004|150|0322002| | 120.7| |0322002| | | | | | | 0| 120.7| |0322002| | 607| 120.3| |0322002| | 1171| 117.7| |0322002| | 2919| 98.7| |0322002| | 3776| 93.0| |0322002| | 4350| 90.8| |0322002| | 5221| 92.6| |0322002| | 7004| 102.7| |0322002| # |35 |P|0322002| |Y|0322002| | 302750.9282| -871108.3496|3465914| 7004|150|0322002| | 102.7| |0322002| | | | | | | 0| 102.7| |0322002| | 1783| 92.6| |0322002| | 2654| 90.8| |0322002| | 3228| 93.0| |0322002| | 4084| 98.7| |0322002| | 5833| 117.7| |0322002| | 6397| 120.3| |0322002| | 7004| 120.7| |0322002| @ |ASR (PNS) | 302855.5766| -871109.4734| 125.0| | | |0322002| |DME (17) | 302731.0033| -871106.3584| 108.2| | | |0322002| |GS (17) | 302849.6962| -871119.3334| 115.2| | | |0322002| |GS (17) PP | 302848.8035| -871123.7924| 118.8| | 400L| 1002|0322002| |LOC (17) | 302731.8140| -871103.2513| 94.3| | | 1982|0322002| |MM (17) | 302930.0926| -871134.8039| | | | 3279|0322002| |NDB (PKZ) | 302613.4440| -871042.1465| | | | |0322002| |VOR (NUN) | 302819.6919| -872009.2204| 80.0| | | |0322002| # |ALS (17) | | | | | | |0322002| |APBN | 302810.5693| -871124.1459| | | | |0322002| |REIL (8) | | | | | | |0322002| |REIL (26) | | | | | | |0322002| |REIL (35) | | | | | | |0322002| |VASI (8) | | | | | | |0322002| |VASI (26) | | | | | | |0322002| |VASI (35) | | | | | | |0322002| # @ |8 |C | |TREE | 302813.91| -871145.66|1A| 130| | | 36| 35| 9| 85| |* 280R| 36|0322002| |TREE | 302813.36| -871147.72|1A| 131| | | 37| 36| 10| 273| |* 298R| 35|0322002| |TREE | 302811.72| -871155.09|1A| 130| | | 36| 35| 9| 939| | 327R| 14|0322002| |TREE | 302817.63| -871157.88|1A| 130| | | 36| 35| 9| 1054| | 308L| 10|0322002| |TREE | 302813.13| -871158.48|1A| 124| | | 30| 29| 3| 1199| | 126R| 1|0322002| |TREE | 302808.84| -871204.92|1A| 134| | | 40| 39| 13| 1841| | 433R| -9|0322002| |ANT ON OL TWR | 302808.66| -871312.16|1A| 244| | | 150| 149| 123| 7601| | 767L| -67|0322002| # |8 |ANAPC | |ANT & APBN ON OL ATCT | 302810.57| -871124.15|1A| 201| | | 107| 106| 80| -1687| | 1000R| 10|0322002| |ROD ON OL TWR | 302836.15| -871132.13|1A| 214| | | 120| 119| 93| -1538| | 1673L| 26|0322002| |ROD ON LT | 302831.47| -871132.48|1A| 195| | | 101| 100| 74| -1410| | 1217L| 11|0322002| |TREE | 302812.70| -871145.06|1A| 146| | | 52| 51| 25| 59| | 411R| 52|0322002| |TREE | 302813.36| -871147.72|1A| 131| | | 37| 36| 10| 273| | 298R| 35|0322002| |TREE | 302812.52| -871147.66|1A| 140| | | 46| 45| 19| 286| | 382R| 44|0322002| |ROD ON LT | 302810.21| -871148.42|1A| 132| | | 38| 37| 11| 399| | 597R| 6|0322002| |TREE | 302812.63| -871149.51|1A| 135| | | 41| 40| 14| 442| | 337R| 36|0322002| |TREE | 302811.16| -871153.14|1A| 140| | | 46| 45| 19| 783| | 417R| 34|0322002| |TREE | 302823.79| -871156.76|1A| 145| | | 51| 50| 24| 829| | 897L| 17|0322002| |TREE | 302811.72| -871155.09|1A| 130| | | 36| 35| 9| 939| | 327R| 21|0322002| |TREE | 302820.89| -871158.03|1A| 143| | | 49| 48| 22| 998| | 633L| 19|0322002| |TREE | 302819.26| -871157.66|1A| 136| | | 42| 41| 15| 1001| | 465L| 21|0322002| |TREE | 302810.19| -871155.62|1A| 144| | | 50| 49| 23| 1015| | 468R| 28|0322002| |TREE | 302810.44| -871156.04|1A| 145| | | 51| 50| 24| 1046| | 436R| 33|0322002| |TREE | 302817.63| -871157.88|1A| 130| | | 36| 35| 9| 1054| | 308L| 18|0322002| |TREE | 302822.67| -871159.73|1A| 148| | | 54| 53| 27| 1107| | 840L| 27|0322002| |TREE | 302813.13| -871158.48|1A| 124| | | 30| 29| 3| 1199| | 126R| 10|0322002| |TREE | 302818.63| -871201.34|1A| 139| | | 45| 44| 18| 1329| | 470L| 18|0322002| |TREE | 302808.84| -871204.92|1A| 134| | | 40| 39| 13| 1841| | 433R| 7|0322002| # |26 |BV | |TREE | 302813.91| -871145.66|1A| 130| | | 19| 19| 9| -6084| |* 280L| 36|0322002| |TREE | 302828.73| -871017.86|1A| 149| | | 38| 38| 28| 1743| | 404L| -39|0322002| |TREE | 302835.56| -871013.74|1A| 155| | | 44| 44| 34| 2239| | 197R| -58|0322002| # |26 |ANAPC | |ANT ON OL TWR | 302811.25| -871054.02|1A| 223| | | 112| 112| 102| -1718| | 1478L| 14|0322002| |TREE | 302824.31| -871035.36|1A| 162| | | 51| 51| 41| 152| | 525L| 0|0322002| |TREE | 302825.28| -871035.39|1A| 146| | | 35| 35| 25| 170| | 429L| 35|0322002| |TREE | 302834.11| -871036.54|1A| 148| | | 37| 37| 27| 256| | 465R| 27|0322002| |TREE | 302837.18| -871037.08|1A| 180| | | 69| 69| 59| 274| | 778R| 22|0322002| |TREE | 302824.66| -871033.84|1A| 162| | | 51| 51| 41| 290| | 518L| 33|0322002| |TREE | 302823.59| -871032.41|1A| 159| | | 48| 48| 38| 390| | 649L| 9|0322002| |TREE | 302837.40| -871035.69|1A| 173| | | 62| 62| 52| 397| | 775R| 17|0322002| |TREE | 302825.12| -871032.53|1A| 158| | | 47| 47| 37| 411| | 496L| 30|0322002| |TREE | 302837.96| -871035.34|1A| 175| | | 64| 64| 54| 439| | 824R| 20|0322002| |TREE | 302825.50| -871031.84|1A| 158| | | 47| 47| 37| 478| | 471L| 33|0322002| |TREE | 302834.31| -871033.40|1A| 155| | | 44| 44| 34| 529| | 429R| 35|0322002| |TREE | 302825.36| -871031.04|1A| 158| | | 47| 47| 37| 544| | 499L| 28|0322002| |TREE | 302826.32| -871031.16|1A| 158| | | 47| 47| 37| 554| | 402L| 40|0322002| |TREE | 302826.38| -871030.76|1A| 159| | | 48| 48| 38| 589| | 403L| 40|0322002| |TREE | 302834.74| -871032.08|1A| 156| | | 45| 45| 35| 651| | 447R| 32|0322002| |TREE | 302827.15| -871028.82|1A| 146| | | 35| 35| 25| 772| | 362L| 24|0322002| |TREE | 302835.63| -871028.46|1A| 155| | | 44| 44| 34| 979| | 470R| 22|0322002| |TREE | 302827.56| -871025.26|1A| 145| | | 34| 34| 24| 1085| | 386L| 16|0322002| |ANT | 302841.18| -871028.33|1A| 187| | | 76| 76| 66| 1107| | 1015R| 49|0322002| |TREE | 302835.44| -871026.58|1A| 154| | | 43| 43| 33| 1137| | 417R| 24|0322002| |POLE | 302842.36| -871027.16|1A| 184| | | 73| 73| 63| 1231| | 1111R| 49|0322002| |TREE | 302826.90| -871022.79|1A| 155| | | 44| 44| 34| 1283| | 496L| 21|0322002| |TREE | 302836.18| -871023.52|1A| 153| | | 42| 42| 32| 1414| | 435R| 18|0322002| |TREE | 302837.48| -871020.43|1A| 154| | | 43| 43| 33| 1705| | 507R| 5|0322002| |TREE | 302828.73| -871017.86|1A| 149| | | 38| 38| 28| 1743| | 404L| 7|0322002| |TREE | 302836.96| -871019.36|1A| 146| | | 35| 35| 25| 1787| | 436R| 3|0322002| |TREE | 302835.56| -871013.74|1A| 155| | | 44| 44| 34| 2239| | 197R| 3|0322002| |TREE | 302832.13| -871007.33|1A| 161| | | 50| 50| 40| 2716| | 259L| 0|0322002| # |17 |PIR | |GRD | 302756.49| -871104.83|1A| 102| | | -19| -19| -19| -6525| | 427L| 2|0322002| |GRD | 302759.95| -871105.41|1A| 101| | | -20| -20| -20| -6174| | 456L| 3|0322002| |WSK | 302831.20| -871113.27|1A| 119| | | -2| -2| -2| -2943| | 497L| 20|0322002| |ROD ON OL GS | 302849.70| -871119.33|1A| 163| | | 42| 42| 42| -1002| | 400L| 45|0322002| |TREE | 302901.99| -871133.64|1A| 157| | | 36| 36| 36| 489| | 539R| 31|0322002| |TREE | 302902.07| -871134.31|1A| 168| | | 47| 47| 47| 511| |* 595R| 42|0322002| |TREE | 302903.09| -871133.72|1A| 152| | | 31| 31| 31| 599| | 521R| 23|0322002| |TREE | 302906.00| -871135.44|1A| 147| | | 26| 26| 26| 919| | 602R| 12|0322002| |ANT ON BLDG | 302907.25| -871133.49|1A| 119| | | -2| -2| -2| 1005| | 407R| -18|0322002| |TREE | 302909.67| -871137.37|1A| 167| | | 46| 46| 46| 1319| |* 683R| 24|0322002| |TREE | 302914.57| -871122.21|1A| 166| | | 45| 45| 45| 1503| |* 721L| 19|0322002| |TREE | 302917.35| -871122.97|1A| 164| | | 43| 43| 43| 1791| | 720L| 12|0322002| |TREE | 302923.01| -871125.77|1A| 168| | | 47| 47| 47| 2404| | 610L| 3|0322002| |TRMSN TWR | 302941.88| -871127.63|1A| 204| | | 83| 83| 83| 4298| | 880L| 1|0322002| |TRMSN TWR | 302942.03| -871132.62|1A| 207| | | 86| 86| 86| 4411| | 459L| 2|0322002| |TRMSN TWR | 302942.40| -871145.96|1A| 208| | | 87| 87| 87| 4711| | 670R| -3|0322002| |ANT | 303001.49| -871149.91|1A| 225| | | 104| 104| 104| 6667| | 573R| -25|0322002| # |35 |D | |ROD ON OL GS | 302849.70| -871119.33|1A| 163| | | 60| 60| 42| -6001| | 400R| 45|0322002| |WSK | 302831.20| -871113.27|1A| 119| | | 16| 16| -2| -4061| | 497R| 20|0322002| |GRD | 302759.95| -871105.41|1A| 101| | | -2| -2| -20| -830| | 456R| 3|0322002| |GRD | 302756.49| -871104.83|1A| 102| | | -1| -1| -19| -479| | 427R| 2|0322002| |OL ON LOC | 302731.81| -871103.25|1A| 102| | | -1| -1| -19| 1982| | 0R| -53|0322002| |OL ON DME | 302731.00| -871106.36|1A| 113| | | 10| 10| -8| 2001| | 283L| -43|0322002| # |35 |ANAPC | |ANT ON OL TWR | 302811.25| -871054.02|1A| 223| | | 120| 120| 102| -1718| | 1684R| 23|0322002| |TREE | 302752.83| -871058.87|1A| 164| | | 61| 61| 43| -1| | 851R| 7|0322002| |TREE | 302748.30| -871117.47|1A| 157| | | 54| 54| 36| 79| | 838L| 2|0322002| |TREE | 302751.85| -871059.75|1A| 160| | | 57| 57| 39| 79| | 754R| 5|0322002| |TREE | 302750.75| -871058.06|1A| 164| | | 61| 61| 43| 220| | 873R| 12|0322002| |TREE | 302746.16| -871116.65|1A| 154| | | 51| 51| 33| 306| | 817L| 4|0322002| |TREE | 302748.82| -871057.81|1A| 157| | | 54| 54| 36| 415| | 851R| 10|0322002| |TREE | 302744.40| -871118.17|1A| 165| | | 62| 62| 44| 449| | 986L| 19|0322002| |TREE | 302747.19| -871058.44|1A| 149| | | 46| 46| 28| 563| | 760R| 6|0322002| |TREE | 302743.53| -871115.23|1A| 157| | | 54| 54| 36| 593| | 755L| 15|0322002| |TREE | 302741.17| -871114.55|1A| 157| | | 54| 54| 36| 838| | 751L| 21|0322002| |TREE | 302737.65| -871114.98|1A| 160| | | 57| 57| 39| 1177| | 868L| 32|0322002| |OL ON LOC | 302731.81| -871103.25|1A| 102| | | -1| -1| -19| 1982| | 0R| -37|0322002| |OL ON DME | 302731.00| -871106.36|1A| 113| | | 10| 10| -8| 2001| | 283L| -26|0322002| |TREE | 302724.41| -871103.28|1A| 137| | | 34| 34| 16| 2711| | 171L| -16|0322002| |TREE | 302725.29| -871057.12|1A| 134| | | 31| 31| 13| 2745| | 374R| -20|0322002| # |ARP |HCT | |AMOM | 302837.35| -871109.16|1A| 134| | | 13| 2103| 1445| -40|0322002| |ANT & APBN ON OL ATCT | 302810.57| -871124.15|1A| 201| | | 80|21222| 1576| 52|0322002| |ROD ON OL POLE | 302840.81| -871112.64|1A| 146| | | 25| 724| 1719| -1|0322002| |ROD ON LT | 302831.47| -871132.48|1A| 195| | | 74|29724| 1726| 1|0322002| |ROD ON OL TWR | 302836.15| -871132.13|1A| 214| | | 93|31019| 1958| 34|0322002| |ANT ON OL TWR | 302811.25| -871054.02|1A| 223| | | 102|12611| 2223| -39|0322002| |TREE | 302811.92| -871141.69|1A| 145| | | 24|24353| 2647| 8|0322002| |TREE | 302836.54| -871047.74|1A| 175| | | 54| 6246| 2691| -28|0322002| |TREE | 302812.70| -871145.06|1A| 146| | | 25|24758| 2880| 29|0322002| |TREE | 302813.91| -871145.66|1A| 130| | | 9|25037| 2883| 32|0322002| |ANT ON RTR | 302846.54| -871135.00|1A| 195| | | 74|32324| 2891| 4|0322002| |TREE | 302755.40| -871118.82|1A| 146| | | 25|18804| 2900| 5|0322002| |TREE | 302813.36| -871147.72|1A| 131| | | 10|25048| 3072| 29|0322002| |TREE | 302812.52| -871147.66|1A| 140| | | 19|24918| 3097| 26|0322002| |TREE | 302812.63| -871149.51|1A| 135| | | 14|25033| 3244| 27|0322002| |TREE | 302856.51| -871115.34|1A| 192| | | 71| 16| 3295| 15|0322002| |TREE | 302750.67| -871118.21|1A| 160| | | 39|18610| 3370| 9|0322002| |TREE | 302853.44| -871133.91|1A| 171| | | 50|33150| 3421| 14|0322002| |TREE | 302752.83| -871058.87|1A| 164| | | 43|15709| 3435| 11|0322002| |TREE | 302825.28| -871035.39|1A| 146| | | 25| 8847| 3451| 9|0322002| |TREE | 302824.31| -871035.36|1A| 162| | | 41| 9025| 3452| 11|0322002| |TREE | 302751.85| -871059.75|1A| 160| | | 39|15858| 3496| 21|0322002| |TREE | 302834.11| -871036.54|1A| 148| | | 27| 7359| 3504| 5|0322002| |TREE | 302824.66| -871033.84|1A| 162| | | 41| 8952| 3586| 10|0322002| |TREE | 302811.16| -871153.14|1A| 140| | | 19|25007| 3593| 17|0322002| |TREE | 302748.30| -871117.47|1A| 157| | | 36|18449| 3605| 6|0322002| |TREE | 302855.54| -871134.49|1A| 188| | | 67|33246| 3632| 30|0322002| |TREE | 302750.75| -871058.06|1A| 164| | | 43|15728| 3656| 8|0322002| |TREE | 302749.59| -871100.23|1A| 140| | | 19|16054| 3693| 14|0322002| |TREE | 302825.12| -871032.53|1A| 158| | | 37| 8911| 3701| 5|0322002| |TREE | 302825.50| -871031.84|1A| 158| | | 37| 8838| 3763| 5|0322002| |TREE | 302834.31| -871033.40|1A| 155| | | 34| 7454| 3772| 7|0322002| |TREE | 302819.26| -871157.66|1A| 136| | | 15|26358| 3780| 5|0322002| |TREE | 302746.16| -871116.65|1A| 154| | | 33|18332| 3817| 5|0322002| |TREE | 302748.82| -871057.81|1A| 157| | | 36|15820| 3844| 2|0322002| |TREE | 302810.44| -871156.04|1A| 145| | | 24|25027| 3857| 17|0322002| |TREE | 302826.38| -871030.76|1A| 159| | | 38| 8722| 3862| 12|0322002| |TREE | 302834.74| -871032.08|1A| 156| | | 35| 7445| 3895| 1|0322002| |TREE | 302857.66| -871136.55|1A| 189| | | 68|33156| 3906| 13|0322002| |TREE | 302902.68| -871118.41|1A| 175| | | 54|35629| 3930| 16|0322002| |TREE | 302747.19| -871058.44|1A| 149| | | 28|15959| 3976| 6|0322002| |TREE | 302744.40| -871118.17|1A| 165| | | 44|18519| 4002| -9|0322002| |TREE | 302827.15| -871028.82|1A| 146| | | 25| 8626| 4037| -1|0322002| |TREE | 302900.48| -871134.53|1A| 174| | | 53|33603| 4079| 32|0322002| |TREE | 302743.53| -871115.23|1A| 157| | | 36|18138| 4079| 15|0322002| |TREE | 302818.63| -871201.34|1A| 139| | | 18|26339| 4108| 4|0322002| |TREE | 302902.07| -871134.31|1A| 168| | | 47|33713| 4217| 35|0322002| |TREE | 302835.44| -871026.58|1A| 154| | | 33| 7539| 4378| -15|0322002| |TREE | 302904.15| -871138.02|1A| 172| | | 51|33433| 4546| 0|0322002| |TREE | 302737.65| -871114.98|1A| 160| | | 39|18117| 4673| -3|0322002| |TREE | 302911.82| -871120.35|1A| 182| | | 61|35522| 4866| 17|0322002| |TRMSN TWR | 302912.43| -871115.07|1A| 211| | | 90| 49| 4904| -20|0322002| |TREE | 302908.47| -871137.41|1A| 168| | | 47|33723| 4919| 18|0322002| |TREE | 302912.90| -871119.87|1A| 183| | | 62|35558| 4970| 9|0322002| |ROD ON OL TWR | 302833.87| -871210.56|1A| 241| | | 120|28246| 4982| -30|0322002| |TREE | 302909.67| -871137.37|1A| 167| | | 46|33758| 5028| 21|0322002| |TREE | 302914.57| -871122.21|1A| 166| | | 45|35352| 5160| 16|0322002| |TREE | 302931.41| -871121.61|1A| 198| | | 77|35606| 6847| -12|0322002| |ANT ON OL TWR | 302808.66| -871312.16|1A| 244| | | 123|26235|10385| -26|0322002| |ANT ON OL TWR | 303005.97| -871023.79|1A| 363| | 261| 242| 2430|11237| 92|0322002| @ |Additional Information: | | | |NATIONAL GEODETIC SURVEY | EOF

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339885

ACKNOWLEDGMENTS____________________________MINORITY-/WOMEN-OWNED BUSINESSES Many persons participated in conducting the 1992 Surveys of Women-Owned Businesses and the Survey of Minority-Owned Business Enterprises. Primary direction was performed by Frederick T. Knickerbocker, Associate Director for Economic Programs; and Thomas L. Mesenbourg, Assistant Director for Economic Programs. This report was prepared in the Agriculture and Financial Statistics Division (AGFS) under the general direction of Dr. Ewen Wilson, Chief; and Ruth A. Runyan, Assistant Division Chief for Financial Statistics. The overall project development and planning of this report were under the direction of Eddie J. Salyers, Chief, Company Statistics Branch. Valerie C. Strang directed and implemented planning procedures, specification development, data collection, editing, and compilation of this report. Staff assistance was provided by Melody Atkinson, Traci Brown, Rebecca Clement, David Cooper, Elaine Emanuel, Barbara Esworthy, Jesus Garcia, Donna Hambric, Durwin Knutson, Sungsoo Oh, and Patricia Patriarca. Development and implementation of the statistical methodology were performed under the general supervision of Mitchell Trager, Assistant Division Chief for Research and Methodology, Economic Census and Surveys Division (ECSD) and Ruth Detlefsen, Assistant Division Chief for Research and Methodology (AGFS). Direction in those areas was provided by Kenneth Sausman, Chief, Statistical Methods Branch, (ECSD) and Ann Vacca, Chief, Frame Research and Development Branch (AGFS). David Raglin, preceded by Mark Sands, was assigned primary responsibility for sample design, imputation, and estimation with staff assistance by Bill Kirby and Julia Klein Griffiths. Keying procedures were developed by Charles Fowler, Ellen Kummer, and Benjamin Stephens of the Directory Development Branch (ECSD). Computer programs were developed in the Economic Statistical Methods and Programming Division under the general supervision of Charles P. Pautler, Jr., Chief; and Martin S. Harahush, Assistant Division Chief for Quinquennial Programs; with assistance from Steven G. McCraith, Chief, Quinquennial Surveys Branch; and James R. Parker, Chief, Mailout and Data Collection Branch. Joseph F. Keehan was assigned primary programming responsibility with assistance from John D. Bedwell, Sarah J. Castillo, William E. Dyer, Thaddeus S. Hess, Stephen D. Jarvis, James L. Kirk, Steven W. Laudrille, John E. McCormick, and Andrew M. Stevenson. The staff of the Technical Services Division, Teresa Angueira, Chief, captured the response data electronically using a Film Optical Sensing Device for Input to Computer (FOSDIC) operation. The staff of the Administrative and Publications Services Division, Walter C. Odom, Chief, performed publication planning, design, composition, editorial review, and procurement for publications. Frances B. Scott and Helen M. Curtis provided publication coordination and editing. Evelyn Fedorko and Shirley Boswell were responsible for design and procurement of the report forms, respectively. Mailout preparation and receipt operations, clerical activities, and data keying were performed by the staff of the Data Preparation Division, Judith N. Petty, Chief. Computer processing was performed in the Computer Services Division, Marvin D. Raines, Chief. Photocomposition programs for the statistical tables were developed in the Systems Support Division, Richard W. Swartz, Chief. The overall planning and review of the census operations were performed by the staff of the office of the Assistant Director for Economic and Agriculture Censuses. This survey depended upon the cooperation of the staffs of the Internal Revenue Service and the Social Security Administration. Thanks are due to Daniel Skelly, Chief, Statistics of Income Division, Karen Cys, and Ken Szeflinski of the Internal Revenue Service; Warren Buckler, Barry Bye, Harry Stamer, Frank Thomas, and Peter Wheeler of the Social Security Administration; and Lynda DiNenna, Cheryl A. Leigh, Harvey Monk, and Edward D. Walker of the Census Bureau, who coordinated activities with the agencies. Special acknowledgment is also due to the many business owners whose cooperation has contributed to the publication of these data. If you have any questions concerning the statistics in this report, call 301-763-5726. ###

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522013

SEPARATE STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: *Schools and Libraries Universal Service Support Mechanism* *(CC Docket No. 02-6)* By connecting our schools and libraries to the Internet, E-Rate plays a critical role in providing our children and our communities with the digital tools necessary to compete and prosper in the Information Age. No program has been as singularly effective at making sure that young people from the poorest and most geographically isolated communities in this country are not left on the wrong side of the digital divide. The statistics are impressive and they bear repeating. When the Telecommunications Act was passed, only 14% of public school classrooms were connected to the Internet. By last year, 87% of these classrooms were connected. In rural areas, the results have been even more impressive, with 89% of public school classrooms now connected. And in schools with high percentages of students eligible for free or reduced-price luncheons, we have also made substantial progress: 79% of public school classrooms are now connected. Great programs like E-Rate do not thrive without regular review and care. The gains we have made can vanish without continued attention and, indeed, vigilance. This is why our actions today are important. So I am pleased that we adopt rules for suspension and debarment to ensure that bad actors will be denied the ability to participate in the E-Rate program. I am also pleased that we develop an online list of eligible internal connections equipment that will make it simpler for schools and libraries to develop their applications. These are good and positive steps, but there is more work that remains to be done. We need to work harder to ensure that deserving schools and libraries receive support in a more timely way. With libraries and school districts around the country struggling under the weight of often draconian budget cuts, the need to deliver timely E-Rate support has never been more important. We also need to clarify our competitive bidding rules to ensure that applicants get the services they need at low prices. And we need to be dead serious about rooting out abuses to make sure the program functions with the integrity it must have. My hope is that as abuses are identified and eliminated, we will focus simultaneously on these other programmatic challenges that are equally high priority. In sum, we need to work together to make sure that the E-Rate's public-private commitment to technology access has a future every bit as bright as the record it has already achieved. Today's item represents a start, and I am pleased to support it.

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**ROBERT E. MANDRELL, Ph.D.** Research Leader Produce Safety and Microbiology Research Unit USDA, ARS, WRRC 800 Buchanan Street Albany, CA 94710 USA Tel: 510-559-5829 Fax: 510-559-6165 E-mail: mandrell@pw.usda.gov #### Education Ph.D School of Biochemistry, University of Birmingham, UK 1993 B. S. Microbiology, Ohio State University 1970 **RESEARCH AND PROFESSIONAL EXPERIENCE:** > **1974 to 1983 Walter Reed Army Institute of Research, Department of > Bacterial Diseases, Washington DC** - Studies of antigenicity, immunogenicity and immunochemistry of outer membrane molecules of *Neisseria meningitidis* - Production and characterization of monoclonal antibodies - Development of serotyping system for protein and lipooligosaccharide antigens of *Neisseria meningitidis* - Production of polysaccharide-protein vaccines > **1984 to 1992 VA Medical Center, San Francisco, CA** - Immunochemistry and biochemistry of lipooligosaccharides of *Neisseria meningitidis*, *Neisseria gonorrhoeae, and Haemophlius species* > **1994 to 1996 Oakland Childrens Hospital Research Institute, Oakland, > CA** - Human immune response to bacterial polysaccharide-conjugate vaccines - Human repertoire of antibodies to polysaccharides - Immunochemistry of *Streptococccus pneumoniae* capsular polysaccharides > **1996 to present USDA, Agricultural Research Service, WRRC Albany, > CA** - Microbial food safety related to fresh produce - Biology of *Campylobacter* species related to food - Analysis of bacteria by mass spectrometry ## Recent Publications, 1998-2003 1. **Mandrell, RE** and Wachtel, MR. 1999. Novel detection techniques for human pathogens that contaminate poultry. [Current Opinion Biotech. 10(3)**:**273-278](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10361075&dopt=Abstract). (Review). ```{=html}  ``` 1. Brandl, MT, **Mandrell, RE**. 2000. Use of confocal microscopy and the green fluorescent protein in ecological studies on *Salmonella* on plant surfaces. Scanning 2000*.* 22: 83. (Proceedings). 2. Wood, DF, **Mandrell, R**, Bates, AH, Yu, PC. 2000. Immunolocalization of surface antigens on *Campylobacter* *jejuni* using FESEM and a backscatter electron detector. Scanning 2000*.* 22: 79-80. (Proceedings). 3. Kimura R, **Mandrell RE**, Galland JC, Hyatt D, Riley LW. 2000. Restriction site-specific (RSS)-PCR as a rapid test to detect enterohemorrhagic *Escherichia* *coli* O157:H7 strains in environmental samples. [Appl Environ Microbiol*.* 66:2513-2519](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10831431&dopt=Abstract). 4. Miller WG, Bates AH, Horn ST Brandl MT, Wachtel MR, and **Mandrell RE**. 2000. Detection on surfaces and in Caco-2 cells of *Campylobacter* *jejuni* cells transformed with new *gfp*, *yfp* and *cfp* marker plasmids. [Appl Environ Microbiol. 66:5426-5436](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11097924&dopt=Abstract). 5. Campbell J, Mohle-Boetani J, Reporter R, Abbott S, Farrar J, Brandl M, **Mandrell, R**, Werner S. 2001. An outbreak of *Salmonella* Thompson associated with fresh cilantro. [J Infect Dis. 183:984-987](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11237818). 6. Charkowski AO, Sarreal CZ, **Mandrell RE**. 2001. Wrinkled alfalfa seeds harbor more aerobic bacteria and are more difficult to sanitize than smooth seeds. [J Food Protect. 64: 1292-1298.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11563502) 7. Wachtel, MR, Whitehand, LC, **Mandrell, RE**. 2002. Prevalence of *Escherichia coli* associated with a cabbage crop inadvertently irrigated with partially treated sewage wastewater. [J Food Prot. 65:471-475.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11899045) 8. Wachtel, MR, Whitehand, LC, **Mandrell, RE**. 2002. Association of *Escherichia coli* O157:H7 with preharvest leaf lettuce upon exposure to contaminated irrigation water. [J Food Prot. 65:18-25.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=11808792) 9. Brandl, MT, **Mandrell, RE**. 2002. Fitness of *Salmonella enterica* serovar Thompson in the cilantro phyllosphere. [Appl Environ Microbiol. 68:3614-3621](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=12089050&dopt=Abstract). 10. Charkowski, AO, Barak, JD, Sarreal, CZ, **Mandrell, RE**. 2002. Differences in growth of *Salmonella enterica* and *Escherichia coli* O157:H7 on alfalfa sprouts. [Appl. Environ. Microbiol.. 68:3114-3120.](http://aem.asm.org/cgi/content/abstract/68/6/3114) 11. Friedman, M, Henika, P, **Mandrell, R**. 2002. Bactericidal activities of plant essential oils and some of their isolated constituents against *Campylobacter jejuni*, *Escherichia coli*, *Listeria monocytogenes*, and *Salmonella* *enterica*. [Journal of Food Protection. 65:1545-1560.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12380738) 12. Gorski, L, Palumbo, JD, **Mandrell, RE**. 2003. Attachment of *Listeria monocytogenes* to radish tissue is dependent upon temperature and flagellar motility. [Appl. Environ. Microbiol..69:258-266.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12514003) 13. Palumbo, JD, Borucki, MK, **Mandrell, RE,** and Gorski, LA. 2003. Serotyping of *Listeria monocytogenes* by ELISA and identification of mixed-serotype cultures by colony immunoblot. [J. Clin. Microbiol. 69.564-571.](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12574247) 14. Cooley, M, Miller, W, **Mandrell, R.** 2003. Colonization of *Arabidopsis thaliana* with *Salmonella enterica* or enterohemorrhagic *Escherichia coli* O157:H7 and competition by an *Enterobacter* *asburiae*. [Appl. Environ. Microbiol. 69:4915-4926](http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&dopt=Citation&list_uids=12902287).

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15:59 Thursday, April 19, 2007 1 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE SUPERIOR, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ==================================================================================================================================== Wisconsin Wisconsin Michigan Michigan Minnesota Tribe Licensed State Licensed Tribe Licensed State Licensed Totals Catch =============== =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ==================================================================================================================================== Rainbow smelt 1 7573 3029 . . 3423 6504 203 169 . . 11199 9702 Rainbow smelt 4 . . . . . . 2024 0 . . 2024 . Burbot 1 6 0 . . . . . . . . 6 0 Cisco (Lake herring) 1 300624 174511 . . 174841 62555 3996 1081 . . 479461 238147 Cisco (Lake herring) 4 . . . . . . 1129 0 . . 1129 . Lake whitefish 1 . . . . 563899 341582 575171 387945 279978 258030 1419048 987557 Lake whitefish 4 . . . . . . 82465 0 . . 82465 . Round whitefish 1 . . . . . . 338 102 . . 338 102 Round whitefish 4 . . . . . . 810 0 . . 810 . Chubs 1 1 1 . . 31739 29715 2708 2463 . . 34448 32179 Chinook salmon 1 . . . . . . 54 11 . . 54 11 Lake trout 1 . . . . 25280 17740 41440 10996 3733 6220 70453 34956 Lake trout 4 . . . . . . 10250 0 . . 10250 . Siscowet (fat trout) 1 . . . . 51835 15614 . . . . 51835 15614 Coho salmon 1 . . . . . . 1528 746 . . 1528 746 Coho salmon 4 . . . . . . 80 0 . . 80 . Suckers 1 205 22 . . . . 7455 760 . . 7660 782 Suckers 4 . . . . . . 6 0 . . 6 . Yellow perch 1 . . . . . . 21 53 . . 21 53 Walleye 1 . . . . . . 2350 3715 . . 2350 3715 Walleye 4 . . . . . . 250 0 . . 250 . ==================================================================================================================================== Totals 308409 177563 . . 851017 473710 732278 408041 283711 264250 2175415 1323564 TOTALS BY CATCH CLASS ====================== Human Food 1 308409 177563 . . 851017 473710 635264 408041 283711 264250 2078401 1323564 No Sale 4 . . . . . . 97014 0 . . 97014 . 15:59 Thursday, April 19, 2007 2 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE MICHIGAN, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ==================================================================================================================================== Michigan Michigan Wisconsin Illinois Indiana Tribe Licensed State Licensed Totals Catch =============== =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ==================================================================================================================================== Alewife 5 42922 4300 . . . . . . . . 42922 4300 Rainbow smelt 1 427567 213867 . . . . . . 248313 124159 675880 338026 Brown bullhead 4 319 0 . . . . . . . . 319 . Channel catfish 1 . . . . . . 48 11 . . 48 11 Channel catfish 4 38 0 . . . . 19 0 . . 57 . Burbot 1 13514 4773 . . . . 130 15 . . 13644 4788 Burbot 4 . . . . . . 4 0 . . 4 . White perch 1 1253 635 . . . . . . . . 1253 635 White bass 1 202 133 . . . . . . . . 202 133 Freshwater drum 4 . . . . . . 2400 0 . . 2400 . Lake whitefish 1 1478309 1313101 . . . . 1631619 958235 823696 657891 3933624 2929227 Lake whitefish 4 . . . . . . 572532 0 . . 572532 . Round whitefish 1 1663 834 . . . . 3005 1875 100 54 4768 2763 Round whitefish 4 . . . . . . 8635 0 . . 8635 . Chubs 1 90544 7565 . . . . 68367 50732 124568 142179 283479 200476 Chubs 2 1518505 1075603 . . . . . . . . 1518505 1075603 Chubs 4 . . . . . . 7698 0 . . 7698 . Chinook salmon 1 . . . . . . 5236 1640 . . 5236 1640 Chinook salmon 4 . . . . . . 107 0 . . 107 . Lake trout 1 . . . . . . 213017 74680 . . 213017 74680 Lake trout 4 . . . . . . 10264 0 . . 10264 . Suckers 1 1158 118 . . . . 763 120 22650 2494 24571 2732 Suckers 4 . . . . . . 85 0 . . 85 . Yellow perch 1 22465 50578 . . . . 1144 2707 . . 23609 53285 Walleye 1 . . . . . . 6045 11569 . . 6045 11569 Walleye 4 . . . . . . 13131 0 . . 13131 . ==================================================================================================================================== Totals 3598459 2671507 . . . . 2544249 1101584 1219327 926777 7362035 4699868 TOTALS BY CATCH CLASS ====================== Human Food 1 2036675 1591604 . . . . 1929374 1101584 1219327 926777 5185376 3619965 Human Food 2 1518505 1075603 . . . . . . . . 1518505 1075603 No Sale 4 357 0 . . . . 614875 0 . . 615232 . Animal Food 5 42922 4300 . . . . . . . . 42922 4300 15:59 Thursday, April 19, 2007 3 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE HURON, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ============================================================================== Michigan Michigan Tribe Licensed State Licensed Totals Catch =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars ============================================================================== Gizzard shad 1 . . 14872 2232 14872 2232 Rainbow smelt 1 . . 564 282 564 282 Brown bullhead 1 . . 531 189 531 189 Channel catfish 1 836 295 118974 54729 119810 55024 Channel catfish 4 259 0 . . 259 . Burbot 1 1800 180 175 39 1975 219 Burbot 4 18 0 . . 18 . White perch 1 . . 5770 3119 5770 3119 White bass 1 . . 1253 838 1253 838 Freshwater drum 1 . . 79530 12728 79530 12728 Cisco (Lake herring) 1 4002 1491 . . 4002 1491 Cisco (Lake herring) 4 2974 0 . . 2974 . Lake whitefish 1 1414188 977029 1747889 1853827 3162077 2830856 Lake whitefish 4 180984 0 . . 180984 . Round whitefish 1 14559 8099 151 83 14710 8182 Round whitefish 4 1289 0 . . 1289 . Chinook salmon 1 88266 44193 . . 88266 44193 Chinook salmon 4 73726 0 . . 73726 . Lake trout 1 108295 42999 . . 108295 42999 Lake trout 4 19517 0 . . 19517 . Siscowet (fat trout) 1 . . 25 31 25 31 Suckers 1 . . 26007 2868 26007 2868 Carp 1 2134 211 30915 5566 33049 5777 Carp 4 1857 0 . . 1857 . Quillback 1 . . 41623 10825 41623 10825 Bigmouth buffalo 1 . . 7794 4521 7794 4521 Rockbass 1 . . 2366 2108 2366 2108 Crappies 1 . . 562 1530 562 1530 Yellow perch 1 4 8 33453 73931 33457 73939 Yellow perch 4 2 0 . . 2 . Walleye 1 7052 11711 . . 7052 11711 Walleye 4 608 0 . . 608 . ============================================================================== Totals 1922370 1086216 2112454 2029446 4034824 3115662 TOTALS BY CATCH CLASS ====================== Human Food 1 1641136 1086216 2112454 2029446 3753590 3115662 No Sale 4 281234 0 . . 281234 . 15:59 Thursday, April 19, 2007 4 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE ERIE, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ================================================================================================================== Michigan Ohio Pennsylvania New York Totals Catch =============== =============== =============== =============== =============== Species Class pounds dollars pounds dollars pounds dollars pounds dollars pounds dollars ================================================================================================================== Gizzard shad 1 14910 2237 219800 2199 . . . . 234710 4436 Brown bullhead 1 5495 1977 17012 4277 868 1073 . . 23375 7327 Channel catfish 1 15657 7203 310115 124038 880 1040 . . 326652 132281 Burbot 1 . . 363 91 2238 2380 115 519 2716 2990 Burbot 4 . . . . . . 551 . 551 . White perch 1 . . 428822 170786 3824 6766 . . 432646 177552 White perch 4 . . . . . . 1 . 1 . White bass 1 1338 896 347657 253163 154 275 . . 349149 254334 White bass 4 . . . . . . 3 . 3 . Freshwater drum 1 331 53 438589 59073 3055 2596 . . 441975 61722 Lake whitefish 1 . . 4613 4613 563 1410 . . 5176 6023 Suckers 1 2390 264 41763 5013 5572 4737 1 . 49726 10014 Suckers 4 . . . . . . 23 . 23 . Goldfish 1 78333 34467 35396 7078 . . . . 113729 41545 Carp 1 319700 57550 340399 51094 210 178 . . 660309 108822 Quillback 1 1600 416 263818 18751 . . . . 265418 19167 Bigmouth buffalo 1 96621 56043 230426 106202 . . . . 327047 162245 Minnows 1 . . . . 2119 8476 . . 2119 8476 Rockbass 1 . . . . . . 2 . 2 . Rockbass 4 . . . . . . 22 . 22 . Yellow perch 1 . . 1563200 3362044 15228 53889 7726 9667 1586154 3425600 Walleye 1 . . . . 830 2396 . . 830 2396 ================================================================================================================== Totals 536375 161106 4241973 4168422 35541 85216 8444 10186 4822333 4424930 TOTALS BY CATCH CLASS ====================== Human Food 1 536375 161106 4241973 4168422 35541 85216 7844 10186 4821733 4424930 No Sale 4 . . . . . . 600 . 600 . 15:59 Thursday, April 19, 2007 5 COMMERCIAL FISH PRODUCTION - POUNDS AND VALUE, 2005 LAKE ONTARIO, U.S. WATERS U.S. Geological Survey GLSC, 1451 Green Road Ann Arbor, Michigan 48105 ========================================== New York Catch =============== Species Class pounds dollars ========================================== Brown bullhead 1 1040 2079 Yellow perch 1 6354 9511 ========================================== Totals 7394 11590 TOTALS BY CATCH CLASS ====================== Human Food 1 7394 11590 15:59 Thursday, April 19, 2007 6 DISPOSITION SUMMARY OF THE U.S. COMMERCIAL CATCH FOR FOOD AND INDUSTRIAL PURPOSES Region-Great Lakes Year-2005 All States Combined ================================================================================================== Human Food No Sale Animal Food Bait Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species pounds dollars pounds dollars pounds dollars pounds dollars ================================================================================================== Alewifes . . . . 43 4 . . Buffalofish 335 167 . . . . . . Bullheads 25 10 0 . . . . . Burbot 18 8 1 . . . . . Carps 693 115 2 . . . . . Catfish 447 187 0 . . . . . Chubs 1836 1308 8 . . . . . Crappie 1 2 . . . . . . Gizzard shad 250 7 . . . . . . Goldfish 114 42 . . . . . . Lake herring 483 240 4 . . . . . Lake trout 444 168 40 . . . . . Minnows (hitch) shiners 2 8 . . . . . . Quillback 307 30 . . . . . . Rockbass, Freshwater 2 2 0 . . . . . Salmon, Silver or Coho 95 47 74 . . . . . Sheepshead, Freshwater 522 74 2 . . . . . Smelt, Great Lakes 688 348 2 . . . . . Suckers 108 16 0 . . . . . White bass, Freshwater 351 255 0 . . . . . Whitefish, Common 8520 6754 836 . . . . . Whitefish, Menominee 20 11 11 . . . . . White perch 440 181 0 . . . . . Yellow Perch 1650 3562 0 . . . . . Yellow pike (Walleye) 16 29 14 . . . . . ================================================================================================== Totals 17365 13571 994 . 43 4 . . Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 7 FRESHWATER FISH LANDINGS BY STATE Region-Great Lakes Year-2005 Commercial and Indian Catch ========================================================================================================================== Minnesota Wisconsin Illinois Indiana Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species Code pounds dollars pounds dollars pounds dollars pounds dollars ========================================================================================================================== Alewifes 10 . . 43 4 . . . . Buffalofish 420 . . . . . . . . Bullheads 450 . . 0 . . . . . Burbot 480 0 0 14 5 . . . . Carps 630 . . . . . . . . Catfish 660 . . 0 . . . . . Chubs 720 0 0 1641 1113 . . . . Crappie 840 . . . . . . . . Gizzard shad 1340 . . . . . . . . Goldfish 1360 . . . . . . . . Lake herring 1681 301 175 175 63 . . . . Lake trout 2000 . . 77 33 . . . . Minnows (hitch) shiners 2230 . . . . . . . . Quillback 2810 . . . . . . . . Rockbass, Freshwater 2900 . . . . . . . . Salmon, Silver or Coho 3084 . . . . . . . . Sheepshead, Freshwater 3530 . . . . . . . . Smelt, Great Lakes 3711 8 3 431 220 . . . . Suckers 4230 0 0 1 0 . . . . White bass, Freshwater 5000 . . 0 0 . . . . Whitefish, Common 5031 . . 2042 1655 . . . . Whitefish, Menominee 5035 . . 2 1 . . . . White perch 5060 . . 1 1 . . . . Yellow Perch 5170 . . 22 51 . . . . Yellow pike (Walleye) 5190 . . . . . . . . ========================================================================================================================== Totals 308 178 4449 3145 . . . . Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 8 FRESHWATER FISH LANDINGS BY STATE Region-Great Lakes Year-2005 Commercial and Indian Catch ========================================================================================================================== Michigan Ohio Pennsylvania New York Thousand Thousand Thousand Thousand Thousand Thousand Thousand Thousand Species Code pounds dollars pounds dollars pounds dollars pounds dollars ========================================================================================================================== Alewifes 10 . . . . . . . . Buffalofish 420 104 61 230 106 . . . . Bullheads 450 6 2 17 4 1 1 1 2 Burbot 480 2 0 0 0 2 2 1 1 Carps 630 355 63 340 51 0 0 . . Catfish 660 136 62 310 124 1 1 . . Chubs 720 203 195 . . . . . . Crappie 840 1 2 . . . . . . Gizzard shad 1340 30 4 220 2 . . . . Goldfish 1360 78 34 35 7 . . . . Lake herring 1681 12 3 . . . . . . Lake trout 2000 407 135 . . . . . . Minnows (hitch) shiners 2230 . . . . 2 8 . . Quillback 2810 43 11 264 19 . . . . Rockbass, Freshwater 2900 2 2 . . . . 0 . Salmon, Silver or Coho 3084 169 47 . . . . . . Sheepshead, Freshwater 3530 82 13 439 59 3 3 . . Smelt, Great Lakes 3711 251 125 . . . . . . Suckers 4230 59 7 42 5 6 5 0 . White bass, Freshwater 5000 3 2 348 253 0 0 0 . Whitefish, Common 5031 7309 5093 5 5 1 1 . . Whitefish, Menominee 5035 29 10 . . . . . . White perch 5060 6 3 429 171 4 7 0 . Yellow Perch 5170 35 77 1563 3362 15 54 14 19 Yellow pike (Walleye) 5190 29 27 . . 1 2 . . ========================================================================================================================== Totals 9351 5977 4242 4168 36 85 16 22 Figures are rounded to nearest 1000 units. Zero values indicate less than 500 units. . values indicate no catch or no value. 15:59 Thursday, April 19, 2007 9 DISPOSITION OF DOMESTIC CATCH OF FRESHWATER FISH BY MONTH Region-Great Lakes Year-2005 Commercial and Indian Catch ==================================================================================================================================== Month State Disposition Minnesota Wisconsin Illinois Indiana Michigan Ohio Pennsylvania New York Total <-- Thousand pounds --> ==================================================================================================================================== January Food . 409 . . 79 . 0 . 488 Industrial . 1 . . . . . . 1 February Food . 363 . . 69 . . . 431 Industrial . 1 . . . . . . 1 March Food 0 246 . . 141 173 . . 560 Industrial . 2 . . . . . . 2 April Food 15 327 . . 838 873 3 0 2056 Industrial . 9 . . . . . . 9 May Food 13 538 . . 1080 1921 5 3 3560 June Food 16 275 . . 1074 336 4 3 1707 July Food 23 347 . . 1014 77 4 8 1472 August Food 34 307 . . 1015 86 6 0 1449 September Food 20 315 . . 926 321 6 0 1588 October Food 142 540 . . 1421 257 7 0 2368 November Food 41 354 . . 393 197 1 . 987 Industrial . 31 . . . . . . 31 December Food 4 385 . . 307 1 0 . 697 Industrial . 0 . . . . . . 0 ==================================================================================================================================== Sub-Totals Food 308 4406 . . 8358 4242 36 15 17365 Industrial . 43 . . . . . . 43 ==================================================================================================================================== Totals 308 4449 . . 8358 4242 36 15 17408 Figures are rounded to nearest 1000 pounds. Zero values indicate less than 500 pounds. . values indicate no catch.

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477201

# Presentation: 477201 ## Large Searchesat CDF, Tevatron - Tracey Pratt - Liverpool University - Extra Dimensional models - Tevatron and the CDF detector - Run I & Run II searches - Future reaches at the Tevatron - Questions - Conclusions and outlook - Extra Dimension - March 2003 ## Extra dimensional solutions to the hierarchy problem (MEW << MPlanck?) - Many large extra dimensions (n=2-7) - gravity freely propagates in the ED - Taking the compact space to be very large - Curvature of the extra dimension - 1 highly curved extra dimension - gravity localised in the ED - Scale of physical phenomena on the TeV-brane is specified by the exponential warp factor: - = Mple-kRc - ~ TeV if kRc ~11-12. - Planck TeV brane - compactified - for n  2, Rc < 1 mm - Vn = 2Rcn - MPl(4+n) ~ 1 TeV - MPl2 = VnMPl(4+n)(2+n) -  requires Rc ~ 10(30/n –19) m *To solve hierarchy* * **choose* - Torus - ADD - RS ## Searching for ED - Two classes of experimental tests - Graviton emission - and a photon or a jet recoiling against it, - Gravitons, do not interact with the detector, and radiate into the bulk appearing as missing energy: - jet + ET  + ET - Cross section depends on the number of extra dimensions - 2. Graviton exchange - Deviations in the cross section from SM predictions - _New Parameters _(Hewett formalism) - Ms - , dimensionless parameter, 1 - Since gravitons can propagate in the bulk, energy and momentum are not conserved in the GKK emission from the point of view of our 3+1 space-time - Since the spin 2 graviton in generally a has a bulk momentum component , its spin from the point of view of our brane can appear as 0, 1 or 2 - Gravitons, do not interact with the detector, and radiate into the bulk, appearing as missing energy: - jet + MET  + MET - Cross section depends on the number of ED - the collider signatures include single photons/Z/jets with missing ET or fermion/vector boson pair production - ADD - probe Kaluza-Klein gravitons (GKK) by: - Picture of cross-section for emission - Run I - M (GeV) **2)** **Graviton exchange****:** virtual contribution to the scattering processes - Deviations in cross sections and asymmetries of SM processes - e.g. qq-bar  l+l-,   - Or new processes e.g. gg  l+l-, - Cross section independent of the number of ED - in Hewett formalism - Gupta et. al. hep-ph/9904234 - s is the Planck scale in the extra dimensions -  is a dimensionless parameter of order  1 - =+1 - _New Parameter_ - Fundamental mass scale MD GN-1 = 8RnM2+nD , - where GN-1 Newton’s constant - _New Parameter_ - Fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD **1)** **Direct G****KK ****emission** in association with a vector-boson - _New Parameter_ - MD = MPl(4+n) ## Searching for ED - RS - (Add BRs here?!) - (Why not diphoton ?!!) - K/MPl - 6 - 700 GeV KK Graviton at the Tevatron - k/MPl = 1,0.7,0.5,0.3,0.2,0.1 from - top to bottom - Mll (GeV) - RS model - Dilepton channel - 400 600 800 1000 - Mll (GeV) - 10-2 - 10-4 - 10–6 - 10-8 - 10-2 - 10-4 - 10-6 - 10-8 - 10-10 - Tevatron 700 GeV KK graviton - d/dM (pb/GeV) - Massive eigenstates only suppressed by -1 ~ TeV-1 - RS modes can be excited individually on resonance - Via Virtual exchange - but different expected cross sections/distributions from ADD model **Via virtual exchange** - Davoudiasl, Hewett, Rizzo hep-ph0006041 - 1000 3000 5000 - 1 - 0.5 - 0.1 - 0.05 - 0.01 - 1 - 0.7 - 0.5 - 0.3 - 0.2 - 0.1 - KK excitations can be excited individually on resonance - The cleanest signature for graviton resonance production is an excess of events in the dilepton or dijet channel. - 1500 GeV GKK and subsequent tower states - K/MPl - LHC ## Tevatron pp collider - CDF - Run I (1992-1996) - L ~ 110 pb-1  s  1.8 TeV - Run II (2001-2006) - L ~ 2000 pb-1  s  2 TeV - Tevatron pp collider ***Highest energy collider operating in the world!*** - D0 - 20 x more events - Physics reach extended - 8 - and ability to set improved limits on new physics ## CDF at the Tevatron _*CDF detector is essentially new, commissioned and now taking physics-quality data!*_ - Improved sensitivity for leptons and photons - _Highlights of Upgrade_ - Improved trigger - Improved silicon tracker - Improved central outer tracker - New forward calorimeters - Extended muon coverage - Time of flight detector *EM calorimeter timing (Summer 03)* - Run I - Run II ***Taking physics quality data since February 2002*** ## CDF ED Searches *Emission Channels* -  + MET , jet+ MET *Exchange* - Diphoton, - Dielectron - and combined - ADD - RS - Dimuon - Dielectron - and combined - (Diphoton) - (Dijet) - (top pair, ## Run I GKK emission: Et - Run I GKK emission: Et - CDF 5725 **Limits** - n=4 MD > 0.55 TeV - n=6 MD > 0.58 TeV - n=8 MD > 0.60 TeV - The fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD - No signal is observed - L3 has set limit MS >1 TeV for n=2 (hep-ph0003306) **Search Selection ** - - One  with ET > 55 GeV and ||<1 - - Missing ET > 45 GeV - - No jets with ET > 15 GeV - - No tracks with pT > 5 GeV **Main backgrounds** - Cosmic rays where muon undergoes a Bremsstrahlung in the calorimeter - Irreducible Z + - We (), W (),  (),jet-jet, -jet (+MEt) **Results** - Expected background: 11.0  2.3 - Observed: 11 - irreducible - 95 % C.L. ADD limits: - GN-1 = 8RnM2+nD - MD = 549, 581, 602 GeV - n=4,6,8 extra dimensions **but no track is found** - Other backgrounds: - W->e nu, where the e is misidentified as a photon - W -> where the charged lepton in a leptonic W decay is lost - Prompt photon-photon production where a photon is lost - Dijet - Photon+jet production - CR cuts are timing cuts - (No jets with ET > 15 GeV and No tracks with pT > 5 GeV) are to remove backgds from W and events in which mismeasurement of jet energy produces fake MEt - Events surviving cuts - 15,046 - 1,475 - 94 - 11 - PRD | Cosmic ray muons | 6.3  2.0 | | --- | --- | | Z0+ | 3.2  1.0 | | W e (““) | 0.9  0.1 | | Prompt diphotons | 0.4  0.1 | | W () | 0.3  0.1 | **Main backgrounds** - 87 pb-1 - Numbers don’t add due to rounding ## EM calorimeter timing - EM Calorimeters - Hadronic - Summer 2003 ! - Reducing the kinematic requirement would increase the signal by a factor of 2.8 - And decrease cosmic ray background ## Real GKK emission : jets+Et - CDF 5151 - Dashed lines for  from Pythia - Solid lines prediction from Giudice, Rattazi and Wells (hep-ph9811291) -  falls as 1/MDn+2 for all subprocesses - qq-bar  gG is larger for larger values of n, relative to the other sub-processes, - since (gggG) and (qggG) - depend on (m2/s)4 - Whereas (qq-bargG) depends on (m2/s)3 - This results in larger splittings at high values of MD between values of n for qg and gggG compared to qq-bargG. - For n=2 qq-bar is not the dominate process, but for n>2 then this is the dominate process | Process MD = 1 TeV | n(pb) Total) | n(pb) Total) | n(pb) Total) | | --- | --- | --- | --- | | qq-bargGKK | 4.1 (0.16) | 1.6 (0.53) | 0.70 (0.78) | | qggGKK | 9.6 (0.38) | 0.68 (0.22) | 0.096 (0.11) | | qggGKK | 11.4 (0.45) | 0.77 (0.25) | 0.11 (0.12) | | Total | 25.2 | 3.05 | 0.90 | - Tevatron s=2 TeV MD = 1.2 TeV - n=4 - n=2 - pTmin (GeV) ## Run Ib GKK emission: jets+ET - CDF 5151 - The fundamental mass scale MD and R are related to Newton’s constant GN-1 and the number of extra dimensions by GN-1 = 8RnM2+nD - Compare to LEP and Delphi results?- in the paper (for that time) **Search Selection** - Jet ET1st 80 GeV, || <1.1 and ET>80 GeV - a second jet is allowed if ET2nd > 30 GeV - no isolated tracks in event (pT10 GeV) **Main background** Z()+jets, W()+jets. - L3 gives limit Ms > 600 GeV hepph0003306 - pp  jet +MEt subprocesses: - qggG, qq-bargG and gggG. - Main bkgd from Z+jet +jet - LHC: qggG gives largest contribution | | MD (GeV) > | | | | --- | --- | --- | --- | | n | CDF(K=1.0) | D0(K=1.0) | D0(K=1.34) | | 2 | 995 | 886 | 987 | | 4 | 768 | 663 | 728 | | 6 | 707 | 626 | 646 | ***Best limits from the Tevatron from searches for direct graviton emission*** - Run Ib GKK emission: jets+ET **Results** - Expected: 27416 Observed: 284 events. - Relative uncertainty on the signal acceptance 25 % **Limits** - 95 % C.L. upper limit on number of signal events: 62 - 84  4 pb-1 - Used Poilim (poisson statistics)  - Normalise bkgd predictions to Zee+jets data and use direct normalisation of W->enu+jets as a cross check - Allowing a 2nd jet: improves the signal eff. (2nd jet from ISR or FSR) And allows us to estimate the QCD bkgd using data. - No tracks; reduces bkgd from W+jets ## Predicted results for GKK emissionjet+ET | n | CDF Run I results (GeV) | MD reach Run I (GeV) | MD reach Run II >300pb-1 (GeV) | MD reach LHC 100 fb-1 (TeV) | | --- | --- | --- | --- | --- | | 2 | 995 | 1100 | 1400 | 8.5 | | 3 | | 950 | 1150 | 6.8 | | 4 | 768 | 850 | 1000 | 5.8 | | 5 | | 700 | 900 | 5.0 | - hep-ph 9811291 (1999) - Bounds obtained by requiring - Tevatron: signal>205 fb (for s=2 TeV) with the acceptance cuts |jet|<3 and EminT, jet = 150 GeV. - LHC: signal>2.6 fb (for s=14 TeV) with the acceptance cuts |jet|<3 and EminT, jet = 1 TeV. - and requiring signal significance S/B = 5, assuming bkgd cross-section known to within 10 % and requiring that the signal be more than 50 % of the background to have confidence of a discovery. - PRL **82**,2236 (1999) - G. Giudice, R. Rattazzi, J. Wells - |jet|<1.1 and EminT, jet = 80 GeV - LHC with 300 times more data ## Virtual Graviton Exchange - Clean experimental signature. Low backgrounds - Diphoton Channel - gg initiated process - Interference term of gg-> between SM and KK is not in their gamgam searches in Run I, they take this a a systematic uncert, however , interference of qq-bar term is in the MC and gg interference term about 0.1* qq-bar interference term (CDF5694) - Dilepton Channel - qq-bar and gg ->  : gg process contributes about 30 % of the cross-section - Extra Dimensions - Standard Model **+** **+** **+** ## Fit method used - (Comment on ang distrib too ) - s is the Planck scale in the extra dimensions -  is a dimensionless parameter of order  1 - CDF 5892,5373 - KLED=1.3 - and to date (March 2002) has not been theoretically estimated. - A 3 parameter (nSM, nBG, ) unbinned likelihood function is used to extract  - 103 - 102 - 101 - 1 - 0 200 400 600 800 1000 1200 - M (GeV/c2) - events - Parameterise the cross section in terms of  = / s4 **** = ******SM** + ******INT **+ 2 ******KK** ******BG** - A different choice of  and s4 would affect the templates’ relative and absolute normalisations, but not their shapes. - Shapes depend only on the general structure of the lagrangian and on the pdfs. ## CDF  Run I search for LED **Search Selection** - 2  with Et > 22 GeV, - CC or CP: central (|| < 1), plug (1<|| <2.4) **Main backgrounds**: fakes from -jet and jet-jet **Results** - Observed: 287 Central Central events - 192 Central Plug events **Limits** - Using a maximum likelihood fit method - CDF: M > 150 GeV 5 events are observed where 4.5 +/-0.6 were expected with luminosity 100 pb-1 , and a limit MS > 0.9 TeV for n=4 was obtained. (hepph0003306) - CDF5694 - MC distribution for the excluded signal shown here too - CC 100 pb-1, CP 87 pb-1 - Central - 2 separate analyses – CP and CC – - then combined to give: - Problems gg interference – - 95 % C.L. MS > 899 / 797 GeV KLED = 1.0 - ( = -1/+1, Hewett) - Mhighest = 288 GeV/c2 - Background falls off faster than signal. - In CC above 200 GeV: - Expect less than 0.2 events, as opposed to 2.5 SM  events ## CDF Run I ee search for LED - 2 high Et isolated electrons (> 25 GeV) (CC and CP) - ee and  CDF results cdf 5753 - 95 % C.L. MS > 826 / 905 GeV ( = +1/-1, Hewett) KLED = 1.0 - 95 % C.L. MS > 853 / 939 GeV ( = +1/-1, Hewett) KLED = 1.3 - KLED applies to the LED terms of the cross section, and to date (March 2002) has not been theoretically estimated. Therefore quote a SM-like K-factor result and also one where no loop corrections are assumed. - 95 % C.L. MS > 780 / 768 GeV ( = -1/+1, Hewett) KLED = 1.0 - 95 % C.L. MS > 826 / 808 GeV ( = -1/+1, Hewett) KLED = 1.3 - 2 separate analyses – CP and CC – then combined to give: - Highest energy event is 500 GeV - 110 7 pb-1 - NSMCP = 3883  292 (DY) - NBGCP = 224  71 - Observed 3825 - Main Backgrounds: Drell-Yan, QCD di-jet, diboson production, Z,tt-bar production - CDF 5892 - NSMCC = 3463  223 (DY) - 500 GeV - CC: 3319 - CP: 3825 ## CDF  + ee search for LED - Combine the likelihoods (cdf5753) - (Acounting for correlated and uncorrelated uncertainties) | Channel | 95 % C.L. MS (Hewett) | | | | | --- | --- | --- | --- | --- | | | KLED = 1.0 | | KLED = 1.3 | | | |  = -1 |  = +1 |  = -1 |  = +1 | | ee | 780 | 768 | 826 | 808 | |  | 899 | 815 | | | | ee and  | 905 | 826 | 939 | 853 | - Diphoton channel is more sensitive to LED than dielectrons, - because the LED production cross-section is higher - The LED dielectron analysis has a 500 GeV ee event which is more consistent with LED than the SM. - CDF5753 - CDF found that a 2 dimension fit in both invariant mass and angular distribution only gave a slight improvement over the 1-dimensional fit in their statistically limited samples. - as advocated by Cheung and Landsberg)hep-ph/9909218 - (D0 does not include the gg process, which cdf found increases the SM cross section by about 30 %) cdf 5373 ## Run II GKK exchange reaches - 2 fb-1 Run II dilepton data - (hep-ph 0006041) - Increased sensitivity to ADD model since can study angular distribution with more statistics - Compare to LEP? - Add Z’ table numbers - _ADD model_ - Run I (110 pb-1) ee +  Ms 1.0-1.4 TeV for n=7-2 - corresponds to R < 0.3 mm (n-2) and R < 2 fm (n=7) - Run II (2 fb-1) Ms 1.3-2.5 TeV for n=7-2 *n = number of extra dimensions* - HLZ notation: hep-ex 0008065 D0 results: ADD - Corresponds to R < 0.3 mm (n-2) and R < 2 fm (n=7) - D0 Collab. hep-ex 0008065 | Run I, 0.13 fb-1 | 2 fb-1 | 20 fb-1 | LHC, 100 fb-1 | | --- | --- | --- | --- | | 1.3 TeV | 1.9 TeV | 2.6 TeV | 9.9 TeV | - 95 % C.L. sensitivity limits on Ms (n=4), from , ee,  channels - Using double differential cross-sections - Cheung hep-ph 0003306 | Run I, 0.13 fb-1 | Run IIa, 2 fb-1 | Run IIb, 20 fb-1 | LHC, 100 fb-1 | | --- | --- | --- | --- | | 0.13 fb-1 | 2 | 20 | 100 | | 1.3 TeV | 1.9 | 2.6 | 9.9 | - 95 % C.L. sensitivity limits on Ms (HLZ) - n=4 **e****+****e****-**** + ********+********-**** + ****** - ADD - Using double differential cross-sections - Han, Lykken and Zhang Phys Rev D 59, 105006 (1999) - 2 fb-1 - 20 fb-1 ## CDF ED Searches *Emission Channels* -  + MET , jet+ MET *Exchange* - Diphoton, - Dielectron - and combined - ADD - RS - Dimuon - Dielectron - and combined - (Diphoton) - (Dijet) - (top pair, ## Initial Run II limits: ee,  - MZ‘ > 275 GeV/c2 - 16 pb-1 - No deviations from the SM observed - Limits set on one Z’ and RS model - Run 2 **** **Graviton mass (GeV/c****2****)** - pb-1 - initial results - Now updated - RS - CDF6080,6073 - ICHEP 2002 ## limits  72 pb-1 - limits  72 pb-1 - RS **Search selection** - 2 isolated  PT>20 GeV/c, ||<1 - Cosmic ray rejection cuts **Results** - Observed 775** **events - Signal region above 150 GeV/c2 observed 4 events **Limits** - 95 % C.L. upper limit on number of signal events: 5.6 - K=1.3 - 208 GeV/c2 - CDF6344 ## Run II cosmic ray rejectionusing the Time-of-Flight detector - Run II cosmic ray rejectionusing the **Time-of-Flight** detector - Remove cosmic rays with a cut requiring Tupper – Tlower > -5 ns - Tupper – Tlower - ~ 2L/c for cosmic ray dimuons - ~ 0 for interaction dimuons ## Run II ee search 72 pb-1 - 371 GeV - RS **Search selection** - 2 isolated e (CC, CP) - ET>25 GeV **Results** - Observed: 4576 ee events - Above 200 GeV/c2 observed 27, expected 16  8 - Above 350 GeV/c2 observed 3, expected 1.1  0.3 - CDF6343 ## Run II ee search 72 pb-1 - ee better limits than in  channel, because - plug gives e a larger acceptance and a higher efficiency per event - Run II ee search 72 pb-1 - RS - 20 % rather than 50% - Total acceptance - Effic: for - ee CC:84% CP:69% - Mm: PP= 57%, XX 65%, PX 61% - CDF6343 - 95 % C.L. Excluded region - K=1.3 ## Run II ee +  search 72 pb-1 - Run II ee +  search 72 pb-1 - RS - 95 % C.L. Excluded region K=1.3 ## CDF model searches - Future: - Add more of the **** detector acceptance - Use Run II dijet and diphoton searches to set RS limits - 25 - 55 - 0 - 42 - RS - ||<0.6 - ||<1 - ||<1.5 ## Run II dijet search at CDF - Inclusive Jet samples - 2 highest ET jets selected - Fit of the mass spectrum with a simple background parameterisation and search for bumps comparable with mass resolution ***No significant evidence for a new particle*** *RS model dijet limits to be determined.* **Highest mass event ****1364 GeV/c****2** - ET=666 GeV (corr) - 583 GeV (raw) - =0.31 (detector) - =0.43 (correct z) - ET=633 GeV (corr) - 546 GeV (raw) - =-0.30 (detector) - =-0.19 (correct z) - z vertex = - 25 cm - J1 ET = 666 GeV (corr) - 583 GeV (raw) - J1  = 0.31 (detector) - = 0.43 (correct z) - J2 ET = 633 GeV (corr) - 546 GeV (raw) - J2  = -0.30 (detector) - = -0.19 (correct z) - z -  - CDF6248 - MET/ET<6 and E<2.2 TeV ## Run II diphoton search **Results** - Highest mass event is: 168 GeV/c2 - Above 150 GeV/c2: Observed 2 events - Expected 3.3 events **Search selection** - Isolated  with ET > 13 GeV, || < 0.9 - No 3D tracks pointing to em cluster - Bins are 20 % of mass - 71% from jets (loose cuts) + 29% from MC **No excess observed at high invariant mass** **Main backgrounds** - fakes from -jet and jet-jet, - where jet fragments into a hard 0 - CDF6312 ## constraints - Davoudiasl, Hewett, Rizzo hep-ph 0006041 - constraints - RS - m1 (GeV) - 0.20 - 0.10 - 0.07 - 0.05 - 0.03 - 0.02 - 0.01 - 1000 2000 3000 4000 5000 - Allowed Region - Sridhar hep-ph 0103055 - m1 : - 700-1150 GeV ## Outstanding Questions - K factor: - ADD CDF ee+  use KLED = 1.0 and 1.3 - “They place a KLED on the LED terms of the production cross-section: 1.0 for no loop corrections and a SM-like 1.3 for two independent cases.” (cdf 5753) - used to correct the LO cross-section to NLO: **?** **?** - Should K=1.3 apply to the non-QCD process of graviton exchange? - KLED applies to the LED terms of the cross section, to estimate the effect of non-leading orders in LED. - CDF 5373 - No interference between the gg SM and KK terms included in their Pythia input - this has been included into the systematics - This inference is relatively small compared to the direct KK terms, and has quite a complex analytic form. Has been computed by Eboli et al (hep-ph/9908358) - qg-> gam gam is about 30 % of the cross section of qq-bar -> gam gam - Is ADD model graviton exchange in Pythia ? - MC program by Ulrich Baur, but no interference between the SM gg box diagrams and the tree-level gg graph - Has been calculated by Eboli et al (hep-ph/9908358) Included as a systematic uncertainty (_Sys_INT) at present (_Sys_INT = 34 % _Sys_Total for=-1, 43 % for =+1) - (including K=1.3 increases sensitivity by about 30 GeV in exchange processes) - Not clear, since the NLO processes including gravitons are quite different than the QCD processes (e.g. gg box diagram) that enhance SM photon production. - Reasonable to multiply the qq by 1.3, but also for interference (INT) and direct signal (KK) processes? - Interference term of gg-> between SM and KK is not in their gamgam searches in Run I, they take this a a systematic uncert, however , interference of qq-bar term is in the MC and gg interference term about 0.1* qq-bar interference term (CDF5694) - Get Syst Uncert by varying the qq-bar interference cross-section by +/-100 % ,this is an over estimate. cdf5658 ## Conclusions and outlook - Searches performed in several channels at CDF - No evidence of deviations from Standard Model expectation observed - Best limits obtained - ADD jets+ET, ee +  ~ 1 TeV - RS ee +  m1 ~ 365 to 550 GeV for k/MPl 0.05 to 0.1 - Tevatron Run II has successfully started, the first CDF Run II results already determined and .. to be updated in the future... - Tevatron Run IIa (2 fb-1) has a promising observation potential and should be in a position to discover ED, if they exist, - ADD: up to about MS = 2 TeV - RS: m1 from 0.5 to 1 TeV for k/MPl 0.01 to 0.1 - The highest limits obtained are from the ** channel. - Many interesting channels to look in. - Run II results already coming in - To be updated in the future... - ADD ee +  939 (853) GeV for =-1 (+1), KLED = 1.3 - ADD jets+ET 995 for n=2, 768 for n=4 - RS ee 205 to 535 GeV for k/MPl 0.025 to 0.1 - Tevatron Run II has a promising observation potential and should be in a position to discover ED, if they exist, - ADD: up to about MS = 2 to 3 TeV (Runs IIa, 2 fb-1; IIb, 20 fb-1) - RS: m1 from 0.5 to 1 TeV for k/MPl 0.01 to 0.1 (Run IIa, 2 fb-1) ## THE END! ## Jets+MEt | Process MD = 1 TeV | n(pb) Total) | n(pb) Total) | n(pb) Total) | | --- | --- | --- | --- | | qq-bargGKK | 4.1 (0.16) | 1.6 (0.53) | 0.70 (0.78) | | qggGKK | 9.6 (0.38) | 0.68 (0.22) | 0.096 (0.11) | | qggGKK | 11.4 (0.45) | 0.77 (0.25) | 0.11 (0.12) | | Total | 25.2 | 3.05 | 0.90 | - cdf5151 ## CDF ll/ LED search method - ee and  CDF results cdf 5753 - 95 % C.L. MS > 826 / 905 GeV ( = +1/-1, Hewett) KLED = 1.0 - 95 % C.L. MS > 853 / 939 GeV ( = +1/-1, Hewett) KLED = 1.3 - 110 pb-1+/- 7 Run I - NSMCC = 3463  223 - NSMCP = 3883  292 - NBGCP = 224  71 - The CC BG is negligible. - Observed: - CC: 3319, CP: 3825 - 1) Scan through , and at each point, reminimise L w.r.t nSM and nBG. - 2) Plot L - 3) 95 % C.L. result is the value of  such that 95 % of area under the likelihood function lies between it and 0. - L = 1 e – ADD Equation! Page 15 cdf 5892 - 2SM2 - nLED() is the fitted number of events attributable to LED physics - 3 parameter unbinned likelihood function: nSM, nBG =/MS4 - Bayesian gaussian prior on nSM events - Bayesian gaussian prior on nBG events - Poisson constraint on total number of events - Term to weight events according to its consistency with the SM, SM-LED interference, direct KK shapes, and BG shapes - CDF 5892,5373 ## Tevatron ## Dimuon acceptance ## Diphoton constraints - hep-ph 0103055 - Diphoton production at Tevatron Run II - sensitive to mass of first KK graviton resonance - (m1) : 700-1150 GeV - ADD K factor for both and ref and add bin sizes - And know method – xhi Squ !? - LHC: can probe first graviton excitation up to ~ 3.5-5.5 TeV - For K/MPl 0.01 to 0.1 95 % C.L. m0 Tevatron: 180-290 GeV - implies mass of first KK graviton resonance must lie above 700 GeV - 200 220 240 260 280 - m0 (GeV) - K/MPl - 0.1 - 0.08 - 0.06 - 0.04 - 0.02 - s = 2 TeV - L = 2fb-1 - 95 % C.L. - 95 % C.L. - m1 : 700-1150 GeV - m1 : 3.5-5.5 TeV **Tevatron** **LHC** - RS

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VIII.3.3-DHM-OP DISTRIBUTED HYDROLOGIC MODELING OPERATION [`Identifier`]{.underline}`: DHM-OP` [`Operation Number`]{.underline}`: 64` [`Developed by`]{.underline}`:`` `` `` HSEB, Office of Hydrologic Development` [`Array Entries`]{.underline}`:`` `` ``This Operation uses the P array to pass information on the upstream and/or outlet basins and time series. The T array is used to pass information about the specified time series. A single carryover value is defined, but not used. ` [`Parameter Array`]{.underline}`: The FORTRAN identifier used for the parameter array is ``PO``. The contents of the ``PO`` array are:` [Position]{.underline} [Contents]{.underline} 1 Operation version number 2-3 Time series identifier 4 Time series data type code 5 Time series data time interval 6-7 Basin ID identifier 8-9 Time series identifier 10 Time series data type code 11 Time series data time interval 12-13 Basin ID identifier 14 Inflow flag identifier. If flag = -1, PO(2)to PO(7) contains information for OUTLET: header type,and PO(8) to PO(13) contain dummy values. If flag = 1, PO(8) to PO(13) contains information for INFLOW: header type. [Carryover Array]{.underline}: The FORTRAN identifier used for the carryover array is CO. The contents of the CO array are as follows: [Position]{.underline} [Contents]{.underline} 1 value of 1 (hard-coded) [T Array]{.underline}: The contents of the T array are as follows: [Position]{.underline} [Contents]{.underline} 1 Operation number 2 Location of the next Operation in the T array 3 Location of the parameters in the P array 4 Location of the time series data in the D array 5 Location of the output time series data in the T array 6 Location of the input time series data in the T array [Subroutines Names and Functions]{.underline}: The subroutines associated with this Operation are: [Subroutine]{.underline} [Function]{.underline} PIN64 Input cards, makes checks and stores values in PO and CO arrays TAB64 Makes Operation Table entries PRP64 Print parametric data PUC64 Output cards in the format which can be read by routine PIN64 EX64 Execute the Operation Subroutines PIN64, PRP64 and PUC64 have the standard argument lists for these subroutines as given in Section VIII.4.3. SUBROUTINE PIN64(PO,LEFTP,IUSEP,CO,LEFTC,IUSEC) [Function]{.underline}: This is the input routine for Operation DHM-OP. This routine fills the P array. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output]{.underline} [Type]{.underline} [Dimension]{.underline} [Description]{.underline} PO Output I\*4 Variable Array beginning at the portion of P array used by this Operation LEFTP Input I\*4 1 Space available in P for storage by PO IUSEP Output I\*4 1 Amount of space used by PO CO Output R\*4 1 real array dimensioned CO(\*) which is used to store the initial values of the state variables LEFTC Input I\*4 1 maximum amount of space available for the CO array IUSEC Input I\*4 1 number of words of storage used for the CO array SUBROUTINE TAB64 (OpArray,LEFT,IUSET,NXT,LPO,PO,LCO,TS,MTS,LWORK,IDT) [Function]{.underline}: This is the Operations Table entry subroutine for DHM-OP. [Argument List]{.underline}: The arguments are similar to the arguments for the Operations Table entry subroutines for other Operations. A description of the arguments is in Section VIII.4.2-TAB. [Operations Table Array]{.underline}: The contents of the OpArray array are: [Position]{.underline} [Contents]{.underline} 1 Operation number 2 The location in the T array of the next Operation to be executed 3 Location of the PO array in the P array 4 Location of the CO array in the C array: 0 = carryover not needed 5 Location the output time series in the T array 6 Location of the input time series in the T array SUBROUTINE PRP64 (PO) [Function]{.underline}: This routine prints information about the time series that is to be set by Operation DHM-OP. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output Type Dimension]{.underline} [Description]{.underline} PO Input R\*4 Variable Contains information for the time series to be set SUBROUTINE PUC64 (PO) [Function]{.underline}: This is the card punch routine for Operation DHM-OP. This routine punches the time series identifiers in the same format as the input card for the Operation. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output Type Dimension]{.underline} [Description]{.underline} PO Input R\*4 Variable Contains information for the time series to be set SUBROUTINE EX64 (PO,CO,outputDarray,inputDarray) [Function]{.underline}: This is the execution subroutine for the Operation DHM-OP. [Argument List]{.underline}: Input/ [Variable]{.underline} [Output]{.underline} [Type]{.underline} [Dimension]{.underline} [Description]{.underline} PO Input R\*4 20 Parameter array CO Input R\*4 1 Carryover array outputDarray Output R\*4 1 output time series in the D array InputDarray Input R\*4 1 Input time series in the D array

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ERNESTO J. BENEVENTO, ERNEST A. BENEVENTO, AND CARMINE LOIACONO, PETITIONERS V. UNITED STATES OF AMERICA No. 87-1674 In the Supreme Court of the United States October Term, 1987 On Petition for a Writ of Certiorari to the United States Court of Appeals for the Second Circuit Brief for the United States in Opposition TABLE OF CONTENTS Questions Presented Opinions below Jurisdiction Statement Argument Conclusion OPINIONS BELOW The opinion of the court of appeals (Pet. App. 20a-47a) is reported at 836 F.2d 60. the opinion of the district court (Pet. App. 1a-19a) is reported at 649 F. Supp. 1379. JURISDICTION The judgment of the court of appeals was entered on December 18, 1987. A petition for rehearing was denied on February 8, 1988. The petition for a writ of certiorari was filed on April 8, 1988. This Court's jurisdiction is invoked under 28 U.S.C. 1254(l). QUESTIONS PRESENTED 1. Whether evidence seized in violation of 31 U.S.C. (Supp. III) 5317(b) must be excluded at trial. 2. Whether the trial court correctly found that the warrants to search the Beneventos' homes were valid under Franks v. Delaware, 438 U.S. 154 (1978). 3. Whether the district court erred in declining to hold a hearing to determine whether the warrants were valid under Franks v. Delaware. 4. Whether a conspiracy charge may constitute a predicate act for a substantive RICO violation under 18 U.S.C. 1962(c). STATEMENT After a jury trial in the United States District Court for the Southern District of New York, all three petitioners were convicted of conspiring to manufacture and distribute heroin (Count 1), in violation of 21 U.S.C. 846; participating in a racketeering enterprise through a pattern of racketeering activity (Count 4), in violation of 18 U.S.C. 1962(c); and conspiring to conduct and participate in the affairs of the racketeering enterprise (Count 5), in violation of 18 U.S.C. 1962(d). In addition, petitioners Ernesto J. Benevento and Ernest A. Benevento were convicted of interstate travel in aid of racketeering (Count 2), in violation of 18 U.S.C. 1952; and conducting a continuing criminal enterprise (Count 6), in violation of 21 U.S.C. 848. Ernesto J. Benevento was also convicted on a second count of interstate travel in aid of racketeering (Count 3), in violation of 18 U.S.C. 1952. Ernesto J. Benevento was sentenced to concurrent terms of 25 years' imprisonment on Counts 1 and 6; 20 years' imprisonment on Counts 4 and 5; and five years' imprisonment on Counts 2 and 3. The district court also imposed a total of $500,000 in fines on Counts 1 and 2. Ernest A. Benevento was sentenced to concurrent terms of 18 years' imprisonment on Counts 1, 4, 5, and 6; and five years' imprisonment on Count 2. In addition, the district court imposed a total of $250,000 in fines on Counts 1 and 4. Carmine Loiacono was sentenced to concurrent terms of 15 years' imprisonment on Counts 1, 4, and 5, and he was fined $100,000 on Count 1. The court of appeals affirmed (Pet. App. 20a-47a). 1. The evidence at trial, the sufficiency of which is not in dispute, is summarized in the opinion of the court of appeals. It showed that petitioners and co-defendant Earl Keller, together with their associates in the United States, Mexico, and Europe, formed a company known as the J.E.M. Corporation for the purpose of manufacturing and distributing heroin in the United States. During the first phase of their operations, petitioners Ernesto J. Benevento and Loiacono purchased 300 kilograms of morphine overseas and imported it into West Palm Beach, Florida. Petitioners then transported the morphine to a house in Chandler, Arizona, owned by Ernesto's uncle, petitioner Ernest A. Benevento. There, the morphine was converted into heroin and later distributed. From July 1984 to March 1985, J.E.M. Corporation sold approximately 146 kilograms of heroin for a gross profit of about $23 million. Pet. App. 23a-25a. Following its initial venture, J.E.M. Corporation began a second, similar venture known as "Project 2." To facilitate the overseas aspects of that transaction, J.E.M. arranged to smuggle currency out of the country by using one of the company's associates, Fatima dos Santos Nobre, as a courier. By that time, however, the Drug Enforcement Administration (DEA) had become aware of J.E.M.'s operations and had begun to maintain surveillance of Nobre during her trips out of the country. Pet. App. 25a. In March 1985, after Nobre had checked in a Miami International Airport, DEA agents seized her luggage and searched it. Inside, the agents found $400,000 in currency for which Nobre had not filed a currency declaration. The agents seized the currency, but to avoid arousing Nobre's suspicions, they marked the luggage to create the appearance that someone had tampered with it. The agents then permitted the luggage to be transported to Switzerland. Pet. App. 25a-26a. In May 1985, Nobre returned to the United States and met with Ernesto J. Benevento at a hotel in New York City. Benevento gave Nobre several hundred thousand dollars in currency and, under DEA surveillance, drove her to John F. Kennedy International Airport in New York. After Nobre checked her baggage on a SwissAir flight to Switzerland, DEA agents opened the baggage and photographed the contents. The agents, however, did not seize the money at that time. Pet. App. 26a. On June 3, 1985, J.E.M. attempted to make a third transfer of currency overseas. The Beneventos arrived at Kennedy Airport and checked their luggage on a SwissAir flight to Geneva, Switzerland. A SwissAir employee, however, recognized Ernesto J. Benevento as the man who had accompanied Nobre during her trip the month before. SwissAir officials alerted a Customs agent, who seized the luggage and searched it. Inside, the agent found $956,000 in cash. When the Beneventos boarded the flight without filing an outbound currency declaration, they were arrested. Pet. App. 26a-27a, 32a-33a. Following their arrest, the Beneventos remained free on bail. On June 4, 1986, a magistrate in the Southern District of Florida issued warrants to search the Beneventos' residences. In support of the search warrants, the government submitted affidavits that detailed petitioners' narcotics transactions and explained that records pertaining to those transactions would probably be found in the Beneventos' residences. Agents thereafter executed the searches and seized computer software that revealed evidence of petitioners' narcotics activities. Pet. App. 7a-8a, 27a, 38a; Pet. 11. 2. Prior to trial, the Beneventos moved to suppress the $956,000 in cash seized from their luggage at Kennedy Airport, as well as the evidence seized from their residences. The district court denied both motions (Pet. App. 3a-10a). The district court first held that the search of petitioners' luggage fell within the "border search exception" to the Fourth Amendment and was therefore constitutional (id. at 3a). It also rejected (id. at 3a-6a) the contention that the evidence should be excluded under 31 U.S.C. (Supp. III) 5317(b), finding "no evidence in either the language or the legislative history of Section 5317(b) to suggest that Congress, in enacting the provision in 1984, intended that an exclusionary remedy be applied to illegally seized evidence" (Pet. App. 5a (footnote omitted)). Next, the district court rejected (id. at 6a-10a) petitioners' contention that the affidavits submitted in support of the warrants to search the Beneventos' residences contained false statements, in violation of Franks v. Delaware, 438 U.S. 154 (1978). Petitioners had argued that the affidavits misleadingly failed to disclose the fact that the government had uncovered no additional criminal activities by the Beneventos between June 3, 1985 (the date of their arrest), and May 28, 1986 (the date of the search warrants). The court held that "(t)he absence of a statement that there was no evidence of continuing criminal activity has no bearing on whether evidence of past crimes might still exist" (Pet. App. 9a). 3. The court of appeals affirmed in part, reversed in part, and vacated in part (Pet. App. 20a-47a). /1/ The court first upheld (id. at 32a-38a) the district court's decision denying the Beneventos' motion to suppress the currency seized from their luggage. The court agreed (id. at 34a-37a) that under 31 U.S.C. (Supp. III) 5317(b) the luggage search was not supported by a "reasonable suspicion." It concluded (Pet. App. 37a-38a), however, that evidence seized in violation of Section 5317(b) need not be suppressed. The court of appeals explained (Pet. App. 37a) that "there is nothing in the legislative history of Section 5317(b) indicating that Congress intended an exclusionary remedy for violations of the statute." The court noted that where Congress has intended to have evidence suppressed because of a statutory violation, it has expressly provided for suppression as a remedy (ibid.). The court also noted (ibid. (citation omitted)) that implying an exclusionary remedy for violations of Section 5317(b) would "'weaken the manifest purpose of the statute'" which was "to bestow greater powers on federal agents to prevent drug traffickers from engaging in currency smuggling." The court of appeals next upheld (Pet. App. 38a-40a) the district court's order denying the Beneventos' motion to suppress the evidence seized from their homes. The court rejected the claim that it was a material falsehood to omit from the affidavits the fact that the agents had found no evidence of criminal activity between the date of petitioners' arrest in June 1985 and the date of the warrants. The court explained (id. at 39a) that "this claimed 'omission' was in fact not an omission at all" because the affidavits had clearly stated that the petitioners' criminal activity occurred prior to June 3, 1985, and did not claim that there had been any criminal activity at petitioners' residences since that date. The court of appeals also upheld the district court's finding that the affidavits established probable cause to conduct the searches (id. at 39a-40a). /2/ Finally, the court of appeals rejected (Pet. App. 42a-44a) petitioner Loiacono's contention that a conspiracy charge cannot serve as a predicate act for a substantive RICO conviction. Following circuit precedent, the court upheld Loiacono's RICO conviction because "(c)onspiracies to violate the narcotics laws, if proven, are properly chargeable as predicate acts" (id. at 43a). ARGUMENT 1. Petitioners Ernesto J. Benevento and Ernest A. Benevento first contend (Pet. 12-13) that the court of appeals' refusal to imply an exclusionary rule under 31 U.S.C. (Supp. III) 5317(b) conflicts with the Eleventh Circuit's decision in United States v. Chemaly, 741 F.2d 1346 (1984), reinstated, 764 F.2d 747 (1985) (en banc). There is, however, no clear conflict between the cases. Moreover, a recent amendment to Section 5317(b) deprives the statutory issue of any continuing importance. And in any event, the admission of the evidence seized from the Beneventos' luggage was entirely harmless. Further review is therefore unwarranted. a. At the time of the search of the Beneventos' luggage, Section 5317(b) provided that a Customs officer may conduct a search for currency only where there is "reasonable cause" to believe that evidence of a currency violation will be found. /3/ The issue in the Chemaly case was whether Customs agents violated 31 U.S.C. (1976 ed.) 1105 -- the predecessor to Section 5317(b) -- when they failed to obtain a warrant prior to conducting a currency search of a person departing the United States. /4/ The court of appeals concluded that evidence seized without a warrant under Section 1105 must be suppressed (741 F.2d at 1349-1354). The search of the Beneventos' luggage, however, was governed by 31 U.S.C. (Supp. III) 5317(b), not Section 1105. As the district court noted (Pet. App. 6a), Section 5317(b) was enacted in 1984 with "the express purpose of * * * reduc(ing) the barriers to conducting currency searches." The 1984 provision abandoned the warrant requirement of Section 1105 entirely, and in place of the probable cause standard in Section 1105 the new provision required that currency searches at the border be based on no more than "reasonable cause to believe there is a monetary instrument being transported (illegally)." As both the district court (Pet. App. 5a) and the court of appeals (id. at 37a) found, there is nothing in either the language or legislative history of the 1984 amendment to suggest that Congress intended that evidence seized in violation of Section 5317(b) be subject to an exclusionary rule. b. In any event, the question whether an exclusionary rule applies to evidence seized in violation of Section 5317(b) is no longer of any continuing importance. The Anti-Drug Abuse Act of 1986, Pub. L. No. 99-570, Tit. I, Section 1355, 100 Stat. 3207-22, has amended Section 5317(b) to authorize Customs agents to conduct currency searches at the border without a warrant and without reasonable cause. Because the new law deprives the statutory issue presented in the petition of any continuing significance, petitioners' claim does not warrant further review. c. Finally, even if suppression were the appropriate remedy for violations of former Section 5317(b), the admission of the evidence seized from the Beneventos' luggage was plainly harmless. As the court of appeals observed, (Pet. App. 28a), the evidence at trial "overwhelmingly established (petitioners') guilt of the crimes charged in the indictment." For example, "(t)he computer records obtained from Ernest A. Benevento's home substantially corroborated the government's witnesses' testimony and set out in detail the intricacies of J.E.M.'s international drug operations" (ibid.). The admission of the currency seized from the Beneventos' luggage therefore did not substantially affect the jury's verdict. United States v. Lane, 474 U.S. 438, 449-450 (1986); Kotteakos v. United States, 328 U.S. 750, 763-765 (1946). 2. Petitioners Ernesto J. Benevento and Ernest A. Benevento next contend (Pet. 14-20) that the warrants to search their homes were invalid under Franks v. Delaware, 438 U.S. 154 (1978). They assert that the affidavits in support of the warrants were based upon "half-truths" (Pet. 19), in that they failed to advise the magistrate that wiretaps installed on the Beneventos' home computer lines had failed to turn up any incriminating evidence since the date of their arrest. But as the district court (Pet. App. 9a-10a), affirmed by the court of appeals (id. at 39a), explained, petitioners' contention misconceives the allegations of the affidavits. the affidavits established probable cause to believe that evidence of petitioners' prior narcotics transactions would still be present in their residences. "(T)he absence of any statement that wiretaps on the Benevento's computer pulse lines failed to pick up incriminating evidence after June 3, 1985 cannot be considered a material omission." Id. at 9a. 3. Petitioners Ernesto J. Benevento and Ernest A. Benevento also contend (Pet. 21) that they were entitled to an evidentiary hearing under Franks v. Delaware, supra, to examine the magistrate about the circumstances under which certain handwritten interlineations were made on one of the affidavits for the search warrants. Petitioners contend that the magistrate's testimony would bear on the issue of the agents' "good faith" (Pet. 21). As the courts below concluded, however, the affidavits established probable cause for the searches; thus, the question whether the agents relied on the warrants in good faith was simply not presented, and the district court was not required to permit petitioners to call as a witness the magistrate who issued the warrants. 4. Finally, petitioner Carmine Loiacono contends (Pet. 22-24) that he was improperly convicted of a substantive RICO offense because the predicate acts with which he was charged were conspiracy offenses. It is well settled, however, that conspiracy charges may properly constitute predicate acts for a substantive RICO conviction. United States v. Manzella, 782 F.2d 533, 537-538 (5th Cir.), cert. denied, 476 U.S. 1123 (1986)); United States v. Licavoli, 725 F.2d 1040, 1044-1045 (6th Cir.), cert. denied, 467 U.S. 1252 (1984); Unites States v. Phillips, 664 F.2d 971, 1015 (5th Cir. 1981), cert. denied, 457 U.S. 1136 (1982); United States v. Weisman, 624 F.2d 1118, 1123-1124 (2d Cir.), cert. denied, 449 U.S. 871 (1980). Petitioner presents no conflict among the circuits on that issue, nor does he point to any language in the RICO statute that supports his contention. CONCLUSION The petition for a writ of certiorari should be denied. Respectfully submitted. CHARLES FRIED Solicitor General JOHN C. KEENEY Acting Assistant Attorney General JOSEPH C. WYDERKO Attorney MAY 1988 /1/ The court of appeals held that petitioner Ernest A. Benevento could not be held liable under an aiding and abetting theory for conducting a continuing criminal enterprise, and it therefore reversed his conviction on Count 6 (Pet. App. 40a-42a). In addition, because the narcotics conspiracy charged in Count 1 was a lesser included offense of the continuing criminal enterprise charged in Count 6, the court of appeals vacated petitioner Ernest A. Benevento's concurrent sentence on Count 1 and remanded for resentencing (id. at 46a-47a). /2/ In particular, the court of appeals found (Pet. App. 39a) that "(t)he affidavits filed by the government in support of its search warrant applications contained extensive testimony regarding the Beneventos' involvement in an international narcotics conspiracy and contained specific statements from the government's confidential informants that provided key details of various aspects of the narcotics conspiracy." The court also found (id. at 39a-40a) a sufficient basis to believe that evidence of the narcotics conspiracy would be found in the Beneventos' homes. /3/ As the court of appeals noted (Pet. App. 35a n.1), Section 5317(b) has since been amended effective October 27, 1986, by the Anti-Drug Abuse Act of 1986, Pub. L. No. 99-570, Tit. I, Section 1355, 100 Stat. 3207-22. As amended, Section 5317(b) now provides: Searches at border. -- For purposes of ensuring compliance with the requirements of section 5316, a customs officer may stop and search, at the border and without a search warrant, any vehicle, vessel, aircraft, or other conveyance, any envelope or other container, and any person entering or departing from the United States. /4/ Prior to its replacement in 1984 by Section 5317(b), Section 1105 provided: (a) If the Secretary has reason to believe that monetary instruments are in the process of transporation and with respect to which a report required under Section 1101 of his (sic) title has not been filed or contains material omissions or misstatements, he may apply to any court of competent jurisdiction for a search warrant. Upon a showing of probable cause, the court may issue a warrant authorizing the search of any or all of the following: (1) One or more designated persons. (2) One or more designated or described places or premises. (3) One or more designated or described letters, parcels, packages, or other physical objects. (4) One or more designated or described vehicles. Any application for a search warrant pursuant to this section shall be accompanied by allegations of fact supporting the application. (b) This section is not in derogation of the authority of the Secretary under any other law.

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leave and earnings To: "Carolyn A Casteel, Writer-Editor, Atlanta, GA" <ccasteel> cc: "Steven D Craigg, Supvy. Hydrologist (Geol), Atlanta, GA" <sdcraigg>, "Gregory C Mayer, Hydrologist, GW Spec, Atlanta, GA" <gcmayer>, "Charles N Joiner, Hydrologic Technician, Atlanta, GA" <cnjoiner>, "Caryl J Wipperfurth, Cartographer, Atlanta, GA" <cjwipper>, "Robert E Faye, Reg GW Spec, Norcross, GA" <refaye> cc: "AO - All Administrative Officers"<distribution> cc: "Alice A Sabatini, Administrative Officer, Reston, VA" <aasabati> cc: "Catherine L Hill, ACH/Operations, Reston, VA" <clhill> Subject: Re: leave and earnings In-reply-to: <199606031533.LAA12594@operqvarsa.er.usgs.GOV> Date: Mon, 03 Jun 1996 13:52:53 -0400 From: "Alice A Sabatini, Administrative Officer, Reston, VA" <aasabati> Cathy Hill asked that I respond to your message. I have taken the liberty of copying my response to all AOs because the question is of general interest. The following reflects my understanding of the decision. The Bureau of Reclamation (BOR) provides the payroll service for all bureaus in the Department of the Interior. It is the BOR personnel that made the decision to change the method of mailing employee leave and earnings statements. I do not believe that anyone in the USGS was consulted before the decision was made. One of the reasons for the change was to eliminate the recent delays in distributing leave and earning statements to employees. Both the leave and earning statements and the preprinted time and attendance reports are generated automatically by the payroll system (PAYPERS). The previous distribution pattern required that these two documents, generated at different times, be held and distributed together causing delays if one of the documents was not generated on schedule. At the end of FY 1995, we began experiencing routine delays in the distribution of our leave and earnings statements with many offices failing to receive them until after the pay date. In some instances, they were received almost a week late. It is my understanding that contractors have always been used for these jobs. The change was also made in anticipation of the implementation of the new payroll system (FPPS). Most bureaus will begin recording and submitting time and attendance information in a paperless format. WRD will begin the implementation of a paperless system in FY 1997. This will eliminate the need to generate and mail the time and attendance reports to offices. The change in mailing leave and earning statements was probably made to coincide with the renewal of the contracts; a possible explaination as to why that change preceded the implementation of paperless processes. The change did coincide with the change in the statement format, however. As with many changes, it is difficult to understand all of the reasons when you are not part of the decision making process. I am sure that BOR examined the costs before making the decision. > ------- Forwarded Message > Got a question for you...why are leave and earning statements now being > mailed to individual employees at home address--each requiring a 32-cent > stamp? If you figure about 4,000 USGS employees x 32 cents is about > $1,280 per pay period times 26 pay periods--totaling about $33,280 in > postage alone per year. Statements are not even shipped bulk rate! > > I spoke with the unit in Denver that processes the leave and earning > statements and was advised that the new procedure also requires an > outside contractor just to stuff envelopes. Previously, the statements > were "batched" and mailed to a cost center in one envelope and > distributed by district staff. The old procedure did not require outside > contractors. Yet another increased cost to the USGS. > > About 4,000 individual statements also increases the possibility of a > breach in security of personal information being delivered to someone > other than the employee. We all have received the mail of our neighbors > or someone else on occasion. I really do not want the postman to deliver > my statement to my neighbor. > > ?? Why the change? Did a problem exist? If so, is this the answer? > > CAC > > > ------- End of Forwarded Message >

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497756

# Presentation: 497756 **Understanding the Puzzle of Disability Services** - And How Those Pieces Can Fit with Asset Development ## History - The disability system was created to provide services that alleviate the conditions of the majority. Thus, the system is multi-focused and layered. - The system was initially created to take care of people and has evolved to understand the importance of empowerment and individual control. All systems are not there yet. - Understanding the Puzzle of Disaiblity Services ## History - Getting people out of poverty was not considered a condition to alleviate: - In order to receive many disability services you must be at or below the poverty level (SSI, personal care assistance, waiver services). - These conversations are just starting and the realization that people with disabilities need support and strategies to leave poverty. - There is a growing interest and desire to partner with the asset-building community, and all systems have limited capacity and resources. - Both sides hold misconceptions about the others’ services. - Understanding the Puzzle of Disaiblity Services ## A Few Misconceptions - People on Social Security cannot work. - People with cognitive issues cannot save or manage their money. - To serve people with disabilities requires special - expertise. - Providing accommodations is expensive. - IDAS are a way to fund items other services cannot - It is an additional funding stream - The IDA provider can take care of all financial issues for the person - Understanding the Puzzle of Disaiblity Services ## Social Security Administration **FEDERAL- **Financial Services **Social Security:** - _Supplemental Security Income (SSI)_ - **SSI** was designed to help people with disabilities who have little or no income. - It provides cash to meet basic needs for food, clothing, and shelter. Currently the full SSI amount is $632 for an individual. Resource limit is $2000 for an individual. - _Social Security Disability Insurance (SSDI) _ - **SSDI** is a payroll tax-funded program. Being eligible for this program is dependent upon how many quarters you have worked. It is designed to provide income to people unable to work because of a disability. - SSA - Understanding the Puzzle of Disaiblity Services ## Changing Expectations - Ticket to Work Work Incentives Improvement Act (TWWIIA) of 1999 - Designed to increase the number of people on SSI and SSDI who returned to work. - It was the first time since the conception of the SSI/SSDI program that Social Security implemented comprehensive legislation that supported individuals with significant disabilities returning to work or obtaining work. - Ticket to Works offers an array of work incentives to individuals to reduce their fear in working. - Understanding the Puzzle of Disaiblity Services ## Medicare Infrastructure Grant (MIG) - Section 203 of the Ticket to Work and Work Incentives Improvement Act (TWWIIA) of 1999 establishes a grant program to support State efforts to enhance employment options for people with disabilities. These grants are for eleven years and minimum grant award to an eligible state is $500,000 per fiscal year. - The goal of the Medicaid Infrastructure Grant program is to support people with disabilities in securing and sustaining employment in an integrated setting. - MIG removes systems’ barriers that prevent people with disabilities in obtaining employment such as initially establishing buy-in programs in states. - Understanding the Puzzle of Disaiblity Services ## MIGs Could be a Good Partner - MIGs throughout the nation have become interested in how they can support individuals with disabilities in asset building. - MIGs are interested in figuring out how they can partner with their state’s asset-building network. - To learn if your state has a MIG grant and what its strategic plan is go to: - _http://www.__cms__.__hhs__.__gov__/TWWIA/SR/list.asp?__listpage__=1_ - MIG - Understanding the Puzzle of Disaiblity Services ## Work Incentives Planning Assistance(WIPA) - Social Security Administration (SSA) has contracted with local organizations in every state to have individuals who are experts on the rules of returning to work while on SSI or SSDI. These individuals are called Community Work Incentives Coordinators or CWICs. - CWICs understand the impact of working on both SSA benefits and other benefits such as Veterans, Section 8 Housing, Earned Personal Care services, food stamps, etc. - The CWICs provide counseling and guidance on how to use SSA and other programs’ work incentives. They help people think about how to use these programs to achieve their employment goals. - Understanding the Puzzle of Disaiblity Services ## Community Work Incentives Coordinators - CWIC can inform people about the Earned Income Tax Credit and how Individual Development Accounts and work incentives can be used together. - They cannot help with SSA benefit problems that are not work related or help someone apply for benefits. - To find a CWIC in your area: - _http://www.socialsecurity.gov/work/ServiceProvider/WIPADirectory.html__ _ - Understanding the Puzzle of Disaiblity Services ## One Stop Centers - The Federal Workforce Investment Act (WIA) of 1998, offers a comprehensive range of workforce development activities through One Stop Centers statewide. - Services benefit all job seekers, laid off workers, youth, incumbent workers, new entrants to the workforce, veterans, persons with disabilities, and employers. - The purpose of One Stop Centers is to increase employment, job retention, earnings, and occupational skills improvement by participants. - Understanding the Puzzle of Disaiblity Services ## One Stop Services - Core Services are basic services such as labor market information, initial assessment of skill levels, and job search and placement assistance. - Intensive Services are for unemployed individuals who, with core services, have not been able to obtain employment, or are employed individuals needing additional services to obtain or keep employment that will lead to personal self-sufficiency.** **** ** - Understanding the Puzzle of Disaiblity Services ## One Stop Services - Training Services are available to eligible individuals who have met the requirements for intensive services and have not been able to obtain or keep employment. - Individual Training Accounts are established to finance training based upon the individual's choice of selected training programs and labor market need. - Understanding the Puzzle of Disaiblity Services ## Disability Navigator - The SSA and the Department of Labor are jointly sponsoring Disability Program Navigators: - To better inform individuals with disabilities about work support programs available at One-Stop Career Centers and how to navigate the different systems. - To be a resource to staff in working with individuals with disabilities and in understanding the numerous disability programs. - How to find your Navigator: _http://www.__doleta__.__gov__/disability/new___dpn___grants.__cfm_ **Disability ** **Resource** - Understanding the Puzzle of Disaiblity Services ## One Stops and IDAs - Many one stop centers and Workforce Boards are familiar with asset building though TANF, asset-building coalitions, or fiscal literacy campaigns. - In some parts of the country, they are starting to think of IDAs and asset building for individuals with disabilities. Disability Navigators are receiving training on asset development and IDAs. - Understanding the Puzzle of Disaiblity Services ## Assistive Technology - Assistive Technology Act of 1998, as amended: - Every state has a State Assistive Technology Program. The program works to improve the provision of assistive technology to individuals with disabilities of all ages. It offers comprehensive statewide technology-related assistance. ** **It provides** **devices and services such as the Device Loan Program, Device Reutilization Programs, Device Demonstration Programs, and State Financing Activities. - _http://www.resna.org/taproject/at/stateprograms.html__ _ - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - The Rehabilitation Act of 1973, as amended, provides all states and U.S. territories Federal grants to operate a comprehensive vocational program for individuals with disabilities who want to obtain or maintain employment. They must have a disability and need vocational rehabilitation services. - Public Rehabilitation can provide a wide gamete of services that are needed to obtain and maintain employment such as vocational counseling and guidance, job placement assistance, self-employment assistance, college or vocational training, supported employment services, skills training, transportation, assistive and rehabilitation technology services, independent living services, etc. - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - Each applicant has a rehabilitation counselor: - determines their eligibility for the program; - assists the applicant in establishing a individual plan for employment (IPE); and - provides case coordination. - The IPE is what drives services. - Public Rehabilitation is one of the largest funders of disability services. They are in a strong position to support asset-development services. - At least three states support IDAs with public rehabilitation dollars. - Understanding the Puzzle of Disaiblity Services ## Public Rehabilitation - If you have not established a relationship with your state public rehabilitation agency, you might want to. - Meet with the Director of your state’s rehabilitation agency to figure out how to you can partner with them. - To find your States Public Rehabilitation Offices: - _http://www.jan.wvu.edu/SBSES/VOCREHAB.HTM__ _ - Understanding the Puzzle of Disaiblity Services ## State Disability Systems - State systems usually are Multiple Systems: they may fall under the authority of a mega state division such as the Division of Social and Health Services, but they are different systems with different rules. - The adult and community service "system" is actually comprised of several different systems reporting to different levels of government and different Federal departments. - Each system has its own jargon, eligibility criteria, and methods of providing services.*** *** - Look for a case manager who understands the array of systems. - Understanding the Puzzle of Disaiblity Services **Mental Health** - Every state has Community Support Programs for Mental Health Services. They work with mental health consumers and their families to provide people with mental illness with treatment and assistance in meeting basic needs such as housing, jobs, education, social services, transportation, and medical and nursing care. They also provide case management. - Frequently case managers are knowledgeable about the services available in the local community. They can be a great resource. - Each state’s criteria for mental health service is different. Please go to: _http://__mentalhealth__.__samhsa__.__gov__/databases/_ - Mental - Health - Services - Understanding the Puzzle of Disaiblity Services ## MR/DD - Every State provides services to individuals who have a developmentally disability. A developmental disability is usually defined as: Mental Retardation;Cerebral Palsy; Epilepsy; and/or Autism and occurs before the age of 18. - Services will vary depending on state funding but include: - Residential - Employment and Day programs - Family support - Case management - Understanding the Puzzle of Disaiblity Services ## Advocacy - The Protection and Advocacy (P&A) System and Client Assistance Program (CAP) comprise the nationwide network of congressionally mandated, legally-based disability rights agencies. - P&A agencies have the authority to provide legal representation and other advocacy services, under all Federal and State laws, to all people with disabilities (based on a system of priorities for services). - All P&As maintain a presence in facilities that care for people with disabilities, where they monitor, investigate and attempt to remedy adverse conditions. - Understanding the Puzzle of Disaiblity Services ## Advocacy - P&A devote resources to ensuring full access to inclusive educational programs, financial entitlements, healthcare, accessible housing and productive employment opportunities. - CAP agencies (many of which are housed within P&A offices) provide information and assistance to individuals seeking or receiving vocational rehabilitation (VR) services under the Rehabilitation Act, including assistance in pursuing administrative, legal and other appropriate remedies. - To contact the P&A in your state: _http://www.acf.hhs.gov/programs/add/states/pas.html__ _ - Understanding the Puzzle of Disaiblity Services ## Centers for Independent Living - Centers for Independent Living are: consumer controlled, community‐based, cross‐disability, and/or nonresidential private, nonprofit agencies. - Centers are designed and operated within a local community by individuals with disabilities and provide an array of services with a strong focus on peer counseling and self-advocacy. - Centers for Independent Living could be a strong resource and partner with the asset-building community. - _http://www.__ilru__.org/html/publications/directory/index.html_ - Understanding the Puzzle of Disaiblity Services ## AFI & 360 Projects - Four AFI grantees have partnered with four 360o Projects to learn how to increase services to individuals with disabilities. - 360o Projects are one-stop support centers for families with children who have disabilities. 360o Projects help families in obtaining the supports and services they desire in order to enhance the health and well-being of their child. 360o Projects are funded through a grant from U.S. Department of Health and Human Services. - Understanding the Puzzle of Disaiblity Services ## Next Steps to Think About - **How will you establish partnerships with the disability **** ****community in your state?** - What partnerships do you already have that can assist you? - What additional information and supports does your program need? - Many MIGs have done resource mapping of disabilities services in their respect states. This information would be helpful to you. - There is a huge need for fiscal literacy information that includes SSA benefits and work incentive information. - Understanding the Puzzle of Disaiblity Services ## Services & Supports That Can Help Put It All Together **SSA** **CILS** **Public Rehab ** **Disability Navigators** **CWICS** - **Assistive** ** ****Technology** **MR/DD** **Protection & Advocacy** **Mental Health** **MIGs** - Understanding the Puzzle of Disaiblity Services

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244585

# Presentation: 244585 ## Disability questions in censuses and surveys Methodological issues: proxy response, non-response and mode of administration **21-23 September 2005** ***Montserrat López-Cobo*** **Fifth Meeting of the Washington Group** ## Are proxy-responses different from self-responses? Why? Do all proxies provide the same quality responses? Who is the best proxy? Is there an effect on the quality of data? Can we measure it? Can we correct it? **Do all proxies provide the same quality responses? Who is the best proxy?** **Is there an effect on the quality of data? Can we measure it? Can we correct it?** **Proxy response** ## It is generally accepted that proxy- and self- responses differ Many studies found that proxy-respondents underreport disability-related information: Disability Impairments of emotion and Pain Limitation of activities, long-term disability, need for assistance with ADL Chronic condition, days of activity restriction, bed disability days General health events and conditions **Many studies found that proxy-respondents **_**underreport**_** disability-related information:** **Disability** **Impairments of emotion and Pain** **Limitation of activities, long-term disability, need for assistance with ADL** **Chronic condition, days of activity restriction, bed disability days** **General health events and conditions** **Proxy response****Level differences 1** ## ... While some other studies found that proxies overreport: Cognitive status, Mild Cognitive Impairment ADL disability Functional health, when the self-respondent is demented **Cognitive status, Mild Cognitive Impairment** **ADL disability** **Functional health, when the self-respondent is demented** **Proxy response****Level differences 2** ## Differences in cognitive procedures (1/2) Type and level of available information Proxies report impairments or conditions that are more observable or mentioned to them Proxy reports are more accurate for conditions that are serious, painful, persistent or potentially life threatening If person under 65: proxies underreport If person 65 and over: proxies overreport Proxy information is more stable. Self information is more dynamic Self-responses are less consistent across time **Type and level of available information** **Proxies report impairments or conditions that are more observable or mentioned to them** **Proxy reports are more accurate for conditions that are serious, painful, persistent or potentially life threatening** **If person under 65: proxies **_**underreport**_ **If person 65 and over: proxies **_**overreport**_ **Proxy information is more stable. Self information is more dynamic** **Self-responses are less consistent across time** **Proxy response****Understanding self-proxy differences 1** ## Differences in cognitive procedures (2/2) Proxies engage in less extensive cognitive process. Provide heuristic-based responses Proxies rely more on inferences and estimations. Proxies overreport disabilities aparently related to a previously reported disability and underreport disabilities seemingly unrelated to the previously reported. Proxies are less affected by social desirability concerns Proxies are more willing to report disability **Proxies engage in less extensive cognitive process. Provide heuristic-based responses** **Proxies rely more on inferences and estimations.** **Proxies overreport disabilities aparently related to a previously reported disability and underreport disabilities seemingly unrelated to the previously reported.** **Proxies are less affected by social desirability concerns ** **Proxies are more willing to report disability** **Proxy response****Understanding self-proxy differences 2** ## Social relationship with the selected person The closest the relationship, the most accurate the proxy-response Spouse’s responses are better than other proxies’ Proffesionals and caregivers provide more accurate information than lay proxies Length of relationship Positive effect in convergence self-proxy Memory capacity of respondent Affect to data quality **The closest the relationship, the most accurate the proxy-response** **Spouse’s responses are better than other proxies’** **Proffesionals and caregivers provide more accurate information than lay proxies** **Length of relationship**** ** **Positive effect in convergence self-proxy** **Memory capacity of respondent** **Affect to data quality ** **Proxy response****The best proxy-respondent** ## Types of methods: 1) Traditional First step: Measure the bias by comparing proxy- estimates with self- estimates Second step: Introduce statistical control adjusting for demographic or health-related variables 2) New strategy First: Set assumptions about the nature of differences between self- and proxy-responses Second: Model and estimate these differences based on the assumptions **1) Traditional** **First step: Measure the bias by comparing proxy- estimates with self- estimates** **Second step: Introduce statistical control adjusting for demographic or health-related variables** **2) New strategy** **First: Set assumptions about the nature of differences between self- and proxy-responses** **Second: Model and estimate these differences based on the assumptions** **Proxy response****Measuring and correcting bias** ## Mode of administration ## Differences in the sample Population coverage Response rates Differences due to social context within which data are collected Contact with interviewer Non-verbal cues Social desirability bias: Reduced with self-administered questionnaires **Population coverage** **Response rates** **Differences due to social context within which data are collected** **Contact with interviewer** **Non-verbal cues** **Social desirability bias: Reduced with self-administered questionnaires** **Mode of administration****Sources of differences among modes 1** ## Differences intrinsic to the mode Visual materials cannot be used by phone Complexity of the questionnaire is limited by the mode Stimuli in a visual mode  Primacy effects Stimuli in a hearing mode  Recency effects Differences in responses involving long lists Order effects Effects of the mode on the interviewer **Visual materials cannot be used by phone** **Complexity of the questionnaire is limited by the mode ** **Stimuli in a visual mode ******** Primacy effects Stimuli in a hearing mode ******** Recency effects** **Differences in responses involving long lists** **Order effects** **Effects of the mode on the interviewer** **Mode of administration****Sources of differences among modes 2** ## Telephone interviews Do not underrepresent people with disabilities Sometimes is not as well accepted by population as face-to-face interviews Proved useful to assess mental health using recommended instruments (GHQ-12, CIS-R, CIDIS), the Expanded Disability Status Sacle Telephone vs Mail Mail responses report poorer health and more chronic conditions than Telephone Differential non-response rates by age: Elder: NR (Telephone) > NR (Mail) Young: NR (Telephone) < NR (Mail) General: Item NR (Telephone) < Item NR (Mail) **Do not underrepresent people with disabilities** **Sometimes is not as well accepted by population as face-to-face interviews** **Proved useful to assess mental health using recommended instruments (GHQ-12, CIS-R, CIDIS), the Expanded Disability Status Sacle** **Telephone *****vs***** Mail** **Mail responses report poorer health and more chronic conditions than Telephone** **Differential non-response rates by age: ** ** **** ****Elder: NR (Telephone) > NR (Mail) ** ** **** ****Young: NR (Telephone) < NR (Mail) ** ** **** ****General: Item NR (Telephone) < Item NR (Mail)** **Mode of administration****Results from comparative studies 1** ## Face-to-Face vs Mail Health differences between respondents and non-respondents by mode: non-response bias Non-respondents and late respondents to Mail are more cognitively impaired and more disabled than respondents (among elderly). Non-respondents to F-t-F are similar to respondents. **Health differences between respondents and non-respondents by mode: non-response bias** **Non-respondents and late respondents to Mail are more cognitively impaired and more disabled than respondents (among elderly). ** **Non-respondents to F-t-F are similar to respondents.** **Mode of administration****Results from comparative studies 2** ## Telephone/CATI vs Face to Face Differential non-response rates: NR (CATI) > NR (F-t-F) Measurement bias: MBias (CATI) < MBias (F-t-F) No differences between CATI and F-t-F for reports on chronic conditions, activity limitations and disability rates CATI vs CAPI Differential non-response rates by age: Elder: NR (CATI) > NR (CAPI) Young: NR (CATI) < NR (CAPI) **Differential non-response rates: **** **** **** **** ****NR (CATI) > NR (F-t-F)** **Measurement bias: **** **** **** **** **** ****MBias (CATI) < MBias (F-t-F)** **No differences between CATI and F-t-F for reports on chronic conditions, activity limitations and disability rates** **CATI *****vs***** CAPI** **Differential non-response rates by age: ** ** **** ****Elder: NR (CATI) > NR (CAPI)** ** **** ****Young: NR (CATI) < NR (CAPI)** **Mode of administration****Results from comparative studies 3** ## CASI Reduces social desirability bias Enhances the feeling of privacy Respondents generally like CASI Technological possibilities have a positive influence on data quality (minimizing errors) Respondent’s self-disclosure is higher in CASI **Reduces social desirability bias** **Enhances the feeling of privacy** **Respondents generally like CASI** **Technological possibilities have a positive influence on data quality (minimizing errors)** **Respondent’s self-disclosure is higher in CASI** **Mode of administration****Results from comparative studies 4** ## Disabilities: Physical, sensory, mental illness and mental retardation Challenges addressed: communication, fatigue and cognitive issues Questionnaire design Eliminate soft consonant sounds (s, z, t, f and g) to overcome high-frequency hearing loss Build in "breaks" for respondents to let them rest Incorporate neutral encouragement to avoid drop-outs Design checks for unexpected responses Use structured probes for questions that might be difficult to understand **Challenges addressed: communication, fatigue and cognitive issues** **Questionnaire design** **Eliminate soft consonant sounds (s, z, t, f and g) to overcome high-frequency hearing loss ** **Build in "breaks" for respondents to let them rest** **Incorporate neutral encouragement to avoid drop-outs** **Design checks for unexpected responses** **Use structured probes for questions that might be difficult to understand** **Mode of administration****An experience interviewing disabled people by telephone** ## Interviewer training and supervision Usual background and purpose of study Training on challenges likely to face Sensitive exercise regarding the treatment to the disabled person Guidance to overcome each of the challenges Support to interviewers and reduction of stress Other recommendations Interviews take longer  Multiple sessions may be required **Usual background and purpose of study** **Training on challenges likely to face** **Sensitive exercise regarding the treatment to the disabled person** **Guidance to overcome each of the challenges** **Support to interviewers and reduction of stress** **Other recommendations** **Interviews take longer ******** Multiple sessions may be required** **Mode of administration****An experience interviewing disabled people by telephone** ## Non-response ## Components of non-response Non-contact Non-cooperation Non-contact: the household pattern of disabled Are older and likely to live in non-metropolitan areas  higher probability of being contacted Less likely to live with children  lower prob. of contact May be more fearful of opening doors to strangers  lower prob. of contact **Non-contact** **Non-cooperation** **Non-contact: the household pattern of disabled** **Are older and likely to live in non-metropolitan areas ******** higher probability of being contacted** **Less likely to live with children ******** lower prob. of contact** **May be more fearful of opening doors to strangers ******** lower prob. of contact** **Non-response and Disability** ## Non-cooperation: exchange theory vs social isolation theory Exchange theory: Persons who feel that the survey sponsor has provided (or could provide) benefits to them are more likely to cooperate Persons with disabilities might be expected to be more cooperative with a government-sponsored survey Social isolation theory: People who are isolated from the mainstream society feel less responsibility toward government and are less likely to cooperate Persons with disabilities might be expected to be less cooperative _**Exchange theory**_**: ****Persons who feel that the survey sponsor has provided (or could provide) benefits to them are more likely to cooperate** **Persons with disabilities might be expected to be more cooperative with a government-sponsored survey** _**Social isolation theory**_**: P****eople who are isolated from the mainstream society feel less responsibility toward government and are less likely to cooperate**** ** **Persons with disabilities ****might be expected to be less cooperative**** ** **Non-response and Disability** ## Persons with severe disability are more likely than persons with less severe disability to be contacted and to cooperate, but when they are interviewed they are less likely to answer for themselves; instead, proxy and assistant respondents tend to answer for them. Elder people with disabilities respond sooner than young and non-disabled to mail surveys. These findings support Exchange theory Self-perceived memory problems increase item non-response and “I don’t know” answers. Not preceived memory deficits implies inaccurate information on items requiring recall. **Elder people with disabilities respond sooner than young and non-disabled to mail surveys.** **These findings support Exchange theory** **Self-perceived memory problems increase item non-response and “I don’t know” answers.** ** ****Not preceived memory deficits implies inaccurate information on items requiring recall.** **Non-response and Disability****Results from studies 1** ## Health of non-respondents is worse than respondents’ in terms of: stroke, Basic ADL, mobility disabilities, self-rated health and mortality rates. Respondents with poorer physical functioning and/or limiting long-term illness have higher non-response rates. These findings support Social isolation theory **Respondents with poorer physical functioning and/or limiting long-term illness have higher non-response rates.** **These findings support Social isolation theory** **Non-response and Disability****Results from studies 2** ## Recommendations for including disabled people in interview surveys ## Bias due to exclusion is amplified in surveys where disability is a key measure of interest Recommendations: Include institutionalised population in samples Carry out the interview in a private environment Provide adaptative technologies and procedures (of primary importance in visual, hearing and speech impairment). Use simple and clear questions **Recommendations:** **Include institutionalised population in samples** **Carry out the interview in a private environment** **Provide adaptative technologies and procedures (of primary importance in visual, hearing and speech impairment).** **Use simple and clear questions** ## Recommendations: Special training for interviewers Provide alternative modes of administration If proxy is used: Respondent’s assessments of proxy’s answer is valuable The proxy should be nominated by the selected respondent **Special training for interviewers** **Provide alternative modes of administration** **If proxy is used:** **Respondent’s assessments of proxy’s answer is valuable** **The proxy should be nominated by the selected respondent** ## Proxy response validity depends on factors such as: proxy choice and distinction, topic investigated, health condition of the selected person... Mode of administration (unique or a mix-mode) should be decided taking into account: topic investigated, population objective of the survey, expected acceptability of the mode by the population, technological possibilities... **Mode of administration (unique or a mix-mode) should be decided taking into account: topic investigated, population objective of the survey, expected acceptability of the mode by the population, technological possibilities...** **Final conclusion** ## Different patterns of response might be indicative of bias which can affect estimates. Non-response is one of the sources of data error. But not the unique... Emphasis should be given not only to minimazing non-response rates but also to estimation and control of measurement error. **Non-response is one of the sources of data error. But not the unique... Emphasis should be given not only to minimazing non-response rates but also to estimation and control of measurement error.** **Final conclusion** ## 21-23 September 2005 **Fifth Meeting of the Washington Group**

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2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\ars_logo.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz ars_logo.gif 2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\arsblue.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz arsblue.gif 2001.07.11 06:22 B D:\FtPierce\new071001\hb\niedz\Back.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz Back.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\germination.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz germination.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\globular.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz globular.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\hr700.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz hr700.gif 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\niedz.html <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz niedz.html 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\niedz.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz niedz.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\torpedo.jpg <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz torpedo.jpg 2001.07.11 06:23 B D:\FtPierce\new071001\hb\niedz\usdalogo.gif <-- Scott-Tetranet /home/usr-html/aroid/ftp/fp/hb/niedz usdalogo.gif 2001.07.11 09:35 B D:\FtPierce\new071001\hb\niedz\ars_logo.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz ars_logo.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\arsblue.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz arsblue.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\Back.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz Back.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\germination.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz germination.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\globular.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz globular.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\hr700.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz hr700.gif 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\niedz.html --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz niedz.html 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\niedz.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz niedz.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\torpedo.jpg --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz torpedo.jpg 2001.07.11 09:36 B D:\FtPierce\new071001\hb\niedz\usdalogo.gif --> sun.ars-grin.gov /pub/ars/SoAtlantic/fp/hb/niedz usdalogo.gif

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350410

# Presentation: 350410 ## SICI and BICI: Identifiers for Serials and Books - Reference/Citation Linking: The Federal Perspective - Joint CENDI/FLICC Workshop  June 21, 2000 - Library of Congress  Washington, DC - Julia Blixrud, Association of Research Libraries and Chair, NISO Subcommittee AP ## SICI and BICI - ANSI/NISO Z39.56-1996 (Version 2) -- Serial Item and Contribution Identifier (SICI) - Book Item and Component Identifier (BICI) (being developed by NISO Subcommittee AP) ## SICI and BICI - Background and Environment for Development - Structure - Applications - Criticisms and Suggestions for Improvement - Future Development ## The Challenges - Need for increased granularity to identify intellectual units - Need for interoperability and data exchange between different industries and applications using different computer systems ## SICI Background - Version 1 development - SISAC - Specific application (fixed length) - Version 2 development - Before 5-year review - Users identified possible new applications and problems with version 1 ## SICI Development Goals - Z39.56 (1991) - Cover broad range of serials regardless of physical format - Short, but bibliographically unique - Derivable from citation or source document -- not externally assigned or derived - Maintain consistency with and build upon existing standards, e.g., ISSN ## SICI Development Goals - Z39.56 (1996) - More rigorous rules relating to mandatory and optional fields - Defined internal structure of SICI to have three distinct segments (Item, Contribution, Control) - Defined external structure types to identify Serial Item vs. Serial Contribution (issue or article) - Allows private numbering systems - Stores/includes medium of distribution (text on paper, electronic, microform, etc.) - Title code algorithm significantly improved -- length and inclusiveness ## SICI Structure -- CSI-1 - Item Segment - ISSN - Chronology - Enumeration - Contribution Segment - [Empty -- required but will have no data] - Control Segment - Code Structure Identifier (CSI) - Derivative Part Identifier (DPI) - Medium Format Identifier (MFI) - Version Number - Check Character ## SICI Example -- CSI-1 *Bulletin of the American Society for Information Science*, Feb-Mar. 1995, Vol. 21, no. 3 - 1991 SICI: - 0095-4403(199502/03)21:3;1-N - 1996 SICI: - 0095-4403(199502/03)21:3<>1.0.TX;2-Y ## SICI Structure -- CSI-2 - Item Segment - ISSN - Chronology - Enumeration - Contribution Segment - Location (page) - Title Code - Alternative Numbering Schemes - Control Segment - Code Structure Identifier (CSI) - Derivative Part Identifier (DPI) - Medium Format Identifier (MFI) - Version Number - Check Character ## SICI Example -- CSI-2 - Bjorner, Susanne. “Who Are These Independent Information Brokers?” *Bulletin of the American Society for Information Science*, Feb-Mar. 1995, Vol. 21, no. 3, page 12 - 1991 SICI: - 0095-4403(199502/03)21:3L.12:TII;1-N - 1996 SICI: - 0095-4403(199502/03)21:3<12:WATIIB>2.0.TX;2-J ## SICI Example -- CSI-3 - ERIC Document EJ 462 869, originally published in *Library Hi Tech*, Vol. 11, no. 1, 1993 - 1991 SICI: - N/A - 1996 SICI: - 0737-8831(1993)11:1<::ERIC-EJ462869>3.0.TX;2-F ## SICI Applications - SICI Bar Code - EDI using SICI CSI-1 - Price/sales catalog - Dispatch data - Invoice - Order - Claim - Claim Response ## SICI Applications - URN Namespace - Document Delivery - Data string in delivery services - Reference Linking - Library catalog records to index or full-text databases ## SICI Criticisms - Unicode - Angle Brackets <> - Title Code - Sequencing - Duplication (non-unique) ## SICI Future Development - Five-year review scheduled for 2001 - Character set issues -- Unicode - More explicit reference to electronic journals - Explicit statement regarding DOI - Structure changes (<> and *#) - Integration with web applications ## BICI Background - Begun in 1997 following completion of revision of SICI - Develop standard identification schema for subunits of books - Interest from rights management community - International meetings on identifiers ## BICI Development: Background Documents - BIBLID - SICI - “A Standard Identifier for Book Items and Contributions” by David Martin for the Book Industry Communication (BIC) and the British National Bibliography Research Fund - Work of INDECS ## BICI Development Goals - Limit scope of standard to code for unique identification of book items and their component parts - Cover a broad range of books (scholarly, trade, and popular), regardless of physical form - Maintain consistency with and build on the established ISBN already used successfully to identify books - Create brief, unique code consistent with unique identification ## BICI Development - Does not address grey literature, technical reports or other documents - Does not address component parts that have no enumeration (unnumbered dictionary or encylopedia entries) - Includes redundancies for judgments on degrees of similarity of 2 BICIs derived from different sources ## BICI Development Issues - Granularity - How broad - How deep - Logical vs. physical structure of book - Chapter, section, etc. - Location (page) - Consistent with SICI ## BICI Development Issues - Focus on the ISBN - Identifier vs. meaning - Matching and uniqueness - Character set -- Unicode ## Current BICI Structure - 3 Segments (Item, Component, Control) - Control segment manages processing - Code Structure Identifier data element specifies coding structure - Focus on ISBN - Logical and physical structure ## Current BICI Structure - Item Segment - ISBN - Chronology - Item enumeration - Component Segment - Component enumeration - Title code - Location (e.g., pagination) or other numbering schema - Control Segment - Code Structure Identifier (CSI) - Component Type Identifier (CTI) - Medium/Format Identifier (MFI) - Standard Version Number (SVN) - Check Character ## Current BICI Example - Chapter 10: “English as a World Language” in *The English Language: A Historical Introduction*, 1993 pp. 234-261 ISBN 0-521-41620-5 - BICI: 0521416205(1993)(10;EAAWL;234-261)2.2.TX;1-1 ## BICI Component Types - 0 Whole item - 1 Front matter - 2 Main text subdivision (parts, chapters, sections, acts, etc.) - 3 Discrete object within a book (abstracts, tables, figures, etc.) - 4 Back matter (index, appendices, references, bibliographies) - 5 Supplementary materials (maps, disks, erratum, etc.) ## BICI Applications - Abstracting and indexing services - Document delivery services - Coursepack producers - Library reserve rooms - Rights management agencies - DOI system - Publisher delivery systems - E-books ## BICI Community Review - Changed <> to () - Include both logical and physical in component segment - Use ; as delimiter between elements - Restructure title code rules - More e-book examples ## BICI Future Development - Final draft (committee draft 10) to be vetted by committee - NISO draft out this summer - Vote by NISO membership by fall - Resolution of any negatives - Publication by end of 2000 ## SICI and BICI - Any Questions??? - jblix@arl.org

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691851

# Presentation: 691851 ## Project Team Meeting - March 27, 2001 ## Today **Announcements** **Status** **CM** **ECB/QVR/CAM** ## Announcements **Steering Committee** **Meetings to Note** **eRA Workshop – May 15** **Commons Functional Group May 16** **NSF/NIH the future of e-Administration/Business** **Ramping up** **Changes in the Project Team** **New hires** **Your Issues** ## Project Management Team **TPC Advocate** **Wally Schaffer** *** ******Project Management Team *** **Project Manager** **John McGowan** **CMO Advocate** **Claire Benfer** **GMAC Advocate** **Marcia Hahn** **ECB Advocate** **Thor Fjellstedt** **RPC Advocate** **Eileen Bradley** **CIT liaison ** **Peter Morton** **POPOF/Program Advocate** **Bud Erickson** **Research Institution Advocate** **George Stone** **Reports Advocate** **Carol Martin** **Daily Operations Manager** **Jim Cain** **IT Design/Arch. Advocate** **Donna Frahm** **Data Integrity/OER Advocate** **Belinda Seto** **Receipt and Referral** **Brent Stanfield** **FDC/ROW Liaison** **Jay Silverman** **OER Liaisons** **Preparing for e-Grants- Scanning** **Steven Hausman** ## Breakout of Expertise **SWEG Oracle Programmers **** ****7** **SQA Testers**** **** **** **** 4** **Help Desk**** **** **** **** ****1** **Operations Support**** **** **** 1** **Commons Integration (J2EE)**** ****3** ## Different Contractors Now Utilized **Logicon/ROW (Main Contract)** **Mitretek (Technical IV&V)** **CERTAN (Equipment needs)** **RNS, Inc (Commons/IMPAC II)** **Silicon Spirit (Commons)** **Quality Associates, Inc (Scanning)** **Input Solutions, Inc (Scanning)** **Z-Tech (Commons)** **LTS (Administrative Support)** **CIOSP-2 (Technical needs)** **IV&V – RFP being issued ** **Data Quality – RFP on the street** ## eRA Planning Process (snapshot) ***eRA Planning Process ******(snapshot)*** ** ****Time**** **** **** Step** **April–Oct** **Oct-Dec ** **2001** **2002** **Jan** **March** ** ****Identify Requirements to for the FY 2003 Budget** ** ****Course Corrections (FY 2001/FY2002/2003****)** ** ****Assess implementation plans for FY 2001** ** ****Examine Requirements for FY 2003** ** ****Establish implementation plans for FY 2002 Budget** ** ****Continue to satisfy requirements:** ** ****FY 2001 Budget Implementation Plans** ** ****FY 2002 Budget Implementation Plans** ** ****Establish Priorities for FY 2003 Budget** ** ****Steering Committee Review of FY 2003 Budget ** ** ****Submission to the BOG FY 2003 Budget** ** ****Identify Requirements for FY 2004** ** ****Course Corrections (FY 2002/FY2003/2004)** **Calendar Year** **April–Oct** **Oct-Dec ** ## Slide 8 ## Funded up - front this fiscal year ## Funded up - front this fiscal year **FY** **FY** **FY** ## Reporting Commons Redesigns& X-Train;I-EDISON **FY ****CY**** **** **** ****Priorities**** **** **** ** **Bud ****Imp **** **** **** **** **** **** **** ** **2001** **2002** **2003** **Reporting ** **Commons Redesigns****& X-Train;I-EDISON** - Grants Management - Program Module - Simple R01’s* - Grants Transaction* - R01’s clinical, animal - ECB - Receipt & Referral - Review - Type 5- SNAP* - DEA Module - Quick View - Close Out Module - Committee Management - Review Modifications - ECB, QVR - Trainee Appointment - CRISP & CRISP Plus - Reporting - Complex Applications (P01s-U19s etc) **2004** **2002** **2003** **2004** **2005** ## NIH eRA Commons Implementation Plans: 2001-2002 ***NIH eRA Commons ****** ******Implementation Plans: 2001-2002*** - CFG Recommendations - Money Comes to the Project - Decide Architecture for the Web - Deploy X-Train – V1.5 - Deploy Commons – V2 - Commons Registration - Accounts Administration - Application/Award Status - Institutional & Professional Profiles - Deploy X-Train V2 - Re-engineer - Non-competing app- snap, complex - Competing - R01, F32, SBIR - Deploy SNAP - Pilot Competing R01 Applications - infrastructure ## NIH eRA Incomplete - Snapshot Implementation Plans for Remainder of 2001 - Migration to Oracle 8i - Money Comes to the Project - Decide Architecture for the Web - Get Contracts in Place - IV&V - Data Quality & Others - Formalize Implementation Plans - Continue SS deployment - Decision to Stop Impact I SS - Deploy Percentile in Impact II - Decisions on Commons Interface - Scanning Production Pilot - Start V2 of the Commons

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all-txt-docs

331171

Project Ideas 1) Our team is involved in the Museum in the Classroom project this year. Unfortunately, the state has not yet given us the list of museums involved this year. This would be a definite area of interest to all of us - so may yet develop as the project I do. It would be an interdisciplinary project with 7th and 8th graders as the principal targeted audience. It would involve QuickTime VR elements, sound bites, email, C-U-SeeME conferencing. 2) Reading Grotto Level: 7th and 8th graders Technology Elements: Pictures, sound bites, absolute referencing to annotated previewed sites on the web, C-U-SeeMe conferencing, posting of reviews. Content: At our age level, it is a constant struggle to keep children reading. It has been shown in the research that if we can keep children reading through 8th grade, we will have them for life, even if they don't read that much in high school or college, they will return to it. The children need a place that they can go to in order to exchange their views on books they have read, find out about author's lives, participate in on-line discussions with other students, teachers, and writers. 3) North American Indians Level: 7th and 8th graders Technology Elements: Pictures, sound bites, absolute referencing to annotated previewed sites on the web, C-U-SeeME conferencing Content: Students take on the role of either the United States Government, settlers (farmers), ranchers, or Indians during the time before the Civil War. Indians are being crowded out of their lands, ranchers are warring with farmers, tempers and stakes are high. The students are divided by classes with all students from one class taking on the role of farmers and then within that class they take on the role of members within the community. Their task is the try to keep the peace and find solutions to their problems. Each day, each group will recieve an unexpected problem from one of the other groups (i.e. an attack on an outlying farm). Students may see what is happening in each of the other groups via the website. The indians will have a village where they live and work and members of other groups can visit there to see how the indian people lived and how they feel about what is happening to them. The farmers will have a section on a town. The ranchers will have a section on a ranch. The United States Government will have a section on a Calvary Fort. The major problem they will all confront is how to handle the fact that the intercontinental railroad is coming through - how can everyone handle this so that everyone is satisfied. This can also be used with distance classes as participants. The various sections can hold pow-pows, town meetings, etc. via tele-conferencing, email, and listservs. This is really green - need to roll this around in my head for awhile.

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all-txt-docs

825308

QUESTION: In all the news reports I have seen, nothing has been mentioned about how the rover was held in place during landing, etc. The "petals opened" and there it was, all ready to start exploring as soon as the airbags were retracted and the ramps deployed. There must have been hold-down devices that had to be released first. Any details? ANSWER from Chris Salvo on August 20, 1997: The rover was latched down and attached to the petal at strategic structural locations during all of the cruise and landing. After landing, the primary devices that held it in place were released via a pyro firing (and explosive action where a bolt or wire or other such piece of structure is broken by controlled explosive force). With the primary devices released, the rover was then able to move in such a way as to unlatch itself from the rest of them. The rover folks would have more details on the design of the mechanisms. Chris

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all-txt-docs

269102

SECURITIES ACT REGISTRATIONS April 21, 2008 The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be obtained in person or by writing to the Commission's Public Reference Branch at 100 F Street, N.E., Washington, D.C. 20549-1090 or at the following e-mail box address: publicinfo@sec.gov. In most cases, this information is also available on the Commission's website: www.sec.gov. S-1 XFONE INC, 2506 LAKELAND DRIVE, SUITE 100, FLOWOOD, MS, 39232, 6019833800 - 5,906,020 ($19,430,805.80) Equity, (File 333-150305 - Apr. 18) (BR. 11A) S-1 Chocolate Candy Creations, Inc., 130 SHORE ROAD, SUITE 238, PORT WASHINGTON, NY, 11050, 516-238-5535 - 62,000 ($93,000.00) Equity, (File 333-150306 - Apr. 18) (BR. 04) S-1 BGC Partners, Inc., 499 PARK AVENUE, NEW YORK, NY, 10022, 212-610-2200 - 0 ($460,000,000.00) Equity, (File 333-150308 - Apr. 18) (BR. 02C) S-8 Tao Minerals Ltd., OFFICINA 618, EMPRESARIAL MALL VENTURA, CRA. 32 #1B SUR 51, MEDELLIN, F8, 00000, 807 344 2644 - 6,000,000 ($480,000.00) Equity, (File 333-150310 - Apr. 18) (BR. 04C) S-8 INTEGRYS ENERGY GROUP, INC., 130 EAST RANDOLPH DRIVE, CHICAGO, IL, 60601, 800-699-1269 - 700,000 ($33,621,000.00) Equity, (File 333-150311 - Apr. 18) (BR. 02B) S-8 INTEGRYS ENERGY GROUP, INC., 130 EAST RANDOLPH DRIVE, CHICAGO, IL, 60601, 800-699-1269 - 3,500,000 ($168,105,000.00) Equity, (File 333-150312 - Apr. 18) (BR. 02B) S-8 MACKINAC FINANCIAL CORP /MI/, 3530 NORTH COUNTRY DR, PO BOX 369, TRAVERSE CITY, MI, 49684, 9063418401 - 120,000 ($960,000.00) Equity, (File 333-150313 - Apr. 18) (BR. 07C) S-8 COGNEX CORP, ONE VISION DR, NATICK, MA, 01760, 5086503000 - 2,300,000 ($50,669,000.00) Equity, (File 333-150315 - Apr. 18) (BR. 10A) F-6 INTEC LTD, GORDON CHIU BUILDING J01, DEPT. OF CHEMICAL ENGINEERING, MAZE CRES, SYDNEY, C3, N5W 2006, 50,000,000 ($2,500,000.00) ADRs/ADSs, (File 333-150316 - Apr. 18) (BR. DN) S-8 Mogul Energy International, Inc., 520 PIKE TOWER, SUITE 2210, SEATTLE, WA, 98101, 206-357-4220 - 100,000 ($15,000.00) Equity, (File 333-150317 - Apr. 18) (BR. 04B) S-8 BANYAN CORP /OR/, 1925 CENTURY PARK EAST, SUITE 500, LOS ANGELES, CA, 90067, 1-800-808-0899 - 66,000,000 ($26,400.00) Equity, (File 333-150318 - Apr. 18) (BR. 01A) S-1 Geeks On Call Holdings, Inc., 814 KEMPSVILLE ROAD, SUITE 106, NORFOLK,, VA, 23502, (757) 466-3448 - 5,767,000 ($7,208,750.00) Equity, (File 333-150319 - Apr. 18) (BR. 03A) S-8 FNB CORP/FL/, F.N.B. CORPORATION, ONE F.N.B. BOULEVARD, HERMITAGE, PA, 16148, 724-981-6000 - 794,131 ($13,102,500.00) Equity, (File 333-150321 - Apr. 18) (BR. 07A) S-8 BENIHANA INC, 8685 NW 53RD TERRACE, MIAMI, FL, 33166, 3055930770 - 750,000 ($8,203,735.00) Equity, (File 333-150322 - Apr. 18) (BR. 05A) S-8 Bank of New York Mellon CORP, ONE WALL STREET, NEW YORK, NY, 10286, 212-495-1784 - 70,000,000 ($2,968,700,000.00) Equity, (File 333-150323 - Apr. 18) (BR. 07C) S-8 Bank of New York Mellon CORP, ONE WALL STREET, NEW YORK, NY, 10286, 212-495-1784 - 7,500,000 ($318,075,000.00) Equity, (File 333-150324 - Apr. 18) (BR. 07C) S-3ASR COLONIAL BANCGROUP INC, 100 COLONIAL BANK BLVD., MONTGOMERY, AL, 36117, 334-676-5000 - 0 ($0.00) Unallocated (Universal) Shelf, (File 333-150325 - Apr. 18) (BR. 07C) S-3 ANTIGENICS INC /DE/, 630 FIFTH AVENUE SUITE 2100, NEW YORK, NY, 10111, 212-994-8200 - 0 ($43,750,000.00) Equity, (File 333-150326 - Apr. 18) (BR. 01B) S-4 FMG ACQUISITION CORP, FOUR FOREST PARK, SECOND FLOOR, FARMINGTON, CT, 06032, 860 677 2701 - 8,750,000 ($7,000,000.00) Equity, (File 333-150327 - Apr. 18) (BR. 09) S-8 QUADRAMED CORP, 12110 SUNSET HILLS ROAD, SUITE 600, RESTON, VA, 20190, 7037092300 - 0 ($5,921,000.00) Equity, (File 333-150328 - Apr. 18) (BR. 03B) S-8 WILMINGTON TRUST CORP, RODNEY SQUARE NORTH, 1100 NORTH MARKET ST, WILMINGTON, DE, 19890-0001, 3026518378 - 800,000 ($23,832,000.00) Equity, (File 333-150329 - Apr. 18) (BR. 07C) S-8 QUADRAMED CORP, 12110 SUNSET HILLS ROAD, SUITE 600, RESTON, VA, 20190, 7037092300 - 0 ($477,500.00) Equity, (File 333-150330 - Apr. 18) (BR. 03B) S-8 Clean Energy Fuels Corp., 3020 OLD RANCH PARKWAY, SUITE 200, SEAL BEACH, CA, 90740, (562) 493-2804 - 0 ($12,795,000.00) Equity, (File 333-150331 - Apr. 18) (BR. 02) S-1 MACROSOLVE INC, 5800 EAST SKELLY DRIVE, SUITE 300, TULSA, OK, 74135, 918-280-8693 - 25,958,877 ($15,575,326.20) Equity, (File 333-150332 - Apr. 18) (BR. ) S-8 BIOHEART, INC., 13794 NW 4TH STREET, SUITE 212, SUNRISE, FL, 33325, 954-835-1500 - 0 ($3,690,239.00) Equity, (File 333-150333 - Apr. 18) (BR. 01C) S-8 Celsius Holdings, Inc., 140 NE 4TH AVENUE, SUITE C, DELRAY BEACH, FL, 33483, 561-276-2239 - 16,046,956 ($1,193,765.00) Equity, (File 333-150334 - Apr. 18) (BR. 09A) S-1 FOAMEX INTERNATIONAL INC, 1000 COLUMBIA AVENUE, LINWOOD, PA, 19061, 6108593000 - 0 ($175,000,000.00) Equity, (File 333-150335 - Apr. 18) (BR. 06C) S-1 FOAMEX INTERNATIONAL INC, 1000 COLUMBIA AVENUE, LINWOOD, PA, 19061, 6108593000 - 0 ($115,000,000.00) Other, (File 333-150336 - Apr. 18) (BR. 06C) S-1 China Cablecom Holdings, Ltd., 17 STATE STREET, SUITE 1600, NEW YORK, NY, 10004, 212-888-8890 - 0 ($12,916,750.00) Equity, (File 333-150337 - Apr. 18) (BR. 11A) S-4 NATIONAL HOLDINGS CORP, 120 BROADWAY, 27TH FLOOR, NEW YORK, NY, 10271, 212-417-8000 - 0 ($9,711,399.00) Equity, (File 333-150338 - Apr. 18) (BR. 08A) S-8 ROLLINS INC, 2170 PIEDMONT RD NE, ATLANTA, GA, 30324, 4048882000 - 0 ($86,600,000.00) Equity, (File 333-150339 - Apr. 18) (BR. 08C) S-3 WAVE SYSTEMS CORP, 480 PLEASANT ST, LEE, MA, 01238, 4132431600 - 0 ($25,000,000.00) Equity, (File 333-150340 - Apr. 18) (BR. 03A)

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converted_docs

182503

December 23, 2004 Jerome D. Schad, Esq. Hudgson Russ LLP, Attorneys One M&T Plaza, Suite 2000 Buffalo, NY 14203-2391 Dear Mr. Schad: This responds to your letter of May 21, 2004, in which you raised questions on behalf of public school districts you represent regarding compliance with the Family Educational Rights and Privacy Act (FERPA), 20 U.S.C. § 1232g. The Family Policy Compliance Office (Office) administers FERPA and provides technical assistance to educational agencies and institutions to ensure compliance with the statute and regulations codified at 34 CFR Part 99. As stated in your letter, parents of children with disabilities who initiate a due process hearing under Part B of the Individuals with Disabilities Education Act (Part B), 20 U.S.C. § 1415(f)(1), have a right to open the hearing to the public pursuant to 34 CFR § 300.509(c)(1), as well as a parallel New York State provision at 8 N.Y.C.R.R. § 200.5(i)(3)(viii). Your letter indicates that under the common law of New York (and most states), the right to maintain a closed proceeding, once waived, is waived forever, and thereafter all testimonial and documentary information disclosed in the proceeding becomes "public records" subject to New York's Freedom of Information (FOI) law, which is contained in the Public Officers Law, Article 6, §§84-96, 46 McKinney's (2001). You noted further that under both State and federal law, once a party waives a privilege protecting documents from disclosure, the privilege is lost forever and cannot be reasserted. In light of the preceding, you asked what a public school district must do regarding further disclosure of the testimony and evidence from a due process hearing in the following circumstances: > An individual from a news media organization requests, under state > law, the right to [inspect and copy]{.underline} the **transcript of > the testimony of witnesses** from the due process proceeding, > regarding which the parent has exercised their right, pursuant to 34 > C.F.R. § 300.509(c)(1)(ii), to *"\[o\]pen the hearing to the public."* > > An individual from a news media organization requests, under state > law, the right to [inspect and copy]{.underline} **each exhibit marked > \[which include educational records\] in evidence** in the due process > proceeding, regarding which the parent has exercised their right, > pursuant to 34 C.F.R. § 300.509(c)(1)(ii), to *"\[o\]pen the hearing > to the public."* > > Once educational records become "exhibits admitted into evidence" in a > due process hearing open to the public and testimony is taken in the > open hearing, is the school district's disclosure of the exhibits in > evidence and the hearing transcript a violation of FERPA? FERPA applies to an educational agency or institution that receives funds under any program administered by the Secretary of Education, which includes virtually all public school districts in the United States. 34 CFR § 99.1. It provides that parents and eligible students (i.e., those that are 18 years of age or attending a postsecondary institution) have a right to inspect and review the student's education records and to seek to have them amended in certain circumstances. FERPA also provides that an educational agency or institution may not have a policy or practice of disclosing personally identifiable information from education records without the prior written consent of a parent or eligible student except as specified by law. "Education records" are defined as records that contain information that is directly related to a student and are maintained by an educational agency or institution subject to FERPA, or by a party acting for such an educational agency or institution. 34 CFR § 99.3. An agency or institution that collects, maintains, or uses personally identifiable information, or from which information is obtained, under Part B is a "participating agency" subject to the Part B Confidentiality of Information requirements codified at 34 CFR §§ 300.560 -- 300.577. See 34 CFR § 300.560(c). These requirements contain many of the same provisions that exist in FERPA and apply, along with FERPA, to any public school district that provides Part B services to students. Under Part B regulations, a parent or a public agency may initiate a "due process" hearing relating to the identification, evaluation or educational placement of a child with a disability, or the provision of free appropriate public education (FAPE) to the child. 34 CFR § 300.507(a). We assume that for purposes of your inquiry the public agency directly responsible for the education of the child, i.e., a public school district, has conducted the Part B hearing as provided under 34 CFR § 300.507(b) and maintains transcripts of witnesses' testimony and exhibits from those proceedings. Transcripts and exhibits from a Part B due process hearing that are maintained by a public school district subject to FERPA qualify as "education records" if they contain information that is directly related to a student. Under FERPA, a parent (or eligible student) must provide a signed and dated written consent before an educational agency or institution discloses personally identifiable information from a student's education records. Assuming that the transcripts and exhibits from the Part B due process hearing are "education records" (because they contain information directly related to a student), a public school district that maintains these records may not disclose them in response to a State FOI request without the parent's prior written consent even if they were created or submitted into evidence in a hearing that was open to the public at the parent's request. The common law standards that you identified regarding the waiver of privileges to maintain a closed proceeding and to keep certain information confidential are derived from and apply to public courts and judicial proceedings. Like rules of evidence and other court rules, however, these standards do not apply to non-judicial authorities, such as a public school district, unless they have been specifically adopted or imposed by an appropriate governing authority. We are aware of no legal requirement, and certainly none in FERPA or the Part B Confidentiality of Information provisions, that would permit a public school district to disclose education records without prior written consent on the grounds that the records were derived from or admitted into evidence in an open due process proceeding. News media organizations may indeed have grounds to obtain records maintained by a *court* that conducted a hearing in which a party waived privileges to keep the information confidential. However, there is no basis in FERPA or Part B for concluding that education records maintained by a school district may be disclosed without prior written consent because a parent previously permitted them to be submitted into evidence at an open public hearing, or that transcripts of the district's open hearing that contain information directly related to a student are not entitled to protection as education records under FERPA. I trust that this adequately explains the scope and limitation of FERPA as it relates to your concerns. Sincerely, **/s/** LeRoy S. Rooker Director Family Policy Compliance Office cc: Edward Anthony, Office of Special Education and Rehabilitation Services

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SEC NEWS DIGEST Issue 2006-80 April 26, 2006 COMMISSION ANNOUNCEMENTS COMMISSION MEETINGS CLOSED MEETING - THURSDAY, MAY 4, 2006 - 2:00 P.M. The subject matter of the closed meeting scheduled for Thursday, May 4, 2006, will be: Formal orders of investigation; Institution and settlement of injunctive actions; Institution and settlement of administrative proceedings of an enforcement nature; and Resolution of litigation claims. At times, changes in Commission priorities require alterations in the scheduling of meeting items. For further information and to ascertain what, if any, matters have been added, deleted or postponed, please contact: The Office of the Secretary at (202) 551-5400. ENFORCEMENT PROCEEDINGS JAMES CONWAY, AN UNREGISTERED BROKER-DEALER INVOLVED IN THE FRAUDULENT OFFERING OF SECURITY INTERESTS IN RAINMAKER MANAGED LIVING, LLC, BARRED FROM ASSOCIATION WITH ANY BROKER OR DEALER On April 25, the Commission issued an Order Instituting Administrative Proceedings Pursuant to Section 15(b) of the Securities Exchange Act of 1934, Making Findings, and Imposing Remedial Sanctions (Order) against James Joseph Conway (Conway). The Commission's Order was based on the entry of judgment, dated March 23, 2006, by the Honorable S. James Otero, U.S. District Judge for the Central District of California, which, among other things, enjoined Conway from violating Sections 5(a), 5(c), and 17(a) of the Securities Act of 1933, Sections 10(b) and 15(a) of the Securities Exchange Act of 1934 and Rule 10b-5 thereunder. Conway consented to the entry of the judgment. The Commission's complaint alleged that, in connection with the sale of securities in Rainmaker Managed Living, LLC, Conway, age 50 and residing in San Pedro, California, misrepresented to investors how their funds would be used and the source of the guaranteed 25% annual return the investors were to receive. In addition, Conway failed to disclose that he received a commission for selling the securities. The complaint also alleged that Conway sold securities for which the offer and sale was not registered and acted as an unregistered broker-dealer with respect to the sale of the Rainmaker securities. The Order permanently bars Conway from association with any broker or dealer. Conway consented to the issuance of the Order without admitting or denying any of the Commission's findings, with the exception of the Commission's jurisdiction and entry of the final judgment by consent. (Rel. 34-53722; File No.3-12276) REVOCATION OF REGISTRATION OF SECURITIES OF LUMENIS LTD. On April 26, the Commission revoked the registration of the securities of Lumenis Ltd. (Lumenis), of Yokneam, Israel, registered with the Commission pursuant to Section 12 of the Exchange Act, on April 26, pursuant to Section 12(j) of the Securities Exchange Act of 1934 (Exchange Act). In its Order revoking the registration of securities of Lumenis registered with the Commission pursuant to Section 12 of the Exchange Act, the Commission found the following: Lumenis failed to comply with Exchange Act Section 13(a) and Rules 13a-1 and 13a-13 thereunder while its securities were registered with the Commission in that it has not filed any completed periodic reports for any fiscal period subsequent to the period ending June 30, 2003. The Commission cautions broker dealers, shareholders, and prospective purchasers that they should carefully consider the foregoing information along with all other currently available information and any information subsequently issued by the company. Further, brokers and dealers should be alert to the fact that, Section 12(j) provides, in pertinent part, as follows: No member of a national securities exchange, broker, or dealer shall make use of the mails or any means or instrumentality of interstate commerce to effect any transaction in, or to induce the purchase or sale of, any security the registration of which has been and is suspended or revoked pursuant to the preceding sentence. Without admitting or denying the findings in the Order, Lumenis consented to the entry of the Order finding that it had violated Exchange Act Section 13(a) and Rules 13a-1 and 13a-13 thereunder and revoking its registration. (Rel. 34-53724; File No. 3-12277) IN THE MATTER OF CHAIM SCHWARTZBARD, CPA (ISRAEL) On April 26, the Commission issued an Order Instituting Public Administrative Proceedings Pursuant to Rule 102(e) of the Commission's Rules of Practice, Making Findings, and Imposing Remedial Sanctions (Order) against Chaim Schwartzbard. The Order finds that Schwartzbard engaged in improper professional conduct pursuant to Rule 102(e)(1)(ii) of the Commission's Rules of Practice by engaging in repeated instances of unreasonable conduct, each resulting in a violation of applicable professional standards, that indicate a lack of competence to practice before the Commission. Based on the above, the Order denies Schwartzbard the privilege of appearing or practicing before the Commission as an accountant, with the right to request that the Commission consider his reinstatement after three years. Schwartzbard consented to the issuance of the Order without admitting or denying any of the findings in the Order. (Rel. 34-53725; AAE Rel. No. 2421; File No. 3-12278) IN THE MATTER OF PAUL BORNSTEIN On April 26, the Commission issued an Order Instituting Public Administrative Proceedings Pursuant to Section 15(b) of the Securities Exchange Act of 1934, Making Findings, and Imposing Remedial Sanctions Against Paul Bornstein (Order). Bornstein consented to the issuance of the Order without admitting or denying any of the findings in the Order. The Order found that from at least December 1999 through May 2000, Bornstein was both a research analyst at a registered broker-dealer, Connecticut Capital Markets, LLC, and a salaried employee at a public relations firm, Sterns & Company, hired by CyberCare, Inc (CyberCare). On July 16, 2004, the Commission filed a complaint against Bornstein in the United States District Court for the Southern District of Florida in SEC v. Michael Morrell, et. al., Civil Action No. 04-80664- CIV-MARRA/SELTZER alleging, among other things, violations of the antifraud provisions of the federal securities laws by Bornstein in connection with his research report. The Commission's complaint alleged that while he was employed by both companies, Bornstein created a research report on CyberCare that rated CyberCare a "strong buy." The research report, issued by Connecticut Capital in January 2000, failed to disclose Bornstein's conflict of interest and contained, among other things, information released by CyberCare which was materially false. Although Bornstein was not directly compensated by CyberCare for preparation of the research report, the report failed to fully disclose Sterns & Company's compensation for public relations services Sterns & Company and Bornstein were providing to CyberCare. On March 16, 2006, a Final Judgment was entered by consent against Bornstein that permanently enjoined him from violating Sections 17(a) and 17(b) of the Securities Act of 1933 and Sections 10(b) of the Exchange Act, and Rule 10b-5, thereunder. Based on the above, the Order bars Bornstein from association with any broker or dealer with the right to reapply for association after 2 years to the appropriate self-regulatory organization, or if there is none, to the Commission. (Rel. 34-53726; File No. 3-12279) COURT ENFORCES THIRD COMMISSION SUBPOENA IN FAX BLASTING INVESTIGATION On April 18, the U.S. District Court for the District of Columbia entered a stipulated Order requiring obedience to the Commission's subpoena issued to respondent Dean J. Sheptycki. This Order resolved a subpoena enforcement action filed by the Commission. In briefing, Sheptycki argued to the Court that the Commission had no jurisdiction over him because he was a resident of Nassau, Bahamas. After the Commission produced evidence to the contrary, Sheptycki agreed to the entry of a stipulated Order requiring his compliance with the Commission's Subpoena. In its Application and supporting papers, the Commission explained that the subpoena concerned the Commission's investigation into the production and/or mass dissemination of faxes touting the securities of two thinly traded American companies - National Storm Management, Inc. (NLST) and Deep Rock Oil and Gas, Inc. (DPRK) in an apparent attempt to capitalize on the devastation suffered by the Gulf region in the wake of Hurricane Katrina. [SEC v. Dean J. Sheptycki, Misc. No. 06-MS-00074, D.D.C.] (LR-19669) PERPETRATORS OF PUMP AND DUMP MANIPULATION SCHEME SENTENCED TO FEDERAL PRISON The Commission announced that the Honorable R. Gary Klausner, U.S. District Judge for the Central District of California, sentenced three individuals for their participation in a "pump and dump" scheme to manipulate over the Internet the price of securities of New Energy Corporation, formerly based in San Diego, California, that was the subject of a Commission enforcement action and trading suspension. Ernest Paul Lampert, a former fugitive, was sentenced in January 2006 to serve nine years in federal prison. Lampert was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet, and for violating a prior judgment in a criminal case. Marshall Algird Zolp, aka Marcelino Colt, a former fugitive, was sentenced in December 2005 to serve six years. Zolp was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet. Tor Ewald, of San Diego, California, New Energy's former secretary and treasurer, was sentenced in December 2005 to serve three months. Ewald was charged with securities fraud for causing false and misleading press releases and a research report about New Energy to be issued to the public via the Internet, and with obstruction of justice and making a false statement under oath to the Commission. Previously, the Commission filed a complaint in federal court in Los Angeles on Feb. 1, 2002, which alleged that New Energy, Ewald, Colt and his firm, Geneva Financial Ltd., and Magnum Financial LLC dba Stratos Research LLC, and its president, Michael S. Manahan, violated the antifraud provisions of the Securities Exchange Act of 1934. Colt and Geneva were also charged with violating the antifraud provisions of the Securities Act of 1933. The complaint alleged that the defendants were part of a pump and dump scheme to manipulate New Energy's stock price during a one-month period ending on Jan. 18, 2002, when the Commission suspended trading. The Commission obtained a final judgment against Colt and Geneva that permanently enjoined them from future violations of the antifraud provisions and imposed orders of disgorgement and civil penalties. The Commission obtained final judgments against New Energy, Ewald, Magnum, and Manahan that permanently enjoined them from future violations of the antifraud provisions and imposed civil penalties. Prior to the entry of the permanent injunction in the New Energy case, Zolp had been enjoined by the Commission on four previous occasions. Separately, Zolp and Lampert had previously been criminally convicted in other securities fraud cases. [SEC v. NEW ENERGY CORP., TOR EWALD, GENEVA FINANCIAL LTD., MARCELINO COLT aka MARCELINO COLT VASQUEZ, MAGNUM FINANCIAL, LLC, MICHAEL S. MANAHAN, BLD TRUST, BARCLAY DAVIS, LORETTA DAVIS, BURKE T. MAXFIELD, YORK CHANDLER, AND HECTOR CAMPA ACEDO, Civil Action No. CV-02-989-MMM (CWx) (C.D. Cal.)] (LR-19670) COURT ORDERS PERMANENT INJUNCTION, DISGORGEMENT, AND CIVIL PENALTY AGAINST DOMINICK SAVINO IN FRAUDULENT PAYMENTS SCHEME On April 10, following a bench trial before the Honorable George B. Daniels, U.S. District Court Judge for the Southern District of New York, securities trader Dominick Savino (Savino) was found liable for violating the antifraud provisions of the federal securities laws, and was permanently enjoined from future violations. Savino, who is a registered representative of a Connecticut broker-dealer, was enjoined from violating Section 17(a) of the Securities Act of 1933 and from violating and aiding and abetting violations of Section 10(b) of the Securities Exchange Act of 1934 and Rule 10b-5 thereunder. The Final Judgment also orders Savino to pay a total of $669,628, consisting of $569,628 in disgorgement and pre-judgment interest, and a $100,000 third-tier civil money penalty based on his fraudulent conduct. The Commission's complaint against Savino and four other individuals, which was filed on March 22, 2001, arose out of a fraudulent scheme involving two former employees at New York Life Insurance Company, Inc., who directed a flow of securities trades for the insurance company's proprietary accounts, often at prices unfavorable to New York Life, to certain salespersons in return for cash kickbacks and other improper gifts and gratuities made by the salespersons and others. The District Court's Modified Final Judgment was entered following the court's findings in a Memorandum Decision issued on Feb. 16, 2004. In that decision, Judge Daniels found that Savino violated his duties as a licensed securities professional by engaging in an "illegal fraudulent scheme" with Anthony Shen (Shen), a New York Life bond trader, to defraud New York Life that involved "material misrepresentations and omissions" in connection with his trades. Among other things, the District Court found that: Savino offered and gave Shen "secret payments, gifts, and gratuities" in connection with their securities trades, that Savino concealed the fact that he was compensating Shen in connection with trades, and "affirmatively misrepresented" the nature of the consideration paid; Savino "knowingly and willingly" defrauded New York Life, and intentionally failed to disclose, and intentionally concealed, the material circumstances of his trading relationship with Shen; Savino's violations were "egregious," and were repeated "multiple times" over the course of his relationship with Shen; and Savino attempted to conceal his conduct and also "attempted to obstruct" the investigation into his conduct by, among other things, lying to his employers' attorneys during their internal probe, and urging Shen to lie to conceal the scheme, and by providing "untruthful statements" during his deposition and while testifying at trial. The Commission has instituted public administrative proceedings against Savino in order to determine what remedial action, if any, is appropriate in the public interest in light of the permanent injunction that was entered against him by the district court. [See Administrative Release No. 34-53492 (March 16, 2006)]. This judgment concludes the Commission's civil action against all five of the original defendants named in the complaint, who have all been enjoined. [See also Litigation Release No. 16937 (March 22, 2001); Litigation Release No. 18478 (Nov. 24, 2003); Litigation Release No. 18556 (Jan. 28, 2004); and 18667 (April 13, 2004)]. [SEC v. Dominick Savino, et al., 01 CV 2438 (GBD) SDNY] (LR-19671) INVESTMENT COMPANY ACT RELEASES PACIFIC LIFE INSURANCE COMPANY, ET AL An order has been issued approving an application filed by Pacific Life Insurance Company (Pacific Life); Separate Account A of Pacific Life (Pacific A); Separate Account B of Pacific Life (Pacific B); Pacific Select Variable Annuity Separate Account of Pacific Life (PSVA); Pacific Select Exec Separate Account of Pacific Life (PSE); Pacific Life & Annuity Company (PL&A); Separate Account A of PL&A (PL&A A); Pacific Select Exec Separate Account of PL&A (PL&A PSE, and together with Pacific A, Pacific B, PSVA, PSE, PL&A A, the Separate Accounts); and Pacific Select Fund (Select Fund, and together with Pacific Life, PL&A, the Separate Accounts, the Applicants). Pacific Life and PL&A have been authorized under Section 26(c) of the Investment Company Act to substitute shares of American Funds Growth- Income Portfolio of Select Fund for shares of the Equity Income Portfolio of Select Fund held by one or more of the Separate Accounts. (Rel. IC-27291 - April 25) FRANK RUSSELL INVESTMENT COMPANY, ET AL. A notice has been issued giving interested persons until May 22, 2006, to request a hearing on an application filed by Frank Russell Investment Company, et al. for an order that would permit certain registered open-end management investment companies to participate in a joint lending and borrowing facility. (Rel. IC-27292 - April 25) SELF-REGULATORY ORGANIZATIONS APPROVAL OF PROPOSED RULE CHANGE The Commission approved a proposed rule change (SR-NSX-2005-09) and granted accelerated approval to Amendment Nos. 1 and 2 to the proposed rule change submitted by the National Stock ExchangeSM to amend Exchange delisting rules to conform to recent amendments to Commission rules regarding removal from listing and withdrawal from registration. Publication of the notice is expected in the Federal Register during the week of April 24. (Rel. 34-53702) SECURITIES ACT REGISTRATIONS The following registration statements have been filed with the SEC under the Securities Act of 1933. The reported information appears as follows: Form, Name, Address and Phone Number (if available) of the issuer of the security; Title and the number and/or face amount of the securities being offered; Name of the managing underwriter or depositor (if applicable); File number and date filed; Assigned Branch; and a designation if the statement is a New Issue. Registration statements may be obtained in person or by writing to the Commission's Public Reference Branch at 450 Fifth Street, N.W., Washington, D.C. 20549 or at the following e-mail box address: <publicinfo@sec.gov>. In most cases, this information is also available on the Commission's website: <www.sec.gov>. S-3ASR Texas Roadhouse, Inc., 6040 DUTCHMANS LANE, SUITE 400, LOUISVILLE, KY, 40205, 5024269984 - 0 ($20,752,283.00) Equity, (File 333-133510 - Apr. 25) (BR. 05C) SB-2 SHUMATE INDUSTRIES INC, 12060 FM 3083, CONROE, TX, 77301, (936) 441-5100 - 10,130,500 ($9,877,237.50) Equity, (File 333-133511 - Apr. 25) (BR. 06C) S-4 EPIX Pharmaceuticals, Inc., 71 ROGERS ST, CAMBRIDGE, MA, 02142-1118, 6172506000 - 0 ($914,159.00) Equity, (File 333-133513 - Apr. 25) (BR. 01A) S-3ASR SOVEREIGN BANCORP INC, 2000 MARKET ST, PHILADELPHIA, PA, 19103, 2155574630 - 0 ($0.00) Other, (File 333-133514 - Apr. 25) (BR. 07C) S-3ASR PLUM CREEK TIMBER CO INC, 999 THIRD AVENUE, SUITE 4300, SEATTLE, WA, 98104-4040, (206)467-3600 - 0 ($0.00) Unallocated (Universal) Shelf, (File 333-133515 - Apr. 25) (BR. 08C) SB-2 MILLER PETROLEUM INC, 3651 BAKER HIGHWAY, STE 106, HUNTSVILLE, TN, 37756, 4236639457 - 6,100,000 ($6,039,000.00) Equity, (File 333-133516 - Apr. 25) (BR. 04B) F-10 SHAW COMMUNICATIONS INC, STE 900, 630 3RD AVE SW, CALGARY ALBERTA CANA, A0, 4037504500 - 0 ($263,805,839.00) Debt, (File 333-133517 - Apr. 25) (BR. 11C) S-8 RENTECH INC /CO/, 1331 17TH STREET SUITE 720, DENVER, CO, 80202-1566, 3032988008 - 0 ($17,600,000.00) Equity, (File 333-133518 - Apr. 25) (BR. 06C) S-8 GLOBAL CROSSING LTD, WESSEX HOUSE 45 REID ST, HAMILTON HM12, BERMUDA, D0, HM12, 4412968600 - 0 ($83,317,500.00) Equity, (File 333-133520 - Apr. 25) (BR. 11A) S-8 PLATINUM UNDERWRITERS HOLDINGS LTD, 2 CHURCH STREET, BERMUDA, D0, HM 11, 4412951422 - 0 ($155,815,000.00) Equity, (File 333-133521 - Apr. 25) (BR. 01B) SB-2 VIPER POWERSPORTS INC, 1500 RAND TOWER, 527 MARQUETTS AVE, MINNEAPOLIS, MN, 55402, 612-333-1313 - 4,100,042 ($13,912,621.00) Equity, 2,000,000 ($5,950,000.00) Other, (File 333-133522 - Apr. 25) (BR. 03) S-8 Saifun Semiconductors Ltd., 45 HAMELACHA STREET, SAPPIR INDUSTRIAL PARK, NETANYA, L3, 42504, 01197298928444 - 6,024,821 ($85,107,283.00) Other, (File 333-133523 - Apr. 25) (BR. 10) S-8 EURASIA ENERGY LTD, DOWNIEHILLS, BLACKHILLS, PETERHEAD, ABERDEENSHIRE, SCOTLAND, X0, AB42 3LB, 604-681-9588 - 2,000,000 ($6,000,000.00) Equity, (File 333-133524 - Apr. 25) (BR. 04B) S-1 eHealth, Inc., 440 EAST MIDDLEFIELD ROAD, MOUNTAIN VIEW, CA, 94043, 650-584-2700 - 0 ($85,000,000.00) Equity, (File 333-133526 - Apr. 25) (BR. 01) S-8 NightHawk Radiology Holdings Inc, 250 NORTHWEST BOULEVARD #202, COEUR D ALENE, ID, 83814, 208-292-2251 - 0 ($43,680,741.94) Equity, (File 333-133527 - Apr. 25) (BR. 01B) SB-2 NATUREWELL INC, 7855 IVANHOE AVE, SUITE 322, LA JOLLA, CA, 92037, 858/454-6790 - 2,000,000,000 ($6,000,000.00) Equity, (File 333-133528 - Apr. 25) (BR. 01C) S-3 ACACIA RESEARCH CORP, 500 NEWPORT CENTER DRIVE, 7TH FLOOR, NEWPORT BEACH, CA, 92660, 9494808300 - 0 ($75,000,000.00) Equity, (File 333-133529 - Apr. 25) (BR. 10A) S-3 ORTHOLOGIC CORP, 1275 WEST WASHINGTON STREET, TEMPE, AZ, 85281, 6024375520 - 1,355,000 ($2,398,350.00) Equity, (File 333-133530 - Apr. 25) (BR. 01B) S-8 NEW WORLD RESTAURANT GROUP INC, 1687 COLE BOULEVARD, GOLDEN, CO, 80401, 3035688000 - 0 ($11,475,000.00) Other, (File 333-133531 - Apr. 25) (BR. 05B) S-1 LEMAITRE VASCULAR INC, 63 2ND AVE, BURLINGTON, MA, 01803, 781-221-2266 - 0 ($69,000,000.00) Equity, (File 333-133532 - Apr. 25) (BR. ) S-8 Bank of Wilmington CORP, 1117 MILITARY CUTOFF ROAD, WILMINGTON, NC, 28405, 910-509-2000 - 534,511 ($6,513,017.00) Equity, (File 333-133533 - Apr. 25) (BR. 07) S-1 MARKWEST ENERGY PARTNERS L P, 155 INVERNESS DR WEST, STE 200, ENGLEWOOD, CO, 80112, 303-925-9275 - 0 ($168,795,390.00) Equity, (File 333-133534 - Apr. 25) (BR. 04A) SB-2 Interactive Television Networks, 2010 MAIN STREET, STE 500, IRVINE, CA, 92614, 949-456-9510 - 4,727,733 ($16,428,873.00) Equity, (File 333-133535 - Apr. 25) (BR. 11B) S-3 PLANETOUT INC, 0 ($90,946,000.00) Other, (File 333-133536 - Apr. 25) (BR. 08A) SB-2 OMNICOMM SYSTEMS INC, 2555 DAVIE ROAD, SUITE 110-B, FORT LAUDERDALE, FL, 33317, 954-473-1254 - 0 ($24,031,756.00) Equity, (File 333-133537 - Apr. 25) (BR. 08C) S-1 Tennessee Commerce Bancorp, Inc., 381 MALLORY STATION RD, SUITE 207, FRANKLIN, TN, 37067-8264, 615-599-2274 - 0 ($23,287,500.00) Equity, (File 333-133539 - Apr. 25) (BR. 07) RECENT 8K FILINGS Form 8-K is used by companies to file current reports on the following events: 1.01 Entry into a Material Definitive Agreement 1.02 Termination of a Material Definitive Agreement 1.03 Bankruptcy or Receivership 2.01 Completion of Acquisition or Disposition of Assets 2.02 Results of Operations and Financial Condition 2.03 Creation of a Direct Financial Obligation or an Obligation under an Off-Balance Sheet Arrangement of a Registrant 2.04 Triggering Events That Accelerate or Increase a Direct Financial Obligation under an Off-Balance Sheet Arrangement 2.05 Cost Associated with Exit or Disposal Activities 2.06 Material Impairments 3.01 Notice of Delisting or Failure to Satisfy a Continued Listing Rule or Standard; Transfer of Listing 3.02 Unregistered Sales of Equity Securities 3.03 Material Modifications to Rights of Security Holders 4.01 Changes in Registrant's Certifying Accountant 4.02 Non-Reliance on Previously Issued Financial Statements or a Related Audit Report or Completed Interim Review 5.01 Changes in Control of Registrant 5.02 Departure of Directors or Principal Officers; Election of Directors; Appointment of Principal Officers 5.03 Amendments to Articles of Incorporation or Bylaws; Change in Fiscal Year 5.04 Temporary Suspension of Trading Under Registrant's Employee Benefit Plans 5.05 Amendments to the Registrant's Code of Ethics, or Waiver of a Provision of the Code of Ethics 6.01. ABS Informational and Computational Material. 6.02. Change of Servicer or Trustee. 6.03. Change in Credit Enhancement or Other External Support. 6.04. Failure to Make a Required Distribution. 6.05. Securities Act Updating Disclosure. 7.01 Regulation FD Disclosure 8.01 Other Events 9.01 Financial Statements and Exhibits 8-K reports may be obtained in person or by writing to the Commission's Public Reference Branch at 450 Fifth Street, N.W., Washington, D.C. 20549 or at the following e-mail box address: <publicinfo@sec.gov>. In most cases, this information is also available on the Commission's website: <www.sec.gov>. STATE 8K ITEM NO. NAME OF ISSUER CODE DATE COMMENT ------------------------------------------------------------------------------------------------------- 1ST INDEPENDENCE FINANCIAL GROUP, INC DE 8.01 04/25/06 ABLEST INC DE 1.01,5.02,9.01 04/24/06 ACE Securities Corp. Home Equity Loan DE 8.01,9.01 09/26/05 AMEND ACE Securities Corp. Home Equity Loan DE 2.01,9.01 03/28/06 ACTEL CORP CA 2.02,9.01 04/25/06 ACTUATE CORP DE 2.02,9.01 04/25/06 ADELPHIA COMMUNICATIONS CORP DE 7.01 04/25/06 ADVO INC DE 1.01,2.02,8.01,9.01 04/25/06 AFFYMETRIX INC DE 5.02,9.01 04/19/06 AFLAC INC GA 2.02,9.01 04/25/06 AGERE SYSTEMS INC DE 2.02,9.01 04/25/06 AK STEEL HOLDING CORP DE 2.02,9.01 04/25/06 AK STEEL HOLDING CORP DE 2.02 04/25/06 ALFA CORP DE 2.02,9.01 04/25/06 ALLIANCE RESOURCE PARTNERS LP DE 2.02,9.01 04/24/06 ALLIED DEFENSE GROUP INC DE 1.01,9.01 04/25/06 Allis Chalmers Energy Inc. DE 3.01 04/19/06 AMAZON COM INC DE 2.02,9.01 04/25/06 AMERICA ONLINE LATIN AMERICA INC DE 7.01 04/25/06 AMERICAN BANK INC PA 2.02,9.01 04/21/06 AMERICAN CAPITAL STRATEGIES LTD 1.01 04/25/06 AMERICAN ELECTRIC POWER CO INC NY 7.01,9.01 04/24/06 AMERICAN EXPRESS CO NY 5.02 04/25/06 AMEND AMERIPRISE FINANCIAL INC DE 2.02,9.01 04/25/06 AMSURG CORP TN 2.02,7.01,9.01 04/25/06 ANDRX CORP /DE/ DE 1.01,9.01 04/19/06 ANTEON INTERNATIONAL CORP DE 8.01 04/24/06 ANTICUS INTERNATIONAL CORP NV 1.01,3.02,5.02,5.06,9.01 04/20/06 APO HEALTH INC /NV/ NV 1.01,7.01,9.01 04/21/06 APPLIED INDUSTRIAL TECHNOLOGIES INC OH 2.02,9.01 04/25/06 APPLIED INNOVATION INC DE 2.02,9.01 04/25/06 APRIA HEALTHCARE GROUP INC DE 2.02,9.01 04/25/06 ARCHSTONE SMITH TRUST MD 2.02,9.01 04/25/06 Argyle Security Acquisition CORP 4.01,9.01 04/18/06 AMEND ASPEN EXPLORATION CORP DE 3.02 04/21/06 AT&T INC. DE 2.02,9.01 03/31/06 ATMEL CORP DE 2.02,9.01 04/25/06 AURORA GOLD CORP DE 8.01,9.01 04/24/06 AUXILIUM PHARMACEUTICALS INC 7.01,9.01 04/25/06 AVERY DENNISON CORPORATION DE 2.02,9.01 04/25/06 Aviza Technology, Inc. DE 1.01,3.02,8.01,9.01 04/24/06 BANCFIRST CORP /OK/ OK 8.01 04/25/06 BANK OF HAWAII CORP DE 2.02,9.01 04/24/06 BANK OF THE JAMES FINANCIAL GROUP INC VA 2.02,8.01,9.01 04/21/06 BANKRATE INC FL 2.02,9.01 04/25/06 BANKRATE INC FL 8.01,9.01 04/25/06 BANNER CORP WA 2.02,9.01 04/25/06 BANTA CORP WI 2.02,9.01 04/25/06 BARNABUS ENERGY, INC. NV 5.03,9.01 04/21/06 BB&T CORP NC 5.03,8.01,9.01 04/25/06 BEARINGPOINT INC DE 1.01,2.02,9.01 04/24/06 BEHRINGER HARVARD REIT I INC MD 2.01,2.03,9.01 04/25/06 BERKSHIRE HILLS BANCORP INC 2.02,9.01 04/25/06 BIG CAT MINING CORP 3.02,5.01 04/24/06 BJ SERVICES CO DE 2.02,5.02 04/25/06 BLAIR CORP DE 5.02,8.01,9.01 04/20/06 BLUE RIDGE REAL ESTATE CO PA 1.01,2.03,9.01 04/20/06 BLUEGATE CORP NV 2.02 04/20/06 BMW VEHICLE OWNER TRUST 2003-A 9.01 04/25/06 BMW Vehicle Owner Trust 2004-A 9.01 04/25/06 BMW Vehicle Owner Trust 2005-A 9.01 04/25/06 BOLT TECHNOLOGY CORP CT 2.02,9.01 04/25/06 BOTETOURT BANKSHARES INC VA 2.02,9.01 04/25/06 BOWNE & CO INC DE 5.02 04/25/06 BOYD GAMING CORP NV 2.02,9.01 04/25/06 BREMER FINANCIAL CORP MN 2.02,9.01 04/25/06 BRIDGE STREET FINANCIAL INC NY 1.01,8.01,9.01 04/24/06 BROWN & BROWN INC FL 2.02 04/24/06 BRYN MAWR BANK CORP PA 2.02,7.01,9.01 04/25/06 BUFFALO WILD WINGS INC MN 2.02,9.01 04/25/06 BUILDING MATERIALS HOLDING CORP DE 2.02,9.01 04/25/06 BULLDOG TECHNOLOGIES INC NV 7.01,9.01 04/25/06 BURLINGTON NORTHERN SANTA FE CORP DE 2.02,9.01 04/25/06 C H ROBINSON WORLDWIDE INC DE 2.02,9.01 04/25/06 CA, INC. DE 2.02,7.01,9.01 04/25/06 CabelTel International Corp NV 2.02,9.01 04/25/06 CABG MEDICAL INC MN 3.02 04/19/06 CAL-BAY INTERNATIONAL INC NV 8.01 04/21/06 Calamos Asset Management, Inc. /DE/ 2.02,9.01 04/25/06 CALGON CARBON CORPORATION DE 8.01 04/24/06 CALPINE CORP DE 8.01 04/25/06 CAMDEN NATIONAL CORP ME 2.02,9.01 04/25/06 CAMDEN NATIONAL CORP ME 1.01,2.03,9.01 04/25/06 CAPITAL CITY BANK GROUP INC FL 2.02,7.01,9.01 04/25/06 CAPITAL GROWTH SYSTEMS INC /FL/ FL 8.01 04/21/06 CAPSTEAD MORTGAGE CORP MD 1.01,9.01 04/20/06 CARDINAL COMMUNICATIONS, INC NV 5.02,8.01,9.01 04/19/06 CARDINAL FINANCIAL CORP VA 2.02,5.02,8.01,9.01 04/19/06 CARLISLE COMPANIES INC DE 2.02,9.01 04/25/06 CARREKER CORP DE 1.01 04/19/06 CARTERS INC DE 2.02,9.01 04/25/06 CASCADE BANCORP OR 2.01,3.02,7.01,8.01,9.01 04/20/06 AMEND CASCADE FINANCIAL CORP DE 2.02,9.01 04/25/06 CASCADE MICROTECH INC 2.02,9.01 04/25/06 CDI CORP PA 1.01 04/19/06 CDW CORP IL 2.02,9.01 04/25/06 CEC ENTERTAINMENT INC KS 2.02 04/02/06 CENTENE CORP 2.02,9.01 04/25/06 CENTERSTATE BANKS OF FLORIDA INC FL 2.02,9.01 04/25/06 CENTERSTATE BANKS OF FLORIDA INC FL 5.03,9.01 04/25/06 CENTRAL PACIFIC FINANCIAL CORP HI 2.02,9.01 04/25/06 CEPHALON INC DE 8.01,9.01 04/24/06 CERIDIAN CORP /DE/ DE 2.02,9.01 04/25/06 CEVA INC DE 2.02,9.01 04/25/06 CHARLOTTE RUSSE HOLDING INC 2.02,9.01 04/20/06 CHECKFREE CORP \GA\ DE 2.02,9.01 04/25/06 CHESAPEAKE CORP /VA/ VA 2.02,9.01 04/25/06 CHICAGO MERCANTILE EXCHANGE HOLDINGS DE 2.02 04/25/06 CHOICE HOTELS INTERNATIONAL INC /DE DE 2.02,9.01 04/25/06 CIBER INC DE 2.02,9.01 04/25/06 CIMAREX ENERGY CO DE 7.01,9.01 04/24/06 CIMETRIX INC NV 1.01,9.01 04/19/06 Cistera Networks, Inc. NV 5.02,9.01 04/18/06 CIT GROUP INC DE 8.01,9.01 04/24/06 CITIGROUP INC DE 9.01 04/20/06 CITY CAPITAL CORP NV 1.01,9.01 04/19/06 CLAREMONT TECHNOLOGIES CORP NV 1.03 04/25/06 CNL INCOME PROPERTIES INC MD 8.01 04/21/06 COLDWATER CREEK INC DE 4.01,9.01 04/19/06 COLONIAL BANCGROUP INC DE 1.01,9.01 04/19/06 COLONIAL COMMERCIAL CORP NY 5.01 04/17/06 AMEND COMMERCIAL CAPITAL BANCORP INC NV 1.01,2.02,8.01,9.01 04/23/06 COMMUNITY BANCORP /VT VT 2.02,9.01 04/25/06 AMEND COMMUNITY BANK SYSTEM INC DE 2.02,9.01 04/24/06 COMMUNITY BANK SYSTEM INC DE 8.01,9.01 04/20/06 COMMUNITY TRUST BANCORP INC /KY/ KY 7.01 03/31/06 COMMUNITY WEST BANCSHARES / CA 2.02,9.01 04/25/06 COMPUTER HORIZONS CORP NY 1.01,9.01 04/19/06 Con-way Inc. DE 1.01,2.02,5.03,8.01 03/31/06 Con-way Inc. DE 3.01,8.01,9.01 04/25/06 CONGOLEUM CORP DE 3.01,9.01 04/25/06 CONNETICS CORP DE 1.01,9.01 04/24/06 CONSUMER PORTFOLIO SERVICES INC CA 2.02,9.01 04/25/06 CONVERGYS CORP OH 2.02,8.01,9.01 04/25/06 CONVERSION SERVICES INTERNATIONAL INC DE 8.01 04/24/06 COOPER COMPANIES INC DE 8.01 04/12/06 CORNING INC /NY NY 2.02,4.02,7.01,9.01 03/31/06 CORPORATE PROPERTY ASSOCIATES 14 INC MD 5.02 04/19/06 COST U LESS INC WA 1.01,9.01 04/19/06 CREE INC NC 1.01,5.02 04/19/06 CSG SYSTEMS INTERNATIONAL INC DE 1.01,2.02,5.02,9.01 04/25/06 CSS INDUSTRIES INC DE 1.01,5.02 03/10/06 CUISINE SOLUTIONS INC DE 1.01,2.03,9.01 04/19/06 CV THERAPEUTICS INC DE 2.02,9.01 04/25/06 CYBEX INTERNATIONAL INC NY 2.02,9.01 04/25/06 DATAWATCH CORP DE 1.01,2.02,9.01 04/20/06 DELMARVA POWER & LIGHT CO /DE/ DE 8.01 04/21/06 DELPHI FINANCIAL GROUP INC/DE DE 1.01,5.02,5.03,9.01 04/19/06 DELPHI FINANCIAL GROUP INC/DE DE 2.02,9.01 04/25/06 DELTIC TIMBER CORP DE 2.02,9.01 04/25/06 DELUXE CORP MN 2.02,9.01 04/25/06 DEVRY INC DE 2.02 04/25/06 Diabetic Treatment Centers of America DE 5.02 04/25/06 DIAMOND OFFSHORE DRILLING INC DE 7.01,9.01 04/24/06 DIEBOLD INC OH 2.02,9.01 04/25/06 DIGITAL RECORDERS INC NC 7.01,9.01 04/24/06 DIME COMMUNITY BANCSHARES INC DE 2.02 04/25/06 DISCOVERY PARTNERS INTERNATIONAL INC DE 1.01 04/19/06 DOLLAR FINANCIAL CORP DE 2.02,9.01 04/21/06 DOV PHARMACEUTICAL INC DE 8.01,9.01 04/24/06 Dragon Gold Resources, Inc. NV 1.01,3.02,4.01,9.01 04/18/06 DREW INDUSTRIES INC DE 8.01,9.01 04/24/06 DSA FINANCIAL CORP 2.02,9.01 04/21/06 DUPONT E I DE NEMOURS & CO DE 2.02 03/31/06 DUSA PHARMACEUTICALS INC NJ 8.01,9.01 04/25/06 Eagle Test Systems, Inc. IL 2.02,9.01 04/25/06 EASTERN VIRGINIA BANKSHARES INC VA 2.02,9.01 04/21/06 EASTERN VIRGINIA BANKSHARES INC VA 8.01,9.01 04/15/06 EASYLINK SERVICES CORP DE 1.01,2.02,9.01 04/21/06 EMBARCADERO TECHNOLOGIES INC 2.02,9.01 04/25/06 ENCORE WIRE CORP /DE/ DE 2.02,7.01,9.01 04/25/06 ENDOCARE INC DE 1.01,2.03,9.01 04/24/06 ENDWAVE CORP DE 2.02,9.01 04/25/06 ENERGIZER HOLDINGS INC MO 2.02,5.05 04/25/06 ENERGYSOUTH INC AL 1.01 04/19/06 ENNIS, INC. TX 1.01,9.01 04/21/06 ENSCO INTERNATIONAL INC DE 8.01,9.01 04/25/06 Enterprise GP Holdings L.P. DE 2.02,9.01 04/25/06 ENTERPRISE PRODUCTS PARTNERS L P DE 2.02,9.01 04/25/06 ENTRUST INC MD 2.02,9.01 04/25/06 EURONET WORLDWIDE INC DE 2.02,9.01 04/25/06 EXACTECH INC FL 2.02,7.01,9.01 04/25/06 EXPRESSJET HOLDINGS INC DE 7.01 04/20/06 EZCORP INC DE 2.02,9.01 04/25/06 FARGO ELECTRONICS INC 2.02,9.01 04/25/06 Federal Home Loan Bank of Boston X1 2.03 04/19/06 Federal Home Loan Bank of Chicago X1 2.03 04/19/06 Federal Home Loan Bank of Cincinnati X1 2.03,9.01 04/19/06 Federal Home Loan Bank of Indianapoli X1 2.03,9.01 04/25/06 Federal Home Loan Bank of New York X1 2.03,9.01 04/19/06 Federal Home Loan Bank of San Francis X1 2.03 04/19/06 FEDERAL TRUST CORP FL 8.01,9.01 04/25/06 FERRO CORP OH 1.01,9.01 04/19/06 Fidelity National Title Group, Inc. 5.02 04/19/06 FIRST ADVANTAGE CORP DE 2.02,9.01 04/25/06 FIRST BANCORP /NC/ NC 2.02,9.01 04/24/06 FIRST CASH FINANCIAL SERVICES INC DE 8.01,9.01 04/24/06 FIRST COMMUNITY BANCORP /CA/ CA 1.01,8.01,9.01 04/19/06 FIRST COMMUNITY BANCSHARES INC /NV/ NV 2.02,9.01 04/25/06 FIRST COMMUNITY BANCSHARES INC /NV/ NV 7.01 04/25/06 FIRST CONSULTING GROUP INC DE 5.02,9.01 04/25/06 FIRST FEDERAL BANCSHARES OF ARKANSAS TX 2.02,9.01 04/25/06 FIRST NATIONAL LINCOLN CORP /ME/ ME 2.02 03/31/06 FIRST OF LONG ISLAND CORP NY 1.01,9.01 04/18/06 FIRST OTTAWA BANCSHARES INC DE 2.02,9.01 04/25/06 FIRST SECURITY BANCORP INC /KY/ KY 8.01 04/25/06 FIRST SECURITY GROUP INC/TN TN 2.02,9.01 03/31/06 FIRST UNITED CORP/MD/ MD 7.01,9.01 04/25/06 FISERV INC WI 2.02,9.01 04/25/06 FISERV INC WI 1.01,5.02,9.01 04/21/06 FOCUS ENHANCEMENTS INC DE 2.02,7.01,9.01 04/24/06 FOOT LOCKER INC NY 1.01 04/24/06 FOREST LABORATORIES INC DE 7.01 03/31/06 FOREST LABORATORIES INC DE 7.01 03/31/06 FOSTER WHEELER LTD D0 8.01,9.01 04/24/06 FOSTER WHEELER LTD D0 1.01,9.01 04/19/06 Franchise Capital Corp. NV 8.01,9.01 04/24/06 FRANKLIN CREDIT MANAGEMENT CORP/DE/ DE 3.01,9.01 04/18/06 AMEND FRANKLIN FINANCIAL SERVICES CORP /PA/ PA 7.01,9.01 04/25/06 GASTAR EXPLORATION LTD 7.01,9.01 04/25/06 GENENTECH INC DE 1.01,9.01 04/20/06 GENERAL DATACOMM INDUSTRIES INC DE 1.01,2.03,9.01 04/20/06 GILEAD SCIENCES INC DE 1.01,2.03,3.02,9.01 04/19/06 GILMAN & CIOCIA INC DE 1.01,9.01 04/20/06 GLOBAL AIRCRAFT SOLUTIONS, INC. AZ 2.02,7.01,9.01 04/25/06 GLOBAL SERVICES PARTNERS ACQUISITION DE 8.01,9.01 04/25/06 GNC CORP DE 1.01,9.01 04/20/06 GRANT PARK FUTURES FUND LIMITED PARTN IL 7.01 04/21/06 GREAT ATLANTIC & PACIFIC TEA CO INC MD 1.01 04/19/06 GSI GROUP INC A3 2.02,9.01 04/25/06 HALLADOR PETROLEUM CO CO 1.01,2.03 04/19/06 HANCOCK HOLDING CO MS 8.01,9.01 04/24/06 HANMI FINANCIAL CORP DE 2.02,9.01 04/25/06 HANMI FINANCIAL CORP DE 8.01,9.01 04/25/06 HARLEYSVILLE NATIONAL CORP PA 7.01,9.01 04/25/06 HARRINGTON WEST FINANCIAL GROUP INC/C 2.02,9.01 04/25/06 HARTFORD LIFE INSURANCE CO CT 9.01 04/25/06 HCA INC/TN DE 2.02,7.01,9.01 04/25/06 HEALTH MANAGEMENT ASSOCIATES INC DE 2.02,9.01 04/25/06 HEALTHCARE REALTY TRUST INC MD 2.02,9.01 04/25/06 HEINZ H J CO PA 8.01 04/24/06 HERITAGE OAKS BANCORP CA 8.01,9.01 04/25/06 HOLLY ENERGY PARTNERS LP DE 2.02,7.01,9.01 04/25/06 HOLOGIC INC DE 2.02,9.01 04/25/06 HOME FEDERAL BANCORP IN 7.01,9.01 04/25/06 HOSPIRA INC DE 5.02,9.01 04/25/06 HYDRIL CO DE 2.02,9.01 02/24/06 IBERIABANK CORP LA 2.02,7.01,9.01 04/24/06 IBT BANCORP INC /MI/ MI 5.05,9.01 04/19/06 ICAD INC DE 1.01,3.02,5.02,5.03,8.01,9.01 04/19/06 IHOP CORP DE 8.01,9.01 04/24/06 II-VI INC PA 2.02,9.01 04/24/06 IMCLONE SYSTEMS INC DE 8.01,9.01 04/25/06 IMPSAT FIBER NETWORKS INC DE 8.01,9.01 04/24/06 INDYMAC BANCORP INC DE 2.02,9.01 04/25/06 INFOSONICS CORP 2.02,9.01 04/25/06 INGRAM MICRO INC DE 2.02,9.01 04/25/06 INNOSPEC INC. DE 2.02 04/25/06 INSWEB CORP DE 1.01 04/25/06 INTEGRA LIFESCIENCES HOLDINGS CORP DE 1.01,7.01,9.01 04/25/06 INTEGRAMED AMERICA INC DE 7.01,9.01 04/25/06 INTEGRATED SILICON SOLUTION INC DE 2.02,9.01 04/25/06 INTERACTIVE INTELLIGENCE INC IN 2.02,9.01 04/25/06 INTERCHANGE CORP DE 5.02,9.01 04/19/06 INTERNATIONAL BUSINESS MACHINES CORP NY 7.01,8.01 04/25/06 INTERNET SECURITY SYSTEMS INC/GA DE 2.02,9.01 04/25/06 INVESTORS FINANCIAL SERVICES CORP DE 1.01 04/18/06 IPAYMENT INC DE 7.01 04/25/06 iPCS, INC DE 2.02,9.01 04/25/06 ISTAR FINANCIAL INC MD 2.02,9.01 04/25/06 ITRON INC /WA/ WA 2.02,9.01 04/25/06 ITRONICS INC TX 2.02 04/20/06 J CREW GROUP INC DE 2.02,9.01 04/25/06 J P MORGAN CHASE & CO DE 9.01 04/21/06 JETBLUE AIRWAYS CORP DE 1.01,2.02,9.01 04/25/06 JOHNSON OUTDOORS INC WI 5.02,9.01 04/24/06 JOURNAL COMMUNICATIONS INC 2.02,9.01 04/25/06 JOURNAL COMMUNICATIONS INC 7.01,9.01 04/25/06 JOY GLOBAL INC DE 1.01,7.01 04/24/06 KAISER GROUP HOLDINGS INC DE 8.01 04/21/06 KANA SOFTWARE INC DE 1.01,2.02,9.01 04/20/06 KANA SOFTWARE INC DE 5.02 04/19/06 AMEND Kansas City Southern de Mexico, S.A. O5 1.01,9.01 04/19/06 KCS ENERGY INC DE 1.01,7.01,9.01 04/20/06 KELLOGG CO DE 1.01 04/21/06 KELLY SERVICES INC DE 2.02,9.01 04/25/06 KENEXA CORP 5.02 02/15/06 AMEND KILLBUCK BANCSHARES INC OH 5.02 04/24/06 KILROY REALTY CORP MD 2.02,9.01 04/24/06 KIMCO REALTY CORP MD 2.02 04/25/06 KINETIC CONCEPTS INC /TX/ TX 9.01 03/31/06 KNAPE & VOGT MANUFACTURING CO MI 1.01 04/21/06 KNOLL INC DE 2.02,9.01 04/25/06 KONIGSBERG CORP NV 8.01,9.01 04/12/06 Kraton Polymers LLC DE 7.01,9.01 04/25/06 KSW INC NY 8.01,9.01 04/24/06 L 3 COMMUNICATIONS HOLDINGS INC DE 2.02,9.01 04/25/06 LABORATORY CORP OF AMERICA HOLDINGS DE 2.02 04/25/06 LABORATORY CORP OF AMERICA HOLDINGS DE 7.01 04/25/06 LABRANCHE & CO INC DE 2.02,5.02,9.01 04/25/06 LAND O LAKES INC 2.02,9.01 04/25/06 LANDAMERICA FINANCIAL GROUP INC VA 2.02,9.01 03/31/06 LCA VISION INC DE 2.02,9.01 04/25/06 LEADIS TECHNOLOGY INC DE 2.02,9.01 04/25/06 LEAR CORP DE 1.01,1.02,2.03,3.03,9.01 04/25/06 LEE ENTERPRISES, INC DE 2.02,9.01 04/20/06 LEE ENTERPRISES, INC DE 5.02,9.01 04/25/06 LEHMAN ABS CORP BACKED TRUST CERTS SE DE 8.01 04/24/06 LEHMAN BROTHERS HOLDINGS INC DE 9.01 04/20/06 LEVEL 3 COMMUNICATIONS INC DE 2.02,9.01 04/25/06 LEXMARK INTERNATIONAL INC /KY/ DE 2.02,9.01 04/24/06 LIBERTY PROPERTY TRUST MD 2.02,9.01 04/24/06 LINCARE HOLDINGS INC DE 2.02,9.01 04/24/06 LINCOLN BANCORP /IN/ IN 2.02,9.01 04/21/06 LIQUIDMETAL TECHNOLOGIES INC 7.01 04/25/06 LITHIA MOTORS INC OR 2.02,9.01 04/24/06 LL&E ROYALTY TRUST TX 7.01,9.01 04/25/06 LMI AEROSPACE INC MO 1.01,8.01,9.01 04/19/06 LOCKHEED MARTIN CORP MD 2.02,9.01 04/25/06 LOGICVISION INC DE 2.02,9.01 04/25/06 LTC PROPERTIES INC MD 2.02,9.01 04/25/06 LUBRIZOL CORP OH 5.02 04/24/06 LUBYS INC DE 2.02 04/25/06 LUCENT TECHNOLOGIES INC DE 2.02,8.01,9.01 04/25/06 M I HOMES INC OH 2.02,9.01 04/25/06 MAINSOURCE FINANCIAL GROUP IN 7.01,9.01 04/25/06 MANHATTAN ASSOCIATES INC GA 2.02,9.01 04/25/06 MANUGISTICS GROUP INC DE 1.01,2.02,3.03,8.01,9.01 04/24/06 MARINER ENERGY INC DE 1.01,2.03,9.01 04/19/06 MARKWEST ENERGY PARTNERS L P 1.01,2.03,9.01 04/19/06 MARKWEST HYDROCARBON INC DE 1.01,2.03,9.01 04/19/06 MARSHALL & ILSLEY CORP/WI/ WI 8.01,9.01 04/25/06 MARTEN TRANSPORT LTD DE 2.02,9.01 04/24/06 MARTHA STEWART LIVING OMNIMEDIA INC DE 2.02,9.01 04/25/06 MASTR Asset Backed Securities Trust 2 DE 2.01,9.01 03/09/06 AMEND MATRIXX INITIATIVES INC DE 2.02,9.01 04/24/06 MAXYGEN INC DE 2.02,9.01 04/25/06 MCG CAPITAL CORP DE 1.01,2.03,9.01 04/17/06 AMEND MCGRAW-HILL COMPANIES INC NY 2.02,7.01,9.01 04/25/06 MCMORAN EXPLORATION CO /DE/ DE 1.01,2.03,9.01 04/19/06 MD TECHNOLOGIES INC 2.01,7.01,9.01 04/25/06 AMEND MEDINA INTERNATIONAL CORP 5.02 04/20/06 AMEND MELLON FINANCIAL CORP PA 1.01,1.02,9.01 04/20/06 MEMORY PHARMACEUTICALS CORP 8.01 04/21/06 MERCANTILE BANKSHARES CORP MD 2.02,9.01 04/25/06 MEREDITH CORP IA 2.02,9.01 04/25/06 MEREDITH CORP IA 2.02,9.01 04/25/06 META FINANCIAL GROUP INC DE 2.02,9.01 04/24/06 METROCORP BANCSHARES INC 2.02,9.01 04/24/06 MFA MORTGAGE INVESTMENTS MD 1.01,9.01 04/24/06 MICREL INC CA 8.01 04/25/06 MICROCHIP TECHNOLOGY INC DE 1.01,2.02,9.01 04/25/06 MILLIPORE CORP /MA MA 2.02,8.01,9.01 04/25/06 MIRANT AMERICAS GENERATING LLC DE 5.02 04/24/06 MIRANT MID ATLANTIC LLC DE 5.02 04/19/06 MITCHAM INDUSTRIES INC TX 2.02,9.01 04/18/06 MIVA, INC. DE 2.02,9.01 04/21/06 MOBIUS MANAGEMENT SYSTEMS INC DE 2.02,9.01 04/25/06 MONEYGRAM INTERNATIONAL INC 8.01 04/25/06 MONMOUTH REAL ESTATE INVESTMENT CORP MD 5.03,9.01 04/25/06 MONSANTO CO /NEW/ DE 1.01 04/19/06 MONTEREY GOURMET FOODS DE 2.02,9.01 04/20/06 MORGAN BEAUMONT, INC. NV 8.01 03/27/06 MOSCOW CABLECOM CORP DE 3.01,9.01 04/19/06 MTC TECHNOLOGIES INC DE 2.02,9.01 04/25/06 MUELLER INDUSTRIES INC DE 2.02,9.01 04/25/06 MULTI COLOR CORP OH 1.01,8.01,9.01 04/19/06 MURPHY OIL CORP /DE DE 2.02,7.01,9.01 04/25/06 MUTUALFIRST FINANCIAL INC MD 2.02,9.01 04/20/06 MYERS INDUSTRIES INC OH 2.02,9.01 03/31/06 NABI BIOPHARMACEUTICALS DE 8.01,9.01 04/25/06 NANOGEN INC DE 1.01,7.01,9.01 04/19/06 NANOMETRICS INC CA 2.02,9.01 04/25/06 NASHUA CORP MA 1.01,9.01 04/24/06 NATIONAL BANK OF INDIANAPOLIS CORP IN 1.01 04/20/06 National Collegiate Student Loan Trus 8.01,9.01 04/25/06 NATIONAL PENN BANCSHARES INC PA 7.01,9.01 04/25/06 NATIONAL PRESTO INDUSTRIES INC WI 2.02,4.02,9.01 04/13/06 AMEND NationsHealth, Inc. 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# Presentation: 678276 ## Audit Requirements - Second Annual NIH SBIR/STTR Conference ## Audit? Who said anything about having an audit? - The Department of Health & Human Services did! - HHS specifies requirements for audits of for-profit organizations in - 45 CFR 74.26(d)* - * http://www.hhs.gov/progorg/grantsnet/adminis/cfr45-docs/p74-subc.html#74.26 ## Let’s have that in plain English. - A for-profit organization is required to have a non-Federal audit **if:** - it expended a total of $300,000 or more under one or more HHS awards - _**AND**_ - at least one of the awards is an HHS _grant_ ## I thought the $300,000 expended threshold was related to OMB Circular A-133 and isn’t that for non-profits and universities? - Yes and Yes...However, 45 CFR 74.26(d) essentially incorporates the _thresholds_ and _deadlines_ of OMB Circular A-133. ## So, I must have an A-133 audit if I expend $300,000 or more in HHS funds and I have at least one grant award. - Not exactly.... ## Good news !You have a choice. - 45 CFR 74.26(d) provides for-profit organizations with two options regarding the type of audit that will satisfy the audit requirements. ## 1 - A financial related audit as defined in, and in accordance with, the Government auditing Standards (a.k.a. the “Yellow Book”)* - 2 - An audit that meets the requirements of OMB Circular A-133** ***** http://www.gao.gov/govaud/ybk01.htm ****** http://www.whitehouse.gov/OMB/circulars/a133/a133.html **OR** ## Is there a due date? - Yes, 45 CFR 74.26(d) essentially incorporates the deadlines of OMB Circular A-133 - Audits shall be completed and submitted within: - 30 days after receipt of the auditor’s report - *or* - 9 months after the end of the organization’s fiscal year **Whichever is earlier** ## Okay, the auditors have done their work and the audit is complete. Now what? - _Good_ question, the filing requirements differ from A-133. - For-profit audit reports are submitted to: **National External Audit Review Center** **HHS Office of Audit Services** **323 West 8th Street** **Lucas Place, Room 514** **Kansas City, MO 64105** ## Great, I didn’t expend more than $300,000 in HHS funds this year so I’m off the “hook”, right? - While it is true you are not required to have an audit for that particular year, keep in mind that your grant-related records must be available to NIH or other designated officials for review or audit.

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8.9 027390 SAFFORD_AGRI_CENTER_AZ 32.82 -109.68 0.0 1.3 3.5 54.7 33.3-12.1 9.7 6.7 028012 SNOWFLAKE_AZ 34.50 -110.08 0.0 2.5 3.6 50.3 33.3 -8.5 4.8 8.9 028820 TUCSON_WBO_AZ 32.18 -110.92 0.0 1.3 4.0 59.1 33.3-16.1 11.7 6.6 029439 WINSLOW_MUNICIPAL_AP_AZ 35.03 -110.72 0.0 1.0 2.2 50.2 33.3-13.4 7.0 10.0 030458 BATESVILLE_LIVESTOCK_AR 35.83 -91.77 0.5 14.0 14.6 33.3 33.3 -9.0 6.1 19.1 030798 BLUE_MOUNTAIN_DAM_AR 35.12 -93.65 1.3 15.7 14.6 33.3 33.3 -7.5 6.0 18.3 031962 DERMOTT_3_NE_AR 33.55 -91.38 4.1 25.4 21.0 33.3 33.3-12.6 14.3 25.2 032574 FORT_SMITH_REGIONAL_AP_AR 35.33 -94.37 0.5 12.4 12.4 33.3 33.3 -7.2 5.7 16.5 033862 KEO_AR 34.60 -92.00 2.0 20.3 15.6 33.3 33.3-10.5 6.4 22.2 034248 LITTLE_ROCK_ADAMS_FIELD_AR 34.75 -92.23 2.0 19.0 15.8 33.3 33.3 -8.5 8.3 21.7 034988 MOUNT_IDA_3_SE_AR 34.53 -93.58 2.5 21.6 18.1 33.3 33.3-10.9 9.9 19.7 035908 PRESCOTT_AR 33.80 -93.38 2.0 22.1 18.5 33.3 33.3-11.0 11.7 21.7 040442 BAKERSFIELD_MEADOWS_FIELD_CA 35.43 -119.05 0.0 5.6 5.7 41.0 33.3-26.4 23.2 23.7 040822 BISHOP_AIRPORT_CA 37.37 -118.35 0.0 1.0 4.7 61.3 33.3-25.5 21.6 27.0 042910 EUREKA_CA 40.82 -124.17 8.4 31.2 25.1 33.3 33.3-10.9 8.4 33.8 043257 FRESNO_YOSEMITE_INTL_AP_CA 36.78 -119.72 0.0 9.9 10.3 36.7 33.3-24.5 24.0 29.4 043578 GRATON_CA 38.43 -122.87 1.8 36.1 33.5 33.3 33.3-20.8 22.9 35.0 044890 LEMON_COVE_CA 36.38 -119.03 0.0 14.0 12.9 36.7 33.3-24.6 23.7 26.3 045085 LONG_BEACH_DAUGHERTY_FLD_CA 33.83 -118.17 0.0 8.1 14.5 45.9 33.3-26.5 24.2 16.4 045114 LOS_ANGELES_INTL_ARPT_CA 33.93 -118.40 0.0 8.6 15.0 46.2 33.3-28.3 27.8 17.1 045795 MONTEREY_CA 36.58 -121.92 1.3 17.5 17.4 33.3 33.3-22.9 25.5 30.4 046144 NEWARK_CA 37.52 -122.03 0.8 11.9 12.8 33.3 33.3-22.5 27.8 34.4 047077 PORTERVILLE_CA 36.07 -119.02 0.0 10.4 10.0 37.8 33.3-26.6 26.4 25.4 047292 RED_BLUFF_MUNICIPAL_ARPT_CA 40.15 -122.25 0.5 17.0 18.2 33.3 33.3-15.3 14.3 35.3 047630 SACRAMENTO_EXECUTIVE_ARPT_CA 38.50 -121.50 0.8 16.8 16.2 33.3 33.3-19.4 22.0 33.8 047735 SANDBERG_CA 34.75 -118.72 0.0 3.3 14.3 46.6 33.3-27.1 20.3 20.8 047740 SAN_DIEGO_LINDBERGH_FIELD_CA 32.73 -117.17 0.0 6.1 10.1 42.4 33.3-30.2 24.3 11.4 047769 SAN_FRANCISCO_INTL_AP_CA 37.62 -122.40 1.3 18.5 18.1 33.3 33.3-20.2 24.6 34.7 047772 SAN_FRANCISCO_CA 37.77 -122.43 1.3 19.6 18.2 33.3 33.3-19.4 23.6 34.9 047916 SANTA_CRUZ_CA 36.98 -121.98 1.3 28.4 28.1 33.3 33.3-22.3 23.9 32.1 047946 SANTA_MARIA_PUBLIC_ARPT_CA 34.92 -120.47 0.0 13.0 15.4 35.1 33.3-24.5 23.6 23.6 047953 SANTA_MONICA_PIER_CA 34.00 -118.50 0.0 7.6 13.9 53.6 33.3-29.5 24.7 17.5 048045 SCOTIA_CA 40.48 -124.10 8.4 42.9 35.4 33.3 33.3-13.5 7.8 34.6 048558 STOCKTON_METROPOLITAN_ARPT_CA 37.90 -121.23 0.5 11.2 11.5 33.3 33.3-21.0 25.8 33.5 048758 TAHOE_CITY_CA 39.17 -120.13 1.8 23.9 24.8 33.3 33.3-19.3 22.7 30.8 049742 WINTERS_CA 38.52 -121.97 0.5 18.0 21.2 33.3 33.3-20.6 21.4 34.6 050130 ALAMOSA_SAN_LUIS_VALLEY_RGNL_CO 37.43 -105.87 0.0 0.5 1.1 54.9 33.3 1.9 -0.3 6.0 050454 BAILEY_CO 39.40 -105.48 0.0 2.5 2.8 46.2 33.3 3.8 -5.2 5.8 051713 COCHETOPA_CREEK_CO 38.45 -106.77 0.0 3.0 3.2 38.7 33.3 -1.4 -5.0 7.1 051778 COLORADO_SPRINGS_MUNI_AP_CO 38.82 -104.72 0.0 0.8 1.9 48.8 33.3 6.7 -5.9 5.1 052220 DENVER_STAPLETON_INT'L_ARPT_CO 39.77 -104.87 0.0 2.8 3.0 38.1 33.3 5.5-11.5 5.3 053005 FORT_COLLINS_CO 40.58 -105.08 0.0 1.0 2.5 50.4 33.3 0.7 -6.8 5.3 053488 GRAND_JUNCTION_WALKER_FIELD_CO 39.13 -108.53 0.0 2.3 2.6 40.5 33.3 -4.8 1.5 9.0 056203 OURAY_CO 38.02 -107.67 2.3 10.7 8.8 33.3 33.3 1.2 -1.6 8.0 056740 PUEBLO_MEMORIAL_AP_CO 38.28 -104.50 0.0 0.8 1.6 55.3 33.3 6.3 -4.6 5.0 057167 ROCKY_FORD_2_SE_CO 38.03 -103.70 0.0 0.5 1.7 59.0 33.3 4.6 -3.2 4.7 058204 TELLURIDE_4_WNW_CO 37.95 -107.87 1.8 8.1 7.4 33.3 33.3 -2.6 -2.2 8.2 058434 TRINIDAD_LAS_ANIMAS_COUNTY_AP_CO 37.27 -104.33 0.0 1.5 2.2 52.3 33.3 9.7 -7.8 4.7 060806 BRIDGEPORT_SIKORSKY_MEMORIAL_CT 41.18 -73.15 3.6 15.0 13.1 33.3 33.3 11.7-11.5 10.7 063456 HARTFORD_BRADLEY_INTL_AP_CT 41.93 -72.68 3.0 15.7 13.3 33.3 33.3 18.9-18.5 9.4 079595 WILMINGTON_NEW_CASTLE_CNTY_AP_DE 39.67 -75.60 2.8 14.2 12.7 33.3 33.3 6.3 -6.6 13.4 080211 APALACHICOLA_MUNI_AP_FL 29.73 -85.02 1.8 16.3 17.9 33.3 33.3-13.5 11.2 23.8 082158 DAYTONA_BEACH_INTL_AP_FL 29.18 -81.07 0.5 10.7 12.8 33.3 33.3 -8.2 4.2 21.1 084358 JACKSONVILLE_INTL_ARPT_FL 30.50 -81.70 1.3 14.2 14.8 33.3 33.3-13.3 13.9 25.2 084570 KEY_WEST_INTL_ARPT_FL 24.55 -81.75 0.0 4.6 7.5 40.0 33.3 8.8-13.5 7.9 085663 MIAMI_INTL_AP_FL 25.82 -80.30 0.3 7.1 8.9 33.3 33.3 10.2-11.0 10.3 087851 SAINT_LEO_FL 28.33 -82.27 0.8 13.7 15.3 33.3 33.3 -7.9 4.1 17.5 088758 TALLAHASSEE_REGIONAL_AP_FL 30.40 -84.35 2.5 21.3 23.7 33.3 33.3-13.9 11.6 25.1 088788 TAMPA_INTERNATIONAL_AP_FL 27.97 -82.53 0.3 10.7 12.0 33.3 33.3 -4.7 3.5 16.2 089525 WEST_PALM_BEACH_INTL_ARPT_FL 26.68 -80.10 0.8 9.9 11.6 33.3 33.3 5.3 -4.8 12.6 090435 ATHENS_BEN_EPPS_AP_GA 33.95 -83.33 4.1 22.6 19.7 33.3 33.3-16.2 14.5 27.8 090451 ATLANTA_HARTSFIELD_INTL_AP_GA 33.63 -84.43 4.8 23.6 20.8 33.3 33.3-17.2 10.4 27.9 090495 AUGUSTA_DANIEL_FIELD_GA 33.47 -82.03 4.3 18.8 19.3 33.3 33.3-19.1 17.2 29.1 092166 COLUMBUS_METROPOLITAN_ARPT_GA 32.52 -84.95 4.3 25.9 21.4 33.3 33.3-21.2 17.9 29.2 092283 CORNELIA_GA 34.52 -83.53 6.3 28.7 23.8 33.3 33.3-14.9 10.4 27.0 092485 DALLAS_7_NE_GA 33.98 -84.75 5.3 26.7 22.6 33.3 33.3-18.0 12.9 27.3 093060 ELBERTON_2_N_GA 34.15 -82.85 3.8 24.9 21.0 33.3 33.3-17.6 12.1 27.7 095443 MACON_MIDDLE_GA_REGIONAL_AP_GA 32.68 -83.65 3.3 23.4 21.2 33.3 33.3-20.7 21.2 29.5 097847 SAVANNAH_HUNTER_FIELD_GA 32.02 -81.13 1.3 14.0 13.4 33.3 33.3-18.2 18.3 29.7 098703 TIFTON_EXP_STA_GA 31.50 -83.53 2.5 19.3 20.6 33.3 33.3-16.8 20.8 27.4 101022 BOISE_AIR_TERMINAL_ID 43.57 -116.22 1.0 6.1 5.4 33.3 33.3 12.6-10.8 11.9 102707 DUBOIS_EXPERIMENT_STN_ID 44.25 -112.20 0.0 3.3 3.5 34.1 33.3 2.9 -8.4 11.2 102845 DWORSHAK_FISH_HATCHERY_ID 46.50 -116.32 3.6 11.9 10.7 33.3 33.3 19.4-15.5 10.6 105241 LEWISTON_NEZ_PERCE_CNTY_AP_ID 46.37 -117.02 0.8 4.8 4.5 33.3 33.3 14.1-12.8 10.8 106152 MOSCOW_U_OF_I_ID 46.73 -116.97 3.6 12.7 11.6 33.3 33.3 18.7-19.0 10.7 107211 POCATELLO_REGIONAL_AP_ID 42.92 -112.57 1.0 5.6 5.1 33.3 33.3 6.8 -8.3 11.9 111549 CHICAGO_OHARE_INTL_AP_IL 41.98 -87.92 1.3 6.9 8.1 33.3 33.3 14.9-12.9 10.1 111577 CHICAGO_MIDWAY_AP_IL 41.78 -87.75 1.5 8.4 8.8 33.3 33.3 15.1-11.6 10.2 115751 MOLINE_QUAD_CITY_INTL_AP_IL 41.47 -90.52 0.8 7.9 7.8 33.3 33.3 8.5 -8.3 10.7 116011 NASHVILLE_4_NE_IL 38.37 -89.30 1.3 9.9 10.1 33.3 33.3 4.1 -3.2 14.2 116711 PEORIA_GREATER_PEORIA_AP_IL 40.67 -89.68 1.0 7.6 8.2 33.3 33.3 8.7 -7.5 11.2 117382 ROCKFORD_GREATER_ROCKFORD_AP_IL 42.20 -89.10 0.8 6.1 6.6 33.3 33.3 8.8-11.1 10.1 117636 SALEM_IL 38.65 -88.95 1.3 10.7 11.1 33.3 33.3 4.0 -2.6 13.8 118179 SPRINGFIELD_CAPITAL_AP_IL 39.85 -89.68 1.0 8.6 8.9 33.3 33.3 8.8 -6.8 11.9 118740 URBANA_IL 40.08 -88.25 1.5 9.1 9.5 33.3 33.3 7.3 -7.9 11.6 122738 EVANSVILLE_REGIONAL_AP_IN 38.05 -87.53 2.0 14.2 14.0 33.3 33.3 2.7 -3.7 15.1 122825 FARMLAND_5_NNW_IN 40.25 -85.15 1.8 8.6 8.3 33.3 33.3 11.7 -8.4 11.4 123037 FORT_WAYNE_INTL_AP_IN 41.00 -85.20 1.8 9.1 8.9 33.3 33.3 9.5-10.8 10.6 124259 INDIANAPOLIS_INTL_AP_IN 39.72 -86.27 2.3 11.4 10.9 33.3 33.3 7.2 -7.1 12.2 124837 LA_PORTE_IN 41.62 -86.73 2.8 9.4 9.3 33.3 33.3 10.6 -9.5 10.2 128187 SOUTH_BEND_MICHIANA_RGNL_AP_IN 41.70 -86.33 3.0 9.1 9.5 33.3 33.3 14.7-11.1 10.0 129430 WEST_LAFAYETTE_6_NW_IN 40.47 -87.00 1.0 5.8 7.4 33.3 33.3 8.3 -9.2 11.2 131314 CEDAR_RAPIDS_MUNICIPAL_AP_IA 41.88 -91.72 0.0 4.3 5.4 36.2 33.3 1.5 -4.1 10.4 131319 CEDAR_RAPIDS_NO_1_IA 42.03 -91.58 0.3 4.6 5.4 33.3 33.3 5.2 -4.5 10.3 131442 CHEROKEE_IA 42.75 -95.53 0.0 2.3 3.4 45.8 33.3 4.5 -6.1 9.0 131635 CLINTON_NO_1_IA 41.80 -90.27 0.5 5.6 7.2 33.3 33.3 5.5 -8.8 10.5 131731 COLUMBUS_JUNCT_2_SSW_IA 41.25 -91.37 0.5 6.9 7.1 33.3 33.3 2.4 -6.5 10.8 131954 CRESCO_1_NE_IA 43.38 -92.10 0.0 3.6 4.3 35.2 33.3 2.0 -6.9 9.2 132203 DES_MOINES_INTL_AP_IA 41.53 -93.67 0.5 5.3 5.7 33.3 33.3 5.2 -4.0 10.3 132367 DUBUQUE_REGIONAL_AP_IA 42.40 -90.70 0.5 6.1 7.0 33.3 33.3 5.4 -7.7 10.1 137700 SIOUX_CENTER_2_SE_IA 43.05 -96.15 0.0 2.5 3.9 42.8 33.3 4.9 -7.0 8.5 137708 SIOUX_CITY_SIOUX_GATEWAY_AP_IA 42.38 -96.38 0.0 2.3 3.4 36.3 33.3 4.7 -5.7 8.8 137844 SPENCER_1_N_IA 43.17 -95.15 0.0 1.5 3.0 44.9 33.3 0.7 -4.2 8.9 138706 WATERLOO_MUNICIPAL_AP_IA 42.55 -92.40 0.3 4.1 5.2 33.3 33.3 5.2 -4.9 10.0 140693 BELOIT_KS 39.48 -98.10 0.0 1.8 3.9 50.9 33.3 -4.0 0.2 8.0 141408 CENTRALIA_KS 39.72 -96.12 0.0 4.3 5.2 38.8 33.3 -2.9 -4.2 9.7 141767 CONCORDIA_BLOSSER_MUNI_AP_KS 39.55 -97.65 0.0 2.5 3.8 44.4 33.3 -0.6 -0.2 8.4 142164 DODGE_CITY_REGIONAL_AP_KS 37.77 -99.97 0.0 1.5 3.2 49.5 33.3 3.5 -5.5 5.7 143153 GOODLAND_RENNER_FIELD_KS 39.37 -101.70 0.0 1.3 2.4 50.2 33.3 8.0 -8.6 5.0 144712 LINCOLN_1_ESE_KS 39.03 -98.12 0.0 2.3 4.3 50.0 33.3 -3.2 1.7 7.9 145972 OLATHE_3_E_KS 38.88 -94.77 0.3 5.8 6.5 33.3 33.3 -1.5 -2.3 11.3 147271 SCOTT_CITY_KS 38.48 -100.92 0.0 1.5 3.3 54.1 33.3 2.6 -3.5 5.3 147542 SMITH_CENTER_KS 39.78 -98.78 0.0 1.3 3.2 54.2 33.3 1.3 -1.8 7.3 148167 TOPEKA_MUNICIPAL_AP_KS 39.07 -95.63 0.3 4.8 5.9 33.3 33.3 1.6 -3.2 10.5 148235 TRIBUNE_1_W_KS 38.47 -101.78 0.0 0.5 2.6 61.2 33.3 3.1 -0.8 4.8 148495 WAKEENEY_KS 39.03 -99.88 0.0 1.5 4.0 48.8 33.3 2.8 -1.2 6.0 148830 WICHITA_MID-CONTINENT_AP_KS 37.65 -97.43 0.0 2.8 5.0 42.5 33.3 0.9 0.2 8.7 151855 CINCINNATI_NORTHERN_KY_AP_KY 39.05 -84.67 3.0 12.7 12.6 33.3 33.3 3.5 -5.5 13.8 154746 LEXINGTON_BLUEGRASS_AP_KY 38.03 -84.60 3.8 14.0 15.7 33.3 33.3 1.4 -3.5 16.1 154954 LOUISVILLE_STANDIFORD_FIELD_KY 38.18 -85.73 2.8 14.5 15.6 33.3 33.3 2.8 -6.3 15.4 156110 PADUCAH_BARKLEY_REGIONAL_AP_KY 37.05 -88.77 2.5 18.5 17.8 33.3 33.3 -2.2 0.3 17.1 160549 BATON_ROUGE_RYAN_ARPT_LA 30.53 -91.15 3.8 25.7 23.4 33.3 33.3-13.7 12.5 27.5 162800 ELIZABETH_LA 30.85 -92.78 3.0 24.4 21.6 33.3 33.3-18.2 15.1 25.6 164700 JENNINGS_LA 30.20 -92.67 2.5 19.6 17.3 33.3 33.3-17.4 15.1 25.6 165078 LAKE_CHARLES_REGIONAL_ARPT_LA 30.12 -93.23 1.5 15.7 15.1 33.3 33.3-15.6 11.9 24.5 165090 LAKE_PROVIDENCE_LA 32.80 -91.17 3.0 25.1 24.0 33.3 33.3-13.2 13.5 27.2 165266 LEESVILLE_LA 31.13 -93.25 3.3 24.9 20.6 33.3 33.3-17.7 11.8 24.7 166582 NATCHITOCHES_LA 31.77 -93.10 2.3 25.4 20.9 33.3 33.3-16.6 15.6 25.1 166660 NEW_ORLEANS_INTL_ARPT_LA 30.00 -90.25 2.5 26.9 24.3 33.3 33.3-17.2 14.6 28.4 168440 SHREVEPORT_REGIONAL_ARPT_LA 32.45 -93.82 1.8 24.1 19.6 33.3 33.3-13.7 16.1 23.6 170934 BRUNSWICK_ME 43.90 -69.93 3.0 18.5 15.9 33.3 33.3 31.2-23.4 6.7 171175 CARIBOU_MUNICIPAL_ARPT_ME 46.87 -68.03 2.5 10.7 9.5 33.3 33.3 37.3-21.5 5.6 172426 EASTPORT_ME 44.92 -67.00 4.1 17.0 14.0 33.3 33.3 39.5-23.7 6.1 172765 FARMINGTON_ME 44.68 -70.15 2.3 13.7 12.9 33.3 33.3 41.9-26.3 6.2 176905 PORTLAND_INTL_JETPORT_ME 43.65 -70.30 2.5 16.8 14.2 33.3 33.3 30.3-23.2 6.9 177037 RANGELEY_ME 44.97 -70.65 2.5 10.4 9.7 33.3 33.3 42.6-25.4 6.1 180465 BALTIMORE_BLT-WASHNGTN_INT'L_MD 39.17 -76.68 2.8 16.0 13.7 33.3 33.3 3.4 -3.9 14.5 181750 CHESTERTOWN_MD 39.22 -76.07 3.6 16.3 13.7 33.3 33.3 3.0 -5.4 14.6 188005 SALISBURY_WICOMICO_CO_AP_MD 38.33 -75.52 5.8 18.0 16.3 33.3 33.3 -0.8 -1.0 17.2 188380 SNOW_HILL_4_N_MD 38.23 -75.38 5.8 16.5 15.8 33.3 33.3 0.1 -1.3 17.5 190535 BEDFORD_MA 42.48 -71.28 2.8 17.3 15.0 33.3 33.3 24.9-16.4 8.0 190736 EAST_MILTON_BLUE_HILL_OBSERVA_MA 42.22 -71.12 4.3 23.1 18.6 33.3 33.3 20.4-13.3 8.5 190770 BOSTON_LOGAN_INT'L_ARPT_MA 42.37 -71.02 2.8 17.8 15.3 33.3 33.3 23.5-17.4 8.2 199316 WEST_MEDWAY_MA 42.13 -71.43 3.0 18.8 15.6 33.3 33.3 20.7-19.4 8.8 200146 ALMA_MI 43.38 -84.67 1.3 7.1 7.4 33.3 33.3 22.4-22.4 8.0 200164 ALPENA_COUNTY_REGIONAL_AP_MI 45.07 -83.58 1.8 6.6 6.8 33.3 33.3 25.3-23.0 6.3 200230 ANN_ARBOR_UNIV_OF_MICH_MI 42.30 -83.72 2.8 9.4 9.7 33.3 33.3 16.4-14.8 8.9 200925 BOYNE_FALLS_MI 45.17 -84.92 2.3 6.9 6.9 33.3 33.3 10.8-10.3 6.5 202103 DETROIT_METROPOLITAN_ARPT_MI 42.22 -83.35 2.0 8.1 8.8 33.3 33.3 20.5-16.1 9.0 202626 ESCANABA_MI 45.75 -87.03 1.3 5.1 4.9 33.3 33.3 26.6-19.1 6.7 202846 FLINT_BISHOP_INTL_ARPT_MI 42.97 -83.75 1.5 6.1 6.4 33.3 33.3 22.4-16.0 8.3 203333 GRAND_RAPIDS_KENT_COUNTY_INT'_MI 42.88 -85.52 2.0 6.6 7.7 33.3 33.3 11.1-14.4 8.7 203429 GREENVILLE_2_NNE_MI 43.20 -85.25 1.5 7.1 7.6 33.3 33.3 16.1-23.4 8.3 203908 HANCOCK_HOUGHTON_CO_AP_MI 47.17 -88.50 3.8 11.2 10.4 33.3 33.3 18.4-14.1 6.2 203936 HOUGHTON_LAKE_ROSCOMMON_CO_AR_MI 44.37 -84.68 1.8 6.3 6.4 33.3 33.3 28.0-22.1 7.1 204502 LAKE_CITY_EXP_FARM_MI 44.32 -85.20 1.8 6.1 6.1 33.3 33.3 20.0-21.6 7.2 204641 LANSING_CAPITAL_CITY_ARPT_MI 42.78 -84.58 1.8 6.3 7.0 33.3 33.3 18.5-17.7 8.6 205184 MARQUETTE_COUNTY_ARPT_MI 46.53 -87.55 2.5 9.7 9.0 33.3 33.3 11.2 -8.6 6.4 205712 MUSKEGON_COUNTY_ARPT_MI 43.17 -86.23 2.5 7.9 7.9 33.3 33.3 18.1-14.9 8.6 207366 SAULT_STE_MARIE_SANDERSON_FIE_MI 46.47 -84.35 2.5 8.6 7.6 33.3 33.3 21.6-22.5 6.0 210252 ARGYLE_4_E_MN 48.33 -96.73 0.0 2.3 2.9 43.8 33.3 11.1 -9.2 5.3 210287 ARTICHOKE_LAKE_MN 45.38 -96.15 0.0 2.8 3.6 35.4 33.3 4.3 -6.5 7.0 210643 BEMIDJI_MN 47.47 -94.88 0.3 2.0 2.3 33.3 33.3 13.1-10.4 6.0 211691 COLLEGEVILLE_ST_JOHN_MN 45.58 -94.40 0.0 2.8 3.9 36.9 33.3 6.6 -8.9 7.2 212248 DULUTH_INTERNATIONAL_ARPT_MN 46.83 -92.22 0.8 3.6 4.2 33.3 33.3 17.2-15.0 6.7 212737 FARMINGTON_3_NW_MN 44.67 -93.18 0.0 3.6 3.7 42.5 33.3 4.4-11.5 8.0 213303 GRAND_RAPIDS_FORESTRY_LAB_MN 47.25 -93.50 0.5 2.8 3.0 33.3 33.3 15.2-13.4 6.3 214026 INTERNATIONAL_FALLS_INTL_AP_MN 48.57 -93.40 0.5 2.8 2.9 33.3 33.3 23.0-14.5 6.0 215435 MINNEAPOLIS-ST_PAUL_INT'L_ARP_MN 44.88 -93.23 0.3 3.8 4.0 33.3 33.3 6.5 -7.9 7.8 217004 ROCHESTER_INTERNATIONAL_ARPT_MN 43.90 -92.50 0.5 3.0 3.5 33.3 33.3 8.8 -5.6 8.8 217294 ST_CLOUD_REGIONAL_ARPT_MN 45.55 -94.05 0.3 2.5 3.0 33.3 33.3 10.9 -6.9 7.3 217907 SPRINGFIELD_1_NW_MN 44.25 -94.98 0.0 2.0 3.6 46.9 33.3 6.0 -8.4 8.1 220955 BOONEVILLE_MS 34.67 -88.57 4.6 23.6 21.0 33.3 33.3-12.8 9.6 24.3 224472 JACKSON_INTERNATIONAL_AP_MS 32.32 -90.08 4.6 26.2 22.4 33.3 33.3-14.0 10.0 28.8 225614 MCCOMB_PIKE_COUNTY_AP_MS 31.23 -90.47 4.1 32.0 26.7 33.3 33.3-17.0 13.6 28.3 225776 MERIDIAN_KEY_FIELD_MS 32.33 -88.75 5.6 28.7 25.4 33.3 33.3-16.2 15.5 28.7 230164 ANDERSON_MO 36.65 -94.43 0.0 8.1 9.6 39.8 33.3 -5.3 0.1 14.0 230817 BOONVILLE_MO 38.97 -92.75 0.5 7.9 8.7 33.3 33.3 1.2 -4.0 12.4 231791 COLUMBIA_REGIONAL_AIRPORT_MO 38.82 -92.22 0.8 9.9 10.0 33.3 33.3 -0.0 -3.6 12.8 233079 FULTON_MO 38.85 -91.93 0.8 9.9 9.8 33.3 33.3 -1.5 -3.7 12.8 235834 MOUNTAIN_GROVE_2_N_MO 37.15 -92.27 0.8 11.9 11.8 33.3 33.3 -1.9 2.7 15.2 237455 ST_LOUIS_LAMBERT_INT'L_ARPT_MO 38.75 -90.37 1.0 9.9 10.3 33.3 33.3 1.9 -2.2 13.4 237963 SPICKARD_MO 40.25 -93.72 0.3 5.6 5.9 33.3 33.3 4.4 -6.6 10.9 237976 SPRINGFIELD_REGIONAL_ARPT_MO 37.23 -93.38 1.0 10.4 10.6 33.3 33.3 0.2 0.4 14.0 238515 UNION_MO 38.45 -91.00 1.0 9.7 10.5 33.3 33.3 1.1 -2.8 13.6 238880 WEST_PLAINS_MO 36.75 -91.83 1.0 13.2 13.2 33.3 33.3 -1.8 3.3 16.6 240807 BILLINGS_LOGAN_INT'L_ARPT_MT 45.80 -108.55 0.0 2.8 3.0 33.8 33.3 16.1-18.4 5.7 243558 GLASGOW_INTL_ARPT_MT 48.22 -106.62 0.0 1.3 1.2 35.5 33.3 20.7-14.1 4.0 243751 GREAT_FALLS_INTL_ARPT_MT 47.47 -111.38 0.0 2.5 2.5 34.8 33.3 6.1 -8.2 6.6 243885 HAMILTON_MT 46.23 -114.17 0.5 3.3 4.1 33.3 33.3 15.6-14.1 10.1 243996 HAVRE_CITY-COUNTY_AP_MT 48.55 -109.77 0.0 1.5 1.8 43.7 33.3 18.2-19.2 4.7 244055 HELENA_REGIONAL_AIRPORT_MT 46.60 -111.97 0.0 1.8 2.0 34.0 33.3 7.3-17.1 8.4 244558 KALISPELL_GLACIER_PK_INT'L_AR_MT 48.32 -114.25 1.5 6.3 5.3 33.3 33.3 11.8-14.8 8.3 245603 MELVILLE_4_W_MT 46.10 -110.05 0.0 2.0 2.8 48.1 33.3 7.1 -9.7 7.0 245745 MISSOULA_INTERNATIONAL_AP_MT 46.92 -114.10 0.8 3.6 3.6 33.3 33.3 13.4-10.5 9.4 248430 TWIN_BRIDGES_MT 45.55 -112.33 0.0 0.8 1.0 53.2 33.3 7.5 -5.5 10.3 248501 VALIER_MT 48.32 -112.25 0.0 0.8 1.2 52.4 33.3 4.2 -3.0 6.8 251145 BRIDGEPORT_NE 41.67 -103.10 0.0 1.0 1.9 52.9 33.3 11.4-12.1 4.6 252145 DALTON_NE 41.42 -102.97 0.0 2.0 3.2 46.0 33.3 10.0-11.3 4.7 253185 GENOA_2_W_NE 41.45 -97.77 0.0 2.8 4.0 40.1 33.3 1.5 -3.7 8.1 253395 GRAND_ISLAND_CENTRAL_NE_REGIO_NE 40.97 -98.32 0.0 2.5 3.8 41.9 33.3 3.3 -4.0 7.7 254795 LINCOLN_MUNICIPAL_ARPT_NE 40.83 -96.77 0.0 2.8 3.6 37.7 33.3 -0.8 -4.4 8.9 255925 NEWPORT_NE 42.60 -99.33 0.0 2.5 3.8 39.9 33.3 4.0 -5.3 6.8 255995 NORFOLK_KARL_STEFAN_MEM_ARPT_NE 41.98 -97.43 0.0 2.5 3.8 36.1 33.3 3.3 -6.5 8.3 256065 NORTH_PLATTE_REGIONAL_AP_NE 41.12 -100.67 0.0 1.8 2.7 41.5 33.3 9.7 -8.1 5.8 256255 OMAHA_EPPLEY_AIRFIELD_NE 41.32 -95.90 0.0 3.6 4.2 34.4 33.3 2.0 -4.9 9.4 256260 OMAHA_9_NW_NE 41.35 -96.02 0.3 3.6 4.2 33.3 33.3 7.8 -6.7 9.3 257665 SCOTTSBLUFF_W_B_HEILIG_FIELD_NE 41.87 -103.60 0.0 2.3 2.9 40.8 33.3 11.0-11.7 4.6 258320 SUPERIOR_NE 40.02 -98.07 0.0 2.8 3.8 44.5 33.3 -1.3 -2.0 8.0 258760 VALENTINE_MILLER_FIELD_NE 42.87 -100.55 0.0 1.5 2.4 47.8 33.3 4.7 -7.3 5.9 262573 ELKO_MUNICIPAL_ARPT_NV 40.83 -115.80 0.5 4.6 4.5 33.3 33.3 -5.9 3.2 14.0 262631 ELY_YELLAND_FIELD_NV 39.30 -114.85 0.0 4.1 3.9 35.5 33.3-13.3 7.3 14.0 264436 LAS_VEGAS_MCCARRAN_INTL_AP_NV 36.08 -115.15 0.0 0.5 3.3 61.7 33.3-22.3 16.6 16.0 266779 RENO_TAHOE_INTERNATIONAL_AP_NV 39.48 -119.77 0.0 3.3 4.9 37.4 33.3-15.5 8.7 29.2 268988 WELLS_NV 41.10 -114.97 0.3 4.3 4.3 33.3 33.3 -2.7 -2.5 12.3 269171 WINNEMUCCA_WB_CITY_NV 40.97 -117.72 0.3 3.6 3.2 33.3 33.3 -8.6 5.2 18.2 271683 CONCORD_MUNICIPAL_ARPT_NH 43.20 -71.50 1.5 11.7 10.5 33.3 33.3 27.0-19.1 7.5 275639 MOUNT_WASHINGTON_NH 44.27 -71.30 15.5 36.8 33.0 33.3 33.3 27.9-23.2 6.7 280311 ATLANTIC_CITY_INTL_AP_NJ 39.45 -74.57 3.6 15.7 13.5 33.3 33.3 4.0 -6.2 14.3 283951 HIGHTSTOWN_2_W_NJ 40.27 -74.57 3.8 14.5 12.7 33.3 33.3 9.9-11.9 12.2 285581 MILLVILLE_MUNICIPAL_AP_NJ 39.37 -75.08 3.6 16.5 14.6 33.3 33.3 3.7 -5.0 14.3 286026 NEWARK_INTERNATIONAL_ARPT_NJ 40.72 -74.18 3.8 16.3 13.7 33.3 33.3 10.8 -8.3 11.5 290234 ALBUQUERQUE_INTL_ARPT_NM 35.05 -106.60 0.0 1.0 2.0 54.4 33.3 4.5 -3.7 5.4 293180 FENCE_LAKE_NM 34.65 -108.67 0.0 3.8 4.3 49.2 33.3 -9.3 1.0 7.4 295617 MELROSE_NM 34.43 -103.62 0.0 1.0 2.1 62.8 33.3 9.7-13.2 3.4 295937 MOSQUERO_1_NE_NM 35.80 -103.93 0.0 0.3 1.7 63.9 33.3 6.4 -8.8 3.9 299156 TUCUMCARI_4_NE_NM 35.20 -103.68 0.0 0.3 1.8 64.8 33.3 7.2 -8.5 3.6 300042 ALBANY_COUNTY_AP_NY 42.75 -73.80 2.0 13.2 10.4 33.3 33.3 22.0-15.1 8.3 300687 BINGHAMTON_EDWIN_A_LINK_FIELD_NY 42.20 -75.98 3.6 13.0 11.5 33.3 33.3 15.6-17.1 9.0 300889 BRIDGEHAMPTON_NY 40.95 -72.30 4.8 18.8 16.8 33.3 33.3 12.2 -9.1 11.2 301012 BUFFALO_NIAGARA_INTL_AP_NY 42.93 -78.73 5.1 11.4 11.5 33.3 33.3 23.4-21.2 7.9 304912 LOWVILLE_NY 43.80 -75.48 3.8 11.7 11.8 33.3 33.3 25.8-22.1 7.4 305803 NEW_YORK_J_F_KENNEDY_INT'L_AR_NY 40.65 -73.80 3.0 14.7 12.3 33.3 33.3 9.5-10.9 11.6 305811 NEW_YORK_LAGUARDIA_ARPT_NY 40.78 -73.88 3.0 15.2 12.7 33.3 33.3 7.6 -9.8 11.4 307167 ROCHESTER_GREATER_ROCHESTER_I_NY 43.12 -77.68 3.8 9.9 9.8 33.3 33.3 20.5-20.2 7.8 310300 ASHEVILLE_REGIONAL_ARPT_NC 35.43 -82.53 2.8 17.8 16.2 33.3 33.3 -9.8 5.1 25.2 310301 ASHEVILLE_NC 35.60 -82.53 2.5 15.5 13.5 33.3 33.3 -9.1 7.5 24.6 311458 HATTERAS_BILLY_MITCHELL_AP_NC 35.23 -75.62 4.8 21.1 18.5 33.3 33.3-10.1 4.3 27.8 311624 CELO_2_S_NC 35.83 -82.18 4.6 25.1 22.4 33.3 33.3 -9.6 6.7 23.9 311690 CHARLOTTE_DOUGLAS_INTL_ARPT_NC 35.22 -80.95 3.6 18.0 15.9 33.3 33.3-14.2 9.4 26.2 311975 CONCORD_NC 35.42 -80.60 2.8 17.8 16.0 33.3 33.3-13.0 11.3 25.6 312102 COWEETA_EXP_STATION_NC 35.07 -83.43 7.9 37.8 30.3 33.3 33.3-13.8 7.9 26.1 313630 GREENSBORO_PIEDMONT_TRIAD_INT_NC 36.10 -79.95 3.8 16.5 14.1 33.3 33.3-10.0 8.1 23.5 313976 HENDERSONVILLE_1_NE_NC 35.33 -82.45 3.8 22.6 19.9 33.3 33.3 -9.7 11.7 25.6 316805 PISGAH_FOREST_1_N_NC 35.27 -82.70 3.8 27.4 23.5 33.3 33.3-12.3 8.6 25.7 317069 RALEIGH_DURHAM_INTERNATIONAL_NC 35.87 -78.78 3.8 18.3 15.6 33.3 33.3-10.1 9.6 24.5 317202 REIDSVILLE_2_NW_NC 36.38 -79.70 4.1 18.8 15.9 33.3 33.3 -8.3 7.8 22.6 317994 SMITHFIELD_NC 35.52 -78.35 3.6 20.3 17.1 33.3 33.3-12.6 9.7 25.8 318964 WADESBORO_NC 34.97 -80.08 2.3 17.3 16.6 33.3 33.3-14.6 11.3 27.2 319123 WATERVILLE_2_NC 35.77 -83.10 5.8 19.3 16.5 33.3 33.3 -6.1 5.8 23.9 319147 WAYNESVILLE_1_E_NC 35.48 -82.97 5.6 23.1 19.6 33.3 33.3 -9.4 7.4 24.9 319457 WILMINGTON_INTERNATIONAL_ARPT_NC 34.27 -77.90 3.3 18.3 17.2 33.3 33.3-14.4 11.4 29.1 319555 W_KERR_SCOTT_RESERVOIR_NC 36.13 -81.23 3.0 21.1 17.3 33.3 33.3 -9.4 7.9 23.1 320819 BISMARCK_MUNICIPAL_ARPT_ND 46.77 -100.75 0.3 2.0 2.4 33.3 33.3 16.9-16.5 5.2 322859 FARGO_HECTOR_INTERNATIONAL_AP_ND 46.93 -96.82 0.3 2.3 3.1 33.3 33.3 13.6 -8.8 5.9 326365 NEW_SALEM_5_NW_ND 46.90 -101.48 0.0 2.0 2.3 42.6 33.3 11.5-15.9 5.0 328812 TROTTERS_3_SSE_ND 47.28 -103.90 0.0 1.5 1.8 36.6 33.3 12.2-20.2 4.4 329425 WILLISTON_ND 48.15 -103.62 0.0 1.8 2.0 35.7 33.3 10.3-15.2 4.5 330058 AKRON_AKRON-CANTON_REG_AP_OH 40.92 -81.43 3.8 12.2 10.4 33.3 33.3 14.9-14.0 10.8 331390 CELINA_3_NE_OH 40.57 -84.53 2.3 10.7 9.6 33.3 33.3 13.6-12.4 11.0 331657 CLEVELAND_HOPKINS_INTL_AP_OH 41.40 -81.85 3.3 10.9 10.3 33.3 33.3 12.9-14.6 10.0 331786 COLUMBUS_PORT_COLUMBUS_INTL_A_OH 39.98 -82.88 2.5 11.7 9.8 33.3 33.3 7.3 -8.8 12.0 332075 DAYTON_INTERNATIONAL_AIRPORT_OH 39.90 -84.22 2.8 11.7 10.4 33.3 33.3 9.9 -7.4 12.0 332599 ELYRIA_3_E_OH 41.38 -82.05 3.3 11.2 10.1 33.3 33.3 14.1-16.3 10.0 332786 FINDLAY_AIRPORT_OH 41.02 -83.67 1.5 8.1 7.9 33.3 33.3 14.5-11.3 10.5 332791 FINDLAY_WPCC_OH 41.05 -83.67 2.3 10.4 9.4 33.3 33.3 13.9-11.1 10.5 334865 MANSFIELD_LAHM_MUNICIPAL_ARPT_OH 40.82 -82.52 2.5 11.2 9.9 33.3 33.3 10.2-12.9 10.8 335747 NEWARK_WATER_WORKS_OH 40.08 -81.42 2.8 12.2 11.1 33.3 33.3 5.7-12.9 12.0 338357 TOLEDO_EXPRESS_AIRPORT_OH 41.58 -83.80 1.8 7.9 8.7 33.3 33.3 15.3-15.9 9.8 339406 YOUNGSTOWN_REGIONAL_AIRPORT_OH 41.25 -80.67 3.6 11.2 9.4 33.3 33.3 10.4-17.2 10.3 344019 HELENA_1_SSE_OK 36.53 -98.28 0.0 3.6 6.4 51.3 33.3 -0.5 -0.6 8.0 346661 OKLAHOMA_CITY_WILL_ROGERS_WOR_OK 35.38 -97.60 0.0 5.1 7.5 42.7 33.3 -0.8 -0.1 9.5 347201 PONCA_CITY_MUNICIPAL_AP_OK 36.73 -97.10 0.0 4.1 6.7 41.5 33.3 0.8 -3.7 9.7 348992 TULSA_INTERNATIONAL_AIRPORT_OK 36.20 -95.88 0.0 7.1 9.9 33.7 33.3 -3.9 -1.1 12.3 350328 ASTORIA_REGIONAL_AIRPORT_OR 46.15 -123.88 15.5 43.2 36.2 33.3 33.3 14.0-13.3 21.1 350501 BARNES_STATION_OR 43.95 -120.22 1.5 6.3 5.2 33.3 33.3 5.4 -5.4 18.2 351836 COQUILLE_CITY_OR 43.18 -124.20 13.5 43.7 33.2 33.3 33.3 -0.9 -5.0 28.2 351862 CORVALLIS_STATE_UNIV_OR 44.63 -123.18 8.6 29.7 25.7 33.3 33.3 9.3-11.2 22.8 351877 CORVALLIS_WATER_BUREAU_OR 44.52 -123.45 13.2 51.1 42.3 33.3 33.3 7.8-14.5 23.5 352709 EUGENE_MAHLON_SWEET_ARPT_OR 44.12 -123.22 9.4 32.3 29.2 33.3 33.3 3.6 -9.6 24.5 353047 FOSTER_DAM_OR 44.42 -122.67 13.5 35.3 29.0 33.3 33.3 6.9-12.1 23.0 354811 LEABURG_1_SW_OR 44.10 -122.68 17.0 43.2 35.5 33.3 33.3 5.0-11.4 24.0 355050 LOOKOUT_POINT_DAM_OR 43.92 -122.77 11.2 26.9 23.7 33.3 33.3 3.4 -9.7 24.7 355429 MEDFORD_ROGUE_VALLEY_INTL_AP_OR 42.38 -122.87 2.3 9.7 9.6 33.3 33.3 -1.6 -0.1 29.8 355593 MILTON_FREEWATER_OR 45.95 -118.42 2.3 7.9 6.7 33.3 33.3 13.0 -8.7 12.3 356546 PENDLETON_E_OR_REGIONAL_AP_OR 45.70 -118.83 1.8 6.9 5.8 33.3 33.3 13.7-10.9 13.0 356751 PORTLAND_INTERNATIONAL_AP_OR 45.60 -122.62 7.9 23.4 19.5 33.3 33.3 12.1-11.7 20.3 357500 SALEM_MCNARY_FIELD_OR 44.90 -123.00 7.9 26.2 22.9 33.3 33.3 9.4-11.2 21.8 360106 ALLENTOWN_LEHIGH_VALLEY_INTL_PA 40.65 -75.45 3.6 14.5 12.3 33.3 33.3 9.2-11.0 11.5 362682 ERIE_INTERNATIONAL_AP_PA 42.08 -80.18 3.6 10.7 10.8 33.3 33.3 16.1-16.4 8.9 364432 KANE_1_NNE_PA 41.68 -78.80 5.6 14.2 12.2 33.3 33.3 19.9-18.8 9.6 366889 PHILADELPHIA_INTERNATIONAL_AP_PA 39.87 -75.23 2.8 15.0 12.5 33.3 33.3 5.5 -9.1 12.9 366993 PITTSBURGH_INTERNATIONAL_AP_PA 40.50 -80.23 3.8 13.5 11.0 33.3 33.3 11.1-13.8 11.6 367931 SELINSGROVE_2_S_PA 40.78 -76.87 2.0 11.9 11.2 33.3 33.3 11.7-14.5 11.1 368073 SHIPPENSBURG_PA 40.05 -77.52 2.8 13.2 12.3 33.3 33.3 7.9 -8.3 12.3 369705 WILKES-BARRE_SCRANTON_INTL_AP_PA 41.33 -75.73 2.5 9.7 9.1 33.3 33.3 9.8-10.9 10.4 369728 WILLIAMSPORT_REGIONAL_AP_PA 41.25 -76.92 2.5 12.2 12.1 33.3 33.3 13.6-14.6 10.4 374266 KINGSTON_RI 41.48 -71.53 4.1 21.1 17.3 33.3 33.3 20.1-14.4 10.1 376698 PROVIDENCE_T_F_GREEN_STATE_AR_RI 41.72 -71.43 3.3 18.3 15.4 33.3 33.3 14.7-13.2 9.6 381544 CHARLESTON_INTL_ARPT_SC 32.90 -80.03 1.8 16.0 14.3 33.3 33.3-17.9 14.5 30.6 381770 CLEMSON_UNIVERSITY_SC 34.67 -82.82 5.3 26.4 21.4 33.3 33.3-14.8 13.5 27.0 381939 COLUMBIA_METRO_ARPT_SC 33.95 -81.12 2.5 19.3 17.6 33.3 33.3-15.9 14.6 28.5 383747 GREER_GREENV'L-SPARTANBRG_AP_SC 34.90 -82.22 4.1 21.3 18.6 33.3 33.3-15.2 8.4 26.9 387722 SANTUCK_SC 34.63 -81.52 3.8 19.3 18.3 33.3 33.3-14.7 12.7 27.4 389350 WINTHROP_UNIVERSITY_SC 34.93 -81.03 4.1 19.6 18.1 33.3 33.3-13.9 9.5 27.1 390020 ABERDEEN_REGIONAL_ARPT_SD 45.45 -98.42 0.0 1.8 2.6 36.1 33.3 7.2 -8.5 6.3 390043 ACADEMY_2_NE_SD 43.48 -99.07 0.0 1.5 3.1 49.8 33.3 3.8 -7.1 6.7 394127 HURON_REGIONAL_ARPT_SD 44.40 -98.22 0.0 2.0 3.3 35.2 33.3 8.0-10.3 6.9 394834 LEAD_SD 44.35 -103.77 1.5 7.1 6.7 33.3 33.3 18.6-16.4 4.3 396574 PICKSTOWN_SD 43.07 -98.53 0.0 1.5 2.9 44.1 33.3 7.9 -6.5 7.2 396937 RAPID_CITY_REGIONAL_ARPT_SD 44.05 -103.05 0.3 1.8 2.6 33.3 33.3 23.9-18.8 4.5 397667 SIOUX_FALLS_FOSS_FIELD_SD 43.58 -96.75 0.3 2.0 3.0 33.3 33.3 14.5-10.3 7.9 398307 TIMBER_LAKE_SD 45.43 -101.07 0.0 2.0 2.8 46.7 33.3 12.4-15.0 5.3 398472 TYNDALL_SD 42.98 -97.87 0.0 2.0 3.5 46.0 33.3 5.6 -6.9 7.7 401094 BRISTOL_TRI_CITY_AIRPORT_TN 36.47 -82.40 5.3 16.5 14.8 33.3 33.3 -3.1 3.7 21.7 401656 CHATTANOOGA_LOVELL_FIELD_AP_TN 35.03 -85.20 5.6 27.4 22.2 33.3 33.3-12.0 5.7 25.6 402108 COVINGTON_1_W_TN 35.57 -89.67 4.3 21.6 20.2 33.3 33.3 -8.3 4.7 21.4 404950 KNOXVILLE_MCGHEE_TYSON_AP_TN 35.82 -83.98 6.3 21.3 18.0 33.3 33.3 -6.2 6.5 23.4 405954 MEMPHIS_INTERNATIONAL_AP_TN 35.07 -89.98 4.6 22.4 20.4 33.3 33.3 -5.7 4.7 22.8 406402 NASHVILLE_INTERNATIONAL_AP_TN 36.12 -86.68 4.8 18.0 17.1 33.3 33.3 -3.3 1.3 21.0 410016 ABILENE_REGIONAL_AP_TX 32.42 -99.68 0.0 2.8 4.9 48.6 33.3 -5.9 0.9 8.0 410211 AMARILLO_INTERNATIONAL_AP_TX 35.22 -101.70 0.0 1.0 2.4 54.4 33.3 8.1-11.9 4.2 410428 AUSTIN_MUELLER_MUNICIPAL_AP_TX 30.30 -97.70 0.0 8.4 8.7 34.6 33.3-16.3 7.4 15.5 410613 BEAUMONT_RESEARCH_CTR_TX 30.07 -94.28 3.0 17.0 17.1 33.3 33.3-17.2 9.9 22.7 411128 BROWNFIELD_2_TX 33.18 -102.27 0.0 1.0 2.9 60.9 33.3 6.6 -7.5 3.6 411136 BROWNSVILLE_S_PADRE_ISL_INTL_TX 25.90 -97.43 0.0 1.5 4.4 50.6 33.3 -9.0 4.9 8.8 411578 CENTER_TX 31.80 -94.17 2.5 19.8 18.8 33.3 33.3-11.7 15.2 22.8 411761 CLARENDON_TX 34.93 -100.88 0.0 2.0 3.7 54.7 33.3 5.7 -7.4 4.8 411800 CLEBURNE_TX 32.33 -97.40 0.0 8.6 10.0 33.7 33.3-11.8 9.1 14.0 412015 CORPUS_CHRISTI_INTL_ARPT_TX 27.77 -97.52 0.0 2.5 7.3 44.1 33.3-14.7 7.1 13.2 412121 CROSBYTON_TX 33.65 -101.25 0.0 2.3 4.2 53.7 33.3 4.2 -4.7 4.8 412244 DALLAS_LOVE_FIELD_TX 32.85 -96.85 0.0 9.1 10.6 36.9 33.3-10.4 6.7 14.9 412360 DEL_RIO_INTERNATIONAL_AP_TX 29.38 -100.93 0.0 1.0 3.9 52.1 33.3 -8.0 1.4 6.1 412797 EL_PASO_INTERNATIONAL_AP_TX 31.82 -106.38 0.0 0.3 1.7 64.7 33.3 1.2 -2.7 3.0 412820 ELGIN_TX 30.35 -97.37 0.0 8.9 9.4 45.9 33.3-16.5 14.8 16.3 414300 HOUSTON_BUSH_INTERCONTINENTAL_TX 30.00 -95.37 1.0 14.0 13.7 33.3 33.3-17.0 13.2 20.7 415411 LUBBOCK_INTERNATIONAL_AP_TX 33.67 -101.82 0.0 1.5 3.0 52.0 33.3 5.5 -8.0 4.1 415890 MIDLAND_INTERNATIONAL_AP_TX 31.95 -102.18 0.0 0.8 2.4 60.9 33.3 5.0 -7.7 3.6 417079 PLAINVIEW_TX 34.18 -101.70 0.0 1.3 2.7 56.7 33.3 7.0 -6.4 4.2 417174 PORT_ARTHUR_JEFFERSON_COUNTY_TX 29.95 -94.02 1.5 17.3 15.5 33.3 33.3-15.1 11.8 23.0 417936 SAM_RAYBURN_DAM_TX 31.07 -94.10 2.8 20.1 20.7 33.3 33.3-17.0 15.5 23.0 417943 SAN_ANGELO_MATHIS_FIELD_TX 31.35 -100.50 0.0 1.8 5.0 50.4 33.3 -6.2 3.2 6.8 417945 SAN_ANTONIO_INTL_AP_TX 29.53 -98.47 0.0 5.6 7.5 35.5 33.3-15.6 10.4 12.9 418623 STEPHENVILLE_1_N_TX 32.25 -98.20 0.0 6.6 8.2 40.7 33.3-10.4 7.5 12.1 419364 VICTORIA_REGIONAL_AP_TX 28.87 -96.93 0.5 5.3 8.4 33.3 33.3-13.4 10.4 15.7 419419 WACO_REGIONAL_AP_TX 31.62 -97.23 0.0 8.1 10.8 34.9 33.3-13.4 11.1 15.2 419729 WICHITA_FALLS_MUNICIPAL_ARPT_TX 33.98 -98.50 0.0 4.1 7.7 47.3 33.3 -2.5 1.7 9.3 422090 DELTA_UT 39.33 -112.60 0.0 2.8 3.0 41.1 33.3-13.4 8.1 12.0 422385 ECHO_DAM_UT 40.97 -111.43 0.8 5.6 5.2 33.3 33.3 -1.0 -3.5 11.2 422798 FERRON_UT 39.08 -111.13 0.0 2.0 3.0 51.7 33.3-12.1 5.3 11.3 424508 KANAB_UT 37.03 -112.52 0.0 7.4 8.9 41.9 33.3-18.5 16.1 12.6 425402 MANTI_UT 39.25 -111.63 0.8 6.1 5.2 33.3 33.3 -8.0 7.0 11.5 426601 PANGUITCH_UT 37.82 -112.43 0.0 2.0 3.1 46.3 33.3-11.2 8.1 12.7 427598 SALT_LAKE_CITY_INT'L_ARPT_UT 40.78 -111.97 1.3 8.1 6.7 33.3 33.3 -5.0 -6.2 11.5 428771 TOOELE_UT 40.53 -112.30 1.0 9.7 8.2 33.3 33.3 -4.1 0.6 11.6 429382 WENDOVER_USAF_AUXILIARY_FIELD_UT 40.72 -114.03 0.0 0.5 1.4 59.4 33.3 4.4 -7.3 12.2 431081 BURLINGTON_INTERNATIONAL_AP_VT 44.47 -73.15 2.0 8.4 7.8 33.3 33.3 34.8-23.2 6.8 440327 ASHLAND_VA 37.75 -77.48 4.3 15.2 14.1 33.3 33.3 -4.4 1.7 18.2 442009 CORBIN_VA 38.20 -77.37 3.8 15.7 14.6 33.3 33.3 -3.1 -0.2 17.1 444044 HOLLAND_1_E_VA 36.68 -76.77 4.3 19.6 16.0 33.3 33.3 -6.5 4.1 22.1 444720 LANGLEY_AFB_VA 37.08 -76.35 4.1 18.5 16.8 33.3 33.3 -2.6 2.1 20.8 445120 LYNCHBURG_REGIONAL_ARPT_VA 37.33 -79.20 3.6 15.5 14.0 33.3 33.3 -3.2 2.3 19.4 446139 NORFOLK_INTERNATIONAL_AP_VA 36.90 -76.20 5.1 17.3 15.6 33.3 33.3 -3.8 4.1 21.5 447201 RICHMOND_INTERNATIONAL_AP_VA 37.52 -77.32 3.8 14.2 13.3 33.3 33.3 -4.1 1.3 18.9 447285 ROANOKE_REGIONAL_AP_VA 37.32 -79.97 2.8 15.0 13.8 33.3 33.3 -2.2 -1.1 19.4 448903 WASHINGTON_DC_DULLES_INT'L_AR_VA 38.93 -77.45 2.5 13.7 12.4 33.3 33.3 2.5 -4.3 15.2 448906 WASHINGTON_DC_REAGAN_AP_VA 38.87 -77.03 2.5 14.0 11.7 33.3 33.3 1.5 -3.6 15.4 449151 WILLIAMSBURG_2_N_VA 37.30 -76.70 5.6 18.8 15.9 33.3 33.3 -3.1 1.7 19.9 452914 FORKS_1_E_WA 47.95 -124.35 29.2 83.1 66.1 33.3 33.3 18.5-20.2 19.6 456114 OLYMPIA_AIRPORT_WA 46.97 -122.90 10.4 32.0 28.5 33.3 33.3 15.0-17.4 19.1 456534 PLAIN_WA 47.78 -120.65 4.6 16.5 15.7 33.3 33.3 15.2-17.6 14.7 456858 QUILLAYUTE_STATE_AIRPORT_WA 47.93 -124.57 26.4 68.8 54.9 33.3 33.3 19.9-17.0 19.9 457473 SEATTLE_SEATTLE-TACOMA_INTL_A_WA 47.47 -122.32 7.6 22.4 19.3 33.3 33.3 13.9-18.1 17.8 457938 SPOKANE_INTERNATIONAL_AP_WA 47.62 -117.53 1.8 7.9 6.9 33.3 33.3 12.3-14.0 10.7 459465 YAKIMA_AIR_TERMINAL_WA 46.57 -120.55 0.3 3.8 3.6 33.3 33.3 12.3 -8.4 15.2 460582 BECKLEY_RALEIGH_CO_MEM_AP_WV 37.80 -81.12 5.6 14.2 13.3 33.3 33.3 3.4 -4.9 17.8 460939 BLUESTONE_LAKE_WV 37.63 -80.88 3.8 12.7 12.1 33.3 33.3 1.4 1.5 18.2 461570 CHARLESTON_YEAGER_ARPT_WV 38.38 -81.58 6.1 17.0 15.0 33.3 33.3 3.7 -4.5 16.2 462718 ELKINS_ELKINS-RANDOLPH_CO_ARP_WV 38.88 -79.85 6.9 16.3 14.6 33.3 33.3 5.9 -6.3 15.3 464393 HUNTINGTON_TRI-STATE_ARPT_WV 38.37 -82.55 5.1 15.2 14.8 33.3 33.3 4.4 -4.4 16.0 470882 BLAIR_WI 44.30 -91.23 0.3 3.6 4.5 33.3 33.3 6.4 -9.1 8.3 473269 GREEN_BAY_AUSTIN_STRAUBEL_INT_WI 44.48 -88.13 0.5 4.6 5.3 33.3 33.3 14.5-13.8 7.6 474370 LA_CROSSE_MUNICIPAL_ARPT_WI 43.87 -91.25 0.5 4.3 4.8 33.3 33.3 7.7 -9.8 8.8 474582 LAONA_6_SW_WI 45.50 -88.77 0.8 4.3 5.0 33.3 33.3 18.4-18.5 7.1 474961 MADISON_DANE_CO_REGIONAL_ARPT_WI 43.13 -89.35 0.5 6.1 6.3 33.3 33.3 9.4-10.9 9.3 475479 MILWAUKEE_MITCHELL_INTL_AP_WI 42.95 -87.90 1.0 7.9 8.2 33.3 33.3 16.0-13.0 9.2 476398 PARK_FALLS_DNR_HQ_WI 45.93 -90.45 0.8 3.8 4.1 33.3 33.3 11.9-13.6 7.1 478171 STEVENS_POINT_WI 44.50 -89.58 0.5 4.3 4.7 33.3 33.3 9.5-14.9 8.0 481570 CASPER_NATRONA_CO_INTL_AP_WY 42.90 -106.47 0.5 3.3 3.0 33.3 33.3 18.5-17.1 5.4 481675 CHEYENNE_MUNICIPAL_ARPT_WY 41.15 -104.80 0.0 1.8 2.4 38.1 33.3 0.8-10.4 4.9 485390 LANDER_HUNT_FIELD_WY 42.82 -108.73 0.0 1.8 2.6 43.7 33.3 5.2 -3.3 8.3 485415 LARAMIE_GENERAL_BREES_FIELD_WY 41.32 -105.68 0.0 1.8 2.1 41.3 33.3 4.6-12.3 5.5 486660 NEWCASTLE_WY 43.85 -104.23 0.0 2.5 2.7 42.7 33.3 12.6-11.9 4.3 487555 REDBIRD_WY 43.25 -104.28 0.0 1.5 2.0 53.9 33.3 14.1-16.7 4.4 488155 SHERIDAN_COUNTY_ARPT_WY 44.77 -106.97 0.3 2.5 2.6 33.3 33.3 11.7-12.7 4.9 500280 ANCHORAGE_INTL_AP_AK 61.18 -150.00 0.0 2.3 3.0 38.7 33.3 -9.1 4.0 15.4 500352 ANNETTE_ISLAND_AP_AK 55.05 -131.57 15.0 44.7 35.5 33.3 33.3 30.2-22.5 11.6 500546 BARROW_W_POST-W_ROGERS_ARPT_AK 71.28 -156.77 0.0 0.5 0.6 54.6 33.3-15.3 7.9 6.4 500754 BETHEL_AIRPORT_AK 60.78 -161.83 0.0 1.3 2.3 42.4 33.3-24.3 23.4 12.2 500761 BETTLES_FIELD_AK 66.92 -151.52 0.0 2.0 2.8 40.8 33.3-21.7 19.1 8.8 500770 BIG_DELTA_ALLEN_AAF_AK 64.00 -145.72 0.0 1.0 1.7 56.9 33.3 0.9 -1.9 8.8 502102 COLD_BAY_ARPT_AK 55.20 -162.72 3.3 11.7 10.9 33.3 33.3-11.9 12.1 15.4 502177 CORDOVA_AK 60.50 -145.50 5.3 31.0 27.0 33.3 33.3 1.8 -6.9 15.7 502968 FAIRBANKS_INTL_ARPT_AK 64.82 -147.85 0.0 1.3 1.6 45.3 33.3 -7.2 1.2 8.1 503465 GULKANA_INTERMEDIATE_FIELD_AK 62.15 -145.45 0.0 1.5 2.1 45.7 33.3 2.9 -3.1 12.4 503665 HOMER_ARPT_AK 59.65 -151.48 1.0 8.1 8.5 33.3 33.3 -7.1 4.9 16.7 503905 ILIAMNA_ARPT_AK 59.75 -154.92 0.0 4.6 4.8 38.7 33.3-14.3 10.0 15.7 504100 JUNEAU_INT'L_ARPT_AK 58.35 -134.58 4.8 19.6 17.3 33.3 33.3 22.9-18.6 10.3 504546 KENAI_MUNICIPAL_AP_AK 60.58 -151.23 0.0 3.3 4.3 36.8 33.3 -8.7 6.4 16.2 504590 KETCHIKAN_INTL_AP_AK 55.37 -131.72 17.0 59.7 49.4 33.3 33.3 28.8-23.8 11.5 504766 KING_SALMON_ARPT_AK 58.68 -156.65 0.3 2.8 3.3 33.3 33.3 -6.0 2.8 14.4 505076 KOTZEBUE_RALPH_WEIN_MEMORIAL_AK 66.88 -162.60 0.0 1.5 1.8 43.8 33.3-28.8 26.0 9.0 505769 MCGRATH_ARPT_AK 62.95 -155.60 0.0 1.8 3.6 36.9 33.3-13.8 17.3 12.5 506496 NOME_MUNICIPAL_ARPT_AK 64.52 -165.45 0.0 2.5 3.2 40.8 33.3-23.7 24.9 9.7 506586 NORTHWAY_AIRPORT_AK 62.97 -141.93 0.0 0.5 0.9 54.9 33.3 1.8 -2.5 8.9 508118 ST_PAUL_ISLAND_ARPT_AK 57.17 -170.22 1.3 5.6 5.2 33.3 33.3-16.2 17.7 17.0 508494 SITKA_JAPONSKI_AP_AK 57.05 -135.37 8.1 32.3 27.1 33.3 33.3 21.8-18.4 11.9 508976 TALKEETNA_STATE_ARPT_AK 62.32 -150.10 0.0 3.8 5.9 37.8 33.3-12.7 9.5 13.6 509686 VALDEZ_WSO_AK 61.13 -146.35 2.8 23.1 22.8 33.3 33.3 -5.4 1.0 14.7 509941 YAKUTAT_STATE_ARPT_AK 59.52 -139.63 11.2 55.1 44.5 33.3 33.3 13.4-14.9 13.4 511919 HONOLULU_INTL_ARPT_HI 21.32 -157.93 0.3 5.1 10.1 33.3 33.3 11.6 -8.4 4.6 512572 KAHULUI_AIRPORT_HI 20.90 -156.43 0.5 7.1 10.9 33.3 33.3 14.6 -9.6 4.4 515580 LIHUE_AIRPORT_HI 21.98 -159.33 1.8 9.7 15.5 33.3 33.3 6.8 -7.2 4.7

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# Presentation: 382742 ## Searches for Squarks and Gluinos at CDF and D0 Detectors - Xavier Portell - (on behalf of the CDF and D0 collaborations) - IFAE - Barcelona - PANIC, Santa Fe (NM) - October, 27th 2005 ## MOTIVATION FOR SUSY SEARCHES - Supersymmetry  may be the key element for multiple puzzles. - New broken symmetry: fermions  bosons - DARK MATTER (R-parity conserved) - Scalar masses stabilization thanks to the symmetry between bosons and fermions. - Necessary element for Superstrings - Unification of EM, weak and strong interactions at a GUT scale. **# bosons = # fermions** ## TEVATRON - October 13th, 1985: Tevatron first p-pbar collision  20 years of collisions! - Record instantaneous luminosity: 1.44·1032 cm-2s-1 (October 23rd, 2005) - Both, CDF and D0, are taking good data at high efficiencies (~85%) ## EXPERIMENTAL CHALLENGE **EXPERIMENTAL CHALLENGE** - Several SM processes contribute to the MET+jets signature - PRODUCTION: - Squarks and Gluinos: mainly produced at Tevatron in pairs - DECAY: - Signatures investigated here: Gluinos and Squarks decaying in energetic jets and MET (LSP) - Missing ET - Missing ET - Multiple jets ***In an R-parity conserved scenario...*** **Phys.Rev.D59:074024,1999** **10****3** **1** ******(pb)** **10****-3** **10****-6** **10****-9** **300** **500** **700** - mSUGRA scenario (**A****0**** = 0 , ******** < 0, tan******** = 3 or 5**) - The first **5 flavors degenerate** (stop not considered) - Usual assumption in generic studies - PYTHIA+ISAJET+PROSPINO  generation/normalization ## JETS - fb - 10 orders of magnitude ***Backgrounds dominate***  Need to be specifically rejected: *Jets: * no intrinsic missing ET  Energies mismeasurements (cracks, calibrations...) - Reject jets close to the missing ET direction. *W,Z+jets:* Missing ET coming from neutrinos and/or muons. - Electrons can also be mismeasured as jets. - Reject isolated muons and electrons (e.g. jets fully electromagnetic) - Huge cross-sections and no NLO MC - challenges generation/normalization/rejection. *Top,WW:* Similar signatures than W+jets (but more difficult to reject) - CDF and D0 collaborations use different techniques to find out if some SUSY events are present in the data samples... ***Background estimations:*** - W, Z  MCFM normalization (k-factor) - ttbar  theoretical NLO cross-section *Z****** +jets:* Intrinsic background (same signature than signal) ## D0 STRATEGY - Data pre-selection: - Luminosity: **310 pb****-1** **Distinguishes 3 approaches (dominant ******** )** - Search for acoplanar dijet events (squark  jet + MET dominant) - Search for events with at least 4 jets (gluino  2 jets + MET dominant) - Search for events with at least 3 jets (2 jets from gluino and one from squark) - Cuts will remove its contribution. - Otherwise, contribution extrapolated from data behavior at low missing ET region. ***ANALYSIS STRATEGY*** ***JET BACKGROUND STRATEGY*** ## D0 RESULTS - 2 JETS CASE ( ) **D0 RESULTS** - Dominant bkg is Z  + 2jets - QCD is negligible - MET>175 GeV ; HT > 250 GeV - Exp. Bkg: 12.8  5.4 events - Data: 12 events - Dominant bkg is W  + 2jets - MET>100 GeV ; HT > 325 GeV - Exp. Bkg: 6.1  3.1 events - Data: 5 events - 3 JETS CASE ( ) - Dominant bkg is ttbar - QCD is extracted from an exponential fit to the data - MET> 75 GeV - HT > 250 GeV - Exp. Bkg: 7.1  0.9 events - Data: 10 events - QCD - Dominant systematics: - Jet energy scale - Luminosity - Cross-sections estimations - MET>175 GeV - MET>75 GeV - Fit in the MET range [40,60] - Statistical error: vary 1 the parameters - Systematics: fit again in [40,55] - Optimized - Expected  limits - HT>325 GeV ## D0 LIMITS **D0 LIMITS** - Mg ~ Mq > 333 GeV/c2 - ~ - Mg > 233 GeV/c2 - ~ - Mq > 318 GeV/c2 - ~ - Squark-Gluino mass plane excluded regions at the 95% CL in the mSUGRA framework for tan= 3, A0 = 0 and  < 0 - ~ ## CDF STRATEGY - Luminosity: **254 pb****-1**** (preliminary study ******** more to be added)** - CDF trigger: 2 jets and MET>35 GeV -  Full interpretation is in progress and limits are to be issued soon. ***ANALYSIS STRATEGY*** - General approach: searching for 3 jets (compromise: reject backgrounds select signal) - “Blind Analysis” - Define a signal region (Blind Box) - Make sure MC is in agreement with data outside this region (Control Region) - “Open” the Blind Box ***JET BACKGROUND STRATEGY*** - Backgrounds need to be properly estimated and normalized also in the Control Regions. - Multijet background: generated with Pythia in different pT bins (CPU intensive!) - No NLO simulation  Special procedure to determine the NLO prediction... - ^ ## MULTIJET BACKGROUND ESTIMATIONS **CDF Run II preliminary** **CDF Run II preliminary** **MULTIJET BACKGROUND ESTIMATIONS** - Compare multijet background MC with data out of the signal region. - Region: low missing ET relative to scalar sum of towers ET of the event (missing ET significance) ## CDF CUTS AND BLIND BOX - Signal region (blind box) determined by optimizing S/sqrt(B) - Signal region - MET > 165 GeV - HT = ET1 + ET2 + ET3 > 350 GeV - Background expectations inside the Blind Box: 4.1  0.6  1.4 events. - Opening the blind box 3 events have been found  NO SUSY EVIDENCE | Inside BB | MET (GeV) | HT (GeV) | | --- | --- | --- | | Event 1 | 223.3 | 404.2 | | Event 2 | 195.6 | 470.1 | | Event 3 | 166.6 | 362.3 | ## CDF RESULTS **CDF RESULTS** **Marginal distributions for Missing ET and HT** - Plots show good agreement. The missing ET cut is important to reduce multijet background (QCD). ## CDF/D0 EVENTS - Missing ET = 223 GeV - ET(1st) = 172 GeV - ET(2nd) = 153 GeV - ET (3rd) = 80 GeV - ET(4th) = 65 GeV - HT = ET(1st) + ET(2nd) + ET(3rd) = 404 GeV - Missing ET = 354 GeV - pT(1st) = 264 GeV - pT(2nd) = 106 GeV **CDF/D0 EVENTS** - HT = pT(1st) + pT(2nd) + - pT(3rd) + pT(4th) = 393 GeV - XY view of events with large missing ET - pT(3rd) = 12 GeV - pT(4th) = 11 GeV ## SUMMARY ** ****CDF and D0 experiments have found no evidence of squarks and gluinos in data samples of ~300 pb****-1****.** ** ****D0 have shown some very promising preliminary exclusion limits (mass gluino > 233 GeV/c****2**** ; mass squarks > 318 GeV/c****2****) which are already the world best ones.** ** ****Full interpretation of CDF results are currently under way and new limits will appear soon.** ** ****More data (1fb****-1****) will be analyzed in coming months...** - ...it may be that something could be found soon in this desert! **SUMMARY** ## BACKUP SLIDES ## PRODUCTION CROSS-SECTIONS **PRODUCTION CROSS-SECTIONS** ## SYSTEMATIC UNCERTAINTIES | Source | Uncertainty on final background estimate | | --- | --- | | Luminosity | 6% | | Jet Energy Scale | 29% | | Jets Background Estimation | 1% | | ttbar cross section | 3.6% | | WW cross section | 0.5% | | W+jets cross section | 14.6% | | Z+jets cross section | 3.7% | | TOTAL | 33.4% | **SYSTEMATIC UNCERTAINTIES**

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****************************************************************************** MODULE CALBGEO1 is the geometry of the Barrel EM Calorimeter Author Maxim Potekhin BNL Created January 20, 2004 * Based on the original CALBGEO * * $Id: calbgeo1.g,v 1.4 2004/02/06 01:55:13 potekhin Exp $ * $Log: calbgeo1.g,v $ * Revision 1.4 2004/02/06 01:55:13 potekhin * Correcting the new barrel: some parts of the modules * were 3 deg off, this is now rectified. Also, minor * logic improvements. * * Revision 1.3 2004/01/22 00:28:04 potekhin * Correct a typo -- the angle covered by a module is 6 deg, * not 3 * * Revision 1.2 2004/01/19 22:48:41 potekhin * A working version of the new barrel calorimeter geometry, * which does not reply on DIV, but instead creates copies of modules * (the only workable solution for the config we re trying to * implement). Geant volume numbers seem to be OK according to testing, * however the g2t part would need to be verified by the EMC team * * Revision 1.1 2004/01/19 21:18:39 potekhin * Need a fairly new version of the calb geometry for 2004, * due to the way the modules were populated. Have to * avoid using divisions when constructing the modules. * This is the first cut with more changes to follow * ****************************************************************************** +CDE,AGECOM,GCONST,GCUNIT. * external etsphit * Content CALB,CHLV,CPHI,CSUP,CPBP,CSCI,CSMD,CSMG,CSDA,CSMC,CSMB,CSME, CSHI,CBTW,CCRD,CCSI,CSCA,CSCB Structure CALG { version, Rmin, Etacut, CrackWd, FrontThk, CompThk, AirThk, BackThk, SpaceThk, ScintThk(2), AbsorThk, AbPapThk, g10SbThk, SmAlfWdh, SmAlfThk, SmGasThk, SmGasWdh, SmGasRad, SmAffWdh, SmAfbWdh, SmetaWdh, Seta1Wdh, Netfirst, Seta2Wdh, Netsecon, Set12Wdh, SphiWdh, SphidWdh, NPhistr, NSmdAlw, Nsuper , Nsmd, NsubLay(2), Nmodule(2), Shift(2), MaxModule, NetaT, Nsub, NetaSMDp, ModMap(60)} Structure CALR { Rmin, Rprs, Rsmd1, Rsmd2, Rmax } Real RKB2sc/0.013/, RKB3sc/9.6E-6/ *---- local definitions... real current_depth, current, layer_width(2), tan_theta, smd_width, smd_width1, smd_width2, smd_width3, cut_length, cut_radius, future_depth,c_dep,c_lead_dep, eta_lenght, current_csda, h_eta1, h_eta2, h_phi1, h_phi2, sh_eta1,sh_eta2,sh_phi1,sh_phi2,Rmax,Hleng, Deta, angular_offset,tmp1,tmp2,tmpa,tmpb,tmpc,tmpd, DphiTot, DphiMod, DphiT, R1, R2, R3, R4, RR(2), rmin_tof_crd, rmin_bemc_crd, rmax_bemc_crd, dx_crd_crystal, dy_crd_crystal, dz_crd_crystal, dxn_crd_supercube, dyn_crd_supercube, dx_crd_supercube, dy_crd_supercube, dz_crd_supercube, pos_x_fst_supercube, pos_x_scd_supercube, pos_x_trd_supercube, angle_supercube, d_crd_mylar, bemc_cut_length, bemc_hleng, bemc_calg_rmin, bemc_cut_radius, bemc_rmax integer layer,super,sub,i,j,ii,nn,imod,iii,jjj * * --------------------------------------------------------------------------- * primary geometrical constant * fill CALG ! Barrel Calorimeter data Version = 3.0 ! geometry version Rmin = 223.5 ! inner radius EtaCut = 1.0 ! calorimeter rapidity cut CrackWd = 0.655 ! half width of the crack between modules FrontThk = 0.9525 ! front plate half thickness CompThk = 0.9525 ! back plate half thickness AirThk = 0.158 ! Air gap half thicness BackThk = 1.5875 ! Module back plate half thicknes SpaceThk = 0.9525 ! Spacer back plate half thicknes ScintThk = {0.3,0.25} ! active scintillator plate half thickness AbsorThk = 0.250 ! absorber plate thickness halfpThickness AbPapThk = 0.005 ! absorber paper plate thickness half thickness g10SbThk = 0.115 ! G10 SMD front and back plate half thickness SmAlfWdh =11.2014 ! SMD Al front back plate with Ar half width SmAlfThk = 0.3893 ! SMD Al front back plate with Ar half thickness SmGasThk = 0.1359 ! SMD gas BOX volume half thickness SmGasWdh = 0.2946 ! SMD gas BOX volume half width SmGasRad = 0.2946 ! SMD gas volume TUBS radius SmAffWdh = 0.113 ! SMD Al front first (last) rib half width SmAfbWdh = 0.1664 ! SMD Al back first (last) rib half width SmetaWdh = 0.9806 ! Eta=0 strip notch half width Seta1Wdh = 0.7277 ! strip#1-75 half witdh Seta2Wdh = 0.9398 ! strip#76-150 half witdh Set12Wdh = 0.04064 ! half distance between strips in eta SphiWdh = 0.6680 ! strip#(1-NPhistr) in phi direction half witdh SphidWdh = 0.07874 ! half distance between strips in phi NSmdAlw = 30 ! Number SMD gaseus interval in tile Nsuper = 2 ! number of readout superlayer Nsmd = 5 ! SMD positioned after sandvich type layers EMC NsubLay = {2,19} ! number of layers in a superlayer MaxModule= 60 ! max number of moudle NetaT = 20 ! Number of eta division for tower/preshower Nsub = 2 ! Number of sub div. in phi for tower/preshower NetaSMDp = 10 ! Number of eta division in for SMD phi plane NPhistr = 15 ! Number of the strip in phi direction Netfirst = 75. ! Number of strip in first part eta=0-0.5 Netsecon = 75. ! Number of strip in second part eta=0.5-1.0 Nmodule = {60,60} ! number of modules Shift = {75,105} ! starting azimuth of the first module ModMap = {1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,0,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1} ! Populated modules map Endfill * USE CALG * * --------------------------------------------------------------------------- * primary geometrical constant * smd_width=2.*calg_g10SbThk+2.*calg_SmAlfThk+2.*calg_AbPapThk smd_width1=2.*calg_g10SbThk+2.*calg_AbPapThk smd_width2=smd_width1+calg_SmGasThk+calg_SmGasRad smd_width3=2.*smd_width-smd_width1-calg_SmGasThk-calg_SmGasRad R1=calg_Rmin+2.*calg_FrontThk R2=0.0 do i=1,nint(calg_Nsuper) layer_width(i) = calg_ScintThk(i) + calg_AbsorThk+2.*calg_AbPapThk R2+=(calg_NsubLay(i)-i+1)*layer_width(i)*2.0 RR(i)=R2 enddo R3=(calg_Nsuper*layer_width(1)+(calg_nsmd-calg_Nsuper)*layer_width(2))*2. R4=(smd_width+calg_scintThk(2)+2.*calg_AbPapThk)*2.0 cut_radius=R1+R2+R4 Rmax=cut_radius+2.*(Calg_BackThk+calg_SpaceThk+Calg_CompThk+calg_AirThk) tan_theta = tan(2*atan(exp(-calg_EtaCut))) cut_length = calg_Rmin/tan_theta Hleng = cut_radius/tan_theta nn = max(calg_Nmodule(1),calg_Nmodule(2)) Deta = 1.0/calg_NetaT DphiMod = 360/calg_MaxModule DphiT = DphiMod/calg_Nsub DphiTot = DphiMod*nn fill CALR ! barrel EMC radiuses RMIN = R1 ! inner raduis of sensitive area RPRS = R1+RR(1)/2.0 ! mean raduis of PRS RSMD1= R1+R3+smd_width2 ! mean raduis of SMD RSMD2= R1+R3+smd_width3 ! mean raduis of SMD RMAX = cut_radius ! outer raduis of sensitive area Endfill USE CALR *---- Crystal Detector related variables: ----------------------------------------------------- rmin_tof_crd = 207.80 ! mimimum radius from TOF rmin_bemc_crd = 233.50 ! minimum radius from BEMC rmax_bemc_crd = 255.86 ! maximum radius from BEMC d_crd_mylar = 0.0025 ! mylar thickness dx_crd_crystal = 2.54*0.5 ! halfwidth x of single crystal dy_crd_crystal = 2.54*0.5 ! halfwidth y of single crystal dz_crd_crystal = 25.0*0.5 ! halfheight of single crystal dxn_crd_supercube = 9; ! number of crystals in x dimension of supercube dyn_crd_supercube = 20; ! number of crystals in y dimension of supercube dx_crd_supercube = dxn_crd_supercube*dx_crd_crystal ! halfwidth x of supercube dy_crd_supercube = dyn_crd_supercube*dy_crd_crystal ! halfwidth y of supercube dz_crd_supercube = dz_crd_crystal ! halfheight of supercube pos_x_fst_supercube = dy_crd_supercube+2 ! position of the first supercube pos_x_scd_supercube = dy_crd_supercube*3+6 ! position of the second supercube pos_x_trd_supercube = dy_crd_supercube*5+14 ! position of the third supercube *---- CRD constants from BEMC geometry -------------------------------------------------------- bemc_cut_length = 262.65744 bemc_hleng = 292.110565 bemc_calg_rmin = 223.5 bemc_cut_radius = 248.562195 bemc_rmax = 255.86319 *---------------------------------------------------------------------------------------------- create and position CALB in CAVE prin1 calg_Version; (' CALB geo. version =',F7.1) prin1 calg_RMin; (' CALB inner radius =',F7.1) * * --------------------------------------------------------------------------- * block CALB is EMC Barrel envelope Material Air Medium Standard attribute CALB seen=0 colo=7 * SHAPE PCON Phi1=0 Dphi=360 Nz=4, zi = {-Hleng, -cut_length, cut_length, Hleng}, rmn = { cut_radius, Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax, Rmax }; if calg_Nmodule(1)>0 { ii=1; create and Position CHLV; } if calg_Nmodule(2)>0 { ii=2; create and Position CHLV thetaZ=180; } * EndBlock * ----------------------------------------------------------------------------- Block CHLV corresponds to double modules... * shape PCON Phi1=calg_shift(ii) Dphi=DphiMod*calg_Nmodule(ii) Nz=3, zi = { 0, cut_length, Hleng}, rmn = { Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax }; Create CPHI do imod=1,calg_Nmodule(ii) angular_offset=calg_shift(ii)+3.0+6.0*(imod-1) if(ii==1) { Position CPHI AlphaZ=angular_offset Ncopy=imod; } if(ii.eq.2.and.calg_ModMap(imod).gt.0) { Position CPHI AlphaZ=angular_offset Ncopy=imod; } if(ii.eq.2.and.imod.eq.28) { create and position CCRD AlphaZ=angular_offset Ncopy=imod; ! Crystal Detector instead of BEMC module 88 } enddo EndBlock * ----------------------------------------------------------------------------- Block CPHI corresponds to a single module attribute CPHI seen=1 colo=5 Shape PCON Phi1=-3.0 DPhi=6.0 Nz=3, zi = { 0, cut_length, Hleng}, rmn = { Calg_rmin, Calg_Rmin, cut_radius}, rmx = { Rmax, Rmax, Rmax }; * current_depth = calg_Rmin c_dep=current_depth Create CBTW dx=calg_FrontThk Position CBTW x =calg_Rmin+calg_FrontThk, z =current_depth/tan_theta/2 current_depth = current_depth + 2*calg_FrontThk layer = 0 do super = 1,nint(calg_Nsuper) create and position CSUP enddo * Module Back Plates Create CBTW dx=calg_CompThk Position CBTW x =current_depth+calg_CompThk, z =current_depth/tan_theta/2 * c_dep=2.*calg_CompThk+2.*calg_AirThk Create CBTW dx=calg_BackThk Position CBTW x=current_depth+c_dep+calg_BackThk, z =current_depth/tan_theta/2 * c_dep=c_dep+2.*calg_BackThk Create CBTW dx=calg_SpaceThk Position CBTW x=current_depth+c_dep+calg_SpaceThk, z =current_depth/tan_theta/2 c_dep=c_dep+2.*calg_SpaceThk current_depth=current_depth+c_dep * EndBlock *----------------------------------------------------------------------------- Block CSUP is a super layer with few layers inside future_depth=current_depth+ (calg_NsubLay(super)-super+1)*layer_width(super)*2+ (smd_width+calg_scintThk(super)+2.*calg_AbPapThk)*2*(super-1) *Cellulose C6H10O5 Component C A=12.01 Z=6. W=6./21. Component H A=1. Z=1. W=10./21. Component O A=16. Z=8. W=5./21. Mixture Cellulose Dens=0.35 Isvol=1 attribute CSUP seen=0 colo=1 shape PCON Phi1=-3.0 Dphi=DphiMod Nz=3, zi ={0, current_depth/tan_theta, future_depth/tan_theta}, rmn={ current_depth, current_depth, future_depth }, rmx={ future_depth, future_depth, future_depth }; Call CALBPAR(ag_imed,'ABSORBER') Do sub = 1,nint(calg_NsubLay(super)) layer = layer + 1 if(layer.lt.nint(calg_NsubLay(1)+calg_NsubLay(2))) then Create CSCI Position CSCI x=current_depth+calg_ScintThk(super)+2.*calg_AbPapThk, z=current_depth/tan_theta/2 Create CPBP c_lead_dep=2.*calg_ScintThk(super)+4.*calg_AbPapThk Position CPBP x=current_depth+c_lead_dep+calg_AbsorThk, z=current_depth/tan_theta/2 current_depth = current_depth + 2*layer_width(super) else Create CSCI Position CSCI x=current_depth+calg_ScintThk(2)+2.*calg_AbPapThk, z=current_depth/tan_theta/2 current_depth = current_depth+c_lead_dep endif * place SMD Check layer==nint(calg_Nsmd) create and position CSMD x=current_depth+smd_width, z=current_depth/tan_theta/2 current_depth = current_depth + 2*smd_width * enddo EndBlock *----------------------------------------------------------------------------- Block CPBP Material Lead Material CLead Isvol=0 Medium Lead_emc Attribute CPBP seen=1 colo=1 SHAPE BOX dx = calg_AbsorThk, dy = current_depth*tan(TwoPi/360*DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') Endblock * Block CSCI a scintillator layer. Material polystyren Material Cpolystyren Isvol=1 Medium sens_sci attribute CSCI seen=1 colo=4 Shape BOX dx=calg_ScintThk(super), dy = current_depth*tan(TwoPi/360*DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') * define Birks law parameters Call GSTPAR (ag_imed,'BIRK1',1.) Call GSTPAR (ag_imed,'BIRK2',RKB2sc) Call GSTPAR (ag_imed,'BIRK3',RKB3sc) * HITS CSUP eta:Deta:(0,1) y:1:(-13,13) Birk:0:(0,10) * xx:16:H(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100), * none:16: * EndBlock * Block CBTW is the Module Front Back Plate Material Aluminium Material EAluminium Isvol=1 Medium Al_emc attribute CBTW seen=1 colo=6 Shape BOX dy = current_depth*tan(TwoPi/360*DphiT)-calg_CrackWd, dz = current_depth/tan_theta/2 Call CALBPAR(ag_imed,'ABSORBER') EndBlock * ---------------------------------------------------------------------------- Block CSMD is the shower maximum detector envelope current = -smd_width *Cellulose C6H10O5 Component C A=12.01 Z=6. W=6./21. Component H A=1. Z=1. W=10./21. Component O A=16. Z=8. W=5./21. Mixture Cellulose Dens=0.35 Isvol=1 attribute CSMD seen=1 colo=6 Shape BOX dx=smd_width, dy=current_depth*tan(TwoPi/120.)-calg_CrackWd, dz=current_depth/tan_theta/2 Call CALBPAR(ag_imed,'SENSITIVE') * * front back G10 plate Create CSMG Position CSMG x = -smd_width+calg_g10SbThk+2.*calg_AbPapThk Position CSMG x = smd_width-calg_g10SbThk-2.*calg_AbPapThk * * front SMD Al block with sensitive gas volume current = current+2.*calg_g10SbThk+2.*calg_AbPapThk do j=1,4 current_csda=-current_depth/tan_theta/2 if(j.eq.1) then eta_lenght=calg_Netfirst*(calg_Seta1Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+calg_SmAlfThk, z=current_csda+2.*calg_SmetaWdh+eta_lenght elseif(j.eq.2) then current_csda=current_csda+2.*(calg_SmetaWdh+eta_lenght) eta_lenght=calg_Netfirst*(calg_Seta2Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+calg_SmAlfThk, z=current_csda+eta_lenght elseif(j.eq.3) then eta_lenght=calg_Netfirst*(calg_Seta1Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+3.*calg_SmAlfThk, z=current_csda+2.*calg_SmetaWdh+eta_lenght, thetaX=90 phiX=180 elseif(j.eq.4) then current_csda=current_csda+2.*(calg_SmetaWdh+eta_lenght) eta_lenght=calg_Netfirst*(calg_Seta2Wdh+calg_Set12Wdh) create CSDA Position CSDA x=current+3.*calg_SmAlfThk, z=current_csda+eta_lenght, thetaX=90 phiX=180 endif enddo * * SMD Al front fisrt (last) rib Create CSMC Position CSMC x = current+calg_SmAlfThk, y = calg_SmAlfWdh+calg_SmAffWdh Position CSMC x = current+calg_SmAlfThk, y = -calg_SmAlfWdh-calg_SmAffWdh * * SMD Al back fisrt (last) rib Create CSMB Position CSMB x = current+3.*calg_SmAlfThk, y = calg_SmAlfWdh+calg_SmAfbWdh Position CSMB x = current+3.*calg_SmAlfThk, y = -calg_SmAlfWdh-calg_SmAfbWdh Endblock * * G10 is about 60% SiO2 and 40% epoxy Block CSMG is G10 front back plate Component Si A=28.08 Z=14 W=0.6*1*28./60. Component O A=16 Z=8 W=0.6*2*16./60. Component C A=12 Z=6 W=0.4*8*12./174. Component H A=1 Z=1 W=0.4*14*1./174. Component O A=16 Z=8 W=0.4*4*16./174. Mixture g10 Dens=1.7 Isvol=0 attribute CSMG seen=1 colo=1 Shape BOX dx=calg_g10SbThk Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSDA is Al block with sensitive gas volume Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSDA seen=1 colo=6 Serial=j Shape BOX dx = calg_SmAlfThk, dy = calg_SmAlfWdh, dz = eta_lenght Call CALBPAR(ag_imed,'SENSITIVE') Create CSME EndBlock * Block CSMC is the front first (last) Al rib Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSMC seen=1 colo=6 Shape BOX dx = calg_SmAlfThk, dy = calg_SmAffWdh Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSMB is the back first (last) Al rib Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSMB seen=1 colo=6 Shape BOX dx = calg_SmAlfThk, dy = calg_SmAfbWdh Call CALBPAR(ag_imed,'SENSITIVE') EndBlock * Block CSME is the part of CSDA Al box with Ar/CO2 sensiteve gas Material Aluminium Material CAluminium Isvol=0 Medium Al_smd attribute CSME seen=1 colo=6 Shape Division Iaxis=2 Ndiv = nint(calg_NSmdAlw) Call CALBPAR(ag_imed,'SENSITIVE') * sensitive Ar/CO2 box do i=1,2 Create CSHI if(i.eq.1) then Position CSHI x = -calg_SmAlfThk+calg_SmGasThk else Position CSHI x = 2.*calg_SmGasThk-calg_SmAlfThk endif enddo EndBlock * 90% argon + 10% CO2 Block CSHI is a sensiteve Ar/CO2 box Component Ar A=39.95 Z=18. W=0.9 Component C A=12.01 Z=6. W=0.1*1*12.01/44.01 Component O A=16. Z=8. W=0.1*2*16./44.01 Mixture sens_gas Dens=0.0018015 Isvol=1 attribute CSHI seen=1 colo=4 if(i.eq.1) then Shape BOX dx = calg_SmGasThk, dy = calg_SmGasWdh else Shape TUBS Rmin = 0 Rmax = calg_SmGasRad, Dx = calg_SmGasWdh, Phi1 = 270 phi2 = 450 endif call CALBPAR(ag_imed,'SENSITIVE') CAll GSTPAR (ag_imed,'STRA',1.0) * h_eta1=2.*(calg_Seta1Wdh+calg_Set12Wdh) sh_eta1=calg_Netfirst*h_eta1 h_eta2=2.*(calg_Seta2Wdh+calg_Set12Wdh) sh_eta2=calg_Netsecon*h_eta2 h_phi1=2.*(calg_SphiWdh+calg_SphidWdh) h_phi2=h_phi1 sh_phi1=calg_NPhistr*h_phi1 sh_phi2=sh_phi1 * HITS CSDA type=1:2: eta:0.1:(0,1) etsp:h_eta1:(0,sh_eta1) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) HITS CSDA type=2:2: eta:0.1:(0,1) etsp:h_eta2:(0,sh_eta2) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) HITS CSDA type=3:2: eta:0.1:(0,1) etsp:h_phi1:(0,sh_phi1) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) * HITS CSDA type=4:2: eta:0.1:(0,1) etsp:h_phi2:(0,sh_phi2) Eloss:0:(0,1) * xx:16:SHX(-300,300) yy:16:(-300,300) zz:16:(-350,350), * px:16:(-100,100) py:16:(-100,100) pz:16:(-100,100), * Slen:16:(0,1.e4) Tof:16:(0,1.e-6) Step:16:(0,100) * EndBlock * * Block CCRD is former BEMC module, now mother volume for Crystal Detector supercubes Material Air IsVol=1 attribute CCRD seen=1 colo=6 Shape PCON Phi1=-3.0 DPhi=6.0 Nz=3, zi = { 0, bemc_cut_length, bemc_hleng}, rmn = { bemc_calg_rmin, bemc_calg_rmin, bemc_cut_radius}, rmx = { bemc_rmax, bemc_rmax, bemc_rmax }; angle_supercube=atan(pos_x_fst_supercube/(rmax_bemc_crd-dz_crd_supercube)) print *,'CRD: 1st supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)*0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)*cos(angle_supercube)) tmp1=tmp1*(dy_crd_supercube*2.0-dz_crd_supercube*2.0*(tan(angle_supercube)-tmp2)) tmp2=tmp1*tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_fst_supercube-tmp2, AlphaY=(-360/twopi)*angle_supercube angle_supercube=atan(pos_x_scd_supercube/(rmax_bemc_crd-dz_crd_supercube)) print *,'CRD: 2nd supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)*0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)*cos(angle_supercube)) tmp1=tmp1*(dy_crd_supercube*2.0-dz_crd_supercube*2.0*(tan(angle_supercube)-tmp2)) tmp2=tmp1*tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_scd_supercube-tmp2, AlphaY=(-360/twopi)*angle_supercube angle_supercube=atan(pos_x_trd_supercube/(rmax_bemc_crd-dz_crd_supercube)) print *,'CRD: 3rd supercube eta : ',-log(tan((piby2-angle_supercube)/2.0)) tmp1=sin(angle_supercube)*0.5 tmp2=(1-cos(angle_supercube))/(sin(angle_supercube)*cos(angle_supercube)) tmp1=tmp1*(dy_crd_supercube*2.0-dz_crd_supercube*2.0*(tan(angle_supercube)-tmp2)) tmp2=tmp1*tan(angle_supercube) create and position CCSI x = rmax_bemc_crd-dz_crd_supercube-tmp1, z = pos_x_trd_supercube-tmp2, AlphaY=(-360/twopi)*angle_supercube EndBlock * Block CCSI is a single supercube mother volume Material Air Attribute CCSI seen=1 colo=4 Shape BOX dx = dz_crd_supercube, dy = dx_crd_supercube+2.0*d_crd_mylar*dxn_crd_supercube, dz = dy_crd_supercube+2.0*d_crd_mylar*dyn_crd_supercube do jjj=1,dxn_crd_supercube do iii=1,dyn_crd_supercube Create CSCA Position CSCA y=(2*jjj-1)*(dx_crd_crystal+d_crd_mylar)-(dx_crd_supercube+d_crd_mylar*dxn_crd_supercube), z=(2*iii-1)*(dy_crd_crystal+d_crd_mylar)-(dy_crd_supercube+d_crd_mylar*dyn_crd_supercube) enddo enddo EndBlock * Block CSCA is mylar wrapper around CsI crystal Material MYLAR Attribute CSCA seen=1 colo=6 Shape BOX dx=dz_crd_crystal+d_crd_mylar, dy=dx_crd_crystal+d_crd_mylar, dz=dy_crd_crystal+d_crd_mylar Create and Position CSCB EndBlock * Block CSCB is CsI crystal Material CsI_cryst A=129.974 Z=54.023 Dens=4.51 RadL=1.85 AbsL=37 Isvol=1 Attribute CSCB seen=1 colo=4 Shape BOX dx=dz_crd_crystal, dy=dx_crd_crystal, dz=dy_crd_crystal HITS CSCB Eloss:0:C(0,1) EndBlock * end

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**Guidelines for documenting the quality of Phase I wild poliovirus laboratory containment activities** **- Laboratory survey** **- National inventory** **The Department of Vaccines and Biologicals would like to thank the partners whose financial and technical support has made the development of this document possible:** **United States Agency for International Development (USAID) Quality Assurance Project, Bethesda MD, USA** **Contents** Purpose 2 Introduction 3 Phase I: Laboratory survey and Inventory 3 Phase II: Global Certification 3 Approaches to demonstrating the quality of laboratory survey and inventory 4 Essential components of high quality laboratory survey and inventory 5 Development of guidelines for documenting the quality of laboratory survey and inventory 5 The Guidelines 6 Instructions 6 Component 1. Political endosement and support 7 Political support 7 Legislation 7 Multi-sector involvement 8 Effects of decentralisation 9 Component 2. The National Plan of Action 10 Responsibility for the plan 10 Realistic timeframe for activities 10 Personnel and funding resource allocation 11 Multi-sector involvement 11 Effects of decentralisation 12 Component 3. The National Containment Coordinator 13 Sufficient political or adminsitrative stature 13 High level of competence 13 Availability of sufficient time and support 14 Component 4. The National Laboratory List 16 Process of establishing the list 16 Completeness of the list 16 Management of the list 17 Component 5. The Laboratory Survey 19 Thoroughness of the survey 19 Completeness of responses 19 Quality of the surey 20 Management of survey data 21 Component 6. The National Laboratory Inventory 22 Thoroughness of the inventory process 22 Quality of responses 22 Management of the inventory data 23 Maintenance of the inventory 24 # Purpose To provide countries with guidelines on documenting the thoroughness and accuracy of conducting the Laboratory Survey and establishing the National Inventory of laboratories that wish to retain wild poliovirus infectious materials. # Introduction The world will be declared free of wild poliovirus transmission when the Global Commission for the Certification of the Eradication of Poliomyelitis is satisfied that all Regions of the World Health Organization (WHO) have documented the absence of wild poliovirus circulation for at least three consecutive years and all wild poliovirus materials in laboratories are adequately contained. The Global Commission has established the requirements for laboratory containment of wild polioviruses, and the 2^nd^ edition of the *Global action plan for laboratory containment of wild polioviruses* describes those requirements in detail. Guidelines on how to implement the requirements have been issued and adapted by the WHO Regions. The Global Certification Commission requirements for containment of wild polioviruses are described in two phases: the Laboratory Survey and Inventory Phase and the Global Certification Phase. ## Laboratory Survey and Inventory Phase This phase covers the period when the numbers of polio-free countries and Regions are increasing, but wild polioviruses continue to circulate somewhere in the world. During this phase, countries are required to: - Survey all biomedical laboratories to identify those with wild poliovirus infectious or potential infectious materials and encourage destruction of all unneeded materials. - Develop a National Inventory of laboratories that retain such materials and submit this to the Regional Certification Commission. - Instruct laboratories retaining wild poliovirus infectious or potential infectious materials to institute enhanced biosafety level-2 (BSL-2/polio) measures for safe handling. - Plan for implementation of the Global Certification Phase. ## Global Certification Phase This phase begins when one year has elapsed without isolation of wild poliovirus anywhere in the world. During this phase nations: - Notify biomedical laboratories that poliovirus transmission has been interrupted. - Instruct laboratories on the National Inventory to elect one of the following three options: - Render materials non-infectious for poliovirus or destroy them under appropriate conditions. - Transfer wild poliovirus infectious and potential infectious materials to laboratories capable of meeting the required biosafety standards. - Implement biosafety requirements appropriate for the laboratory procedures being carried out (BSL-2/polio or BSL-3/polio). - Document completion of all containment requirements for global certification. ## Approaches to documenting the quality of Phase I containment activities In addition to the number of laboratories retaining wild poliovirus materials, Regional Certification Commissions have requested National Certification Committees to provide information on the number of laboratories in the National Laboratory List and the number of laboratories surveyed. Information on the types of laboratory listed, the sectors they belong to, and the thoroughness of the survey process has also been sought. From the outset a strong recommendation for implementation of the *Global Action Plan* was to incorporate a requirement of authorising signatures at each administrative level. This requirement has gone some way towards ensuring the information collected at all levels is both complete and accurate. However, with the implementation of National Laboratory Surveys and establishment of National Inventories, so questions have arisen regarding the completeness and accuracy of the information being collected at national level. Because of inherent differences between countries, the processes used to establish the national surveys, and readiness to accept and authorise the results, have differed significantly from country to country. In attempting to assess the quality of implementation of activities carried out, there are essentially two alternative approaches to consider: - A [standards-based external evaluation:]{.underline} a more structured evaluation, which would involve establishing a consensus set of process and outcome standards and related indicators of performance that all countries would be expected to achieve. Accreditation and Certification are types of such external evaluations. Different levels for the different indicators would have to be developed for different types of countries (e.g. simple, small countries vs. large, diverse countries). These levels may be determined after review and comparison of early country containment survey and inventory results to date. This type of approach is often used when the activity evaluated takes place repeatedly and indefinitely, such as hospital accreditation. - A [best practices assessment:]{.underline} a less structured evaluation based on a flexible appraisal of whether best practices principles of the survey and inventory process had been followed. The basic principles that should govern the design and implementation of each major containment activity would be established and a structure developed to allow each country to provide a detailed description of how each principle was followed. Written descriptions of the activities undertaken would provide evidence as to whether best practices had been followed and therefore, whether the expected results of the best practices for each component are likely to have been achieved. Having reviewed available containment data from more than 50 countries it became apparent that country-to-country variation in population size, administrative structure, health infrastructure, industrial development and political complexion makes the development of a purely standards-based approach very difficult. In addition, the standards-based approach requires significant time to develop and test standards and indicators, and significant resources to carry out external surveys. Given the fact that the survey and inventory are activities that are done only once, the utilisation of resources for a standards-based approach is not justified. Moreover, there is no evidence that it would be a more valid approach. Therefore, it is more appropriate to develop an approach that assesses the performance of a country using a flexible best-practices model for the activities required to carry out the National Laboratory Survey and establish a National Laboratory Inventory. Developing a best practices model begins with determining the essential components of the laboratory survey phase. ## Essential components of a high quality laboratory survey and inventory phase of containment activities A review of laboratory survey and inventory data and activities from more than 50 countries reveals the following six essential components of a successful program: 1. Strong political endorsement and support for containment 2. A realistic National Plan of Action 3. An effective Containment Coordinator and National Task Force 4. A comprehensive National Laboratory List 5. A high quality Laboratory Survey 6. A complete and active National Laboratory Inventory ## Development of guidelines for documenting the quality of laboratory survey and national inventory activities Having determined the essential components of activities required for meeting containment requirements and the best possible outcome for each of those components, a model has been established of the best practices that could be applied to achieve the desired results. The best practices model describes a series of key features and activities that must be undertaken in order to achieve a high quality result. Because of the many differences between countries, the ways in which key features are implemented and the detail of activities undertaken will differ. By describing in detail their implementation of the containment requirements, countries can compare the activities they have undertaken with those of the best practices model. The following guidelines have been developed to assist countries in describing and documenting the details of activities they have carried out in response to the requirements for Certification. Each of the essential components has been divided into a number of sections with explanations of the types of activities that are required to achieve a best practices outcome. Countries are requested to provide descriptions of the activities they carried out to achieve the outcomes in each section. Areas of activity to be considered in their descriptions are provided in each section and should be referred to before completing the section. **The Guidelines** The primary purpose of these guidelines is to allow self-evaluation of laboratory survey and inventory activities before requesting the National Certification Committee to endorse and forward documentation to the Regional Certification Commission. Additionally, they provide a systematic framework for producing a written description of the laboratory survey and inventory activities undertaken by the country which can be assessed by Regional Certification Commissions. The guidelines are designed for use at a time when the survey is complete and the inventory is in place. However, countries beginning the survey process may also wish to review the guidelines when establishing and implementing quality containment activities to ensure that their planning is complete. Correct use of the guidelines will provide each country with a description of the process followed in implementing the Phase I laboratory containment activities. When presented together with any numerical data requested by the Regional Certification Commission, the account will provide strong evidence in support of the thoroughness of the National Laboratory Survey process leading to the establishment of the National Laboratory Inventory. ## Instructions Read the following 6 components of a successful laboratory survey and inventory and produce a written description of the country\'s activities using the example topics given in the boxes titled \"country requirement\". The final product should be a written description of the country\'s laboratory survey and inventory activities that addresses each topic in sufficient detail to provide compelling evidence of a high quality program. If some topics do not apply to the country situation, please indicate this in the text and state the reason they do not apply. **[Component 1. Political endorsement and support]{.smallcaps}** ## Political support > Implementation of the laboratory survey and inventory activities > requires active cooperation and collaboration from a wide range of > government ministries, departments, agencies and institutions. To > obtain this cooperation, the process must have the authority to compel > collaboration from the different sectors; and this usually requires > high-level political support. In many countries, particularly those > with a strongly hierarchical political or administrative structure, > the level of authority required to ensure multi-sector collaboration > can only come from the office of the head of state or head of > government. In other countries, particularly those with established or > proposed legislation that applies to the containment process, it may > be sufficient to obtain political and administrative support only from > the head of the legislative body. > > **Best practices result:** > > High-level political support for containment, with the > responsibilities and authority for implementation of the laboratory > survey and inventory phase activities agreed and accepted by all > sectors. ## Legislation > Many countries have national legislation that applies or could be > applied to some aspects of the polio laboratory containment process. > This legislation may include the requirement for biomedical > laboratories to be registered with a government department or agency, > for microbiology and pathology laboratories to operate under > recognised biosafety conditions, for employers to ensure the safety of > their workers, etc. This legislation may be used to give authority to > the polio laboratory containment process and persuade institutions and > laboratories to comply with containment requirements. > > **Best practices result:** > > National or community legislation was used effectively to enforce > compliance with the laboratory survey and inventory activities. ## Multi-sector involvement > Implementation of the Phase I containment activities involves many > sectors in addition to the health sector. The education, research, > environment, industry and defence sectors, among others, may also have > laboratories storing wild poliovirus infectious materials. These > sectors must also be involved in the laboratory survey process, > ensuring that laboratories under their authority are aware of the > containment requirements and are implementing them. > > **Best practices result:** > > A broad basis of involvement in containment was established. ## Effects of decentralisation > Many countries have devolved responsibility for implementation of > services, particularly health-related services, to sub-national > authorities. In many cases national government offices have very > little direct authority over how the sub-national authorities > implement national policies and directives. In some cases sub-national > autonomy is extended even further and sub-national authorities are not > bound to follow national directives. Where a decentralised systems > exists, it is essential that all sub-national authorities responsible > for implementation of Phase I containment activities are fully > involved in the process, and that no geographical or political > sub-units of countries are excluded. > > **Best practices result:** > > Where authority has been devolved to sub-national administrations > there was full involvement of all sub-national authorities in Phase I > containment activities. # Component 2. The National Plan of Action ## Responsibility for the Plan > An effective Plan of Action must accurately reflect the national > situation with regard to local knowledge, national concerns and a > practical consideration for potential constraints and limitations. > Ideally, the Plan should be the result of consensus by a group of > technically competent individuals representing a range of national > institutions. Approval for the Plan should come from a high political > or administrative level, and be given some official status. This > confers importance and status on the Plan and additional authority on > those charged with implementing it. > > **Best practices result:** > > A comprehensive, well written, nationally supported Plan was > established and used to implement Phase I containment activities. ## Realistic timeframe for activities > In order to maintain progress with containment activities, Regional > Certification Commissions have set criteria for achievement of Phase I > containment activities before regional certification of polio free > status. The National Plan of Action should reflect projected dates for > regional certification and recognize that time will be required to > meet all criteria by those dates. The Plan should provide a clear and > realistic description of when each step in meeting the requirements > will be completed. > > **Best practices result:** > > The Plan included a realistic timeline complete with achievement > milestones. ## Personnel and funding resource allocation > Implementation of laboratory containment activities requires > resources, both personnel and funding. The National Plan of Action > should acknowledge this fact, estimate the requirements and identify > sources. It is possible that sufficient resources will not be > available from within the country, in which case support could be > sought from the international community. The Plan should include > details of any planned advocacy for national and international > support. > > **Best practices result:** > > The Plan included an appropriate resource allocation. ## Multi-sector involvement > Phase I laboratory containment activities involve a wide range of > institutions and laboratories, covering several sectors. The plan > should include details of how containment will be implemented in each > of these sectors. > > **Best practices result:** > > All appropriate sectors were included in the Plan. ## Effects of decentralisation > A strong National Plan of Action that accurately reflects the > political and administrative realities of the country is essential to > effective implementation of Phase I containment activities. A Plan > that fails to acknowledge the administrative effects of > decentralisation, and fails to engage sub-national authorities from > the outset, will be a poor plan. Experience has shown that a poor Plan > makes effective implementation of Phase I containment requirements > very much more difficult. > > **Best practices result:** > > The Plan called for full involvement of National and Regional > authorities. # Component 3. The National Containment Coordinator ## Sufficient Political or Administrative Stature > The role of National Containment Coordinator carries a significant > amount of responsibility. The Coordinator must interact effectively > with many different government departments and with non-governmental > organizations. The coordinator must have sufficient political, > administrative or social stature to command attention and to have > institutions and laboratories comply with requirements. In many cases > the Coordinator will be dependent for political and administrative > support upon the ministry or department of health and the National > Certification Commission, and it is essential that the Coordinator can > easily call on this support when needed. > > **Best practices result:** > > The Coordinator has sufficient status and authority within the > country. ## High level of Competence > The ideal containment Coordinator should have extensive background > experience in laboratory biosafety and public health administration. > However, such individuals are very rare, and it is more likely that > the Coordinator would have experience in only one of these fields, or > a closely related field. The Coordinator is therefore dependent on > others to provide technical support in areas other than their own > specialties. For this reason it is essential that the Coordinator can > call upon other experts to make the most appropriate and effective > decisions in implementing containment activities. > > **Best practices result:** > > The Coordinator had access to sufficient technical ability and > resources. ## Availability of Sufficient Time and Support > The National Task Force and Containment Coordinator play an essential > and demanding role in the implementation of containment activities. > Coordination of containment activities, from overseeing development of > the National Plan, through creating the laboratory list and carrying > out the survey, to establishing the inventory and preparing final > documentation, is detailed and time consuming. It is essential that > the Coordinator has sufficient working time available to carry out > these tasks, and that other professional commitments do not prevent > implementation of the activities. In all but the smallest countries > the workload associated with coordinating containment activities will > exceed the capacity of a single individual. It is essential, > therefore, that the Coordinator has access to both administrative and > technical support. In some countries this support has been in the form > of commercial companies that were contracted to carry out the > laboratory survey on behalf of the government, or to manage and > analyse the survey data. > > **Best practices result:** > > The Coordinator had enough time to carry out the work required, and > the workload was appropriately managed. # # Component 4. The National Laboratory List ## Process of establishing the list > Before a survey of laboratories can be undertaken it is necessary to > identify all possible laboratories that should be included in the > survey. This is achieved by establishing a national list of > laboratories. It is important that the list is as inclusive as > possible: all laboratories with any possibility of storing wild > poliovirus materials must be included. The most common way of > achieving this is to include all laboratories with any capacity to > handle biological materials, including diagnostic, research, teaching > and industrial production laboratories. In many countries some sectors > maintain laboratory lists for registration, control or funding > purposes. These lists can be used as starting material for the > national laboratory list. In all cases it is essential to use the > knowledge and experience of experts within the country, the heads of > public health authorities, professors and leading scientists to ensure > that all sectors are covered and all laboratories are included in the > list. > > **Best practices result:** > > A comprehensive National Laboratory List was established in an > appropriate and thorough manner. ## Completeness of the List > The List should include every laboratory in the country with any > possibility of storing wild poliovirus materials. It is impossible to > prove that every appropriate laboratory in the country has been > included in the List, but it can be shown that every sector with > laboratories is well represented and that no sector has been > forgotten. It is also essential that there is a process from updating > the List: containment activities take place over several years and > during that time a number of laboratories are likely to open, close or > change function in almost every country. > > **Best practices result:** > > All appropriate laboratories were included in the List. ## Management of the List > Good data management is essential, particularly for the National > Laboratory List as this may contain details of several thousand > laboratories. The List must be maintained in a searchable format, from > which details such as laboratory addresses and names of contact > persons can easily be retrieved. The format of the List should also > allow easy analysis, so that summaries, breakdowns and reports can be > generated. It should also be possible to update the List when new or > additional information is received. > > **Best practices result:** > > The data is current, well managed and appropriately maintained. **Component 5. The Laboratory Survey** ## Thoroughness of the Survey > The laboratory survey should include every laboratory considered to > have any possibility of retaining wild poliovirus infectious > materials. The usual practice is to send survey questionnaires to > every laboratory on the national laboratory list. However, under > certain circumstances decisions may be made to exclude some > laboratories from the survey. If laboratories in the list have been > excluded from the survey it is important to document the reasons for > this exclusion. > > **Best practices result:** > > All appropriate laboratories on the National Laboratory List were > included in the National Laboratory Survey. ## Completeness of responses > A 100% response rate is the goal of every survey carried out. This > goal, however, is rarely achieved at the first attempt, and numerous > follow-up attempts are often required to obtain all responses. There > are many reasons for failing to respond to the questionnaire, and some > laboratories require clarification of the questions or additional > information before they feel capable of providing a response. There is > no "minimum acceptable" level of response to the survey, but any > country that fails to achieve a response rate close to 100% should be > able to provide documentation on the attempts made to obtain responses > together with some explanation of why responses could not be obtained. > > **Best practices result:** > > A high level of response (close to 100%) to the Survey was obtained. ## Quality of the Survey > Analysing the results for missing information, inconsistencies and > recognised errors, can demonstrate survey quality. A follow up on that > analysis is required to determine the true situation. Survey results > that are accepted and reported without such scrutiny are of unknown > quality, and should not be accepted by Regional Certification > Commissions. If less than a 100% survey response rate is obtained a > risk assessment of the non-responding laboratories is required. If > non-responders are considered to have a high probability of retaining > wild poliovirus infectious materials, every effort must be made to > obtain a survey response from them, and the survey will not be > considered complete until a response is obtained. At the discretion of > the national containment coordinator and the National Certification > Committee, selected laboratories may be visited to verify the > responses given in the survey. This is particularly important for > laboratories that provide survey responses that were considered > unexpected on the basis of local knowledge. > > **Best practices result:** > > Results of the Survey were analysed and findings of the analysis were > acted upon. ## Management of Survey data > As with management of the national laboratory list, good data > management of the survey results is essential. Survey data must be > maintained in a searchable format, from which details can easily be > retrieved and summaries, breakdowns and reports can be generated. It > should also be possible to update the survey database when new or > additional information is received. > > **Best practices result:** > > The Survey data are well managed and maintained, in a format allowing > rapid analysis and updating. # Component 6. The National Laboratory Inventory ## Thoroughness of the inventory process > The Regional Certification Commission will be looking for evidence > that every laboratory retaining wild poliovirus infectious materials > at the time of the completion of the laboratory survey is on the > National Laboratory Inventory. The process by which the Inventory was > created should be fully documented, and any inconsistencies or > differences between the Laboratory Survey results and the Inventory > must be fully explained. > > **Best practices result:** > > All laboratories with wild poliovirus infectious materials are on the > National Inventory. ## Management of the Inventory data The National Inventory and supporting documents are prepared and presented to the National Certification Committee for review, endorsement, and submission to the Regional Certification Commission as a component of National Documentation for Certification of Polio Eradication. National Inventories of laboratories with wild poliovirus infectious materials will be compiled into Regional Inventories maintained by the WHO Regional Offices; good data management is therefore essential. > **Best practices result:** > > The National Laboratory Inventory data are well managed and > maintained. ## Maintenance of the Inventory > The National Inventory is an active record, maintained as a current > list of laboratories to be notified to initiate the appropriate > containment procedures one year after detection of the last wild > poliovirus. The next phase of the laboratory containment process will > require laboratories on the National Inventory to fully catalogue all > wild poliovirus infectious materials retained, and it is essential > that laboratories on the Inventory are aware of this requirement in > advance. > > **Best practices result:** > > The Inventory remains current and accurate and the laboratories listed > have been informed to operate under BSL-2 /polio and to prepare for > global certification.

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**Magnet/Syringe Separation Issues** **V.B. Graves** **8/12/05** This document is an initial response to the results of Peter\'s analysis on the attractive forces between the magnet and the steel hydraulic cylinders in the baseline syringe pump design. Based on the conversations I have had with hydraulic integrators, aluminum cylinders are not practical at the intended operating pressures and are not an option for the Hg cylinder in any case. It appears the only solutions to this problem are to either use all-stainless cylinders or separate the cylinders from the magnet. Since the cost of stainless cylinders is prohibitively high, the practical solution is to increase the distance between the magnet and the cylinders. While Peter\'s analysis indicated that 1m would be a sufficient separation distance, in our subsequent phone conversation we thought that a separation distance of 2m might be preferred as a conservative approach to the analysis results, and my comments below reflect that value. The final value is TBD. To minimize changes to the current design (Fig. 1) this separation would most easily be accomplished by increasing the length of the flexible hoses between the sump tank and the target module, keeping the sump tank and cylinders inside a secondary container box. The secondary bellows surrounding the Hg supply and return lines would necessarily lengthen as required. Conceptually this is shown in Fig. 2. This change has several implications on the design, some positive in nature and some negative. I have listed some of these below, but I\'m sure that more will develop as the redesign progresses. *Those issues that deal with the cylinders must be resolved prior to the syringe pump procurement.* ![](media/image1.jpeg){width="5.364583333333333in" height="3.125in"} Fig. 1. Existing Design ![](media/image2.jpeg){width="5.997222222222222in" height="2.203472222222222in"} Fig 2. Separated System (use your imagination to insert the target module into the magnet). Magnet elevated to beam height, syringe system on floor. Intermediate hose supports not shown. # Baseplate - The common baseplate cannot be extended 2m in length due to the fixed beam elevation and facility constraints both at MIT and CERN. This implies that a common baseplate is not needed. However, it is still required that the magnet be elevated, tilted, and aligned with the beam, so some sort of magnet baseplate will be necessary. Because it already incorporates a means to perform alignment adjustments, one option would be to shorten the current baseplate so that it only supports the magnet. - With flexible hoses, the syringe does not have to be tilted and may sit directly on the floor (or a mobile baseplate). - The syringe system no longer has to be directly in line with the magnet or beam, which would allow some flexibility in positioning. This may be beneficial during integrated tests at MIT. - With 2m of flex hose, the target module might be manually inserted into magnet, so syringe system does not require rolling cart. Estimated weight of the target module is 100-150 lbs. # Cylinders - With no magnetic attraction forces to deal with, carbon steel cylinders, rods, and pistons can be used in the drive cylinders. The Hg cylinder will still be designed for water service (i.e., chrome plating cylinder walls, piston, rod) - Because the syringe is no longer interfaced to the magnet through the common baseplate, minimizing the syringe length is no longer a driving requirement. The Hg cylinder diameter could decrease from 10\" to 8\", putting it in the \"low-cost\" family of cylinders. With an 8\" Hg cylinder, maintaining the 12-sec jet requirement will increase the required stroke by 8\" and the total extended length by approximately 13\". # Extended Hoses - Added flex hose will require support to prevent sag due to Hg weight. - Flexible hoses have internal convolutions that will trap Hg in these slightly-sloped hoses and will have more flow resistance than rigid pipe. For flow reasons, it would be preferable to use rigid pipe for most of the new length with flex hoses on one or both ends. Use of 2m of rigid pipe makes it impractical to ship and transport assembled system (syringe, pipe, target module), so assembly and disassembly of the primary containment would be required at MIT and CERN. However, the use of rigid pipe is not absolutely required, and the desire to not open the primary containment in the MIT and CERN facilities probably overrides the flow issues. - Pressure drop across 2m of new pipe will be calculated; increasing pipe diameter reduces pressure drop but would require additional Hg inventory. - Additional length of pipe requires additional Hg inventory to pre-fill supply line prior to syringe actuation (2m of 1\" pipe will require approx 1 additional liter). Some slightly increased amount of cylinder stroke will be lost to pre-filling the additional volume. - The 6\" diameter Hg return hose is fairly expensive (\$2100 for 18.25 inches), so adding another 1.5m is not an insignificant expense. I will probably go with a smaller diameter hose for the return line. - Since they interface through the secondary containment box, hydraulic lines, sensor wires, ?scintillator?, and optic fiber bundles will have to be longer since they will be further from the TT2/TT2A junction. The fiber bundles and scintillator cables will be inside the flexible secondary containment along with the Hg supply and return lines. # Target Module - Because the syringe pump & containment box would be positioned below the beam, the downstream secondary beam window would move to the target module rather than the secondary containment box. - Downstream end of target module would require changes to accommodate different secondary containment. - Supporting the target module off of the secondary containment box from 2m away is not practical (see Fig. 3). Secondary containment baseplate could have provisions for storage of target module. ![](media/image3.jpeg){width="5.9944444444444445in" height="2.1756944444444444in"} Fig. 3. Existing target module bracing method

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# Presentation: 509570 ## Archived Information - The information in this presentation is archived for historical and reference purposes only. ## Implementing the Reading Excellence Act - Laurie Lacy - Janice Dole - Becky Donaldson - Brady Donaldson - Utah State Office of Education ## Overview - Utah’s Vision - What We’ve Learned So Far - One District’s Vision - What We’ve Learned So Far - One School’s Vision - What We’ve Learned So Far - Conclusions ## Utah’s Vision - The Utah Reads K-3 Literacy Model ## Slide 5 ## Perspective on Reform by USOE - Reform focused at the building level. - Pivotal point for reform - Teacher expertise - Professional development ## Professional Development Plan - Intensive professional development over the year - 100 hours of instructional time for teachers - Ongoing professional development - Continuity, not series of one-shot workshops - Staff developer in every building - Support for teachers in their classrooms ## Professional Development - Professional development for the staff developers - Many do not know current research in reading for at-risk students. - Two days per month of inservice work - Reading research implications for at-risk readers - Developing and practicing exemplary lessons - Source of support for staff developers ## What We’ve Learned So Far - Lack of understanding of “professional development.” - Lack of knowledge about recent reading research. - Decision-making collaboration difficult. - Some view the REA as money to implement their agenda. - “Don’t assume that just because a district wrote a good proposal, they have the capacity to implement it.” ## One District’s Vision - To run a successful REA grant, districts must recognize that: - teacher skill and knowledge is the high priority (e.g. more than class size). - belief systems must change. - schools must reach out to the community, home and family. - administrators must understand and support project. - separate departments must come together to form a seamless system. ## What We’ve Learned So Far - Everyone must see the vision. - Take small steps, take time. - Assume nothing. - Recognize that you are changing a whole mindset. - “A poor program in the hands of a good teacher produces better results than a good program in the hands of a poor teacher.” ## One School’s Vision - To run a successful REA grant, schools must: - break down traditional barriers to communication. - scaffold instruction for teachers. - develop a single school-wide vision. - help staff let go. ## What We’ve Learned So Far - Patience is a virtue. - Without understanding, the REA grant looks like an unlimited pot of money. - “Never beat yourself up for doing the best you could with what you had to work with, and what you knew. It’s only shameful if you don’t improve once you know better.” - Oprah Winfrey ## Conclusions - The REA is a long-term commitment with schools. - There are many misconceptions about reading instruction that must be dealt with. - Developing a shared vision takes time.

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![](media/image1.png) ######### February 23, 2007 Dear Business Leader: We cordially invite you to participate in the **Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference,** which will highlight the accelerating investment and dynamic business climates created by recent U.S. Free Trade Agreements with Bahrain, Jordan, Morocco and Oman. The MEFTA Trade and Investment Conference, to be held in **London on Thursday, March 29, 2007**, will provide a unique forum for U.S. and Arab business leaders to identify strategic business opportunities and partnerships in some of the most rapidly growing economies of the Middle East and North Africa. Government leaders, including the **Prime Minister of Morocco, Minister of Trade and Industry of Jordan and the Chief Executive of the Economic Development Board of Bahrain** will join us to address the booming commercial landscape and promote business opportunities. Further, executives of U.S. enterprises operating in the region will provide first-hand accounts of their companies' experience. As American Ambassadors, it is our responsibility to inform you and other U.S. industry leaders of potential trade and investment opportunities in the countries in which we serve. Accordingly, we are assembling leading government and business leaders for this event. We also hope to see many of you in Amman, Manama, Muscat, and Rabat in the near future to follow up on leads identified in London. Attached is a brief synopsis of conference details, country specific information and an RSVP form. You can also find this information, including registration, on our conference website at www.trademeetings.com. You are also invited to a reception the evening before on March 28^th^ sponsored by the US-Middle East Free Trade Coalition. We look forward to seeing you in London for an informative day of briefings and discussions. With Best Regards, ![](media/image2.jpeg){width="0.9472222222222222in" height="0.41944444444444445in"} ![](media/image3.wmf){width="1.320138888888889in" height="0.32013888888888886in"} ![](media/image4.jpeg){width="1.601388888888889in" height="0.5451388888888888in"} ![](media/image5.jpeg){width="1.8743055555555554in" height="0.4444444444444444in"} Thomas T. Riley U.S. Ambassador Kingdom of Morocco William T. Monroe U.S. Ambassador Kingdom of Bahrain David Hale U.S. Ambassador Kingdom of Jordan ###### Gary A. Grappo ###### U.S. Ambassador ###### Sultanate of Oman ## {#section .unnumbered} ## Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference "Bringing Middle Eastern and North African Government Leaders and Opportunities to U.S. Business" To Register: Please fill out the following form OR **register ONLINE at the conference website: [www.trademeetings.com](http://www.trademeetings.com/).** Full Name: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Title: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Organization: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Telephone: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Fax: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ E-Mail: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Please indicate which break-out sessions you plan to attend:  Jordan  Morocco  Bahrain  Oman **For Security Pre-clearance please provide:** Date of Birth (mo-day-year): \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Citizenship: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ Driver's License or Passport Number: \_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_\_ ### **Photo identification required upon arrival** Please return fax to: MFM Trade Meetings ATTN: Dan Lamey 1-305-667-7840 For questions or additional information, please contact Dan Lamey at <MEFTA@trademeetings.com> or by phone at 1-305-667-4705 ## Middle East Free Trade Agreement (MEFTA) Trade and Investment Conference ""Bringing Middle Eastern and North African Government Leaders and Opportunities to U.S. Business" March 29, 2007 Gloucester Hotel 4-18 Harrington Gardens SW7 4LH London, United Kingdom Telephone: +44 (0) 20 7373 6030 Facsimile: +44 (0) 20 7373 0409 U.S. Ambassadors William T. Monroe (Bahrain), David Hale (Jordan), Thomas T. Riley (Morocco), and Gary A. Grappo (Oman) invite you to attend exclusive, invitation-only briefings, discussions and a reception to exchange ideas on strengthening U.S. commercial links with our new Free Trade Agreement partners. Government leaders from Bahrain, Jordan, Morocco, Oman and American Ambassadors to these nations will be featured. *March 28* 6:00 p.m. Official Reception > Hosted by US-Middle East Free Trade Coalition > > Location: Wynchwood House *March 29* 8:00 a.m. Registration & Morning Coffee/Tea 9:00 -- 12:00 a.m. Introductions, remarks, and briefing by U.S. Ambassadors and senior Middle East and North African government leaders 12:00 -- 1:30 p.m. Luncheon 1:30 -- 6:00 p.m. Breakout sessions and networking with senior U.S. and Middle East and North African government leaders

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**BUREAU OF ALCOHOL, TOBACCO AND FIREARMS** **Alcohol & Tobacco** **Office of Alcohol and Tobacco** # Newly Formed Tax Audit Division And New Division Chief {#newly-formed-tax-audit-division-and-new-division-chief .unnumbered} *By Victoria McDowell/Joette Brown (202)927-5000* ![](media/image1.jpeg){width="1.6354166666666667in" height="2.4479166666666665in"}Victoria McDowell is the Division Chief for the new Tax Audit Division. The duties of the division include conducting audits of taxpayers that pay over \$250,000 annually. The division will include up to ten field offices nation-wide. Ms. McDowell joined the Bureau of Alcohol, Tobacco and Firearms (ATF) in July 1998, as the Assistant Financial Manager, Accounting Policy and Reporting Branch in the Financial Management Division. Her duties included managing the annual Chief Financial Officer's audit of the Bureau. Under her leadership, the Bureau achieved unqualified audit opinions. Prior to joining ATF, Vicky worked for the Financial Management Service (FMS), also in the Treasury Department, where she held the positions of Credit Administration Division Director, Director of the Asset Management Directorate, and Deputy Assistant Commissioner of Debt Management Services. Each of those positions dealt with setting government-wide policies in financial areas. Also while at FMS, Ms. McDowell developed an international financial management training program for developing countries. Ms. McDowell was instrumental in developing an internship program for Russian financial managers and a training program for the State Tax Service of the Russian Federation. She also worked with the Canadian Government and the Organization for Economic Cooperation and Development in Paris, France. Ms. McDowell is a Certified Government Financial Manager and member of the Association of Government Accountants. She has 22 years of Federal Government experience. She began her Federal career with the Agriculture Department where she developed and implemented an internal control program for an agency that held a sixty billion dollar credit portfolio. For several years, Ms. McDowell served as the Chair of the Supervisory Committee of the Treasury Department Federal Credit Union, where she supervised the internal audit function and the annual financial statement audit of the credit union. She was also on the Board of Directors. Welcome aboard! # {#section .unnumbered} # Alcohol Labeling Corner {#alcohol-labeling-corner .unnumbered} # {#section-1 .unnumbered} # Organic Labeling {#organic-labeling .unnumbered} # # *By Rick Evanchec (202)927-8140* # The Alcohol Labeling and Formulation Division (ALFD) would like to remind you of the approaching deadline that affects all labels that make organic references. The labeling requirements under the National Organic Program (NOP) will take effect on October 21, 2002. All products bottled on or after this date that make an organic claim must be labeled to satisfy the regulations under this program (7 CFR Part 205). The most obvious change associated with the NOP is that all alcohol beverages bearing an organic claim will be required to include a complete ingredient statement on the label. In addition, Federally accredited agents must certify procedures and handlers who wish to make organic claims. Current labels that do not satisfy these and other requirements under the NOP will be revoked by operation of regulation as of October 21, 2002. {#the-alcohol-labeling-and-formulation-division-alfd-would-like-to-remind-you-of-the-approaching-deadline-that-affects-all-labels-that-make-organic-references.-the-labeling-requirements-under-the-national-organic-program-nop-will-take-effect-on-october-21-2002.-all-products-bottled-on-or-after-this-date-that-make-an-organic-claim-must-be-labeled-to-satisfy-the-regulations-under-this-program-7-cfr-part-205.-the-most-obvious-change-associated-with-the-nop-is-that-all-alcohol-beverages-bearing-an-organic-claim-will-be-required-to-include-a-complete-ingredient-statement-on-the-label.-in-addition-federally-accredited-agents-must-certify-procedures-and-handlers-who-wish-to-make-organic-claims.-current-labels-that-do-not-satisfy-these-and-other-requirements-under-the-nop-will-be-revoked-by-operation-of-regulation-as-of-october-21-2002. .unnumbered} # {#section-3 .unnumbered} # The NOP is administered by the Agriculture Marketing Service (AMS), a division of the United States Department of Agriculture (USDA). The requirements under the NOP were created to implement the Organic Food Production Act of 1990. This law was passed to set a national standard for the production and marketing of organically produced products, including beverage alcohol. {#the-nop-is-administered-by-the-agriculture-marketing-service-ams-a-division-of-the-united-states-department-of-agriculture-usda.-the-requirements-under-the-nop-were-created-to-implement-the-organic-food-production-act-of-1990.-this-law-was-passed-to-set-a-national-standard-for-the-production-and-marketing-of-organically-produced-products-including-beverage-alcohol. .unnumbered} # {#section-4 .unnumbered} # In the future when ATF receives label applications that contain organic references, ATF will review the labels for compliance with the Federal Alcohol Administration Act {#in-the-future-when-atf-receives-label-applications-that-contain-organic-references-atf-will-review-the-labels-for-compliance-with-the-federal-alcohol-administration-act .unnumbered} # {#section-5 .unnumbered} # {#section-6 .unnumbered} # {#section-7 .unnumbered} # and the Alcohol Beverage Labeling Act (Health Warning Statement) and ATF will also forward the applications to AMS for concurrent review to determine if they meet the requirements of the NOP as well. Please continue to {#and-the-alcohol-beverage-labeling-act-health-warning-statement-and-atf-will-also-forward-the-applications-to-ams-for-concurrent-review-to-determine-if-they-meet-the-requirements-of-the-nop-as-well.-please-continue-to .unnumbered} # {#section-8 .unnumbered} # {#section-9 .unnumbered} # submit a copy of your certification as an organic producer, issued by a USDA accredited certifying agent {#submit-a-copy-of-your-certification-as-an-organic-producer-issued-by-a-usda-accredited-certifying-agent .unnumbered} # along with each label application that contains organic references. {#along-with-each-label-application-that-contains-organic-references. .unnumbered} # {#section-10 .unnumbered} # Industry members who would like more information about the NOP requirements can visit {#industry-members-who-would-like-more-information-about-the-nop-requirements-can-visit .unnumbered} [www.ams.usda.gov/nop](http://www.ams.usda.gov/nop)**.** ALFD will publish more detailed guidance on organic labeling of alcohol beverages in the near future. ATF is also happy to answer any questions about the impact of NOP on the alcohol beverage industry. You can contact us at 1-866-927-2553 or by e-mail at alfd@atfhq.atf.treas.gov. **"A Very Good Year for Vitners"** *By Jerry Shriver, USA Today* *(Editing and Additional Comments by Phil Coy,* *513-684-2322)* According to an article that appeared in the June 28, 2002, edition of USA Today, a new winery that recently opened in Burlington, North Dakota marked a significant turning point for the wine industry. When this new winemaker was issued their ATF permit and registry number on April 17^th^, it became the first time when there's at least one Federally bonded winery in all 50 States. USA Today wrote: "The \[Burlington\] venture joins a parade of more than 600 wineries that have opened during the past decade." The wine industry credits growth to "improved winemaking, approaches to production that allow better wines to be made in more locations, liberalized laws that make it easier to open a profitable tasting room, a surge in wine tourism and a growing thirst for locally made products." Although most of the growth has occurred in California, Washington, Oregon and New York (those states accounted for 98% of the \$20 billion worth of table wine produced and sold in the USA last year), other states such as Indiana, Illinois and Texas are also enjoying mini-booms. Of course, employees of the ATF National Revenue Center' s (NRC) Wine Section like to think it's the top-notch service they strive to provide to their customers, that's helped fuel the small-scale winemaking "explosion." The NRC's Wine Section staff is ready and willing to provide you with the necessary paperwork and help guide you through the process of obtaining a Federal permit. For information and assistance with this and other ATF requirements, please contact them at 800-398-2282 (513-684-3334) or natlrevctr@cinc.atf.treas.gov. **Notice of Proposed Rulemaking** # {#section-11 .unnumbered} # *By Joanne Brady (215)597-5288* {#by-joanne-brady-215597-5288 .unnumbered} # {#section-12 .unnumbered} # {#section-13 .unnumbered} # The Bureau of Alcohol, Tobacco and Firearms (ATF) published a Notice of Proposed Rulemaking (NPRM) (notice No. 947) on July 9, 2002, that proposes the establishment of a viticultural area to be known as "Oak Knoll District." The notice results from a petition filed by Ms. Janet Trefethen, who heads the Oak Knoll District Committee. {#the-bureau-of-alcohol-tobacco-and-firearms-atf-published-a-notice-of-proposed-rulemaking-nprm-notice-no.-947-on-july-9-2002-that-proposes-the-establishment-of-a-viticultural-area-to-be-known-as-oak-knoll-district.-the-notice-results-from-a-petition-filed-by-ms.-janet-trefethen-who-heads-the-oak-knoll-district-committee. .unnumbered} # {#section-14 .unnumbered} # The proposed area is located at the cooler, southern end of the Napa Valley in California. If established as a viticultural area, Oak Knoll District would border the Mt. Veeder viticultural area to the west and the Yountville viticultural area to the north. The area encompasses approximately 9, 940 acres. About 4, 040 of those acres are suitable for grape vines. {#the-proposed-area-is-located-at-the-cooler-southern-end-of-the-napa-valley-in-california.-if-established-as-a-viticultural-area-oak-knoll-district-would-border-the-mt.-veeder-viticultural-area-to-the-west-and-the-yountville-viticultural-area-to-the-north.-the-area-encompasses-approximately-9-940-acres.-about-4-040-of-those-acres-are-suitable-for-grape-vines. .unnumbered} # {#section-15 .unnumbered} # ATF requests comments on this proposal. All comments must be received by September 9, 2002. Written comments should be sent to: {#atf-requests-comments-on-this-proposal.-all-comments-must-be-received-by-september-9-2002.-written-comments-should-be-sent-to .unnumbered} # {#section-16 .unnumbered} # Chief, Regulations Division {#chief-regulations-division .unnumbered} # Bureau of ATF {#bureau-of-atf .unnumbered} # Post office Box 50221 {#post-office-box-50221 .unnumbered} # Washington, DC 20091-0221 {#washington-dc-20091-0221 .unnumbered} # Attn: Notice No. 947 {#attn-notice-no.-947 .unnumbered} # {#section-17 .unnumbered} # Comments may also be submitted by e-mail to <nprm@atfhq.atf.treas.gov> or by fax (if five pages or less) to (215)597-7003. {#comments-may-also-be-submitted-by-e-mail-to-nprmatfhq.atf.treas.gov-or-by-fax-if-five-pages-or-less-to-215597-7003. .unnumbered} # {#section-18 .unnumbered} # ![](media/image2.png) {#section-19 .unnumbered} # {#section-20 .unnumbered} # {#section-21 .unnumbered} # {#section-22 .unnumbered} # International Trade Branch {#international-trade-branch .unnumbered} # {#section-23 .unnumbered} # Importing Samples for Trade Shows and for Ordering {#importing-samples-for-trade-shows-and-for-ordering .unnumbered} # {#section-24 .unnumbered} # *By Perky Ramroth (415)947-5193* {#by-perky-ramroth-415947-5193 .unnumbered} # {#section-25 .unnumbered} # Samples of alcoholic beverages imported for use at trade shows and/or for soliciting orders do not require an approved Certificate of Label Approval Form 5100.31, under certain conditions. Permission may be obtained by filing a letter request with ATF which states the amount of alcoholic beverage to be imported and the purpose, and that the following conditions will be met: {#samples-of-alcoholic-beverages-imported-for-use-at-trade-shows-andor-for-soliciting-orders-do-not-require-an-approved-certificate-of-label-approval-form-5100.31-under-certain-conditions.-permission-may-be-obtained-by-filing-a-letter-request-with-atf-which-states-the-amount-of-alcoholic-beverage-to-be-imported-and-the-purpose-and-that-the-following-conditions-will-be-met .unnumbered} # {#section-26 .unnumbered} # Products will be imported by the holder of an Importer's Basic Permit. # All applicable taxes and duties will be paid. # A sticker will be affixed to every container (bottle) which reads, "For Trade Show (or Sample) Purposes Only -- Not for Sale." # A label will be affixed to every container which bears the Health Warning Statement. # In the case of wine, an additional label will be affixed which reads, "Contains Sulfites." # {#section-27 .unnumbered} # Letter requests to import about this procedure, please contact the International Trade Branch at (202)927-8110. {#letter-requests-to-import-about-this-procedure-please-contact-the-international-trade-branch-at-202927-8110. .unnumbered} # {#section-28 .unnumbered} # New and Revised Brewery Forms Now Available {#new-and-revised-brewery-forms-now-available .unnumbered} # {#section-29 .unnumbered} # *By Virginia Burnside (513)684-3066* {#by-virginia-burnside-513684-3066 .unnumbered} # {#section-30 .unnumbered} # {#section-31 .unnumbered} # The Brewery Units at the National Revenue Center would like to call attention to the recent revision of forms by the brewing industry. Four forms have been revised and three new forms have been created. These forms are to be used after April 1, 2002: {#the-brewery-units-at-the-national-revenue-center-would-like-to-call-attention-to-the-recent-revision-of-forms-by-the-brewing-industry.-four-forms-have-been-revised-and-three-new-forms-have-been-created.-these-forms-are-to-be-used-after-april-1-2002 .unnumbered} # {#section-32 .unnumbered} # ATF Form 5130.9 Brewer's Report of Operations (Revised) # ATF Form 5130.10 Brewer's Notice (Revised) # ATF Form 5130.22 Brewer's Bond (Revised) # ATF Form 5130.23 Brewer's Bond Continuation Certificate (Revised) # ATF Form 5130.25 Brewer's Collateral Bond (New) # ATF Form 5130.26 Brewpub Report of Operations (New) # ATF Form 5130.27 Brewer's Collateral Bond Continuation Certificate (New) # {#section-33 .unnumbered} # Since four of these forms were due for periodic review and/or approval by the Office of Management and Budget, it was an ideal time to revise them using plain language. As a result, the new and revised forms are user-friendly and should be easier for brewers to complete. {#since-four-of-these-forms-were-due-for-periodic-review-andor-approval-by-the-office-of-management-and-budget-it-was-an-ideal-time-to-revise-them-using-plain-language.-as-a-result-the-new-and-revised-forms-are-user-friendly-and-should-be-easier-for-brewers-to-complete. .unnumbered} # {#section-34 .unnumbered} # Changes to the Brewer's Report of Operations include: {#changes-to-the-brewers-report-of-operations-include .unnumbered} # {#section-35 .unnumbered} # The addition of the Employer Identification Number (EIN). # A new Part 2 to list information about Excise Tax Returns, ATF Form 5000.24, filed during the reporting period of the Brewer's Report. # An area to report any previous adjustments made to tax returns affecting a previous report of operations. # Minor line changes (lines 15(a) and (b) are now lines 14 and 15). # {#section-36 .unnumbered} # A brewpub that produces no more than 5,000 barrels of beer annually, and does not bottle or keg beer for removal from the brewery, may use the new Form 5130.26, Brewpub Report of Operations. All other breweries will use the revised Brewer's {#a-brewpub-that-produces-no-more-than-5000-barrels-of-beer-annually-and-does-not-bottle-or-keg-beer-for-removal-from-the-brewery-may-use-the-new-form-5130.26-brewpub-report-of-operations.-all-other-breweries-will-use-the-revised-brewers .unnumbered} # {#section-37 .unnumbered} # Report of Operations, Form 5130.9, on a monthly basis depending on production (filed quarterly if production is not more then 10, 000 barrels annually of filed monthly if production is over 10,000 barrels annually). {#report-of-operations-form-5130.9-on-a-monthly-basis-depending-on-production-filed-quarterly-if-production-is-not-more-then-10-000-barrels-annually-of-filed-monthly-if-production-is-over-10000-barrels-annually. .unnumbered} # {#section-38 .unnumbered} # The Brewer's Notice contains multiple changes and includes information that was previously submitted as a separate attachment to the Notice or as a variance. Signing authority for corporate officials, controlled group information, brewpub information, EIN and contact data (e-mail) are all included on the Brewer's Notice. {#the-brewers-notice-contains-multiple-changes-and-includes-information-that-was-previously-submitted-as-a-separate-attachment-to-the-notice-or-as-a-variance.-signing-authority-for-corporate-officials-controlled-group-information-brewpub-information-ein-and-contact-data-e-mail-are-all-included-on-the-brewers-notice. .unnumbered} # All the Brewer's Bonds have been revised and two new collateral bonds have been created. These forms must be used the next time it is necessary to execute a new Brewer's Bond or Continuation Certificate. The two new {#all-the-brewers-bonds-have-been-revised-and-two-new-collateral-bonds-have-been-created.-these-forms-must-be-used-the-next-time-it-is-necessary-to-execute-a-new-brewers-bond-or-continuation-certificate.-the-two-new .unnumbered} # forms are for brewers who use collateral (cash or acceptable securities) instead of a bond backed by a surety company. In January 2002, the home office of each authorized surety company was notified of the revised bond forms. {#forms-are-for-brewers-who-use-collateral-cash-or-acceptable-securities-instead-of-a-bond-backed-by-a-surety-company.-in-january-2002-the-home-office-of-each-authorized-surety-company-was-notified-of-the-revised-bond-forms. .unnumbered} # These forms can be found on the Internet at [www.atf.treas.gov](http://www.atf.treas.gov/), or obtained from the distribution {#these-forms-can-be-found-on-the-internet-at-www.atf.treas.gov-or-obtained-from-the-distribution .unnumbered} # center (703)455-7801. For more information please refer to Industry Circular 2002-1, dated March 5, 2002, or contact any Brewery Specialist at the ATF National Revenue Center, 1-800-398-2282. {#center-703455-7801.-for-more-information-please-refer-to-industry-circular-2002-1-dated-march-5-2002-or-contact-any-brewery-specialist-at-the-atf-national-revenue-center-1-800-398-2282. .unnumbered} # {#section-39 .unnumbered} # {#section-40 .unnumbered} # Reminder: Excise Tax Return Due Dates Change for September {#reminder-excise-tax-return-due-dates-change-for-september .unnumbered} # {#section-41 .unnumbered} # *By Phil Coy (513)684-3334* {#by-phil-coy-513684-3334 .unnumbered} # {#section-42 .unnumbered} # A law that went into effect January 1, 1995, changed alcohol and tobacco excise tax return due dates for the last part of September. The legislative change affects both electronic fund transfer (EFT) taxpayers and those who pay by check or money order (Non-EFT). This is a reminder to pay particular attention when filing your return during that month. Here are the September tax returns that are affected and when they are due (note that statewide legal holidays may affect a due date): {#a-law-that-went-into-effect-january-1-1995-changed-alcohol-and-tobacco-excise-tax-return-due-dates-for-the-last-part-of-september.-the-legislative-change-affects-both-electronic-fund-transfer-eft-taxpayers-and-those-who-pay-by-check-or-money-order-non-eft.-this-is-a-reminder-to-pay-particular-attention-when-filing-your-return-during-that-month.-here-are-the-september-tax-returns-that-are-affected-and-when-they-are-due-note-that-statewide-legal-holidays-may-affect-a-due-date .unnumbered} # {#section-43 .unnumbered} # [Tax Return]{.underline} {#tax-return .unnumbered} # [Serial Number]{.underline} [Return Period]{.underline} [Due Date]{.underline} {#serial-number-return-period-due-date .unnumbered} # {#section-44 .unnumbered} # 18 September 16-25 September 27 (Non-EFT) {#september-16-25-september-27-non-eft .unnumbered} # 18 September 16-26 September 30 (EFT) {#september-16-26-september-30-eft .unnumbered} # 19 September 26-30 October 11 (Non-EFT) {#september-26-30-october-11-non-eft .unnumbered} # 19 September 27-30 October 11 (EFT) {#september-27-30-october-11-eft .unnumbered} # {#section-45 .unnumbered} # You can find more information on legal holidays and all calendar year 2002 due dates for semi-monthly alcohol and tobacco excise tax returns at our website -- "ATF Online": {#you-can-find-more-information-on-legal-holidays-and-all-calendar-year-2002-due-dates-for-semi-monthly-alcohol-and-tobacco-excise-tax-returns-at-our-website-atf-online .unnumbered} # {#section-46 .unnumbered} # <http://www.atf.treas.gov/alcohol/info/2002duedates.htm> {#httpwww.atf.treas.govalcoholinfo2002duedates.htm .unnumbered} # or you may contact the ATF National Revenue Center at {#or-you-may-contact-the-atf-national-revenue-center-at .unnumbered} # 1-800-398-2282 (<natlrevctr@cinc.atf.treas.gov>). {#natlrevctrcinc.atf.treas.gov. .unnumbered} # {#section-47 .unnumbered} # {#section-48 .unnumbered} # COLAs Online {#colas-online .unnumbered} # {#section-49 .unnumbered} # *By William Moore (202)927-8140* {#by-william-moore-202927-8140 .unnumbered} # {#section-50 .unnumbered} # On June 25, 2002, Director Buckles signed Industry Circular 2002-5, COLAs Online. The circular announces the ongoing development of an electronic filing system for ATF Form 5100.31, Application for and Certification/Exemption of Label/Bottle Approval (COLA). The circular also provides the alcohol industry information and guidance on the use of COLAs Online. You can access the circular on the ATF website at: {#on-june-25-2002-director-buckles-signed-industry-circular-2002-5-colas-online.-the-circular-announces-the-ongoing-development-of-an-electronic-filing-system-for-atf-form-5100.31-application-for-and-certificationexemption-of-labelbottle-approval-cola.-the-circular-also-provides-the-alcohol-industry-information-and-guidance-on-the-use-of-colas-online.-you-can-access-the-circular-on-the-atf-website-at .unnumbered} # [www.atf.treas.gov/pub/ind_circulars/ic2002_5.htm](http://www.atf.treas.gov/pub/ind_circulars/ic2002_5.htm). {#www.atf.treas.govpubind_circularsic2002_5.htm. .unnumbered} # {#section-51 .unnumbered} # {#section-52 .unnumbered}

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# Presentation: 737091 ## Report of NHLBI HRT Studies Other Than the WHI October 23, 2002 **Report of NHLBI HRT Studies Other Than the WHI ****October 23, 2002** **David J. Gordon, M.D., Ph.D.** **National Heart, Lung, and Blood Institute** ## Rationale for HRT Trials - Pre-menopausal women are at low risk for cardiovascular disease. Estrogen? - Oral HRT in post-menopausal women - Reduced CV risk in observational studies - Favorable effects on intermediate endpoints ## NHLBI HRT Trials1. QCA Regression Trials - ERA – D. Herrington (Wake Forest) - WAVE – D. Waters (Multi-center) - WELL-HART – H. Hodis (Southern California) - EAGAR – P.Ouyang (Johns Hopkins) ## NHLBI HRT Trials2. Short-Term Targeted Trials - Effects of Acute Hormone Therapy on Recurrent Ischemia in Postmenopausal Women with Unstable Angina - S. Schulman (Johns Hopkins) - Estradiol For Neurocognitive Dysfunction After CABG - C. Hogue (Washington, St. Louis) - Estrogens, Cytokines, and Heart Failure - S. Reis (Pittsburgh) - Efficacy of Hormone Replacement on Myocardial Ischemia in Postmemopausal Women with Minimal Coronary Artery Disease (WISE FemHRT ancillary study) - N. Bairey-Merz (Multi-center) ## ERA Trial - 309 postmenopausal women with CAD - Treatment Arms: Premarin, PremPro, Placebo - Duration: 3 years - Primary Endpoint: QCA - Results: NEJM 2000; 343:522-529 | End Point | E | E+P | Placebo | | --- | --- | --- | --- | | MLD | -0.09 mm | -0.12 mm | -0.09 mm | | Deaths | 8.0% | 2.9% | 5.7% | | NF MI | 6.0% | 5.8% | 6.7% | | CABG/PCI | 18.0% | 19.2% | 22.9% | | DVT/PE | 5.0% | 1.9% | 1.0% | ## WAVE Trial - 423 postmenopausal women with CAD - Treatment Arms: - Hysterectomy -- Premarin, Placebo - Intact -- PremPro, Placebo - Duration: 3 years - Primary Endpoint: QCA - Other Features: Antioxidant vitamin vs placebo (2x2 factorial design) - Results: In press (Will be presented at Nov 2002 AHA Late-Breaking Trials session) ## WELL-HART - 226 postmenopausal women with CAD - Treatment Arms: Estrace, Estrace + MPA, Placebo - Duration: 3 years - Primary Endpoint: QCA. - Other Features: 50% Hispanic, Pravastatin provided to all 3 groups per ATP II guidelines. - Results: Will be presented at Nov 2002 AHA Late-Breaking Trials session. ## EAGAR Trial - 99 postmenopausal women post-CABG (initially designed to enroll 200 women) - Treatment Arms: - Hysterectomy -- Estrace, Placebo - Intact – Estrace + MPA, Placebo - Planned Duration: 3 years - Primary Endpoint: QCA, IVUS - Impact of WHI: Trial was stopped in Aug 2002 due to low likelihood of benefit, adverse trend in PCI, and insufficient power to justify repeat angiography. ## Acute Hormone Therapy in Unstable Angina (Schulman) - 239 postmenopausal women with acute coronary syndrome - Treatment Arms: Acute IV Estrogen + Premarin, Acute IV Estrogen + PremPro, Placebo - Duration: 21 days - Primary Endpoint: 48-hr ambulatory ischemic events - Results: JACC 2002;39:231-7 | End Point | E | E+P | Placebo | | --- | --- | --- | --- | | 48-hr AIE | 0.74 | 0.86 | 0.74 | | 21-day AIE | 0.69 | 0.71 | 0.78 | | In-hosp death | 5% | 5% | 3% | | In-hosp NF MI | 3% | 3% | 5% | | CABG/PCI | 36% | 37% | 34% | ## Estradiol For Neurocognitive Dysfunction After CABG (Hogue) - 334 postmenopausal women undergoing CABG (61 randomized) - Treatment Arms: Estrace, Placebo - Duration: 5 days - Primary Endpoint: Neurocognitive changes at 4-6 wk and 6 mo. - Impact of WHI: None. Short-term treatment, no progestin. ## Estrogens, Cytokines, and Heart Failure (Reis) - 120 postmenopausal women with CHF (5 randomized) - Treatment Arms: FemHRT, Placebo - Duration: 6 months - Endpoints: Fuctional capacity, bi-ventricular mass and function, circulating cytokines. - Impact of WHI: DSMB recommended continuation. Short-term treatment, different hormone preparation and target population. ## WISE FemHRT Ancillary Study (Bairey-Merz) - 74 postmenopausal women with minimal CAD (< 20 randomized) - Treatment Arms: FemHRT, Placebo - Duration: 12 weeks - Primary Endpoints: Induced myocardial ischemia, endothelial cell dysfunction - Impact of WHI: DSMB recommended continuation. Short-term treatment, different hormone preparation. ## Non-NHLBI HRT Trials - Completed - HERS (N = 2763, clinical events, 4 yrs) - PHOREA (N = 321, carotid IMT, 48 wks) - PHASE (N = 255, clinical events, 3 yrs) - EPAT (N = 199, carotid IMT, 2 yrs) - WEST (N = 652, recurrent stroke, 3 yrs) - Ongoing - WISDOM (N ≈ 34,000, clinical events, 10 yrs) ## Summary - NHLBI has sponsored several recent small trials testing the efficacy of HRT in preventing progression of CAD in post-menopausal women and examining effects of HRT in targeted populations with cardiovascular disease (post-CABG, CHF, acute and chronic ischemia). - 4 completed and 4 active when WHI results announced. - 1 study stopped by DSMB and 3 continue. - 2 published trials show no benefit of HRT – but numbers are small. - Results of 2 other trials to be announced in November

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Appendix K Catastrophic Risk Assessment of Lower Columbia and Willamette River ESUs for Endangered and Threatened Pacific Salmon ***Thomas P. Good and Juliet Fabbri*** ***National Marine Fisheries Service, Northwest Fisheries Science Center*** Introduction Catastrophic events are among the factors, along with long-term demographic processes and evolutionary potential, that need to be considered when relating viable salmonid populations (VSPs) to viable evolutionarily significant units (ESUs). Catastrophes are sudden (within-season) events that eliminate or severely reduce (by up to 75%) adult populations (McElhany et al. 2000). A variety of natural and anthropogenic catastrophic events occurring intermittently over evolutionary time scales can have long-term consequences. If preceded by gradual climatic change or overfishing, these events may result in ecosystem shifts (Scheffer et al. 2001). Natural catastrophes include volcanoes, earthquakes, floods, landslides, extreme weather (droughts), unusual fires, and disease epidemics. Anthropogenic catastrophic events include oil/chemical spills, dam construction or diversion/dam failure, floods, disease epidemics from hatcheries, and major miscalculations in harvest. Some catastrophic events can also result from the interaction of natural and anthropogenic factors. The number of threats facing salmonid populations suggests that catastrophes may have a substantial influence on extinction risk. Salmon have enhanced their long-term stability in the face of ice ages, continental uplifts, and volcanic eruptions by maintaining diverse populations, habitats, and life-history diversity, thus spreading risk and providing redundancy (Levin and Schiewe 2001). The risk of extinction posed by catastrophic events for an entire ESU can be estimated by evaluating risk for separate populations (McElhany et al. 2000) as well as for nearby populations (correlated risks). Catastrophic events are not commonly considered a part of species listing or recovery plans. Of 181 recovery plans reviewed by a National Center for Ecological Analysis and Synthesis (NCEAS) working group, 13 (≈ 7%) cited catastrophes/stochastic events as a factor in the listing decision, and 57 (≈ 31%) cited catastrophes/stochastic events as a factor in the recovery plan. (www.nceas.ucsb.edu/recovery/data). Only 31 (≈ 17%) listed catastrophes/ stochastic events as a major threat; however, 51% of those plans assigned the highest implementation priority to tasks that address these factors. Catastrophic events are of primary importance in a small number of cases; for example, the recovery plan for the federally listed sea otter in California identified catastrophic oil spills as the primary risk to population viability, with quantitative estimates of risks from oil spills forming the basis of the recovery goals (Ralls et al. 1996). While catastrophic events vary in frequency, scope, and impact, they share features that make them amenable to quantification and of potential importance for salmon populations. This document investigates a variety of natural and anthropogenic catastrophes in order to make quantitative and qualitative assessments of catastrophic risk for threatened and endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers, specifically chinook salmon (*Oncorhynchus tshawytscha*), steelhead trout (*O. mykiss*), and chum salmon (*O. keta*). Herein, we analyze catastrophic risks from volcanoes, glacial outbursts, earthquakes, landslides, disease epidemics from hatchery operations, and transportation oil/chemical spills. Risks from floods, fire, pollution from oil/chemical storage, and from land use (industrial zoning, pesticide use) are being analyzed to more fully understand the suite of catastrophic risks that exist for these endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers. Volcanoes and Glacial Outbursts Volcanoes Volcanoes and flows of water, mud, and debris associated with glaciers pose a considerable risk to populations in watersheds that emanate from the chain of volcanic mountains in the Cascade Mountains. In fact, Mount Rainier is considered an extremely dangerous volcano (Perkins 2001). Volcanic activity epitomizes extreme unpredictability--- catastrophic events that may be statistically predictable, but only in time intervals much longer than the generation time of salmonids (Thorpe 1994). These catastrophic risks have an occurrence interval of 100--1,000 years (Bisson et al. 1997), and they can have devastating consequences for salmonids, especially in watersheds close to an eruption. Volcanism can result a variety of chemical and physical alterations, including increased delivery of fine sediments and organic matter, scouring of channels from mudflows, formation of mudflow terraces along rivers, destruction of riparian vegetation, damming of streams, and the potential creation of new lakes (NRC 1996). The effects on the salmon's habitat include sedimentation of spawning gravels, loss of pool habitats from mudflows, short-term lethal levels of sediment and temperature during eruptions, and formation of migration blockages. Potential positive effects include creation of pool habitat in areas with tree blowdowns, creation of new overwintering habitat and side channels along mudflow terraces, and long-term benefits to lake-dwelling species (NRC 1996). Physical, biological, and chemical changes resulting from even modest volcanic eruptions can be extreme (Dorava and Milner 1999). The 18 May 1980 eruption of Mount St. Helens in 1980 provides examples of the potential short and long-term consequences of volcanic activity. The effects of the Mount St. Helens eruption were dramatic and variable. The eruption damaged over 500 km^2^ of forest and riparian vegetation, sending water temperatures soaring to 26˚C on some streams (Lucas 1986), and increasing hillside erosion, due to a lack of groundcover, contributed to stream bedloads. The resultant debris flow extended 24 km down the North Fork Toutle River, and mudflows buried stream channels in the North and South Fork Toutle Rivers, eliminating fish habitat (Lucas 1986). With the North Fork Toutle River buried to an average depth of 47 m (maximum 183 m), and smaller mudflows in the South Fork Toutle River and parts of the upper Lewis River and Kalama River, increased water levels flooded the Toutle and Cowlitz River Basins. Mudflow deposits that clogged the channels of the Cowlitz River also led to water temperatures in the lower reaches exceeding 32˚C. Lahars reduced the flood-stage capacity at Castle Rock on the Cowlitz River from 76,000 cubic feet per second (cfs) to less than 15,000 cfs, and reduced channel depth on the Columbia River (12 to 4.25 m), stranding 31 ships in upstream ports (Leider 1989). Effects of the Mount St. Helens eruptions on salmonids were dramatic and variable; recovery of salmonid populations after volcanic eruptions can potentially be relatively quick due to temporary food abundances, recolonization potential, and relative scarcity of predators and competitors (Bisson et al. 1997). However, the majority of aquatic life in the Toutle River watershed was probably eliminated immediately (Leider 1989). Additional fatalities included approximately 12 million salmon fingerlings in hatcheries (Brantley and Myers 2000) as well as increased summer and winter mortality of stocked juvenile coho salmon related to high stream temperatures and the lack of large organic debris, respectively (Martin et al. 1986). Production of stocked juvenile coho in three impacted third-order streams increased annually, peaked six years after the eruption, and declined to normal thereafter (Bisson et al. 1988, 1997). Reduced invertebrate communities resulted in food impacts for subyearling chinook in the Columbia River estuary in 1980 and 1981, although effects on food resources were believed to be short-term (Kirn et al. 1986). Increased straying of fish to unaffected streams and rivers can result from blocked access to spawning grounds; many fish initially avoided the Toutle River and strayed extensively into other Columbia River tributaries (Lucas 1986), and the percentage of nonnatal steelhead in unaffected Columbia River tributaries increased from 16% to 45% (both winter and summer runs) (Leider 1989). Straying to the Kalama River and the North Fork Lewis River was also extensive, and the decline in fish numbers in the Cowlitz River continued to 1983--1984 before reverting to pre-eruption levels (Leider 1989). Recent eruptions in a chain of volcanoes west of Cook Inlet, Alaska, further exemplify the direct and indirect effects on salmonids, including changes to water quality, channel geometry, and riparian vegetation (Dorava and Milner 1999). During the 1989--1990 Redoubt Volcano eruption, the riparian zone was removed or killed in place by lahars, which reduced allochthonous input and, subsequently, primary and secondary production. Such habitat decreases or degradation can persist for years, and subsequent effects include initial migratory impediments from lahar deposits, unstable streambeds, and silt in spawning gravel beds (Dorava and Milner 1999). Salmon populations were likely seriously affected due to changes to fish access. Thick deposits of fine sediment modified large channels and spawning sites, and food sources were eliminated for rearing fish. Being washed out by mud and debris flows likely immediately killed juveniles and affected future spawning activities. Food sources were subsequently eliminated for rearing fish. Although macroinvertebrate communities can recover as early as five years after a major volcanic eruption, it is not clear whether these are stable communities. Upstream sources of macroinvertebrates can hasten a return to normalcy as well, but comparison among volcanoes is problematic---macroinvertebrate recolonization at Mount St. Helens began rapidly but took place over a long time. Glacial Outbursts Glacial outbursts, from the sudden release of water stored within or at the base of glaciers, pose a serious hazard in river valleys on volcanoes. Glacial outbursts at Mount Rainier can be unrelated to volcanic activity, and the peak discharge of outbursts may be greater than that of extreme meteorological floods. At least 36 outburst floods have been recorded from the Kautz, Nisqually, South Tahoma, and Winthrop Glaciers on Mount Rainier during the twenthieth century, destroying bridges, roads, and Mt. Rainier National Park visitor facilities 10 times since 1926. Well-studied outbursts---from South Tahoma Glacier---are correlated with periods of unusually high temperatures or heavy rain in summer or early autumn (Hoblitt 1998). Many of these glacial outburst floods transform to lahars by incorporating large quantities of sediment from channel walls and beds; consequently, they are included with lahars for purposes of hazard zonation (Hoblitt 1998). Discharges of water and debris have also occurred at Mount Hood, resulting in significant losses of salmonid spawning and rearing habitat on the East Fork of the Hood River (Kostow et al. 2000). Earthquakes Earthquakes, and secondary landslide hazards associated with ground motion, pose a risk to populations in watersheds associated with the offshore Cascadia subduction zone and to some extent with the Cascade Range volcanoes. Little literature exists on direct or indirect effects of earthquakes on Pacific salmonids. The hazard posed by ground shaking and related secondary damage to watersheds, and the fish habitat contained therein, has been estimated and can be used as a proxy for damage to fish resources. Each year more than 1,000 earthquakes are recorded in Washington State, with 15 to 20 causing substantial ground shaking. Destructive earthquakes occur much less often; the last earthquake to cause widespread damage in Washington occurred in 1965. Larger earthquakes may have occurred every several hundred or thousand years in the Pacific Northwest; the most recent such earthquake occurred about 300 years ago (Noson et al. 1988). The effects of earthquakes include burial of nearby valley floors; such an avalanche was triggered by a moderate (magnitude 5) earthquake, which followed eight weeks of intense seismic activity beneath Mount St. Helens during the 18 May 1980 volcanic eruption (Noson et al. 1988). Earthquakes may result in secondary damage from landslides (see "Landslides" below), such as the 14 earthquakes large enough to trigger landslides in Washington from 1872 to 1980. Earthquakes on Mount Rainier, Mount St. Helens, and around Puget Sound have been known to trigger landslides, and ground shaking produced by earthquakes can weaken and collapse bluffs. Future earthquakes in Washington are expected to generate more landslides and greater habitat changes than those reported for past earthquakes (Noson et al. 1988). Earthquakes off the Pacific Northwest coast may also result in tsunamis when large, rapid movements in the seafloor displace the water column above, thus setting off the destructive waves. Offshore tsunamis can strike adjacent shorelines within minutes and cross the ocean at speeds of up to 600 mph. A 1946 earthquake in the Aleutian Islands of Alaska initiated a tsunami that reached Hawaii in less than five hours, had waves as high as 55 feet, and killed 173 people (Manson and Walkling 1998). A dozen very large earthquakes (magnitudes ≥ 8) have occurred in the Cascadia subduction zone. On the Pacific Northwest coast, risks exist from distant and local tsunamis and computer models indicate that tsunami waves generated by local events might reach 55 feet and affect the entire coastal region (Manson and Walkling 1998). Landslides Washington has many sites susceptible to landslides, including steep rocky slopes along the Columbia Gorge and rugged terrain in the Cascade Mountains. Although landslides are propelled by gravity, they can be triggered by geologic or anthropogenic forces. Volcanic eruptions can initiate earth movement on a grand scale, particularly lahars, mixtures of volcanic ash and water. Cascade volcanoes offer many sites for rock and ice avalanches, rock falls, and debris flows on their steep slopes. They are particularly vulnerable to landslides because of the layered and jointed volcanic rocks lying parallel to the mountain slopes, weakened by the effects of steam and hot groundwater and oversteepened by erosion. In addition, icefalls from glaciers can trigger landslides, and snow and ice add to the mobility of such slides. The 1949 Olympia earthquake generated more than 20 landslides, as far as 180 km from the epicenter; the 1965 Seattle/Tacoma earthquake generated 21 landslides, as far as 100 km from the epicenter. Fourteen earthquakes from 1872 to 1980 are known to have triggered landslides in Washington. Landslides on Mount Rainier were reported for earthquakes in 1894, 1903, and 1917, and a massive 2.8-km^3^ rockslide/debris avalanche on the north side of Mount St. Helens during the catastrophic eruption of 18 May 1980 was triggered by a moderate (magnitude 5) earthquake that followed eight weeks of intense earthquake activity beneath the volcano. Sudden water displacement from landslides can also generate destructive water waves, such as occurred when a 300-foot bluff along the Tacoma Narrows, weakened by the 1949 earthquake, collapsed into Puget Sound three days later. Future earthquakes in Washington are expected to generate more landslides than were reported for the 1949 or 1965 earthquakes, when rainy-season precipitation was near or below average throughout the Puget Sound area. Earthquakes notwithstanding, the major causes of landslides in the Northwest are continuous rains that saturate soils. Mud and debris flows are frequently the direct consequence of human activity. Seemingly insignificant modifications of surface flow and drainage may induce landslides, and building placement may lead to the loss of structures. In Portland, population pressure has pushed housing and highway construction into landslide-prone areas, where improper drainage induces disastrous sliding. Landslides result from agricultural irrigation and clearcutting of forests from naturally steep slopes. A 1996 Forest Service study of 244 landslides found that 91 were associated with logged-over lands, 93 with roads, and 59 in undisturbed forests; the combination of logging and road-building increases slide frequency fivefold over a 20-year period compared to undisturbed forested lands. Most of the 250 landslides in the Clackamas River watershed and in the Mount Hood National Forest during the floods of 1996 were in lands logged over or criss-crossed by dirt logging roads (http://www.oregongeology.com/landslide/landslidehome.htm). The impact of landslides on stream drainages and reservoirs can pose significant risk to downstream areas. Landslides or debris flows into reservoirs or lakes may displace enough water to cause severe downstream flooding, and water ponded behind landslide-debris dams can cause severe floods when these natural dams are suddenly breached. Such outburst floods are most likely near volcanic centers active within the past 2 million years; the Toutle River was blocked by a debris flow triggered by an earthquake during the 1980 eruption of Mount St. Helens. The debris flow dam raised the level of Spirit Lake by 60 m, requiring the U.S. Army Corps of Engineers to construct a tunnel through bedrock to lower the lake level and reduce flood danger from a sudden release of water (Crandell and Mullineaux 1978). Disease Epidemics from Hatchery Operations Characteristics of host-pathogen interactions make disease epidemics potentially catastrophic events. Host-pathogen interactions are understudied and often indiscernible in the wild, and disease epidemics occur seemingly out of nowhere. While documentation of chronic background levels of diseases provides information on the past, future risks from new and deadly pathogens/parasites may be unrelated to past events. Moreover, while there is much information on disease incidence and effects on hatchery salmon and steelhead, our understanding of the effects of disease on released hatchery fish and interaction with wild fish is not well understood (NRC 1996). Fish and pathogen strains have generally co-evolved in a way that common microorganisms do not kill the hosts (Schreck 1996). However, mutations may result in abnormally virulent strains and a series of mutual population expansions and crashes, not unlike predator/prey interactions. Epidemics may burn themselves out because hosts die, and thus pathogen density decreases and cannot be transmitted effectively, or there may be no loss of virulence, only a low rate of infection. Although it is recognized that pathogens reside in wild populations and that diseases are transferred between wild and hatchery fish, the initial introduction of pathogens into a population results largely from infected fish being moved by humans into susceptible populations (Reno 1998). Variable susceptibility to pathogens is, in part, inherited, and wide variation exists in response to pathogen challenge in wild fish because of their wide genetic background (Anderson 1996). Individual differences have been identified in wild stocks and among hatchery strains (Beacham and Evelyn 1992). The variable susceptibility among fish might be considered normative in contrast to genetically selected hatchery strains, which might have lost much of this variability. While genetically diverse and spatially separated wild fish may be able to deny new or old virulent strains the opportunity to proliferate through close contact, hatchery fish, being possibly less diverse and more densely packed, may transmit a virulent strain that would otherwise subside as a result of competition with less-virulent counterparts (Coutant 1998). Fish culture may strongly influence the number of asymptomatic carriers compared with their numbers in wild conditions (Coutant 1998). These carriers are common (Anderson 1990), and they can transmit pathogens to susceptible fish that they encounter. In wild fish, culling from disease early in life may be masked, because we expect fairly high early-life-stage mortality. However, prophylactics in hatchery culture situations may reduce progressive early mortality. A high loss of hatchery outplants, once dispersed in the wild, may merely be an expression of the delayed culling process through disease. The long-term effects for surviving wild and cultured fish might be equivalent, but the development of the disease(s) from the perspective of the pathogen's normal ecology might be very different between infection of young fish and of older ones held in a hatchery for a year before release. The pathogen might thereby be held to its normative cycle of attack, infection, growth, and dispersal in early juveniles rather than creating an abnormal disease cycle with older fish (Coutant 1998). In hatchery salmonids, the negative effect of rearing density on growth, condition factor, food conversion efficiency, as well as increased physiological stress and rates of mortality, have been extensively documented (Flagg et al. 2000). What role disease plays in these reduced performance measures remains unclear, however reductions in performance measures due to diseases, which themselves are related to rearing densities, are well documented. For example, infection by bacterial kidney disease (BKD), a major pathogen in Pacific Northwest fish hatcheries, significantly reduced the ability of juvenile chinook to avoid fish predators in laboratory experiments (Mesa 1998). The potential effect of high densities of salmon in hatchery facilities throughout the Pacific Northwest can be seen in surveys of hatchery disease (Table K.1). Pathogen detection varied from relatively rare at all facilities, such as with viral hemorrhagic septicemia (VHS), to extremely common, such as with BKD. Despite improvements in hatchery disease management, many of these diseases continue to be chronic problems for salmonids in hatchery facilities. Disease mortality rates in hatchery populations can be very high, depending on environmental conditions, and vary considerably among pathogens (Table K.2). Infectious Haematopoietic Necrosis Infectious haematopoietic necrosis (IHN) is an infectious viral disease of rainbow or steelhead trout (*O. mykiss*), chinook (*O. tshawytscha*), sockeye (*O. nerka*), chum (*O. keta*), and coho (*O. kisutch*) salmon (OIE 2000). IHN reservoirs are clinically infected fish and covert carriers among cultured, feral, or wild fish. Once established in a farmed stock or watershed, due to either spawning of infected migratory fish or from river restocking for recreational purposes, IHN may become established among carriers (OIE 2000). Infectious Pancreatic Necrosis Infectious pancreatic necrosis (IPN) is a highly contagious viral disease of young salmonids held under intensive rearing conditions. The disease most characteristically occurs in rainbow and steelhead trout, brook trout (*Salvelinus fontinalis*), brown trout (*Salmo trutta*), and several Pacific salmon species (OIE 2000). Transmission within a hatchery may be horizontal, vertical, or both (Reno 1999). Viral Hemorrhagic Septicemia Viral hemorrhagic septicemia (VHS), a systemic viral infection, occurs in salmonids of any age and may result in significant mortality (OIE 2000). Epizootic losses occur at temperatures of 3° to 12°C (greatest at 3° to 5°C); low daily mortality over an extended time results in high cumulative mortality. At high water temperatures (15° to 18°C), the disease acts quickly with modest accumulated mortality and fewer carriers (OIE 2000). Reservoirs of VHS are clinically infected fish and cultured, feral, or wild carriers, and animate or inanimate surfaces in hatcheries, where the virus can be mechanically transferred (McAllister 1990). Once established in stocks and water systems, carriers make the disease enzootic (OIE 2000). Erythrocytic Body Inclusion Syndrome Erythrocytic body inclusion syndrome (EIBS) is a viral condition observed in hatchery salmonids from the Columbia River and its tributaries (Piacentini et al. 1989). This syndrome occurs at a higher rate in hatchery chinook (70%) than those produced naturally (50%) in the Snake River Basin (PNWFHPC 1998). The disease is more severe in coho and chinook salmon than in rainbow and cutthroat trout and is more severe at higher temperatures (Piacentini et al. 1989). Bacterial Kidney Disease Bacterial kidney disease (BKD) is a systemic bacterial infection from *Renibacterium salmoninarum* that commonly causes high mortality in wild and propagated salmonids. The disease is typically chronic, but acute outbreaks sometimes occur at moderate temperatures (13° to 18°C), and subclinically infected fish or carriers are reservoirs of infection (Bullock and Herman 1988). Naturally infected feral brook trout can transmit BKD to newly stocked rainbow, brown, and brook trout, which begin dying within nine months. The bacteria are excreted by clinically diseased trout, and can survive up to 21 days in feces or pond sediments. BKD can also be transmitted vertically to eggs. Although health control measures may contain the disease, and different methods have been suggested for improving detection of the agent in infected fish populations, there is as yet no general agreement on the value of these methods (OIE 2000). Furunculosis Furunculosis (FUR) is a systemic bacterial infection that has an asymptomatic form, an acute form with severe internal organ involvement and high numbers of mortalities, and a chronic form that may involve internal pathology with fewer mortalities over longer periods of time (Reno 1999). Among salmonids, susceptibility is lower in brook, rainbow, and brown trout than in other species (Reno 1999). Enteric Redmouth Disease Enteric redmouth disease (ERM) is an acute or chronic bacterial infection from *Yersinia ruckeri*. Isolated from coho, sockeye, and chinook salmon and from rainbow, cutthroat, and brown trout, outbreaks have also been confirmed in steelhead (Horne and Barnes 1999). ERM commonly causes sustained, low-level mortality, eventually resulting in high losses; however, large-scale, acute epizootics occur if chronically infected fish are stressed via intensive culture and poor water quality (Bullock and Cipriano 1990, Horne and Barnes 1999). In rainbow trout, 25% of survivors of an experimental ERM challenge became asymptomatic carriers with bacteria localized in the lower intestine (Busch and Lingg 1975). In streams receiving hatchery effluent, 60% (3/5) of rainbow trout were positive for *Y. ruckeri* (Altinok et al. 2001). While commercial vaccines have been effective, strains have developed resistance and questions remain about the nature of antigens involved (Horne and Barnes 1999). Cold-Water Disease Cold-water disease (CWD) is a bacterial infection that occurs in salmon and brook, rainbow, and brown trout. Morbidity ranges from 1% to 50%; at low temperatures (below 10°C), it approaches 75% (Shotts and Starliper 1999). Transmission is vertical or horizontal, and outbreaks can occur after stocking a habitat with infected fish or transferring fish from facilities where the infection had not been detected. Proliferative Kidney Disease Proliferative kidney disease (PKD) is caused by a parasitic myxozoan infection that also parasitizes bryozoans (Kinkelin and Boriot 2001). Mortality from PKD is variable and temperature dependent. Whirling Disease Whirling disease (MC) is a parasitic infection of trout and salmon by the myxosporean *Myxobolus cerebralis*. Susceptibility ranges from high to low in rainbow trout, sockeye salmon, golden trout (*O. aguabonita*), cutthroat trout, brook trout, steelhead, chinook salmon, brown trout, and coho salmon. Susceptibility is greater in younger fish than in older fish (Markiw 1992). The source of the infective agent for fish is usually the water supply or earthen ponds inhabited by aquatic tubificid worms. Mortalities up to 90% may occur between newly hatched fish exposed to the infective agent as sac fry. *Ceratomyxa shasta* *Ceratomyxa shasta* (CS) is a parasite that leads to mortality of hatchery-reared and wild juvenile salmonids as well as to pre-spawning mortality in adult salmon (Bartholomew 1989). Documented in chinook, coho, sockeye, and chum salmon, as well as steelhead, rainbow, brook, brown, and cutthroat trout, it involves an intermediate host, the polychaete worm *Manaynukia speciosa*. Control of the parasite in hatchery and wild populations depends on the introduction of resistant salmonids (Bartholomew 1989), thus epizootics are possible if infested water is transferred to native populations. *Ichthyophthirius* *Ichthyophthirius* (ICH), or \"white spot disease,\" is a protozoan infection of freshwater fish caused by *Ichthyophthirius multifiliis*. The parasite is quite lethal, and epizootics occur with relative predictability. As the free-swimming infective stage is viable for only days, epizootics are more likely to occur in facilities with high-density fish populations. The "Ich" life cycle is influenced by crowding, and growth rate and development accelerate when water temperatures reach between 16° and 19°C (Traxler et al. 1998). While data on occurrence and impact of hatchery diseases provide information on historical potential for catastrophic epidemics, continuing high production of hatchery fish may increase the risk of future epidemics despite hatchery practices that may have been instituted to mitigate or eliminate mortality in hatcheries. The densities at which hatchery populations are reared and released may increase the potential for known or heretofore unreported diseases to spread within hatchery populations and then from hatchery populations to wild populations. In dense populations, pathogen incidence can be high and transmission barriers can be low, which can lead to high virulence. Dense hatchery populations may act as reservoirs for exotic pathogens, and, if hatchery fish are asymptomatic, transmission to wild populations can be accelerated. Pollution Pollution in the form of oil and chemical spills can pose a risk to salmonid populations in the Lower Columbia and Upper Willamette ESU. Fish kills have been reported associated with such spills, and the frequency of these events has not necessarily been reduced by prophylactic measures and legislated improvements over the past few decades. There are point sources of spills and leaks at storage facilities and superfund sites as well as from the transportation of oil and chemicals. In addition to the myriad anthropogenic factors that can affect the survival of outmigrating juveniles in freshwater, the biological effects of chemical contaminants on salmonids during their residency in certain urban estuaries can potentially lead to reduced survival. Concomitant with the increased chemical exposure, juvenile salmonids inhabiting certain urban estuaries exhibit evidence of impairment of physiological processes such as immune system alterations, impaired growth, and behavioral changes. There is evidence of linkage between the presence of elevated levels of complex mixtures of chemical contaminants in polluted estuaries and effects on health and survival of juvenile salmonids. Sublethal effects from toxic chemical exposure experienced by outmigrant juvenile salmonids during their residence in urbanized estuaries indicate the need to further investigate estuarine pollution as a contributing factor to declines in salmon stocks from urbanized watersheds (Casillas et al. 1997). Methods Volcanoes To determine relative risk from volcanic activity, we assembled hazard assessment data from U.S. Geological Survey (USGS) sources for Mount Rainier (Hoblitt et al. 1998), Mount Adams (Scott et al. 1995), Mount St. Helens (Wolfe and Pierson 1995), Mount Hood (Scott et al. 1997), Mount Jefferson (Walder et al. 1999), and the Three Sisters region (Scott et al. 2001). In these reports, areas around volcanoes are divided into proximal and distal hazard zones---some zones are subdivided further---based on magnitude of past volcanic events inferred from deposits, mathematical models that use calibrations from other volcanoes to forecast the likely extent of future pyroclastic flows, debris avalanches and lahars, and experience and judgment of USGS scientists derived from observations and understanding of events at similar volcanoes. Hazard assessments were overlaid, along with fish distributions, on maps of populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing volcanic hazard for each population. Categories of relative catastrophic risk from volcanoes included negligible, low, medium, and high. Populations that did not overlap with any volcanic hazard zone were categorized as negligible. Populations that overlapped with low hazard zones were categorized as low. Populations that overlapped with low and medium volcanic hazard zones were categorized as medium. Populations that overlapped with medium and high volcanic hazard zones were categorized as high. Earthquakes To determine relative risk from earthquake activity, we assembled hazard assessment data for the Pacific Northwest from USGS report 97-131 (Frankel et al. 1997). Hazard probabilities were calculated from the largest ground motions to the smallest at a collection of sites and added up to a total probability, P, and in a particular period of time, T. For our analyses, we chose the hazard assessment of rare, large-scale events. The hazard contours in this analysis are represented as peak acceleration (% gravity \[g\]) or the percent acceleration force due to gravity with a 2% probability of exceedance (PE) in 50 years. Hazard probabilities were overlaid with fish distributions on populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing earthquake hazard for each population. Categories of relative catastrophic risk from earthquakes included low, medium, and high. Populations that overlapped with earthquake hazard zones with low peak acceleration values (18%--30% g) were categorized as low. Populations that overlapped with earthquake hazard zones with moderate peak acceleration values (30%--60% g) were categorized as medium. Populations that overlapped with earthquake hazard zones with high peak acceleration values (60%--120%g) were categorized as high. Landslides/Glacial Outbursts To determine relative risk from landslide activity, we assembled hazard assessment data from USGS sources (Godt 1997). The map was trimmed to the Lower Columbia River/Upper Willamette River ESU boundaries and overlaid with major rivers on populations of the five Lower Columbia River and Upper Willamette River salmonid ESUs. The relative catastrophic risk among populations was assessed for Lower Columbia fall and spring chinook, Upper Willamette spring chinook, Lower Columbia winter and summer steelhead, Upper Willamette winter steelhead, and Lower Columbia chum by categorizing landslide hazards for each population. The original USGS coverage categorized risk in two ways: landslide susceptibility/incidence and landslide incidence. We grouped these assessments into catastrophic risk categories of low, medium, and high based on the relative amounts of area in each population in the three categories and the proximity of hazard areas to salmonid-bearing streams in the population. Populations that overlapped with landslide hazard zones of low hazard values were categorized as low. Populations that overlapped with medium values or a combination of hazard zones that averaged medium were categorized as medium. Populations that overlapped with landslide hazard zones with high values or a combination of hazard zones that averaged or was dominated by high values, especially in fish-bearing streams, was categorized as high. Disease Epidemics from Hatchery Operations As a proxy for the potential for disease epidemics, we collected data on the extent of hatchery production within population boundaries for the five Lower Columbia River and Upper Willamette River salmonid ESUs. Data on hatchery production levels were compiled from a variety of sources, primarily the 2000 hatchery adipose-clip database (<ftp://ftp.streamnet.org/> pub/streamnet/maps/massmarking), hatchery genetic management plans submitted to NMFS, Integrated Hatchery Operations Team (IHOT) reports ([www.streamnet.org/ihot_audit/](http://www.streamnet.org/ihot_audit/) hatchery.html), and the Northwest Indian Fisheries Commission Hatchery Releases Web page (www.NWIFC.org). Annual releases of salmonids (chinook, chum, coho, sockeye, steelhead, and cutthroat trout) and related species (rainbow, brown, brook, and golden trout) at on-site and at off-site locations were summed for facility and categorized as no risk (0 fish/year), low risk (0 to 500,000 fish/year), medium risk (500,000 to 5,000,000 fish/year) and high risk (\>5,000,000 fish/year). Population boundaries were defined according to historical demographically independent populations identified in Myers et al. (2002). Oil/Chemical Pollution (Transportation) To determine relative risk of a catastrophic event due to oil/chemical pollution, we assembled information on transportation corridors in areas overlapping with the listed ESUs in the Lower Columbia and Upper Willamette Rivers. The road density GIS layer was obtained from the Regional Ecosystem Office Web site (http://www.reo.gov/reo/) and overlaid, along with fish distributions, on maps of populations of the five Lower Columbia and Upper Willamette River salmonid ESUs. A ratio of road density was calculated using ArcView 8.1 by dividing the linear extent (km) of all roads by the total area (km^2^) encompassed by each population. We mapped the ratio of road length/area of population (see Figures K.17--K.22) based on sorting the ratios into four equal intervals and labeled them accordingly: negligible, low, medium, and high. The relative catastrophic risk among populations was assessed for ESUs (Lower Columbia chum) and life history types within ESUs (Lower Columbia fall and spring chinook; Upper Willamette spring chinook; Lower Columbia winter and summer steelhead; Upper Willamette winter steelhead) by categorizing earthquake hazard for each population. Correlated Catastrophic Risk Assessment Single catastrophic events can affect a single population or an entire metapopulation. For Pacific salmon metapopulations, an intermediate case is appropriate, whereby a single catastrophic event will affect several populations, but not necessarily the entire metapopulation. For example, a volcanic eruption could drastically reduce spawning and rearing habitat for populations in multiple watersheds. It is possible to explore how these types of spatially correlated catastrophes affect metapopulation dynamics by simulating the effect of catastrophes on population-specific capacities within an ESU. Given a hypothesized spatial correlation in risk between 21 chinook populations of the Puget Sound ESU, the program RAMAS 4.0 applied catastrophes stochastically over 100 years, with a per-population catastrophic risk that was increased according to its correlation with other populations. For this ESU, catastrophic events can affect the performance of a metapopulation (Ruckelshaus et al. in prep.). Results of Analyses Volcanoes The catastrophic risk from volcanic activity varied among populations within ESUs, but generally depended upon proximity to the north-south line of Cascade volcanoes. The populations and their risks are as follows: Lower Columbia River fall chinook ESU (Figure K.1) > Negligible (9) Coast Range*---*Youngs Bay, Grays River, Big Creek, > Elochoman River, Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades*---*Coweeman and Clackamas River tributaries > > Low (5) Western Cascades---upper and lower Cowlitz River, Washougal > River > > Columbia Gorge---lower and upper gorge tributaries > > Medium (3) Western Cascades---Lewis River/Salmon Creek > > Columbia Gorge---Big White Salmon River, Hood River tributaries > > High (3) Western Cascades---Toutle, Kalama, Sandy Rivers Lower Columbia River spring chinook ESU (Figure K.2) > Negligible (1) Western Cascades---Tilton River > > Medium (5) Western Cascades---upper Cowlitz, Cispus, and Lewis Rivers > > Columbia Gorge---Big White Salmon and Hood Rivers > > High (3) Western Cascades---Toutle, Kalama, and Sandy Rivers Upper Willamette spring chinook ESU (Figure K.2) > Negligible (3) Molalla, South Santiam, and Calapooia Rivers > > Low (2) Clackamas and Middle Fork Willamette Rivers > > Medium (2) North Santiam and McKenzie Rivers Lower Columbia winter steelhead ESU (Figure K.3) > Negligible (4) Western Cascades---Tilton, Coweeman, and East Fork > Lewis Rivers, and Salmon Creek > > Low (5) Western Cascades---lower Cowlitz, Clackamas, and Washougal > Rivers > > Columbia Gorge---lower and upper gorge tributaries. > > Medium (4) Western Cascades---Cispus, upper Cowlitz, and North Fork > Lewis Rivers. > > Columbia Gorge---Hood River > > High (4) Western Cascades---North and South Forks Toutle, Kalama, and > Sandy Rivers Lower Columbia River summer steelhead ESU (Figure K.4) > Negligible (1) Western Cascades---East Fork Lewis River > > Low (2) Western Cascades---Washougal and Wind Rivers > > Medium (2) Western Cascades---North Fork Lewis River. > > Columbia Gorge---Hood River > > High (1) Western Cascades---Kalama River Upper Willamette River winter steelhead ESU (Figure K.3) > Negligible (4) Willamette Valley---Coast Range tributaries, Molalla > River, South Santiam River, and Calapooia River > > Medium (1) Willamette Valley---North Santiam River Lower Columbia River chum ESU (Figure K.5) > Negligible (8) Coast Range---Youngs Bay, Grays River (including > Chinook River), Big Creek, Elochoman River, Clatskanie River, Mill > Creek, Scappoose Creek > > Western Cascades---Salmon Creek > > Low (5) Western Cascades---lower Cowlitz, Clackamas, and Washougal > Rivers > > Columbia Gorge---lower and upper gorge tributaries > > Medium (1) Western Cascades---Lewis River > > High (2) Western Cascades---Kalama River, Sandy River Correlated Catastrophic Risk from Volcanoes The catastrophic risk posed by volcanic activity transcends population boundaries delineated for many ESUs. Some volcanoes present a clear and present danger for many ESUs and populations therein, and some populations were under hazard from multiple volcanoes. Because of the spatial arrangement of the Cascade Mountain volcanoes, correlated catastrophic risks are not necessarily reciprocal, especially where tributaries form distinct populations. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Simultaneous catastrophic risk to ESU populations, by volcano, are as follows: Lower Columbia River fall chinook ESU - Mount St. Helens---Lewis River/Salmon Creek, Kalama and Toutle Rivers, lower Cowlitz River population downstream of the Toutle - Mount Rainier---upper and lower Cowlitz populations - Mount Adams---Washougal River, Big White Salmon River, and lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River spring chinook ESU - Mount St. Helens---Toutle and Kalama Rivers - Mount Rainier---upper Cowlitz River, but not the Cispus River population - Mount Adams---Cispus River, upper Cowlitz River via the Cispus, and Big White Salmon River - Mount Hood---Hood and Sandy Rivers Upper Willamette spring chinook ESU - Mount Jefferson---Clackamas and North Santiam Rivers - Three Sisters---McKenzie and Middle Fork Willamette Rivers Lower Columbia winter steelhead ESU - Mount St. Helens---North and South Fork Toutle, Kalama, and North Fork Lewis Rivers - Mount Rainier---upper and lower Cowlitz Rivers - Mount Adams---Cispus River, upper and lower Cowlitz River via the Cispus River, and Washougal River, lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River summer steelhead ESU - Mount St. Helens---Kalama River and North Fork Lewis River - Mount Adams---North Fork Lewis, Washougal, and Wind Rivers Upper Willamette River winter steelhead ESU - Mount St. Helens---North and South Fork Toutle, Kalama, and North Fork Lewis Rivers - Mount Rainier---upper and lower Cowlitz River - Mount Adams---Cispus River, upper and lower Cowlitz River via the Cispus, Washougal River, and lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Lower Columbia River chum ESU - Mount St. Helens---lower Cowlitz, Kalama, and Lewis Rivers - Mount Adams---Washougal River, lower and upper gorge tributaries - Mount Hood---Hood and Sandy Rivers Earthquakes The catastrophic risk from earthquakes varied among populations within ESUs but generally declined from coastal to inland tributaries. Lower Columbia River fall chinook (Figure K.6) > Low (5) Western Cascades---Sandy River > > Columbia Gorge---lower and upper gorge tributaries, Big White Salmon > River, Hood River > > Medium (13) Coast Range---Grays River, Big Creek, Elochoman River, > Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades---Cowlitz, Coweeman, Toutle, and Kalama Rivers, Lewis > River/Salmon Creek, Clackamas and Washougal Rivers > > High (1) Coast Range---Youngs Bay Lower Columbia River spring chinook (Figure K.7) Low (3) Western Cascades---(Sandy River) > Columbia Gorge---Big White Salmon River, Hood River > > Medium (6) Western Cascades---upper Cowlitz, Cispus, Tilton, Toutle, > Kalama, and Lewis Rivers Upper Willamette River spring chinook (Figure K.7) > Low (6) Willamette Valley and western Cascades---Clackamas, North and > South Santiam, Calapooia, McKenzie, and Middle Fork Willamette Rivers > > Medium (1) Willamette Valley---Molalla River Lower Columbia River winter steelhead (Figure K.8) > Low (5) Western Cascades---Clackamas and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries and Hood River > > Medium (12) Western Cascades---Cispus, Tilton, lower and upper > Cowlitz, North and South Fork Toutle, Coweeman, Kalama, North and East > Fork Lewis Rivers, Salmon Creek, and Washougal River Lower Columbia River summer steelhead (Fiure K.9) Low (2) Columbia Gorge---Hood and Wind Rivers > Medium (4) Western Cascades---Kalama, North and East Fork Lewis, and > Washougal Rivers Lower Columbia River winter steelhead (Figure K.8) > Low (3) Willamette Valley and western Cascades---North and South > Santiam and Calapooia Rivers > > Medium (2) Willamette Valley and western Cascades---Coast Range > tributaries and Molalla River Lower Columbia River chum (Figure K.10) > Low (2) Columbia Gorge---lower and upper gorge tributaries > > Medium (13) Coast Range---Grays River (including Chinook River), Big > Creek, Elochoman River, Clatskanie River, Mill Creek, Scappoose Creek > > Western Cascades---lower Cowlitz River, Kalama River, Salmon Creek, > Lewis River, Clackamas River, Washougal River, Sandy River > > Coast Range---Youngs Bay Correlated Catastrophic Risk from Earthquakes The catastrophic risk posed by earthquake activity transcends population boundaries delineated for many ESUs and tends to vary along a gradient from the coast eastward toward the interior. Populations within ESUs are under the same level of hazard risk along this east-west gradient; thus, populations within ecoregions (Coast Range, western Cascades, Columbia Gorge) tend to be under correlated risk from catastrophic earthquake activity. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Simultaneous catastrophic risk to ESU populations by earthquakes are as follows: Lower Columbia River fall chinook > Coast Range (7)---Youngs Bay, Grays River, Big Creek, and Elochoman > River, Clatskanie River, Mill Creek, and Scappoose Creek > > Western Cascades (9) > > Columbia Gorge (4) Lower Columbia River spring chinook ESU > Western Cascades (7) > > Columbia Gorge (2) Upper Willamette spring chinook > Willamette Valley/Western Cascades (7) Lower Columbia winter steelhead > Western Cascades (14) > > Columbia Gorge (3) Lower Columbia River summer steelhead (6) > Western Cascades (4) > > Columbia Gorge (2) Upper Willamette River winter steelhead (5) > Coast Range---Molalla, Santiam, South Santiam, and Calapooia Rivers Lower Columbia River chum > Coast Range (7)---Youngs Bay, Grays River (including Chinook River), > and Big Creek, Elochoman River, Clatskanie River, Mill Creek, and > Scappoose Creek > > Western Cascades (9) > > Columbia Gorge (2) Landslides The catastrophic risk from landslides varied among populations for populations within ESUs. Lower Columbia River fall chinook (Figure K.11) > Low (5) Western Cascades---Upper Cowlitz River, Coweeman River, Lewis > River /Salmon Creek > > Columbia Gorge---Big White Salmon River, Hood River > > Medium (5) Coast Range---Grays River, Elochoman River, Mill Creek > > Western Cascades---Toutle and Washougal Rivers > > High (10) Coast Range---Youngs Bay, Big Creek, Clatskanie River, > Scappoose Creek > > Western Cascades---Lower Cowlitz, Kalama, Clackamas, and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River spring chinook (Figure K.12) Low (4) Western Cascades---Cispus and Tilton Rivers > Columbia Gorge---Big White Salmon and Hood Rivers Medium (3) Western Cascades---upper Cowlitz, Toutle, and Lewis Rivers High (2) Western Cascades---Kalama and Sandy River Upper Willamette River spring chinook (Figure K.12) > Low (1) Willamette Valley and western Cascades---Molalla River > > Medium (3) Willamette Valley and western Cascades---Clackamas, > McKenzie, and Middle Fork Willamette Rivers > > High (3) Willamette Valley and western Cascades---North and South > Santiam and Calapooia Rivers Lower Columbia River winter steelhead (Figure K.13) > Low (6) Western Cascades---Cispus, Tilton, South Fork Toutle, > Coweeman, and East Fork Lewis Rivers and Salmon Creek > > Medium (6) Western Cascades---upper Cowlitz, North Fork Toutle, North > Fork Lewis, Clackamas, and Washougal Rivers > > Columbia Gorge---Hood River > > High (5) Western Cascades---lower Cowlitz, Kalama, and Sandy River > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River winter steelhead (Figure K.14) > Low (3) Western Cascades---East Fork Lewis River > > Columbia Gorge---Wind and Hood Rivers > > Medium (1) Western Cascades---North Fork Lewis River > > High (2) Western Cascades---Kalama and Washougal Rivers Lower Columbia River winter steelhead (Figure K.13) > Low (1) Molalla River > > Medium (1) Coast Range tributaries > > High (3) North and South Santiam and Calapooia Rivers Lower Columbia River chum ESU (Figure K.15) Low (2) Salmon Creek, Lewis River Medium (3) Western Cascades---Grays River, Mill Creek, Washougal River > High (11) Coast Range---Youngs Bay, Big Creek, Elochoman River, > Clatskanie River, Scappoose Creek > > Western Cascades---lower Cowlitz, Kalama, Clackamas, and Sandy Rivers > > Columbia Gorge---lower and upper gorge tributaries Correlated Catastrophic Risk from Landslides The catastrophic risk posed by landslides transcends population boundaries delineated for many ESUs and is highly variable across the landscape. The catastrophic risk posed by landslide activity is highly influenced by several factors, including a variety of geologic factors and precipitation patterns, thus the few areas at a high risk from landslides may or may not be along salmonid spawning or rearing habitat. Landslide risk due to earthquake or volcanic activity will mirror those assessments, while those associated with flooding and precipitation will mirror those assessments. For these reasons, as well as the categorical nature of the risk assessments, we did not construct a quantitative correlated catastrophic risk matrix. Disease Epidemics from Hatchery Operations The potential for disease epidemics as represented by hatchery production varied among populations within ESUs and individual hatchery facilities. Lower Columbia River fall chinook ESU (Figure K.16) > Negligible (4) Coast Range---Clatskanie River, Mill Creek, Scappoose > Creek > > Western Cascades---Coweeman River > > Low (4) Western Cascades---Salmon Creek > > Columbia Gorge---Big White Salmon and Hood Rivers > > Medium (5) Coast Range---Youngs Bay, Grays River > > Western Cascades---Toutle, Clackamas, and Sandy Rivers > > High (8) Coast Range---Big Creek, Elochoman River > > Western Cascades---Cowlitz, Kalama, Lewis, and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries Lower Columbia River spring chinook ESU (Figure K.17) > Negligible (3) Western Cascades---upper Cowlitz, Cispus, and Tilton > Rivers > > Low (2) Columbia Gorge---Big White Salmon and Hood Rivers > > Medium (2) Western Cascades---Toutle and Sandy Rivers > > High (2 Western Cascades---Kalama and Lewis Rivers Upper Willamette River spring chinook ESU (Figure K.17) > Negligible (2) Molalla and Calapooia Rivers > > Medium (4) Clackamas, North Santiam, McKenzie, and Middle Fork > Willamette Rivers > > High (1) South Santiam River Lower Columbia River winter steelhead ESU (Figure K.18) > Negligible (6) Western Cascades---Cispus, Tilton, upper Cowlitz, South > Fork Toutle, Coweeman, and East Fork Lewis Rivers > > Low (2) Western Cascades---Salmon Creek > > Columbia Gorge---Hood River > > Medium (3) Western Cascades---North Fork Toutle, Clackamas, and Sandy > Rivers > > High (6) Western Cascades---lower Cowlitz, Kalama, North Fork Lewis, > and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries, Hood River Upper Willamette River winter steelhead ESU (Figure K.18) Negligible (2) Westside (Coast Range)--- Molalla and Calapooia Rivers Medium (1) North Santiam River High (1) South Santiam River Lower Columbia River summer steelhead ESU (Figure K.19) > Negligible (1) Western Cascades---East Fork Lewis River > > Low (1) Columbia Gorge---Hood River > > Medium (1) Columbia Gorge---Wind River > > High (3) Western Cascades---Kalama, North Fork Lewis, and Washougal > Rivers Lower Columbia River chum ESU (Figure K.20) Negligible Coast Range---Clatskanie River, Mill Creek, Scappoose Creek > Western Cascades---Coweeman River > > Low (1) Western Cascades---Salmon Creek > > Medium (4) Coast Range---Youngs Bay, Grays River > > Western Cascades---Clackamas and Sandy Rivers > > High (7) Coast Range---Big Creek, Elochoman River > > Western Cascades---lower Cowlitz, Kalama, Lewis, and Washougal Rivers > > Columbia Gorge---lower and upper gorge tributaries Correlated Catastrophic Risk from Hatchery Disease Epidemics Correlated catastrophes were considered for hatchery disease epidemics in populations within ESUs. The connection among populations in terms of correlated catastrophes depends on many factors. If infected fish were released into the wild to prevent die-offs at the hatchery, as has occurred in the past, potential infection of wild fish would be a function of infected hatchery fish and wild fish densities as well as of pathogen or parasite transmission rates. Further, the spread of infections up or downstream would depend on pathogen or parasite movement patterns as well as wild fish movement at the time of potential transmission. For these reasons, we did not construct a quantitative correlated catastrophic risk matrix. Pollution The catastrophic risk of oil/chemical pollution from transportation varied among populations within ESUs, but generally followed patterns of urban development throughout the river basins. Lower Columbia River fall chinook ESU (Figure K.21) > Negligible (8) Coast Range---Big Creek > > Western Cascades---upper and lower Cowlitz, Washougal, and Sandy > Rivers > > Columbia Gorge---lower and upper gorge tributaries, Big White Salmon > River > > Low (8) Coast Range---Youngs Bay, Grays River, Elochoman River, > Clatskanie River, Scappoose Creek > > Western Cascades---Toutle River, Lewis River/Salmon Creek > > Columbia Gorge---Hood River > > Medium (3) Coast Range---Mill Creek > > Western Cascades---Coweeman and Kalama River > > High (1) Western Cascades---Clackamas River Lower Columbia River spring chinook ESU (Figure K.22) > Negligible (4) Western Cascades---upper Cowlitz, Cispus, and Sandy > Rivers > > Columbia Gorge---Big White Salmon River > > Low (2) Western Cascades---Lewis River > > Columbia Gorge---Hood River > > Medium (2) Western Cascades---Tilton and Toutle Rivers > > High (2) Western Cascades---Kalama River Upper Willamette River spring chinook ESU (Figure K.23) Negligible (2) McKenzie and Middle Fork Willamette Rivers Low (3) Clackamas, North Santiam, and Calapooia Rivers High (2) Molalla and South Santiam Rivers Lower Columbia River winter steelhead ESU (Figure K.24) > Negligible (4) Western Cascades---Cispus, upper Cowlitz, and Sandy > Rivers > > Columbia Gorge---lower gorge tributaries > > Low (4) Western Cascades---North and East Forks Lewis River > > Columbia Gorge---upper gorge tributaries and Hood River > > Medium (5) Western Cascades---Tilton, lower Cowlitz, North Fork > Toutle, Clackamas, and Washougal Rivers > > High (4) Western Cascades---South Fork Toutle, Coweeman, and Kalama > Rivers and Salmon Creek Lower Columbia River summer steelhead ESU (Figure K.25) > Negligible (3) Western Cascades---North Fork Lewis and Washougal > Rivers > > Columbia Gorge---Wind River > > Low (2) Western Cascades---East Fork Lewis River > > Columbia Gorge---Hood River > > High (1) Western Cascades---Kalama River Upper Willamette River winter steelhead ESU (Figure K.26) > Negligible North Santiam and Calapooia Rivers > > High (3) Western (Coast Range) tributaries and Molalla and South > Santiam Rivers Lower Columbia River chum populations ESU (Figure K.27) > Negligible Coast Range---Big Creek > > Columbia Gorge---lower and upper gorge tributaries > > Low Coast Range---Youngs Bay, Elochoman River, Clatskanie River, > Scappoose Creek > > Western Cascades---Lewis, Washougal, and Sandy Rivers > > Medium (5) Coast Range---Grays River, Mill Creek > > Western Cascades---lower Cowlitz River, Kalama River, Salmon Creek > > High (1) Western Cascades---Clackamas River Correlated Catastrophic Risk from Oil/Chemical Spills from Transportation Correlated catastrophes were considered for oil/chemical spills from transportation among populations in ESUs. Like for hatchery disease, however, the connection among populations in terms of correlated catastrophes would depend on many factors. The oil/chemical spills likely to occur during transportation over roadways would probably be confined within a watershed, and direct mortality from toxins would be on a subpopulation scale. However, spills from roadways into a tributary might affect its major river; spread of the mortality agent upstream or downstream would depend on volatility of the oil/chemical as well as movement of wild fish at the time of the potential transmission. For these reasons, we did not construct a quantitative correlated catastrophic risk matrix. Conclusions Catastrophic events need to be considered when relating viable salmonid populations (VSPs) to viable ESUs in the Lower Columbia and Willamette Rivers. Although documenting the frequency, intensity, and hazard risk of specific natural and anthropogenic catastrophes is possible across the landscape for ESUs, calculating correlated catastrophic risk can be problematic for some catastrophes. Harder still is the task of calculating cumulative effects of volcanoes, earthquakes, floods, landslides, fires, disease epidemics from hatcheries, and pollution from a variety of sources. Still, the preponderance of potential catastrophic events that could impact salmonids throughout the Columbia River Basin requires attention to their potential effects, and the paucity of such approaches belies its importance. The potential catastrophes cataloged herein represent an initial list of those where (1) the risks for salmonids have been documented or are known to represent a future risk, (2) actual risk information (or a reasonable proxy) has been collated or is accessible, and (3) there is potential for quantitative data in the future. Further analyses of catastrophic risks are ongoing (floods) or may be initiated (extreme weather such as droughts, unusual fires, water diversion/dam failure, major miscalculations in harvest) depending on the information available and the potential for rigorous analyses. More refined metrics may allow for further exploration of the risk of disease epidemics from hatchery operations. The role that catastrophes may have played in the evolution of salmonids suggests that \"bet-hedging\" against large-scale catastrophes through maintaining diverse populations and life-history types is an appropriate strategy for recovery in the face of extinction risk. Such a strategy should foster enhanced long-term stability in the face of unpredictable catastrophes. Future research on the risk of extinction posed by catastrophic events for an entire ESU will hinge on quantitative estimates of correlated risk among populations within an ESU. Guidelines presented in McElhany et al. (2000) make clear that concern about catastrophic risks is relevant to long-term evolutionary potential. The probability that an ESU could be driven extinct by a single catastrophic event is nontrivial and thus requires multiple viable populations within a viable ESU, with careful consideration to which populations are restored or maintained at viable status. This appendix explored the spatial distribution and frequencies of potential natural and anthropogenic catastrophic events affecting endangered Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers, specifically chinook salmon (*Oncorhynchus tshawytscha*), steelhead trout (*O. mykiss*), and chum salmon (*O. keta*). While this is a difficult field of study, we conclude that extinction risk, particularly with respect to catastrophic events, can be reduced if viable populations are spatially distributed through out the ESU. Spatially distributed populations utilizing different environments with different catastrophic risks reduce the likelihood that a single catastrophic event would affect every population in an ESU. Further, fish with different life histories that share the same river basin may be affected differentially by the same catastrophic event. This spreading of risk throughout spatially distributed populations and life-history strata, akin to the "bet-hedging" that occurred during the evolution of salmonids, holds promise for reducing the risk of extinction due to catastrophes for these endangered and threatened Pacific salmonid ESUs in the Lower Columbia and Upper Willamette Rivers. ![](media/image1.jpeg){width="8.129861111111111in" height="5.367361111111111in"} Figure K.1 Fall chinook---Lower Columbia ESU volcanic hazards. ![](media/image2.jpeg){width="6.179861111111111in" height="6.9215277777777775in"} Figure K.2 Spring chinook---Lower Columbia and Willamette River ESUs volcanic hazards. ![](media/image3.jpeg){width="6.05in" height="6.667361111111111in"} Figure K.3 Winter steelhead---Lower Columbia and Willamette River ESUs volcanic hazards. ![](media/image4.jpeg){width="8.15in" height="5.218055555555556in"} > Figure K.4 Summer steelhead---Lower Columbia ESU volcanic hazards. ![](media/image5.jpeg){width="8.209722222222222in" height="5.180555555555555in"} > Figure K.5 Chum---Lower Columbia ESU volcanic hazards. ![](media/image6.jpeg){width="7.459722222222222in" height="5.195138888888889in"}Figure K.6 Earthquake probabilities for fall chinook populations. ![](media/image7.jpeg){width="5.759722222222222in" height="7.011805555555555in"} > Figure K.7 Earthquake probabilities for spring chinook populations. ![](media/image8.jpeg){width="5.770138888888889in" height="6.9527777777777775in"} > Figure K.8 Earthquake probabilities for winter steelhead populations. ![](media/image9.jpeg){width="7.920138888888889in" height="5.511111111111111in"} Figure K.9 Earthquake probabilities for summer steelhead populations. ![](media/image10.jpeg){width="7.920138888888889in" height="5.511111111111111in"} Figure K.10 Earthquake probabilities for chum populations. ![](media/image11.bmp) ![](media/image12.jpeg){width="5.990277777777778in" height="7.589583333333334in"} Figure K.12 Landslide risk to spring chinook populations. ![](media/image13.jpeg){width="5.620138888888889in" height="7.195833333333334in"} Figure K.13 Landslide risk to winter steelhead populations. ![](media/image14.bmp) Figure K.14 Landslide risk to summer steelhead populations. ![](media/image15.jpeg){width="7.529861111111111in" height="5.50625in"}15 Landslide risk to chum populations. ![](media/image16.jpeg){width="7.090277777777778in" height="5.253472222222222in"} Figure K.16 Disease risk from hatchery releases to fall chinook. ![](media/image17.jpeg){width="5.05in" height="6.626388888888889in"} > Figure K.17 Disease risk from hatchery releases to spring chinook. ![](media/image18.jpeg){width="5.05in" height="6.518055555555556in"} Figure K.18 Disease risk from hatchery releases to winter steelhead. ![](media/image19.jpeg){width="7.079861111111111in" height="5.289583333333334in"} Figure K.19 Disease risk from hatchery releases to summer steelhead. ![](media/image20.jpeg){width="7.329861111111111in" height="5.50625in"}Figure K.20 Disease risk from hatchery releases to chum. ![](media/image21.jpeg){width="7.3902777777777775in" height="5.132638888888889in"} Figure K.21 Relative road density ratios by fall chinook populations. ![](media/image22.jpeg){width="7.490277777777778in" height="5.268055555555556in"} Figure K.22 Relative road density ratio by Columbia River spring chinook populations. ![](media/image23.jpeg){width="5.659722222222222in" height="7.021527777777778in"} > Figure K.23 Relative road density ratio by Willamette spring chinook > populations. ![](media/image24.jpeg){width="5.770138888888889in" height="6.9527777777777775in"} > Figure K.24 Relative road density ratios by Lower Columbia winter > steelhead populations. ![](media/image25.jpeg){width="7.540277777777778in" height="5.251388888888889in"} Figure K.25 Relative road density ratios by summer steelhead populations. ![](media/image26.jpeg){width="5.670138888888889in" height="6.9625in"} > Figure K.26 Relative road density ratios by Willamette winter > steelhead populations. ![](media/image27.jpeg){width="7.170138888888889in" height="5.094444444444444in"} Literature Cited Altinok, I., J. 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Memo. NMFS-NWFSC-53, 83 p. Walder, J. S., C. A. Gardner, R. M. Conrey, B. J. Fisher, and S. P. Schilling. 1999. Volcano hazards in the Mount Jefferson region, Oregon. U.S. Geological Survey Open-file Report 99-24, 14 p. Wolfe, E. W., and T. C. Pierson. 1995. Volcanic-hazard zonation for Mount St. Helens, Washington, 1995. U.S. Geological Survey Open-file Report 95-497.

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168176

# Presentation: 168176 ## Mission Statement: Turbomachinery and Heat Transfer-RTT - Perform experimental and computational research in compressor and turbine flow and heat transfer technology directed at advancing knowledge in gas turbine engine propulsion. The branch focuses on the Fundamental Aeronautics Program subsonic fixed wing and rotary wing aircraft, supersonic and hypersonic flight projects. Acquire research data from turbomachinery test facilities to further develop and validate computational flow codes and design tool models to enable design and analysis of compressors and turbines with high aerodynamic loading and efficiency, improved operability and reduced turbine cooling requirements. Interface with other NASA centers, government agencies, industry and academia. Transfer turbomachinery technology for commercial and military propulsion systems.

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! Started logfile: J0808+4950_S_2001_04_09_pus_uvs.log on Fri Oct 5 15:56:40 2007 obs J0808+4950_S_2001_04_09_pus_uva.fits ! Reading UV FITS file: J0808+4950_S_2001_04_09_pus_uva.fits ! AN table 1: 70 integrations on 190 of 190 possible baselines. ! AN table 2: 212 integrations on 190 of 190 possible baselines. ! AN table 3: 40 integrations on 190 of 190 possible baselines. ! AN table 4: 57 integrations on 190 of 190 possible baselines. ! Apparent sampling: 0.243244 visibilities/baseline/integration-bin. ! *** This seems a bit low - see "help observe" on the binwid argument. ! Found source: J0808+4950 ! ! There are 4 IFs, and a total of 4 channels: ! ! IF Channel Frequency Freq offset Number of Overall IF ! origin at origin per channel channels bandwidth ! ------------------------------------------------------------- (Hz) ! 01 1 2.22997e+09 8e+06 1 8e+06 ! 02 2 2.25997e+09 8e+06 1 8e+06 ! 03 3 2.34997e+09 8e+06 1 8e+06 ! 04 4 2.36997e+09 8e+06 1 8e+06 ! ! Polarization(s): RR ! ! Read 1949 lines of history. ! ! Reading 70064 visibilities. select I ! Polarization I is unavailable. ! Selecting polarization: RR, channels: 1..4 ! Reading IF 1 channels: 1..1 ! Reading IF 2 channels: 2..2 ! Reading IF 3 channels: 3..3 ! Reading IF 4 channels: 4..4 print "field_size =",field_size ! field_size = 512 print "field_cell =",field_cell ! field_cell = 0.5 print "taper_size =",taper_size ! taper_size = 20 ![@muppet J0808+4950_S_2001_04_09_pus] integer clean_niter clean_niter = 100 float clean_gain clean_gain = 0.03 float dynam dynam = 6.0 float soltime1 soltime1 = 120 float soltime2 soltime2 = 20 float thresh thresh = 0.5 float win_mult win_mult = 1.8 float time_av time_av = 16 float old_peak float new_peak float flux_cutoff mapsize field_size, field_cell ! Map grid = 512x512 pixels with 0.500x0.500 milli-arcsec cellsize. startmod ! Applying default point source starting model. ! Performing phase self-cal ! Adding 1 model components to the UV plane model. ! The established model now contains 1 components and 1 Jy ! ! Correcting IF 1. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 2. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 3. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Correcting IF 4. ! A total of 780 telescope corrections were flagged in sub-array 1. ! A total of 2770 telescope corrections were flagged in sub-array 2. ! A total of 355 telescope corrections were flagged in sub-array 3. ! A total of 388 telescope corrections were flagged in sub-array 4. ! ! Fit before self-cal, rms=0.926899Jy sigma=0.006747 ! Fit after self-cal, rms=0.589127Jy sigma=0.004208 ! clrmod: Cleared the established, tentative and continuum models. ! Redundant starting model cleared. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=1.856 mas, bmaj=2.5 mas, bpa=-3.536 degrees ! Estimated noise=669.203 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! Added new window around map position (0, 0). ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.365136 Jy ! Component: 100 - total flux cleaned = 0.472484 Jy ! Total flux subtracted in 100 components = 0.472484 Jy ! Clean residual min=-0.007151 max=0.047259 Jy/beam ! Clean residual mean=0.000032 rms=0.002414 Jy/beam ! Combined flux in latest and established models = 0.472484 Jy ! Performing phase self-cal ! Adding 4 model components to the UV plane model. ! The established model now contains 4 components and 0.472484 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.297850Jy sigma=0.001804 ! Fit after self-cal, rms=0.297474Jy sigma=0.001803 ! Inverting map ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0525327 Jy ! Component: 100 - total flux cleaned = 0.0854691 Jy ! Total flux subtracted in 100 components = 0.0854691 Jy ! Clean residual min=-0.005631 max=0.018078 Jy/beam ! Clean residual mean=0.000016 rms=0.001660 Jy/beam ! Combined flux in latest and established models = 0.557953 Jy ! Performing phase self-cal ! Adding 15 model components to the UV plane model. ! The established model now contains 17 components and 0.557953 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.285079Jy sigma=0.001673 ! Fit after self-cal, rms=0.284780Jy sigma=0.001672 ! Inverting map ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.02384 Jy ! Component: 100 - total flux cleaned = 0.0407329 Jy ! Total flux subtracted in 100 components = 0.0407329 Jy ! Clean residual min=-0.005704 max=0.010613 Jy/beam ! Clean residual mean=0.000009 rms=0.001451 Jy/beam ! Combined flux in latest and established models = 0.598686 Jy ! Performing phase self-cal ! Adding 16 model components to the UV plane model. ! The established model now contains 23 components and 0.598686 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.282104Jy sigma=0.001644 ! Fit after self-cal, rms=0.281972Jy sigma=0.001644 ! Inverting map ! Added new window around map position (1, -3). ! clean: niter=100 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0131981 Jy ! Component: 100 - total flux cleaned = 0.0228693 Jy ! Total flux subtracted in 100 components = 0.0228693 Jy ! Clean residual min=-0.005830 max=0.006194 Jy/beam ! Clean residual mean=0.000005 rms=0.001379 Jy/beam ! Combined flux in latest and established models = 0.621555 Jy ! Performing phase self-cal ! Adding 18 model components to the UV plane model. ! The established model now contains 32 components and 0.621555 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.281248Jy sigma=0.001636 ! Fit after self-cal, rms=0.281172Jy sigma=0.001636 ! Inverting map print "************** FINISHED UNIFORM WEIGHTING CLEAN **************" ! ************** FINISHED UNIFORM WEIGHTING CLEAN ************** ! uvw 0,-1 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. win_mult = win_mult * 1.6 clean_niter = clean_niter * 2 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.06 mas, bmaj=3.013 mas, bpa=-4.326 degrees ! Estimated noise=366.744 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00747407 Jy ! Component: 100 - total flux cleaned = 0.0117364 Jy ! Component: 150 - total flux cleaned = 0.0145239 Jy ! Component: 200 - total flux cleaned = 0.0151198 Jy ! Total flux subtracted in 200 components = 0.0151198 Jy ! Clean residual min=-0.006399 max=0.005983 Jy/beam ! Clean residual mean=0.000193 rms=0.001379 Jy/beam ! Combined flux in latest and established models = 0.636675 Jy ! Performing phase self-cal ! Adding 23 model components to the UV plane model. ! The established model now contains 47 components and 0.636675 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.280924Jy sigma=0.001634 ! Fit after self-cal, rms=0.280869Jy sigma=0.001634 ! Inverting map print "************** FINISHED NATURAL WEIGHTING CLEAN **************" ! ************** FINISHED NATURAL WEIGHTING CLEAN ************** ! gscale true ! Performing overall amplitude self-cal ! ! Correcting IF 1. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.96 FD 0.93 GC 1.02 GG 1.00* ! HH 1.00* HN 0.97 KK 0.95 KP 0.97 ! LA 0.93 MA 1.08 MC 0.99 MK 0.96 ! NL 0.96 NY 0.94 OV 0.98 PT 0.91 ! SC 0.96 TS 0.96 WF 0.95 WZ 1.05 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.99 FD 0.96 GC 0.96 GG 1.00* ! HH 1.00* HN 0.94 KK 0.97 KP 1.01 ! LA 1.02 MA 0.87 MC 1.07 MK 0.97 ! NL 1.04 NY 0.95 OV 1.01 PT 0.99 ! SC 0.96 TS 0.93 WF 0.98 WZ 1.04 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.06 FD 1.10 GC 0.97 GG 1.00* ! HH 1.00* HN 0.97 KK 1.00* KP 1.00* ! LA 1.04 MA 0.91 MC 0.90 MK 1.00* ! NL 0.99 NY 0.94 OV 1.00* PT 1.06 ! SC 1.01 TS 1.08 WF 0.98 WZ 0.96 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.01 FD 0.99 GC 1.02 GG 1.00* ! HH 1.00* HN 0.91 KK 1.02 KP 1.03 ! LA 0.99 MA 1.13 MC 0.96 MK 1.03 ! NL 0.96 NY 0.97 OV 1.08 PT 0.97 ! SC 0.99 TS 1.00* WF 0.85 WZ 1.01 ! ! ! Correcting IF 2. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.97 FD 0.93 GC 0.98 GG 1.00* ! HH 1.00* HN 0.96 KK 0.95 KP 0.94 ! LA 0.93 MA 0.99 MC 1.03 MK 0.97 ! NL 0.95 NY 0.99 OV 0.94 PT 0.93 ! SC 1.00 TS 0.99 WF 0.99 WZ 1.05 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.97 FD 0.96 GC 0.94 GG 1.00* ! HH 1.00* HN 0.95 KK 0.93 KP 0.96 ! LA 1.04 MA 0.79 MC 1.00 MK 1.01 ! NL 1.05 NY 0.97 OV 0.99 PT 1.03 ! SC 1.00 TS 0.98 WF 0.99 WZ 1.07 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.04 FD 1.11 GC 0.94 GG 1.00* ! HH 1.00* HN 0.96 KK 1.00* KP 1.00* ! LA 1.08 MA 1.02 MC 0.96 MK 1.00* ! NL 1.04 NY 1.02 OV 1.00* PT 1.09 ! SC 1.01 TS 1.15 WF 0.98 WZ 0.99 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.02 FD 0.98 GC 0.99 GG 1.00* ! HH 1.00* HN 0.92 KK 1.01 KP 1.23 ! LA 1.00 MA 1.08 MC 1.06 MK 1.04 ! NL 0.97 NY 1.00 OV 1.08 PT 1.01 ! SC 0.98 TS 1.00* WF 0.97 WZ 0.98 ! ! ! Correcting IF 3. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.98 FD 0.96 GC 0.97 GG 1.00* ! HH 1.00* HN 1.02 KK 0.97 KP 0.96 ! LA 0.91 MA 1.10 MC 1.47 MK 0.94 ! NL 0.97 NY 0.97 OV 0.96 PT 0.95 ! SC 0.98 TS 1.01 WF 0.98 WZ 1.06 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 1.04 FD 0.98 GC 0.95 GG 1.00* ! HH 1.00* HN 0.99 KK 0.96 KP 1.02 ! LA 1.00 MA 1.09 MC 1.04 MK 0.99 ! NL 1.05 NY 0.96 OV 1.00 PT 1.02 ! SC 0.98 TS 1.00 WF 1.01 WZ 1.04 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.09 FD 1.11 GC 0.95 GG 1.00* ! HH 1.00* HN 1.00 KK 1.00* KP 1.00* ! LA 1.02 MA 1.23 MC 0.94 MK 1.00* ! NL 1.02 NY 0.97 OV 1.00* PT 1.09 ! SC 1.03 TS 1.15 WF 1.02 WZ 0.98 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.06 FD 1.00 GC 1.00 GG 1.00* ! HH 1.00* HN 0.95 KK 1.03 KP 1.04 ! LA 0.97 MA 0.99 MC 1.01 MK 1.01 ! NL 0.99 NY 0.96 OV 1.06 PT 1.01 ! SC 1.00 TS 1.00* WF 0.99 WZ 0.99 ! ! ! Correcting IF 4. ! A total of 6 telescope corrections were flagged in sub-array 1. ! Telescope amplitude corrections in sub-array 1: ! BR 0.95 FD 0.95 GC 1.06 GG 1.00* ! HH 1.00* HN 1.06 KK 0.92 KP 0.96 ! LA 0.96 MA 1.07 MC 0.72 MK 0.93 ! NL 0.99 NY 0.97 OV 0.94 PT 0.97 ! SC 0.96 TS 1.05 WF 0.98 WZ 1.11 ! ! A total of 87 telescope corrections were flagged in sub-array 2. ! Telescope amplitude corrections in sub-array 2: ! BR 0.98 FD 0.97 GC 1.00 GG 1.00* ! HH 1.00* HN 0.99 KK 0.92 KP 1.03 ! LA 1.03 MA 1.17 MC 0.60 MK 0.97 ! NL 1.05 NY 1.02 OV 1.01 PT 1.05 ! SC 0.98 TS 0.95 WF 0.98 WZ 1.13 ! ! A total of 3 telescope corrections were flagged in sub-array 3. ! Telescope amplitude corrections in sub-array 3: ! BR 1.04 FD 1.12 GC 1.00 GG 1.00* ! HH 1.00* HN 1.02 KK 1.00* KP 1.00* ! LA 1.07 MA 1.44 MC 1.52 MK 1.00* ! NL 1.04 NY 1.08 OV 1.00* PT 1.12 ! SC 1.03 TS 1.05 WF 0.99 WZ 1.02 ! ! A total of 6 telescope corrections were flagged in sub-array 4. ! Telescope amplitude corrections in sub-array 4: ! BR 1.00 FD 1.02 GC 1.06 GG 1.00* ! HH 1.00* HN 0.95 KK 0.99 KP 1.06 ! LA 1.02 MA 1.07 MC 0.99 MK 1.00 ! NL 0.99 NY 1.01 OV 1.06 PT 1.04 ! SC 1.01 TS 1.00* WF 0.99 WZ 1.03 ! ! ! Fit before self-cal, rms=0.280869Jy sigma=0.001634 ! Fit after self-cal, rms=0.278192Jy sigma=0.001589 dynam = dynam - 0.5 flux_cutoff = imstat(rms) * dynam ! Inverting map and beam ! Estimated beam: bmin=2.063 mas, bmaj=3 mas, bpa=-4.188 degrees ! Estimated noise=366.697 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00288897 Jy ! Component: 100 - total flux cleaned = 0.00377606 Jy ! Component: 150 - total flux cleaned = 0.00436747 Jy ! Component: 200 - total flux cleaned = 0.00490141 Jy ! Total flux subtracted in 200 components = 0.00490141 Jy ! Clean residual min=-0.003724 max=0.003198 Jy/beam ! Clean residual mean=-0.000100 rms=0.000928 Jy/beam ! Combined flux in latest and established models = 0.641577 Jy ! Performing phase self-cal ! Adding 12 model components to the UV plane model. ! The established model now contains 51 components and 0.641576 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.278129Jy sigma=0.001588 ! Fit after self-cal, rms=0.279764Jy sigma=0.001585 ! Inverting map selfcal true, true, soltime1 ! Performing amp+phase self-cal over 120 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.279764Jy sigma=0.001585 ! Fit after self-cal, rms=0.283036Jy sigma=0.001565 dynam = dynam - 0.75 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=2.063 mas, bmaj=3.004 mas, bpa=-4.342 degrees ! Estimated noise=367.413 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00272571 Jy ! Component: 100 - total flux cleaned = 0.00344533 Jy ! Component: 150 - total flux cleaned = 0.00369135 Jy ! Component: 200 - total flux cleaned = 0.00377295 Jy ! Total flux subtracted in 200 components = 0.00377295 Jy ! Clean residual min=-0.002872 max=0.003016 Jy/beam ! Clean residual mean=0.000021 rms=0.000732 Jy/beam ! Combined flux in latest and established models = 0.645349 Jy selfcal ! Performing phase self-cal ! Adding 13 model components to the UV plane model. ! The established model now contains 56 components and 0.645349 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283006Jy sigma=0.001565 ! Fit after self-cal, rms=0.283727Jy sigma=0.001565 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000430268 Jy ! Component: 100 - total flux cleaned = 0.000593184 Jy ! Component: 150 - total flux cleaned = 0.000700767 Jy ! Component: 200 - total flux cleaned = 0.00076429 Jy ! Total flux subtracted in 200 components = 0.00076429 Jy ! Clean residual min=-0.002980 max=0.002962 Jy/beam ! Clean residual mean=0.000013 rms=0.000751 Jy/beam ! Combined flux in latest and established models = 0.646114 Jy ! Performing phase self-cal ! Adding 13 model components to the UV plane model. ! The established model now contains 59 components and 0.646114 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283716Jy sigma=0.001565 ! Fit after self-cal, rms=0.283719Jy sigma=0.001564 ! Inverting map selfcal true, true, soltime2 ! Performing amp+phase self-cal over 20 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.283719Jy sigma=0.001564 ! Fit after self-cal, rms=0.290640Jy sigma=0.001565 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=2.062 mas, bmaj=3.002 mas, bpa=-4.469 degrees ! Estimated noise=367.882 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00192204 Jy ! Component: 100 - total flux cleaned = 0.00272977 Jy ! Component: 150 - total flux cleaned = 0.00292738 Jy ! Component: 200 - total flux cleaned = 0.00309362 Jy ! Total flux subtracted in 200 components = 0.00309362 Jy ! Clean residual min=-0.002976 max=0.003008 Jy/beam ! Clean residual mean=-0.000016 rms=0.000755 Jy/beam ! Combined flux in latest and established models = 0.649207 Jy selfcal ! Performing phase self-cal ! Adding 14 model components to the UV plane model. ! The established model now contains 61 components and 0.649207 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.290628Jy sigma=0.001565 ! Fit after self-cal, rms=0.291154Jy sigma=0.001564 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000159135 Jy ! Component: 100 - total flux cleaned = 0.000214425 Jy ! Component: 150 - total flux cleaned = 0.000286384 Jy ! Component: 200 - total flux cleaned = 0.000308687 Jy ! Total flux subtracted in 200 components = 0.000308687 Jy ! Clean residual min=-0.003005 max=0.002953 Jy/beam ! Clean residual mean=-0.000019 rms=0.000761 Jy/beam ! Combined flux in latest and established models = 0.649516 Jy ! Performing phase self-cal ! Adding 16 model components to the UV plane model. ! The established model now contains 65 components and 0.649516 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.291148Jy sigma=0.001564 ! Fit after self-cal, rms=0.291152Jy sigma=0.001564 ! Inverting map uvtaper 0.3,taper_size ! Gaussian taper: value 0.3 at UV radius = 20 mega-wavelengths. win_mult = win_mult * 1.2 selfcal true, true, soltime2 ! Performing amp+phase self-cal over 20 minute time intervals ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.291152Jy sigma=0.001564 ! Fit after self-cal, rms=0.292556Jy sigma=0.001564 clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=8.019 mas, bmaj=8.552 mas, bpa=24.97 degrees ! Estimated noise=638.611 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00343667 Jy ! Component: 100 - total flux cleaned = 0.0046211 Jy ! Component: 150 - total flux cleaned = 0.00472844 Jy ! Component: 200 - total flux cleaned = 0.00480002 Jy ! Total flux subtracted in 200 components = 0.00480002 Jy ! Clean residual min=-0.005823 max=0.005182 Jy/beam ! Clean residual mean=-0.000200 rms=0.001873 Jy/beam ! Combined flux in latest and established models = 0.654316 Jy selfcal ! Performing phase self-cal ! Adding 7 model components to the UV plane model. ! The established model now contains 66 components and 0.654316 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292568Jy sigma=0.001564 ! Fit after self-cal, rms=0.292727Jy sigma=0.001564 flux_cutoff = imstat(rms) * dynam ! Inverting map repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000394685 Jy ! Component: 100 - total flux cleaned = 0.000394423 Jy ! Component: 150 - total flux cleaned = 0.000414868 Jy ! Component: 200 - total flux cleaned = 0.000482435 Jy ! Total flux subtracted in 200 components = 0.000482435 Jy ! Clean residual min=-0.005851 max=0.005202 Jy/beam ! Clean residual mean=-0.000213 rms=0.001868 Jy/beam ! Combined flux in latest and established models = 0.654798 Jy ! Performing phase self-cal ! Adding 8 model components to the UV plane model. ! The established model now contains 68 components and 0.654798 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292732Jy sigma=0.001565 ! Fit after self-cal, rms=0.292740Jy sigma=0.001565 ! Inverting map uvtaper 0,0 ! No UV-taper is currently set. win_mult = win_mult / 1.2 print "************** FINISHED AMPLITUDE SELF-CAL **************" ! ************** FINISHED AMPLITUDE SELF-CAL ************** restore ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0026549 max=0.4872 Jy/beam if(peak(flux) > thresh) selfcal true, true clean clean_niter,clean_gain selfcal flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam selfcal new_peak = peak(flux) until(new_peak<=flux_cutoff) selfcal true, true end if print "************** CLEARING MODEL AND STARTING OVER **********" ! ************** CLEARING MODEL AND STARTING OVER ********** clrmod true ! clrmod: Cleared the established and tentative models. uvw 2,-1 ! Uniform weighting binwidth: 2 (pixels). ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=1.857 mas, bmaj=2.503 mas, bpa=-3.317 degrees ! Estimated noise=656.819 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.35902 Jy ! Component: 100 - total flux cleaned = 0.467617 Jy ! Component: 150 - total flux cleaned = 0.520011 Jy ! Component: 200 - total flux cleaned = 0.552797 Jy ! Total flux subtracted in 200 components = 0.552797 Jy ! Clean residual min=-0.004694 max=0.017894 Jy/beam ! Clean residual mean=0.000018 rms=0.001415 Jy/beam ! Combined flux in latest and established models = 0.552797 Jy uvw 0,-1 ! Uniform weighting is not currently selected. ! Gridding weights will be scaled by errors raised to the power -1. ! Radial weighting is not currently selected. flux_cutoff = imstat(rms) * dynam ! Adding 17 model components to the UV plane model. ! The established model now contains 17 components and 0.552797 Jy ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam keep new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.035656 Jy ! Component: 100 - total flux cleaned = 0.0572325 Jy ! Component: 150 - total flux cleaned = 0.0711445 Jy ! Component: 200 - total flux cleaned = 0.080481 Jy ! Total flux subtracted in 200 components = 0.080481 Jy ! Clean residual min=-0.003007 max=0.006130 Jy/beam ! Clean residual mean=0.000092 rms=0.000931 Jy/beam ! Combined flux in latest and established models = 0.633278 Jy ! Adding 41 model components to the UV plane model. ! The established model now contains 49 components and 0.633278 Jy ! Inverting map ! Added new window around map position (1, -6.5). ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.0066737 Jy ! Component: 100 - total flux cleaned = 0.0112308 Jy ! Component: 150 - total flux cleaned = 0.0144599 Jy ! Component: 200 - total flux cleaned = 0.0168311 Jy ! Total flux subtracted in 200 components = 0.0168311 Jy ! Clean residual min=-0.002978 max=0.003314 Jy/beam ! Clean residual mean=-0.000018 rms=0.000770 Jy/beam ! Combined flux in latest and established models = 0.650109 Jy ! Adding 27 model components to the UV plane model. ! The established model now contains 64 components and 0.650109 Jy ! Inverting map ! Added new window around map position (-7, 10). ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00263925 Jy ! Component: 100 - total flux cleaned = 0.00368798 Jy ! Component: 150 - total flux cleaned = 0.00452654 Jy ! Component: 200 - total flux cleaned = 0.0049571 Jy ! Total flux subtracted in 200 components = 0.0049571 Jy ! Clean residual min=-0.002907 max=0.002893 Jy/beam ! Clean residual mean=-0.000050 rms=0.000747 Jy/beam ! Combined flux in latest and established models = 0.655066 Jy ! Adding 27 model components to the UV plane model. ! The established model now contains 76 components and 0.655066 Jy ! Inverting map uvtaper 0.3,taper_size ! Gaussian taper: value 0.3 at UV radius = 20 mega-wavelengths. clean clean_niter,clean_gain ! Inverting map and beam ! Estimated beam: bmin=8.019 mas, bmaj=8.552 mas, bpa=24.97 degrees ! Estimated noise=638.611 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.00225897 Jy ! Component: 100 - total flux cleaned = 0.00351467 Jy ! Component: 150 - total flux cleaned = 0.00381983 Jy ! Component: 200 - total flux cleaned = 0.00403427 Jy ! Total flux subtracted in 200 components = 0.00403427 Jy ! Clean residual min=-0.006057 max=0.005069 Jy/beam ! Clean residual mean=-0.000331 rms=0.001784 Jy/beam ! Combined flux in latest and established models = 0.659101 Jy flux_cutoff = imstat(rms) * dynam repeat if (peak(flux) > flux_cutoff) peakwin win_mult clean clean_niter,clean_gain flux_cutoff = imstat(rms) * dynam keep new_peak = peak(flux) until(new_peak<=flux_cutoff) ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = 0.000132156 Jy ! Component: 100 - total flux cleaned = 0.00022824 Jy ! Component: 150 - total flux cleaned = 0.000279978 Jy ! Component: 200 - total flux cleaned = 0.000296817 Jy ! Total flux subtracted in 200 components = 0.000296817 Jy ! Clean residual min=-0.006006 max=0.005106 Jy/beam ! Clean residual mean=-0.000340 rms=0.001778 Jy/beam ! Combined flux in latest and established models = 0.659398 Jy ! Adding 24 model components to the UV plane model. ! The established model now contains 96 components and 0.659398 Jy ! Inverting map uvtaper 0,0 ! No UV-taper is currently set. clean ! Inverting map and beam ! Estimated beam: bmin=2.061 mas, bmaj=3 mas, bpa=-4.546 degrees ! Estimated noise=368.364 mJy/beam. ! clean: niter=200 gain=0.03 cutoff=0 ! Component: 050 - total flux cleaned = -0.000629312 Jy ! Component: 100 - total flux cleaned = -0.000905457 Jy ! Component: 150 - total flux cleaned = -0.000947078 Jy ! Component: 200 - total flux cleaned = -0.000909856 Jy ! Total flux subtracted in 200 components = -0.000909856 Jy ! Clean residual min=-0.002874 max=0.002825 Jy/beam ! Clean residual mean=-0.000073 rms=0.000735 Jy/beam ! Combined flux in latest and established models = 0.658488 Jy selfcal ! Performing phase self-cal ! Adding 20 model components to the UV plane model. ! The established model now contains 104 components and 0.658488 Jy ! ! Correcting IF 1. ! ! Correcting IF 2. ! ! Correcting IF 3. ! ! Correcting IF 4. ! ! Fit before self-cal, rms=0.292675Jy sigma=0.001564 ! Fit after self-cal, rms=0.292675Jy sigma=0.001564 wmodel J0808+4950_S_2001_04_09_pus_map.mod ! Writing 104 model components to file: J0808+4950_S_2001_04_09_pus_map.mod wobs J0808+4950_S_2001_04_09_pus_uvs.fits ! Writing UV FITS file: J0808+4950_S_2001_04_09_pus_uvs.fits wwins J0808+4950_S_2001_04_09_pus_map.win ! wwins: Wrote 4 windows to J0808+4950_S_2001_04_09_pus_map.win x = (field_size-8) * field_cell / 4 addwin -x,x,-x,x clean (field_size*4),0.01 ! Inverting map ! clean: niter=2048 gain=0.01 cutoff=0 ! Component: 050 - total flux cleaned = -0.000384188 Jy ! Component: 100 - total flux cleaned = -0.000484415 Jy ! Component: 150 - total flux cleaned = -0.000580757 Jy ! Component: 200 - total flux cleaned = -0.000811931 Jy ! Component: 250 - total flux cleaned = -0.00103654 Jy ! Component: 300 - total flux cleaned = -0.00130025 Jy ! Component: 350 - total flux cleaned = -0.00151528 Jy ! Component: 400 - total flux cleaned = -0.00168344 Jy ! Component: 450 - total flux cleaned = -0.00176594 Jy ! Component: 500 - total flux cleaned = -0.00192847 Jy ! Component: 550 - total flux cleaned = -0.00200857 Jy ! Component: 600 - total flux cleaned = -0.00200875 Jy ! Component: 650 - total flux cleaned = -0.00196998 Jy ! Component: 700 - total flux cleaned = -0.00189319 Jy ! Component: 750 - total flux cleaned = -0.0019701 Jy ! Component: 800 - total flux cleaned = -0.00196974 Jy ! Component: 850 - total flux cleaned = -0.00185715 Jy ! Component: 900 - total flux cleaned = -0.00189414 Jy ! Component: 950 - total flux cleaned = -0.00182074 Jy ! Component: 1000 - total flux cleaned = -0.00182074 Jy ! Component: 1050 - total flux cleaned = -0.00178464 Jy ! Component: 1100 - total flux cleaned = -0.00185656 Jy ! Component: 1150 - total flux cleaned = -0.00178496 Jy ! Component: 1200 - total flux cleaned = -0.00182061 Jy ! Component: 1250 - total flux cleaned = -0.00178527 Jy ! Component: 1300 - total flux cleaned = -0.00178533 Jy ! Component: 1350 - total flux cleaned = -0.00178534 Jy ! Component: 1400 - total flux cleaned = -0.00175062 Jy ! Component: 1450 - total flux cleaned = -0.0017162 Jy ! Component: 1500 - total flux cleaned = -0.00171614 Jy ! Component: 1550 - total flux cleaned = -0.00168218 Jy ! Component: 1600 - total flux cleaned = -0.00168208 Jy ! Component: 1650 - total flux cleaned = -0.00171569 Jy ! Component: 1700 - total flux cleaned = -0.0016822 Jy ! Component: 1750 - total flux cleaned = -0.00164905 Jy ! Component: 1800 - total flux cleaned = -0.00161615 Jy ! Component: 1850 - total flux cleaned = -0.00158343 Jy ! Component: 1900 - total flux cleaned = -0.0016492 Jy ! Component: 1950 - total flux cleaned = -0.00164891 Jy ! Component: 2000 - total flux cleaned = -0.00161644 Jy ! Total flux subtracted in 2048 components = -0.00164868 Jy ! Clean residual min=-0.001813 max=0.002087 Jy/beam ! Clean residual mean=-0.000050 rms=0.000615 Jy/beam ! Combined flux in latest and established models = 0.656839 Jy keep ! Adding 189 model components to the UV plane model. ! The established model now contains 293 components and 0.656839 Jy ![Exited script file: muppet] wmap "J0808+4950_S_2001_04_09_pus\_map.fits" ! Inverting map ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0024173 max=0.48769 Jy/beam ! Writing clean map to FITS file: J0808+4950_S_2001_04_09_pus_map.fits float peak_flux peak_flux = peak(flux,max) print "The peak flux is",peak_flux ! The peak flux is 0.487693 invert ! Inverting map float image_rms image_rms = imstat(rms) print "The final image rms is",image_rms ! The final image rms is 0.000615223 device "J0808+4950_S_2001_04_09_pus\_map.eps/VPS" ! Attempting to open device: 'J0808+4950_S_2001_04_09_pus_map.eps/VPS' loglevs 100*3*image_rms/peak_flux ! The new contour levels are: ! -0.378449 0.378449 0.756897 1.51379 3.02759 6.05518 12.1104 24.2207 48.4414 96.8828 print "clev=",int(3*image_rms*10000)/10000 ! clev= 0.0018 print "peak=",int(1000*peak_flux)/1000 ! peak= 0.487 mapcolor none ! Mapplot colormap: none, contrast: 1 brightness: 0.5. mapplot cln ! restore: Substituting estimate of restoring beam from last 'invert'. ! Restoring with beam: 2.061 x 3 at -4.546 degrees (North through East) ! Clean map min=-0.0024173 max=0.48769 Jy/beam mapcolor color, 0.9 ! Mapplot colormap: rainbow, contrast: 0.9 brightness: 0.5. device "J0808+4950_S_2001_04_09_pus\_map.gif/vgif" ! Attempting to open device: 'J0808+4950_S_2001_04_09_pus_map.gif/vgif' mapplot cln quit ! Quitting program ! Log file J0808+4950_S_2001_04_09_pus_uvs.log closed on Fri Oct 5 15:57:04 2007

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Required Report - public distribution **Date:** 9/10/2003 **GAIN Report Number:** JA3067 JA3067 **Japan** **Fresh Deciduous Fruit** **Annual** **2003** **Approved by:** ![](media/image1.wmf)Kevin Latner #### U.S.Embassy **Prepared by:** Kenzo Ito **Report Highlights:** Japanese table grape production in 2003 is estimated at 230,000 tons, down approximately 1 percent from the previous year. Good packaging and handling practices by California growers and shippers have improved fruit quality and extended shelf life, giving California Red Globes an excellent reputation for quality in Japan. Japanese apple production in 2003 is estimated at 891,700 tons, down approximately 4 percent from the previous year. Japanese apple imports were only 108 tons in 2002, a significant decline from the previous year. Western pear production in Japan was up approximately 10 percent from the previous year in 2002. Includes PSD Changes: Yes Includes Trade Matrix: Yes Annual Report Tokyo \[JA1\] \[JA\] Table of Contents [The 2003 Japanese Table Grape Production Expected to Decline 1 Percent 3](#the-2003-japanese-table-grape-production-expected-to-decline-1-percent) [California Red Globes Established An Excellent Reputation for Quality in Japan 3](#california-red-globes-established-an-excellent-reputation-for-quality-in-japan) [Chilean Red Globes Continue to Sell Well in Japan 4](#chilean-red-globes-continue-to-sell-well-in-japan) [Japanese Apple Production in 2003 Expected to Decline 4 Percent 4](#japanese-apple-production-in-2003-expected-to-decline-4-percent) [Japanese Apple Imports Declined Significantly in 2002 5](#japanese-apple-imports-declined-significantly-in-2002) [Japanese Western Pear Production Keeps Rising 5](#japanese-western-pear-production-keeps-rising) [Import Duties on Fresh Apples and Table Grapes 5](#import-duties-on-fresh-apples-and-table-grapes) [PS&D Tables and Trade Matrices 6](#psd-tables-and-trade-matrices) [Fresh Apple PS&D Table 6](#fresh-apple-psd-table) [Fresh Apple Export Trade Matrix 7](#fresh-apple-export-trade-matrix) [Fresh Apple Import Trade Matrix 8](#fresh-apple-import-trade-matrix) [Fresh Apple Wholesale Price Table 9](#fresh-apple-wholesale-price-table) [Fresh Pear PS&D Table 10](#fresh-pear-psd-table) [Fresh Pear Export Trade Matrix 11](#fresh-pear-export-trade-matrix) [Fresh Pear Import Trade Matrix 12](#fresh-pear-import-trade-matrix) [Fresh Pear Wholesale Price Table 13](#fresh-pear-wholesale-price-table) [Fresh Table Grape PS&D Table 14](#fresh-table-grape-psd-table) [Fresh Table Grape Export Trade Matrix 15](#fresh-table-grape-export-trade-matrix) [Fresh Table Grape Import Trade Matrix 16](#fresh-table-grape-import-trade-matrix) [Fresh Table Grape Wholesale Price Table 17](#fresh-table-grape-wholesale-price-table) # The 2003 Japanese Table Grape Production Expected to Decline 1 Percent ![](media/image2.wmf) Japanese table grape production has been declining for over 10 years. Production is estimated at 230,000 metric tons in 2003, down approximately 1 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). Japan experienced fairly good weather when table grapes were flowering and pollinating in the spring and grapes. Kyoho, large and dark purple colored grapes, is the most commonly grown variety in Japan, accounting for approximately 34 percent of Japan's grape production. Kyoho is followed by the following varieties; Delaware (19%), Pione (9%), Muscat (6%), Campbell-Early (6%), Koshu (4%), and Kaiji (2%). Production of both Kyoho and Pione increased 3 percent from the previous year, while Delaware declined 7 percent. Production declines are mostly a result of Japan's aging farm population leaving farming and taking harvest area out of production. Japan's harvest area is estimated at 19,500 hectares in 2003, a decline of approximately 1 percent from the previous season. In mid-September, Tokyo supermarkets sold a cluster of Kyoho grapes (362 grams) for \$2.86 (318 yen), Kaiji grapes (304 grams) for \$2.68 (298 yen), and Muscat (668 grams) for \$7.71 (856 yen). Kaiji grapes are similar to California Red Globes. # California Red Globes Established An Excellent Reputation for Quality in Japan ![](media/image3.wmf)The quality of California table grapes is fairly stable throughout the season, with high Brix levels, according to Tokyo traders. The arrival fruit quality is reportedly excellent and the fruit has a long shelf-life to market. Grape clusters are individually wrapped with a sheet of paper and carefully packaged in a 9-kilogram box. California table grapes are shipped in temperature-controlled containers. Good packaging and handling practices by California growers and shippers have significantly improved fruit quality and extended shelf life. Peak sales of California Red Globes start in mid-October, at the end of the domestic season. The quality of Japanese table grapes was irregular this season due to the cool weather in July and August. Sales of California table grapes are expected to do well this fall, according to Tokyo traders. California table grapes have a strong competitive advantage in the Japanese market, according to retail specialists. Japanese retailers can sell California Red Globes at less than half the price of Japan's best selling Kyoho variety. In a drastic change from past years, consumers are looking for value in their food purchases. Tokyo's major supermarkets sold California Red Globes for \$2.68 (298 yen) a cluster of 700 -- 800 grams, while domestic table grapes sold for \$3.58 (398 yen) for a cluster of 350 -- 400 grams. Tokyo supermarket buyers usually estimate that California Red Globes can sell for \$0.35 - \$0.40 (39 -- 45 yen) per 100 grams and will sometimes sell for \$0.26 (29 yen) per 100 grams as a sales item. California Thomson Seedless will sell for \$0.52 (58 yen) per 100 grams, slightly higher than Red Globes because shipment is only by airfreight. The 2003 crop of California Red Globes arrived in Japan in early-September, and was traded at \$34.23 (3,800 yen) for a 9-KG case at Tokyo Ohta Wholesale Market. In 2002, Japan imported 3,224 metric tons of California table grapes (mainly Red Globes and Thomson Seedless), valued at \$5.42 million (CIF). # Chilean Red Globes Continue to Sell Well in Japan In the 2003 season (January-June), Chile exported 8,797 metric tons of table grapes to Japan, up 6.0 percent from the previous season, valued at \$11.66 million (CIF). The quality of Chilean table grapes was unstable due to transportation problems, according to Tokyo traders. Chile does not compete with California in the table grape market. # Japanese Apple Production in 2003 Expected to Decline 4 Percent ![](media/image4.wmf)Japanese apple production in 2003 is estimated at 891,700 metric tons, down approximately 4 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). In the spring, the Japanese apple industry conducted a fruit-thinning program in order to improve the quality of apples, but there are still many small-sized fruit in the 2003 crop, according to Tokyo traders. Apple growers in Aomori Prefecture experienced production difficulties when a typhoon hit the region in mid-September. The industry estimated that approximately 10 percent of the fruit was damaged in some regions. Aomori Prefecture, approximately 500 miles North-East of Tokyo, produces approximately 52 percent of the nation's apples. The Fuji is the most popular variety grown in Japan, accounting for approximately 55 percent of the nation's apple production. Harvesting of Fuji, a late-crop variety, begins in mid-October. Tsugaru, Jonagold and Ohrin are also popular, with approximately 13, 10 and 9 percent of total production, respectively. Harvest of the early-crop Tsugaru began in August and will finish in mid-October. The quality, Brix (sweetness) level, and fruit color and taste are reportedly good for all apple varieties this season. The Japanese apple industry estimates that 145,000 metric tons of the 2003 apples will go to processing, of which 125,000 metric tons go to juice while the rest go to canning and jam processing. The 2003 apple harvesting area is estimated at 41,700 hectares, down approximately 2 percent from the previous year, according to MAFF. This decline is due to orchard closures as a result of Japan's aging farm population. In mid-September, Tokyo supermarkets sold Tsugaru apples at \$0.89 (99 yen) for a medium sized fruit or at \$5.22 (580 yen) for a bag of 6 medium-size apples. This price range is similar to last year. Tsugaru apples were traded at \$21.62 (2,400 yen) for a 10-kilogram box (36 apples in a box) at Tokyo Ohta Wholesale Market. # Japanese Apple Imports Declined Significantly in 2002 Japanese apple imports were only 108 metric tons in the 2002 season, less than one third the previous season. Australia exported three container loads (107 metric tons) of Tasmania Fuji apples to Japan in June 2003. South Korea exported 0.6 metric tons of Fuji apples in October 2002. Small sized Tasmanian Fuji apples were not well received by Japanese consumers, according to Tokyo supermarket specialists. Tokyo supermarkets sold Australian Fuji apples for \$1.15 (128 yen) per fruit when the first shipments arrived, and discounted them to approximately \$0.45 (50 yen) per fruit later in the season. There were no imports of U.S. apples in 2002. # Japanese Western Pear Production Keeps Rising ![](media/image5.wmf) Japanese Western pear production in 2002 was 31,100 metric tons, up approximately 10 percent from the previous year, according to the Ministry of Agriculture, Forestry and Fisheries (MAFF). Traditionally, Japan produces Japanese sand pears, which have significantly different fruit flesh texture than Western pears. La France and Bartlett are two major Western pear varieties grown in Japan. Yamagata Prefecture, 250 miles North of Tokyo, harvests approximately 61 percent of the nation's Western pears. Western pear production is relatively new in Japan. Western pear trees were planted in Yamagata prefecture as a part of the region's agricultural development. The harvested area for the 2002 Western pear was 1,730 hectares, up approximately 2 percent from the previous year. Japan continues to ban imports of U.S. pears due to phytosanitary concerns. # Import Duties on Fresh Apples and Table Grapes These duties are not subject to further reductions. The applicable import duties are: +-----------------------+------------------+--------------------------+ | DESCRIPTION | | DUTY RATE | | | | | | TARIFF CODE (HS) | | | +-----------------------+------------------+--------------------------+ | Fresh Apples | | 17.0 % | | | | | | 0808.10-000 | | | +-----------------------+------------------+--------------------------+ | Fresh Table Grapes | 3/1 -- 10/31 | 17.0 % | | | | | | 0806.10-000 | | | +-----------------------+------------------+--------------------------+ | | 11/1 -- 2/28 | 7.8 % | +-----------------------+------------------+--------------------------+ All duties are charged on a CIF basis. # PS&D Tables and Trade Matrices ## Fresh Apple PS&D Table ----------------- ----------- ---------- ---------- ---------- ------------ ---------- **PSD Table** **Country** **Japan** **Commodity** **Fresh (HA)(1000 Apples** TREES)(MT) 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] **Market Year 07/2001 07/2002 07/2003 Begin** Area Planted 45900 45900 45000 45000 0 44100 Area Harvested 43100 43100 42400 42400 0 41700 Bearing Trees 42300 42300 41600 41600 0 40900 Non-Bearing Trees 3610 3610 3400 3400 0 3200 Total Trees 45910 45910 45000 45000 0 44100 Commercial 829500 829500 812500 809400 0 787800 Production Non-Comm. 101200 101200 99400 116400 0 103900 Production TOTAL Production 930700 930700 911900 925800 0 891700 TOTAL Imports 349 349 1000 108 0 100 TOTAL SUPPLY 931049 931049 912900 925908 0 891800 Domestic Fresh 776203 776203 762900 768705 0 731800 Consump Exports, Fresh 6546 6546 5000 12203 0 15000 Only For Processing 148300 148300 145000 145000 0 145000 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 931049 931049 912900 925908 0 891800 ----------------- ----------- ---------- ---------- ---------- ------------ ---------- ## Fresh Apple Export Trade Matrix ------------------- ------------------ ----------------- --------------- **Export Trade Matrix** **Country** Japan **Commodity** Fresh Apples Time Period Jul. - Jun. Units: Metric Tons Exports for: 2001 **2002** U.S. 46 U.S. 58 Others Others Taiwan 5637 Taiwan 11580 Hong Kong 371 Hong Kong 231 Thailand 165 Thailand 199 Singapore 119 Indonesia 60 South Korea 94 Singapore 28 Indonesia 58 French Oceania 18 French Oceania 24 Philippines 12 Philippines 10 Guam 11 Guam 8 Total for Others 6486 12139 Others not Listed 14 6 Grand Total 6546 12203 ------------------- ------------------ ----------------- --------------- ## Fresh Apple Import Trade Matrix ------------------- ------------------ ----------------- --------------- **Import Trade Matrix** **Country** Japan **Commodity** Fresh Apples Time Period Jul. - Jun. Units: Metric Tons Imports for: 2001 **2002** U.S. 0 U.S. 0 Others Others Australia 167 Australia 107 South Korea 182 South Korea 1 Total for Others 349 108 Others not Listed 0 0 Grand Total 349 108 ------------------- ------------------ ----------------- --------------- ## Fresh Apple Wholesale Price Table ------------------- ------------------- ------------------ ------------- **Prices Table** **Country** Japan **Commodity** Fresh Apples Prices in Yen per uom KG Year 2002 2003 \% Change Jan 175 181 3% Feb 161 176 9% Mar 176 190 8% Apr 200 219 10% May 213 252 18% Jun 232 315 36% Jul 261 358 37% Aug 294 -100% Sep 207 -100% Oct 210 -100% Nov 199 -100% Dec 180 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY ------------------- ------------------- ------------------ ------------- ## Fresh Pear PS&D Table ----------------- ----------- ---------- ---------- ---------- ------------ ---------- **PSD Table** **Country** **Japan** **Commodity** **Fresh (HA)(1000 Pears** TREES)(MT) 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] **Market Year 07/2001 07/2002 07/2003 Begin** Area Planted 19350 19350 19040 18950 0 18550 Area Harvested 18100 18100 17810 17830 0 17350 Bearing Trees 4380 4380 4340 4340 0 4300 Non-Bearing Trees 440 440 410 400 0 360 Total Trees 4820 4820 4750 4740 0 4660 Commercial 365600 365600 393200 373300 0 375000 Production Non-Comm. 31400 31400 33100 33300 0 32300 Production TOTAL Production 397000 397000 426300 406600 0 407300 TOTAL Imports 907 907 700 193 0 200 TOTAL SUPPLY 397907 397907 427000 406793 0 407500 Domestic Fresh 394586 394586 423500 403678 0 404300 Consump Exports, Fresh 2821 2821 3000 2615 0 2700 Only For Processing 500 500 500 500 0 500 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 397907 397907 427000 406793 0 407500 ----------------- ----------- ---------- ---------- ---------- ------------ ---------- ## Fresh Pear Export Trade Matrix -------------------- -------------- -------------------- --------------- **Export Trade Matrix** **Country** Japan **Commodity** Fresh Pears Time Period Jul. - Jun. Units: Metric Tons Exports for: 2001 **2002** U.S. 376 U.S. 366 Others Others Hong Kong 1760 Hong Kong 1650 Taiwan 458 Taiwan 509 Singapore 104 Australia 31 Netherlands 28 Singapore 26 South Korea 24 Netherlands 14 Malaysia 24 Guam 7 Indonesia 14 Malaysia 3 Australia 10 Guam 7 Total for Others 2429 2240 Others not Listed 16 9 Grand Total 2821 2615 -------------------- -------------- -------------------- --------------- ## Fresh Pear Import Trade Matrix -------------------- -------------- -------------------- --------------- **Import Trade Matrix** **Country** Japan **Commodity** Fresh Pears Time Period Jul. - Jun. Units: Metric Tons Imports for: 2001 **2002** U.S. 0 U.S. 0 Others Others South Korea 907 South Korea 193 Total for Others 907 193 Others not Listed 0 0 Grand Total 907 193 -------------------- -------------- -------------------- --------------- ## Fresh Pear Wholesale Price Table -------------------- ----------------- ---------------- ----------------- **Prices Table** **Country** Japan **Commodity** Fresh Pears Prices in Yen per uom KG Year 2002 2003 \% Change Jan 214 242 13% Feb 214 236 10% Mar 213 218 2% Apr 167 239 43% May 307 173 -44% Jun 927 970 5% Jul 390 426 9% Aug 269 -100% Sep 229 -100% Oct 189 -100% Nov 209 -100% Dec 270 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY -------------------- ----------------- ---------------- ----------------- ## Fresh Table Grape PS&D Table ------------------ ----------- ---------- ---------- ---------- ---------- ---------- **PSD Table** **Country** **Japan** **Commodity** **Fresh (HA)(MT) Table Grapes** 2001 Revised 2002 Estimate 2003 Forecast USDA Post USDA Post USDA Post Official Estimate Official Estimate Official Estimate \[Old\] \[New\] \[Old\] \[New\] \[Old\] \[New\] **Market Year 01/2002 01/2003 01/2004 Begin** Area Planted 21200 20900 20800 20600 0 20300 Area Harvested 19700 19700 19500 19500 0 19300 Commercial 214800 212300 215000 210600 0 210000 Production Non-Comm. 20400 19400 20800 19400 0 15000 Production TOTAL Production 235200 231700 235800 230000 0 225000 TOTAL Imports 13000 11836 17324 12000 0 12000 TOTAL SUPPLY 248200 243536 253124 242000 0 237000 Domestic Fresh 219670 215475 224600 213950 0 211950 Consump Exports, Fresh 30 61 24 50 0 50 Only For Processing 28500 28000 28500 28000 0 25000 Withdrawal From 0 0 0 0 0 0 Market TOTAL UTILIZATION 248200 243536 253124 242000 0 237000 ------------------ ----------- ---------- ---------- ---------- ---------- ---------- ## Fresh Table Grape Export Trade Matrix ----------------- ------------------ ----------------- ----------------- **Export Trade Matrix** **Country** Japan **Commodity** Fresh Table Grapes Time Period Jan. - Dec. Units: Metric Tons Exports for: 2001 **2002** U.S. 0 U.S. 0 Others Others Hong Kong 36 Taiwan 43 Hong Kong 18 Total for Others 36 61 Others not Listed 0 0 Grand Total 36 61 ----------------- ------------------ ----------------- ----------------- ## Fresh Table Grape Import Trade Matrix ----------------- ------------------ ----------------- ----------------- **Import Trade Matrix** **Country** Japan **Commodity** Fresh Table Grapes Time Period Jan. - Dec. Units: Metric Tons Imports for: 2001 **2002** U.S. 3222 U.S. 3224 Others Others Chile 7784 Chile 8295 Mexico 345 Mexico 248 Taiwan 122 Taiwan 48 New Zealand 23 New Zealand 19 China 11 South Korea 1 South Korea 2 Total for Others 8287 8611 Others not Listed 1 1 Grand Total 11510 11836 ----------------- ------------------ ----------------- ----------------- ## Fresh Table Grape Wholesale Price Table ----------------- ------------------- ------------------ --------------- **Prices Table** **Country** Japan **Commodity** Fresh Table Grapes Prices in Yen per uom KG Year 2002 2003 \% Change Jan 587 732 25% Feb 529 634 20% Mar 605 1182 95% Apr 2640 2951 12% May 1556 1704 10% Jun 917 1014 11% Jul 735 813 11% Aug 664 -100% Sep 526 -100% Oct 487 -100% Nov 635 -100% Dec 700 -100% Exchange Rate 111.37 Local Currency/US \$ Date of Quote 9/29/2003 MM/DD/YYYY ----------------- ------------------- ------------------ ---------------

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470908

# Presentation: 470908 ## Enabling Technologies from the Biology Perspective - H. Steven Wiley - January 22nd, 2002 ## What is a “Systems Approach” in the Context of Biological Organisms? - Looking at cells as integrated systems and not as mere collections of parts - Seeks to understand how changes in any given component will affect the behavior of the entire system - Requires integration of information from molecular biology, biochemistry, physics and genetics to understand relationship between different sets of scientific data. - Goal is a “Higher order” understanding of life processes. ## Why should DOE care about Systems Biology? - It offers a chance to actually solve problems. - Conversion of biology from a descriptive to a quantitative science. - This will enable bioengineering and rational design of biological systems. - DOE is one of the only organizations that is capable of applying a systems approach to biology ## What are the Computational Requirements of Systems Biology? - - develop new theories and mathematics, - - develop new algorithms, - - implement on the largest available computer systems, - - make full use of large, distributed databases, and - - make the software and computer system usable by the biologist. **What are the Computational Requirements of Systems Biology?** ## Biological Organisms are Dynamic and Recursive **Biological Organisms are Dynamic and Recursive** ## Systems Biology Requires Scientific Integration **Systems Biology Requires Scientific Integration** - To solve specific problems using a “systems approach”, you must couple theory with experiments and analysis in a recursive manner. This requires close coordination between program elements. **Notes:** The GTL program describes programmatic integration, but does not indicate how scientific integration will be achieved. All “systems biology” programs acknowledge the need to physically integrate the multidisciplinary components. DOE does not currently have an integrated computation-biology-instrumentation facility. ## Understanding Complex Biological Systems Using a Top-Down:Bottom-Up Hybrid Approach - Bottom-Up defines the molecular components of the system - This sets the physical constraints of system behavior - This provides basis for generating mechanistic models - Top-Down computational approach is used to attribute behavioral characteristics to system - Encapsulate complexity in terms of modular structure - Attribute behavioral outcome to molecular composition ## Cell Migration Can Be Broken Down Into a Series of Steps... ## Extend Model From High-level to Low LevelExample: Wound Healing Response ## Modular Perspective in Cell Biology - Consider cells as composed of groups of interacting modules - Modules are functionally independent - Modules interact at defined (and limited) regulatory nodes - Function of cells defined in terms of collection of modules ## Systems Biology = Quantitative Biology - System is defined as group of interacting parts - Interactions are dependent on quantities - Cellular processes are best described as rates - Computer simulations require quantification ## What, Where, Quantity, Quality? **What, Where, Quantity, Quality?** - What parts are being made? (identity) - Where are the proteins located in cell? (location) - What are their levels? (quantity) - How do they interact with their partners? (activity) - As a function of covalent modification - Contribution of steric restrictions - Forward and reverse rate constants **To successfully model a complex biological system, one must minimally know the following information:** ## What Is Necessary to Understand a Network? **Modeling & Analysis** **Experimental Biology** ## Growth Factor Pathways ## How Can We Understand Signaling Networks? **Hanahan & Weinberg, 2000** _**“**__**Hallmarks of Cancer”**_ ## Structure of Cells ## Intracellular Trafficking Pathways ## The EGFR System **The EGFR System** ## How Do We go From Cartoon Model to Realistic Model? **How Do We go From Cartoon Model to Realistic Model?** - Model must be quantifiable - Model must make very specific predictions - Model must account for changes in components as well as input parameters - Must be testable with experimental data - Models and experiments need to be developed together ## The EGFR System **The EGFR System** ## Spatial Colocalization by Image Analysis - For two molecules to interact, they must be located in the same space at the same time. This can be determined by image analysis ## Movement of EGFR through early endosomes as determined by image analysis ## Colocalization of EGFR and HER2 **Colocalization of EGFR and HER2** ## Slide 24 ## Trafficking model for EGFR signaling **Trafficking model for EGFR signaling** **20 nM of ligand is injected in 15 seconds** **(****red:**** ****EGF, ****blue:**** TGF-********)** **Stochastic/Kinetic Simulations ******** Dynamic Monte Carlo method** **(Probability weighted)** **A probabilistic approach as opposed to deterministic** **Extension of the Monte Carlo method to the time domain** - H Resat, HS Wiley, DA Dixon ## Signal Pathways: Computer Simulation of Protein-Protein Complexes - Ras acts as the GTP-activated molecular switch in the cell signaling pathway for gene expression, controlling cell proliferation and differentiation. Mutations found at Gln-61 in 30% of human tumors. **Signal Pathways: Computer Simulation of Protein-Protein Complexes ** - Issues for modeling the Ras:Raf signaling complex : - 50,000 atoms, long-time simulations, solvent, lack of knowledge of the entire structure - TP Straatsma, H Resat, JH Miller, T Soares, DA Dixon, PNAS, 2001 ## Model for the Role of Ca2+ in Stress-Response Pathways: NWGrid/NWPhys **Model for the Role of Ca****2+**** in Stress-Response Pathways: NWGrid/NWPhys** - H Trease, JH Miller **G protein-coupled receptor** ## Signaling Through Growth Factor Receptors **Notes:** What we do is to take what is known about the molecular biology of signaling networks and conceptualize them. By looking at the different parts of the pathways as concepts we can understand them in terms of controls and regulators. ## Central Role of Computation and Simulation **Central Role of Computation and Simulation** - Computer simulations provide a conceptual framework for organizing system behavior ## Cell State Dictates Cell Response **Cell State Dictates Cell Response ** - DNA is information storage of cell - Proteins are the “program” running the cell - The running program dictates cellular response - Thus, one cannot adequately model or predict cellular responses UNLESS the proteome of a given cell is first specified! ## Proteomics - What parts are being made? (identity) - Develop technologies for global proteomics - Develop technologies for selective proteomics - What is their state of modification? (activity) - Phosphorylation state - Other covalent modifications - What are their levels? (quantity) - High-throughput quantification - Rapid quantification ## Slide 32 ## Probability Network for Proteomics - Genome - Protein - Peptide - MS/MS - LC - Total Prob - Bioinform - Prob - AGTCCGTAACGGCTAGCTGATCTGACTAGTCTAGCGCGCTAGGAGAGAGTATATCCCCGCTTCTAATCGAC ## Software provides connection between visual displays and data **Software provides connection between visual displays and data** ## Expression analysis from MS Proteomic Data **Expression analysis from MS Proteomic Data** - Expression levels between cell populations as measured by FTICR MS are correlated and quantitative... - ...allowing for expression and network analysis. - WR Cannon **Notes:** Figure 1. The first plot is a scatter plot of mass classes (ie observations in the ms data that are grouped by mass ranges) between two cell populations. The fact that a large majority of the points lie on the diagonal means that the levels are correlated. This plot is one that is generally associated with DNA microarrays, not protein expression measurement. The most important point is that the points that fall off the diagonal are up or down regulated and the data can be made quantitative. Figure 2. Graph consisting of proteins (nodes) that are related by the mutual information statistic. The relationships are symbolized by double-headed arrows (edges), which represents a range of values of the mutual information statistic above a arbitrary cutoff value. The data used in the analysis were from FTICR MS analysis of Deinococcus radiodurans cells grown under 15 different experimental conditions, in which the FTICR MS results indicated the presence or absence of each protein. The information theory analysis used this two-state model (present/absent). Although, the data set is small and the data itself only consists of information on whether the protein was observed or not (rather than expression levels), the results are intriguing. Five of the six proteins in the group on the right of the figure are all associated with biosynthesis: (a) the ribosomal protein L29; (b) methionyl-tRNA synthetase, (c) a signal recognition particle protein that binds RNA; (d) Guanosine monophosphate synthase, an enzyme involved in GTP biosynthesis; and (e) adenylosuccinate lyase, an enzyme involved in de novo purine synthesis. The six protein is of unknown function. The value of these networks is two-fold: first they provide a computational framework for discover-driven science; second, they capture knowledge from diverse experimental sources and allow the biologist to make more insightful hypotheses. ## Database Requirements for Proteomics - Pooled - Proteins - Pooled - Peptides **Proteomic State** - FTICR-MS _**1. Build Knowledge Base**_ _**2. High-throughput Experiments**_ - >103 ## Automated data mining of genome superfamily sequences – Data integration and method validation *Automatic * *Superfamily Finder* *Superfamily * *organizer* *Text** * *Motif* *Pattern * *Integrator* *Extracts and validates superfamily sequences based on PSI-BLAST* *(automation tool under development)* *Organizes and visualizes* *superfamily sequences* *(Prototype built)* - HJ Sofia ## Computational Cell Environment **Computational Cell Environment** **Announcements** **Reference Links** **Collaborators** **Data Sets** ** ****Experimental** ** ****FTICR** ** ****CARS** ** ****Computational** **Analysis Tools** ** ****Starlight** ** ****Similarity Box** ** ****Psort** ** ****Prosite** ## New Model for Biological Analysis ***New Model for Biological Analysis*** - Analytical - Experimental, - Robotic **Computation** - Information - Synthesis - Mathematical, **Computational**, Visualization - Hypothesis **Computation** **1. Enhance understanding of known systems** **2. Provide qualitative/ quantitative insights ******** direct new experiments or design new systems** **3. Provide quantitative results to:** **- Replace experiments that are too difficult, dangerous or expensive** **- Go into new temporal and spatial domains** **- Extend limited experimental data into new domains of parameter space** ## Computational Sciences Ties Systems Biology Together **Computational Sciences Ties Systems Biology Together**

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352697

# Presentation: 352697 ## A proposal to measure transport variationsbetween the Indian and South Atlantic Oceans *Mark Wimbush* - Graduate School of OceanographyUniversity of Rhode Island ## I PROPOSE ADDING ~20 CPIESs DEPLOYED FOR 2-4 YEARSTO THE 10+ PIESs IN THE GOODHOPE ARRAY - Why an Africa-Antarctica array? - ● Will measure exchange flows between the Indian and South Atlantic Oceans (“warm-water-route”). - Why now? - ● Will (a) contribute directly to the 2007-2011 BONUS-GOODHOPE program, and (b) obtain several years of data simultaneous with the *Chereskin, Donohue and Watts* 2008-2011 measurements in the Drake Passage (“cold-water route”). - Why a CPIES array? - ● This is the most cost effective way to measure the time-varying cross-sectional absolute current structure over a long time period (several years). ## ASTTEX array2003-2005(Deirdre Byrne and Randy Watts) - ASTTEX array2003-2005(*Deirdre Byrne and Randy Watts*) - Δ*x *= 62 -180 km ## GOODHOPE PIES array - 8 PIES (*Boebel*) - +2 PIESs (locations undecided)(*Speich)* *+ *more PIESs? (*Byrne*) - GOODHOPE PIES array ## CPIES Transport Arrays:Drake Passage (17 CPIESs, blue) Chereskin, Donohue & WattsAfrica-Antarctica (23 CPIESs, red) - 17 CPIESs - Δ*x *= 30 – 75 km - 23 CPIESs - Δ*x *= 154 -159 km ## ISSUES - ● Should CPIES spacing (~155 km) be reduced in high-energy/frontal regions (e.g., Agulhas rings, SAF, PF) and correspondingly increased in other regions? - ● Is 60 ̊S an appropriate southern terminus for the array? - ● Alternatively, should we limit the CPIES array to the region north of *Olaf Boebel*’s ANT-5 site (~42 ̊S)? - ● Can we better integrate the array with PIESs from others: *Boebel, Speich, Byrne, Garzoli,* etc? - ● How many CPIES instruments do we need? Is 23 enough? - ● What ships can we use to deploy and recover the CPIES instruments in the array? - ● Will it be possible to take CTD casts at the CPIES sites? How often? - ● Should we consider acoustically telemetering the data to a ship, prior to instrument recovery, e.g., once a year? - ● Are multi-component GEM fields needed to interpret the data? - ● Can we hope to use such an array to measure heat and salt fluxes in addition to mass fluxes? ## FIN

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149107

# Presentation: 149107 ## DSpace Evaluation - Jonathan Lorig - Metadata Review Group Meeting - NASA Goddard Space Flight Center Library - March 10, 2005 ## Agenda - Presenter background - Institutional Repository requirements for DAS - DSpace - Background - Findings - Next steps ## Presenter Background - Digital Librarian at GSFC; started Jan ‘05 - Coordinate with Gail and Nikkia to research and develop digital mechanisms for knowledge preservation at Goddard - Worked last summer at Glenn with Sue Oberc; developed a serials management dataset and fought with the Sirsi Workflows report module - BS in Civil Engineering, MS in Library Science from University of Illinois ## Requirements for the DAS Institutional Repository - Capture, catalog, preserve, and redistribute GSFC intellectual content in various digital formats - Provide single search interface - Utilize the Goddard Core Metadata Element Set - Provide workflow authority settings for metadata and object ingest - Provide separate metadata and object access security - Provide access information for objects stored on secure servers outside the Goddard Library ## Current wishes for the DAS - Provide customizable metadata schema for individual GSFC projects - Integrate front end for website spider captures and automated metadata extraction - Customize persistent identifiers and provide secure handle resolution ## DSpace - IR platform written by programmers at MIT and Hewlett-Packard labs - Open-source Java permits customization and collaboration with other institutions - Implemented so far by 68 universities and technical libraries according to DSpace website - Langley and JPL librarians will present on their DSpace implementations at an STI ViTS session tomorrow ## DSpace User Community offers Substantial Contributions - Ongoing core code development by original developers - SIMILE - MIT project to extend metadata schema support through RDF and semantic web technologies - DSpace/ARK - UCLA/UCSD/CDL project to support alternative identifier schemes - XML/XSLT - TAMU project to replace HTML code with XML code throughout DSpace interface ## DSpace Projects Continued.... - DRUM - Digital Repository at the University of Maryland allows faculty to authenticate against campus LDAP directory with secure user profiles - Research Tools - University of Rochester project permits customized project information pages - OAI Harverster Plug-In from Old Dominion University Digital Library Research Group ## DSpace testing and external reports so far have indicated.... - Robust ingest workflow settings including customizable workflows for collections - Customizable user interface - Customizable global metadata scheme; still evaluating schema for individual collections - Simplistic metadata and object access controls would require substantial administrative effort - Substantial community support and quick answers to technical questions ## DSpace code uses languages and standards identical to the DAS - Java servlets and Java Server Pages (JSP) for base code and page display - Lucene search engine for metadata indexing and retrieval - OAI-PMH compliance - SQL database compatibility - DSpace also supports OpenURL protocol from SFX for potential interoperability with external library databases ## Next Steps to Evaluate DSpace - Complete test of customizable metadata schema using current DAS content - Identify preservation issues pertaining to DSpace’s bitstream method for object storage - Identify Java code for web capture and metadata extraction to append to DSpace (Heritrix?) - Identify code for additional administrative tools to control object security and distribution settings - specific privileges for particular users in sub-communities and collections - options for various object display formats or storage of multiple formats

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[Link to GCH-0015](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0015LOPS.doc) [Link to GCH-0016](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0016LOPS.doc) [Link to GCH-0017](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0017LOPS.doc) [Link to GCH-0018](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0018LOPS.doc) [Link to GCH-0020](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0020LOPS.doc) [Link to GCH-0021](http://www.hud.gov/offices/adm/hudclips/lops/GCH-0021LOPS.doc) Legal Opinion: GCH-0060 Index: 2.245 Subject: PH Due Process Determination: Vermont June 22, 1992 DUE PROCESS DETERMINATION for the STATE OF VERMONT TABLE OF CONTENTS I. Jurisdiction. II\. Elements of Due Process. III\. Overview of Vermont Eviction Procedures. IV\. Analysis of Vermont Eviction Procedures for Each of the Regulatory Due Process Elements. V. Conclusion. ANALYSIS I. Jurisdiction: Vermont. II\. Elements of Due Process Section 6(k) of the United States Housing Act of l937 (42 U.S.C. 1437d(k), as amended by section 503(a) of the National Affordable Housing Act of 1990, Pub. L. 101-625, approved November 28, 1990), provides that: For any grievance concerning an eviction or termination of tenancy that involves any criminal activity that threatens the health, safety, or right to peaceful enjoyment of the premises of other tenants or employees of the public housing agency or any drug-related criminal activity on or near such premises, the agency may . . . exclude from its grievance procedure any such grievance, in any jurisdiction which requires that prior to eviction, a tenant be given a hearing in court which the Secretary determines provides the basic elements of due process . . . . The statutory phrase, \"elements of due process,\" is defined by HUD at 24 CFR § 966.53(c) as: . . . an eviction action or a termination of tenancy in a State or local court in which the following procedural safeguards are required: $l$ Adequate notice to the tenant of the grounds for terminating the tenancy and for eviction; $2$ Right of the tenant to be represented by counsel; VERMONT DUE PROCESS DETERMINATION $3$ Opportunity for the tenant to refute the evidence presented by the PHA including the right to confront and cross-examine witnesses and to present any affirmative legal or equitable defense which the tenant may have; and $4$ A decision on the merits. HUD\'s determination that a State\'s eviction procedures satisfy this regulatory definition is called a \"due process determination.\" The present due process determination is based upon HUD\'s analysis of the laws of the State of Vermont to determine if eviction procedures under those laws require a hearing with all of the regulatory \"elements of due process,\" as defined in 966.53(c). HUD finds that the requirements of Vermont law for a Superior Court ejectment action pursuant to Vt.Stat.Ann. tit. 9, 4451-4468 and Vt.Stat.Ann. tit. 12, 4851 et seq. include all of the elements of due process as defined at 24 C.F.R. 966.53(c). This conclusion is based on the legal requirements established by Vermont statutes, case law, and court rules. III\. Overview of Vermont Eviction Procedures Vermont law (1985 Vt. Acts No. 175 (Adj. Sess.), 8) provides that Vt.Stat.Ann. tit. 9, 4451-4468, apply to rental agreements entered into, extended, or renewed on or after July 1, 1986\. Obligations imposed on landlords and tenants pursuant to Chapter 137 are implied in all rental agreements (Vt.Stat.Ann. tit. 9, 4453), and may not be waived or circumvented (Vt.Stat.Ann. tit. 9, 4454). Tenant\'s obligations, including but not limited to restraint from conduct which disturbs other tenants\' peaceful enjoyment of the premises, are set forth at Vt.Stat.Ann. tit. 9, 4456. The landlord may terminate the tenancy if the tenant fails to comply with a material term of the rental agreement, or with obligations imposed under Chapter 137 of Vermont Statutes Annotated. Vt.Stat.Ann. tit. 9, 4467(b). If the tenant remains in possession after the rental agreement is terminated, without consent of the landlord, the landlord may prosecute a claim for the possession of property occupied by the tenant. The landlord may commence an action under the Superior Court ejectment procedures. Vt.Stat.Ann. tit. 12, 4851 et seq.. The Superior 2 VERMONT DUE PROCESS DETERMINATION Court has jurisdiction to hear ejectment cases and issue a writ of possession to restore a plaintiff-landlord to the possession of property. Vt.Stat.Ann. tit. 12, 4851. The Vermont Rules of Evidence (V.R.E) govern proceedings in the courts of the State. V.R.E. 101. Such proceedings are also subject to the Vermont Rules of Civil Procedure (V.R.C.P.). V.R.C.P. 1. Rules of Evidence pertinent to this determination include: V.R.E. 402-3 (admission and exclusion of relevant evidence); V.R.E. 601 (witness competency); V.R.E. 602 (matters appropriate for witness testimony); V.R.E. 607-9 (witness credibility); and V.R.E. 611 (cross-examination). Rules of Procedure pertinent to this determination include: V.R.C.P. 11, 26, 43, and 51 (attorneys\' activities); V.R.C.P. 4 (service of summons and complaint); V.R.C.P. 8 (pleading requirements); V.R.C.P. 32 (use of depositions at trial); and V.R.C.P. 54 (final judgments). IV\. Analysis of Vermont Eviction Procedures for Each of the Regulatory Due Process Elements A. Adequate notice to the tenant of the grounds for terminating the tenancy and for eviction (24 CFR 966.53(c)(l)) Vt.Stat.Ann. tit. 9, 4467 states procedures which must be followed to give a tenant proper notice of lease termination. The landlord must give written notice of the termination of the tenancy. The notice may be served either by hand-delivery or by mailing to the tenant\'s last-known address. Vt.Stat.Ann. tit. 9, 4467(b), 4451(1). It does not appear that this notice must specify the grounds for termination. When a landlord terminates a tenancy \"in accordance with the terms of a written rental agreement,\" the notice to terminate must be at least 30 days, when rent is payable on a monthly basis. Vt.Stat.Ann. tit. 9, 4467(e). Under Vt.Stat.Ann. tit. 12, 4852, process in a Superior Court ejectment action: may issue as a summons . . . requiring the defendant to appear and answer to the complaint of the plaintiff which shall state that the defendant is in the possession of the lands or tenements in question 3 VERMONT DUE PROCESS DETERMINATION (describing them), which he holds unlawfully and against the right of the plaintiff . . . . Process must \"be served and notice given as in other civil actions.\" Vt.Stat.Ann. tit. 12, 4853. The summons must notify the defendant of \"the time within which these rules require the defendant to appear and defend.\" V.R.C.P. 4(b). V.R.C.P. 8 requires that all pleadings which set forth a claim for relief must contain \"a short and plain statement of the claim showing that the pleader is entitled to relief.\" V.R.C.P. 8 also requires that such pleadings contain \"a demand for judgment for the relief which the pleader seeks.\" Consequently, a tenant-defendant in a Superior Court ejectment action must be informed of the grounds for eviction as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). B. Right to be represented by counsel (24 CFR 966.53(c)(2)) A tenant-defendant\'s right to be represented by counsel is implied by various provisions of the Vermont Rules of Civil Procedure. These rules include: V.R.C.P. 11, which refers to the role of counsel in signing pleadings; V.R.C.P. 26(g), which requires the signing of discovery requests or responses by parties or their attorneys; V.R.C.P. 43(g), which refers to the role of counsel during the examination and cross-examination of witnesses; and V.R.C.P. 51, which governs the role of counsel for each party in closing argument. C. Opportunity for the tenant to refute the evidence presented by the PHA, including the right to confront and cross-examine witnesses (24 CFR 966.53(c)(3)) Proceedings in Vermont courts are subject to the Vermont Rules of Evidence (V.R.E.). V.R.E. Rule 101. The V.R.E are intended to promote the development of the law of evidence in order to attain the truth in a judicial proceeding. V.R.E. 102. Generally, all relevant evidence is admissible unless limited by constitutional requirements or by statute or by rules of the courts in the state. V.R.E. 402. Relevant evidence may only be excluded if probative value of the evidence is substantially outweighed on grounds of prejudice, confusion, or 4 VERMONT DUE PROCESS DETERMINATION waste of time. V.R.E. 403. The court must determine the qualifications of a witness and the admissibility of evidence based on the court\'s determination of relevance. V.R.E. 104(a); cf. V.R.E. 104(e). The testimony of witnesses must be taken orally in open court (unless otherwise provided by V.R.C.P., or the V.R.E., or other rules adopted by the Supreme Court). V.R.C.P. 43(a). Generally, every person is deemed competent to be a witness (unless specifically disqualified due to prescribed incapacities). V.R.E. 601(a), (b). However, a witness must generally have personal knowledge of the matter (other than opinion testimony by expert witnesses). V.R.E. 602. The defendant-tenant may refute the credibility of the plaintiff\'s witness. The credibility of a witness may be impeached by any party. V.R.E. 607. Evidence in the form of opinion or reputation may be used to attack the credibility of a witness. V.R.E. 608(a). Such evidence, however, may only refer to character for truthfulness or untruthfulness. V.R.E. 608(a). Credibility of a witness may also be attacked by evidence of a prior conviction of a crime which involved dishonesty, or was punishable by death or imprisonment for a year or more. V.R.E. 609\. A prior statement of a witness is also subject to examination. V.R.E. 613. The V.R.C.P. grants a tenant-defendant the right to impeach or contradict the plaintiff\'s case through cross-examination of plaintiff\'s witnesses. V.R.C.P. 43(g). A witness may be cross- examined on any matter relevant to the case, including credibility. V.R.E. 611(b). Ordinarily, leading questions are permitted on cross examinations of an adverse witness. V.R.E. 611(c). At trial, a pretrial deposition may only be used against a party who had the opportunity to be present at the taking of the deposition. V.R.C.P. 32(a). At the taking of a deposition, the witness may be cross-examined in the same manner as permitted at trial. V.R.C.P. 30(c). A deposition may only be used at trial in specific and restrictive circumstances stated in the rules. V.R.C.P. 32(a). Provisions which allow the use of a deposition at trial under \"exceptional circumstances\" note the importance of presenting the testimony of witnesses orally in open court. V.R.C.P. 32(a)(3). A party has a right to inspect writings or recorded statements utilized in court by the adverse party. V.R.E. 106. 5 VERMONT DUE PROCESS DETERMINATION A defendant tenant has the right to present evidence and witnesses to refute the case presented by the PHA, subject to reasonable judicial control as to the method of interrogating witnesses and of presenting evidence on direct and cross examination. V.R.E. 611(a). The Vermont rules of evidence and civil procedure give a defendant-tenant a full opportunity to refute the PHA\'s evidence, including the right to confront and cross-examine witnesses as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). D. Opportunity to present any affirmative legal or equitable defense which the tenant may have (24 CFR 966.53(c)(3)) V.R.C.P. 8(b) states that a party \"shall state in short and plain terms the party\'s defenses to each claim asserted.\" This rule places no restrictions on a tenant-defendant\'s right to raise any defenses the tenant may have under law. In the absence of any statutes or rules abridging a tenant\'s right to raise available defenses, a tenant-defendant in an ejectment action may present any affirmative legal or equitable defenses to which the tenant is entitled as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). E. A decision on the merits (24 CFR 966.53(c)(4)) The overall structure of the trial and hearing requirements of an ejectment action pursuant to Vt.Stat.Ann. tit. 9, 4468 imply that the Superior Court\'s decision is to be based on evidence presented which bears upon the legal and factual issues framed by the complaint and answer. V.R.C.P. 38, 39, and 41-54. V.R.C.P. 52 also expressly provides that in all actions tried upon the facts, the Superior Court must, \"upon the request of a party made as a motion within 5 days after notice of the decision\" or \"upon its own initiative, find the facts specially and state separately its conclusions of law thereon.\" There is no exception to this rule requiring that the Superior Court may be requested to find the facts specially and state its conclusions of law after notice of the decision. Finally, V.R.C.P. 54(c) requires that every final judgment, except those entered against a party as a result of default, must \"grant the relief to which the party in whose favor it is rendered is entitled.\" 6 VERMONT DUE PROCESS DETERMINATION Under Vermont law, the decision in a Superior Court ejectment action must be rendered on the merits as required by HUD\'s due process definition at 24 C.F.R. 966.53(c). V. Conclusion. Vermont law governing Title 9 4451-4468 and Title 12 4851 et seq. ejectment proceedings in the Superior Court requires that the tenant have the opportunity for a pre-eviction hearing in court which provides the basic elements of due process as defined in 24 CFR 966.53(c) of the HUD regulations. By virtue of HUD\'s due process determination under section 6(k) of the U.S. Housing Act of l937, a PHA in Vermont may evict a public housing tenant pursuant to a Superior Court decision in a Superior Court ejectment proceeding for any criminal activity that threatens the health, safety, or right to peaceful enjoyment of the premises of other tenants or employees of the PHA or any drug related criminal activity on or near the premises. The PHA is not required to first afford the tenant the opportunity for an administrative hearing on the eviction. 7

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From: PEGOLALA@aol.com Sent: Friday, June 13, 2003 9:47 AM To: rule-comments@sec.gov Subject: File No. S7-10-03 Attn: Secretary: Dear Secretary Katz: As an investor, trustee, and principal of an investment partnership with sizeable assets under management, I would like to resond to the Securities and Exchange Commission's solicitation of views with respect to the shareholder proxy access and election of corporate directors (number S7-10-03). We are encouraged by the Commission's efforts to revitalize discussions concerning shareholders' access to the proxy ballot, and feel that a review ofexisting rules concerning the election of directors is long overdue. The significant lack of shareholder access to the corporate proxy -- and the self-perpetuating board that results -- is an enormous obstacle to preventing corporate abuse and restoring investor confidence. Corporate governance will improve only when managers and directors are held accountable by investors and can be voted out by shareowners for failure to act in their best interests. The current process is not a true election, with shareholders formally ratifying the board-nominated slate. This is one of the reasons we have experienced the shocking corporate malfeasance of recent years in this country, and that malfeasance must be stopped. I strongly recommend the following: 1) eliminate section (i)(8) of Rule 240.14a-8 concerning criteria for proosal exclusions on the proxy related to board elections. 2) Require that an investor or group of investors must own at least1% of share in the company, for a minimum of one year, in order to nominate a candidate. 3) annual election of directors. 4) cumulstive voting in the election of directors. 5) listing all nominees with equal space and a reasonable number of words to provide background information, without the current practice of separating management's list of nominees from that of investor nominees. However, board nominees should be designated as such. We investors are looking to the SEC to put meaning back in the term "board independence" and to bring fiarness and balance to director representation. I urge you to institute the above changes in the process. Sincerely, Margaret L. Keon Investor and Philanthropist Belvedere, California

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**Food and Drug Administration** Center for Drug Evaluation and Research (CDER) **Arthritis Advisory Committee** **June 2, 2004** **Questions to the Committee** I. Please discuss the utility of serum uric acid as a surrogate marker for the chronic treatment of gout. - If it is an appropriate surrogate, what level of serum uric acid or amount of change in serum uric acid level would be considered adequate evidence of efficacy? - Would an analysis comparing the mean change in serum uric acid level for the treatment populations adequately reflect efficacy? - Would an analysis comparing the number of individuals in each treatment arm reaching a prespecified level or amount of change adequately reflect efficacy? - Are there advantages to choosing an analysis of either the uric acid levels at last visit or the uric acid levels over time (based on the area under the curve)? - Does the choice of a surrogate as the efficacy endpoint influence the decision of what is considered acceptable risk? II\. For a drug to be approved for the treatment of hyperuricemia associated with gout, what additional information besides uric acid levels are important to collect? - Please discuss the clinical endpoints of a reduced number of gout attacks and decreased size of tophi in trials of uric acid lowering drugs. ```{=html}  ``` - Are there preferred methods for measuring tophi (i.e. exam or imaging)? - Is there more value in evaluating either the absolute number of gout attacks or the relative reduction in number of attacks? III\. Individuals with gout may demonstrate a broad range of uric acid levels. - Please discuss the range of uric acid levels that would reflect meaningful inclusion or exclusion criteria. - Are there any advantages to recruiting patients with uric acid in a specified range such as 8-12 mg/dL (representing similar total body load of uric acid)? - Please discuss whether there a rationale for studying individuals with values of uric acid over 12 mg/dL. - Is there value in stratifying patients by uric acid level? IV\. Patients with gout may have renal insufficiency. - Discuss the value of including or excluding such patients in clinical trials. - If they are to be included, what range of serum creatinine levels would be important to consider for inclusion? **Food and Drug Administration** Center for Drug Evaluation and Research (CDER) **Arthritis Advisory Committee** **June 2, 2004** **Questions to the Committee (cont.)** V. Uric acid lowering drugs such as allopurinol are sometimes used at doses higher than those labeled. - Discuss the utility of studying multiples (such as 2x the highest dose) of the proposed maximum efficacious dose of a new drug. VI\. Please discuss what could be considered an optimal duration for these trials. VII\. Please discuss the implications of placebo vs. active controls and superiority vs. non-inferiority designs for clinical trials of uric acid lowering drugs. - Is there sufficient data available in the literature to establish a generally accepted response rate for allopurinol that could be used for calculating a non-inferiority margin? VIII\. Please discuss the implications of concomitant therapies. - Can concomitant drugs such as colchicine or NSAIDs be continued during clinical trials for chronic gout? - Please discuss the implications of permitting or prohibiting the use of concomitant diuretics or low dose ASA. - Is there value in recommending or prohibiting a particular diet? - Is it appropriate to restrict alcohol use? ```{=html}  ``` - Please discuss issues concerning the enrollment of patients with kidney stones. - Please discuss inclusion of heart/renal transplant patients, especially those on drugs such as cyclosporine?

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*Pages 1--17 from Microsoft Word - 35131* Federal Communications Commission FCC 04- 16 1 1 Before the Federal Communications Commission Washington, D. C. 20554 In the Matter of YOUNG BROADCASTING OF SAN FRANCISCO, INC. Licensee, Station KRON- TV San Francisco, California ) ) ) ) ) ) ) ) ) File No. EB- 02- IH- 0786 NAL/ Acct. No. 200432080010 FRN 0004675815 Facility ID No. 65526 NOTICE OF APPARENT LIABILITY FOR FORFEITURE Adopted: January 23, 2004 Released: January 27, 2004 By the Commission: Chairman Powell, and Commissioners Copps, Martin, and Adelstein issuing separate statements. I. INTRODUCTION 1. In this Notice of Apparent Liability For Forfeiture ( NAL), issued pursuant to section 503( b) of the Communications Act of 1934, as amended (the Act) and section 1.80 of the Commissions rules, 1 we find that Young Broadcasting of San Francisco, Inc. ( Young), licensee of Station KRON- TV, San Francisco, California, aired program material during the KRON 4 Morning News show on October 4, 2002, that apparently violates the federal restrictions regarding the broadcast of indecent material. 2 Based upon our review of the facts and circumstances of this case, we conclude that Young is apparently liable for a monetary forfeiture in the amount of Twenty- Seven Thousand Five Hundred Dollars ($ 27,500.00), the statutory maximum in this context, for broadcasting indecent material in apparent violation of 18 U. S. C. 1464 and section 73.3999 of the Commissions rules. II. BACKGROUND 2. The Enforcement Bureau ( Bureau) received a complaint alleging that Station KRON-TV aired indecent material during the KRON 4 Morning News show on October 4, 2002, at approximately 8: 25 a. m. 3 Specifically, the complainant stated that the shows hosts interviewed performers with the stage production of Puppetry of the Penis, who appeared in capes but were otherwise naked beneath the capes. 4 The complainant further alleged that, during the course of the 1 47 U. S. C. 503( b); 47 C. F. R. 1.80. 2 See 18 U. S. C. 1464; 47 C. F. R. 73. 3999; and 47 U. S. C. 503( b). 3 Letter from Pamela T. Ferguson to the Federal Communications Commission, Enforcement Bureau, Investigations and Hearings Division, dated October 7, 2002. 4 Id. We note that the complainant incorrectly identified the stage production as The Penis Puppeteers. 1 Federal Communications Commission FCC 04- 16 2 2 interview, one of the performers exposed his penis while preparing to demonstrate genital origami. 5 3. On May 27, 2003, the Bureau sent a letter of inquiry to Young concerning the material aired over KRON- TV on October 4, 2002, and included a copy of the complaint. 6 Young responded to the Bureaus letter of inquiry on July 3, 2003, and provided a videotape of the KRON 4 Morning News show aired between 7: 00 and 9: 00 a. m. on October 4, 2002. 7 During a segment of the broadcast in question, the shows hosts interviewed two male performers who tour with the stage production Puppetry of the Penis. 8 The performers appeared on camera wearing capes and discussed their stage show, in which they appear nude in order to manipulate and stretch their genitalia to simulate a wide variety of installations, including objects, architecture, and people. 9 During the course of the interview, one of the performers asked whether they could demonstrate, by stating should we show you a couple of quick ones? 10 One of the shows two hosts agreed, if the demonstration was done quickly. 11 As the performers stood and apparently turned away from the camera to demonstrate their act to the shows hosts, the penis of one was fully exposed on- camera. 12 4. Young maintains that the complained- of material, in context, does not meet the Commissions indecency definition, and that no further action is warranted. Young acknowledges that the performers penis was exposed, but argues that this very brief exposure was accidental and unintentional, 13 and that the complained- of material was part of the bona fide news coverage of the Puppetry of the Penis. 14 Young also points out that, prior to the time that the segment at issue aired, the shows hosts repeatedly referenced the subject matter of the interview segment and suggested that parents might want to prevent their children from viewing the interview. 15 In addition, Young notes that, immediately following the broadcast of the complained- of material, the shows hosts twice apologized on 5 Id. 6 Letter from the Chief, Investigations and Hearings Division, Enforcement Bureau, to Young Broadcasting of San Francisco, Inc., dated May 27, 2003. 7 See Letter from Mark J. Prak, Esquire, and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., counsel to Young Broadcasting of San Francisco, Inc., to the Investigations and Hearings Division, Enforcement Bureau, dated July 3, 2003 ( Young Response) at 1. In addition, the Bureaus supplemental letter of inquiry, issued July 29, 2003, asked Young to provide information and documentation concerning whether all or any portion of the complained- of material was broadcast over any other commonly- owned station. Letter from the Deputy Chief, Investigations and Hearings Division, Enforcement Bureau, to Young Broadcasting of San Francisco, Inc., dated July 29, 2003. By letter dated August 4, 2003, Young responded that it did not broadcast all or any portion of the complained- of material over any station licensed to it other than Station KRON- TV. See Letter from Mark J. Prak, Esquire, and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., counsel to Young Broadcasting of San Francisco, Inc., to the Investigations and Hearings Division, Enforcement Bureau, dated August 4, 2003 ( Young Supplemental Response) at 1. 8 Young Response at Exhibits C, D, E and F. 9 Young Response at and Exhibits D, E, and F. Specifically, the performers use their genitalia to create, among other things, likenesses of the Eiffel Tower, a hamburger, a baby kangaroo, a boomerang, public figures and movie characters. 10 Id. at Exhibit C, 8: 22 a. m. 11 Id. at 2 and Exhibit C, 8: 22 a. m. 12 Id. at Attachment 2 and Exhibit C, 8: 22 a. m. 13 Id. at 1, 5, 6, 8. 14 Id. at 4. 15 Id. at 3. 2 Federal Communications Commission FCC 04- 16 3 3 the air and, on the day of the broadcast, the station issued a press release apologizing for the incident. 16 Moreover, Young states that it took disciplinary action following the broadcast by suspending station personnel involved. 17 III. DISCUSSION 5. The Federal Communications Commission is authorized to license radio and television broadcast stations and is responsible for enforcing the Commissions rules and applicable statutory provisions concerning the operation of those stations. The Commissions role in overseeing program content is very limited. The First Amendment to the United States Constitution and section 326 of the Act prohibit the Commission from censoring program material and from interfering with broadcasters freedom of expression. 18 The Commission does, however, have the authority to enforce statutory and regulatory provisions restricting indecency and obscenity. Specifically, it is a violation of federal law to broadcast obscene or indecent programming. Title 18 of the United States Code, Section 1464 prohibits the utterance of any obscene, indecent or profane language by means of radio communication. 19 In addition, section 73.3999 of the Commissions rules provides that radio and television stations shall not broadcast obscene material at any time, and shall not broadcast indecent material during the period 6 a. m. through 10 p. m. 6. Under section 503( b)( 1) of the Act, any person who is determined by the Commission to have willfully or repeatedly failed to comply with any provision of the Act or any rule, regulation, or order issued by the Commission shall be liable to the United States for a forfeiture penalty. 20 In order to impose such a forfeiture penalty, the Commission must issue a notice of apparent liability, the notice must be received, and the person against whom the notice has been issued must have an opportunity to show, in writing, why no such forfeiture penalty should be imposed. 21 The Commission will then issue a forfeiture if it finds by a preponderance of the evidence that the person has violated the Act or a Commission rule. 22 As set forth in greater detail below, we conclude under this standard that Young is apparently liable for a forfeiture for its apparent willful violation of 18 U. S. C. 1464 and section 73.3999 of the Commissions rules. 16 Id. at 1, Attachment 1 and Exhibit I. 17 Young Response at 12, Exhibit H. 18 See 47 U. S. C. 326. 19 18 U. S. C. 1464. 20 47 U. S. C. 503( b)( 1)( B); 47 C. F. R. 1.80( a)( 1); see also 47 U. S. C. 503( b)( 1)( D) (forfeitures for violation of 18 U. S. C. 1464). Section 312( f)( 1) of the Act defines willful as the conscious and deliberate commission or omission of [any] act, irrespective of any intent to violate the law. 47 U. S. C. 312( f)( 1). The legislative history to section 312( f)( 1) of the Act clarifies that this definition of willful applies to both sections 312 and 503( b) of the Act, H. R. Rep. No. 97- 765, 97 th Cong. 2d Sess. 51 (1982), and the Commission has so interpreted the term in the section 503( b) context. See, e. g., Application for Review of Southern California Broadcasting Co., Memorandum Opinion and Order, 6 FCC Rcd 4387, 4388 (1991) ( Southern California Broadcasting Co.). The Commission may also assess a forfeiture for violations that are merely repeated, and not willful. See, e. g., Callais Cablevision, Inc., Grand Isle, Louisiana, Notice of Apparent Liability for Monetary Forfeiture, 16 FCC Rcd 1359 (2001) (issuing a Notice of Apparent Liability for, inter alia, a cable television operators repeated signal leakage). Repeated merely means that the act was committed or omitted more than once, or lasts more than one day. Southern California Broadcasting Co., 6 FCC Rcd at 4388, 5; Callais Cablevision, Inc., 16 FCC Rcd at 1362, 9. 21 47 U. S. C. 503( b); 47 C. F. R. 1.80( f). 22 See, e. g., SBC Communications, Inc., Apparent Liability for Forfeiture, Forfeiture Order, 17 FCC Rcd 7589, 7591 4 (2002)( forfeiture paid). 3 Federal Communications Commission FCC 04- 16 4 4 A. Indecency Analysis 7. Any consideration of government action against allegedly indecent programming must take into account the fact that such speech is protected under the First Amendment. 23 The federal courts consistently have upheld Congresss authority to regulate the broadcast of indecent material, as well the Commissions interpretation and implementation of the governing statute. 24 Nevertheless, the First Amendment is a critical constitutional limitation that demands that, in indecency determinations, we proceed cautiously and with appropriate restraint. 25 8. The Commission defines indecent speech as language that, in context, depicts or describes sexual or excretory activities or organs in terms patently offensive as measured by contemporary community standards for the broadcast medium. 26 Indecency findings involve at least two fundamental determinations. First, the material alleged to be indecent must fall within the subject matter scope of our indecency definition that is, the material must describe or depict sexual or excretory organs or activities. . . . Second, the broadcast must be patently offensive as measured by contemporary community standards for the broadcast medium. 27 9. As an initial matter, Young does not dispute that Station KRON- TV aired adult male frontal nudity. 28 Because the broadcast material depicted a sexual organ, it therefore warrants further scrutiny to determine whether or not it was patently offensive as measured by contemporary community standards for the broadcast medium. 29 10. In our assessment of whether broadcast material is patently offensive, the full context in which the material appeared is critically important. 30 Three principal factors are significant to this 23 U. S. CONST., amend. I; See Action for Childrens Television v. FCC, 852 F. 2d 1332, 1344 (D. C. Cir. 1988) ( ACT I). 24 Title 18 of the United States Code, Section 1464 (18 U. S. C. 1464), prohibits the utterance of any obscene, indecent or profane language by means of radio communication. FCC v. Pacifica Foundation, 438 U. S. 726 (1978). See also ACT I, 852 F. 2d at 1339; Action for Childrens Television v. FCC, 932 F. 2d 1504, 1508 (D. C. Cir. 1991), cert. denied, 503 U. S. 914 (1992) ( ACT II); Action for Childrens Television v. FCC, 58 F. 3d 654 (D. C. Cir. 1995), cert. denied, 516 U. S. 1043 (1996) ( ACT III). 25 ACT I, 852 F. 2d at 1344 ( Broadcast material that is indecent but not obscene is protected by the First Amendment; the FCC may regulate such material only with due respect for the high value our Constitution places on freedom and choice in what people may say and hear.). See also id. at 1340 n. 14 ( the potentially chilling effect of the FCCs generic definition of indecency will be tempered by the Commissions restrained enforcement policy.). 26 Infinity Broadcasting Corporation of Pennsylvania, 2 FCC Rcd 2705 (1987)( subsequent history omitted)( citing Pacifica Foundation, 56 FCC 2d 94, 98 (1975), affd sub nom. FCC v. Pacifica Foundation, 438 U. S. 726 (1978)). 27 Industry Guidance on the Commissions Case Law Interpreting 18 U. S. C. 1464 and Enforcement Policies Regarding Broadcast Indecency ( Indecency Policy Statement), 16 FCC Rcd 7999, 8002, 7- 8 (2001) (emphasis in original). 28 Young Response at 6. 29 The contemporary standards for the broadcast medium criterion is that of an average broadcast listener and with respect to Commission decisions, does not encompass any particular geographic area. See Indecency Policy Statement, at 8002, 8 and n. 15. 30 Id at 8002, 9 (emphasis in original). 4 Federal Communications Commission FCC 04- 16 5 5 contextual analysis: (1) the explicitness or graphic nature of the description; (2) whether the material dwells on or repeats at length descriptions of sexual or excretory organs or activities; and (3) whether the material appears to pander or is used to titillate or shock. 31 In examining these three factors, we must weigh and balance them to determine whether the broadcast material is patently offensive because [ e] ach indecency case presents its own particular mix of these, and possibly, other factors. 32 In particular cases, one or two of the factors may outweigh the others, either rendering the broadcast material patently offensive and consequently indecent, 33 or, alternatively, removing the broadcast material from the realm of indecency. 34 In this case, we examine all three factors and determine that, in context and on balance, the complained- of material is patently offensive as measured by contemporary community standards for the broadcast medium. We note that, in particular, the stations presentation of full frontal nudity in a manner that was pandering, titillating and shocking weighs heavily in this determination. 11. First, Young admits that there was an actual depiction of the male genitalia. However, Young argues that because the exposure of the performers penis was accidental and the duration of the exposure was very limited, the material is not graphic or explicit. We disagree, finding that assertions that the exposure was fleeting and unintentional are more appropriate to the analysis under the second and third factors, as discussed below. We find that in the context presented here, the depiction of adult male frontal nudity was graphic and explicit. 12. Second, although the actual exposure of the performers penis was fleeting in that it occurred for less than a second, the manner in which the station presented this material establishes, under the third factor, that, in its overall context, the material was apparently intended to pander to, titillate and shock viewers. Thus, we reject Youngs assertion that this material is equivalent to other instances in which the Commission has ruled that fleeting remarks in live, unscripted broadcasts do not meet the indecency definition. 35 13. The record here demonstrates that the station failed to take adequate precautions to ensure that no actionably indecent material was broadcast despite its awareness that the interview 31 Indecency Policy Statement at 8002- 15, 8- 23. 32 Id. at 8003, 10. 33 Id. at 8009, 19 (citing Tempe Radio, Inc (KUPD- FM), 12 FCC Rcd 21828 (MMB 1997) (forfeiture paid) (extremely graphic or explicit nature of references to sex with children outweighed the fleeting nature of the references); EZ New Orleans, Inc. (WEZB( FM)), 12 FCC Rcd 4147 (MMB 1997) (forfeiture paid) (same)). 34 Indecency Policy Statement, at 8010, 20 ( the manner and purpose of a presentation may well preclude an indecency determination even though other factors, such as explicitness, might weigh in favor of an indecency finding). 35 Young cites Flambo Broadcasting, Inc. (KFMH- FM), Notice of Apparent Liability for Monetary Forfeiture, 9 FCC Rcd 1681 (MMB 1994). However, in that case, no action was taken with regard to a radio stations broadcast of sexual material in a crude joke, because there was a conflict as to what was actually broadcast, and no tape or other evidence to establish the language broadcast and when the licensee cut off the outside callers rendition of the joke. Nevertheless, assuming that the joke was cut off immediately, the staff of the then- Mass Media Bureau found that it would not have been actionably indecent because it was brief, live, unscripted and from an outside source. Young also cites L. M. Communications of South Carolina, Inc. (WYBB( FM)), Notice of Apparent Liability for Monetary Forfeiture, 7 FCC Rcd 1595 (MMB 1992), in which a fleeting and an isolated utterance, within the context of a live and spontaneous broadcast, was found not actionably indecent. See also Indecency Policy Statement, 16 FCC Rcd at 8009, 18, setting forth the utterance broadcast in L. M. Communications: The hell I did, I drove the mother- fucker, oh. Oh. In addition, Young cites a contested license renewal in which a news announcers utterance, Ooops, fucked that one up, was found not to warrant further action in light of the isolated and accidental nature of the broadcast. Lincoln Dellar (KPRL( AM) and KDDB( FM)), 8 FCC Rcd 2582, 2585 26 (MMB 1993). These cases are distinguishable because there was no finding that the material, in context, was pandering, titillating or intended to shock the audience. 5 Federal Communications Commission FCC 04- 16 6 6 involved performers who appear nude in order to manipulate and stretch their genitalia. 36 Under these circumstances, the airing of indecent material during the interview was clearly foreseeable. 37 Here, we find inherently not credible Youngs assertion that certain station personnel were unaware that the performers were nude beneath the capes worn on- camera. 38 At the beginning of the segment, one of the shows hosts explains that the Puppetry of the Penis begins [] with two naked performers in capes with us this morning []. 39 The performers later acknowledged, when asked by the shows hosts, that they perform wearing nothing more than capes, which are discarded after four minutes, shoes and socks, and that one of them also wears a hat. 40 Moreover, the segment, as broadcast, includes comments of station personnel who are off the set, and who urge the performers to demonstrate by stating, lets see it. 41 One of the shows hosts responds to the comment, stating, Jan and Janelle, theyre tired of the talking[]. 42 The segment also includes camera shots of these women off the set as they observe the performers manipulation of their genitalia. 43 In addition, following the actual exposure of the performers penis and the off- set shots, the shows cameras were directed only to the performers upper bodies as they continued to demonstrate a portion of their act, displaying their penises off- camera. 44 This indicates that the station purposefully set up its cameras to attempt to avoid full frontal body shots, even though this effort ultimately was unsuccessful. 14. Young nevertheless argues that the complained- of material was not aired to pander to or titillate the audience, nor was it broadcast for its shock value. 45 Young thus maintains that the material at issue here was not patently offensive for the same reasons that the Commission ruled that frontal adult nudity depicted in a broadcast of the film Schindlers List was not patently offensive. 46 We disagree. In that decision, the Commission held that the staff of the then- Mass Media Bureau had properly concluded that a broadcast of this film was not patently offensive as measured by contemporary community standards for the broadcast medium, based upon the full context of its presentation, including the subject matter of the film, the manner of presentation, and the warnings that accompanied the broadcast of the film. The staff determined, and the Commission agreed, that in the particular broadcast of the film at issue, the depiction of adult frontal nudity was incidental to the broadcast materials rendering of a historical view of World War II and wartime atrocities, which, viewed in context, was not presented in a 36 Id. at Attachment 2, 4 (Declaration of KRON- TVs then- Executive Producer stating that she gave great consideration to the wisdom of such an interview.). 37 CBS Radio License, Inc. (WLLD( FM)), Notice of Apparent Liability for Monetary Forfeiture, 15 FCC Rcd 23881, 23883, 8 (EB 2000)( given licensees awareness of the actual language used in performers recordings, it should have taken precautions to avoid airing material meeting the indecency definition during a live, unscripted broadcast), Apparent Liability for Forfeiture, Forfeiture Order, 16 FCC Rcd 4825 (EB 2001), Memorandum Opinion and Order denying reconsideration of Forfeiture Order, 17 FCC Rcd 18339 (EB 2002)( application for review pending); Regent Licensee of Flagstaff, Inc., (KZGL( FM)), Notice of Apparent Liability for Monetary Forfeiture, 15 FCC Rcd 17286, 17288, 9 (EB 2000)( forfeiture paid). 38 Young Response at 2 and Attachment 2, 6. 39 Id. at Exhibit C, 8: 17 a. m. 40 Id. at Exhibit C, 8: 19 a. m. 41 Id. at Exhibit C, 8: 21 a. m. 42 Id. at Exhibit C, 8: 22 a. m. 43 Id. 44 Id. 45 Id. at 10. 46 Id. at 10- 11, citing WPBN/ WTOM License Subsidiary, Inc. (WPBN- TV and WTOM- TV), 15 FCC Rcd 1838 (2000). 6 Federal Communications Commission FCC 04- 16 7 7 pandering, titillating or vulgar manner. 47 By contrast, the manner of presentation of the complained- of material over Station KRON- TV, for which the licensee failed to take adequate precautions, was pandering, titillating and shocking, as discussed above. We note, in particular, the off- camera employees comments urging the performers to conduct a nude demonstration, and the partially off- camera demonstration to the shows hosts. 48 Considering the overall context of the segment, the presence of warnings issued by the station is not a sufficient basis on which to conclude that the complained- of material is not patently offensive. 49 Nor do we find that Youngs apologies to Station KRON- TV viewers and the disciplinary actions taken against certain station employees following the broadcast mitigate its liability for violation of the statute and the Commissions rules. 50 We find that the weight of the pandering, titillating and shocking manner of presentation, coupled with the graphic and explicit nature of the adult male frontal nudity, renders this broadcast indecent under the statute. 15. It is undisputed that the complained- of material was broadcast within the 6 a. m. to 10 p. m. time frame relevant to an indecency determination under section 73.3999 of the Commissions rules. Thus, because there was a reasonable risk that children may have been in the audience at the time that the material at issue was broadcast on October 4, 2002, the broadcast is legally actionable. 51 By airing this material, Young apparently violated the prohibitions in 18 U. S. C. 1464 and section 73.3999 of the Commissions rules, the rule against broadcast indecency. B. Proposed Forfeiture 16. Based upon our review of the record in this case, we conclude that Young is apparently liable for the willful violation of our rules. The Commissions Forfeiture Policy Statement sets a base forfeiture amount of $7,000 for transmission of indecent or obscene materials. 52 The Forfeiture Policy Statement also specifies that the Commission shall adjust a forfeiture based upon consideration of the factors enumerated in section 503( b)( 2)( D) of the Act, 47 U. S. C. 503( b)( 2)( D), such as the nature, circumstances, extent and gravity of the violation, and, with respect to the violator, the degree of culpability, any history of prior offenses, ability to pay, and such other matters as justice may require. 53 In this case, taking all of these factors into consideration, we find that Young is apparently liable for a forfeiture of $27,500.00, which is the statutory maximum. Based upon our review of the entire record, we 47 WPBN/ WTOM License Subsidiary, Inc., 15 FCC Rcd at 1839- 40, 3,13. 48 See 13, supra. 49 See, e. g., Emmis Radio License Corporation (WKQX( FM)), Notice of Apparent Liability for Monetary Forfeiture, 17 FCC Rcd 5263, 5267 13 (EB 2002), Apparent Liability for Forfeiture, Forfeiture Order, 17 FCC Rcd 21697 (EB 2002)( petition for reconsideration of Forfeiture Order pending); Citicasters Co. (KEGL( FM)), Notice of Apparent Liability for Monetary Forfeiture, 16 FCC Rcd 7546, 7547, 6 (EB 2001) (forfeiture paid) (licensees warnings to listeners that program may contain material more suitable for adults has no bearing on whether a forfeiture should be imposed for material that is actionably indecent). 50 See, e. g., AT& T Wireless Services, Inc., 17 FCC Rcd 21866, 21871 (2002) (remedial actions not a basis for mitigation); Eure Family Limited Partnership, 17 FCC Rcd 21861 (2002) (licensee responsible for actions of its employees). 51 See ACT III, 58 F. 3d at 660- 63. 52 The Commissions Forfeiture Policy Statement and Amendment of Section 1.80 of the Rules to Incorporate the Forfeiture Guidelines, 12 FCC Rcd 17087, 17113 (1997), recon. denied 15 FCC Rcd 303 (1999) ( Forfeiture Policy Statement); 47 C. F. R. 1. 80( b). The Commission recently amended its rules to increase the maximum penalties to account for inflation since the last adjustment of the penalty rates. The new rates apply to violations that occur or continue after November 13, 2000. See Order, In the Matter of Amendment of Section 1.80( b) of the Commissions Rules and Adjustment of Forfeiture Maxima to Reflect Inflation, 15 FCC Rcd 18221 (2000). 53 Forfeiture Policy Statement, 12 FCC Rcd at 1710- 01, 27. 7 Federal Communications Commission FCC 04- 16 8 8 believe that this upward adjustment is warranted. The broadcast was extremely graphic and titillating. Given the fact that the licensee broadcast material involving performers who appear nude in order to manipulate their genitalia, and who were in fact nude during the interview except for easily removed capes, the licensee failed to take adequate precautions to prevent the broadcast of indecent material. Consequently, the egregious nature of the violation and the degree of culpability justify an increase to the maximum statutory amount. IV. ORDERING CLAUSES 17. ACCORDINGLY, IT IS ORDERED, pursuant to section 503( b) of the Communications Act of 1934, as amended, and section 1.80 of the Commissions rules, 54 that Young Broadcasting of San Francisco, Inc. is hereby NOTIFIED of its APPARENT LIABILITY FOR FORFEITURE in the amount of Twenty- Seven Thousand Five Hundred Dollars ($ 27,500.00) for willfully violating 18 U. S. C. 1464 and section 73. 3999 of the Commissions rules. 18. IT IS FURTHER ORDERED, pursuant to section 1.80 of the Commissions rules, that within thirty (30) days of the release of this Notice, Young SHALL PAY the full amount of the proposed forfeiture or SHALL FILE a written statement seeking reduction or cancellation of the proposed forfeiture. 19. Payment of the forfeiture may be made by mailing a check or similar instrument, payable to the order of the Federal Communications Commission, to the Forfeiture Collection Section, Finance Branch, Federal Communications Commission, P. O. Box 73482, Chicago, Illinois 60673- 7482. The payment MUST INCLUDE the FCC Registration Number ( FRN)( 0004675815) and also should note the NAL/ Account Number (200432080010). 20. The response, if any, must be mailed to William H. Davenport, Chief, Investigations and Hearings Division, Enforcement Bureau, Federal Communications Commission, 445 12 th Street, S. W, Room 3- B443, Washington D. C. 20554 and MUST INCLUDE the NAL/ Acct. No. referenced above. 21. The Commission will not consider reducing or canceling a forfeiture in response to a claim of inability to pay unless the respondent submits: (1) federal tax returns for the most recent three-year period; (2) financial statements prepared according to generally accepted accounting practices ( GAAP); or (3) some other reliable and objective documentation that accurately reflects the respondents current financial status. Any claim of inability to pay must specifically identify the basis for the claim by reference to the financial documentation submitted. 22. Requests for payment of the full amount of this Notice of Apparent Liability under an installment plan should be sent to: Chief, Revenue and Receivables Operations Group, 445 12th Street, S. W., Washington, D. C. 20554. 55 23. Under the Small Business Paperwork Relief Act of 2002, Pub L. No. 107- 198, 116 Stat. 729 (June 28, 2002), the FCC is engaged in a two- year tracking process regarding the size of entities involved in forfeitures. If Young qualifies as a small entity and if it wishes to be treated as a small entity for tracking purposes, it should so certify to us within thirty (30) days of this NAL, either in its response to the NAL or in a separate filing to be sent to the Investigations and Hearings Division. The certification should indicate whether Young, including its parent entity and its subsidiaries, meet one of the definitions set forth in the list provided by the FCCs Office of Communications Business Opportunities ( OCBO) 54 47 C. F. R. 1.80. 55 See 47 C. F. R. 1.1914. 8 Federal Communications Commission FCC 04- 16 9 9 set forth in Attachment A of this Notice of Apparent Liability. This information will be used for tracking purposes only. Youngs response or failure to respond to this question will have no effect on its rights and responsibilities pursuant to Section 503( b) of the Communications Act. If Young has questions regarding any of the information contained in Attachment A, it should contact OCBO at (202) 418- 0990. 24. Accordingly, IT IS ORDERED, that the complaint filed against Station KRON- TVs broadcast on October 4, 2002, IS GRANTED to the extent indicated herein, AND IS OTHERWISE DENIED, and the complaint proceeding IS HEREBY TERMINATED. 56 25. IT IS FURTHER ORDERED, that a copy of this Notice of Apparent Liability For Forfeiture shall be sent by Certified Mail Return Receipt Requested to Paul Dinovitz, President and General Manager, Young Broadcasting of San Francisco, Inc., 1001 Van Ness Avenue, San Francisco, California 94109 and to Youngs counsel, Mark J. Prak, Esquire and Stephen Hartzell- Jordan, Esquire, Brooks, Pierce, McLendon, Humphrey & Leonard, L. L. P., Wachovia Capitol Center, Suite 1600 (27601), Post Office Box 1800, Raleigh, North Carolina 27602, and to Pamela T. Ferguson. FEDERAL COMMUNICATIONS COMMISSION Marlene H. Dortch Secretary 56 Consistent with section 503( b) of the Act and consistent Commission practice, for the purposes of the forfeiture proceeding initiated by this NAL, Young shall be the only party to this proceeding. 9 Federal Communications Commission FCC 04- 16 10 10 ATTACHMENT A FCC List of Small Entities As described below, a small entity may be a small organization, a small governmental jurisdiction, or a small business. (1) Small Organization Any not- for- profit enterprise that is independently owned and operated and is not dominant in its field. (2) Small Governmental Jurisdiction Governments of cities, counties, towns, townships, villages, school districts, or special districts, with a population of less than fifty thousand. (3) Small Business Any business concern that is independently owned and operated and is not dominant in its field, and meets the pertinent size criterion described below. Industry Type Description of Small Business Size Standards Cable Services or Systems Cable Systems Special Size Standard Small Cable Company has 400, 000 Subscribers Nationwide or Fewer Cable and Other Program Distribution Open Video Systems $12.5 Million in Annual Receipts or Less Common Carrier Services and Related Entities Wireline Carriers and Service providers Local Exchange Carriers, Competitive Access Providers, Interexchange Carriers, Operator Service Providers, Payphone Providers, and Resellers 1,500 Employees or Fewer 10 Federal Communications Commission FCC 04- 16 11 11 Note: With the exception of Cable Systems, all size standards are expressed in either millions of dollars or number of employees and are generally the average annual receipts or the average employment of a firm. Directions for calculating average annual receipts and average employment of a firm can be found in 13 CFR 121. 104 and 13 CFR 121. 106, respectively. International Services International Broadcast Stations International Public Fixed Radio (Public and Control Stations) Fixed Satellite Transmit/ Receive Earth Stations Fixed Satellite Very Small Aperture Terminal Systems Mobile Satellite Earth Stations Radio Determination Satellite Earth Stations Geostationary Space Stations Non- Geostationary Space Stations Direct Broadcast Satellites Home Satellite Dish Service $12.5 Million in Annual Receipts or Less Mass Media Services Television Services Low Power Television Services and Television Translator Stations TV Auxiliary, Special Broadcast and Other Program Distribution Services $12 Million in Annual Receipts or Less Radio Services Radio Auxiliary, Special Broadcast and Other Program Distribution Services $6 Million in Annual Receipts or Less Multipoint Distribution Service Auction Special Size Standard Small Business is less than $40M in annual gross revenues for three preceding years Wireless and Commercial Mobile Services Cellular Licensees 220 MHz Radio Service Phase I Licensees 1,500 Employees or Fewer 220 MHz Radio Service Phase II Licensees 700 MHZ Guard Band Licensees Private and Common Carrier Paging Auction special size standard - Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and controlling principals) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and controlling principals) Broadband Personal Communications Services (Blocks A, B, D, and E) 1,500 Employees or Fewer Broadband Personal Communications Services (Block C) Broadband Personal Communications Services (Block F) Narrowband Personal Communications Services Auction special size standard - Small Business is $40M or less in annual gross revenues for three previous calendar years Very Small Business is average gross revenues of $15M or less for the preceding three calendar years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) 11 Federal Communications Commission FCC 04- 16 12 12 Rural Radiotelephone Service Air- Ground Radiotelephone Service 1,500 Employees or Fewer 800 MHz Specialized Mobile Radio 900 MHz Specialized Mobile Radio Auction special size standard - Small Business is $15M or less average annual gross revenues for three preceding calendar years Private Land Mobile Radio 1,500 Employees or Fewer Amateur Radio Service N/ A Aviation and Marine Radio Service Fixed Microwave Services 1,500 Employees or Fewer Public Safety Radio Services Small Business is 1,500 employees or less Small Government Entities has population of less than 50,000 persons Wireless Telephony and Paging and Messaging 1,500 Employees or Fewer Personal Radio Services N/ A Offshore Radiotelephone Service 1,500 Employees or Fewer Wireless Communications Services 39 GHz Service Small Business is $40M or less average annual gross revenues for three preceding years Very Small Business is average gross revenues of $15M or less for the preceding three years Multipoint Distribution Service Auction special size standard (1996) Small Business is $40M or less average annual gross revenues for three preceding calendar years Prior to Auction Small Business has annual revenue of $12. 5M or less Multichannel Multipoint Distribution Service Instructional Television Fixed Service $12.5 Million in Annual Receipts or Less Local Multipoint Distribution Service Auction special size standard (1998) Small Business is $40M or less average annual gross revenues for three preceding years Very Small Business is average gross revenues of $15M or less for the preceding three years 218- 219 MHZ Service First Auction special size standard (1994) Small Business is an entity that, together with its affiliates, has no more than a $6M net worth and, after federal income taxes (excluding carryover losses) has no more than $2M in annual profits each year for the previous two years New Standard Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Satellite Master Antenna Television Systems $12.5 Million in Annual Receipts or Less 24 GHz Incumbent Licensees 1,500 Employees or Fewer 24 GHz Future Licensees Small Business is average gross revenues of $15M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) Very Small Business is average gross revenues of $3M or less for the preceding three years (includes affiliates and persons or entities that hold interest in such entity and their affiliates) 12 Federal Communications Commission FCC 04- 16 13 13 Miscellaneous On- Line Information Services $18 Million in Annual Receipts or Less Radio and Television Broadcasting and Wireless Communications Equipment Manufacturers Audio and Video Equipment Manufacturers 750 Employees or Fewer Telephone Apparatus Manufacturers (Except Cellular) 1,000 Employees or Fewer Medical Implant Device Manufacturers 500 Employees or Fewer Hospitals $29 Million in Annual Receipts or Less Nursing Homes $11.5 Million in Annual Receipts or Less Hotels and Motels $6 Million in Annual Receipts or Less Tower Owners (See Lessees Type of Business) 13 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF CHAIRMAN MICHAEL K. POWELL Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture Today, we open another front in our increased efforts to curb indecency on our nations airwaves by focusing on indecency on television. I believe it is irresponsible of our countrys programmers and broadcasters to continue to try and push the envelope in the face of Commission policies aimed at balancing the needs to protect our children with the interests of the First Amendment. Where, as here, we believe that a broadcast crosses that line, we will continue to enforce our indecency rules with vigor. 14 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER MICHAEL J. COPPS Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture ( NAL) I am pleased that this Commission is finally taking an initial step against indecency on television. That being said, I am disappointed that this complaint was filed over 15 months ago and we are just now addressing it. When we allow complaints to languish for over a year, the message is loud and clear that the FCC is not serious about enforcing our nations laws. Meanwhile, numerous other complaints about indecency on television remain unaddressed. I hope we will take up those complaints expeditiously. The time has come for this Commission to take a firm stand against the race to the bottom on the publics airwaves. 15 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER KEVIN J. MARTIN Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture I support the strong action the Commission is taking today to enforce our indecency regulations. While hard to believe, this appears to be only the second time the Commission has ever found a television broadcast to be indecent. I hope that this step today represents the beginning of a commitment to consider each indecency complaint seriously, and to recognize that indecency on our airwaves is not limited to the radio. 16 Federal Communications Commission FCC 04- 16 1 1 SEPARATE STATEMENT OF COMMISSIONER JONATHAN S. ADELSTEIN Re: Young Broadcasting of San Francisco, Inc., Licensee, Station KRON- TV, San Francisco, Notice of Apparent Liability for Forfeiture I strongly support the action we take today to combat indecency on broadcast television. The Commission has a duty to enforce statutory and regulatory provisions restricting broadcast indecency. The material broadcast in this case clearly warrants the statutory maximum $27,500 fine. I hope that todays action will continue to remind broadcasters of their responsibility to serve the public interest and protect children from indecency on the airwaves. Todays action continues a series of measures indicating that the Commission is stepping up its enforcement against indecency on the airwaves. 17

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log-files

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9927117565847&sxcts/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tpzero=v9,v10,v11,v12,v13,v14,if2 9927117565847&sxcts/ifd=old,old,*,* 9927117565847&sxcts/if3=old,*,*,*,*,* 9927117565847&sxcts/calon 9927117565847&sxcts/!+2s 9927117565847&sxcts/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tpical=v9,v10,v11,v12,v13,v14,if2 9927117565847&sxcts/caloff 9927117565847&sxcts/caltemps 9927117565847&sxcts/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117565847&sxcts/tsys2=v9,v10,v11,v12,v13,v14,if2 9927117565879/tpi/16755,18372,651,7459,9743,9227,9606,16079,13350,16109 9927117565900/tpi/7990,8245,727,27213,16851,4721,6031 9927117570137/tpzero/504,708,449,819,331,619,99,319,311,149 9927117570156/tpzero/629,624,620,265,377,489,780 9927117570165&calon/rx=*,*,*,*,*,*,on 9927117570400/tpical/18499,20718,17004,4340,23905,23784,26347,52194,14978,35430 9927117570421/tpical/9230,9733,10772,31976,21014,5597,7033 9927117570421&caloff/rx=*,*,*,*,*,*,off 9927117570429&caltemps/caltemp1=06.98 9927117570429&caltemps/caltemp2=15.61 9927117570429&caltemps/caltemp3=20.8 9927117570430?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927117570430/tsys1/65.0,52.6,0.1,-14.9,4.6,4.1,4.0,3.0,55.9,5.8 9927117570431/tsys2/92.7,79.9,0.2,88.3,61.8,75.4,81.8 9927117570431&rxmon/rx=lo,*,*,*,*,*,* 9927117570431&rxmon/rx 9927117570431&rxmon/rx=dcal,*,*,*,*,*,* 9927117570431&rxmon/rx 9927117570431&rxmon/rx=lo5mhz,*,*,*,*,*,* 9927117570431&rxmon/rx 9927117570431&rxmon/rx=pres,*,*,*,*,*,* 9927117570431&rxmon/rx 9927117570431&rxmon/rx=20k,*,*,*,*,*,* 9927117570431&rxmon/rx 9927117570432&rxmon/rx=70k,*,*,*,*,*,* 9927117570432&rxmon/rx 9927117570443/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927117570453/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927117570463/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927117570473/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927117570483/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927117570492/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927117570492/newtape/"to continue, use label command" 9927117575735;label=atnf0027,7f07 9927117575737&loader/st=for,135,off 9927117575737&loader/!+11s 9927117575737&loader/et 9927117575737&loader/!+3s 9927117581163/label/ATNF0027,7F07 9927117581163:!271175950 9927117581574#trakl#SOURCE_ACQUIRED 9927117583987;nw2c1=1 9927117584040/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927117584158/vc04/nak,*alarm*v4(#04) 9927117584167/vc07/nak,*alarm*v7(#07) 9927117584171/vc08/nak,*alarm*v8(#08) 9927117584180/vc11/nak,*alarm*vb(#0b) 9927117584307/vc04/nak,ack 9927117584321/vc07/nak,ack 9927117584327/vc08/nak,ack 9927117584340/vc11/nak,ack 9927117584926;wx 9927117584930/wx/21.0,990.7,90.3,8.0 9927117590533;rxall 9927117590533&rxall/rx=00,*,*,*,*,*,* 9927117590533&rxall/rx 9927117590533&rxall/rx=01,*,*,*,*,*,* 9927117590533&rxall/rx 9927117590533&rxall/rx=02,*,*,*,*,*,* 9927117590533&rxall/rx 9927117590533&rxall/rx=03,*,*,*,*,*,* 9927117590533&rxall/rx 9927117590533&rxall/rx=04,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=05,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=06,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=07,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=08,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=09,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=0a,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=0b,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=0c,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590534&rxall/rx=0d,*,*,*,*,*,* 9927117590534&rxall/rx 9927117590535&rxall/rx=0e,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=0f,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=10,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=11,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=12,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=13,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=14,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=15,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590535&rxall/rx=16,*,*,*,*,*,* 9927117590535&rxall/rx 9927117590536&rxall/rx=17,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=18,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=19,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1a,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1b,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1c,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1d,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1e,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590536&rxall/rx=1f,*,*,*,*,*,* 9927117590536&rxall/rx 9927117590552/rx/00(front),on,a,on,on,on,off,locked,33.88 9927117590563/rx/01(rear),on,a,on,on,on,off,locked,34.12 9927117590574/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927117590584/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927117590594/rx/04(inlet),on,a,on,on,on,off,locked,31.44 9927117590604/rx/05(ret),on,a,on,on,on,off,locked,31.68 9927117590614/rx/06(lo-lok),on,a,on,on,on,off,locked,8.226 9927117590624/rx/07(-2.73v),on,a,on,on,on,off,locked,-2.707 9927117590634/rx/08(s1-if),on,a,on,on,on,off,locked,0.258 9927117590644/rx/09(x-if),on,a,on,on,on,off,locked,0.158 9927117590654/rx/0A(s2-if),on,a,on,on,on,off,locked,0.412 9927117590665/rx/0B(s1-lo),on,a,on,on,on,off,locked,0.860 9927117590675/rx/0C(+12v),on,a,on,on,on,off,locked,12.51 9927117590686/rx/0D(s2-lo),on,a,on,on,on,off,locked,0.665 9927117590696/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927117590705/rx/0F(+15vp2),on,a,on,on,on,off,locked,15.04 9927117590714/rx/10(+28v),on,a,on,on,on,off,locked,28.67 9927117590723/rx/11(-15vp1),on,a,on,on,on,off,locked,-15.06 9927117590732/rx/12(+20v),on,a,on,on,on,off,locked,19.71 9927117590741/rx/13(+15vp1),on,a,on,on,on,off,locked,14.95 9927117590750/rx/14(+5vp1),on,a,on,on,on,off,locked,5.043 9927117590759/rx/15(-15vp2),on,a,on,on,on,off,locked,-14.87 9927117590768/rx/16(+5vp2),on,a,on,on,on,off,locked,5.097 9927117590777/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927117590787/rx/18(x1bias),on,a,on,on,on,off,locked,0.194 9927117590796/rx/19(x2bias),on,a,on,on,on,off,locked,0.990 9927117590805/rx/1A(x3bias),on,a,on,on,on,off,locked,0.984 9927117590814/rx/1B(s1bias),on,a,on,on,on,off,locked,0.601 9927117590823/rx/1C(s2bias),on,a,on,on,on,off,locked,0.990 9927117590833/rx/1D(s3bias),on,a,on,on,on,off,locked,0.799 9927117590842/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927117590851/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927117595001:preob 9927117595001&preob/onsource 9927117595001&preob/calon 9927117595001&preob/!+2s 9927117595001&preob/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927117595001&preob/tpical=v9,v10,v11,v12,v13,v14,if2 9927117595001&preob/caloff 9927117595052/onsource/TRACKING 9927117595287/tpical/18611,20781,17080,4357,23992,23888,26454,52554,15052,35640 9927117595307/tpical/9246,9702,10718,31910,20068,5588,6973 9927117595314:!271180000 9927118000001:tape 9927118000010/tape/off,00115,norm,stopped,stop,unlock,ready,rem 9927118000011:st=for,135 9927118000021:"data start" 9927118000021:midob 9927118000021&midob/onsource 9927118000021&midob/wx 9927118000022&midob/cable 9927118000022&midob/fmout-gps 9927118000022&midob/ifd 9927118000022&midob/if3 9927118000022&midob/vc02 9927118000022&midob/vc06 9927118000022&midob/vc11 9927118000022&midob/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118000022&midob/tpi=v9,v10,v11,v12,v13,v14,if2 9927118000022&midob/caltemps 9927118000022&midob/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118000022&midob/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118000052/onsource/TRACKING 9927118000054/wx/21.0,990.7,89.8,8.4 9927118000065/cable/+1.0858068E-02 9927118000105/fmout-gps/S 1.8123E-07 9927118000111/ifd/16,19,nor,nor,rem,13413,6018 9927118000117/if3/6,in,2,2,,,present,500.10,rem,lock,31192 9927118000123/vc02/142.99,2.000,u,10,10,rem,lock,18676 9927118000129/vc06/202.89,2.000,u,10,10,rem,lock,20924 9927118000135/vc11/237.99,2.000,u,10,10,rem,lock,9084 9927118000163/tpi/16691,18676,15278,3950,21269,20924,22989,45626,13413,31192 9927118000182/tpi/7877,8201,9084,26577,16719,4713,6018 9927118000184/tsys1/58.8,59.6,57.4,53.7,53.7,47.8,46.1,45.6,55.8,48.7 9927118000184/tsys2/82.6,78.8,80.9,77.0,76.2,75.4,85.6 9927118000185:!271180432 9927118003014;wx 9927118003016/wx/21.0,990.7,89.8,8.4 9927118005785;"cable normal 9927118010000;cable 9927118010005/cable/+1.0857595E-02 9927118012665;"cable long 9927118015608;cable 9927118015621/cable/+1.0761239E-02 9927118021628;"cable normal 9927118023602;cable 9927118023616/cable/+1.0858445E-02 9927118043201:"data stop" 9927118043201:et 9927118043212:!+3s 9927118043514:tape 9927118043523/tape/off,03165,norm,stopped,stop,unlock,ready,rem 9927118043523:postob 9927118043523:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927118043600:check2c1 9927118043600&check2c1/check=*,-tp,-hd 9927118043600&check2c1/enable= 9927118043600&check2c1/decode=a,crc,byte 9927118043600&check2c1/parity=,,ab,on,g1,g3 9927118043600&check2c1/fastr=15s 9927118043600&check2c1/!+6s 9927118043600&check2c1/!* 9927118043600&check2c1/st=for,135,off 9927118043600&check2c1/!+4s 9927118043600&check2c1/repro=raw,1,3 9927118043600&check2c1/parity 9927118043600&check2c1/repro=byp,0,0 9927118043601&check2c1/!*+29.20s 9927118043601&check2c1/et 9927118043601&check2c1/!+3s 9927118043601&check2c1/check=*,tp,hd 9927118043613&fastr/rw 9927118043613&fastr/!+$ 9927118043613&fastr/et 9927118051554?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118051554?ERROR qg -305 AUX data differs from expected value on track 11. 9927118051554?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118051554/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118051554/parity/0,0,0,0,0,237,0,0,0,0,0,0,0,0 9927118052977:nw2c1=1 9927118053034/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118053373:!271181211 9927118071209;terminate 9927118071209:*boss terminated 9927118103160;Log Opened: Mark IV Field System Version 9.3.17 9927118103160;location,ALGOPARK,G,78.07,45.96,210.5,40479302,53,30,60,1990 9927118103160;horizon1,0.,9.,360. 9927118103160;head0,all,odd,odd,odd,adaptive,no,3.0000,1 9927118103160;head1,1470.2,3.7,158.3,1114.0,1.8,-13.2,187.01,187.01 9927118103160;head2,1091.5,4.4,281.3,1170.8,4.4,-18.5,180.28,180.28 9927118103160;antenna,46.0,22.0,9.0,40.0,93.5,8.9,89.0,azel 9927118103160;equip1, 53,330,240,8080.0,60,30,mk3,mk3,101 9927118103160;equip2,10.000,0.000,0.000,0.000,0.000,0,54625,500.10,3,a/d,0.000,0 9927118103161;time,9.001,73.430,rate 9927118103161;sw,no 9927118103161:" NA335 1999 ALGOPARK G Ap 9927118103161:" G ALGOPARK AZEL 0.0000 24.4 0 41.0 453.0 9.4 0 8.8 86.8 47.0 Ap 03 9927118103161:" Ap ALGOPARK 918034.75611 -4346132.26769 4561971.16681 72828201 9927118103161:" 03 TVDS-1 12 8820 9927118103161:source=1004+141,100741.5,135629.6,2000.0,neutral 9927118103190#antcn#PM 1 00005 1999 196 18 49 05 00 9927118103190#antcn#PM 2 90.0000 1 0 1 1 1 1 1 0 1 1 1 1 1 1 1 1 0 0 0 0 9927118103191#antcn#PM 2 0.0067997 0.0000000 0.0220333 0.0620208 -0.0007199 9927118103191#antcn#PM 3 0.0039791 -0.0075978 0.0000000 -0.0521372 -0.0396457 9927118103191#antcn#PM 4 0.0546033 0.0005687 -0.0018725 -0.0011125 -0.0019046 9927118103191#antcn#PM 5 0.0015606 0.0000000 0.0000000 0.0000000 0.0000000 9927118103251:nw2c1=1 9927118103251&nw2c1/tapefrmnwc 9927118103251&nw2c1/pass=$,same 9927118103251&nw2c1/form=c,4.000 9927118103251&nw2c1/form=reset 9927118103251&nw2c1/vcnw2 9927118103251&nw2c1/ifdnw 9927118103251&nw2c1/tape=low 9927118103251&nw2c1/enable=g1,g3 9927118103251&nw2c1/repro=byp,3,19 9927118103252&tapefrmnwc/tapeform= 1,-330, 2,-330, 3,-275, 4,-275, 5,-220, 6,-220 9927118103252&tapefrmnwc/tapeform= 7,-165, 8,-165, 9,-110, 10,-110, 11, -55, 12, -55 9927118103252&tapefrmnwc/tapeform= 13, 0, 14, 0, 15, 55, 16, 55, 17, 110, 18, 110 9927118103252&tapefrmnwc/tapeform= 19, 165, 20, 165, 21, 220, 22, 220, 23, 275, 24, 275 9927118103317/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118103421&vcnw2/vc01=102.99,2.000 9927118103421&vcnw2/vc02=142.99,2.000 9927118103421&vcnw2/vc03=342.99,2.000 9927118103421&vcnw2/vc04=482.99,2.000 9927118103421&vcnw2/vc05=102.89,2.000 9927118103421&vcnw2/vc06=202.89,2.000 9927118103421&vcnw2/vc07=262.89,2.000 9927118103421&vcnw2/vc08=282.89,2.000 9927118103421&vcnw2/vc09=192.99,2.000 9927118103421&vcnw2/vc10=202.99,2.000 9927118103421&vcnw2/vc11=237.99,2.000 9927118103421&vcnw2/vc12=277.99,2.000 9927118103421&vcnw2/vc13=297.99,2.000 9927118103422&vcnw2/vc14=302.99,2.000 9927118103422&vcnw2/!+1s 9927118103422&vcnw2/valarm 9927118103569&valarm/vc01=alarm 9927118103569&valarm/vc02=alarm 9927118103569&valarm/vc03=alarm 9927118103569&valarm/vc04=alarm 9927118103569&valarm/vc05=alarm 9927118103569&valarm/vc06=alarm 9927118103569&valarm/vc07=alarm 9927118103569&valarm/vc08=alarm 9927118103569&valarm/vc09=alarm 9927118103569&valarm/vc10=alarm 9927118103569&valarm/vc11=alarm 9927118103569&valarm/vc12=alarm 9927118103570&valarm/vc13=alarm 9927118103570&valarm/vc14=alarm 9927118103573/vc01/nak,ack 9927118103582/vc03/nak,ack 9927118103590/vc05/nak,ack 9927118103594/vc06/nak,ack 9927118103599/vc07/nak,ack 9927118103603/vc08/nak,ack 9927118103616/vc11/nak,ack 9927118103628&ifdnw/ifd=16,19,nor,nor 9927118103628&ifdnw/if3=6,in,2,2 9927118103628&ifdnw/lo=8080.00,2020.00,8580.10 9927118103628&ifdnw/patch=lo1,1l,2l,3h,4h 9927118103628&ifdnw/patch=lo2,9l,10l,11h,12h,13h,14h 9927118103628&ifdnw/patch=lo3,5h,6h,7h,8h 9927118103649:!271181659 9927118105136;hold 9927118105136&hold/source=hold 9927118110269;schedule=na335ap,#21 9927118110272:" NA335 1999 ALGOPARK G Ap 9927118110272:" G ALGOPARK AZEL 0.0000 24.4 0 41.0 453.0 9.4 0 8.8 86.8 47.0 Ap 03 9927118110272:" Ap ALGOPARK 918034.75611 -4346132.26769 4561971.16681 72828201 9927118110272:" 03 TVDS-1 12 8820 9927118110272:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927118110351:check2c1 9927118110351&check2c1/check=*,-tp,-hd 9927118110351&check2c1/enable= 9927118110351&check2c1/decode=a,crc,byte 9927118110351&check2c1/parity=,,ab,on,g1,g3 9927118110351&check2c1/fastr=15s 9927118110351&check2c1/!+6s 9927118110351&check2c1/!* 9927118110351&check2c1/st=for,135,off 9927118110351&check2c1/!+4s 9927118110351&check2c1/repro=raw,1,3 9927118110351&check2c1/parity 9927118110351&check2c1/repro=byp,0,0 9927118110352&check2c1/!*+29.20s 9927118110352&check2c1/et 9927118110352&check2c1/!+3s 9927118110352&check2c1/check=*,tp,hd 9927118110366&fastr/rw 9927118110366&fastr/!+$ 9927118110366&fastr/et 9927118114305?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118114306?ERROR qg -305 AUX data differs from expected value on track 11. 9927118114306?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118114306/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118114306/parity/0,0,0,0,0,269,0,0,0,0,0,0,0,0 9927118115728:nw2c1=1 9927118115728&nw2c1/tapefrmnwc 9927118115728&nw2c1/pass=$,same 9927118115728&nw2c1/form=c,4.000 9927118115728&nw2c1/form=reset 9927118115728&nw2c1/vcnw2 9927118115728&nw2c1/ifdnw 9927118115728&nw2c1/tape=low 9927118115728&nw2c1/enable=g1,g3 9927118115729&nw2c1/repro=byp,3,19 9927118115729&tapefrmnwc/tapeform= 1,-330, 2,-330, 3,-275, 4,-275, 5,-220, 6,-220 9927118115729&tapefrmnwc/tapeform= 7,-165, 8,-165, 9,-110, 10,-110, 11, -55, 12, -55 9927118115729&tapefrmnwc/tapeform= 13, 0, 14, 0, 15, 55, 16, 55, 17, 110, 18, 110 9927118115729&tapefrmnwc/tapeform= 19, 165, 20, 165, 21, 220, 22, 220, 23, 275, 24, 275 9927118115783/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118115896&vcnw2/vc01=102.99,2.000 9927118115896&vcnw2/vc02=142.99,2.000 9927118115896&vcnw2/vc03=342.99,2.000 9927118115896&vcnw2/vc04=482.99,2.000 9927118115896&vcnw2/vc05=102.89,2.000 9927118115896&vcnw2/vc06=202.89,2.000 9927118115896&vcnw2/vc07=262.89,2.000 9927118115896&vcnw2/vc08=282.89,2.000 9927118115896&vcnw2/vc09=192.99,2.000 9927118115896&vcnw2/vc10=202.99,2.000 9927118115896&vcnw2/vc11=237.99,2.000 9927118115896&vcnw2/vc12=277.99,2.000 9927118115896&vcnw2/vc13=297.99,2.000 9927118115896&vcnw2/vc14=302.99,2.000 9927118115896&vcnw2/!+1s 9927118115896&vcnw2/valarm 9927118115910/vc04/nak,*alarm*v4(#04) 9927118115921/vc07/nak,*alarm*v7(#07) 9927118115925/vc08/nak,*alarm*v8(#08) 9927118115942/vc11/nak,*alarm*vb(#0b) 9927118120074/vc04/nak,ack 9927118120088/vc07/nak,ack 9927118120094/vc08/nak,ack 9927118120107/vc11/nak,ack 9927118120121&ifdnw/ifd=16,19,nor,nor 9927118120122&ifdnw/if3=6,in,2,2 9927118120122&ifdnw/lo=8080.00,2020.00,8580.10 9927118120122&ifdnw/patch=lo1,1l,2l,3h,4h 9927118120122&ifdnw/patch=lo2,9l,10l,11h,12h,13h,14h 9927118120122&ifdnw/patch=lo3,5h,6h,7h,8h 9927118120146:!271181211 9927118121101:preob 9927118121101&preob/onsource 9927118121101&preob/calon 9927118121101&preob/!+2s 9927118121101&preob/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118121101&preob/tpical=v9,v10,v11,v12,v13,v14,if2 9927118121101&preob/caloff 9927118121226#trakl#SOURCE_ACQUIRED 9927118121251/onsource/TRACKING 9927118121251&calon/rx=*,*,*,*,*,*,on 9927118121490/tpical/23366,25588,21212,5236,30060,29744,33116,$$$$$,18834,44897 9927118121510/tpical/9721,10255,11679,34406,21823,6084,7450 9927118121510&caloff/rx=*,*,*,*,*,*,off 9927118121517:!271181221 9927118122101:tape 9927118122110/tape/off,03156,norm,stopped,stop,unlock,ready,rem 9927118122110:st=for,135 9927118122122:"data start" 9927118122122:midob 9927118122122&midob/onsource 9927118122122&midob/wx 9927118122122&midob/cable 9927118122122&midob/fmout-gps 9927118122122&midob/ifd 9927118122122&midob/if3 9927118122123&midob/vc02 9927118122123&midob/vc06 9927118122123&midob/vc11 9927118122123&midob/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118122123&midob/tpi=v9,v10,v11,v12,v13,v14,if2 9927118122123&midob/caltemps 9927118122123&midob/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118122123&midob/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118122152/onsource/TRACKING 9927118122155/wx/21.2,990.6,89.5,2.4 9927118122188/cable/+1.0858396E-02 9927118122204/fmout-gps/S 1.8229E-07 9927118122210/ifd/16,19,nor,nor,rem,17205,6510 9927118122216/if3/6,in,2,2,,,present,500.10,rem,lock,40489 9927118122222/vc02/142.99,2.000,u,10,10,rem,lock,23486 9927118122228/vc06/202.89,2.000,u,10,10,rem,lock,26831 9927118122234/vc11/237.99,2.000,u,10,10,rem,lock,10054 9927118122264/tpi/21469,23486,19406,4836,27378,26831,29726,59233,17205,40489 9927118122284/tpi/8387,8805,10054,29183,18558,5225,6510 9927118122284&caltemps/caltemp1=06.98 9927118122284&caltemps/caltemp2=15.61 9927118122284&caltemps/caltemp3=20.8 9927118122285?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927118122285?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v3 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i1 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927118122286/tsys1/$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$ 9927118122286?ERROR qk -211 Tsys value for device v9 overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device va overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vb overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vc overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device vd overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device ve overflowed or were less than zero. 9927118122286?ERROR qk -211 Tsys value for device i2 overflowed or were less than zero. 9927118122286/tsys2/$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$ 9927118122286:!271181359 9927118135901:"data stop" 9927118135901:et 9927118135912:!+3s 9927118140214:tape 9927118140223/tape/off,04249,norm,stopped,stop,unlock,ready,rem 9927118140223:postob 9927118140223:source=1004+141,100741.5,135629.6,2000.0,neutral 9927118140360:nw2c1=1 9927118140413/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118140740:!271181659 9927118144341;sxcts 9927118144343&sxcts/tpi=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpi=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/ifd=max,max,*,* 9927118144343&sxcts/if3=max,*,*,*,*,* 9927118144343&sxcts/!+2s 9927118144343&sxcts/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpzero=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/ifd=old,old,*,* 9927118144343&sxcts/if3=old,*,*,*,*,* 9927118144343&sxcts/calon 9927118144343&sxcts/!+2s 9927118144343&sxcts/tpical=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tpical=v9,v10,v11,v12,v13,v14,if2 9927118144343&sxcts/caloff 9927118144343&sxcts/caltemps 9927118144343&sxcts/tsys1=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118144343&sxcts/tsys2=v9,v10,v11,v12,v13,v14,if2 9927118144375/tpi/19219,21067,17300,4379,24327,23828,26198,52476,15300,35818 9927118144395/tpi/8025,8391,9484,27335,17429,4919,6178 9927118144631/tpzero/505,710,452,819,336,619,105,318,303,149 9927118144651/tpzero/635,621,624,262,376,488,767 9927118144894/tpical/20973,22979,18949,4746,26852,26556,29514,58898,16801,39951 9927118144913/tpical/9329,9788,11051,32390,20610,5763,7094 9927118144921/tsys1/74.5,74.3,71.3,67.7,66.3,59.4,54.9,56.7,69.7,60.2 9927118144922/tsys2/88.5,86.8,88.3,83.6,83.7,82.0,92.2 9927118165901:preob 9927118165952?ERROR AN -103 Pointing computer tracking errors are too large. 9927118165952?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927118165952/onsource/SLEWING 9927118170188/tpical/19191,21126,17338,4413,24500,24308,26856,53943,15349,36432 9927118170208/tpical/9098,9503,10720,31374,19943,5561,6896 9927118170215:!271181709 9927118170775#trakl#SOURCE_ACQUIRED 9927118170906:tape 9927118170928/tape/off,04249,norm,stopped,stop,unlock,ready,rem 9927118170928:st=for,135 9927118170952:"data start" 9927118170952:midob 9927118171100/onsource/TRACKING 9927118171104/wx/21.4,990.6,88.7,6.2 9927118171133/cable/+1.0860114E-02 9927118171204/fmout-gps/S 1.8199E-07 9927118171210/ifd/16,19,nor,nor,rem,13702,5953 9927118171216/if3/6,in,2,2,,,present,500.10,rem,lock,31995 9927118171222/vc02/142.99,2.000,u,10,10,rem,lock,19018 9927118171228/vc06/202.89,2.000,u,10,10,rem,lock,21338 9927118171234/vc11/237.99,2.000,u,10,10,rem,lock,9099 9927118171262/tpi/17245,19018,15536,4009,21770,21338,23396,47036,13702,31995 9927118171282/tpi/7766,8071,9099,26213,16641,4704,5953 9927118171284/tsys1/60.0,60.6,58.4,55.1,54.8,48.7,47.0,47.2,56.8,50.1 9927118171284/tsys2/83.6,81.2,81.6,78.5,76.9,76.8,85.8 9927118171284:!271181847 9927118184701:"data stop" 9927118184701:et 9927118184711:!+3s 9927118185013:tape 9927118185021/tape/off,05339,norm,stopped,stop,unlock,ready,rem 9927118185022:postob 9927118185023:source=1334-127,133739.8,-125724.7,2000.0,neutral 9927118185050:nw2c1=1 9927118185106/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118185432:!271182154 9927118214474#trakl#SOURCE_ACQUIRED 9927118215401:preob 9927118215455/onsource/TRACKING 9927118215691/tpical/19522,21457,17606,4462,24971,24762,27369,54853,15607,37111 9927118215711/tpical/9272,9650,10890,31987,20230,5662,7008 9927118215718:!271182204 9927118220401:tape 9927118220409/tape/off,05339,norm,stopped,stop,unlock,ready,rem 9927118220410:st=for,135 9927118220420:"data start" 9927118220420:midob 9927118220550/onsource/TRACKING 9927118220552/wx/21.6,990.6,87.3,0.0 9927118220580/cable/+1.0861088E-02 9927118220604/fmout-gps/S 1.8152E-07 9927118220610/ifd/16,19,nor,nor,rem,14028,6068 9927118220616/if3/6,in,2,2,,,present,500.10,rem,lock,32792 9927118220622/vc02/142.99,2.000,u,10,10,rem,lock,19423 9927118220628/vc06/202.89,2.000,u,10,10,rem,lock,21883 9927118220634/vc11/237.99,2.000,u,10,10,rem,lock,9274 9927118220662/tpi/17665,19423,15880,4075,22309,21883,24027,48153,14028,32792 9927118220682/tpi/7939,8229,9274,26767,16934,4798,6068 9927118220687/tsys1/64.5,64.2,62.4,58.7,57.6,51.6,50.0,49.8,60.7,52.8 9927118220688/tsys2/85.5,83.6,83.6,79.3,78.4,77.9,88.0 9927118220688:!271182342 9927118234201:"data stop" 9927118234201:et 9927118234211:!+3s 9927118234513:tape 9927118234521/tape/off,06432,norm,stopped,stop,unlock,ready,rem 9927118234522:postob 9927118234522:source=1219+044,122222.5,041315.8,2000.0,neutral 9927118234600:nw2c1=1 9927118234656/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118234983:!271182523 9927118251174#trakl#SOURCE_ACQUIRED 9927118252301:preob 9927118252451/onsource/TRACKING 9927118252717/tpical/18875,21017,17219,4391,24325,24141,26730,53283,15214,36047 9927118252776/tpical/9167,9479,10787,31563,20048,5612,6936 9927118252782:!271182533 9927118253307:tape 9927118253316/tape/off,06432,norm,stopped,stop,unlock,ready,rem 9927118253316:st=for,135 9927118253327:"data start" 9927118253327:midob 9927118253500/onsource/TRACKING 9927118253502/wx/21.8,990.5,86.7,7.0 9927118253532/cable/+1.0862460E-02 9927118253604/fmout-gps/S 1.8119E-07 9927118253610/ifd/16,19,nor,nor,rem,13576,5990 9927118253616/if3/6,in,2,2,,,present,500.10,rem,lock,31615 9927118253622/vc02/142.99,2.000,u,10,10,rem,lock,18899 9927118253628/vc06/202.89,2.000,u,10,10,rem,lock,21183 9927118253634/vc11/237.99,2.000,u,10,10,rem,lock,9180 9927118253662/tpi/17013,18899,15407,3982,21565,21183,23248,46368,13576,31615 9927118253681/tpi/7855,8041,9180,26403,16777,4744,5990 9927118253683/tsys1/61.9,59.9,57.6,54.0,53.7,48.5,46.4,46.5,56.6,49.6 9927118253683/tsys2/85.9,80.5,83.1,79.1,78.3,76.5,86.2 9927118253684:!271182711 9927118271101:"data stop" 9927118271101:et 9927118271112:!+3s 9927118271414:tape 9927118271423/tape/off,07524,norm,stopped,stop,unlock,ready,rem 9927118271423:postob 9927118271423:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927118271500:nw2c1=1 9927118271553/pass/1,1,auto,-330.0,-330.0,-329.1,-330.6,0.9,-0.6 9927118271878:!271183022 9927118274575;wx 9927118274579/wx/21.8,990.4,86.4,0.7 9927118281909;"wx,sunny,90% cloudy,wind at 0.7 km/h. 9927118282127;rxmon 9927118282129&rxmon/rx=lo,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282129&rxmon/rx=dcal,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282129&rxmon/rx=lo5mhz,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282129&rxmon/rx=pres,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282129&rxmon/rx=20k,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282129&rxmon/rx=70k,*,*,*,*,*,* 9927118282129&rxmon/rx 9927118282140/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927118282150/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927118282160/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927118282169/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927118282178/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927118282187/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927118283586;"rxtemps 20k=28.6 70k=54.88 9927118292175#trakl#SOURCE_ACQUIRED 9927118302201:preob 9927118302301/onsource/TRACKING 9927118302537/tpical/21320,23502,19357,4837,27425,27194,30113,60228,17136,40837 9927118302557/tpical/9382,9857,11242,32810,20925,5833,7167 9927118302564:!271183032 9927118303201:tape 9927118303209/tape/off,07524,norm,stopped,stop,unlock,ready,rem 9927118303210:st=for,135 9927118303220:"data start" 9927118303220:midob 9927118303301/onsource/TRACKING 9927118303304/wx/22.1,990.4,85.9,3.9 9927118303340/cable/+1.0863621E-02 9927118303404/fmout-gps/S 1.8191E-07 9927118303410/ifd/16,19,nor,nor,rem,15485,6239 9927118303416/if3/6,in,2,2,,,present,500.10,rem,lock,36352 9927118303422/vc02/142.99,2.000,u,10,10,rem,lock,21334 9927118303428/vc06/202.89,2.000,u,10,10,rem,lock,24172 9927118303434/vc11/237.99,2.000,u,10,10,rem,lock,9612 9927118303462/tpi/19390,21334,17550,4420,24675,24172,26638,53247,15485,36352 9927118303482/tpi/8079,8445,9612,27708,17630,4980,6239 9927118303483/tsys1/68.3,66.4,66.0,60.3,61.8,54.4,53.3,52.9,64.2,56.3 9927118303484/tsys2/89.2,86.5,86.1,84.0,81.7,82.2,92.0 9927118303484:!271183210 9927118321001:"data stop" 9927118321001:et 9927118321011:!+3s 9927118321313:tape 9927118321322/tape/off,08617,norm,stopped,stop,unlock,ready,rem 9927118321322:postob 9927118321323:source=1622-253,162546.9,-252738.3,2000.0,neutral 9927118321451:midtp 9927118321453&midtp/ifd=max,max,*,* 9927118321453&midtp/if3=max,*,*,*,*,* 9927118321453&midtp/!+2s 9927118321453&midtp/tpzero=v1,v2,v3,v4,v5,v6,v7,v8,if1,if3 9927118321453&midtp/tpzero=v9,v10,v11,v12,v13,v14,if2 9927118321453&midtp/ifd=old,old,*,* 9927118321453&midtp/if3=old,*,*,*,*,* 9927118321453&midtp/rxmon 9927118321689/tpzero/505,709,452,819,341,619,91,318,303,149 9927118321709/tpzero/636,623,622,265,376,489,767 9927118321725/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927118321734/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927118321744/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927118321753/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927118321762/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118321771/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927118321772:nw2c2=2 9927118321772&nw2c2/tapefrmnwc 9927118321772&nw2c2/pass=$,same 9927118321772&nw2c2/form=c,4.000 9927118321772&nw2c2/form=reset 9927118321772&nw2c2/vcnw2 9927118321772&nw2c2/ifdnw 9927118321772&nw2c2/tape=low 9927118321772&nw2c2/enable=g2,g4 9927118321772&nw2c2/repro=byp,4,20 9927118321946/pass/2,2,auto,-330.0,-330.0,-329.6,-331.0,0.4,-1.0 9927118322272:fastf=0m14s 9927118322274&fastf/ff 9927118322274&fastf/!+$ 9927118322274&fastf/et 9927118323708:!271183317 9927118330225#trakl#SOURCE_ACQUIRED 9927118331701:preob 9927118331853/onsource/TRACKING 9927118332088/tpical/23347,25596,21184,5232,30009,29709,33064,$$$$$,18807,44882 9927118332108/tpical/9828,10368,11686,34508,21868,6091,7473 9927118332115:!271183327 9927118332701:tape 9927118332710/tape/off,08920,norm,stopped,stop,unlock,ready,rem 9927118332710:st=rev,135 9927118332721:"data start" 9927118332721:midob 9927118332753/onsource/TRACKING 9927118332755/wx/22.6,990.4,83.7,6.5 9927118332764/cable/+1.0864804E-02 9927118332804/fmout-gps/S 1.8191E-07 9927118332810/ifd/16,19,nor,nor,rem,17156,6534 9927118332816/if3/6,in,2,2,,,present,500.10,rem,lock,40404 9927118332822/vc02/142.99,2.000,u,10,10,rem,lock,23485 9927118332828/vc06/202.89,2.000,u,10,10,rem,lock,26734 9927118332834/vc11/237.99,2.000,u,10,10,rem,lock,10068 9927118332862/tpi/21413,23485,19381,4824,27265,26734,29601,59014,17156,40404 9927118332881/tpi/8505,8906,10068,29344,18603,5235,6534 9927118332883?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927118332883/tsys1/75.5,75.3,73.3,68.5,68.5,61.3,59.5,$$$$$$$$,71.3,62.7 9927118332883/tsys2/92.8,88.4,91.1,87.9,87.1,86.5,95.9 9927118332884:!271183505 9927118350501:"data stop" 9927118350501:et 9927118350512:!+3s 9927118350814:tape 9927118350823/tape/off,07827,norm,stopped,stop,unlock,ready,rem 9927118350823:postob 9927118350823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927118350952:check2c2 9927118350952&check2c2/check=*,-tp,-hd 9927118350952&check2c2/enable= 9927118350952&check2c2/decode=a,crc,byte 9927118350952&check2c2/parity=,,ab,on,g2,g4 9927118350952&check2c2/fastf=15s 9927118350952&check2c2/!+6s 9927118350952&check2c2/!* 9927118350952&check2c2/st=rev,135,off 9927118350952&check2c2/!+4s 9927118350952&check2c2/repro=raw,2,4 9927118350952&check2c2/parity 9927118350953&check2c2/repro=byp,0,0 9927118350953&check2c2/!*+29.20s 9927118350953&check2c2/et 9927118350953&check2c2/!+3s 9927118350953&check2c2/check=*,tp,hd 9927118354968?ERROR qg -303 Track 11 parity errors exceed threshold. 9927118354968?ERROR qg -305 AUX data differs from expected value on track 11. 9927118354968?ERROR qg -304 Track 11 sync errors exceed threshold. 9927118354968/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927118354968/parity/0,0,0,0,0,237,0,0,0,0,0,0,0,0 9927118360330:nw2c2=2 9927118360383/pass/2,2,auto,-330.0,-330.0,-329.6,-331.0,0.4,-1.0 9927118360709:!271183828 9927118365924#trakl#SOURCE_ACQUIRED 9927118382801:preob 9927118382853/onsource/TRACKING 9927118383089/tpical/19785,21720,17829,4504,25330,25076,27722,55549,15825,37630 9927118383108/tpical/9312,9796,10918,32133,20284,5670,7048 9927118383115:!271183838 9927118383801:tape 9927118383810/tape/off,07829,norm,stopped,stop,unlock,ready,rem 9927118383810:st=rev,135 9927118383821:"data start" 9927118383821:midob 9927118383952/onsource/TRACKING 9927118383954/wx/22.5,990.3,82.2,13.1 9927118383976/cable/+1.0867726E-02 9927118384004/fmout-gps/S 1.7998E-07 9927118384010/ifd/16,19,nor,nor,rem,14212,6093 9927118384016/if3/6,in,2,2,,,present,500.10,rem,lock,33233 9927118384022/vc02/142.99,2.000,u,10,10,rem,lock,19635 9927118384028/vc06/202.89,2.000,u,10,10,rem,lock,22148 9927118384034/vc11/237.99,2.000,u,10,10,rem,lock,9302 9927118384062/tpi/17903,19635,16080,4110,22577,22148,24311,48711,14212,33233 9927118384081/tpi/7965,8322,9302,26838,17005,4804,6093 9927118384083/tsys1/64.5,63.4,62.4,58.3,56.4,51.3,49.6,49.4,60.2,52.5 9927118384083/tsys2/84.9,81.5,83.8,78.3,79.2,77.8,87.1 9927118384084:!271184016 9927118401601:"data stop" 9927118401601:et 9927118401612:!+3s 9927118401914:tape 9927118401923/tape/off,06736,norm,stopped,stop,unlock,ready,rem 9927118401923:postob 9927118401923:source=1745+624,174614.0,622654.7,2000.0,ccw 9927118402050:nw2c2=2 9927118402103/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118402429:!271184315 9927118430175#trakl#SOURCE_ACQUIRED 9927118431501:preob 9927118431550/onsource/TRACKING 9927118431785/tpical/18844,21021,17107,4348,23916,23737,26323,52438,15066,35477 9927118431805/tpical/9335,9794,10780,31958,20111,5618,7008 9927118431812:!271184325 9927118432501:tape 9927118432511/tape/off,06736,norm,moving,stop,unlock,ready,rem 9927118432511:st=rev,135 9927118432522:"data start" 9927118432522:midob 9927118432651/onsource/TRACKING 9927118432653/wx/22.3,990.3,83.0,1.6 9927118432668/cable/+1.0866148E-02 9927118432704/fmout-gps/S 1.8203E-07 9927118432710/ifd/16,19,nor,nor,rem,13429,6044 9927118432716/if3/6,in,2,2,,,present,500.10,rem,lock,31064 9927118432722/vc02/142.99,2.000,u,10,10,rem,lock,18893 9927118432728/vc06/202.89,2.000,u,10,10,rem,lock,20840 9927118432734/vc11/237.99,2.000,u,10,10,rem,lock,9139 9927118432762/tpi/16966,18893,15292,3942,21205,20840,22884,45624,13429,31064 9927118432782/tpi/7966,8294,9139,26644,16791,4745,6044 9927118432784/tsys1/61.2,59.6,57.1,53.7,53.7,48.7,46.3,46.4,56.0,48.9 9927118432784/tsys2/83.6,79.8,81.0,77.5,77.2,76.1,85.5 9927118432784:!271184747 9927118474701:"data stop" 9927118474701:et 9927118474711:!+3s 9927118475013:tape 9927118475021/tape/off,03798,norm,stopped,stop,unlock,ready,rem 9927118475022:postob 9927118475022:source=1606+106,160846.2,102907.8,2000.0,neutral 9927118475151:nw2c2=2 9927118475203/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118475528:!271185157 9927118511774#trakl#SOURCE_ACQUIRED 9927118515701:preob 9927118515753/onsource/TRACKING 9927118515989/tpical/18801,20963,17088,4355,24097,23943,26564,52866,15064,35698 9927118520008/tpical/9222,9671,10636,31430,19842,5535,6895 9927118520015:!271185207 9927118520701:tape 9927118520711/tape/off,03798,norm,stopped,stop,unlock,ready,rem 9927118520711:st=rev,135 9927118520722:"data start" 9927118520722:midob 9927118520752/onsource/TRACKING 9927118520754/wx/22.3,990.3,83.6,3.4 9927118520759/cable/+1.0867503E-02 9927118520804/fmout-gps/S 1.8051E-07 9927118520809/ifd/16,19,nor,nor,rem,13431,5952 9927118520815/if3/6,in,2,2,,,present,500.10,rem,lock,31268 9927118520821/vc02/142.99,2.000,u,10,10,rem,lock,18796 9927118520827/vc06/202.89,2.000,u,10,10,rem,lock,20932 9927118520833/vc11/237.99,2.000,u,10,10,rem,lock,9030 9927118520861/tpi/16912,18796,15278,3947,21317,20932,23034,45949,13431,31268 9927118520881/tpi/7891,8199,9030,26247,16540,4675,5952 9927118520882/tsys1/60.6,58.3,57.2,53.5,52.7,47.1,45.4,46.0,56.1,49.0 9927118520883/tsys2/85.1,80.3,81.7,78.3,76.4,76.0,85.8 9927118520883:!271185345 9927118534501:"data stop" 9927118534501:et 9927118534512:!+3s 9927118534814:tape 9927118534823/tape/off,02705,norm,stopped,stop,unlock,ready,rem 9927118534823:postob 9927118534828:source=1334-127,133739.8,-125724.7,2000.0,neutral 9927118535001:nw2c2=2 9927118535054/pass/2,2,auto,-330.0,-330.0,-328.6,-331.0,1.4,-1.0 9927118535378:!271185612 9927118555774#trakl#SOURCE_ACQUIRED 9927118561201:preob 9927118561253/onsource/TRACKING 9927118561488/tpical/19826,21981,17988,4534,25378,25235,27968,55826,15881,37751 9927118561508/tpical/9120,9575,10784,31673,20044,5614,6948 9927118561515:!271185622 9927118562201:tape 9927118562211/tape/off,02705,norm,stopped,stop,unlock,ready,rem 9927118562211:st=rev,135 9927118562222:"data start" 9927118562222:midob 9927118562351/onsource/TRACKING 9927118562353/wx/22.3,990.2,83.1,8.8 9927118562356/cable/+1.0867532E-02 9927118562404/fmout-gps/S 1.8104E-07 9927118562410/ifd/16,19,nor,nor,rem,14258,6013 9927118562416/if3/6,in,2,2,,,present,500.10,rem,lock,33350 9927118562422/vc02/142.99,2.000,u,10,10,rem,lock,19882 9927118562428/vc06/202.89,2.000,u,10,10,rem,lock,22316 9927118562440/vc11/237.99,2.000,u,10,10,rem,lock,9182 9927118562504/tpi/17915,19882,16190,4134,22680,22316,24559,49017,14258,33350 9927118562552/tpi/7791,8119,9190,26494,16786,4754,6012 9927118562554/tsys1/63.6,63.8,61.1,57.8,57.8,51.9,50.1,49.9,60.0,52.7 9927118562554/tsys2/84.0,80.4,83.9,79.1,78.6,77.4,87.5 9927118562554:!271185800 9927118580001:"data stop" 9927118580001:et 9927118580012:!+3s 9927118580314:tape 9927118580323/tape/off,01612,norm,stopped,stop,unlock,ready,rem 9927118580323:postob 9927118580323:source=1352-104,135446.5,-104102.7,2000.0,neutral 9927118580400:midtp 9927118580635/tpzero/507,708,451,818,339,621,90,312,304,149 9927118580655/tpzero/632,626,622,266,380,491,787 9927118580671/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927118580680/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927118580690/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927118580699/rx/17(pres),on,a,on,on,on,off,locked,-1.575 9927118580708/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118580717/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927118580718:nw2c1=3 9927118580926/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927118581252:fastr=1m8s 9927118583475#trakl#SOURCE_ACQUIRED 9927118591151;wx 9927118591153/wx/22.4,990.2,83.5,4.4 9927118592080:!271185947 9927118594701:preob 9927118594753/onsource/TRACKING 9927118594988/tpical/19276,21456,17575,4446,24865,24702,27458,54697,15513,36912 9927118595009/tpical/8898,9348,10651,31251,19863,5563,6876 9927118595016:!271185957 9927118595322;"wx,90% clouds,wind at 5.5km/h. 9927118595551;rxmon 9927118595560/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927118595569/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927118595579/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927118595588/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927118595597/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927118595606/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927118595701:tape 9927118595710/tape/off,00096,norm,stopped,stop,unlock,ready,rem 9927118595711:st=for,135 9927118595722:"data start" 9927118595722:midob 9927118595750/onsource/TRACKING 9927118595752/wx/22.5,990.2,83.2,5.5 9927118595775/cable/+1.0867871E-02 9927118595804/fmout-gps/S 1.8133E-07 9927118595810/ifd/16,19,nor,nor,rem,13876,5945 9927118595815/if3/6,in,2,2,,,present,500.10,rem,lock,32486 9927118595821/vc02/142.99,2.000,u,10,10,rem,lock,19337 9927118595827/vc06/202.89,2.000,u,10,10,rem,lock,21769 9927118595833/vc11/237.99,2.000,u,10,10,rem,lock,9070 9927118595861/tpi/17405,19337,15787,4043,22134,21769,23921,47815,13876,32486 9927118595881/tpi/7615,7953,9070,26104,16609,4709,5945 9927118595883/tsys1/63.0,61.4,59.9,55.9,55.7,50.3,47.0,48.2,57.9,51.0 9927118595883/tsys2/85.0,82.0,83.4,78.4,77.9,77.1,86.5 9927118595883:!271190457 9927119001234;"rxtemps 20k=29.07 70k=56.27 9927119045701:"data stop" 9927119045701:et 9927119045712:!+3s 9927119050014:tape 9927119050023/tape/off,03461,norm,stopped,stop,unlock,ready,rem 9927119050023:postob 9927119050023:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927119050100:check2c1 9927119054042?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119054042?ERROR qg -305 AUX data differs from expected value on track 11. 9927119054043?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119054043/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119054043/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927119055468:nw2c1=3 9927119055521/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927119055848:!271190710 9927119055925#trakl#SOURCE_ACQUIRED 9927119071001:preob 9927119071053/onsource/TRACKING 9927119071288/tpical/20165,22247,18199,4593,25814,25635,28400,56731,16102,38376 9927119071308/tpical/9295,9734,11045,32485,20439,5745,7094 9927119071315:!271190720 9927119072001:tape 9927119072010/tape/off,03458,norm,stopped,stop,unlock,ready,rem 9927119072010:st=for,135 9927119072021:"data start" 9927119072021:midob 9927119072052/onsource/TRACKING 9927119072054/wx/22.6,990.2,81.8,12.9 9927119072092/cable/+1.0867153E-02 9927119072104/fmout-gps/S 1.8271E-07 9927119072110/ifd/16,19,nor,nor,rem,14690,6171 9927119072116/if3/6,in,2,2,,,present,500.10,rem,lock,34471 9927119072122/vc02/142.99,2.000,u,10,10,rem,lock,20402 9927119072128/vc06/202.89,2.000,u,10,10,rem,lock,23004 9927119072134/vc11/237.99,2.000,u,10,10,rem,lock,9459 9927119072162/tpi/18483,20402,16668,4246,23409,23004,25369,50643,14690,34471 9927119072182/tpi/8007,8323,9459,27367,17230,4908,6171 9927119072184/tsys1/74.6,74.5,73.9,69.0,67.0,59.4,58.2,57.7,71.1,61.3 9927119072184/tsys2/89.4,85.2,87.0,82.7,82.0,82.4,91.1 9927119072184:!271191210 9927119121001:"data stop" 9927119121001:et 9927119121011:!+3s 9927119121313:tape 9927119121322/tape/off,06710,norm,stopped,stop,unlock,ready,rem 9927119121322:postob 9927119121322:source=1222+037,122452.4,033050.3,2000.0,neutral 9927119121401:midtp 9927119121637/tpzero/504,710,452,813,340,622,92,316,311,149 9927119121657/tpzero/633,626,624,266,376,490,770 9927119121673/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927119121682/rx/03(dcal),on,a,on,on,on,off,locked,50.36 9927119121691/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119121701/rx/17(pres),on,a,on,on,on,off,locked,0.615 9927119121710/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927119121719/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927119121719:nw2c2=4 9927119121888/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119122214:fastf=1m39s 9927119133725#trakl#SOURCE_ACQUIRED 9927119140142:!271191428 9927119142801:preob 9927119142855/onsource/TRACKING 9927119143090/tpical/19122,21363,17355,4409,24623,24438,27111,53931,15339,36475 9927119143110/tpical/9151,9510,10784,31559,20075,5627,6934 9927119143117:!271191438 9927119143801:tape 9927119143810/tape/off,08924,norm,stopped,stop,unlock,ready,rem 9927119143810:st=rev,135 9927119143821:"data start" 9927119143821:midob 9927119143851/onsource/TRACKING 9927119143853/wx/22.5,990.1,82.8,3.3 9927119143868/cable/+1.0867350E-02 9927119143903/fmout-gps/S 1.8213E-07 9927119143909/ifd/16,19,nor,nor,rem,13747,6008 9927119143915/if3/6,in,2,2,,,present,500.10,rem,lock,32120 9927119143921/vc02/142.99,2.000,u,10,10,rem,lock,19304 9927119143927/vc06/202.89,2.000,u,10,10,rem,lock,21540 9927119143933/vc11/237.99,2.000,u,10,10,rem,lock,9192 9927119143961/tpi/17282,19304,15607,4015,21928,21540,23706,47139,13747,32120 9927119143981/tpi/7858,8109,9192,26428,16856,4770,6008 9927119143983/tsys1/63.6,63.0,60.5,56.7,55.9,50.4,48.4,48.1,58.9,51.2 9927119143983/tsys2/87.2,83.4,84.0,79.6,79.9,78.0,88.3 9927119143983:!271191938 9927119193801:"data stop" 9927119193801:et 9927119193811:!+3s 9927119194113:tape 9927119194121/tape/off,05559,norm,stopped,stop,unlock,ready,rem 9927119194122:postob 9927119194122:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927119194151:check2c2 9927119202147?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119202147?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119202147/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119202147/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927119203520:nw2c2=4 9927119203576/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119203906:!271192151 9927119204174#trakl#SOURCE_ACQUIRED 9927119215101:preob 9927119215201/onsource/TRACKING 9927119215436/tpical/20465,22684,18485,4642,26182,26047,28863,57543,16371,38980 9927119215457/tpical/9280,9710,11117,32491,20570,5761,7077 9927119215464:!271192201 9927119220101:tape 9927119220110/tape/off,05563,norm,stopped,stop,unlock,ready,rem 9927119220110:st=rev,135 9927119220121:"data start" 9927119220121:midob 9927119220250/onsource/TRACKING 9927119220252/wx/22.5,990.0,83.2,0.8 9927119220256/cable/+1.0868402E-02 9927119220304/fmout-gps/S 1.8242E-07 9927119220310/ifd/16,19,nor,nor,rem,14737,6155 9927119220316/if3/6,in,2,2,,,present,500.10,rem,lock,34526 9927119220322/vc02/142.99,2.000,u,10,10,rem,lock,20520 9927119220328/vc06/202.89,2.000,u,10,10,rem,lock,23097 9927119220334/vc11/237.99,2.000,u,10,10,rem,lock,9536 9927119220362/tpi/18559,20520,16707,4234,23459,23097,25351,50581,14737,34526 9927119220382/tpi/7988,8299,9536,27372,17308,4912,6155 9927119220384/tsys1/66.1,63.9,63.8,58.5,59.3,53.2,50.2,50.4,61.6,53.9 9927119220384/tsys2/88.9,84.9,88.0,82.7,81.0,81.3,91.2 9927119220384:!271192617 9927119261701:"data stop" 9927119261701:et 9927119261711:!+3s 9927119262013:tape 9927119262022/tape/off,02693,norm,stopped,stop,unlock,ready,rem 9927119262022:postob 9927119262022:source=1243-072,124604.2,-073046.6,2000.0,neutral 9927119262049:nw2c2=4 9927119262102/pass/4,4,auto,-275.0,-275.0,-273.9,-275.6,1.1,-0.6 9927119262428:!271192830 9927119272475#trakl#SOURCE_ACQUIRED 9927119283001:preob 9927119283151/onsource/TRACKING 9927119283386/tpical/19707,21796,17807,4488,25274,25032,27818,55403,15751,37522 9927119283407/tpical/9128,9537,10957,31782,20274,5693,6979 9927119283414:!271192840 9927119284001:tape 9927119284011/tape/off,02693,norm,stopped,stop,unlock,ready,rem 9927119284011:st=rev,135 9927119284022:"data start" 9927119284022:midob 9927119284100/onsource/TRACKING 9927119284102/wx/22.6,990.0,82.1,0.9 9927119284107/cable/+1.0869883E-02 9927119284204/fmout-gps/S 1.8209E-07 9927119284210/ifd/16,19,nor,nor,rem,14109,6052 9927119284215/if3/6,in,2,2,,,present,500.10,rem,lock,33067 9927119284221/vc02/142.99,2.000,u,10,10,rem,lock,19652 9927119284227/vc06/202.89,2.000,u,10,10,rem,lock,22095 9927119284233/vc11/237.99,2.000,u,10,10,rem,lock,9359 9927119284261/tpi/17796,19652,16010,4087,22555,22095,24314,48446,14109,33067 9927119284281/tpi/7840,8124,9359,26684,17062,4832,6052 9927119284283/tsys1/63.2,61.7,60.4,57.0,57.0,51.0,48.3,48.3,58.7,51.6 9927119284283/tsys2/87.3,82.8,85.3,80.9,81.1,78.7,88.9 9927119284283:!271193110 9927119311001:"data stop" 9927119311001:et 9927119311011:!+3s 9927119311313:tape 9927119311322/tape/off,01015,norm,stopped,stop,unlock,ready,rem 9927119311322:postob 9927119311322:source=1302-102,130533.0,-103319.4,2000.0,neutral 9927119311399:midtp 9927119311636/tpzero/500,708,451,815,337,622,103,313,309,149 9927119311655/tpzero/633,626,622,267,375,492,768 9927119311671/rx/02(lo),on,a,on,on,on,off,locked,47.55 9927119311680/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927119311689/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119311699/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927119311708/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927119311717/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927119311717:nw2c1=5 9927119311940/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119312265:fastr=0m41s 9927119314224#trakl#SOURCE_ACQUIRED 9927119320393:!271193230 9927119323001:preob 9927119323063/onsource/TRACKING 9927119323311/tpical/19956,22004,18001,4536,25559,25321,28160,56002,15942,37954 9927119323331/tpical/9034,9471,10821,31419,20092,5625,6910 9927119323338:!271193240 9927119324001:tape 9927119324010/tape/off,00106,norm,stopped,stop,unlock,ready,rem 9927119324010:st=for,135 9927119324021:"data start" 9927119324021:midob 9927119324050/onsource/TRACKING 9927119324052/wx/22.8,990.0,82.0,1.4 9927119324084/cable/+1.0871075E-02 9927119324104/fmout-gps/S 1.8209E-07 9927119324110/ifd/16,19,nor,nor,rem,14310,5995 9927119324116/if3/6,in,2,2,,,present,500.10,rem,lock,33482 9927119324122/vc02/142.99,2.000,u,10,10,rem,lock,19910 9927119324128/vc06/202.89,2.000,u,10,10,rem,lock,22372 9927119324134/vc11/237.99,2.000,u,10,10,rem,lock,9243 9927119324162/tpi/18030,19910,16178,4127,22784,22372,24590,49070,14310,33482 9927119324182/tpi/7747,8079,9243,26355,16857,4778,5995 9927119324183/tsys1/63.5,64.0,60.2,56.5,56.5,51.5,47.9,49.1,59.9,52.0 9927119324184/tsys2/86.3,83.6,85.3,80.4,79.5,79.0,89.2 9927119324184:!271193702 9927119370201:"data stop" 9927119370201:et 9927119370211:!+3s 9927119370513:tape 9927119370522/tape/off,03044,norm,stopped,stop,unlock,ready,rem 9927119370522:postob 9927119370522:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927119370652:check2c1 9927119374669?ERROR qg -303 Track 11 parity errors exceed threshold. 9927119374669?ERROR qg -305 AUX data differs from expected value on track 11. 9927119374669?ERROR qg -304 Track 11 sync errors exceed threshold. 9927119374669/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927119374669/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927119380020:nw2c1=5 9927119380073/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119380398:!271193915 9927119382075#trakl#SOURCE_ACQUIRED 9927119391501:preob 9927119391649/onsource/TRACKING 9927119391885/tpical/18888,21075,17224,4365,24366,24215,26789,53446,15201,36103 9927119391905/tpical/8979,9338,10647,31051,19768,5549,6833 9927119391912:!271193925 9927119392501:tape 9927119392511/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927119392511:st=for,135 9927119392522:"data start" 9927119392522:midob 9927119392651/onsource/TRACKING 9927119392653/wx/22.8,989.8,81.5,4.3 9927119392656/cable/+1.0872218E-02 9927119392704/fmout-gps/S 1.8152E-07 9927119392710/ifd/16,19,nor,nor,rem,13564,5910 9927119392716/if3/6,in,2,2,,,present,500.10,rem,lock,31671 9927119392722/vc02/142.99,2.000,u,10,10,rem,lock,18951 9927119392728/vc06/202.89,2.000,u,10,10,rem,lock,21245 9927119392734/vc11/237.99,2.000,u,10,10,rem,lock,9051 9927119392762/tpi/17047,18951,15424,3959,21626,21245,23334,46543,13564,31671 9927119392781/tpi/7674,7922,9051,25931,16500,4694,5910 9927119392783/tsys1/62.7,60.0,58.1,54.1,54.2,48.5,46.9,46.7,56.5,49.6 9927119392784/tsys2/84.2,80.4,82.4,78.2,77.0,76.7,87.0 9927119392784:!271194103 9927119410301:"data stop" 9927119410301:et 9927119410311:!+3s 9927119410613:tape 9927119410622/tape/off,04133,norm,moving,stop,unlock,ready,rem 9927119410622:postob 9927119410622:source=oj287,085448.9,200630.6,2000.0,neutral 9927119410701:nw2c1=5 9927119410754/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119411079:!271194444 9927119441974#trakl#SOURCE_ACQUIRED 9927119444401:preob 9927119444501/onsource/TRACKING 9927119444736/tpical/23030,25533,20868,5180,29726,29431,32705,65169,18562,44336 9927119444756/tpical/9624,10165,11271,33531,21295,5930,7300 9927119444763:!271194454 9927119445403:tape 9927119445430/tape/off,04133,norm,stopped,stop,unlock,ready,rem 9927119445431:st=for,135 9927119445452:"data start" 9927119445452:midob 9927119445552/onsource/TRACKING 9927119445556/wx/22.9,989.8,82.0,1.9 9927119445559/cable/+1.0869342E-02 9927119445603/fmout-gps/S 1.8250E-07 9927119445609/ifd/16,19,nor,nor,rem,16868,6372 9927119445615/if3/6,in,2,2,,,present,500.10,rem,lock,39762 9927119445621/vc02/142.99,2.000,u,10,10,rem,lock,23341 9927119445627/vc06/202.89,2.000,u,10,10,rem,lock,26396 9927119445633/vc11/237.99,2.000,u,10,10,rem,lock,9705 9927119445661/tpi/21072,23341,19068,4755,26878,26396,29160,58234,16868,39762 9927119445681/tpi/8315,8723,9705,28457,18038,5079,6372 9927119445682/tsys1/73.3,72.1,72.2,64.7,65.0,59.3,57.2,58.3,68.2,60.5 9927119445683/tsys2/91.6,87.7,90.5,86.7,84.7,84.1,94.3 9927119445683:!271194632 9927119463201:"data stop" 9927119463201:et 9927119463212:!+3s 9927119463514:tape 9927119463522/tape/off,05223,norm,stopped,stop,unlock,ready,rem 9927119463523:postob 9927119463523:source=4c39.25,092703.0,390220.9,2000.0,neutral 9927119463602:nw2c1=5 9927119463655/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119463979:!271194835 9927119482474#trakl#SOURCE_ACQUIRED 9927119483501:preob 9927119483599/onsource/TRACKING 9927119483834/tpical/20575,22678,18454,4632,25977,25665,28446,56643,16367,38615 9927119483855/tpical/9243,9754,10853,32030,20369,5689,7020 9927119483862:!271194845 9927119484501:tape 9927119484510/tape/off,05223,norm,stopped,stop,unlock,ready,rem 9927119484511:st=for,135 9927119484521:"data start" 9927119484521:midob 9927119484652/onsource/TRACKING 9927119484654/wx/23.0,989.8,82.4,0.0 9927119484671/cable/+1.0870624E-02 9927119484704/fmout-gps/S 1.8180E-07 9927119484710/ifd/16,19,nor,nor,rem,14756,6093 9927119484716/if3/6,in,2,2,,,present,500.10,rem,lock,34303 9927119484722/vc02/142.99,2.000,u,10,10,rem,lock,20560 9927119484728/vc06/202.89,2.000,u,10,10,rem,lock,22843 9927119484734/vc11/237.99,2.000,u,10,10,rem,lock,9273 9927119484761/tpi/18644,20560,16680,4236,23366,22843,25119,50091,14756,34303 9927119484781/tpi/7927,8316,9273,26928,17121,4840,6093 9927119484783/tsys1/65.6,65.4,63.9,60.3,61.6,55.0,52.5,53.0,62.6,55.3 9927119484783/tsys2/86.5,83.5,85.5,81.6,80.5,79.9,89.7 9927119484783:!271195023 9927119502301:"data stop" 9927119502301:et 9927119502311:!+3s 9927119502613:tape 9927119502621/tape/off,06316,norm,stopped,stop,unlock,ready,rem 9927119502622:postob 9927119502622:source=0718+793,072611.7,791131.0,2000.0,neutral 9927119502650:nw2c1=5 9927119502703/pass/5,5,auto,-220.0,-220.0,-220.4,-219.7,-0.4,0.3 9927119503028:!271195240 9927119522524#trakl#SOURCE_ACQUIRED 9927119524001:preob 9927119524101/onsource/TRACKING 9927119524336/tpical/18918,21081,17152,4359,24228,23987,26515,52814,15166,35843 9927119524357/tpical/8992,9447,10554,31238,19765,5532,6857 9927119524364:!271195250 9927119525001:tape 9927119525009/tape/off,06316,norm,stopped,stop,unlock,ready,rem 9927119525010:st=for,135 9927119525021:"data start" 9927119525021:midob 9927119525101/onsource/TRACKING 9927119525103/wx/23.3,989.8,81.7,0.0 9927119525116/cable/+1.0871487E-02 9927119525203/fmout-gps/S 1.8111E-07 9927119525209/ifd/16,19,nor,nor,rem,13512,5919 9927119525215/if3/6,in,2,2,,,present,500.10,rem,lock,31397 9927119525221/vc02/142.99,2.000,u,10,10,rem,lock,18931 9927119525227/vc06/202.89,2.000,u,10,10,rem,lock,21048 9927119525233/vc11/237.99,2.000,u,10,10,rem,lock,8959 9927119525261/tpi/16999,18931,15368,3954,21505,21048,23035,45903,13512,31397 9927119525281/tpi/7702,8034,8959,26073,16481,4673,5919 9927119525282/tsys1/60.0,59.2,58.4,54.1,54.3,48.5,46.0,46.0,55.7,49.1 9927119525283/tsys2/85.5,81.8,81.6,78.0,76.6,76.0,85.7 9927119525283:!271195428 9927119542801:"data stop" 9927119542801:et 9927119542812:!+3s 9927119543114:tape 9927119543123/tape/off,07409,norm,stopped,stop,unlock,ready,rem 9927119543123:postob 9927119543123:source=2235+731,223638.6,732252.7,2000.0,neutral 9927119543150:midtp 9927119543385/tpzero/505,707,450,819,335,622,97,313,303,149 9927119543405/tpzero/632,626,622,272,380,490,771 9927119543421/rx/02(lo),on,a,on,on,on,off,locked,47.68 9927119543430/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927119543440/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927119543449/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927119543458/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927119543467/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927119543468:nw2c2=6 9927119543632/pass/6,6,auto,-220.0,-220.0,-220.9,-218.3,-0.9,1.7 9927119543957:fastf=1m8s 9927119554785:!271195738 9927119555474#trakl#SOURCE_ACQUIRED 9927119573801:preob 9927119573899/onsource/TRACKING 9927119574134/tpical/19093,21222,17313,4386,24461,24194,26702,53277,15285,36145 9927119574155/tpical/9089,9566,10621,31482,19904,5581,6901 9927119574162:!271195748 9927119574801:tape 9927119574810/tape/off,08924,norm,stopped,stop,unlock,ready,rem 9927119574810:st=rev,135 9927119574821:"data start" 9927119574821:midob 9927119574901/onsource/TRACKING 9927119574903/wx/23.8,989.7,78.7,3.4 9927119574923/cable/+1.0873575E-02 9927119575003/fmout-gps/S 1.8131E-07 9927119575009/ifd/16,19,nor,nor,rem,13625,5968 9927119575015/if3/6,in,2,2,,,present,500.10,rem,lock,31648 9927119575021/vc02/142.99,2.000,u,10,10,rem,lock,19070 9927119575027/vc06/202.89,2.000,u,10,10,rem,lock,21210 9927119575033/vc11/237.99,2.000,u,10,10,rem,lock,9035 9927119575061/tpi/17179,19070,15459,3975,21647,21210,23195,46284,13625,31648 9927119575081/tpi/7783,8125,9035,26312,16637,4718,5968 9927119575082/tsys1/60.8,59.6,56.5,53.6,52.9,48.2,46.0,45.9,56.0,48.9 9927119575083/tsys2/85.5,81.2,82.8,78.6,77.7,76.5,87.0 9927119575083:!271200007 9927120000701:"data stop" 9927120000701:et 9927120000712:!+3s 9927120001014:tape 9927120001023/tape/off,07369,norm,stopped,stop,unlock,ready,rem 9927120001023:postob 9927120001023:source=2201+315,220315.0,314538.3,2000.0,cw 9927120001050:check2c2 9927120005008?ERROR qg -303 Track 11 parity errors exceed threshold. 9927120005008?ERROR qg -305 AUX data differs from expected value on track 11. 9927120005008?ERROR qg -304 Track 11 sync errors exceed threshold. 9927120005008/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927120005008/parity/0,0,0,0,0,163,0,0,0,0,0,0,0,0 9927120010419:nw2c2=6 9927120010487/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120010818:!271200246 9927120015875#trakl#SOURCE_ACQUIRED 9927120024601:preob 9927120024749/onsource/TRACKING 9927120024984/tpical/21843,24236,19776,4901,27858,27458,30452,60673,17482,41340 9927120025005/tpical/9576,10109,11130,33239,21027,5856,7232 9927120025012:!271200256 9927120025601:tape 9927120025610/tape/off,07372,norm,stopped,stop,unlock,ready,rem 9927120025610:st=rev,135 9927120025621:"data start" 9927120025621:midob 9927120025651/onsource/TRACKING 9927120025653/wx/23.8,989.6,78.5,0.8 9927120025668/cable/+1.0872681E-02 9927120025704/fmout-gps/S 1.8154E-07 9927120025710/ifd/16,19,nor,nor,rem,15837,6297 9927120025716/if3/6,in,2,2,,,present,500.10,rem,lock,36910 9927120025722/vc02/142.99,2.000,u,10,10,rem,lock,22062 9927120025728/vc06/202.89,2.000,u,10,10,rem,lock,24538 9927120025734/vc11/237.99,2.000,u,10,10,rem,lock,9554 9927120025762/tpi/19923,22062,17953,4493,25151,24538,26948,53855,15837,36910 9927120025781/tpi/8251,8664,9554,28039,17790,5000,6297 9927120025783/tsys1/70.6,68.6,67.0,62.9,64.0,57.2,53.5,54.8,65.9,57.9 9927120025784/tsys2/89.8,86.8,88.5,83.4,84.0,82.2,92.3 9927120025784:!271200434 9927120043401:"data stop" 9927120043401:et 9927120043411:!+3s 9927120043713:tape 9927120043722/tape/off,06279,norm,stopped,stop,unlock,ready,rem 9927120043722:postob 9927120043722:source=3c418,203837.0,511912.7,2000.0,cw 9927120043799:nw2c2=6 9927120043852/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120044176:!271200915 9927120053276;wx 9927120053281/wx/23.8,989.5,78.4,1.0 9927120060194;"wx,95% clouds,lite breeze. 9927120060464;rxmon 9927120060473/rx/02(lo),on,a,on,on,on,off,locked,47.92 9927120060482/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927120060491/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927120060500/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927120060510/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927120060519/rx/1F(70k),on,a,on,on,on,off,locked,56.96 9927120062348;"rxtemps 20k=29.07 70k=56.96 9927120070325#trakl#SOURCE_ACQUIRED 9927120091501:preob 9927120091553/onsource/TRACKING 9927120091788/tpical/19074,21280,17320,4374,24316,23990,26487,52754,15258,35880 9927120091808/tpical/9356,9804,10836,32198,20376,5673,7039 9927120091815:!271200925 9927120092501:tape 9927120092511/tape/off,06279,norm,stopped,stop,unlock,ready,rem 9927120092511:st=rev,135 9927120092522:"data start" 9927120092522:midob 9927120092600/onsource/TRACKING 9927120092602/wx/23.7,989.5,78.9,3.5 9927120092620/cable/+1.0872402E-02 9927120092704/fmout-gps/S 1.8166E-07 9927120092710/ifd/16,19,nor,nor,rem,13595,6100 9927120092716/if3/6,in,2,2,,,present,500.10,rem,lock,31443 9927120092722/vc02/142.99,2.000,u,10,10,rem,lock,19084 9927120092728/vc06/202.89,2.000,u,10,10,rem,lock,21010 9927120092734/vc11/237.99,2.000,u,10,10,rem,lock,9243 9927120092762/tpi/17128,19084,15471,3967,21540,21010,23056,45938,13595,31443 9927120092782/tpi/8027,8333,9243,26954,17047,4816,6100 9927120092784/tsys1/59.6,58.4,56.7,54.0,53.3,47.8,46.7,46.7,55.8,49.2 9927120092784/tsys2/86.9,81.8,84.5,79.4,78.2,78.8,88.6 9927120092784:!271201103 9927120110301:"data stop" 9927120110301:et 9927120110311:!+3s 9927120110613:tape 9927120110622/tape/off,05186,norm,stopped,stop,unlock,ready,rem 9927120110622:postob 9927120110622:source=1726+455,172727.7,453039.7,2000.0,cw 9927120110699:nw2c2=6 9927120110752/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120111078:!271201553 9927120135725#trakl#SOURCE_ACQUIRED 9927120155301:preob 9927120155401/onsource/TRACKING 9927120155637/tpical/19213,21523,17552,4457,24412,24174,26676,52971,15445,36057 9927120155657/tpical/9312,9787,10790,31975,20189,5639,7000 9927120155663:!271201603 9927120160301:tape 9927120160310/tape/off,05186,norm,stopped,stop,unlock,ready,rem 9927120160310:st=rev,135 9927120160321:"data start" 9927120160321:midob 9927120160450/onsource/TRACKING 9927120160452/wx/23.5,989.4,80.5,6.4 9927120160472/cable/+1.0870012E-02 9927120160504/fmout-gps/S 1.8146E-07 9927120160510/ifd/16,19,nor,nor,rem,13837,6060 9927120160516/if3/6,in,2,2,,,present,500.10,rem,lock,31791 9927120160522/vc02/142.99,2.000,u,10,10,rem,lock,19432 9927120160528/vc06/202.89,2.000,u,10,10,rem,lock,21358 9927120160534/vc11/237.99,2.000,u,10,10,rem,lock,9197 9927120160562/tpi/17328,19432,15768,4054,21779,21358,23353,46431,13837,31791 9927120160582/tpi/7979,8327,9197,26771,16899,4780,6060 9927120160583/tsys1/62.3,62.5,59.9,56.0,56.8,51.4,48.8,49.2,58.7,51.8 9927120160584/tsys2/86.0,82.3,84.0,79.5,78.4,78.0,87.8 9927120160584:!271201741 9927120174101:"data stop" 9927120174101:et 9927120174111:!+3s 9927120174413:tape 9927120174422/tape/off,04093,norm,stopped,stop,unlock,ready,rem 9927120174422:postob 9927120174422:source=1014+615,101725.9,611627.5,2000.0,neutral 9927120174501:nw2c2=6 9927120174554/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120174879:!271202329 9927120222374#trakl#SOURCE_ACQUIRED 9927120232901:preob 9927120233050/onsource/TRACKING 9927120233285/tpical/18736,21001,17141,4348,24083,23820,26356,52389,15085,35543 9927120233305/tpical/9011,9477,10535,30957,19617,5485,6793 9927120233312:!271202339 9927120233901:tape 9927120233910/tape/off,04093,norm,stopped,stop,unlock,ready,rem 9927120233911:st=rev,135 9927120233921:"data start" 9927120233921:midob 9927120234001/onsource/TRACKING 9927120234003/wx/23.5,989.3,80.9,0.3 9927120234013/cable/+1.0872132E-02 9927120234104/fmout-gps/S 1.8201E-07 9927120234110/ifd/16,19,nor,nor,rem,13464,5868 9927120234116/if3/6,in,2,2,,,present,500.10,rem,lock,31147 9927120234122/vc02/142.99,2.000,u,10,10,rem,lock,18886 9927120234128/vc06/202.89,2.000,u,10,10,rem,lock,20897 9927120234134/vc11/237.99,2.000,u,10,10,rem,lock,8964 9927120234162/tpi/16859,18886,15367,3943,21384,20897,22889,45504,13464,31147 9927120234182/tpi/7710,8044,8964,25814,16368,4640,5868 9927120234183/tsys1/60.8,60.0,58.7,53.8,54.4,48.4,45.9,45.8,56.7,49.2 9927120234184/tsys2/84.9,80.8,82.9,77.5,76.8,76.7,86.0 9927120234184:!271202517 9927120251701:"data stop" 9927120251701:et 9927120251711:!+3s 9927120252013:tape 9927120252022/tape/off,03000,norm,stopped,stop,unlock,ready,rem 9927120252022:postob 9927120252022:source=1308+326,131028.7,322043.8,2000.0,neutral 9927120252101:nw2c2=6 9927120252154/pass/6,6,auto,-220.0,-220.0,-220.0,-221.0,0.0,-1.0 9927120252480:!271202809 9927120275274#trakl#SOURCE_ACQUIRED 9927120280901:preob 9927120281001/onsource/TRACKING 9927120281236/tpical/18684,20824,17047,4339,23990,23798,26311,52326,15056,35464 9927120281256/tpical/8991,9466,10572,31070,19815,5542,6839 9927120281263:!271202819 9927120281902:tape 9927120281911/tape/off,03000,norm,stopped,stop,unlock,ready,rem 9927120281911:st=rev,135 9927120281922:"data start" 9927120281922:midob 9927120281950/onsource/TRACKING 9927120281952/wx/23.4,989.2,81.7,1.3 9927120281984/cable/+1.0872786E-02 9927120282004/fmout-gps/S 1.8113E-07 9927120282010/ifd/16,19,nor,nor,rem,13411,5916 9927120282016/if3/6,in,2,2,,,present,500.10,rem,lock,31047 9927120282022/vc02/142.99,2.000,u,10,10,rem,lock,18717 9927120282028/vc06/202.89,2.000,u,10,10,rem,lock,20840 9927120282034/vc11/237.99,2.000,u,10,10,rem,lock,8987 9927120282062/tpi/16816,18717,15270,3935,21271,20840,22847,45409,13411,31047 9927120282081/tpi/7680,8031,8987,25966,16562,4688,5916 9927120282083/tsys1/60.9,59.7,58.2,53.8,53.7,47.7,45.8,45.5,55.6,48.8 9927120282084/tsys2/83.9,80.6,82.4,78.6,77.7,76.7,87.0 9927120282084:!271202957 9927120295701:"data stop" 9927120295701:et 9927120295712:!+3s 9927120300014:tape 9927120300023/tape/off,01907,norm,stopped,stop,unlock,ready,rem 9927120300023:postob 9927120300023:source=1611+343,161341.1,341247.9,2000.0,neutral 9927120300050:nw2c2=6 9927120300103/pass/6,6,auto,-220.0,-220.0,-220.9,-221.0,-0.9,-1.0 9927120300430:!271203420 9927120335475#trakl#SOURCE_ACQUIRED 9927120342001:preob 9927120342099/onsource/TRACKING 9927120342334/tpical/19325,21615,17667,4468,24695,24483,26978,53440,15563,36456 9927120342355/tpical/9250,9712,10950,32087,20422,5703,7020 9927120342362:!271203430 9927120343001:tape 9927120343010/tape/off,01907,norm,stopped,stop,unlock,ready,rem 9927120343010:st=rev,135 9927120343021:"data start" 9927120343021:midob 9927120343099/onsource/TRACKING 9927120343101/wx/23.4,989.0,81.7,0.0 9927120343135/cable/+1.0871374E-02 9927120343203/fmout-gps/S 1.8133E-07 9927120343209/ifd/16,19,nor,nor,rem,13939,6103 9927120343215/if3/6,in,2,2,,,present,500.10,rem,lock,32167 9927120343221/vc02/142.99,2.000,u,10,10,rem,lock,19437 9927120343227/vc06/202.89,2.000,u,10,10,rem,lock,21623 9927120343233/vc11/237.99,2.000,u,10,10,rem,lock,9352 9927120343261/tpi/17410,19437,15869,4064,22016,21623,23665,46992,13939,32167 9927120343281/tpi/7973,8303,9352,26993,17201,4858,6103 9927120343283/tsys1/61.6,60.0,59.9,56.1,56.5,51.3,49.7,50.5,58.6,52.1 9927120343283/tsys2/89.7,85.1,85.3,81.9,81.5,80.7,90.8 9927120343283:!271203608 9927120360801:"data stop" 9927120360801:et 9927120360811:!+3s 9927120361113:tape 9927120361122/tape/off,00814,norm,stopped,stop,unlock,ready,rem 9927120361122:postob 9927120361122:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927120361201:midtp 9927120361437/tpzero/505,706,449,820,348,619,92,314,306,149 9927120361457/tpzero/629,623,621,266,379,488,772 9927120361473/rx/02(lo),on,a,on,on,on,off,locked,48.16 9927120361483/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927120361492/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927120361501/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927120361511/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927120361520/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927120361520:nw2c1=7 9927120361708/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120362036:fastr=0m31s 9927120365164:!271204053 9927120384525#trakl#SOURCE_ACQUIRED 9927120405301:preob 9927120405353/onsource/TRACKING 9927120405588/tpical/19778,22124,18250,4574,25667,25371,28112,55830,16050,37909 9927120405608/tpical/9060,9543,10791,31463,20115,5623,6903 9927120405615:!271204103 9927120410301:tape 9927120410310/tape/off,00131,norm,stopped,stop,unlock,ready,rem 9927120410311:st=for,135 9927120410322:"data start" 9927120410322:midob 9927120410400/onsource/TRACKING 9927120410402/wx/23.4,988.9,83.1,3.4 9927120410411/cable/+1.0870258E-02 9927120410503/fmout-gps/S 1.8086E-07 9927120410509/ifd/16,19,nor,nor,rem,14460,5990 9927120410515/if3/6,in,2,2,,,present,500.10,rem,lock,33631 9927120410521/vc02/142.99,2.000,u,10,10,rem,lock,20058 9927120410527/vc06/202.89,2.000,u,10,10,rem,lock,22507 9927120410533/vc11/237.99,2.000,u,10,10,rem,lock,9205 9927120410561/tpi/17991,20058,16501,4181,23014,22507,24729,49133,14460,33631 9927120410581/tpi/7775,8123,9205,26379,16886,4775,5990 9927120410582/tsys1/68.3,65.4,64.1,59.7,59.6,53.3,50.8,50.9,62.1,54.6 9927120410583/tsys2/86.8,82.4,84.5,80.2,79.8,78.9,89.2 9927120410583:!271204241 9927120424101:"data stop" 9927120424101:et 9927120424112:!+3s 9927120424415:tape 9927120424424/tape/off,01224,norm,stopped,stop,unlock,ready,rem 9927120424424:postob 9927120424424:source=2136+141,213901.3,142336.0,2000.0,ccw 9927120424451:check2c1 9927120432394?ERROR qg -303 Track 11 parity errors exceed threshold. 9927120432394?ERROR qg -305 AUX data differs from expected value on track 11. 9927120432394?ERROR qg -304 Track 11 sync errors exceed threshold. 9927120432394/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927120432394/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927120433819:nw2c1=7 9927120433872/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120434291:!271204649 9927120451774#trakl#SOURCE_ACQUIRED 9927120464901:preob 9927120465051/onsource/TRACKING 9927120465286/tpical/21857,24113,19790,4943,28126,27740,30651,61122,17556,41711 9927120465306/tpical/9517,10067,11112,32954,20875,5825,7201 9927120465313:!271204659 9927120465901:tape 9927120465909/tape/off,01220,norm,stopped,stop,unlock,ready,rem 9927120465910:st=for,135 9927120465921:"data start" 9927120465921:midob 9927120465953/onsource/TRACKING 9927120465955/wx/23.4,988.7,82.7,0.9 9927120465980/cable/+1.0867635E-02 9927120470003/fmout-gps/S 1.8193E-07 9927120470009/ifd/16,19,nor,nor,rem,15959,6274 9927120470015/if3/6,in,2,2,,,present,500.10,rem,lock,37370 9927120470021/vc02/142.99,2.000,u,10,10,rem,lock,22026 9927120470027/vc06/202.89,2.000,u,10,10,rem,lock,24836 9927120470033/vc11/237.99,2.000,u,10,10,rem,lock,9525 9927120470061/tpi/19987,22026,18045,4547,25482,24836,27301,54535,15959,37370 9927120470081/tpi/8201,8609,9525,27768,17625,4979,6274 9927120470083/tsys1/72.7,71.3,70.4,65.7,66.4,58.2,56.7,57.5,68.4,59.8 9927120470083/tsys2/89.8,85.5,87.6,82.8,82.8,82.9,92.6 9927120470083:!271204837 9927120483701:"data stop" 9927120483701:et 9927120483712:!+3s 9927120484014:tape 9927120484022/tape/off,02313,norm,stopped,stop,unlock,ready,rem 9927120484023:postob 9927120484023:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927120484100:nw2c1=7 9927120484153/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120484477:!271205345 9927120505175#trakl#SOURCE_ACQUIRED 9927120534501:preob 9927120534553/onsource/TRACKING 9927120534788/tpical/23153,25457,21029,5211,29854,29409,32647,65071,18656,44399 9927120534808/tpical/9664,10225,11339,33647,21306,5948,7315 9927120534815:!271205355 9927120535502:tape 9927120535511/tape/off,02313,norm,stopped,stop,unlock,ready,rem 9927120535511:st=for,135 9927120535522:"data start" 9927120535522:midob 9927120535600/onsource/TRACKING 9927120535602/wx/23.2,988.9,83.6,5.7 9927120535632/cable/+1.0868017E-02 9927120535704/fmout-gps/S 1.8170E-07 9927120535710/ifd/16,19,nor,nor,rem,17005,6385 9927120535716/if3/6,in,2,2,,,present,500.10,rem,lock,39968 9927120535722/vc02/142.99,2.000,u,10,10,rem,lock,23311 9927120535728/vc06/202.89,2.000,u,10,10,rem,lock,26518 9927120535734/vc11/237.99,2.000,u,10,10,rem,lock,9758 9927120535762/tpi/21237,23311,19230,4800,27146,26518,29225,58346,17005,39968 9927120535781/tpi/8371,8776,9758,28555,18109,5101,6385 9927120535783/tsys1/75.5,73.5,72.9,67.6,69.1,62.5,59.4,60.2,70.6,62.7 9927120535783/tsys2/93.5,87.8,90.2,86.7,86.6,85.0,94.2 9927120535783:!271205533 9927120553301:"data stop" 9927120553301:et 9927120553312:!+3s 9927120553614:tape 9927120553623/tape/off,03406,norm,stopped,stop,unlock,ready,rem 9927120553623:postob 9927120553623:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927120553700:nw2c1=7 9927120553753/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927120554077:!271205804 9927120575275#trakl#SOURCE_ACQUIRED 9927120580401:preob 9927120580453/onsource/TRACKING 9927120580688/tpical/20918,22983,18931,4740,26873,26463,29375,58628,16747,39805 9927120580708/tpical/9169,9616,10908,31899,20466,5733,7005 9927120580715:!271205814 9927120581401:tape 9927120581410/tape/off,03406,norm,stopped,stop,unlock,ready,rem 9927120581410:st=for,135 9927120581421:"data start" 9927120581421:midob 9927120581501/onsource/TRACKING 9927120581503/wx/22.9,989.0,85.9,0.9 9927120581515/cable/+1.0867241E-02 9927120581603/fmout-gps/S 1.8164E-07 9927120581609/ifd/16,19,nor,nor,rem,15130,6102 9927120581615/if3/6,in,2,2,,,present,500.10,rem,lock,35427 9927120581621/vc02/142.99,2.000,u,10,10,rem,lock,20876 9927120581627/vc06/202.89,2.000,u,10,10,rem,lock,23585 9927120581633/vc11/237.99,2.000,u,10,10,rem,lock,9352 9927120581661/tpi/19025,20876,17132,4341,24152,23585,25953,51813,15130,35427 9927120581681/tpi/7911,8250,9352,26962,17243,4889,6102 9927120581682/tsys1/68.3,66.8,64.7,61.6,61.1,55.7,52.7,52.7,64.0,56.2 9927120581683/tsys2/90.4,87.2,87.6,84.4,81.7,81.4,92.1 9927120581683:!271205952 9927120593806;wx 9927120593809/wx/22.9,989.0,86.1,0.0 9927120595177;"wx,overcast,calm. 9927120595201:"data stop" 9927120595201:et 9927120595212:!+3s 9927120595367;rxmon 9927120595376/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927120595385/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927120595394/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927120595403/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927120595412/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927120595422/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927120595514:tape 9927120595522/tape/off,04499,norm,stopped,stop,unlock,ready,rem 9927120595523:postob 9927120595523:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927120595652:nw2c1=7 9927120595705/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927121000030:!271210218 9927121001009;"rxtemps 20k=29.07 70k=56.27 9927121021801:preob 9927121021951?ERROR AN -103 Pointing computer tracking errors are too large. 9927121021951?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927121021951/onsource/SLEWING 9927121022186/tpical/24173,26672,21998,5426,31374,30913,34316,$$$$$,19577,46751 9927121022206/tpical/9587,10149,11497,34058,21808,6085,7395 9927121022213:!271210228 9927121022801:tape 9927121022809/tape/off,04499,norm,stopped,stop,unlock,ready,rem 9927121022810:st=for,135 9927121022821:"data start" 9927121022821:midob 9927121022901?ERROR AN -103 Pointing computer tracking errors are too large. 9927121022901?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927121022901/onsource/SLEWING 9927121022904/wx/22.8,989.0,87.2,0.0 9927121022932/cable/+1.0866204E-02 9927121023004/fmout-gps/S 1.8240E-07 9927121023010/ifd/16,19,nor,nor,rem,18048,6484 9927121023016/if3/6,in,2,2,,,present,500.10,rem,lock,42589 9927121023022/vc02/142.99,2.000,u,10,10,rem,lock,24695 9927121023028/vc06/202.89,2.000,u,10,10,rem,lock,28183 9927121023033/vc11/237.99,2.000,u,10,10,rem,lock,9944 9927121023061/tpi/22429,24695,20324,5053,28847,28183,31165,61972,18048,42589 9927121023081/tpi/8319,8757,9944,29068,18608,5240,6484 9927121023083?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927121023083/tsys1/87.7,84.7,82.9,79.2,78.7,70.5,68.8,$$$$$$$$,81.0,71.2 9927121023083/tsys2/94.7,91.2,93.7,90.1,88.9,87.8,97.9 9927121023084:!271210406 9927121024674#trakl#SOURCE_ACQUIRED 9927121040375#trakl#OFF_SOURCE 9927121040601:"data stop" 9927121040601:et 9927121040612:!+3s 9927121040914:tape 9927121040923/tape/off,05592,norm,stopped,stop,unlock,ready,rem 9927121040923:postob 9927121040923:source=1236+077,123924.6,073017.2,2000.0,neutral 9927121041000:nw2c1=7 9927121041053/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927121041379:!271210819 9927121060674#trakl#SOURCE_ACQUIRED 9927121081902:preob 9927121082052/onsource/TRACKING 9927121082288/tpical/19342,21308,17479,4439,24900,24526,27090,54280,15472,36775 9927121082307/tpical/8917,9385,10615,30883,19861,5570,6842 9927121082314:!271210829 9927121082901:tape 9927121082909/tape/off,05592,norm,stopped,stop,unlock,ready,rem 9927121082910:st=for,135 9927121082920:"data start" 9927121082920:midob 9927121082953/onsource/TRACKING 9927121082955/wx/22.7,988.9,88.0,0.0 9927121082968/cable/+1.0867599E-02 9927121083004/fmout-gps/S 1.8078E-07 9927121083010/ifd/16,19,nor,nor,rem,13852,5944 9927121083016/if3/6,in,2,2,,,present,500.10,rem,lock,32387 9927121083022/vc02/142.99,2.000,u,10,10,rem,lock,19193 9927121083027/vc06/202.89,2.000,u,10,10,rem,lock,21640 9927121083033/vc11/237.99,2.000,u,10,10,rem,lock,9048 9927121083061/tpi/17473,19193,15690,4039,22148,21640,23649,47387,13852,32387 9927121083081/tpi/7649,8002,9048,25917,16648,4723,5944 9927121083083/tsys1/63.4,61.0,59.5,56.2,55.3,50.8,47.8,47.7,58.4,51.3 9927121083083/tsys2/86.4,83.3,83.9,80.6,79.0,78.0,89.9 9927121083083:!271211301 9927121130101:"data stop" 9927121130101:et 9927121130111:!+3s 9927121130413:tape 9927121130421/tape/off,08642,norm,stopped,stop,unlock,ready,rem 9927121130422:postob 9927121130422:source=1222+037,122452.4,033050.3,2000.0,neutral 9927121130451:midtp 9927121130687/tpzero/504,707,452,818,342,621,92,314,304,149 9927121130707/tpzero/632,625,622,265,378,491,764 9927121130723/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121130732/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121130741/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121130750/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927121130759/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927121130769/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121130769:nw2c2=8 9927121130932/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121131259:fastf=0m14s 9927121132687:!271211354 9927121134725#trakl#SOURCE_ACQUIRED 9927121135401:preob 9927121135501/onsource/TRACKING 9927121135736/tpical/20163,22208,18264,4618,26025,25619,28348,56626,16164,38473 9927121135757/tpical/9146,9703,11011,32241,20534,5782,7033 9927121135764:!271211404 9927121140401:tape 9927121140410/tape/off,08943,norm,stopped,stop,unlock,ready,rem 9927121140411:st=rev,135 9927121140422:"data start" 9927121140422:midob 9927121140500/onsource/TRACKING 9927121140502/wx/22.7,989.0,87.2,0.0 9927121140519/cable/+1.0867150E-02 9927121140604/fmout-gps/S 1.8201E-07 9927121140609/ifd/16,19,nor,nor,rem,14607,6148 9927121140615/if3/6,in,2,2,,,present,500.10,rem,lock,34226 9927121140621/vc02/142.99,2.000,u,10,10,rem,lock,20159 9927121140627/vc06/202.89,2.000,u,10,10,rem,lock,22813 9927121140633/vc11/237.99,2.000,u,10,10,rem,lock,9501 9927121140661/tpi/18326,20159,16551,4221,23379,22813,24984,50024,14607,34226 9927121140681/tpi/7907,8352,9501,27390,17434,4970,6148 9927121140683/tsys1/67.7,66.3,65.6,59.8,60.8,55.2,51.6,52.6,64.1,56.0 9927121140683/tsys2/91.7,89.3,91.8,87.3,85.9,86.1,95.0 9927121140683:!271211826 9927121182601:"data stop" 9927121182601:et 9927121182611:!+3s 9927121182913:tape 9927121182922/tape/off,06005,norm,stopped,stop,unlock,ready,rem 9927121182922:postob 9927121182922:source=1219+044,122222.5,041315.8,2000.0,neutral 9927121183001:check2c2 9927121184174#trakl#SOURCE_ACQUIRED 9927121190945?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121190945?ERROR qg -305 AUX data differs from expected value on track 11. 9927121190945?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121190945/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927121190945/parity/0,0,0,0,0,229,0,0,0,0,0,0,0,0 9927121192369:nw2c2=8 9927121192422/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121192747:!271212039 9927121203901:preob 9927121204001/onsource/TRACKING 9927121204236/tpical/20856,22979,18868,4748,26916,26523,29437,58659,16750,39888 9927121204257/tpical/9172,9683,10912,31732,20505,5739,7049 9927121204264:!271212049 9927121204901:tape 9927121204910/tape/off,06009,norm,stopped,stop,unlock,ready,rem 9927121204910:st=rev,135 9927121204921:"data start" 9927121204921:midob 9927121205066/onsource/TRACKING 9927121205069/wx/22.7,989.0,87.9,2.7 9927121205102/cable/+1.0867480E-02 9927121205203/fmout-gps/S 1.8187E-07 9927121205209/ifd/16,19,nor,nor,rem,15067,6147 9927121205215/if3/6,in,2,2,,,present,500.10,rem,lock,35340 9927121205221/vc02/142.99,2.000,u,10,10,rem,lock,20788 9927121205227/vc06/202.89,2.000,u,10,10,rem,lock,23574 9927121205233/vc11/237.99,2.000,u,10,10,rem,lock,9373 9927121205260/tpi/18862,20788,17047,4331,24099,23574,25891,51573,15067,35340 9927121205280/tpi/7921,8299,9373,26767,17327,4919,6147 9927121205282/tsys1/64.3,64.0,63.6,58.8,58.9,54.3,50.8,50.5,61.2,54.0 9927121205282/tsys2/91.0,86.6,88.8,83.3,83.3,84.3,93.2 9927121205283:!271212409 9927121240901:"data stop" 9927121240901:et 9927121240912:!+3s 9927121241214:tape 9927121241223/tape/off,03768,norm,stopped,stop,unlock,ready,rem 9927121241223:postob 9927121241223:source=1101+384,110427.3,381231.8,2000.0,neutral 9927121241350:nw2c2=8 9927121241403/pass/8,8,auto,-165.0,-165.0,-164.3,-164.7,0.7,0.3 9927121241730:!271212622 9927121255725#trakl#SOURCE_ACQUIRED 9927121262201:preob 9927121262253/onsource/TRACKING 9927121262488/tpical/19243,21227,17384,4422,24681,24350,26873,53698,15377,36485 9927121262508/tpical/8954,9469,10604,31129,19918,5572,6861 9927121262515:!271212632 9927121263201:tape 9927121263210/tape/off,03768,norm,stopped,stop,unlock,ready,rem 9927121263210:st=rev,135 9927121263221:"data start" 9927121263221:midob 9927121263300/onsource/TRACKING 9927121263302/wx/22.6,989.0,90.1,2.5 9927121263328/cable/+1.0867584E-02 9927121263404/fmout-gps/S 1.8193E-07 9927121263410/ifd/16,19,nor,nor,rem,13756,5936 9927121263416/if3/6,in,2,2,,,present,500.10,rem,lock,32119 9927121263422/vc02/142.99,2.000,u,10,10,rem,lock,19104 9927121263428/vc06/202.89,2.000,u,10,10,rem,lock,21484 9927121263434/vc11/237.99,2.000,u,10,10,rem,lock,9030 9927121263462/tpi/17367,19104,15583,4017,21973,21484,23495,47011,13756,32119 9927121263482/tpi/7672,8064,9030,26018,16681,4725,5936 9927121263484/tsys1/62.7,60.5,58.6,55.1,55.8,50.8,48.4,48.7,57.9,51.1 9927121263484/tsys2/85.7,82.6,83.4,78.7,78.6,78.0,87.3 9927121263484:!271213059 9927121305901:"data stop" 9927121305901:et 9927121305911:!+3s 9927121310213:tape 9927121310222/tape/off,00774,norm,stopped,stop,unlock,ready,rem 9927121310222:postob 9927121310222:source=1104+728,110741.7,723236.0,2000.0,neutral 9927121310301:midtp 9927121310537/tpzero/505,705,447,819,353,618,93,314,305,149 9927121310558/tpzero/626,625,620,266,373,489,760 9927121310574/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927121310583/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121310592/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121310602/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927121310611/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927121310620/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121310621:nw2c1=9 9927121310806/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121311166:fastr=0m30s 9927121314194:!271213251 9927121324074#trakl#SOURCE_ACQUIRED 9927121325101:preob 9927121325200/onsource/TRACKING 9927121325436/tpical/18482,20540,16756,4287,23744,23391,25864,51484,14801,34953 9927121325456/tpical/9021,9452,10457,30910,19620,5491,6796 9927121325463:!271213301 9927121330101:tape 9927121330110/tape/off,00112,norm,moving,stop,unlock,ready,rem 9927121330111:st=for,135 9927121330122:"data start" 9927121330122:midob 9927121330150/onsource/TRACKING 9927121330152/wx/22.5,988.9,92.6,1.5 9927121330172/cable/+1.0866085E-02 9927121330204/fmout-gps/S 1.8266E-07 9927121330210/ifd/16,19,nor,nor,rem,13173,5859 9927121330215/if3/6,in,2,2,,,present,500.10,rem,lock,30606 9927121330221/vc02/142.99,2.000,u,10,10,rem,lock,18417 9927121330227/vc06/202.89,2.000,u,10,10,rem,lock,20494 9927121330233/vc11/237.99,2.000,u,10,10,rem,lock,8866 9927121330261/tpi/16592,18417,14978,3884,21035,20494,22460,44707,13173,30606 9927121330281/tpi/7685,8017,8866,25758,16376,4638,5859 9927121330283/tsys1/59.4,58.2,57.0,53.1,53.3,47.9,45.9,45.7,55.2,48.9 9927121330283/tsys2/82.5,80.4,80.9,77.2,77.0,75.9,84.9 9927121330283:!271213851 9927121385101:"data stop" 9927121385101:et 9927121385111:!+3s 9927121385414:tape 9927121385422/tape/off,04039,norm,stopped,stop,unlock,ready,rem 9927121385423:postob 9927121385423:source=0014+813,001708.5,813508.1,2000.0,neutral 9927121385500:check2c1 9927121393503?ERROR qg -305 AUX data differs from expected value on track 1. 9927121393504?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121393504?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121393504/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927121393504/parity/0,0,0,0,0,245,0,0,0,0,0,0,0,0 9927121394868:nw2c1=9 9927121394921/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121395248:!271214256 9927121402525#trakl#SOURCE_ACQUIRED 9927121425601:preob 9927121425701/onsource/TRACKING 9927121425936/tpical/18850,20954,17116,4371,24287,23925,26470,52612,15116,35763 9927121425957/tpical/9085,9552,10535,31148,19755,5539,6850 9927121425964:!271214306 9927121430601:tape 9927121430610/tape/off,04034,norm,moving,stop,unlock,ready,rem 9927121430611:st=for,135 9927121430622:"data start" 9927121430622:midob 9927121430700/onsource/TRACKING 9927121430702/wx/22.2,988.8,93.2,2.2 9927121430724/cable/+1.0865848E-02 9927121430803/fmout-gps/S 1.8172E-07 9927121430809/ifd/16,19,nor,nor,rem,13492,5921 9927121430815/if3/6,in,2,2,,,present,500.10,rem,lock,31387 9927121430821/vc02/142.99,2.000,u,10,10,rem,lock,18854 9927121430827/vc06/202.89,2.000,u,10,10,rem,lock,21019 9927121430833/vc11/237.99,2.000,u,10,10,rem,lock,8966 9927121430861/tpi/16968,18854,15322,3966,21553,21019,23027,45858,13492,31387 9927121430881/tpi/7782,8091,8966,25999,16514,4678,5921 9927121430883/tsys1/61.1,60.3,57.9,54.2,54.1,49.0,46.5,47.1,56.7,49.8 9927121430883/tsys2/85.7,79.8,83.0,78.0,77.7,75.9,86.7 9927121430883:!271214728 9927121472801:"data stop" 9927121472801:et 9927121472811:!+3s 9927121473114:tape 9927121473123/tape/off,06972,norm,stopped,stop,unlock,ready,rem 9927121473123:postob 9927121473123:source=1014+615,101725.9,611627.5,2000.0,neutral 9927121473150:nw2c1=9 9927121473203/pass/9,9,auto,-110.0,-110.0,-109.9,-110.5,0.1,-0.5 9927121473530:!271215029 9927121492774#trakl#SOURCE_ACQUIRED 9927121502901:preob 9927121503001/onsource/TRACKING 9927121503236/tpical/18878,20770,17010,4347,24251,23977,26570,52984,15050,35863 9927121503257/tpical/9068,9594,10646,31221,19863,5558,6859 9927121503263:!271215039 9927121503901:tape 9927121503911/tape/off,06972,norm,stopped,stop,unlock,ready,rem 9927121503911:st=for,135 9927121503922:"data start" 9927121503922:midob 9927121503950/onsource/TRACKING 9927121503952/wx/22.0,988.9,92.6,0.0 9927121503976/cable/+1.0864899E-02 9927121504004/fmout-gps/S 1.8184E-07 9927121504009/ifd/16,19,nor,nor,rem,13392,5932 9927121504015/if3/6,in,2,2,,,present,500.10,rem,lock,31388 9927121504021/vc02/142.99,2.000,u,10,10,rem,lock,18595 9927121504027/vc06/202.89,2.000,u,10,10,rem,lock,21011 9927121504033/vc11/237.99,2.000,u,10,10,rem,lock,9055 9927121504061/tpi/16913,18595,15176,3935,21461,21011,23083,46050,13392,31388 9927121504081/tpi/7756,8150,9055,26089,16606,4716,5932 9927121504083/tsys1/58.3,57.4,56.1,52.8,52.8,48.0,46.0,46.0,55.1,48.7 9927121504083/tsys2/84.8,81.3,82.8,78.5,77.8,78.4,87.1 9927121504083:!271215217 9927121521701:"data stop" 9927121521701:et 9927121521712:!+3s 9927121522014:tape 9927121522023/tape/off,08065,norm,stopped,stop,unlock,ready,rem 9927121522023:postob 9927121522023:source=0955+476,095819.7,472507.8,2000.0,neutral 9927121522100:midtp 9927121522336/tpzero/505,707,448,820,341,619,96,318,309,149 9927121522355/tpzero/633,621,624,268,376,486,763 9927121522371/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121522381/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927121522390/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121522399/rx/17(pres),on,a,on,on,on,off,locked,0.996 9927121522408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927121522418/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927121522418:nw2c2=10 9927121522582/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927121522908:fastf=0m39s 9927121530837:!271215342 9927121532426#trakl#SOURCE_ACQUIRED 9927121534201:preob 9927121534253/onsource/TRACKING 9927121534488/tpical/19454,21396,17527,4459,25055,24708,27411,54439,15547,37079 9927121534509/tpical/9146,9670,10753,31500,20092,5610,6922 9927121534515:!271215352 9927121535201:tape 9927121535210/tape/off,08928,norm,stopped,stop,unlock,ready,rem 9927121535211:st=rev,135 9927121535222:"data start" 9927121535222:midob 9927121535357/onsource/TRACKING 9927121535360/wx/21.9,988.9,92.2,2.0 9927121535379/cable/+1.0864157E-02 9927121535403/fmout-gps/S 1.8186E-07 9927121535409/ifd/16,19,nor,nor,rem,13897,6008 9927121535415/if3/6,in,2,2,,,present,500.10,rem,lock,32639 9927121535421/vc02/142.99,2.000,u,10,10,rem,lock,19257 9927121535427/vc06/202.89,2.000,u,10,10,rem,lock,21781 9927121535433/vc11/237.99,2.000,u,10,10,rem,lock,9172 9927121535461/tpi/17524,19257,15710,4052,22303,21781,23907,47616,13897,32639 9927121535481/tpi/7849,8243,9172,26404,16878,4777,6008 9927121535483/tsys1/61.6,60.5,58.6,55.4,55.7,50.5,47.4,48.4,57.5,51.1 9927121535483/tsys2/86.8,83.4,84.4,80.1,80.1,80.4,89.6 9927121535483:!271215530 9927121553001:"data stop" 9927121553001:et 9927121553011:!+3s 9927121553314:tape 9927121553323/tape/off,07835,norm,stopped,stop,unlock,ready,rem 9927121553323:postob 9927121553323:source=m81,095533.1,690354.8,2000.0,neutral 9927121553400:check2c2 9927121561365?ERROR qg -303 Track 11 parity errors exceed threshold. 9927121561365?ERROR qg -304 Track 11 sync errors exceed threshold. 9927121561366/parity/0.,0.,0.,16.,0.,$$$$$,0.,0.,0.,49.,0.,16.,0.,16. 9927121561366/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927121562769:nw2c2=10 9927121562826/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927121563152:!271215746 9927121563769;wx 9927121563771/wx/21.9,988.9,92.8,3.0 9927121565741;"wx,overcast,wind at 3.0km/h. 9927121565925#trakl#SOURCE_ACQUIRED 9927121574601:preob 9927121574749/onsource/TRACKING 9927121574984/tpical/18374,20244,16578,4254,23691,23419,25861,51545,14681,34971 9927121575004/tpical/8985,9436,10530,30707,19574,5479,6801 9927121575011:!271215756 9927121575602:tape 9927121575611/tape/off,07838,norm,stopped,stop,unlock,ready,rem 9927121575611:st=rev,135 9927121575622:"data start" 9927121575622:midob 9927121575650/onsource/TRACKING 9927121575655/wx/21.9,988.9,92.9,2.7 9927121575680/cable/+1.0863755E-02 9927121575704/fmout-gps/S 1.8152E-07 9927121575710/ifd/16,19,nor,nor,rem,13055,5881 9927121575716/if3/6,in,2,2,,,present,500.10,rem,lock,30580 9927121575722/vc02/142.99,2.000,u,10,10,rem,lock,18155 9927121575728/vc06/202.89,2.000,u,10,10,rem,lock,20488 9927121575734/vc11/237.99,2.000,u,10,10,rem,lock,8962 9927121575762/tpi/16465,18155,14795,3851,20956,20488,22419,44730,13055,30580 9927121575781/tpi/7689,8011,8962,25687,16346,4639,5881 9927121575783/tsys1/58.4,58.3,56.2,52.5,52.6,47.3,45.3,45.5,54.7,48.4 9927121575784/tsys2/85.0,81.0,83.0,79.0,77.2,77.2,86.8 9927121575784:!271220526 9927121584851;rxmon 9927121584860/rx/02(lo),on,a,on,on,on,off,locked,48.53 9927121584869/rx/03(dcal),on,a,on,on,on,off,locked,50.36 9927121584878/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927121584887/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927121584897/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927121584906/rx/1F(70k),on,a,on,on,on,off,locked,56.96 9927121590301;"rxtemps 20k=29.07 70k=56.96 9927122052601:"data stop" 9927122052601:et 9927122052612:!+3s 9927122052914:tape 9927122052923/tape/off,02785,norm,stopped,stop,unlock,ready,rem 9927122052923:postob 9927122052923:source=1418+546,141946.6,542314.8,2000.0,neutral 9927122052952:nw2c2=10 9927122053005/pass/10,10,auto,-110.0,-110.0,-109.5,-111.0,0.5,-1.0 9927122053332:!271220814 9927122075374#trakl#SOURCE_ACQUIRED 9927122081401:preob 9927122081453/onsource/TRACKING 9927122081688/tpical/18323,20391,16652,4262,23536,23255,25813,51347,14693,34734 9927122081708/tpical/9069,9535,10566,31184,19858,5552,6846 9927122081715:!271220824 9927122082401:tape 9927122082409/tape/off,02785,norm,stopped,stop,unlock,ready,rem 9927122082410:st=rev,135 9927122082421:"data start" 9927122082421:midob 9927122082551/onsource/TRACKING 9927122082553/wx/21.7,989.1,94.4,0.0 9927122082572/cable/+1.0863915E-02 9927122082603/fmout-gps/S 1.8150E-07 9927122082609/ifd/16,19,nor,nor,rem,13101,5922 9927122082615/if3/6,in,2,2,,,present,500.10,rem,lock,30431 9927122082621/vc02/142.99,2.000,u,10,10,rem,lock,18317 9927122082627/vc06/202.89,2.000,u,10,10,rem,lock,20375 9927122082633/vc11/237.99,2.000,u,10,10,rem,lock,8981 9927122082661/tpi/16470,18317,14905,3865,20829,20375,22393,44549,13101,30431 9927122082681/tpi/7764,8094,8981,26058,16607,4693,5922 9927122082682/tsys1/60.1,59.3,57.8,53.5,52.8,47.9,45.5,45.4,56.1,49.1 9927122082683/tsys2/85.3,81.0,82.3,78.5,77.9,76.5,87.2 9927122082683:!271221020 9927122102001:"data stop" 9927122102001:et 9927122102011:!+3s 9927122102313:tape 9927122102322/tape/off,01490,norm,stopped,stop,unlock,ready,rem 9927122102322:postob 9927122102322:source=ngc6251,163232.0,823216.4,2000.0,neutral 9927122102423:midtp 9927122102672/tpzero/499,708,449,820,341,621,96,317,313,149 9927122102692/tpzero/634,619,625,262,375,493,767 9927122102708/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927122102717/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927122102727/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122102736/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927122102745/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927122102754/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122102754:nw2c1=11 9927122102938/pass/11,11,auto,-55.0,-55.0,-54.2,-54.2,0.8,0.8 9927122103263:fastr=1m2s 9927122113491:!271221516 9927122123226#trakl#SOURCE_ACQUIRED 9927122151601:preob 9927122151653/onsource/TRACKING 9927122151888/tpical/17973,20032,16447,4221,23272,23054,25466,50605,14500,34341 9927122151909/tpical/9021,9532,10568,31014,19747,5528,6840 9927122151916:!271221526 9927122152601:tape 9927122152611/tape/off,00109,norm,stopped,stop,unlock,ready,rem 9927122152611:st=for,135 9927122152622:"data start" 9927122152622:midob 9927122152700/onsource/TRACKING 9927122152702/wx/21.6,989.1,95.8,0.0 9927122152726/cable/+1.0863005E-02 9927122152803/fmout-gps/S 1.8041E-07 9927122152809/ifd/16,19,nor,nor,rem,12873,5912 9927122152815/if3/6,in,2,2,,,present,500.10,rem,lock,29972 9927122152821/vc02/142.99,2.000,u,10,10,rem,lock,17933 9927122152827/vc06/202.89,2.000,u,10,10,rem,lock,20118 9927122152833/vc11/237.99,2.000,u,10,10,rem,lock,8963 9927122152861/tpi/16101,17933,14647,3818,20556,20118,22002,43851,12873,29972 9927122152880/tpi/7714,8089,8963,25885,16512,4673,5912 9927122152882/tsys1/58.2,57.3,55.1,51.9,52.0,46.4,44.1,45.0,53.9,47.6 9927122152882/tsys2/84.6,80.8,81.1,78.0,77.9,76.3,86.5 9927122152882:!271222238 9927122223801:"data stop" 9927122223801:et 9927122223811:!+3s 9927122224114:tape 9927122224122/tape/off,04960,norm,stopped,stop,unlock,ready,rem 9927122224123:postob 9927122224123:source=da426,165352.2,394536.6,2000.0,neutral 9927122224252:check2c1 9927122232198?ERROR qg -303 Track 11 parity errors exceed threshold. 9927122232198?ERROR qg -305 AUX data differs from expected value on track 11. 9927122232198?ERROR qg -304 Track 11 sync errors exceed threshold. 9927122232198/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927122232198/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927122233620:nw2c1=11 9927122233673/pass/11,11,auto,-55.0,-55.0,-55.1,-54.2,-0.1,0.8 9927122233998:!271222735 9927122270875#trakl#SOURCE_ACQUIRED 9927122273501:preob 9927122273550/onsource/TRACKING 9927122273788/tpical/18941,21205,17306,4404,24488,24283,26882,53189,15303,36179 9927122273813/tpical/9162,9661,10847,32070,20340,5668,6983 9927122273820:!271222745 9927122274501:tape 9927122274509/tape/off,04956,norm,stopped,stop,unlock,ready,rem 9927122274510:st=for,135 9927122274520:"data start" 9927122274520:midob 9927122274599/onsource/TRACKING 9927122274601/wx/21.3,988.9,98.4,2.5 9927122274636/cable/+1.0863180E-02 9927122274703/fmout-gps/S 1.8225E-07 9927122274709/ifd/16,19,nor,nor,rem,13687,6064 9927122274715/if3/6,in,2,2,,,present,500.10,rem,lock,31870 9927122274721/vc02/142.99,2.000,u,10,10,rem,lock,19069 9927122274727/vc06/202.89,2.000,u,10,10,rem,lock,21426 9927122274733/vc11/237.99,2.000,u,10,10,rem,lock,9270 9927122274761/tpi/17093,19069,15524,4006,21757,21426,23510,46527,13687,31870 9927122274781/tpi/7898,8254,9270,26967,17106,4828,6064 9927122274782/tsys1/62.7,60.0,59.0,55.9,54.7,50.8,48.5,48.4,57.8,51.4 9927122274783/tsys2/89.7,84.7,85.6,81.7,80.8,80.6,90.0 9927122274783:!271223207 9927122320701:"data stop" 9927122320701:et 9927122320712:!+3s 9927122321014:tape 9927122321023/tape/off,07894,norm,stopped,stop,unlock,ready,rem 9927122321023:postob 9927122321023:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927122321052:midtp 9927122321287/tpzero/506,708,446,820,335,621,93,312,317,149 9927122321307/tpzero/631,622,621,261,378,492,777 9927122321324/rx/02(lo),on,a,on,on,on,off,locked,48.41 9927122321333/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927122321343/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122321352/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927122321361/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927122321370/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122321371:nw2c2=12 9927122321521/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122321849:fastf=0m47s 9927122330577:!271223826 9927122352674#trakl#SOURCE_ACQUIRED 9927122382601:preob 9927122382701/onsource/TRACKING 9927122382936/tpical/21716,23942,19736,4920,28167,27788,30915,61389,17501,41833 9927122382956/tpical/9361,9737,10973,31906,20483,5715,7007 9927122382963:!271223836 9927122383601:tape 9927122383610/tape/off,08937,norm,stopped,stop,unlock,ready,rem 9927122383611:st=rev,135 9927122383621:"data start" 9927122383621:midob 9927122383752/onsource/TRACKING 9927122383754/wx/21.3,988.9,97.9,0.0 9927122383759/cable/+1.0860970E-02 9927122383803/fmout-gps/S 1.8119E-07 9927122383809/ifd/16,19,nor,nor,rem,15823,6090 9927122383815/if3/6,in,2,2,,,present,500.10,rem,lock,37325 9927122383821/vc02/142.99,2.000,u,10,10,rem,lock,21769 9927122383827/vc06/202.89,2.000,u,10,10,rem,lock,24810 9927122383833/vc11/237.99,2.000,u,10,10,rem,lock,9397 9927122383861/tpi/19751,21769,17892,4511,25366,24810,27435,54389,15823,37325 9927122383882/tpi/7941,8327,9397,26850,17228,4875,6090 9927122383883/tsys1/68.4,67.7,66.0,63.0,62.4,56.7,54.8,53.9,64.5,57.6 9927122383884/tsys2/80.4,85.3,86.9,82.1,80.8,81.5,90.4 9927122383884:!271224014 9927122401401:"data stop" 9927122401401:et 9927122401412:!+3s 9927122401714:tape 9927122401723/tape/off,07843,norm,stopped,stop,unlock,ready,rem 9927122401723:postob 9927122401723:source=2201+315,220315.0,314538.3,2000.0,ccw 9927122401800:check2c2 9927122405752?ERROR qg -303 Track 11 parity errors exceed threshold. 9927122405752?ERROR qg -304 Track 11 sync errors exceed threshold. 9927122405752/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927122405752/parity/0,0,0,0,0,261,0,0,0,0,0,0,0,0 9927122411170:nw2c2=12 9927122411226/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122411557:!271224428 9927122432025#trakl#SOURCE_ACQUIRED 9927122442806:preob 9927122442950/onsource/TRACKING 9927122443185/tpical/19073,21285,17513,4443,24878,24605,27287,54214,15448,36758 9927122443205/tpical/9251,9701,10668,31638,20029,5603,6955 9927122443211:!271224438 9927122443801:tape 9927122443810/tape/off,07847,norm,stopped,stop,unlock,ready,rem 9927122443810:st=rev,135 9927122443821:"data start" 9927122443821:midob 9927122443899/onsource/TRACKING 9927122443901/wx/21.2,988.9,98.5,0.0 9927122443939/cable/+1.0859464E-02 9927122444004/fmout-gps/S 1.8203E-07 9927122444009/ifd/16,19,nor,nor,rem,13818,6022 9927122444015/if3/6,in,2,2,,,present,500.10,rem,lock,32345 9927122444021/vc02/142.99,2.000,u,10,10,rem,lock,19173 9927122444027/vc06/202.89,2.000,u,10,10,rem,lock,21651 9927122444033/vc11/237.99,2.000,u,10,10,rem,lock,9080 9927122444061/tpi/17217,19173,15731,4029,22123,21651,23803,47327,13818,32345 9927122444081/tpi/7919,8245,9080,26456,16757,4747,6022 9927122444083/tsys1/62.8,61.0,59.9,54.1,55.2,49.7,47.5,47.6,57.8,50.9 9927122444083/tsys2/85.4,81.7,83.2,78.9,78.1,77.6,87.8 9927122444083:!271224616 9927122461601:"data stop" 9927122461601:et 9927122461612:!+3s 9927122461914:tape 9927122461923/tape/off,06754,norm,stopped,stop,unlock,ready,rem 9927122461923:postob 9927122461923:source=2145+067,214805.5,065738.6,2000.0,neutral 9927122461950:nw2c2=12 9927122462003/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122462330:!271224923 9927122472775#trakl#SOURCE_ACQUIRED 9927122492301:preob 9927122492399/onsource/TRACKING 9927122492634/tpical/19379,21515,17707,4487,25115,24796,27488,54664,15636,37133 9927122492654/tpical/9299,9758,10768,31813,20209,5644,6981 9927122492661:!271224933 9927122493301:tape 9927122493311/tape/off,06754,norm,stopped,stop,unlock,ready,rem 9927122493311:st=rev,135 9927122493322:"data start" 9927122493322:midob 9927122493350/onsource/TRACKING 9927122493352/wx/21.1,988.8,98.8,0.0 9927122493387/cable/+1.0859993E-02 9927122493404/fmout-gps/S 1.8209E-07 9927122493410/ifd/16,19,nor,nor,rem,14022,6058 9927122493415/if3/6,in,2,2,,,present,500.10,rem,lock,32781 9927122493421/vc02/142.99,2.000,u,10,10,rem,lock,19438 9927122493427/vc06/202.89,2.000,u,10,10,rem,lock,21897 9927122493433/vc11/237.99,2.000,u,10,10,rem,lock,9186 9927122493461/tpi/17521,19438,15935,4084,22397,21897,24088,47968,14022,32781 9927122493481/tpi/7972,8314,9186,26712,16946,4798,6058 9927122493483/tsys1/63.9,62.9,61.0,56.5,56.7,51.2,49.3,49.7,59.3,52.3 9927122493483/tsys2/86.4,83.2,84.5,80.9,79.3,79.5,89.3 9927122493483:!271225111 9927122511101:"data stop" 9927122511101:et 9927122511112:!+3s 9927122511414:tape 9927122511423/tape/off,05661,norm,stopped,stop,unlock,ready,rem 9927122511423:postob 9927122511423:source=0133+476,013658.6,475129.1,2000.0,ccw 9927122511550:nw2c2=12 9927122511603/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122511928:!271225430 9927122540374#trakl#SOURCE_ACQUIRED 9927122543001:preob 9927122543151/onsource/TRACKING 9927122543386/tpical/20236,22328,18209,4578,25816,25445,28340,56449,16137,38275 9927122543407/tpical/9411,9900,10916,32329,20443,5708,7055 9927122543414:!271225440 9927122544001:tape 9927122544011/tape/off,05661,norm,stopped,stop,unlock,ready,rem 9927122544011:st=rev,135 9927122544022:"data start" 9927122544022:midob 9927122544150/onsource/TRACKING 9927122544152/wx/21.1,988.6,96.2,4.3 9927122544167/cable/+1.0856558E-02 9927122544203/fmout-gps/S 1.8209E-07 9927122544209/ifd/16,19,nor,nor,rem,14439,6134 9927122544215/if3/6,in,2,2,,,present,500.10,rem,lock,33758 9927122544221/vc02/142.99,2.000,u,10,10,rem,lock,20089 9927122544227/vc06/202.89,2.000,u,10,10,rem,lock,22503 9927122544233/vc11/237.99,2.000,u,10,10,rem,lock,9333 9927122544261/tpi/18263,20089,16362,4157,22979,22503,24798,49446,14439,33758 9927122544281/tpi/8107,8496,9333,27158,17241,4864,6134 9927122544282/tsys1/62.8,60.4,60.1,55.3,55.7,51.9,48.7,49.0,58.1,51.9 9927122544283/tsys2/89.5,87.5,85.9,81.2,82.2,80.9,90.8 9927122544283:!271225618 9927122561149;"op=norm servant until 23:00 ut. 9927122561450;wx 9927122561452/wx/21.1,988.6,98.2,3.4 9927122561801:"data stop" 9927122561801:et 9927122561812:!+3s 9927122562114:tape 9927122562123/tape/off,04568,norm,stopped,stop,unlock,ready,rem 9927122562123:postob 9927122562123:source=3c446,222547.3,-045701.4,2000.0,neutral 9927122562200:nw2c2=12 9927122562253/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927122562578:!271230242 9927122563064;"wx,overcast,lite breeze. 9927122563304;rxmon 9927122563313/rx/02(lo),on,a,on,on,on,off,locked,48.29 9927122563322/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927122563331/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927122563340/rx/17(pres),on,a,on,on,on,off,locked,5.074 9927122563349/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927122563359/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927122565133;"rxtemps 20k=29.07 70k=56.27 9927122590575#trakl#SOURCE_ACQUIRED 9927123024201:preob 9927123024299/onsource/TRACKING 9927123024534/tpical/21108,23231,19019,4778,27153,26758,29703,59280,16890,40289 9927123024554/tpical/9602,10156,11207,33304,21116,5877,7255 9927123024561:!271230252 9927123025201:tape 9927123025209/tape/off,04568,norm,stopped,stop,unlock,ready,rem 9927123025217:st=rev,135 9927123025227:"data start" 9927123025228:midob 9927123025300/onsource/TRACKING 9927123025302/wx/20.9,988.6,99.1,0.0 9927123025307/cable/+1.0856896E-02 9927123025403/fmout-gps/S 1.8217E-07 9927123025409/ifd/16,19,nor,nor,rem,15307,6323 9927123025415/if3/6,in,2,2,,,present,500.10,rem,lock,36004 9927123025421/vc02/142.99,2.000,u,10,10,rem,lock,21162 9927123025427/vc06/202.89,2.000,u,10,10,rem,lock,23971 9927123025433/vc11/237.99,2.000,u,10,10,rem,lock,9612 9927123025461/tpi/19275,21162,17322,4391,24513,23971,26363,52623,15307,36004 9927123025481/tpi/8277,8706,9612,28157,17848,5031,6323 9927123025482/tsys1/71.5,69.0,69.4,64.4,63.9,58.5,54.9,54.8,66.1,58.4 9927123025483/tsys2/90.1,87.0,88.0,84.6,83.4,83.8,92.9 9927123025483:!271230430 9927123043001:"data stop" 9927123043001:et 9927123043012:!+3s 9927123043314:tape 9927123043323/tape/off,03476,norm,stopped,stop,unlock,ready,rem 9927123043323:postob 9927123043323:source=2136+141,213901.3,142336.0,2000.0,neutral 9927123043354:nw2c2=12 9927123043407/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123043733:!271230707 9927123064425#trakl#SOURCE_ACQUIRED 9927123070701:preob 9927123070801/onsource/TRACKING 9927123071036/tpical/18524,20347,16650,4269,23719,23490,26027,51858,14750,35094 9927123071075/tpical/9190,9668,10638,31389,19868,5565,6886 9927123071087:!271230717 9927123071701:tape 9927123071710/tape/off,03476,norm,stopped,stop,unlock,ready,rem 9927123071710:st=rev,135 9927123071721:"data start" 9927123071721:midob 9927123071851/onsource/TRACKING 9927123071853/wx/20.9,988.5,99.4,0.0 9927123071876/cable/+1.0858630E-02 9927123071903/fmout-gps/S 1.8162E-07 9927123071909/ifd/16,19,nor,nor,rem,13089,5951 9927123071915/if3/6,in,2,2,,,present,500.10,rem,lock,30602 9927123071921/vc02/142.99,2.000,u,10,10,rem,lock,18245 9927123071927/vc06/202.89,2.000,u,10,10,rem,lock,20485 9927123071933/vc11/237.99,2.000,u,10,10,rem,lock,9047 9927123071961/tpi/16560,18245,14825,3860,20940,20485,22519,44898,13089,30602 9927123071981/tpi/7841,8179,9047,26189,16604,4699,5951 9927123071982/tsys1/57.1,58.2,55.0,51.9,51.8,46.1,44.6,44.7,53.7,47.3 9927123071983/tsys2/83.4,79.2,82.7,77.8,77.6,75.8,86.4 9927123071983:!271230855 9927123085501:"data stop" 9927123085501:et 9927123085512:!+3s 9927123085814:tape 9927123085823/tape/off,02383,norm,stopped,stop,unlock,ready,rem 9927123085823:postob 9927123085823:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927123085950:nw2c2=12 9927123090002/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123090326:!271231259 9927123105827#trakl#SOURCE_ACQUIRED 9927123125901:preob 9927123130001/onsource/TRACKING 9927123130236/tpical/18574,20375,16676,4269,23797,23518,26123,52130,14773,35249 9927123130256/tpical/8813,9236,10547,30665,19603,5496,6765 9927123130263:!271231309 9927123130901:tape 9927123130910/tape/off,02383,norm,stopped,stop,unlock,ready,rem 9927123130911:st=rev,135 9927123130921:"data start" 9927123130921:midob 9927123131000/onsource/TRACKING 9927123131002/wx/20.8,988.5,99.0,0.0 9927123131012/cable/+1.0859167E-02 9927123131104/fmout-gps/S 1.8211E-07 9927123131110/ifd/16,19,nor,nor,rem,13153,5863 9927123131116/if3/6,in,2,2,,,present,500.10,rem,lock,30866 9927123131121/vc02/142.99,2.000,u,10,10,rem,lock,18267 9927123131127/vc06/202.89,2.000,u,10,10,rem,lock,20611 9927123131133/vc11/237.99,2.000,u,10,10,rem,lock,8988 9927123131161/tpi/16666,18267,14887,3868,21117,20611,22647,45287,13153,30866 9927123131181/tpi/7557,7862,8988,25632,16413,4660,5863 9927123131183/tsys1/59.1,58.1,56.3,53.1,54.1,48.0,45.3,45.9,55.3,48.9 9927123131183/tsys2/86.1,82.3,83.8,78.7,78.5,77.8,88.0 9927123131183:!271231447 9927123144701:"data stop" 9927123144701:et 9927123144712:!+3s 9927123145014:tape 9927123145023/tape/off,01290,norm,stopped,stop,unlock,ready,rem 9927123145023:postob 9927123145023:source=0955+476,095819.7,472507.8,2000.0,neutral 9927123145100:nw2c2=12 9927123145153/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927123145477:!271232152 9927123205625#trakl#SOURCE_ACQUIRED 9927123215201:preob 9927123215351/onsource/TRACKING 9927123215586/tpical/21265,23449,19187,4821,27429,27059,29905,59734,17043,40682 9927123215606/tpical/9490,10036,11174,33187,21072,5885,7252 9927123215613:!271232202 9927123220201:tape 9927123220209/tape/off,01290,norm,stopped,stop,unlock,ready,rem 9927123220210:st=rev,135 9927123220221:"data start" 9927123220221:midob 9927123220301/onsource/TRACKING 9927123220303/wx/21.0,988.6,98.0,0.0 9927123220327/cable/+1.0858197E-02 9927123220403/fmout-gps/S 1.8203E-07 9927123220409/ifd/16,19,nor,nor,rem,15428,6329 9927123220415/if3/6,in,2,2,,,present,500.10,rem,lock,36321 9927123220421/vc02/142.99,2.000,u,10,10,rem,lock,21361 9927123220427/vc06/202.89,2.000,u,10,10,rem,lock,24215 9927123220433/vc11/237.99,2.000,u,10,10,rem,lock,9599 9927123220461/tpi/19365,21361,17440,4423,24740,24215,26523,52978,15428,36321 9927123220480/tpi/8173,8609,9599,28078,17870,5039,6329 9927123220482/tsys1/69.3,69.0,67.9,63.2,63.3,57.9,54.5,54.4,65.3,57.9 9927123220482/tsys2/89.4,87.4,89.0,85.0,85.3,83.9,93.9 9927123220482:!271232340 9927123234001:"data stop" 9927123234001:et 9927123234012:!+3s 9927123234314:tape 9927123234323/tape/off,00197,norm,stopped,stop,unlock,ready,rem 9927123234323:postob 9927123234323:source=1606+106,160846.2,102907.8,2000.0,neutral 9927123234452:midtp 9927123234687/tpzero/500,707,450,817,341,622,92,315,311,150 9927123234707/tpzero/628,623,625,266,378,489,772 9927123234723/rx/02(lo),on,a,on,on,on,off,locked,48.16 9927123234732/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927123234741/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927123234751/rx/17(pres),on,a,on,on,on,off,locked,-1.221 9927123234760/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927123234769/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927123234769:nw2c1=13 9927123234955/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123235281:!271232740 9927123271975#trakl#SOURCE_ACQUIRED 9927123274001:preob 9927123274053/onsource/TRACKING 9927123274288/tpical/18316,20385,16633,4252,23607,23306,25861,51427,14694,34832 9927123274308/tpical/8948,9424,10521,30968,19840,5532,6817 9927123274315:!271232750 9927123275007:tape 9927123275035/tape/off,00197,norm,stopped,stop,unlock,ready,rem 9927123275035:st=for,135 9927123275059:"data start" 9927123275059:midob 9927123275106/onsource/TRACKING 9927123275108/wx/20.9,988.6,98.2,0.0 9927123275139/cable/+1.0858148E-02 9927123275204/fmout-gps/S 1.8219E-07 9927123275209/ifd/16,19,nor,nor,rem,13073,5902 9927123275215/if3/6,in,2,2,,,present,500.10,rem,lock,30485 9927123275221/vc02/142.99,2.000,u,10,10,rem,lock,18233 9927123275227/vc06/202.89,2.000,u,10,10,rem,lock,20407 9927123275233/vc11/237.99,2.000,u,10,10,rem,lock,8944 9927123275261/tpi/16430,18233,14849,3846,20888,20407,22426,44638,13073,30485 9927123275281/tpi/7672,8010,8944,25918,16576,4689,5902 9927123275283/tsys1/59.0,56.8,56.3,52.1,52.7,47.6,45.4,45.6,55.0,48.7 9927123275283/tsys2/86.2,81.5,82.3,79.3,77.5,77.8,87.5 9927123275283:!271232928 9927123292801:"data stop" 9927123292801:et 9927123292812:!+3s 9927123293114:tape 9927123293123/tape/off,01286,norm,stopped,stop,unlock,ready,rem 9927123293123:postob 9927123293123:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927123293200:check2c1 9927123301165?ERROR qg -303 Track 11 parity errors exceed threshold. 9927123301165?ERROR qg -305 AUX data differs from expected value on track 11. 9927123301165?ERROR qg -304 Track 11 sync errors exceed threshold. 9927123301165/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927123301165/parity/0,0,0,0,0,212,0,0,0,0,0,0,0,0 9927123302571:nw2c1=13 9927123302635/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123302960:!271233212 9927123320225#trakl#SOURCE_ACQUIRED 9927123321201:preob 9927123321300/onsource/TRACKING 9927123321535/tpical/19239,21140,17276,4399,24657,24371,27044,53917,15345,36570 9927123321555/tpical/9060,9588,10839,31526,20242,5665,6954 9927123321562:!271233222 9927123322201:tape 9927123322211/tape/off,01281,norm,stopped,stop,unlock,ready,rem 9927123322211:st=for,135 9927123322222:"data start" 9927123322222:midob 9927123322352/onsource/TRACKING 9927123322354/wx/20.9,988.5,98.3,0.0 9927123322391/cable/+1.0856493E-02 9927123322404/fmout-gps/S 1.8115E-07 9927123322410/ifd/16,19,nor,nor,rem,13714,6037 9927123322416/if3/6,in,2,2,,,present,500.10,rem,lock,32168 9927123322421/vc02/142.99,2.000,u,10,10,rem,lock,19023 9927123322427/vc06/202.89,2.000,u,10,10,rem,lock,21424 9927123322433/vc11/237.99,2.000,u,10,10,rem,lock,9256 9927123322461/tpi/17356,19023,15489,3996,21952,21424,23559,47018,13714,32168 9927123322481/tpi/7786,8183,9256,26576,17048,4824,6037 9927123322483/tsys1/62.5,60.4,58.7,55.1,55.8,49.3,47.0,47.3,57.4,50.8 9927123322483/tsys2/87.7,84.0,85.1,83.0,81.5,80.5,89.6 9927123322483:!271233400 9927123340001:"data stop" 9927123340001:et 9927123340012:!+3s 9927123340314:tape 9927123340322/tape/off,02374,norm,stopped,stop,unlock,ready,rem 9927123340323:postob 9927123340323:source=1622-253,162546.9,-252738.3,2000.0,neutral 9927123340400:nw2c1=13 9927123340453/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123340777:!271233613 9927123344913;op=j. lafrance 9927123353926#trakl#SOURCE_ACQUIRED 9927123361301:preob 9927123361401/onsource/TRACKING 9927123361636/tpical/21822,24016,19789,4936,28273,27895,30998,61838,17549,42021 9927123361656/tpical/9475,10016,11349,33444,21444,5985,7294 9927123361663:!271233623 9927123362301:tape 9927123362309/tape/off,02374,norm,stopped,stop,unlock,ready,rem 9927123362310:st=for,135 9927123362320:"data start" 9927123362320:midob 9927123362399/onsource/TRACKING 9927123362401/wx/20.7,988.5,98.9,0.0 9927123362439/cable/+1.0856953E-02 9927123362503/fmout-gps/S 1.8072E-07 9927123362509/ifd/16,19,nor,nor,rem,15934,6390 9927123362515/if3/6,in,2,2,,,present,500.10,rem,lock,37641 9927123362521/vc02/142.99,2.000,u,10,10,rem,lock,21918 9927123362527/vc06/202.89,2.000,u,10,10,rem,lock,25006 9927123362533/vc11/237.99,2.000,u,10,10,rem,lock,9796 9927123362561/tpi/19893,21918,18030,4532,25536,25006,27641,55077,15934,37641 9927123362580/tpi/8221,8647,9796,28496,18248,5139,6390 9927123362582/tsys1/70.2,70.6,69.8,64.2,64.3,58.9,57.3,56.5,67.5,59.7 9927123362582/tsys2/94.5,91.5,92.2,89.1,87.3,85.8,97.0 9927123362583:!271233801 9927123380101:"data stop" 9927123380101:et 9927123380112:!+3s 9927123380414:tape 9927123380423/tape/off,03467,norm,stopped,stop,unlock,ready,rem 9927123380423:postob 9927123380423:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927123380500:nw2c1=13 9927123380553/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123380877:!271234128 9927123405775#trakl#SOURCE_ACQUIRED 9927123412801:preob 9927123412951/onsource/TRACKING 9927123413186/tpical/19617,21596,17669,4481,25289,24879,27593,55105,15665,37380 9927123413206/tpical/9028,9554,10768,31515,20227,5654,6925 9927123413213:!271234138 9927123413801:tape 9927123413810/tape/off,03467,norm,stopped,stop,unlock,ready,rem 9927123413810:st=for,135 9927123413821:"data start" 9927123413821:midob 9927123413899/onsource/TRACKING 9927123413901/wx/20.6,988.5,99.2,0.0 9927123413939/cable/+1.0856617E-02 9927123414003/fmout-gps/S 1.8205E-07 9927123414009/ifd/16,19,nor,nor,rem,14042,6024 9927123414015/if3/6,in,2,2,,,present,500.10,rem,lock,33002 9927123414020/vc02/142.99,2.000,u,10,10,rem,lock,19479 9927123414026/vc06/202.89,2.000,u,10,10,rem,lock,22016 9927123414032/vc11/237.99,2.000,u,10,10,rem,lock,9604 9927123414060/tpi/17701,19479,15910,4075,22550,22016,24169,48294,14042,33002 9927123414080/tpi/7757,8147,9604,26443,17014,4806,6024 9927123414082/tsys1/62.7,61.9,61.3,56.0,56.6,52.2,49.1,49.2,59.1,52.4 9927123414082/tsys2/87.6,83.5,120.4,80.6,80.8,79.5,91.0 9927123414083:!271234329 9927123432901:"data stop" 9927123432901:et 9927123432912:!+3s 9927123433215:tape 9927123433224/tape/off,04706,norm,stopped,stop,unlock,ready,rem 9927123433224:postob 9927123433224:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927123433255:nw2c1=13 9927123433308/pass/13,13,auto,0.0,0.0,-0.3,-0.5,-0.3,-0.5 9927123433634:!271234542 9927123445574#trakl#SOURCE_ACQUIRED 9927123454201:preob 9927123454299/onsource/TRACKING 9927123454534/tpical/18436,20300,16645,4261,23752,23441,26038,51811,14740,35151 9927123454554/tpical/8935,9334,10609,30968,19809,5544,6826 9927123454561:!271234552 9927123455201:tape 9927123455210/tape/off,04706,norm,stopped,stop,unlock,ready,rem 9927123455211:st=for,135 9927123455221:"data start" 9927123455221:midob 9927123455252/onsource/TRACKING 9927123455254/wx/20.6,988.5,98.8,0.0 9927123455284/cable/+1.0857125E-02 9927123455303/fmout-gps/S 1.8158E-07 9927123455309/ifd/16,19,nor,nor,rem,13136,5911 9927123455315/if3/6,in,2,2,,,present,500.10,rem,lock,30767 9927123455321/vc02/142.99,2.000,u,10,10,rem,lock,18232 9927123455327/vc06/202.89,2.000,u,10,10,rem,lock,20517 9927123455333/vc11/237.99,2.000,u,10,10,rem,lock,9033 9927123455361/tpi/16582,18232,14897,3857,21005,20517,22611,45069,13136,30767 9927123455381/tpi/7638,7941,9033,25878,16569,4698,5911 9927123455382/tsys1/60.5,59.2,57.7,52.5,52.5,47.5,45.9,46.3,55.8,48.7 9927123455383/tsys2/84.4,82.0,83.3,78.5,78.0,77.7,87.7 9927123455383:!271235211 9927123521101:"data stop" 9927123521101:et 9927123521112:!+3s 9927123521414:tape 9927123521423/tape/off,08960,norm,stopped,stop,unlock,ready,rem 9927123521423:postob 9927123521423:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927123521500:midtp 9927123521736/tpzero/506,707,448,816,345,624,100,314,310,149 9927123521756/tpzero/629,628,620,266,382,492,773 9927123521772/rx/02(lo),on,a,on,on,on,off,locked,48.04 9927123521782/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927123521791/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927123521800/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927123521810/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927123521819/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927123521819:nw2c2=14 9927123521982/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123522309:!271235325 9927123525774#trakl#SOURCE_ACQUIRED 9927123532501:preob 9927123532553/onsource/TRACKING 9927123532788/tpical/19284,21203,17359,4407,24701,24367,26990,53794,15415,36585 9927123532808/tpical/9101,9503,10818,31750,20333,5680,6965 9927123532815:!271235335 9927123533501:tape 9927123533510/tape/off,08960,norm,stopped,stop,unlock,ready,rem 9927123533510:st=rev,135 9927123533521:"data start" 9927123533521:midob 9927123533650/onsource/TRACKING 9927123533652/wx/20.4,988.4,99.0,0.0 9927123533687/cable/+1.0857246E-02 9927123533703/fmout-gps/S 1.8033E-07 9927123533709/ifd/16,19,nor,nor,rem,13765,6051 9927123533715/if3/6,in,2,2,,,present,500.10,rem,lock,32178 9927123533721/vc02/142.99,2.000,u,10,10,rem,lock,19038 9927123533727/vc06/202.89,2.000,u,10,10,rem,lock,21445 9927123533733/vc11/237.99,2.000,u,10,10,rem,lock,9260 9927123533761/tpi/17379,19038,15565,4003,21995,21445,23587,47007,13765,32178 9927123533781/tpi/7817,8110,9260,26652,17111,4833,6051 9927123533783/tsys1/61.8,59.1,58.8,55.1,55.8,49.7,48.2,48.0,56.9,50.7 9927123533783/tsys2/87.4,83.8,86.6,80.8,81.0,80.0,90.1 9927123533783:!271235513 9927123551301:"data stop" 9927123551301:et 9927123551312:!+3s 9927123551614:tape 9927123551623/tape/off,07867,norm,stopped,stop,unlock,ready,rem 9927123551623:postob 9927123551623:source=2243-123,224618.2,-120651.3,2000.0,neutral 9927123551700:check2c2 9927123555657?ERROR qg -303 Track 11 parity errors exceed threshold. 9927123555657?ERROR qg -305 AUX data differs from expected value on track 11. 9927123555657?ERROR qg -304 Track 11 sync errors exceed threshold. 9927123555657/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927123555657/parity/0,0,0,0,0,204,0,0,0,0,0,0,0,0 9927123561068:nw2c2=14 9927123561121/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123561446:!271235739 9927123573126#trakl#SOURCE_ACQUIRED 9927123573901:preob 9927123574001/onsource/TRACKING 9927123574236/tpical/20521,22656,18576,4668,26476,26106,28945,57813,16465,39268 9927123574256/tpical/9431,9915,10994,32588,20769,5787,7125 9927123574263:!271235749 9927123574901:tape 9927123574910/tape/off,07870,norm,stopped,stop,unlock,ready,rem 9927123574910:st=rev,135 9927123574921:"data start" 9927123574921:midob 9927123575051/onsource/TRACKING 9927123575053/wx/20.2,988.4,99.7,0.0 9927123575067/cable/+1.0855658E-02 9927123575103/fmout-gps/S 1.8139E-07 9927123575108/ifd/16,19,nor,nor,rem,14857,6200 9927123575114/if3/6,in,2,2,,,present,500.10,rem,lock,34888 9927123575120/vc02/142.99,2.000,u,10,10,rem,lock,20511 9927123575126/vc06/202.89,2.000,u,10,10,rem,lock,23177 9927123575132/vc11/237.99,2.000,u,10,10,rem,lock,9422 9927123575160/tpi/18653,20511,16775,4269,23784,23177,25553,50975,14857,34888 9927123575180/tpi/8119,8479,9422,27478,17524,4939,6200 9927123575181/tsys1/67.8,64.4,63.3,60.4,60.8,53.7,52.4,51.7,63.1,55.4 9927123575182/tsys2/89.1,85.3,87.4,83.1,82.5,81.9,91.6 9927123575182:!271235927 9927123592701:"data stop" 9927123592701:et 9927123592712:!+3s 9927123593014:tape 9927123593023/tape/off,06777,norm,stopped,stop,unlock,ready,rem 9927123593024:postob 9927123593024:source=0019+058,002232.4,060804.3,2000.0,neutral 9927123593055:nw2c2=14 9927123593108/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927123593433:!272000317 9927200005525#trakl#SOURCE_ACQUIRED 9927200031701:preob 9927200031801/onsource/TRACKING 9927200032036/tpical/20561,22632,18618,4678,26514,26137,28983,57785,16486,39332 9927200032056/tpical/9525,10079,11095,32919,20867,5818,7206 9927200032063:!272000327 9927200032701:tape 9927200032709/tape/off,06777,norm,stopped,stop,unlock,ready,rem 9927200032710:st=rev,135 9927200032721:"data start" 9927200032721:midob 9927200032801/onsource/TRACKING 9927200032805/wx/20.1,988.5,100.0,0.0 9927200032835/cable/+1.0853977E-02 9927200032903/fmout-gps/S 1.8164E-07 9927200032909/ifd/16,19,nor,nor,rem,14867,6272 9927200032915/if3/6,in,2,2,,,present,500.10,rem,lock,34942 9927200032921/vc02/142.99,2.000,u,10,10,rem,lock,20519 9927200032927/vc06/202.89,2.000,u,10,10,rem,lock,23205 9927200032933/vc11/237.99,2.000,u,10,10,rem,lock,9508 9927200032961/tpi/18647,20519,16823,4277,23809,23205,25545,51063,14867,34942 9927200032981/tpi/8201,8623,9508,27787,17622,4963,6272 9927200032982/tsys1/66.2,65.4,63.7,60.2,60.5,53.8,51.7,52.7,62.8,55.3 9927200032983/tsys2/89.3,85.7,87.4,83.7,82.9,81.6,91.9 9927200032983:!272000900 9927200090001:"data stop" 9927200090001:et 9927200090012:!+3s 9927200090314:tape 9927200090322/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927200090323:postob 9927200090323:source=0133+476,013658.6,475129.1,2000.0,ccw 9927200090452:nw2c2=14 9927200090505/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927200090926:!272001228 9927200110025#trakl#SOURCE_ACQUIRED 9927200122801:preob 9927200122853/onsource/TRACKING 9927200123089/tpical/18834,20726,16889,4301,23941,23656,26256,52437,14964,35476 9927200123108/tpical/9302,9803,10794,31945,20198,5648,6994 9927200123115:!272001238 9927200123802:tape 9927200123814/tape/off,03040,norm,stopped,stop,unlock,ready,rem 9927200123814:st=rev,135 9927200123831:"data start" 9927200123831:midob 9927200123899/onsource/TRACKING 9927200123901/wx/19.9,988.5,100.0,0.0 9927200123915/cable/+1.0852858E-02 9927200124003/fmout-gps/S 1.8193E-07 9927200124009/ifd/16,19,nor,nor,rem,13331,6051 9927200124015/if3/6,in,2,2,,,present,500.10,rem,lock,31068 9927200124021/vc02/142.99,2.000,u,10,10,rem,lock,18595 9927200124027/vc06/202.89,2.000,u,10,10,rem,lock,20723 9927200124033/vc11/237.99,2.000,u,10,10,rem,lock,9179 9927200124061/tpi/16922,18595,15098,3896,21207,20723,22817,45563,13331,31068 9927200124081/tpi/7951,8310,9179,26724,16904,4779,6051 9927200124082/tsys1/59.9,58.6,57.1,53.1,53.3,47.8,46.1,45.9,55.7,49.0 9927200124083/tsys2/84.6,80.3,82.7,79.1,78.3,77.0,87.4 9927200124083:!272001416 9927200141601:"data stop" 9927200141601:et 9927200141612:!+3s 9927200141914:tape 9927200141923/tape/off,01948,norm,stopped,stop,unlock,ready,rem 9927200141923:postob 9927200141923:source=2201+315,220315.0,314538.3,2000.0,neutral 9927200141950:nw2c2=14 9927200142003/pass/14,14,auto,0.0,0.0,1.0,-0.0,1.0,-0.0 9927200142330:!272001719 9927200165124#trakl#SOURCE_ACQUIRED 9927200171901:preob 9927200172001/onsource/TRACKING 9927200172236/tpical/18266,20341,16556,4243,23418,23175,25658,50973,14647,34611 9927200172256/tpical/9254,9713,10692,31671,20019,5590,6956 9927200172263:!272001729 9927200172901:tape 9927200172910/tape/off,01948,norm,stopped,stop,unlock,ready,rem 9927200172910:st=rev,135 9927200172921:"data start" 9927200172921:midob 9927200172999/onsource/TRACKING 9927200173022/wx/19.8,988.5,100.0,0.0 9927200173039/cable/+1.0853846E-02 9927200173103/fmout-gps/S 1.8139E-07 9927200173109/ifd/16,19,nor,nor,rem,13000,6016 9927200173115/if3/6,in,2,2,,,present,500.10,rem,lock,30192 9927200173121/vc02/142.99,2.000,u,10,10,rem,lock,18188 9927200173127/vc06/202.89,2.000,u,10,10,rem,lock,20221 9927200173133/vc11/237.99,2.000,u,10,10,rem,lock,9098 9927200173161/tpi/16386,18188,14735,3837,20679,20221,22182,44107,13000,30192 9927200173181/tpi/7924,8240,9098,26468,16740,4730,6016 9927200173182/tsys1/59.0,56.7,54.8,51.9,51.8,46.3,44.3,44.5,53.8,47.5 9927200173183/tsys2/85.6,80.7,83.0,78.6,77.9,76.9,87.1 9927200173183:!272001907 9927200190701:"data stop" 9927200190701:et 9927200190712:!+3s 9927200191014:tape 9927200191023/tape/off,00855,norm,stopped,stop,unlock,ready,rem 9927200191023:postob 9927200191023:source=2145+067,214805.5,065738.6,2000.0,neutral 9927200191100:midtp 9927200191336/tpzero/504,707,452,816,332,621,84,316,322,149 9927200191355/tpzero/634,627,623,268,381,494,786 9927200191371/rx/02(lo),on,a,on,on,on,off,locked,48.04 9927200191381/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200191390/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927200191399/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927200191408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927200191418/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200191418:nw2c1=15 9927200191588/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200191913:fastr=0m32s 9927200195141:!272002214 9927200202725#trakl#SOURCE_ACQUIRED 9927200221401:preob 9927200221499/onsource/TRACKING 9927200221734/tpical/18371,20449,16762,4277,23730,23526,25978,51740,14779,35047 9927200221754/tpical/9111,9555,10582,31248,19769,5528,6873 9927200221761:!272002224 9927200222401:tape 9927200222410/tape/off,00148,norm,stopped,stop,unlock,ready,rem 9927200222410:st=for,135 9927200222421:"data start" 9927200222421:midob 9927200222551/onsource/TRACKING 9927200222553/wx/19.8,988.5,100.0,0.0 9927200222560/cable/+1.0856231E-02 9927200222603/fmout-gps/S 1.8164E-07 9927200222609/ifd/16,19,nor,nor,rem,13194,5945 9927200222615/if3/6,in,2,2,,,present,500.10,rem,lock,30753 9927200222621/vc02/142.99,2.000,u,10,10,rem,lock,18406 9927200222627/vc06/202.89,2.000,u,10,10,rem,lock,20657 9927200222633/vc11/237.99,2.000,u,10,10,rem,lock,9006 9927200222661/tpi/16552,18406,15000,3879,21050,20657,22595,45068,13194,30753 9927200222681/tpi/7791,8111,9006,26145,16510,4681,5945 9927200222682/tsys1/61.6,60.5,57.6,53.7,54.0,48.7,46.4,46.8,56.7,49.7 9927200222683/tsys2/84.6,80.9,83.0,79.2,77.3,77.2,86.8 9927200222683:!272002402 9927200240201:"data stop" 9927200240201:et 9927200240212:!+3s 9927200240514:tape 9927200240523/tape/off,01241,norm,stopped,stop,unlock,ready,rem 9927200240523:postob 9927200240523:source=3c446,222547.3,-045701.4,2000.0,neutral 9927200240550:check2c1 9927200244556?ERROR qg -303 Track 11 parity errors exceed threshold. 9927200244556?ERROR qg -305 AUX data differs from expected value on track 11. 9927200244556?ERROR qg -304 Track 11 sync errors exceed threshold. 9927200244556/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927200244557/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927200245918:nw2c1=15 9927200245971/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200250296:!272002615 9927200250574#trakl#SOURCE_ACQUIRED 9927200261501:preob 9927200261599/onsource/TRACKING 9927200261834/tpical/19050,21207,17370,4382,24572,24259,26906,53576,15315,36350 9927200261854/tpical/9282,9763,10790,31953,20164,5632,6989 9927200261860:!272002625 9927200262501:tape 9927200262510/tape/off,01236,norm,stopped,stop,unlock,ready,rem 9927200262510:st=for,135 9927200262521:"data start" 9927200262521:midob 9927200262599/onsource/TRACKING 9927200262601/wx/19.7,988.4,99.3,0.0 9927200262607/cable/+1.0854542E-02 9927200262703/fmout-gps/S 1.8186E-07 9927200262709/ifd/16,19,nor,nor,rem,13712,6062 9927200262715/if3/6,in,2,2,,,present,500.10,rem,lock,32021 9927200262721/vc02/142.99,2.000,u,10,10,rem,lock,19093 9927200262727/vc06/202.89,2.000,u,10,10,rem,lock,21398 9927200262732/vc11/237.99,2.000,u,10,10,rem,lock,9214 9927200262760/tpi/17161,19093,15590,3984,21842,21398,23537,46925,13712,32021 9927200262780/tpi/7988,8320,9214,26799,16957,4789,6062 9927200262782/tsys1/61.5,60.7,59.4,55.6,55.0,50.7,48.6,48.9,58.3,51.4 9927200262782/tsys2/88.7,83.2,85.1,80.4,80.7,79.5,88.8 9927200262782:!272002803 9927200280301:"data stop" 9927200280301:et 9927200280312:!+3s 9927200280614:tape 9927200280623/tape/off,02329,norm,stopped,stop,unlock,ready,rem 9927200280623:postob 9927200280623:source=0059+581,010245.8,582411.1,2000.0,ccw 9927200280650:nw2c1=15 9927200280703/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200281028:!272003153 9927200313324#trakl#SOURCE_ACQUIRED 9927200315301:preob 9927200315399/onsource/TRACKING 9927200315635/tpical/18107,20240,16460,4168,23135,22975,25431,50682,14508,34216 9927200315655/tpical/9350,9814,10729,31757,20049,5599,6978 9927200315661:!272003203 9927200315734;wx 9927200315736/wx/19.6,988.4,98.9,0.0 9927200320301:tape 9927200320310/tape/off,02329,norm,stopped,stop,unlock,ready,rem 9927200320311:st=for,135 9927200320322:"data start" 9927200320322:midob 9927200320400/onsource/TRACKING 9927200320402/wx/19.6,988.4,98.9,0.0 9927200320411/cable/+1.0851968E-02 9927200320503/fmout-gps/S 1.8197E-07 9927200320509/ifd/16,19,nor,nor,rem,12877,6027 9927200320515/if3/6,in,2,2,,,present,500.10,rem,lock,29833 9927200320521/vc02/142.99,2.000,u,10,10,rem,lock,18136 9927200320527/vc06/202.89,2.000,u,10,10,rem,lock,20043 9927200320533/vc11/237.99,2.000,u,10,10,rem,lock,9119 9927200320561/tpi/16219,18136,14656,3771,20430,20043,22002,43770,12877,29833 9927200320581/tpi/7981,8334,9119,26501,16752,4732,6027 9927200320583/tsys1/58.1,57.8,55.0,52.0,51.9,46.2,44.6,43.9,53.7,47.3 9927200320583/tsys2/83.8,81.3,82.4,77.9,77.5,76.3,86.0 9927200320583:!272003341 9927200323487;"wx,overcast,light rain, humid, no wind, warm. 9927200323899;rxmon 9927200323908/rx/02(lo),on,a,on,on,on,off,locked,47.92 9927200323918/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200323927/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.515 9927200323936/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927200323945/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927200323955/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200325430;"rxtemps 20k=30.08 70k=56.27 9927200334101:"data stop" 9927200334101:et 9927200334112:!+3s 9927200334414:tape 9927200334423/tape/off,03422,norm,stopped,stop,unlock,ready,rem 9927200334423:postob 9927200334423:source=2136+141,213901.3,142336.0,2000.0,neutral 9927200334450:nw2c1=15 9927200334503/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200334831:!272003739 9927200370827#trakl#SOURCE_ACQUIRED 9927200373901:preob 9927200374001/onsource/TRACKING 9927200374236/tpical/18232,20365,16573,4220,23433,23260,25660,51153,14626,34629 9927200374256/tpical/9128,9548,10506,31084,19573,5483,6826 9927200374263:!272003749 9927200374901:tape 9927200374910/tape/off,03422,norm,stopped,stop,unlock,ready,rem 9927200374911:st=for,135 9927200374921:"data start" 9927200374921:midob 9927200375050/onsource/TRACKING 9927200375052/wx/19.6,988.3,97.0,2.5 9927200375079/cable/+1.0855037E-02 9927200375103/fmout-gps/S 1.8170E-07 9927200375109/ifd/16,19,nor,nor,rem,12989,5895 9927200375114/if3/6,in,2,2,,,present,500.10,rem,lock,30177 9927200375120/vc02/142.99,2.000,u,10,10,rem,lock,18233 9927200375126/vc06/202.89,2.000,u,10,10,rem,lock,20255 9927200375132/vc11/237.99,2.000,u,10,10,rem,lock,8917 9927200375160/tpi/16343,18233,14789,3818,20664,20255,22168,44227,12989,30177 9927200375180/tpi/7801,8103,8917,25886,16340,4623,5895 9927200375182/tsys1/58.5,57.4,56.1,52.1,51.3,45.6,44.1,44.3,54.0,47.1 9927200375182/tsys2/84.3,80.8,81.5,76.9,77.1,74.9,85.7 9927200375182:!272003927 9927200392701:"data stop" 9927200392701:et 9927200392712:!+3s 9927200393014:tape 9927200393024/tape/off,04515,norm,moving,stop,unlock,ready,rem 9927200393024:postob 9927200393024:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927200393151:nw2c1=15 9927200393204/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200393530:!272004359 9927200424074#trakl#SOURCE_ACQUIRED 9927200435901:preob 9927200440051/onsource/TRACKING 9927200440286/tpical/18852,21069,17152,4342,24364,24065,26741,53058,15169,36028 9927200440306/tpical/9112,9593,10856,31832,20257,5662,6971 9927200440312:!272004409 9927200440901:tape 9927200440911/tape/off,04515,norm,stopped,stop,unlock,ready,rem 9927200440911:st=for,135 9927200440922:"data start" 9927200440922:midob 9927200441050/onsource/TRACKING 9927200441052/wx/19.6,988.2,96.3,0.0 9927200441059/cable/+1.0855197E-02 9927200441103/fmout-gps/S 1.8084E-07 9927200441109/ifd/16,19,nor,nor,rem,13541,6051 9927200441115/if3/6,in,2,2,,,present,500.10,rem,lock,31648 9927200441120/vc02/142.99,2.000,u,10,10,rem,lock,18973 9927200441126/vc06/202.89,2.000,u,10,10,rem,lock,21161 9927200441132/vc11/237.99,2.000,u,10,10,rem,lock,9265 9927200441160/tpi/16965,18973,15364,3949,21624,21161,23295,46363,13541,31648 9927200441180/tpi/7821,8189,9265,26720,17025,4814,6051 9927200441182/tsys1/60.9,60.8,58.2,55.6,54.2,49.4,47.0,48.0,56.7,50.2 9927200441182/tsys2/86.9,84.1,84.8,80.8,80.4,79.5,89.3 9927200441182:!272004547 9927200454701:"data stop" 9927200454701:et 9927200454712:!+3s 9927200455014:tape 9927200455023/tape/off,05608,norm,stopped,stop,unlock,ready,rem 9927200455023:postob 9927200455023:source=1726+455,172727.7,453039.7,2000.0,neutral 9927200455052:nw2c1=15 9927200455105/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200455433:!272005026 9927200485074#trakl#SOURCE_ACQUIRED 9927200502601:preob 9927200502701/onsource/TRACKING 9927200502936/tpical/18309,20415,16617,4255,23463,23315,25789,51226,14700,34753 9927200502956/tpical/9208,9652,10647,31640,19963,5582,6957 9927200502963:!272005036 9927200503601:tape 9927200503610/tape/off,05608,norm,stopped,stop,unlock,ready,rem 9927200503611:st=for,135 9927200503621:"data start" 9927200503621:midob 9927200503650/onsource/TRACKING 9927200503652/wx/19.6,988.1,93.9,0.0 9927200503687/cable/+1.0855672E-02 9927200503703/fmout-gps/S 1.8201E-07 9927200503709/ifd/16,19,nor,nor,rem,13070,6006 9927200503714/if3/6,in,2,2,,,present,500.10,rem,lock,30360 9927200503720/vc02/142.99,2.000,u,10,10,rem,lock,18310 9927200503726/vc06/202.89,2.000,u,10,10,rem,lock,20417 9927200503732/vc11/237.99,2.000,u,10,10,rem,lock,9042 9927200503760/tpi/16440,18310,14819,3851,20756,20417,22378,44380,13070,30360 9927200503780/tpi/7873,8185,9042,26395,16701,4713,6006 9927200503782/tsys1/59.5,58.4,55.8,52.4,52.7,47.7,45.6,44.9,54.6,48.0 9927200503782/tsys2/84.6,80.4,81.9,77.8,78.1,75.8,85.7 9927200503782:!272005214 9927200521401:"data stop" 9927200521401:et 9927200521412:!+3s 9927200521714:tape 9927200521723/tape/off,06701,norm,stopped,stop,unlock,ready,rem 9927200521723:postob 9927200521723:source=da426,165352.2,394536.6,2000.0,neutral 9927200521750:nw2c1=15 9927200521803/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200522130:!272005317 9927200525326#trakl#SOURCE_ACQUIRED 9927200531701:preob 9927200531799/onsource/TRACKING 9927200532034/tpical/18233,20313,16533,4238,23401,23229,25705,51148,14624,34642 9927200532054/tpical/9169,9608,10650,31623,19998,5584,6944 9927200532061:!272005327 9927200532701:tape 9927200532710/tape/off,06701,norm,stopped,stop,unlock,ready,rem 9927200532711:st=for,135 9927200532721:"data start" 9927200532721:midob 9927200532752/onsource/TRACKING 9927200532754/wx/19.7,988.1,92.6,0.0 9927200532786/cable/+1.0856541E-02 9927200532803/fmout-gps/S 1.8191E-07 9927200532809/ifd/16,19,nor,nor,rem,12979,5999 9927200532815/if3/6,in,2,2,,,present,500.10,rem,lock,30205 9927200532821/vc02/142.99,2.000,u,10,10,rem,lock,18174 9927200532827/vc06/202.89,2.000,u,10,10,rem,lock,20307 9927200532833/vc11/237.99,2.000,u,10,10,rem,lock,9054 9927200532861/tpi/16328,18174,14722,3830,20657,20307,22215,44246,12979,30205 9927200532886/tpi/7853,8168,9054,26449,16673,4720,5999 9927200532888/tsys1/58.0,57.0,55.0,51.6,51.7,47.0,44.3,44.4,53.7,47.3 9927200532888/tsys2/85.6,81.7,82.5,79.0,76.5,76.4,86.1 9927200532888:!272005505 9927200550501:"data stop" 9927200550501:et 9927200550512:!+3s 9927200550814:tape 9927200550823/tape/off,07794,norm,stopped,stop,unlock,ready,rem 9927200550823:postob 9927200550823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927200550900:nw2c1=15 9927200550953/pass/15,15,auto,55.0,55.0,56.3,55.8,1.3,0.8 9927200551279:!272005713 9927200570725#trakl#SOURCE_ACQUIRED 9927200571301:preob 9927200571451/onsource/TRACKING 9927200571687/tpical/18366,20530,16707,4262,23701,23457,25953,51607,14777,35004 9927200571706/tpical/9003,9459,10562,31182,19735,5527,6829 9927200571713:!272005723 9927200572301:tape 9927200572310/tape/off,07794,norm,stopped,stop,unlock,ready,rem 9927200572311:st=for,135 9927200572321:"data start" 9927200572321:midob 9927200572450/onsource/TRACKING 9927200572452/wx/19.9,988.0,91.0,0.0 9927200572475/cable/+1.0855290E-02 9927200572503/fmout-gps/S 1.8078E-07 9927200572509/ifd/16,19,nor,nor,rem,13144,5907 9927200572515/if3/6,in,2,2,,,present,500.10,rem,lock,30615 9927200572521/vc02/142.99,2.000,u,10,10,rem,lock,18429 9927200572527/vc06/202.89,2.000,u,10,10,rem,lock,20541 9927200572533/vc11/237.99,2.000,u,10,10,rem,lock,8981 9927200572561/tpi/16501,18429,14928,3859,20965,20541,22518,44775,13144,30615 9927200572581/tpi/7696,8048,8981,25994,16519,4670,5907 9927200572582/tsys1/59.9,58.9,56.8,52.7,52.6,47.7,45.6,45.4,54.8,48.5 9927200572583/tsys2/84.3,82.1,82.5,77.4,78.3,76.1,86.7 9927200572583:!272005901 9927200590101:"data stop" 9927200590101:et 9927200590112:!+3s 9927200590414:tape 9927200590423/tape/off,08886,norm,stopped,stop,unlock,ready,rem 9927200590423:postob 9927200590423:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927200590552:midtp 9927200590787/tpzero/502,710,454,819,330,619,95,317,309,149 9927200590807/tpzero/634,624,628,265,376,490,776 9927200590823/rx/02(lo),on,a,on,on,on,off,locked,47.55 9927200590832/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927200590842/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927200590851/rx/17(pres),on,a,on,on,on,off,locked,0.996 9927200590860/rx/1E(20k),on,a,on,on,on,off,locked,30.08 9927200590870/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927200590870:nw2c2=16 9927200591017/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927200591344:!272010054 9927201004875#trakl#SOURCE_ACQUIRED 9927201005401:preob 9927201005500/onsource/TRACKING 9927201005735/tpical/18379,20566,16727,4255,23829,23595,26124,52026,14796,35241 9927201005755/tpical/9021,9495,10626,31463,19925,5565,6879 9927201005762:!272010104 9927201010401:tape 9927201010410/tape/off,08886,norm,stopped,stop,unlock,ready,rem 9927201010410:st=rev,135 9927201010421:"data start" 9927201010421:midob 9927201010551/onsource/TRACKING 9927201010553/wx/19.8,987.9,91.6,0.0 9927201010579/cable/+1.0854542E-02 9927201010603/fmout-gps/S 1.8051E-07 9927201010609/ifd/16,19,nor,nor,rem,13167,5953 9927201010615/if3/6,in,2,2,,,present,500.10,rem,lock,30829 9927201010621/vc02/142.99,2.000,u,10,10,rem,lock,18438 9927201010627/vc06/202.89,2.000,u,10,10,rem,lock,20673 9927201010633/vc11/237.99,2.000,u,10,10,rem,lock,9049 9927201010661/tpi/16494,18438,14944,3853,21092,20673,22680,45162,13167,30829 9927201010681/tpi/7723,8076,9049,26268,16665,4717,5953 9927201010682/tsys1/59.2,58.1,56.7,52.7,52.9,47.9,45.8,45.6,55.1,48.5 9927201010683/tsys2/85.3,82.0,83.4,78.1,78.0,77.8,87.3 9927201010683:!272010242 9927201024201:"data stop" 9927201024201:et 9927201024212:!+3s 9927201024514:tape 9927201024523/tape/off,07793,norm,stopped,stop,unlock,ready,rem 9927201024523:postob 9927201024523:source=3c446,222547.3,-045701.4,2000.0,neutral 9927201024668:check2c2 9927201032617?ERROR qg -303 Track 11 parity errors exceed threshold. 9927201032617?ERROR qg -305 AUX data differs from expected value on track 11. 9927201032617?ERROR qg -304 Track 11 sync errors exceed threshold. 9927201032617/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927201032617/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927201034037:nw2c2=16 9927201034091/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201034418:!272010503 9927201044826#trakl#SOURCE_ACQUIRED 9927201050301:preob 9927201050451/onsource/TRACKING 9927201050687/tpical/18840,21044,17168,4335,24327,24082,26685,53057,15154,35990 9927201050707/tpical/9109,9559,10766,31577,20085,5619,6946 9927201050714:!272010513 9927201051301:tape 9927201051310/tape/off,07797,norm,stopped,stop,unlock,ready,rem 9927201051311:st=rev,135 9927201051322:"data start" 9927201051322:midob 9927201051352/onsource/TRACKING 9927201051354/wx/19.8,988.0,91.3,2.7 9927201051383/cable/+1.0853805E-02 9927201051403/fmout-gps/S 1.8119E-07 9927201051409/ifd/16,19,nor,nor,rem,13516,6012 9927201051415/if3/6,in,2,2,,,present,500.10,rem,lock,31559 9927201051421/vc02/142.99,2.000,u,10,10,rem,lock,18929 9927201051427/vc06/202.89,2.000,u,10,10,rem,lock,21155 9927201051433/vc11/237.99,2.000,u,10,10,rem,lock,9159 9927201051461/tpi/16945,18929,15372,3926,21576,21155,23217,46235,13516,31559 9927201051481/tpi/7793,8111,9159,26453,16823,4762,6012 9927201051483/tsys1/60.6,60.1,58.0,53.0,53.9,49.0,46.5,47.0,56.3,49.5 9927201051483/tsys2/84.9,80.7,82.9,79.8,78.7,77.8,87.5 9927201051483:!272010651 9927201065101:"data stop" 9927201065101:et 9927201065112:!+3s 9927201065415:tape 9927201065442/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927201065443:postob 9927201065443:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927201065600:nw2c2=16 9927201065653/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201065977:!272010925 9927201074975#trakl#SOURCE_ACQUIRED 9927201092501:preob 9927201092599/onsource/TRACKING 9927201092834/tpical/18831,21038,17154,4331,24385,24144,26832,53300,15150,36109 9927201092854/tpical/9056,9488,10665,31357,19926,5572,6887 9927201092861:!272010935 9927201093501:tape 9927201093511/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927201093511:st=rev,135 9927201093522:"data start" 9927201093522:midob 9927201093600/onsource/TRACKING 9927201093602/wx/19.7,987.8,91.0,0.0 9927201093626/cable/+1.0852716E-02 9927201093703/fmout-gps/S 1.8205E-07 9927201093709/ifd/16,19,nor,nor,rem,13525,5959 9927201093715/if3/6,in,2,2,,,present,500.10,rem,lock,31704 9927201093721/vc02/142.99,2.000,u,10,10,rem,lock,18915 9927201093726/vc06/202.89,2.000,u,10,10,rem,lock,21195 9927201093732/vc11/237.99,2.000,u,10,10,rem,lock,9084 9927201093760/tpi/16937,18915,15366,3930,21635,21195,23364,46420,13525,31704 9927201093780/tpi/7739,8074,9084,26238,16688,4722,5959 9927201093782/tsys1/60.6,59.9,58.2,54.2,54.1,48.7,46.8,46.8,56.8,50.0 9927201093782/tsys2/84.2,82.2,83.5,79.2,78.6,77.7,87.2 9927201093783:!272011126 9927201112601:"data stop" 9927201112601:et 9927201112612:!+3s 9927201112914:tape 9927201112923/tape/off,05465,norm,stopped,stop,unlock,ready,rem 9927201112923:postob 9927201112923:source=1908-201,191109.7,-200655.1,2000.0,neutral 9927201112950:nw2c2=16 9927201113003/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201113330:!272011439 9927201125874#trakl#SOURCE_ACQUIRED 9927201143901:preob 9927201143953/onsource/TRACKING 9927201144188/tpical/19834,21855,17801,4484,25461,25165,27978,55741,15820,37767 9927201144208/tpical/9168,9647,10971,32297,20486,5733,7054 9927201144215:!272011449 9927201144901:tape 9927201144910/tape/off,05465,norm,stopped,stop,unlock,ready,rem 9927201144911:st=rev,135 9927201144921:"data start" 9927201144921:midob 9927201145000/onsource/TRACKING 9927201145002/wx/19.9,987.8,89.3,1.2 9927201145020/cable/+1.0852324E-02 9927201145103/fmout-gps/S 1.8135E-07 9927201145109/ifd/16,19,nor,nor,rem,14161,6134 9927201145115/if3/6,in,2,2,,,present,500.10,rem,lock,33263 9927201145121/vc02/142.99,2.000,u,10,10,rem,lock,19729 9927201145127/vc06/202.89,2.000,u,10,10,rem,lock,22178 9927201145133/vc11/237.99,2.000,u,10,10,rem,lock,9383 9927201145161/tpi/17871,19729,16007,4074,22642,22178,24438,48770,14161,33263 9927201145181/tpi/7870,8241,9383,27104,17245,4879,6134 9927201145182/tsys1/61.8,62.4,60.5,55.4,55.2,50.4,48.0,48.5,58.3,51.3 9927201145183/tsys2/87.0,84.6,86.1,80.7,81.2,80.2,90.9 9927201145183:!272011627 9927201162701:"data stop" 9927201162701:et 9927201162712:!+3s 9927201163014:tape 9927201163022/tape/off,04372,norm,stopped,stop,unlock,ready,rem 9927201163023:postob 9927201163023:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927201163152:nw2c2=16 9927201163205/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201163529:!272012119 9927201175825#trakl#SOURCE_ACQUIRED 9927201211901:preob 9927201212061/onsource/TRACKING 9927201212296/tpical/19224,21217,17298,4375,24659,24379,27024,53934,15358,36586 9927201212316/tpical/9232,9671,10961,32145,20467,5719,7034 9927201212323:!272012129 9927201212901:tape 9927201212910/tape/off,04372,norm,stopped,stop,unlock,ready,rem 9927201212911:st=rev,135 9927201212921:"data start" 9927201212921:midob 9927201212952/onsource/TRACKING 9927201212954/wx/19.9,987.8,87.4,0.7 9927201212979/cable/+1.0853995E-02 9927201213003/fmout-gps/S 1.8174E-07 9927201213009/ifd/16,19,nor,nor,rem,13694,6099 9927201213015/if3/6,in,2,2,,,present,500.10,rem,lock,32084 9927201213021/vc02/142.99,2.000,u,10,10,rem,lock,19049 9927201213027/vc06/202.89,2.000,u,10,10,rem,lock,21418 9927201213033/vc11/237.99,2.000,u,10,10,rem,lock,9346 9927201213061/tpi/17281,19049,15499,3969,21894,21418,23538,46935,13694,32084 9927201213081/tpi/7865,8237,9346,27006,17194,4863,6099 9927201213082/tsys1/60.3,59.0,58.4,54.2,54.4,49.0,46.9,46.5,56.1,49.5 9927201213083/tsys2/82.6,82.9,84.3,81.2,80.2,79.7,88.9 9927201213083:!272012307 9927201230701:"data stop" 9927201230701:et 9927201230712:!+3s 9927201231014:tape 9927201231023/tape/off,03279,norm,stopped,stop,unlock,ready,rem 9927201231023:postob 9927201231023:source=2201+315,220315.0,314538.3,2000.0,neutral 9927201231102:nw2c2=16 9927201231155/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927201231480:!272012751 9927201271826#trakl#SOURCE_ACQUIRED 9927201275101:preob 9927201275201/onsource/TRACKING 9927201275436/tpical/18760,20957,17039,4332,24055,23981,26573,52707,15071,35711 9927201275456/tpical/9164,9604,10770,31699,20096,5609,6955 9927201275463:!272012801 9927201280101:tape 9927201280110/tape/off,03279,norm,stopped,stop,unlock,ready,rem 9927201280111:st=rev,135 9927201280122:"data start" 9927201280122:midob 9927201280200/onsource/TRACKING 9927201280202/wx/20.1,987.6,86.5,4.0 9927201280219/cable/+1.0852738E-02 9927201280303/fmout-gps/S 1.8145E-07 9927201280309/ifd/16,19,nor,nor,rem,13444,6024 9927201280315/if3/6,in,2,2,,,present,500.10,rem,lock,31234 9927201280321/vc02/142.99,2.000,u,10,10,rem,lock,18884 9927201280327/vc06/202.89,2.000,u,10,10,rem,lock,20958 9927201280333/vc11/237.99,2.000,u,10,10,rem,lock,9167 9927201280361/tpi/16870,18884,15244,3928,21290,20958,23042,45755,13444,31234 9927201280381/tpi/7840,8160,9167,26520,16876,4762,6024 9927201280382/tsys1/60.4,61.2,57.5,53.7,52.9,47.0,45.4,45.6,56.4,48.5 9927201280383/tsys2/85.0,81.5,83.2,79.1,80.0,78.7,88.0 9927201280383:!272012939 9927201293901:"data stop" 9927201293901:et 9927201293912:!+3s 9927201294214:tape 9927201294223/tape/off,02186,norm,stopped,stop,unlock,ready,rem 9927201294223:postob 9927201294223:source=1606+106,160846.2,102907.8,2000.0,neutral 9927201294350:nw2c2=16 9927201294403/pass/16,16,auto,55.0,55.0,55.8,55.4,0.8,0.4 9927201294730:!272013527 9927201352701:preob 9927201352753?ERROR AN -103 Pointing computer tracking errors are too large. 9927201352753?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927201352753/onsource/SLEWING 9927201352989/tpical/19761,21893,17849,4491,25490,25185,27939,55707,15839,37824 9927201353009/tpical/9246,9814,10981,32317,20592,5733,7073 9927201353016:!272013537 9927201353701:tape 9927201353709/tape/off,02186,norm,stopped,stop,unlock,ready,rem 9927201353710:st=rev,135 9927201353721:"data start" 9927201353721:midob 9927201353799?ERROR AN -103 Pointing computer tracking errors are too large. 9927201353799?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927201353799/onsource/SLEWING 9927201353804/wx/20.1,987.5,85.7,1.5 9927201353831/cable/+1.0852502E-02 9927201353903/fmout-gps/S 1.8125E-07 9927201353909/ifd/16,19,nor,nor,rem,14218,6143 9927201353915/if3/6,in,2,2,,,present,500.10,rem,lock,33393 9927201353921/vc02/142.99,2.000,u,10,10,rem,lock,19766 9927201353927/vc06/202.89,2.000,u,10,10,rem,lock,22286 9927201353933/vc11/237.99,2.000,u,10,10,rem,lock,9382 9927201353961/tpi/17882,19766,16069,4090,22796,22286,24472,48899,14218,33393 9927201353980/tpi/7942,8372,9382,27151,17295,4883,6143 9927201353982/tsys1/64.6,62.5,61.2,56.9,58.2,52.2,49.1,49.8,59.9,52.4 9927201353983/tsys2/87.5,83.9,85.5,81.2,80.1,80.7,90.1 9927201353983:!272013715 9927201360274#trakl#SOURCE_ACQUIRED 9927201371501:"data stop" 9927201371501:et 9927201371512:!+3s 9927201371814:tape 9927201371823/tape/off,01093,norm,stopped,stop,unlock,ready,rem 9927201371823:postob 9927201371823:source=1749+096,175132.8,093900.7,2000.0,neutral 9927201371952:midtp 9927201372187/tpzero/506,707,449,814,339,620,94,316,307,149 9927201372207/tpzero/632,623,622,266,375,489,772 9927201372223/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927201372232/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927201372242/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.513 9927201372251/rx/17(pres),on,a,on,on,on,off,locked,4.216 9927201372260/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927201372269/rx/1F(70k),on,a,on,on,on,off,locked,56.27 9927201372270:nw2c1=17 9927201372472/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201372799:fastr=0m45s 9927201381329:!272013928 9927201385890;"wx,overcast,light rain, humid, no wind, warm. 9927201390452;wx 9927201390454/wx/20.0,987.5,86.8,2.9 9927201390785;rxmon 9927201390795/rx/02(lo),on,a,on,on,on,off,locked,47.43 9927201390804/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927201390813/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927201390822/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927201390831/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927201390840/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927201391374#trakl#SOURCE_ACQUIRED 9927201392801:preob 9927201392900/onsource/TRACKING 9927201393032;"rxtemps 20k=29.07 70k=55.57 9927201393137/tpical/18572,20780,16974,4298,24088,23803,26414,52661,14987,35637 9927201393156/tpical/9150,9641,10750,31685,20118,5618,6950 9927201393163:!272013938 9927201393801:tape 9927201393810/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927201393810:st=for,135 9927201393821:"data start" 9927201393821:midob 9927201393851/onsource/TRACKING 9927201393853/wx/20.0,987.5,86.8,2.9 9927201393879/cable/+1.0853576E-02 9927201393903/fmout-gps/S 1.8088E-07 9927201393909/ifd/16,19,nor,nor,rem,13278,6004 9927201393915/if3/6,in,2,2,,,present,500.10,rem,lock,31050 9927201393921/vc02/142.99,2.000,u,10,10,rem,lock,18584 9927201393927/vc06/202.89,2.000,u,10,10,rem,lock,20735 9927201393933/vc11/237.99,2.000,u,10,10,rem,lock,9148 9927201393960/tpi/16606,18584,15122,3877,21248,20735,22852,45547,13278,31050 9927201393980/tpi/7835,8178,9148,26422,16837,4751,6004 9927201393982/tsys1/57.2,56.8,55.3,50.8,51.4,45.8,44.6,44.4,53.0,47.0 9927201393982/tsys2/85.5,80.6,83.1,77.6,78.3,76.7,86.3 9927201393982:!272014116 9927201411601:"data stop" 9927201411601:et 9927201411612:!+3s 9927201411914:tape 9927201411923/tape/off,01187,norm,stopped,stop,unlock,ready,rem 9927201411923:postob 9927201411923:source=3c371,180650.7,694928.1,2000.0,neutral 9927201412050:check2c1 9927201420050?ERROR qg -303 Track 11 parity errors exceed threshold. 9927201420050?ERROR qg -305 AUX data differs from expected value on track 11. 9927201420050?ERROR qg -304 Track 11 sync errors exceed threshold. 9927201420050/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927201420050/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927201421418:nw2c1=17 9927201421474/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201421818:!272014511 9927201444625#trakl#SOURCE_ACQUIRED 9927201451101:preob 9927201451153/onsource/TRACKING 9927201451388/tpical/18239,20313,16539,4222,23371,23242,25651,50994,14630,34618 9927201451408/tpical/9186,9628,10603,31513,19860,5549,6935 9927201451415:!272014521 9927201452101:tape 9927201452111/tape/off,01184,norm,stopped,stop,unlock,ready,rem 9927201452111:st=for,135 9927201452122:"data start" 9927201452122:midob 9927201452150/onsource/TRACKING 9927201452152/wx/19.9,987.6,86.9,3.6 9927201452188/cable/+1.0853862E-02 9927201452203/fmout-gps/S 1.8184E-07 9927201452209/ifd/16,19,nor,nor,rem,12992,5996 9927201452215/if3/6,in,2,2,,,present,500.10,rem,lock,30194 9927201452221/vc02/142.99,2.000,u,10,10,rem,lock,18203 9927201452227/vc06/202.89,2.000,u,10,10,rem,lock,20280 9927201452233/vc11/237.99,2.000,u,10,10,rem,lock,8993 9927201452261/tpi/16347,18203,14740,3819,20642,20280,22217,44154,12992,30194 9927201452281/tpi/7848,8155,8993,26296,16605,4693,5996 9927201452282/tsys1/58.4,57.9,55.4,52.0,51.9,46.3,45.0,44.7,54.1,47.4 9927201452283/tsys2/84.2,79.8,81.2,77.9,77.8,76.7,86.8 9927201452283:!272014659 9927201465901:"data stop" 9927201465901:et 9927201465912:!+3s 9927201470214:tape 9927201470223/tape/off,02276,norm,stopped,stop,unlock,ready,rem 9927201470223:postob 9927201470223:source=3c418,203837.0,511912.7,2000.0,neutral 9927201470252:nw2c1=17 9927201470305/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927201470630:!272014952 9927201492974#trakl#SOURCE_ACQUIRED 9927201495201:preob 9927201495299/onsource/TRACKING 9927201495535/tpical/18926,21173,17294,4399,24374,24274,26727,52989,15290,36099 9927201495555/tpical/9572,10023,11142,33135,20839,5797,7219 9927201495562:!272015002 9927201500201:tape 9927201500210/tape/off,02276,norm,stopped,stop,unlock,ready,rem 9927201500211:st=for,135 9927201500221:"data start" 9927201500221:midob 9927201500300/onsource/TRACKING 9927201500302/wx/19.8,987.6,87.3,0.0 9927201500339/cable/+1.0854376E-02 9927201500403/fmout-gps/S 1.8160E-07 9927201500409/ifd/16,19,nor,nor,rem,13649,6267 9927201500415/if3/6,in,2,2,,,present,500.10,rem,lock,31658 9927201500421/vc02/142.99,2.000,u,10,10,rem,lock,19048 9927201500427/vc06/202.89,2.000,u,10,10,rem,lock,21265 9927201500433/vc11/237.99,2.000,u,10,10,rem,lock,9529 9927201500461/tpi/17050,19048,15492,3988,21619,21265,23268,46151,13649,31658 9927201500481/tpi/8237,8555,9529,27855,17521,4941,6267 9927201500482/tsys1/61.6,60.2,58.3,53.9,53.9,47.9,46.8,46.8,56.8,49.5 9927201500483/tsys2/88.9,84.3,86.2,81.6,80.7,81.2,90.1 9927201500483:!272015140 9927201514001:"data stop" 9927201514001:et 9927201514012:!+3s 9927201514314:tape 9927201514323/tape/off,03369,norm,stopped,stop,unlock,ready,rem 9927201514323:postob 9927201514323:source=1726+455,172727.7,453039.7,2000.0,neutral 9927201514400:nw2c1=17 9927201514453/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927201514779:!272015511 9927201533875#trakl#SOURCE_ACQUIRED 9927201551101:preob 9927201551199/onsource/TRACKING 9927201551434/tpical/18094,20307,16582,4224,23457,23247,25697,51091,14614,34649 9927201551454/tpical/9060,9500,10579,31247,19732,5507,6898 9927201551461:!272015521 9927201552101:tape 9927201552110/tape/off,03369,norm,stopped,stop,unlock,ready,rem 9927201552110:st=for,135 9927201552121:"data start" 9927201552121:midob 9927201552152/onsource/TRACKING 9927201552154/wx/19.8,987.7,87.3,0.0 9927201552163/cable/+1.0854669E-02 9927201552203/fmout-gps/S 1.8113E-07 9927201552209/ifd/16,19,nor,nor,rem,12983,5929 9927201552215/if3/6,in,2,2,,,present,500.10,rem,lock,30218 9927201552221/vc02/142.99,2.000,u,10,10,rem,lock,18155 9927201552227/vc06/202.89,2.000,u,10,10,rem,lock,20310 9927201552232/vc11/237.99,2.000,u,10,10,rem,lock,8992 9927201552260/tpi/16203,18155,14774,3816,20689,20310,22245,44199,12983,30218 9927201552280/tpi/7719,8046,8992,26006,16463,4659,5929 9927201552282/tsys1/57.9,56.6,55.3,51.4,51.3,46.8,44.8,44.4,54.2,47.4 9927201552282/tsys2/82.5,79.7,82.3,76.7,76.8,76.8,83.1 9927201552282:!272015659 9927201565901:"data stop" 9927201565901:et 9927201565912:!+3s 9927201570214:tape 9927201570223/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927201570223:postob 9927201570223:source=1611+343,161341.1,341247.9,2000.0,neutral 9927201570350:nw2c1=17 9927201570403/pass/17,17,auto,110.0,110.0,109.2,109.5,-0.8,-0.5 9927201570729:!272015907 9927201581725#trakl#SOURCE_ACQUIRED 9927201590701:preob 9927201590799/onsource/TRACKING 9927201591034/tpical/18654,20918,17149,4332,24270,23990,26573,52812,15105,35843 9927201591054/tpical/9315,9804,10899,32339,20440,5700,7076 9927201591061:!272015917 9927201591701:tape 9927201591710/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927201591711:st=for,135 9927201591721:"data start" 9927201591721:midob 9927201591800/onsource/TRACKING 9927201591802/wx/19.8,987.8,88.0,0.0 9927201591815/cable/+1.0852795E-02 9927201591903/fmout-gps/S 1.8084E-07 9927201591908/ifd/16,19,nor,nor,rem,13425,6129 9927201591914/if3/6,in,2,2,,,present,500.10,rem,lock,31336 9927201591920/vc02/142.99,2.000,u,10,10,rem,lock,18731 9927201591926/vc06/202.89,2.000,u,10,10,rem,lock,21010 9927201591932/vc11/237.99,2.000,u,10,10,rem,lock,9277 9927201591960/tpi/16725,18731,15269,3921,21458,21010,23026,45842,13425,31336 9927201591980/tpi/7981,8338,9277,27075,17134,4836,6129 9927201591981/tsys1/58.7,57.5,55.0,52.8,52.4,47.8,45.1,45.6,54.5,48.3 9927201591982/tsys2/86.0,82.1,83.3,79.5,79.1,78.5,88.3 9927201591982:!272020055 9927202005501:"data stop" 9927202005501:et 9927202005512:!+3s 9927202005814:tape 9927202005823/tape/off,05555,norm,stopped,stop,unlock,ready,rem 9927202005823:postob 9927202005823:source=1014+615,101725.9,611627.5,2000.0,neutral 9927202005852:nw2c1=17 9927202005904/pass/17,17,auto,110.0,110.0,110.2,109.5,0.2,-0.5 9927202010229:!272020349 9927202033126#trakl#SOURCE_ACQUIRED 9927202034901:preob 9927202034953/onsource/TRACKING 9927202035188/tpical/20630,22778,18601,4663,26499,26164,28946,57697,16507,39308 9927202035208/tpical/9401,9956,11035,32734,20686,5772,7158 9927202035215:!272020359 9927202035901:tape 9927202035910/tape/off,05555,norm,stopped,stop,unlock,ready,rem 9927202035910:st=for,135 9927202035921:"data start" 9927202035921:midob 9927202040001/onsource/TRACKING 9927202040003/wx/19.7,987.8,88.2,0.4 9927202040038/cable/+1.0850983E-02 9927202040103/fmout-gps/S 1.8203E-07 9927202040108/ifd/16,19,nor,nor,rem,14895,6209 9927202040114/if3/6,in,2,2,,,present,500.10,rem,lock,34939 9927202040120/vc02/142.99,2.000,u,10,10,rem,lock,20681 9927202040126/vc06/202.89,2.000,u,10,10,rem,lock,23284 9927202040132/vc11/237.99,2.000,u,10,10,rem,lock,9420 9927202040160/tpi/18749,20681,16835,4257,23829,23284,25559,51015,14895,34939 9927202040180/tpi/8063,8469,9420,27503,17403,4908,6209 9927202040182/tsys1/67.7,66.5,64.8,59.2,61.4,54.9,52.5,53.0,63.2,55.6 9927202040182/tsys2/86.7,82.4,85.0,81.3,81.0,79.8,89.4 9927202040182:!272020537 9927202053701:"data stop" 9927202053701:et 9927202053712:!+3s 9927202054014:tape 9927202054023/tape/off,06648,norm,stopped,stop,unlock,ready,rem 9927202054023:postob 9927202054023:source=0133+476,013658.6,475129.1,2000.0,cw 9927202054152:nw2c1=17 9927202054204/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927202054567:!272020925 9927202083774#trakl#SOURCE_ACQUIRED 9927202092501:preob 9927202092651/onsource/TRACKING 9927202092887/tpical/18457,20580,16749,4251,23613,23306,25813,51323,14769,34839 9927202092907/tpical/9173,9613,10580,31471,19848,5539,6943 9927202092914:!272020935 9927202093501:tape 9927202093510/tape/off,06648,norm,stopped,stop,unlock,ready,rem 9927202093510:st=for,135 9927202093521:"data start" 9927202093521:midob 9927202093599/onsource/TRACKING 9927202093601/wx/19.9,988.0,87.6,0.0 9927202093627/cable/+1.0849927E-02 9927202093703/fmout-gps/S 1.8180E-07 9927202093709/ifd/16,19,nor,nor,rem,13131,5993 9927202093715/if3/6,in,2,2,,,present,500.10,rem,lock,30442 9927202093721/vc02/142.99,2.000,u,10,10,rem,lock,18452 9927202093727/vc06/202.89,2.000,u,10,10,rem,lock,20370 9927202093733/vc11/237.99,2.000,u,10,10,rem,lock,8987 9927202093761/tpi/16570,18452,14948,3851,20847,20370,22373,44532,13131,30442 9927202093780/tpi/7833,8125,8987,26188,16560,4677,5993 9927202093782/tsys1/59.4,58.2,56.2,53.0,51.8,47.0,45.2,45.4,54.6,48.1 9927202093782/tsys2/83.9,78.7,82.0,76.6,76.8,75.8,85.8 9927202093783:!272021113 9927202111301:"data stop" 9927202111301:et 9927202111312:!+3s 9927202111614:tape 9927202111623/tape/off,07741,norm,stopped,stop,unlock,ready,rem 9927202111623:postob 9927202111623:source=1357+769,135755.4,764321.1,2000.0,neutral 9927202111750:nw2c1=17 9927202111802/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927202112128:!272021932 9927202142974#trakl#SOURCE_ACQUIRED 9927202193201:preob 9927202193301/onsource/TRACKING 9927202193536/tpical/18338,20455,16673,4242,23603,23379,25857,51454,14711,34868 9927202193556/tpical/9141,9608,10631,31297,19766,5514,6896 9927202193563:!272021942 9927202194201:tape 9927202194210/tape/off,07741,norm,moving,stop,unlock,ready,rem 9927202194211:st=for,135 9927202194221:"data start" 9927202194221:midob 9927202194300/onsource/TRACKING 9927202194302/wx/20.2,988.0,86.1,1.3 9927202194323/cable/+1.0852204E-02 9927202194403/fmout-gps/S 1.8162E-07 9927202194409/ifd/16,19,nor,nor,rem,13066,5951 9927202194415/if3/6,in,2,2,,,present,500.10,rem,lock,30434 9927202194421/vc02/142.99,2.000,u,10,10,rem,lock,18333 9927202194427/vc06/202.89,2.000,u,10,10,rem,lock,20392 9927202194433/vc11/237.99,2.000,u,10,10,rem,lock,9014 9927202194461/tpi/16425,18333,14875,3836,20828,20392,22369,44533,13066,30434 9927202194480/tpi/7799,8147,9014,26075,16489,4662,5951 9927202194482/tsys1/58.1,58.0,56.0,52.0,51.5,46.2,44.6,44.6,54.1,47.7 9927202194482/tsys2/83.4,80.4,81.0,77.2,76.8,76.5,85.5 9927202194483:!272022120 9927202212001:"data stop" 9927202212001:et 9927202212012:!+3s 9927202212314:tape 9927202212322/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927202212323:postob 9927202212323:source=0014+813,001708.5,813508.1,2000.0,neutral 9927202212350:midtp 9927202212585/tpzero/511,707,453,816,335,618,93,314,308,149 9927202212605/tpzero/636,622,625,269,376,488,769 9927202212621/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927202212630/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927202212639/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927202212649/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927202212658/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927202212667/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927202212667:nw2c2=18 9927202212831/pass/18,18,auto,110.0,110.0,110.6,108.2,0.6,-1.8 9927202213156:!272022255 9927202224774#trakl#SOURCE_ACQUIRED 9927202225501:preob 9927202225651/onsource/TRACKING 9927202225887/tpical/18130,20274,16550,4237,23366,23139,25663,51071,14614,34601 9927202225907/tpical/9160,9658,10662,31417,19870,5545,6923 9927202225914:!272022305 9927202230501:tape 9927202230511/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927202230511:st=rev,135 9927202230522:"data start" 9927202230522:midob 9927202230600/onsource/TRACKING 9927202230602/wx/20.2,987.9,86.4,0.0 9927202230626/cable/+1.0851761E-02 9927202230703/fmout-gps/S 1.8219E-07 9927202230708/ifd/16,19,nor,nor,rem,12938,5969 9927202230714/if3/6,in,2,2,,,present,500.10,rem,lock,30097 9927202230720/vc02/142.99,2.000,u,10,10,rem,lock,18116 9927202230726/vc06/202.89,2.000,u,10,10,rem,lock,20156 9927202230732/vc11/237.99,2.000,u,10,10,rem,lock,9063 9927202230760/tpi/16222,18116,14711,3817,20562,20156,22108,44006,12938,30097 9927202230780/tpi/7816,8191,9063,26232,16559,4674,5969 9927202230782/tsys1/57.5,56.3,54.1,49.9,50.4,45.7,43.2,43.2,52.6,46.4 9927202230782/tsys2/83.4,80.5,82.4,78.2,76.3,75.0,85.1 9927202230782:!272022443 9927202244301:"data stop" 9927202244301:et 9927202244312:!+3s 9927202244614:tape 9927202244623/tape/off,07741,norm,stopped,stop,unlock,ready,rem 9927202244623:postob 9927202244623:source=1741-038,174358.9,-035004.6,2000.0,neutral 9927202244750:check2c2 9927202252756?ERROR qg -303 Track 11 parity errors exceed threshold. 9927202252756?ERROR qg -304 Track 11 sync errors exceed threshold. 9927202252757/parity/0.,16.,16.,65.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927202252757/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927202254119:nw2c2=18 9927202254183/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202254507:!272022958 9927202293425#trakl#SOURCE_ACQUIRED 9927202295801:preob 9927202295951/onsource/TRACKING 9927202300186/tpical/20644,22838,18586,4659,26547,26181,29088,57988,16548,39428 9927202300206/tpical/9486,10087,11290,33243,21170,5888,7265 9927202300213:!272023008 9927202300801:tape 9927202300810/tape/off,07743,norm,stopped,stop,unlock,ready,rem 9927202300810:st=rev,135 9927202300821:"data start" 9927202300821:midob 9927202300899/onsource/TRACKING 9927202300901/wx/20.4,987.9,85.9,6.2 9927202300927/cable/+1.0852603E-02 9927202301003/fmout-gps/S 1.8209E-07 9927202301009/ifd/16,19,nor,nor,rem,14912,6330 9927202301015/if3/6,in,2,2,,,present,500.10,rem,lock,34991 9927202301021/vc02/142.99,2.000,u,10,10,rem,lock,20677 9927202301027/vc06/202.89,2.000,u,10,10,rem,lock,23305 9927202301032/vc11/237.99,2.000,u,10,10,rem,lock,9690 9927202301060/tpi/18762,20677,16823,4256,23764,23305,25658,51075,14912,34991 9927202301080/tpi/8176,8651,9690,28047,17865,5032,6330 9927202301082/tsys1/67.7,64.5,64.8,59.6,58.8,55.1,52.0,51.3,62.3,54.8 9927202301082/tsys2/89.8,87.3,88.4,83.5,82.6,82.9,92.8 9927202301083:!272023146 9927202314601:"data stop" 9927202314601:et 9927202314612:!+3s 9927202314914:tape 9927202314923/tape/off,06650,norm,stopped,stop,unlock,ready,rem 9927202314923:postob 9927202314923:source=1606+106,160846.2,102907.8,2000.0,neutral 9927202314954:nw2c2=18 9927202315007/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202315332:!272023308 9927202330802:preob 9927202330899?ERROR AN -103 Pointing computer tracking errors are too large. 9927202330899?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927202330899/onsource/SLEWING 9927202331134/tpical/22631,24964,20503,5072,29191,28788,31993,63823,18219,43476 9927202331154/tpical/9764,10392,11622,34342,21796,6058,7464 9927202331161:!272023318 9927202331575#trakl#SOURCE_ACQUIRED 9927202331801:tape 9927202331809/tape/off,06650,norm,stopped,stop,unlock,ready,rem 9927202331810:st=rev,135 9927202331821:"data start" 9927202331821:midob 9927202331899/onsource/TRACKING 9927202331901/wx/20.3,987.8,86.5,5.3 9927202331934/cable/+1.0852432E-02 9927202332003/fmout-gps/S 1.8242E-07 9927202332009/ifd/16,19,nor,nor,rem,16571,6524 9927202332015/if3/6,in,2,2,,,present,500.10,rem,lock,39031 9927202332021/vc02/142.99,2.000,u,10,10,rem,lock,22790 9927202332027/vc06/202.89,2.000,u,10,10,rem,lock,25894 9927202332033/vc11/237.99,2.000,u,10,10,rem,lock,9995 9927202332061/tpi/20688,22790,18693,4667,26483,25894,28551,56978,16571,39031 9927202332080/tpi/8430,8937,9995,29155,18535,5203,6524 9927202332082/tsys1/72.5,70.9,70.3,66.4,67.4,61.0,57.7,57.8,68.9,61.1 9927202332083/tsys2/91.2,89.2,89.9,86.9,86.9,86.1,95.6 9927202332083:!272023456 9927202345601:"data stop" 9927202345601:et 9927202345612:!+3s 9927202345914:tape 9927202345922/tape/off,05557,norm,stopped,stop,unlock,ready,rem 9927202345923:postob 9927202345923:source=1726+455,172727.7,453039.7,2000.0,neutral 9927202350050:nw2c2=18 9927202350103/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202350428:!272023847 9927202381675#trakl#SOURCE_ACQUIRED 9927202384701:preob 9927202384799/onsource/TRACKING 9927202385035/tpical/18308,20400,16648,4248,23559,23329,25846,51550,14712,34914 9927202385055/tpical/9207,9692,10709,31529,19987,5563,6947 9927202385061:!272023857 9927202385701:tape 9927202385710/tape/off,05557,norm,stopped,stop,unlock,ready,rem 9927202385710:st=rev,135 9927202385721:"data start" 9927202385721:midob 9927202385801/onsource/TRACKING 9927202385803/wx/20.3,987.8,87.2,2.2 9927202385811/cable/+1.0854799E-02 9927202385903/fmout-gps/S 1.8121E-07 9927202385909/ifd/16,19,nor,nor,rem,13047,6000 9927202385915/if3/6,in,2,2,,,present,500.10,rem,lock,30434 9927202385921/vc02/142.99,2.000,u,10,10,rem,lock,18241 9927202385926/vc06/202.89,2.000,u,10,10,rem,lock,20351 9927202385932/vc11/237.99,2.000,u,10,10,rem,lock,9089 9927202385960/tpi/16422,18241,14801,3839,20762,20351,22366,44537,13047,30434 9927202385980/tpi/7878,8201,9089,26264,16663,4695,6000 9927202385982/tsys1/58.9,56.7,54.2,51.6,51.0,46.3,44.7,44.0,53.4,47.2 9927202385982/tsys2/85.1,79.3,81.6,77.1,76.5,75.7,86.2 9927202385982:!272024035 9927202403501:"data stop" 9927202403501:et 9927202403511:!+3s 9927202403813:tape 9927202403822/tape/off,04464,norm,stopped,stop,unlock,ready,rem 9927202403822:postob 9927202403822:source=1745+624,174614.0,622654.7,2000.0,neutral 9927202403851:nw2c2=18 9927202403904/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202404230:!272024153 9927202414324#trakl#SOURCE_ACQUIRED 9927202415301:preob 9927202415401/onsource/TRACKING 9927202415636/tpical/18200,20341,16530,4233,23461,23209,25677,51161,14612,34677 9927202415656/tpical/9190,9649,10662,31532,19939,5559,6936 9927202415663:!272024203 9927202420301:tape 9927202420310/tape/off,04464,norm,stopped,stop,unlock,ready,rem 9927202420311:st=rev,135 9927202420322:"data start" 9927202420322:midob 9927202420400/onsource/TRACKING 9927202420402/wx/20.3,987.8,87.0,1.2 9927202420423/cable/+1.0854717E-02 9927202420503/fmout-gps/S 1.8221E-07 9927202420509/ifd/16,19,nor,nor,rem,12974,5983 9927202420515/if3/6,in,2,2,,,present,500.10,rem,lock,30233 9927202420520/vc02/142.99,2.000,u,10,10,rem,lock,18191 9927202420526/vc06/202.89,2.000,u,10,10,rem,lock,20221 9927202420532/vc11/237.99,2.000,u,10,10,rem,lock,9041 9927202420560/tpi/16315,18191,14726,3824,20696,20221,22229,44261,12974,30233 9927202420580/tpi/7841,8170,9041,26261,16602,4696,5983 9927202420582/tsys1/58.5,56.8,55.2,51.3,51.4,45.8,44.8,44.5,54.0,47.3 9927202420582/tsys2/83.4,79.7,81.0,77.0,75.9,76.1,85.4 9927202420582:!272024435 9927202443501:"data stop" 9927202443501:et 9927202443512:!+3s 9927202443814:tape 9927202443823/tape/off,02764,norm,stopped,stop,unlock,ready,rem 9927202443823:postob 9927202443823:source=0804+499,080839.7,495036.5,2000.0,neutral 9927202443900:nw2c2=18 9927202443953/pass/18,18,auto,110.0,110.0,110.6,109.1,0.6,-0.9 9927202444278:!272024915 9927202472675#trakl#SOURCE_ACQUIRED 9927202491501:preob 9927202491599/onsource/TRACKING 9927202491834/tpical/23303,25779,21066,5191,29954,29542,32812,65431,18731,44630 9927202491854/tpical/9982,10569,11733,35088,22132,6135,7590 9927202491861:!272024925 9927202492501:tape 9927202492510/tape/off,02764,norm,stopped,stop,unlock,ready,rem 9927202492510:st=rev,135 9927202492521:"data start" 9927202492521:midob 9927202492599/onsource/TRACKING 9927202492601/wx/20.3,987.7,86.8,0.7 9927202492631/cable/+1.0852518E-02 9927202492703/fmout-gps/S 1.8186E-07 9927202492709/ifd/16,19,nor,nor,rem,17072,6635 9927202492715/if3/6,in,2,2,,,present,500.10,rem,lock,40162 9927202492721/vc02/142.99,2.000,u,10,10,rem,lock,23595 9927202492727/vc06/202.89,2.000,u,10,10,rem,lock,26609 9927202492733/vc11/237.99,2.000,u,10,10,rem,lock,10095 9927202492761/tpi/21379,23595,19277,4786,27220,26609,29388,58503,17072,40162 9927202492780/tpi/8636,9079,10095,29826,18808,5274,6635 9927202492782/tsys1/75.7,73.1,73.4,68.4,68.6,61.9,59.7,58.6,70.5,62.5 9927202492783/tsys2/92.8,88.6,90.2,87.7,86.6,86.8,95.9 9927202492783:!272025103 9927202510301:"data stop" 9927202510301:et 9927202510311:!+3s 9927202510613:tape 9927202510622/tape/off,01671,norm,stopped,stop,unlock,ready,rem 9927202510622:postob 9927202510622:source=0642+449,064632.0,445116.6,2000.0,neutral 9927202510757:nw2c2=18 9927202510873/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927202511198:!272025152 9927202515201:preob 9927202515253?ERROR AN -103 Pointing computer tracking errors are too large. 9927202515253?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927202515253/onsource/SLEWING 9927202515490/tpical/22257,24523,20077,4977,28546,28096,31262,62348,17843,42502 9927202515510/tpical/9765,10338,11461,34147,21609,6010,7429 9927202515517:!272025202 9927202520025#trakl#SOURCE_ACQUIRED 9927202520201:tape 9927202520211/tape/off,01671,norm,stopped,stop,unlock,ready,rem 9927202520211:st=rev,135 9927202520222:"data start" 9927202520222:midob 9927202520351/onsource/TRACKING 9927202520353/wx/20.4,987.7,86.6,0.0 9927202520362/cable/+1.0851427E-02 9927202520402/fmout-gps/S 1.7953E-07 9927202520408/ifd/16,19,nor,nor,rem,16190,6480 9927202520414/if3/6,in,2,2,,,present,500.10,rem,lock,38029 9927202520420/vc02/142.99,2.000,u,10,10,rem,lock,22399 9927202520426/vc06/202.89,2.000,u,10,10,rem,lock,25183 9927202520432/vc11/237.99,2.000,u,10,10,rem,lock,9850 9927202520460/tpi/20303,22399,18275,4571,25754,25183,27803,55335,16190,38029 9927202520480/tpi/8422,8876,9850,28941,18296,5134,6480 9927202520482/tsys1/70.7,71.3,69.0,64.6,63.5,58.9,55.9,54.8,67.1,59.1 9927202520482/tsys2/90.5,88.1,89.4,86.0,84.4,82.8,93.9 9927202520482:!272025340 9927202534001:"data stop" 9927202534001:et 9927202534011:!+3s 9927202534313:tape 9927202534322/tape/off,00578,norm,stopped,stop,unlock,ready,rem 9927202534322:postob 9927202534322:source=0059+581,010245.8,582411.1,2000.0,cw 9927202534351:midtp 9927202534586/tpzero/509,709,450,818,329,621,94,318,306,149 9927202534606/tpzero/632,624,623,265,380,491,786 9927202534622/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927202534632/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927202534641/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927202534650/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927202534659/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927202534668/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927202534669:nw2c1=19 9927202534837/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927202535163:fastr=0m25s 9927202541691:!272025932 9927202582725#trakl#SOURCE_ACQUIRED 9927202593201:preob 9927202593299/onsource/TRACKING 9927202593534/tpical/18434,20601,16757,4275,23637,23452,25874,51483,14814,34943 9927202593554/tpical/9284,9726,10694,31699,19972,5570,6984 9927202593561:!272025942 9927202594201:tape 9927202594210/tape/low,00032,norm,stopped,stop,unlock,ready,rem 9927202594211:st=for,135 9927202594222:"data start" 9927202594222:midob 9927202594252/onsource/TRACKING 9927202594254/wx/20.4,987.8,86.5,0.0 9927202594262/cable/+1.0854398E-02 9927202594303/fmout-gps/S 1.8223E-07 9927202594309/ifd/16,19,nor,nor,rem,13172,6036 9927202594314/if3/6,in,2,2,,,present,500.10,rem,lock,30530 9927202594320/vc02/142.99,2.000,u,10,10,rem,lock,18451 9927202594326/vc06/202.89,2.000,u,10,10,rem,lock,20504 9927202594332/vc11/237.99,2.000,u,10,10,rem,lock,9073 9927202594360/tpi/16571,18451,14956,3878,20839,20504,22441,44600,13172,30530 9927202594380/tpi/7922,8256,9073,26441,16668,4705,6036 9927202594382/tsys1/60.2,57.6,56.2,53.8,51.2,47.1,45.4,44.9,54.7,48.1 9927202594382/tsys2/83.6,81.0,81.4,77.7,77.0,76.0,86.4 9927202594382:!272030120 9927203012001:"data stop" 9927203012001:et 9927203012012:!+3s 9927203012314:tape 9927203012323/tape/off,01125,norm,stopped,stop,unlock,ready,rem 9927203012323:postob 9927203012323:source=0552+398,055530.8,394849.2,2000.0,cw 9927203012450:check2c1 9927203020393?ERROR qg -303 Track 11 parity errors exceed threshold. 9927203020393?ERROR qg -305 AUX data differs from expected value on track 11. 9927203020394?ERROR qg -304 Track 11 sync errors exceed threshold. 9927203020394/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927203020394/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927203021818:nw2c1=19 9927203021871/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203022198:!272030638 9927203041925#trakl#SOURCE_ACQUIRED 9927203063801:preob 9927203063951/onsource/TRACKING 9927203064186/tpical/21327,23666,19280,4781,27273,26893,29885,59530,17085,40536 9927203064206/tpical/9687,10227,11273,33620,21215,5900,7345 9927203064214:!272030648 9927203064801:tape 9927203064810/tape/off,01122,norm,stopped,stop,unlock,ready,rem 9927203064810:st=for,135 9927203064821:"data start" 9927203064821:midob 9927203064900/onsource/TRACKING 9927203064902/wx/20.3,987.9,87.4,2.7 9927203064923/cable/+1.0850231E-02 9927203065003/fmout-gps/S 1.6949E-07 9927203065009/ifd/16,19,nor,nor,rem,15442,6395 9927203065015/if3/6,in,2,2,,,present,500.10,rem,lock,36096 9927203065021/vc02/142.99,2.000,u,10,10,rem,lock,21492 9927203065027/vc06/202.89,2.000,u,10,10,rem,lock,23976 9927203065033/vc11/237.99,2.000,u,10,10,rem,lock,9685 9927203065061/tpi/19432,21492,17474,4388,24561,23976,26419,52653,15442,36096 9927203065081/tpi/8343,8759,9685,28405,17930,5045,6395 9927203065082/tsys1/69.7,66.7,65.8,63.4,62.4,55.9,53.0,53.1,64.3,56.5 9927203065083/tsys2/89.6,86.5,89.1,84.2,83.4,83.1,92.2 9927203065083:!272030826 9927203082601:"data stop" 9927203082601:et 9927203082612:!+3s 9927203082914:tape 9927203082923/tape/off,02214,norm,moving,stop,unlock,ready,rem 9927203082923:postob 9927203082923:source=0133+476,013658.6,475129.1,2000.0,cw 9927203083050:nw2c1=19 9927203083103/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203083428:!272031317 9927203123174#trakl#SOURCE_ACQUIRED 9927203131701:preob 9927203131755/onsource/TRACKING 9927203131991/tpical/18658,20887,16945,4314,23784,23604,26102,51826,14955,35252 9927203132010/tpical/9313,9763,10754,31860,20053,5590,7009 9927203132017:!272031327 9927203132701:tape 9927203132711/tape/off,02214,norm,stopped,stop,unlock,ready,rem 9927203132711:st=for,135 9927203132722:"data start" 9927203132722:midob 9927203132800/onsource/TRACKING 9927203132802/wx/19.9,988.0,89.9,0.0 9927203132811/cable/+1.0853012E-02 9927203132903/fmout-gps/S 1.8127E-07 9927203132909/ifd/16,19,nor,nor,rem,13287,6054 9927203132915/if3/6,in,2,2,,,present,500.10,rem,lock,30769 9927203132921/vc02/142.99,2.000,u,10,10,rem,lock,18715 9927203132927/vc06/202.89,2.000,u,10,10,rem,lock,20620 9927203132932/vc11/237.99,2.000,u,10,10,rem,lock,9104 9927203132960/tpi/16723,18715,15088,3897,21001,20620,22607,44961,13287,30769 9927203132980/tpi/7958,8280,9104,26540,16715,4723,6054 9927203132982/tsys1/58.5,57.9,55.0,51.5,51.8,46.8,45.0,45.4,54.3,47.7 9927203132982/tsys2/84.4,80.6,80.2,77.1,76.4,76.2,86.1 9927203132982:!272031505 9927203150501:"data stop" 9927203150501:et 9927203150512:!+3s 9927203150814:tape 9927203150823/tape/off,03307,norm,stopped,stop,unlock,ready,rem 9927203150823:postob 9927203150823:source=2136+141,213901.3,142336.0,2000.0,neutral 9927203150850:nw2c1=19 9927203150903/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203151230:!272032423 9927203151625;"wx,overcast,light rain, humid, no wind, warm. 9927203151907;wx 9927203151909/wx/19.8,987.9,89.8,2.7 9927203152168;rxmon 9927203152177/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927203152187/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927203152196/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927203152206/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927203152216/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927203152225/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927203153489;"rxtemps 20k=29.07 70k=54.88 9927203231974#trakl#SOURCE_ACQUIRED 9927203242301:preob 9927203242451/onsource/TRACKING 9927203242686/tpical/18306,20553,16682,4261,23650,23480,26023,51737,14768,35057 9927203242706/tpical/9064,9532,10670,31498,19976,5579,6913 9927203242713:!272032433 9927203243301:tape 9927203243311/tape/off,03307,norm,stopped,stop,unlock,ready,rem 9927203243311:st=for,135 9927203243322:"data start" 9927203243322:midob 9927203243450/onsource/TRACKING 9927203243452/wx/19.5,987.9,90.9,0.0 9927203243483/cable/+1.0854722E-02 9927203243503/fmout-gps/S 1.8240E-07 9927203243509/ifd/16,19,nor,nor,rem,13142,5968 9927203243515/if3/6,in,2,2,,,present,500.10,rem,lock,30633 9927203243521/vc02/142.99,2.000,u,10,10,rem,lock,18416 9927203243527/vc06/202.89,2.000,u,10,10,rem,lock,20579 9927203243533/vc11/237.99,2.000,u,10,10,rem,lock,9044 9927203243561/tpi/16444,18416,14869,3859,20897,20579,22532,44808,13142,30633 9927203243581/tpi/7745,8090,9044,26264,16673,4711,5968 9927203243582/tsys1/59.7,57.8,55.5,52.8,52.1,48.0,44.9,44.8,55.1,48.1 9927203243583/tsys2/84.2,80.8,80.8,77.5,77.0,75.9,85.6 9927203243583:!272032611 9927203261101:"data stop" 9927203261101:et 9927203261112:!+3s 9927203261414:tape 9927203261423/tape/off,04400,norm,moving,stop,unlock,ready,rem 9927203261423:postob 9927203261423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927203261552:nw2c1=19 9927203261604/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203261930:!272033036 9927203301126#trakl#SOURCE_ACQUIRED 9927203303601:preob 9927203303751/onsource/TRACKING 9927203303986/tpical/18384,20584,16815,4286,23877,23706,26263,52227,14857,35375 9927203304006/tpical/9293,9789,10821,31914,20176,5621,7005 9927203304013:!272033046 9927203304601:tape 9927203304611/tape/off,04400,norm,stopped,stop,unlock,ready,rem 9927203304611:st=for,135 9927203304622:"data start" 9927203304622:midob 9927203304700/onsource/TRACKING 9927203304702/wx/19.1,987.9,92.6,0.0 9927203304707/cable/+1.0851307E-02 9927203304803/fmout-gps/S 1.8166E-07 9927203304809/ifd/16,19,nor,nor,rem,13220,6052 9927203304815/if3/6,in,2,2,,,present,500.10,rem,lock,30929 9927203304821/vc02/142.99,2.000,u,10,10,rem,lock,18465 9927203304827/vc06/202.89,2.000,u,10,10,rem,lock,20738 9927203304833/vc11/237.99,2.000,u,10,10,rem,lock,9206 9927203304861/tpi/16508,18465,15019,3880,21101,20738,22768,45281,13220,30929 9927203304881/tpi/7937,8300,9206,26645,16828,4753,6052 9927203304882/tsys1/59.5,58.5,56.6,52.6,52.2,47.3,45.3,45.2,55.1,48.3 9927203304883/tsys2/84.1,80.5,83.0,78.2,76.7,76.6,86.3 9927203304883:!272033224 9927203322401:"data stop" 9927203322401:et 9927203322412:!+3s 9927203322714:tape 9927203322722/tape/off,05493,norm,stopped,stop,unlock,ready,rem 9927203322723:postob 9927203322723:source=2201+315,220315.0,314538.3,2000.0,neutral 9927203322852:nw2c1=19 9927203322905/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203323230:!272033703 9927203362974#trakl#SOURCE_ACQUIRED 9927203370301:preob 9927203370401/onsource/TRACKING 9927203370637/tpical/18900,21173,17233,4394,24410,24259,26865,53327,15266,36193 9927203370657/tpical/9218,9725,10968,32133,20367,5668,7026 9927203370664:!272033713 9927203371301:tape 9927203371310/tape/off,05493,norm,stopped,stop,unlock,ready,rem 9927203371310:st=for,135 9927203371321:"data start" 9927203371321:midob 9927203371401/onsource/TRACKING 9927203371403/wx/18.9,988.1,93.7,0.0 9927203371407/cable/+1.0854094E-02 9927203371503/fmout-gps/S 1.8168E-07 9927203371509/ifd/16,19,nor,nor,rem,13636,6081 9927203371515/if3/6,in,2,2,,,present,500.10,rem,lock,31748 9927203371521/vc02/142.99,2.000,u,10,10,rem,lock,19060 9927203371527/vc06/202.89,2.000,u,10,10,rem,lock,21300 9927203371533/vc11/237.99,2.000,u,10,10,rem,lock,9349 9927203371561/tpi/17054,19060,15450,3982,21607,21300,23400,46420,13636,31748 9927203371580/tpi/7892,8271,9349,26891,17054,4806,6081 9927203371582/tsys1/62.6,60.6,58.7,53.6,53.0,48.8,46.9,46.6,57.1,49.6 9927203371582/tsys2/85.5,82.1,84.1,79.3,78.6,78.1,87.5 9927203371583:!272033851 9927203385101:"data stop" 9927203385101:et 9927203385112:!+3s 9927203385414:tape 9927203385423/tape/off,06586,norm,stopped,stop,unlock,ready,rem 9927203385423:postob 9927203385423:source=3c418,203837.0,511912.7,2000.0,neutral 9927203385500:nw2c1=19 9927203385553/pass/19,19,auto,165.0,165.0,165.9,165.9,0.9,0.9 9927203385879:!272034209 9927203415224#trakl#SOURCE_ACQUIRED 9927203420901:preob 9927203421051/onsource/TRACKING 9927203421286/tpical/18822,21106,17236,4385,24325,24239,26769,53158,15247,36085 9927203421306/tpical/9328,9833,10954,32300,20321,5662,7068 9927203421313:!272034219 9927203421901:tape 9927203421910/tape/off,06586,norm,stopped,stop,unlock,ready,rem 9927203421911:st=for,135 9927203421921:"data start" 9927203421921:midob 9927203422000/onsource/TRACKING 9927203422002/wx/19.1,987.9,92.6,0.0 9927203422006/cable/+1.0854281E-02 9927203422103/fmout-gps/S 1.8150E-07 9927203422109/ifd/16,19,nor,nor,rem,13606,6124 9927203422115/if3/6,in,2,2,,,present,500.10,rem,lock,31665 9927203422121/vc02/142.99,2.000,u,10,10,rem,lock,18954 9927203422127/vc06/202.89,2.000,u,10,10,rem,lock,21279 9927203422133/vc11/237.99,2.000,u,10,10,rem,lock,9338 9927203422161/tpi/16959,18954,15432,3984,21584,21279,23327,46329,13606,31665 9927203422180/tpi/7996,8367,9338,27078,17052,4803,6124 9927203422182/tsys1/61.6,59.2,58.0,55.1,54.1,48.7,47.1,47.0,56.6,49.8 9927203422183/tsys2/86.3,82.4,84.2,80.2,79.6,78.4,88.3 9927203422183:!272034357 9927203435701:"data stop" 9927203435701:et 9927203435712:!+3s 9927203440014:tape 9927203440023/tape/off,07679,norm,stopped,stop,unlock,ready,rem 9927203440023:postob 9927203440023:source=1937-101,193957.3,-100241.5,2000.0,neutral 9927203440100:midtp 9927203440335/tpzero/504,708,451,819,344,618,95,316,317,149 9927203440355/tpzero/631,627,623,270,377,489,775 9927203440371/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927203440380/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927203440389/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927203440399/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927203440408/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927203440417/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927203440417:nw2c2=20 9927203440564/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927203440890:fastf=0m52s 9927203450118:!272035055 9927203473025#trakl#SOURCE_ACQUIRED 9927203475078;wx 9927203475082/wx/19.0,988.0,91.2,0.0 9927203480841;"wx,overcast, humid, no wind, warm. 9927203481101;rxmon 9927203481110/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927203481119/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927203481128/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927203481137/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927203481147/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927203481156/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927203482464;"rxtemps 20k=29.07 70k=55.57 9927203505501:preob 9927203505651/onsource/TRACKING 9927203505886/tpical/20610,22857,18673,4682,26721,26375,29360,58433,16618,39730 9927203505906/tpical/9403,9990,11181,32776,20814,5783,7178 9927203505913:!272035105 9927203510501:tape 9927203510510/tape/off,08834,norm,stopped,stop,unlock,ready,rem 9927203510510:st=rev,135 9927203510521:"data start" 9927203510521:midob 9927203510553/onsource/TRACKING 9927203510555/wx/18.7,988.1,95.5,0.0 9927203510566/cable/+1.0851010E-02 9927203510602/fmout-gps/S 1.8131E-07 9927203510608/ifd/16,19,nor,nor,rem,14950,6242 9927203510614/if3/6,in,2,2,,,present,500.10,rem,lock,35202 9927203510620/vc02/142.99,2.000,u,10,10,rem,lock,20697 9927203510626/vc06/202.89,2.000,u,10,10,rem,lock,23387 9927203510632/vc11/237.99,2.000,u,10,10,rem,lock,9563 9927203510660/tpi/18694,20697,16864,4264,23905,23387,25853,51355,14950,35202 9927203510680/tpi/8076,8531,9563,27576,17516,4930,6242 9927203510681/tsys1/66.3,64.6,63.3,57.5,58.4,53.2,51.3,50.3,61.2,54.0 9927203510682/tsys2/87.6,84.6,86.3,82.0,81.1,81.3,91.2 9927203510682:!272035634 9927203563401:"data stop" 9927203563401:et 9927203563412:!+3s 9927203563714:tape 9927203563723/tape/off,05142,norm,stopped,stop,unlock,ready,rem 9927203563723:postob 9927203563723:source=2126-158,212912.2,-153841.0,2000.0,neutral 9927203563800:check2c2 9927203571803?ERROR qg -303 Track 11 parity errors exceed threshold. 9927203571803?ERROR qg -305 AUX data differs from expected value on track 11. 9927203571803?ERROR qg -304 Track 11 sync errors exceed threshold. 9927203571803/parity/0.,0.,0.,16.,0.,$$$$$,0.,0.,0.,0.,16.,16.,0.,16. 9927203571803/parity/0,0,0,0,0,302,0,0,0,0,0,0,0,0 9927203573168:nw2c2=20 9927203573222/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927203573547:!272035847 9927203580725#trakl#SOURCE_ACQUIRED 9927203584701:preob 9927203584801/onsource/TRACKING 9927203585036/tpical/19632,21743,17775,4487,25381,25092,27875,55598,15809,37723 9927203585056/tpical/9165,9686,10915,31810,20200,5634,6995 9927203585063:!272035857 9927203585701:tape 9927203585711/tape/off,05145,norm,stopped,stop,unlock,ready,rem 9927203585711:st=rev,135 9927203585722:"data start" 9927203585722:midob 9927203585800/onsource/TRACKING 9927203585802/wx/18.9,987.9,93.2,1.0 9927203585835/cable/+1.0850515E-02 9927203585902/fmout-gps/S 1.8141E-07 9927203585908/ifd/16,19,nor,nor,rem,14197,6058 9927203585914/if3/6,in,2,2,,,present,500.10,rem,lock,33356 9927203585920/vc02/142.99,2.000,u,10,10,rem,lock,19665 9927203585926/vc06/202.89,2.000,u,10,10,rem,lock,22227 9927203585932/vc11/237.99,2.000,u,10,10,rem,lock,9288 9927203585960/tpi/17767,19665,16009,4093,22704,22227,24456,48865,14197,33356 9927203585980/tpi/7842,8229,9288,26624,16936,4781,6058 9927203585982/tsys1/64.6,63.7,61.5,58.0,58.3,52.6,49.7,50.3,60.1,53.1 9927203585982/tsys2/85.1,81.4,83.1,79.3,79.2,78.5,88.0 9927203585982:!272040035 9927204003501:"data stop" 9927204003501:et 9927204003512:!+3s 9927204003814:tape 9927204003823/tape/off,04053,norm,stopped,stop,unlock,ready,rem 9927204003823:postob 9927204003823:source=3c446,222547.3,-045701.4,2000.0,neutral 9927204003852:nw2c2=20 9927204003905/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927204004229:!272040356 9927204020475#trakl#SOURCE_ACQUIRED 9927204035601:preob 9927204035651/onsource/TRACKING 9927204035887/tpical/19121,21313,17424,4400,24726,24408,27186,54006,15405,36644 9927204035906/tpical/9239,9744,10909,32064,20271,5642,7021 9927204035913:!272040406 9927204040601:tape 9927204040611/tape/off,04053,norm,stopped,stop,unlock,ready,rem 9927204040611:st=rev,135 9927204040622:"data start" 9927204040622:midob 9927204040750/onsource/TRACKING 9927204040752/wx/18.6,987.9,95.9,0.0 9927204040758/cable/+1.0850391E-02 9927204040802/fmout-gps/S 1.8193E-07 9927204040808/ifd/16,19,nor,nor,rem,13710,6079 9927204040814/if3/6,in,2,2,,,present,500.10,rem,lock,32080 9927204040820/vc02/142.99,2.000,u,10,10,rem,lock,19102 9927204040826/vc06/202.89,2.000,u,10,10,rem,lock,21415 9927204040832/vc11/237.99,2.000,u,10,10,rem,lock,9285 9927204040860/tpi/17180,19102,15569,3988,21885,21415,23606,47020,13710,32080 9927204040880/tpi/7914,8278,9285,26775,16972,4782,6079 9927204040882/tsys1/60.0,58.1,56.9,53.7,52.9,48.5,45.8,46.7,55.2,48.8 9927204040882/tsys2/85.8,81.5,83.3,78.2,78.5,77.9,87.9 9927204040882:!272040544 9927204054401:"data stop" 9927204054401:et 9927204054412:!+3s 9927204054714:tape 9927204054723/tape/off,02960,norm,stopped,stop,unlock,ready,rem 9927204054723:postob 9927204054723:source=0239+108,024229.2,110100.7,2000.0,neutral 9927204054854:nw2c2=20 9927204054907/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927204055058;op=sylvain 9927204055234:!272040923 9927204090724#trakl#SOURCE_ACQUIRED 9927204092301:preob 9927204092399/onsource/TRACKING 9927204092634/tpical/18536,20719,16972,4311,24100,23856,26462,52692,14997,35660 9927204092654/tpical/9306,9766,10792,31893,20096,5610,7001 9927204092661:!272040933 9927204093301:tape 9927204093311/tape/off,02960,norm,stopped,stop,unlock,ready,rem 9927204093311:st=rev,135 9927204093322:"data start" 9927204093322:midob 9927204093352/onsource/TRACKING 9927204093354/wx/18.7,987.7,95.3,0.0 9927204093375/cable/+1.0849247E-02 9927204093403/fmout-gps/S 1.8119E-07 9927204093409/ifd/16,19,nor,nor,rem,13341,6051 9927204093415/if3/6,in,2,2,,,present,500.10,rem,lock,31194 9927204093429/vc02/142.99,2.000,u,10,10,rem,lock,18570 9927204093442/vc06/202.89,2.000,u,10,10,rem,lock,20904 9927204093448/vc11/237.99,2.000,u,10,10,rem,lock,9167 9927204093519/tpi/16649,18570,15145,3901,21343,20904,22935,45613,13333,31174 9927204093554/tpi/7948,8295,9175,26573,16765,4742,6050 9927204093556/tsys1/59.7,58.0,56.1,52.5,53.2,48.0,45.2,44.7,54.6,48.3 9927204093556/tsys2/84.1,81.4,82.6,77.2,76.8,76.5,86.6 9927204093556:!272041315 9927204131501:"data stop" 9927204131501:et 9927204131512:!+3s 9927204131814:tape 9927204131823/tape/off,00472,norm,stopped,stop,unlock,ready,rem 9927204131823:postob 9927204131823:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927204131900:midtp 9927204132135/tpzero/503,705,451,816,344,618,99,316,309,149 9927204132155/tpzero/636,624,621,271,378,489,777 9927204132171/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927204132180/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927204132190/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927204132199/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927204132208/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927204132217/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927204132217:nw2c1=21 9927204132352/pass/21,21,auto,220.0,220.0,220.7,222.2,0.7,2.2 9927204132677:fastr=0m21s 9927204134805:!272041504 9927204142174#trakl#SOURCE_ACQUIRED 9927204150401:preob 9927204150453/onsource/TRACKING 9927204150688/tpical/19900,21985,18007,4525,25667,25382,28239,56293,15978,38176 9927204150708/tpical/9442,9940,11009,32453,20558,5724,7132 9927204150715:!272041514 9927204151401:tape 9927204151411/tape/low,00026,norm,stopped,stop,unlock,ready,rem 9927204151411:st=for,135 9927204151422:"data start" 9927204151422:midob 9927204151500/onsource/TRACKING 9927204151502/wx/18.9,987.6,94.0,0.0 9927204151538/cable/+1.0850075E-02 9927204151602/fmout-gps/S 1.8240E-07 9927204151608/ifd/16,19,nor,nor,rem,14347,6187 9927204151614/if3/6,in,2,2,,,present,500.10,rem,lock,33748 9927204151620/vc02/142.99,2.000,u,10,10,rem,lock,19896 9927204151626/vc06/202.89,2.000,u,10,10,rem,lock,22450 9927204151632/vc11/237.99,2.000,u,10,10,rem,lock,9388 9927204151660/tpi/17983,19896,16229,4123,22949,22450,24771,49382,14347,33748 9927204151680/tpi/8087,8478,9388,27216,17230,4856,6187 9927204151681/tsys1/63.6,64.1,61.9,57.4,58.1,52.0,49.7,49.6,60.1,53.0 9927204151682/tsys2/85.8,83.9,84.4,80.3,79.0,78.5,89.4 9927204151682:!272041652 9927204165201:"data stop" 9927204165201:et 9927204165212:!+3s 9927204165514:tape 9927204165523/tape/off,01119,norm,stopped,stop,unlock,ready,rem 9927204165523:postob 9927204165523:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927204165600:check2c1 9927204173543?ERROR qg -303 Track 11 parity errors exceed threshold. 9927204173544?ERROR qg -305 AUX data differs from expected value on track 11. 9927204173544?ERROR qg -304 Track 11 sync errors exceed threshold. 9927204173544/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927204173544/parity/0,0,0,0,0,269,0,0,0,0,0,0,0,0 9927204174972:nw2c1=21 9927204175074/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204175399:!272041925 9927204181975#trakl#SOURCE_ACQUIRED 9927204192501:preob 9927204192599/onsource/TRACKING 9927204192834/tpical/20644,22862,18721,4688,26739,26419,29313,58548,16616,39773 9927204192854/tpical/9442,9970,11231,33138,21031,5860,7225 9927204192861:!272041935 9927204193501:tape 9927204193510/tape/off,01115,norm,stopped,stop,unlock,ready,rem 9927204193510:st=for,135 9927204193521:"data start" 9927204193521:midob 9927204193601/onsource/TRACKING 9927204193603/wx/18.8,987.6,94.2,0.0 9927204193638/cable/+1.0849498E-02 9927204193702/fmout-gps/S 1.8258E-07 9927204193708/ifd/16,19,nor,nor,rem,14958,6280 9927204193714/if3/6,in,2,2,,,present,500.10,rem,lock,35265 9927204193720/vc02/142.99,2.000,u,10,10,rem,lock,20686 9927204193726/vc06/202.89,2.000,u,10,10,rem,lock,23450 9927204193732/vc11/237.99,2.000,u,10,10,rem,lock,9617 9927204193760/tpi/18717,20686,16897,4273,23944,23450,25783,51650,14958,35265 9927204193780/tpi/8109,8507,9617,27903,17743,4995,6280 9927204193781/tsys1/66.0,64.1,62.9,58.1,58.9,53.7,50.8,51.9,61.7,54.4 9927204193782/tsys2/87.5,84.1,87.0,82.4,82.4,81.3,90.9 9927204193782:!272042705 9927204270501:"data stop" 9927204270501:et 9927204270512:!+3s 9927204270816:tape 9927204270843/tape/off,06168,norm,stopped,stop,unlock,ready,rem 9927204270843:postob 9927204270843:source=0119+115,012141.6,114950.4,2000.0,neutral 9927204270900:nw2c1=21 9927204270953/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204271279:!272043144 9927204303374#trakl#SOURCE_ACQUIRED 9927204314401:preob 9927204314549/onsource/TRACKING 9927204314784/tpical/18444,20680,16846,4280,23868,23650,26196,51994,14884,35355 9927204314804/tpical/9035,9491,10696,31376,19979,5580,6904 9927204314811:!272043154 9927204315401:tape 9927204315410/tape/off,06168,norm,stopped,stop,unlock,ready,rem 9927204315411:st=for,135 9927204315421:"data start" 9927204315421:midob 9927204315550/onsource/TRACKING 9927204315552/wx/18.6,987.4,95.9,0.0 9927204315582/cable/+1.0851284E-02 9927204315603/fmout-gps/S 1.8166E-07 9927204315609/ifd/16,19,nor,nor,rem,13226,5959 9927204315615/if3/6,in,2,2,,,present,500.10,rem,lock,30853 9927204315621/vc02/142.99,2.000,u,10,10,rem,lock,18547 9927204315627/vc06/202.89,2.000,u,10,10,rem,lock,20638 9927204315633/vc11/237.99,2.000,u,10,10,rem,lock,9076 9927204315661/tpi/16547,18547,15033,3875,21054,20638,22681,45067,13226,30853 9927204315680/tpi/7717,8053,9076,26196,16677,4708,5959 9927204315682/tsys1/59.0,58.4,56.1,52.7,51.4,46.4,44.8,45.1,54.4,47.6 9927204315683/tsys2/83.9,80.6,81.5,78.1,77.1,75.5,85.6 9927204315683:!272043332 9927204333201:"data stop" 9927204333201:et 9927204333212:!+3s 9927204333514:tape 9927204333522/tape/off,07261,norm,stopped,stop,unlock,ready,rem 9927204333523:postob 9927204333523:source=0229+131,023145.9,132254.7,2000.0,neutral 9927204333600:nw2c1=21 9927204333653/pass/21,21,auto,220.0,220.0,220.7,221.3,0.7,1.3 9927204333977:!272043444 9927204344276#trakl#SOURCE_ACQUIRED 9927204344402:preob 9927204344450/onsource/TRACKING 9927204344685/tpical/18261,20454,16671,4248,23712,23475,26051,51856,14733,35125 9927204344705/tpical/9095,9558,10725,31571,20000,5578,6924 9927204344712:!272043454 9927204345401:tape 9927204345411/tape/off,07261,norm,stopped,stop,unlock,ready,rem 9927204345411:st=for,135 9927204345422:"data start" 9927204345422:midob 9927204345550/onsource/TRACKING 9927204345552/wx/18.6,987.3,96.2,0.0 9927204345582/cable/+1.0850478E-02 9927204345603/fmout-gps/S 1.8203E-07 9927204345609/ifd/16,19,nor,nor,rem,13093,5972 9927204345615/if3/6,in,2,2,,,present,500.10,rem,lock,30657 9927204345621/vc02/142.99,2.000,u,10,10,rem,lock,18300 9927204345627/vc06/202.89,2.000,u,10,10,rem,lock,20554 9927204345633/vc11/237.99,2.000,u,10,10,rem,lock,9102 9927204345661/tpi/16338,18300,14853,3848,20941,20554,22537,44890,13093,30657 9927204345680/tpi/7760,8113,9102,26325,16674,4711,5972 9927204345682/tsys1/57.5,57.0,55.3,52.9,51.9,47.6,44.6,44.7,54.4,47.7 9927204345682/tsys2/83.3,80.9,81.6,77.5,76.5,76.0,85.2 9927204345682:!272043632 9927204363201:"data stop" 9927204363201:et 9927204363212:!+3s 9927204363514:tape 9927204363523/tape/off,08354,norm,stopped,stop,unlock,ready,rem 9927204363523:postob 9927204363523:source=2201+315,220315.0,314538.3,2000.0,neutral 9927204363600:midtp 9927204363836/tpzero/505,709,448,815,350,624,93,314,306,149 9927204363855/tpzero/630,628,622,264,379,494,780 9927204363871/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927204363881/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927204363890/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927204363899/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927204363908/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927204363918/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927204363918:nw2c2=22 9927204364083/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204364409:fastf=0m22s 9927204370637:!272044155 9927204413974#trakl#SOURCE_ACQUIRED 9927204415501:preob 9927204415601/onsource/TRACKING 9927204415836/tpical/18627,21003,17096,4350,24195,24098,26735,52989,15134,35950 9927204415856/tpical/9084,9644,10880,31615,20152,5618,6965 9927204415863:!272044205 9927204420501:tape 9927204420511/tape/off,08835,norm,stopped,stop,unlock,ready,rem 9927204420511:st=rev,135 9927204420522:"data start" 9927204420522:midob 9927204420650/onsource/TRACKING 9927204420652/wx/18.6,987.3,95.4,0.0 9927204420674/cable/+1.0851185E-02 9927204420702/fmout-gps/S 1.8107E-07 9927204420708/ifd/16,19,nor,nor,rem,13484,6022 9927204420714/if3/6,in,2,2,,,present,500.10,rem,lock,31481 9927204420720/vc02/142.99,2.000,u,10,10,rem,lock,18845 9927204420726/vc06/202.89,2.000,u,10,10,rem,lock,21116 9927204420732/vc11/237.99,2.000,u,10,10,rem,lock,9260 9927204420760/tpi/16778,18845,15280,3946,21457,21116,23199,46040,13484,31481 9927204420780/tpi/7767,8182,9260,26439,16863,4752,6022 9927204420781/tsys1/61.4,58.7,57.0,54.1,53.8,48.0,45.6,45.9,55.7,48.9 9927204420782/tsys2/84.6,80.7,83.2,78.9,78.2,76.8,86.8 9927204420782:!272044343 9927204434301:"data stop" 9927204434301:et 9927204434312:!+3s 9927204434614:tape 9927204434623/tape/off,07742,norm,stopped,stop,unlock,ready,rem 9927204434623:postob 9927204434623:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927204434750:check2c2 9927204442698?ERROR qg -303 Track 11 parity errors exceed threshold. 9927204442698?ERROR qg -305 AUX data differs from expected value on track 11. 9927204442698?ERROR qg -304 Track 11 sync errors exceed threshold. 9927204442698/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927204442698/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927204444118:nw2c2=22 9927204444172/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204444496:!272044645 9927204463175#trakl#SOURCE_ACQUIRED 9927204464501:preob 9927204464553/onsource/TRACKING 9927204464788/tpical/18643,20974,17110,4333,24305,24106,26716,53083,15112,35991 9927204464808/tpical/9127,9577,10824,31603,20092,5610,6943 9927204464815:!272044655 9927204465501:tape 9927204465511/tape/off,07744,norm,stopped,stop,unlock,ready,rem 9927204465511:st=rev,135 9927204465522:"data start" 9927204465522:midob 9927204465650/onsource/TRACKING 9927204465652/wx/18.5,987.3,96.5,3.1 9927204465690/cable/+1.0850221E-02 9927204465702/fmout-gps/S 1.8129E-07 9927204465708/ifd/16,19,nor,nor,rem,13422,6003 9927204465714/if3/6,in,2,2,,,present,500.10,rem,lock,31433 9927204465720/vc02/142.99,2.000,u,10,10,rem,lock,18750 9927204465726/vc06/202.89,2.000,u,10,10,rem,lock,21059 9927204465732/vc11/237.99,2.000,u,10,10,rem,lock,9176 9927204465760/tpi/16724,18750,15252,3924,21486,21059,23123,45985,13422,31433 9927204465780/tpi/7799,8134,9176,26367,16795,4741,6003 9927204465782/tsys1/59.0,56.6,55.6,53.1,52.3,46.8,44.7,44.9,54.2,47.9 9927204465782/tsys2/84.3,81.2,81.0,77.8,77.7,76.3,86.7 9927204465782:!272044833 9927204483301:"data stop" 9927204483301:et 9927204483312:!+3s 9927204483614:tape 9927204483623/tape/off,06651,norm,stopped,stop,unlock,ready,rem 9927204483623:postob 9927204483623:source=0133+476,013658.6,475129.1,2000.0,ccw 9927204483750:nw2c2=22 9927204483803/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204484129:!272045304 9927204523775#trakl#SOURCE_ACQUIRED 9927204530401:preob 9927204530551/onsource/TRACKING 9927204530786/tpical/19115,21428,17483,4428,24606,24476,27070,53645,15459,36498 9927204530806/tpical/9510,9986,11047,32740,20538,5723,7157 9927204530813:!272045314 9927204531401:tape 9927204531410/tape/off,06651,norm,moving,stop,unlock,ready,rem 9927204531411:st=rev,135 9927204531422:"data start" 9927204531422:midob 9927204531552/onsource/TRACKING 9927204531554/wx/18.4,987.3,96.9,0.0 9927204531562/cable/+1.0850013E-02 9927204531602/fmout-gps/S 1.8270E-07 9927204531608/ifd/16,19,nor,nor,rem,13820,6192 9927204531614/if3/6,in,2,2,,,present,500.10,rem,lock,32054 9927204531620/vc02/142.99,2.000,u,10,10,rem,lock,19333 9927204531626/vc06/202.89,2.000,u,10,10,rem,lock,21511 9927204531632/vc11/237.99,2.000,u,10,10,rem,lock,9407 9927204531660/tpi/17264,19333,15671,4015,21861,21511,23560,46679,13820,32054 9927204531680/tpi/8157,8491,9407,27397,17200,4855,6192 9927204531681/tsys1/63.2,62.1,58.6,54.1,54.7,49.2,46.7,46.5,57.6,50.1 9927204531682/tsys2/86.8,82.1,83.6,79.3,78.7,78.4,87.5 9927204531682:!272045452 9927204545201:"data stop" 9927204545201:et 9927204545211:!+3s 9927204545513:tape 9927204545522/tape/off,05558,norm,stopped,stop,unlock,ready,rem 9927204545522:postob 9927204545522:source=0528+134,053056.4,133155.2,2000.0,ccw 9927204545551:nw2c2=22 9927204545603/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927204550025:!272050112 9927204583425#trakl#SOURCE_ACQUIRED 9927205011201:preob 9927205011253/onsource/TRACKING 9927205011488/tpical/20916,23132,18926,4735,26985,26642,29696,59031,16818,40173 9927205011508/tpical/9639,10206,11269,33357,21037,5858,7293 9927205011515:!272050122 9927205012201:tape 9927205012209/tape/off,05558,norm,stopped,stop,unlock,ready,rem 9927205012210:st=rev,135 9927205012221:"data start" 9927205012221:midob 9927205012301/onsource/TRACKING 9927205012303/wx/17.8,987.5,99.0,5.5 9927205012307/cable/+1.0846534E-02 9927205012402/fmout-gps/S 1.8193E-07 9927205012408/ifd/16,19,nor,nor,rem,15238,6336 9927205012414/if3/6,in,2,2,,,present,500.10,rem,lock,35851 9927205012420/vc02/142.99,2.000,u,10,10,rem,lock,21068 9927205012426/vc06/202.89,2.000,u,10,10,rem,lock,23791 9927205012432/vc11/237.99,2.000,u,10,10,rem,lock,9647 9927205012460/tpi/19086,21068,17176,4343,24309,23791,26304,52351,15238,35851 9927205012480/tpi/8274,8714,9647,28011,17726,4982,6336 9927205012481/tsys1/70.9,68.8,66.7,62.8,62.5,56.7,53.9,54.4,66.0,57.7 9927205012482/tsys2/87.4,84.6,86.9,81.0,81.8,80.0,90.6 9927205012482:!272050300 9927205030001:"data stop" 9927205030001:et 9927205030012:!+3s 9927205030314:tape 9927205030323/tape/off,04465,norm,stopped,stop,unlock,ready,rem 9927205030323:postob 9927205030323:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927205030400:nw2c2=22 9927205030453/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927205030777:!272050358 9927205034975#trakl#SOURCE_ACQUIRED 9927205035801:preob 9927205035899/onsource/TRACKING 9927205040134/tpical/22094,24444,20091,4982,28623,28336,31510,62767,17846,42731 9927205040154/tpical/9888,10470,11522,34322,21642,6018,7457 9927205040161:!272050408 9927205040801:tape 9927205040810/tape/off,04465,norm,stopped,stop,unlock,ready,rem 9927205040810:st=rev,135 9927205040821:"data start" 9927205040821:midob 9927205040951/onsource/TRACKING 9927205040953/wx/17.9,987.5,98.7,3.6 9927205040974/cable/+1.0846445E-02 9927205041002/fmout-gps/S 1.7982E-07 9927205041008/ifd/16,19,nor,nor,rem,16236,6497 9927205041014/if3/6,in,2,2,,,present,500.10,rem,lock,38332 9927205041020/vc02/142.99,2.000,u,10,10,rem,lock,22353 9927205041026/vc06/202.89,2.000,u,10,10,rem,lock,25430 9927205041032/vc11/237.99,2.000,u,10,10,rem,lock,9898 9927205041060/tpi/20214,22353,18335,4592,25998,25430,28056,56029,16236,38332 9927205041080/tpi/8518,8955,9898,28975,18291,5144,6497 9927205041081/tsys1/73.2,72.3,71.1,67.6,68.2,59.6,56.5,57.7,69.1,60.6 9927205041082/tsys2/89.9,85.8,89.2,83.8,83.4,83.1,93.0 9927205041082:!272050546 9927205054601:"data stop" 9927205054601:et 9927205054612:!+3s 9927205054914:tape 9927205054923/tape/off,03372,norm,stopped,stop,unlock,ready,rem 9927205054923:postob 9927205054923:source=0642+449,064632.0,445116.6,2000.0,ccw 9927205055052:nw2c2=22 9927205055105/pass/22,22,auto,220.0,220.0,221.1,220.0,1.1,0.0 9927205055430:!272051146 9927205080524#trakl#SOURCE_ACQUIRED 9927205114601:preob 9927205114653/onsource/TRACKING 9927205114888/tpical/19777,21771,17804,4482,25268,24992,27828,55486,15790,37570 9927205114908/tpical/9442,9958,10972,32495,20445,5691,7113 9927205114915:!272051156 9927205115601:tape 9927205115610/tape/off,03372,norm,stopped,stop,unlock,ready,rem 9927205115611:st=rev,135 9927205115622:"data start" 9927205115622:midob 9927205115750/onsource/TRACKING 9927205115752/wx/18.3,987.4,97.9,0.0 9927205115774/cable/+1.0847380E-02 9927205115803/fmout-gps/S 1.8248E-07 9927205115809/ifd/16,19,nor,nor,rem,14202,6144 9927205115815/if3/6,in,2,2,,,present,500.10,rem,lock,33264 9927205115821/vc02/142.99,2.000,u,10,10,rem,lock,19769 9927205115827/vc06/202.89,2.000,u,10,10,rem,lock,22144 9927205115832/vc11/237.99,2.000,u,10,10,rem,lock,9333 9927205115861/tpi/17912,19769,16064,4097,22582,22144,24478,48779,14202,33264 9927205115880/tpi/8078,8457,9333,27137,17093,4829,6144 9927205115882/tsys1/65.1,66.5,62.6,59.5,57.8,52.7,50.8,50.4,61.1,53.7 9927205115882/tsys2/85.2,81.4,83.0,78.3,77.8,78.5,86.4 9927205115883:!272051334 9927205133401:"data stop" 9927205133401:et 9927205133412:!+3s 9927205133714:tape 9927205133722/tape/off,02279,norm,stopped,stop,unlock,ready,rem 9927205133723:postob 9927205133723:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927205133800:midtp 9927205134035/tpzero/506,709,450,818,336,618,97,317,313,150 9927205134055/tpzero/635,627,620,269,379,486,776 9927205134071/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927205134080/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927205134090/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927205134099/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927205134109/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927205134118/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927205134118:nw2c1=23 9927205134252/pass/23,23,auto,275.0,275.0,275.4,275.0,0.4,0.0 9927205134577:fastr=1m41s 9927205152705:!272052200 9927205153114;"wx,overcast, humid, no wind, warm. 9927205181075#trakl#SOURCE_ACQUIRED 9927205220001:preob 9927205220151/onsource/TRACKING 9927205220386/tpical/20701,22847,18766,4699,26835,26547,29418,58811,16653,39926 9927205220406/tpical/9365,9876,11051,32416,20567,5733,7127 9927205220413:!272052210 9927205221001:tape 9927205221010/tape/low,00029,norm,stopped,stop,unlock,ready,rem 9927205221010:st=for,135 9927205221021:"data start" 9927205221021:midob 9927205221151/onsource/TRACKING 9927205221153/wx/18.9,987.2,94.8,4.7 9927205221189/cable/+1.0849806E-02 9927205221202/fmout-gps/S 1.8139E-07 9927205221208/ifd/16,19,nor,nor,rem,15004,6191 9927205221214/if3/6,in,2,2,,,present,500.10,rem,lock,35429 9927205221220/vc02/142.99,2.000,u,10,10,rem,lock,20717 9927205221226/vc06/202.89,2.000,u,10,10,rem,lock,23553 9927205221232/vc11/237.99,2.000,u,10,10,rem,lock,9466 9927205221260/tpi/18794,20717,16984,4289,24062,23553,25918,51936,15004,35429 9927205221279/tpi/8041,8450,9466,27265,17311,4885,6191 9927205221281/tsys1/66.9,65.6,64.8,59.1,59.7,53.5,51.5,52.4,62.2,54.8 9927205221281/tsys2/87.3,85.6,87.1,81.8,81.2,81.0,90.3 9927205221282:!272052819 9927205281901:"data stop" 9927205281901:et 9927205281912:!+3s 9927205282214:tape 9927205282223/tape/off,04170,norm,stopped,stop,unlock,ready,rem 9927205282223:postob 9927205282223:source=3c446,222547.3,-045701.4,2000.0,neutral 9927205282352:check2c1 9927205290309?ERROR qg -303 Track 11 parity errors exceed threshold. 9927205290309?ERROR qg -304 Track 11 sync errors exceed threshold. 9927205290310/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927205290310/parity/0,0,0,0,0,188,0,0,0,0,0,0,0,0 9927205291720:nw2c1=23 9927205291773/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205292099:!272053032 9927205300374#trakl#SOURCE_ACQUIRED 9927205303201:preob 9927205303351/onsource/TRACKING 9927205303586/tpical/19568,21577,17617,4459,25208,24925,27754,55257,15674,37471 9927205303606/tpical/9261,9728,10958,32177,20329,5662,7062 9927205303613:!272053042 9927205304201:tape 9927205304211/tape/off,04165,norm,stopped,stop,unlock,ready,rem 9927205304212:st=for,135 9927205304223:"data start" 9927205304223:midob 9927205304351/onsource/TRACKING 9927205304353/wx/18.7,987.0,95.3,0.0 9927205304383/cable/+1.0849972E-02 9927205304403/fmout-gps/S 1.8129E-07 9927205304409/ifd/16,19,nor,nor,rem,13919,6115 9927205304415/if3/6,in,2,2,,,present,500.10,rem,lock,32739 9927205304421/vc02/142.99,2.000,u,10,10,rem,lock,19293 9927205304427/vc06/202.89,2.000,u,10,10,rem,lock,21797 9927205304433/vc11/237.99,2.000,u,10,10,rem,lock,9329 9927205304461/tpi/17554,19293,15712,4029,22261,21797,24034,47973,13919,32739 9927205304481/tpi/7919,8274,9329,26895,16988,4801,6115 9927205304482/tsys1/59.1,56.8,55.9,52.1,51.9,47.3,44.9,45.7,54.1,48.1 9927205304483/tsys2/84.7,82.1,83.5,78.7,77.6,78.2,88.0 9927205304483:!272053220 9927205322002:"data stop" 9927205322002:et 9927205322013:!+3s 9927205322315:tape 9927205322324/tape/off,05258,norm,stopped,stop,unlock,ready,rem 9927205322324:postob 9927205322324:source=2201+315,220315.0,314538.3,2000.0,neutral 9927205322401:nw2c1=23 9927205322454/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205322780:!272053602 9927205345125#trakl#SOURCE_ACQUIRED 9927205360201:preob 9927205360299/onsource/TRACKING 9927205360534/tpical/18685,20847,17011,4328,24152,24024,26617,52918,15055,35835 9927205360554/tpical/9183,9637,10754,31641,20036,5593,6957 9927205360561:!272053612 9927205361201:tape 9927205361211/tape/off,05258,norm,stopped,stop,unlock,ready,rem 9927205361211:st=for,135 9927205361222:"data start" 9927205361222:midob 9927205361252/onsource/TRACKING 9927205361254/wx/18.8,987.0,95.7,2.1 9927205361286/cable/+1.0851354E-02 9927205361302/fmout-gps/S 1.8092E-07 9927205361308/ifd/16,19,nor,nor,rem,13416,6008 9927205361314/if3/6,in,2,2,,,present,500.10,rem,lock,31384 9927205361320/vc02/142.99,2.000,u,10,10,rem,lock,18742 9927205361326/vc06/202.89,2.000,u,10,10,rem,lock,21060 9927205361332/vc11/237.99,2.000,u,10,10,rem,lock,9133 9927205361360/tpi/16804,18742,15226,3929,21404,21060,23093,45954,13416,31384 9927205361380/tpi/7843,8179,9133,26411,16714,4731,6008 9927205361381/tsys1/60.5,59.8,57.8,54.4,53.5,48.1,45.5,45.7,55.8,49.0 9927205361382/tsys2/84.0,80.9,82.0,78.0,76.8,76.9,86.1 9927205361382:!272053750 9927205375001:"data stop" 9927205375001:et 9927205375012:!+3s 9927205375314:tape 9927205375323/tape/off,06351,norm,stopped,stop,unlock,ready,rem 9927205375323:postob 9927205375323:source=2136+141,213901.3,142336.0,2000.0,neutral 9927205375350:nw2c1=23 9927205375403/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205375728:!272053945 9927205390374#trakl#SOURCE_ACQUIRED 9927205394501:preob 9927205394599/onsource/TRACKING 9927205394835/tpical/18981,21207,17347,4395,24675,24488,27164,54025,15345,36556 9927205394854/tpical/9159,9622,10757,31595,20016,5595,6953 9927205394861:!272053955 9927205395501:tape 9927205395511/tape/off,06351,norm,stopped,stop,unlock,ready,rem 9927205395511:st=for,135 9927205395521:"data start" 9927205395521:midob 9927205395552/onsource/TRACKING 9927205395554/wx/19.0,987.0,94.5,0.0 9927205395570/cable/+1.0850855E-02 9927205395602/fmout-gps/S 1.8240E-07 9927205395608/ifd/16,19,nor,nor,rem,13745,6009 9927205395614/if3/6,in,2,2,,,present,500.10,rem,lock,32205 9927205395620/vc02/142.99,2.000,u,10,10,rem,lock,19147 9927205395626/vc06/202.89,2.000,u,10,10,rem,lock,21559 9927205395632/vc11/237.99,2.000,u,10,10,rem,lock,9144 9927205395660/tpi/17116,19147,15601,4003,21957,21559,23735,47184,13745,32205 9927205395680/tpi/7827,8163,9144,26322,16713,4737,6009 9927205395681/tsys1/62.2,62.5,60.6,56.7,55.5,49.9,48.1,47.8,58.6,51.4 9927205395682/tsys2/84.3,80.6,82.5,77.1,77.2,77.3,86.5 9927205395682:!272054133 9927205413301:"data stop" 9927205413301:et 9927205413312:!+3s 9927205413614:tape 9927205413623/tape/off,07443,norm,stopped,stop,unlock,ready,rem 9927205413623:postob 9927205413623:source=2145+067,214805.5,065738.6,2000.0,neutral 9927205413750:nw2c1=23 9927205413803/pass/23,23,auto,275.0,275.0,274.5,275.0,-0.5,0.0 9927205414128:!272054432 9927205422025#trakl#SOURCE_ACQUIRED 9927205443201:preob 9927205443378/onsource/TRACKING 9927205443613/tpical/19912,22324,18242,4589,25932,25665,28588,56760,16153,38517 9927205443633/tpical/9305,9790,10946,32194,20381,5688,7055 9927205443640:!272054442 9927205444201:tape 9927205444210/tape/off,07443,norm,stopped,stop,unlock,ready,rem 9927205444211:st=for,135 9927205444222:"data start" 9927205444222:midob 9927205444350/onsource/TRACKING 9927205444352/wx/18.7,986.9,95.5,0.0 9927205444370/cable/+1.0850825E-02 9927205444402/fmout-gps/S 1.8254E-07 9927205444408/ifd/16,19,nor,nor,rem,14403,6108 9927205444414/if3/6,in,2,2,,,present,500.10,rem,lock,33772 9927205444420/vc02/142.99,2.000,u,10,10,rem,lock,20042 9927205444426/vc06/202.89,2.000,u,10,10,rem,lock,22527 9927205444432/vc11/237.99,2.000,u,10,10,rem,lock,9320 9927205444460/tpi/17925,20042,16346,4156,22996,22527,24845,49421,14403,33772 9927205444480/tpi/7946,8325,9320,26960,17084,4816,6108 9927205444481/tsys1/61.2,59.1,58.5,53.8,53.9,48.7,46.2,46.7,56.2,49.5 9927205444482/tsys2/84.0,82.0,83.5,79.6,79.1,77.5,87.9 9927205444482:!272054620 9927205462001:"data stop" 9927205462001:et 9927205462012:!+3s 9927205462314:tape 9927205462323/tape/off,08536,norm,stopped,stop,unlock,ready,rem 9927205462323:postob 9927205462323:source=da426,165352.2,394536.6,2000.0,neutral 9927205462400:midtp 9927205462636/tpzero/506,708,447,818,342,624,93,315,314,150 9927205462656/tpzero/634,626,622,268,381,492,776 9927205462672/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927205462681/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927205462690/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927205462700/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927205462709/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927205462718/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927205462718:nw2c2=24 9927205462865/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205463190:fastf=0m14s 9927205464618:!272054941 9927205491925#trakl#SOURCE_ACQUIRED 9927205494101:preob 9927205494266/onsource/TRACKING 9927205494515/tpical/23689,26146,21468,5287,30654,30260,33608,$$$$$,19103,45766 9927205494535/tpical/9990,10596,11748,35040,22134,6149,7607 9927205494542:!272054951 9927205495101:tape 9927205495110/tape/off,08837,norm,stopped,stop,unlock,ready,rem 9927205495110:st=rev,135 9927205495121:"data start" 9927205495121:midob 9927205495201/onsource/TRACKING 9927205495203/wx/18.7,986.8,96.1,0.4 9927205495222/cable/+1.0849371E-02 9927205495302/fmout-gps/S 1.8025E-07 9927205495308/ifd/16,19,nor,nor,rem,17501,6659 9927205495314/if3/6,in,2,2,,,present,500.10,rem,lock,41376 9927205495320/vc02/142.99,2.000,u,10,10,rem,lock,24033 9927205495325/vc06/202.89,2.000,u,10,10,rem,lock,27393 9927205495331/vc11/237.99,2.000,u,10,10,rem,lock,10142 9927205495359/tpi/21810,24033,19708,4888,27933,27393,30280,60244,17501,41376 9927205495379/tpi/8654,9118,10142,29778,18844,5294,6659 9927205495381?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927205495381/tsys1/79.1,77.1,76.4,71.2,70.8,65.2,63.3,$$$$$$$$,74.9,65.5 9927205495381/tsys2/93.7,89.7,92.5,87.5,87.6,87.7,96.9 9927205495381:!272055129 9927205512901:"data stop" 9927205512901:et 9927205512912:!+3s 9927205513214:tape 9927205513223/tape/off,07744,norm,stopped,stop,unlock,ready,rem 9927205513223:postob 9927205513223:source=1357+769,135755.4,764321.1,2000.0,neutral 9927205513254:check2c2 9927205521196?ERROR qg -303 Track 11 parity errors exceed threshold. 9927205521196?ERROR qg -305 AUX data differs from expected value on track 11. 9927205521196?ERROR qg -304 Track 11 sync errors exceed threshold. 9927205521196/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,16.,0. 9927205521196/parity/0,0,0,0,0,376,0,0,0,0,0,0,0,0 9927205522622:nw2c2=24 9927205522675/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205523000:!272055412 9927205534574#trakl#SOURCE_ACQUIRED 9927205541201:preob 9927205541253/onsource/TRACKING 9927205541488/tpical/19345,21393,17496,4422,24924,24617,27205,54489,15492,36910 9927205541508/tpical/9334,9838,10854,32114,20217,5630,7032 9927205541515:!272055422 9927205542201:tape 9927205542211/tape/off,07747,norm,stopped,stop,unlock,ready,rem 9927205542211:st=rev,135 9927205542222:"data start" 9927205542222:midob 9927205542348/onsource/TRACKING 9927205542350/wx/18.7,986.8,95.9,0.0 9927205542366/cable/+1.0849633E-02 9927205542402/fmout-gps/S 1.8172E-07 9927205542408/ifd/16,19,nor,nor,rem,13849,6070 9927205542414/if3/6,in,2,2,,,present,500.10,rem,lock,32476 9927205542420/vc02/142.99,2.000,u,10,10,rem,lock,19243 9927205542426/vc06/202.89,2.000,u,10,10,rem,lock,21671 9927205542432/vc11/237.99,2.000,u,10,10,rem,lock,9230 9927205542460/tpi/17451,19243,15698,4019,22159,21671,23762,47560,13849,32476 9927205542479/tpi/7974,8336,9230,26741,16856,4765,6070 9927205542481/tsys1/62.4,60.2,59.2,55.4,55.1,49.9,48.0,47.6,57.5,50.9 9927205542482/tsys2/84.2,80.1,82.7,76.9,76.5,77.1,85.9 9927205542482:!272055600 9927205560001:"data stop" 9927205560001:et 9927205560012:!+3s 9927205560314:tape 9927205560323/tape/off,06654,norm,stopped,stop,unlock,ready,rem 9927205560323:postob 9927205560323:source=1726+455,172727.7,453039.7,2000.0,neutral 9927205560450:nw2c2=24 9927205560503/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927205560830:!272055754 9927205574325#trakl#SOURCE_ACQUIRED 9927205575401:preob 9927205575550/onsource/TRACKING 9927205575785/tpical/20820,22988,18804,4704,26856,26533,29493,58791,16710,39948 9927205575817/tpical/9513,10059,11130,33013,20870,5814,7221 9927205575838:!272055804 9927205580401:tape 9927205580410/tape/off,06654,norm,stopped,stop,unlock,ready,rem 9927205580410:st=rev,135 9927205580421:"data start" 9927205580421:midob 9927205580453/onsource/TRACKING 9927205580455/wx/18.5,986.9,97.4,3.8 9927205580470/cable/+1.0849068E-02 9927205580503/fmout-gps/S 1.8201E-07 9927205580508/ifd/16,19,nor,nor,rem,15045,6271 9927205580514/if3/6,in,2,2,,,present,500.10,rem,lock,35430 9927205580520/vc02/142.99,2.000,u,10,10,rem,lock,20856 9927205580526/vc06/202.89,2.000,u,10,10,rem,lock,23531 9927205580532/vc11/237.99,2.000,u,10,10,rem,lock,9532 9927205580560/tpi/18880,20856,17027,4297,24057,23531,25970,51816,15045,35430 9927205580580/tpi/8169,8586,9532,27735,17590,4948,6271 9927205580582/tsys1/66.1,66.0,65.1,59.7,59.1,53.3,51.3,51.5,61.8,54.5 9927205580582/tsys2/87.5,84.4,87.0,81.2,81.9,80.3,90.3 9927205580582:!272055942 9927205594201:"data stop" 9927205594201:et 9927205594212:!+3s 9927205594514:tape 9927205594522/tape/off,05561,norm,stopped,stop,unlock,ready,rem 9927205594523:postob 9927205594523:source=0059+581,010245.8,582411.1,2000.0,neutral 9927205594554:nw2c2=24 9927205594607/pass/24,24,auto,275.0,275.0,275.9,275.5,0.9,0.5 9927205594932:!272060620 9927206051775#trakl#SOURCE_ACQUIRED 9927206062001:preob 9927206062053/onsource/TRACKING 9927206062288/tpical/18929,21202,17359,4418,24490,24395,26912,53409,15355,36360 9927206062308/tpical/9528,9989,11046,32803,20603,5744,7170 9927206062315:!272060630 9927206063001:tape 9927206063011/tape/off,05561,norm,stopped,stop,unlock,ready,rem 9927206063011:st=rev,135 9927206063022:"data start" 9927206063022:midob 9927206063100/onsource/TRACKING 9927206063102/wx/18.4,986.8,98.2,2.8 9927206063122/cable/+1.0850376E-02 9927206063202/fmout-gps/S 1.8166E-07 9927206063208/ifd/16,19,nor,nor,rem,13714,6205 9927206063214/if3/6,in,2,2,,,present,500.10,rem,lock,31911 9927206063220/vc02/142.99,2.000,u,10,10,rem,lock,19136 9927206063226/vc06/202.89,2.000,u,10,10,rem,lock,21449 9927206063232/vc11/237.99,2.000,u,10,10,rem,lock,9422 9927206063260/tpi/17069,19136,15583,4011,21732,21449,23462,46483,13714,31911 9927206063280/tpi/8168,8486,9422,27448,17250,4867,6205 9927206063281/tsys1/62.2,62.3,59.5,54.8,54.1,49.3,47.3,46.5,57.0,49.8 9927206063282/tsys2/86.5,81.6,84.6,79.2,78.5,77.9,87.8 9927206063282:!272060808 9927206080801:"data stop" 9927206080801:et 9927206080812:!+3s 9927206081114:tape 9927206081123/tape/off,04468,norm,stopped,stop,unlock,ready,rem 9927206081123:postob 9927206081123:source=2201+315,220315.0,314538.3,2000.0,neutral 9927206081150:nw2c2=24 9927206081203/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206081528:!272061131 9927206111674#trakl#SOURCE_ACQUIRED 9927206113101:preob 9927206113201/onsource/TRACKING 9927206113436/tpical/18498,20844,16974,4322,24024,23834,26422,52479,14990,35585 9927206113456/tpical/9300,9760,10807,31910,20119,5610,6990 9927206113463:!272061141 9927206114101:tape 9927206114110/tape/off,04468,norm,stopped,stop,unlock,ready,rem 9927206114111:st=rev,135 9927206114121:"data start" 9927206114121:midob 9927206114150/onsource/TRACKING 9927206114152/wx/18.7,986.7,96.1,3.3 9927206114190/cable/+1.0852116E-02 9927206114202/fmout-gps/S 1.8174E-07 9927206114208/ifd/16,19,nor,nor,rem,13337,6041 9927206114214/if3/6,in,2,2,,,present,500.10,rem,lock,31105 9927206114220/vc02/142.99,2.000,u,10,10,rem,lock,18661 9927206114226/vc06/202.89,2.000,u,10,10,rem,lock,20847 9927206114232/vc11/237.99,2.000,u,10,10,rem,lock,9188 9927206114260/tpi/16610,18661,15158,3913,21256,20847,22885,45483,13337,31105 9927206114280/tpi/7955,8282,9188,26600,16799,4738,6041 9927206114281/tsys1/59.5,57.4,56.5,52.8,52.7,47.3,45.0,45.1,55.0,48.2 9927206114282/tsys2/85.0,80.9,82.6,77.4,77.2,76.0,86.6 9927206114282:!272061319 9927206131901:"data stop" 9927206131901:et 9927206131912:!+3s 9927206132214:tape 9927206132223/tape/off,03375,norm,stopped,stop,unlock,ready,rem 9927206132223:postob 9927206132223:source=2136+141,213901.3,142336.0,2000.0,neutral 9927206132300:nw2c2=24 9927206132353/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206132679:!272061513 9927206145826#trakl#SOURCE_ACQUIRED 9927206151301:preob 9927206151401/onsource/TRACKING 9927206151636/tpical/19048,21370,17489,4404,24797,24541,27173,53970,15419,36675 9927206151656/tpical/9249,9775,10872,31966,20262,5646,7022 9927206151663:!272061523 9927206152301:tape 9927206152310/tape/off,03375,norm,stopped,stop,unlock,ready,rem 9927206152310:st=rev,135 9927206152321:"data start" 9927206152321:midob 9927206152401/onsource/TRACKING 9927206152403/wx/18.8,986.7,95.2,3.6 9927206152438/cable/+1.0851134E-02 9927206152502/fmout-gps/S 1.8123E-07 9927206152508/ifd/16,19,nor,nor,rem,13782,6067 9927206152514/if3/6,in,2,2,,,present,500.10,rem,lock,32206 9927206152520/vc02/142.99,2.000,u,10,10,rem,lock,19251 9927206152525/vc06/202.89,2.000,u,10,10,rem,lock,21583 9927206152531/vc11/237.99,2.000,u,10,10,rem,lock,9249 9927206152559/tpi/17136,19251,15667,3993,21985,21583,23672,47095,13782,32206 9927206152579/tpi/7898,8292,9249,26669,16946,4774,6067 9927206152581/tsys1/60.7,61.1,58.3,53.9,53.7,49.5,47.0,47.5,57.4,50.1 9927206152581/tsys2/83.9,80.7,83.0,77.8,78.0,76.7,86.5 9927206152581:!272061701 9927206170101:"data stop" 9927206170101:et 9927206170112:!+3s 9927206170414:tape 9927206170423/tape/off,02282,norm,stopped,stop,unlock,ready,rem 9927206170423:postob 9927206170423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927206170550:nw2c2=24 9927206170603/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206170931:!272062204 9927206203375#trakl#SOURCE_ACQUIRED 9927206220401:preob 9927206220453/onsource/TRACKING 9927206220688/tpical/18724,20962,17195,4362,24337,24235,26843,53369,15203,36170 9927206220708/tpical/9155,9618,10904,31909,20205,5632,6994 9927206220715:!272062214 9927206221401:tape 9927206221410/tape/off,02282,norm,stopped,stop,unlock,ready,rem 9927206221410:st=rev,135 9927206221421:"data start" 9927206221421:midob 9927206221501/onsource/TRACKING 9927206221503/wx/18.8,986.6,95.8,0.0 9927206221515/cable/+1.0852265E-02 9927206221603/fmout-gps/S 1.8074E-07 9927206221608/ifd/16,19,nor,nor,rem,13553,6051 9927206221614/if3/6,in,2,2,,,present,500.10,rem,lock,31701 9927206221620/vc02/142.99,2.000,u,10,10,rem,lock,18845 9927206221626/vc06/202.89,2.000,u,10,10,rem,lock,21262 9927206221632/vc11/237.99,2.000,u,10,10,rem,lock,9267 9927206221660/tpi/16856,18845,15386,3951,21603,21262,23343,46404,13553,31701 9927206221681/tpi/7861,8182,9267,26724,16896,4764,6051 9927206221683/tsys1/61.1,59.8,57.6,53.2,54.3,48.5,46.4,46.2,56.0,49.3 9927206221683/tsys2/87.2,82.1,82.4,79.6,77.9,76.8,87.3 9927206221683:!272062352 9927206235201:"data stop" 9927206235201:et 9927206235212:!+3s 9927206235514:tape 9927206235523/tape/off,01189,norm,stopped,stop,unlock,ready,rem 9927206235523:postob 9927206235523:source=2145+067,214805.5,065738.6,2000.0,neutral 9927206235600:nw2c2=24 9927206235653/pass/24,24,auto,275.0,275.0,275.9,274.6,0.9,-0.4 9927206235979:!272062734 9927206273401:preob 9927206273499?ERROR AN -103 Pointing computer tracking errors are too large. 9927206273499?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927206273499/onsource/SLEWING 9927206273734/tpical/20202,22778,18671,4647,26392,26114,29126,57877,16474,39255 9927206273754/tpical/9233,9846,11029,32480,20614,5739,7092 9927206273761:!272062744 9927206274401:tape 9927206274410/tape/off,01189,norm,stopped,stop,unlock,ready,rem 9927206274410:st=rev,135 9927206274421:"data start" 9927206274421:midob 9927206274474#trakl#SOURCE_ACQUIRED 9927206274501/onsource/TRACKING 9927206274503/wx/18.6,986.5,96.7,0.0 9927206274527/cable/+1.0850266E-02 9927206274602/fmout-gps/S 1.8199E-07 9927206274608/ifd/16,19,nor,nor,rem,14839,6144 9927206274614/if3/6,in,2,2,,,present,500.10,rem,lock,34800 9927206274620/vc02/142.99,2.000,u,10,10,rem,lock,20650 9927206274626/vc06/202.89,2.000,u,10,10,rem,lock,23187 9927206274632/vc11/237.99,2.000,u,10,10,rem,lock,9389 9927206274660/tpi/18317,20650,16870,4245,23652,23187,25611,50926,14839,34800 9927206274680/tpi/7913,8367,9389,27207,17278,4870,6144 9927206274681/tsys1/66.0,65.4,63.6,59.5,59.4,53.8,50.7,50.8,62.0,54.3 9927206274682/tsys2/86.1,81.7,83.4,79.7,79.1,78.6,88.4 9927206274682:!272062922 9927206292201:"data stop" 9927206292201:et 9927206292212:!+3s 9927206292514:tape 9927206292523/tape/low,00096,norm,stopped,stop,unlock,ready,rem 9927206292523:postob 9927206292523:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927206292550:unlod 9927206292550&unlod/check=*,-tp 9927206292550&unlod/unloader 9927206292550&unlod/xdisp=on 9927206292550&unlod/"**************dismount this tape now************" 9927206292550&unlod/wakeup 9927206292550&unlod/xdisp=off 9927206292551&unloader/!+5s 9927206292551&unloader/enable= 9927206292551&unloader/tape=off 9927206292551&unloader/st=rev,135,off 9927206293717/ !!!! wake up !!!! 9927206293717:nw2c1=1 9927206294034/pass/1,1,auto,-330.0,-330.0,-330.0,-328.8,0.0,1.2 9927206294359:ready 9927206294359&ready/sxcts 9927206294359&ready/rxmon 9927206294359&ready/newtape 9927206294359&ready/loader 9927206294359&ready/label 9927206294359&ready/check=*,tp 9927206294393/tpi/17420,19586,16009,4055,22425,21982,24194,48232,14062,32923 9927206294413/tpi/7786,8225,9224,26593,16918,4767,6039 9927206294650/tpzero/505,708,449,814,339,622,92,315,315,149 9927206294670/tpzero/641,626,624,266,380,492,776 9927206294913/tpical/19219,21615,17724,4447,25136,24879,27689,55076,15635,37294 9927206294933/tpical/9089,9669,10842,31823,20189,5636,6978 9927206294941/tsys1/65.6,64.9,63.3,57.7,56.9,51.5,48.1,48.9,61.0,52.3 9927206294942/tsys2/85.6,82.1,83.0,78.6,78.9,76.8,87.5 9927206294952/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927206294961/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927206294971/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927206294980/rx/17(pres),on,a,on,on,on,off,locked,3.796 9927206294989/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927206294998/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927206294999/newtape/"to continue, use label command" 9927206311826#trakl#SOURCE_ACQUIRED 9927206340720;label=jpl00890,6591 9927206340727&loader/st=for,135,off 9927206340727&loader/!+11s 9927206340727&loader/et 9927206340727&loader/!+3s 9927206342158/label/JPL00890,6591 9927206342158:!272063709 9927206370901:preob 9927206370953/onsource/TRACKING 9927206371188/tpical/19345,21689,17781,4462,25216,24954,27654,55104,15687,37347 9927206371208/tpical/9188,9729,10976,32048,20369,5675,7016 9927206371215:!272063719 9927206371901:tape 9927206371910/tape/off,00118,norm,stopped,stop,unlock,ready,rem 9927206371910:st=for,135 9927206371921:"data start" 9927206371921:midob 9927206371953/onsource/TRACKING 9927206371955/wx/18.4,986.4,97.8,4.9 9927206371982/cable/+1.0851779E-02 9927206372002/fmout-gps/S 1.8066E-07 9927206372008/ifd/16,19,nor,nor,rem,14098,6069 9927206372014/if3/6,in,2,2,,,present,500.10,rem,lock,33006 9927206372020/vc02/142.99,2.000,u,10,10,rem,lock,19638 9927206372026/vc06/202.89,2.000,u,10,10,rem,lock,22053 9927206372032/vc11/237.99,2.000,u,10,10,rem,lock,9313 9927206372060/tpi/17537,19638,16022,4073,22478,22053,24246,48335,14098,33006 9927206372080/tpi/7837,8255,9313,26763,17040,4805,6069 9927206372082/tsys1/65.8,64.4,61.8,58.5,56.4,51.6,49.5,49.5,60.5,52.8 9927206372082/tsys2/83.1,80.8,81.6,78.3,78.1,77.4,87.2 9927206372082:!272063857 9927206385701:"data stop" 9927206385701:et 9927206385712:!+3s 9927206390014:tape 9927206390023/tape/off,01211,norm,stopped,stop,unlock,ready,rem 9927206390023:postob 9927206390023:source=0201+113,020346.7,113445.4,2000.0,neutral 9927206390150:check2c1 9927206394121?ERROR qg -303 Track 11 parity errors exceed threshold. 9927206394121?ERROR qg -305 AUX data differs from expected value on track 11. 9927206394121?ERROR qg -304 Track 11 sync errors exceed threshold. 9927206394121/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927206394121/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927206395539:nw2c1=1 9927206395595/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206395925:!272064139 9927206412625#trakl#SOURCE_ACQUIRED 9927206413901:preob 9927206413951/onsource/TRACKING 9927206414186/tpical/18658,20887,17137,4342,24275,24127,26773,53079,15132,36045 9927206414206/tpical/9115,9565,10800,31591,20024,5582,6916 9927206414213:!272064149 9927206414901:tape 9927206414911/tape/off,01204,norm,stopped,stop,unlock,ready,rem 9927206414911:st=for,135 9927206414922:"data start" 9927206414922:midob 9927206414950/onsource/TRACKING 9927206414952/wx/18.6,986.4,96.6,5.3 9927206414983/cable/+1.0851910E-02 9927206415002/fmout-gps/S 1.8131E-07 9927206415008/ifd/16,19,nor,nor,rem,13551,5968 9927206415014/if3/6,in,2,2,,,present,500.10,rem,lock,31737 9927206415020/vc02/142.99,2.000,u,10,10,rem,lock,18855 9927206415026/vc06/202.89,2.000,u,10,10,rem,lock,21228 9927206415032/vc11/237.99,2.000,u,10,10,rem,lock,9154 9927206415060/tpi/16842,18855,15373,3952,21624,21228,23367,46415,13551,31737 9927206415080/tpi/7784,8105,9154,26316,16706,4719,5968 9927206415081/tsys1/62.8,62.3,59.1,56.2,56.0,49.6,47.7,48.3,58.4,51.2 9927206415082/tsys2/83.8,80.0,80.9,77.1,76.8,76.5,85.5 9927206415082:!272064821 9927206482101:"data stop" 9927206482101:et 9927206482112:!+3s 9927206482414:tape 9927206482423/tape/off,05604,norm,stopped,stop,unlock,ready,rem 9927206482423:postob 9927206482423:source=0202+149,020450.4,151411.0,2000.0,neutral 9927206482550:nw2c1=1 9927206482603/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206482928:!272065034 9927206485624#trakl#SOURCE_ACQUIRED 9927206503401:preob 9927206503551/onsource/TRACKING 9927206503786/tpical/18765,20987,17178,4355,24293,24210,26794,53169,15186,36104 9927206503813/tpical/9227,9688,10931,32090,20288,5659,7010 9927206503820:!272065044 9927206504402:tape 9927206504411/tape/off,05604,norm,stopped,stop,unlock,ready,rem 9927206504411:st=for,135 9927206504422:"data start" 9927206504422:midob 9927206504500/onsource/TRACKING 9927206504502/wx/18.5,986.2,97.3,10.1 9927206504515/cable/+1.0851978E-02 9927206504603/fmout-gps/S 1.8049E-07 9927206504609/ifd/16,19,nor,nor,rem,13531,6058 9927206504614/if3/6,in,2,2,,,present,500.10,rem,lock,31619 9927206504620/vc02/142.99,2.000,u,10,10,rem,lock,18886 9927206504626/vc06/202.89,2.000,u,10,10,rem,lock,21223 9927206504632/vc11/237.99,2.000,u,10,10,rem,lock,9280 9927206504660/tpi/16857,18886,15340,3945,21558,21223,23269,46318,13531,31619 9927206504680/tpi/7876,8215,9280,26769,16984,4786,6058 9927206504682/tsys1/59.8,60.4,56.6,53.3,54.2,48.1,45.9,46.9,55.7,49.0 9927206504682/tsys2/83.6,80.4,81.8,77.8,78.4,76.8,86.6 9927206504682:!272065222 9927206522201:"data stop" 9927206522201:et 9927206522212:!+3s 9927206522514:tape 9927206522523/tape/off,06697,norm,stopped,stop,unlock,ready,rem 9927206522523:postob 9927206522523:source=0048-097,005041.3,-092905.2,2000.0,neutral 9927206522600:nw2c1=1 9927206522653/pass/1,1,auto,-330.0,-330.0,-329.1,-328.8,0.9,1.2 9927206522979:!272065600 9927206541775#trakl#SOURCE_ACQUIRED 9927206560001:preob 9927206560151/onsource/TRACKING 9927206560386/tpical/19019,21437,17541,4414,24868,24638,27424,54489,15492,36904 9927206560406/tpical/9157,9639,10912,31965,20291,5652,6997 9927206560413:!272065610 9927206561001:tape 9927206561010/tape/off,06697,norm,stopped,stop,unlock,ready,rem 9927206561011:st=for,135 9927206561021:"data start" 9927206561021:midob 9927206561100/onsource/TRACKING 9927206561102/wx/18.4,986.2,97.9,7.7 9927206561130/cable/+1.0849748E-02 9927206561202/fmout-gps/S 1.8250E-07 9927206561208/ifd/16,19,nor,nor,rem,13836,6049 9927206561214/if3/6,in,2,2,,,present,500.10,rem,lock,32413 9927206561220/vc02/142.99,2.000,u,10,10,rem,lock,19275 9927206561226/vc06/202.89,2.000,u,10,10,rem,lock,21664 9927206561232/vc11/237.99,2.000,u,10,10,rem,lock,9268 9927206561260/tpi/17160,19275,15738,4010,22070,21664,23894,47503,13836,32413 9927206561280/tpi/7837,8193,9268,26687,16960,4782,6049 9927206561281/tsys1/62.5,59.9,59.2,55.2,54.2,49.4,47.1,47.1,57.0,50.1 9927206561282/tsys2/85.1,81.7,82.1,78.1,77.7,77.0,86.8 9927206561282:!272065748 9927206574801:"data stop" 9927206574801:et 9927206574812:!+3s 9927206575114:tape 9927206575123/tape/off,07790,norm,stopped,stop,unlock,ready,rem 9927206575123:postob 9927206575123:source=ngc0253,004733.1,-251717.8,2000.0,neutral 9927206575220:midtp 9927206575469/tpzero/509,708,453,819,307,619,108,316,304,149 9927206575489/tpzero/640,624,623,268,376,487,772 9927206575505/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927206575514/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927206575523/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927206575532/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927206575542/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927206575551/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927206575551:nw2c2=2 9927206575732/pass/2,2,auto,-330.0,-330.0,-331.4,-330.1,-1.4,-0.1 9927206580057:fastf=0m51s 9927206585185:!272065939 9927206585775#trakl#SOURCE_ACQUIRED 9927206593901:preob 9927206594001/onsource/TRACKING 9927206594236/tpical/21012,23308,19087,4761,27250,26896,30009,59662,16983,40621 9927206594256/tpical/9507,10056,11416,33533,21328,5918,7285 9927206594263:!272065949 9927206594901:tape 9927206594910/tape/off,08923,norm,stopped,stop,unlock,ready,rem 9927206594910:st=rev,135 9927206594921:"data start" 9927206594921:midob 9927206595001/onsource/TRACKING 9927206595003/wx/18.3,986.2,98.1,5.1 9927206595018/cable/+1.0848187E-02 9927206595102/fmout-gps/S 1.8213E-07 9927206595108/ifd/16,19,nor,nor,rem,15339,6339 9927206595114/if3/6,in,2,2,,,present,500.10,rem,lock,36143 9927206595120/vc02/142.99,2.000,u,10,10,rem,lock,21175 9927206595126/vc06/202.89,2.000,u,10,10,rem,lock,23963 9927206595132/vc11/237.99,2.000,u,10,10,rem,lock,9787 9927206595160/tpi/19088,21175,17288,4353,24496,23963,26529,52718,15339,36143 9927206595179/tpi/8182,8598,9787,28259,18005,5050,6339 9927206595181/tsys1/67.4,67.0,65.3,60.5,61.3,55.6,53.0,52.7,63.8,56.1 9927206595181/tsys2/88.9,85.4,87.8,82.8,82.8,82.1,91.9 9927206595182:!272070629 9927207062901:"data stop" 9927207062901:et 9927207062912:!+3s 9927207063214:tape 9927207063223/tape/off,04432,norm,stopped,stop,unlock,ready,rem 9927207063223:postob 9927207063223:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927207063254:check2c2 9927207071272?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207071272?ERROR qg -305 AUX data differs from expected value on track 11. 9927207071272?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207071272/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207071272/parity/0,0,0,0,0,229,0,0,0,0,0,0,0,0 9927207072622:nw2c2=2 9927207072675/pass/2,2,auto,-330.0,-330.0,-330.5,-330.1,-0.5,-0.1 9927207073000:!272070954 9927207081025#trakl#SOURCE_ACQUIRED 9927207095401:preob 9927207095550/onsource/TRACKING 9927207095785/tpical/19490,21609,17677,4458,25139,24836,27629,55173,15683,37422 9927207095806/tpical/9115,9656,10972,31999,20410,5685,7012 9927207095813:!272071004 9927207100401:tape 9927207100410/tape/off,04437,norm,stopped,stop,unlock,ready,rem 9927207100410:st=rev,135 9927207100421:"data start" 9927207100421:midob 9927207100451/onsource/TRACKING 9927207100453/wx/18.4,986.0,97.9,0.0 9927207100471/cable/+1.0849263E-02 9927207100502/fmout-gps/S 1.7379E-07 9927207100508/ifd/16,19,nor,nor,rem,14018,6063 9927207100514/if3/6,in,2,2,,,present,500.10,rem,lock,32907 9927207100520/vc02/142.99,2.000,u,10,10,rem,lock,19461 9927207100526/vc06/202.89,2.000,u,10,10,rem,lock,21934 9927207100532/vc11/237.99,2.000,u,10,10,rem,lock,9338 9927207100560/tpi/17561,19461,15831,4052,22374,21934,24109,48212,14018,32907 9927207100580/tpi/7792,8197,9338,26762,17058,4808,6063 9927207100581/tsys1/61.7,60.9,58.1,55.6,55.7,51.3,47.6,48.0,57.5,50.6 9927207100582/tsys2/84.4,81.0,83.3,79.0,77.7,76.9,87.0 9927207100582:!272071142 9927207114201:"data stop" 9927207114201:et 9927207114212:!+3s 9927207114514:tape 9927207114523/tape/off,03344,norm,stopped,stop,unlock,ready,rem 9927207114523:postob 9927207114523:source=0111+021,011343.1,022217.3,2000.0,neutral 9927207114550:nw2c2=2 9927207114603/pass/2,2,auto,-330.0,-330.0,-330.5,-330.1,-0.5,-0.1 9927207114928:!272071327 9927207132701:preob 9927207132775#trakl#SOURCE_ACQUIRED 9927207132801/onsource/TRACKING 9927207133036/tpical/18524,20816,16948,4300,24057,23815,26482,52749,14975,35719 9927207133056/tpical/9000,9514,10790,31514,20035,5586,6919 9927207133063:!272071337 9927207133701:tape 9927207133710/tape/off,03344,norm,stopped,stop,unlock,ready,rem 9927207133710:st=rev,135 9927207133721:"data start" 9927207133721:midob 9927207133799/onsource/TRACKING 9927207133801/wx/18.3,986.2,98.3,0.0 9927207133818/cable/+1.0849873E-02 9927207133902/fmout-gps/S 1.8184E-07 9927207133908/ifd/16,19,nor,nor,rem,13329,5972 9927207133914/if3/6,in,2,2,,,present,500.10,rem,lock,31232 9927207133920/vc02/142.99,2.000,u,10,10,rem,lock,18639 9927207133926/vc06/202.89,2.000,u,10,10,rem,lock,20858 9927207133932/vc11/237.99,2.000,u,10,10,rem,lock,9168 9927207133960/tpi/16639,18639,15135,3898,21304,20858,22959,45772,13329,31232 9927207133980/tpi/7688,8040,9168,26187,16697,4710,5972 9927207133981/tsys1/59.7,57.5,56.5,53.5,53.2,47.8,45.3,45.5,55.2,48.4 9927207133981/tsys2/83.9,78.5,82.2,76.0,76.3,75.3,85.7 9927207133982:!272071719 9927207171901:"data stop" 9927207171901:et 9927207171912:!+3s 9927207172214:tape 9927207172223/tape/off,00856,norm,stopped,stop,unlock,ready,rem 9927207172223:postob 9927207172223:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927207172300:midtp 9927207172535/tpzero/505,707,449,818,319,623,93,315,314,149 9927207172555/tpzero/641,626,621,266,382,492,783 9927207172571/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927207172581/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927207172590/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927207172599/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927207172608/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927207172617/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927207172618:nw2c1=3 9927207172787/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207173163:fastr=0m34s 9927207180590:!272072242 9927207184275#trakl#SOURCE_ACQUIRED 9927207224201:preob 9927207224254/onsource/TRACKING 9927207224489/tpical/18782,21026,17171,4346,24478,24187,26817,53512,15191,36235 9927207224509/tpical/9092,9587,10922,31721,20214,5642,6985 9927207224516:!272072252 9927207225201:tape 9927207225211/tape/off,00105,norm,stopped,stop,unlock,ready,rem 9927207225211:st=for,135 9927207225222:"data start" 9927207225222:midob 9927207225250/onsource/TRACKING 9927207225252/wx/18.3,986.1,98.4,0.0 9927207225258/cable/+1.0849409E-02 9927207225302/fmout-gps/S 1.8066E-07 9927207225308/ifd/16,19,nor,nor,rem,13501,6027 9927207225314/if3/6,in,2,2,,,present,500.10,rem,lock,31657 9927207225320/vc02/142.99,2.000,u,10,10,rem,lock,18831 9927207225326/vc06/202.89,2.000,u,10,10,rem,lock,21183 9927207225332/vc11/237.99,2.000,u,10,10,rem,lock,9256 9927207225360/tpi/16803,18831,15336,3929,21601,21183,23276,46358,13501,31657 9927207225380/tpi/7760,8143,9256,26444,16863,4757,6027 9927207225381/tsys1/57.5,57.6,56.6,52.1,51.6,47.8,45.7,44.9,54.5,48.0 9927207225382/tsys2/83.4,81.3,80.9,77.4,76.8,75.2,85.4 9927207225382:!272072540 9927207254001:"data stop" 9927207254001:et 9927207254012:!+3s 9927207254314:tape 9927207254322/tape/off,01986,norm,stopped,stop,unlock,ready,rem 9927207254323:postob 9927207254323:source=0528+134,053056.4,133155.2,2000.0,neutral 9927207254400:check2c1 9927207262343?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207262343?ERROR qg -305 AUX data differs from expected value on track 11. 9927207262343?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207262343/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207262343/parity/0,0,0,0,0,310,0,0,0,0,0,0,0,0 9927207263768:nw2c1=3 9927207263821/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207264147:!272073007 9927207281874#trakl#SOURCE_ACQUIRED 9927207300701:preob 9927207300799/onsource/TRACKING 9927207301034/tpical/18609,20782,16960,4302,24054,23855,26520,52720,15013,35768 9927207301054/tpical/9329,9786,10824,31995,20141,5605,7020 9927207301061:!272073017 9927207301701:tape 9927207301710/tape/off,01983,norm,stopped,stop,unlock,ready,rem 9927207301711:st=for,135 9927207301721:"data start" 9927207301721:midob 9927207301800/onsource/TRACKING 9927207301802/wx/18.2,985.9,98.7,0.0 9927207301825/cable/+1.0847178E-02 9927207301902/fmout-gps/S 1.8221E-07 9927207301908/ifd/16,19,nor,nor,rem,13355,6059 9927207301914/if3/6,in,2,2,,,present,500.10,rem,lock,31260 9927207301920/vc02/142.99,2.000,u,10,10,rem,lock,18646 9927207301926/vc06/202.89,2.000,u,10,10,rem,lock,20861 9927207301931/vc11/237.99,2.000,u,10,10,rem,lock,9173 9927207301959/tpi/16695,18646,15124,3896,21301,20861,22975,45818,13355,31260 9927207301979/tpi/7961,8282,9173,26609,16774,4737,6059 9927207301981/tsys1/59.0,58.6,55.8,52.9,53.2,47.2,45.1,46.0,54.9,48.2 9927207301981/tsys2/83.5,79.5,80.9,76.3,76.0,76.3,85.7 9927207301982:!272073155 9927207315501:"data stop" 9927207315501:et 9927207315511:!+3s 9927207315813:tape 9927207315821/tape/off,03076,norm,stopped,stop,unlock,ready,rem 9927207315822:postob 9927207315822:source=0804+499,080839.7,495036.5,2000.0,ccw 9927207315851:nw2c1=3 9927207315904/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207320228:!272073558 9927207343674#trakl#SOURCE_ACQUIRED 9927207355801:preob 9927207355855/onsource/TRACKING 9927207360091/tpical/18602,20750,16939,4285,24017,23860,26435,52684,14968,35626 9927207360110/tpical/9395,9882,10886,32295,20328,5670,7088 9927207360117:!272073608 9927207360801:tape 9927207360810/tape/off,03076,norm,stopped,stop,unlock,ready,rem 9927207360810:st=for,135 9927207360821:"data start" 9927207360821:midob 9927207360901/onsource/TRACKING 9927207360903/wx/18.2,985.7,98.9,1.6 9927207360926/cable/+1.0845279E-02 9927207361002/fmout-gps/S 1.8254E-07 9927207361008/ifd/16,19,nor,nor,rem,13318,6114 9927207361014/if3/6,in,2,2,,,present,500.10,rem,lock,31130 9927207361020/vc02/142.99,2.000,u,10,10,rem,lock,18620 9927207361025/vc06/202.89,2.000,u,10,10,rem,lock,20857 9927207361031/vc11/237.99,2.000,u,10,10,rem,lock,9238 9927207361060/tpi/16701,18620,15138,3880,21182,20857,22913,45648,13318,31130 9927207361080/tpi/8001,8345,9238,26907,16924,4780,6114 9927207361081/tsys1/59.5,58.7,56.9,52.8,51.4,47.0,45.2,45.0,55.0,48.1 9927207361082/tsys2/82.4,78.4,81.6,77.2,75.9,75.2,85.4 9927207361082:!272073746 9927207374601:"data stop" 9927207374601:et 9927207374612:!+3s 9927207374914:tape 9927207374923/tape/off,04168,norm,stopped,stop,unlock,ready,rem 9927207374923:postob 9927207374923:source=0552+398,055530.8,394849.2,2000.0,ccw 9927207375000:nw2c1=3 9927207375053/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207375379:!272073950 9927207393674#trakl#SOURCE_ACQUIRED 9927207395001:preob 9927207395101/onsource/TRACKING 9927207395336/tpical/18807,20960,17070,4328,24096,23900,26553,52857,15100,35800 9927207395356/tpical/9469,9948,10982,32580,20509,5706,7127 9927207395363:!272074000 9927207400001:tape 9927207400010/tape/off,04168,norm,stopped,stop,unlock,ready,rem 9927207400011:st=for,135 9927207400021:"data start" 9927207400021:midob 9927207400100/onsource/TRACKING 9927207400102/wx/18.1,985.7,98.9,4.2 9927207400110/cable/+1.0847352E-02 9927207400202/fmout-gps/S 1.8219E-07 9927207400208/ifd/16,19,nor,nor,rem,13444,6150 9927207400213/if3/6,in,2,2,,,present,500.10,rem,lock,31315 9927207400219/vc02/142.99,2.000,u,10,10,rem,lock,18798 9927207400225/vc06/202.89,2.000,u,10,10,rem,lock,20941 9927207400231/vc11/237.99,2.000,u,10,10,rem,lock,9318 9927207400259/tpi/16897,18798,15267,3916,21325,20941,23024,45813,13444,31315 9927207400279/tpi/8084,8428,9318,27159,17095,4815,6150 9927207400281/tsys1/59.9,58.4,57.4,52.5,52.9,47.9,45.4,45.1,55.3,48.5 9927207400281/tsys2/83.9,80.1,81.6,77.4,76.4,75.7,85.8 9927207400281:!272074138 9927207413801:"data stop" 9927207413801:et 9927207413811:!+3s 9927207414113:tape 9927207414122/tape/off,05261,norm,stopped,stop,unlock,ready,rem 9927207414122:postob 9927207414122:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927207414251:nw2c1=3 9927207414304/pass/3,3,auto,-275.0,-275.0,-274.3,-274.3,0.7,0.7 9927207414630:!272074417 9927207435974#trakl#SOURCE_ACQUIRED 9927207441702:preob 9927207441799/onsource/TRACKING 9927207442039/tpical/18706,20915,17125,4332,24263,24064,26806,53379,15117,36080 9927207442059/tpical/9317,9699,10750,31634,19890,5554,6961 9927207442066:!272074427 9927207442679;"wx=scaterd cloud, humid, no wind, warm. 9927207442701:tape 9927207442710/tape/off,05261,norm,stopped,stop,unlock,ready,rem 9927207442711:st=for,135 9927207442721:"data start" 9927207442721:midob 9927207442850/onsource/TRACKING 9927207442901/wx/18.1,985.5,99.1,0.8 9927207442929/cable/+1.0846715E-02 9927207443002/fmout-gps/S 1.8127E-07 9927207443008/ifd/16,19,nor,nor,rem,13469,6004 9927207443014/if3/6,in,2,2,,,present,500.10,rem,lock,31580 9927207443020/vc02/142.99,2.000,u,10,10,rem,lock,18819 9927207443026/vc06/202.89,2.000,u,10,10,rem,lock,21105 9927207443032/vc11/237.99,2.000,u,10,10,rem,lock,9121 9927207443060/tpi/16817,18819,15314,3926,21490,21105,23288,46366,13469,31580 9927207443080/tpi/7927,8208,9121,26315,16587,4685,6004 9927207443084/tsys1/60.3,60.3,57.3,53.4,53.3,48.3,46.0,45.8,55.7,48.8 9927207443084/tsys2/81.8,79.4,81.5,76.4,76.6,75.3,85.2 9927207443084:!272074605 9927207460501:"data stop" 9927207460501:et 9927207460512:!+3s 9927207460814:tape 9927207460822/tape/off,06354,norm,stopped,stop,unlock,ready,rem 9927207460823:postob 9927207460825:source=0019+058,002232.4,060804.3,2000.0,neutral 9927207460900:midtp 9927207461137/tpzero/505,709,451,813,328,621,93,315,314,150 9927207461157/tpzero/641,626,625,267,380,490,781 9927207461173/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927207461182/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927207461191/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927207461200/rx/17(pres),on,a,on,on,on,off,locked,3.381 9927207461210/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927207461219/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927207461219:nw2c2=4 9927207461370/pass/4,4,auto,-275.0,-275.0,-275.7,-275.6,-0.7,-0.6 9927207461696:fastf=1m54s 9927207481124:!272075128 9927207493474#trakl#SOURCE_ACQUIRED 9927207494274#trakl#OFF_SOURCE 9927207500274#trakl#SOURCE_REACQUIRED 9927207512801:preob 9927207512853/onsource/TRACKING 9927207513089/tpical/18699,21076,17197,4359,24485,24266,26919,53613,15182,36285 9927207513109/tpical/9134,9578,10857,31685,20096,5612,6987 9927207513116:!272075138 9927207513801:tape 9927207513810/tape/off,08905,norm,stopped,stop,unlock,ready,rem 9927207513811:st=rev,135 9927207513821:"data start" 9927207513821:midob 9927207513949/onsource/TRACKING 9927207513951/wx/17.9,985.5,99.5,0.0 9927207513986/cable/+1.0847925E-02 9927207514002/fmout-gps/S 1.8111E-07 9927207514008/ifd/16,19,nor,nor,rem,13528,6027 9927207514014/if3/6,in,2,2,,,present,500.10,rem,lock,31765 9927207514020/vc02/142.99,2.000,u,10,10,rem,lock,18910 9927207514026/vc06/202.89,2.000,u,10,10,rem,lock,21319 9927207514032/vc11/237.99,2.000,u,10,10,rem,lock,9213 9927207514060/tpi/16796,18910,15376,3947,21663,21319,23396,46614,13528,31765 9927207514080/tpi/7784,8107,9213,26366,16769,4736,6027 9927207514081/tsys1/59.8,58.7,57.2,53.1,52.8,49.0,46.2,46.2,55.8,48.8 9927207514082/tsys2/82.6,79.4,81.5,76.6,76.9,75.7,85.3 9927207514082:!272075743 9927207574301:"data stop" 9927207574301:et 9927207574312:!+3s 9927207574614:tape 9927207574623/tape/off,04808,norm,stopped,stop,unlock,ready,rem 9927207574623:postob 9927207574623:source=0048-097,005041.3,-092905.2,2000.0,neutral 9927207574700:check2c2 9927207582643?ERROR qg -303 Track 11 parity errors exceed threshold. 9927207582643?ERROR qg -305 AUX data differs from expected value on track 11. 9927207582643?ERROR qg -304 Track 11 sync errors exceed threshold. 9927207582643/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927207582643/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927207583574#trakl#SOURCE_ACQUIRED 9927207584068:nw2c2=4 9927207584122/pass/4,4,auto,-275.0,-275.0,-274.8,-275.6,0.2,-0.6 9927207584448:!272075956 9927207595601:preob 9927207595699/onsource/TRACKING 9927207595934/tpical/19522,21976,17912,4494,25435,25123,28055,55691,15840,37773 9927207595954/tpical/9289,9795,11015,32254,20488,5704,7108 9927207595961:!272080006 9927208000601:tape 9927208000610/tape/off,04811,norm,stopped,stop,unlock,ready,rem 9927208000611:st=rev,135 9927208000622:"data start" 9927208000622:midob 9927208000750/onsource/TRACKING 9927208000752/wx/17.9,985.5,99.9,1.8 9927208000782/cable/+1.0846344E-02 9927208000802/fmout-gps/S 1.8193E-07 9927208000808/ifd/16,19,nor,nor,rem,14182,6148 9927208000814/if3/6,in,2,2,,,present,500.10,rem,lock,33248 9927208000820/vc02/142.99,2.000,u,10,10,rem,lock,19829 9927208000832/vc06/202.89,2.000,u,10,10,rem,lock,22139 9927208000845/vc11/237.99,2.000,u,10,10,rem,lock,9381 9927208000914/tpi/17626,19829,16102,4085,22624,22139,24435,48619,14182,33238 9927208000959/tpi/7946,8306,9368,26950,17161,4833,6148 9927208000961/tsys1/63.0,62.2,60.4,55.8,55.4,50.3,46.9,47.7,58.4,50.9 9927208000961/tsys2/84.9,80.5,82.9,78.5,78.7,77.8,87.3 9927208000961:!272080144 9927208014401:"data stop" 9927208014401:et 9927208014412:!+3s 9927208014714:tape 9927208014723/tape/off,03718,norm,stopped,stop,unlock,ready,rem 9927208014723:postob 9927208014729:source=2136+141,213901.3,142336.0,2000.0,neutral 9927208014801:nw2c2=4 9927208014854/pass/4,4,auto,-275.0,-275.0,-274.8,-274.7,0.2,0.3 9927208015178:!272080414 9927208035975#trakl#SOURCE_ACQUIRED 9927208041401:preob 9927208041453/onsource/TRACKING 9927208041701/tpical/22027,24435,20085,4985,28631,28296,31483,62821,17852,42736 9927208041721/tpical/9854,10399,11558,34316,21681,6020,7480 9927208041727:!272080424 9927208042401:tape 9927208042410/tape/off,03718,norm,moving,stop,unlock,ready,rem 9927208042410:st=rev,135 9927208042421:"data start" 9927208042421:midob 9927208042501/onsource/TRACKING 9927208042503/wx/17.8,985.3,100.0,0.2 9927208042523/cable/+1.0845315E-02 9927208042602/fmout-gps/S 1.8174E-07 9927208042608/ifd/16,19,nor,nor,rem,16227,6517 9927208042614/if3/6,in,2,2,,,present,500.10,rem,lock,38301 9927208042620/vc02/142.99,2.000,u,10,10,rem,lock,22344 9927208042626/vc06/202.89,2.000,u,10,10,rem,lock,25426 9927208042632/vc11/237.99,2.000,u,10,10,rem,lock,9904 9927208042660/tpi/20133,22344,18349,4587,25901,25426,28034,55972,16227,38301 9927208042680/tpi/8468,8914,9904,28972,18338,5144,6517 9927208042681/tsys1/72.3,72.2,72.0,66.2,65.4,60.3,56.5,56.7,68.4,60.0 9927208042682/tsys2/88.2,87.1,87.6,83.8,83.9,82.9,93.0 9927208042682:!272080602 9927208060201:"data stop" 9927208060201:et 9927208060212:!+3s 9927208060514:tape 9927208060523/tape/off,02625,norm,stopped,stop,unlock,ready,rem 9927208060523:postob 9927208060523:source=3c418,203837.0,511912.7,2000.0,neutral 9927208060600:nw2c2=4 9927208060653/pass/4,4,auto,-275.0,-275.0,-275.7,-275.6,-0.7,-0.6 9927208060978:!272080806 9927208074226#trakl#SOURCE_ACQUIRED 9927208080601:preob 9927208080653/onsource/TRACKING 9927208080889/tpical/19474,21571,17663,4462,25158,24868,27605,55087,15667,37381 9927208080908/tpical/9504,10018,11155,32933,20826,5813,7212 9927208080915:!272080816 9927208081601:tape 9927208081610/tape/off,02625,norm,stopped,stop,unlock,ready,rem 9927208081611:st=rev,135 9927208081622:"data start" 9927208081622:midob 9927208081650/onsource/TRACKING 9927208081652/wx/17.8,985.3,100.0,3.0 9927208081670/cable/+1.0845273E-02 9927208081702/fmout-gps/S 1.8219E-07 9927208081708/ifd/16,19,nor,nor,rem,14008,6238 9927208081714/if3/6,in,2,2,,,present,500.10,rem,lock,32859 9927208081720/vc02/142.99,2.000,u,10,10,rem,lock,19427 9927208081726/vc06/202.89,2.000,u,10,10,rem,lock,21878 9927208081732/vc11/237.99,2.000,u,10,10,rem,lock,9488 9927208081760/tpi/17554,19427,15845,4053,22353,21878,24082,48115,14008,32859 9927208081779/tpi/8117,8502,9488,27550,17462,4919,6238 9927208081781/tsys1/62.0,60.9,59.1,55.3,54.8,49.6,47.5,47.9,57.6,50.5 9927208081782/tsys2/84.1,81.1,83.0,79.1,79.3,77.3,87.5 9927208081782:!272080954 9927208095401:"data stop" 9927208095401:et 9927208095412:!+3s 9927208095714:tape 9927208095723/tape/off,01532,norm,stopped,stop,unlock,ready,rem 9927208095723:postob 9927208095723:source=ngc6251,163232.0,823216.4,2000.0,neutral 9927208095800:midtp 9927208100036/tpzero/503,707,450,818,329,619,107,317,312,149 9927208100055/tpzero/639,625,622,268,377,488,772 9927208100071/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927208100080/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927208100090/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927208100099/rx/17(pres),on,a,on,on,on,off,locked,0.239 9927208100108/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927208100117/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927208100118:nw2c1=5 9927208100269/pass/5,5,auto,-220.0,-220.0,-218.6,-220.6,1.4,-0.6 9927208100595:fastr=1m5s 9927208111123:!272081148 9927208114074#trakl#SOURCE_ACQUIRED 9927208114801:preob 9927208114951/onsource/TRACKING 9927208115186/tpical/18466,20686,16937,4300,23996,23766,26376,52518,14945,35602 9927208115206/tpical/9312,9821,10854,32114,20259,5653,7047 9927208115213:!272081158 9927208115801:tape 9927208115811/tape/low,00084,norm,stopped,stop,unlock,ready,rem 9927208115811:st=for,135 9927208115822:"data start" 9927208115822:midob 9927208115852/onsource/TRACKING 9927208115854/wx/17.8,985.2,100.0,0.5 9927208115882/cable/+1.0845458E-02 9927208115902/fmout-gps/S 1.8217E-07 9927208115908/ifd/16,19,nor,nor,rem,13297,6092 9927208115914/if3/6,in,2,2,,,present,500.10,rem,lock,31110 9927208115920/vc02/142.99,2.000,u,10,10,rem,lock,18546 9927208115926/vc06/202.89,2.000,u,10,10,rem,lock,20749 9927208115932/vc11/237.99,2.000,u,10,10,rem,lock,9206 9927208115960/tpi/16564,18546,15118,3890,21222,20749,22861,45491,13297,31110 9927208115980/tpi/7963,8312,9206,26784,16870,4766,6092 9927208115982/tsys1/58.9,58.2,56.3,52.3,52.6,46.6,45.2,44.9,55.0,48.1 9927208115982/tsys2/84.7,79.5,81.3,77.7,76.0,75.3,87.0 9927208115982:!272081830 9927208183001:"data stop" 9927208183001:et 9927208183012:!+3s 9927208183314:tape 9927208183323/tape/off,04485,norm,stopped,stop,unlock,ready,rem 9927208183323:postob 9927208183323:source=m81,095533.1,690354.8,2000.0,neutral 9927208183450:check2c1 9927208191393?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208191393?ERROR qg -305 AUX data differs from expected value on track 11. 9927208191393?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208191393/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208191393/parity/0,0,0,0,0,384,0,0,0,0,0,0,0,0 9927208192818:nw2c1=5 9927208192871/pass/5,5,auto,-220.0,-220.0,-218.6,-220.6,1.4,-0.6 9927208193196:!272082309 9927208195874#trakl#SOURCE_ACQUIRED 9927208230901:preob 9927208230999/onsource/TRACKING 9927208231234/tpical/18584,20719,16929,4297,23979,23709,26289,52319,14950,35539 9927208231254/tpical/9285,9776,10822,31946,20137,5616,7035 9927208231261:!272082319 9927208231901:tape 9927208231910/tape/off,04483,norm,stopped,stop,unlock,ready,rem 9927208231910:st=for,135 9927208231921:"data start" 9927208231921:midob 9927208232000/onsource/TRACKING 9927208232002/wx/17.7,985.2,100.0,0.0 9927208232029/cable/+1.0845493E-02 9927208232102/fmout-gps/S 1.8076E-07 9927208232107/ifd/16,19,nor,nor,rem,13308,6058 9927208232113/if3/6,in,2,2,,,present,500.10,rem,lock,31062 9927208232119/vc02/142.99,2.000,u,10,10,rem,lock,18609 9927208232125/vc06/202.89,2.000,u,10,10,rem,lock,20737 9927208232131/vc11/237.99,2.000,u,10,10,rem,lock,9161 9927208232159/tpi/16674,18609,15137,3889,21212,20737,22761,45403,13308,31062 9927208232179/tpi/7920,8267,9161,26592,16751,4736,6058 9927208232181/tsys1/59.1,59.2,57.2,52.5,52.7,47.2,44.8,45.5,55.2,48.2 9927208232181/tsys2/83.3,79.1,80.2,76.7,75.5,75.4,84.5 9927208232181:!272082950 9927208295001:"data stop" 9927208295001:et 9927208295012:!+3s 9927208295314:tape 9927208295323/tape/off,08872,norm,stopped,stop,unlock,ready,rem 9927208295323:postob 9927208295323:source=0014+813,001708.5,813508.1,2000.0,neutral 9927208295401:midtp 9927208295638/tpzero/509,710,452,816,324,622,103,318,305,149 9927208295657/tpzero/639,624,624,269,377,491,781 9927208295673/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927208295683/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927208295692/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927208295701/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927208295711/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927208295720/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927208295720:nw2c2=6 9927208295885/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208300212:!272083203 9927208313574#trakl#SOURCE_ACQUIRED 9927208320301:preob 9927208320351/onsource/TRACKING 9927208320586/tpical/18519,20704,16841,4287,23806,23671,26247,52024,14898,35350 9927208320606/tpical/9391,9836,10838,32177,20205,5642,7072 9927208320613:!272083213 9927208321301:tape 9927208321310/tape/off,08872,norm,stopped,stop,unlock,ready,rem 9927208321310:st=rev,135 9927208321321:"data start" 9927208321321:midob 9927208321401/onsource/TRACKING 9927208321403/wx/17.7,985.1,100.0,0.0 9927208321417/cable/+1.0845201E-02 9927208321502/fmout-gps/S 1.8197E-07 9927208321508/ifd/16,19,nor,nor,rem,13217,6092 9927208321514/if3/6,in,2,2,,,present,500.10,rem,lock,30858 9927208321520/vc02/142.99,2.000,u,10,10,rem,lock,18500 9927208321526/vc06/202.89,2.000,u,10,10,rem,lock,20663 9927208321532/vc11/237.99,2.000,u,10,10,rem,lock,9179 9927208321559/tpi/16552,18500,14992,3870,20994,20663,22694,45200,13217,30858 9927208321579/tpi/7994,8323,9179,26763,16809,4753,6092 9927208321581/tsys1/56.9,56.3,54.9,51.1,51.3,46.5,44.4,45.9,53.6,47.7 9927208321581/tsys2/82.2,79.4,80.5,76.4,75.5,74.8,84.6 9927208321581:!272083635 9927208363501:"data stop" 9927208363501:et 9927208363512:!+3s 9927208363814:tape 9927208363823/tape/off,05934,norm,stopped,stop,unlock,ready,rem 9927208363823:postob 9927208363823:source=1014+615,101725.9,611627.5,2000.0,neutral 9927208363850:check2c2 9927208371853?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208371853?ERROR qg -305 AUX data differs from expected value on track 11. 9927208371853?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208371853/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208371853/parity/0,0,0,0,0,294,0,0,0,0,0,0,0,0 9927208373218:nw2c2=6 9927208373271/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208373597:!272083848 9927208384225#trakl#SOURCE_ACQUIRED 9927208384801:preob 9927208384853/onsource/TRACKING 9927208385088/tpical/18767,21024,17178,4336,24192,23931,26599,52878,15123,35868 9927208385108/tpical/9367,9828,10858,32214,20257,5650,7063 9927208385115:!272083858 9927208385801:tape 9927208385810/tape/off,05938,norm,stopped,stop,unlock,ready,rem 9927208385811:st=rev,135 9927208385822:"data start" 9927208385822:midob 9927208385852/onsource/TRACKING 9927208385854/wx/17.7,984.9,100.0,0.7 9927208385882/cable/+1.0844304E-02 9927208385902/fmout-gps/S 1.8246E-07 9927208385908/ifd/16,19,nor,nor,rem,13464,6090 9927208385914/if3/6,in,2,2,,,present,500.10,rem,lock,31381 9927208385920/vc02/142.99,2.000,u,10,10,rem,lock,18858 9927208385926/vc06/202.89,2.000,u,10,10,rem,lock,20986 9927208385932/vc11/237.99,2.000,u,10,10,rem,lock,9190 9927208385960/tpi/16860,18858,15331,3924,21407,20986,23073,45941,13464,31381 9927208385980/tpi/7985,8315,9190,26795,16858,4758,6090 9927208385982/tsys1/59.8,58.5,56.2,52.7,52.8,48.3,45.5,45.9,55.4,48.6 9927208385982/tsys2/83.0,79.3,80.2,76.4,75.7,74.7,85.2 9927208385982:!272084036 9927208403601:"data stop" 9927208403601:et 9927208403612:!+3s 9927208403914:tape 9927208403923/tape/off,04845,norm,stopped,stop,unlock,ready,rem 9927208403923:postob 9927208403923:source=4c39.25,092703.0,390220.9,2000.0,cw 9927208404000:nw2c2=6 9927208404053/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208404379:!272084158 9927208414926#trakl#SOURCE_ACQUIRED 9927208415801:preob 9927208415853/onsource/TRACKING 9927208420088/tpical/19777,22109,17993,4500,25235,24962,27841,55282,15864,37527 9927208420108/tpical/9549,10063,11119,33145,20801,5789,7230 9927208420115:!272084208 9927208420801:tape 9927208420811/tape/off,04845,norm,stopped,stop,unlock,ready,rem 9927208420811:st=rev,135 9927208420822:"data start" 9927208420822:midob 9927208420850/onsource/TRACKING 9927208420852/wx/17.7,984.8,100.0,6.4 9927208420890/cable/+1.0842594E-02 9927208420902/fmout-gps/S 1.8133E-07 9927208420908/ifd/16,19,nor,nor,rem,14155,6249 9927208420914/if3/6,in,2,2,,,present,500.10,rem,lock,32913 9927208420920/vc02/142.99,2.000,u,10,10,rem,lock,19855 9927208420926/vc06/202.89,2.000,u,10,10,rem,lock,21886 9927208420932/vc11/237.99,2.000,u,10,10,rem,lock,9453 9927208420960/tpi/17785,19855,16122,4085,22378,21886,24226,48192,14155,32913 9927208420980/tpi/8169,8541,9453,27689,17389,4893,6249 9927208420982/tsys1/60.5,59.3,58.5,55.0,53.9,48.3,46.6,47.1,56.6,49.6 9927208420982/tsys2/85.2,81.2,82.7,78.5,77.8,76.7,87.0 9927208420982:!272084346 9927208434601:"data stop" 9927208434601:et 9927208434612:!+3s 9927208434914:tape 9927208434923/tape/off,03752,norm,stopped,stop,unlock,ready,rem 9927208434923:postob 9927208434923:source=1104+728,110741.7,723236.0,2000.0,neutral 9927208435000:nw2c2=6 9927208435053/pass/6,6,auto,-220.0,-220.0,-220.0,-219.2,0.0,0.8 9927208435377:!272084559 9927208454175#trakl#SOURCE_ACQUIRED 9927208455901:preob 9927208460051/onsource/TRACKING 9927208460286/tpical/18671,20925,17066,4319,24103,23929,26581,52863,15063,35826 9927208460306/tpical/9364,9850,10841,32181,20229,5640,7060 9927208460313:!272084609 9927208460901:tape 9927208460910/tape/off,03752,norm,stopped,stop,unlock,ready,rem 9927208460910:st=rev,135 9927208460921:"data start" 9927208460921:midob 9927208461050/onsource/TRACKING 9927208461052/wx/17.7,984.9,100.0,0.0 9927208461082/cable/+1.0844959E-02 9927208461102/fmout-gps/S 1.8176E-07 9927208461108/ifd/16,19,nor,nor,rem,13390,6081 9927208461114/if3/6,in,2,2,,,present,500.10,rem,lock,31307 9927208461120/vc02/142.99,2.000,u,10,10,rem,lock,18719 9927208461126/vc06/202.89,2.000,u,10,10,rem,lock,20930 9927208461132/vc11/237.99,2.000,u,10,10,rem,lock,9186 9927208461160/tpi/16726,18719,15234,3915,21315,20930,23021,45833,13390,31307 9927208461180/tpi/7957,8321,9186,26723,16822,4749,6081 9927208461181/tsys1/58.2,57.0,56.3,53.5,52.6,47.3,44.9,45.2,54.6,48.1 9927208461182/tsys2/81.2,78.6,80.8,75.7,75.3,74.6,84.5 9927208461182:!272085135 9927208513501:"data stop" 9927208513501:et 9927208513512:!+3s 9927208513814:tape 9927208513823/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927208513823:postob 9927208513823:source=0955+476,095819.7,472507.8,2000.0,cw 9927208513850:midtp 9927208514086/tpzero/512,707,449,817,324,622,93,316,310,149 9927208514105/tpzero/636,626,624,269,376,492,773 9927208514121/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927208514131/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927208514140/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927208514149/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927208514159/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927208514168/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927208514168:nw2c1=7 9927208514321/pass/7,7,auto,-165.0,-165.0,-163.8,-163.3,1.2,1.7 9927208514674:!272085412 9927208530175#trakl#SOURCE_ACQUIRED 9927208541201:preob 9927208541299/onsource/TRACKING 9927208541534/tpical/19035,21235,17395,4390,24525,24292,26986,53641,15336,36431 9927208541554/tpical/9440,9948,10981,32568,20461,5705,7118 9927208541561:!272085422 9927208542201:tape 9927208542210/tape/off,00094,norm,stopped,stop,unlock,ready,rem 9927208542211:st=for,135 9927208542222:"data start" 9927208542222:midob 9927208542300/onsource/TRACKING 9927208542302/wx/17.7,985.0,100.0,4.0 9927208542330/cable/+1.0844534E-02 9927208542402/fmout-gps/S 1.8223E-07 9927208542408/ifd/16,19,nor,nor,rem,13672,6138 9927208542414/if3/6,in,2,2,,,present,500.10,rem,lock,31946 9927208542420/vc02/142.99,2.000,u,10,10,rem,lock,19101 9927208542426/vc06/202.89,2.000,u,10,10,rem,lock,21303 9927208542432/vc11/237.99,2.000,u,10,10,rem,lock,9310 9927208542459/tpi/17097,19101,15567,3980,21789,21303,23482,46773,13672,31946 9927208542479/tpi/8046,8412,9310,27145,17056,4805,6138 9927208542481/tsys1/59.7,60.2,57.7,53.8,54.8,48.3,46.6,47.2,56.0,49.5 9927208542481/tsys2/83.0,79.1,81.1,77.4,76.5,74.8,85.5 9927208542481:!272085600 9927208560001:"data stop" 9927208560001:et 9927208560012:!+3s 9927208560314:tape 9927208560322/tape/off,01186,norm,stopped,stop,unlock,ready,rem 9927208560323:postob 9927208560323:source=0059+581,010245.8,582411.1,2000.0,neutral 9927208560350:check2c1 9927208564314?ERROR qg -303 Track 11 parity errors exceed threshold. 9927208564314?ERROR qg -305 AUX data differs from expected value on track 11. 9927208564314?ERROR qg -304 Track 11 sync errors exceed threshold. 9927208564315/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927208564315/parity/0,0,0,0,0,286,0,0,0,0,0,0,0,0 9927208565739:nw2c1=7 9927208565803/pass/7,7,auto,-165.0,-165.0,-163.8,-164.2,1.2,0.8 9927208570128:!272090027 9927208590232;"wx,overcast, humid, some lighting activity 9927209000133#trakl#SOURCE_ACQUIRED 9927209002701:preob 9927209002851/onsource/TRACKING 9927209003086/tpical/18593,20831,16940,4306,23962,23834,26477,52633,14984,35662 9927209003106/tpical/9243,9781,10818,32058,20185,5619,7033 9927209003113:!272090037 9927209003701:tape 9927209003711/tape/off,01183,norm,stopped,stop,unlock,ready,rem 9927209003711:st=for,135 9927209003722:"data start" 9927209003722:midob 9927209003800/onsource/TRACKING 9927209003802/wx/17.8,984.7,100.0,2.7 9927209003806/cable/+1.0847807E-02 9927209003902/fmout-gps/S 1.8168E-07 9927209003908/ifd/16,19,nor,nor,rem,13328,6067 9927209003914/if3/6,in,2,2,,,present,500.10,rem,lock,31164 9927209003920/vc02/142.99,2.000,u,10,10,rem,lock,18677 9927209003926/vc06/202.89,2.000,u,10,10,rem,lock,20871 9927209003932/vc11/237.99,2.000,u,10,10,rem,lock,9183 9927209003960/tpi/16698,18677,15095,3895,21167,20871,22954,45637,13328,31164 9927209003980/tpi/7883,8275,9183,26694,16859,4748,6067 9927209003982/tsys1/59.6,58.2,55.4,52.3,52.1,47.7,45.3,45.2,54.9,48.1 9927209003982/tsys2/83.2,79.3,81.7,76.9,77.4,76.3,85.5 9927209003982:!272090215 9927209021501:"data stop" 9927209021501:et 9927209021512:!+3s 9927209021814:tape 9927209021823/tape/off,02275,norm,stopped,stop,unlock,ready,rem 9927209021823:postob 9927209021823:source=2201+315,220315.0,314538.3,2000.0,neutral 9927209021900:nw2c1=7 9927209021953/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209022278:!272090638 9927209044475#trakl#SOURCE_ACQUIRED 9927209063801:preob 9927209063901/onsource/TRACKING 9927209064136/tpical/20902,23091,18969,4715,26891,26632,29622,59049,16807,40109 9927209064156/tpical/9661,10206,11294,33495,21146,5885,7309 9927209064163:!272090648 9927209064801:tape 9927209064809/tape/off,02275,norm,stopped,stop,unlock,ready,rem 9927209064810:st=for,135 9927209064820:"data start" 9927209064820:midob 9927209064901/onsource/TRACKING 9927209064905/wx/17.7,984.7,100.0,0.0 9927209064922/cable/+1.0844947E-02 9927209065002/fmout-gps/S 1.8133E-07 9927209065008/ifd/16,19,nor,nor,rem,15133,6341 9927209065014/if3/6,in,2,2,,,present,500.10,rem,lock,35558 9927209065020/vc02/142.99,2.000,u,10,10,rem,lock,20940 9927209065026/vc06/202.89,2.000,u,10,10,rem,lock,23635 9927209065033/vc11/237.99,2.000,u,10,10,rem,lock,9645 9927209065061/tpi/18955,20940,17111,4305,24128,23635,26101,52018,15133,35558 9927209065080/tpi/8274,8706,9645,28134,17784,4998,6341 9927209065082/tsys1/66.1,65.7,62.6,59.4,60.1,53.6,51.6,51.3,61.8,54.3 9927209065083/tsys2/86.0,84.1,85.4,81.1,80.8,79.3,89.8 9927209065083:!272090826 9927209082601:"data stop" 9927209082601:et 9927209082612:!+3s 9927209082914:tape 9927209082922/tape/off,03368,norm,stopped,stop,unlock,ready,rem 9927209082923:postob 9927209082923:source=0003-066,000613.9,-062335.3,2000.0,neutral 9927209083052:nw2c1=7 9927209083105/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209083430:!272091039 9927209103375#trakl#SOURCE_ACQUIRED 9927209103901:preob 9927209103955/onsource/TRACKING 9927209104190/tpical/22986,25451,20974,5158,29808,29483,32924,$$$$$,18625,44627 9927209104210/tpical/9885,10506,11676,34552,21850,6067,7496 9927209104217:!272091049 9927209104901:tape 9927209104909/tape/off,03368,norm,stopped,stop,unlock,ready,rem 9927209104910:st=for,135 9927209104920:"data start" 9927209104920:midob 9927209104955/onsource/TRACKING 9927209104957/wx/17.7,984.9,100.0,0.0 9927209104970/cable/+1.0844850E-02 9927209105002/fmout-gps/S 1.8236E-07 9927209105008/ifd/16,19,nor,nor,rem,16986,6537 9927209105014/if3/6,in,2,2,,,present,500.10,rem,lock,40157 9927209105020/vc02/142.99,2.000,u,10,10,rem,lock,23340 9927209105025/vc06/202.89,2.000,u,10,10,rem,lock,26539 9927209105031/vc11/237.99,2.000,u,10,10,rem,lock,10020 9927209105059/tpi/21089,23340,19177,4747,27114,26539,29445,58611,16986,40157 9927209105079/tpi/8507,8982,10020,29259,18521,5189,6537 9927209105081?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927209105081/tsys1/75.7,74.8,72.7,66.7,69.4,61.4,58.9,$$$$$$$$,71.0,62.5 9927209105081/tsys2/89.2,85.6,88.6,85.5,85.1,83.5,93.8 9927209105082:!272091227 9927209122701:"data stop" 9927209122701:et 9927209122712:!+3s 9927209123014:tape 9927209123022/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927209123023:postob 9927209123023:source=2234+282,223622.5,282857.4,2000.0,neutral 9927209123100:nw2c1=7 9927209123153/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209123477:!272091423 9927209141274#trakl#SOURCE_ACQUIRED 9927209142301:preob 9927209142451/onsource/TRACKING 9927209142686/tpical/20485,22757,18586,4660,26530,26277,29206,58311,16518,39539 9927209142706/tpical/9432,10020,11169,32832,20833,5792,7210 9927209142713:!272091433 9927209143301:tape 9927209143310/tape/off,04462,norm,stopped,stop,unlock,ready,rem 9927209143310:st=for,135 9927209143321:"data start" 9927209143321:midob 9927209143353/onsource/TRACKING 9927209143355/wx/17.7,984.7,100.0,3.4 9927209143361/cable/+1.0844934E-02 9927209143402/fmout-gps/S 1.8182E-07 9927209143407/ifd/16,19,nor,nor,rem,14884,6241 9927209143413/if3/6,in,2,2,,,present,500.10,rem,lock,35092 9927209143419/vc02/142.99,2.000,u,10,10,rem,lock,20657 9927209143425/vc06/202.89,2.000,u,10,10,rem,lock,23316 9927209143431/vc11/237.99,2.000,u,10,10,rem,lock,9503 9927209143459/tpi/18567,20657,16844,4259,23789,23316,25736,51428,14884,35092 9927209143479/tpi/8060,8523,9503,27492,17479,4915,6241 9927209143480/tsys1/65.7,66.3,65.7,59.9,59.8,53.5,51.6,51.8,62.3,54.8 9927209143481/tsys2/84.5,82.3,83.2,79.6,79.6,78.7,88.1 9927209143481:!272091611 9927209161101:"data stop" 9927209161101:et 9927209161112:!+3s 9927209161414:tape 9927209161423/tape/off,05554,norm,stopped,stop,unlock,ready,rem 9927209161423:postob 9927209161423:source=1745+624,174614.0,622654.7,2000.0,neutral 9927209161501:nw2c1=7 9927209161554/pass/7,7,auto,-165.0,-165.0,-163.8,-164.2,1.2,0.8 9927209161879:!272092001 9927209183829#trakl#SOURCE_ACQUIRED 9927209200101:preob 9927209200201/onsource/TRACKING 9927209200436/tpical/20598,22893,18773,4689,26712,26384,29220,58420,16630,39726 9927209200456/tpical/9514,10087,11160,33123,20826,5803,7236 9927209200463:!272092011 9927209201101:tape 9927209201110/tape/off,05554,norm,stopped,stop,unlock,ready,rem 9927209201110:st=for,135 9927209201121:"data start" 9927209201121:midob 9927209201251/onsource/TRACKING 9927209201253/wx/17.8,984.7,100.0,0.5 9927209201273/cable/+1.0845096E-02 9927209201302/fmout-gps/S 1.8227E-07 9927209201308/ifd/16,19,nor,nor,rem,14960,6268 9927209201314/if3/6,in,2,2,,,present,500.10,rem,lock,35205 9927209201319/vc02/142.99,2.000,u,10,10,rem,lock,20732 9927209201325/vc06/202.89,2.000,u,10,10,rem,lock,23389 9927209201331/vc11/237.99,2.000,u,10,10,rem,lock,9508 9927209201359/tpi/18693,20732,16959,4283,23897,23389,25748,51477,14960,35205 9927209201379/tpi/8142,8585,9508,27723,17489,4928,6268 9927209201381/tsys1/66.6,64.7,63.5,59.6,58.5,53.1,51.6,51.4,61.2,54.1 9927209201381/tsys2/85.4,82.7,83.9,79.4,80.1,79.1,88.6 9927209201381:!272092154 9927209215401:"data stop" 9927209215401:et 9927209215412:!+3s 9927209215714:tape 9927209215722/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927209215723:postob 9927209215723:source=0642+449,064632.0,445116.6,2000.0,cw 9927209215754:nw2c1=7 9927209215807/pass/7,7,auto,-165.0,-165.0,-164.7,-164.2,0.3,0.8 9927209220132:!272092840 9927209263725#trakl#SOURCE_ACQUIRED 9927209284001:preob 9927209284053/onsource/TRACKING 9927209284288/tpical/19471,21846,17754,4472,24791,24673,27358,54286,15668,36898 9927209284308/tpical/9591,10050,11038,32834,20575,5731,7203 9927209284315:!272092850 9927209285001:tape 9927209285011/tape/off,06704,norm,stopped,stop,unlock,ready,rem 9927209285011:st=for,135 9927209285022:"data start" 9927209285022:midob 9927209285050/onsource/TRACKING 9927209285052/wx/17.8,985.3,100.0,0.0 9927209285077/cable/+1.0843747E-02 9927209285101/fmout-gps/S 1.8203E-07 9927209285107/ifd/16,19,nor,nor,rem,14007,6213 9927209285113/if3/6,in,2,2,,,present,500.10,rem,lock,32387 9927209285119/vc02/142.99,2.000,u,10,10,rem,lock,19725 9927209285125/vc06/202.89,2.000,u,10,10,rem,lock,21679 9927209285131/vc11/237.99,2.000,u,10,10,rem,lock,9348 9927209285159/tpi/17536,19725,15919,4056,22005,21679,23850,47234,14007,32387 9927209285179/tpi/8190,8501,9348,27397,17200,4840,6213 9927209285181/tsys1/61.4,62.6,58.8,54.3,54.3,49.1,47.3,46.4,57.6,49.9 9927209285181/tsys2/84.2,79.4,80.6,77.9,77.8,76.2,85.8 9927209285181:!272093028 9927209302801:"data stop" 9927209302801:et 9927209302812:!+3s 9927209303114:tape 9927209303123/tape/off,07796,norm,stopped,stop,unlock,ready,rem 9927209303123:postob 9927209303123:source=0804+499,080839.7,495036.5,2000.0,cw 9927209303200:midtp 9927209303437/tpzero/508,709,448,819,333,622,94,314,307,149 9927209303456/tpzero/639,629,624,268,381,492,783 9927209303472/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927209303482/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927209303491/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927209303500/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927209303510/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927209303519/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927209303519:nw2c2=8 9927209303668/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209303994:fastf=0m49s 9927209312174#trakl#SOURCE_ACQUIRED 9927209312922:!272093335 9927209333501:preob 9927209333599/onsource/TRACKING 9927209333834/tpical/18779,21094,17174,4359,24138,24096,26688,53007,15171,35937 9927209333854/tpical/9430,9861,10830,32246,20214,5640,7091 9927209333861:!272093345 9927209334501:tape 9927209334511/tape/off,08885,norm,moving,stop,unlock,ready,rem 9927209334511:st=rev,135 9927209334522:"data start" 9927209334522:midob 9927209334600/onsource/TRACKING 9927209334602/wx/17.8,985.2,100.0,0.0 9927209334633/cable/+1.0845467E-02 9927209334701/fmout-gps/S 1.8180E-07 9927209334707/ifd/16,19,nor,nor,rem,13517,6106 9927209334713/if3/6,in,2,2,,,present,500.10,rem,lock,31469 9927209334719/vc02/142.99,2.000,u,10,10,rem,lock,18960 9927209334725/vc06/202.89,2.000,u,10,10,rem,lock,21105 9927209334731/vc11/237.99,2.000,u,10,10,rem,lock,9161 9927209334759/tpi/16867,18960,15350,3953,21386,21105,23233,46106,13517,31469 9927209334779/tpi/8024,8336,9161,26830,16827,4749,6106 9927209334780/tsys1/59.7,59.7,57.0,53.9,53.4,47.8,46.7,46.3,55.7,48.9 9927209334781/tsys2/82.0,78.9,79.8,76.6,75.8,74.6,84.4 9927209334781:!272093523 9927209352301:"data stop" 9927209352301:et 9927209352312:!+3s 9927209352614:tape 9927209352623/tape/off,07792,norm,stopped,stop,unlock,ready,rem 9927209352623:postob 9927209352623:source=1357+769,135755.4,764321.1,2000.0,neutral 9927209352650:check2c2 9927209360598?ERROR qg -303 Track 11 parity errors exceed threshold. 9927209360598?ERROR qg -305 AUX data differs from expected value on track 11. 9927209360598?ERROR qg -304 Track 11 sync errors exceed threshold. 9927209360598/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927209360598/parity/0,0,0,0,0,335,0,0,0,0,0,0,0,0 9927209362018:nw2c2=8 9927209362071/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209362396:!272093755 9927209374174#trakl#SOURCE_ACQUIRED 9927209375501:preob 9927209375599/onsource/TRACKING 9927209375834/tpical/19045,21391,17514,4408,24662,24481,27155,54100,15411,36595 9927209375854/tpical/9462,9954,10944,32445,20328,5671,7107 9927209375861:!272093805 9927209380501:tape 9927209380511/tape/off,07795,norm,stopped,stop,unlock,ready,rem 9927209380511:st=rev,135 9927209380522:"data start" 9927209380522:midob 9927209380600/onsource/TRACKING 9927209380602/wx/17.8,985.2,100.0,0.0 9927209380625/cable/+1.0845366E-02 9927209380702/fmout-gps/S 1.8195E-07 9927209380708/ifd/16,19,nor,nor,rem,13757,6135 9927209380713/if3/6,in,2,2,,,present,500.10,rem,lock,32110 9927209380719/vc02/142.99,2.000,u,10,10,rem,lock,19217 9927209380725/vc06/202.89,2.000,u,10,10,rem,lock,21503 9927209380731/vc11/237.99,2.000,u,10,10,rem,lock,9286 9927209380759/tpi/17120,19217,15684,4003,21856,21503,23638,47080,13757,32110 9927209380779/tpi/8074,8440,9286,27013,16971,4788,6135 9927209380781/tsys1/60.2,59.4,58.1,54.9,53.5,48.9,46.7,46.5,56.8,49.7 9927209380781/tsys2/83.6,80.5,81.6,76.9,77.1,75.9,86.0 9927209380781:!272093943 9927209394301:"data stop" 9927209394301:et 9927209394312:!+3s 9927209394614:tape 9927209394623/tape/off,06702,norm,stopped,stop,unlock,ready,rem 9927209394623:postob 9927209394623:source=0718+793,072611.7,791131.0,2000.0,neutral 9927209394700:nw2c2=8 9927209394753/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209395079:!272094152 9927209413927#trakl#SOURCE_ACQUIRED 9927209415201:preob 9927209415301/onsource/TRACKING 9927209415537/tpical/18694,20969,17117,4343,24080,23977,26722,53031,15109,35880 9927209415557/tpical/9416,9911,10896,32319,20273,5654,7090 9927209415564:!272094202 9927209420201:tape 9927209420211/tape/off,06702,norm,stopped,stop,unlock,ready,rem 9927209420211:st=rev,135 9927209420222:"data start" 9927209420222:midob 9927209420350/onsource/TRACKING 9927209420352/wx/17.8,985.0,100.0,0.0 9927209420386/cable/+1.0846832E-02 9927209420402/fmout-gps/S 1.8246E-07 9927209420408/ifd/16,19,nor,nor,rem,13421,6111 9927209420414/if3/6,in,2,2,,,present,500.10,rem,lock,31313 9927209420420/vc02/142.99,2.000,u,10,10,rem,lock,18742 9927209420426/vc06/202.89,2.000,u,10,10,rem,lock,20941 9927209420432/vc11/237.99,2.000,u,10,10,rem,lock,9244 9927209420460/tpi/16745,18742,15255,3924,21263,20941,23107,45915,13421,31313 9927209420479/tpi/8052,8402,9244,26891,16916,4765,6111 9927209420481/tsys1/58.1,56.5,55.5,51.7,51.9,46.7,44.4,44.7,54.2,47.6 9927209420482/tsys2/84.8,80.4,81.5,76.6,76.9,75.0,85.0 9927209420482:!272094340 9927209434001:"data stop" 9927209434001:et 9927209434012:!+3s 9927209434314:tape 9927209434323/tape/off,05609,norm,stopped,stop,unlock,ready,rem 9927209434323:postob 9927209434323:source=2356+385,235933.2,385042.3,2000.0,neutral 9927209434400:nw2c2=8 9927209434453/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209434779:!272094739 9927209470175#trakl#SOURCE_ACQUIRED 9927209473901:preob 9927209473955/onsource/TRACKING 9927209474190/tpical/19191,21596,17654,4442,24996,24765,27531,54783,15590,37114 9927209474210/tpical/9339,9866,10914,32031,20283,5643,7060 9927209474217:!272094749 9927209474901:tape 9927209474910/tape/off,05609,norm,stopped,stop,unlock,ready,rem 9927209474910:st=rev,135 9927209474921:"data start" 9927209474921:midob 9927209475050/onsource/TRACKING 9927209475052/wx/17.9,984.9,100.0,5.4 9927209475089/cable/+1.0847413E-02 9927209475102/fmout-gps/S 1.8174E-07 9927209475107/ifd/16,19,nor,nor,rem,13933,6093 9927209475113/if3/6,in,2,2,,,present,500.10,rem,lock,32624 9927209475119/vc02/142.99,2.000,u,10,10,rem,lock,19432 9927209475125/vc06/202.89,2.000,u,10,10,rem,lock,21816 9927209475131/vc11/237.99,2.000,u,10,10,rem,lock,9251 9927209475159/tpi/17281,19432,15828,4032,22215,21816,24016,47806,13933,32624 9927209475179/tpi/7977,8339,9251,26723,16878,4765,6093 9927209475180/tsys1/61.3,60.4,58.8,54.7,54.9,50.2,47.5,47.5,57.4,50.5 9927209475181/tsys2/84.1,78.8,81.0,77.8,75.6,76.0,85.7 9927209475181:!272094927 9927209492701:"data stop" 9927209492701:et 9927209492712:!+3s 9927209493014:tape 9927209493023/tape/off,04516,norm,stopped,stop,unlock,ready,rem 9927209493023:postob 9927209493023:source=0133+476,013658.6,475129.1,2000.0,neutral 9927209493100:nw2c2=8 9927209493153/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209493576:!272095306 9927209514075#trakl#SOURCE_ACQUIRED 9927209530602:preob 9927209530700/onsource/TRACKING 9927209530935/tpical/19373,21763,17828,4476,25215,25070,27918,55379,15757,37531 9927209530955/tpical/9320,9801,10885,31954,20237,5635,7032 9927209530962:!272095316 9927209531601:tape 9927209531611/tape/off,04516,norm,stopped,stop,unlock,ready,rem 9927209531611:st=rev,135 9927209531622:"data start" 9927209531622:midob 9927209531700/onsource/TRACKING 9927209531702/wx/17.8,984.8,100.0,0.0 9927209531706/cable/+1.0848772E-02 9927209531802/fmout-gps/S 1.8131E-07 9927209531808/ifd/16,19,nor,nor,rem,14087,6067 9927209531814/if3/6,in,2,2,,,present,500.10,rem,lock,32969 9927209531820/vc02/142.99,2.000,u,10,10,rem,lock,19560 9927209531826/vc06/202.89,2.000,u,10,10,rem,lock,22056 9927209531832/vc11/237.99,2.000,u,10,10,rem,lock,9231 9927209531860/tpi/17443,19560,15983,4065,22385,22056,24313,48289,14087,32969 9927209531880/tpi/7939,8293,9231,26623,16859,4754,6067 9927209531881/tsys1/61.2,59.7,58.8,55.1,54.4,49.6,46.9,47.2,57.6,50.2 9927209531882/tsys2/82.5,79.3,81.2,77.2,76.1,75.5,85.5 9927209531882:!272095454 9927209545401:"data stop" 9927209545401:et 9927209545412:!+3s 9927209545714:tape 9927209545723/tape/off,03424,norm,stopped,stop,unlock,ready,rem 9927209545723:postob 9927209545723:source=1418+546,141946.6,542314.8,2000.0,neutral 9927209545750:nw2c2=8 9927209545803/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927209550130:!272095942 9927209573728;"wx= tunderstorme, nice lighting show 9927209583025#trakl#SOURCE_ACQUIRED 9927209594201:preob 9927209594251/onsource/TRACKING 9927209594486/tpical/21288,23588,19376,4813,27567,27262,30467,60685,17199,41196 9927209594506/tpical/9693,10294,11403,33727,21163,5871,7329 9927209594513:!272095952 9927209595201:tape 9927209595210/tape/off,03424,norm,stopped,stop,unlock,ready,rem 9927209595211:st=rev,135 9927209595222:"data start" 9927209595222:midob 9927209595250/onsource/TRACKING 9927209595252/wx/18.0,984.7,100.0,2.4 9927209595270/cable/+1.0843810E-02 9927209595302/fmout-gps/S 1.8215E-07 9927209595308/ifd/16,19,nor,nor,rem,15525,6357 9927209595314/if3/6,in,2,2,,,present,500.10,rem,lock,36682 9927209595320/vc02/142.99,2.000,u,10,10,rem,lock,21389 9927209595326/vc06/202.89,2.000,u,10,10,rem,lock,24338 9927209595332/vc11/237.99,2.000,u,10,10,rem,lock,9663 9927209595374/tpi/19324,21389,17521,4403,24808,24338,26970,53715,15525,36682 9927209595421/tpi/8263,8716,9663,28178,17790,4996,6358 9927209595423/tsys1/66.9,65.6,64.2,61.0,61.9,56.6,53.6,53.5,63.5,56.5 9927209595423/tsys2/83.2,80.0,81.1,78.5,80.6,80.4,89.6 9927209595424:!272100140 9927210014001:"data stop" 9927210014001:et 9927210014011:!+3s 9927210014313:tape 9927210014322/tape/off,02218,norm,stopped,stop,unlock,ready,rem 9927210014322:postob 9927210014322:source=3c418,203837.0,511912.7,2000.0,neutral 9927210014451:nw2c2=8 9927210014504/pass/8,8,auto,-165.0,-165.0,-164.3,-165.5,0.7,-0.5 9927210014829:!272100719 9927210040074#trakl#SOURCE_ACQUIRED 9927210071901:preob 9927210072051/onsource/TRACKING 9927210072286/tpical/26121,29054,24290,5879,34702,34540,38798,$$$$$,21574,52438 9927210072306/tpical/10011,10650,11756,34590,21903,6079,7546 9927210072313:!272100729 9927210072901:tape 9927210072909/tape/off,02218,norm,stopped,stop,unlock,ready,rem 9927210072910:st=rev,135 9927210072921:"data start" 9927210072921:midob 9927210073054/onsource/TRACKING 9927210073056/wx/18.1,985.0,100.0,0.0 9927210073062/cable/+1.0846273E-02 9927210073102/fmout-gps/S 1.8236E-07 9927210073108/ifd/16,19,nor,nor,rem,19915,6602 9927210073114/if3/6,in,2,2,,,present,500.10,rem,lock,47989 9927210073120/vc02/142.99,2.000,u,10,10,rem,lock,26933 9927210073126/vc06/202.89,2.000,u,10,10,rem,lock,31662 9927210073132/vc11/237.99,2.000,u,10,10,rem,lock,10145 9927210073159/tpi/24210,26933,22492,5479,32045,31662,35393,$$$$$,19915,47989 9927210073179/tpi/8657,9159,10145,29405,18586,5215,6602 9927210073181?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210073181/tsys1/86.6,86.3,85.6,81.3,83.3,75.3,72.4,$$$$$$$$,82.5,75.1 9927210073181/tsys2/92.4,89.3,92.3,87.7,85.7,85.3,96.2 9927210073182:!272100907 9927210090702:"data stop" 9927210090702:et 9927210090713:!+3s 9927210091015:tape 9927210091024/tape/off,01125,norm,stopped,stop,unlock,ready,rem 9927210091024:postob 9927210091024:source=1014+615,101725.9,611627.5,2000.0,cw 9927210091055:midtp 9927210091290/tpzero/508,706,452,820,324,618,96,315,311,150 9927210091310/tpzero/640,624,621,266,376,490,770 9927210091326/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927210091335/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927210091345/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.512 9927210091354/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927210091363/rx/1E(20k),on,a,on,on,on,off,locked,27.73 9927210091372/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927210091373:nw2c1=9 9927210091522/pass/9,9,auto,-110.0,-110.0,-109.9,-111.4,0.1,-1.4 9927210091848:fastr=0m47s 9927210100577:!272101242 9927210121783#trakl#SOURCE_ACQUIRED 9927210124201:preob 9927210124253/onsource/TRACKING 9927210124488/tpical/20768,23331,19265,4806,27450,27390,30684,60928,17038,41173 9927210124508/tpical/9456,9916,10936,32492,20433,5682,7123 9927210124515:!272101252 9927210125201:tape 9927210125211/tape/low,00081,norm,stopped,stop,unlock,ready,rem 9927210125211:st=for,135 9927210125222:"data start" 9927210125222:midob 9927210125250/onsource/TRACKING 9927210125252/wx/18.1,984.7,100.0,0.0 9927210125282/cable/+1.0844749E-02 9927210125302/fmout-gps/S 1.8219E-07 9927210125308/ifd/16,19,nor,nor,rem,15292,6137 9927210125314/if3/6,in,2,2,,,present,500.10,rem,lock,36435 9927210125320/vc02/142.99,2.000,u,10,10,rem,lock,21026 9927210125325/vc06/202.89,2.000,u,10,10,rem,lock,24293 9927210125331/vc11/237.99,2.000,u,10,10,rem,lock,9267 9927210125359/tpi/18762,21026,17341,4375,24550,24293,27016,53684,15292,36435 9927210125379/tpi/8046,8389,9267,27047,16981,4780,6137 9927210125381/tsys1/63.5,61.5,61.3,57.6,58.3,53.4,51.2,51.4,59.9,53.5 9927210125381/tsys2/82.0,79.4,80.9,76.8,75.1,74.2,85.0 9927210125381:!272101528 9927210152801:"data stop" 9927210152801:et 9927210152812:!+3s 9927210153115:tape 9927210153124/tape/off,01826,norm,stopped,stop,unlock,ready,rem 9927210153124:postob 9927210153124:source=0059+581,010245.8,582411.1,2000.0,neutral 9927210153149:check2c1 9927210155664;"wx= tunderstorme and lots of rain 9927210161092?ERROR qg -303 Track 11 parity errors exceed threshold. 9927210161092?ERROR qg -305 AUX data differs from expected value on track 11. 9927210161092?ERROR qg -304 Track 11 sync errors exceed threshold. 9927210161092/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927210161092/parity/0,0,0,0,0,359,0,0,0,0,0,0,0,0 9927210162517:nw2c1=9 9927210162570/pass/9,9,auto,-110.0,-110.0,-109.9,-111.4,0.1,-1.4 9927210162915:!272102328 9927210190275#trakl#SOURCE_ACQUIRED 9927210232801:preob 9927210232853/onsource/TRACKING 9927210233089/tpical/20998,23557,19431,4858,27856,27807,31193,61926,17235,41779 9927210233109/tpical/9414,9929,10971,32439,20453,5686,7108 9927210233116:!272102338 9927210233801:tape 9927210233810/tape/off,01820,norm,stopped,stop,unlock,ready,rem 9927210233811:st=for,135 9927210233821:"data start" 9927210233821:midob 9927210233951/onsource/TRACKING 9927210233953/wx/18.2,984.7,100.0,1.0 9927210233974/cable/+1.0848162E-02 9927210234002/fmout-gps/S 1.8195E-07 9927210234008/ifd/16,19,nor,nor,rem,15283,6132 9927210234021/if3/6,in,2,2,,,present,500.10,rem,lock,36552 9927210234033/vc02/142.99,2.000,u,10,10,rem,lock,21050 9927210234045/vc06/202.89,2.000,u,10,10,rem,lock,24340 9927210234057/vc11/237.99,2.000,u,10,10,rem,lock,9303 9927210234130/tpi/18744,21050,17303,4377,24616,24474,27273,54133,15354,36717 9927210234150/tpi/8032,8412,9305,27007,17066,4799,6134 9927210234152/tsys1/56.5,56.6,55.3,51.6,52.3,50.0,48.4,48.2,55.8,50.4 9927210234152/tsys2/83.5,80.1,81.4,76.8,76.9,75.8,86.0 9927210234152:!272102516 9927210251601:"data stop" 9927210251601:et 9927210251612:!+3s 9927210251914:tape 9927210251923/tape/off,02913,norm,stopped,stop,unlock,ready,rem 9927210251923:postob 9927210251923:source=0119+115,012141.6,114950.4,2000.0,neutral 9927210252002:nw2c1=9 9927210252066/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210252392:!272102803 9927210274674#trakl#SOURCE_ACQUIRED 9927210280301:preob 9927210280399/onsource/TRACKING 9927210280634/tpical/37557,42357,36218,8533,51514,51919,59202,$$$$$,32364,65535 9927210280654/tpical/9645,10135,11267,33157,20923,5822,7259 9927210280661:!272102813 9927210281301:tape 9927210281310/tape/off,02913,norm,stopped,stop,unlock,ready,rem 9927210281311:st=for,135 9927210281322:"data start" 9927210281322:midob 9927210281452/onsource/TRACKING 9927210281454/wx/18.1,984.7,100.0,4.7 9927210281476/cable/+1.0846514E-02 9927210281501/fmout-gps/S 1.8232E-07 9927210281507/ifd/16,19,nor,nor,rem,32663,6329 9927210281513/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210281519/vc02/142.99,2.000,u,10,10,rem,lock,42756 9927210281525/vc06/202.89,2.000,u,10,10,rem,lock,52044 9927210281531/vc11/237.99,2.000,u,10,10,rem,lock,9684 9927210281559/tpi/37819,42756,36653,8594,51881,52044,59127,$$$$$,32663,65535 9927210281579/tpi/8292,8680,9684,27983,17713,4980,6329 9927210281580?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v3 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v4 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device i1 overflowed or were less than zero. 9927210281580?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210281580/tsys1/-994.0,-735.6,-580.9,-889.5,-980.6,-2871.6,5493.8,$$$$$$$$,-755.2,$$$$$$$$ 9927210281581/tsys2/88.3,86.4,89.4,83.6,84.3,83.2,93.3 9927210281581:!272102951 9927210295106:"data stop" 9927210295106:et 9927210295123:!+3s 9927210295426:tape 9927210295435/tape/off,04007,norm,stopped,stop,unlock,ready,rem 9927210295435:postob 9927210295435:source=ngc1052,024104.8,-081520.8,2000.0,neutral 9927210295600:nw2c1=9 9927210295653/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210295979:!272103135 9927210313425#trakl#SOURCE_ACQUIRED 9927210313501:preob 9927210313600/onsource/TRACKING 9927210313835/tpical/33508,37444,31702,7553,45593,45783,51827,$$$$$,28365,65535 9927210313855/tpical/9705,10270,11533,33960,21577,6003,7406 9927210313862:!272103145 9927210314501:tape 9927210314509/tape/off,04007,norm,stopped,stop,unlock,ready,rem 9927210314510:st=for,135 9927210314520:"data start" 9927210314520:midob 9927210314651/onsource/TRACKING 9927210314653/wx/18.1,984.4,100.0,10.1 9927210314682/cable/+1.0846655E-02 9927210314702/fmout-gps/S 1.8102E-07 9927210314708/ifd/16,19,nor,nor,rem,26799,6296 9927210314714/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210314720/vc02/142.99,2.000,u,10,10,rem,lock,35384 9927210314726/vc06/202.89,2.000,u,10,10,rem,lock,43083 9927210314731/vc11/237.99,2.000,u,10,10,rem,lock,9633 9927210314759/tpi/31685,35384,30010,7174,43131,43083,48621,$$$$$,26799,65535 9927210314779/tpi/8142,8552,9633,27890,17771,4996,6296 9927210314781?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210314781?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210314781/tsys1/119.4,117.5,121.9,117.0,121.4,109.8,105.6,$$$$$$$$,118.1,$$$$$$$$ 9927210314781/tsys2/74.9,72.0,74.0,71.0,71.3,69.8,77.7 9927210314782:!272103323 9927210332301:"data stop" 9927210332301:et 9927210332312:!+3s 9927210332614:tape 9927210332622/tape/off,05100,norm,stopped,stop,unlock,ready,rem 9927210332623:postob 9927210332623:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927210332654:nw2c1=9 9927210332707/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210333032:!272103648 9927210363475#trakl#SOURCE_ACQUIRED 9927210364801:preob 9927210364949/onsource/TRACKING 9927210365184/tpical/59388,$$$$$,57941,13675,$$$$$,$$$$$,$$$$$,$$$$$,52823,65535 9927210365204/tpical/9764,10351,11538,34000,21614,6021,7428 9927210365211:!272103658 9927210365801:tape 9927210365811/tape/off,05100,norm,stopped,stop,unlock,ready,rem 9927210365811:st=for,135 9927210365822:"data start" 9927210365822:midob 9927210365900/onsource/TRACKING 9927210365902/wx/18.2,984.4,100.0,6.5 9927210365930/cable/+1.0845458E-02 9927210370002/fmout-gps/S 1.8187E-07 9927210370007/ifd/16,19,nor,nor,rem,50278,6437 9927210370013/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210370019/vc02/142.99,2.000,u,10,10,rem,lock,64205 9927210370025/vc06/202.89,2.000,u,10,10,rem,lock,65535 9927210370031/vc11/237.99,2.000,u,10,10,rem,lock,9855 9927210370059/tpi/56607,64205,55348,13030,$$$$$,$$$$$,$$$$$,$$$$$,50278,65535 9927210370079/tpi/8367,8813,9855,28569,18189,5111,6437 9927210370080?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210370080?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210370080/tsys1/140.8,$$$$$$$$,147.8,132.1,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,137.0,$$$$$$$$ 9927210370081/tsys2/86.3,83.1,85.6,81.3,81.2,79.3,89.3 9927210370081:!272103836 9927210383601:"data stop" 9927210383601:et 9927210383612:!+3s 9927210383914:tape 9927210383923/tape/off,06193,norm,stopped,stop,unlock,ready,rem 9927210383923:postob 9927210383923:source=1308+326,131028.7,322043.8,2000.0,ccw 9927210383950:nw2c1=9 9927210384004/pass/9,9,auto,-110.0,-110.0,-110.8,-110.5,-0.8,-0.5 9927210384329:!272104335 9927210423375#trakl#SOURCE_ACQUIRED 9927210433501:preob 9927210433553/onsource/TRACKING 9927210433788/tpical/$$$$$,$$$$$,64412,15177,$$$$$,$$$$$,$$$$$,$$$$$,59147,65535 9927210433808/tpical/10515,11158,12343,37060,23308,6447,8010 9927210433815:!272104345 9927210434501:tape 9927210434511/tape/off,06193,norm,stopped,stop,unlock,ready,rem 9927210434511:st=for,135 9927210434522:"data start" 9927210434522:midob 9927210434600/onsource/TRACKING 9927210434602/wx/18.2,984.4,100.0,0.4 9927210434609/cable/+1.0844009E-02 9927210434701/fmout-gps/S 1.8232E-07 9927210434707/ifd/16,19,nor,nor,rem,58469,7037 9927210434713/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927210434719/vc02/142.99,2.000,u,10,10,rem,lock,65535 9927210434725/vc06/202.89,2.000,u,10,10,rem,lock,65535 9927210434731/vc11/237.99,2.000,u,10,10,rem,lock,10695 9927210434759/tpi/$$$$$,$$$$$,63673,14986,$$$$$,$$$$$,$$$$$,$$$$$,58469,65535 9927210434779/tpi/9136,9654,10695,31740,19937,5574,7037 9927210434780?ERROR qk -211 Tsys value for device v1 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v2 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v5 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v6 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210434780?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927210434780/tsys1/$$$$$$$$,$$$$$$$$,597.1,517.7,$$$$$$$$,$$$$$$$$,$$$$$$$$,$$$$$$$$,598.7,$$$$$$$$ 9927210434781/tsys2/96.2,93.7,95.4,92.4,90.6,90.9,100.5 9927210434781:!272104523 9927210452301:"data stop" 9927210452301:et 9927210452312:!+3s 9927210452614:tape 9927210452622/tape/off,07286,norm,stopped,stop,unlock,ready,rem 9927210452623:postob 9927210452623:source=1156+295,115931.8,291443.8,2000.0,ccw 9927210452650:midtp 9927210452885/tpzero/503,708,452,817,341,623,85,305,307,149 9927210452905/tpzero/632,625,622,271,383,491,778 9927210452921/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927210452930/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927210452940/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927210452949/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927210452958/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927210452967/rx/1F(70k),on,a,on,on,on,off,locked,54.18 9927210452968:nw2c2=10 9927210453132/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927210453457:fastf=1m12s 9927210462675#trakl#SOURCE_ACQUIRED 9927210464685:!272104855 9927210485501:preob 9927210485649/onsource/TRACKING 9927210485884/tpical/24658,27313,22760,5663,32662,32491,36427,$$$$$,20270,49178 9927210485904/tpical/9835,10402,11440,34026,21373,5941,7409 9927210485911:!272104905 9927210490501:tape 9927210490510/tape/off,08892,norm,stopped,stop,unlock,ready,rem 9927210490511:st=rev,135 9927210490521:"data start" 9927210490521:midob 9927210490550/onsource/TRACKING 9927210490552/wx/18.1,984.4,100.0,3.0 9927210490577/cable/+1.0844365E-02 9927210490602/fmout-gps/S 1.8139E-07 9927210490608/ifd/16,19,nor,nor,rem,18686,6417 9927210490614/if3/6,in,2,2,,,present,500.10,rem,lock,44865 9927210490620/vc02/142.99,2.000,u,10,10,rem,lock,25312 9927210490626/vc06/202.89,2.000,u,10,10,rem,lock,29646 9927210490632/vc11/237.99,2.000,u,10,10,rem,lock,9751 9927210490660/tpi/22860,25312,21071,5267,30064,29646,33054,$$$$$,18686,44865 9927210490680/tpi/8408,8842,9751,28544,17955,5045,6417 9927210490681?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927210490681/tsys1/86.8,85.8,85.2,78.4,79.9,71.2,68.2,$$$$$$$$,81.0,72.4 9927210490682/tsys2/85.1,82.2,84.4,80.5,80.3,79.3,88.7 9927210490682:!272105219 9927210521902:"data stop" 9927210521903:et 9927210521914:!+3s 9927210522216:tape 9927210522225/tape/off,06719,norm,stopped,stop,unlock,ready,rem 9927210522225:postob 9927210522225:source=0552+398,055530.8,394849.2,2000.0,neutral 9927210522300:check2c2 9927210530243?ERROR qg -303 Track 11 parity errors exceed threshold. 9927210530243?ERROR qg -304 Track 11 sync errors exceed threshold. 9927210530243/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927210530243/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927210531668:nw2c2=10 9927210531722/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927210532047:!272105934 9927210575474#trakl#SOURCE_ACQUIRED 9927210593401:preob 9927210593501/onsource/TRACKING 9927210593736/tpical/20432,23033,18939,4807,26948,26837,29876,59104,16795,40219 9927210593756/tpical/9544,10051,11403,33573,21265,5907,7329 9927210593763:!272105944 9927210594401:tape 9927210594410/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927210594411:st=rev,135 9927210594421:"data start" 9927210594421:midob 9927210594550/onsource/TRACKING 9927210594552/wx/18.1,984.0,100.0,1.9 9927210594585/cable/+1.0848466E-02 9927210594601/fmout-gps/S 1.8107E-07 9927210594607/ifd/16,19,nor,nor,rem,15072,6355 9927210594613/if3/6,in,2,2,,,present,500.10,rem,lock,35576 9927210594619/vc02/142.99,2.000,u,10,10,rem,lock,20773 9927210594625/vc06/202.89,2.000,u,10,10,rem,lock,23795 9927210594631/vc11/237.99,2.000,u,10,10,rem,lock,9739 9927210594659/tpi/18486,20773,17048,4375,24035,23795,26299,51971,15072,35576 9927210594679/tpi/8187,8566,9739,28190,17892,5018,6355 9927210594680/tsys1/64.5,62.0,61.3,57.5,56.8,53.2,51.2,50.6,59.8,53.3 9927210594681/tsys2/86.9,83.5,85.5,81.0,81.0,79.5,89.4 9927210594681:!272110122 9927211012201:"data stop" 9927211012201:et 9927211012212:!+3s 9927211012514:tape 9927211012523/tape/off,05630,norm,stopped,stop,unlock,ready,rem 9927211012523:postob 9927211012523:source=0528+134,053056.4,133155.2,2000.0,neutral 9927211012600:nw2c2=10 9927211012664/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211012990:!272110424 9927211030625#trakl#SOURCE_ACQUIRED 9927211042401:preob 9927211042499/onsource/TRACKING 9927211042734/tpical/19388,21822,17987,4594,25658,25578,28500,56579,15921,38242 9927211042754/tpical/9360,9794,11005,32425,20489,5715,7115 9927211042761:!272110434 9927211043401:tape 9927211043410/tape/off,05630,norm,stopped,stop,unlock,ready,rem 9927211043411:st=rev,135 9927211043422:"data start" 9927211043422:midob 9927211043500/onsource/TRACKING 9927211043502/wx/18.2,984.1,100.0,2.9 9927211043529/cable/+1.0849565E-02 9927211043601/fmout-gps/S 1.8178E-07 9927211043607/ifd/16,19,nor,nor,rem,14172,6139 9927211043613/if3/6,in,2,2,,,present,500.10,rem,lock,33512 9927211043619/vc02/142.99,2.000,u,10,10,rem,lock,19545 9927211043625/vc06/202.89,2.000,u,10,10,rem,lock,22459 9927211043631/vc11/237.99,2.000,u,10,10,rem,lock,9343 9927211043659/tpi/17361,19545,16078,4153,22709,22459,24771,49154,14172,33512 9927211043679/tpi/7990,8314,9343,27049,17132,4826,6139 9927211043680/tsys1/58.1,57.7,57.1,52.8,52.9,48.9,46.2,45.9,55.3,49.2 9927211043681/tsys2/83.8,81.1,81.9,77.8,77.9,76.1,85.7 9927211043681:!272110612 9927211061201:"data stop" 9927211061201:et 9927211061212:!+3s 9927211061514:tape 9927211061523/tape/off,04537,norm,stopped,stop,unlock,ready,rem 9927211061523:postob 9927211061523:source=0458-020,050112.8,-015914.3,2000.0,neutral 9927211061550:nw2c2=10 9927211061603/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211061932:!272111057 9927211072474#trakl#SOURCE_ACQUIRED 9927211105701:preob 9927211105799/onsource/TRACKING 9927211110034/tpical/19469,21997,18127,4608,25810,25671,28554,56687,16005,38407 9927211110054/tpical/9320,9777,10966,32269,20435,5679,7100 9927211110061:!272111107 9927211110701:tape 9927211110710/tape/off,04537,norm,stopped,stop,unlock,ready,rem 9927211110711:st=rev,135 9927211110721:"data start" 9927211110721:midob 9927211110802/onsource/TRACKING 9927211110804/wx/18.3,984.0,100.0,4.8 9927211110851/cable/+1.0847799E-02 9927211110906/fmout-gps/S 1.8225E-07 9927211110912/ifd/16,19,nor,nor,rem,14453,6132 9927211110918/if3/6,in,2,2,,,present,500.10,rem,lock,34167 9927211110923/vc02/142.99,2.000,u,10,10,rem,lock,19946 9927211110929/vc06/202.89,2.000,u,10,10,rem,lock,22842 9927211110935/vc11/237.99,2.000,u,10,10,rem,lock,9313 9927211110963/tpi/17719,19946,16417,4231,23194,22842,25218,50131,14453,34167 9927211110983/tpi/7956,8287,9313,26914,17049,4806,6132 9927211110985/tsys1/68.7,65.5,65.2,63.2,61.0,54.8,52.6,53.0,63.6,56.0 9927211110985/tsys2/83.8,80.3,82.1,77.7,76.8,77.2,86.3 9927211110985:!272111245 9927211124501:"data stop" 9927211124501:et 9927211124512:!+3s 9927211124814:tape 9927211124823/tape/off,03444,norm,stopped,stop,unlock,ready,rem 9927211124823:postob 9927211124823:source=1745+624,174614.0,622654.7,2000.0,neutral 9927211124850:nw2c2=10 9927211124903/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211125228:!272111924 9927211180804;"wx= rain as stop, sill overcast and calm 9927211182975#trakl#SOURCE_ACQUIRED 9927211192401:preob 9927211192549/onsource/TRACKING 9927211192784/tpical/23087,25490,21176,5286,30230,29919,33429,$$$$$,18825,45280 9927211192804/tpical/9608,10178,11336,33791,21352,5926,7374 9927211192811:!272111934 9927211193401:tape 9927211193411/tape/off,03444,norm,stopped,stop,unlock,ready,rem 9927211193411:st=rev,135 9927211193422:"data start" 9927211193422:midob 9927211193450/onsource/TRACKING 9927211193452/wx/18.3,984.2,100.0,0.0 9927211193458/cable/+1.0845348E-02 9927211193502/fmout-gps/S 1.8168E-07 9927211193508/ifd/16,19,nor,nor,rem,16876,6379 9927211193514/if3/6,in,2,2,,,present,500.10,rem,lock,40062 9927211193520/vc02/142.99,2.000,u,10,10,rem,lock,23029 9927211193526/vc06/202.89,2.000,u,10,10,rem,lock,26533 9927211193532/vc11/237.99,2.000,u,10,10,rem,lock,9674 9927211193560/tpi/20842,23029,19052,4792,27024,26533,29426,58616,16876,40062 9927211193580/tpi/8220,8671,9674,28286,17883,5032,6379 9927211193581?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927211193581/tsys1/63.2,63.3,61.1,56.2,58.1,53.4,51.2,$$$$$$$$,59.3,53.4 9927211193582/tsys2/85.3,83.3,85.0,79.4,78.7,79.3,87.9 9927211193582:!272112223 9927211222301:"data stop" 9927211222301:et 9927211222312:!+3s 9927211222614:tape 9927211222623/tape/off,01552,norm,stopped,stop,unlock,ready,rem 9927211222623:postob 9927211222623:source=3c274,123049.4,122328.1,2000.0,cw 9927211222700:nw2c2=10 9927211222753/pass/10,10,auto,-110.0,-110.0,-110.4,-109.2,-0.4,0.8 9927211223096:!272112545 9927211252725#trakl#SOURCE_ACQUIRED 9927211254501:preob 9927211254649/onsource/TRACKING 9927211254884/tpical/47594,52996,45178,10508,61726,61918,$$$$$,$$$$$,40517,65535 9927211254904/tpical/14490,15460,17353,53234,33100,9052,10972 9927211254911:!272112555 9927211255502:tape 9927211255511/tape/off,01552,norm,stopped,stop,unlock,ready,rem 9927211255511:st=rev,135 9927211255522:"data start" 9927211255522:midob 9927211255650/onsource/TRACKING 9927211255652/wx/18.4,984.2,100.0,0.0 9927211255689/cable/+1.0843402E-02 9927211255702/fmout-gps/S 1.8170E-07 9927211255708/ifd/16,19,nor,nor,rem,40293,10026 9927211255714/if3/6,in,2,2,,,present,500.10,rem,lock,65535 9927211255720/vc02/142.99,2.000,u,10,10,rem,lock,52793 9927211255726/vc06/202.89,2.000,u,10,10,rem,lock,61332 9927211255731/vc11/237.99,2.000,u,10,10,rem,lock,15730 9927211255759/tpi/47397,52793,44981,10446,61312,61332,$$$$$,$$$$$,40293,65535 9927211255780/tpi/13090,13930,15730,48130,29843,8227,10026 9927211255782?ERROR qk -211 Tsys value for device v7 overflowed or were less than zero. 9927211255782?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927211255782?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927211255782/tsys1/1661.5,1790.9,1577.7,1084.0,1028.0,723.1,$$$$$$$$,$$$$$$$$,1246.0,$$$$$$$$ 9927211255782/tsys2/138.9,135.7,145.3,146.4,141.2,146.4,152.6 9927211255782:!272112733 9927211273301:"data stop" 9927211273301:et 9927211273312:!+3s 9927211273614:tape 9927211273623/tape/off,00459,norm,stopped,stop,unlock,ready,rem 9927211273623:postob 9927211273623:source=1101+384,110427.3,381231.8,2000.0,cw 9927211273700:midtp 9927211273936/tpzero/509,709,449,819,324,622,90,312,304,150 9927211273983/tpzero/638,623,624,270,377,494,787 9927211274026/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927211274056/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927211274071/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927211274080/rx/17(pres),on,a,on,on,on,off,locked,-0.862 9927211274089/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927211274098/rx/1F(70k),on,a,on,on,on,off,locked,53.49 9927211274098:nw2c1=11 9927211274258/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211274584:fastr=0m17s 9927211280313:!272113109 9927211304375#trakl#SOURCE_ACQUIRED 9927211310901:preob 9927211310999/onsource/TRACKING 9927211311235/tpical/19514,21836,17965,4546,25330,25146,27984,55675,15837,37727 9927211311254/tpical/9618,10073,11036,32937,20608,5747,7210 9927211311261:!272113119 9927211311901:tape 9927211311910/tape/low,00090,norm,stopped,stop,unlock,ready,rem 9927211311910:st=for,135 9927211311921:"data start" 9927211311921:midob 9927211312000/onsource/TRACKING 9927211312002/wx/18.4,984.2,100.0,0.0 9927211312018/cable/+1.0844943E-02 9927211312101/fmout-gps/S 1.8260E-07 9927211312107/ifd/16,19,nor,nor,rem,14030,6207 9927211312113/if3/6,in,2,2,,,present,500.10,rem,lock,32884 9927211312119/vc02/142.99,2.000,u,10,10,rem,lock,19467 9927211312125/vc06/202.89,2.000,u,10,10,rem,lock,21961 9927211312131/vc11/237.99,2.000,u,10,10,rem,lock,9357 9927211312159/tpi/17422,19467,15999,4096,22320,21961,24221,48224,14030,32884 9927211312179/tpi/8195,8525,9357,27327,17170,4839,6207 9927211312181/tsys1/56.4,55.3,55.2,50.8,51.0,46.8,44.8,44.9,53.0,47.2 9927211312181/tsys2/82.9,79.7,81.2,75.3,76.2,74.7,84.4 9927211312181:!272113257 9927211325701:"data stop" 9927211325701:et 9927211325712:!+3s 9927211330014:tape 9927211330023/tape/off,01183,norm,stopped,stop,unlock,ready,rem 9927211330023:postob 9927211330023:source=0059+581,010245.8,582411.1,2000.0,neutral 9927211330050:check2c1 9927211333995?ERROR qg -303 Track 11 parity errors exceed threshold. 9927211333995?ERROR qg -305 AUX data differs from expected value on track 11. 9927211333995?ERROR qg -304 Track 11 sync errors exceed threshold. 9927211333995/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927211333995/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927211335419:nw2c1=11 9927211335483/pass/11,11,auto,-55.0,-55.0,-56.0,-54.2,-1.0,0.8 9927211335809:!272114044 9927211373175#trakl#SOURCE_ACQUIRED 9927211404401:preob 9927211404501/onsource/TRACKING 9927211404736/tpical/19013,21309,17510,4454,24835,24668,27482,54668,15449,36980 9927211404756/tpical/9442,9941,10967,32517,20463,5706,7119 9927211404763:!272114054 9927211405401:tape 9927211405410/tape/off,01178,norm,moving,stop,unlock,ready,rem 9927211405411:st=for,135 9927211405422:"data start" 9927211405422:midob 9927211405550/onsource/TRACKING 9927211405552/wx/18.6,983.9,100.0,6.5 9927211405581/cable/+1.0849028E-02 9927211405602/fmout-gps/S 1.8139E-07 9927211405607/ifd/16,19,nor,nor,rem,13774,6145 9927211405613/if3/6,in,2,2,,,present,500.10,rem,lock,32421 9927211405619/vc02/142.99,2.000,u,10,10,rem,lock,19112 9927211405625/vc06/202.89,2.000,u,10,10,rem,lock,21657 9927211405631/vc11/237.99,2.000,u,10,10,rem,lock,9306 9927211405659/tpi/17102,19112,15667,4029,22009,21657,23929,47625,13774,32421 9927211405679/tpi/8065,8420,9306,27093,17080,4812,6145 9927211405681/tsys1/60.6,58.5,57.6,52.7,53.6,48.8,46.8,46.9,56.1,49.4 9927211405681/tsys2/84.2,80.0,81.6,77.2,77.1,75.4,85.9 9927211405681:!272114232 9927211423201:"data stop" 9927211423201:et 9927211423212:!+3s 9927211423514:tape 9927211423523/tape/off,02271,norm,stopped,stop,unlock,ready,rem 9927211423523:postob 9927211423523:source=1308+326,131028.7,322043.8,2000.0,cw 9927211423650:nw2c1=11 9927211423703/pass/11,11,auto,-55.0,-55.0,-56.0,-54.2,-1.0,0.8 9927211424030:!272114708 9927211463324#trakl#SOURCE_ACQUIRED 9927211470801:preob 9927211470899/onsource/TRACKING 9927211471134/tpical/20523,22714,18690,4708,26508,26261,29221,58301,16569,39573 9927211471154/tpical/9777,10308,11311,33415,21004,5846,7330 9927211471161:!272114718 9927211471801:tape 9927211471809/tape/off,02271,norm,stopped,stop,unlock,ready,rem 9927211471810:st=for,135 9927211471820:"data start" 9927211471820:midob 9927211471853/onsource/TRACKING 9927211471855/wx/18.7,983.9,100.0,0.0 9927211471886/cable/+1.0845783E-02 9927211471903/fmout-gps/S 1.8160E-07 9927211471909/ifd/16,19,nor,nor,rem,14888,6347 9927211471915/if3/6,in,2,2,,,present,500.10,rem,lock,35041 9927211471921/vc02/142.99,2.000,u,10,10,rem,lock,20517 9927211471927/vc06/202.89,2.000,u,10,10,rem,lock,23285 9927211471933/vc11/237.99,2.000,u,10,10,rem,lock,9629 9927211471961/tpi/18582,20517,16867,4293,23743,23285,25707,51345,14888,35041 9927211471981/tpi/8369,8749,9629,27997,17618,4954,6347 9927211471982/tsys1/65.0,62.9,62.9,58.4,59.1,53.2,50.9,51.2,60.6,53.7 9927211471983/tsys2/85.7,81.4,83.6,79.9,79.5,78.0,88.3 9927211471983:!272114856 9927211485601:"data stop" 9927211485601:et 9927211485612:!+3s 9927211485914:tape 9927211485923/tape/off,03364,norm,stopped,stop,unlock,ready,rem 9927211485923:postob 9927211485923:source=1014+615,101725.9,611627.5,2000.0,cw 9927211485952:nw2c1=11 9927211490005/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211490332:!272115335 9927211523524#trakl#SOURCE_ACQUIRED 9927211533501:preob 9927211533599/onsource/TRACKING 9927211533834/tpical/18794,21034,17287,4416,24444,24380,27155,53847,15256,36480 9927211533854/tpical/9510,9958,10872,32282,20283,5635,7120 9927211533861:!272115345 9927211534501:tape 9927211534510/tape/off,03364,norm,stopped,stop,unlock,ready,rem 9927211534510:st=for,135 9927211534521:"data start" 9927211534521:midob 9927211534651/onsource/TRACKING 9927211534653/wx/18.7,983.9,100.0,0.0 9927211534657/cable/+1.0848673E-02 9927211534701/fmout-gps/S 1.8064E-07 9927211534707/ifd/16,19,nor,nor,rem,13586,6126 9927211534713/if3/6,in,2,2,,,present,500.10,rem,lock,31940 9927211534719/vc02/142.99,2.000,u,10,10,rem,lock,18874 9927211534725/vc06/202.89,2.000,u,10,10,rem,lock,21354 9927211534731/vc11/237.99,2.000,u,10,10,rem,lock,9195 9927211534759/tpi/16900,18874,15438,3992,21646,21354,23520,46821,13586,31940 9927211534779/tpi/8097,8414,9195,26808,16854,4755,6126 9927211534780/tsys1/60.4,58.7,56.6,52.2,53.2,47.8,45.0,46.2,55.5,48.9 9927211534781/tsys2/82.4,78.8,79.8,75.7,75.0,75.6,83.8 9927211534781:!272115621 9927211545341;"wx=overcast and calm 9927211562101:"data stop" 9927211562101:et 9927211562112:!+3s 9927211562414:tape 9927211562423/tape/off,05110,norm,stopped,stop,unlock,ready,rem 9927211562423:postob 9927211562423:source=0133+476,013658.6,475129.1,2000.0,neutral 9927211562450:nw2c1=11 9927211562502/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927211562828:!272120033 9927212001325#trakl#SOURCE_ACQUIRED 9927212003301:preob 9927212003401/onsource/TRACKING 9927212003636/tpical/19213,21575,17779,4511,25245,25136,27925,55551,15676,37578 9927212003656/tpical/9524,10025,11022,32686,20586,5741,7169 9927212003663:!272120043 9927212004301:tape 9927212004309/tape/off,05110,norm,stopped,stop,unlock,ready,rem 9927212004310:st=for,135 9927212004321:"data start" 9927212004321:midob 9927212004399/onsource/TRACKING 9927212004401/wx/18.8,983.9,100.0,4.4 9927212004417/cable/+1.0849120E-02 9927212004502/fmout-gps/S 1.8248E-07 9927212004507/ifd/16,19,nor,nor,rem,13972,6184 9927212004513/if3/6,in,2,2,,,present,500.10,rem,lock,32961 9927212004519/vc02/142.99,2.000,u,10,10,rem,lock,19332 9927212004525/vc06/202.89,2.000,u,10,10,rem,lock,22060 9927212004531/vc11/237.99,2.000,u,10,10,rem,lock,9351 9927212004559/tpi/17262,19332,15874,4088,22400,22060,24319,48365,13972,32961 9927212004579/tpi/8132,8492,9351,27261,17215,4852,6184 9927212004581/tsys1/59.9,58.0,56.5,53.9,54.2,48.6,46.9,46.7,56.0,49.6 9927212004581/tsys2/84.0,80.1,81.5,77.7,78.0,76.5,85.5 9927212004581:!272120221 9927212022101:"data stop" 9927212022101:et 9927212022112:!+3s 9927212022414:tape 9927212022423/tape/off,06203,norm,moving,stop,unlock,ready,rem 9927212022423:postob 9927212022423:source=0552+398,055530.8,394849.2,2000.0,neutral 9927212022450:nw2c1=11 9927212022503/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927212022830:!272120712 9927212060024#trakl#SOURCE_ACQUIRED 9927212061298;op=norm servant 9927212061877;wx 9927212061879/wx/18.8,983.7,100.0,0.0 9927212063167;"wx,overcast,calm. 9927212063482;rxmon 9927212063491/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212063500/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927212063509/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927212063519/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927212063528/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927212063537/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927212065125;"rxtemps 20k=28.60 70k=55.57 9927212071201:preob 9927212071300/onsource/TRACKING 9927212071535/tpical/19612,22012,18057,4559,25552,25508,28400,56237,15969,38118 9927212071555/tpical/9591,10082,11239,33136,20946,5826,7238 9927212071562:!272120722 9927212072201:tape 9927212072210/tape/off,06203,norm,stopped,stop,unlock,ready,rem 9927212072210:st=for,135 9927212072221:"data start" 9927212072221:midob 9927212072352/onsource/TRACKING 9927212072354/wx/18.8,983.6,100.0,2.2 9927212072377/cable/+1.0851063E-02 9927212072401/fmout-gps/S 1.8129E-07 9927212072407/ifd/16,19,nor,nor,rem,14329,6266 9927212072413/if3/6,in,2,2,,,present,500.10,rem,lock,33630 9927212072419/vc02/142.99,2.000,u,10,10,rem,lock,19911 9927212072425/vc06/202.89,2.000,u,10,10,rem,lock,22500 9927212072431/vc11/237.99,2.000,u,10,10,rem,lock,9576 9927212072459/tpi/17752,19911,16274,4149,22779,22500,24865,49235,14329,33630 9927212072478/tpi/8216,8573,9576,27798,17595,4945,6266 9927212072480/tsys1/64.7,63.8,62.0,56.7,56.5,50.8,48.9,48.8,59.7,52.1 9927212072480/tsys2/86.0,82.2,84.0,80.5,80.2,78.9,88.0 9927212072481:!272120900 9927212090001:"data stop" 9927212090001:et 9927212090011:!+3s 9927212090313:tape 9927212090322/tape/off,07296,norm,stopped,stop,unlock,ready,rem 9927212090322:postob 9927212090326:source=0528+134,053056.4,133155.2,2000.0,neutral 9927212090501:nw2c1=11 9927212090559/pass/11,11,auto,-55.0,-55.0,-56.0,-55.1,-1.0,-0.1 9927212090887:!272121140 9927212103324#trakl#SOURCE_ACQUIRED 9927212114001:preob 9927212114101/onsource/TRACKING 9927212114338/tpical/18810,21107,17420,4426,24808,24720,27428,54498,15384,36898 9927212114358/tpical/9358,9837,11016,32446,20531,5718,7113 9927212114365:!272121150 9927212115001:tape 9927212115011/tape/off,07296,norm,stopped,stop,unlock,ready,rem 9927212115011:st=for,135 9927212115022:"data start" 9927212115022:midob 9927212115052/onsource/TRACKING 9927212115054/wx/18.8,983.4,100.0,2.1 9927212115089/cable/+1.0850633E-02 9927212115101/fmout-gps/S 1.8223E-07 9927212115107/ifd/16,19,nor,nor,rem,13707,6141 9927212115113/if3/6,in,2,2,,,present,500.10,rem,lock,32339 9927212115119/vc02/142.99,2.000,u,10,10,rem,lock,18958 9927212115125/vc06/202.89,2.000,u,10,10,rem,lock,21713 9927212115131/vc11/237.99,2.000,u,10,10,rem,lock,9357 9927212115159/tpi/16877,18958,15534,4008,21969,21713,23887,47375,13707,32339 9927212115178/tpi/7987,8351,9357,27058,17139,4841,6141 9927212115180/tsys1/59.1,59.3,55.8,53.3,53.2,49.0,46.9,46.1,55.8,49.3 9927212115180/tsys2/83.7,81.2,82.2,77.6,77.1,77.4,86.0 9927212115181:!272121328 9927212132801:"data stop" 9927212132801:et 9927212132811:!+3s 9927212133113:tape 9927212133122/tape/off,08388,norm,stopped,stop,unlock,ready,rem 9927212133122:postob 9927212133122:source=oj287,085448.9,200630.6,2000.0,neutral 9927212133152:midtp 9927212133387/tpzero/508,708,448,818,338,624,94,316,307,149 9927212133407/tpzero/632,622,625,270,380,491,780 9927212133423/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212133433/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927212133442/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927212133451/rx/17(pres),on,a,on,on,on,off,locked,-0.132 9927212133460/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927212133470/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927212133470:nw2c2=12 9927212133618/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212133945:fastf=0m23s 9927212140274:!272121714 9927212165375#trakl#SOURCE_ACQUIRED 9927212171402:preob 9927212171505/onsource/TRACKING 9927212171740/tpical/18649,20966,17217,4396,24475,24400,27164,53880,15207,36455 9927212171760/tpical/9450,9918,11029,32394,20463,5708,7114 9927212171767:!272121724 9927212172401:tape 9927212172410/tape/off,08892,norm,stopped,stop,unlock,ready,rem 9927212172410:st=rev,135 9927212172421:"data start" 9927212172421:midob 9927212172452/onsource/TRACKING 9927212172454/wx/18.9,983.2,100.0,5.6 9927212172462/cable/+1.0850581E-02 9927212172502/fmout-gps/S 1.8207E-07 9927212172507/ifd/16,19,nor,nor,rem,13567,6133 9927212172513/if3/6,in,2,2,,,present,500.10,rem,lock,31991 9927212172519/vc02/142.99,2.000,u,10,10,rem,lock,18815 9927212172525/vc06/202.89,2.000,u,10,10,rem,lock,21486 9927212172531/vc11/237.99,2.000,u,10,10,rem,lock,9367 9927212172559/tpi/16779,18815,15418,3983,21724,21486,23678,46938,13567,31991 9927212172579/tpi/8063,8381,9367,26948,17073,4826,6133 9927212172581/tsys1/60.7,58.8,58.1,53.5,54.3,50.0,47.2,46.9,56.4,49.8 9927212172581/tsys2/83.6,78.8,82.1,76.5,76.9,76.7,85.2 9927212172581:!272121902 9927212190201:"data stop" 9927212190201:et 9927212190211:!+3s 9927212190513:tape 9927212190522/tape/off,07799,norm,stopped,stop,unlock,ready,rem 9927212190522:postob 9927212190522:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927212190651:check2c2 9927212194593?ERROR qg -303 Track 11 parity errors exceed threshold. 9927212194593?ERROR qg -305 AUX data differs from expected value on track 11. 9927212194594?ERROR qg -304 Track 11 sync errors exceed threshold. 9927212194594/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927212194594/parity/0,0,0,0,0,278,0,0,0,0,0,0,0,0 9927212200020:nw2c2=12 9927212200084/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212200412:!272122210 9927212210274#trakl#SOURCE_ACQUIRED 9927212221001:preob 9927212221099/onsource/TRACKING 9927212221335/tpical/18939,21307,17608,4459,25013,24869,27744,55055,15515,37228 9927212221354/tpical/9331,9803,11073,32317,20624,5734,7103 9927212221361:!272122220 9927212222001:tape 9927212222011/tape/off,07801,norm,moving,stop,unlock,ready,rem 9927212222011:st=rev,135 9927212222022:"data start" 9927212222022:midob 9927212222100/onsource/TRACKING 9927212222102/wx/19.0,983.3,100.0,4.6 9927212222125/cable/+1.0848780E-02 9927212222201/fmout-gps/S 1.8178E-07 9927212222207/ifd/16,19,nor,nor,rem,13817,6132 9927212222213/if3/6,in,2,2,,,present,500.10,rem,lock,32626 9927212222219/vc02/142.99,2.000,u,10,10,rem,lock,19105 9927212222225/vc06/202.89,2.000,u,10,10,rem,lock,21848 9927212222231/vc11/237.99,2.000,u,10,10,rem,lock,9404 9927212222259/tpi/16981,19105,15738,4041,22174,21848,24117,48053,13817,32626 9927212222279/tpi/7983,8332,9404,26971,17224,4854,6132 9927212222281/tsys1/58.7,58.3,57.1,53.8,53.7,49.0,46.2,47.6,55.5,49.3 9927212222281/tsys2/85.1,81.8,82.1,78.0,77.3,77.4,86.0 9927212222281:!272122358 9927212235801:"data stop" 9927212235801:et 9927212235811:!+3s 9927212240113:tape 9927212240121/tape/off,06708,norm,stopped,stop,unlock,ready,rem 9927212240122:postob 9927212240122:source=1219+044,122222.5,041315.8,2000.0,neutral 9927212240200:nw2c2=12 9927212240253/pass/12,12,auto,-55.0,-55.0,-53.8,-55.5,1.2,-0.5 9927212240577:!272122837 9927212271325#trakl#SOURCE_ACQUIRED 9927212283701:preob 9927212283851/onsource/TRACKING 9927212284086/tpical/20589,22792,18821,4753,26993,26685,29773,59325,16718,40231 9927212284106/tpical/9941,10513,11709,34507,21777,6054,7514 9927212284113:!272122847 9927212284701:tape 9927212284709/tape/off,06708,norm,stopped,stop,unlock,ready,rem 9927212284710:st=rev,135 9927212284720:"data start" 9927212284720:midob 9927212284801/onsource/TRACKING 9927212284803/wx/19.0,983.3,100.0,0.0 9927212284826/cable/+1.0847457E-02 9927212284903/fmout-gps/S 1.8254E-07 9927212284909/ifd/16,19,nor,nor,rem,15055,6537 9927212284915/if3/6,in,2,2,,,present,500.10,rem,lock,35700 9927212284921/vc02/142.99,2.000,u,10,10,rem,lock,20657 9927212284927/vc06/202.89,2.000,u,10,10,rem,lock,23712 9927212284933/vc11/237.99,2.000,u,10,10,rem,lock,10048 9927212284961/tpi/18680,20657,16981,4338,24162,23712,26237,52206,15055,35700 9927212284980/tpi/8559,9004,10048,29155,18375,5159,6537 9927212284982/tsys1/66.4,65.2,62.7,59.2,58.7,54.2,51.6,50.9,61.9,54.8 9927212284982/tsys2/89.5,86.7,88.6,84.2,82.6,81.4,92.0 9927212284983:!272123055 9927212305501:"data stop" 9927212305501:et 9927212305512:!+3s 9927212305814:tape 9927212305823/tape/off,05278,norm,stopped,stop,unlock,ready,rem 9927212305823:postob 9927212305823:source=1030+074,103334.0,071126.1,2000.0,neutral 9927212305900:midtp 9927212310135/tpzero/505,721,447,821,322,622,91,314,307,149 9927212310155/tpzero/632,623,624,268,378,493,771 9927212310171/rx/02(lo),on,a,on,on,on,off,locked,46.94 9927212310181/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927212310190/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927212310199/rx/17(pres),on,a,on,on,on,off,locked,-1.575 9927212310208/rx/1E(20k),on,a,on,on,on,off,locked,27.73 9927212310218/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927212310218:nw2c1=13 9927212310387/pass/13,13,auto,0.0,0.0,1.5,0.4,1.5,0.4 9927212310713:fastr=3m52s 9927212325927#trakl#SOURCE_ACQUIRED 9927212345941:!272124122 9927212412201:preob 9927212412300/onsource/TRACKING 9927212412535/tpical/18505,20637,17053,4339,24196,24040,26819,53301,15041,36027 9927212412555/tpical/9410,9880,10895,32168,20268,5658,7067 9927212412562:!272124132 9927212413201:tape 9927212413209/tape/low,00071,norm,stopped,stop,unlock,ready,rem 9927212413210:st=for,135 9927212413220:"data start" 9927212413220:midob 9927212413351/onsource/TRACKING 9927212413353/wx/19.3,983.4,100.0,3.3 9927212413361/cable/+1.0853277E-02 9927212413401/fmout-gps/S 1.8223E-07 9927212413407/ifd/16,19,nor,nor,rem,13371,6089 9927212413413/if3/6,in,2,2,,,present,500.10,rem,lock,31493 9927212413419/vc02/142.99,2.000,u,10,10,rem,lock,18477 9927212413425/vc06/202.89,2.000,u,10,10,rem,lock,21042 9927212413431/vc11/237.99,2.000,u,10,10,rem,lock,9237 9927212413459/tpi/16566,18477,15211,3928,21392,21042,23280,46196,13371,31493 9927212413479/tpi/8014,8344,9237,26709,16874,4764,6089 9927212413481/tsys1/57.8,57.4,55.9,52.8,52.4,47.5,45.7,45.1,54.6,48.3 9927212413481/tsys2/82.5,78.5,81.1,75.6,75.9,74.6,84.9 9927212413481:!272125058 9927212505801:"data stop" 9927212505801:et 9927212505811:!+3s 9927212510113:tape 9927212510122/tape/off,06429,norm,stopped,stop,unlock,ready,rem 9927212510122:postob 9927212510122:source=1156+295,115931.8,291443.8,2000.0,ccw 9927212510251:check2c1 9927212514224?ERROR qg -303 Track 11 parity errors exceed threshold. 9927212514224?ERROR qg -305 AUX data differs from expected value on track 11. 9927212514224?ERROR qg -304 Track 11 sync errors exceed threshold. 9927212514224/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927212514224/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927212515640:nw2c1=13 9927212515709/pass/13,13,auto,0.0,0.0,0.6,0.4,0.6,0.4 9927212520041:!272125655 9927212525274#trakl#SOURCE_ACQUIRED 9927212565501:preob 9927212565553/onsource/TRACKING 9927212565788/tpical/18599,20793,17094,4353,24276,24143,26853,53376,15110,36127 9927212565808/tpical/9520,10003,11000,32622,20528,5715,7151 9927212565815:!272125705 9927212570501:tape 9927212570511/tape/off,06422,norm,stopped,stop,unlock,ready,rem 9927212570511:st=for,135 9927212570522:"data start" 9927212570522:midob 9927212570653/onsource/TRACKING 9927212570655/wx/19.5,983.0,100.0,0.1 9927212570674/cable/+1.0853068E-02 9927212570702/fmout-gps/S 1.8266E-07 9927212570708/ifd/16,19,nor,nor,rem,13464,6169 9927212570713/if3/6,in,2,2,,,present,500.10,rem,lock,31638 9927212570719/vc02/142.99,2.000,u,10,10,rem,lock,18652 9927212570725/vc06/202.89,2.000,u,10,10,rem,lock,21149 9927212570731/vc11/237.99,2.000,u,10,10,rem,lock,9330 9927212570759/tpi/16698,18652,15281,3941,21531,21149,23335,46350,13464,31638 9927212570779/tpi/8124,8476,9330,27162,17150,4824,6169 9927212570781/tsys1/59.5,58.5,57.1,52.9,53.9,47.9,46.1,45.7,55.8,49.0 9927212570781/tsys2/83.8,80.3,81.4,76.9,77.5,75.9,85.8 9927212570781:!272130024 9927213002401:"data stop" 9927213002401:et 9927213002411:!+3s 9927213002713:tape 9927213002721/tape/off,08650,norm,stopped,stop,unlock,ready,rem 9927213002722:postob 9927213002722:source=oj287,085448.9,200630.6,2000.0,neutral 9927213002749:midtp 9927213002984/tpzero/503,718,450,817,331,621,96,316,311,149 9927213003004/tpzero/629,628,623,269,379,489,769 9927213003020/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927213003029/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927213003039/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.509 9927213003048/rx/17(pres),on,a,on,on,on,off,locked,2.971 9927213003057/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927213003066/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213003067:nw2c2=14 9927213003213/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213003620:fastf=0m12s 9927213004848:!272130532 9927213030927#trakl#SOURCE_ACQUIRED 9927213053201:preob 9927213053301/onsource/TRACKING 9927213053536/tpical/18908,21129,17373,4375,24622,24583,27285,54136,15331,36630 9927213053556/tpical/9240,9693,10920,32001,20320,5676,7032 9927213053563:!272130542 9927213054201:tape 9927213054210/tape/off,08906,norm,stopped,stop,unlock,ready,rem 9927213054211:st=rev,135 9927213054221:"data start" 9927213054221:midob 9927213054252/onsource/TRACKING 9927213054254/wx/19.6,983.0,100.0,1.0 9927213054261/cable/+1.0855147E-02 9927213054301/fmout-gps/S 1.8123E-07 9927213054307/ifd/16,19,nor,nor,rem,13687,6072 9927213054313/if3/6,in,2,2,,,present,500.10,rem,lock,32177 9927213054319/vc02/142.99,2.000,u,10,10,rem,lock,19034 9927213054325/vc06/202.89,2.000,u,10,10,rem,lock,21623 9927213054331/vc11/237.99,2.000,u,10,10,rem,lock,9276 9927213054359/tpi/17024,19034,15558,3971,21800,21623,23783,47256,13687,32177 9927213054379/tpi/7887,8216,9276,26678,16985,4797,6072 9927213054380/tsys1/61.2,61.0,58.1,54.5,53.1,49.5,47.2,47.6,56.8,50.2 9927213054381/tsys2/83.7,80.2,82.2,77.4,77.7,76.5,86.2 9927213054381:!272130720 9927213072001:"data stop" 9927213072001:et 9927213072011:!+3s 9927213072313:tape 9927213072322/tape/off,07813,norm,stopped,stop,unlock,ready,rem 9927213072322:postob 9927213072322:source=0552+398,055530.8,394849.2,2000.0,neutral 9927213072399:check2c2 9927213080347?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213080347?ERROR qg -305 AUX data differs from expected value on track 11. 9927213080347?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213080347/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213080347/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927213081767:nw2c2=14 9927213081823/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213082152:!272131155 9927213112024#trakl#SOURCE_ACQUIRED 9927213115501:preob 9927213115665/onsource/TRACKING 9927213115908/tpical/19071,21351,17529,4415,24797,24674,27421,54472,15477,36895 9927213115928/tpical/9294,9793,10927,32223,20452,5695,7081 9927213115935:!272131205 9927213120501:tape 9927213120510/tape/off,07816,norm,stopped,stop,unlock,ready,rem 9927213120511:st=rev,135 9927213120521:"data start" 9927213120522:midob 9927213120600/onsource/TRACKING 9927213120602/wx/19.8,983.0,99.5,3.7 9927213120638/cable/+1.0855892E-02 9927213120701/fmout-gps/S 1.8176E-07 9927213120707/ifd/16,19,nor,nor,rem,13839,6121 9927213120713/if3/6,in,2,2,,,present,500.10,rem,lock,32466 9927213120719/vc02/142.99,2.000,u,10,10,rem,lock,19256 9927213120725/vc06/202.89,2.000,u,10,10,rem,lock,21741 9927213120731/vc11/237.99,2.000,u,10,10,rem,lock,9296 9927213120759/tpi/17216,19256,15741,4011,22008,21741,23959,47557,13839,32466 9927213120779/tpi/7947,8304,9296,26947,17088,4823,6121 9927213120780/tsys1/62.9,61.8,59.7,55.2,54.3,50.3,48.1,47.7,57.6,50.9 9927213120781/tsys2/84.8,80.5,83.0,78.9,77.5,77.6,87.0 9927213120781:!272131343 9927213134301:"data stop" 9927213134301:et 9927213134311:!+3s 9927213134521;wx 9927213134523/wx/19.8,983.0,99.6,0.5 9927213134613:tape 9927213134622/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927213134622:postob 9927213134622:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927213134751:nw2c2=14 9927213134804/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213135129:!272131928 9927213135542;"wx,overcast,calm. 9927213135766;rxmon 9927213135775/rx/02(lo),on,a,on,on,on,off,locked,46.82 9927213135784/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927213135793/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927213135802/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927213135812/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927213135821/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213141322;"rxtemps 20k=29.07 70k=54.88 9927213181875#trakl#SOURCE_ACQUIRED 9927213192801:preob 9927213192901/onsource/TRACKING 9927213193137/tpical/23062,25442,21098,5183,30078,29737,33124,$$$$$,18710,44980 9927213193157/tpical/9868,10466,11842,34856,22252,6183,7576 9927213193164:!272131938 9927213193801:tape 9927213193810/tape/off,06723,norm,stopped,stop,unlock,ready,rem 9927213193810:st=rev,135 9927213193821:"data start" 9927213193821:midob 9927213193953/onsource/TRACKING 9927213193955/wx/19.9,983.0,100.0,0.0 9927213193961/cable/+1.0853963E-02 9927213194001/fmout-gps/S 1.8227E-07 9927213194007/ifd/16,19,nor,nor,rem,17060,6618 9927213194013/if3/6,in,2,2,,,present,500.10,rem,lock,40496 9927213194019/vc02/142.99,2.000,u,10,10,rem,lock,23281 9927213194025/vc06/202.89,2.000,u,10,10,rem,lock,26804 9927213194031/vc11/237.99,2.000,u,10,10,rem,lock,10216 9927213194059/tpi/21149,23281,19263,4778,27328,26804,29677,59183,17060,40496 9927213194079/tpi/8530,9001,10216,29577,18889,5309,6618 9927213194080?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927213194081/tsys1/75.3,72.9,71.6,68.3,68.5,62.3,59.9,$$$$$$$$,70.9,62.8 9927213194081/tsys2/92.2,89.2,92.1,86.7,85.9,86.1,95.3 9927213194081:!272132208 9927213220801:"data stop" 9927213220801:et 9927213220812:!+3s 9927213221114:tape 9927213221123/tape/off,05045,norm,stopped,stop,unlock,ready,rem 9927213221123:postob 9927213221123:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927213221200:nw2c2=14 9927213221253/pass/14,14,auto,0.0,0.0,0.1,-0.9,0.1,-0.9 9927213221577:!272132436 9927213235275#trakl#SOURCE_ACQUIRED 9927213243601:preob 9927213243655/onsource/TRACKING 9927213243890/tpical/21692,23948,19780,4907,28227,27899,31085,61941,17559,42125 9927213243910/tpical/9863,10419,11565,34313,21731,6052,7460 9927213243917:!272132446 9927213244601:tape 9927213244609/tape/off,05045,norm,stopped,stop,unlock,ready,rem 9927213244610:st=rev,135 9927213244620:"data start" 9927213244621:midob 9927213244751/onsource/TRACKING 9927213244753/wx/19.9,983.0,99.8,2.1 9927213244777/cable/+1.0853965E-02 9927213244802/fmout-gps/S 1.8205E-07 9927213244807/ifd/16,19,nor,nor,rem,15896,6490 9927213244813/if3/6,in,2,2,,,present,500.10,rem,lock,37650 9927213244819/vc02/142.99,2.000,u,10,10,rem,lock,21818 9927213244825/vc06/202.89,2.000,u,10,10,rem,lock,24970 9927213244831/vc11/237.99,2.000,u,10,10,rem,lock,9921 9927213244859/tpi/19784,21818,17978,4500,25466,24970,27605,55070,15896,37650 9927213244879/tpi/8497,8908,9921,28954,18382,5170,6490 9927213244880/tsys1/70.5,69.1,67.9,63.2,63.5,58.0,55.2,55.6,65.4,58.5 9927213244881/tsys2/89.9,85.5,88.3,83.6,83.9,82.8,92.1 9927213244881:!272132848 9927213284801:"data stop" 9927213284801:et 9927213284812:!+3s 9927213285114:tape 9927213285123/tape/off,02332,norm,stopped,stop,unlock,ready,rem 9927213285123:postob 9927213285123:source=1243-072,124604.2,-073046.6,2000.0,neutral 9927213285200:midtp 9927213285435/tpzero/508,721,450,814,326,621,99,315,313,149 9927213285455/tpzero/638,621,622,263,380,488,769 9927213285471/rx/02(lo),on,a,on,on,on,off,locked,47.07 9927213285480/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927213285489/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.507 9927213285499/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927213285508/rx/1E(20k),on,a,on,on,on,off,locked,28.60 9927213285517/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213285517:nw2c1=15 9927213285668/pass/15,15,auto,55.0,55.0,54.5,54.1,-0.5,-0.9 9927213285993:fastr=1m40s 9927213291625#trakl#SOURCE_ACQUIRED 9927213304021:!272133107 9927213310701:preob 9927213310801/onsource/TRACKING 9927213311036/tpical/21181,23379,19277,4798,27493,27151,30176,60233,17113,40963 9927213311056/tpical/9667,10211,11411,33758,21471,5965,7373 9927213311063:!272133117 9927213311701:tape 9927213311709/tape/low,00096,norm,stopped,stop,unlock,ready,rem 9927213311710:st=for,135 9927213311720:"data start" 9927213311720:midob 9927213311799/onsource/TRACKING 9927213311802/wx/20.0,982.8,99.8,0.0 9927213311837/cable/+1.0854793E-02 9927213311901/fmout-gps/S 1.8127E-07 9927213311907/ifd/16,19,nor,nor,rem,15440,6415 9927213311913/if3/6,in,2,2,,,present,500.10,rem,lock,36454 9927213311919/vc02/142.99,2.000,u,10,10,rem,lock,21222 9927213311925/vc06/202.89,2.000,u,10,10,rem,lock,24188 9927213311931/vc11/237.99,2.000,u,10,10,rem,lock,9774 9927213311959/tpi/19223,21222,17450,4387,24737,24188,26691,53364,15440,36454 9927213311979/tpi/8319,8743,9774,28486,18123,5097,6415 9927213311981/tsys1/66.7,66.3,64.9,60.7,61.8,55.5,53.3,53.9,63.1,56.2 9927213311981/tsys2/88.9,86.4,87.3,83.6,82.7,82.9,92.0 9927213311981:!272133749 9927213374901:"data stop" 9927213374901:et 9927213374912:!+3s 9927213375214:tape 9927213375223/tape/off,04497,norm,stopped,stop,unlock,ready,rem 9927213375223:postob 9927213375223:source=1222+037,122452.4,033050.3,2000.0,neutral 9927213375300:check2c1 9927213383244?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213383244?ERROR qg -305 AUX data differs from expected value on track 11. 9927213383244?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213383244/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213383244/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927213384670:nw2c1=15 9927213384724/pass/15,15,auto,55.0,55.0,55.4,54.1,0.4,-0.9 9927213385115:!272134002 9927213391125#trakl#SOURCE_ACQUIRED 9927213400201:preob 9927213400349/onsource/TRACKING 9927213400584/tpical/19356,21369,17569,4440,25022,24810,27470,54953,15570,37241 9927213400604/tpical/9815,10224,11470,33993,21959,6046,7409 9927213400611:!272134012 9927213401201:tape 9927213401211/tape/off,04494,norm,stopped,stop,unlock,ready,rem 9927213401211:st=for,135 9927213401222:"data start" 9927213401222:midob 9927213401250/onsource/TRACKING 9927213401252/wx/20.1,982.8,100.0,2.6 9927213401261/cable/+1.0856771E-02 9927213401301/fmout-gps/S 1.8189E-07 9927213401307/ifd/16,19,nor,nor,rem,13915,6448 9927213401313/if3/6,in,2,2,,,present,500.10,rem,lock,32763 9927213401319/vc02/142.99,2.000,u,10,10,rem,lock,19254 9927213401325/vc06/202.89,2.000,u,10,10,rem,lock,21801 9927213401331/vc11/237.99,2.000,u,10,10,rem,lock,9805 9927213401359/tpi/17419,19254,15768,4035,22270,21801,24011,48045,13915,32763 9927213401378/tpi/8439,8718,9805,28635,18586,5160,6448 9927213401380/tsys1/60.9,61.2,59.4,55.5,55.7,49.1,48.3,48.2,57.4,50.8 9927213401380/tsys2/88.5,83.9,86.1,82.7,84.3,82.3,92.2 9927213401381:!272134434 9927213443401:"data stop" 9927213443401:et 9927213443412:!+3s 9927213443714:tape 9927213443722/tape/off,07432,norm,stopped,stop,unlock,ready,rem 9927213443723:postob 9927213443723:source=1302-102,130533.0,-103319.4,2000.0,neutral 9927213443800:nw2c1=15 9927213443853/pass/15,15,auto,55.0,55.0,55.4,54.1,0.4,-0.9 9927213444178:!272134635 9927213460625#trakl#SOURCE_ACQUIRED 9927213463501:preob 9927213463601/onsource/TRACKING 9927213463836/tpical/22139,24452,20181,4994,28720,28401,31649,63004,17920,42931 9927213463856/tpical/9794,10365,12012,34381,21866,6059,7481 9927213463863:!272134645 9927213464501:tape 9927213464509/tape/off,07432,norm,stopped,stop,unlock,ready,rem 9927213464510:st=for,135 9927213464520:"data start" 9927213464520:midob 9927213464601/onsource/TRACKING 9927213464603/wx/20.3,982.8,99.6,0.0 9927213464609/cable/+1.0857558E-02 9927213464702/fmout-gps/S 1.8273E-07 9927213464707/ifd/16,19,nor,nor,rem,16261,6513 9927213464713/if3/6,in,2,2,,,present,500.10,rem,lock,38442 9927213464719/vc02/142.99,2.000,u,10,10,rem,lock,22293 9927213464725/vc06/202.89,2.000,u,10,10,rem,lock,25422 9927213464731/vc11/237.99,2.000,u,10,10,rem,lock,10235 9927213464759/tpi/20172,22293,18388,4588,25972,25422,28202,56144,16261,38442 9927213464779/tpi/8434,8864,10235,29030,18480,5183,6513 9927213464780/tsys1/69.8,69.7,69.8,64.9,65.1,58.1,56.9,56.8,67.1,59.5 9927213464781/tsys2/89.5,85.7,84.4,83.9,83.4,83.7,92.6 9927213464781:!272134823 9927213482301:"data stop" 9927213482301:et 9927213482312:!+3s 9927213482614:tape 9927213482623/tape/off,08525,norm,moving,stop,unlock,ready,rem 9927213482623:postob 9927213482623:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927213482700:midtp 9927213482935/tpzero/507,718,448,819,331,622,96,313,305,149 9927213482955/tpzero/632,626,622,272,376,489,780 9927213482971/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927213482980/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927213482989/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927213482998/rx/17(pres),on,a,on,on,on,off,locked,5.510 9927213483008/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927213483017/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927213483017:nw2c2=16 9927213483183/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927213483509:fastf=0m18s 9927213485336:!272135324 9927213491425#trakl#SOURCE_ACQUIRED 9927213532401:preob 9927213532501/onsource/TRACKING 9927213532737/tpical/22282,24539,20320,5008,28861,28562,31724,63278,18022,43087 9927213532757/tpical/9896,10477,11608,34491,21832,6072,7501 9927213532764:!272135334 9927213533401:tape 9927213533410/tape/off,08916,norm,stopped,stop,unlock,ready,rem 9927213533410:st=rev,135 9927213533421:"data start" 9927213533421:midob 9927213533551/onsource/TRACKING 9927213533553/wx/20.4,982.6,98.3,5.8 9927213533578/cable/+1.0857336E-02 9927213533602/fmout-gps/S 1.8174E-07 9927213533607/ifd/16,19,nor,nor,rem,16358,6534 9927213533613/if3/6,in,2,2,,,present,500.10,rem,lock,38581 9927213533619/vc02/142.99,2.000,u,10,10,rem,lock,22430 9927213533625/vc06/202.89,2.000,u,10,10,rem,lock,25564 9927213533631/vc11/237.99,2.000,u,10,10,rem,lock,9964 9927213533659/tpi/20316,22430,18492,4602,26112,25564,28245,56306,16358,38581 9927213533679/tpi/8510,8955,9964,29147,18480,5194,6534 9927213533681/tsys1/70.3,71.9,68.9,65.0,65.5,58.1,56.5,56.1,67.3,59.5 9927213533681/tsys2/88.7,85.4,88.7,84.3,84.3,83.7,92.9 9927213533681:!272135512 9927213551201:"data stop" 9927213551201:et 9927213551212:!+3s 9927213551514:tape 9927213551523/tape/off,07823,norm,stopped,stop,unlock,ready,rem 9927213551523:postob 9927213551523:source=0818-128,082057.4,-125859.2,2000.0,neutral 9927213551600:check2c2 9927213555543?ERROR qg -303 Track 11 parity errors exceed threshold. 9927213555543?ERROR qg -305 AUX data differs from expected value on track 11. 9927213555543?ERROR qg -304 Track 11 sync errors exceed threshold. 9927213555543/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927213555543/parity/0,0,0,0,0,318,0,0,0,0,0,0,0,0 9927213560968:nw2c2=16 9927213561021/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927213561347:!272135943 9927213583775#trakl#SOURCE_ACQUIRED 9927213594301:preob 9927213594351/onsource/TRACKING 9927213594586/tpical/19275,21210,17403,4383,24773,24516,27202,54466,15435,36860 9927213594606/tpical/9174,9633,10933,31880,20347,5688,7013 9927213594613:!272135953 9927213595301:tape 9927213595310/tape/off,07827,norm,stopped,stop,unlock,ready,rem 9927213595311:st=rev,135 9927213595321:"data start" 9927213595321:midob 9927213595450/onsource/TRACKING 9927213595452/wx/20.6,982.6,98.4,0.0 9927213595485/cable/+1.0861787E-02 9927213595501/fmout-gps/S 1.8229E-07 9927213595507/ifd/16,19,nor,nor,rem,13778,6062 9927213595513/if3/6,in,2,2,,,present,500.10,rem,lock,32389 9927213595519/vc02/142.99,2.000,u,10,10,rem,lock,19089 9927213595525/vc06/202.89,2.000,u,10,10,rem,lock,21540 9927213595531/vc11/237.99,2.000,u,10,10,rem,lock,9302 9927213595559/tpi/17315,19089,15593,3976,22013,21540,23725,47462,13778,32389 9927213595579/tpi/7847,8189,9302,26631,17039,4808,6062 9927213595580/tsys1/59.9,60.5,58.4,54.1,54.8,49.1,47.4,47.0,56.8,50.3 9927213595581/tsys2/84.9,81.8,83.1,78.4,78.6,76.6,86.7 9927213595581:!272140633 9927214024740;wx 9927214024744/wx/20.6,982.5,97.5,0.6 9927214030458;"wx,overcast,lite breeze. 9927214030667;rxmon 9927214030677/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927214030686/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927214030695/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927214030705/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927214030714/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214030723/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214031917;"rxtemps 20k=29.07 70k=54.88 9927214063301:"data stop" 9927214063301:et 9927214063312:!+3s 9927214063614:tape 9927214063623/tape/off,03336,norm,stopped,stop,unlock,ready,rem 9927214063623:postob 9927214063623:source=1145-071,114751.6,-072441.1,2000.0,neutral 9927214063700:nw2c2=16 9927214063753/pass/16,16,auto,55.0,55.0,55.8,54.5,0.8,-0.5 9927214064078:!272140915 9927214090075#trakl#SOURCE_ACQUIRED 9927214091501:preob 9927214091599/onsource/TRACKING 9927214091834/tpical/19335,21322,17548,4420,24965,24678,27160,54595,15534,37043 9927214091854/tpical/9146,9626,10982,31858,20358,5691,7023 9927214091861:!272140925 9927214092501:tape 9927214092510/tape/off,03336,norm,stopped,stop,unlock,ready,rem 9927214092511:st=rev,135 9927214092522:"data start" 9927214092522:midob 9927214092552/onsource/TRACKING 9927214092554/wx/20.6,982.6,96.0,6.5 9927214092582/cable/+1.0862025E-02 9927214092601/fmout-gps/S 1.8242E-07 9927214092607/ifd/16,19,nor,nor,rem,13896,6072 9927214092613/if3/6,in,2,2,,,present,500.10,rem,lock,32599 9927214092619/vc02/142.99,2.000,u,10,10,rem,lock,19207 9927214092625/vc06/202.89,2.000,u,10,10,rem,lock,21726 9927214092631/vc11/237.99,2.000,u,10,10,rem,lock,9345 9927214092659/tpi/17447,19207,15753,4016,22222,21726,23760,47778,13896,32599 9927214092679/tpi/7800,8169,9345,26528,17023,4815,6072 9927214092680/tsys1/62.6,61.0,59.5,55.2,55.7,49.9,48.6,48.6,57.9,51.0 9927214092681/tsys2/83.1,80.8,83.2,76.9,77.9,77.1,86.9 9927214092681:!272141253 9927214125301:"data stop" 9927214125301:et 9927214125312:!+3s 9927214125614:tape 9927214125623/tape/off,01006,norm,stopped,stop,unlock,ready,rem 9927214125623:postob 9927214125623:source=1236+077,123924.6,073017.2,2000.0,neutral 9927214125650:midtp 9927214125886/tpzero/507,708,448,819,318,619,96,315,311,149 9927214125905/tpzero/626,628,618,264,376,489,767 9927214125921/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927214125931/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927214125940/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.511 9927214125949/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927214125958/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214125968/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214125968:nw2c1=17 9927214130136/pass/17,17,auto,110.0,110.0,109.2,108.7,-0.8,-1.3 9927214130461:fastr=0m41s 9927214134589:!272141428 9927214141575#trakl#SOURCE_ACQUIRED 9927214142801:preob 9927214142853/onsource/TRACKING 9927214143089/tpical/18928,20810,17160,4332,24340,24035,26577,53176,15157,36105 9927214143108/tpical/9296,9752,10959,32022,20399,5698,7045 9927214143115:!272141438 9927214143801:tape 9927214143811/tape/off,00097,norm,stopped,stop,unlock,ready,rem 9927214143811:st=for,135 9927214143822:"data start" 9927214143822:midob 9927214143900/onsource/TRACKING 9927214143902/wx/20.7,982.6,96.5,8.4 9927214143936/cable/+1.0861743E-02 9927214144001/fmout-gps/S 1.8500E-07 9927214144007/ifd/16,19,nor,nor,rem,13506,6086 9927214144013/if3/6,in,2,2,,,present,500.10,rem,lock,31657 9927214144019/vc02/142.99,2.000,u,10,10,rem,lock,18672 9927214144025/vc06/202.89,2.000,u,10,10,rem,lock,21094 9927214144031/vc11/237.99,2.000,u,10,10,rem,lock,9314 9927214144059/tpi/16996,18672,15341,3932,21586,21094,23118,46319,13506,31657 9927214144079/tpi/7952,8278,9314,26679,17061,4823,6086 9927214144080/tsys1/59.6,58.6,57.1,54.3,53.9,48.6,46.5,46.8,55.8,49.4 9927214144081/tsys2/85.1,81.0,82.5,77.2,78.0,77.3,86.6 9927214144081:!272141616 9927214161601:"data stop" 9927214161601:et 9927214161612:!+3s 9927214161914:tape 9927214161923/tape/off,01190,norm,stopped,stop,unlock,ready,rem 9927214161923:postob 9927214161923:source=1611+343,161341.1,341247.9,2000.0,ccw 9927214161952:check2c1 9927214165906?ERROR qg -303 Track 11 parity errors exceed threshold. 9927214165906?ERROR qg -304 Track 11 sync errors exceed threshold. 9927214165906/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927214165906/parity/0,0,0,0,0,327,0,0,0,0,0,0,0,0 9927214171320:nw2c1=17 9927214171373/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927214171699:!272141951 9927214184775#trakl#SOURCE_ACQUIRED 9927214195101:preob 9927214195251/onsource/TRACKING 9927214195486/tpical/20757,22776,18739,4652,26594,26287,29195,58446,16596,39590 9927214195507/tpical/9789,10356,11376,33950,21447,5963,7402 9927214195514:!272142001 9927214200101:tape 9927214200111/tape/off,01186,norm,stopped,stop,unlock,ready,rem 9927214200111:st=for,135 9927214200122:"data start" 9927214200122:midob 9927214200200/onsource/TRACKING 9927214200202/wx/20.8,982.5,96.1,7.7 9927214200229/cable/+1.0861902E-02 9927214200301/fmout-gps/S 1.8232E-07 9927214200307/ifd/16,19,nor,nor,rem,14944,6436 9927214200313/if3/6,in,2,2,,,present,500.10,rem,lock,35124 9927214200319/vc02/142.99,2.000,u,10,10,rem,lock,20671 9927214200324/vc06/202.89,2.000,u,10,10,rem,lock,23326 9927214200330/vc11/237.99,2.000,u,10,10,rem,lock,9760 9927214200358/tpi/18811,20671,16927,4257,23814,23326,25714,51450,14944,35124 9927214200378/tpi/8424,8845,9760,28607,18048,5077,6436 9927214200380/tsys1/65.7,66.2,63.5,60.8,59.0,53.5,51.4,51.0,61.8,54.7 9927214200380/tsys2/89.2,84.9,88.3,82.8,81.2,80.8,91.6 9927214200380:!272142139 9927214213901:"data stop" 9927214213901:et 9927214213912:!+3s 9927214214214:tape 9927214214223/tape/off,02278,norm,stopped,stop,unlock,ready,rem 9927214214223:postob 9927214214223:source=1004+141,100741.5,135629.6,2000.0,neutral 9927214214250:nw2c1=17 9927214214303/pass/17,17,auto,110.0,110.0,110.2,108.7,0.2,-1.3 9927214214630:!272142815 9927214254674#trakl#SOURCE_ACQUIRED 9927214281501:preob 9927214281651/onsource/TRACKING 9927214281887/tpical/18710,20792,17051,4325,24124,24035,26584,52939,15057,35836 9927214281907/tpical/9040,9462,10693,31336,19909,5584,6906 9927214281914:!272142825 9927214282501:tape 9927214282510/tape/off,02278,norm,stopped,stop,unlock,ready,rem 9927214282510:st=for,135 9927214282521:"data start" 9927214282521:midob 9927214282553/onsource/TRACKING 9927214282555/wx/20.8,982.3,94.7,7.5 9927214282594/cable/+1.0865714E-02 9927214282601/fmout-gps/S 1.8162E-07 9927214282607/ifd/16,19,nor,nor,rem,13374,5959 9927214282613/if3/6,in,2,2,,,present,500.10,rem,lock,31306 9927214282619/vc02/142.99,2.000,u,10,10,rem,lock,18614 9927214282625/vc06/202.89,2.000,u,10,10,rem,lock,21003 9927214282631/vc11/237.99,2.000,u,10,10,rem,lock,9076 9927214282659/tpi/16758,18614,15211,3911,21282,21003,23014,45918,13374,31306 9927214282679/tpi/7722,8032,9076,26088,16618,4717,5959 9927214282681/tsys1/58.1,57.4,56.0,52.1,51.5,46.9,44.8,45.3,54.2,48.0 9927214282681/tsys2/84.0,80.8,81.7,76.8,77.0,76.1,85.6 9927214282681:!272143315 9927214331501:"data stop" 9927214331501:et 9927214331512:!+3s 9927214331814:tape 9927214331823/tape/off,05531,norm,stopped,stop,unlock,ready,rem 9927214331823:postob 9927214331823:source=0642+449,064632.0,445116.6,2000.0,neutral 9927214331952:nw2c1=17 9927214332005/pass/17,17,auto,110.0,110.0,109.2,108.7,-0.8,-1.3 9927214332332:!272143824 9927214373075#trakl#SOURCE_ACQUIRED 9927214382401:preob 9927214382453/onsource/TRACKING 9927214382688/tpical/18833,21068,17246,4369,24319,24167,26701,53017,15217,36061 9927214382708/tpical/9201,9711,10764,31762,20152,5628,6992 9927214382715:!272143834 9927214383401:tape 9927214383411/tape/off,05531,norm,stopped,stop,unlock,ready,rem 9927214383411:st=for,135 9927214383422:"data start" 9927214383422:midob 9927214383550/onsource/TRACKING 9927214383552/wx/20.8,982.3,94.9,9.0 9927214383577/cable/+1.0865221E-02 9927214383601/fmout-gps/S 1.8219E-07 9927214383607/ifd/16,19,nor,nor,rem,13562,6040 9927214383613/if3/6,in,2,2,,,present,500.10,rem,lock,31621 9927214383619/vc02/142.99,2.000,u,10,10,rem,lock,18899 9927214383625/vc06/202.89,2.000,u,10,10,rem,lock,21197 9927214383631/vc11/237.99,2.000,u,10,10,rem,lock,9154 9927214383659/tpi/16936,18899,15409,3961,21549,21197,23206,46174,13562,31621 9927214383678/tpi/7883,8230,9154,26488,16837,4752,6040 9927214383680/tsys1/60.5,58.5,56.8,53.8,53.5,48.4,46.2,46.8,55.9,49.5 9927214383680/tsys2/85.9,80.1,82.8,77.6,77.5,76.0,86.5 9927214383681:!272144012 9927214401201:"data stop" 9927214401201:et 9927214401212:!+3s 9927214401514:tape 9927214401523/tape/off,06624,norm,stopped,stop,unlock,ready,rem 9927214401523:postob 9927214401523:source=m81,095533.1,690354.8,2000.0,neutral 9927214401600:midtp 9927214401835/tpzero/499,709,450,817,332,619,95,317,307,149 9927214401855/tpzero/629,625,623,270,376,493,767 9927214401871/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927214401881/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927214401890/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927214401899/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927214401908/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927214401918/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927214401918:nw2c2=18 9927214402083/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927214402409:fastf=1m42s 9927214420637:!272144457 9927214430025#trakl#SOURCE_ACQUIRED 9927214445701:preob 9927214445799/onsource/TRACKING 9927214450034/tpical/18889,21166,17392,4408,24436,24361,26813,53268,15311,36224 9927214450054/tpical/9313,9792,10883,32220,20338,5687,7060 9927214450061:!272144507 9927214450701:tape 9927214450710/tape/off,08905,norm,stopped,stop,unlock,ready,rem 9927214450711:st=rev,135 9927214450722:"data start" 9927214450722:midob 9927214450800/onsource/TRACKING 9927214450802/wx/20.9,982.3,93.8,8.4 9927214450817/cable/+1.0864862E-02 9927214450901/fmout-gps/S 1.8189E-07 9927214450907/ifd/16,19,nor,nor,rem,13684,6099 9927214450913/if3/6,in,2,2,,,present,500.10,rem,lock,31847 9927214450919/vc02/142.99,2.000,u,10,10,rem,lock,19086 9927214450925/vc06/202.89,2.000,u,10,10,rem,lock,21421 9927214450931/vc11/237.99,2.000,u,10,10,rem,lock,9253 9927214450959/tpi/17053,19086,15572,3998,21690,21421,23385,46489,13684,31847 9927214450979/tpi/7957,8323,9253,26910,17035,4804,6099 9927214450981/tsys1/62.9,61.7,58.0,54.2,54.3,49.4,47.4,47.5,57.4,50.5 9927214450981/tsys2/84.4,81.8,82.6,78.3,78.7,76.2,86.6 9927214450981:!272145147 9927214514701:"data stop" 9927214514701:et 9927214514712:!+3s 9927214515014:tape 9927214515023/tape/off,04414,norm,stopped,stop,unlock,ready,rem 9927214515023:postob 9927214515023:source=1014+615,101725.9,611627.5,2000.0,neutral 9927214515152:check2c2 9927214523102?ERROR qg -303 Track 11 parity errors exceed threshold. 9927214523102?ERROR qg -305 AUX data differs from expected value on track 11. 9927214523102?ERROR qg -304 Track 11 sync errors exceed threshold. 9927214523102/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927214523102/parity/0,0,0,0,0,343,0,0,0,0,0,0,0,0 9927214524521:nw2c2=18 9927214524574/pass/18,18,auto,110.0,110.0,110.6,110.0,0.6,-0.0 9927214524625#trakl#SOURCE_ACQUIRED 9927214524900:!272145400 9927214540001:preob 9927214540101/onsource/TRACKING 9927214540336/tpical/19102,21430,17653,4466,24760,24665,27161,53918,15541,36731 9927214540356/tpical/9452,9923,10994,32679,20585,5741,7138 9927214540363:!272145410 9927214541001:tape 9927214541011/tape/off,04418,norm,stopped,stop,unlock,ready,rem 9927214541011:st=rev,135 9927214541022:"data start" 9927214541022:midob 9927214541100/onsource/TRACKING 9927214541102/wx/20.9,982.2,93.4,6.4 9927214541141/cable/+1.0865621E-02 9927214541201/fmout-gps/S 1.8236E-07 9927214541207/ifd/16,19,nor,nor,rem,13904,6182 9927214541213/if3/6,in,2,2,,,present,500.10,rem,lock,32317 9927214541219/vc02/142.99,2.000,u,10,10,rem,lock,19366 9927214541232/vc06/202.89,2.000,u,10,10,rem,lock,21713 9927214541238/vc11/237.99,2.000,u,10,10,rem,lock,9370 9927214541294/tpi/17257,19366,15841,4061,22012,21713,23791,47105,13904,32317 9927214541352/tpi/8080,8427,9366,27352,17247,4868,6181 9927214541354/tsys1/63.4,63.1,59.3,55.9,55.1,49.9,49.1,47.9,58.0,50.9 9927214541354/tsys2/84.8,81.4,83.8,79.4,78.9,78.2,88.3 9927214541354:!272145548 9927214554801:"data stop" 9927214554801:et 9927214554812:!+3s 9927214555114:tape 9927214555123/tape/off,03325,norm,stopped,stop,unlock,ready,rem 9927214555123:postob 9927214555123:source=1104+728,110741.7,723236.0,2000.0,neutral 9927214555200:nw2c2=18 9927214555253/pass/18,18,auto,110.0,110.0,110.6,110.9,0.6,0.9 9927214555579:!272145854 9927214564525#trakl#SOURCE_ACQUIRED 9927214585401:preob 9927214585499/onsource/TRACKING 9927214585734/tpical/18885,21170,17416,4419,24521,24454,26896,53465,15354,36398 9927214585754/tpical/9335,9821,10836,32230,20322,5671,7057 9927214585761:!272145904 9927214590401:tape 9927214590410/tape/off,03325,norm,stopped,stop,unlock,ready,rem 9927214590410:st=rev,135 9927214590421:"data start" 9927214590421:midob 9927214590500/onsource/TRACKING 9927214590502/wx/20.8,982.1,94.4,8.1 9927214590517/cable/+1.0865550E-02 9927214590601/fmout-gps/S 1.8217E-07 9927214590607/ifd/16,19,nor,nor,rem,13686,6084 9927214590613/if3/6,in,2,2,,,present,500.10,rem,lock,31869 9927214590619/vc02/142.99,2.000,u,10,10,rem,lock,19020 9927214590625/vc06/202.89,2.000,u,10,10,rem,lock,21427 9927214590631/vc11/237.99,2.000,u,10,10,rem,lock,9180 9927214590659/tpi/16960,19020,15578,4006,21725,21427,23381,46540,13686,31869 9927214590678/tpi/7990,8315,9180,26873,16937,4785,6084 9927214590680/tsys1/59.7,59.4,57.5,53.9,53.4,48.0,46.2,46.6,56.0,48.9 9927214590680/tsys2/85.4,79.7,80.7,77.5,76.4,75.6,85.3 9927214590681:!272150349 9927215034901:"data stop" 9927215034901:et 9927215034912:!+3s 9927215035214:tape 9927215035223/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927215035223:postob 9927215035223:source=0059+581,010245.8,582411.1,2000.0,neutral 9927215035250:midtp 9927215035485/tpzero/502,706,446,820,339,620,93,316,314,149 9927215035505/tpzero/629,624,620,266,376,487,766 9927215035521/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927215035530/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927215035540/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927215035549/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927215035558/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927215035567/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927215035568:nw2c1=19 9927215035718/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215040043:!272150841 9927215062774#trakl#SOURCE_ACQUIRED 9927215084101:preob 9927215084199/onsource/TRACKING 9927215084435/tpical/21571,24021,19690,4883,27984,27640,30670,60971,17475,41640 9927215084455/tpical/9518,10069,11132,33045,20894,5826,7281 9927215084461:!272150851 9927215085101:tape 9927215085109/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927215085110:st=for,135 9927215085120:"data start" 9927215085121:midob 9927215085153/onsource/TRACKING 9927215085155/wx/21.0,981.8,93.9,0.0 9927215085161/cable/+1.0864041E-02 9927215085202/fmout-gps/S 1.8221E-07 9927215085207/ifd/16,19,nor,nor,rem,15782,6263 9927215085213/if3/6,in,2,2,,,present,500.10,rem,lock,37108 9927215085219/vc02/142.99,2.000,u,10,10,rem,lock,21837 9927215085225/vc06/202.89,2.000,u,10,10,rem,lock,24623 9927215085231/vc11/237.99,2.000,u,10,10,rem,lock,9500 9927215085259/tpi/19632,21837,17842,4466,25202,24623,27157,54073,15782,37108 9927215085279/tpi/8157,8570,9500,27758,17594,4951,6263 9927215085280/tsys1/68.9,67.5,65.7,61.0,62.4,55.5,53.8,54.4,63.8,56.9 9927215085281/tsys2/86.3,82.7,84.9,81.2,81.4,79.6,84.3 9927215085281:!272151029 9927215102901:"data stop" 9927215102901:et 9927215102912:!+3s 9927215103214:tape 9927215103223/tape/off,01221,norm,stopped,stop,unlock,ready,rem 9927215103223:postob 9927215103223:source=0552+398,055530.8,394849.2,2000.0,neutral 9927215103254:check2c1 9927215111205?ERROR qg -303 Track 11 parity errors exceed threshold. 9927215111205?ERROR qg -305 AUX data differs from expected value on track 11. 9927215111205?ERROR qg -304 Track 11 sync errors exceed threshold. 9927215111205/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927215111205/parity/0,0,0,0,0,384,0,0,0,0,0,0,0,0 9927215112623:nw2c1=19 9927215112677/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215113006:!272151259 9927215124474#trakl#SOURCE_ACQUIRED 9927215125901:preob 9927215125953/onsource/TRACKING 9927215130188/tpical/19499,21785,17798,4458,25040,24826,27505,54801,15705,37168 9927215130208/tpical/9303,9827,10893,32201,20443,5703,7072 9927215130215:!272151309 9927215130901:tape 9927215130910/tape/off,01217,norm,stopped,stop,unlock,ready,rem 9927215130910:st=for,135 9927215130921:"data start" 9927215130921:midob 9927215130951/onsource/TRACKING 9927215130953/wx/21.0,981.8,92.6,4.0 9927215130973/cable/+1.0866561E-02 9927215131001/fmout-gps/S 1.8104E-07 9927215131007/ifd/16,19,nor,nor,rem,14089,6122 9927215131013/if3/6,in,2,2,,,present,500.10,rem,lock,32802 9927215131019/vc02/142.99,2.000,u,10,10,rem,lock,19649 9927215131025/vc06/202.89,2.000,u,10,10,rem,lock,21944 9927215131031/vc11/237.99,2.000,u,10,10,rem,lock,9261 9927215131059/tpi/17589,19649,16027,4065,22349,21944,24102,48078,14089,32802 9927215131079/tpi/7972,8343,9261,26859,17112,4839,6122 9927215131080/tsys1/62.4,61.9,61.4,57.6,57.1,51.6,49.2,49.6,59.5,52.2 9927215131081/tsys2/86.1,81.2,82.7,77.7,78.4,78.6,88.0 9927215131081:!272151447 9927215144701:"data stop" 9927215144701:et 9927215144711:!+3s 9927215145013:tape 9927215145021/tape/off,02310,norm,stopped,stop,unlock,ready,rem 9927215145022:postob 9927215145022:source=0727-115,073019.1,-114112.6,2000.0,neutral 9927215145050:nw2c1=19 9927215145103/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215145456:!272151729 9927215171825#trakl#SOURCE_ACQUIRED 9927215172901:preob 9927215173001/onsource/TRACKING 9927215173236/tpical/22515,24958,20535,5065,29139,28973,32227,63886,18278,43589 9927215173256/tpical/9484,9982,11614,33002,20988,5863,8140 9927215173263:!272151739 9927215173901:tape 9927215173910/tape/off,02310,norm,stopped,stop,unlock,ready,rem 9927215173910:st=for,135 9927215173921:"data start" 9927215173921:midob 9927215173999/onsource/TRACKING 9927215174001/wx/21.0,981.7,92.3,5.6 9927215174008/cable/+1.0865134E-02 9927215174100/fmout-gps/S 1.8145E-07 9927215174106/ifd/16,19,nor,nor,rem,16614,6919 9927215174112/if3/6,in,2,2,,,present,500.10,rem,lock,39108 9927215174118/vc02/142.99,2.000,u,10,10,rem,lock,22826 9927215174124/vc06/202.89,2.000,u,10,10,rem,lock,26022 9927215174130/vc11/237.99,2.000,u,10,10,rem,lock,9882 9927215174158/tpi/20598,22826,18710,4654,26379,26022,28760,56871,16614,39108 9927215174178/tpi/8142,8544,9882,27794,17682,4991,6919 9927215174180/tsys1/73.2,72.4,69.9,65.1,65.9,60.1,57.7,56.3,68.4,60.7 9927215174180/tsys2/87.4,86.0,83.5,82.5,81.7,80.6,78.7 9927215174180:!272151917 9927215191701:"data stop" 9927215191701:et 9927215191712:!+3s 9927215192014:tape 9927215192023/tape/off,03403,norm,stopped,stop,unlock,ready,rem 9927215192023:postob 9927215192023:source=0528+134,053056.4,133155.2,2000.0,neutral 9927215192151:nw2c1=19 9927215192204/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215192528:!272152111 9927215210325#trakl#SOURCE_ACQUIRED 9927215211101:preob 9927215211201/onsource/TRACKING 9927215211436/tpical/25812,28670,23639,5754,33658,33575,37424,$$$$$,21117,50689 9927215211456/tpical/9512,10182,11375,33297,21304,5950,7283 9927215211463:!272152121 9927215212101:tape 9927215212109/tape/off,03403,norm,stopped,stop,unlock,ready,rem 9927215212110:st=for,135 9927215212120:"data start" 9927215212121:midob 9927215212153/onsource/TRACKING 9927215212155/wx/21.0,981.8,91.9,14.4 9927215212185/cable/+1.0864348E-02 9927215212202/fmout-gps/S 1.8154E-07 9927215212207/ifd/16,19,nor,nor,rem,19343,6340 9927215212213/if3/6,in,2,2,,,present,500.10,rem,lock,45956 9927215212219/vc02/142.99,2.000,u,10,10,rem,lock,26346 9927215212225/vc06/202.89,2.000,u,10,10,rem,lock,30488 9927215212231/vc11/237.99,2.000,u,10,10,rem,lock,9740 9927215212259/tpi/23792,26346,21754,5326,30773,30488,33790,$$$$$,19343,45956 9927215212279/tpi/8195,8704,9740,28101,18003,5073,6340 9927215212281?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927215212281/tsys1/80.5,77.0,78.9,73.5,73.6,67.5,64.7,$$$$$$$$,74.9,67.6 9927215212281/tsys2/89.7,85.3,87.1,83.6,83.4,81.6,92.3 9927215212281:!272152259 9927215225901:"data stop" 9927215225901:et 9927215225912:!+3s 9927215230214:tape 9927215230223/tape/off,04496,norm,stopped,stop,unlock,ready,rem 9927215230223:postob 9927215230223:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927215230254:nw2c1=19 9927215230307/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215230633:!272152650 9927215263325#trakl#SOURCE_ACQUIRED 9927215265001:preob 9927215265151/onsource/TRACKING 9927215265386/tpical/29572,32879,27497,6567,39117,38950,43608,$$$$$,24508,59344 9927215265406/tpical/9646,10177,11470,33762,21508,5988,7363 9927215265413:!272152700 9927215270001:tape 9927215270010/tape/off,04496,norm,stopped,stop,unlock,ready,rem 9927215270010:st=for,135 9927215270021:"data start" 9927215270021:midob 9927215270053/onsource/TRACKING 9927215270055/wx/21.0,981.7,92.3,5.2 9927215270060/cable/+1.0863334E-02 9927215270101/fmout-gps/S 1.8234E-07 9927215270107/ifd/16,19,nor,nor,rem,22699,6421 9927215270113/if3/6,in,2,2,,,present,500.10,rem,lock,54480 9927215270119/vc02/142.99,2.000,u,10,10,rem,lock,30548 9927215270124/vc06/202.89,2.000,u,10,10,rem,lock,35799 9927215270130/vc11/237.99,2.000,u,10,10,rem,lock,9850 9927215270158/tpi/27463,30548,25558,6136,36213,35799,39928,$$$$$,22699,54480 9927215270178/tpi/8313,8726,9850,28611,18234,5131,6421 9927215270180?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927215270180/tsys1/89.2,89.4,90.4,86.1,86.2,77.9,75.6,$$$$$$$$,86.4,78.0 9927215270180/tsys2/90.0,87.2,88.9,85.9,85.1,84.6,93.7 9927215270181:!272152838 9927215283801:"data stop" 9927215283801:et 9927215283812:!+3s 9927215284114:tape 9927215284123/tape/off,05589,norm,stopped,stop,unlock,ready,rem 9927215284123:postob 9927215284123:source=1308+326,131028.7,322043.8,2000.0,neutral 9927215284251:nw2c1=19 9927215284304/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215284628:!272153344 9927215330474#trakl#SOURCE_ACQUIRED 9927215334401:preob 9927215334551/onsource/TRACKING 9927215334786/tpical/19470,21765,17855,4501,25230,25065,27695,55020,15775,37406 9927215334806/tpical/9351,9782,10829,32016,20257,5662,7031 9927215334813:!272153354 9927215335402:tape 9927215335411/tape/off,05589,norm,stopped,stop,unlock,ready,rem 9927215335412:st=for,135 9927215335422:"data start" 9927215335422:midob 9927215335451/onsource/TRACKING 9927215335453/wx/20.8,981.6,91.4,11.4 9927215335461/cable/+1.0863591E-02 9927215335501/fmout-gps/S 1.8156E-07 9927215335507/ifd/16,19,nor,nor,rem,14166,6079 9927215335513/if3/6,in,2,2,,,present,500.10,rem,lock,33065 9927215335519/vc02/142.99,2.000,u,10,10,rem,lock,19693 9927215335525/vc06/202.89,2.000,u,10,10,rem,lock,22182 9927215335531/vc11/237.99,2.000,u,10,10,rem,lock,9216 9927215335559/tpi/17623,19693,16095,4099,22509,22182,24277,48346,14166,33065 9927215335579/tpi/7980,8309,9216,26741,16928,4793,6079 9927215335580/tsys1/64.7,64.0,62.1,56.9,56.9,52.2,49.4,50.2,60.1,52.9 9927215335581/tsys2/83.7,81.4,83.2,78.3,77.6,77.3,87.1 9927215335581:!272153532 9927215353201:"data stop" 9927215353201:et 9927215353212:!+3s 9927215353514:tape 9927215353522/tape/off,06681,norm,stopped,stop,unlock,ready,rem 9927215353523:postob 9927215353523:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927215353601:nw2c1=19 9927215353654/pass/19,19,auto,165.0,165.0,164.0,165.9,-1.0,0.9 9927215353978:!272153906 9927215374475#trakl#SOURCE_ACQUIRED 9927215390601:preob 9927215390699/onsource/TRACKING 9927215390934/tpical/21250,23831,19648,4849,27813,27550,30662,60910,17345,41386 9927215390954/tpical/9410,9855,10963,32409,20508,5727,7077 9927215390961:!272153916 9927215391601:tape 9927215391611/tape/off,06681,norm,stopped,stop,unlock,ready,rem 9927215391611:st=for,135 9927215391622:"data start" 9927215391622:midob 9927215391652/onsource/TRACKING 9927215391654/wx/20.7,981.5,92.4,10.5 9927215391680/cable/+1.0862038E-02 9927215391701/fmout-gps/S 1.8111E-07 9927215391707/ifd/16,19,nor,nor,rem,15739,6145 9927215391713/if3/6,in,2,2,,,present,500.10,rem,lock,37074 9927215391719/vc02/142.99,2.000,u,10,10,rem,lock,21736 9927215391725/vc06/202.89,2.000,u,10,10,rem,lock,24731 9927215391731/vc11/237.99,2.000,u,10,10,rem,lock,9374 9927215391759/tpi/19419,21736,17916,4458,25179,24731,27338,54321,15739,37074 9927215391778/tpi/8069,8409,9374,27164,17260,4864,6145 9927215391780/tsys1/72.1,70.1,70.4,64.9,65.8,59.7,57.2,57.2,67.0,59.8 9927215391780/tsys2/86.6,84.0,86.0,80.1,81.1,79.2,90.1 9927215391781:!272154054 9927215405401:"data stop" 9927215405401:et 9927215405412:!+3s 9927215405714:tape 9927215405723/tape/off,07774,norm,stopped,stop,unlock,ready,rem 9927215405723:postob 9927215405723:source=1219+044,122222.5,041315.8,2000.0,neutral 9927215405752:midtp 9927215405987/tpzero/502,709,451,814,333,619,96,317,302,149 9927215410007/tpzero/634,624,619,265,374,485,759 9927215410023/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927215410033/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927215410042/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927215410051/rx/17(pres),on,a,on,on,on,off,locked,2.166 9927215410060/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927215410069/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927215410070:nw2c2=20 9927215410218/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215410543:fastf=0m52s 9927215415771:!272154508 9927215423575#trakl#SOURCE_ACQUIRED 9927215450801:preob 9927215450899/onsource/TRACKING 9927215451134/tpical/19825,22221,18231,4563,25901,25699,28475,56707,16109,38460 9927215451154/tpical/9263,9631,10808,31851,20201,5628,6982 9927215451161:!272154518 9927215451801:tape 9927215451810/tape/off,08930,norm,stopped,stop,unlock,ready,rem 9927215451810:st=rev,135 9927215451821:"data start" 9927215451821:midob 9927215451852/onsource/TRACKING 9927215451854/wx/20.7,981.5,92.7,7.6 9927215451861/cable/+1.0862549E-02 9927215451901/fmout-gps/S 1.8174E-07 9927215451907/ifd/16,19,nor,nor,rem,14472,6033 9927215451913/if3/6,in,2,2,,,present,500.10,rem,lock,34022 9927215451919/vc02/142.99,2.000,u,10,10,rem,lock,20061 9927215451925/vc06/202.89,2.000,u,10,10,rem,lock,22740 9927215451931/vc11/237.99,2.000,u,10,10,rem,lock,9174 9927215451959/tpi/17965,20061,16431,4158,23151,22740,24986,49831,14472,34022 9927215451979/tpi/7914,8174,9174,26587,16888,4763,6033 9927215451981/tsys1/65.5,62.5,62.0,57.6,57.9,52.2,49.8,50.3,60.4,53.3 9927215451981/tsys2/84.2,80.9,81.7,78.1,77.8,77.2,86.8 9927215451981:!272154726 9927215472601:"data stop" 9927215472601:et 9927215472612:!+3s 9927215472914:tape 9927215472923/tape/off,07500,norm,stopped,stop,unlock,ready,rem 9927215472923:postob 9927215472923:source=0718+793,072611.7,791131.0,2000.0,neutral 9927215472951:check2c2 9927215480950?ERROR qg -303 Track 11 parity errors exceed threshold. 9927215480950?ERROR qg -305 AUX data differs from expected value on track 11. 9927215480950?ERROR qg -304 Track 11 sync errors exceed threshold. 9927215480950/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927215480951/parity/0,0,0,0,0,367,0,0,0,0,0,0,0,0 9927215482319:nw2c2=20 9927215482372/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215482695:!272155532 9927215542974#trakl#SOURCE_ACQUIRED 9927215553201:preob 9927215553251/onsource/TRACKING 9927215553487/tpical/19321,21653,17788,4465,25107,24874,27503,54672,15671,37178 9927215553506/tpical/9197,9722,10744,31559,19976,5597,6961 9927215553513:!272155542 9927215554201:tape 9927215554210/tape/off,07504,norm,stopped,stop,unlock,ready,rem 9927215554211:st=rev,135 9927215554221:"data start" 9927215554221:midob 9927215554252/onsource/TRACKING 9927215554254/wx/20.5,981.4,94.4,2.5 9927215554285/cable/+1.0862025E-02 9927215554301/fmout-gps/S 1.8230E-07 9927215554307/ifd/16,19,nor,nor,rem,14077,6003 9927215554313/if3/6,in,2,2,,,present,500.10,rem,lock,32858 9927215554319/vc02/142.99,2.000,u,10,10,rem,lock,19624 9927215554324/vc06/202.89,2.000,u,10,10,rem,lock,21992 9927215554330/vc11/237.99,2.000,u,10,10,rem,lock,9120 9927215554358/tpi/17477,19624,16050,4073,22422,21992,24098,47965,14077,32858 9927215554378/tpi/7854,8233,9120,26295,16677,4726,6003 9927215554380/tsys1/64.3,65.1,62.6,58.0,57.4,51.8,49.2,49.6,60.3,52.8 9927215554380/tsys2/83.9,79.8,81.7,77.2,77.1,76.0,85.4 9927215554380:!272155720 9927215572001:"data stop" 9927215572001:et 9927215572012:!+3s 9927215572314:tape 9927215572323/tape/off,06411,norm,stopped,stop,unlock,ready,rem 9927215572323:postob 9927215572323:source=1611+343,161341.1,341247.9,2000.0,cw 9927215572350:nw2c2=20 9927215572403/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927215572730:!272160123 9927216004225#trakl#SOURCE_ACQUIRED 9927216012301:preob 9927216012353/onsource/TRACKING 9927216012588/tpical/22660,25395,20986,5128,29485,29245,32542,64525,18488,44005 9927216012608/tpical/9538,10047,11058,32905,20721,5782,7198 9927216012615:!272160133 9927216013301:tape 9927216013310/tape/off,06411,norm,stopped,stop,unlock,ready,rem 9927216013311:st=rev,135 9927216013321:"data start" 9927216013321:midob 9927216013400/onsource/TRACKING 9927216013402/wx/20.4,981.6,95.4,9.6 9927216013421/cable/+1.0859329E-02 9927216013501/fmout-gps/S 1.8215E-07 9927216013507/ifd/16,19,nor,nor,rem,17181,6244 9927216013513/if3/6,in,2,2,,,present,500.10,rem,lock,40444 9927216013519/vc02/142.99,2.000,u,10,10,rem,lock,23654 9927216013525/vc06/202.89,2.000,u,10,10,rem,lock,26919 9927216013531/vc11/237.99,2.000,u,10,10,rem,lock,9440 9927216013559/tpi/21105,23654,19527,4807,27387,26919,29727,59101,17181,40444 9927216013579/tpi/8189,8558,9440,27564,17439,4908,6244 9927216013581/tsys1/92.5,92.0,91.3,86.8,90.0,78.9,73.5,75.6,90.1,79.0 9927216013581/tsys2/87.4,83.2,85.1,79.8,81.2,79.0,89.7 9927216013581:!272160311 9927216023895;op=j. lafrance 9927216031101:"data stop" 9927216031101:et 9927216031111:!+3s 9927216031414:tape 9927216031423/tape/off,05318,norm,stopped,stop,unlock,ready,rem 9927216031423:postob 9927216031423:source=3c418,203837.0,511912.7,2000.0,neutral 9927216031550:nw2c2=20 9927216031603/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927216031929:!272160540 9927216051974#trakl#SOURCE_ACQUIRED 9927216054001:preob 9927216054099/onsource/TRACKING 9927216054334/tpical/32632,36373,30680,7333,43900,43763,49126,$$$$$,27405,65535 9927216054354/tpical/10098,10693,11767,35154,22173,6164,7621 9927216054361:!272160550 9927216055001:tape 9927216055010/tape/off,05318,norm,moving,stop,unlock,ready,rem 9927216055011:st=rev,135 9927216055021:"data start" 9927216055021:midob 9927216055150/onsource/TRACKING 9927216055152/wx/20.2,981.6,96.1,11.4 9927216055160/cable/+1.0858694E-02 9927216055200/fmout-gps/S 1.8094E-07 9927216055206/ifd/16,19,nor,nor,rem,26301,6670 9927216055212/if3/6,in,2,2,,,present,500.10,rem,lock,64048 9927216055218/vc02/142.99,2.000,u,10,10,rem,lock,34954 9927216055224/vc06/202.89,2.000,u,10,10,rem,lock,41875 9927216055230/vc11/237.99,2.000,u,10,10,rem,lock,10166 9927216055258/tpi/31392,34954,29566,7053,42157,41875,46788,$$$$$,26301,64048 9927216055278/tpi/8728,9213,10166,29899,18906,5301,6670 9927216055279?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216055279?ERROR qk -211 Tsys value for device i3 overflowed or were less than zero. 9927216055279/tsys1/173.9,168.4,182.4,155.5,167.5,152.5,139.4,$$$$$$$$,164.4,$$$$$$$$ 9927216055280/tsys2/92.2,90.6,93.1,88.0,88.5,87.1,97.0 9927216055280:!272160728 9927216072801:"data stop" 9927216072801:et 9927216072811:!+3s 9927216073114:tape 9927216073123/tape/off,04225,norm,stopped,stop,unlock,ready,rem 9927216073123:postob 9927216073123:source=3c371,180650.7,694928.1,2000.0,neutral 9927216073200:nw2c2=20 9927216073253/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927216073629:!272161024 9927216100475#trakl#SOURCE_ACQUIRED 9927216102401:preob 9927216102453/onsource/TRACKING 9927216102688/tpical/20207,22552,18718,4690,26680,26452,29394,58541,16526,39698 9927216102708/tpical/9410,9902,10837,32088,20266,5656,7048 9927216102715:!272161034 9927216103401:tape 9927216103410/tape/off,04225,norm,stopped,stop,unlock,ready,rem 9927216103410:st=rev,135 9927216103421:"data start" 9927216103421:midob 9927216103452/onsource/TRACKING 9927216103454/wx/20.0,981.6,97.9,6.8 9927216103492/cable/+1.0858942E-02 9927216103500/fmout-gps/S 1.8082E-07 9927216103506/ifd/16,19,nor,nor,rem,14977,6091 9927216103512/if3/6,in,2,2,,,present,500.10,rem,lock,35475 9927216103518/vc02/142.99,2.000,u,10,10,rem,lock,20591 9927216103524/vc06/202.89,2.000,u,10,10,rem,lock,23655 9927216103530/vc11/237.99,2.000,u,10,10,rem,lock,9201 9927216103558/tpi/18418,20591,17020,4312,24116,23655,26134,51975,14977,35475 9927216103578/tpi/8057,8407,9201,26829,16944,4786,6091 9927216103579/tsys1/69.9,70.8,68.1,64.6,64.7,57.5,55.8,54.9,66.1,58.4 9927216103580/tsys2/85.6,81.3,81.9,78.8,77.9,77.2,87.0 9927216103580:!272161212 9927216121201:"data stop" 9927216121201:et 9927216121211:!+3s 9927216121513:tape 9927216121522/tape/off,03132,norm,stopped,stop,unlock,ready,rem 9927216121522:postob 9927216121522:source=0014+813,001708.5,813508.1,2000.0,neutral 9927216121599:nw2c2=20 9927216121652/pass/20,20,auto,165.0,165.0,166.3,165.5,1.3,0.5 9927216121977:!272161344 9927216133425#trakl#SOURCE_ACQUIRED 9927216134401:preob 9927216134453/onsource/TRACKING 9927216134688/tpical/22865,25557,21306,5244,30302,30113,33674,$$$$$,18841,45397 9927216134708/tpical/9497,9945,10899,32314,20375,5690,7070 9927216134715:!272161354 9927216135402:tape 9927216135411/tape/off,03132,norm,stopped,stop,unlock,ready,rem 9927216135411:st=rev,135 9927216135422:"data start" 9927216135422:midob 9927216135451/onsource/TRACKING 9927216135453/wx/19.9,981.4,98.3,3.8 9927216135473/cable/+1.0859786E-02 9927216135501/fmout-gps/S 1.8211E-07 9927216135507/ifd/16,19,nor,nor,rem,16582,6107 9927216135513/if3/6,in,2,2,,,present,500.10,rem,lock,39443 9927216135519/vc02/142.99,2.000,u,10,10,rem,lock,22684 9927216135525/vc06/202.89,2.000,u,10,10,rem,lock,26245 9927216135531/vc11/237.99,2.000,u,10,10,rem,lock,9252 9927216135559/tpi/20226,22684,18871,4688,26619,26245,29092,57855,16582,39443 9927216135579/tpi/8115,8427,9252,26966,17025,4816,6107 9927216135581?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216135581/tsys1/52.2,53.4,52.8,48.6,49.8,46.2,44.2,$$$$$$$$,50.3,46.1 9927216135581/tsys2/84.5,80.2,81.8,77.9,77.6,77.4,86.7 9927216135581:!272161532 9927216153201:"data stop" 9927216153201:et 9927216153211:!+3s 9927216153513:tape 9927216153522/tape/off,02040,norm,stopped,stop,unlock,ready,rem 9927216153522:postob 9927216153522:source=1726+455,172727.7,453039.7,2000.0,cw 9927216153551:nw2c2=20 9927216153604/pass/20,20,auto,165.0,165.0,166.3,164.6,1.3,-0.4 9927216153931:!272161957 9927216175376#trakl#SOURCE_ACQUIRED 9927216195701:preob 9927216195801/onsource/TRACKING 9927216200036/tpical/20349,22721,18818,4777,26855,26622,29568,58817,16627,39938 9927216200056/tpical/9398,9892,10862,32208,20331,5668,7077 9927216200063:!272162007 9927216200701:tape 9927216200710/tape/off,02040,norm,stopped,stop,unlock,ready,rem 9927216200710:st=rev,135 9927216200721:"data start" 9927216200721:midob 9927216200851/onsource/TRACKING 9927216200853/wx/19.8,981.4,99.0,5.1 9927216200876/cable/+1.0856724E-02 9927216200900/fmout-gps/S 1.8182E-07 9927216200906/ifd/16,19,nor,nor,rem,15059,6122 9927216200912/if3/6,in,2,2,,,present,500.10,rem,lock,35697 9927216200918/vc02/142.99,2.000,u,10,10,rem,lock,20736 9927216200924/vc06/202.89,2.000,u,10,10,rem,lock,23798 9927216200930/vc11/237.99,2.000,u,10,10,rem,lock,9248 9927216200958/tpi/18557,20736,17115,4383,24222,23798,26267,52381,15059,35697 9927216200978/tpi/8042,8404,9248,26929,17012,4798,6122 9927216200980/tsys1/70.3,70.4,68.3,63.2,63.3,57.3,55.3,56.5,65.7,58.5 9927216200980/tsys2/85.3,81.6,83.5,78.8,78.3,77.4,87.7 9927216200980:!272162145 9927216214501:"data stop" 9927216214501:et 9927216214511:!+3s 9927216214813:tape 9927216214822/tape/off,00947,norm,stopped,stop,unlock,ready,rem 9927216214822:postob 9927216214822:source=oj287,085448.9,200630.6,2000.0,neutral 9927216214951:midtp 9927216215186/tpzero/505,709,453,814,329,621,93,313,316,149 9927216215206/tpzero/636,624,620,270,381,490,777 9927216215222/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927216215231/rx/03(dcal),on,a,on,on,on,off,locked,50.00 9927216215240/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927216215250/rx/17(pres),on,a,on,on,on,off,locked,2.566 9927216215259/rx/1E(20k),on,a,on,on,on,off,locked,28.14 9927216215268/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927216215268:nw2c1=21 9927216215454/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216215780:fastr=0m37s 9927216223508:!272162850 9927216253445;wx 9927216253449/wx/19.7,981.1,99.6,6.3 9927216261010;"wx= overcast, light breeze, light rain, warm. 9927216261353;rxmon 9927216261362/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927216261371/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927216261380/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927216261389/rx/17(pres),on,a,on,on,on,off,locked,1.771 9927216261399/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927216261409/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927216262652;"rxtemps 20k=29.07 70k=55.57 9927216280574#trakl#SOURCE_ACQUIRED 9927216285001:preob 9927216285101/onsource/TRACKING 9927216285336/tpical/19132,21357,17540,4507,25134,24937,27690,55090,15541,37318 9927216285356/tpical/9200,9641,10775,31678,20109,5615,6950 9927216285363:!272162900 9927216290001:tape 9927216290009/tape/off,00128,norm,stopped,stop,unlock,ready,rem 9927216290010:st=for,135 9927216290020:"data start" 9927216290020:midob 9927216290101/onsource/TRACKING 9927216290103/wx/19.7,981.0,99.7,5.3 9927216290120/cable/+1.0859650E-02 9927216290201/fmout-gps/S 1.8148E-07 9927216290207/ifd/16,19,nor,nor,rem,13934,6013 9927216290213/if3/6,in,2,2,,,present,500.10,rem,lock,32947 9927216290218/vc02/142.99,2.000,u,10,10,rem,lock,19249 9927216290224/vc06/202.89,2.000,u,10,10,rem,lock,22034 9927216290230/vc11/237.99,2.000,u,10,10,rem,lock,9164 9927216290258/tpi/17278,19249,15795,4104,22414,22034,24268,48313,13934,32947 9927216290278/tpi/7862,8191,9164,26483,16840,4759,6013 9927216290280/tsys1/63.1,61.4,61.4,57.0,56.7,51.5,49.3,49.4,59.1,52.4 9927216290280/tsys2/84.3,81.5,82.8,78.8,78.6,77.8,87.2 9927216290280:!272163038 9927216303801:"data stop" 9927216303801:et 9927216303811:!+3s 9927216304113:tape 9927216304122/tape/off,01221,norm,stopped,stop,unlock,ready,rem 9927216304122:postob 9927216304122:source=1030+074,103334.0,071126.1,2000.0,neutral 9927216304249:check2c1 9927216312281?ERROR qg -303 Track 11 parity errors exceed threshold. 9927216312281?ERROR qg -305 AUX data differs from expected value on track 11. 9927216312281?ERROR qg -304 Track 11 sync errors exceed threshold. 9927216312281/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927216312282/parity/0,0,0,0,0,253,0,0,0,0,0,0,0,0 9927216313617:nw2c1=21 9927216313670/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216313996:!272163349 9927216322675#trakl#SOURCE_ACQUIRED 9927216334901:preob 9927216335001/onsource/TRACKING 9927216335236/tpical/18613,20731,17011,4389,24378,24254,26912,53546,15086,36222 9927216335256/tpical/9093,9593,10757,31373,20090,5605,6923 9927216335263:!272163359 9927216335901:tape 9927216335910/tape/off,01216,norm,stopped,stop,unlock,ready,rem 9927216335910:st=for,135 9927216335921:"data start" 9927216335921:midob 9927216340051/onsource/TRACKING 9927216340053/wx/19.7,980.8,100.0,0.0 9927216340072/cable/+1.0859400E-02 9927216340100/fmout-gps/S 1.8234E-07 9927216340106/ifd/16,19,nor,nor,rem,13443,5979 9927216340112/if3/6,in,2,2,,,present,500.10,rem,lock,31780 9927216340118/vc02/142.99,2.000,u,10,10,rem,lock,18662 9927216340124/vc06/202.89,2.000,u,10,10,rem,lock,21296 9927216340130/vc11/237.99,2.000,u,10,10,rem,lock,9143 9927216340158/tpi/16719,18662,15212,3982,21638,21296,23432,46648,13443,31780 9927216340178/tpi/7775,8135,9143,26146,16783,4747,5979 9927216340179/tsys1/59.8,60.6,57.3,54.3,54.3,48.8,46.8,46.9,55.8,49.7 9927216340180/tsys2/84.6,80.4,82.4,77.3,77.4,77.4,86.0 9927216340180:!272163712 9927216371201:"data stop" 9927216371201:et 9927216371212:!+3s 9927216371514:tape 9927216371523/tape/off,03378,norm,stopped,stop,unlock,ready,rem 9927216371523:postob 9927216371523:source=1308+326,131028.7,322043.8,2000.0,neutral 9927216371550:nw2c1=21 9927216371603/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216371929:!272164047 9927216402774#trakl#SOURCE_ACQUIRED 9927216404701:preob 9927216404849/onsource/TRACKING 9927216405084/tpical/19608,21913,18082,4608,25638,25574,28275,56112,15986,38128 9927216405104/tpical/9355,9857,11023,32432,20645,5760,7093 9927216405111:!272164057 9927216405701:tape 9927216405711/tape/off,03378,norm,stopped,stop,unlock,ready,rem 9927216405711:st=for,135 9927216405722:"data start" 9927216405722:midob 9927216405850/onsource/TRACKING 9927216405852/wx/19.7,980.6,100.0,2.5 9927216405868/cable/+1.0859207E-02 9927216405900/fmout-gps/S 1.8119E-07 9927216405906/ifd/16,19,nor,nor,rem,14338,6138 9927216405912/if3/6,in,2,2,,,present,500.10,rem,lock,33694 9927216405918/vc02/142.99,2.000,u,10,10,rem,lock,19759 9927216405924/vc06/202.89,2.000,u,10,10,rem,lock,22626 9927216405930/vc11/237.99,2.000,u,10,10,rem,lock,9393 9927216405958/tpi/17725,19759,16303,4192,22911,22626,24826,49227,14338,33694 9927216405978/tpi/8017,8378,9393,27141,17323,4872,6138 9927216405979/tsys1/63.8,61.7,62.2,56.7,57.8,52.1,50.1,49.6,59.4,52.8 9927216405980/tsys2/86.1,81.8,84.0,79.3,79.6,77.0,87.6 9927216405980:!272164235 9927216423501:"data stop" 9927216423501:et 9927216423512:!+3s 9927216423814:tape 9927216423823/tape/off,04471,norm,stopped,stop,unlock,ready,rem 9927216423823:postob 9927216423823:source=1034-293,103716.1,-293402.8,2000.0,neutral 9927216423961:nw2c1=21 9927216424071/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216424416:!272164907 9927216462675#trakl#SOURCE_ACQUIRED 9927216490702:preob 9927216490852/onsource/TRACKING 9927216491087/tpical/31380,34882,29314,7080,41670,41509,46538,$$$$$,26158,63457 9927216491107/tpical/9793,10367,11806,34773,22286,6191,7567 9927216491114:!272164917 9927216491701:tape 9927216491710/tape/off,04471,norm,stopped,stop,unlock,ready,rem 9927216491710:st=for,135 9927216491721:"data start" 9927216491721:midob 9927216491801/onsource/TRACKING 9927216491803/wx/19.7,980.5,100.0,2.3 9927216491837/cable/+1.0856625E-02 9927216491903/fmout-gps/S 1.8127E-07 9927216491909/ifd/16,19,nor,nor,rem,25241,6645 9927216491915/if3/6,in,2,2,,,present,500.10,rem,lock,60734 9927216491921/vc02/142.99,2.000,u,10,10,rem,lock,33678 9927216491927/vc06/202.89,2.000,u,10,10,rem,lock,39796 9927216491933/vc11/237.99,2.000,u,10,10,rem,lock,10233 9927216491961/tpi/30325,33678,28402,6858,40157,39796,44441,$$$$$,25241,60734 9927216491980/tpi/8496,8961,10233,29688,19060,5348,6645 9927216491982?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927216491982/tsys1/197.3,191.1,213.9,190.0,183.7,159.6,147.6,$$$$$$$$,189.7,155.3 9927216491983/tsys2/94.6,92.6,95.4,90.3,90.4,90.0,99.3 9927216491983:!272165055 9927216505501:"data stop" 9927216505501:et 9927216505512:!+3s 9927216505814:tape 9927216505823/tape/off,05564,norm,stopped,stop,unlock,ready,rem 9927216505823:postob 9927216505823:source=1237-101,123943.1,-102328.8,2000.0,neutral 9927216505854:nw2c1=21 9927216505907/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216510233:!272165410 9927216531675#trakl#SOURCE_ACQUIRED 9927216541001:preob 9927216541053/onsource/TRACKING 9927216541288/tpical/20616,22946,18913,4803,27085,26872,29876,59511,16794,40346 9927216541308/tpical/9302,9770,11002,32281,20659,5780,7100 9927216541315:!272165420 9927216542001:tape 9927216542010/tape/off,05564,norm,stopped,stop,unlock,ready,rem 9927216542011:st=for,135 9927216542021:"data start" 9927216542021:midob 9927216542150/onsource/TRACKING 9927216542152/wx/19.7,980.6,100.0,2.5 9927216542185/cable/+1.0858135E-02 9927216542201/fmout-gps/S 1.8160E-07 9927216542207/ifd/16,19,nor,nor,rem,14890,6147 9927216542213/if3/6,in,2,2,,,present,500.10,rem,lock,35227 9927216542219/vc02/142.99,2.000,u,10,10,rem,lock,20449 9927216542225/vc06/202.89,2.000,u,10,10,rem,lock,23483 9927216542231/vc11/237.99,2.000,u,10,10,rem,lock,9359 9927216542259/tpi/18430,20449,16851,4329,23922,23483,25882,51646,14890,35227 9927216542278/tpi/7970,8302,9359,27078,17330,4911,6147 9927216542280/tsys1/57.2,55.2,55.5,51.8,52.1,47.1,45.1,45.6,53.4,47.8 9927216542280/tsys2/85.9,81.6,83.0,80.4,79.5,79.4,88.0 9927216542281:!272165607 9927216560701:"data stop" 9927216560701:et 9927216560712:!+3s 9927216561014:tape 9927216561023/tape/off,06758,norm,stopped,stop,unlock,ready,rem 9927216561023:postob 9927216561023:source=1219+044,122222.5,041315.8,2000.0,neutral 9927216561100:nw2c1=21 9927216561153/pass/21,21,auto,220.0,220.0,220.7,220.5,0.7,0.5 9927216561477:!272170030 9927216574225#trakl#SOURCE_ACQUIRED 9927217003001:preob 9927217003149/onsource/TRACKING 9927217003384/tpical/20397,22788,18867,4794,27021,26916,29949,59456,16688,40286 9927217003404/tpical/9191,9659,10938,31964,20409,5696,7012 9927217003411:!272170040 9927217004001:tape 9927217004011/tape/off,06758,norm,stopped,stop,unlock,ready,rem 9927217004011:st=for,135 9927217004022:"data start" 9927217004022:midob 9927217004100/onsource/TRACKING 9927217004102/wx/19.6,980.6,100.0,4.2 9927217004129/cable/+1.0858748E-02 9927217004201/fmout-gps/S 1.8160E-07 9927217004207/ifd/16,19,nor,nor,rem,15073,6059 9927217004213/if3/6,in,2,2,,,present,500.10,rem,lock,35875 9927217004219/vc02/142.99,2.000,u,10,10,rem,lock,20695 9927217004225/vc06/202.89,2.000,u,10,10,rem,lock,24012 9927217004231/vc11/237.99,2.000,u,10,10,rem,lock,9299 9927217004259/tpi/18534,20695,17063,4390,24306,24012,26495,52684,15073,35875 9927217004278/tpi/7851,8208,9299,26738,17106,4820,6059 9927217004280/tsys1/67.5,66.7,64.3,61.8,61.6,56.2,53.4,54.0,63.8,56.5 9927217004281/tsys2/84.0,81.6,82.7,79.1,79.0,77.2,86.5 9927217004281:!272170248 9927217024801:"data stop" 9927217024801:et 9927217024812:!+3s 9927217025114:tape 9927217025123/tape/off,08188,norm,stopped,stop,unlock,ready,rem 9927217025123:postob 9927217025123:source=1014+615,101725.9,611627.5,2000.0,neutral 9927217025200:midtp 9927217025436/tpzero/498,708,449,817,327,618,96,316,306,149 9927217025455/tpzero/635,624,621,264,376,489,761 9927217025471/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927217025481/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927217025490/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927217025499/rx/17(pres),on,a,on,on,on,off,locked,4.642 9927217025508/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217025518/rx/1F(70k),on,a,on,on,on,off,locked,55.57 9927217025518:nw2c2=22 9927217025682/pass/22,22,auto,220.0,220.0,220.2,220.0,0.2,0.0 9927217030009:fastf=0m34s 9927217033436:!272170905 9927217080275#trakl#SOURCE_ACQUIRED 9927217090501:preob 9927217090553/onsource/TRACKING 9927217090788/tpical/20024,22473,18567,4727,26427,26405,29254,58070,16445,39414 9927217090808/tpical/9400,9866,10933,32470,20488,5708,7106 9927217090815:!272170915 9927217091501:tape 9927217091511/tape/off,08939,norm,stopped,stop,unlock,ready,rem 9927217091511:st=rev,135 9927217091522:"data start" 9927217091522:midob 9927217091600/onsource/TRACKING 9927217091602/wx/19.5,980.4,100.0,7.2 9927217091609/cable/+1.0857785E-02 9927217091700/fmout-gps/S 1.8146E-07 9927217091706/ifd/16,19,nor,nor,rem,14880,6152 9927217091712/if3/6,in,2,2,,,present,500.10,rem,lock,35190 9927217091718/vc02/142.99,2.000,u,10,10,rem,lock,20470 9927217091724/vc06/202.89,2.000,u,10,10,rem,lock,23602 9927217091730/vc11/237.99,2.000,u,10,10,rem,lock,9321 9927217091758/tpi/18288,20470,16875,4339,23814,23602,26031,51584,14880,35190 9927217091778/tpi/8042,8398,9321,27178,17180,4845,6152 9927217091779/tsys1/71.5,68.9,67.8,63.4,62.7,57.2,56.2,55.2,65.0,57.9 9927217091780/tsys2/85.1,82.7,84.2,79.4,79.3,78.8,88.2 9927217091780:!272171053 9927217105301:"data stop" 9927217105301:et 9927217105312:!+3s 9927217105614:tape 9927217105623/tape/off,07846,norm,stopped,stop,unlock,ready,rem 9927217105623:postob 9927217105623:source=0552+398,055530.8,394849.2,2000.0,neutral 9927217105650:check2c2 9927217113674?ERROR qg -303 Track 11 parity errors exceed threshold. 9927217113674?ERROR qg -305 AUX data differs from expected value on track 11. 9927217113674?ERROR qg -304 Track 11 sync errors exceed threshold. 9927217113674/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,16.,0. 9927217113674/parity/0,0,0,0,0,343,0,0,0,0,0,0,0,0 9927217115018:nw2c2=22 9927217115071/pass/22,22,auto,220.0,220.0,220.2,220.0,0.2,0.0 9927217115396:!272171545 9927217133424#trakl#SOURCE_ACQUIRED 9927217154501:preob 9927217154601/onsource/TRACKING 9927217154836/tpical/21837,24422,20204,5075,28951,28698,31961,63505,17903,43164 9927217154856/tpical/9515,10089,11201,33095,20976,5854,7221 9927217154862:!272171555 9927217155501:tape 9927217155510/tape/off,07849,norm,stopped,stop,unlock,ready,rem 9927217155511:st=rev,135 9927217155522:"data start" 9927217155522:midob 9927217155600/onsource/TRACKING 9927217155602/wx/19.5,980.3,100.0,0.0 9927217155640/cable/+1.0856208E-02 9927217155700/fmout-gps/S 1.8096E-07 9927217155706/ifd/16,19,nor,nor,rem,16053,6263 9927217155712/if3/6,in,2,2,,,present,500.10,rem,lock,38211 9927217155718/vc02/142.99,2.000,u,10,10,rem,lock,22011 9927217155724/vc06/202.89,2.000,u,10,10,rem,lock,25424 9927217155730/vc11/237.99,2.000,u,10,10,rem,lock,9544 9927217155758/tpi/19710,22011,18159,4613,25853,25424,28074,55919,16053,38211 9927217155778/tpi/8161,8603,9544,27809,17649,4975,6263 9927217155780/tsys1/63.0,61.7,60.4,57.4,57.5,52.9,50.2,51.2,59.4,53.6 9927217155780/tsys2/86.8,83.8,84.1,81.3,81.0,79.7,89.7 9927217155780:!272171733 9927217173301:"data stop" 9927217173301:et 9927217173312:!+3s 9927217173614:tape 9927217173623/tape/off,06756,norm,stopped,stop,unlock,ready,rem 9927217173623:postob 9927217173623:source=oj287,085448.9,200630.6,2000.0,neutral 9927217173700:nw2c2=22 9927217173753/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217174078:!272171938 9927217193801:preob 9927217193899?ERROR AN -103 Pointing computer tracking errors are too large. 9927217193899?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927217193899/onsource/SLEWING 9927217194135/tpical/21159,23835,19726,4977,28229,28021,31318,62101,17451,42130 9927217194155/tpical/9266,9823,10916,31978,20449,5701,7034 9927217194162:!272171948 9927217194801:tape 9927217194811/tape/off,06756,norm,stopped,stop,unlock,ready,rem 9927217194811:st=rev,135 9927217194822:"data start" 9927217194822:midob 9927217194915?ERROR AN -103 Pointing computer tracking errors are too large. 9927217194915?ERROR qo -301 WARNING: ONSOURCE status is SLEWING! 9927217194915/onsource/SLEWING 9927217194918/wx/19.5,980.4,100.0,0.4 9927217194945/cable/+1.0857230E-02 9927217195004/fmout-gps/S 1.8145E-07 9927217195016/ifd/16,19,nor,nor,rem,16462,6100 9927217195022/if3/6,in,2,2,,,present,500.10,rem,lock,39312 9927217195027/vc02/142.99,2.000,u,10,10,rem,lock,22519 9927217195033/vc06/202.89,2.000,u,10,10,rem,lock,26138 9927217195039/vc11/237.99,2.000,u,10,10,rem,lock,9316 9927217195067/tpi/20043,22519,18619,4726,26537,26138,29014,57750,16462,39312 9927217195087/tpi/7960,8360,9316,26833,17148,4842,6100 9927217195089/tsys1/122.2,115.7,114.6,108.7,108.1,94.6,87.6,92.1,114.0,97.0 9927217195089/tsys2/87.6,82.5,84.8,80.6,79.3,79.1,89.2 9927217195089:!272172126 9927217195525#trakl#SOURCE_ACQUIRED 9927217212601:"data stop" 9927217212601:et 9927217212612:!+3s 9927217212914:tape 9927217212923/tape/off,05663,norm,stopped,stop,unlock,ready,rem 9927217212923:postob 9927217212923:source=1313-333,131608.0,-333859.2,2000.0,neutral 9927217212952:nw2c2=22 9927217213005/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217213330:!272172512 9927217245474#trakl#SOURCE_ACQUIRED 9927217251201:preob 9927217251301/onsource/TRACKING 9927217251536/tpical/23590,26107,21548,5385,30942,30654,34144,$$$$$,19218,46346 9927217251556/tpical/9848,10442,11794,34622,22126,6161,7538 9927217251563:!272172522 9927217252201:tape 9927217252209/tape/off,05663,norm,stopped,stop,unlock,ready,rem 9927217252210:st=rev,135 9927217252221:"data start" 9927217252221:midob 9927217252351/onsource/TRACKING 9927217252353/wx/19.5,980.3,100.0,2.5 9927217252376/cable/+1.0855097E-02 9927217252400/fmout-gps/S 1.8256E-07 9927217252406/ifd/16,19,nor,nor,rem,17587,6594 9927217252412/if3/6,in,2,2,,,present,500.10,rem,lock,41954 9927217252418/vc02/142.99,2.000,u,10,10,rem,lock,24011 9927217252424/vc06/202.89,2.000,u,10,10,rem,lock,27783 9927217252430/vc11/237.99,2.000,u,10,10,rem,lock,10184 9927217252458/tpi/21708,24011,19784,4982,28270,27783,30796,61287,17587,41954 9927217252478/tpi/8512,8987,10184,29449,18851,5288,6594 9927217252480?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217252480/tsys1/78.7,77.6,76.5,72.1,73.0,66.0,64.0,$$$$$$$$,74.0,66.4 9927217252480/tsys2/92.0,89.7,92.7,88.1,88.1,85.8,96.5 9927217252480:!272172700 9927217270001:"data stop" 9927217270001:et 9927217270012:!+3s 9927217270316:tape 9927217270331/tape/off,04570,norm,stopped,stop,unlock,ready,rem 9927217270331:postob 9927217270332:source=1514-241,151741.8,-242219.5,2000.0,neutral 9927217270500:nw2c2=22 9927217270553/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217270877:!272172822 9927217282174#trakl#SOURCE_ACQUIRED 9927217282201:preob 9927217282352/onsource/TRACKING 9927217282587/tpical/24089,26613,22040,5494,31646,31357,34873,$$$$$,19648,47381 9927217282607/tpical/9805,10360,11633,34297,21888,6085,7481 9927217282614:!272172832 9927217283201:tape 9927217283209/tape/off,04570,norm,stopped,stop,unlock,ready,rem 9927217283210:st=rev,135 9927217283221:"data start" 9927217283221:midob 9927217283351/onsource/TRACKING 9927217283353/wx/19.5,980.2,100.0,0.0 9927217283384/cable/+1.0854442E-02 9927217283400/fmout-gps/S 1.8193E-07 9927217283406/ifd/16,19,nor,nor,rem,18113,6529 9927217283412/if3/6,in,2,2,,,present,500.10,rem,lock,43211 9927217283418/vc02/142.99,2.000,u,10,10,rem,lock,24629 9927217283424/vc06/202.89,2.000,u,10,10,rem,lock,28644 9927217283430/vc11/237.99,2.000,u,10,10,rem,lock,10023 9927217283458/tpi/22301,24629,20419,5116,29083,28644,31668,63092,18113,43211 9927217283478/tpi/8471,8904,10023,29085,18597,5217,6529 9927217283479?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217283479/tsys1/85.1,84.2,86.0,79.4,78.3,72.1,68.8,$$$$$$$$,81.0,72.1 9927217283480/tsys2/91.7,88.8,91.2,86.3,86.4,85.0,94.6 9927217283480:!272173010 9927217301001:"data stop" 9927217301001:et 9927217301012:!+3s 9927217301314:tape 9927217301323/tape/off,03477,norm,moving,stop,unlock,ready,rem 9927217301323:postob 9927217301323:source=1749+096,175132.8,093900.7,2000.0,neutral 9927217301354:nw2c2=22 9927217301411/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217301736:!272173648 9927217322374#trakl#SOURCE_ACQUIRED 9927217364801:preob 9927217364953/onsource/TRACKING 9927217365190/tpical/22234,24481,20304,5109,29094,28794,32048,63820,18024,43437 9927217365210/tpical/9672,10213,11289,33409,21140,5899,7289 9927217365217:!272173658 9927217365801:tape 9927217365809/tape/off,03477,norm,stopped,stop,unlock,ready,rem 9927217365810:st=rev,135 9927217365821:"data start" 9927217365821:midob 9927217365853/onsource/TRACKING 9927217365855/wx/19.5,980.2,100.0,3.0 9927217365891/cable/+1.0854252E-02 9927217365900/fmout-gps/S 1.8289E-07 9927217365906/ifd/16,19,nor,nor,rem,16465,6337 9927217365912/if3/6,in,2,2,,,present,500.10,rem,lock,39177 9927217365918/vc02/142.99,2.000,u,10,10,rem,lock,22464 9927217365924/vc06/202.89,2.000,u,10,10,rem,lock,25960 9927217365930/vc11/237.99,2.000,u,10,10,rem,lock,9650 9927217365957/tpi/20380,22464,18607,4720,26498,25960,28719,57322,16465,39177 9927217365977/tpi/8315,8714,9650,28101,17843,5025,6337 9927217365979/tsys1/74.9,75.3,74.7,70.0,70.4,62.4,60.0,61.2,72.3,63.9 9927217365979/tsys2/88.3,84.2,86.0,81.9,82.7,81.0,91.4 9927217365979:!272173836 9927217383601:"data stop" 9927217383601:et 9927217383612:!+3s 9927217383914:tape 9927217383923/tape/off,02384,norm,stopped,stop,unlock,ready,rem 9927217383923:postob 9927217383923:source=1726+455,172727.7,453039.7,2000.0,ccw 9927217384000:nw2c2=22 9927217384058/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217384386:!272174137 9927217412224#trakl#SOURCE_ACQUIRED 9927217413701:preob 9927217413799/onsource/TRACKING 9927217414034/tpical/19473,21647,17792,4562,25395,25236,28009,55750,15764,37776 9927217414054/tpical/9410,9869,10841,32122,20287,5650,7058 9927217414061:!272174147 9927217414701:tape 9927217414710/tape/off,02384,norm,stopped,stop,unlock,ready,rem 9927217414711:st=rev,135 9927217414722:"data start" 9927217414722:midob 9927217414752/onsource/TRACKING 9927217414754/wx/19.5,980.0,100.0,0.0 9927217414764/cable/+1.0855191E-02 9927217414800/fmout-gps/S 1.8223E-07 9927217414806/ifd/16,19,nor,nor,rem,14137,6097 9927217414812/if3/6,in,2,2,,,present,500.10,rem,lock,33378 9927217414818/vc02/142.99,2.000,u,10,10,rem,lock,19547 9927217414824/vc06/202.89,2.000,u,10,10,rem,lock,22350 9927217414830/vc11/237.99,2.000,u,10,10,rem,lock,9204 9927217414858/tpi/17587,19547,16019,4149,22665,22350,24622,48972,14137,33378 9927217414877/tpi/8032,8369,9204,26789,16918,4776,6097 9927217414879/tsys1/63.2,62.6,61.3,56.3,57.1,52.6,50.5,50.1,59.3,52.7 9927217414879/tsys2/83.8,80.6,81.8,77.6,76.6,76.6,86.7 9927217414880:!272174325 9927217432501:"data stop" 9927217432501:et 9927217432512:!+3s 9927217432814:tape 9927217432823/tape/off,01291,norm,stopped,stop,unlock,ready,rem 9927217432823:postob 9927217432823:source=1611+343,161341.1,341247.9,2000.0,ccw 9927217432952:nw2c2=22 9927217433006/pass/22,22,auto,220.0,220.0,220.2,219.1,0.2,-0.9 9927217433387:!272174556 9927217443325#trakl#SOURCE_ACQUIRED 9927217455601:preob 9927217455653/onsource/TRACKING 9927217455888/tpical/19123,21235,17466,4480,24878,24725,27366,54443,15445,36907 9927217455908/tpical/9521,9996,10995,32681,20578,5743,7148 9927217455915:!272174606 9927217460601:tape 9927217460611/tape/off,01291,norm,stopped,stop,unlock,ready,rem 9927217460611:st=rev,135 9927217460622:"data start" 9927217460622:midob 9927217460750/onsource/TRACKING 9927217460752/wx/19.6,979.9,100.0,9.9 9927217460756/cable/+1.0855439E-02 9927217460800/fmout-gps/S 1.8143E-07 9927217460806/ifd/16,19,nor,nor,rem,13776,6183 9927217460812/if3/6,in,2,2,,,present,500.10,rem,lock,32404 9927217460818/vc02/142.99,2.000,u,10,10,rem,lock,19095 9927217460824/vc06/202.89,2.000,u,10,10,rem,lock,21758 9927217460830/vc11/237.99,2.000,u,10,10,rem,lock,9356 9927217460858/tpi/17184,19095,15626,4061,22065,21758,23829,47453,13776,32404 9927217460878/tpi/8148,8495,9356,27314,17232,4866,6183 9927217460879/tsys1/60.1,60.0,57.6,54.0,53.9,49.7,46.8,47.1,56.3,50.0 9927217460880/tsys2/85.4,81.9,83.2,78.7,78.6,77.9,87.7 9927217460880:!272174744 9927217474401:"data stop" 9927217474401:et 9927217474412:!+3s 9927217474714:tape 9927217474722/tape/off,00198,norm,stopped,stop,unlock,ready,rem 9927217474723:postob 9927217474728:source=1351-018,135406.8,-020603.3,2000.0,neutral 9927217474851:midtp 9927217475088/tpzero/502,708,447,818,328,622,97,314,307,149 9927217475107/tpzero/632,624,621,264,379,490,774 9927217475123/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927217475133/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927217475142/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.509 9927217475151/rx/17(pres),on,a,on,on,on,off,locked,5.953 9927217475161/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217475170/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927217475170:nw2c1=23 9927217475322/pass/23,23,auto,275.0,275.0,273.6,274.2,-1.4,-0.8 9927217475648:!272175058 9927217503424#trakl#SOURCE_ACQUIRED 9927217505801:preob 9927217505951/onsource/TRACKING 9927217510186/tpical/20093,22456,18553,4718,26520,26407,29348,58286,16402,39469 9927217510206/tpical/9190,9588,10734,31449,19974,5583,6924 9927217510213:!272175108 9927217510801:tape 9927217510811/tape/off,00198,norm,stopped,stop,unlock,ready,rem 9927217510811:st=for,135 9927217510822:"data start" 9927217510822:midob 9927217510900/onsource/TRACKING 9927217510902/wx/19.6,980.0,100.0,0.0 9927217510924/cable/+1.0857274E-02 9927217511000/fmout-gps/S 1.8219E-07 9927217511006/ifd/16,19,nor,nor,rem,14932,5993 9927217511012/if3/6,in,2,2,,,present,500.10,rem,lock,35445 9927217511018/vc02/142.99,2.000,u,10,10,rem,lock,20533 9927217511024/vc06/202.89,2.000,u,10,10,rem,lock,23719 9927217511030/vc11/237.99,2.000,u,10,10,rem,lock,9141 9927217511058/tpi/18374,20533,16960,4350,24059,23719,26159,52040,14932,35445 9927217511077/tpi/7849,8149,9141,26274,16703,4732,5993 9927217511079/tsys1/72.6,72.0,72.4,67.0,67.3,60.0,57.0,57.8,69.4,61.2 9927217511080/tsys2/84.0,81.6,83.5,78.5,77.9,77.8,87.5 9927217511080:!272175338 9927217532181;rxall 9927217532181&rxall/rx=00,*,*,*,*,*,* 9927217532181&rxall/rx 9927217532181&rxall/rx=01,*,*,*,*,*,* 9927217532181&rxall/rx 9927217532181&rxall/rx=02,*,*,*,*,*,* 9927217532181&rxall/rx 9927217532181&rxall/rx=03,*,*,*,*,*,* 9927217532181&rxall/rx 9927217532181&rxall/rx=04,*,*,*,*,*,* 9927217532181&rxall/rx 9927217532182&rxall/rx=05,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=06,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=07,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=08,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=09,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=0a,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=0b,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=0c,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532182&rxall/rx=0d,*,*,*,*,*,* 9927217532182&rxall/rx 9927217532183&rxall/rx=0e,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=0f,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=10,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=11,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=12,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=13,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=14,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=15,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=16,*,*,*,*,*,* 9927217532183&rxall/rx 9927217532183&rxall/rx=17,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=18,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=19,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1a,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1b,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1c,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1d,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1e,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532184&rxall/rx=1f,*,*,*,*,*,* 9927217532184&rxall/rx 9927217532196/rx/00(front),on,a,on,on,on,off,locked,33.51 9927217532206/rx/01(rear),on,a,on,on,on,off,locked,34.24 9927217532216/rx/02(lo),on,a,on,on,on,off,locked,47.31 9927217532227/rx/03(dcal),on,a,on,on,on,off,locked,50.24 9927217532238/rx/04(inlet),on,a,on,on,on,off,locked,31.56 9927217532248/rx/05(ret),on,a,on,on,on,off,locked,31.92 9927217532258/rx/06(lo-lok),on,a,on,on,on,off,locked,8.347 9927217532269/rx/07(-2.73v),on,a,on,on,on,off,locked,-2.707 9927217532279/rx/08(s1-if),on,a,on,on,on,off,locked,0.262 9927217532290/rx/09(x-if),on,a,on,on,on,off,locked,0.180 9927217532300/rx/0A(s2-if),on,a,on,on,on,off,locked,0.416 9927217532311/rx/0B(s1-lo),on,a,on,on,on,off,locked,0.863 9927217532321/rx/0C(+12v),on,a,on,on,on,off,locked,12.64 9927217532332/rx/0D(s2-lo),on,a,on,on,on,off,locked,0.677 9927217532343/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927217532354/rx/0F(+15vp2),on,a,on,on,on,off,locked,15.04 9927217532363/rx/10(+28v),on,a,on,on,on,off,locked,28.67 9927217532372/rx/11(-15vp1),on,a,on,on,on,off,locked,-15.06 9927217532381/rx/12(+20v),on,a,on,on,on,off,locked,19.69 9927217532390/rx/13(+15vp1),on,a,on,on,on,off,locked,14.95 9927217532399/rx/14(+5vp1),on,a,on,on,on,off,locked,5.057 9927217532408/rx/15(-15vp2),on,a,on,on,on,off,locked,-14.88 9927217532417/rx/16(+5vp2),on,a,on,on,on,off,locked,5.110 9927217532426/rx/17(pres),on,a,on,on,on,off,locked,1.381 9927217532435/rx/18(x1bias),on,a,on,on,on,off,locked,0.595 9927217532445/rx/19(x2bias),on,a,on,on,on,off,locked,0.990 9927217532454/rx/1A(x3bias),on,a,on,on,on,off,locked,0.990 9927217532463/rx/1B(s1bias),on,a,on,on,on,off,locked,0.601 9927217532472/rx/1C(s2bias),on,a,on,on,on,off,locked,0.990 9927217532482/rx/1D(s3bias),on,a,on,on,on,off,locked,0.799 9927217532491/rx/1E(20k),on,a,on,on,on,off,locked,29.07 9927217532500/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927217533801:"data stop" 9927217533801:et 9927217533813:!+3s 9927217534115:tape 9927217534124/tape/off,01876,norm,stopped,stop,unlock,ready,rem 9927217534124:postob 9927217534124:source=1308+326,131028.7,322043.8,2000.0,neutral 9927217534201:check2c1 9927217542144?ERROR qg -303 Track 11 parity errors exceed threshold. 9927217542144?ERROR qg -305 AUX data differs from expected value on track 11. 9927217542144?ERROR qg -304 Track 11 sync errors exceed threshold. 9927217542144/parity/0.,0.,0.,0.,0.,$$$$$,0.,0.,0.,0.,0.,0.,0.,0. 9927217542144/parity/0,0,0,0,0,294,0,0,0,0,0,0,0,0 9927217543569:nw2c1=23 9927217543622/pass/23,23,auto,275.0,275.0,273.6,274.2,-1.4,-0.8 9927217543949:!272175750 9927217570224#trakl#SOURCE_ACQUIRED 9927217575001:preob 9927217575150/onsource/TRACKING 9927217575387/tpical/24502,27536,23082,5733,32993,32949,36805,$$$$$,20495,49627 9927217575407/tpical/9374,9780,11124,32691,20922,5834,7183 9927217575414:!272175800 9927217580001:tape 9927217580010/tape/off,01873,norm,stopped,stop,unlock,ready,rem 9927217580010:st=for,135 9927217580027:"data start" 9927217580027:midob 9927217580105/onsource/TRACKING 9927217580107/wx/19.6,979.7,100.0,3.6 9927217580159/cable/+1.0857090E-02 9927217580201/fmout-gps/S 5.0800E-08 9927217580207/ifd/16,19,nor,nor,rem,19051,6247 9927217580213/if3/6,in,2,2,,,present,500.10,rem,lock,45726 9927217580219/vc02/142.99,2.000,u,10,10,rem,lock,25716 9927217580225/vc06/202.89,2.000,u,10,10,rem,lock,30412 9927217580231/vc11/237.99,2.000,u,10,10,rem,lock,9539 9927217580259/tpi/22811,25716,21515,5373,30615,30412,33761,$$$$$,19051,45726 9927217580278/tpi/8064,8358,9539,27510,17627,4961,6247 9927217580280?ERROR qk -211 Tsys value for device v8 overflowed or were less than zero. 9927217580280/tsys1/92.1,95.9,93.8,88.3,88.9,82.0,77.2,$$$$$$$$,90.6,81.6 9927217580280/tsys2/88.6,84.9,87.8,82.1,81.7,79.9,91.3 9927217580281:!272180030 9927218003001:"data stop" 9927218003001:et 9927218003012:!+3s 9927218003314:tape 9927218003323/tape/off,03550,norm,stopped,stop,unlock,ready,rem 9927218003323:postob 9927218003323:fastr=2m32s 9927218003700;"wx= overcast, light breeze, light rain, warm. 9927218004242;wx 9927218004244/wx/19.6,979.6,100.0,9.1 9927218004645;rxmon 9927218004657/rx/02(lo),on,a,on,on,on,off,locked,47.19 9927218004666/rx/03(dcal),on,a,on,on,on,off,locked,50.12 9927218004675/rx/0E(lo5mhz),on,a,on,on,on,off,locked,0.510 9927218004685/rx/17(pres),on,a,on,on,on,off,locked,-0.499 9927218004694/rx/1E(20k),on,a,on,on,on,off,locked,29.57 9927218004703/rx/1F(70k),on,a,on,on,on,off,locked,54.88 9927218010206;"rxtemps 20k=29.57 70k=54.88 9927218030552:unlod 9927218031728/ !!!! wake up !!!! 9927218031731:*end of schedule 9927218072298;"cable normal 9927218072689;cable 9927218072700/cable/+1.0857671E-02 9927218074744;"cable long 9927218080606;cable 9927218080625/cable/+1.0759294E-02 9927218082359;"cable normal 9927218083758;cable 9927218083792/cable/+1.0856965E-02 9927218093639;log=station

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**[Don Rice -- Hydrologist, GS-12]{.underline}** I serve as a project chief in the Geohydrologic Studies Program of the New Jersey Water Science Center. I have worked on the following projects: 1. Estimated low-flow characteristics of streams and ground-water capacity in the New Jersey. This work was done for the New Jersey Geological Survey. My work was hands on and oversight of delineating more than 600 basins, determining basin characteristics such as land use, water use, and geology, and report preparation. Project site data were stored in geodatabases and linked to project data stored in a relational database developed for the project. 2. Estimated low-flow characteristics of streams and ground-water capacity in the New Jersey Higlands Preservation and Planning areas. This work was done for the New Jersey Highlands Council in support of their Regional Master Plan. Station basins and HUC14 basin characteristics were obtained using ModelBuilder. All project data was documented and turned over to the Highlands Council. Results were presented both in reports and at public meetings. 3. Hydrologic characterization of the New York/New Jersey Highlands. My work for this project included water-quality database construction, GIS database construction, GIS analysis of hydrologic data, presentation of significant findings to the U.S. Forest Service and other interested public organizations, and report preparation. 4. Sustainable water supply study for Cape May County My work for this project is ongoing and includes development of GIS layers that characterize: water use, hydrogeologic characteristics of Cape May aquifers, water-quality, land use, elevation, and vernal pond research. 5. Valley-wide ground-water flow model for Picatinny Arsenal, New Jersey. Work included model development, prediction scenarios, Geographic Information System (GIS) analysis of hydrologic data, field collection of hydrologic data and report preparation 6. Description of the source and distribution of naturally occurring radionuclides in the ground water of the New Jersey coastal plain. My work for this project included supervision of well drilling, water-quality sampling, ground-water flow modeling, GIS analysis of hydrologic data, and report preparation. 7. Ground-water contaminant sites. My work at these sites has included innovative packer testing to determine the hydrologic characteristics of bedrock aquifers, particle fraction sampling to investigate colloidal transport of radionuclides, two and three-dimensional GIS analysis of hydrologic data, ground-water flow model development, presentations of significant findings to U. S. Environmental Protection Agency, U.S. Navy, and the U.S. Air Force. I have worked at the following sites with their corresponding contaminants: ```{=html}  ``` a. Naval Air Warfare Center, West Trenton, NJ /Trichloroethylene (TCE) b. BOMARC Missile Base, Ocean County, NJ /Radionuclides and TCE c. Cadmus well field, Fair Lawn, NJ /TCE and other volatile organic compounds d. Municipal well field, Rocky Hill, NJ /TCE e. Fair Lawn municipal well field, Fair Lawn, NJ /TCE f. Puchack municipal well field, Pennsauken, NJ /Hexavalent chromium and other volatile organic compounds ```{=html}  ``` 8. Water-quality of the Delaware & Raritan Canal. My work for this project included GIS database construction, GIS analysis of water-quality data, report preparation, and presentation of significant findings to the New Jersey Water Supply Authority. 9. Water-quality of Barnegat Bay and its drainage basin. My work for this project included GIS database construction, GIS analysis of water-quality data, and report preparation. SELECTED PUBLICATIONS Gibs, Jacob, Gray, B., Rice D.E., Tessler, S, and Barringer, T.H., 2001, Water quality of the Delaware and Raritan Canal, New Jersey 1998-99: U.S. Geological Survey Water-Resources Investigations Report 01-4072, 60 p. Hoppe, Martina C. (compiler) 2003, New York - New Jersey Highlands regional study technical report, U.S Forest Service. Digital report available at: <http://www.na.fs.fed.us/highlands/maps_pubs/technical_report/technical_report.shtm>. (*My contribution to this report was as coauthor of the Water Resources section)* Lewis-Brown, Jean C., Rice, D.E., Rosman, R., and Smith, N.P., 2005, Hydrogeologic Framework, ground-water quality, and simulation of ground-water flow at the Fair Lawn Well Field Superfund Site, Bergen County, New Jersey: U.S. Geological Survey Scientific Investigations Report 2004-5280, 109p. *Received the David A. Aronson Report of the Year Award for technically focused reports.* Lewis-Brown, Jean C., Rice, D.E., 2002, Simulated ground-water flow, Naval Air Warfare Center, West Trenton, New Jersey, U.S. Geological Survey Water-Resources Investigations Report 02-4019, 44p. Phelps, Marcus G., and M.C. Hoppe (compilers), 2002, New York - New Jersey Highlands regional study: 2002 update, U.S. Forest Service 209p. Digital report available at: http://www.na.fs.fed.us/highlands/maps_pubs/regional_study/regional_study.shtm. (*My contribution to this report was as coauthor of the Water subsection of the Resource Assessment and Conservation Values section and as coauthor of the Changes in Water Resources subsection in the Potential Changes and Resources at Risk section*) Rice, Donald E., and Szabo, Z., 1997, Relation of ground-water flowpaths and travel time to the distribution of radium and nitrate in current and former agricultural areas of the Kirkwood-Cohansey Aquifer System, New Jersey Coastal Plain: U.S. Geological Survey Water-Resources Investigations Report 96-4165B, 41 p. Rice, Donald E., and Voronin, L.M., 1997, Analysis of ground-water flowpaths near water-supply wells Picatinny Arsenal, New Jersey: U.S. Geological Survey Water-Resources Investigations Report 96-4228, 26 p. Szabo, Zoltan, Rice, D.E., Plummer, L.N., Busenberg Eurybades, Drenkard, Stefan, and Schlosser, Peter, 1996, Age-dating of shallow ground water with chlorofluorocarbons, tritium/helium-3, and flow-path analysis in an unconfined aquifer of the southern New Jersey Coastal Plain: Water Resources Research, v. 32 no. 4, p. 1023-1038. Voronin, Lois M., and Rice, D.E., 1996, Hydrogeology and simulation of ground-water flow, Picatinny Arsenal and vicinity, Morris County, New Jersey: U.S. Geological Survey Water-Resources Investigations Report 96-4061, 64 p.

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