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pretraining-leaderboard / app.py

rusticluftig

Add a custom subtensor endpoint

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	import functools
	import traceback
	import gradio as gr
	import bittensor as bt
	from typing import Dict, List, Any, Optional, Tuple
	from bittensor.extrinsics.serving import get_metadata
	from dataclasses import dataclass
	import wandb
	import math
	import os
	import datetime
	import time
	import json
	import pandas as pd
	from dotenv import load_dotenv
	from huggingface_hub import HfApi
	from apscheduler.schedulers.background import BackgroundScheduler
	import pandas as pd

	load_dotenv()

	FONT = (
	"""<link href="https://fonts.cdnfonts.com/css/jmh-typewriter" rel="stylesheet">"""
	)
	TITLE = """<h1 align="center" id="space-title" class="typewriter">Subnet 9 Leaderboard</h1>"""
	HEADER = """<h2 align="center" class="typewriter"><a href="https://github.com/RaoFoundation/pretraining" target="_blank">Subnet 9</a> is a <a href="https://bittensor.com/" target="_blank">Bittensor</a> subnet that rewards miners for producing pretrained Foundation-Models on the <a href="https://huggingface.co/datasets/tiiuae/falcon-refinedweb" target="_blank">Falcon Refined Web dataset</a>. It acts like a continuous benchmark whereby miners are rewarded for attaining the best losses on randomly sampled pages of Falcon.<br/>The models with the best head-to-head loss on the evaluation data receive a steady emission of TAO.</h3>"""
	EVALUATION_DETAILS = """<ul><li><b>Name:</b> the 🤗 Hugging Face model name (click to go to the model card)</li><li><b>Rewards / Day:</b> the expected rewards per day based on current ranking.</li><li><b>Last Average Loss:</b> the last loss value on the evaluation data for the model as calculated by a validator (lower is better)</li><li><b>UID:</b> the Bittensor UID of the miner</li><li><b>Block:</b> the Bittensor block that the model was submitted in</li></ul><br/>More stats on <a href="https://taostats.io/subnets/netuid-9/" target="_blank">taostats</a>."""
	EVALUATION_HEADER = """<h3 align="center">Shows the latest internal evaluation statistics as calculated by the Opentensor validator</h3>"""
	VALIDATOR_WANDB_PROJECT = "opentensor-dev/pretraining-subnet"
	BENCHMARK_WANDB_PROJECT = "raofoundation/pretraining-leaderboard-data"
	H4_TOKEN = os.environ.get("H4_TOKEN", None)
	API = HfApi(token=H4_TOKEN)
	WANDB_TOKEN = os.environ.get("WANDB_API_KEY", None)
	SUBTENSOR_ENDPOINT=os.environ.get("SUBTENSOR_ENDPOINT", None)
	REPO_ID = "RaoFoundation/pretraining-leaderboard"
	MAX_AVG_LOSS_POINTS = 1
	RETRIES = 5
	DELAY_SECS = 3
	NETUID = 9
	SECONDS_PER_BLOCK = 12


	@dataclass
	class ModelData:
	uid: int
	hotkey: str
	namespace: str
	name: str
	commit: str
	hash: str
	block: int
	incentive: float
	emission: float

	@classmethod
	def from_compressed_str(
	cls,
	uid: int,
	hotkey: str,
	cs: str,
	block: int,
	incentive: float,
	emission: float,
	):
	"""Returns an instance of this class from a compressed string representation"""
	tokens = cs.split(":")
	return ModelData(
	uid=uid,
	hotkey=hotkey,
	namespace=tokens[0],
	name=tokens[1],
	commit=tokens[2] if tokens[2] != "None" else None,
	hash=tokens[3] if tokens[3] != "None" else None,
	block=block,
	incentive=incentive,
	emission=emission,
	)


	def run_with_retries(func, args, *kwargs):
	for i in range(0, RETRIES):
	try:
	return func(args, *kwargs)
	except (Exception, RuntimeError):
	if i == RETRIES - 1:
	raise
	time.sleep(DELAY_SECS)
	raise RuntimeError("Should never happen")


	def get_subtensor_and_metagraph() -> Tuple[bt.subtensor, bt.metagraph]:
	def _internal() -> Tuple[bt.subtensor, bt.metagraph]:
	subtensor = bt.subtensor("finney")
	metagraph = bt.metagraph(NETUID, lite=False)
	return subtensor, metagraph

	return run_with_retries(_internal)


	def get_validator_weights(
	metagraph: bt.metagraph,
	) -> Dict[int, Tuple[float, int, Dict[int, float]]]:
	"""Returns a dictionary of validator UIDs to (vtrust, stake, {uid: weight})."""
	ret = {}
	for uid in metagraph.uids.tolist():
	vtrust = metagraph.validator_trust[uid].item()
	if vtrust > 0:
	ret[uid] = (vtrust, metagraph.S[uid].item(), {})
	for ouid in metagraph.uids.tolist():
	if ouid == uid:
	continue
	weight = round(metagraph.weights[uid][ouid].item(), 4)
	if weight > 0:
	ret[uid][-1][ouid] = weight
	return ret


	def get_subnet_data(
	subtensor: bt.subtensor, metagraph: bt.metagraph
	) -> List[ModelData]:
	result = []
	for uid in metagraph.uids.tolist():
	hotkey = metagraph.hotkeys[uid]
	metadata = None
	try:
	metadata = run_with_retries(
	functools.partial(get_metadata, subtensor, metagraph.netuid, hotkey)
	)
	except:
	print(f"Failed to get metadata for UID {uid}: {traceback.format_exc()}")

	if not metadata:
	continue

	commitment = metadata["info"]["fields"][0]
	hex_data = commitment[list(commitment.keys())[0]][2:]
	chain_str = bytes.fromhex(hex_data).decode()
	block = metadata["block"]
	incentive = metagraph.incentive[uid].nan_to_num().item()
	emission = (
	metagraph.emission[uid].nan_to_num().item() * 20
	) # convert to daily TAO

	model_data = None
	try:
	model_data = ModelData.from_compressed_str(
	uid, hotkey, chain_str, block, incentive, emission
	)
	except:
	continue

	result.append(model_data)
	return result


	def is_floatable(x) -> bool:
	return (
	isinstance(x, float) and not math.isnan(x) and not math.isinf(x)
	) or isinstance(x, int)


	def get_wandb_runs(project: str, filters: Dict[str, Any]) -> List:
	"""Get the latest runs from Wandb, retrying infinitely until we get them."""
	while True:
	api = wandb.Api(api_key=WANDB_TOKEN)
	runs = list(
	api.runs(
	project,
	filters=filters,
	)
	)
	if len(runs) > 0:
	return runs
	# WandDB API is quite unreliable. Wait another minute and try again.
	print("Failed to get runs from Wandb. Trying again in 60 seconds.")
	time.sleep(60)


	def get_scores(
	uids: List[int],
	wandb_runs: List,
	) -> Dict[int, Dict[str, Optional[float]]]:
	result = {}
	previous_timestamp = None
	# Iterate through the runs until we've processed all the uids.
	for i, run in enumerate(wandb_runs):
	if not "original_format_json" in run.summary:
	continue
	data = json.loads(run.summary["original_format_json"])
	all_uid_data = data["uid_data"]
	timestamp = data["timestamp"]

	# Make sure runs are indeed in descending time order.
	assert (
	previous_timestamp is None or timestamp < previous_timestamp
	), f"Timestamps are not in descending order: {timestamp} >= {previous_timestamp}"
	previous_timestamp = timestamp

	for uid in uids:
	if uid in result:
	continue
	if str(uid) in all_uid_data:
	uid_data = all_uid_data[str(uid)]
	# Only the most recent run is fresh.
	is_fresh = i == 0
	result[uid] = {
	"avg_loss": uid_data.get("average_loss", None),
	"win_rate": uid_data.get("win_rate", None),
	"win_total": uid_data.get("win_total", None),
	"weight": uid_data.get("weight", None),
	"fresh": is_fresh,
	}
	if len(result) == len(uids):
	break
	return result


	def get_losses_over_time(wandb_runs: List) -> pd.DataFrame:
	"""Returns a dataframe of the best average model loss over time."""
	timestamps = []
	best_losses = []

	for run in wandb_runs:
	if "original_format_json" not in run.summary:
	continue
	data = json.loads(run.summary["original_format_json"])
	all_uid_data = data["uid_data"]
	timestamp = datetime.datetime.fromtimestamp(data["timestamp"])
	best_loss = math.inf
	for _, uid_data in all_uid_data.items():
	loss = uid_data.get("average_loss", math.inf)
	# Filter out the numbers from the exploit.
	if loss < best_loss and (loss > 2.5 or timestamp > datetime.datetime(2024,2,8)):
	best_loss = uid_data["average_loss"]
	if best_loss != math.inf:
	timestamps.append(timestamp)
	best_losses.append(best_loss)

	return pd.DataFrame({"timestamp": timestamps, "best_loss": best_losses})


	def format_score(uid: int, scores, key) -> Optional[float]:
	if uid in scores:
	if key in scores[uid]:
	point = scores[uid][key]
	if is_floatable(point):
	return round(scores[uid][key], 4)
	return None


	def next_epoch(subtensor: bt.subtensor, block: int) -> int:
	return (
	block
	+ subtensor.get_subnet_hyperparameters(NETUID).tempo
	- subtensor.blocks_since_epoch(NETUID, block)
	)


	def get_next_update_div(current_block: int, next_update_block: int) -> str:
	now = datetime.datetime.now()
	blocks_to_go = next_update_block - current_block
	next_update_time = now + datetime.timedelta(
	seconds=blocks_to_go * SECONDS_PER_BLOCK
	)
	delta = next_update_time - now
	return f"""<div align="center" style="font-size: larger;">Next reward update: <b>{blocks_to_go}</b> blocks (~{int(delta.total_seconds() // 60)} minutes)</div>"""


	def get_last_updated_div() -> str:
	return f"""<div>Last Updated: {datetime.datetime.utcnow().strftime("%Y-%m-%d %H:%M:%S")} (UTC)</div>"""


	def leaderboard_data(
	leaderboard: List[ModelData],
	scores: Dict[int, Dict[str, Optional[float]]],
	show_stale: bool,
	) -> List[List[Any]]:
	"""Returns the leaderboard data, based on models data and UID scores."""
	return [
	[
	f"[{c.namespace}/{c.name} ({c.commit[0:8]})](https://huggingface.co/{c.namespace}/{c.name}/commit/{c.commit})",
	format_score(c.uid, scores, "win_rate"),
	format_score(c.uid, scores, "avg_loss"),
	format_score(c.uid, scores, "weight"),
	c.uid,
	c.block,
	]
	for c in leaderboard
	if (c.uid in scores and scores[c.uid]["fresh"]) or show_stale
	]

	def get_benchmarks() -> Tuple[pd.DataFrame, datetime.datetime]:
	"""Returns the latest benchmarks and the time they were run."""
	runs = get_wandb_runs(project=BENCHMARK_WANDB_PROJECT, filters=None)
	for run in runs:
	artifacts = list(run.logged_artifacts())
	if artifacts:
	table = artifacts[-1].get("benchmarks")
	if table:
	return table.get_dataframe(), datetime.datetime.strptime(run.metadata["startedAt"], "%Y-%m-%dT%H:%M:%S.%f")
	bt.logging.error("Failed to get benchmarks from Wandb.")
	return None, None


	def restart_space():
	API.restart_space(repo_id=REPO_ID, token=H4_TOKEN)


	def main():
	# To avoid leaderboard failures, infinitely try until we get all data
	# needed to populate the dashboard
	while True:
	try:
	subtensor, metagraph = get_subtensor_and_metagraph()

	model_data: List[ModelData] = get_subnet_data(subtensor, metagraph)
	model_data.sort(key=lambda x: x.incentive, reverse=True)

	vali_runs = get_wandb_runs(project=VALIDATOR_WANDB_PROJECT, filters={"config.type": "validator", "config.uid": 238})

	scores = get_scores([x.uid for x in model_data], vali_runs)

	# TODO: Re-enable once ""SubtensorModule.BlocksSinceEpoch" not found" issue is resolved.
	# current_block = metagraph.block.item()
	# next_epoch_block = next_epoch(subtensor, current_block)

	validator_df = get_validator_weights(metagraph)
	weight_keys = set()
	for uid, stats in validator_df.items():
	weight_keys.update(stats[-1].keys())

	benchmarks, benchmark_timestamp = get_benchmarks()
	break
	except Exception as e:
	print(f"Failed to get data: {e}")
	time.sleep(30)

	demo = gr.Blocks(css=".typewriter {font-family: 'JMH Typewriter', sans-serif;}")
	with demo:
	gr.HTML(FONT)
	gr.HTML(TITLE)
	gr.HTML(HEADER)

	# TODO: Re-enable once ""SubtensorModule.BlocksSinceEpoch" not found" issue is resolved.
	# gr.HTML(value=get_next_update_div(current_block, next_epoch_block))

	gr.Label(
	value={
	f"{c.namespace}/{c.name} ({c.commit[0:8]}) · (τ{round(c.emission, 2):,})": c.incentive
	for c in model_data
	if c.incentive
	},
	num_top_classes=10,
	)

	if benchmarks is not None:
	with gr.Accordion("Top Model Benchmarks"):
	gr.components.Dataframe(benchmarks)
	gr.HTML("""<div>PPL computed using a stride of 512. See <a href='https://github.com/RaoFoundation/pretraining/blob/dev/scripts/run_benchmarks.py'>here</a> for the full code.</div>""")
	gr.HTML(f"""<div>Last Updated: {benchmark_timestamp.strftime("%Y-%m-%d %H:%M:%S")} (UTC)</div>""")

	with gr.Accordion("Evaluation Stats"):
	gr.HTML(EVALUATION_HEADER)
	show_stale = gr.Checkbox(label="Show Stale", interactive=True)
	leaderboard_table = gr.components.Dataframe(
	value=leaderboard_data(model_data, scores, show_stale.value),
	headers=["Name", "Win Rate", "Average Loss", "Weight", "UID", "Block"],
	datatype=["markdown", "number", "number", "number", "number", "number"],
	elem_id="leaderboard-table",
	interactive=False,
	visible=True,
	)
	gr.HTML(EVALUATION_DETAILS)
	show_stale.change(
	lambda stale: leaderboard_data(model_data, scores, stale),
	inputs=[show_stale],
	outputs=leaderboard_table,
	)

	gr.LinePlot(
	get_losses_over_time(vali_runs),
	x="timestamp",
	x_title="Date",
	y="best_loss",
	y_title="Average Loss",
	tooltip="best_loss",
	interactive=True,
	visible=True,
	width=1024,
	title="Best Average Loss Over Time",
	)

	with gr.Accordion("Validator Stats"):
	gr.components.Dataframe(
	value=[
	[uid, int(validator_df[uid][1]), round(validator_df[uid][0], 4)]
	+ [
	validator_df[uid][-1].get(c.uid)
	for c in model_data
	if c.incentive
	]
	for uid, _ in sorted(
	zip(
	validator_df.keys(),
	[validator_df[x][1] for x in validator_df.keys()],
	),
	key=lambda x: x[1],
	reverse=True,
	)
	],
	headers=["UID", "Stake (τ)", "V-Trust"]
	+ [
	f"{c.namespace}/{c.name} ({c.commit[0:8]})"
	for c in model_data
	if c.incentive
	],
	datatype=["number", "number", "number"]
	+ ["number" for c in model_data if c.incentive],
	interactive=False,
	visible=True,
	)
	gr.HTML(value=get_last_updated_div())

	scheduler = BackgroundScheduler()
	scheduler.add_job(
	restart_space, "interval", seconds=60 * 30
	) # restart every 15 minutes
	scheduler.start()

	demo.launch()


	main()