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QuantFactory/TableGPT2-7B-GGUF

This is quantized version of tablegpt/TableGPT2-7B created using llama.cpp

Original Model Card

TableGPT2-7B

Model details

We developed and released TableGPT2-7B, a large-scale decoder specifically tailored for data-intensive tasks, with a focus on interpreting and analyzing tabular data. TableGPT2-7B is designed to bridge the gap between conventional LLM capabilities and the real-world demands of tabular/structured data tasks, such as those in business intelligence (BI), automated data-driven analysis, and application tasks tightly involving databases or data warehouses.

Model Developers

Zhejiang University

Variations

TableGPT2 is available in two configurations—7B and 72B parameters—both derived from the Qwen2.5 model family and optimized for handling structured data in tabular formats. Currently, we have released the 7B version to the public.

Input

TableGPT2-7B accepts both text and tabular data as input, with the tabular data structured as text in the format of a df.head() result.

Output

TableGPT2-7B produces text-based outputs, specifically optimized for coding tasks, data interpretation, and BI-focused question answering.

Language

Our model places a strong emphasis on Chinese corpora, and currently, queries in other languages may have limited support.

Other Requirements

We highly recommend exploring our repository on GitHub, where users can integrate this model into our agent workflow for enhanced performance.

Model Architecture

TableGPT2-7B is built upon the Qwen2.5 architecture and includes specialized encoding for tabular data. It features a unique semantic encoder designed to interpret tabular data, capturing insights from rows, columns, and entire tables. Continual Pretraining (CPT) and Supervised Fine-Tuning (SFT) have been applied to equip the model for real-world BI applications and complex query processing.

For now, the standalone decoder is open-sourced and fully functional without having to require assistance from the encoder. The encoder is currently under preparation, pending engineering considerations, primarily because we hope to provide a tighter integration with DeepSpeed and vLLM.

Training Data Params Context Length Tokens Tables
TableGPT2-7B Multimodal data sources and BI-specific examples 7B 128K 86B tokens CPT, 2.36M SFT samples 593.8K tables

Status

This model is static, trained on an offline dataset. Future versions may be released to enhance its performance on specialized tasks.

QuickStart

This code snippet demonstrates how to build a prompt with table information, and shows how to load the tokenizer, load the model, and generate content.

Note that you need transformers>=4.37.0 to use TableGPT2:

pip install transformers>=4.37.0
from transformers import AutoModelForCausalLM, AutoTokenizer

# Using pandas to read some structured data
import pandas as pd
from io import StringIO

# single table
EXAMPLE_CSV_CONTENT = """
"Loss","Date","Score","Opponent","Record","Attendance"
"Hampton (14–12)","September 25","8–7","Padres","67–84","31,193"
"Speier (5–3)","September 26","3–1","Padres","67–85","30,711"
"Elarton (4–9)","September 22","3–1","@ Expos","65–83","9,707"
"Lundquist (0–1)","September 24","15–11","Padres","67–83","30,774"
"Hampton (13–11)","September 6","9–5","Dodgers","61–78","31,407"
"""

csv_file = StringIO(EXAMPLE_CSV_CONTENT)
df = pd.read_csv(csv_file)

model_name = "tablegpt/TableGPT2-7B"

model = AutoModelForCausalLM.from_pretrained(
    model_name, torch_dtype="auto", device_map="auto"
)
tokenizer = AutoTokenizer.from_pretrained(model_name)

example_prompt_template = """Given access to several pandas dataframes, write the Python code to answer the user's question.

/*
"{var_name}.head(5).to_string(index=False)" as follows:
{df_info}
*/

Question: {user_question}
"""
question = "哪些比赛的战绩达到了40胜40负?"

prompt = example_prompt_template.format(
    var_name="df",
    df_info=df.head(5).to_string(index=False),
    user_question=question,
)

messages = [
    {"role": "system", "content": "You are a helpful assistant."},
    {"role": "user", "content": prompt},
]
text = tokenizer.apply_chat_template(
    messages, tokenize=False, add_generation_prompt=True
)
model_inputs = tokenizer([text], return_tensors="pt").to(model.device)

generated_ids = model.generate(**model_inputs, max_new_tokens=512)
generated_ids = [
    output_ids[len(input_ids) :]
    for input_ids, output_ids in zip(model_inputs.input_ids, generated_ids)
]

response = tokenizer.batch_decode(generated_ids, skip_special_tokens=True)[0]

Deployment

For deployment, we recommend using vLLM.

  • Install vLLM: You can install vLLM by running the following command.

    pip install "vllm>=0.4.3"
    
  • Model Deployment: Use vLLM to deploy your model. For example, you can use the command to set up a server similar to openAI:

    python -m vllm.entrypoints.openai.api_server --served-model-name TableGPT2-7B --model path/to/weights
    

    Then you can access the Chat API by:

    curl http://localhost:8000/v1/chat/completions \
        -H "Content-Type: application/json" \
        -d '{
        "model": "TableGPT2-7B",
        "messages": [
            {"role": "system", "content": "You are a helpful assistant."},
            {"role": "user", "content": "Hey, who are you?"}
        ]
        }'
    

    For more details about how to use TableGPT2, please refer to our repository on GitHub

License

TableGPT2-7B is under apache-2.0 license.

Research Paper

TableGPT2-7B is introduced and validated in the paper "TableGPT2: A Large Multimodal Model with Tabular Data Integration" available on arXiv.

Where to send questions or comments about the model

Inquiries and feedback are welcome at j.zhao@zju.edu.cn.

Training Data

Overview

Training for TableGPT2-7B involved more than 593,800 curated tables, over 86 billion tokens for continual pretraining (CPT) and the construction of over 2.36 million high-quality query-table-output tuples for supervised fine-tuning. This extensive dataset aims to meet the rigorous demands of modern applications involving structured or tabular data.

Data Freshness

The training data has a cutoff of October 2024.

Evaluation Results

Evaluation has shown that TableGPT2-7B performs consistently well across benchmarks for tabular comprehension, code generation, and structured data reasoning, achieving a 35.20% performance increase over comparable models on standard benchmarks and 49.32% on BI-focused assessments. The RealTabBench benchmark further demonstrated the model’s robustness in handling unconventional tables and complex queries. Below, we present the results on public table-related benchmarks.

Benchmark Metric GPT-4o TableLLM (Qwen2) TableLLM (CodeQwen) TableLLM (LLaMA3) TableLLM (LLaMA3.1) TableLLM (DeepSeek) TableLLM-13B DeepSeek-lite Yi-Coder Qwen2.5-Coder Qwen2.5-Instruct TableGPT2-7B TableGPT2-72B
Table Understanding
Col Type Annot. F1 31.75 10.10 5.71 1.47 1.59 6.04 12.70 20.58 5.38 32.59 22.19 85.88 85.67
Relation Extract. F1 52.95 1.60 3.79 2.39 2.00 3.34 18.16 8.67 2.25 31.00 15.92 83.35 79.50
Entity Linking Acc 90.80 47.10 39.70 0.20 0.60 15.50 66.25 70.15 41.75 71.70 82.25 92.00 93.30
Row Pop. MAP 53.40 2.20 5.14 1.93 6.23 3.13 14.25 1.20 1.00 13.23 12.30 59.97 55.83
Question Answering
HiTab Exec Acc 48.40 11.74 0.00 0.00 0.00 39.08 6.30 0.76 0.00 1.70 10.73 70.27 75.57
FetaQA BLEU 21.70 12.24 8.69 2.42 3.10 7.94 10.83 15.08 11.17 13.00 16.91 28.97 32.25
HybridQA Acc 58.60 27.12 20.14 27.35 27.61 19.53 51.88 42.58 29.83 51.10 51.13 53.17 56.41
WikiSQL Acc 47.60 46.50 37.20 39.26 39.00 36.14 41.10 38.30 25.34 46.90 47.42 53.74 57.32
WikiTQ Acc 68.40 64.16 36.05 34.95 38.84 36.05 66.30 47.65 43.37 74.50 68.55 61.42 71.45
Fact Verification
TabFact Acc 74.40 72.00 53.20 40.06 27.13 60.76 68.95 62.27 79.6 77.26 84.60 77.80 85.43
FEVEROUS Acc 71.60 20.10 46.90 51.50 42.30 18.39 21.45 7.80 38.10 60.70 63.30 78.05 76.80
Table to Text
ToTTo BLEU 12.21 6.95 3.10 5.50 6.23 3.81 5.36 8.76 2.64 10.50 11.91 14.10 22.69
Natural Language to SQL
BIRD(dev) Exec Acc - 9.13 7.37 1.83 2.48 0.39 0.72 25.10 24.19 27.18 18.97 31.42 38.40
BIRD(dev-knowledge) Exec Acc - 15.45 18.19 3.39 3.72 0.39 1.83 36.51 39.96 42.96 31.42 49.28 60.76
Spider(dev) Exec Acc - 42.26 32.88 12.86 18.96 2.71 4.26 66.44 58.12 70.99 61.70 76.31 79.40
Spider(test) Exec Acc - 40.29 34.93 12.02 16.35 7.33 2.93 66.65 56.87 69.73 60.18 74.38 78.48
Holistic Table Evaluation
TableBench DP - 26.62 26.44 26.71 26.73 26.15 3.88 29.60 21.94 28.67 25.18 32.03 38.90
TableBench TCoT - 37.08 31.33 29.79 30.01 28.65 3.85 30.93 22.8 36.25 29.77 42.34 50.06
TableBench SCoT - 14.11 17.78 9.60 12.38 22.39 2.88 22.61 8.43 25.95 24.35 25.01 30.47
TableBench PoT@1 - 21.05 26.39 31.96 25.80 28.39 2.94 10.90 11.36 16.15 22.58 33.52 28.98

Citation

If you find our work helpful, please cite us by

@misc{su2024tablegpt2largemultimodalmodel,
      title={TableGPT2: A Large Multimodal Model with Tabular Data Integration}, 
      author={Aofeng Su and Aowen Wang and Chao Ye and Chen Zhou and Ga Zhang and Guangcheng Zhu and Haobo Wang and Haokai Xu and Hao Chen and Haoze Li and Haoxuan Lan and Jiaming Tian and Jing Yuan and Junbo Zhao and Junlin Zhou and Kaizhe Shou and Liangyu Zha and Lin Long and Liyao Li and Pengzuo Wu and Qi Zhang and Qingyi Huang and Saisai Yang and Tao Zhang and Wentao Ye and Wufang Zhu and Xiaomeng Hu and Xijun Gu and Xinjie Sun and Xiang Li and Yuhang Yang and Zhiqing Xiao},
      year={2024},
      eprint={2411.02059},
      archivePrefix={arXiv},
      primaryClass={cs.LG},
      url={https://arxiv.org/abs/2411.02059}, 
}
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