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JudgeLM: Fine-tuned Large Language Models are Scalable Judges


Lianghui Zhu1,2, Xinggang Wang1, Xinlong Wang2

1HUST, 2BAAI

Overview

JudgeLM

Abstract Evaluating Large Language Models (LLMs) in open-ended scenarios is challenging because existing benchmarks and metrics can not measure them comprehensively. To address this problem, we propose to fine-tune LLMs as scalable judges (JudgeLM) to evaluate LLMs efficiently and effectively in open-ended benchmarks. We first propose a comprehensive, large-scale, high-quality dataset containing task seeds, LLMs-generated answers, and GPT-4-generated judgments for fine-tuning high-performance judges, as well as a new benchmark for evaluating the judges. We train JudgeLM at different scales from 7B, 13B, to 33B parameters, and conduct a systematic analysis of its capabilities and behaviors. We then analyze the key biases in fine-tuning LLM as a judge and consider them as position bias, knowledge bias, and format bias. To address these issues, JudgeLM introduces a bag of techniques including swap augmentation, reference support, and reference drop, which clearly enhance the judge's performance. JudgeLM obtains the state-of-the-art judge performance on both the existing PandaLM benchmark and our proposed new benchmark. Our JudgeLM is efficient and the JudgeLM-7B only needs 3 mins to judge 5K samples with 8 A100 GPUs. JudgeLM obtains high agreement with the teacher judge, achieving an agreement exceeding 90% that even surpasses human-to-human agreement. JudgeLM also demonstrates extended capabilities in being judges of the single answer, multimodal models, multiple answers, and multi-turn chat.

JudgeLM is an open platform for training, serving, and evaluating scalable large language model judges.

  • JudgeLM is a scalable language model judge, designed for evaluating LLMs in open-ended scenarios. It achieves an agreement exceeding 90% that surpasses the human-to-human agreement.
  • JudgeLM dataset contains 100K judge samples for training and 5K judge samples for validation. All the judge samples have the GPT-4-generated high-quality judgements.

JudgeLM's core features include:

  • The training and evaluation code for state-of-the-art LLM judges.
  • The broad capacities to deal with extended tasks. (e.g., judges of the single answer, multimodal models, multiple answers, and multi-turn chat)
  • A distributed multi-model serving system with web UI.

News

  • [2023/10] We released JudgeLM: Fine-tuned Large Language Models are Scalable Judges. Check out the paper.

Contents

Install: From source

  1. Clone this repository and navigate to the JudgeLM folder
git clone https://github.com/baaivision/JudgeLM
cd JudgeLM
  1. Install Package
conda create -n judgelm python=3.10.10 -y
conda activate judgelm
pip3 install --upgrade pip 
pip3 install -e .
pip install flash-attn==2.0.4 --no-build-isolation

Model Weights

JudgeLM is based on LLaMA and should be used under LLaMA's model license.

Model w/ reference? Agreement↑ Precision↑ Recall↑ F1↑ Consistency↑
JudgeLM-7B 81.11 69.67 78.39 72.21 83.57
JudgeLM-7B 84.08 75.92 82.55 78.28 84.46
JudgeLM-13B 84.33 73.69 80.51 76.17 85.01
JudgeLM-13B 85.47 77.71 82.90 79.77 87.23
JudgeLM-33B 🔥 89.03 80.97 84.76 82.64 91.36
JudgeLM-33B 🔥 89.32 84.00 86.21 84.98 92.37

Evaluation

judge_pairs

judge_mmvet

JudgeLM can judge open-ended answers from LLMs, as well as the multimodal models.

See instructions for running JudgeLM at judgelm/llm_judge.

Serving with Web GUI

gradio

We use gradio to provide web server and UI for users to evaluate LLMs' performance at open-ended tasks. The demo can be tried here.

See instructions for running JudgeLM web server at judgelm/serve.

Fine-tuning

Data

The JudgeLM-100K dataset is available at HuggingFace Datasets.

Code and Hyperparameters

Our code is based on Vicuna with additional support for judging answer pairs. We use similar hyperparameters as the Vicuna.

Hyperparameter Global Batch Size Learning rate Epochs Max length Weight decay
JudgeLM-13B 128 2e-5 3 2048 0

Fine-tuning JudgeLM-7B with Local GPUs

  • You can use the following command to train JudgeLM-7B with 4 x A100 (40GB). Update --model_name_or_path with the actual path to Vicuna weights and --data_path with the actual path to JudgeLM data.
torchrun --nproc_per_node=4 --master_port=20001 judgelm/train/train_mem.py \
    --model_name_or_path="/share/project/lianghuizhu/vicuna-weights-collection-v1.3/vicuna-7b-v1.3" \
    --data_path /share/project/lianghuizhu/JudgeLM-Project/JudgeLM/judgelm/data/JudgeLM/judgelm_train_100k.jsonl \
    --bf16 True \
    --output_dir="/home/zhulianghui/ProjectC_ChatGPT/alpaca/output/judgelm-debug-evaluator" \
    --num_train_epochs 3 \
    --per_device_train_batch_size 1 \
    --per_device_eval_batch_size 1 \
    --gradient_accumulation_steps 32 \
    --evaluation_strategy no \
    --save_strategy steps \
    --save_steps 1000 \
    --save_total_limit 1 \
    --learning_rate 2e-5 \
    --weight_decay 0. \
    --warmup_ratio 0.03 \
    --lr_scheduler_type cosine \
    --logging_steps 1 \
    --fsdp "full_shard auto_wrap offload" \
    --fsdp_transformer_layer_cls_to_wrap "LlamaDecoderLayer" \
    --tf32 True \
    --model_max_length 2048 \
    --gradient_checkpointing True \
    --run_name 7B-full-model \
    --swap_aug_ratio 0.5 \
    --ref_drop_ratio 0.5

Tips:

  • If you are using V100 which is not supported by FlashAttention, you can use the memory-efficient attention implemented in xFormers. Install xformers and replace judgelm/train/train_mem.py above with judgelm/train/train_xformers.py.
  • If you meet out-of-memory due to "FSDP Warning: When using FSDP, it is efficient and recommended... ", see solutions here.
  • If you meet out-of-memory during model saving, see solutions here.

Acknowledgement ❤️

This project is based on Vicuna (blog, code), PandaLM (paper, code), LLM-Blender (paper, code). Thanks for their wonderful works.

Citation

The code (training, serving, and evaluation) in this repository is mostly developed for or derived from the paper below. Please cite it if you find the repository helpful.

@article{zhu2023judgelm,
      title={JudgeLM: Fine-tuned Large Language Models are Scalable Judges}, 
      author={Lianghui Zhu and Xinggang Wang and Xinlong Wang},
      year={2023},
      eprint={2310.17631},
      archivePrefix={arXiv},
      primaryClass={cs.CL}
}