Accelerating the development of large multimodal models (LMMs) with
lmms-eval
π LMMs-Lab Homepage | π Blog | π Documentation | π€ Huggingface Datasets | discord/lmms-eval
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[2024-09] βοΈοΈβοΈοΈοΈοΈ We upgrade
lmms-eval
to0.2.3
with more tasks and features. We support a compact set of language tasks evaluations (code credit to lm-evaluation-harness), and we remove the registration logic at start (for all models and tasks) to reduce the overhead. Nowlmms-eval
only launches necessary tasks/models. Please check the release notes for more details. -
[2024-08] ππ We welcome the new model LLaVA-OneVision, Mantis, new tasks MVBench, LongVideoBench, MMStar. We provide new feature of SGlang Runtime API for llava-onevision model, please refer the doc for inference acceleration
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[2024-07] ππ We have released the technical report and LiveBench!
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[2024-07] π¨βπ»π¨βπ» The
lmms-eval/v0.2.1
has been upgraded to support more models, including LongVA, InterVL-2, VILA, and many more evaluation tasks, e.g. Details Captions, MLVU, WildVision-Bench, VITATECS and LLaVA-Interleave-Bench. -
[2024-06] π¬π¬ The
lmms-eval/v0.2.0
has been upgraded to support video evaluations for video models like LLaVA-NeXT Video and Gemini 1.5 Pro across tasks such as EgoSchema, PerceptionTest, VideoMME, and more. Please refer to the blog for more details -
[2024-03] ππ We have released the first version of
lmms-eval
, please refer to the blog for more details
In today's world, we're on an exciting journey toward creating Artificial General Intelligence (AGI), much like the enthusiasm of the 1960s moon landing. This journey is powered by advanced large language models (LLMs) and large multimodal models (LMMs), which are complex systems capable of understanding, learning, and performing a wide variety of human tasks.
To gauge how advanced these models are, we use a variety of evaluation benchmarks. These benchmarks are tools that help us understand the capabilities of these models, showing us how close we are to achieving AGI.
However, finding and using these benchmarks is a big challenge. The necessary benchmarks and datasets are spread out and hidden in various places like Google Drive, Dropbox, and different school and research lab websites. It feels like we're on a treasure hunt, but the maps are scattered everywhere.
In the field of language models, there has been a valuable precedent set by the work of lm-evaluation-harness. They offer integrated data and model interfaces, enabling rapid evaluation of language models and serving as the backend support framework for the open-llm-leaderboard, and has gradually become the underlying ecosystem of the era of foundation models.
We humbly obsorbed the exquisite and efficient design of lm-evaluation-harness and introduce lmms-eval, an evaluation framework meticulously crafted for consistent and efficient evaluation of LMM.
For formal usage, you can install the package from PyPI by running the following command:
pip install lmms-eval
For development, you can install the package by cloning the repository and running the following command:
git clone https://github.com/EvolvingLMMs-Lab/lmms-eval
cd lmms-eval
pip install -e .
If you want to test LLaVA, you will have to clone their repo from LLaVA and
# for llava 1.5
# git clone https://github.com/haotian-liu/LLaVA
# cd LLaVA
# pip install -e .
# for llava-next (1.6)
git clone https://github.com/LLaVA-VL/LLaVA-NeXT
cd LLaVA-NeXT
pip install -e .
Reproduction of LLaVA-1.5's paper results
You can check the environment install script and torch environment info to reproduce LLaVA-1.5's paper results. We found torch/cuda versions difference would cause small variations in the results, we provide the results check with different environments.
If you want to test on caption dataset such as coco
, refcoco
, and nocaps
, you will need to have java==1.8.0
to let pycocoeval api to work. If you don't have it, you can install by using conda
conda install openjdk=8
you can then check your java version by java -version
Comprehensive Evaluation Results of LLaVA Family Models
As demonstrated by the extensive table below, we aim to provide detailed information for readers to understand the datasets included in lmms-eval and some specific details about these datasets (we remain grateful for any corrections readers may have during our evaluation process).
We provide a Google Sheet for the detailed results of the LLaVA series models on different datasets. You can access the sheet here. It's a live sheet, and we are updating it with new results.
We also provide the raw data exported from Weights & Biases for the detailed results of the LLaVA series models on different datasets. You can access the raw data here.
If you want to test VILA, you should install the following dependencies:
pip install s2wrapper@git+https://github.com/bfshi/scaling_on_scales
Our Development will be continuing on the main branch, and we encourage you to give us feedback on what features are desired and how to improve the library further, or ask questions, either in issues or PRs on GitHub.
Evaluation of LLaVA on MME
python3 -m accelerate.commands.launch \
--num_processes=8 \
-m lmms_eval \
--model llava \
--model_args pretrained="liuhaotian/llava-v1.5-7b" \
--tasks mme \
--batch_size 1 \
--log_samples \
--log_samples_suffix llava_v1.5_mme \
--output_path ./logs/
Evaluation of LLaVA on multiple datasets
python3 -m accelerate.commands.launch \
--num_processes=8 \
-m lmms_eval \
--model llava \
--model_args pretrained="liuhaotian/llava-v1.5-7b" \
--tasks mme,mmbench_en \
--batch_size 1 \
--log_samples \
--log_samples_suffix llava_v1.5_mme_mmbenchen \
--output_path ./logs/
For other variants llava. Please change the conv_template
in the model_args
conv_template
is an arg of the init function of llava inlmms_eval/models/llava.py
, you could find the corresponding value at LLaVA's code, probably in a dict variableconv_templates
inllava/conversations.py
python3 -m accelerate.commands.launch \
--num_processes=8 \
-m lmms_eval \
--model llava \
--model_args pretrained="liuhaotian/llava-v1.6-mistral-7b,conv_template=mistral_instruct" \
--tasks mme,mmbench_en \
--batch_size 1 \
--log_samples \
--log_samples_suffix llava_v1.5_mme_mmbenchen \
--output_path ./logs/
Evaluation of larger lmms (llava-v1.6-34b)
python3 -m accelerate.commands.launch \
--num_processes=8 \
-m lmms_eval \
--model llava \
--model_args pretrained="liuhaotian/llava-v1.6-34b,conv_template=mistral_direct" \
--tasks mme,mmbench_en \
--batch_size 1 \
--log_samples \
--log_samples_suffix llava_v1.5_mme_mmbenchen \
--output_path ./logs/
Evaluation with a set of configurations, supporting evaluation of multiple models and datasets
python3 -m accelerate.commands.launch --num_processes=8 -m lmms_eval --config ./miscs/example_eval.yaml
Evaluation of video model (llava-next-video-32B)
accelerate launch --num_processes 8 --main_process_port 12345 -m lmms_eval \
--model llavavid \
--model_args pretrained=lmms-lab/LLaVA-NeXT-Video-32B-Qwen,conv_template=qwen_1_5,video_decode_backend=decord,max_frames_num=32οΌmm_spatial_pool_mode=average,mm_newline_position=grid,mm_resampler_location=after \
--tasks videomme \
--batch_size 1 \
--log_samples \
--log_samples_suffix llava_vid_32B \
--output_path ./logs/
Evaluation with naive model sharding for bigger model (llava-next-72b)
python3 -m lmms_eval \
--model=llava \
--model_args=pretrained=lmms-lab/llava-next-72b,conv_template=qwen_1_5,device_map=auto,model_name=llava_qwen \
--tasks=pope,vizwiz_vqa_val,scienceqa_img \
--batch_size=1 \
--log_samples \
--log_samples_suffix=llava_qwen \
--output_path="./logs/" \
--wandb_args=project=lmms-eval,job_type=eval,entity=llava-vl
Evaluation with SGLang for bigger model (llava-next-72b)
python3 -m lmms_eval \
--model=llava_sglang \
--model_args=pretrained=lmms-lab/llava-next-72b,tokenizer=lmms-lab/llavanext-qwen-tokenizer,conv_template=chatml-llava,tp_size=8,parallel=8 \
--tasks=mme \
--batch_size=1 \
--log_samples \
--log_samples_suffix=llava_qwen \
--output_path=./logs/ \
--verbosity=INFO
Please check supported models for more details.
Please check supported tasks for more details.
Please refer to our documentation.
lmms_eval is a fork of lm-eval-harness. We recommend you to read through the docs of lm-eval-harness for relevant information.
Below are the changes we made to the original API:
- Build context now only pass in idx and process image and doc during the model responding phase. This is due to the fact that dataset now contains lots of images and we can't store them in the doc like the original lm-eval-harness other wise the cpu memory would explode.
- Instance.args (lmms_eval/api/instance.py) now contains a list of images to be inputted to lmms.
- lm-eval-harness supports all HF language models as single model class. Currently this is not possible of lmms because the input/output format of lmms in HF are not yet unified. Thererfore, we have to create a new class for each lmms model. This is not ideal and we will try to unify them in the future.
During the initial stage of our project, we thank:
- Xiang Yue, Jingkang Yang, Dong Guo and Sheng Shen for early discussion and testing.
During the v0.1
to v0.2
, we thank the community support from pull requests (PRs):
Details are in lmms-eval/v0.2.0 release notes
Datasets:
- VCR: Visual Caption Restoration (officially from the authors, MILA)
- ConBench (officially from the authors, PKU/Bytedance)
- MathVerse (officially from the authors, CUHK)
- MM-UPD (officially from the authors, University of Tokyo)
- WebSRC (from Hunter Heiden)
- ScreeSpot (from Hunter Heiden)
- RealworldQA (from Fanyi Pu, NTU)
- Multi-lingual LLaVA-W (from Gagan Bhatia, UBC)
Models:
- LLaVA-HF (officially from Huggingface)
- Idefics-2 (from the lmms-lab team)
- microsoft/Phi-3-Vision (officially from the authors, Microsoft)
- LLaVA-SGlang (from the lmms-lab team)
@misc{lmms_eval2024,
title={LMMs-Eval: Accelerating the Development of Large Multimoal Models},
url={https://github.com/EvolvingLMMs-Lab/lmms-eval},
author={Bo Li*, Peiyuan Zhang*, Kaichen Zhang*, Fanyi Pu*, Xinrun Du, Yuhao Dong, Haotian Liu, Yuanhan Zhang, Ge Zhang, Chunyuan Li and Ziwei Liu},
publisher = {Zenodo},
version = {v0.1.0},
month={March},
year={2024}
}