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DenseFusion-1M: Merging Vision Experts for Comprehensive Multimodal Perception

Official pytorch implementation of DenseFusion-1M: Merging Vision Experts for Comprehensive Multimodal Perception.

📚 Paper 🤗 Dataset

📜 News

[2024/09/26] 🔥🔥🔥 Our work DenseFusion has been accepted by NeurIPS 2024. Congratulations!
[2024/08/22] We have uploaded all image zips to Huggingface. This will make it convenient for you to explore and enjoy the dataset. [2024/07/30] The training recipe and code using DenseFusion-1M are released.
[2024/07/12] The paper and dataset are released ! 💥

💡 Introduction

  • "An image is worth a thousand words". Comprehensive image descriptions are essential for multi-modal perception, while images contains various visual elements of different granularities that are challenging to harness.
  • We propose Perceptural Fusion to integrate the diverse visual perception experts for capturing visual elements and adopt a MLLM as a centric pivot for comprehensive perception.
  • We thereby provide DenseFusion-1M dataset for highly informative image descriptions with various visual details, including rich OCR information, accurate object and position recognition, and external knowledge, etc.

🛸 Method

  • Pipeline of Perceptual Fusion to acquire DenseFusion dataset with hyper-detailed image descriptions. This pipeline leverages various visual experts as image priors and employs a multimodal model as the central pivot for integrating multi-source information. Its capability is learned from a 100K meta dataset generated by advanced GPT-4V.

📚 Dataset

  • We carefully select 1M highly representative images from uncurated LAION dataset through Semantic Clustering and De-duplication.
  • Through perceptual fusion, we obtain the comprehensive image-text data DenseFusion-4V-100K and DenseFusion-1M.
  • You can download the dataset from the 🤗Huggingface and images can be obtained from the urls using the ./download/download.py.
  • For convenience, we have uploaded all image zips to Huggingface. Enjoy it! (Note that the use of these images must comply with the LAION license.)
Dataset Captioned by Link
DenseFusion-4V-100K GPT-4V 🤗Huggingface
DenseFusion-1M Ours 🤗Huggingface
  • Visual examples from DenseFusion-1M, enriched with various detailed visual elements, such as OCR information, object/attribute information, spaital position, and external world knowledge.

🤖 Benchmark Performance

We utilize this highly informative image captions DenseFusion-1M for Pre-training Stage. The training code largely follows LLaVA and ShareGPT4V.

The high-quality image-text data brings consistent and significant improvements, especially for high-resolution MLLMs that require detailed visual information for effective learning.

Model LLM SQAI VQAv2 GQA VQAT MME MMB SEEDI POPE MMVet
LLaVA-7B Vicuna_7B 66.8 78.5 62.0 58.2 1510 64.3 66.2 85.9 30.5
DenseFusion-7B Vicuna_7B 69.3 80.8 64.0 62.0 1574 69.2 70.1 86.5 37.8
LLaVA-S2-7B Vicuna_7B 68.2 79.7 63.3 60.8 1520 66.4 67.2 86.7 34.6
DenseFusion-S2-7B Vicuna_7B 72.1 81.6 65.3 67.4 1551 70.7 71.1 87.2 37.5

Training with DenseFusion-1M

DenseFusion training consists of three stages: (1) feature alignment stage: we first adopt our high-quality DenseFusion-1M to pre-align the MLP connector with a frozen pretrained vision encoder and a frozen LLM; (2) pre-training stage: we adopt our DesneFusion-1M data for pre-training stage and unfreeze the half of the vision encoder, the MLP connector, and the LLM. (3) visual instruction tuning stage: we adopt the original LLaVA-mix-665K data to teach the model to follow multimodal instructions.

The training scripts are under /scripts/densefusion. The pre-trained vision encoder and language model will be automatically download.

  • Low-resolution MLLM: we use the architeture of LLaVA-1.5 for Low-resolution MLLM training. You can launch the script throught the following instruction:
bash scripts/densefusion/train.sh ${WORLD_SIZE} ${RANK} ${MASTER_PORT} ${MASTER_ADDR}
  • High-resolution MLLM: we use the architeture of LLaVA-S2 for High-resolution MLLM training. You should install s2wrapper through pip install, and you can launch the script throught the following instruction:
pip install git+https://github.com/bfshi/scaling_on_scales.git
bash scripts/densefusion/train_s2.sh ${WORLD_SIZE} ${RANK} ${MASTER_PORT} ${MASTER_ADDR}

The experiment is trained on 16 A100 GPUs with 40GB memory. The overall training cost around 15 hours. To train on fewer GPUs, you can reduce the per_device_train_batch_size and increase the gradient_accumulation_steps accordingly. Always keep the global batch size the same: per_device_train_batch_size x gradient_accumulation_steps x num_gpus.

We provide the source data of DenseFusion-1M, you can instruct your own conversations following LLaVA configuration.

Evaluation

To ensure the reproducibility, we evaluate the models with greedy decoding. We do not evaluate using beam search to make the inference process consistent with the chat demo of real-time outputs. The evaluation follows the implementation of LLaVA-v1.5.

See Evaluation.md.

❤️ Acknowledgments

  • LLaVA, ShareGPT4V: Thanks for their wonderful works and code!
  • Vicuna: The amazing open-sourced large language model series!
  • Scales on Scale: S2: The wonderful project for efficient and effective high-resolution MLLM architecture.

✒️ Citation

If DenseFusion is helpful for your research, please consider star ⭐ and citation 📝 :

@article{li2024DenseFusion,
      title={DenseFusion-1M: Merging Vision Experts for Comprehensive Multimodal Perception}, 
      author={Xiaotong Li and Fan Zhang and Haiwen Diao and Yueze Wang and Xinlong Wang and Ling-Yu Duan},
      year={2024},
      journal={2407.08303
},

📄 License

The content of this project itself is licensed under LICENSE.