Model Overview
Description
This family of models performs vision-language and text-only tasks including optical character recognition, multimodal reasoning, localization, common sense reasoning, world knowledge utilization, and coding.
License/Terms of Use
Creative Commons Attribution: Non-Commercial 4.0 International
Model Details
Today (September 17th, 2024), we introduce NVLM 1.0, a family of frontier-class multimodal large language models (LLMs) that achieve state-of-the-art results on vision-language tasks, rivaling the leading proprietary models (e.g., GPT-4o) and open-access models (e.g., Llama 3-V 405B and InternVL 2). Remarkably, NVLM 1.0 shows improved text-only performance over its LLM backbone after multimodal training.
In this repo, we are open-sourcing NVLM-1.0-D-72B-mcore (decoder-only architecture), the decoder-only model weights for the community. The model is trained through Megatron-Core.
Reference(s)
Paper   Inference Code (HF)   Training Code   Website
Benchmark Results
We train our model with Megatron-Core and adapt the codebase to Huggingface for model hosting, reproducibility, and inference. We observe numerical differences between the Megatron and Huggingface codebases, which are within the expected range of variation. We provide the results from both the Huggingface codebase and the Megatron codebase for reproducibility and comparison with other models.
Results (as of September 17th, 2024) in the multimodal benchmarks are as follows:
Vision-language Benchmarks
Benchmark | MMMU (val / test) | MathVista | OCRBench | AI2D | ChartQA | DocVQA | TextVQA | RealWorldQA | VQAv2 |
---|---|---|---|---|---|---|---|---|---|
NVLM-D 1.0 72B (Megatron-Core) | 59.9 / 54.1 | 67.4 | 851 | 94.4 | 86.9 | 92.1 | 81.2 | 66.8 | 85.4 |
Llama 3.2 90B | 60.3 / - | 57.3 | - | 92.3 | 85.5 | 90.1 | - | - | 78.1 |
Llama 3-V 70B | 60.6 / - | - | - | 93.0 | 83.2 | 92.2 | 83.4 | - | 79.1 |
Llama 3-V 405B | 64.5 / - | - | - | 94.1 | 85.8 | 92.6 | 84.8 | - | 80.2 |
InternVL2-Llama3-76B | 55.2 / - | 65.5 | 839 | 94.8 | 88.4 | 94.1 | 84.4 | 72.2 | - |
GPT-4V | 56.8 / 55.7 | 49.9 | 645 | 78.2 | 78.5 | 88.4 | 78.0 | 61.4 | 77.2 |
GPT-4o | 69.1 / - | 63.8 | 736 | 94.2 | 85.7 | 92.8 | - | - | - |
Claude 3.5 Sonnet | 68.3 / - | 67.7 | 788 | 94.7 | 90.8 | 95.2 | - | - | - |
Gemini 1.5 Pro (Aug 2024) | 62.2 / - | 63.9 | 754 | 94.4 | 87.2 | 93.1 | 78.7 | 70.4 | 80.2 |
Model Architectures
Network Architecture: Decoder-Only Transformer
Input
Input Type(s): Text, Image
Input Format(s): String, Pillow Library-Supported Formats
Input Dimensions: One-Dimensional (1D), Two Dimensional (2D)
Other Properties Related to Input: Maximum Token Length = 128K Tokens
Output
Output Type(s): Text
Output Format: String
Model Output: 1D
Other Properties Related to Output: None
How to use
For training code, please refer to Megatron-LM.
Prepare the environment
We provide a docker build file in the Dockerfile for reproduction.
Evaluation
Run the text generation script.
examples/multimodal/nvlm/run_text_generation_qwen20_72b_internvit_6b.sh --input-image-path /path/to/input/images --output-path /some/output/directory \
--model-path /path/to/model.pt --gt-path /path/to/groundtruth/file --task generation-task-name --use-tiling
where --task generation-task-name
is the name of the evaluation benchmark such as captioning
, MMMU
or TextVQA
.
Then, run one of the evaluation scripts from examples/multimodal
. For example
python examples/multimodal/evaluate_mmmu.py --input-path /output/directory/from/generation
Software Integration
Runtime Engine(s)
- PyTorch
Supported Hardware Microarchitecture Compatibility:
- NVIDIA Hopper
[Preferred/Supported] Operating System(s):
- Linux
Inference
Engine: PyTorch
Test Hardware:
- H100
Model Version(s)
- v1.0-D (NVLM-D)
Training, Testing, and Evaluation Datasets
Pre-Training Dataset
Link
Data Collection Method by dataset
- Hybrid: Automated, Human, Synthetic, Unknown
Labeling Method by dataset
- Hybrid: Automated, Human, Synthetic, Unknown
Properties
- Trained on image captions, image-text pairs, natural images, charts, documents, scene descriptions, and mathematical reasoning.
Supervised Fine-Tuning Dataset
Link
Data Collection Method by dataset
- Hybrid: Automated, Human, Synthetic, Unknown
Labeling Method by dataset
- Hybrid: Automated, Human, Synthetic, Unknown
Properties
- Trained on image captions; general knowledge; image-text pairs; natural images; charts; diagrams; documents; scene descriptions; science diagrams, lessons, textbook data, and question-answer pairs; visual instruction tuning; and mathematical reasoning.
Evaluation Dataset
Link
Data collection method by dataset
- Human
Labeling method by dataset
- Human
Properties
- Evaluated on general knowledge, visual answering, chart understanding, table, optical character recognition, and mathematical reasoning.
Correspondence to
Wenliang Dai* ([email protected]), Nayeon Lee* ([email protected]), Boxin Wang* ([email protected]), Zhuolin Yang* ([email protected]), Wei Ping* ([email protected])
*Equal contribution
Citation
@article{nvlm2024, title={NVLM: Open Frontier-Class Multimodal LLMs}, author={Dai, Wenliang and Lee, Nayeon and Wang, Boxin and Yang, Zhuolin and Liu, Zihan and Barker, Jon and Rintamaki, Tuomas and Shoeybi, Mohammad and Catanzaro, Bryan and Ping, Wei}, journal={arXiv preprint}, year={2024}}
Ethical Considerations
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