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CompressAI (compress-ay) is a PyTorch library and evaluation platform for end-to-end compression research.
CompressAI currently provides:
- custom operations, layers and models for deep learning based data compression
- a partial port of the official TensorFlow compression library
- pre-trained end-to-end compression models for learned image compression
- evaluation scripts to compare learned models against classical image/video compression codecs
Note: Multi-GPU support is now experimental.
Installation
CompressAI supports python 3.8+ and PyTorch 1.7+.
pip:
pip install compressai
Note: wheels are available for Linux and MacOS.
From source:
A C++17 compiler, a recent version of pip (19.0+), and common python packages
are also required (see setup.py
for the full list).
To get started locally and install the development version of CompressAI, run the following commands in a virtual environment:
git clone https://github.com/InterDigitalInc/CompressAI compressai
cd compressai
pip install -U pip && pip install -e .
For a custom installation, you can also run one of the following commands:
pip install -e '.[dev]'
: install the packages required for development (testing, linting, docs)pip install -e '.[tutorials]'
: install the packages required for the tutorials (notebooks)pip install -e '.[all]'
: install all the optional packages
Note: Docker images will be released in the future. Conda environments are not officially supported.
Documentation
Usage
Examples
Script and notebook examples can be found in the examples/
directory.
To encode/decode images with the provided pre-trained models, run the
codec.py
example:
python3 examples/codec.py --help
An examplary training script with a rate-distortion loss is provided in
examples/train.py
. You can replace the model used in the training script
with your own model implemented within CompressAI, and then run the script for a
simple training pipeline:
python3 examples/train.py -d /path/to/my/image/dataset/ --epochs 300 -lr 1e-4 --batch-size 16 --cuda --save
Note: the training example uses a custom ImageFolder structure.
A jupyter notebook illustrating the usage of a pre-trained model for learned image
compression is also provided in the examples
directory:
pip install -U ipython jupyter ipywidgets matplotlib
jupyter notebook examples/
Evaluation
To evaluate a trained model on your own dataset, CompressAI provides an evaluation script:
python3 -m compressai.utils.eval_model checkpoint /path/to/images/folder/ -a $ARCH -p $MODEL_CHECKPOINT...
To evaluate provided pre-trained models:
python3 -m compressai.utils.eval_model pretrained /path/to/images/folder/ -a $ARCH -q $QUALITY_LEVELS...
To plot results from bench/eval_model simulations (requires matplotlib by default):
python3 -m compressai.utils.plot --help
To evaluate traditional codecs:
python3 -m compressai.utils.bench --help
python3 -m compressai.utils.bench bpg --help
python3 -m compressai.utils.bench vtm --help
For video, similar tests can be run, CompressAI only includes ssf2020 for now:
python3 -m compressai.utils.video.eval_model checkpoint /path/to/video/folder/ -a ssf2020 -p $MODEL_CHECKPOINT...
python3 -m compressai.utils.video.eval_model pretrained /path/to/video/folder/ -a ssf2020 -q $QUALITY_LEVELS...
python3 -m compressai.utils.video.bench x265 --help
python3 -m compressai.utils.video.bench VTM --help
python3 -m compressai.utils.video.plot --help
Tests
Run tests with pytest
:
pytest -sx --cov=compressai --cov-append --cov-report term-missing tests
Slow tests can be skipped with the -m "not slow"
option.
License
CompressAI is licensed under the BSD 3-Clause Clear License
Contributing
We welcome feedback and contributions. Please open a GitHub issue to report bugs, request enhancements or if you have any questions.
Before contributing, please read the CONTRIBUTING.md file.
Authors
- Jean Bégaint, Fabien Racapé, Simon Feltman and Hyomin Choi, InterDigital AI Lab.
Citation
If you use this project, please cite the relevant original publications for the models and datasets, and cite this project as:
@article{begaint2020compressai,
title={CompressAI: a PyTorch library and evaluation platform for end-to-end compression research},
author={B{\'e}gaint, Jean and Racap{\'e}, Fabien and Feltman, Simon and Pushparaja, Akshay},
year={2020},
journal={arXiv preprint arXiv:2011.03029},
}
For any work related to the variable bitrate models, please cite
@article{kamisli2024dcc_vbrlic,
title={Variable-Rate Learned Image Compression with Multi-Objective Optimization and Quantization-Reconstruction Offsets},
author={Kamisli, Fatih and Racap{\'e}, Fabien and Choi, Hyomin},
year={2024},
booktitle={2024 Data Compression Conference (DCC)},
eprint={2402.18930},
}
Related links
- Tensorflow compression library by Ballé et al.: https://github.com/tensorflow/compression
- Range Asymmetric Numeral System code from Fabian 'ryg' Giesen: https://github.com/rygorous/ryg_rans
- BPG image format by Fabrice Bellard: https://bellard.org/bpg
- HEVC HM reference software: https://hevc.hhi.fraunhofer.de
- VVC VTM reference software: https://vcgit.hhi.fraunhofer.de/jvet/VVCSoftware_VTM
- AOM AV1 reference software: https://aomedia.googlesource.com/aom
- Z. Cheng et al. 2020: https://github.com/ZhengxueCheng/Learned-Image-Compression-with-GMM-and-Attention
- Kodak image dataset: http://r0k.us/graphics/kodak/