LibMTL
is an open-source library built on PyTorch for Multi-Task Learning (MTL). See the latest documentation for detailed introductions and API instructions.
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- [Mar 29 2022]: Paper is now available on the arXiv.
- Features
- Overall Framework
- Supported Algorithms
- Installation
- Quick Start
- Citation
- Contributors
- Contact Us
- Acknowledgements
- License
- Unified:
LibMTL
provides a unified code base to implement and a consistent evaluation procedure including data processing, metric objectives, and hyper-parameters on several representative MTL benchmark datasets, which allows quantitative, fair, and consistent comparisons between different MTL algorithms. - Comprehensive:
LibMTL
supports 84 MTL models combined by 7 architectures and 12 loss weighting strategies. Meanwhile,LibMTL
provides a fair comparison on 3 computer vision datasets. - Extensible:
LibMTL
follows the modular design principles, which allows users to flexibly and conveniently add customized components or make personalized modifications. Therefore, users can easily and fast develop novel loss weighting strategies and architectures or apply the existing MTL algorithms to new application scenarios with the support ofLibMTL
.
Each module is introduced in Docs.
LibMTL
currently supports the following algorithms:
- 12 loss weighting strategies.
Weighting Strategy | Venues | Comments |
---|---|---|
Equal Weighting (EW) | - | Implemented by us |
Gradient Normalization (GradNorm) | ICML 2018 | Implemented by us |
Uncertainty Weights (UW) | CVPR 2018 | Implemented by us |
MGDA | NeurIPS 2018 | Referenced from official PyTorch implementation |
Dynamic Weight Average (DWA) | CVPR 2019 | Referenced from official PyTorch implementation |
Geometric Loss Strategy (GLS) | CVPR 2019 workshop | Implemented by us |
Projecting Conflicting Gradient (PCGrad) | NeurIPS 2020 | Implemented by us |
Gradient sign Dropout (GradDrop) | NeurIPS 2020 | Implemented by us |
Impartial Multi-Task Learning (IMTL) | ICLR 2021 | Implemented by us |
Gradient Vaccine (GradVac) | ICLR 2021 Spotlight | Implemented by us |
Conflict-Averse Gradient descent (CAGrad) | NeurIPS 2021 | Referenced from official PyTorch implementation |
Random Loss Weighting (RLW) | arXiv | Implemented by us |
- 7 architectures.
Architecture | Venues | Comments |
---|---|---|
Hard Parameter Sharing (HPS) | ICML 1993 | Implemented by us |
Cross-stitch Networks (Cross_stitch) | CVPR 2016 | Implemented by us |
Multi-gate Mixture-of-Experts (MMoE) | KDD 2018 | Implemented by us |
Multi-Task Attention Network (MTAN) | CVPR 2019 | Referenced from official PyTorch implementation |
Customized Gate Control (CGC) | ACM RecSys 2020 Best Paper | Implemented by us |
Progressive Layered Extraction (PLE) | ACM RecSys 2020 Best Paper | Implemented by us |
DSelect-k | NeurIPS 2021 | Referenced from official TensorFlow implementation |
- Different combinations of different architectures and loss weighting strategies.
The simplest way to install LibMTL
is using pip
.
pip install -U LibMTL
More details about environment configuration is represented in Docs.
We use the NYUv2 dataset as an example to show how to use LibMTL
.
The NYUv2 dataset we used is pre-processed by mtan. You can download this dataset here.
The complete training code for the NYUv2 dataset is provided in examples/nyu. The file train_nyu.py is the main file for training on the NYUv2 dataset.
You can find the command-line arguments by running the following command.
python train_nyu.py -h
For instance, running the following command will train a MTL model with EW and HPS on NYUv2 dataset.
python train_nyu.py --weighting EW --arch HPS --dataset_path /path/to/nyuv2 --gpu_id 0 --scheduler step
More details is represented in Docs.
If you find LibMTL
useful for your research or development, please cite the following:
@article{LibMTL,
title={LibMTL: A Python Library for Multi-Task Learning},
author={Baijiong Lin and Yu Zhang},
journal={arXiv preprint arXiv:2203.14338},
year={2022}
}
LibMTL
is developed and maintained by Baijiong Lin and Yu Zhang.
If you have any question or suggestion, please feel free to contact us by raising an issue or sending an email to [email protected]
.
We would like to thank the authors that release the public repositories (listed alphabetically): CAGrad, dselect_k_moe, MultiObjectiveOptimization, and mtan.
LibMTL
is released under the MIT license.