--------- [](LICENSE.md) Automated Deep Learning (AutoDL-Projects) is an open source, lightweight, but useful project for everyone. This project implemented several neural architecture search (NAS) and hyper-parameter optimization (HPO) algorithms. 中文介绍见[README_CN.md](README_CN.md) **Who should consider using AutoDL-Projects** - Beginners who want to **try different AutoDL algorithms** - Engineers who want to **try AutoDL** to investigate whether AutoDL works on your projects - Researchers who want to **easily** implement and experiement **new** AutoDL algorithms. **Why should we use AutoDL-Projects** - Simple library dependencies - All algorithms are in the same codebase - Active maintenance ## AutoDL-Projects Capabilities At the moment, this project provides the following algorithms and scripts to run them. Please see the details in the link provided in the description column.

Type	ABBRV	Algorithms	Description
NAS	TAS	Network Pruning via Transformable Architecture Search	NIPS-2019-TAS.md
	DARTS	DARTS: Differentiable Architecture Search	ICLR-2019-DARTS.md
	GDAS	Searching for A Robust Neural Architecture in Four GPU Hours	CVPR-2019-GDAS.md
	SETN	One-Shot Neural Architecture Search via Self-Evaluated Template Network	ICCV-2019-SETN.md
	NAS-Bench-201	NAS-Bench-201: Extending the Scope of Reproducible Neural Architecture Search	NAS-Bench-201.md
	...	ENAS / REA / REINFORCE / BOHB	NAS-Bench-201.md
HPO	HPO-CG	Hyperparameter optimization with approximate gradient	coming soon
Basic	ResNet	Deep Learning-based Image Classification	BASELINE.md

## History of this repo At first, this repo is `GDAS`, which is used to reproduce results in Searching for A Robust Neural Architecture in Four GPU Hours. After that, more functions and more NAS algorithms are continuely added in this repo. After it supports more than five algorithms, it is upgraded from `GDAS` to `NAS-Projects`. Now, since both HPO and NAS are supported in this repo, it is upgraded from `NAS-Projects` to `AutoDL-Projects`. ## Requirements and Preparation Please install `Python>=3.6` and `PyTorch>=1.3.0`. (You could also run this project in lower versions of Python and PyTorch, but may have bugs). Some visualization codes may require `opencv`. CIFAR and ImageNet should be downloaded and extracted into `$TORCH_HOME`. Some methods use knowledge distillation (KD), which require pre-trained models. Please download these models from [Google Drive](https://drive.google.com/open?id=1ANmiYEGX-IQZTfH8w0aSpj-Wypg-0DR-) (or train by yourself) and save into `.latent-data`. ## Citation If you find that this project helps your research, please consider citing some of the following papers: ``` @inproceedings{dong2020nasbench201, title = {NAS-Bench-201: Extending the Scope of Reproducible Neural Architecture Search}, author = {Dong, Xuanyi and Yang, Yi}, booktitle = {International Conference on Learning Representations (ICLR)}, url = {https://openreview.net/forum?id=HJxyZkBKDr}, year = {2020} } @inproceedings{dong2019tas, title = {Network Pruning via Transformable Architecture Search}, author = {Dong, Xuanyi and Yang, Yi}, booktitle = {Neural Information Processing Systems (NeurIPS)}, year = {2019} } @inproceedings{dong2019one, title = {One-Shot Neural Architecture Search via Self-Evaluated Template Network}, author = {Dong, Xuanyi and Yang, Yi}, booktitle = {Proceedings of the IEEE International Conference on Computer Vision (ICCV)}, pages = {3681--3690}, year = {2019} } @inproceedings{dong2019search, title = {Searching for A Robust Neural Architecture in Four GPU Hours}, author = {Dong, Xuanyi and Yang, Yi}, booktitle = {Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition (CVPR)}, pages = {1761--1770}, year = {2019} } ``` # Others If you want to contribute to this repo, please see [CONTRIBUTING.md](.github/CONTRIBUTING.md). Besides, please follow [CODE-OF-CONDUCT.md](.github/CODE-OF-CONDUCT.md). # License The entire codebase is under [MIT license](LICENSE.md)