Neural Architecture Optimization
This is the Code for the Paper Neural Architecture Optimization.
Authors: Renqian Luo*, Fei Tian*, Tao Qin, En-Hong Chen, Tie-Yan Liu. *=equal contribution
NEW:
For Pytorch implementation of cnn part, please visit NAO_pytorch, which includes the results on Imagenet.
License
The codes and models in this repo are released under the GNU GPLv3 license.
Citation
If you find this work helpful in your research, please use the following BibTex entry to cite our paper.
@inproceedings{NAO,
title={Neural Architecture Optimization},
author={Renqian Luo and Fei Tian and Tao Qin and En-Hong Chen and Tie-Yan Liu},
booktitle={Advances in neural information processing systems},
year={2018}
}
This is not an official Microsoft product.
Requirment and Dependency
Tensorflow >= 1.4.0
Pytorch == 0.3.1
CIFAR-10
With Weight Sharing
To Search Architectures
To search the CNN architectures for CIFAR-10 with weight sharing, please refer to:
| Script | Data | GPU | Search Time |
|---|---|---|---|
| ./NAO-WS/cnn/train_search.sh | Google Drive Baidu Pan |
1 V100 | 7.5 hours |
cd NAO-WS/cnn
bash train_search.sh
Once the search is done, the final pool of architectures will be in models/child/arch_pool. You can choose top-5 architectures to run them using train_final.sh and pass in the arch by setting the fixed_arc argument.
To obtain the best architecture, we perform grid search on the hyper-parameters for the top-5 architectures discovered.
To Train Discovered Architectures
To train a fixed CNN architecture, for example, our best architecture discovered, please refer to:
| Script | GPU | Time | Model Checkpoint | Parameter Size | Error Rate |
|---|---|---|---|---|---|
| ./NAO-WS/cnn/train_final.sh | 1 P40 | 42 hours | Google Drive Baidu Pan |
2.5M | 3.50 |
and run:
cd NAO-WS/cnn
bash train_final.sh
If you want to run it with cutout, add --child_cutout_size=16 in the script.
To Directly Evaluate an Architecture
To directly evaluate an architecture, for example, our best architecture discovered, please download the checkpoint above, move all the files to NAO-WS/cnn/models folder and run:
cd NAO-WS/cnn
bash test_final.sh #This should give you an accuracy of 96.50% (error rate of 3.50%) without cutout
Without Weight Sharing
To Search Architectures
Please refer to details in ./NAO/README.md
To Train Discovered Architectures
Please download data at Google Drive Baidu Pan
You can train the best architecture discovered (show in Fig. 1 in the Appendix of the paper) using:
| Dataset | Script | GPU | Time | Checkpoint | Error Rate (Test) |
|---|---|---|---|---|---|
| CIFAR-10 | ./NAO/cnn/train_cifar10_final.sh | 2 P40 | 5 days | Google Drive Baidu Pan |
2.10% |
| CIFAR-100 | ./NAO/cnn/train_cifar100_final.sh | 2 P40 | 5 days | Google Drive Baidu Pan |
14.80% |
| Imagenet | refer to NAO_pytorch |
4 P40 | 6 days | TBD | 25.70% |
by running:
cd NAO/cnn
bash train_cifar10_final.sh
bash train_cifar100_final.sh
To Directly Evaluate an Architecturethe
To directly evaluate an architecture, for example, our best architecture discovered, please download the checkpoint above, move all the files to NAO/cnn/models/cifar10 or NAO/cnn/models/cifar100/ , and run:
cd NAO/cnn
bash test_cifar10.sh #This should give you an accuracy of 97.94% (error rate of 2.06%)
bash test_cifar100.sh #This should give you an accuracy of 85.20% (error rate of 14.81%)
PTB
To Search Architectures
To search the RNN architectures for PTB with weight sharing, please refer to:
| Script | GPU | Search Time |
|---|---|---|
| ./NAO-WS/rnn/train_search.sh | 1 V100 | 8 hours |
cd NAO-WS/rnn
bash train_search.sh
Once the search is done, the final pool of architectures will be in models/child/arch_pool. You can choose top-10 architectures to run them using train_final.sh and pass in the arch by setting the arch argument.
To Train Discovered Architectures
To train a fixed RNN architecture, for example, our best architecture discovered, please refer to:
| Script | Model Checkpoint | GPU | Time | PPL (Test) |
|---|---|---|---|---|
| ./NAO-WS/rnn/train_final.sh | Google Drive Baidu Pan |
1 V100 | 4 days | 56.80 |
cd NAO-WS/rnn
bash train_final.sh #This should give you a test ppl of 56.66 at the end of training
To Directly Evaluate an Architecture
To directly evaluate an architecture, for example, our best architecture discovered, please download the checkpoint above, move all the files to ./NAO/rnn/models folder and run:
cd NAO-WS/cnn
bash test_final.sh #This should give you a test ppl of 56.66
Without Weight Sharing
To Search Architectures
Please refer to details in NAO/README.md
To Train Discovered Architectures
You can train the best architecture discovered (showin in Fig. 2 in the Appendix of the paper) using:
| Dataset | Script | GPU | Time | Checkpoint | PPL (Test) |
|---|---|---|---|---|---|
| PTB | ./NAO/rnn/train_ptb_final.sh | 1 V100 | 4 days | Google Drive Baidu Pan |
56.02 |
| WikiText-2 | ./NAO/rnn/train_wt2_final.sh | 1 V100 | 4 days | Google Drive Baidu Pan |
67.10 |
To Directly Evaluate an Architecture
To directly evaluate an architecture, for example, our best architecture discovered, please download the checkpoint above, move all the files to NAO/rnn/models/ptb or NAO/rnn/models/wt2 , and run:
cd NAO/rnn
bash test_ptb.sh #This should give you a test ppl of 56.02
bash test_wt2.sh #This should give you a test ppl of 67.10
Acknowledgements
We thank Hieu Pham for the discussion on some details of ENAS implementation, and Hanxiao Liu for the code base of language modeling task in DARTS . We furthermore thank the anonymous reviewers for their constructive comments.