AutoML for Model Compression (AMC)

This repo contains the PyTorch implementation for paper AMC: AutoML for Model Compression and Acceleration on Mobile Devices.

Reference

If you find the repo useful, please kindly cite our paper:

@inproceedings{he2018amc,
  title={AMC: AutoML for Model Compression and Acceleration on Mobile Devices},
  author={He, Yihui and Lin, Ji and Liu, Zhijian and Wang, Hanrui and Li, Li-Jia and Han, Song},
  booktitle={European Conference on Computer Vision (ECCV)},
  year={2018}
}

Other papers related to automated model design:

• HAQ: Hardware-Aware Automated Quantization with Mixed Precision (CVPR 2019)

• ProxylessNAS: Direct Neural Architecture Search on Target Task and Hardware (ICLR 2019)

Training AMC

Current code base supports the automated pruning of MobileNet on ImageNet. The pruning of MobileNet consists of 3 steps: 1. strategy search; 2. export the pruned weights; 3. fine-tune from pruned weights.

To conduct the full pruning procedure, follow the instructions below (results might vary a little from the paper due to different random seed):

1. Strategy Search

   To search the strategy on MobileNet ImageNet model, first get the pretrained MobileNet checkpoint on ImageNet by running:

   bash ./checkpoints/download.sh
   

   It will also download our 50% FLOPs compressed model. Then run the following script to search under 50% FLOPs constraint:

   bash ./scripts/search_mobilenet_0.5flops.sh
   

   Results may differ due to different random seed. The strategy we found and reported in the paper is:

   [3, 24, 48, 96, 80, 192, 200, 328, 352, 368, 360, 328, 400, 736, 752]
   

2. Export the Pruned Weights

   After searching, we need to export the pruned weights by running:

   bash ./scripts/export_mobilenet_0.5flops.sh
   

   Also we need to modify MobileNet file to support the new pruned model (here it is already done in models/mobilenet.py)

3. Fine-tune from Pruned Weightsa

   After exporting, we need to fine-tune from the pruned weights. For example, we can fine-tune using cosine learning rate for 150 epochs by running:

   bash ./scripts/finetune_mobilenet_0.5flops.sh
   

AMC Compressed Model

We also provide the models and weights compressed by our AMC method. We provide compressed MobileNet-V1 and MobileNet-V2 in both PyTorch and TensorFlow format here.

Detailed statistics are as follows:

Dependencies

Current code base is tested under following environment:

1. Python 3.7.3
2. PyTorch 1.1.0
3. torchvision 0.2.1
4. NumPy 1.14.3
5. SciPy 1.1.0
6. scikit-learn 0.19.1
7. tensorboardX
8. ImageNet dataset

Contact

To contact the authors:

Ji Lin, [email protected]

Song Han, [email protected]