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[NeurIPS 2023] MCUFormer: Deploying Vision Transformers on Microcontrollers with Limited Memory

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MCUFormer: Deploying Vision Transformers on Microcontrollers with Limited Memory

This is an official implementation of AutoFormer.

MCUFormer is an one-shot network architecture search (NAS) to discover the optimal architecture with highest task performance given the memory budget from the microcontrollers. For the construction of the inference operator library of vision transformers, we schedule the memory buffer during inference through operator integration, patch embedding decomposition, and token overwriting, allowing the memory buffer to be fully utilized to adapt to the forward pass of the vision transformer.

Environment Setup

To set up the enviroment you can easily run the following command:

conda create -n MCUFormer python=3.7
conda activate MCUFormer
pip install -r requirements.txt

Data Preparation

You need to first download the ImageNet-2012 to the folder ./data/imagenet and move the validation set to the subfolder ./data/imagenet/val. To move the validation set, you cloud use the following script: https://raw.githubusercontent.com/soumith/imagenetloader.torch/master/valprep.sh

The directory structure is the standard layout as following.

/path/to/imagenet/
  train/
    class1/
      img1.jpeg
    class2/
      img2.jpeg
  val/
    class1/
      img3.jpeg
    class/2
      img4.jpeg

Quick Start

We provide Supernet Train, Search, Test code of AutoFormer as follows.

Supernet Train

You can run the following command to get the optimal supernet.

python -m torch.distributed.launch --nproc_per_node=8 --use_env supernet_train.py --data-path /PATH/TO/IMAGENT --gp \
--change_qk --relative_position --mode super --dist-eval --load-pretrained-model \
--cfg ./experiments/supernet/supernet-T.yaml --cfg-new  ./experiments/supernet/supernet-T-new.yaml \
--epochs 500 --warmup-epochs 5 --lr 1e-4 --super_epoch 1 --step-num 7 \
--model deit_tiny_patch16_224 --batch-size 128 --output /OUTPUT_PATH

Search

We run our evolution search on part of the ImageNet training dataset and use the validation set of ImageNet as the test set for fair comparison. To generate the subImagenet in /PATH/TO/IMAGENET, you could simply run:

python ./lib/subImageNet.py --data-path /PATH/TO/IMAGENT

After obtaining the subImageNet and training of the supernet. You can run the following command to search the optimal subnet. Please remember to config the specific constraint in this evolution search using --memory-constraint:

python -m torch.distributed.launch --nproc_per_node=8 --use_env evolution.py --data-path /PATH/TO/IMAGENT --gp \
--change_qk --relative_position --dist-eval --input-size 240 --resume /PATH/TO/CHECKPOINT \
--cfg ./experiments/supernet/supernet-T.yaml --cfg-new  ./experiments/supernet/supernet-T-new.yaml \
--memory-constraint YOUR/CONFIG  --data-set EVO_IMNET --output_dir ./result/evolution_0.9_20 /OUTPUT_PATH 

Todo List

We are fixing the code of detection and we will realease the enging code in few days.

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[NeurIPS 2023] MCUFormer: Deploying Vision Transformers on Microcontrollers with Limited Memory

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