The official pytorch implementation of ViTAE: Vision Transformer Advanced by Exploring Intrinsic Inductive Bias

Related tags

Data AnalysisViTAE
Overview

ViTAE: Vision Transformer Advanced by Exploring Intrinsic Inductive Bias

Introduction | Updates | Usage | Results&Pretrained Models | Statement |

Introduction

This repository contains the code, models, test results for the paper ViTAE: Vision Transformer Advanced by Exploring Intrinsic Inductive Bias. It contains several reduction cells and normal cells to introduce scale-invariance and locality into vision transformers.

Updates

07/12/2021 The code is released!

19/10/2021 The paper is accepted by Neurips'2021! The code will be released soon!

06/08/2021 The paper is post on arxiv! The code will be made public available once cleaned up.

Usage

Install

  • Clone this repo:
git clone https://github.com/Annbless/ViTAE.git
cd ViTAE
  • Create a conda virtual environment and activate it:
conda create -n vitae python=3.7 -y
conda activate vitae
conda install pytorch==1.8.1 torchvision==0.9.1 cudatoolkit=10.2 -c pytorch -c conda-forge
  • Install timm==0.3.4:
pip install timm==0.3.4
  • Install Apex:
git clone https://github.com/NVIDIA/apex
cd apex
git reset --hard a651e2c24ecf97cbf367fd3f330df36760e1c597
pip install -v --disable-pip-version-check --no-cache-dir --global-option="--cpp_ext" --global-option="--cuda_ext" ./
  • Install other requirements:
pip install pyyaml ipdb

Data Prepare

We use standard ImageNet dataset, you can download it from http://image-net.org/. The file structure should look like:

$ tree data
imagenet
├── train
│   ├── class1
│   │   ├── img1.jpeg
│   │   ├── img2.jpeg
│   │   └── ...
│   ├── class2
│   │   ├── img3.jpeg
│   │   └── ...
│   └── ...
└── val
    ├── class1
    │   ├── img4.jpeg
    │   ├── img5.jpeg
    │   └── ...
    ├── class2
    │   ├── img6.jpeg
    │   └── ...
    └── ...

Evaluation

Take ViTAE_basic_7 as an example, to evaluate the pretrained ViTAE model on ImageNet val, run

python validate.py [ImageNetPath] --model ViTAE_basic_7 --eval_checkpoint [Checkpoint Path]

Training

Take ViTAE_basic_7 as an example, to train the ViTAE model on ImageNet with 4 GPU and 512 batch size, run

python -m torch.distributed.launch --nproc_per_node=4 main.py [ImageNetPath] --model ViTAE_basic_7 -b 128 --lr 1e-3 --weight-decay .03 --img-size 224 --amp

The trained model file will be saved under the output folder

Results

Main Results on ImageNet-1K with pretrained models

name resolution [email protected] [email protected] [email protected] Pretrained
ViTAE-T 224x224 75.3 92.7 82.9 Coming Soon
ViTAE-6M 224x224 77.9 94.1 84.9 Coming Soon
ViTAE-13M 224x224 81.0 95.4 86.9 Coming Soon
ViTAE-S 224x224 82.0 95.9 87.0 Coming Soon

Statement

This project is for research purpose only. For any other questions please contact yufei.xu at outlook.com qmzhangzz at hotmail.com .

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