hustvl / YOLOS

[NeurIPS 2021] You Only Look at One Sequence
https://arxiv.org/abs/2106.00666
MIT License
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computer-vision object-detection transformer vision-transformer
# You Only :eyes: One Sequence

TL;DR: We study the transferability of the vanilla ViT pre-trained on mid-sized ImageNet-1k to the more challenging COCO object detection benchmark.

:man_technologist: This project is under active development :woman_technologist: :

You Only Look at One Sequence: Rethinking Transformer in Vision through Object Detection

by Yuxin Fang1 *, Bencheng Liao1 *, Xinggang Wang1 :email:, Jiemin Fang2, 1, Jiyang Qi1, Rui Wu3, Jianwei Niu3, Wenyu Liu1.

1 School of EIC, HUST, 2 Institute of AI, HUST, 3 Horizon Robotics.

(*) equal contribution, (:email:) corresponding author.

arXiv technical report (arXiv 2106.00666)


You Only Look at One Sequence (YOLOS)

The Illustration of YOLOS

yolos

Highlights

Directly inherited from ViT (DeiT), YOLOS is not designed to be yet another high-performance object detector, but to unveil the versatility and transferability of Transformer from image recognition to object detection. Concretely, our main contributions are summarized as follows:

Results

Model Pre-train Epochs ViT (DeiT) Weight / Log Fine-tune Epochs Eval Size YOLOS Checkpoint / Log AP @ COCO val
YOLOS-Ti 300 FB 300 512 Baidu Drive, Google Drive / Log 28.7
YOLOS-S 200 Baidu Drive, Google Drive / Log 150 800 Baidu Drive, Google Drive / Log 36.1
YOLOS-S 300 FB 150 800 Baidu Drive, Google Drive / Log 36.1
YOLOS-S (dWr) 300 Baidu Drive, Google Drive / Log 150 800 Baidu Drive, Google Drive / Log 37.6
YOLOS-B 1000 FB 150 800 Baidu Drive, Google Drive / Log 42.0

Notes:

Requirement

This codebase has been developed with python version 3.6, PyTorch 1.5+ and torchvision 0.6+:

conda install -c pytorch pytorch torchvision

Install pycocotools (for evaluation on COCO) and scipy (for training):

conda install cython scipy
pip install -U 'git+https://github.com/cocodataset/cocoapi.git#subdirectory=PythonAPI'

Data preparation

Download and extract COCO 2017 train and val images with annotations from http://cocodataset.org. We expect the directory structure to be the following:

path/to/coco/
  annotations/  # annotation json files
  train2017/    # train images
  val2017/      # val images

Training

Before finetuning on COCO, you need download the ImageNet pretrained model to the /path/to/YOLOS/ directory

To train the YOLOS-Ti model in the paper, run this command:

python -m torch.distributed.launch \
    --nproc_per_node=8 \
    --use_env main.py \
    --coco_path /path/to/coco
    --batch_size 2 \
    --lr 5e-5 \
    --epochs 300 \
    --backbone_name tiny \
    --pre_trained /path/to/deit-tiny.pth\
    --eval_size 512 \
    --init_pe_size 800 1333 \
    --output_dir /output/path/box_model
To train the YOLOS-S model with 200 epoch pretrained Deit-S in the paper, run this command:


python -m torch.distributed.launch \
    --nproc_per_node=8 \
    --use_env main.py \
    --coco_path /path/to/coco
    --batch_size 1 \
    --lr 2.5e-5 \
    --epochs 150 \
    --backbone_name small \
    --pre_trained /path/to/deit-small-200epoch.pth\
    --eval_size 800 \
    --init_pe_size 512 864 \
    --mid_pe_size 512 864 \
    --output_dir /output/path/box_model

To train the YOLOS-S model with 300 epoch pretrained Deit-S in the paper, run this command:

python -m torch.distributed.launch \
    --nproc_per_node=8 \
    --use_env main.py \
    --coco_path /path/to/coco
    --batch_size 1 \
    --lr 2.5e-5 \
    --epochs 150 \
    --backbone_name small \
    --pre_trained /path/to/deit-small-300epoch.pth\
    --eval_size 800 \
    --init_pe_size 512 864 \
    --mid_pe_size 512 864 \
    --output_dir /output/path/box_model

To train the YOLOS-S (dWr) model in the paper, run this command:

python -m torch.distributed.launch \
    --nproc_per_node=8 \
    --use_env main.py \
    --coco_path /path/to/coco
    --batch_size 1 \
    --lr 2.5e-5 \
    --epochs 150 \
    --backbone_name small_dWr \
    --pre_trained /path/to/deit-small-dWr-scale.pth\
    --eval_size 800 \
    --init_pe_size 512 864 \
    --mid_pe_size 512 864 \
    --output_dir /output/path/box_model
To train the YOLOS-B model in the paper, run this command:

python -m torch.distributed.launch \
    --nproc_per_node=8 \
    --use_env main.py \
    --coco_path /path/to/coco
    --batch_size 1 \
    --lr 2.5e-5 \
    --epochs 150 \
    --backbone_name base \
    --pre_trained /path/to/deit-base.pth\
    --eval_size 800 \
    --init_pe_size 800 1344 \
    --mid_pe_size 800 1344 \
    --output_dir /output/path/box_model

Evaluation

To evaluate YOLOS-Ti model on COCO, run:

python -m torch.distributed.launch --nproc_per_node=8 --use_env main.py --coco_path /path/to/coco --batch_size 2 --backbone_name tiny --eval --eval_size 512 --init_pe_size 800 1333 --resume /path/to/YOLOS-Ti

To evaluate YOLOS-S model on COCO, run:

python -m torch.distributed.launch --nproc_per_node=8 --use_env main.py --coco_path /path/to/coco --batch_size 1 --backbone_name small --eval --eval_size 800 --init_pe_size 512 864 --mid_pe_size 512 864 --resume /path/to/YOLOS-S

To evaluate YOLOS-S (dWr) model on COCO, run:

python -m torch.distributed.launch --nproc_per_node=8 --use_env main.py --coco_path /path/to/coco --batch_size 1 --backbone_name small_dWr --eval --eval_size 800 --init_pe_size 512 864 --mid_pe_size 512 864 --resume /path/to/YOLOS-S(dWr)

To evaluate YOLOS-B model on COCO, run:

python -m torch.distributed.launch --nproc_per_node=8 --use_env main.py --coco_path /path/to/coco --batch_size 1 --backbone_name base --eval --eval_size 800 --init_pe_size 800 1344 --mid_pe_size 800 1344 --resume /path/to/YOLOS-B

Visualization

  1. To Get visualization in the paper, you need the finetuned YOLOS models on COCO, run following command to get 100 Det-Toks prediction on COCO val split, then it will generate /path/to/YOLOS/visualization/modelname-eval-800-eval-pred.json
    python cocoval_predjson_generation.py --coco_path /path/to/coco --batch_size 1 --backbone_name small --eval --eval_size 800 --init_pe_size 512 864 --mid_pe_size 512 864 --resume /path/to/yolos-s-model.pth --output_dir ./visualization
  2. To get all ground truth object categories on all images from COCO val split, run following command to generate /path/to/YOLOS/visualization/coco-valsplit-cls-dist.json
    python cocoval_gtclsjson_generation.py --coco_path /path/to/coco --batch_size 1 --output_dir ./visualization
  3. To visualize the distribution of Det-Toks' bboxs and categories, run following command to generate .png files in /path/to/YOLOS/visualization/
    python visualize_dettoken_dist.py --visjson /path/to/YOLOS/visualization/modelname-eval-800-eval-pred.json --cococlsjson /path/to/YOLOS/visualization/coco-valsplit-cls-dist.json

    cls cls

Det-Tok-41 Det-Tok-96

Acknowledgement :heart:

This project is based on DETR (paper, code), DeiT (paper, code), DINO (paper, code) and timm. Thanks for their wonderful works.

Citation

If you find our paper and code useful in your research, please consider giving a star :star: and citation :pencil: :

@article{YOLOS,
  title={You Only Look at One Sequence: Rethinking Transformer in Vision through Object Detection},
  author={Fang, Yuxin and Liao, Bencheng and Wang, Xinggang and Fang, Jiemin and Qi, Jiyang and Wu, Rui and Niu, Jianwei and Liu, Wenyu},
  journal={arXiv preprint arXiv:2106.00666},
  year={2021}
}