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This is an official implementation for "Swin Transformer: Hierarchical Vision Transformer using Shifted Windows" on Object Detection and Instance Segmentation.

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Swin Transformer for Object Detection

This repo contains the supported code and configuration files to reproduce object detection results of Swin Transformer. It is based on mmdetection.

Updates

05/11/2021 Models for MoBY are released

04/12/2021 Initial commits

Results and Models

Mask R-CNN

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs config log model
Swin-T ImageNet-1K 1x 43.7 39.8 48M 267G config github/baidu github/baidu
Swin-T ImageNet-1K 3x 46.0 41.6 48M 267G config github/baidu github/baidu
Swin-S ImageNet-1K 3x 48.5 43.3 69M 359G config github/baidu github/baidu

Cascade Mask R-CNN

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs config log model
Swin-T ImageNet-1K 1x 48.1 41.7 86M 745G config github/baidu github/baidu
Swin-T ImageNet-1K 3x 50.4 43.7 86M 745G config github/baidu github/baidu
Swin-S ImageNet-1K 3x 51.9 45.0 107M 838G config github/baidu github/baidu
Swin-B ImageNet-1K 3x 51.9 45.0 145M 982G config github/baidu github/baidu

RepPoints V2

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs
Swin-T ImageNet-1K 3x 50.0 - 45M 283G

Mask RepPoints V2

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs
Swin-T ImageNet-1K 3x 50.3 43.6 47M 292G

Notes:

Results of MoBY with Swin Transformer

Mask R-CNN

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs config log model
Swin-T ImageNet-1K 1x 43.6 39.6 48M 267G config github/baidu github/baidu
Swin-T ImageNet-1K 3x 46.0 41.7 48M 267G config github/baidu github/baidu

Cascade Mask R-CNN

Backbone Pretrain Lr Schd box mAP mask mAP #params FLOPs config log model
Swin-T ImageNet-1K 1x 48.1 41.5 86M 745G config github/baidu github/baidu
Swin-T ImageNet-1K 3x 50.2 43.5 86M 745G config github/baidu github/baidu

Notes:

  • The drop path rate needs to be tuned for best practice.
  • MoBY pre-trained models can be downloaded from MoBY with Swin Transformer.

Usage

Installation

Please refer to get_started.md for installation and dataset preparation.

Inference

# single-gpu testing
python tools/test.py <CONFIG_FILE> <DET_CHECKPOINT_FILE> --eval bbox segm

# multi-gpu testing
tools/dist_test.sh <CONFIG_FILE> <DET_CHECKPOINT_FILE> <GPU_NUM> --eval bbox segm

Training

To train a detector with pre-trained models, run:

# single-gpu training
python tools/train.py <CONFIG_FILE> --cfg-options model.pretrained=<PRETRAIN_MODEL> [model.backbone.use_checkpoint=True] [other optional arguments]

# multi-gpu training
tools/dist_train.sh <CONFIG_FILE> <GPU_NUM> --cfg-options model.pretrained=<PRETRAIN_MODEL> [model.backbone.use_checkpoint=True] [other optional arguments] 

For example, to train a Cascade Mask R-CNN model with a Swin-T backbone and 8 gpus, run:

tools/dist_train.sh configs/swin/cascade_mask_rcnn_swin_tiny_patch4_window7_mstrain_480-800_giou_4conv1f_adamw_3x_coco.py 8 --cfg-options model.pretrained=<PRETRAIN_MODEL> 

Note: use_checkpoint is used to save GPU memory. Please refer to this page for more details.

Apex (optional):

We use apex for mixed precision training by default. To install apex, run:

git clone https://github.com/NVIDIA/apex
cd apex
pip install -v --disable-pip-version-check --no-cache-dir --global-option="--cpp_ext" --global-option="--cuda_ext" ./

If you would like to disable apex, modify the type of runner as EpochBasedRunner and comment out the following code block in the configuration files:

# do not use mmdet version fp16
fp16 = None
optimizer_config = dict(
    type="DistOptimizerHook",
    update_interval=1,
    grad_clip=None,
    coalesce=True,
    bucket_size_mb=-1,
    use_fp16=True,
)

Citing Swin Transformer

@article{liu2021Swin,
  title={Swin Transformer: Hierarchical Vision Transformer using Shifted Windows},
  author={Liu, Ze and Lin, Yutong and Cao, Yue and Hu, Han and Wei, Yixuan and Zhang, Zheng and Lin, Stephen and Guo, Baining},
  journal={arXiv preprint arXiv:2103.14030},
  year={2021}
}

Other Links

Image Classification: See Swin Transformer for Image Classification.

Semantic Segmentation: See Swin Transformer for Semantic Segmentation.

Self-Supervised Learning: See MoBY with Swin Transformer.

Video Recognition, See Video Swin Transformer.

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This is an official implementation for "Swin Transformer: Hierarchical Vision Transformer using Shifted Windows" on Object Detection and Instance Segmentation.

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