By Zhenda Xie*, Yutong Lin*, Zhuliang Yao, Zheng Zhang, Qi Dai, Yue Cao and Han Hu
This repo is the official implementation of "Self-Supervised Learning with Swin Transformers".
A important feature of this codebase is to include Swin Transformer
as one of the backbones, such that we can evaluate the transferring performance of the learnt representations on down-stream tasks of object detection and semantic segmentation. This evaluation is usually not included in previous works due to the use of ViT/DeiT, which has not been well tamed for down-stream tasks.
It currently includes code and models for the following tasks:
Self-Supervised Learning and Linear Evaluation: Included in this repo. See get_started.md for a quick start.
Transferring Performance on Object Detection/Instance Segmentation: See Swin Transformer for Object Detection.
Transferring Performance on Semantic Segmentation: See Swin Transformer for Semantic Segmentation.
first work
to evaluate the transferring performance on down-stream tasks for SSL using Transformers05/13/2021
05/11/2021
Initial Commits:
MoBY (the name MoBY
stands for MoCo v2 with BYOL) is initially described in arxiv, which is a combination of two popular self-supervised learning approaches: MoCo v2 and BYOL. It inherits the momentum design, the key queue, and the contrastive loss used in MoCo v2, and inherits the asymmetric encoders, asymmetric data augmentations and the momentum scheduler in BYOL.
MoBY achieves reasonably high accuracy on ImageNet-1K linear evaluation: 72.8\% and 75.3\% top-1 accuracy using DeiT and Swin-T, respectively, by 300-epoch training. The performance is on par with recent works of MoCo v3 and DINO which adopt DeiT as the backbone, but with much lighter tricks.
Swin Transformer (the name Swin
stands for Shifted window) is initially described in arxiv, which capably serves as a general-purpose backbone for computer vision. It achieves strong performance on COCO object detection (58.7 box AP
and 51.1 mask AP
on test-dev) and ADE20K semantic segmentation (53.5 mIoU
on val), surpassing previous models by a large margin.
We involve Swin Transformer as one of backbones to evaluate the transferring performance on down-stream tasks such as object detection. This differentiate this codebase with other approaches studying SSL on Transformer architectures.
Method | Architecture | Epochs | Params | FLOPs | img/s | Top-1 Accuracy | Pre-trained Checkpoint | Linear Checkpoint |
---|---|---|---|---|---|---|---|---|
Supervised | Swin-T | 300 | 28M | 4.5G | 755.2 | 81.2 | Here | |
MoBY | Swin-T | 100 | 28M | 4.5G | 755.2 | 70.9 | [TBA]() | |
MoBY1 | Swin-T | 100 | 28M | 4.5G | 755.2 | 72.0 | [TBA]() | |
MoBY | DeiT-S | 300 | 22M | 4.6G | 940.4 | 72.8 | GoogleDrive/GitHub/Baidu | GoogleDrive/GitHub/Baidu |
MoBY | Swin-T | 300 | 28M | 4.5G | 755.2 | 75.3 | GoogleDrive/GitHub/Baidu | GoogleDrive/GitHub/Baidu |
1 denotes the result of MoBY which has adopted a trick from MoCo v3 that replace theLayerNorm layers before the MLP blocks by BatchNorm.
Access code for baidu
is moby
.
COCO Object Detection (2017 val)
Backbone | Method | Model | Schd. | box mAP | mask mAP | Params | FLOPs |
---|---|---|---|---|---|---|---|
Swin-T | Mask R-CNN | Sup. | 1x | 43.7 | 39.8 | 48M | 267G |
Swin-T | Mask R-CNN | MoBY | 1x | 43.6 | 39.6 | 48M | 267G |
Swin-T | Mask R-CNN | Sup. | 3x | 46.0 | 41.6 | 48M | 267G |
Swin-T | Mask R-CNN | MoBY | 3x | 46.0 | 41.7 | 48M | 267G |
Swin-T | Cascade Mask R-CNN | Sup. | 1x | 48.1 | 41.7 | 86M | 745G |
Swin-T | Cascade Mask R-CNN | MoBY | 1x | 48.1 | 41.5 | 86M | 745G |
Swin-T | Cascade Mask R-CNN | Sup. | 3x | 50.4 | 43.7 | 86M | 745G |
Swin-T | Cascade Mask R-CNN | MoBY | 3x | 50.2 | 43.5 | 86M | 745G |
ADE20K Semantic Segmentation (val)
Backbone | Method | Model | Crop Size | Schd. | mIoU | mIoU (ms+flip) | Params | FLOPs |
---|---|---|---|---|---|---|---|---|
Swin-T | UPerNet | Sup. | 512x512 | 160K | 44.51 | 45.81 | 60M | 945G |
Swin-T | UPerNet | MoBY | 512x512 | 160K | 44.06 | 45.58 | 60M | 945G |
@article{xie2021moby,
title={Self-Supervised Learning with Swin Transformers},
author={Zhenda Xie and Yutong Lin and Zhuliang Yao and Zheng Zhang and Qi Dai and Yue Cao and Han Hu},
journal={arXiv preprint arXiv:2105.04553},
year={2021}
}
@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}
}