English

S$^2$-MLP: Spatial-Shift MLP Architecture for Vision

Computer Vision and Pattern Recognition 2021-06-24 v2 Artificial Intelligence Machine Learning

Abstract

Recently, visual Transformer (ViT) and its following works abandon the convolution and exploit the self-attention operation, attaining a comparable or even higher accuracy than CNNs. More recently, MLP-Mixer abandons both the convolution and the self-attention operation, proposing an architecture containing only MLP layers. To achieve cross-patch communications, it devises an additional token-mixing MLP besides the channel-mixing MLP. It achieves promising results when training on an extremely large-scale dataset. But it cannot achieve as outstanding performance as its CNN and ViT counterparts when training on medium-scale datasets such as ImageNet1K and ImageNet21K. The performance drop of MLP-Mixer motivates us to rethink the token-mixing MLP. We discover that the token-mixing MLP is a variant of the depthwise convolution with a global reception field and spatial-specific configuration. But the global reception field and the spatial-specific property make token-mixing MLP prone to over-fitting. In this paper, we propose a novel pure MLP architecture, spatial-shift MLP (S2^2-MLP). Different from MLP-Mixer, our S2^2-MLP only contains channel-mixing MLP. We utilize a spatial-shift operation for communications between patches. It has a local reception field and is spatial-agnostic. It is parameter-free and efficient for computation. The proposed S2^2-MLP attains higher recognition accuracy than MLP-Mixer when training on ImageNet-1K dataset. Meanwhile, S2^2-MLP accomplishes as excellent performance as ViT on ImageNet-1K dataset with considerably simpler architecture and fewer FLOPs and parameters.

Keywords

Cite

@article{arxiv.2106.07477,
  title  = {S$^2$-MLP: Spatial-Shift MLP Architecture for Vision},
  author = {Tan Yu and Xu Li and Yunfeng Cai and Mingming Sun and Ping Li},
  journal= {arXiv preprint arXiv:2106.07477},
  year   = {2021}
}
R2 v1 2026-06-24T03:10:47.934Z