Adaptive FNO transformer - official Pytorch implementation

Overview

Adaptive Fourier Neural Operators: Efficient Token Mixers for Transformers

This repository contains PyTorch implementation of the Adaptive Fourier Neural Operator token mixer. Classification code is also provided in the classification folder.

The Adaptive Fourier Neural Operator is a token mixer that learns to mix in the Fourier domain. AFNO is based on a principled foundation of operator learning which allows us to frame token mixing as a continuous global convolution without any dependence on the input resolution. This principle was previously used to design FNO, which solves global convolution efficiently in the Fourier domain and has shown promise in learning challenging PDEs. To handle challenges in visual representation learning such as discontinuities in images and high resolution inputs, we propose principled architectural modifications to FNO which results in memory and computational efficiency. This includes imposing a block-diagonal structure on the channel mixing weights, adaptively sharing weights across tokens, and sparsifying the frequency modes via soft-thresholding and shrinkage. The resulting model is highly parallel with a quasi-linear complexity and has linear memory in the sequence size.

intro

[arXiv]

Usage

Requirements

  • torch>=1.8.0
  • torchvision
  • timm

Note: To use the rfft2 and irfft2 functions in PyTorch, you need to install PyTorch>=1.8.0. Complex numbers are supported after PyTorch 1.6.0, but the fft API is slightly different from the current version.

Installation

pip install -e .

Example

from afno import AFNO1D, AFNO2D

mixer = AFNO1D()
mixer = AFNO2D()

Citation

If you find our work useful in your research, please consider citing:

@inproceedings{guibas2021efficient,
  title={Efficient Token Mixing for Transformers via Adaptive Fourier Neural Operators},
  author={Guibas, John and Mardani, Morteza and Li, Zongyi and Tao, Andrew and Anandkumar, Anima and Catanzaro, Bryan},
  booktitle={International Conference on Learning Representations},
  year={2021}
}
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Comments
  • Need explanation about your experiments

    Need explanation about your experiments

    Hi, first of all thanks for a very interesting paper. Could you clarify in more details the results in table 6. AFNO [Non-Adaptive Weights]? What you mean by Adaptive weights? No MLP? I can see in this repo exist a BFNO module was it used in this experiment?

    opened by bonlime 1
  • Fixed dimension of frequency threshold in 2d

    Fixed dimension of frequency threshold in 2d

    Based on the paper's Figure 3: https://openreview.net/pdf?id=EXHG-A3jlM

    I think the number of modes threshold in 2d https://github.com/NVlabs/AFNO-transformer/blob/941e924ffdb34cb93897b5fd6e22e5965fdc1111/afno/afno2d.py#L54-L55 should be W instead of N since N = H*W, similar applies to bfno2d.py.

    Nice paper btw. @jtguibas

    opened by scaomath 0
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