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ResNeXt: Aggregated Residual Transformations for Deep Neural Networks

By Saining Xie, Ross Girshick, Piotr Dollár, Zhuowen Tu, Kaiming He

UC San Diego, Facebook AI Research

Table of Contents

  1. Introduction
  2. Citation
  3. Requirements and Dependencies
  4. Training
  5. ImageNet Pretrained Models
  6. Third-party re-implementations

News

  • Congrats to the ILSVRC 2017 classification challenge winner WMW. ResNeXt is the foundation of their new SENet architecture (a ResNeXt-152 (64 x 4d) with the Squeeze-and-Excitation module)!
  • Check out Figure 6 in the new Memory-Efficient Implementation of DenseNets paper for a comparision between ResNeXts and DenseNets. DenseNet cosine is DenseNet trained with cosine learning rate schedule.

Introduction

This repository contains a Torch implementation for the ResNeXt algorithm for image classification. The code is based on fb.resnet.torch.

ResNeXt is a simple, highly modularized network architecture for image classification. Our network is constructed by repeating a building block that aggregates a set of transformations with the same topology. Our simple design results in a homogeneous, multi-branch architecture that has only a few hyper-parameters to set. This strategy exposes a new dimension, which we call “cardinality” (the size of the set of transformations), as an essential factor in addition to the dimensions of depth and width.

teaser

Figure: Training curves on ImageNet-1K. (Left): ResNet/ResNeXt-50 with the same complexity (~4.1 billion FLOPs, ~25 million parameters); (Right): ResNet/ResNeXt-101 with the same complexity (~7.8 billion FLOPs, ~44 million parameters).

Citation

If you use ResNeXt in your research, please cite the paper:

@article{Xie2016,
  title={Aggregated Residual Transformations for Deep Neural Networks},
  author={Saining Xie and Ross Girshick and Piotr Dollár and Zhuowen Tu and Kaiming He},
  journal={arXiv preprint arXiv:1611.05431},
  year={2016}
}

Requirements and Dependencies

See the fb.resnet.torch installation instructions for a step-by-step guide.

Training

Please follow fb.resnet.torch for the general usage of the code, including how to use pretrained ResNeXt models for your own task.

There are two new hyperparameters need to be specified to determine the bottleneck template:

-baseWidth and -cardinality

1x Complexity Configurations Reference Table

baseWidth cardinality
64 1
40 2
24 4
14 8
4 32

To train ResNeXt-50 (32x4d) on 8 GPUs for ImageNet:

th main.lua -dataset imagenet -bottleneckType resnext_C -depth 50 -baseWidth 4 -cardinality 32 -batchSize 256 -nGPU 8 -nThreads 8 -shareGradInput true -data [imagenet-folder]

To reproduce CIFAR results (e.g. ResNeXt 16x64d for cifar10) on 8 GPUs:

th main.lua -dataset cifar10 -bottleneckType resnext_C -depth 29 -baseWidth 64 -cardinality 16 -weightDecay 5e-4 -batchSize 128 -nGPU 8 -nThreads 8 -shareGradInput true

To get comparable results using 2/4 GPUs, you should change the batch size and the corresponding learning rate:

th main.lua -dataset cifar10 -bottleneckType resnext_C -depth 29 -baseWidth 64 -cardinality 16 -weightDecay 5e-4 -batchSize 64 -nGPU 4 -LR 0.05 -nThreads 8 -shareGradInput true
th main.lua -dataset cifar10 -bottleneckType resnext_C -depth 29 -baseWidth 64 -cardinality 16 -weightDecay 5e-4 -batchSize 32 -nGPU 2 -LR 0.025 -nThreads 8 -shareGradInput true

Note: CIFAR datasets will be automatically downloaded and processed for the first time. Note that in the arXiv paper CIFAR results are based on pre-activated bottleneck blocks and a batch size of 256. We found that better CIFAR test acurracy can be achieved using original bottleneck blocks and a batch size of 128.

ImageNet Pretrained Models

ImageNet pretrained models are licensed under CC BY-NC 4.0.

CC BY-NC 4.0

Single-crop (224x224) validation error rate

Network GFLOPS Top-1 Error Download
ResNet-50 (1x64d) ~4.1 23.9 Original ResNet-50
ResNeXt-50 (32x4d) ~4.1 22.2 Download (191MB)
ResNet-101 (1x64d) ~7.8 22.0 Original ResNet-101
ResNeXt-101 (32x4d) ~7.8 21.2 Download (338MB)
ResNeXt-101 (64x4d) ~15.6 20.4 Download (638MB)

Third-party re-implementations

Besides our torch implementation, we recommend to see also the following third-party re-implementations and extensions:

  1. Training code in PyTorch code
  2. Converting ImageNet pretrained model to PyTorch model and source. code
  3. Training code in MXNet and pretrained ImageNet models code
  4. Caffe prototxt, pretrained ImageNet models (with ResNeXt-152), curves codecode