Octave Convolution

MXNet implementation for:

Drop an Octave: Reducing Spatial Redundancy in Convolutional Neural Networks with Octave Convolution

ImageNet

Ablation

• Loss: Softmax
• Learning rate: Cosine (warm-up: 5 epochs, lr: 0.4)
• MXNet API: Symbol API

Model	baseline	alpha = 0.125	alpha = 0.25	alpha = 0.5	alpha = 0.75
DenseNet-121	75.4 / 92.7	76.1 / 93.0	75.9 / 93.1	--	--
ResNet-26	73.2 / 91.3	75.8 / 92.6	76.1 / 92.6	75.5 / 92.5	74.6 / 92.1
ResNet-50	77.0 / 93.4	78.2 / 93.9	78.0 / 93.8	77.4 / 93.6	76.7 / 93.0
SE-ResNet-50	77.6 / 93.6	78.7 / 94.1	78.4 / 94.0	77.9 / 93.8	77.4 / 93.5
ResNeXt-50	78.4 / 94.0	--	78.8 / 94.2	78.4 / 94.0	77.5 / 93.6
ResNet-101	78.5 / 94.1	79.2 / 94.4	79.2 / 94.4	78.7 / 94.1	--
ResNeXt-101	79.4 / 94.6	--	79.6 / 94.5	78.9 / 94.4	--
ResNet-200	79.6 / 94.7	80.0 / 94.9	79.8 / 94.8	79.5 / 94.7	--

Note:

• Top-1 / Top-5, single center crop accuracy is shown in the table. (testing script)
• All residual networks in ablation study adopt pre-actice version[1] for convenience.

Others

• Learning rate: Cosine (warm-up: 5 epochs, lr: 0.4)
• MXNet API: Gluon API

Model	alpha	label smoothing[2]	mixup[3]	#Params	#FLOPs	Top1 / Top5
0.75 MobileNet (v1)	.375			2.6 M	213 M	70.5 / 89.5
1.0 MobileNet (v1)	.5			4.2 M	321 M	72.5 / 90.6
1.0 MobileNet (v2)	.375	Yes		3.5 M	256 M	72.0 / 90.7
1.125 MobileNet (v2)	.5	Yes		4.2 M	295 M	73.0 / 91.2
Oct-ResNet-152	.125	Yes	Yes	60.2 M	10.9 G	81.4 / 95.4
Oct-ResNet-152 + SE	.125	Yes	Yes	66.8 M	10.9 G	81.6 / 95.7

Citation

@article{chen2019drop,
  title={Drop an Octave: Reducing Spatial Redundancy in Convolutional Neural Networks with Octave Convolution},
  author={Chen, Yunpeng and Fan, Haoqi and Xu, Bing and Yan, Zhicheng and Kalantidis, Yannis and Rohrbach, Marcus and Yan, Shuicheng and Feng, Jiashi},
  journal={Proceedings of the IEEE International Conference on Computer Vision},
  year={2019}
}

Third-party Implementations

• PyTorch Implementation with imagenet training log and pre-trained model by d-li14
• MXNet Implementation with imagenet training log by terrychenism
• Keras Implementation with cifar10 results by koshian2

Acknowledgement

• Thanks MXNet, Gluon-CV and TVM!
• Thanks @Ldpe2G for sharing the code for calculating the #FLOPs (link)
• Thanks Min Lin (Mila), Xin Zhao (Qihoo Inc.), Tao Wang (NUS) for helpful discussions on the code development.

Reference

[1] He K, et al "Identity Mappings in Deep Residual Networks".

[2] Christian S, et al "Rethinking the Inception Architecture for Computer Vision"

[3] Zhang H, et al. "mixup: Beyond empirical risk minimization.".

License

The code and the models are MIT licensed, as found in the LICENSE file.