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- Tested with PyTorch 1.12.0 (Ubuntu / GTX 2080 Ti)
- A New helper function
upgrade_to_orn
for easy model conversion. - Predefined ORN-upgraded models (OR-VGG, OR-ResNet, OR-Inception, OR-WRN, etc.).
Please check the pytorch-v2 branch for more details.
The torch branch contains:
- the official torch implementation of ORN.
- the MNIST-Variants demo.
Please follow the instruction below to install it and run the experiment demo.
- Linux (tested on ubuntu 14.04LTS)
- NVIDIA GPU + CUDA CuDNN (CPU mode and CUDA without CuDNN mode are also available but significantly slower)
- Torch7
You can setup everything via a single command wget -O - https://git.io/vHCMI | bash
or do it manually in case something goes wrong:
-
install the dependencies (required by the demo code):
-
clone the torch branch:
# git version must be greater than 1.9.10 git clone https://github.com/ZhouYanzhao/ORN.git -b torch --single-branch ORN.torch cd ORN.torch export DIR=$(pwd)
-
install ORN:
cd $DIR/install # install the CPU/GPU/CuDNN version ORN. bash install.sh
-
unzip the MNIST dataset:
cd $DIR/demo/datasets unzip MNIST
-
run the MNIST-Variants demo:
cd $DIR/demo # you can modify the script to test different hyper-parameters bash ./scripts/Train_MNIST.sh
If you run into 'cudnn.find' not found
, update Torch7 to the latest version via cd <TORCH_DIR> && bash ./update.sh
then re-install everything.
CIFAR 10/100
You can train the OR-WideResNet model (converted from WideResNet by simply replacing Conv layers with ORConv layers) on CIFAR dataset with WRN.
dataset=cifar10_original.t7 model=or-wrn widen_factor=4 depth=40 ./scripts/train_cifar.sh
With exactly the same settings, ORN-augmented WideResNet achieves state-of-the-art result while using significantly fewer parameters.
Network | Params | CIFAR-10 (ZCA) | CIFAR-10 (mean/std) | CIFAR-100 (ZCA) | CIFAR-100 (mean/std) |
---|---|---|---|---|---|
DenseNet-100-12-dropout | 7.0M | - | 4.10 | - | 20.20 |
DenseNet-190-40-dropout | 25.6M | - | 3.46 | - | 17.18 |
WRN-40-4 | 8.9M | 4.97 | 4.53 | 22.89 | 21.18 |
WRN-28-10-dropout | 36.5M | 4.17 | 3.89 | 20.50 | 18.85 |
WRN-40-10-dropout | 55.8M | - | 3.80 | - | 18.3 |
ORN-40-4(1/2) | 4.5M | 4.13 | 3.43 | 21.24 | 18.82 |
ORN-28-10(1/2)-dropout | 18.2M | 3.52 | 2.98 | 19.22 | 16.15 |
Table.1 Test error (%) on CIFAR10/100 dataset with flip/translation augmentation)
ImageNet
The effectiveness of ORN is further verified on large scale data. The OR-ResNet-18 model upgraded from ResNet-18 yields significant better performance when using similar parameters.
Network | Params | Top1-Error | Top5-Error |
---|---|---|---|
ResNet-18 | 11.7M | 30.614 | 10.98 |
OR-ResNet-18 | 11.4M | 28.916 | 9.88 |
Table.2 Validation error (%) on ILSVRC-2012 dataset.
You can use facebook.resnet.torch to train the OR-ResNet-18 model from scratch or finetune it on your data by using the pre-trained weights.
-- To fill the model with the pre-trained weights:
model = require('or-resnet.lua')({tensorType='torch.CudaTensor', pretrained='or-resnet18_weights.t7'})
A more specific demo notebook of using the pre-trained OR-ResNet to classify images can be found here.
Please check the pytorch-v2 branch for more details.
The pytorch branch contains:
- the official pytorch implementation of ORN (alpha version supports 1x1/3x3 ARFs with 4/8 orientation channels only).
- the MNIST-Variants demo.
Please follow the instruction below to install it and run the experiment demo.
- Linux (tested on ubuntu 14.04LTS)
- NVIDIA GPU + CUDA CuDNN (CPU mode and CUDA without CuDNN mode are also available but significantly slower)
- PyTorch
-
install the dependencies (required by the demo code):
-
clone the pytorch branch:
# git version must be greater than 1.9.10 git clone https://github.com/ZhouYanzhao/ORN.git -b pytorch --single-branch ORN.pytorch cd ORN.pytorch export DIR=$(pwd)
-
install ORN:
cd $DIR/install bash install.sh
-
run the MNIST-Variants demo:
cd $DIR/demo # train ORN on MNIST-rot python main.py --use-arf # train baseline CNN python main.py
The caffe branch contains:
- the official caffe implementation of ORN (alpha version supports 1x1/3x3 ARFs with 4/8 orientation channels only).
- the MNIST-Variants demo.
Please follow the instruction below to install it and run the experiment demo.
- Linux (tested on ubuntu 14.04LTS)
- NVIDIA GPU + CUDA CuDNN (CPU mode and CUDA without CuDNN mode are also available but significantly slower)
- Caffe
-
install the dependency (required by the demo code):
- idx2numpy:
pip install idx2numpy
- idx2numpy:
-
clone the caffe branch:
# git version must be greater than 1.9.10 git clone https://github.com/ZhouYanzhao/ORN.git -b caffe --single-branch ORN.caffe cd ORN.caffe export DIR=$(pwd)
-
install ORN:
# modify Makefile.config first # compile ORN.caffe make clean && make -j"$(nproc)" all
-
run the MNIST-Variants demo:
cd $DIR/examples/mnist bash get_mnist.sh # train ORN & CNN on MNIST-rot bash train.sh
Due to implementation differences,
- upgrading Conv layers to ORConv layers can be done by adding an
orn_param
- num_output of ORConv layers should be multipied by nOrientation of ARFs
Example:
layer {
type: "Convolution"
name: "ORConv" bottom: "Data" top: "ORConv"
# add this line to replace regular filters with ARFs
orn_param {orientations: 8}
param { lr_mult: 1 decay_mult: 2}
convolution_param {
# this means 10 ARF feature maps
num_output: 80
kernel_size: 3
stride: 1
pad: 0
weight_filler { type: "msra"}
bias_filler { type: "constant" value: 0}
}
}
Check the MNIST demo prototxt (and its visualization) for more details.
If you use the code in your research, please cite:
@INPROCEEDINGS{Zhou2017ORN,
author = {Zhou, Yanzhao and Ye, Qixiang and Qiu, Qiang and Jiao, Jianbin},
title = {Oriented Response Networks},
booktitle = {CVPR},
year = {2017}
}