Online Bag-of-Visual-Words Generation for Unsupervised Representation Learning
This is a PyTorch implementation of the OBoW paper:
Title: "Online Bag-of-Visual-Words Generationfor Unsupervised Representation Learning"
Authors: S. Gidaris, A. Bursuc, G. Puy, N. Komodakis, M. Cord, and P. Pérez
arXiv: https://arxiv.org/abs/2012.11552
papers with code: https://paperswithcode.com/paper/online-bag-of-visual-words-generation-for
If you use the OBoW code or framework in your research, please consider citing:
@article{gidaris2020obow,
title={Online Bag-of-Visual-Words Generation for Unsupervised Representation Learning},
author={Gidaris, Spyros and Bursuc, Andrei and Komodakis, Nikos and Cord, Matthieu and P{\'e}rez, Patrick},
journal={arXiv preprint arXiv:2012.11552},
year={2020}
}
License
This code is released under the MIT License (refer to the LICENSE file for details).
Preparation
Pre-requisites
- Python 3.7
- Pytorch >= 1.3.1 (tested with 1.3.1)
- CUDA 10.0 or higher
Installation
(1) Clone the repo:
$ git clone https://github.com/valeoai/obow(2) Install this repository and the dependencies using pip:
$ pip install -e ./obowWith this, you can edit the obow code on the fly and import function and classes of obow in other projects as well.
(3) Optional. To uninstall this package, run:
$ pip uninstall obow(4) Create experiment directory:
$ cd obow
$ mkdir ./experimentsYou can take a look at the Dockerfile if you are uncertain about the steps to install this project.
Download our ResNet50 pre-trained model
| Method | Epochs | Batch-size | Dataset | ImageNet linear acc. | Links to pre-trained weights |
|---|---|---|---|---|---|
| OBoW | 200 | 256 | ImageNet | 73.8 | entire model / only feature extractor |
To download our ResNet50 pre-trained model from the command line run:
# Run from the OBoW directory
$ mkdir ./experiments/ImageNetFull
$ cd ./experiments/ImageNetFull
# To download all model files
$ wget https://github.com/valeoai/obow/releases/download/v0.1.0/ImageNetFull_ResNet50_OBoW_full.zip
$ unzip ImageNetFull_ResNet50_OBoW_full.zip
# To download only the student feature extractor in torchvision-like format
$ wget https://github.com/valeoai/obow/releases/download/v0.1.0/ImageNetFull_ResNet50_OBoW_full_feature_extractor.zip
$ unzip ImageNetFull_ResNet50_OBoW_full_feature_extractor.zip
$ cd ../../Experiments: Training and evaluating ImageNet self-supervised features.
Train a ResNet50-based OBoW model (full solution) on the ImageneNet dataset.
# Run from the obow directory
# Train the OBoW model.
$ python main_obow.py --config=ImageNetFull/ResNet50_OBoW_full --workers=32 -p=250 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444'Here with --data-dir=/datasets_local/ImageNet it is assumed that the ImageNet
dataset is at the location /datasets_local/ImageNet.
The configuration file for running the above experiment, which is specified by
the --config argument, is located at: ./config/ImageNetFull/ResNet50_OBoW_full.py.
Note that all the experiment configuration files are placed in the ./config/
directory. The data of this experiment, such as checkpoints and logs, will be
stored at ./experiments/ImageNetFull/ResNet50_OBoW_full.
Evaluate on the ImageNet linear classification protocol
Train an ImageNet linear classification model on top of frozen features learned by student of the OBoW model.
# Run from the obow directory
# Train and evaluate a linear classifier for the 1000-way ImageNet classification task.
$ python main_linear_classification.py --config=ImageNetFull/ResNet50_OBoW_full --workers=32 -p=250 -b 1024 --wd 0.0 --lr 10.0 --epochs 100 --cos-schedule --dataset ImageNet --name "ImageNet_LinCls_b1024_wd0lr10_e100" --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444'The data of this experiment, such as checkpoints and logs, will be
stored at ./experiments/ImageNetFull/ResNet50_OBoW_full/ImageNet_LinCls_b1024_wd0lr10_e100.
Evaluate on the Places205 linear classification protocol
Train an Places205 linear classification model on top of frozen features extracted from the OBoW model.
# Run from the obow directory
# Train and evaluate a linear classifier for the 205-way Places205 classification task.
$ python main_linear_classification.py --config=ImageNetFull/ResNet50_OBoW_full --dataset Places205 --batch-norm --workers=32 -p=500 -b 256 --wd 0.00001 --lr 0.01 --epochs 28 --schedule 10 20 --name "Places205_LinCls_b256_wd1e4lr0p01_e28" --dst-dir=./experiments/ --data-dir=/datasets_local/Places205 --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444'The data of this experiment, such as checkpoints and logs, will be
stored at ./experiments/ImageNetFull/ResNet50_OBoW_full/Places205_LinCls_b256_wd1e4lr0p01_e28.
ImageNet semi-supervised evaluation setting.
# Run from the obow directory
# Fine-tune with 1% of ImageNet annotated images.
$ python main_semisupervised.py --config=ImageNetFull/ResNet50_OBoW_full --workers=32 -p=50 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444' --percentage 1 --lr=0.0002 --lr-head=0.5 --lr-decay=0.2 --wd=0.0 --epochs=40 --schedule 24 32 --name="semi_supervised_prc1_wd0_lr0002lrp5_e40"
# Fine-tune with 10% of ImageNet annotated images.
$ python main_semisupervised.py --config=ImageNetFull/ResNet50_OBoW_full --workers=32 -p=50 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444' --percentage 10 --lr=0.0002 --lr-head=0.5 --lr-decay=0.2 --wd=0.0 --epochs=20 --schedule 12 16 --name="semi_supervised_prc10_wd0_lr0002lrp5_e20"The data of these experiments, such as checkpoints and logs, will be
stored at ./experiments/ImageNetFull/ResNet50_OBoW_full/semi_supervised_prc1_wd0_lr0002lrp5_e40 and
./experiments/ImageNetFull/ResNet50_OBoW_full/semi_supervised_prc10_wd0_lr0002lrp5_e20
(for the 1% and 10% settings respectively).
Convert to torchvision format.
The ResNet50 model that we trained is stored in a different format than that of the torchvision ResNe50 model. The following command converts it to the torchvision format.
$ python main_obow.py --config=ImageNetFull/ResNet50_OBoW_full --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --multiprocessing-distributed --dist-url='tcp://127.0.0.1:4444' --convert-to-torchvisionPascal VOC07 Classification evaluation.
First convert from the torchvision format to the caffe2 format (see command above).
# Run from the obow directory
python utils/convert_pytorch_to_caffe2.py --pth_model ./experiments/ImageNetFull/ResNet50_OBoW_full/tochvision_resnet50_student_K8192_epoch200.pth.tar --output_model ./experiments/ImageNetFull/ResNet50_OBoW_full/caffe2_resnet50_student_K8192_epoch200_bgr.pkl --rgb2bgr TrueFor the following steps you need first to download and install fair_self_supervision_benchmark.
# Run from the fair_self_supervision_benchmark directory
$ python setup.py install
$ python -c 'import self_supervision_benchmark'
# Step 1: prepare datatset.
$ mkdir obow_ep200
$ mkdir obow_ep200/voc
$ mkdir obow_ep200/voc/voc07
$ python extra_scripts/create_voc_data_files.py --data_source_dir /datasets_local/VOC2007/ --output_dir ./obow_ep200/voc/voc07/
# Step 2: extract features from voc2007
$ mkdir obow_ep200/ssl-benchmark-output
$ mkdir obow_ep200/ssl-benchmark-output/extract_features_gap
$ mkdir obow_ep200/ssl-benchmark-output/extract_features_gap/data
# ==> Extract pool5 features from the train split.
$ python tools/extract_features.py \
--config_file [obow directory path]/utils/configs/benchmark_tasks/image_classification/voc07/resnet50_supervised_extract_gap_features.yaml \
--data_type train \
--output_file_prefix trainval \
--output_dir ./obow_ep200/ssl-benchmark-output/extract_features_gap/data \
NUM_DEVICES 1 TEST.BATCH_SIZE 64 TRAIN.BATCH_SIZE 64 \
TEST.PARAMS_FILE [obow directory path]/experiments/obow/ImageNetFull/ResNet50_OBoW_full/caffe2_resnet50_student_K8192_epoch200_bgr.pkl \
TRAIN.DATA_FILE ./obow_ep200/voc/voc07/train_images.npy \
TRAIN.LABELS_FILE ./obow_ep200/voc/voc07/train_labels.npy
# ==> Extract pool5 features from the test split.
$ python tools/extract_features.py \
--config_file [obow directory path]/utils/configs/benchmark_tasks/image_classification/voc07/resnet50_supervised_extract_gap_features.yaml \
--data_type test \
--output_file_prefix test \
--output_dir ./obow_ep200/ssl-benchmark-output/extract_features_gap/data \
NUM_DEVICES 1 TEST.BATCH_SIZE 64 TRAIN.BATCH_SIZE 64 \
TEST.PARAMS_FILE [obow directory path]/experiments/obow/ImageNetFull/ResNet50_OBoW_full/caffe2_resnet50_student_K8192_epoch200_bgr.pkl \
TRAIN.DATA_FILE ./obow_ep200/voc/voc07/test_images.npy TEST.DATA_FILE ./obow_ep200/voc/voc07/test_images.npy \
TRAIN.LABELS_FILE ./obow_ep200/voc/voc07/test_labels.npy TEST.LABELS_FILE ./obow_ep200/voc/voc07/test_labels.npy
# Step 4: Train and test linear svms.
# ==> Train linear svms.
$ mkdir obow_ep200/ssl-benchmark-output/extract_features_gap/data/voc07_svm
$ mkdir obow_ep200/ssl-benchmark-output/extract_features_gap/data/voc07_svm/svm_pool5bn
$ python tools/svm/train_svm_kfold.py \
--data_file ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/trainval_pool5_bn_features.npy \
--targets_data_file ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/trainval_pool5_bn_targets.npy \
--costs_list "0.05,0.1,0.3,0.5,1.0,3.0,5.0" \
--output_path ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/voc07_svm/svm_pool5bn/
# ==> Test the linear svms.
$ python tools/svm/test_svm.py \
--data_file ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/test_pool5_bn_features.npy \
--targets_data_file ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/test_pool5_bn_targets.npy \
--costs_list "0.05,0.1,0.3,0.5,1.0,3.0,5.0" \
--output_path ./obow_ep200/ssl-benchmark-output/extract_features_gap/data/voc07_svm/svm_pool5bn/ Pascal VOC07+12 Object Detection evaluation.
(1) First install Detectron2.
(2) Convert a pre-trained model from the torchvision format to the caffe2 format required by Detectron2 (see command above).
(3) Put dataset under "./datasets" directory, following the directory structure requried by Detectron2.
(4) Copy the config file in the Detectron2 repo configs/PascalVOC-Detection.
(5) In Detectron2 launch the train_net.py script to reproduce the object detection experiments on Pascal VOC:
python tools/train_net.py --num-gpus 8 --config-file configs/PascalVOC-Detection/pascal_voc_0712_faster_rcnn_R_50_C4_BoWNetpp_K8192.yamlOther experiments: Training using 20% of ImageNet and ResNet18.
A single gpu is enough for the following experiments.
ResNet18-based OBoW vanilla solution.
# Run from the obow directory
# Train the model.
$ python main_obow.py --config=ImageNet20/ResNet18_OBoW_vanilla --workers=16 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet
# Few-shot evaluation.
$ python main_obow.py --config=ImageNet20/ResNet18_OBoW_vanilla --workers=16 --episodes 200 --fewshot-q 1 --fewshot-n 50 --fewshot-k 1 5 --evaluate --start-epoch=-1 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet
# Linear classification evaluation. Note the following command precaches the extracted features at root/local_storage/spyros/cache/obow.
$ python main_linear_classification.py --config=ImageNet20/ResNet18_OBoW_vanilla --workers=16 -b 256 --wd 0.000002 --dataset ImageNet --name "ImageNet_LinCls_precache_b256_lr10p0wd2e6" --precache --lr 10.0 --epochs 50 --schedule 15 30 45 --subset=260 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --cache-dir=/root/local_storage/spyros/cache/obowResNet18-based OBoW full solution.
# Run from the obow directory
# Train the model.
$ python main_obow.py --config=ImageNet20/ResNet18_OBoW_full --workers=16 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet
# Few-shot evaluation.
$ python main_obow.py --config=ImageNet20/ResNet18_OBoW_full --workers=16 --episodes 200 --fewshot-q 1 --fewshot-n 50 --fewshot-k 1 5 --evaluate --start-epoch=-1 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet
# Linear classification evaluation. Note the following command precaches the extracted features at root/local_storage/spyros/cache/obow.
$ python main_linear_classification.py --config=ImageNet20/ResNet18_OBoW_full --workers=16 -b 256 --wd 0.000002 --dataset ImageNet --name "ImageNet_LinCls_precache_b256_lr10p0wd2e6" --precache --lr 10.0 --epochs 50 --schedule 15 30 45 --subset=260 --dst-dir=./experiments/ --data-dir=/datasets_local/ImageNet --cache-dir=/root/local_storage/spyros/cache/obowDownload the ResNet18-based OBoW models pre-trained on 20% of ImageNet.
# Run from the OBoW directory
$ mkdir ./experiments/ImageNet20
$ cd ./experiments/ImageNet20
# To download the full OBoW version
$ wget https://github.com/valeoai/obow/releases/download/v0.1.0/ImageNet20_ResNet18_OBoW_full.zip
$ unzip ImageNet20_ResNet18_OBoW_full.zip
# To download the vanilla OBoW version
$ wget https://github.com/valeoai/obow/releases/download/v0.1.0/ImageNet20_ResNet18_OBoW_vanilla.zip
$ unzip ImageNet20_ResNet18_OBoW_vanilla.zip
$ cd ../../
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