This is the official PyTorch implementation and models for UP-DETR paper and the extended version:
@ARTICLE{9926201,
author={Dai, Zhigang and Cai, Bolun and Lin, Yugeng and Chen, Junying},
journal={IEEE Transactions on Pattern Analysis and Machine Intelligence},
title={Unsupervised Pre-Training for Detection Transformers},
year={2022},
volume={},
number={},
pages={1-11},
doi={10.1109/TPAMI.2022.3216514}}
@InProceedings{Dai_2021_CVPR,
author = {Dai, Zhigang and Cai, Bolun and Lin, Yugeng and Chen, Junying},
title = {UP-DETR: Unsupervised Pre-Training for Object Detection With Transformers},
booktitle = {Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)},
month = {June},
year = {2021},
pages = {1601-1610}
}
In UP-DETR, we introduce a novel pretext named random query patch detection to pre-train transformers for object detection. UP-DETR inherits from DETR with the same ResNet-50 backbone, same Transformer encoder, decoder and same codebase. With unsupervised pre-training CNN, the whole UP-DETR pre-training doesn't require any human annotations. UP-DETR achieves 43.1 AP(even higher) on COCO with 300 epochs fine-tuning. The AP of open-source version is a little higher than paper report.
We provide pre-training UP-DETR and fine-tuning UP-DETR models on COCO, and plan to include more in future. The evaluation metric is same to DETR.
Here is the UP-DETR model pre-trained on ImageNet without labels. The CNN weight is initialized from SwAV, which is fixed during the transformer pre-training:
| name | backbone | epochs | url | size | md5 |
|---|---|---|---|---|---|
| UP-DETR | R50 (SwAV) | 60 | model | logs | 164Mb | 49f01f8b |
The result of UP-DETR fine-tuned on COCO:
| name | backbone (pre-train) | epochs | box AP | APS | APM | APL | url |
|---|---|---|---|---|---|---|---|
| DETR | R50 (Supervised) | 500 | 42.0 | 20.5 | 45.8 | 61.1 | - |
| DETR | R50 (SwAV) | 300 | 42.1 | 19.7 | 46.3 | 60.9 | - |
| UP-DETR | R50 (SwAV) | 300 | 43.1 | 21.6 | 46.8 | 62.4 | model | logs |
COCO val5k evaluation results of UP-DETR can be found in this gist.
There are no extra compiled components in UP-DETR and package dependencies are same to DETR. We provide instructions how to install dependencies via conda:
git clone tbd
conda install -c pytorch pytorch torchvision
conda install cython scipy
pip install -U 'git+https://github.com/cocodataset/cocoapi.git#subdirectory=PythonAPI'
UP-DETR follows two steps: pre-training and fine-tuning. We present the model pre-trained on ImageNet and then fine-tuned on COCO.
Download and extract ILSVRC2012 train dataset.
We expect the directory structure to be the following:
path/to/imagenet/
n06785654/ # caterogey directory
n06785654_16140.JPEG # images
n04584207/ # caterogey directory
n04584207_14322.JPEG # images
Images can be organized disorderly because our pre-training is unsupervised.
To pr-train UP-DETR on a single node with 8 gpus for 60 epochs, run:
python -m torch.distributed.launch --nproc_per_node=8 --use_env main.py \
--lr_drop 40 \
--epochs 60 \
--pre_norm \
--num_patches 10 \
--batch_size 32 \
--feature_recon \
--fre_cnn \
--imagenet_path path/to/imagenet \
--output_dir path/to/save_model
As the size of pre-training images is relative small, so we can set a large batch size.
It takes about 2 hours for a epoch, so 60 epochs pre-training takes about 5 days with 8 V100 gpus.
In our further ablation experiment, we found that object query shuffle is not helpful. So, we remove it in the open-source version.
Download and extract COCO 2017 dataset train and val dataset.
The directory structure is expected as follows:
path/to/coco/
annotations/ # annotation json files
train2017/ # train images
val2017/ # val images
To fine-tune UP-DETR with 8 gpus for 300 epochs, run:
python -m torch.distributed.launch --nproc_per_node=8 --use_env detr_main.py \
--lr_drop 200 \
--epochs 300 \
--lr_backbone 5e-5 \
--pre_norm \
--coco_path path/to/coco \
--pretrain path/to/save_model/checkpoint.pth
The fine-tuning cost is exactly same to DETR, which takes 28 minutes with 8 V100 gpus. So, 300 epochs training takes about 6 days.
The model can also extended to panoptic segmentation, checking more details on DETR.
python detr_main.py \
--batch_size 2 \
--eval \
--no_aux_loss \
--pre_norm \
--coco_path path/to/coco \
--resume path/to/save_model/checkpoint.pth
COCO val5k evaluation results of UP-DETR can be found in this gist.
We provide a notebook in colab to get the visualization result in the paper:
- Visualization Notebook: This notebook shows how to perform query patch detection with the pre-training model (without any annotations fine-tuning).
UP-DETR is released under the Apache 2.0 license. Please see the LICENSE file for more information.
