This repository includes:
- A High-Performance Pytorch Implementation of the paper "DSFD: Dual Shot Face Detector" (CVPR 2019). adapted from the original source code.
- Lightweight single-shot face detection from the paper RetinaFace: Single-stage Dense Face Localisation in the Wild adapted from https://github.com/biubug6/Pytorch_Retinaface.
NOTE This implementation can only be used for inference of a selection of models and all training scripts are removed. If you want to finetune any models, we recommend you to use the original source code.
You can install this repository with pip (requires python>=3.6);
pip install git+https://github.com/hukkelas/DSFD-Pytorch-Inference.gitYou can also install with the setup.py
python3 setup.py installRun
python3 test.py
This will look for images in the images/ folder, and save the results in the same folder with an ending _out.jpg
To perform detection you can simple use the following lines:
import cv2
import face_detection
print(face_detection.available_detectors)
detector = face_detection.build_detector(
"DSFDDetector", confidence_threshold=.5, nms_iou_threshold=.3)
# BGR to RGB
im = cv2.imread("path_to_im.jpg")[:, :, ::-1]
detections = detector.detect(im)This will return a tensor with shape [N, 5], where N is number of faces and the five elements are [xmin, ymin, xmax, ymax, detection_confidence]
import numpy as np
import face_detection
print(face_detection.available_detectors)
detector = face_detection.build_detector(
"DSFDDetector", confidence_threshold=.5, nms_iou_threshold=.3)
# [batch size, height, width, 3]
images_dummy = np.zeros((2, 512, 512, 3))
detections = detector.batched_detect(im)For the original source code, see here.
- Removal of all unnecessary files for training / loading VGG models.
- Improve the inference time by about 30x (from ~6s to 0.2) with rough estimates using
time(Measured on a V100-32GB GPU).
The main improvements in inference time comes from:
- Replacing non-maximum-suppression to a highly optimized torchvision version
- Refactoring
init_priorsin the SSD model to cache previous prior sizes (no need to generate this per forward pass). - Refactoring the forward pass in
Detectinutils.pyto perform confidence thresholding before non-maximum suppression - Minor changes in the forward pass to use pytorch 1.0 features
For the original source code, see here.
We've done the following improvements:
- Remove gradient computation for inference (
torch.no_grad). - Replacing non-maximum-suppression to a highly optimized torchvision version
This is very roughly estimated on a 1024x687 image. The reported time is the average over 1000 forward passes on a single image. (With no cudnn benchmarking and no fp16 computation).
| DSFDDetector | RetinaNetResNet50 | RetinaNetMobileNetV1 | |
|---|---|---|---|
| CPU (Intel 2.2GHz i7) * | 17,496 ms (0.06 FPS) | 2970ms (0.33 FPS) | 270ms (3.7 FPS) |
| NVIDIA V100-32GB | 100ms (10 FPS) | ||
| NVIDIA GTX 1060 6GB | 341ms (2.9 FPS) | 76.6ms (13 FPS) | 48.2ms (20.7 FPS) |
| NVIDIA T4 16 GB | 482 ms (2.1 FPS) | 181ms (5.5 FPS) | 178ms (5.6 FPS) |
*Done over 100 forward passes on a MacOS Mid 2014, 15-Inch.
- September 1st 2020: added support for fp16/mixed precision inference
- September 24th 2020: added support for TensorRT.
You can run RetinaFace ResNet-50 with TensorRT:
from face_detection.retinaface.tensorrt_wrap import TensorRTRetinaFace
inference_imshape =(480, 640) # Input to the CNN
input_imshape = (1080, 1920) # Input for original video source
detector = TensorRTRetinaFace(input_imshape, imshape)
boxes, landmarks, scores = detector.infer(image)If you find this code useful, remember to cite the original authors:
@inproceedings{li2018dsfd,
title={DSFD: Dual Shot Face Detector},
author={Li, Jian and Wang, Yabiao and Wang, Changan and Tai, Ying and Qian, Jianjun and Yang, Jian and Wang, Chengjie and Li, Jilin and Huang, Feiyue},
booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
year={2019}
}
@inproceedings{deng2019retinaface,
title={RetinaFace: Single-stage Dense Face Localisation in the Wild},
author={Deng, Jiankang and Guo, Jia and Yuxiang, Zhou and Jinke Yu and Irene Kotsia and Zafeiriou, Stefanos},
booktitle={arxiv},
year={2019}