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Deep neural network library and toolkit to do high performace inference on NVIDIA jetson platforms

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tkDNN

tkDNN is a Deep Neural Network library built with cuDNN and tensorRT primitives, specifically thought to work on NVIDIA Jetson Boards. It has been tested on TK1(branch cudnn2), TX1, TX2, AGX Xavier, Nano and several discrete GPUs. The main goal of this project is to exploit NVIDIA boards as much as possible to obtain the best inference performance. It does not allow training.

If you use tkDNN in your research, please cite the following paper. For use in commercial solutions, write at [email protected] and [email protected] or refer to https://hipert.unimore.it/ .

@inproceedings{verucchi2020systematic,
  title={A Systematic Assessment of Embedded Neural Networks for Object Detection},
  author={Verucchi, Micaela and Brilli, Gianluca and Sapienza, Davide and Verasani, Mattia and Arena, Marco and Gatti, Francesco and Capotondi, Alessandro and Cavicchioli, Roberto and Bertogna, Marko and Solieri, Marco},
  booktitle={2020 25th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)},
  volume={1},
  pages={937--944},
  year={2020},
  organization={IEEE}
}

What's new

20 July 2021

  • Support to sematic segmentation README
  • Support 2D/3D Object Detection and Tracking README

24 November 2021

30 March 2022

FPS Results

Inference FPS of yolov4 with tkDNN, average of 1200 images with the same dimension as the input size, on

  • RTX 2080Ti (CUDA 10.2, TensorRT 7.0.0, Cudnn 7.6.5);
  • Xavier AGX, Jetpack 4.3 (CUDA 10.0, CUDNN 7.6.3, tensorrt 6.0.1 );
  • Xavier NX, Jetpack 4.4 (CUDA 10.2, CUDNN 8.0.0, tensorrt 7.1.0 ).
  • Tx2, Jetpack 4.2 (CUDA 10.0, CUDNN 7.3.1, tensorrt 5.0.6 );
  • Jetson Nano, Jetpack 4.4 (CUDA 10.2, CUDNN 8.0.0, tensorrt 7.1.0 ).
Platform Network FP32, B=1 FP32, B=4 FP16, B=1 FP16, B=4 INT8, B=1 INT8, B=4
RTX 2080Ti yolo4 320 118.59 237.31 207.81 443.32 262.37 530.93
RTX 2080Ti yolo4 416 104.81 162.86 169.06 293.78 206.93 353.26
RTX 2080Ti yolo4 512 92.98 132.43 140.36 215.17 165.35 254.96
RTX 2080Ti yolo4 608 63.77 81.53 111.39 152.89 127.79 184.72
AGX Xavier yolo4 320 26.78 32.05 57.14 79.05 73.15 97.56
AGX Xavier yolo4 416 19.96 21.52 41.01 49.00 50.81 60.61
AGX Xavier yolo4 512 16.58 16.98 31.12 33.84 37.82 41.28
AGX Xavier yolo4 608 9.45 10.13 21.92 23.36 27.05 28.93
Xavier NX yolo4 320 14.56 16.25 30.14 41.15 42.13 53.42
Xavier NX yolo4 416 10.02 10.60 22.43 25.59 29.08 32.94
Xavier NX yolo4 512 8.10 8.32 15.78 17.13 20.51 22.46
Xavier NX yolo4 608 5.26 5.18 11.54 12.06 15.09 15.82
Tx2 yolo4 320 11.18 12.07 15.32 16.31 - -
Tx2 yolo4 416 7.30 7.58 9.45 9.90 - -
Tx2 yolo4 512 5.96 5.95 7.22 7.23 - -
Tx2 yolo4 608 3.63 3.65 4.67 4.70 - -
Nano yolo4 320 4.23 4.55 6.14 6.53 - -
Nano yolo4 416 2.88 3.00 3.90 4.04 - -
Nano yolo4 512 2.32 2.34 3.02 3.04 - -
Nano yolo4 608 1.40 1.41 1.92 1.93 - -

MAP Results

Results for COCO val 2017 (5k images), on RTX 2080Ti, with conf threshold=0.001

CodaLab CodaLab CodaLab CodaLab tkDNN map tkDNN map
tkDNN tkDNN darknet darknet tkDNN tkDNN
MAP(0.5:0.95) AP50 MAP(0.5:0.95) AP50 MAP(0.5:0.95) AP50
Yolov3 (416x416) 0.381 0.675 0.380 0.675 0.372 0.663
yolov4 (416x416) 0.468 0.705 0.471 0.710 0.459 0.695
yolov3tiny (416x416) 0.096 0.202 0.096 0.201 0.093 0.198
yolov4tiny (416x416) 0.202 0.400 0.201 0.400 0.197 0.395
Cnet-dla34 (512x512) 0.366 0.543 - - 0.361 0.535
mv2SSD (512x512) 0.226 0.381 - - 0.223 0.378

Index

Dependencies

This branch works on every NVIDIA GPU that supports the following (latest tested) dependencies:

  • CUDA 11.3 (or >= 10.2)
  • cuDNN 8.2.1 (or >= 8.0.4)
  • TensorRT 8.0.3 (or >=7.2)
  • OpenCV 4.5.4 (or >=4)
  • cmake 3.21 (or >= 3.15)
  • yaml-cpp 0.5.2
  • eigen3 3.3.4
  • curl 7.58
sudo apt install libyaml-cpp-dev curl libeigen3-dev

About OpenCV

To compile and install OpenCV4 with contrib us the script install_OpenCV4.sh. It will download and compile OpenCV in Download folder.

bash scripts/install_OpenCV4.sh

If you have OpenCV compiled with cuda and contrib and want to use it with tkDNN pass ENABLE_OPENCV_CUDA_CONTRIB=ON flag when compiling tkDBB . If the flag is not passed,the preprocessing of the networks is computed on the CPU, otherwise on the GPU. In the latter case some milliseconds are saved in the end-to-end latency.

How to compile this repo

Build with cmake. If using Ubuntu 18.04 a new version of cmake is needed (3.15 or above). On both linux and windows ,the CMAKE_BUILD_TYPE variable needs to be defined as either Release or Debug.

git clone https://github.com/ceccocats/tkDNN
cd tkDNN
mkdir build
cd build
cmake -DCMAKE_BUILD_TYPE=Release .. 
make

Workflow

Steps needed to do inference on tkDNN with a custom neural network.

  • Build and train a NN model with your favorite framework.
  • Export weights and bias for each layer and save them in a binary file (one for layer).
  • Export outputs for each layer and save them in a binary file (one for layer).
  • Create a new test and define the network, layer by layer using the weights extracted and the output to check the results.
  • Do inference.

Exporting weights

For specific details on how to export weights see HERE.

Run the demos

For specific details on how to run:

  • 2D object detection demos, details on FP16, INT8 and batching see HERE.
  • segmentation demos see HERE.
  • monocular depth estimation see HERE.
  • 2D/3D object detection and tracking demos see HERE.
  • mAP demo to evaluate 2D object detectors see HERE.

demo

tkDNN on Windows 10 or Windows 11

For specific details on how to run tkDNN on Windows 10/11 see HERE.

Existing tests and supported networks

Test Name Network Dataset N Classes Input size Weights
yolo YOLO v21 COCO 2014 80 608x608 weights
yolo_224 YOLO v21 COCO 2014 80 224x224 weights
yolo_berkeley YOLO v21 BDD100K 10 416x736 weights
yolo_relu YOLO v2 (with ReLU, not Leaky)1 COCO 2014 80 416x416 weights
yolo_tiny YOLO v2 tiny1 COCO 2014 80 416x416 weights
yolo_voc YOLO v21 VOC 21 416x416 weights
yolo3 YOLO v32 COCO 2014 80 416x416 weights
yolo3_512 YOLO v32 COCO 2017 80 512x512 weights
yolo3_berkeley YOLO v32 BDD100K 10 320x544 weights
yolo3_coco4 YOLO v32 COCO 2014 4 416x416 weights
yolo3_flir YOLO v32 FREE FLIR 3 320x544 weights
yolo3_tiny YOLO v3 tiny2 COCO 2014 80 416x416 weights
yolo3_tiny512 YOLO v3 tiny2 COCO 2017 80 512x512 weights
dla34 Deep Leayer Aggreagtion (DLA) 343 COCO 2014 80 224x224 weights
dla34_cnet Centernet (DLA34 backend)4 COCO 2017 80 512x512 weights
mobilenetv2ssd Mobilnet v2 SSD Lite5 VOC 21 300x300 weights
mobilenetv2ssd512 Mobilnet v2 SSD Lite5 COCO 2017 81 512x512 weights
resnet101 Resnet 1016 COCO 2014 80 224x224 weights
resnet101_cnet Centernet (Resnet101 backend)4 COCO 2017 80 512x512 weights
csresnext50-panet-spp Cross Stage Partial Network 7 COCO 2014 80 416x416 weights
yolo4 Yolov4 8 COCO 2017 80 416x416 weights
yolo4_320 Yolov4 8 COCO 2017 80 320x320 weights
yolo4_512 Yolov4 8 COCO 2017 80 512x512 weights
yolo4_608 Yolov4 8 COCO 2017 80 608x608 weights
yolo4_berkeley Yolov4 8 BDD100K 10 544x320 weights
yolo4tiny Yolov4 tiny 9 COCO 2017 80 416x416 weights
yolo4x Yolov4x-mish 9 COCO 2017 80 640x640 weights
yolo4tiny_512 Yolov4 tiny 9 COCO 2017 80 512x512 weights
yolo4x-cps Scaled Yolov4 10 COCO 2017 80 512x512 weights
shelfnet ShelfNet18_realtime11 Cityscapes 19 1024x1024 weights
shelfnet_berkeley ShelfNet18_realtime11 DeepDrive 20 1024x1024 weights
dla34_cnet3d Centernet3D (DLA34 backend)4 KITTI 2017 1 512x512 weights
dla34_ctrack CenterTrack (DLA34 backend)12 NuScenes 3D 7 512x512 weights
monodepth2 Monodepth2 13 KITTI DEPTH - 640x192 weights-mono
monodepth2 Monodepth2 13 KITTI DEPTH - 640x192 weights-stereo

References

  1. Redmon, Joseph, and Ali Farhadi. "YOLO9000: better, faster, stronger." Proceedings of the IEEE conference on computer vision and pattern recognition. 2017.
  2. Redmon, Joseph, and Ali Farhadi. "Yolov3: An incremental improvement." arXiv preprint arXiv:1804.02767 (2018).
  3. Yu, Fisher, et al. "Deep layer aggregation." Proceedings of the IEEE conference on computer vision and pattern recognition. 2018.
  4. Zhou, Xingyi, Dequan Wang, and Philipp Krähenbühl. "Objects as points." arXiv preprint arXiv:1904.07850 (2019).
  5. Sandler, Mark, et al. "Mobilenetv2: Inverted residuals and linear bottlenecks." Proceedings of the IEEE conference on computer vision and pattern recognition. 2018.
  6. He, Kaiming, et al. "Deep residual learning for image recognition." Proceedings of the IEEE conference on computer vision and pattern recognition. 2016.
  7. Wang, Chien-Yao, et al. "CSPNet: A New Backbone that can Enhance Learning Capability of CNN." arXiv preprint arXiv:1911.11929 (2019).
  8. Bochkovskiy, Alexey, Chien-Yao Wang, and Hong-Yuan Mark Liao. "YOLOv4: Optimal Speed and Accuracy of Object Detection." arXiv preprint arXiv:2004.10934 (2020).
  9. Bochkovskiy, Alexey, "Yolo v4, v3 and v2 for Windows and Linux" (https://github.com/AlexeyAB/darknet)
  10. Wang, Chien-Yao, Alexey Bochkovskiy, and Hong-Yuan Mark Liao. "Scaled-YOLOv4: Scaling Cross Stage Partial Network." arXiv preprint arXiv:2011.08036 (2020).
  11. Zhuang, Juntang, et al. "ShelfNet for fast semantic segmentation." Proceedings of the IEEE International Conference on Computer Vision Workshops. 2019.
  12. Zhou, Xingyi, Vladlen Koltun, and Philipp Krähenbühl. "Tracking objects as points." European Conference on Computer Vision. Springer, Cham, 2020.
  13. Godard, Clément, et al. "Digging into self-supervised monocular depth estimation." Proceedings of the IEEE/CVF International Conference on Computer Vision. 2019.

Contributors

The main contibutors, in chronological order, are:

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  • C++ 90.8%
  • Cuda 4.1%
  • Python 2.3%
  • Shell 1.1%
  • CMake 1.1%
  • C 0.6%