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A tutorial about how to build a TensorRT Engine from a PyTorch Model with the help of ONNX

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PyTorch_ONNX_TensorRT

A tutorial that show how could you build a TensorRT engine from a PyTorch Model with the help of ONNX. Please kindly star this project if you feel it helpful.

News

A dynamic_shape_example (batch size dimension) is added.
Just run python3 dynamic_shape_example.py

This example should be run on TensorRT 7.x. I find that this repo is a bit out-of-date since there are some API changes from TensorRT 5.0 to TensorRT 7.x. I will put sometime in a near future to make it compatible.

Environment

  1. Ubuntu 16.04 x86_64, CUDA 10.0
  2. Python 3.5
  3. PyTorch 1.0
  4. TensorRT 5.0 (If you are using Jetson TX2, TensorRT will be already there if you have installed the jetpack)
    3.1 Download TensorRT (You should pick up the right package that matches your environment)
    3.2 Debian installation
  $ sudo dpkg -i nv-tensorrt-repo-ubuntu1x04-cudax.x-trt5.x.x.x-ga-yyyymmdd_1-1_amd64.deb # The downloaeded file
  $ sudo apt-key add /var/nv-tensorrt-repo-cudax.x-trt5.x.x.x-gayyyymmdd/7fa2af80.pub
  $ sudo apt-get update
  $ sudo apt-get install tensorrt
  
  $ sudo apt-get install python3-libnvinfer

To verify the installation of TensorRT $ dpkg -l | grep TensorRT You should see similar things like

  ii  graphsurgeon-tf	5.1.5-1+cuda10.1	amd64	GraphSurgeon for TensorRT package
  ii  libnvinfer-dev	5.1.5-1+cuda10.1	amd64	TensorRT development libraries and headers
  ii  libnvinfer-samples	5.1.5-1+cuda10.1	amd64	TensorRT samples and documentation
  ii  libnvinfer5		5.1.5-1+cuda10.1	amd64	TensorRT runtime libraries
  ii  python-libnvinfer	5.1.5-1+cuda10.1	amd64	Python bindings for TensorRT
  ii  python-libnvinfer-dev	5.1.5-1+cuda10.1	amd64	Python development package for TensorRT
  ii  python3-libnvinfer	5.1.5-1+cuda10.1	amd64	Python 3 bindings for TensorRT
  ii  python3-libnvinfer-dev	5.1.5-1+cuda10.1	amd64	Python 3 development package for TensorRT
  ii  tensorrt	5.1.5.x-1+cuda10.1	amd64	Meta package of TensorRT
  ii  uff-converter-tf	5.1.5-1+cuda10.1	amd64	UFF converter for TensorRT package

3.2 Install PyCuda (This will support TensorRT)

 $ pip3 install pycuda 

If you get problems with pip, please try

$ sudo apt-get install python3-pycuda #(Install for /usr/bin/python3)

For full details, please check the TensorRT-Installtation Guide

Usage

Please check the file 'pytorch_onnx_trt.ipynb'

Int 8:

To run the int-8 optimization

python3 trt_int8_demo.py

You will see output like

Function forward_onnx called!
graph(%input : Float(32, 3, 128, 128),
%1 : Float(16, 3, 3, 3),
%2 : Float(16),
%3 : Float(64, 16, 5, 5),
%4 : Float(64),
%5 : Float(10, 64),
%6 : Float(10)):
%7 : Float(32, 16, 126, 126) = onnx::Conv[dilations=[1, 1], group=1, kernel_shape=[3, 3], pads=[0, 0, 0, 0], strides=[1, 1]](%input, %1, %2), scope: Conv2d
%8 : Float(32, 16, 126, 126) = onnx::Relu(%7), scope: ReLU
%9 : Float(32, 16, 124, 124) = onnx::MaxPoolkernel_shape=[3, 3], pads=[0, 0, 0, 0], strides=[1, 1], scope: MaxPool2d
%10 : Float(32, 64, 120, 120) = onnx::Conv[dilations=[1, 1], group=1, kernel_shape=[5, 5], pads=[0, 0, 0, 0], strides=[1, 1]](%9, %3, %4), scope: Conv2d
%11 : Float(32, 64, 120, 120) = onnx::Relu(%10), scope: ReLU
%12 : Float(32, 64, 1, 1) = onnx::GlobalAveragePool(%11), scope: AdaptiveAvgPool2d
%13 : Float(32, 64) = onnx::Flattenaxis=1
%output : Float(32, 10) = onnx::Gemm[alpha=1, beta=1, transB=1](%13, %5, %6), scope: Linear
return (%output) Int8 mode enabled Loading ONNX file from path model_128.onnx...
Beginning ONNX file parsing
Completed parsing of ONNX file
Building an engine from file model_128.onnx; this may take a while...
Completed creating the engine
Loading ONNX file from path model_128.onnx...
Beginning ONNX file parsing
Completed parsing of ONNX file
Building an engine from file model_128.onnx; this may take a while...
Completed creating the engine
Loading ONNX file from path model_128.onnx...
Beginning ONNX file parsing
Completed parsing of ONNX file
Building an engine from file model_128.onnx; this may take a while...
Completed creating the engine
Toal time used by engine_int8: 0.0009500550794171857
Toal time used by engine_fp16: 0.001466430104649938
Toal time used by engine: 0.002231682623709525

This output is run by Jetson Xavier.
Please be noted that int8 mode is only supported by specific GPU modules, e.g. Jetson Xavier , Tesla P4, etc.

TensorRT 7 have been released. According to some feedbacks, the code is tested well with TensorRT 5.0 and might have some problems with TensorRT 7.0. I will update this repo by doing a test with TensorRT 7 and making it compatible soon.

Contact

Cai, Rizhao
Email: [email protected]

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A tutorial about how to build a TensorRT Engine from a PyTorch Model with the help of ONNX

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