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A project demonstrating how to use CUDA-PointPillars to deal with cloud points data from lidar.

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MyronRodrigues-StreetDrone/CUDA-PointPillars

 
 

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PointPillars Inference with TensorRT

This repository contains sources and model for pointpillars inference using TensorRT. The model is created with OpenPCDet and modified with onnx_graphsurgeon.

Overall inference has four phases:

  • Convert points cloud into 4-channle voxels
  • Extend 4-channel voxels to 10-channel voxel features
  • Run TensorRT engine to get 3D-detection raw data
  • Parse bounding box, class type and direction

Model && Data

The demo use the velodyne data from KITTI Dataset. The onnx file can be converted from pre-trained model with given script under "./tool".

Prerequisites

To build the pointpillars inference, TensorRT with PillarScatter layer and CUDA are needed. PillarScatter layer plugin is already implemented as a plugin for TRT in the demo.

Environments

  • Nvidia Jetson Xavier/Orin + Jetpack 5.0
  • CUDA 11.4 + cuDNN 8.3.2 + TensorRT 8.4.0

Compile && Run

$ sudo apt-get install git-lfs
$ git lfs install
$ git clone https://github.com/NVIDIA-AI-IOT/CUDA-PointPillars.git && cd CUDA-PointPillars
$ mkdir build && cd build
$ cmake .. && make -j$(nproc)
$ ./demo

Performance in FP16

Set Jetson to power mode with "sudo nvpmodel -m 0 && sudo jetson_clocks"

| Function(unit:ms) | Xavier | Orin   |
| ----------------- | ------ | ------ |
| GenerateVoxels    | 0.29   | 0.14   |
| GenerateFeatures  | 0.31   | 0.15   |
| Inference         | 20.21  | 9.12   |
| Postprocessing    | 3.38   | 1.77   |
| Overall           | 24.19  | 11.18  |

3D detection performance of moderate difficulty on the val set of KITTI dataset.

|                   | Car@R11 | Pedestrian@R11 | Cyclist@R11  | 
| ----------------- | --------| -------------- | ------------ |
| CUDA-PointPillars | 77.02   | 51.65          | 62.24        |
| OpenPCDet         | 77.28   | 52.29          | 62.68        |

Note

  • GenerateVoxels has random output since GPU processes all points simultaneously while points selection for a voxel is random.
  • The demo will cache the onnx file to improve performance. If a new onnx will be used, please remove the cache file in "./model".
  • MAX_VOXELS in params.h is used to allocate cache during inference. Decrease the value to save memory.

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A project demonstrating how to use CUDA-PointPillars to deal with cloud points data from lidar.

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  • C++ 42.2%
  • Python 38.4%
  • Cuda 17.4%
  • CMake 2.0%