Achieving Real-Time Object Detection on MobileDevices with Neural Pruning Search

Achieving Real-Time Object Detection on MobileDevices with Neural Pruning Search

Object detection plays an important role in self-driving cars for security development. However, mobile systems on self-driving cars with limited computation resources lead to difficulties for object detection. To facilitate this, we propose a compiler-aware neural pruning search framework to achiev...

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Veröffentlicht in:arXiv.org 2021-06
Hauptverfasser: Zhao, Pu, Niu, Wei, Geng Yuan, Cai, Yuxuan, Ren, Bin, Wang, Yanzhi, Lin, Xue
Format: Artikel
Sprache:eng
Schlagworte:
Autonomous cars
Autonomous vehicles
Cell phones
Compilers
Inference
Meteorological satellites
Object recognition
Optimization
Pruning
Real time
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Zusammenfassung:Object detection plays an important role in self-driving cars for security development. However, mobile systems on self-driving cars with limited computation resources lead to difficulties for object detection. To facilitate this, we propose a compiler-aware neural pruning search framework to achieve high-speed inference on autonomous vehicles for 2D and 3D object detection. The framework automatically searches the pruning scheme and rate for each layer to find a best-suited pruning for optimizing detection accuracy and speed performance under compiler optimization. Our experiments demonstrate that for the first time, the proposed method achieves (close-to) real-time, 55ms and 99ms inference times for YOLOv4 based 2D object detection and PointPillars based 3D detection, respectively, on an off-the-shelf mobile phone with minor (or no) accuracy loss.
ISSN:2331-8422