An Energy-Efficient Quad-Camera Visual System for Autonomous Machines on FPGA Platform

Abstract

In our past few years’ of commercial deployment experiences, we identify localization as a critical task in autonomous machine applications, and a great acceleration target. In this paper, based on the observation that the visual frontend is a major performance and energy consumption bottleneck, we present our design and implementation of an energy-efficient hardware architecture for ORB (Oriented-Fast and Rotated-BRIEF) based localization system on FPGAs. To support our multi-sensor autonomous machine localization system, we present hardware synchronization, frame-multiplexing, and parallelization techniques, which are integrated in our design. Compared to Nvidia TX1 and Intel i7, our FPGA-based implementation achieves $5.6\times$ and $3.4\times$ speedup, as well as $3.0\times$ and $34.6\times$ power reduction, respectively.