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iELAS: An ELAS-Based Energy-Efficient Accelerator for Real-Time Stereo Matching on FPGA Platform

Tian Gao, Zishen Wan, Yuyang Zhang, Yu Bo, Yanjun Zhang, Shaoshan Liu, Arijit Raychowdhury

发表年份
2021
引用次数
18

摘要

Stereo matching is a critical task for robot navigation and autonomous vehicles, providing the depth estimation of surroundings. Among all stereo matching algorithms, Efficient Large-scale Stereo (ELAS) offers one of the best tradeoffs between efficiency and accuracy. However, due to the inherent iterative process and unpredictable memory access pattern, ELAS can only run at 1.5-3 fps on high-end CPUs and difficult to achieve real-time performance on low-power platforms. In this paper, we propose an energy-efficient architecture for real-time ELAS-based stereo matching on FPGA platform. Moreover, the original computational-intensive and irregular triangulation module is reformed in a regular manner with points interpolation, which is much more hardware-friendly. optimizations, including memory management, parallelism, and pipelining, are further utilized to reduce memory footprint and improve throughput. Compared with Intel i7 CPU and the state-of-the-art $\mathrm{C}\mathrm{P}\mathrm{U}+$FPGA implementation, our FPGA realization achieves up to $ 38.4\times$ and $ 3.32\times$ frame rate improvement, and up to $ 27.1\times$ and $ 1.13\times$ energy efficiency improvement, respectively.

关键词

Computer scienceField-programmable gate arrayFrame rateMemory footprintParallel computingEfficient energy useThroughputRealization (probability)Process (computing)Frame (networking)

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