System-On-Chip for Biologically Inspired Vision Applications

Q4 Engineering
Sungho Park, Ahmed Al-Maashri, K. Irick, A. Chandrashekhar, M. Cotter, Nandhini Chandramoorthy, M. DeBole, N. Vijaykrishnan
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引用次数: 22

Abstract

Neuromorphic vision algorithms are biologically-inspired computational models of the primate visual pathway. They promise robustness, high accuracy, and high energy efficiency in advanced image processing applications. Despite these potential benefits, the realization of neuromorphic algorithms typically exhibit low performance even when executed on multi-core CPU and GPU platforms. This is due to the disparity in the computational modalities prominent in these algorithms and those modalities most exploited in contemporary computer architectures. In essence, acceleration of neuromorphic algorithms requires adherence to specific computational and communicational requirements. This paper discusses these requirements and proposes a framework for mapping neuromorphic vision applications on a System-on-Chip, SoC. A neuromorphic object detection and recognition on a multi-FPGA platform is presented with performance and power efficiency comparisons to CMP and GPU implementations.
生物启发视觉应用的片上系统
神经形态视觉算法是受生物学启发的灵长类视觉通路计算模型。它们承诺在高级图像处理应用中具有鲁棒性、高精度和高能效。尽管有这些潜在的好处,神经形态算法的实现通常表现出较低的性能,即使在多核CPU和GPU平台上执行。这是由于在这些算法中突出的计算模式和那些在当代计算机体系结构中最受利用的模式的差异。本质上,神经形态算法的加速需要遵守特定的计算和通信要求。本文讨论了这些需求,并提出了一个在片上系统(SoC)上映射神经形态视觉应用的框架。提出了一种基于多fpga平台的神经形态目标检测和识别方法,并与CMP和GPU实现进行了性能和功耗比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IPSJ Transactions on System LSI Design Methodology
IPSJ Transactions on System LSI Design Methodology Engineering-Electrical and Electronic Engineering
CiteScore
1.20
自引率
0.00%
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0
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