A framework for accelerating neuromorphic-vision algorithms on FPGAs

M. DeBole, Ahmed Al-Maashri, M. Cotter, Chi-Li Yu, C. Chakrabarti, N. Vijaykrishnan
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引用次数: 10

Abstract

Implementations of neuromorphic algorithms are traditionally implemented on platforms which consume significant power, falling short of their biologically underpinnings. Recent improvements in FPGA technology have led to FPGAs becoming a platform in which these rapidly evolving algorithms can be implemented. Unfortunately, implementing designs on FPGAs still prove challenging for nonexperts, limiting their use in the neuroscience domain. In this paper, a FPGA framework is presented which enables neuroscientists to compose multi-FPGA systems for a cortical object classification model. This is demonstrated by mapping this algorithm onto two distinct platforms providing speedups of up to ∼28X over a reference CPU implementation.
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基于fpga的神经形态视觉算法加速框架
传统上,神经形态算法的实现是在消耗大量能量的平台上实现的,缺乏其生物学基础。最近FPGA技术的改进使FPGA成为实现这些快速发展算法的平台。不幸的是,在fpga上实现设计对于非专家来说仍然具有挑战性,限制了它们在神经科学领域的应用。本文提出了一种FPGA框架,使神经科学家能够为皮质目标分类模型组成多个FPGA系统。通过将该算法映射到两个不同的平台上,可以在参考CPU实现上提供高达28倍的加速,从而证明了这一点。
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