Hierarchical Network-on-Chip and Traffic Compression for Spiking Neural Network Implementations

Snaider Carrillo, J. Harkin, L. McDaid, S. Pande, Seamus Cawley, Brian McGinley, F. Morgan
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引用次数: 21

Abstract

The complexity of inter-neuron connectivity is prohibiting scalable hardware implementations of spiking neural networks (SNNs). Traditional neuron interconnect using a shared bus topology is not scalable due to non-linear growth of neuron connections with the neural network size. This paper presents a novel hierarchical NoC (H-NoC) architecture for SNN hardware which addresses the scalability issue by creating a 3-dimensional array of clusters of neurons with a hierarchical structure of low and high-level routers. The H-NoC architecture also incorporates a spike traffic compression technique to exploit SNN traffic patterns, thus reducing traffic overhead and improving throughput on the network. In addition, adaptive routing capabilities between clusters balance local and global traffic loads to sustain throughput under bursting activity. Simulation results show a high throughput per cluster (3.33×109 spikes/second), and synthesis results using 65-nm CMOS technology demonstrate low cost area (0.587mm2) and power consumption (13.16mW @100MHz) for a single cluster of 400 neurons, which outperforms existing SNN hardware strategies.
尖峰神经网络实现的分层片上网络和流量压缩
神经元间连接的复杂性阻碍了尖峰神经网络(snn)的可扩展硬件实现。由于神经元连接随神经网络规模的非线性增长,使用共享总线拓扑的传统神经元互连不具有可扩展性。本文提出了一种新颖的分层NoC (H-NoC) SNN硬件架构,该架构通过创建具有低级和高级路由器分层结构的神经元簇的三维阵列来解决可扩展性问题。H-NoC架构还结合了峰值流量压缩技术来利用SNN流量模式,从而减少流量开销并提高网络上的吞吐量。此外,集群之间的自适应路由功能平衡本地和全局流量负载,以在突发活动下维持吞吐量。仿真结果表明,每个集群的吞吐量高(3.33×109 spikes/second),而使用65纳米CMOS技术的合成结果表明,单个400个神经元集群的成本面积(0.587mm2)和功耗(13.16mW @100MHz)较低,优于现有的SNN硬件策略。
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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