Overlaid Mesh Topology Design and Deadlock Free Routing in Wireless Network-on-Chip

Dan Zhao, Rui-Qing Wu
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引用次数: 18

Abstract

To bridge the widening gap between computation requirements of terascale application and communication efficiency faced by many-core processor chips, wireless Network-on-Chip (WiNoC) has been proposed by using the recently developed CMOS ultra wideband interconnection. In this research, we propose an unequal RF nodes overlaid mesh topology design to improve the on-chip communication performance. A network capacity model is developed for fast searching of optimal topology configuration. A high-efficient, low-cost zone-aided routing scheme is designed to facilitate deadlock freedom. The simulation study demonstrates topology modeling effectiveness, routing efficiency, and promising network performance of the overlaid mesh WiNoC over a regular 2D mesh baseline.
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无线片上网络的覆盖网格拓扑设计与无死锁路由
为了解决太万亿级应用的计算需求与多核处理器芯片所面临的通信效率之间日益扩大的差距,利用最新发展的CMOS超宽带互连技术提出了无线片上网络(WiNoC)。在这项研究中,我们提出了一个不相等的射频节点覆盖网格拓扑设计,以提高片上通信性能。为了快速搜索最优拓扑结构,建立了网络容量模型。为了避免死锁,设计了一种高效、低成本的区域辅助路由方案。仿真研究证明了在常规二维网格基线上叠加网格WiNoC的拓扑建模有效性、路由效率和良好的网络性能。
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