[2010] VIX: A Router Architecture for Priority-Aware Networks-on-Chip

2010 International Workshop on Innovative Architecture for Future Generation High Performance Pub Date : 2010-01-17 DOI:10.1109/IWIA.2010.15

Takuma Kogo, N. Yamasaki

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引用次数: 1

Abstract

In future many-core chip multiprocessors (CMPs) and systems-on-chips (SoCs) architectures, networks-on-chip (NoC) will be one of the most critical components. In CMPs and SoCs, multiple applications will be executed concurrently and they interfere each other. Thus, packet conflicts will be caused in the NoC. Priority control is required in such environments, because each application has different bandwidth requirements and causes different traffic patterns of the packets. Unfortunately priority control degrades network performance and significantly increases the area of a priority-aware on-chip router.This paper proposes a router architecture for priority-aware NoCs in order to mitigate the performance and area overheads due to the priority control. We implement the proposed router architecture using a 90nm process technology. The synthesis result shows no critical path overhead and drastic reduction of the router area. The simulation result on a 8-ary 2-mesh network shows that the average latency of higher priority packets is reduced at the near saturation point.

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[2010]一种基于优先级感知的片上网络结构

在未来的多核芯片多处理器(cmp)和片上系统(soc)架构中，片上网络(NoC)将是最关键的组件之一。在cmp和soc中，多个应用程序将并发执行，并且它们会相互干扰。这样，就会在NoC中引起包冲突。在这种环境中，由于每个应用的带宽需求不同，导致报文的流量模式不同，因此需要进行优先级控制。不幸的是，优先级控制降低了网络性能，并显著增加了优先级感知的片上路由器的面积。为了减少优先级控制带来的性能和面积开销，本文提出了一种优先级感知noc的路由器架构。我们使用90nm制程技术来实现所提出的路由器架构。综合结果表明，没有关键路径开销和大幅减少路由器面积。在8-ary 2-mesh网络上的仿真结果表明，在接近饱和点时，高优先级数据包的平均延迟降低。

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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2010 International Workshop on Innovative Architecture for Future Generation High Performance

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