Rose George Kunthara, Rekha K. James, Simi Zerine Sleeba, John Jose
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引用次数: 2
摘要
片上网络(Network on Chip, NoC)是设计高效贴片多处理器(TCMP)系统时所采用的一种有效的通信结构,它可以大大提高系统的性能。无缓冲NoC已成为解决与缓冲NoC系统相关的面积和能源问题的流行设计选择。对于低到中等注入速率的应用程序,无缓冲和有缓冲路由器都显示出相似的网络性能。随着网络负载的增加,基于无缓冲路由器设计的网络性能由于增加的偏转而恶化。本文提出了一种基于子网的无缓冲设计(dare),通过在不产生任何额外的周期延迟的情况下,将一个子网中的竞争流量重定向到另一个子网的未占用的生产端口,从而最小化偏转。从评估中,我们观察到我们提出的设计方法通过最小化偏转率,功耗来提高网络性能,并且与最先进的无缓冲路由器相比,显示出更好的吞吐量。
DAReS: Deflection Aware Rerouting between Subnetworks in Bufferless On-Chip Networks
Network on Chip (NoC) is an effective intercommunication structure used in the design of efficient Tiled Chip Multi Processor (TCMP) systems as they improve system performance manifold. Bufferless NoC has emerged as a popular design choice to address area and energy concerns associated with buffered NoC systems. For low to medium injection rate applications, both bufferless and buffered routers show similar network performance. As the network load rises, network performance of bufferless router based designs deteriorate due to increased deflections. This paper proposes a subnetwork based bufferless design, DAReS, to minimize deflections by redirecting contending flit in one subnetwork to unoccupied productive ports of other subnetwork without incurring any extra cycle delay. From evaluations, we observe that our proposed design approach improves network performance by minimizing deflection rate, power dissipation and shows better throughput in comparison to state-of-the-art bufferless router.
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