Power punch: Towards non-blocking power-gating of NoC routers

2015 IEEE 21st International Symposium on High Performance Computer Architecture (HPCA) Pub Date : 2015-03-09 DOI:10.1109/HPCA.2015.7056048

Lizhong Chen, Di Zhu, Massoud Pedram, T. Pinkston

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引用次数: 98

Abstract

As chip designs penetrate further into the dark silicon era, innovative techniques are much needed to power off idle or under-utilized system components while having minimal impact on performance. On-chip network routers are potentially good targets for power-gating, but packets in the network can be significantly delayed as their paths may be blocked by powered-off routers. In this paper, we propose Power Punch, a novel performance-aware, power reduction scheme that aims to achieve non-blocking power-gating of on-chip network routers. Two mechanisms are proposed that not only allow power control signals to utilize existing slack at source nodes to wake up powered-off routers along the first few hops before packets are injected, but also allow these signals to utilize hop count slack by staying ahead of packets to "punch through " any blocked routers along the imminent path of packets, preventing packets from having to suffer router wakeup latency or packet detour latency. Full system evaluation on PARSEC benchmarks shows Power Punch saves more than 83% of router static energy while having an execution time penalty of less than 0.4%, effectively achieving near non-blocking power-gating of on-chip network routers.

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电源打孔:面向NoC路由器的无阻塞电源门控

随着芯片设计进一步进入暗硅时代，需要创新的技术来关闭闲置或未充分利用的系统组件，同时对性能的影响最小。片上网络路由器可能是电源门控的好目标，但是网络中的数据包可能会被显著延迟，因为它们的路径可能被关闭电源的路由器阻塞。在本文中，我们提出了Power Punch，这是一种新颖的性能感知，功耗降低方案，旨在实现片上网络路由器的非阻塞功率门控。提出了两种机制，不仅允许电源控制信号利用源节点上现有的松弛来唤醒在数据包注入前几跳的断电路由器，而且还允许这些信号利用跳数松弛，保持在数据包的前面，沿着数据包的即将路径“穿过”任何阻塞的路由器，防止数据包不得不遭受路由器唤醒延迟或数据包绕行延迟。PARSEC基准测试的完整系统评估显示，Power Punch节省了83%以上的路由器静态能量，而执行时间损失不到0.4%，有效地实现了片上网络路由器的近乎无阻塞的电源门控。

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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来源期刊

2015 IEEE 21st International Symposium on High Performance Computer Architecture (HPCA)

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