Energy-efficient interconnect via Router Parking

路由器 规格# 帕塞克 计算机科学 网络数据包 核心路由器 高效能源利用 延迟(音频) 单臂路由器 水准点(测量) 多核处理器 嵌入式系统 数据包处理 功率选通 计算机网络 并行计算 工程类 电压 电信 星星 地理 程序设计语言 晶体管 电气工程 计算机视觉 大地测量学
作者
Ahmad Samih,Ren Wang,Anil Krishna,Christian Maciocco,Charlie Tai,Yan Solihin
标识
DOI:10.1109/hpca.2013.6522345
摘要

The increase in on-chip core counts in Chip Multi Processors (CMPs) has led to the adoption of interconnects such as Mesh and Torus, which consume an increasing fraction of the chip power. Moreover, as technology and voltage continue to scale down, static power consumes a larger fraction of the total power; reducing it is increasingly important for energy proportional computing. Currently, processor designers strive to send under-utilized cores into deep sleep states in order to reduce idling power and improve overall energy efficiency. However, even in state-of-the-art CMP designs, when a core goes to sleep the router attached to it remains active in order to continue packet forwarding. In this paper, we propose Router Parking - selectively power-gating routers attached to parked cores. Router Parking ensures that network connectivity is maintained, and limits the average interconnect latency impact of packet detouring around parked routers. We present two Router Parking algorithms - an aggressive approach to park as many routers as possible, and a conservative approach that parks a limited set of routers in order to keep the impact on latency increase minimal. Further, we propose an adaptive policy to choose between the two algorithms at run-time. We evaluate our algorithms using both synthetic traffic as well as real workloads taken from SPEC CPU2006 and PARSEC 2.1 benchmark suites. Our evaluation results show that Router Parking can achieve significant savings in the total interconnect energy (average of 32%, 40% and 41% for the synthetic, SPEC CPU2006, and PARSEC 2.1 workloads, respectively).

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