AgileRegulator: A hybrid voltage regulator scheme redeeming dark silicon for power efficiency in a multicore architecture

IEEE International Symposium on High-Performance Comp Architecture Pub Date : 2012-02-25 DOI:10.1109/HPCA.2012.6169034

Guihai Yan, Yingmin Li, Yinhe Han, Xiaowei Li, M. Guo, Xiaoyao Liang

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引用次数: 51

Abstract

The widening gap between the fast-increasing transistor budget but slow-growing power delivery and system cooling capability calls for novel architectural solutions to boost energy efficiency. Leveraging the fact of surging “dark silicon” area, we propose a hybrid scheme to use both on-chip and off-chip voltage regulators, called “AgileRegulator”, for a multicore system to explore both coarse-grain and fine-grain power phases. We present two complementary algorithms: Sensitivity-Aware Application Scheduling (SAAS) and Responsiveness-Aware Application Scheduling (RAAS) to maximally achieve the energy saving potential of the hybrid regulator scheme. Experimental results show that the hybrid scheme achieves performance-energy efficiency close to per-core DVFS, without imposing much design cost. Meanwhile, the silicon overhead of this scheme is well contained into the “dark silicon”. Unlike other application specific schemes based on accelerators, the proposed scheme itself is a simple and universal solution for chip area and energy trade-offs.

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agilerregulator:一种混合电压调节器方案，在多核架构中弥补了暗硅的功率效率

快速增长的晶体管预算与缓慢增长的功率传输和系统冷却能力之间的差距越来越大，这需要新的架构解决方案来提高能源效率。利用“暗硅”面积激增的事实，我们提出了一种混合方案，即使用片内和片外电压调节器，称为“agilerregulator”，用于多核系统，以探索粗粒和细粒功率相。我们提出了两种互补的算法:灵敏度感知应用程序调度(SAAS)和响应性感知应用程序调度(RAAS)，以最大限度地实现混合调节器方案的节能潜力。实验结果表明，该混合方案在不增加设计成本的情况下，实现了接近每核DVFS的性能-能量效率。同时，该方案的硅开销被很好地包含在“暗硅”中。与其他基于加速器的特定应用方案不同，该方案本身是芯片面积和能量权衡的简单而通用的解决方案。

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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IEEE International Symposium on High-Performance Comp Architecture

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