An Energy-Efficient Combining Way Selective Technique for the Instruction Cache in Superscalar Microprocessors

XIE Zi-chao; LU Jun-lin; TONG Dong; WANG Xiao-yin; CHENG Xu

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An Energy-Efficient Combining Way Selective Technique for the Instruction Cache in Superscalar Microprocessors

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- An Energy-Efficient Combining Way Selective Technique for the Instruction Cache in Superscalar Microprocessors
- Acta Electronica Sinica Vol. 39, Issue 11, Pages: 2473-2479(2011)
- 作者机构：
  
  北京大学微处理器研究开发中心,北京,100871
- 作者简介：
- 基金信息：
- DOI：
  CLC： TP302
- Published：2011
- 稿件说明：
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XIE Zi-chao, LU Jun-lin, TONG Dong, et al. An Energy-Efficient Combining Way Selective Technique for the Instruction Cache in Superscalar Microprocessors[J]. Acta Electronica Sinica, 2011, 39(11): 2473-2479.
DOI：

XIE Zi-chao, LU Jun-lin, TONG Dong, et al. An Energy-Efficient Combining Way Selective Technique for the Instruction Cache in Superscalar Microprocessors[J]. Acta Electronica Sinica, 2011, 39(11): 2473-2479. DOI：

摘要

路选择技术可以有效降低指令缓存能耗开销

但已有方法通常会由于预测错误或更新机制复杂而引入额外的取指延迟

导致整体能效性降低.本文面向典型超标量处理器的指令缓存结构

提出了一种高能效的路选择融合技术(Combining Way Selective Cache

CWS-Cache).基于对路预测和路历史技术适用条件的分析

CWS-Cache在不同的取指场景中选择使用最佳路选择策略

有效降低了指令缓存的取指能耗

并通过缩短非对齐取指组的访问延迟提升处理器性能.实验表明

CWS-Cache将拥有8路组相联指令缓存的基础处理器取指能耗降低了84.98%

性能提升了3.50%.与已有的三种方法相比

CWS-Cache能效性分别提升了15.48%

14.13%和8.76%.

Abstract

Way selective technique could reduce the instruction cache energy consumption significantly.However

existing solutions usually bring extra fetch latency due to mispredictions or complicated updating mechanism

reducing the energy-efficiency.The paper presents an energy-efficient Combining Way Selective Cache for the instruction cache in superscalar processors (CWS-Cache).It combines the advantages of way prediction and way history techniques

and selects the best way selective mechanism for different situations.It not only reduces the instruction fetch energy effectively

but also improves performance by reducing the latency of misalignment fetch groups.Experimental results demonstrate that

on average

CWS-Cache reduces fetch energy consumption of the 8-way set-associative instruction cache in the baseline processor by 84.98%

and improves performance by 3.5%.Compared with three existing techniques

CWS-Cache improves the energy-delay product (EDP) by 15.48%

14.13%

and 8.76%

respectively.

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