Energy-aware Filter Cache Architecture for Multicore Processors

2010 Fifth IEEE International Symposium on Electronic Design, Test & Applications Pub Date : 2010-01-13 DOI:10.1109/DELTA.2010.21

Young Jin Park, H. Choi, C. Kim, Jong-Myon Kim

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引用次数: 6

Abstract

Energy consumption as well as performance should be considered when designing high-performance multicore processors. The energy consumed in the instruction cache accounts for a significant portion of total processor energy consumption. Therefore, energy-aware instruction cache design techniques are essential for high-performance multicore processors. In this paper, we propose new instruction cache architecture, which is based on the level-0 cache composed of filter cache and victim cache together, for multicore processors. The proposed architecture reduces the energy consumption in the instruction cache by reducing the number of accesses to the level-1 instruction cache. We evaluate the proposed design using a simulation infrastructure based on SimpleScalar and CACTI. Simulation results show that the proposed technique reduces the energy consumption in the instruction cache by up to 3.4% compared to the conventional filter cache architecture. Moreover, the proposed architecture shows better performance over the conventional filter cache architecture.

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多核处理器的能量感知过滤器缓存架构

在设计高性能多核处理器时，既要考虑性能，也要考虑能耗。指令缓存中消耗的能量占处理器总能耗的很大一部分。因此，能量感知指令缓存设计技术对于高性能多核处理器至关重要。本文提出了一种基于0级缓存的多核处理器指令缓存结构，该结构由过滤缓存和受害缓存组成。该架构通过减少对一级指令缓存的访问次数来降低指令缓存中的能量消耗。我们使用基于SimpleScalar和CACTI的仿真基础设施来评估所提出的设计。仿真结果表明，与传统的滤波器缓存结构相比，该技术可将指令缓存中的能量消耗降低3.4%。此外，该架构比传统的滤波器缓存架构表现出更好的性能。

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

2010 Fifth IEEE International Symposium on Electronic Design, Test & Applications

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