An Adaptive and Selective Instruction Active Push Mechanism for Multi-core Architecture

2010 IEEE Fifth International Conference on Networking, Architecture, and Storage Pub Date : 2010-07-15 DOI:10.1109/NAS.2010.15

Jun Zhang, K. Mei, Jizhong Zhao

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Abstract

Correct and effective instruction pre-fetch strategy is key technique to avoid instruction misses. Unfortunately, branch direction correctness and the accuracy of instruction pre-fetch is not very good, and the utilization ratio of memory bandwidth is relative low, all of these mentioned reasons are the main factors leading to instruction miss. This paper proposes an adaptive and selective instruction active push mechanism for multi-core architecture, called ASIAP. On one hand, request number of invalid instruction pre-fetch is decreased and precise instruction pre-fetch is carried on; on the other hand, part of non-sequential type requests are responded preferentially by a specific instruction active push unit adaptively and selectively. Simulation result indicates that, in double-core configuration, relative to three other strategies, Next_Line, Target_Line and Wrong_Path, the accuracy of ASIAP improves average 22.59%, 11.84% and 8.85% respectively. Relative to Next_Line, the reduction of L1 I-Cache miss ranges from 17.7% to 33.5%, average 26.08%.

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一种多核结构的自适应选择性指令主动推送机制

正确有效的指令预取策略是避免指令丢失的关键技术。然而，分支方向的正确性和指令预取的准确性不是很好，内存带宽的利用率相对较低，这些都是导致指令丢失的主要原因。本文提出了一种多核架构的自适应选择性指令主动推送机制，称为ASIAP。一方面减少了无效指令预取请求数，进行了精确的指令预取;另一方面，部分非顺序型请求由特定指令主动推送单元自适应地、选择性地优先响应。仿真结果表明，在双核配置下，相对于Next_Line、Target_Line和Wrong_Path三种策略，ASIAP的准确率平均分别提高了22.59%、11.84%和8.85%。相对于Next_Line, L1 I-Cache缺失减少幅度为17.7% ~ 33.5%，平均为26.08%。

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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2010 IEEE Fifth International Conference on Networking, Architecture, and Storage

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