通过控制缓存分区实现更好的缓存利用率

2013 IEEE 11th International Conference on Dependable, Autonomic and Secure Computing Pub Date : 2013-12-21 DOI:10.1109/DASC.2013.59

Prateek D. Halwe, Shirshendu Das, H. Kapoor

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引用次数: 5

摘要

现在许多多核处理器采用共享的最后一级缓存(LLC)。分区LLC变得更加重要，因为LLC是在内核之间共享的。过去的研究表明，传统的基于LRU (least recently used)的分区和替换策略对指令周期(IPC)、缺失率和加速等参数有不利影响。当多个核心竞争一个全局LLC时，这会导致环境中的性能较差。享受局域引用的应用程序纯粹受益于LRU，但是LRU对于显示工作集大小(WSS)大于LLC大小的应用程序失败。在这项工作中，我们提出了一种方案，该方案允许内核在阈值范围内窃取/捐赠它们的线路，并在出现遗漏时给它们一个调整分区的机会，而不是保持严格的目标分区，我们引入了一个灵活的阈值窗口。我们对多程序工作负载的评估显示了显著的性能改进。

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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Towards a Better Cache Utilization Using Controlled Cache Partitioning

Many multi-core processors nowadays employ a shared Last Level Cache (LLC). Partitioning LLC becomes more important as LLC is shared among the cores. Past research has demonstrated that the traditional least recently used (LRU) based partitioning cum replacement policy has adverse effects on parameters like instruction per cycle (IPC), miss rate and speedup. This leads to poor performance in an environment when multiple cores compete for one global LLC. Applications, enjoying locality of reference are purely benefited by LRU, however LRU fails for the applications showing working set size (WSS) large than the LLC size. In this work, we propose a scheme which allows cores to steal/donate their lines upto a threshold and give them a chance to adjust their partition when there is a miss. Instead of maintaining strict target partitioning, we introduce a flexible threshold window. Our evaluation with multiprogrammed workloads shows significant performance improvement.

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2013 IEEE 11th International Conference on Dependable, Autonomic and Secure Computing

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