利用MRU-Tour的概念提高最后一级缓存性能

2011 International Conference on Parallel Architectures and Compilation Techniques Pub Date : 2011-10-10 DOI:10.1109/PACT.2011.47

A. Valero, J. Sahuquillo, S. Petit, P. López, J. Duato

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引用次数: 2

摘要

最后一级缓存(Last-Level cache, llc)实现了LRU算法来利用时间局部性，但随着路径数的增加，其性能与Belady的最优算法相差甚远。LRU在有限责任公司中没有达到良好性能的主要原因之一是，该策略迫使块下降到堆栈的底部，然后才被驱逐。然而，大多数离开MRU位置的块在移除之前不会再次被引用。这项工作的目的是在到达堆栈底部之前选择要受害的候选块。为此，本工作将块的MRU- tours (mrut)的次数定义为块在其存活时间内进入MRU位置的次数。基于大多数块显示单个MRUT的事实，本工作提出了一系列基于MRUT的算法，旨在利用该块行为来提高性能。

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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Improving Last-Level Cache Performance by Exploiting the Concept of MRU-Tour

Last-Level Caches (LLCs) implement the LRU algorithm to exploit temporal locality, but its performance is quite far of Belady's optimal algorithm as the number of ways increases. One of the main reasons because of LRU does not reach good performance in LLCs is that this policy forces a block to descend until the bottom of the stack before eviction. Nevertheless, most of the blocks that leave the MRU position are not referenced again before eviction. This work pursues to select candidate blocks to be victimized before reaching the bottom of the stack. To this end, this work defines the number of MRU-Tours (MRUTs) of a block as the number of times that a block enters in the MRU position during its live time. Based on the fact that most of the blocks exhibit a single MRUT, this work presents the family of MRUT-based algorithms aimed at exploiting this block behavior to improve performance.

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2011 International Conference on Parallel Architectures and Compilation Techniques

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