基于重用距离预测的缓存替换

G. Keramidas, Pavlos Petoumenos, S. Kaxiras
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引用次数: 128

摘要

已经提出了一些缓存管理技术,它们间接地尝试基于缓存的重用距离来做出决策,比如缓存衰减,它是一个重用距离的后置:如果一个缓存在一定的时间间隔内没有被访问,我们知道它的重用距离至少和这个衰减间隔一样大。在这项工作中,我们建议通过基于指令(PC)的预测直接预测重用距离,并将此信息用于缓存级优化。在本文中,我们选择优化L2缓存的替换策略作为我们的目标,因为对于L2缓存,LRU与理论最优替换算法之间的差距比较大。这表明,在许多情况下,有很大的改进余地。我们使用内存最密集的SPEC2000的一个子集来评估基于重用距离的替换策略,我们的结果显示出全面的显著优势。
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Cache replacement based on reuse-distance prediction
Several cache management techniques have been proposed that indirectly try to base their decisions on cacheline reuse-distance, like Cache Decay which is a postdiction of reuse-distances: if a cacheline has not been accessed for some ldquodecay intervalrdquo we know that its reuse-distance is at least as large as this decay interval. In this work, we propose to directly predict reuse-distances via instruction-based (PC) prediction and use this information for cache level optimizations. In this paper, we choose as our target for optimization the replacement policy of the L2 cache, because the gap between the LRU and the theoretical optimal replacement algorithm is comparatively large for L2 caches. This indicates that, in many situations, there is ample room for improvement. We evaluate our reusedistance based replacement policy using a subset of the most memory intensive SPEC2000 and our results show significant benefits across the board.
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