自适应缓存一致性协议的设计与性能评价

W.-K. Hong, Nam-Hee Kim, Shin-Dug Kim
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引用次数: 0

摘要

在共享内存多处理器系统中,用于容忍处理器和内存之间性能差距的本地缓存会导致额外的总线事务来保持共享数据的一致性。特别是空间局部性和虚假共享导致的相干缺失和数据流量对系统性能的影响较大。在该方法中,引入了一种基于扇区缓存的自适应缓存一致性协议。它根据传输方式动态确定要迁移或无效的块的大小,从而利用空间局域性,同时减少由于错误共享而导致的无用数据流量。该协议通过事件驱动仿真进行了评估,其结果显示数据流量减少了58%,缓存丢失率减少了45%。因此,自适应缓存一致性协议在执行时间上提供了大约56%的改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and performance evaluation of an adaptive cache coherence protocol
In shared-memory multiprocessor systems, the local caches which are used to tolerate the performance gap between processor and memory cause additional bus transactions to maintain the coherency of shared data. Especially, coherency misses and data traffic due to spatial locality and false sharing have a significant effect on the system performance. In this approach, an adaptive cache coherence protocol based on the sectored cache is introduced. It determines the size of a block to be migrated or invalidated dynamically, depending on the transfer mode, so that it can exploit the spatial locality and reduce useless data traffic due to false sharing at the same time. This protocol is evaluated via event-driven simulation, and its results show a 58% decrease in the data traffic and a 45% decrease in the cache miss ratio. Thus, the adaptive cache coherence protocol provides about a 56% improvement in the execution time.
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