Tardis: Time Traveling Coherence Algorithm for Distributed Shared Memory

Xiangyao Yu, S. Devadas
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引用次数: 19

Abstract

A new memory coherence protocol, Tardis, is proposed. Tardis uses timestamp counters representing logical time as well as physical time to order memory operations and enforce sequential consistency in any type of shared memory system. Tardis is unique in that as compared to the widely-adopted directory coherence protocol, and its variants, it completely avoids multicasting and only requires O(log N) storage per cache block for an N-core system rather than O(N) sharer information. Tardis is simpler and easier to reason about, yet achieves similar performance to directory protocols on a wide range of benchmarks run on 16, 64 and 256 cores.
分布式共享内存的时间旅行相干算法
提出了一种新的内存一致性协议Tardis。Tardis使用时间戳计数器来表示逻辑时间和物理时间,以便在任何类型的共享内存系统中对内存操作进行排序并强制执行顺序一致性。与广泛采用的目录一致性协议及其变体相比,Tardis的独特之处在于,它完全避免了多播,并且对于N核系统,每个缓存块只需要O(log N)存储空间,而不是O(N)共享信息。Tardis更简单,更容易理解,但在16、64和256核上运行的广泛基准测试中,它的性能与目录协议相似。
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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