Cuckoo directory: A scalable directory for many-core systems

M. Ferdman, P. Lotfi-Kamran, Ken Balet, B. Falsafi
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引用次数: 128

Abstract

Growing core counts have highlighted the need for scalable on-chip coherence mechanisms. The increase in the number of on-chip cores exposes the energy and area costs of scaling the directories. Duplicate-tag-based directories require highly associative structures that grow with core count, precluding scalability due to prohibitive power consumption. Sparse directories overcome the power barrier by reducing directory associativity, but require storage area over-provisioning to avoid high invalidation rates. We propose the Cuckoo directory, a power- and area-efficient scalable distributed directory. The cuckoo directory scales to high core counts without the energy costs of wide associative lookup and without gross capacity over-provisioning. Simulation of a 16-core CMP with commercial server and scientific workloads shows that the Cuckoo directory eliminates invalidations while being up to four times more power-efficient than the Duplicate-tag directory and 24% more power-efficient and up to seven times more area-efficient than the Sparse directory organization. Analytical projections indicate that the Cuckoo directory retains its energy and area benefits with increasing core count, efficiently scaling to at least 1024 cores.
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Cuckoo目录:用于多核系统的可伸缩目录
不断增长的核心数量凸显了对可扩展的片上相干机制的需求。片上内核数量的增加暴露了扩展目录的能量和面积成本。基于重复标记的目录需要高度关联的结构,这种结构会随着核心数的增加而增长,由于过高的功耗而阻碍了可伸缩性。稀疏目录通过减少目录关联性克服了功率障碍,但需要过度配置存储区域以避免高的无效率。我们提出了布谷鸟目录,一个功率和面积效率高的可扩展分布式目录。布谷鸟目录扩展到高核心数,而不需要广泛关联查找的能量成本,也不会出现总容量过度供应。对商业服务器和科学工作负载的16核CMP的模拟表明,Cuckoo目录消除了无效,同时比Duplicate-tag目录节能高达4倍,比Sparse目录组织节能24%,面积效率高达7倍。分析预测表明,随着核心数量的增加,Cuckoo目录保持其能量和面积优势,有效地扩展到至少1024个核心。
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