The locality-aware adaptive cache coherence protocol

George Kurian, O. Khan, S. Devadas
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引用次数: 43

Abstract

Next generation multicore applications will process massive amounts of data with significant sharing. Data movement and management impacts memory access latency and consumes power. Therefore, harnessing data locality is of fundamental importance in future processors. We propose a scalable, efficient shared memory cache coherence protocol that enables seamless adaptation between private and logically shared caching of on-chip data at the fine granularity of cache lines. Our data-centric approach relies on in-hardware yet low-overhead runtime profiling of the locality of each cache line and only allows private caching for data blocks with high spatio-temporal locality. This allows us to better exploit the private caches and enable low-latency, low-energy memory access, while retaining the convenience of shared memory. On a set of parallel benchmarks, our low-overhead locality-aware mechanisms reduce the overall energy by 25% and completion time by 15% in an NoC-based multicore with the Reactive-NUCA on-chip cache organization and the ACKwise limited directory-based coherence protocol.
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位置感知自适应缓存一致性协议
下一代多核应用程序将处理大量数据,并具有重要的共享性。数据移动和管理会影响内存访问延迟并消耗电力。因此,在未来的处理器中,利用数据局部性是非常重要的。我们提出了一种可扩展的、高效的共享内存缓存一致性协议,该协议可以在缓存线的细粒度上实现片上数据的私有和逻辑共享缓存之间的无缝适应。我们以数据为中心的方法依赖于每条缓存行的硬件内低开销运行时概要分析,并且只允许对具有高时空局部性的数据块进行私有缓存。这使我们能够更好地利用私有缓存,实现低延迟、低能耗的内存访问,同时保留共享内存的便利性。在一组并行基准测试中,我们的低开销位置感知机制在具有Reactive-NUCA片上缓存组织和ACKwise有限目录一致性协议的基于noc的多核中减少了25%的总能量和15%的完成时间。
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