Exploiting eDRAM bandwidth with data prefetching: simulation and measurements

V. Salapura, J. Brunheroto, F. Redígolo, A. Gara
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引用次数: 3

Abstract

Compared to conventional SRAM, embedded DRAM (eDRAM) offers power, bandwidth and density advantages for large on-chip cache memories. However, eDRAM suffers from comparatively slower access times than conventional SRAM arrays. To hide eDRAM access latencies, the Blue Gene/L(&) supercomputer implements small private prefetch caches. We present an exploration of design trade-offs for the prefetch D-cache for eDRAM. We use full system simulation to consider operating system impact. We validate our modeling environment by comparing our simulation results to measurements on actual Blue Gene systems. Actual execution times also include any system effects not modeled in our performance simulator, and confirm the selection of simulation parameters included in the model. Our experiments show that even small prefetch caches with wide lines efficiently capture spatial locality in many applications. Our 2kB private prefetch caches reduce execution time by 10% on average, effectively hiding the latency of the eDRAM-based memory system.
利用eDRAM带宽与数据预取:模拟和测量
与传统的SRAM相比,嵌入式DRAM (eDRAM)为大型片上高速缓存存储器提供了功耗、带宽和密度优势。然而,与传统的SRAM阵列相比,eDRAM的访问时间相对较慢。为了隐藏eDRAM访问延迟,Blue Gene/L(&)超级计算机实现了小型私有预取缓存。我们提出了对eDRAM预取d缓存的设计权衡的探索。我们使用全系统模拟来考虑操作系统的影响。我们通过将仿真结果与实际Blue Gene系统的测量结果进行比较来验证我们的建模环境。实际执行时间还包括我们的性能模拟器中未建模的任何系统效果,并确认模型中包含的仿真参数的选择。我们的实验表明,在许多应用中,即使是具有宽线的小预取缓存也能有效地捕获空间局域性。我们的2kB私有预取缓存平均减少了10%的执行时间,有效地隐藏了基于edram的内存系统的延迟。
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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