An ECM-based Energy-Efficiency Optimization Approach for Bandwidth-Limited Streaming Kernels on Recent Intel Xeon Processors

Johannes Hofmann, D. Fey
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引用次数: 8

Abstract

We investigate an approach that uses low-level analysis and the execution-cache-memory (ECM) performance model in combination with tuning of hardware parameters to lower energy requirements of memory-bound applications. The ECM model is extended appropriately to deal with software optimizations such as non-temporal stores. Using incremental steps and the ECM model, we analytically quantify the impact of various single-core optimizations and pinpoint microarchitectural improvements that are relevant to energy consumption. Using a 2D Jacobi solver as example that can serve as a blueprint for other memory-bound applications, we evaluate our approach on the four most recent Intel Xeon E5 processors (Sandy Bridge-EP, Ivy Bridge-EP, Haswell-EP, and Broadwell-EP). We find that chip energy consumption can be reduced in the range of 2.0–2.4× on the examined processors.
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一种基于ecm的带宽受限流内核能效优化方法
我们研究了一种方法,该方法使用低级分析和执行-缓存-内存(ECM)性能模型,并结合硬件参数的调优来降低内存约束应用程序的能量需求。ECM模型得到了适当的扩展,以处理软件优化,如非时态存储。使用增量步骤和ECM模型,我们分析量化了各种单核优化的影响,并确定了与能耗相关的微架构改进。以2D Jacobi求解器为例,我们在四个最新的Intel Xeon E5处理器(Sandy Bridge-EP、Ivy Bridge-EP、Haswell-EP和Broadwell-EP)上评估了我们的方法,该方法可以作为其他内存限制应用程序的蓝图。我们发现,在测试的处理器上,芯片能耗可以降低2.0 - 2.4倍。
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