Norbert Schmitt, James Bucek, K. Lange, Samuel Kounev
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引用次数: 4
Abstract
The growth of cloud services leads to more and more data centers that are increasingly larger and consume considerable amounts of power. To increase energy efficiency, both the actual server equipment and the software themselves must become more energy-efficient. It is the software that controls the hardware to a considerable degree. In this work-in-progress paper, we present a first analysis of how compiler optimizations can influence energy efficiency. We base our analysis on workloads of the SPEC CPU 2017 benchmark. With 43 benchmarks from different domains, including integer and floating-point heavy computations executed on a state-of-the-art server system for cloud applications, SPEC CPU 2017 offers a representative selection of workloads.
云服务的增长导致越来越多的数据中心变得越来越大,并消耗大量的电力。为了提高能源效率,实际的服务器设备和软件本身都必须变得更加节能。软件在很大程度上控制着硬件。在这篇正在进行的论文中,我们首次分析了编译器优化如何影响能源效率。我们的分析基于SPEC CPU 2017基准的工作负载。SPEC CPU 2017提供了来自不同领域的43个基准测试,包括在最先进的云应用服务器系统上执行的整数和浮点繁重计算,提供了具有代表性的工作负载选择。
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