Intel高性能处理器动态支路预测能耗估算的实验方法

Comput. Pub Date : 2023-07-11 DOI:10.3390/computers12070139

F. S. Alqurashi, Mohammad A. Al-Hashimi

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引用次数: 0

摘要

在高性能和其他计算平台中，功率和能源效率是最关键的要求之一。在这项工作中，采用了广泛的实验方法和程序来评估典型高性能CPU内部基本硬件构建块的功率和能源效率，重点是动态分支预测器(DBP)。调查依赖于英特尔的运行平均功率限制(RAPL)接口，这是一个基于CPU内部仪表可靠报告功率和能量的软件工具。我们在各种运行条件下使用了众所周知的微基准测试，以探索潜在的缺陷，并制定预防措施，以提高从RAPL获得的测量精度，从而获得更可靠的功率估计。作者讨论了影响测量的因素，并分享了遇到的困难和吸取的教训。

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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An Experimental Approach to Estimation of the Energy Cost of Dynamic Branch Prediction in an Intel High-Performance Processor

Power and energy efficiency are among the most crucial requirements in high-performance and other computing platforms. In this work, extensive experimental methods and procedures were used to assess the power and energy efficiency of fundamental hardware building blocks inside a typical high-performance CPU, focusing on the dynamic branch predictor (DBP). The investigation relied on the Running Average Power Limit (RAPL) interface from Intel, a software tool for credibly reporting the power and energy based on instrumentation inside the CPU. We used well-known microbenchmarks under various run conditions to explore potential pitfalls and to develop precautions to raise the precision of the measurements obtained from RAPL for more reliable power estimation. The authors discuss the factors that affect the measurements and share the difficulties encountered and the lessons learned.

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Comput.

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