在高通量计算系统的跟踪驱动能量感知模拟中使用机器学习

Proceedings of the 8th ACM/SPEC on International Conference on Performance Engineering Companion Pub Date : 2017-04-18 DOI:10.1145/3053600.3053612

A. McGough, N. A. Moubayed, M. Forshaw

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引用次数: 4

摘要

当执行高吞吐量计算系统的跟踪驱动仿真时，我们受限于在仿真的当前点上应该对系统可用的知识。然而，跟踪日志包含了我们在模拟过程中不知道的信息。通过使用机器学习，我们可以提取跟踪日志中的潜在模式，使我们能够仅根据我们所知道的信息准确预测任务的特征。这些特征将使我们能够在模拟中做出更好的决策，从而得出更好的节能政策。我们证明，我们可以准确地预测(高达99%的准确率)，使用过采样和深度学习，这些任务将完成，同时提供准确的预测任务执行时间和内存占用使用随机森林回归。

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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Using Machine Learning in Trace-driven Energy-Aware Simulations of High-Throughput Computing Systems

When performing a trace-driven simulation of a High Throughput Computing system we are limited to the knowledge which should be available to the system at the current point within the simulation. However, the trace-log contains information we would not be privy to during the simulation. Through the use of Machine Learning we can extract the latent patterns within the trace-log allowing us to accurately predict characteristics of tasks based only on the information we would know. These characteristics will allow us to make better decisions within simulations allowing us to derive better policies for saving energy. We demonstrate that we can accurately predict (up-to 99% accuracy), using oversampling and deep learning, those tasks which will complete while at the same time provide accurate predictions for the task execution time and memory footprint using Random Forest Regression.

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Proceedings of the 8th ACM/SPEC on International Conference on Performance Engineering Companion

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