使用差分分析和幂律总利用率分布来量化单处理器上EDF与RMS可调度性的优势

16th IEEE International Symposium on Object/component/service-oriented Real-time distributed Computing (ISORC 2013) Pub Date : 2013-06-19 DOI:10.1109/ISORC.2013.6913215

D. Müller, Matthias Werner

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引用次数: 1

摘要

与最优调度算法最早截止日期优先(EDF)相反，速率单调调度(RMS)可能导致单处理器上总利用率低于1的不可调度任务集。长期以来，这一缺陷的量化一直是实时科学的一个主题。从分解利用率、利用率上界和数值最优度等指标分析了调度算法的不足。最后，我们提出了一种新的可调度性度量，称为效率，并计算了它的界。结果表明，基于假设的总利用率分布，数值最优度可能过于乐观。主要结果是应用幂律总利用率分布来量化RMS-to-EDF效率，并逐步推导出该效率的下限。我们应用可调度性的微分分析。

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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Quantifying the advantage of EDF vs. RMS schedulability on a uniprocessor using a differential analysis and a power-law total utilization distribution

Contrary to the optimal scheduling algorithm Earliest Deadline First (EDF), Rate-Monotonic Scheduling (RMS) can lead to non-schedulable task sets for total utilizations below 1 on a uniprocessor. The quantification of this deficiency has been a topic in real-time science for a long time. We show weaknesses of the scheduling algorithm metrics breakdown utilization, utilization upper bound, and numerical optimality degree. Finally, we suggest a new measure of schedulability called Efficiency and calculate its bounds. It turns out that numerical optimality degree might be too optimistic depending on the assumed total utilization distribution. The main results are the application of a power-law total utilization distribution to quantify the RMS-to-EDF Efficiency and a step-by-step derived lower bound of this Efficiency. We apply a differential analysis of schedulability.

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16th IEEE International Symposium on Object/component/service-oriented Real-time distributed Computing (ISORC 2013)

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