MC-Fluid: Simplified and Optimally Quantified

2015 IEEE Real-Time Systems Symposium Pub Date : 2015-12-01 DOI:10.1109/RTSS.2015.38

Sanjoy Baruah, A. Easwaran, Zhishan Guo

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引用次数: 50

Abstract

The fluid scheduling model allows for schedules in which an individual task may be assigned a fraction of a processor at each time instant. These assignments are subject to the constraints that no fraction exceeds one and the sum of all the assigned fractions do not exceed the sum of the computing capacities of all the processors at any instant. An algorithm, MC-Fluid, has recently been proposed for scheduling systems of mixed-criticality implicit-deadline sporadic tasks under the fluid scheduling model. MC-Fluid has been shown to have a speedup bound no worse than (1 + √5)/2 or ≈ 1.618 for scheduling dual-criticality systems. We derive here a simplified variant of MC-Fluid called MCF, that has run-time linear in the number of tasks. We prove that this simplified variant has a speedup bound no worse than 4/3 for dual-criticality systems, and show that this implies that MC-Fluid, too, has a speedup bound no worse than 4/3. We know from prior results in uniprocessor mixed-criticality scheduling that no algorithm may have a speedup bound smaller than 4/3, allowing us to conclude that MCF and MC-Fluid are in fact speedup-optimal for dual-criticality scheduling.

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MC-Fluid:简化和最佳量化

流体调度模型允许在每个时间瞬间将处理器的一小部分分配给单个任务的调度。这些赋值受以下约束:分数不得超过1，所有赋值分数的总和不得超过任何时刻所有处理器计算能力的总和。针对流体调度模型下的混合临界隐式截止时间偶发任务调度系统，提出了一种MC-Fluid算法。MC-Fluid在调度双临界系统时的加速界不小于(1 +√5)/2或≈1.618。我们在这里推导出MC-Fluid的一个简化变体，称为MCF，它在任务数量上具有运行时间线性。我们证明了这种简化变体对于双临界系统的加速界不小于4/3，并表明这意味着MC-Fluid也具有不小于4/3的加速界。我们从先前的单处理器混合临界调度结果中知道，没有算法的加速界小于4/3，这使我们可以得出结论，MCF和MC-Fluid实际上是双临界调度的加速最优。

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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2015 IEEE Real-Time Systems Symposium

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