Improving the Schedulability and Quality of Service for Federated Scheduling of Parallel Mixed-Criticality Tasks on Multiprocessors

Euromicro Conference on Real-Time Systems Pub Date : 1900-01-01 DOI:10.4230/LIPIcs.ECRTS.2018.12

R. Pathan

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引用次数: 8

Abstract

This paper presents federated scheduling algorithm, called MCFQ, for a set of parallel mixedcriticality tasks on multiprocessors. The main feature of MCFQ algorithm is that different alternatives to assign each high-utilization, high-critical task to the processors are computed. Given the different alternatives, we carefully select one alternative for each such task so that all the other tasks can be successfully assigned on the remaining processors. Such flexibility in choosing the right alternative has two benefits. First, it has higher likelihood to satisfy the total resource requirement of all the tasks while ensuring schedulability. Second, computational slack becomes available by intelligently selecting the alternative such that the total resource requirement of all the tasks is minimized. Such slack then can be used to improve the QoS of the system (i.e., never discard some low-critical tasks). Our experimental results using randomly-generated parallel mixed-critical tasksets show that MCFQ can schedule much higher number of tasksets and can improve the QoS of the system significantly in comparison to the state of the art.

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提高多处理器并行混合临界任务联邦调度的可调度性和服务质量

针对多处理器上的一组并行混合临界任务，提出了一种称为MCFQ的联合调度算法。MCFQ算法的主要特点是计算了将每个高利用率、高临界任务分配给处理器的不同选择。给定不同的备选方案，我们为每个这样的任务仔细选择一个备选方案，以便在剩余的处理器上成功分配所有其他任务。这种选择正确选择的灵活性有两个好处。首先，它更有可能在保证可调度性的同时满足所有任务的总资源需求。其次，通过智能选择备选方案，使所有任务的总资源需求最小化，从而实现计算松弛。这样的空闲可以用来提高系统的QoS(即，永远不要放弃一些低关键的任务)。我们使用随机生成的并行混合关键任务集的实验结果表明，与现有技术相比，MCFQ可以调度更多数量的任务集，并且可以显着提高系统的QoS。

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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Euromicro Conference on Real-Time Systems

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