Partitioned Fixed-Priority Scheduling of Parallel Tasks Without Preemptions

2018 IEEE Real-Time Systems Symposium (RTSS) Pub Date : 2018-12-01 DOI:10.1109/RTSS.2018.00056

Daniel Casini, Alessandro Biondi, Geoffrey Nelissen, G. Buttazzo

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引用次数: 46

Abstract

The study of parallel task models executed with predictable scheduling approaches is a fundamental problem for real-time multiprocessor systems. Nevertheless, to date, limited efforts have been spent in analyzing the combination of partitioned scheduling and non-preemptive execution, which is arguably one of the most predictable schemes that can be envisaged to handle parallel tasks. This paper fills this gap by proposing an analysis for sporadic DAG tasks under partitioned fixed-priority scheduling where the computations corresponding to the nodes of the DAG are non-preemptively executed. The analysis has been achieved by means of segmented self-suspending tasks with nonpreemptable segments, for which a new fine-grained analysis is also proposed. The latter is shown to analytically dominate state-of-the-art approaches. A partitioning algorithm for DAG tasks is finally proposed. By means of experimental results, the proposed analysis has been compared against a previouslyproposed analysis for DAG tasks with non-preemptable nodes managed by global fixed-priority scheduling. The comparison revealed important improvements in terms of schedulability performance.

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无抢占并行任务的分区固定优先级调度

用可预测调度方法执行并行任务模型的研究是实时多处理器系统的一个基本问题。然而，到目前为止，在分析分区调度和非抢占执行的组合方面所做的努力有限，这可以说是可以设想的处理并行任务的最可预测的方案之一。本文通过对分段固定优先级调度下的零星DAG任务进行分析，填补了这一空白，其中DAG节点对应的计算是非抢占执行的。通过分段自挂任务的非抢占分析，提出了一种新的细粒度分析方法。后者被证明在分析上主导着最先进的方法。最后提出了一种DAG任务的划分算法。通过实验结果，将所提出的分析与先前提出的具有全局固定优先级调度管理的非抢占节点的DAG任务分析进行了比较。比较显示了在可调度性能方面的重要改进。

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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2018 IEEE Real-Time Systems Symposium (RTSS)

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