实时调度多段任务

Proceedings., Fourteenth Annual International Computer Software and Applications Conference Pub Date : 1990-10-31 DOI:10.1109/CMPSAC.1990.139459

Kamhing Ho, James H. Rice, J. Srivastava

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引用次数: 3

摘要

研究了多段实时任务的在线非抢占调度问题。任务段交替使用CPU和I/O资源。提出了一种任务模型，它比前面提出的模型包含更广泛的任务类别。作者没有开发新的调度算法，而是开发了一类空闲分配策略，利用不同程度的任务结构和设备利用率信息来预算任务空闲。研究表明，松弛分配策略可以提高所有调度算法的性能。两个关键的观察结果是:松弛分布在任务到达率超过一定阈值时是有帮助的，松弛分布在更大程度上帮助了通常表现不佳的算法。对各种常值函数调度算法的研究表明，它们都倾向于具有大量小段的任务而不是具有少量大段的任务。结果表明，对于多段任务，摩尔排序算法不是最优的。

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Real-time scheduling of multiple segment tasks

The authors study the problem of on-line non-preemptive scheduling of multiple segment real-time tasks. Task segments alternate between using CPU and I/O resources. A task model is proposed which encompasses a wider class of tasks than models proposed earlier. Instead of developing new scheduling algorithms, the authors develop a class of slack distribution policies which use varying degrees of information about task structure and device utilization to budget task slack. Slack distribution policies are shown to improve the performance of all scheduling algorithms studied. Two key observations are: slack distribution is helpful beyond a certain threshold of task arrival rate, and algorithms which normally perform poorly are helped to a greater degree by slack distribution. A study of various scheduling algorithms for a constant value function reveals that all of them favor tasks with a large number of small segments to tasks with a small number of large segments. It is shown that the Moore ordering algorithm is not optimal for multiple segment tasks.<>

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Proceedings., Fourteenth Annual International Computer Software and Applications Conference

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