Reclaiming Spare Capacity and Improving Aperiodic Response Times in Real-Time Environments

Q2 Computer Science

Eurasip Journal on Embedded Systems Pub Date : 2011-03-16 DOI:10.1155/2011/391215

S. Gopalakrishnan, Xue Liu

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引用次数: 0

Abstract

Scheduling recurring task sets that allow some instances of the tasks to be skipped produces holes in the schedule which are nonuniformly distributed. Similarly, when the recurring tasks are not strictly periodic but are sporadic, there is extra processor bandwidth arising because of irregular job arrivals. The additional computation capacity that results from skips or sporadic tasks can be reclaimed to service aperiodic task requests efficiently and quickly. We present techniques for improving the response times of aperiodic tasks by identifying nonuniformly distributed spare capacity—because of skips or sporadic tasks—in the schedule and adding such extra capacity to the capacity queue of a BASH server. These gaps can account for a significant portion of aperiodic capacity, and their reclamation results in considerable improvement to aperiodic response times. We present two schemes: NCLB-CBS, which performs well in periodic real-time environments with firm tasks, and NCLB-CUS, which can be deployed when the basic task set to schedule is sporadic. Evaluation via simulations and implementation suggests that performance improvements for aperiodic tasks can be obtained with limited additional overhead.

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实时环境下的闲置容量回收与非周期响应时间优化

调度允许跳过某些任务实例的循环任务集会在调度中产生非均匀分布的漏洞。同样，当循环任务不是严格的周期性任务，而是零星的任务时，由于不定期的任务到达，会产生额外的处理器带宽。由于跳过或零星任务而产生的额外计算能力可以被回收，以高效、快速地服务于非周期性任务请求。我们介绍了改进非周期性任务响应时间的技术，方法是在调度中识别非均匀分布的空闲容量(由于跳过或零星任务)，并将此类额外容量添加到BASH服务器的容量队列中。这些缺口可以占非周期容量的很大一部分，它们的回收可以显著改善非周期响应时间。我们提出了两种方案:NCLB-CBS和NCLB-CUS，前者在具有固定任务的周期性实时环境中表现良好，后者可以部署在零星的基本任务集调度时。通过模拟和实现的评估表明，可以在有限的额外开销下获得非周期性任务的性能改进。

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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来源期刊

Eurasip Journal on Embedded Systems Computer Science-Computer Science (all)

CiteScore

2.50

自引率

0.00%

发文量

期刊介绍： The EURASIP Journal on Embedded Systems (EURASIP JES) is an international journal that serves the large community of researchers and professional engineers who deal with the theory and practice of embedded systems, particularly encompassing all practical aspects of theory and methods used in designing homogeneous as well as heterogeneous embedded systems that combine data-driven and control-driven behaviors. Original full and short papers, correspondence and reviews on design and development of embedded systems, methodologies applied for their specification, modeling and design, and adaptation of algorithms for real-time execution are encouraged for submission.