静态最优动态软实时半分区调度

IF 1.4 4区计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS

Real-Time Systems Pub Date : 2021-01-02 DOI:10.1007/s11241-020-09359-8

Clara Hobbs, Zelin Tong, Joshua Bakita, James H. Anderson

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引用次数: 2

摘要

半分区调度是一种多处理器实时调度方法，其中大多数任务固定在处理器上，而一小部分任务允许迁移。与全局调度相比，这种方法可以减少开销，并且与分区调度相比可以减少处理器容量损失。先前的工作已经产生了许多半分区调度算法，但它们的正确性通常取决于离线任务分配和在线执行的复杂交织。这种脆弱性导致很少有人提出支持动态任务系统的半分区调度算法，其中任务可以在运行时加入或离开系统，而且很少有人在任何意义上都是最优的。本文介绍了第一个半分区调度算法EDF-sc，它是调度(静态)软实时(SRT)零星任务系统的最优算法，允许任务动态加入和离开。EDF-sc提供的SRT最优性概念要求对任何不会导致过度使用的任务系统的截止日期延迟进行限制。在所有任务都可以被指定为固定任务的情况下，EDF-sc完全表现为分区EDF。提供了启发式方法，使EDF-sc具有稳定工作负载的新能力，以便在任务加入和离开系统时接近分区情况。

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Statically optimal dynamic soft real-time semi-partitioned scheduling

Semi-partitioned scheduling is an approach to multiprocessor real-time scheduling where most tasks are fixed to processors, while a small subset of tasks is allowed to migrate. This approach offers reduced overhead compared to global scheduling, and can reduce processor capacity loss compared to partitioned scheduling. Prior work has resulted in a number of semi-partitioned scheduling algorithms, but their correctness typically hinges on a complex intertwining of offline task assignment and online execution. This brittleness has resulted in few proposed semi-partitioned scheduling algorithms that support dynamic task systems, where tasks may join or leave the system at runtime, and few that are optimal in any sense. This paper introduces EDF-sc, the first semi-partitioned scheduling algorithm that is optimal for scheduling (static) soft real-time (SRT) sporadic task systems and allows tasks to dynamically join and leave. The SRT notion of optimality provided by EDF-sc requires deadline tardiness to be bounded for any task system that does not cause over-utilization. In the event that all tasks can be assigned as fixed, EDF-sc behaves exactly as partitioned EDF. Heuristics are provided that give EDF-sc the novel ability to stabilize the workload to approach the partitioned case as tasks join and leave the system.

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来源期刊

Real-Time Systems 工程技术-计算机：理论方法

CiteScore

2.90

自引率

7.70%

发文量

审稿时长

6 months

期刊介绍： Papers published in Real-Time Systems cover, among others, the following topics: requirements engineering, specification and verification techniques, design methods and tools, programming languages, operating systems, scheduling algorithms, architecture, hardware and interfacing, dependability and safety, distributed and other novel architectures, wired and wireless communications, wireless sensor systems, distributed databases, artificial intelligence techniques, expert systems, and application case studies. Applications are found in command and control systems, process control, automated manufacturing, flight control, avionics, space avionics and defense systems, shipborne systems, vision and robotics, pervasive and ubiquitous computing, and in an abundance of embedded systems.