实时多处理器调度问题及算法的分类

Handbook of Scheduling Pub Date : 1900-01-01 DOI:10.1201/9780203489802.ch30

John Carpenter, S. Funk, Philip Holman, A. Srinivasan, James H. Anderson, Sanjoy Baruah

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引用次数: 380

摘要

实时多处理器系统现在很普遍。设计范围从带有少量处理器的单芯片架构到大规模信号处理系统，如合成孔径雷达系统。对于单处理器系统，确保满足截止日期约束的问题已经得到了广泛的研究:考虑到实际系统中出现的许多复杂性(例如，同步成本，系统开销等)的有效调度算法得到了很好的理解。相比之下，研究人员才刚刚开始了解存在于多处理器系统中的权衡。在本章中，我们分析了在多处理器上调度独立的、周期性的实时任务所涉及的权衡。

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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A Categorization of Real-Time Multiprocessor Scheduling Problems and Algorithms

Real-time multiprocessor systems are now commonplace. Designs range from single-chip architectures, with a modest number of processors, to large-scale signal-processing systems, such as synthetic-aperture radar systems. For uniprocessor systems, the problem of ensuring that deadline constraints are met has been widely studied: effective scheduling algorithms that take into account the many complexities that arise in real systems (e.g., synchronization costs, system overheads, etc.) are well understood. In contrast, researchers are just beginning to understand the trade-offs that exist in multiprocessor systems. In this chapter, we analyze the trade-offs involved in scheduling independent, periodic real-time tasks on a multiprocessor.

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