容错和稳定实时系统的最优调度

Proceedings Fifth International Conference on Real-Time Computing Systems and Applications (Cat. No.98EX236) Pub Date : 1998-10-27 DOI:10.1109/RTCSA.1998.726422

M. Caccamo, G. Buttazzo

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引用次数: 39

摘要

当空间冗余不能用于成本或权重约束时，时间冗余是实现实时系统容错的有效方法。针对由刚性和刚性周期任务组成的实时系统，提出了一种容错调度算法。固定任务可以根据预定义的服务质量参数偶尔跳过一个实例，而硬任务包括主任务和备份任务。提出的调度算法确保每个任务实例在其时间约束内被主任务或备份任务满足。此外，该算法最大限度地利用处理器空闲时间来处理主任务，并自动回收因回收备份任务而节省的空闲时间。该算法的一个非常有趣的特性是，它可以调优以平衡性能与复杂性，因此很容易符合应用程序的需求。

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Optimal scheduling for fault-tolerant and firm real-time systems

Time redundancy is an effective method for achieving fault tolerance in a real time system, when space redundancy cannot be used for cost or weight constraints. The paper presents a fault tolerant scheduling algorithm for real time systems consisting of firm and hard periodic tasks. Firm tasks can occasionally skip one instance according to a predefined quality of service parameter, whereas hard tasks include a primary and a backup job. The proposed scheduling algorithm ensures that each task instance is satisfied within its timing constraints by either the primary or the backup job. Moreover the algorithm maximizes the processor idle time available for processing primary jobs and automatically reclaims the spare time saved by deallocating backup jobs. A very interesting feature of the algorithm is that it can be tuned to balance performance versus complexity, so easily conforming to application's requirements.

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Proceedings Fifth International Conference on Real-Time Computing Systems and Applications (Cat. No.98EX236)

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