在多处理器实时系统中支持嵌套锁定

2012 24th Euromicro Conference on Real-Time Systems Pub Date : 2012-07-11 DOI:10.1109/ECRTS.2012.17

Bryan C. Ward, James H. Anderson

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引用次数: 73

摘要

本文提出了第一个支持细粒度嵌套资源请求的实时多处理器锁定协议。这种锁定协议依赖于一种对资源请求的满足进行排序的新技术，以确保嵌套请求的优先级反转持续时间有限。这种技术可以应用于分区、集群和全局调度的系统，在这些系统中等待是通过旋转或挂起实现的。此外，该技术可用于构建细粒度嵌套锁定协议，这些协议在基于自旋的、挂起无关的或挂起感知的优先级反转分析下是有效的。基于此技术构建的锁定协议的性能并不比粗粒度锁定机制差，同时在平均情况下允许增加并行性(并且，取决于任务集，具有更好的最坏情况性能)。

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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Supporting Nested Locking in Multiprocessor Real-Time Systems

This paper presents the first real-time multiprocessor locking protocol that supports fine-grained nested resource requests. This locking protocol relies on a novel technique for ordering the satisfaction of resource requests to ensure a bounded duration of priority inversions for nested requests. This technique can be applied on partitioned, clustered, and globally scheduled systems in which waiting is realized by either spinning or suspending. Furthermore, this technique can be used to construct fine-grained nested locking protocols that are efficient under spin-based, suspension-oblivious or suspension-aware analysis of priority inversions. Locking protocols built upon this technique perform no worse than coarse-grained locking mechanisms, while allowing for increased parallelism in the average case (and, depending upon the task set, better worst-case performance).

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2012 24th Euromicro Conference on Real-Time Systems

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