An improved preemption delay upper bound for floating non-preemptive region

7th IEEE International Symposium on Industrial Embedded Systems (SIES'12) Pub Date : 2012-06-20 DOI:10.1109/SIES.2012.6356570

J. Marinho, Vincent Nélis, Stefan M. Petters, I. Puaut

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引用次数: 6

Abstract

In embedded systems, the timing behaviour of the control mechanisms are sometimes of critical importance for the operational safety. These high criticality systems require strict compliance with the offline predicted task execution time. The execution of a task when subject to preemption may vary significantly in comparison to its non-preemptive execution. Hence, when preemptive scheduling is required to operate the workload, preemption delay estimation is of paramount importance. In this paper a preemption delay estimation method for floating non-preemptive scheduling policies is presented. This work builds on [1], extending the model and optimising it considerably. The preemption delay function is subject to a major tightness improvement, considering the WCET analysis context. Moreover more information is provided as well in the form of an extrinsic cache misses function, which enables the method to provide a solution in situations where the non-preemptive regions sizes are small. Finally experimental results from the implementation of the proposed solutions in Heptane are provided for real benchmarks which validate the significance of this work.

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改进的浮动非抢占区抢占延迟上界

在嵌入式系统中，控制机制的定时行为有时对运行安全至关重要。这些高临界系统要求严格遵守离线预测任务执行时间。一个任务在被抢占时的执行与它的非抢占执行相比可能有很大的不同。因此，当需要抢占调度来操作工作负载时，抢占延迟估计是至关重要的。提出了一种浮动非抢占调度策略的抢占时延估计方法。这项工作建立在[1]的基础上，扩展了模型并大大优化了它。考虑到WCET分析上下文，抢占延迟函数的紧密性得到了很大的改进。此外，还以外部缓存缺失函数的形式提供了更多信息，这使得该方法能够在非抢占区域大小较小的情况下提供解决方案。最后给出了在庚烷中实现所提出的解决方案的实验结果，验证了本工作的意义。

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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7th IEEE International Symposium on Industrial Embedded Systems (SIES'12)

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