Energy minimization for checkpointing-based approach to guaranteeing real-time systems reliability

16th IEEE International Symposium on Object/component/service-oriented Real-time distributed Computing (ISORC 2013) Pub Date : 2013-06-19 DOI:10.1109/ISORC.2013.6913209

Zheng Li, Li Wang, Shangping Ren, Gang Quan

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引用次数: 10

Abstract

In this paper, we study the energy minimization problem for a frame-based real time system with guaranteed reliability using the checkpointing technique. We formally prove that executing a real time task set with a uniform frequency, or neighboring frequencies if the desired frequency is not available, not only optimizes its energy consumption but also achieves maximal reliability. Based on the theoretic conclusion, we further develop a Dynamic Voltage Frequency Scaling (DVFS) and checkpoint allocation strategy for a task set to guarantee both reliability and deadline constraints but with minimal energy consumption. The proposed strategy has very small frequency switching overhead as no more than one frequency change is needed for the entire task set execution and thus is particularly effective for processors with large frequency switching overhead. We further empirically compare our approach with recent work published in the literature. The experimental results show that the proposed approach can reduce as much as 15% energy consumption.

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基于检查点的保证实时系统可靠性的能量最小化方法

本文利用检查点技术研究了基于帧的保证可靠性实时系统的能量最小化问题。我们正式证明了以均匀频率或相邻频率执行实时任务集，在没有期望频率的情况下，不仅可以优化其能量消耗，而且可以实现最大的可靠性。在理论结论的基础上，我们进一步开发了一种动态电压频率标度(DVFS)和任务集检查点分配策略，以保证可靠性和时间约束，同时最小化能量消耗。所提出的策略具有非常小的频率切换开销，因为整个任务集的执行不需要超过一次频率更改，因此对于具有大频率切换开销的处理器特别有效。我们进一步将我们的方法与最近发表在文献中的工作进行实证比较。实验结果表明，该方法可降低高达15%的能耗。

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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16th IEEE International Symposium on Object/component/service-oriented Real-time distributed Computing (ISORC 2013)

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