Energy-aware Standby-Sparing Technique for periodic real-time applications

机译：定期实时应用的能量感知备用备用技术

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In this paper, we present an energy-aware standby-sparing technique for periodic real-time applications. A standby-sparing system consists of a primary processor where the application tasks are executed using Dynamic Voltage Scaling (DVS) to save energy, and a spare processor where the backup tasks are executed at maximum voltage/frequency, should there be a need. In our framework, we employ Earliest-Deadline-First (EDF) and Earliest-Deadline-Late (EDL) scheduling policies on the primary and spare CPUs, respectively. The use of EDL on the spare CPU allows delaying the backup tasks on the spare CPU as much as possible, enabling energy savings. We develop static and dynamic algorithms based on these principles, and evaluate their performance experimentally. Our simulation results show significant energy savings compared to existing reliability-aware power management (RAPM) techniques for most execution scenarios.

机译：在本文中，我们提出了一种用于定期实时应用的能量感知备用保留技术。备用保存系统由主要处理器组成，其中使用动态电压缩放（DVS）执行应用任务以节省能量，并且应需要以最大电压/频率执行备份任务的备用处理器。在我们的框架中，我们在主要和备用CPU上雇用了最早截止日期（EDF）和最早的截止日期（EDL）调度策略。 EDL在备用CPU上使用允许尽可能延迟备用CPU上的备份任务，从而实现节能。我们根据这些原则开发静态和动态算法，并通过实验评估其性能。与大多数执行方案的现有可靠性感知电源管理（REAPM）技术相比，我们的仿真结果显示出显着的节能。

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《IEEE International Conference on Computer Design》|2011年||共8页
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中图分类 TP3-53;
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EDF Scheduling; Energy Management; Real-Time Systems; Reliability Dynamic Voltage Scaling; Standby-Sparing;

机译：EDF调度;能源管理;实时系统;可靠性动态电压缩放;待机备件;

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1. Energy-aware standby-sparing for fixed-priority real-time task sets [J] . Mohammad A. Haque, Hakan Aydin, Dakai Zhu Sustainable Computing . 2015,第juna期

机译：固定优先级实时任务集的节能感知待机
2. Energy-aware primary/backup scheduling of periodic real-time tasks on heterogeneous multicore systems [J] . Roy Abhishek, Aydin Hakan, Zhu Dakai Sustainable Computing . 2021,第Pta1期

机译：能量感知主/备份调度异构多核系统上的周期性实时任务
3. Evaluation of DVFS techniques on modern HPC processors and accelerators for energy-aware applications [J] . Enrico Calore, Alessandro Gabbana, Sebastiano Fabio Schifano, Concurrency and computation: practice and experience . 2017,第12期

机译：在现代HPC处理器和加速器上对DVFS技术进行评估，以了解能源应用
4. Energy-aware Standby-Sparing Technique for periodic real-time applications [C] . 2011 IEEE 29th International Conference on Computer Design . 2011

机译：周期性实时应用中的节能感知备用技术
5. Reliability Management Techniques for Energy-Aware Multiprocessor Real-Time Systems. [D] . Haque, Mohammad Atiqul. 2016

机译：能源敏感型多处理器实时系统的可靠性管理技术。
6. Real-Time Human Ambulation Activity and Physiological Monitoring: Taxonomy of Issues Techniques Applications Challenges and Limitations [O] . Rinat Khusainov, Djamel Azzi, Ifeyinwa E. Achumba, 2013

机译：实时人类活动活动和生理监测：问题技术应用挑战和局限性的分类
7. Generalized standby-sparing techniques for energy-efficient fault tolerance in multiprocessor real-time systems [O] . Yifeng Guo, Dakai Zhu, Hakan Aydin 2013

机译：用于多处理器实时系统中的节能容错的通用备用节省技术
8. Getting the Requirements: Techniques and Experiences Capturing Requirements for Several Real-Time Applications [R] . Zucconi-Rojas, L. 1987

机译：获得要求：技术和经验捕获几个实时应用程序的要求

Energy-aware Standby-Sparing Technique for periodic real-time applications

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