Improving Lifetime of Multicore Soft Real-Time Systems through Global Utilization Control

Proceedings of the 25th edition on Great Lakes Symposium on VLSI Pub Date : 2015-05-20 DOI:10.1145/2742060.2742113

Yuexi Ma, Thidapat Chantem, X. Hu, R. Dick

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引用次数: 13

Abstract

System lifetime reliability is an important design consideration for many real-time embedded systems. Increasing integrated circuit power density and the subsequent rise in chip temperature negatively impact the lifetime reliability of such systems. Although existing thermal-aware methods are effective in reducing temperature, they cannot increase, and may even hamper, the system lifetime reliability. The complicated relationship between temperature and system lifetime requires that reliability be considered explicitly during system design. This paper presents a reliability-aware utilization control framework for homogeneous multicore soft real-time systems. The framework employs a model predictive controller to increase the system lifetime by manipulating the utilization of real-time tasks. An online heuristic algorithm is introduced to adjust the controller's sampling window in order to reduce the effects of thermal cycling on reliability. Simulation results show that the proposed approach can improve the system mean time to failure by at least 43% and as much as 369% compared to existing techniques.

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利用全局利用率控制提高多核软实时系统的寿命

系统寿命可靠性是许多实时嵌入式系统设计的重要考虑因素。集成电路功率密度的增加和随后芯片温度的升高会对此类系统的寿命可靠性产生负面影响。虽然现有的热感知方法在降低温度方面是有效的，但它们不能提高甚至可能妨碍系统寿命的可靠性。温度与系统寿命之间的复杂关系要求在系统设计中明确考虑可靠性。提出了一种同构多核软实时系统的可靠性感知利用控制框架。该框架采用模型预测控制器，通过控制实时任务的利用率来延长系统寿命。为了降低热循环对可靠性的影响，引入了一种在线启发式算法来调整控制器的采样窗口。仿真结果表明，与现有技术相比，该方法可将系统平均无故障时间提高至少43%，最高可提高369%。

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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Proceedings of the 25th edition on Great Lakes Symposium on VLSI

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