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引用次数: 2
摘要
随着嵌入式系统数量的增加,对它们的需求也在增加。目前的算法能够在理想条件下创建足够的调度,但当必须考虑许多变量时,可能被认为是不够的。终端用户要求更高的性能,同时最大限度地减少故障和功耗,这意味着必须将先进的电源管理集成到电路设计中,特别是在多核环境中。本文总结了能量收集系统仿真的初步研究,确定了关键参数。这是通过最初的多变量分析来确定主要贡献者,然后通过实验设计(DoE)对其进行改进。最后,通过统计过程控制(Statistical Process control, SPC)对简化后的模型进行控制,以确定监控是否会对输出可靠性产生统计差异,如果会,哪个参数的影响最大。
Identification of Key Energy Harvesting Parameters through Monte Carlo Simulations
As the number of embedded systems increases, so do the demands placed upon them. Current algorithms are capable of creating adequate schedules under ideal conditions, but can be considered inadequate when many variables must be regarded. End users are demanding ever greater performance while minimizing failures and power consumption, meaning advanced power management must be incorporated into circuit designs, especially in multi-core environments. This paper summarizes the initial investigation into the simulation of an energy harvesting system to identify key parameters. This is done by initial multi-vary analysis to determine primary contributors, which are then refined through Design of Experiments (DoE). Finally, the reduced model is subject to control through Statistical Process Control (SPC) to confirm whether monitoring causes a statistical difference to the output reliability and if so, what parameter has the greatest effect.
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