论文部分内容阅读
移除-进化自修复通过进化自修复模式提高了目标电路的自修复能力,但在进化过程中,目标电路的评估尚缺少研究。在对胚胎电子阵列状态和目标电路形式数学描述的基础上,以马尔可夫不可修系统理论为指导,研究具有故障细胞的胚胎电子阵列上目标电路评估方法。研究了目标电路状态、状态转移率及工作状态概率自动计算方法,求解了目标电路可靠度及平均故障前时间,以此评估目标电路。仿真实验结果表明,该评估方法有效评估了进化过程中的目标电路形式,为移除-进化自修复中目标电路的优选提供了理论参考依据。
Removal - Evolutionary self-healing enhances self-healing of target circuits through evolutionary self-healing modes, but the evolution of target circuits is poorly studied. Based on the mathematical description of embryonic electron array state and target circuit form, the Markovian Immortalized System Theory is used as a guide to study the target circuit evaluation method of embryonic electron array with defective cells. The method of automatic calculation of the target circuit status, the state transfer rate and the working state probability is studied. The target circuit reliability is evaluated and the average pre-fault time is evaluated. The simulation results show that the proposed method can effectively evaluate the target circuit in the evolutionary process and provide a theoretical reference for the optimization of the target circuit in removal-evolution self-healing.