胚胎型仿生自修复系统硬件消耗分析  

Analysis of hardware consumption of embryonic bio-inspired self-repairing system

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作  者:孟亚峰[1] 朱赛[1] 韩春辉[1] MENG Yafeng;ZHU Sai;HAN Chunhui(Department of Electronic and Optical Engineering,Ordnance Engineering College,Shijiazhuang 050003,China)

机构地区:[1]军械工程学院电子与光学工程系,河北石家庄050003

出  处:《现代电子技术》2017年第6期129-132,共4页Modern Electronics Technique

基  金:国家自然科学基金资助项目(61372039)

摘  要:胚胎型仿生自修复系统具有实时自修复能力,可用于高可靠性电子系统的设计。在设计过程中,其硬件消耗是工程师十分关心的问题。在分析胚胎型仿生自修复系统结构基础上,根据自修复过程特征,建立了其系统硬件消耗模型。并以三模冗余自修复系统为对比,对胚胎型仿生自修复系统的硬件消耗进行了仿真分析。分析表明,胚胎型仿生自修复系统在大规模、高自修复能力的电路设计中具有优越性,且通过电子细胞辅助电路的优化设计,可以降低自修复过程中的硬件消耗。The embryonic bio?inspired self-repairing system has the real-time self-repairing ability,and can be used in the design of the electronic system with high reliability.On the basis of analyzing the structure of the embryonic bio-inspired self-re-pairing system,the system hardware consumption model was established according to the characteristics of the self-repairing pro?cess.In comparison with the triple?modular redundancy self?repairing system,the simulation analysis for the hardware consump?tion of the embryonic bio-inspired self?repairing system was performed.The analysis results show that the embryonic bio-inspired self-repairing system has superiority in the design of the large-scale circuit with high self-repairing capacity,and can reduce the hardware consumption in the self-repairing process by means of the optimization design of the electronic cell auxiliary circuit.

关 键 词:电子细胞辅助电路 胚胎电子阵列 硬件消耗 自修复能力 

分 类 号:TN911-34[电子电信—通信与信息系统] TP302.8[电子电信—信息与通信工程]

 

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