摘要
作为复杂的长寿系统的标志性特性,容错性由传统的技术实现起来极为困难。受复杂的生物系统的高度容错性启发,文章以POE模型为基础研究了生物启发的容错计算技术的三个主要领域(胚胎电子学、免疫电子学和可进化的硬件),介绍了胚胎电子细胞阵列的层次结构及容错策略;论述了免疫电子学的重要成就、免疫-胚胎电子学的一般结构和抗体学习及可进化的硬件的主要机理;讨论了生物启发容错计算的研究前景。
Fault tolerance,as a standard feature of electronic systems intended for long-term missions,is difficult to be implemented by traditional techniques.Inspired by the complex biological system,this paper studies three domains (Embryonics,Immunotronics,Evolvable hardware)of Bio-inspired Fault Tolerance Techniques based on POE model.The hierarchies and fault tolerance strategies of embryonic cells are introduced.The important achievements of Immunotronics, the general architecture of immuno-Embryonics and antibody learning are stated.The main mechanism of Evolvable hardware is introduced.The future research of Fault Tolerance Computing Techniques is discussed.
出处
《计算机工程与应用》
CSCD
北大核心
2006年第4期30-34,共5页
Computer Engineering and Applications
基金
国家部委预研重点资助项目