【摘要】 人工生命科学就是研究生物机体的特征。胚胎电子学介绍了新一代生物灵感容错FPGA系列,适合于人工生命的研究。胚胎电子阵列通过硬件冗余和阵列重构机制获得容错功能。本文论述和分析了根据k-out-of-m可靠性模型的胚胎电子阵列的重构策略。讨论了行取消和细胞取消两种方案。更多还原

【Abstract】 Artificial life science explores the characteristics of living organisms. Embryonicelectronics introduces a new generation of fault-tolerant field-programmable arrays inspired bynature and appropriate for Artificial life research. Embryonic arrays use hardware redundancy andarray reconfiguration mechanisms to achieve fault tolerance. In this paper the k-out-of-m reliabilitymodel is used to analyze the reconfiguration strategies used in embryonic arrays. Two schemes, row-or column-elimination and cell-elimination are investigated.更多还原