计算机工程与应用2017,Vol.53Issue(8):44-49,101,7.DOI:10.3778/j.issn.1002-8331.1511-0091
总线型细胞阵列设计与空闲细胞选择方法
Design of bus-based embryonic array and selection method for mounts of spare cells
摘要
Abstract
For large scale or very large scale embryonic circuits, in the process of function differentiation and self-repairing faced with the problems such as huge hardware consumption, huge time consumption and hard to completed and so on, in this paper, a Bus-based Embryonic Array(BEA)is proposed, which is based on the function decomposition. The structure of BEA is designed, a new self-repairing strategy is put forward, and the comparison of the BEA with the original array structure is analyzed. The resource consumption and the reliability of the BEA are analyzed with different cells composition. Considering the resource consumption and the reliability of the BEA, the choice of spare cells in BEA is researched, to ensure the less resource consumption with the same reliability. The research on the spare cells in the BEA is helpful to the design of the real circuit.关键词
总线型细胞阵列/功能块/可靠性/资源消耗/空闲细胞Key words
bus-based embryonic array/function model/reliability/resource consumption/spare cells分类
信息技术与安全科学引用本文复制引用
王涛,蔡金燕,孟亚峰..总线型细胞阵列设计与空闲细胞选择方法[J].计算机工程与应用,2017,53(8):44-49,101,7.基金项目
国家自然科学基金(No.61271153,No.61372039). (No.61271153,No.61372039)
