计算机技术与发展2018,Vol.28Issue(3):97-100,104,5.DOI:10.3969/j.issn.1673-629X.2018.03.020
基于三值光计算机的细胞自动机计算系统
Cellular Automata Computing System Based on Ternary Optical Computer
摘要
Abstract
Cellular automata computing system (CACS) is a motivation system with discrete property in time,space and state.It consists of infinite regular little units,each of them is in one of some finite states and the consequent transferring state is determined by relating neighbor function rules and neighbor units'states,and the whole grid can be infinite dimension.At present,most CACS are realized by VLSI,in which the local state transferring rules cannot be changed once they are confirmed.For this,we design a novel CACS based on ternary optical computer (TOC),which is an array comprised of a couple of cell units in two dimension space.It has taken two advantages of TOC,of which the former is that of the giant parallelism which makes it possible to compute the CA in parallel mode,and the latter is that the calcu-late unit can be reconstructed which is used to implement that the transformation rules of every cell and one cell in different time are differ-ent.Therefore,the proposed CACS improves the complexity and controllability of CA.Not only has the proposed CACS reflected the practi-cality of TOC,but also enhanced the performance of CACS.关键词
三值光学计算机/细胞自动机/并行计算/高可控/大规模Key words
ternary optical computer/cellular automata/parallel computing/high controllability/large-scale分类
信息技术与安全科学引用本文复制引用
李梅..基于三值光计算机的细胞自动机计算系统[J].计算机技术与发展,2018,28(3):97-100,104,5.基金项目
陕西省教育专项科研计划项目(16JK1383) (16JK1383)
