Detail publikace

Development of Combinational Circuits Using Non-Uniform Cellular Automata: Initial Results

Originální název

Development of Combinational Circuits Using Non-Uniform Cellular Automata: Initial Results

Anglický název

Development of Combinational Circuits Using Non-Uniform Cellular Automata: Initial Results

Jazyk

en

Originální abstrakt

A non-uniform cellular automata-based model is presented for the evolutionary development of digital circuits at the gate level. The main feature of this model is the modified local transition function of the cellular automaton in which a gate is associated with each rule of the transition function. A logic gate is generated by each cell when the cell deter- mines its next state according to the appropriate rule. An evolutionary algorithm is utilized to design a non-uniform cellular automaton (its local transition function) for the de- velopment of a target circuit. In this paper, initial results will be presented that were obtained using the non-uniform cellular automata.

Anglický abstrakt

A non-uniform cellular automata-based model is presented for the evolutionary development of digital circuits at the gate level. The main feature of this model is the modified local transition function of the cellular automaton in which a gate is associated with each rule of the transition function. A logic gate is generated by each cell when the cell deter- mines its next state according to the appropriate rule. An evolutionary algorithm is utilized to design a non-uniform cellular automaton (its local transition function) for the de- velopment of a target circuit. In this paper, initial results will be presented that were obtained using the non-uniform cellular automata.

BibTex


@inproceedings{BUT30218,
  author="Michal {Bidlo} and Zdeněk {Vašíček}",
  title="Development of Combinational Circuits Using Non-Uniform Cellular Automata: Initial Results",
  annote="A non-uniform cellular automata-based model is presented
for the evolutionary development of digital circuits at the
gate level. The main feature of this model is the modified
local transition function of the cellular automaton in which
a gate is associated with each rule of the transition function.
A logic gate is generated by each cell when the cell deter-
mines its next state according to the appropriate rule. An
evolutionary algorithm is utilized to design a non-uniform
cellular automaton (its local transition function) for the de-
velopment of a target circuit. In this paper, initial results
will be presented that were obtained using the non-uniform
cellular automata.",
  address="Association for Computing Machinery",
  booktitle="Genetic and Evolutionary Computation",
  chapter="30218",
  edition="NEUVEDEN",
  howpublished="print",
  institution="Association for Computing Machinery",
  year="2009",
  month="july",
  pages="1839--1840",
  publisher="Association for Computing Machinery",
  type="conference paper"
}