Detail publikace

Cellular Automata-Based Development of Combinational and Polymorphic Circuits: A Comparative Study

Originální název

Cellular Automata-Based Development of Combinational and Polymorphic Circuits: A Comparative Study

Anglický název

Cellular Automata-Based Development of Combinational and Polymorphic Circuits: A Comparative Study

Jazyk

en

Originální abstrakt

Cellular automata-based evolutionary development is presented for the design of single-function and polymorphic (two-function) combinational circuits. The impact of evolution of the cellular automaton initial state on the success rate of the evolved solutions is investigated. The experiments show that it is more suitable to fix a proper initial state in order to increase the successfulness and speed of evolution. The proposed developmental model is capable to design a wide range of both single-function and polymorphic circuits.

Anglický abstrakt

Cellular automata-based evolutionary development is presented for the design of single-function and polymorphic (two-function) combinational circuits. The impact of evolution of the cellular automaton initial state on the success rate of the evolved solutions is investigated. The experiments show that it is more suitable to fix a proper initial state in order to increase the successfulness and speed of evolution. The proposed developmental model is capable to design a wide range of both single-function and polymorphic circuits.

BibTex


@inproceedings{BUT30900,
  author="Michal {Bidlo} and Zdeněk {Vašíček}",
  title="Cellular Automata-Based Development of Combinational and Polymorphic Circuits: A Comparative Study",
  annote="Cellular automata-based evolutionary development is presented for the design of
single-function and polymorphic (two-function) combinational circuits. The impact
of evolution of the cellular automaton initial state on the success rate of the
evolved solutions is investigated. The experiments show that it is more suitable
to fix a proper initial state in order to increase the successfulness and speed
of evolution. The proposed developmental model is capable to design a wide range
of both single-function and polymorphic circuits.",
  address="Springer Verlag",
  booktitle="Evolvable Systems: From Biology to Hardware",
  chapter="30900",
  edition="Lecture Notes in Computer Science",
  howpublished="print",
  institution="Springer Verlag",
  journal="Lecture Notes in Computer Science (IF 0,513)",
  year="2008",
  month="august",
  pages="106--117",
  publisher="Springer Verlag",
  type="conference paper"
}