This paper demonstrates the ability of genetic
programming to evolve analog circuits that perform
digital functions and mixed analog-digital circuits.
The evolved circuits include two purely digital
circuits (a 100 nano-second NAND circuit and a
two-instruction arithmetic logic unit circuit) and one
mixed-signal circuit, namely a three-input
digital-to-analog converter.
Proceedings of the Genetic and Evolutionary
Computation Conference
year
1999
month
13-17 July
pages
1477--1483
publisher
Morgan Kaufmann
volume
2
publisher_address
San Francisco, CA 94104, USA
isbn
1-55860-611-4
notes
GECCO-99 A joint meeting of the eighth international
conference on genetic algorithms (ICGA-99) and the
fourth annual genetic programming conference (GP-99)
%0 Conference Paper
%1 bennett:1999:EMGPACPDF
%A Bennett III, Forrest H
%A Koza, John R.
%A Keane, Martin A.
%A Yu, Jessen
%A Mydlowec, William
%A Stiffelman, Oscar
%B Proceedings of the Genetic and Evolutionary
Computation Conference
%C Orlando, Florida, USA
%D 1999
%E Banzhaf, Wolfgang
%E Daida, Jason
%E Eiben, Agoston E.
%E Garzon, Max H.
%E Honavar, Vasant
%E Jakiela, Mark
%E Smith, Robert E.
%I Morgan Kaufmann
%K algorithms, applications genetic programming, real world
%P 1477--1483
%T Evolution by Means of Genetic Programming of Analog
Circuits that Perform Digital Functions
%U http://www.cs.bham.ac.uk/~wbl/biblio/gecco1999/RW-787.ps
%V 2
%X This paper demonstrates the ability of genetic
programming to evolve analog circuits that perform
digital functions and mixed analog-digital circuits.
The evolved circuits include two purely digital
circuits (a 100 nano-second NAND circuit and a
two-instruction arithmetic logic unit circuit) and one
mixed-signal circuit, namely a three-input
digital-to-analog converter.
%@ 1-55860-611-4
@inproceedings{bennett:1999:EMGPACPDF,
abstract = {This paper demonstrates the ability of genetic
programming to evolve analog circuits that perform
digital functions and mixed analog-digital circuits.
The evolved circuits include two purely digital
circuits (a 100 nano-second NAND circuit and a
two-instruction arithmetic logic unit circuit) and one
mixed-signal circuit, namely a three-input
digital-to-analog converter.},
added-at = {2008-06-19T17:35:00.000+0200},
address = {Orlando, Florida, USA},
author = {{Bennett III}, Forrest H and Koza, John R. and Keane, Martin A. and Yu, Jessen and Mydlowec, William and Stiffelman, Oscar},
biburl = {https://www.bibsonomy.org/bibtex/2c8ec153fa756d0f12cc4d49679069946/brazovayeye},
booktitle = {Proceedings of the Genetic and Evolutionary
Computation Conference},
editor = {Banzhaf, Wolfgang and Daida, Jason and Eiben, Agoston E. and Garzon, Max H. and Honavar, Vasant and Jakiela, Mark and Smith, Robert E.},
interhash = {9588037ded22ff56b6432ab97c0aec1e},
intrahash = {c8ec153fa756d0f12cc4d49679069946},
isbn = {1-55860-611-4},
keywords = {algorithms, applications genetic programming, real world},
month = {13-17 July},
notes = {GECCO-99 A joint meeting of the eighth international
conference on genetic algorithms (ICGA-99) and the
fourth annual genetic programming conference (GP-99)},
pages = {1477--1483},
publisher = {Morgan Kaufmann},
publisher_address = {San Francisco, CA 94104, USA},
timestamp = {2008-06-19T17:36:25.000+0200},
title = {Evolution by Means of Genetic Programming of Analog
Circuits that Perform Digital Functions},
url = {http://www.cs.bham.ac.uk/~wbl/biblio/gecco1999/RW-787.ps},
volume = 2,
year = 1999
}