Development Brings Scalability to Hardware Evolution
Created by W.Langdon from
gp-bibliography.bib Revision:1.2031
@InProceedings{gordon:2005:EH,
author = "Timothy G. W. Gordon and Peter J. Bentley",
title = "Development Brings Scalability to Hardware Evolution",
booktitle = "Proceedings of the 2005 NASA/DoD Conference on
Evolvable Hardware",
year = "2005",
editor = "Jason Lohn and David Gwaltney and Gregory Hornby and
Ricardo Zebulum and Didier Keymeulen and
Adrian Stoica",
pages = "272--279",
address = "Washington, DC, USA",
month = "29 " # jun # "-1 " # jul,
publisher = "IEEE Press",
publisher_address = "IEEE Service Center 445 Hoes Lane Asia P.O. Box
1331 Piscataway, NJ 08855-1331",
organisation = "NASA, DoD",
keywords = "genetic algorithms, genetic programming, EHW",
ISBN = "0-7695-2399-4",
URL = "
http://www.cs.ucl.ac.uk/staff/t.gordon/gordont_scalability.pdf",
doi = "
doi:10.1109/EH.2005.18",
size = "8 pages",
abstract = "The scalability problem is a major impediment to the
use of hardware evolution for real-world circuit design
problems. A potential solution is to model the map
between genotype and phenotype on biological
development. Although development has been shown to
improve scalability for a few toy problems, it has not
been demonstrated for any circuit design problems. This
paper presents such a demonstration for two problems,
the n-bit adder with carry and even n-bit parity
problems, and shows that development imposes, and
benefits from, fewer constraints on evolutionary
innovation than other approaches to scalability.",
notes = "EH2005 IEEE Computer Society Order Number P2399",
}
Genetic Programming entries for
Tim Gordon
Peter J Bentley