Representation and Robustness for Evolved Sorting Networks

E
EH
1999
The First NASA/DOD Workshop on Evolvable Hardware
Abstract - Representation and Robustness for Evolved Sorting Networks

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The First NASA/DOD Workshop on Evolvable Hardware

Pasadena, California

July 19-July 21

ISBN: 0-7695-0256-3

	ASCII Text	x
	Jason Masner, John Cavalieri, James Frenzel, James A. Foster, "Representation and Robustness for Evolved Sorting Networks," Evolvable Hardware, NASA/DoD Conference on, pp. 255, The First NASA/DOD Workshop on Evolvable Hardware, 1999.

	BibTex	x
	@article{ 10.1109/EH.1999.785462, author = {Jason Masner and John Cavalieri and James Frenzel and James A. Foster}, title = {Representation and Robustness for Evolved Sorting Networks}, journal ={Evolvable Hardware, NASA/DoD Conference on}, volume = {0}, year = {1999}, isbn = {0-7695-0256-3}, pages = {255}, doi = {http://doi.ieeecomputersociety.org/10.1109/EH.1999.785462}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Evolvable Hardware, NASA/DoD Conference on TI - Representation and Robustness for Evolved Sorting Networks SN - 0-7695-0256-3 SP EP A1 - Jason Masner, A1 - John Cavalieri, A1 - James Frenzel, A1 - James A. Foster, PY - 1999 VL - 0 JA - Evolvable Hardware, NASA/DoD Conference on ER -

Jason Masner, University of Idaho

John Cavalieri, University of Idaho

James Frenzel, University of Idaho

James A. Foster, University of Idaho

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/EH.1999.785462

We describe evolved sorting networks for a Xilinx 6200 rapidly reconfigurable Field Programmable Gate Array (FPGA) and for a simulated environment. Our goal was to evaluate the efficiency and stability of evolved circuits in a changing environment. Not only did we evolve correct sorting networks, but we also examined the representations of evolved individuals for their runtime efficiency and effectiveness. We compared three different hardware representations: tree structured encodings, linear direct encodings, and raw configuration files. We also used three separate fitness functions.We also present an interesting metric for gate-level resilience to faults: bitwise stability. We find evidence that evolution inherently improves bitwise stability, and that tree structures may confer more bitwise stability than linear structured chromosomes.

Citation:

Jason Masner, John Cavalieri, James Frenzel, James A. Foster, "Representation and Robustness for Evolved Sorting Networks," eh, pp.255, The First NASA/DOD Workshop on Evolvable Hardware, 1999

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