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ZEBULUM, R. KEYMEULEN, D. RAMESHAM, R. SEKANINA, L. MAO, J. KUMAR, N. STOICA, A.
Original Title
Characterization and Synthesis of Circuits at Extreme Low Temperatures
Type
book chapter
Language
English
Original Abstract
This chapter describes circuit evolutionary experiments at extreme low temperatures, including the test of all system components at this extreme environment. Standard circuit designers have their target behavior limited to particular ranges of temperature, which usually does not achieve the extreme temperatures encoutered in some planets of our solar system. Our approach to this problem is the use of reconfigurable devices programmed by adaptive/evolutionary algorithms. Through reconfiguration, the new characteristics of the devices at extreme environment may be fully explored and correct functionality can be recovered. This chapter demonstrates this technique for circuit characterization, evolution and recovery at liquid nitrogen temperatures (-196.6C). In addition, preliminary tests are performed to assess the survivability limitations of the evolutionary processor at low temperatures.
Keywords
evolvable hardware, FPTA, low temperatures
Authors
ZEBULUM, R.; KEYMEULEN, D.; RAMESHAM, R.; SEKANINA, L.; MAO, J.; KUMAR, N.; STOICA, A.
RIV year
2006
Released
25. 8. 2006
Publisher
Springer Verlag
Location
Berlin
ISBN
0-387-24386-0
Book
Evolvable Hardware
Edition
Genetic and Evolutionary Computation
Pages from
161
Pages to
172
Pages count
12
BibTex
@inbook{BUT55118, author="Ricardo {Zebulum} and Didier {Keymeulen} and Rajeshuni {Ramesham} and Lukáš {Sekanina} and James {Mao} and Nikhil {Kumar} and Adrian {Stoica}", title="Characterization and Synthesis of Circuits at Extreme Low Temperatures", booktitle="Evolvable Hardware", year="2006", publisher="Springer Verlag", address="Berlin", series="Genetic and Evolutionary Computation", pages="161--172", isbn="0-387-24386-0" }