Title :
Evolved digital circuits and genome complexity
Author :
Hartmann, Morten ; Lehre, Per Kristian ; Haddow, Pauline C.
Author_Institution :
Dept. of Comput. Sci., Norwegian Univ. of Sci. & Technol., Norway
fDate :
29 June-1 July 2005
Abstract :
A major issue with evolutionary computation is scalability. In the field of digital circuit design this fact severely limits the size and complexity of the circuits that can be evolved. Developmental approaches are being suggested as a possible remedy to the scalability issue. Earlier theoretical work indicated that a Kitano mapping develops phenotypes with some form of regularity. Applying this result to the field of evolvable hardware implies that to develop a digital circuit with a developmental mapping, such as the Kitano mapping, places a requirement of regularity on the digital circuit. This issue of regularity is investigated herein, as well as possible encoding schemes. The range and distribution of the complexity of evolved circuits and legal genotypes is measured using Lempel-Ziv compression.
Keywords :
circuit complexity; data compression; digital circuits; genetic algorithms; logic circuits; network synthesis; Kitano mapping; Lempel-Ziv compression; circuit complexity; digital circuit design; encoding scheme; evolutionary computation; evolved digital circuit; genome complexity; Bioinformatics; Digital circuits; Encoding; Evolutionary computation; Genomics; Hardware; Humans; Law; Legal factors; Scalability;
Conference_Titel :
Evolvable Hardware, 2005. Proceedings. 2005 NASA/DoD Conference on
Print_ISBN :
0-7695-2399-4
