Principles in the Evolutionary Design of Digital Circuits-Part I
Created by W.Langdon from
gp-bibliography.bib Revision:1.8098
- @Article{miller:2000:peddg1,
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author = "Julian F. Miller and Dominic Job and
Vesselin K. Vassilev",
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title = "Principles in the Evolutionary Design of Digital
Circuits-Part {I}",
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journal = "Genetic Programming and Evolvable Machines",
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year = "2000",
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volume = "1",
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number = "1/2",
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pages = "7--35",
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month = apr,
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keywords = "genetic algorithms, genetic programming, Cartesian
Genetic Programming, evolvable hardware, evolutionary
computing, circuit design",
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ISSN = "1389-2576",
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URL = "http://citeseer.ist.psu.edu/cache/papers/cs/19052/http:zSzzSzwww.sbu.ac.ukzSz~vassilvkzSzpaperszSzjgpem2000part1.pdf/miller00principles.pdf",
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URL = "http://citeseer.ist.psu.edu/miller00principles.html",
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URL = "https://rdcu.be/cT3VI",
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DOI = "doi:10.1023/A:1010016313373",
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size = "29 pages",
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abstract = "An evolutionary algorithm is used as an engine for
discovering new designs of digital circuits,
particularly arithmetic functions. These designs are
often radically different from those produced by
top-down, human, rule-based approaches. It is argued
that by studying evolved designs of gradually
increasing scale, one might be able to discern new,
efficient, and generalizable principles of design. The
ripple-carry adder principle is one such principle that
can be inferred from evolved designs for one and
two-bit adders. Novel evolved designs for three-bit
binary multipliers are given that are 20 percent more
efficient (in terms of number of two-input gates used)
than the most efficient known conventional design.",
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notes = "Article ID: 253702",
- }
Genetic Programming entries for
Julian F Miller
Dominic Job
Vesselin K Vassilev
Citations