Development of a customized processor architecture for accelerating genetic algorithms
Created by W.Langdon from
gp-bibliography.bib Revision:1.8098
- @Article{Kavvadias2007347,
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author = "Nikolaos Kavvadias and Vasiliki Giannakopoulou and
Spiridon Nikolaidis",
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title = "Development of a customized processor architecture for
accelerating genetic algorithms",
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journal = "Microprocessors and Microsystems",
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volume = "31",
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number = "5",
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pages = "347--359",
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year = "2007",
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ISSN = "0141-9331",
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DOI = "DOI:10.1016/j.micpro.2006.12.002",
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URL = "http://www.sciencedirect.com/science/article/B6V0X-4MT5K1Y-1/2/c2a2d447c74f5cfcb3dec1eb0125163f",
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keywords = "genetic algorithms, genetic programming, 89.20.Ff,
Embedded systems, Field-programmable gate arrays,
Application-specific processors, Hardware description
languages",
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abstract = "In this paper, a new programmable RISC processor
architecture named VGP-I is proposed, aiming to the
acceleration of genetic algorithms in embedded systems.
Compared to other GA engines, the VGP-I specification
defines a compact instruction set supporting multiple
operator types, with scalable instruction encodings,
programmer-visible and auxiliary registers and optional
extensions. Apart from the programmable accelerator
approach, VGP-I instructions have been tightly
integrated to the Nios II soft-core processor as well.
For performance assessment, a cycle-accurate reference
VGP-I model has been developed while VGP-I subsets have
been realized on a prototype microarchitecture and as
Nios II custom instructions, both verified on
programmable logic. Performance improvements on the
execution of genetic operators are typically at the
level of two orders of magnitude with application
kernels written in ANSI C being accelerated by about 20
times due to the usage of GA instruction set
extensions.",
- }
Genetic Programming entries for
Nikolaos Kavvadias
Vasiliki Giannakopoulou
Spiridon Nikolaidis
Citations