Approximate circuit design by means of evolvable hardware

Created by W.Langdon from gp-bibliography.bib Revision:1.4549

  author =       "Lukas Sekanina and Zdenek Vasicek",
  booktitle =    "IEEE International Conference on Evolvable Systems
                 (ICES 2013)",
  title =        "Approximate circuit design by means of evolvable
  year =         "2013",
  month =        apr,
  pages =        "21--28",
  keywords =     "genetic algorithms, genetic programming, EHW,
                 Cartesian Genetic Programming",
  DOI =          "doi:10.1109/ICES.2013.6613278",
  abstract =     "This paper deals with evolutionary design of
                 approximate circuits. This class of circuits is
                 characterised by relaxing the requirement on functional
                 equivalence between the specification and
                 implementation in order to reduce the area on a chip or
                 minimise energy consumption. We proposed a CGP-based
                 automated design method which enables to find a good
                 trade off between key circuit parameters
                 (functionality, area and power consumption). In
                 particular, the digital approximate circuits consisting
                 of elementary gates are addressed in this paper.
                 Experimental results are provided for combinational
                 single-output circuits and adders where two different
                 metrics are compared for the error assessment.",
  notes =        "Also known as \cite{6613278}",

Genetic Programming entries for Lukas Sekanina Zdenek Vasicek