Evolutionary Design of Digital Circuits Using Genetic Programming

Created by W.Langdon from gp-bibliography.bib Revision:1.4192

  author =       "S. M. Ashik Eftekhar and Sk. Mahbub Habib and 
                 M. M. A. Hashem",
  title =        "Evolutionary Design of Digital Circuits Using Genetic
  booktitle =    "Proceedings. of the 3rd International Conference on
                 Electrical, Electronics and Computer Engineering
                 (ICEECE 2003)",
  year =         "2003",
  pages =        "231--236",
  address =      "Dhaka, Bangladesh",
  month =        dec # " 22-24",
  organisation = "Institute of Engineers Bangladesh",
  keywords =     "genetic algorithms, genetic programming",
  URL =          "http://arxiv.org/abs/1304.2467",
  bibsource =    "OAI-PMH server at export.arxiv.org",
  oai =          "oai:arXiv.org:1304.2467",
  abstract =     "For simple digital circuits, conventional method of
                 designing circuits can easily be applied. But for
                 complex digital circuits, the conventional method of
                 designing circuits is not fruitfully applicable because
                 it is time-consuming. On the contrary, Genetic
                 Programming is used mostly for automatic program
                 generation. The modern approach for designing
                 Arithmetic circuits, commonly digital circuits, is
                 based on Graphs. This graph-based evolutionary design
                 of arithmetic circuits is a method of optimised
                 designing of arithmetic circuits. In this paper, a new
                 technique for evolutionary design of digital circuits
                 is proposed using Genetic Programming (GP) with Subtree
                 Mutation in place of Graph-based design. The results
                 obtained using this technique demonstrates the
                 potential capability of genetic programming in digital
                 circuit design with limited computer algorithms. The
                 proposed technique, helps to simplify and speed up the
                 process of designing digital circuits, discovers a
                 variation in the field of digital circuit design where
                 optimised digital circuits can be successfully and
                 effectively designed.",
  notes =        "Recorded as \cite{oai:arXiv.org:1304.2467} 9 April
                 2013 From: M.M.A. Hashem",

Genetic Programming entries for S M Ashik Eftekhar Sk Mahbub Habib M M A Hashem