Evolving Quantum Circuits and Programs Through Genetic Programming

Created by W.Langdon from gp-bibliography.bib Revision:1.3973

@InProceedings{massey:eqc:gecco2004,
  author =       "Paul Massey and John A. Clark and Susan Stepney",
  title =        "Evolving Quantum Circuits and Programs Through Genetic
                 Programming",
  booktitle =    "Genetic and Evolutionary Computation -- GECCO-2004,
                 Part II",
  year =         "2004",
  editor =       "Kalyanmoy Deb and Riccardo Poli and 
                 Wolfgang Banzhaf and Hans-Georg Beyer and Edmund Burke and 
                 Paul Darwen and Dipankar Dasgupta and Dario Floreano and 
                 James Foster and Mark Harman and Owen Holland and 
                 Pier Luca Lanzi and Lee Spector and Andrea Tettamanzi and 
                 Dirk Thierens and Andy Tyrrell",
  series =       "Lecture Notes in Computer Science",
  pages =        "569--580",
  address =      "Seattle, WA, USA",
  publisher_address = "Heidelberg",
  month =        "26-30 " # jun,
  organisation = "ISGEC",
  publisher =    "Springer-Verlag",
  volume =       "3103",
  ISBN =         "3-540-22343-6",
  ISSN =         "0302-9743",
  URL =          "http://www-users.cs.york.ac.uk/susan//bib/ss/nonstd/gecco04.pdf",
  DOI =          "doi:10.1007/b98645",
  size =         "12",
  keywords =     "genetic algorithms, genetic programming, quantum
                 computing",
  abstract =     "Spector et al. have shown [1],[2],[3] that genetic
                 programming can be used to evolve quantum circuits. In
                 this paper, we present new results in this field,
                 introducing probabilistic and deterministic quantum
                 circuits that have not been previously published. We
                 compare our techniques with those of Spector et al, and
                 point out some differences in perspective between our
                 two approaches. Finally, we show how, by using sets of
                 functions rather than precise quantum states as fitness
                 cases, our basic technique can be extended to evolve
                 true quantum algorithms.",
  notes =        "GECCO-2004 A joint meeting of the thirteenth
                 international conference on genetic algorithms
                 (ICGA-2004) and the ninth annual genetic programming
                 conference (GP-2004)

                 See \cite{massey:2006:EC}",
}

Genetic Programming entries for Paul S Massey John A Clark Susan Stepney

Citations