Automated synthesis of complex analog circuits

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

  author =       "Georges Gielen and Tom Eeckelaert and 
                 Ewout Martens and Trent McConaghy",
  title =        "Automated synthesis of complex analog circuits",
  booktitle =    "18th European Conference on Circuit Theory and Design,
                 ECCTD 2007",
  year =         "2007",
  pages =        "20--23",
  address =      "Seville",
  month =        "27-30 " # aug,
  publisher =    "IEEE",
  keywords =     "genetic algorithms, genetic programming, EHW, CMOS
                 analogue integrated circuits, Pareto optimisation,
                 analogue integrated circuits, integrated circuit
                 design, CMOS technology, Pareto-optimal performance
                 model, architectural synthesis, automated synthesis,
                 complex analog circuits, evolution-generated yield
                 model, hierarchical optimisation, Analog circuits, CMOS
                 analog integrated circuits, CMOS technology, Circuit
                 simulation, Circuit synthesis, Design optimisation,
                 Integrated circuit technology, Radio frequency,
                 Response surface methodology, Voltage",
  isbn13 =       "978-1-4244-1341-6",
  DOI =          "doi:10.1109/ECCTD.2007.4529526",
  size =         "4 pages",
  abstract =     "CMOS technology is evolving deeper and deeper into the
                 nanometre era, which makes the integration of entire
                 systems possible, many of which are mixed-signal in
                 nature, including analog and/or RF parts. This demands
                 for efficient automated synthesis techniques for these
                 analog circuits that include the variability of the
                 circuit parameters. A technique is presented for the
                 efficient yield optimisation of analog circuits based
                 on evolution-generated yield models. A hierarchical
                 optimization method is described that optimises complex
                 circuits based on combining Pareto-optimal performance
                 models in a bottom-up way. Finally, an evolution-based
                 method for the true architectural synthesis of analog
                 systems is presented. This is illustrated with several
  notes =        "Also known as \cite{4529526}",

Genetic Programming entries for Georges G E Gielen Tom Eeckelaert Ewout Martens Trent McConaghy