Double-Strength CAFFEINE: Fast Template-Free Symbolic Modeling of Analog Circuits via Implicit Canonical Form Functions and Explicit Introns
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InProceedings{McConaghy:2006:DATE,
-
author = "Trent McConaghy and Georges Gielen",
-
title = "Double-Strength CAFFEINE: Fast Template-Free Symbolic
Modeling of Analog Circuits via Implicit Canonical Form
Functions and Explicit Introns",
-
booktitle = "Proceedings of Design, Automation and Test in Europe,
DATE '06",
-
year = "2006",
-
volume = "1",
-
address = "Munich",
-
month = "6-10 " # mar,
-
keywords = "genetic algorithms, genetic programming, EHW, SPICE,
analogue circuits, circuit simulation, evolutionary
computation, optimisation, SPICE, analog circuit
modelling, canonical functional form expressions in
evolution, double-strength CAFFEINE method, explicit
introns, Analog circuits, Circuit optimisation, Circuit
simulation, Circuit testing, Circuit topology, Context
modelling, Mathematical model, Nonlinear circuits,
Predictive models",
-
ISBN = "3-9810801-1-4",
-
URL = "http://trent.st/content/2006-DATE-caffeine_double.pdf",
-
DOI = "doi:10.1109/DATE.2006.244136",
-
size = "6 pages",
-
abstract = "CAFFEINE, introduced previously, automatically
generates nonlinear, template-free symbolic performance
models of analog circuits from SPICE data. Its key was
a directly-interpretable functional form, found via
evolutionary search. In application to automated sizing
of analog circuits, CAFFEINE was shown to have the best
predictive ability from among 10 regression techniques,
but was too slow to be used practically in the
optimisation loop. In this paper, we describe
double-strength CAFFEINE, which is designed to be fast
enough for automated sizing, yet retain good predictive
abilities. We design smooth, uniform search operators
which have been shown to greatly improve efficiency in
other domains. Such operators are not straightforward
to design; we achieve them in functions by
simultaneously making the grammar-constrained
functional form implicit, and embedding explicit
'introns' (subfunctions appearing in the candidate that
are not expressed). Experimental results on six test
problems show that double-strength CAFFEINE achieves an
average speedup of 5times on the most challenging
problems and 3times overall; thus making the technique
fast enough for automated sizing",
-
notes = "Also known as \cite{1656888}",
- }
Genetic Programming entries for
Trent McConaghy
Georges G E Gielen
Citations