Automated WYWIWYG design of both the topology and component values of analog electrical circuits using genetic programming (1996)

by John R. Koza , Forrest H Bennett Iii
Venue:Stanford University
Citations:46 - 18 self

Active Bibliography

32 Four problems for which a computer program evolved by genetic programming is competitive with human performance – John R. Koza, Forrest H Bennett Iii - 1996
18 Reuse, Parameterized Reuse, and Hierarchical Reuse of Substructures in Evolving Electrical Circuits Using Genetic Programming – John R. Koza, Forrest H Bennett III, David Andre, Martin A. Keane - 1996
4 Evolution of a Low-Distortion, Low-Bias 60 Decibel Op Amp with Good Frequency Generalization using Genetic – John R. Koza, David Andre - 1996
3 Design of a 96 Decibel Operational Amplifier and Other Problems for Which a Computer Program Evolved by Genetic Programming is Competitive with – John R. Koza, David Andre, Forrest H Bennett Iii, Martin A. Keane
Evolution of a 60 Decibel Op Amp Using Genetic Programming – Forrest H Bennett Iii, John R. Koza, David Andre, Martin A. Keane - 1996
AUTOMATED TOPOLOGY AND SIZING OF ANALOG CIRCUITS AUTOMATED DESIGN OF BOTH THE TOPOLOGY AND SIZING OF ANALOG ELECTRICAL CIRCUITS USING GENETIC PROGRAMMING – John R. Koza, Forrest H Bennett Iii, David Andre, Martin A. Keane
67 Automated Synthesis of Analog Electrical Circuits by Means of Genetic Programming – John R. Koza, Forrest H Bennett III, David Andre, Martin A. Keane, Frank Dunlap - 1997
16 Evolution of a 60 decibel op amp using genetic programming – Forrest H Bennett, Iii John, R. Koza David, Andre Martin, A. Keane, Visiting Scholar, Computer Science Department - 1996
37 Automated Design of Both the Topology and Sizing of Analog Electrical Circuits Using Genetic Programming – John R. Koza, Forrest H Bennett III, Forrest H Bennett Iii, David Andre, Martin A. Keane - 1996