Evolutionary Electronics Automatic Design of Electronic Circuits and Systems by Genetic Algorithms International Series on Computational Intelligence Series
Auteurs : Zebulum Ricardo Salem, Pacheco Marco Aurelio, Vellasco Marley Maria Be
From the explosion of interest, research, and applications of evolutionary computation a new field emerges-evolutionary electronics. Focused on applying evolutionary computation concepts and techniques to the domain of electronics, many researchers now see it as holding the greatest potential for overcoming the drawbacks of conventional design techniques.
Evolutionary Electronics: Automatic Design of Electronic Circuits and Systems by Genetic Algorithms formally introduces and defines this area of research, presents its main challenges in electronic design, and explores emerging technologies. It describes the evolutionary computation paradigm and its primary algorithms, and explores topics of current interest, such as multi-objective optimization. The authors examine numerous evolutionary electronics applications, draw conclusions about those applications, and sketch the future of evolutionary computation and its applications in electronics.
In coming years, the appearance of more and more advanced technologies will increase the complexity of optimization and synthesis problems, and evolutionary electronics will almost certainly become a key to solving those problems. Evolutionary Electronics is your key to discovering and unlocking the potential of this promising new field.
Date de parution : 12-2001
Ouvrage de 300 p.
15.6x23.4 cm
Thème d’Evolutionary Electronics :
Mots-clés :
Fitness Evaluation Function; genetic; Genetic Algorithms; algorithm; Evolutionary Computation; fitness; Evolutionary Algorithms; evaluation; FPAAs; function; Search Space; computation; MOS Transistor; search; Evolutionary Electronics; space; Power Consumption; field; Analog Circuits; programmable; CMOS Operational Amplifier; Reconfigurable Devices; Operational Amplifiers; Logic Gates; EHW; Programmable Chip; Extrinsic Evolution; Phase Margin; Transistor T1; Pal Device; Fault Tolerant Circuits; Current Conveyors; Functional Level Representation; FPGA; Yagi Antenna