Analog integrated neural-like circuits for nonlinear programming

Author

Rodriguez-Vàzquez, Angel ; Domínguez-Castro, Rafael ; Huertas, José L. ; Sánchez-Sinencio, Edgar

Author_Institution

Dept. of Electron. y Electromagn., Sevilla Univ., Spain

fYear

1989

fDate

14-16 Aug 1989

Firstpage

234

Abstract

A systematic approach for the design of analog neural nonlinear programming solvers using switched-capacitor (SC) integrated circuit techniques is presented. The method is based on formulating a dynamic gradient system whose state evolves in time towards the solution point of the corresponding programming problem. A neuron cell for the linear and the quadratic problem suitable for monolithic implementation is introduced. The design of this neuron and its corresponding synapses using SC techniques is considered in detail. An SC circuit architecture based on a reduced set of basic building blocks with high modularity is presented. Simulation results using a mixed-mode simulator (DIANA) and experimental results from breadboard prototypes are included, illustrating the validity of the proposed techniques

Keywords

analogue circuits; digital simulation; neural nets; nonlinear programming; switched capacitor networks; DIANA; analog neural nonlinear programming solvers; dynamic gradient system; linear problem; mixed-mode simulator; modularity; neural-like circuits; neuron cell; nonlinear programming; quadratic problem; switched-capacitor IC techniques; synapses; Analog integrated circuits; Circuit simulation; Circuit synthesis; Constraint optimization; Cost function; Dynamic programming; Linear programming; Nonlinear dynamical systems; Switching circuits; Virtual prototyping;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems, 1989., Proceedings of the 32nd Midwest Symposium on

Conference_Location

Champaign, IL

Type

conf

DOI

10.1109/MWSCAS.1989.101836

Filename

101836