Title :
Nonlinear switched capacitor `neural´ networks for optimization problems
Author :
Rodríguez-Vázquez, Angel ; Domínguez-Castro, Rafael ; Rueda, Adoración ; Huertas, José L. ; Sánchez-Sinencio, Edgar
Author_Institution :
Dept. of Electron. & Electromagn., Seville Univ., Spain
fDate :
3/1/1990 12:00:00 AM
Abstract :
A systematic approach is presented for the design of analog neural nonlinear programming solvers using switched-capacitor (SC) integrated circuit techniques. The method is based on formulating a dynamic gradient system whose state evolves in time toward 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 computer circuits; computer architecture; monolithic integrated circuits; neural nets; nonlinear programming; optimisation; stability; switched capacitor networks; DIANA; SC ICs; SC circuit architecture; analog neural nonlinear programming solvers; dynamic gradient system; high modularity; integrated circuit techniques; mixed-mode simulator; monolithic implementation; nonlinear SC neural networks; optimization problems; programming problem; quadratic problem; switched-capacitor; synapses; Analog computers; Biological system modeling; Biology computing; Circuit simulation; Clocks; Cost function; Dynamic programming; Linear programming; Multidimensional systems; Switched capacitor networks;
Journal_Title :
Circuits and Systems, IEEE Transactions on
