Title :
Huber optimization of circuits: a robust approach
Author :
Bandler, John W. ; Shao Hua Chen ; Biernacki, R.M. ; Gao, Li ; Madsen, Kaj ; Yu, Huanyu
Author_Institution :
Optimization Syst. Associates Inc., Dundas, Ont., Canada
fDate :
12/1/1993 12:00:00 AM
Abstract :
The authors introduce an approach to robust circuit optimization using Huber functions, both two-sided and one-sided. They compare Huber optimization with l1, l2, and minimax methods in the presence of faults, large and small measurement errors, bad starting points, and statistical uncertainties. They demonstrate FET statistical modeling, multiplexer optimization, analog fault location, and data fitting. They extend the Huber concept by introducing a one-sided Huber function for large-scale optimization. For large-scale problems, the designer often attempts, by intuition, a preliminary optimization by selecting a small number of dominant variables. It is demonstrated, through multiplexer optimization, that the one-sided Huber function can be more effective and efficient than minimax in overcoming a bad starting point
Keywords :
analogue circuits; circuit CAD; fault location; microwave circuits; optimisation; FET statistical modeling; Huber functions; Huber optimization; analog fault location; data fitting; large-scale optimization; multiplexer optimization; robust circuit optimization; Circuit faults; Circuit optimization; FETs; Fault location; Large-scale systems; Measurement errors; Minimax techniques; Multiplexing; Optimization methods; Robustness;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
