A Linear Inverse Space Mapping Algorithm for Microwave Design in the Frequency and Transient Domains (poster)
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IEEE
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Descripción
An inverse space mapping optimization algorithm for designing linear and non-linear microwave circuits is presented in this work for the first time. The inverse space mapping follows a piece-wise linear formulation, avoiding the use of neural networks. Microwave circuits in the frequency domain or in the time domain transient-state can be efficiently optimized by applying this algorithm. We contrast our new algorithm with Neural Inverse Space Mapping (NISM) optimization. The physical design of a set of CMOS inverters driving an electrically long microstrip line on FR4 illustrates our algorithm.
Palabras clave
CAD, High-speed Digital Design, Artificial Neural Networks (ANN), Optimizing Expensive Functions, RF and Microwave Design, Space Mapping , Surrogate Models, Transient Design
Citación
J.E. Rayas-Sánchez, F. Lara-Rojo and E. Martínez-Guerrero, “A linear inverse space mapping algorithm for microwave design in the frequency and transient domains,” in IEEE MTT-S Int. Microwave Symp. Dig., Fort Worth, TX, Jun. 2004. (poster).