Apowerful new space-mapping (SM) optimization algorithm is presented in this paper. It draws upon recent developments in both surrogate model-based optimization and modeling of microwave devices. SM optimization is formulated as a general optimization problem of a surrogate model. This model is a convex combination of a mapped coarse model and a linearized fine model. It exploits, in a novel way, a linear frequency-sensitive mapping. During the optimization iterates, the coarse and fine models are simulated at different sets of frequencies. This approach is shown to be especially powerful if a significant response shift exists. The algorithm is illustrated through the design of a capacitively loaded 10 : 1 impedance transformer and a double...
A new simplified formulation for inverse space mapping optimization of microwave circuits is present...
Abstract—We present a novel design framework for microwave circuits. We calibrate coarse models (cir...
Abstract: Purpose – Optimisation in electromagnetics, based on finite element models, is often very ...
One of the frontiers that remains in the optimization of large engineering systems is the successful...
The use of EM simulation in circuit optimization in RF domain is very common. There are some problem...
AbstractA robust simulation-driven methodology for rapid and reliable design of RF/microwave circuit...
Microwave circuit design including the design of Interconnect circuits are proving to be a very hard...
We propose, for the first time, neural space-mapping (NSM) optimization for electromagnetic-based de...
We present a comprehensive microwave design framework for implementing the original, aggressive, imp...
We review recent developments in Space Mapping (SM) optimization. The Aggressive Space Mapping (ASM...
ABSTRACT: Accurate yield optimization and statistical analysis of microwave components are crucial i...
Purpose – The space-mapping (SM) optimization technique, with its input, implicit or output mapping-...
AbstractIn this paper, a novel technique for cost-efficient design optimization of microwave structu...
Engineering optimization procedures employ highly accurate numerical models that typically have an e...
AbstractHigh-fidelity electromagnetic (EM) simulation is a very accurate but computationally expensi...
A new simplified formulation for inverse space mapping optimization of microwave circuits is present...
Abstract—We present a novel design framework for microwave circuits. We calibrate coarse models (cir...
Abstract: Purpose – Optimisation in electromagnetics, based on finite element models, is often very ...
One of the frontiers that remains in the optimization of large engineering systems is the successful...
The use of EM simulation in circuit optimization in RF domain is very common. There are some problem...
AbstractA robust simulation-driven methodology for rapid and reliable design of RF/microwave circuit...
Microwave circuit design including the design of Interconnect circuits are proving to be a very hard...
We propose, for the first time, neural space-mapping (NSM) optimization for electromagnetic-based de...
We present a comprehensive microwave design framework for implementing the original, aggressive, imp...
We review recent developments in Space Mapping (SM) optimization. The Aggressive Space Mapping (ASM...
ABSTRACT: Accurate yield optimization and statistical analysis of microwave components are crucial i...
Purpose – The space-mapping (SM) optimization technique, with its input, implicit or output mapping-...
AbstractIn this paper, a novel technique for cost-efficient design optimization of microwave structu...
Engineering optimization procedures employ highly accurate numerical models that typically have an e...
AbstractHigh-fidelity electromagnetic (EM) simulation is a very accurate but computationally expensi...
A new simplified formulation for inverse space mapping optimization of microwave circuits is present...
Abstract—We present a novel design framework for microwave circuits. We calibrate coarse models (cir...
Abstract: Purpose – Optimisation in electromagnetics, based on finite element models, is often very ...