Optimization technology for nonlinear microwave circuits integrating electromagnetic simulations

## Abstract A gradient‐based optimization method is presented for the design of packaged integrated microwave circuits. The method uses a reduced electromagnetic model resulting in a quasi‐instantaneous analysis of the packaged device. A gradient‐based strategy identifying parasitic effects due to

The direct numerical optimization of nonlinear microwa¨e circuits by harmonic-balance analysis coupled to electromagnetic simulation is a formidable computational task, e¨en if ad¨anced algorithmic concepts such as the space-mapping technique are exploited. In order to obtain a reasonable compromise

This paper presents the advantages of the three-dimensional 3D masterslice ( ) monolithic microwave integrated circuit MMIC technology and the application of its ( ) technology to computer-aided design CAD software. Its high level of freedom in transmission line routing offers design flexibility and

In this paper, a relevant automated electromagnetic (EM) optimization method and a novel, fast, and accurate artificial neural network are proposed for the efficient CAD modeling of microwave circuits. We lay the groundwork for our investigation of radial wavelet neural networks WNNs trained by BFGS

## Abstract A surface‐based integral‐equation formulation for coupled electromagnetic and circuit simulation is presented. The approach is sufficiently general to model arbitrarily shaped structures and high‐frequency skin effects. The formulation is implemented in both an equivalent circuit form f