A surface-based integral-equation formulation for coupled electromagnetic and circuit simulation

A new resistance model for predicting the spiral-inductor metal-loss behavior in the higher-frequency range has been proposed. The accuracy of this model was verified by comparing its simulated results with the measured ones. It was shown that the absolute percentage errors were within the 7% range.

Symbolic computer algebra systems relieve one from the tedious task of dierent mathematical operations which are essential to obtain solutions. Due to their highly advanced features they have come to be used widely in computational mechanics. This paper describes an application of the modern compute

A new ¨oltage source formulation for FDTD is reported in this article. By stimulating the ¨oltage source right in the plane of the strip line, this new source formulation can be used in the simulation of a wide ¨ariety of high-frequency integrated circuits, including those without ground planes. Com

## Abstract A novel rank‐revealing shielded‐block preconditioner that accelerates the iterative integral‐equation‐based analysis of wave propagation in electromagnetic crystal (EC) devices is presented. The proposed shielded‐block preconditioner exploits the bandgap character of the background elec

## Abstract Distributed hydrologic models capable of simulating fully‐coupled surface water and groundwater flow are increasingly used to examine problems in the hydrologic sciences. Several techniques are currently available to couple the surface and subsurface; the two most frequently employed ap