This year marks about half a century since the birth of the technique known as the partial
element equivalent circuit modeling approach. This method was initially conceived to model …

Full-wave time-domain computational electromagnetic (CEM) solvers, which are integral
equation (IE)-based, may suffer from what is called “late-time instability” problems. This …

Abstract The Partial Element Equivalent Circuit (PEEC) method is a well recognized integral-
equation (IE) technique to solve Maxwell's equations. Similarly to the method of moments …

This article presents a new algorithm for time-domain circuit simulation based on numerical
inversion of Laplace transform (NILT). The proposed method, labeled NILT n, shows that for …

In this work, a stable and accurate model order reduction method for large-scale partial
element equivalent circuit (PEEC) models with many delays is proposed. The method …

A new method is presented for high-dimensional variability analysis based on two main
concepts, namely, node tearing for parameter partitioning and sparse grid interpolation …

The modified numerical inversion of the Laplace transform (dubbed NILT) has been recently
proposed as a fast and provably stable numerical simulation for general circuits. Although it …

This article outlines a novel approach for simulating general nonlinear circuits in the time-
domain. The proposed approach can be considered as the generalization of the numerical …

Abstract Model order reduction technique provides an effective way to reduce computational
complexity in large-scale circuit simulations. This paper proposes a new model order …

Computational electromagnetic problems require evaluating the electric and magnetic fields
of the physical object under investigation, divided into elementary cells with a mesh. The …