The integral equation (IE) method is commonly utilized to model time-harmonic
electromagnetic (EM) problems. One of the greatest challenges in its applications arises in …

To solve multisource electromagnetic problems, a new way of using Krylov type iterative
algorithms is presented to improve the finite-element tearing and interconnecting domain …

Advances in interconnect technologies, such as the increase of the number of metal layers
and 3-D stacking technique, have paved the way for higher functionality and superior …

A novel hybrid method is developed for the flexible and accurate electromagnetic simulation
of penetrable objects in a layered medium (LM). In this method, the original complex …

This communication proposes a hybrid acceleration technique for the efficient computation
of large two-dimensional monostatic radar cross section (RCS) problems with the multilevel …

Transmit-arrays (TAs) are a popular cost-effective solution for high-gain antennas at
millimeter waves. The design of these antennas relies on the fine tuning of the …

For applications with many right-hand sides (RHSs), to avoid the solution of m different
RHSs repeatedly, previous work has employed the interpolative decomposition (ID) to figure …

An error controllable algorithm is proposed to efficiently evaluate two-dimensional (2-D)
monostatic radar cross section (RCS) from electrically large and complex targets. The …

This paper presents the massively parallel implementation of the FETI-2LM techniques
(Finite Element Tearing and Interconnecting with two Lagrange Multipliers) in the FACTOPO …

An accurate representation of the electromagnetic (EM) behavior of precipitation particles
requires modeling of realistic complex geometry and a numerically efficient technique to …