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A multiparameter moment-matching model-reduction approach for generating geometrically parameterized interconnect performance models
An approach for generating accurate geometrically parameterized integrated circuit interconnect models that are efficient enough for use in interconnect synthesis is described, based on a multiparameter moment matching model-reduction algorithm. Expand
Research Laboratory of Electronics
The Research Laboratory of Electronics was founded in 1946 following the groundbreaking research it conducted leading to the development of Ultra High Frequency Radar, changing the course of WorldExpand
The ultimate signal‐to‐noise ratio in realistic body models
The ultimate signal‐to‐noise ratio (uSNR) and G‐factor (uGF) in a realistic head model from 0.5 to 21 Tesla is computed. Expand
pFFT in FastMaxwell: a fast impedance extraction solver for 3D conductor structures over substrate
The acceleration algorithm implemented in FastMaxwell, a program for wideband electromagnetic extraction of complicated 3D conductor structures over substrate, is described and O(NlogN) computational complexity is demonstrated by the results in both time and memory. Expand
Stable FFT-JVIE solvers for fast analysis of highly inhomogeneous dielectric objects
A stable volume integral equation formulation based on equivalent volumetric currents is presented for modeling electromagnetic scattering of highly inhomogeneous dielectric objects, allowing for highly accurate and fast computation by readily available sophisticated cubatures. Expand
Reduced-Order Models for Electromagnetic Scattering Problems
We consider model-order reduction of systems occurring in electromagnetic scattering problems, where the inputs are current distributions operating in the presence of a scatterer, and the outputs areExpand
Using conduction modes basis functions for efficient electromagnetic analysis of on-chip and off-chip interconnect
In this paper, we present an efficient method to model the interior of the conductors in a quasi-static or full-wave integral equation solver. We show how interconnect cross-sectional currentExpand
Analysis of full-wave conductor system impedance over substrate using novel integration techniques
An efficient approach to full-wave impedance extraction is developed that accounts for substrate effects through the use of two-layer media Green's functions in a mixed-potential-integral-equationExpand
Fast Electromagnetic Analysis of MRI Transmit RF Coils Based on Accelerated Integral Equation Methods
A fast frequency domain full-wave electromagnetic simulation method is introduced for the analysis of MRI coils loaded with the realistic human body models, which provides a fast, yet comprehensive, analysis of coil designs, including the port S-parameters and the electromagnetic field distribution within the inhomogeneous body. Expand
Computation of ultimate SAR amplification factors for radiofrequency hyperthermia in non-uniform body models: impact of frequency and tumour location
The uSAF is the greatest possible SAF achievable by any hyperthermia (HT) phased array for a given frequency, body model and target heating volume and it is hypothesised that the globally optimal frequency is actually greater. Expand