We present an efficient finite-element-based approach for the solution of two-dimensional proximity effect transient problems. The method consistently reduces both computer execution times and memory storage requirements by employing a suitable formulation leading to a sparse linear system of equations with a (slightly) higher dimensionality with respect to the corresponding, much more dense, system resulting from the standard formulation.
Time-domain analysis of proximity effect current driven problems
VITELLI, Massimo
2004
Abstract
We present an efficient finite-element-based approach for the solution of two-dimensional proximity effect transient problems. The method consistently reduces both computer execution times and memory storage requirements by employing a suitable formulation leading to a sparse linear system of equations with a (slightly) higher dimensionality with respect to the corresponding, much more dense, system resulting from the standard formulation.File in questo prodotto:
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