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Parallel Direct Solver for the Finite Integration Technique in Electrokinetic Problems
2010
IEEE transactions on magnetics
The finite integration technique allows the simulation of real-world electromagnetic field problems with complex geometries. It provides a discrete reformulation of Maxwell's equations in their integral form suitable for numerical computing. The resulting matrix equations of the discretized fields can be used for efficient numerical simulations on modern computers and can be exploited to use a parallel computing. In fact, by reordering the unknowns by the nested dissection method, it is
doi:10.1109/tmag.2010.2045886
fatcat:jpxv5cqhfjbwndm23ljcf7c6na