Status and future of the 3D MAFIA group of codes
Status and future of the 3D MAFIA group of codes
The MAFIA group of fully three-dimensional computer codes for solving Maxwell's equations is well established. Extensive comparisons with measurements have demonstrated the accuracy of the computations. The latest additions include a static solver that calculates 3-D magneto- and electrostatic...
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Personal Name(s): | Dehler, M. (Corresponding Author) |
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Dohlus, M. / Fischerauer, A. / Fischerauer, G. / Hahne, P. / Klatt, R. / Krawczyk, F. / Propper, T. / Schutt, P. / Weiland, T. / Ebeling, F. / Marx, M. / Wipf, S. G. / Steffen, B. / Barts, T. / Browman, J. / Cooper, R. K. / Rodenz, G. / Rusthoi, D. | |
Contributing Institute: |
Jülich Supercomputing Center; JSC |
Published in: | IEEE transactions on magnetics, 26 (1990) 2, S. 751 - 754 |
Imprint: |
New York, NY
IEEE
1990
|
DOI: |
10.1109/20.106427 |
Document Type: |
Journal Article |
Research Program: |
ohne Topic |
Publikationsportal JuSER |
The MAFIA group of fully three-dimensional computer codes for solving Maxwell's equations is well established. Extensive comparisons with measurements have demonstrated the accuracy of the computations. The latest additions include a static solver that calculates 3-D magneto- and electrostatic fields and a self-consistent version of TBCI that solves the field equations and the equations of motion in parallel. Work on new eddy-current modules has started, which will allow treatment of laminated and/or solid iron cores excited by low-frequency currents. Based on our experience with the present releases 1 and 2, we have begun a complete revision of the whole user interface and data structure. |