Title :
WIPL-D: Advances in EM simulation
Author :
Kolundzija, Branko M. ; Tasic, Miodrag S. ; Pavlovic, Milos S.
Author_Institution :
WIPL-D d.o.o, Belgrade, Serbia
Abstract :
Standard WIPL-D Pro 3D EM solver is based on higher order Method of Moment (MoM) solution of Surface Integral Equations (SIEs). Using patches of maximum size of 2λ the number of unknowns needed per λ2 of the boundary surface area is reduced down to 25 (50) for metallic (dielectric structures). Owing to parallelization and usage of GPU cards the maximum solvable problem in one day is limited to a boundary surface area of 20,000 λ2. Using up to 3 symmetry planes and “smart reduction” option for expansion orders, the limit for a boundary surface area in λ2 can be increased for an order of magnitude. Limits of standard WIPL-D Pro 3D EM solver are extended using 1) advanced matrix equilibration to balance source/field quantities in SIEs and basis/test functions in MoM solution, 2) new generation of integral methods for highly accurate evaluation of MoM matrix elements, 3) inclusion of frequency dependent material properties into simulation, and 4) modified Physical optics driven MoM.
Keywords :
boundary integral equations; graphics processing units; matrix algebra; method of moments; microstrip antennas; physical optics; GPU card; MoM matrix element evaluation; SIE; WIPL-D Pro 3D EM solver; boundary surface area; higher order method of moment; patch antenna; surface integral equation; Dielectrics; Dynamic range; Integral equations; Mathematical model; Method of moments; Permittivity; Three-dimensional displays; 3D EM simulation; higher order bases; method of moment; surface integral equation;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
