Click Here To Download: • New Features of FEKO Suite 7.0 FEKO reaches a new milestone with the inclusion of the finite difference time domain (FDTD) solver to its comprehensive set of powerful computational methods. The solver is easily activated and it is simple to switch between the FDTD and other solvers.
Etap 14 Free Download Full Version With Crack. Despite the fact that the method is set in the time domain, the use of Fourier techniques allows wide-band frequency domain information to be calculated. It can achieve second order accuracy using first order numeric differentiation. The method is also well suited to modelling inhomogeneous materials. In addition, the method lends itself well to various parallelization techniques. The FDTD solver supports GPU computing to improve performance when a compatible GPU is available to obtain significant speedup.
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The addition of the FDTD solver will provide more efficient solutions to customers who are focused on simulation of wide-band antennas and inhomogeneous structures, e.g. Anatomical models. Hybrid MLFMM with PO or LE-PO A new hybrid iterative method is supported which allows MLFMM with either PO or LE-PO to be used in the same model. An advantage of this iterative technique is a significant reduction in memory. The MLFMM models the complex part of the structure which contains the fine details.
The PO/LE-PO is used to model the smoothly varying part. When using LE-PO together with the MLFMM, bi-directional coupling is included. Applications of the MLFMM-PO (and LE-PO) hybrid span over a wide range of problems including analysis of electrically large antennas (e.g. Reflector antennas), antenna placement studies on large platforms (e.g. Ships, aircraft) for the purpose of antenna pattern, coupling and radiation hazard analysis. Features still in place of FEKO Suite 6.3: • Higher Order Basis Functions on Curvilinear Surface Meshes - Support for curvilinear meshes in connection with Higher Order Basis Functions (HOBF) was added for MoM and MLFMM. The curvilinear meshing allows larger elements without sacrificing model accuracy.