On 12/10/14 15:38, Aleksejs Fomins wrote:
Dear GMSH,
Our FEM code has benefited from GMSH meshing capabilities for several
years now, and this year we started using its curvilinear capabilities,
which brings our code to a totally new level of performance.
However, we dream of yet another piece of functionality, which could
save us a lot of memory and processor time, and that is the non-uniform
p-refinement.
At the moment, when selecting curvilinear interpolation order, GMSH uses
that interpolation order for all elements. Furthermore, it frequently
makes the boundary between elements of the same geometric entity curved,
with the strategy that I am not able to immediately comprehend.
Could someone from the developers please comment if the following
functionality could become available in foreseeable future:
1) Make all boundaries between elements of the same geometrical entity
straight-sided, thus only preserving curvature on the boundaries between
geometrical entities, and rendering all other elements as linear elements.
Hi,
perhaps you should try:
Mesh.SecondOrderLinear=1
Should second order vertices simply be created by linear interpolation?
Default value: 0
Saved in: General.OptionsFileName
Regards,
Dave
--
David Colignon, Ph.D.
1er Logisticien de Recherche
CÉCI - Consortium des Équipements de Calcul Intensif
ACE - Applied & Computational Electromagnetics
Université de Liège
Sart-Tilman B28
10, Grande Traverse
4000 Liège - BELGIQUE
Tél: +32 (0)4 366 37 32
WWW: http://www.ceci-hpc.be/
2) Further, give user some control on how the internal geometry of a
single geometrical entity is interpolated, in terms of some strategy
parameters specified by the user. I was made aware there is research
showing that, depending on the structure of PDE of interest, a certain
internal curvature can improve convergence of the problem.
Regards,
Aleksejs Fomins
_______________________________________________
gmsh mailing list
[email protected]
http://www.geuz.org/mailman/listinfo/gmsh
_______________________________________________
gmsh mailing list
[email protected]
http://www.geuz.org/mailman/listinfo/gmsh
