Model module¶
Description¶
Describe a model (variable, data and equation terms linking the variables).
Files¶
| File(s) | Description |
|---|---|
| getfem_models.h and getfem_models.cc | Defines the object models, its internal and the standard bricks (linear elasticity, generic elliptic brick, Dirichlet boundary conditions ...). |
| getfem_model_solvers.h and getfem_model_solvers.cc | Defines the the standard solvers for the model object. |
| getfem_contact_and_friction_common.h and getfem_contact_and_friction_common.cc | Common algorithms for contact/friction conditions on deformable bodies |
| getfem_contact_and_friction_integral.h and getfem_contact_and_friction_integral.cc | Small sliding Contact/friction bricks of integral type. |
| getfem_contact_and_friction_large_sliding.h and getfem_contact_and_friction_large_sliding.cc | Large sliding contact/friction bricks. |
| getfem_contact_and_friction_nodal.h and getfem_contact_and_friction_nodal.cc | Small sliding nodal Contact/friction bricks. |
| getfem_Navier_Stokes.h | An attempt for Navier-Stokes bricks. To be improved. |
| getfem_fourth_order.h and getfem_fourth_order.cc | Bilaplacian and Kirchhoff-Love plate bricks |
| getfem_linearized_plates.h and getfem_linearized_plates.cc | Mindlin-Reissner plate brick |
| getfem_nonlinear_elasticity.h and getfem_nonlinear_elasticity.cc | Large deformation elasticity bricks. |
| getfem_plasticity.h and getfem_plasticity.cc | Plasticity bricks. |
State¶
Constant evolution to includes nex models.
Perspectives¶
More plate, road and shell bricks, plasticity in large deformation, ...
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Main documentations
- GetFEM++ User documentation
- Python Interface
- Matlab Interface
- Scilab Interface
- Gmm++
- GetFEM++ project