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programmer's documentation
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Files | |
file | cs_user_atmospheric_model.f90 |
User subroutine dedicated to the atmospheric model. | |
file | cs_user_boundary_conditions.c |
file | cs_user_boundary_conditions.f90 |
User subroutine which fills boundary conditions arrays (icodcl , rcodcl ) for unknown variables. | |
file | cs_user_boundary_conditions_ale.f90 |
User subroutine dedicated the use of ALE (Arbitrary Lagrangian Eulerian) Method: | |
file | cs_user_boundary_mass_source_terms.f90 |
Source terms associated at the boundary faces and the neighboring cells with surface condensation. | |
file | cs_user_cdo.c |
Set main parameters for the current simulation when the CDO kernel is used. | |
file | cs_user_cdo_extra_op.c |
Additional user-defined post-processing and analysis functions. | |
file | cs_user_cdo_numerics.c |
Set advanced parameters about the numerical schemes for each equation to solve. Useful to change the default behaviour. | |
file | cs_user_coupling.c |
Code couplings definition with SYRTHES and Code_Saturne. | |
file | cs_user_electric_scaling.c |
Define scaling parameter for electric model. | |
file | cs_user_extra_operations.c |
This function is called at the end of each time step, and has a very general purpose (i.e. anything that does not have another dedicated user subroutine) | |
file | cs_user_extra_operations.f90 |
This function is called at the end of each time step, and has a very general purpose (i.e. anything that does not have another dedicated user subroutine) | |
file | cs_user_fluid_structure_interaction.f90 |
User subroutines dedicated to Fluid-Structure interaction modeling. | |
file | cs_user_head_losses.f90 |
Define Head losses. | |
file | cs_user_initialization.c |
Function is called each time step to define initialization. | |
file | cs_user_initialization.f90 |
Initialize variables. | |
file | cs_user_lagr_bcs.c |
file | cs_user_lagr_model.c |
file | cs_user_lagr_particle.c |
file | cs_user_les_inflow.f90 |
Generation of synthetic turbulence at LES inlets initialization. | |
file | cs_user_mass_source_terms.f90 |
Mass source term user subroutine. | |
file | cs_user_mesh.c |
Definition and modification of the calculation mesh. | |
file | cs_user_metal_structures_source_terms.f90 |
file | cs_user_modules.f90 |
User-defined module: it allows to create any user array. | |
file | cs_user_parameters.c |
User subroutines for input of calculation parameters. | |
file | cs_user_parameters.f90 |
User subroutines for input of calculation parameters (Fortran modules). These subroutines are called in all cases. | |
file | cs_user_performance_tuning.c |
Definition of advanced options relative to parallelism. | |
file | cs_user_physical_properties.c |
Function is called each time step to define physical properties. | |
file | cs_user_physical_properties.f90 |
Definition of physical variable laws. | |
file | cs_user_porosity.f90 |
This function computes the porosity (volume factor ![]() | |
file | cs_user_postprocess.c |
file | cs_user_postprocess_var.f90 |
Output additional variables on a postprocessing mesh. | |
file | cs_user_radiative_transfer.c |
User subroutine for input of radiative transfer parameters : absorption coefficient and net radiation flux. | |
file | cs_user_radiative_transfer_bcs.c |
file | cs_user_radiative_transfer_param.c |
file | cs_user_solver.c |
User solver setting and implementation. | |
file | cs_user_source_terms.f90 |
Additional right-hand side source terms. | |
file | cs_user_turbomachinery.c |
Definition of turbomachinery related options. | |
file | usatch.f90 |
Routines for user defined atmospheric chemical scheme. | |
file | usctdz.f90 |
Define cooling tower parameters. | |
file | ushist.f90 |
Non-standard monitoring point definition. | |
file | uspt1d.f90 |
Data Entry of the thermal module in 1-Dimension Wall. | |
file | usthht.f90 |
Enthalpy-temperature conversion law definition. | |
file | usvort.f90 |
Unsteady inlet boundary condition for LES with the vortex method. | |
file | usvosy.f90 |
Compute a volume exchange coefficient for SYRTHES coupling. | |