addfld.f90
Add additional fields based on user options.
alaste.f90
Module for ALE with code_aster coupling.
albase.f90
Module for Arbitrary Lagrangian Eulerian method (ALE)
altycl.f90
Boundary condition code for the ALE module.
calhyd.f90
Poisson equation resolution for hydrostatic pressure: .
caltri.f90
Main time loop.
cavitation.f90
Module for cavitation modeling.
cdomod.f90
Store the mode of activation of CDO-HHO schemes.
clptrg.f90
Boundary conditions for rough walls (icodcl = 6).
clptur.f90
Boundary conditions for smooth walls (icodcl = 5).
clsyvt.f90
Symmetry boundary conditions for vectors and tensors.
condli.f90
Translation of the boundary conditions given by cs_user_boundary_conditions in a form that fits to the solver.
cou1di.f90
cou1do.f90
covofi.f90
This subroutine performs the solving the convection/diffusion equation (with eventually source terms and/or drift) for a scalar quantity over a time step.
covofv.f90
This subroutine performs the solving the convection/diffusion equation (with eventually source terms and/or drift) for a vectorial quantity over a time step.
cplsat.f90
Module for code/code coupling.
cs_1d_wall_thermal.c
cs_1d_wall_thermal.h
cs_1d_wall_thermal_check.c
cs_1d_wall_thermal_check.h
cs_ale.c
cs_ale.h
cs_all_to_all.c
cs_all_to_all.h
cs_array.c
cs_array.h
cs_array_reduce.c
cs_array_reduce.h
cs_assert.h
cs_ast_coupling.c
cs_ast_coupling.h
cs_base.c
cs_base.h
cs_base_accel.cxx
cs_base_accel.h
cs_base_cuda.h
cs_base_fortran.c
cs_base_fortran.h
cs_block_dist.c
cs_block_dist.h
cs_block_to_part.c
cs_block_to_part.h
cs_boundary.c
Handle the "physical" boundary conditions attached to a computational domain.
cs_boundary.h
cs_boundary_conditions.c
cs_boundary_conditions.h
cs_boundary_zone.c
cs_boundary_zone.h
cs_c_bindings.f90
Definition of C function and subroutine bindings.
cs_calcium.c
cs_calcium.h
cs_control.c
cs_control.h
cs_coolprop.cxx
cs_coolprop.hxx
cs_coupling.c
cs_coupling.h
cs_crystal_router.c
cs_crystal_router.h
cs_cuda_contrib.h
cs_defs.c
cs_defs.h
cs_eos.cxx
cs_eos.hxx
cs_equation_iterative_solve.c
This file gathers functions that solve advection diffusion equations with source terms for one time step for a scalar, vector or tensor variable.
cs_equation_iterative_solve.h
cs_ext_library_info.c
cs_ext_library_info.h
cs_ext_neighborhood.c
cs_ext_neighborhood.h
cs_f_interfaces.f90
Definition of explicit interfaces for Fortran functions.
cs_fan.c
cs_fan.h
cs_field.c
cs_field.h
cs_field_default.c
cs_field_default.h
cs_field_operator.c
cs_field_operator.h
cs_field_pointer.c
cs_field_pointer.h
cs_file.c
cs_file.h
cs_file_csv_parser.c
cs_file_csv_parser.h
cs_flag_check.c
cs_flag_check.h
cs_fp_exception.c
cs_fp_exception.h
cs_function.c
Function objects management.
cs_function.h
cs_function_default.c
cs_function_default.h
cs_gas_mix.c
cs_gas_mix.h
cs_gas_mix_initialization.f90
Initialization of calculation variables for gas mixture modelling in presence of the steam gas or another gas used as variable deduced and not solved.
cs_gas_mix_physical_properties.f90
This subroutine fills physical properties which are variable in time for the gas mixtures modelling with or without steam inside the fluid domain. In presence of steam, this one is deduced from the noncondensable gases transported as scalars (by means of the mass fraction of each species).
cs_halo.c
cs_halo.h
cs_halo_cuda.h
cs_halo_perio.c
cs_halo_perio.h
cs_head_losses.c
cs_head_losses.h
cs_ht_convert.c
cs_ht_convert.h
cs_ibm.c
cs_ibm.h
cs_interface.c
cs_interface.h
cs_internal_coupling.c
cs_internal_coupling.h
cs_interpolate.c
cs_interpolate.h
cs_io.c
cs_io.h
cs_log.c
cs_log.h
cs_log_iteration.c
Log field and other array statistics at relevant time steps.
cs_log_iteration.h
cs_log_setup.c
Setup info at the end of the setup stage.
cs_log_setup.h
cs_map.c
cs_map.h
cs_mass_source_terms.c
cs_mass_source_terms.h
cs_math.c
cs_math.h
cs_measures_util.c
cs_measures_util.h
cs_medcoupling_intersector.cxx
cs_medcoupling_intersector.h
cs_medcoupling_mesh.cxx
cs_medcoupling_mesh.hxx
cs_medcoupling_postprocess.cxx
cs_medcoupling_postprocess.h
cs_medcoupling_remapper.cxx
cs_medcoupling_remapper.h
cs_medcoupling_utils.cxx
cs_medcoupling_utils.h
cs_mesh_tagmr.f90
The subroutine is used to generate the 1-D mesh and initialize the temperature field of the thermal model coupled with condensation model.
cs_metal_structures_tag.f90
The 0-D thermal model to compute the temperature at the metal structures wall and pass to the volume condensation modelling to be able to model the metal structures effects. This metal structures temperature computed is passed to the volume condensation model to estimate the heat flux at the metall structures wall where the condensation occurs.
cs_mobile_structures.c
cs_mobile_structures.h
cs_notebook.c
cs_notebook.h
cs_numbering.c
cs_numbering.h
cs_nz_condensation.f90
Module for parameters options and physical properties of the condensation model using specific zones with different wall temperatures and material properties.
cs_nz_tagmr.f90
Module for parameters options, numerical and physical properties of the thermal 1D model for each specific zone with condensation on the wall. The zones number is defined by the user with the subroutine : cs_user_wall_condensation.
cs_opts.c
cs_opts.h
cs_order.c
cs_order.h
cs_parall.c
cs_parall.h
cs_param_types.c
cs_param_types.h
cs_paramedmem_coupling.cxx
cs_paramedmem_coupling.h
cs_paramedmem_remapper.cxx
cs_paramedmem_remapper.h
cs_parameters.c
cs_parameters.h
cs_parameters_check.c
cs_parameters_check.h
cs_part_to_block.c
cs_part_to_block.h
cs_physical_constants.c
cs_physical_constants.h
cs_physical_properties.c
cs_physical_properties.h
cs_porosity_from_scan.c
cs_porosity_from_scan.h
cs_porous_model.c
Porous model management.
cs_porous_model.h
cs_post.c
Post-processing management.
cs_post.h
cs_post_default.c
cs_post_default.h
cs_post_util.c
cs_post_util.h
cs_preprocess.c
cs_preprocess.h
cs_preprocessor_data.c
cs_preprocessor_data.h
cs_pressure_correction.c
cs_pressure_correction.h
cs_probe.c
Probes and profiles management.
cs_probe.h
cs_prototypes.h
cs_random.c
cs_random.h
cs_range_set.c
Operations related to handling of an owning rank for distributed entities.
cs_range_set.h
cs_rank_neighbors.c
cs_rank_neighbors.h
cs_renumber.c
cs_renumber.h
cs_resource.c
Resource allocation management (available time).
cs_resource.h
cs_restart.c
cs_restart.h
cs_restart_default.c
cs_restart_default.h
cs_restart_map.c
cs_restart_map.h
cs_rotation.c
cs_rotation.h
cs_runaway_check.c
Runaway (diverging) computation detection.
cs_runaway_check.h
cs_sat_coupling.c
cs_sat_coupling.h
cs_scalar_clipping.c
Clipping scalar field.
cs_scalar_clipping.h
cs_search.c
cs_search.h
cs_selector.c
cs_selector.h
cs_selector_f2c.f90
cs_solid_zone.c
cs_solid_zone.h
cs_sort.c
cs_sort.h
cs_sort_partition.c
cs_sort_partition.h
cs_syr_coupling.c
cs_syr_coupling.h
cs_sys_coupling.c
cs_sys_coupling.h
cs_system_info.c
cs_system_info.h
cs_tagmri.f90
The 1D thermal model to compute the temperature to impose at the cold wall. This one is used by the COPAIN model to estimate the heat flux at the wall where the condensation occurs.
cs_tagmro.f90
The 1D thermal model to compute the temperature to impose at the cold wall. This one is used by the COPAIN model to estimate the heat flux at the wall where the condensation occurs.
cs_tagms.f90
Module for parameters options and physical properties of the 0-D thermal model used by the metal mass structures modelling coupled with specific condensation correlations.
cs_thermal_model.c
cs_thermal_model.h
cs_time_control.c
cs_time_control.h
cs_time_moment.c
Temporal moments management.
cs_time_moment.h
cs_time_plot.c
cs_time_plot.h
cs_time_step.c
cs_time_step.h
cs_time_table.c
cs_time_table.h
cs_timer.c
cs_timer.h
cs_timer_stats.c
cs_timer_stats.h
cs_tree.c
cs_tree.h
cs_turbomachinery.c
cs_turbomachinery.h
cs_utilities.c
cs_utilities.h
cs_velocity_pressure.c
cs_velocity_pressure.h
cs_vof.c
cs_vof.h
cs_volume_mass_injection.c
cs_volume_mass_injection.h
cs_volume_zone.c
cs_volume_zone.h
cs_wall_condensation.c
cs_wall_condensation.h
cs_wall_condensation_1d_thermal.c
cs_wall_condensation_1d_thermal.h
cs_wall_functions.c
cs_wall_functions.h
cs_xdef_eval_at_zone.c
cs_xdef_eval_at_zone.h
cs_zone.h
csc2cl.f90
Translation of the "itypfb(*, *) = icscpl" condition.
csc2ts.f90
Code-code coupling with source terms.
csccel.f90
Exchange of coupling variables between tow instances of code_saturne thanks to cells.
cscfbr.f90
Exchange of variables for coupling two code_saturne intances with boundary faces.
cscini.f90
Initialization of main variables for code_saturne / code_saturne coupling.
csclli.f90
cscloc.f90
Coupling interfaces localization (with FVM).
cscpce.f90
Preparation of sending velocity variables for coupling between two instances of code_saturne via boundary faces. Received indformation will be transformed into boundary condition in subroutine csc2cl .
cscpfb.f90
Preparation of sending variables for coupling between two instances of code_saturne via boundary faces. Received indformation will be transformed into boundary condition in subroutine csc2cl .
csinit.f90
csopli.f90
csprnt.f90
cstnum.f90
Module for numerical constants.
cstphy.f90
Module for physical constants.
diffst.f90
dimens.f90
Module for dimensions.
distpr.f90
Compute distance to wall by solving a 3d diffusion equation. Solve.
distpr2.f90
Compute distance to wall by a brute force geometric approach (serial only)
distyp.f90
This subroutine computes the dimensionless distance to the wall solving a steady transport equation.
driflu.f90
Compute the modified convective flux for scalars with a drift.
dttvar.f90
Compute the local time step and add the Courant and Fourier number to the log.
ecrava.f90
ecrlis.f90
This subroutine writes log information on equation convergence.
entsor.f90
Module for input/output.
field.f90
Module for field-related operations.
field_operator.f90
Module for field-based algebraic operations.
findpt.f90
This subroutine looks for the nearest element to the position (xx, yy, zz) among the element of xyzcen array.
fldini.f90
fldprp.f90
Properties definition initialization, according to calculation type selected by the user.
fldtri.f90
fldvar.f90
Variables definition initialization, according to calculation type selected by the user.
idrbla.f90
ihmpre.f90
Module for GUI parameter file flag We could avoid this module by querying a C structure.
impini.f90
iniini.f90
Commons default initialization before handing over the user.
initi1.f90
Commons initialization.
iniusi.f90
iniva0.f90
Computed variable initialization. The time step, the indicator of wall distance computation are also initialized just before reading a restart file or use the user initializations.
inivar.f90
Initialization of calculation variables, time step and table that stores distance to the wall by the user (after reading a restart file).
iprbla.f90
lecamo.f90
Reading of restart file.
lecamp.f90
Reading of main restart file.
lecamx.f90
Reading of auxiliary restart file.
majgeo.f90
mesh.f90
Module for mesh-related arrays.
metal_structures_copain_model.f90
The COPAIN modelling to estimate the heat and mass transfer associated to the steam condensation phenomena at each cell corresponding to the metal structures volume identified by geometric criteria.
mmtycl.f90
modini.f90
Modify calculation parameters after user changes (module variables)
navstv.f90
Solving of NS equations for incompressible or slightly compressible flows for one time step. Both convection-diffusion and continuity steps are performed. The velocity components are solved together in once.
numvar.f90
Module for variable numbering.
optcal.f90
Module for calculation options.
parall.f90
Module for basic MPI and OpenMP parallelism-related values.
paramx.f90
Module for definition of general parameters.
period.f90
Module for periodicity flags.
phyvar.f90
This subroutine fills physical properties which are variable in time (mainly the eddy viscosity).
pointe.f90
Module for pointer variables.
post.f90
Module for post-processing related operations.
precli.f90
Preparation of boundary conditions determination Boundary faces of precedent step are used. Except at first time step, where arrays itypfb and itrifb are undefined.
predfl.f90
Update the convective mass flux before the Navier Stokes equations (prediction and correction steps).
predvv.f90
This subroutine performs the velocity prediction step of the Navier Stokes equations for incompressible or slightly compressible flows for the coupled velocity components solver.
prehyd.f90
Compute an "a priori" hydrostatic pressure and its gradient associated before the Navier Stokes equations (prediction and correction steps navstv.f90 ).
pthrbm.f90
ptrglo.f90
resvoi.f90
Solving the void fraction for the Volume of Fluid method (and hence for cavitating flows).
rotation.f90
Module for rotating zones (rotors)
scalai.f90
Resolution of source term convection diffusion equations for scalars in a time step.
schtmp.f90
Management of the mass flux, the viscosity, the density, the specific heat and the tsnsa array in case of a theta-scheme.
tdesi1.f90
tridim.f90
Resolution of incompressible Navier Stokes and scalar transport equations for a time step.
tspdcv.f90
This subroutine computes the explicit contribution of headlosses terms.
turbomachinery.f90
Module for turbomachinery computations.
typecl.f90
Handle boundary condition type code (itypfb ).
varpos.f90
Variables location initialization, according to calculation type selected by the user.
vericl.f90
Check boundary condition code.
verini.f90
visecv.f90
Computes the secondary viscosity contribution in order to compute:
vof.f90
Module for Volume-Of-Fluid method.