KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Public Member Functions | Public Attributes | List of all members
navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver Class Reference
Inheritance diagram for navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver:
Collaboration diagram for navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver:

Public Member Functions

def GetDefaultParameters (cls)
 
def ValidateSettings (self)
 Overriding python_solver ValidateSettings to validate the fm_ale_settings. More...
 
def __init__ (self, model, custom_settings)
 
def AddVariables (self)
 
def AddDofs (self)
 
def PrepareModelPart (self)
 
def Initialize (self)
 
def AdvanceInTime (self, current_time)
 
def InitializeSolutionStep (self)
 
def SolveSolutionStep (self)
 
def FinalizeSolutionStep (self)
 
def GetDistanceModificationProcess (self)
 

Public Attributes

 min_buffer_size
 
 embedded_formulation
 
 element_name
 
 condition_name
 
 level_set_type
 
 element_integrates_in_time
 
 element_has_nodal_properties
 
 historical_nodal_properties_variables_list
 
 non_historical_nodal_properties_variables_list
 
 find_nodal_neighbours_process
 
 fm_ale_step
 

Constructor & Destructor Documentation

◆ __init__()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.__init__ (   self,
  model,
  custom_settings 
)

Member Function Documentation

◆ AddDofs()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.AddDofs (   self)

◆ AddVariables()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.AddVariables (   self)

◆ AdvanceInTime()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.AdvanceInTime (   self,
  current_time 
)

◆ FinalizeSolutionStep()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.FinalizeSolutionStep (   self)

◆ GetDefaultParameters()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.GetDefaultParameters (   cls)

◆ GetDistanceModificationProcess()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.GetDistanceModificationProcess (   self)

◆ Initialize()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.Initialize (   self)

◆ InitializeSolutionStep()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.InitializeSolutionStep (   self)

◆ PrepareModelPart()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.PrepareModelPart (   self)

◆ SolveSolutionStep()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.SolveSolutionStep (   self)

◆ ValidateSettings()

def navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.ValidateSettings (   self)

Overriding python_solver ValidateSettings to validate the fm_ale_settings.

Member Data Documentation

◆ condition_name

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.condition_name

◆ element_has_nodal_properties

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.element_has_nodal_properties

◆ element_integrates_in_time

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.element_integrates_in_time

◆ element_name

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.element_name

◆ embedded_formulation

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.embedded_formulation

◆ find_nodal_neighbours_process

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.find_nodal_neighbours_process

◆ fm_ale_step

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.fm_ale_step

◆ historical_nodal_properties_variables_list

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.historical_nodal_properties_variables_list

◆ level_set_type

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.level_set_type

◆ min_buffer_size

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.min_buffer_size

◆ non_historical_nodal_properties_variables_list

navier_stokes_embedded_solver.NavierStokesEmbeddedMonolithicSolver.non_historical_nodal_properties_variables_list

The documentation for this class was generated from the following file: