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
geomechanics_analysis.GeoMechanicsAnalysis Class Reference
Inheritance diagram for geomechanics_analysis.GeoMechanicsAnalysis:
Collaboration diagram for geomechanics_analysis.GeoMechanicsAnalysis:

Public Member Functions

def __init__ (self, model, project_parameters)
 
def FinalizeSolutionStep (self)
 
def RunSolutionLoop (self)
 This function executes the solution loop of the AnalysisStage It can be overridden by derived classes. More...
 
- Public Member Functions inherited from geomechanics_analysis.GeoMechanicsAnalysisBase
def ResetIfHasNodalSolutionStepVariable (self, variable)
 
def ModifyInitialGeometry (self)
 
def Finalize (self)
 
def KeepAdvancingSolutionLoop (self)
 
def PrintAnalysisStageProgressInformation (self)
 

Public Attributes

 start_time
 
 end_time
 
 delta_time
 
 reduction_factor
 
 increase_factor
 
 min_iterations
 
 max_delta_time_factor
 
 max_delta_time
 
 number_cycles
 
 max_iterations
 
 solution_type
 
 reset_displacements
 
 rebuild_level
 
- Public Attributes inherited from geomechanics_analysis.GeoMechanicsAnalysisBase
 initial_time
 
 parallel_type
 

Constructor & Destructor Documentation

◆ __init__()

def geomechanics_analysis.GeoMechanicsAnalysis.__init__ (   self,
  model,
  project_parameters 
)

Member Function Documentation

◆ FinalizeSolutionStep()

def geomechanics_analysis.GeoMechanicsAnalysis.FinalizeSolutionStep (   self)

Reimplemented in piping_analysis.PipingAnalysis.

◆ RunSolutionLoop()

def geomechanics_analysis.GeoMechanicsAnalysis.RunSolutionLoop (   self)

This function executes the solution loop of the AnalysisStage It can be overridden by derived classes.

Reimplemented in piping_analysis.PipingAnalysis.

Member Data Documentation

◆ delta_time

geomechanics_analysis.GeoMechanicsAnalysis.delta_time

◆ end_time

geomechanics_analysis.GeoMechanicsAnalysis.end_time

◆ increase_factor

geomechanics_analysis.GeoMechanicsAnalysis.increase_factor

◆ max_delta_time

geomechanics_analysis.GeoMechanicsAnalysis.max_delta_time

◆ max_delta_time_factor

geomechanics_analysis.GeoMechanicsAnalysis.max_delta_time_factor

◆ max_iterations

geomechanics_analysis.GeoMechanicsAnalysis.max_iterations

◆ min_iterations

geomechanics_analysis.GeoMechanicsAnalysis.min_iterations

◆ number_cycles

geomechanics_analysis.GeoMechanicsAnalysis.number_cycles

◆ rebuild_level

geomechanics_analysis.GeoMechanicsAnalysis.rebuild_level

◆ reduction_factor

geomechanics_analysis.GeoMechanicsAnalysis.reduction_factor

◆ reset_displacements

geomechanics_analysis.GeoMechanicsAnalysis.reset_displacements

◆ solution_type

geomechanics_analysis.GeoMechanicsAnalysis.solution_type

◆ start_time

geomechanics_analysis.GeoMechanicsAnalysis.start_time

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