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
response_functions.convection_diffusion_response.AdjointResponseFunction Class Reference

Linear adjoint response function. More...

Inheritance diagram for response_functions.convection_diffusion_response.AdjointResponseFunction:
Collaboration diagram for response_functions.convection_diffusion_response.AdjointResponseFunction:

Public Member Functions

def __init__ (self, identifier, response_settings, model)
 
def Initialize (self)
 
def InitializeSolutionStep (self)
 
def CalculateValue (self)
 
def CalculateGradient (self)
 
def GetValue (self)
 
def GetNodalGradient (self, variable)
 
def Finalize (self)
 

Public Attributes

 identifier
 
 response_settings
 
 primal_analysis
 
 primal_model_part
 
 adjoint_analysis
 
 adjoint_model_part
 
 primal_state_variables
 
 value
 

Detailed Description

Linear adjoint response function.

Attributes

primal_analysis : Primal analysis object of the response function adjoint_analysis : Adjoint analysis object of the response function

Constructor & Destructor Documentation

◆ __init__()

def response_functions.convection_diffusion_response.AdjointResponseFunction.__init__ (   self,
  identifier,
  response_settings,
  model 
)

Member Function Documentation

◆ CalculateGradient()

def response_functions.convection_diffusion_response.AdjointResponseFunction.CalculateGradient (   self)

◆ CalculateValue()

def response_functions.convection_diffusion_response.AdjointResponseFunction.CalculateValue (   self)

◆ Finalize()

def response_functions.convection_diffusion_response.AdjointResponseFunction.Finalize (   self)

◆ GetNodalGradient()

def response_functions.convection_diffusion_response.AdjointResponseFunction.GetNodalGradient (   self,
  variable 
)

◆ GetValue()

def response_functions.convection_diffusion_response.AdjointResponseFunction.GetValue (   self)

◆ Initialize()

def response_functions.convection_diffusion_response.AdjointResponseFunction.Initialize (   self)

◆ InitializeSolutionStep()

def response_functions.convection_diffusion_response.AdjointResponseFunction.InitializeSolutionStep (   self)

Member Data Documentation

◆ adjoint_analysis

response_functions.convection_diffusion_response.AdjointResponseFunction.adjoint_analysis

◆ adjoint_model_part

response_functions.convection_diffusion_response.AdjointResponseFunction.adjoint_model_part

◆ identifier

response_functions.convection_diffusion_response.AdjointResponseFunction.identifier

◆ primal_analysis

response_functions.convection_diffusion_response.AdjointResponseFunction.primal_analysis

◆ primal_model_part

response_functions.convection_diffusion_response.AdjointResponseFunction.primal_model_part

◆ primal_state_variables

response_functions.convection_diffusion_response.AdjointResponseFunction.primal_state_variables

◆ response_settings

response_functions.convection_diffusion_response.AdjointResponseFunction.response_settings

◆ value

response_functions.convection_diffusion_response.AdjointResponseFunction.value

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