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.
Classes | Namespaces | Functions | Variables
cellular_flow_derivative_recovery_errors.py File Reference

Classes

class  cellular_flow_derivative_recovery_errors.Field
 
class  cellular_flow_derivative_recovery_errors.Mesh
 
class  cellular_flow_derivative_recovery_errors.RecoveryCase
 
class  cellular_flow_derivative_recovery_errors.Plotter
 
class  cellular_flow_derivative_recovery_errors.Figure
 
class  cellular_flow_derivative_recovery_errors.Curve
 

Namespaces

 cellular_flow_derivative_recovery_errors
 

Functions

def cellular_flow_derivative_recovery_errors.GetCurveCharacteristics (mat_deriv_or_laplacian, method)
 

Variables

bool cellular_flow_derivative_recovery_errors.do_print_max_error = True
 
list cellular_flow_derivative_recovery_errors.mat_deriv_recovery_types = [1, 3, 4, 6, 7]
 
list cellular_flow_derivative_recovery_errors.laplacian_recovery_types = [1, 3, 4, 6, 7]
 
list cellular_flow_derivative_recovery_errors.field_identifiers = ['ethier', 'sines']
 
list cellular_flow_derivative_recovery_errors.mesh_regularities = [True, False]
 
list cellular_flow_derivative_recovery_errors.mesh_tags = ['Altair', 'Kratos']
 
list cellular_flow_derivative_recovery_errors.meshes = []
 
list cellular_flow_derivative_recovery_errors.recovery_cases = []
 
list cellular_flow_derivative_recovery_errors.fields = []
 
 cellular_flow_derivative_recovery_errors.plotter = Plotter()
 
 cellular_flow_derivative_recovery_errors.curve = Curve(field, mesh, case)