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
DEM_benchmarks_class.Benchmark30 Class Reference

Cylinder with imposed angular velocity (Velocity Verlet + Zhao) More...

Collaboration diagram for DEM_benchmarks_class.Benchmark30:

Public Member Functions

def __init__ (self)
 
def set_initial_data (self, modelpart, rigid_face_model_part, iteration, number_of_points_in_the_graphic, coeff_of_restitution_iteration=0)
 
def get_final_data (self, spheres_model_part, rigid_face_model_part, cluster_model_part)
 
def ApplyNodalRotation (self, time, dt, modelpart)
 
def generate_graph_points (self, spheres_model_part, rigid_face_model_part, cluster_model_part, time, graph_print_interval, dt)
 
def print_results (self, number_of_points_in_the_graphic, dt=0, elapsed_time=0.0)
 
def compute_errors (self, output_filename)
 

Public Attributes

 number
 
 cluster_graph_counter
 
 local_angular_velocity_list_outfile_name
 
 simulation_graph
 
 graph_frequency
 

Detailed Description

Cylinder with imposed angular velocity (Velocity Verlet + Zhao)

Constructor & Destructor Documentation

◆ __init__()

def DEM_benchmarks_class.Benchmark30.__init__ (   self)

Member Function Documentation

◆ ApplyNodalRotation()

def DEM_benchmarks_class.Benchmark30.ApplyNodalRotation (   self,
  time,
  dt,
  modelpart 
)

◆ compute_errors()

def DEM_benchmarks_class.Benchmark30.compute_errors (   self,
  output_filename 
)

◆ generate_graph_points()

def DEM_benchmarks_class.Benchmark30.generate_graph_points (   self,
  spheres_model_part,
  rigid_face_model_part,
  cluster_model_part,
  time,
  graph_print_interval,
  dt 
)

◆ get_final_data()

def DEM_benchmarks_class.Benchmark30.get_final_data (   self,
  spheres_model_part,
  rigid_face_model_part,
  cluster_model_part 
)

◆ print_results()

def DEM_benchmarks_class.Benchmark30.print_results (   self,
  number_of_points_in_the_graphic,
  dt = 0,
  elapsed_time = 0.0 
)

◆ set_initial_data()

def DEM_benchmarks_class.Benchmark30.set_initial_data (   self,
  modelpart,
  rigid_face_model_part,
  iteration,
  number_of_points_in_the_graphic,
  coeff_of_restitution_iteration = 0 
)

Member Data Documentation

◆ cluster_graph_counter

DEM_benchmarks_class.Benchmark30.cluster_graph_counter

◆ graph_frequency

DEM_benchmarks_class.Benchmark30.graph_frequency

◆ local_angular_velocity_list_outfile_name

DEM_benchmarks_class.Benchmark30.local_angular_velocity_list_outfile_name

◆ number

DEM_benchmarks_class.Benchmark30.number

◆ simulation_graph

DEM_benchmarks_class.Benchmark30.simulation_graph

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