How to construct a linear solver using the "Linear Solver Factory"

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(Solvers available in the Kratos Core)
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max_iteration = 500
 
max_iteration = 500
 
tolerance = 1e-6
 
tolerance = 1e-6
 
+
   
 
     ##here we actually construct a new linear solver using the "custom settings" just defined
 
     ##here we actually construct a new linear solver using the "custom settings" just defined
 
     import linear_solver_factory
 
     import linear_solver_factory

Revision as of 13:49, 3 July 2013

The class "LinearSolverFactory" is designed to help in the construction of the Kratos Linear Solvers, and makes an attempt to unify the construction mechanism.

the essential idea is that the "settings" to be used in the construction of a linear solver are defined by constructing a new python class (with arbitrary name) which contains the settings needed for the construction of the solver


Within kratos there exist different classes of linear solvers.

Solvers available in the Kratos Core

A first group of iterative solvers is included within the Kratos core and is always available to the user. These solvers are

 BiConjugate gradient stabilized
 Conjugate gradient
 GMRES

This solvers can be used with or without a preconditioner, which is also available within the Kratos core. Available options for the preconditioner are

 None
 DiagonalPreconditioner
 ILU0

in order to construct a "BiConjugate gradient stabilized" together with an ILU0 preconditioner using the factory class one shall write

   ##here we specify the settings to be used in the construction
   class custom_settings:

solver_type = "BiConjugate gradient stabilized" scaling = True preconditioner_type = "DiagonalPreconditioner" max_iteration = 500 tolerance = 1e-6

   ##here we actually construct a new linear solver using the "custom settings" just defined
   import linear_solver_factory
   new_linear_solver =  linear_solver_factory.ConstructSolver(custom_settings)

Note that specifying "True" at the scaling option implies that the matrix coefficients is normalized prior to the solution step

The Kratos core also includes a simple direct solver named

  Skyline LU factorization

such solver is appropriate for the solution of relatively small systems of equations which can be conveniently solved by employing a direct solver technology. Since the solver is direct, tolerance, preconditioner_type and max_iterations make no sense and are not required. a new solver of this type could be constructed as

   ##here we specify the settings to be used in the construction
   class other_settings:

solver_type = "Skyline LU factorization" scaling = False

   ##here we actually construct a new linear solver using the "other settings" just defined
   import linear_solver_factory
   new_direct_solver =  linear_solver_factory.ConstructSolver(other_settings)

The kratos core also provides more advanced solvers, specialized to the case of mixed formulations. An example of this is the

   Mixed UP

solver which implements a SIMPLE-like preconditioner for the monolithic Navier-Stokes equations combined with a GMRES solver. This solver combines different linear solvers to be used for the "U block" and for the "P block" and shall be in some sense optimal in the case of dominating intertia

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