NAME
solver_option - direct and iterative solver options (rheolef-7.2)
DESCRIPTION
This class implements a set of options for customizing a solver(4). An instance of this class can be supplied to the solver(4) constructor.
MAIN OPTION
iterative
This boolean flag controls the choice between an iterative or a direct method. Default is direct for matrix obtained from 1D or 2D PDE problems and iterative for 3D ones. The direct solver bases on the mumps library for a distributed environment and, otherwise, on the suitesparse or the eigen in a sequential one. The iterative solver bases on cg(5) conjugate gradient algorithm for symmetric positive definite matrix and on the gmres(5) algorithm otherwise.
OPTION FOR DIRECT SOLVERS
preferred_library
The direct solver bases on an external library: it could be either mumps, suitesparse or eigen. When all these libraries are available, then mumps is the default when is is well configured with either the scoth or the metis ordering library. When neither mumps nor suitesparse are available, the eigen choice is selected. This option allows one to impose an alternative choice e.g. suitesparse, by setting the string to ’suitesparse’. This option can be provided as a list of choices, separated by a space or a coma, e.g. preferred_library=’suitesparse eigen mumps’.
default_preferred_library(a)
This method returns all the the available libraries in the decreasing preference order. The result depends upon the matrix a, especially if it is symmetric definite positive or not, and whether it requires memory communications or not.
used_library(a,sopt)
This method returns the name of the available library that will be used by the solver when a direct solvers is selected. The result depends upon the properties of the a matrix and upon the solver option sopt, especially the sopt.preferred_library.
compute_determinant
Compute also the determinant of the matrix. Requires mumps or suitesparse.
n_refinement
Number of iterative refinement, when using a direct method (suitesparse only support it).
OPTION FOR ITERATIVE SOLVERS
tol
This floating parameter control the tolerance for the stopping criterion. Default is the machine epsilon for the default Float_2 type. Recall that the default Float_2 type is defined at Rheolef configuration time and is double by default, when no special configuration option is used.
max_iter
Maximum number of iteration when using an iterative method.
absolute_stopping
Absolute or
relative stopping criterion.
With the absolute criterion, the algorithm stops when
norm(A*x-b) < tol, otherwise it stops when
norm(A*x-b) < tol*norm(b). Default is to use an
absolute stopping criterion.
residue
On return, gives the obtained residue, optionally divided by the initial one when using a relative stopping. It is less or equal to tol when the iterative algorithm stops with succes.
n_iter
On return, gives the number of iterations performed. It is always less or equal to max_iter when the iterative algorithm stops with succes.
p_err
A pointer to the diststream(2) where residues are printed during iterations. When this pointer is zero, no errors are printed. Default is to print to derr standard diststream(2) error.
label
When printing errors, each line is prefixed by [label]. When the label is empty, each iterative algorithm uses its default label, e.g. ’cg’ for the cg(5) conjugate gradient. By default the label is empty and this option is used to customize the convergence trace.
krylov_dimension
The dimension of the Krylov space used by the gmres(5) algorithm. Default is krylov_dimension=6.
OPTIONS FOR DEVELOPERS
verbose_level
Can be set to 0, 1, 2 or 3. The default is 0.
level_of_fill
Built an incomplete factorization with the prescribed level of fill [1:5].
do_check
Performs extra checks for debug.
force_seq
In distributed mode, restrict the linear system resolution to diagonal blocs per process. This option is only active when using the mumps direct solver.
ooc
Out-of-core limit (Mo/percent depending on compilation options). In development.
amalgamation
Level of amalgamation [10:70] for Kass. In development.
IMPLEMENTATION
This documentation has been generated from file linalg/lib/solver_option.h
class
solver_option {
public:
typedef std::size_t size_type;
static const long int decide = -1;
mutable long int iterative;
Float tol;
size_type max_iter;
bool absolute_stopping;
mutable Float residue;
mutable size_type n_iter;
odiststream* p_err;
mutable std::string label;
size_type krylov_dimension;
size_type n_refinement;
bool compute_determinant;
std::string preferred_library;
size_type verbose_level;
bool do_check;
bool force_seq;
size_type level_of_fill;
size_type amalgamation;
size_type ooc;
// allocator and default values:
solver_option()
: iterative (decide),
#if defined(_RHEOLEF_HAVE_FLOAT128)
tol (1e6*std::numeric_limits<Float>::epsilon()),
#else
tol (1e3*std::numeric_limits<Float>::epsilon()),
#endif
max_iter (100000),
absolute_stopping (true),
residue (0),
n_iter (0),
p_err (&derr),
label (),
krylov_dimension (6),
n_refinement (2),
compute_determinant(false),
preferred_library(),
verbose_level (0),
do_check (false),
force_seq (false),
level_of_fill (1),
amalgamation (10),
ooc (20000)
{
}
solver_option (const solver_option&);
solver_option& operator= (const solver_option&);
template <class T, class M>
static std::string default_preferred_library (const
csr<T,M>& a);
template <class T, class M>
static std::string used_library (const csr<T,M>&
a, const solver_option& sopt = solver_option());
};
AUTHOR
Pierre Saramito <Pierre.Saramito [AT] imag.fr>
COPYRIGHT
Copyright (C) 2000-2018 Pierre Saramito <Pierre.Saramito [AT] imag.fr> GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>. This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law.