TNL::Solvers::IterativeSolverMonitor< Real > Class Template Reference

Object for monitoring convergence of iterative solvers. More...

#include <TNL/Solvers/IterativeSolverMonitor.h>

Inheritance diagram for TNL::Solvers::IterativeSolverMonitor< Real >:

Collaboration diagram for TNL::Solvers::IterativeSolverMonitor< Real >:

Public Types
using	IndexType = std::size_t
	A type for indexing.
using	RealType = Real
	A type of the floating-point arithmetics.

Public Member Functions
	IterativeSolverMonitor ()=default
	Construct with no parameters.
void	refresh () override
	Causes that the monitor prints out the status of the solver.
void	setIterations (const IndexType &iterations)
	Set number of the current iteration.
void	setNodesPerIteration (const IndexType &nodes)
	Set the number of nodes of the numerical mesh or lattice.
void	setResidue (const RealType &residue)
	Set residue of the current approximation of the solution.
void	setStage (const std::string &stage)
	This method can be used for naming a stage of the monitored solver.
void	setTime (const RealType &time)
	Set the time of the simulated evolution if it is time dependent.
void	setTimeStep (const RealType &timeStep)
	Set the time step for time dependent iterative solvers.
void	setVerbose (const IndexType &verbose)
	Set up the verbosity of the monitor.
Public Member Functions inherited from TNL::Solvers::SolverMonitor
	SolverMonitor ()=default
	Basic construct with no arguments.
bool	isStopped () const
	Checks whether the main loop was stopped.
void	runMainLoop ()
	Starts the main loop from which the method SolverMonitor::refresh is called in given time periods.
void	setRefreshRate (const int &refreshRate)
	Set the time interval between two consecutive calls of SolverMonitor::refresh.
void	setTimer (Timer &timer)
	Set a timer object for the solver monitor.
void	stopMainLoop ()
	Stops the main loop of the monitor. See runMainLoop.
void	unsetTimer ()
	Unsets the timer object for the solver monitor.

Protected Member Functions
int	getLineWidth ()
Protected Member Functions inherited from TNL::Solvers::SolverMonitor
double	getElapsedTime ()

Protected Attributes
std::atomic_bool	attributes_changed { false }
RealType	elapsed_time_before_refresh = 0
IndexType	iterations = 0
IndexType	iterations_before_refresh = 0
RealType	last_mlups = 0
IndexType	nodesPerIteration = 0
RealType	residue = 0
std::atomic_bool	saved { false }
IndexType	saved_iterations = 0
RealType	saved_residue = 0
std::string	saved_stage
RealType	saved_time = 0
RealType	saved_timeStep = 0
std::string	stage
RealType	time = 0
RealType	timeStep = 0
IndexType	verbose = 2
Protected Attributes inherited from TNL::Solvers::SolverMonitor
std::atomic_bool	started { false }
std::atomic_bool	stopped { false }
std::atomic_int	timeout_milliseconds { 500 }
Timer *	timer = nullptr

Detailed Description

template<typename Real = double>
class TNL::Solvers::IterativeSolverMonitor< Real >

Object for monitoring convergence of iterative solvers.

Template Parameters

Real	is a type of the floating-point arithmetics.
Index	is an indexing type.

The following example shows how to use the iterative solver monitor for monitoring convergence of linear iterative solver:

#include <iostream>
#include <memory>
#include <TNL/Matrices/SparseMatrix.h>
#include <TNL/Devices/Sequential.h>
#include <TNL/Devices/Cuda.h>
#include <TNL/Solvers/Linear/Jacobi.h>
 
template< typename Device >
void
iterativeLinearSolverExample()
{
   /***
    * Set the following matrix (dots represent zero matrix elements):
    *
    *   /  2.5 -1    .    .    .   \
    *   | -1    2.5 -1    .    .   |
    *   |  .   -1    2.5 -1.   .   |
    *   |  .    .   -1    2.5 -1   |
    *   \  .    .    .   -1    2.5 /
    */
   using MatrixType = TNL::Matrices::SparseMatrix< double, Device >;
   using Vector = TNL::Containers::Vector< double, Device >;
   const int size( 5 );
   auto matrix_ptr = std::make_shared< MatrixType >();
   matrix_ptr->setDimensions( size, size );
   matrix_ptr->setRowCapacities( Vector( { 2, 3, 3, 3, 2 } ) );
 
   auto f = [ = ] __cuda_callable__( typename MatrixType::RowView & row ) mutable
   {
      const int rowIdx = row.getRowIndex();
      if( rowIdx == 0 ) {
         row.setElement( 0, rowIdx, 2.5 );     // diagonal element
         row.setElement( 1, rowIdx + 1, -1 );  // element above the diagonal
      }
      else if( rowIdx == size - 1 ) {
         row.setElement( 0, rowIdx - 1, -1.0 );  // element below the diagonal
         row.setElement( 1, rowIdx, 2.5 );       // diagonal element
      }
      else {
         row.setElement( 0, rowIdx - 1, -1.0 );  // element below the diagonal
         row.setElement( 1, rowIdx, 2.5 );       // diagonal element
         row.setElement( 2, rowIdx + 1, -1.0 );  // element above the diagonal
      }
   };
 
   /***
    * Set the matrix elements.
    */
   matrix_ptr->forAllRows( f );
   std::cout << *matrix_ptr << '\n';
 
   /***
    * Set the right-hand side vector.
    */
   Vector x( size, 1.0 );
   Vector b( size );
   matrix_ptr->vectorProduct( x, b );
   x = 0.0;
   std::cout << "Vector b = " << b << '\n';
 
   /***
    * Setup solver of the linear system.
    */
   using LinearSolver = TNL::Solvers::Linear::Jacobi< MatrixType >;
   LinearSolver solver;
   solver.setMatrix( matrix_ptr );
   solver.setOmega( 0.0005 );
 
   /***
    * Setup monitor of the iterative solver.
    */
   using IterativeSolverMonitorType = TNL::Solvers::IterativeSolverMonitor< double >;
   IterativeSolverMonitorType monitor;
   TNL::Solvers::SolverMonitorThread monitorThread( monitor );
   monitor.setRefreshRate( 10 );  // refresh rate in milliseconds
   monitor.setVerbose( 1 );
   monitor.setStage( "Jacobi stage:" );
   solver.setSolverMonitor( monitor );
   solver.setConvergenceResidue( 1.0e-6 );
   solver.solve( b, x );
   monitor.stopMainLoop();
   std::cout << "Vector x = " << x << '\n';
}
 
int
main( int argc, char* argv[] )
{
   std::cout << "Solving linear system on host:\n";
   iterativeLinearSolverExample< TNL::Devices::Sequential >();
 
#ifdef __CUDACC__
   std::cout << "Solving linear system on CUDA device:\n";
   iterativeLinearSolverExample< TNL::Devices::Cuda >();
#endif
}

The result looks as follows:

Solving linear system on host:
Row: 0 ->     0:2.5     1:-1  
Row: 1 ->     0:-1      1:2.5     2:-1  
Row: 2 ->     1:-1      2:2.5     3:-1  
Row: 3 ->     2:-1      3:2.5     4:-1  
Row: 4 ->     3:-1      4:2.5 
 
Vector b = [ 1.5, 0.5, 0.5, 0.5, 1.5 ]
 
  Jacobi stage: ITER:   48723 RES:  0.00040608
Vector x = [ 0.999999, 0.999999, 0.999998, 0.999999, 0.999999 ]
Solving linear system on CUDA device:
Row: 0 ->     0:2.5     1:-1  
Row: 1 ->     0:-1      1:2.5     2:-1  
Row: 2 ->     1:-1      2:2.5     3:-1  
Row: 3 ->     2:-1      3:2.5     4:-1  
Row: 4 ->     3:-1      4:2.5 
 
Vector b = [ 1.5, 0.5, 0.5, 0.5, 1.5 ]
 
  Jacobi stage: ITER:    1187 RES:      0.7035
  Jacobi stage: ITER:    1795 RES:      0.6089
  Jacobi stage: ITER:    2411 RES:     0.53476
  Jacobi stage: ITER:    3011 RES:     0.47653
  Jacobi stage: ITER:    3535 RES:     0.43361
  Jacobi stage: ITER:    3943 RES:     0.40407
  Jacobi stage: ITER:    4349 RES:     0.37726
  Jacobi stage: ITER:    4753 RES:     0.35297
  Jacobi stage: ITER:    5151 RES:     0.33103
  Jacobi stage: ITER:    5559 RES:     0.31011
  Jacobi stage: ITER:    5967 RES:     0.29069
  Jacobi stage: ITER:    6371 RES:      0.2728
  Jacobi stage: ITER:    6779 RES:     0.25594
  Jacobi stage: ITER:    7171 RES:     0.24078
  Jacobi stage: ITER:    7571 RES:     0.22629
  Jacobi stage: ITER:    7973 RES:     0.21257
  Jacobi stage: ITER:    8303 RES:     0.20206
  Jacobi stage: ITER:    8485 RES:      0.1964
  Jacobi stage: ITER:    8667 RES:     0.19102
  Jacobi stage: ITER:    8839 RES:     0.18602
  Jacobi stage: ITER:    9009 RES:     0.18116
  Jacobi stage: ITER:    9183 RES:     0.17642
  Jacobi stage: ITER:    9363 RES:     0.17159
  Jacobi stage: ITER:    9541 RES:      0.1669
  Jacobi stage: ITER:    9719 RES:     0.16244
  Jacobi stage: ITER:    9893 RES:      0.1581
  Jacobi stage: ITER:   10063 RES:     0.15407
  Jacobi stage: ITER:   10243 RES:     0.14986
  Jacobi stage: ITER:   10419 RES:     0.14586
  Jacobi stage: ITER:   10779 RES:       0.138
  Jacobi stage: ITER:   11191 RES:     0.12953
  Jacobi stage: ITER:   11603 RES:     0.12158
  Jacobi stage: ITER:   12015 RES:     0.11412
  Jacobi stage: ITER:   12427 RES:     0.10712
  Jacobi stage: ITER:   12843 RES:     0.10049
  Jacobi stage: ITER:   13259 RES:    0.094269
  Jacobi stage: ITER:   13681 RES:    0.088325
  Jacobi stage: ITER:   14075 RES:    0.083163
  Jacobi stage: ITER:   14467 RES:    0.078303
  Jacobi stage: ITER:   14879 RES:    0.073501
  Jacobi stage: ITER:   15303 RES:    0.068866
  Jacobi stage: ITER:   15717 RES:    0.064603
  Jacobi stage: ITER:   16139 RES:    0.060567
  Jacobi stage: ITER:   16543 RES:    0.056923
  Jacobi stage: ITER:   16947 RES:    0.053498
  Jacobi stage: ITER:   17347 RES:     0.05031
  Jacobi stage: ITER:   17759 RES:    0.047224
  Jacobi stage: ITER:   18171 RES:    0.044329
  Jacobi stage: ITER:   18575 RES:    0.041661
  Jacobi stage: ITER:   18967 RES:    0.039227
  Jacobi stage: ITER:   19359 RES:    0.036935
  Jacobi stage: ITER:   19755 RES:    0.034755
  Jacobi stage: ITER:   20153 RES:    0.032684
  Jacobi stage: ITER:   20557 RES:    0.030717
  Jacobi stage: ITER:   20967 RES:    0.028851
  Jacobi stage: ITER:   21375 RES:    0.027099
  Jacobi stage: ITER:   21787 RES:    0.025437
  Jacobi stage: ITER:   22195 RES:    0.023892
  Jacobi stage: ITER:   22595 RES:    0.022468
  Jacobi stage: ITER:   22995 RES:    0.021129
  Jacobi stage: ITER:   23407 RES:    0.019833
  Jacobi stage: ITER:   23827 RES:    0.018594
  Jacobi stage: ITER:   24231 RES:    0.017476
  Jacobi stage: ITER:   24631 RES:    0.016434
  Jacobi stage: ITER:   25019 RES:    0.015483
  Jacobi stage: ITER:   25427 RES:    0.014543
  Jacobi stage: ITER:   25827 RES:    0.013676
  Jacobi stage: ITER:   26243 RES:     0.01283
  Jacobi stage: ITER:   26659 RES:    0.012035
  Jacobi stage: ITER:   27065 RES:    0.011304
  Jacobi stage: ITER:   27465 RES:    0.010631
  Jacobi stage: ITER:   27867 RES:   0.0099972
  Jacobi stage: ITER:   28271 RES:   0.0093957
  Jacobi stage: ITER:   28667 RES:   0.0088412
  Jacobi stage: ITER:   29075 RES:   0.0083041
  Jacobi stage: ITER:   29475 RES:   0.0078093
  Jacobi stage: ITER:   29863 RES:   0.0073575
  Jacobi stage: ITER:   30247 RES:   0.0069361
  Jacobi stage: ITER:   30633 RES:   0.0065348
  Jacobi stage: ITER:   31019 RES:   0.0061605
  Jacobi stage: ITER:   31403 RES:   0.0058076
  Jacobi stage: ITER:   31787 RES:    0.005475
  Jacobi stage: ITER:   32173 RES:   0.0051582
  Jacobi stage: ITER:   32559 RES:   0.0048628
  Jacobi stage: ITER:   32943 RES:   0.0045842
  Jacobi stage: ITER:   33327 RES:   0.0043217
  Jacobi stage: ITER:   33713 RES:   0.0040716
  Jacobi stage: ITER:   34099 RES:   0.0038384
  Jacobi stage: ITER:   34483 RES:   0.0036186
  Jacobi stage: ITER:   34865 RES:   0.0034113
  Jacobi stage: ITER:   35251 RES:   0.0032159
  Jacobi stage: ITER:   35635 RES:   0.0030317
  Jacobi stage: ITER:   36019 RES:   0.0028581
  Jacobi stage: ITER:   36405 RES:   0.0026927
  Jacobi stage: ITER:   36791 RES:   0.0025385
  Jacobi stage: ITER:   37175 RES:   0.0023931
  Jacobi stage: ITER:   37559 RES:    0.002256
  Jacobi stage: ITER:   37945 RES:   0.0021255
  Jacobi stage: ITER:   38329 RES:   0.0020037
  Jacobi stage: ITER:   38715 RES:    0.001889
  Jacobi stage: ITER:   39099 RES:   0.0017808
  Jacobi stage: ITER:   39483 RES:   0.0016788
  Jacobi stage: ITER:   39869 RES:   0.0015817
  Jacobi stage: ITER:   40255 RES:   0.0014911
  Jacobi stage: ITER:   40639 RES:   0.0014057
  Jacobi stage: ITER:   41023 RES:   0.0013251
  Jacobi stage: ITER:   41409 RES:   0.0012485
  Jacobi stage: ITER:   41795 RES:    0.001177
  Jacobi stage: ITER:   42179 RES:   0.0011096
  Jacobi stage: ITER:   42563 RES:    0.001046
  Jacobi stage: ITER:   42949 RES:  0.00098548
  Jacobi stage: ITER:   43333 RES:  0.00092904
  Jacobi stage: ITER:   43719 RES:  0.00087583
  Jacobi stage: ITER:   44103 RES:  0.00082566
  Jacobi stage: ITER:   44489 RES:  0.00077789
  Jacobi stage: ITER:   44873 RES:  0.00073334
  Jacobi stage: ITER:   45259 RES:  0.00069133
  Jacobi stage: ITER:   45643 RES:  0.00065173
  Jacobi stage: ITER:   46027 RES:  0.00061441
  Jacobi stage: ITER:   46417 RES:   0.0005785
  Jacobi stage: ITER:   46805 RES:  0.00054503
  Jacobi stage: ITER:   47191 RES:  0.00051381
  Jacobi stage: ITER:   47581 RES:  0.00048379
  Jacobi stage: ITER:   47969 RES:   0.0004558
  Jacobi stage: ITER:   48357 RES:  0.00042943
  Jacobi stage: ITER:   48743 RES:  0.00040483
  Jacobi stage: ITER:   49133 RES:  0.00038118
  Jacobi stage: ITER:   49519 RES:  0.00035934
  Jacobi stage: ITER:   49907 RES:  0.00033855
  Jacobi stage: ITER:   50293 RES:  0.00031897
  Jacobi stage: ITER:   50679 RES:   0.0003007
  Jacobi stage: ITER:   51063 RES:  0.00028347
  Jacobi stage: ITER:   51451 RES:  0.00026707
  Jacobi stage: ITER:   51837 RES:  0.00025162
  Jacobi stage: ITER:   52223 RES:  0.00023721
  Jacobi stage: ITER:   52609 RES:  0.00022348
  Jacobi stage: ITER:   52999 RES:  0.00021055
  Jacobi stage: ITER:   53387 RES:  0.00019837
  Jacobi stage: ITER:   53771 RES:  0.00018701
  Jacobi stage: ITER:   54155 RES:   0.0001763
  Jacobi stage: ITER:   54541 RES:   0.0001661
  Jacobi stage: ITER:   54927 RES:  0.00015659
  Jacobi stage: ITER:   55311 RES:  0.00014762
  Jacobi stage: ITER:   55697 RES:  0.00013908
  Jacobi stage: ITER:   56083 RES:  0.00013111
  Jacobi stage: ITER:   56467 RES:   0.0001236
  Jacobi stage: ITER:   56883 RES:  0.00011595
  Jacobi stage: ITER:   57267 RES:  0.00010931
  Jacobi stage: ITER:   57653 RES:  0.00010298
  Jacobi stage: ITER:   58039 RES:  9.7086e-05
  Jacobi stage: ITER:   58423 RES:  9.1525e-05
  Jacobi stage: ITER:   58809 RES:  8.6229e-05
  Jacobi stage: ITER:   59193 RES:   8.129e-05
  Jacobi stage: ITER:   59579 RES:  7.6634e-05
  Jacobi stage: ITER:   59963 RES:  7.2245e-05
  Jacobi stage: ITER:   60349 RES:  6.8065e-05
  Jacobi stage: ITER:   60735 RES:  6.4167e-05
  Jacobi stage: ITER:   61119 RES:  6.0491e-05
  Jacobi stage: ITER:   61503 RES:  5.7026e-05
  Jacobi stage: ITER:   61889 RES:  5.3727e-05
  Jacobi stage: ITER:   62275 RES:   5.065e-05
  Jacobi stage: ITER:   62659 RES:  4.7749e-05
  Jacobi stage: ITER:   63045 RES:  4.4986e-05
  Jacobi stage: ITER:   63431 RES:  4.2409e-05
  Jacobi stage: ITER:   63815 RES:   3.998e-05
  Jacobi stage: ITER:   64199 RES:   3.769e-05
  Jacobi stage: ITER:   64585 RES:   3.551e-05
  Jacobi stage: ITER:   64971 RES:  3.3476e-05
  Jacobi stage: ITER:   65355 RES:  3.1558e-05
  Jacobi stage: ITER:   65741 RES:  2.9733e-05
  Jacobi stage: ITER:   66127 RES:   2.803e-05
  Jacobi stage: ITER:   66511 RES:  2.6424e-05
  Jacobi stage: ITER:   66895 RES:  2.4911e-05
  Jacobi stage: ITER:   67281 RES:  2.3469e-05
  Jacobi stage: ITER:   67667 RES:  2.2125e-05
  Jacobi stage: ITER:   68051 RES:  2.0858e-05
  Jacobi stage: ITER:   68437 RES:  1.9651e-05
  Jacobi stage: ITER:   68821 RES:  1.8526e-05
  Jacobi stage: ITER:   69207 RES:  1.7464e-05
  Jacobi stage: ITER:   69591 RES:  1.6464e-05
  Jacobi stage: ITER:   69977 RES:  1.5512e-05
  Jacobi stage: ITER:   70363 RES:  1.4623e-05
  Jacobi stage: ITER:   70747 RES:  1.3786e-05
  Jacobi stage: ITER:   71131 RES:  1.2996e-05
  Jacobi stage: ITER:   71517 RES:  1.2244e-05
  Jacobi stage: ITER:   71903 RES:  1.1543e-05
  Jacobi stage: ITER:   72287 RES:  1.0882e-05
  Jacobi stage: ITER:   72673 RES:  1.0252e-05
  Jacobi stage: ITER:   73059 RES:  9.6648e-06
  Jacobi stage: ITER:   73443 RES:  9.1113e-06
  Jacobi stage: ITER:   73827 RES:  8.5894e-06
  Jacobi stage: ITER:   74213 RES:  8.0925e-06
  Jacobi stage: ITER:   74599 RES:  7.6289e-06
  Jacobi stage: ITER:   74983 RES:   7.192e-06
  Jacobi stage: ITER:   75367 RES:    6.78e-06
  Jacobi stage: ITER:   75753 RES:  6.3878e-06
  Jacobi stage: ITER:   76139 RES:  6.0219e-06
  Jacobi stage: ITER:   76523 RES:   5.677e-06
  Jacobi stage: ITER:   76909 RES:  5.3485e-06
  Jacobi stage: ITER:   77293 RES:  5.0422e-06
  Jacobi stage: ITER:   77679 RES:  4.7534e-06
  Jacobi stage: ITER:   78063 RES:  4.4811e-06
  Jacobi stage: ITER:   78449 RES:  4.2219e-06
  Jacobi stage: ITER:   78835 RES:    3.98e-06
  Jacobi stage: ITER:   79219 RES:  3.7521e-06
  Jacobi stage: ITER:   79603 RES:  3.5372e-06
  Jacobi stage: ITER:   79989 RES:  3.3325e-06
  Jacobi stage: ITER:   80375 RES:  3.1416e-06
  Jacobi stage: ITER:   80759 RES:  2.9617e-06
  Jacobi stage: ITER:   81145 RES:  2.7903e-06
  Jacobi stage: ITER:   81529 RES:  2.6305e-06
  Jacobi stage: ITER:   81915 RES:  2.4799e-06
  Jacobi stage: ITER:   82299 RES:  2.3378e-06
  Jacobi stage: ITER:   82685 RES:  2.2026e-06
  Jacobi stage: ITER:   83071 RES:  2.0764e-06
  Jacobi stage: ITER:   83455 RES:  1.9575e-06
  Jacobi stage: ITER:   83839 RES:  1.8454e-06
  Jacobi stage: ITER:   84225 RES:  1.7386e-06
  Jacobi stage: ITER:   84611 RES:   1.639e-06
  Jacobi stage: ITER:   84995 RES:  1.5451e-06
  Jacobi stage: ITER:   85379 RES:  1.4566e-06
  Jacobi stage: ITER:   85765 RES:  1.3724e-06
  Jacobi stage: ITER:   86151 RES:  1.2937e-06
  Jacobi stage: ITER:   86535 RES:  1.2196e-06
  Jacobi stage: ITER:   86921 RES:  1.1491e-06
  Jacobi stage: ITER:   87305 RES:  1.0833e-06
  Jacobi stage: ITER:   87691 RES:  1.0212e-06
Vector x = [ 0.999999, 0.999999, 0.999998, 0.999999, 0.999999 ]

The following example shows how to employ timer (TNL::Timer) to the monitor of iterative solvers:

#include <iostream>
#include <memory>
#include <TNL/Timer.h>
#include <TNL/Matrices/SparseMatrix.h>
#include <TNL/Devices/Sequential.h>
#include <TNL/Devices/Cuda.h>
#include <TNL/Solvers/Linear/Jacobi.h>
 
template< typename Device >
void
iterativeLinearSolverExample()
{
   /***
    * Set the following matrix (dots represent zero matrix elements):
    *
    *   /  2.5 -1    .    .    .   \
    *   | -1    2.5 -1    .    .   |
    *   |  .   -1    2.5 -1.   .   |
    *   |  .    .   -1    2.5 -1   |
    *   \  .    .    .   -1    2.5 /
    */
   using MatrixType = TNL::Matrices::SparseMatrix< double, Device >;
   using Vector = TNL::Containers::Vector< double, Device >;
   const int size( 5 );
   auto matrix_ptr = std::make_shared< MatrixType >();
   matrix_ptr->setDimensions( size, size );
   matrix_ptr->setRowCapacities( Vector( { 2, 3, 3, 3, 2 } ) );
 
   auto f = [ = ] __cuda_callable__( typename MatrixType::RowView & row ) mutable
   {
      const int rowIdx = row.getRowIndex();
      if( rowIdx == 0 ) {
         row.setElement( 0, rowIdx, 2.5 );     // diagonal element
         row.setElement( 1, rowIdx + 1, -1 );  // element above the diagonal
      }
      else if( rowIdx == size - 1 ) {
         row.setElement( 0, rowIdx - 1, -1.0 );  // element below the diagonal
         row.setElement( 1, rowIdx, 2.5 );       // diagonal element
      }
      else {
         row.setElement( 0, rowIdx - 1, -1.0 );  // element below the diagonal
         row.setElement( 1, rowIdx, 2.5 );       // diagonal element
         row.setElement( 2, rowIdx + 1, -1.0 );  // element above the diagonal
      }
   };
 
   /***
    * Set the matrix elements.
    */
   matrix_ptr->forAllRows( f );
   std::cout << *matrix_ptr << '\n';
 
   /***
    * Set the right-hand side vector.
    */
   Vector x( size, 1.0 );
   Vector b( size );
   matrix_ptr->vectorProduct( x, b );
   x = 0.0;
   std::cout << "Vector b = " << b << '\n';
 
   /***
    * Setup solver of the linear system.
    */
   using LinearSolver = TNL::Solvers::Linear::Jacobi< MatrixType >;
   LinearSolver solver;
   solver.setMatrix( matrix_ptr );
   solver.setOmega( 0.0005 );
 
   /***
    * Setup monitor of the iterative solver.
    */
   using IterativeSolverMonitorType = TNL::Solvers::IterativeSolverMonitor< double >;
   IterativeSolverMonitorType monitor;
   TNL::Solvers::SolverMonitorThread mmonitorThread( monitor );
   monitor.setRefreshRate( 10 );  // refresh rate in milliseconds
   monitor.setVerbose( 1 );
   monitor.setStage( "Jacobi stage:" );
   TNL::Timer timer;
   monitor.setTimer( timer );
   timer.start();
   solver.setSolverMonitor( monitor );
   solver.setConvergenceResidue( 1.0e-6 );
   solver.solve( b, x );
   monitor.stopMainLoop();
   std::cout << "Vector x = " << x << '\n';
}
 
int
main( int argc, char* argv[] )
{
   std::cout << "Solving linear system on host:\n";
   iterativeLinearSolverExample< TNL::Devices::Sequential >();
 
#ifdef __CUDACC__
   std::cout << "Solving linear system on CUDA device:\n";
   iterativeLinearSolverExample< TNL::Devices::Cuda >();
#endif
}

The result looks as follows:

Solving linear system on host:
Row: 0 ->     0:2.5     1:-1  
Row: 1 ->     0:-1      1:2.5     2:-1  
Row: 2 ->     1:-1      2:2.5     3:-1  
Row: 3 ->     2:-1      3:2.5     4:-1  
Row: 4 ->     3:-1      4:2.5 
 
Vector b = [ 1.5, 0.5, 0.5, 0.5, 1.5 ]
 ELA:2.1019e-
 ELA: 0.10014  Jacobi stage: ITER:   51235 RES:  0.00027591
Vector x = [ 0.999999, 0.999999, 0.999998, 0.999999, 0.999999 ]
Solving linear system on CUDA device:
Row: 0 ->     0:2.5     1:-1  
Row: 1 ->     0:-1      1:2.5     2:-1  
Row: 2 ->     1:-1      2:2.5     3:-1  
Row: 3 ->     2:-1      3:2.5     4:-1  
Row: 4 ->     3:-1      4:2.5 
 
Vector b = [ 1.5, 0.5, 0.5, 0.5, 1.5 ]
 ELA:1.3746e-
 ELA: 0.10012  Jacobi stage: ITER:     585 RES:     0.82916
 ELA: 0.20025  Jacobi stage: ITER:    1199 RES:     0.70136
 ELA: 0.30038  Jacobi stage: ITER:    1813 RES:      0.6062
 ELA:  0.4005  Jacobi stage: ITER:    2415 RES:     0.53433
 ELA: 0.50062  Jacobi stage: ITER:    2921 RES:     0.48439
 ELA: 0.60077  Jacobi stage: ITER:    3331 RES:     0.44959
 ELA:  0.7009  Jacobi stage: ITER:    3737 RES:     0.41847
 ELA: 0.80126  Jacobi stage: ITER:    4143 RES:     0.39062
 ELA: 0.90139  Jacobi stage: ITER:    4547 RES:     0.36522
 ELA:  1.0015  Jacobi stage: ITER:    4955 RES:     0.34167
 ELA:  1.1016  Jacobi stage: ITER:    5361 RES:     0.31996
 ELA:  1.2017  Jacobi stage: ITER:    5771 RES:     0.29984
 ELA:  1.3019  Jacobi stage: ITER:    6179 RES:     0.28114
 ELA:   1.402  Jacobi stage: ITER:    6571 RES:     0.26439
 ELA:  1.5021  Jacobi stage: ITER:    6971 RES:     0.24839
 ELA:  1.6022  Jacobi stage: ITER:    7373 RES:     0.23327
 ELA:  1.7022  Jacobi stage: ITER:    7687 RES:     0.22226
 ELA:  1.8024  Jacobi stage: ITER:    7867 RES:     0.21615
 ELA:  1.9025  Jacobi stage: ITER:    8047 RES:     0.21022
 ELA:  2.0026  Jacobi stage: ITER:    8221 RES:     0.20457
 ELA:  2.1028  Jacobi stage: ITER:    8395 RES:     0.19921
 ELA:  2.2029  Jacobi stage: ITER:    8573 RES:     0.19375
 ELA:   2.303  Jacobi stage: ITER:    8755 RES:     0.18845
 ELA:  2.4031  Jacobi stage: ITER:    8939 RES:     0.18318
 ELA:  2.5033  Jacobi stage: ITER:    9115 RES:     0.17817
 ELA:  2.6043  Jacobi stage: ITER:    9295 RES:      0.1734
 ELA:  2.7053  Jacobi stage: ITER:    9469 RES:     0.16876
 ELA:  2.8054  Jacobi stage: ITER:    9651 RES:     0.16415
 ELA:  2.9055  Jacobi stage: ITER:    9831 RES:     0.15967
 ELA:  3.0056  Jacobi stage: ITER:   10217 RES:     0.15041
 ELA:  3.1057  Jacobi stage: ITER:   10629 RES:     0.14118
 ELA:  3.2058  Jacobi stage: ITER:   11043 RES:     0.13251
 ELA:  3.3059  Jacobi stage: ITER:   11453 RES:     0.12438
 ELA:   3.406  Jacobi stage: ITER:   11859 RES:     0.11689
 ELA:  3.5061  Jacobi stage: ITER:   12275 RES:     0.10965
 ELA:  3.6062  Jacobi stage: ITER:   12691 RES:     0.10287
 ELA:  3.7064  Jacobi stage: ITER:   13107 RES:    0.096497
 ELA:  3.8065  Jacobi stage: ITER:   13501 RES:    0.090801
 ELA:  3.9066  Jacobi stage: ITER:   13897 RES:    0.085442
 ELA:  4.0067  Jacobi stage: ITER:   14307 RES:    0.080251
 ELA:  4.1069  Jacobi stage: ITER:   14731 RES:    0.075191
 ELA:   4.207  Jacobi stage: ITER:   15147 RES:    0.070536
 ELA:  4.3071  Jacobi stage: ITER:   15567 RES:    0.066129
 ELA:  4.4073  Jacobi stage: ITER:   15975 RES:    0.062112
 ELA:  4.5074  Jacobi stage: ITER:   16377 RES:    0.058375
 ELA:  4.6081  Jacobi stage: ITER:   16783 RES:    0.054862
 ELA:  4.7082  Jacobi stage: ITER:   17195 RES:    0.051498
 ELA:  4.8084  Jacobi stage: ITER:   17609 RES:     0.04831
 ELA:  4.9085  Jacobi stage: ITER:   18011 RES:    0.045431
 ELA:  5.0086  Jacobi stage: ITER:   18399 RES:    0.042803
 ELA:  5.1087  Jacobi stage: ITER:   18803 RES:    0.040228
 ELA:  5.2089  Jacobi stage: ITER:   19191 RES:      0.0379
 ELA:   5.309  Jacobi stage: ITER:   19597 RES:    0.035598
 ELA:  5.4091  Jacobi stage: ITER:   20007 RES:    0.033435
 ELA:  5.5093  Jacobi stage: ITER:   20415 RES:    0.031404
 ELA:  5.6094  Jacobi stage: ITER:   20827 RES:    0.029478
 ELA:  5.7095  Jacobi stage: ITER:   21237 RES:    0.027671
 ELA:  5.8103  Jacobi stage: ITER:   21645 RES:     0.02599
 ELA:  5.9104  Jacobi stage: ITER:   22051 RES:    0.024426
 ELA:  6.0105  Jacobi stage: ITER:   22451 RES:    0.022971
 ELA:  6.1106  Jacobi stage: ITER:   22865 RES:    0.021549
 ELA:  6.2107  Jacobi stage: ITER:   23285 RES:    0.020202
 ELA:  6.3108  Jacobi stage: ITER:   23691 RES:    0.018987
 ELA:  6.4109  Jacobi stage: ITER:   24087 RES:    0.017866
 ELA:  6.5111  Jacobi stage: ITER:   24483 RES:    0.016812
 ELA:  6.6112  Jacobi stage: ITER:   24891 RES:    0.015791
 ELA:  6.7113  Jacobi stage: ITER:   25299 RES:    0.014832
 ELA:  6.8114  Jacobi stage: ITER:   25713 RES:    0.013913
 ELA:  6.9115  Jacobi stage: ITER:   26127 RES:     0.01306
 ELA:  7.0117  Jacobi stage: ITER:   26535 RES:    0.012267
 ELA:  7.1118  Jacobi stage: ITER:   26939 RES:    0.011529
 ELA:  7.2119  Jacobi stage: ITER:   27335 RES:    0.010848
 ELA:   7.312  Jacobi stage: ITER:   27743 RES:    0.010189
 ELA:  7.4121  Jacobi stage: ITER:   28139 RES:   0.0095881
 ELA:  7.5123  Jacobi stage: ITER:   28555 RES:   0.0089946
 ELA:  7.6124  Jacobi stage: ITER:   28957 RES:   0.0084534
 ELA:  7.7125  Jacobi stage: ITER:   29343 RES:   0.0079692
 ELA:  7.8126  Jacobi stage: ITER:   29729 RES:   0.0075082
 ELA:  7.9128  Jacobi stage: ITER:   30113 RES:   0.0070781
 ELA:  8.0129  Jacobi stage: ITER:   30499 RES:   0.0066727
 ELA:   8.113  Jacobi stage: ITER:   30883 RES:   0.0062905
 ELA:  8.2131  Jacobi stage: ITER:   31269 RES:   0.0059266
 ELA:  8.3133  Jacobi stage: ITER:   31655 RES:   0.0055871
 ELA:  8.4134  Jacobi stage: ITER:   32039 RES:   0.0052671
 ELA:  8.5135  Jacobi stage: ITER:   32425 RES:   0.0049624
 ELA:  8.6136  Jacobi stage: ITER:   32811 RES:   0.0046781
 ELA:  8.7138  Jacobi stage: ITER:   33195 RES:   0.0044102
 ELA:  8.8139  Jacobi stage: ITER:   33579 RES:   0.0041576
 ELA:  8.9143  Jacobi stage: ITER:   33967 RES:    0.003917
 ELA:  9.0144  Jacobi stage: ITER:   34337 RES:   0.0036995
 ELA:  9.1145  Jacobi stage: ITER:   34723 RES:   0.0034876
 ELA:  9.2146  Jacobi stage: ITER:   35107 RES:   0.0032878
 ELA:  9.3147  Jacobi stage: ITER:   35493 RES:   0.0030976
 ELA:  9.4148  Jacobi stage: ITER:   35877 RES:   0.0029202
 ELA:  9.5149  Jacobi stage: ITER:   36263 RES:   0.0027529
 ELA:   9.615  Jacobi stage: ITER:   36647 RES:   0.0025953
 ELA:  9.7151  Jacobi stage: ITER:   37031 RES:   0.0024466
 ELA:  9.8152  Jacobi stage: ITER:   37417 RES:   0.0023051
 ELA:  9.9153  Jacobi stage: ITER:   37803 RES:    0.002173
 ELA:  10.015  Jacobi stage: ITER:   38187 RES:   0.0020486
 ELA:  10.115  Jacobi stage: ITER:   38573 RES:     0.00193
 ELA:  10.216  Jacobi stage: ITER:   38957 RES:   0.0018195
 ELA:  10.316  Jacobi stage: ITER:   39343 RES:   0.0017153
 ELA:  10.416  Jacobi stage: ITER:   39727 RES:    0.001617
 ELA:  10.516  Jacobi stage: ITER:   40113 RES:   0.0015235
 ELA:  10.616  Jacobi stage: ITER:   40499 RES:   0.0014362
 ELA:  10.716  Jacobi stage: ITER:   40883 RES:    0.001354
 ELA:  10.816  Jacobi stage: ITER:   41267 RES:   0.0012764
 ELA:  10.916  Jacobi stage: ITER:   41653 RES:   0.0012026
 ELA:  11.016  Jacobi stage: ITER:   42039 RES:   0.0011337
 ELA:  11.116  Jacobi stage: ITER:   42423 RES:   0.0010687
 ELA:  11.217  Jacobi stage: ITER:   42807 RES:   0.0010075
 ELA:  11.317  Jacobi stage: ITER:   43193 RES:  0.00094923
 ELA:  11.417  Jacobi stage: ITER:   43579 RES:  0.00089486
 ELA:  11.517  Jacobi stage: ITER:   43963 RES:  0.00084361
 ELA:  11.617  Jacobi stage: ITER:   44347 RES:  0.00079529
 ELA:  11.717  Jacobi stage: ITER:   44733 RES:  0.00074928
 ELA:  11.817  Jacobi stage: ITER:   45119 RES:  0.00070636
 ELA:  11.917  Jacobi stage: ITER:   45503 RES:   0.0006659
 ELA:  12.017  Jacobi stage: ITER:   45893 RES:  0.00062699
 ELA:  12.118  Jacobi stage: ITER:   46281 RES:  0.00059071
 ELA:  12.218  Jacobi stage: ITER:   46667 RES:  0.00055688
 ELA:  12.318  Jacobi stage: ITER:   47057 RES:  0.00052434
 ELA:  12.418  Jacobi stage: ITER:   47443 RES:  0.00049431
 ELA:  12.518  Jacobi stage: ITER:   47833 RES:  0.00046542
 ELA:  12.618  Jacobi stage: ITER:   48217 RES:  0.00043876
 ELA:  12.718  Jacobi stage: ITER:   48609 RES:  0.00041312
 ELA:  12.818  Jacobi stage: ITER:   48993 RES:  0.00038946
 ELA:  12.919  Jacobi stage: ITER:   49383 RES:  0.00036693
 ELA:  13.019  Jacobi stage: ITER:   49769 RES:   0.0003457
 ELA:  13.119  Jacobi stage: ITER:   50155 RES:   0.0003259
 ELA:  13.219  Jacobi stage: ITER:   50539 RES:  0.00030723
 ELA:  13.319  Jacobi stage: ITER:   50927 RES:  0.00028946
 ELA:  13.419  Jacobi stage: ITER:   51315 RES:  0.00027271
 ELA:  13.519  Jacobi stage: ITER:   51699 RES:  0.00025709
 ELA:  13.619  Jacobi stage: ITER:   52087 RES:  0.00024222
 ELA:  13.719  Jacobi stage: ITER:   52477 RES:  0.00022806
 ELA:   13.82  Jacobi stage: ITER:   52863 RES:    0.000215
 ELA:   13.92  Jacobi stage: ITER:   53247 RES:  0.00020268
 ELA:   14.02  Jacobi stage: ITER:   53633 RES:  0.00019096
 ELA:   14.12  Jacobi stage: ITER:   54017 RES:  0.00018002
 ELA:   14.22  Jacobi stage: ITER:   54401 RES:  0.00016971
 ELA:   14.32  Jacobi stage: ITER:   54787 RES:  0.00015999
 ELA:   14.42  Jacobi stage: ITER:   55171 RES:  0.00015083
 ELA:   14.52  Jacobi stage: ITER:   55557 RES:   0.0001421
 ELA:   14.62  Jacobi stage: ITER:   55943 RES:  0.00013396
 ELA:   14.72  Jacobi stage: ITER:   56327 RES:  0.00012629
 ELA:   14.82  Jacobi stage: ITER:   56711 RES:  0.00011905
 ELA:   14.92  Jacobi stage: ITER:   57097 RES:  0.00011217
 ELA:   15.02  Jacobi stage: ITER:   57481 RES:  0.00010574
 ELA:  15.121  Jacobi stage: ITER:   57867 RES:  9.9685e-05
 ELA:  15.221  Jacobi stage: ITER:   58251 RES:  9.3975e-05
 ELA:  15.321  Jacobi stage: ITER:   58635 RES:  8.8592e-05
 ELA:  15.421  Jacobi stage: ITER:   59021 RES:  8.3467e-05
 ELA:  15.521  Jacobi stage: ITER:   59407 RES:  7.8686e-05
 ELA:  15.621  Jacobi stage: ITER:   59791 RES:  7.4179e-05
 ELA:  15.721  Jacobi stage: ITER:   60175 RES:   6.993e-05
 ELA:  15.821  Jacobi stage: ITER:   60561 RES:  6.5884e-05
 ELA:  15.921  Jacobi stage: ITER:   60947 RES:  6.2111e-05
 ELA:  16.021  Jacobi stage: ITER:   61331 RES:  5.8553e-05
 ELA:  16.121  Jacobi stage: ITER:   61715 RES:  5.5199e-05
 ELA:  16.221  Jacobi stage: ITER:   62101 RES:  5.2006e-05
 ELA:  16.321  Jacobi stage: ITER:   62485 RES:  4.9027e-05
 ELA:  16.421  Jacobi stage: ITER:   62871 RES:  4.6219e-05
 ELA:  16.521  Jacobi stage: ITER:   63255 RES:  4.3572e-05
 ELA:  16.621  Jacobi stage: ITER:   63639 RES:  4.1076e-05
 ELA:  16.721  Jacobi stage: ITER:   64025 RES:  3.8699e-05
 ELA:  16.821  Jacobi stage: ITER:   64411 RES:  3.6483e-05
 ELA:  16.922  Jacobi stage: ITER:   64795 RES:  3.4393e-05
 ELA:  17.022  Jacobi stage: ITER:   65181 RES:  3.2403e-05
 ELA:  17.122  Jacobi stage: ITER:   65565 RES:  3.0547e-05
 ELA:  17.222  Jacobi stage: ITER:   65951 RES:  2.8798e-05
 ELA:  17.322  Jacobi stage: ITER:   66335 RES:  2.7148e-05
 ELA:  17.422  Jacobi stage: ITER:   66719 RES:  2.5593e-05
 ELA:  17.522  Jacobi stage: ITER:   67105 RES:  2.4113e-05
 ELA:  17.622  Jacobi stage: ITER:   67491 RES:  2.2731e-05
 ELA:  17.722  Jacobi stage: ITER:   67875 RES:  2.1429e-05
 ELA:  17.822  Jacobi stage: ITER:   68259 RES:  2.0202e-05
 ELA:  17.922  Jacobi stage: ITER:   68645 RES:  1.9033e-05
 ELA:  18.022  Jacobi stage: ITER:   69031 RES:  1.7943e-05
 ELA:  18.122  Jacobi stage: ITER:   69415 RES:  1.6915e-05
 ELA:  18.222  Jacobi stage: ITER:   69801 RES:  1.5937e-05
 ELA:  18.322  Jacobi stage: ITER:   70185 RES:  1.5024e-05
 ELA:  18.423  Jacobi stage: ITER:   70571 RES:  1.4163e-05
 ELA:  18.523  Jacobi stage: ITER:   70955 RES:  1.3352e-05
 ELA:  18.623  Jacobi stage: ITER:   71341 RES:   1.258e-05
 ELA:  18.723  Jacobi stage: ITER:   71725 RES:  1.1859e-05
 ELA:  18.823  Jacobi stage: ITER:   72111 RES:   1.118e-05
 ELA:  18.923  Jacobi stage: ITER:   72495 RES:  1.0539e-05
 ELA:  19.023  Jacobi stage: ITER:   72881 RES:  9.9297e-06
 ELA:  19.123  Jacobi stage: ITER:   73267 RES:  9.3609e-06
 ELA:  19.223  Jacobi stage: ITER:   73651 RES:  8.8248e-06
 ELA:  19.323  Jacobi stage: ITER:   74035 RES:  8.3193e-06
 ELA:  19.424  Jacobi stage: ITER:   74421 RES:   7.838e-06
 ELA:  19.524  Jacobi stage: ITER:   74807 RES:  7.3891e-06
 ELA:  19.624  Jacobi stage: ITER:   75191 RES:  6.9658e-06
 ELA:  19.724  Jacobi stage: ITER:   75577 RES:  6.5628e-06
 ELA:  19.824  Jacobi stage: ITER:   75961 RES:  6.1869e-06
 ELA:  19.924  Jacobi stage: ITER:   76347 RES:  5.8325e-06
 ELA:  20.024  Jacobi stage: ITER:   76731 RES:  5.4985e-06
 ELA:  20.124  Jacobi stage: ITER:   77117 RES:  5.1804e-06
 ELA:  20.224  Jacobi stage: ITER:   77503 RES:  4.8836e-06
 ELA:  20.324  Jacobi stage: ITER:   77887 RES:  4.6039e-06
 ELA:  20.425  Jacobi stage: ITER:   78273 RES:  4.3375e-06
 ELA:  20.525  Jacobi stage: ITER:   78659 RES:  4.0891e-06
 ELA:  20.625  Jacobi stage: ITER:   79043 RES:  3.8549e-06
 ELA:  20.725  Jacobi stage: ITER:   79427 RES:  3.6341e-06
 ELA:  20.825  Jacobi stage: ITER:   79813 RES:  3.4238e-06
 ELA:  20.925  Jacobi stage: ITER:   80199 RES:  3.2277e-06
 ELA:  21.025  Jacobi stage: ITER:   80583 RES:  3.0429e-06
 ELA:  21.125  Jacobi stage: ITER:   80969 RES:  2.8668e-06
 ELA:  21.225  Jacobi stage: ITER:   81353 RES:  2.7026e-06
 ELA:  21.325  Jacobi stage: ITER:   81739 RES:  2.5478e-06
 ELA:  21.426  Jacobi stage: ITER:   82123 RES:  2.4019e-06
 ELA:  21.526  Jacobi stage: ITER:   82509 RES:  2.2629e-06
 ELA:  21.626  Jacobi stage: ITER:   82895 RES:  2.1333e-06
 ELA:  21.726  Jacobi stage: ITER:   83279 RES:  2.0111e-06
 ELA:  21.826  Jacobi stage: ITER:   83663 RES:  1.8959e-06
 ELA:  21.926  Jacobi stage: ITER:   84049 RES:  1.7862e-06
 ELA:  22.026  Jacobi stage: ITER:   84435 RES:  1.6839e-06
 ELA:  22.126  Jacobi stage: ITER:   84819 RES:  1.5875e-06
 ELA:  22.226  Jacobi stage: ITER:   85205 RES:  1.4956e-06
 ELA:  22.327  Jacobi stage: ITER:   85591 RES:    1.41e-06
 ELA:  22.427  Jacobi stage: ITER:   85975 RES:  1.3292e-06
 ELA:  22.527  Jacobi stage: ITER:   86359 RES:  1.2531e-06
 ELA:  22.627  Jacobi stage: ITER:   86745 RES:  1.1806e-06
 ELA:  22.727  Jacobi stage: ITER:   87131 RES:  1.1129e-06
 ELA:  22.827  Jacobi stage: ITER:   87637 RES:  1.0294e-06
Vector x = [ 0.999999, 0.999999, 0.999998, 0.999999, 0.999999 ]

Member Function Documentation

refresh()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::refresh ( )

overridevirtual

Causes that the monitor prints out the status of the solver.

Implements TNL::Solvers::SolverMonitor.

setIterations()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setIterations

(

const IndexType &

iterations

)

Set number of the current iteration.

Parameters

iterations

is number of the current iteration.

setNodesPerIteration()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setNodesPerIteration

(

const IndexType &

nodes

)

Set the number of nodes of the numerical mesh or lattice.

This can be used to compute the number of nodes processed per one second.

Parameters

nodes

is number of nodes of the numerical mesh or lattice.

setResidue()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setResidue

(

const RealType &

residue

)

Set residue of the current approximation of the solution.

Parameters

residue

is a residue of the current approximation of the solution.

setStage()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setStage

(

const std::string &

stage

)

This method can be used for naming a stage of the monitored solver.

The stage name can be used to differ between various stages of iterative solvers.

Parameters

stage

is name of the solver stage.

setTime()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setTime

(

const RealType &

time

)

Set the time of the simulated evolution if it is time dependent.

This can be used for example when solving parabolic or hyperbolic PDEs.

Parameters

time	time of the simulated evolution.

setTimeStep()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setTimeStep

(

const RealType &

timeStep

)

Set the time step for time dependent iterative solvers.

Parameters

timeStep

time step of the time dependent iterative solver.

setVerbose()

template<typename Real = double>

void TNL::Solvers::IterativeSolverMonitor< Real >::setVerbose

(

const IndexType &

verbose

)

Set up the verbosity of the monitor.

Parameters

verbose

is the new value of the verbosity of the monitor.

---

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

• src/TNL/Solvers/IterativeSolverMonitor.h