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:   46727 RES:  0.00055143
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:    4961 RES:     0.34123
  Jacobi stage: ITER:    6747 RES:     0.25722
  Jacobi stage: ITER:    7203 RES:     0.23959
  Jacobi stage: ITER:    7667 RES:     0.22295
  Jacobi stage: ITER:    8131 RES:      0.2075
  Jacobi stage: ITER:    8575 RES:     0.19375
  Jacobi stage: ITER:    9031 RES:      0.1806
  Jacobi stage: ITER:    9497 RES:     0.16804
  Jacobi stage: ITER:    9945 RES:     0.15684
  Jacobi stage: ITER:   10405 RES:     0.14613
  Jacobi stage: ITER:   10871 RES:     0.13606
  Jacobi stage: ITER:   11331 RES:     0.12677
  Jacobi stage: ITER:   11781 RES:     0.11827
  Jacobi stage: ITER:   12219 RES:      0.1106
  Jacobi stage: ITER:   12689 RES:     0.10287
  Jacobi stage: ITER:   13155 RES:    0.095788
  Jacobi stage: ITER:   13615 RES:    0.089252
  Jacobi stage: ITER:   14069 RES:    0.083214
  Jacobi stage: ITER:   14531 RES:    0.077537
  Jacobi stage: ITER:   14909 RES:     0.07314
  Jacobi stage: ITER:   15183 RES:    0.070147
  Jacobi stage: ITER:   15455 RES:    0.067277
  Jacobi stage: ITER:   15737 RES:    0.064405
  Jacobi stage: ITER:   16027 RES:    0.061618
  Jacobi stage: ITER:   16307 RES:    0.059024
  Jacobi stage: ITER:   16591 RES:    0.056505
  Jacobi stage: ITER:   16871 RES:    0.054126
  Jacobi stage: ITER:   17245 RES:    0.051088
  Jacobi stage: ITER:   17695 RES:    0.047691
  Jacobi stage: ITER:   18147 RES:    0.044492
  Jacobi stage: ITER:   18603 RES:    0.041483
  Jacobi stage: ITER:   19069 RES:    0.038605
  Jacobi stage: ITER:   19535 RES:    0.035949
  Jacobi stage: ITER:   19999 RES:    0.033476
  Jacobi stage: ITER:   20443 RES:     0.03127
  Jacobi stage: ITER:   20883 RES:    0.029226
  Jacobi stage: ITER:   21351 RES:    0.027199
  Jacobi stage: ITER:   21817 RES:    0.025312
  Jacobi stage: ITER:   22283 RES:    0.023571
  Jacobi stage: ITER:   22751 RES:    0.021936
  Jacobi stage: ITER:   23227 RES:    0.020389
  Jacobi stage: ITER:   23639 RES:    0.019139
  Jacobi stage: ITER:   24099 RES:    0.017833
  Jacobi stage: ITER:   24565 RES:    0.016596
  Jacobi stage: ITER:   25027 RES:    0.015464
  Jacobi stage: ITER:   25453 RES:     0.01448
  Jacobi stage: ITER:   25893 RES:    0.013534
  Jacobi stage: ITER:   26333 RES:     0.01265
  Jacobi stage: ITER:   26773 RES:    0.011823
  Jacobi stage: ITER:   27213 RES:     0.01105
  Jacobi stage: ITER:   27653 RES:    0.010328
  Jacobi stage: ITER:   28093 RES:   0.0096531
  Jacobi stage: ITER:   28533 RES:   0.0090223
  Jacobi stage: ITER:   28973 RES:   0.0084327
  Jacobi stage: ITER:   29413 RES:   0.0078816
  Jacobi stage: ITER:   29853 RES:   0.0073665
  Jacobi stage: ITER:   30293 RES:   0.0068851
  Jacobi stage: ITER:   30733 RES:   0.0064352
  Jacobi stage: ITER:   31173 RES:   0.0060146
  Jacobi stage: ITER:   31613 RES:   0.0056215
  Jacobi stage: ITER:   32053 RES:   0.0052542
  Jacobi stage: ITER:   32491 RES:   0.0049138
  Jacobi stage: ITER:   32931 RES:   0.0045927
  Jacobi stage: ITER:   33371 RES:   0.0042926
  Jacobi stage: ITER:   33811 RES:    0.004012
  Jacobi stage: ITER:   34249 RES:   0.0037498
  Jacobi stage: ITER:   34689 RES:   0.0035048
  Jacobi stage: ITER:   35129 RES:   0.0032757
  Jacobi stage: ITER:   35567 RES:   0.0030635
  Jacobi stage: ITER:   36007 RES:   0.0028633
  Jacobi stage: ITER:   36447 RES:   0.0026762
  Jacobi stage: ITER:   36887 RES:   0.0025013
  Jacobi stage: ITER:   37327 RES:   0.0023379
  Jacobi stage: ITER:   37765 RES:   0.0021851
  Jacobi stage: ITER:   38205 RES:   0.0020423
  Jacobi stage: ITER:   38647 RES:   0.0019088
  Jacobi stage: ITER:   39087 RES:   0.0017841
  Jacobi stage: ITER:   39527 RES:   0.0016675
  Jacobi stage: ITER:   39967 RES:   0.0015585
  Jacobi stage: ITER:   40409 RES:   0.0014558
  Jacobi stage: ITER:   40851 RES:   0.0013606
  Jacobi stage: ITER:   41291 RES:   0.0012717
  Jacobi stage: ITER:   41731 RES:   0.0011886
  Jacobi stage: ITER:   42171 RES:   0.0011109
  Jacobi stage: ITER:   42611 RES:   0.0010383
  Jacobi stage: ITER:   43051 RES:  0.00097046
  Jacobi stage: ITER:   43491 RES:  0.00090704
  Jacobi stage: ITER:   43931 RES:  0.00084777
  Jacobi stage: ITER:   44373 RES:  0.00079188
  Jacobi stage: ITER:   44811 RES:  0.00074058
  Jacobi stage: ITER:   45253 RES:  0.00069176
  Jacobi stage: ITER:   45693 RES:  0.00064655
  Jacobi stage: ITER:   46135 RES:   0.0006043
  Jacobi stage: ITER:   46573 RES:  0.00056481
  Jacobi stage: ITER:   47013 RES:  0.00052789
  Jacobi stage: ITER:   47455 RES:   0.0004934
  Jacobi stage: ITER:   47895 RES:  0.00046115
  Jacobi stage: ITER:   48331 RES:  0.00043128
  Jacobi stage: ITER:   48771 RES:  0.00040309
  Jacobi stage: ITER:   49211 RES:  0.00037675
  Jacobi stage: ITER:   49651 RES:  0.00035213
  Jacobi stage: ITER:   50089 RES:  0.00032912
  Jacobi stage: ITER:   50527 RES:   0.0003078
  Jacobi stage: ITER:   50967 RES:  0.00028768
  Jacobi stage: ITER:   51407 RES:  0.00026888
  Jacobi stage: ITER:   51845 RES:  0.00025131
  Jacobi stage: ITER:   52285 RES:  0.00023489
  Jacobi stage: ITER:   52723 RES:  0.00021967
  Jacobi stage: ITER:   53163 RES:  0.00020532
  Jacobi stage: ITER:   53601 RES:   0.0001919
  Jacobi stage: ITER:   54039 RES:  0.00017947
  Jacobi stage: ITER:   54479 RES:  0.00016774
  Jacobi stage: ITER:   54915 RES:  0.00015687
  Jacobi stage: ITER:   55355 RES:  0.00014662
  Jacobi stage: ITER:   55795 RES:  0.00013704
  Jacobi stage: ITER:   56233 RES:  0.00012808
  Jacobi stage: ITER:   56671 RES:  0.00011979
  Jacobi stage: ITER:   57109 RES:  0.00011196
  Jacobi stage: ITER:   57547 RES:  0.00010471
  Jacobi stage: ITER:   57987 RES:  9.7864e-05
  Jacobi stage: ITER:   58425 RES:  9.1469e-05
  Jacobi stage: ITER:   58863 RES:  8.5543e-05
  Jacobi stage: ITER:   59303 RES:  7.9953e-05
  Jacobi stage: ITER:   59741 RES:  7.4728e-05
  Jacobi stage: ITER:   60179 RES:  6.9887e-05
  Jacobi stage: ITER:   60619 RES:   6.532e-05
  Jacobi stage: ITER:   61057 RES:  6.1051e-05
  Jacobi stage: ITER:   61495 RES:  5.7097e-05
  Jacobi stage: ITER:   61935 RES:  5.3365e-05
  Jacobi stage: ITER:   62373 RES:  4.9878e-05
  Jacobi stage: ITER:   62811 RES:  4.6647e-05
  Jacobi stage: ITER:   63251 RES:  4.3598e-05
  Jacobi stage: ITER:   63689 RES:  4.0749e-05
  Jacobi stage: ITER:   64127 RES:   3.811e-05
  Jacobi stage: ITER:   64567 RES:  3.5619e-05
  Jacobi stage: ITER:   65003 RES:  3.3312e-05
  Jacobi stage: ITER:   65443 RES:  3.1135e-05
  Jacobi stage: ITER:   65881 RES:    2.91e-05
  Jacobi stage: ITER:   66319 RES:  2.7215e-05
  Jacobi stage: ITER:   66759 RES:  2.5437e-05
  Jacobi stage: ITER:   67195 RES:  2.3789e-05
  Jacobi stage: ITER:   67635 RES:  2.2234e-05
  Jacobi stage: ITER:   68073 RES:  2.0781e-05
  Jacobi stage: ITER:   68503 RES:  1.9459e-05
  Jacobi stage: ITER:   68943 RES:  1.8187e-05
  Jacobi stage: ITER:   69381 RES:  1.6999e-05
  Jacobi stage: ITER:   69819 RES:  1.5898e-05
  Jacobi stage: ITER:   70259 RES:  1.4859e-05
  Jacobi stage: ITER:   70697 RES:  1.3888e-05
  Jacobi stage: ITER:   71135 RES:  1.2988e-05
  Jacobi stage: ITER:   71575 RES:  1.2139e-05
  Jacobi stage: ITER:   72013 RES:  1.1346e-05
  Jacobi stage: ITER:   72451 RES:  1.0611e-05
  Jacobi stage: ITER:   72891 RES:  9.9175e-06
  Jacobi stage: ITER:   73329 RES:  9.2694e-06
  Jacobi stage: ITER:   73767 RES:  8.6689e-06
  Jacobi stage: ITER:   74207 RES:  8.1024e-06
  Jacobi stage: ITER:   74645 RES:  7.5729e-06
  Jacobi stage: ITER:   75083 RES:  7.0824e-06
  Jacobi stage: ITER:   75523 RES:  6.6195e-06
  Jacobi stage: ITER:   75961 RES:  6.1869e-06
  Jacobi stage: ITER:   76399 RES:  5.7861e-06
  Jacobi stage: ITER:   76839 RES:   5.408e-06
  Jacobi stage: ITER:   77275 RES:  5.0577e-06
  Jacobi stage: ITER:   77715 RES:  4.7272e-06
  Jacobi stage: ITER:   78153 RES:  4.4182e-06
  Jacobi stage: ITER:   78591 RES:   4.132e-06
  Jacobi stage: ITER:   79029 RES:   3.862e-06
  Jacobi stage: ITER:   79467 RES:  3.6118e-06
  Jacobi stage: ITER:   79907 RES:  3.3758e-06
  Jacobi stage: ITER:   80345 RES:  3.1552e-06
  Jacobi stage: ITER:   80783 RES:  2.9508e-06
  Jacobi stage: ITER:   81223 RES:   2.758e-06
  Jacobi stage: ITER:   81661 RES:  2.5777e-06
  Jacobi stage: ITER:   82099 RES:  2.4107e-06
  Jacobi stage: ITER:   82537 RES:  2.2532e-06
  Jacobi stage: ITER:   82975 RES:  2.1072e-06
  Jacobi stage: ITER:   83415 RES:  1.9695e-06
  Jacobi stage: ITER:   83853 RES:  1.8408e-06
  Jacobi stage: ITER:   84291 RES:  1.7216e-06
  Jacobi stage: ITER:   84729 RES:  1.6091e-06
  Jacobi stage: ITER:   85167 RES:  1.5048e-06
  Jacobi stage: ITER:   85605 RES:  1.4065e-06
  Jacobi stage: ITER:   86043 RES:  1.3154e-06
  Jacobi stage: ITER:   86483 RES:  1.2294e-06
  Jacobi stage: ITER:   86921 RES:  1.1491e-06
  Jacobi stage: ITER:   87359 RES:  1.0746e-06
  Jacobi stage: ITER:   87797 RES:  1.0044e-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:1.447e-0
 ELA:  0.1001  Jacobi stage: ITER:   48341 RES:  0.00043049
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:1.177e-0
 ELA: 0.10011  Jacobi stage: ITER:     459 RES:     0.86172
 ELA:  0.2002  Jacobi stage: ITER:     923 RES:     0.75394
 ELA:  0.3003  Jacobi stage: ITER:    1383 RES:     0.67008
 ELA: 0.40041  Jacobi stage: ITER:    1831 RES:     0.60406
 ELA: 0.50059  Jacobi stage: ITER:    2279 RES:     0.54923
 ELA: 0.60072  Jacobi stage: ITER:    2729 RES:      0.5023
 ELA: 0.70081  Jacobi stage: ITER:    3185 RES:     0.46141
 ELA:  0.8009  Jacobi stage: ITER:    3629 RES:     0.42639
 ELA: 0.90099  Jacobi stage: ITER:    4091 RES:     0.39405
 ELA:  1.0011  Jacobi stage: ITER:    4553 RES:     0.36474
 ELA:  1.1012  Jacobi stage: ITER:    5001 RES:     0.33903
 ELA:  1.2013  Jacobi stage: ITER:    5435 RES:      0.3163
 ELA:  1.3014  Jacobi stage: ITER:    5895 RES:     0.29402
 ELA:  1.4014  Jacobi stage: ITER:    6353 RES:     0.27348
 ELA:  1.5015  Jacobi stage: ITER:    6813 RES:      0.2545
 ELA:  1.6016  Jacobi stage: ITER:    7271 RES:     0.23707
 ELA:  1.7017  Jacobi stage: ITER:    7727 RES:     0.22088
 ELA:  1.8018  Jacobi stage: ITER:    8175 RES:      0.2061
 ELA:  1.9019  Jacobi stage: ITER:    8447 RES:     0.19762
 ELA:   2.002  Jacobi stage: ITER:    8707 RES:     0.18985
 ELA:  2.1021  Jacobi stage: ITER:    8979 RES:     0.18205
 ELA:  2.2022  Jacobi stage: ITER:    9263 RES:     0.17426
 ELA:  2.3023  Jacobi stage: ITER:    9543 RES:      0.1669
 ELA:  2.4024  Jacobi stage: ITER:    9823 RES:     0.15986
 ELA:  2.5025  Jacobi stage: ITER:   10103 RES:     0.15312
 ELA:  2.6025  Jacobi stage: ITER:   10411 RES:     0.14604
 ELA:  2.7026  Jacobi stage: ITER:   10861 RES:     0.13623
 ELA:  2.8027  Jacobi stage: ITER:   11311 RES:     0.12716
 ELA:  2.9028  Jacobi stage: ITER:   11765 RES:     0.11856
 ELA:  3.0029  Jacobi stage: ITER:   12219 RES:      0.1106
 ELA:  3.1029  Jacobi stage: ITER:   12683 RES:     0.10299
 ELA:   3.203  Jacobi stage: ITER:   13147 RES:    0.095906
 ELA:  3.3031  Jacobi stage: ITER:   13607 RES:    0.089362
 ELA:  3.4032  Jacobi stage: ITER:   14023 RES:     0.08383
 ELA:  3.5033  Jacobi stage: ITER:   14473 RES:    0.078207
 ELA:  3.6034  Jacobi stage: ITER:   14935 RES:    0.072871
 ELA:  3.7035  Jacobi stage: ITER:   15405 RES:    0.067775
 ELA:  3.8035  Jacobi stage: ITER:   15867 RES:    0.063151
 ELA:  3.9036  Jacobi stage: ITER:   16339 RES:    0.058735
 ELA:  4.0037  Jacobi stage: ITER:   16767 RES:    0.054997
 ELA:  4.1038  Jacobi stage: ITER:   17187 RES:    0.051561
 ELA:  4.2038  Jacobi stage: ITER:   17653 RES:    0.047985
 ELA:  4.3039  Jacobi stage: ITER:   18119 RES:    0.044684
 ELA:   4.404  Jacobi stage: ITER:   18539 RES:    0.041892
 ELA:  4.5041  Jacobi stage: ITER:   18987 RES:    0.039106
 ELA:  4.6042  Jacobi stage: ITER:   19427 RES:    0.036551
 ELA:  4.7043  Jacobi stage: ITER:   19867 RES:    0.034162
 ELA:  4.8044  Jacobi stage: ITER:   20307 RES:     0.03193
 ELA:  4.9045  Jacobi stage: ITER:   20747 RES:    0.029843
 ELA:  5.0046  Jacobi stage: ITER:   21187 RES:    0.027893
 ELA:  5.1046  Jacobi stage: ITER:   21627 RES:     0.02607
 ELA:  5.2047  Jacobi stage: ITER:   22067 RES:    0.024366
 ELA:  5.3048  Jacobi stage: ITER:   22507 RES:    0.022774
 ELA:  5.4049  Jacobi stage: ITER:   22947 RES:    0.021285
 ELA:   5.505  Jacobi stage: ITER:   23387 RES:    0.019894
 ELA:  5.6051  Jacobi stage: ITER:   23827 RES:    0.018594
 ELA:  5.7052  Jacobi stage: ITER:   24267 RES:    0.017379
 ELA:  5.8052  Jacobi stage: ITER:   24707 RES:    0.016243
 ELA:  5.9053  Jacobi stage: ITER:   25147 RES:    0.015182
 ELA:  6.0054  Jacobi stage: ITER:   25587 RES:     0.01419
 ELA:  6.1055  Jacobi stage: ITER:   26027 RES:    0.013262
 ELA:  6.2056  Jacobi stage: ITER:   26465 RES:    0.012396
 ELA:  6.3057  Jacobi stage: ITER:   26905 RES:    0.011586
 ELA:  6.4058  Jacobi stage: ITER:   27343 RES:    0.010835
 ELA:  6.5059  Jacobi stage: ITER:   27783 RES:    0.010127
 ELA:  6.6059  Jacobi stage: ITER:   28223 RES:   0.0094652
 ELA:   6.706  Jacobi stage: ITER:   28663 RES:   0.0088466
 ELA:  6.8061  Jacobi stage: ITER:   29103 RES:   0.0082685
 ELA:  6.9062  Jacobi stage: ITER:   29541 RES:   0.0077281
 ELA:  7.0063  Jacobi stage: ITER:   29981 RES:   0.0072231
 ELA:  7.1064  Jacobi stage: ITER:   30421 RES:   0.0067511
 ELA:  7.2069  Jacobi stage: ITER:   30863 RES:   0.0063099
 ELA:  7.3073  Jacobi stage: ITER:   31303 RES:   0.0058975
 ELA:  7.4074  Jacobi stage: ITER:   31743 RES:   0.0055121
 ELA:  7.5079  Jacobi stage: ITER:   32183 RES:   0.0051519
 ELA:  7.6079  Jacobi stage: ITER:   32623 RES:   0.0048152
 ELA:  7.7084  Jacobi stage: ITER:   33065 RES:   0.0044977
 ELA:  7.8089  Jacobi stage: ITER:   33507 RES:   0.0042038
 ELA:  7.9093  Jacobi stage: ITER:   33947 RES:   0.0039291
 ELA:  8.0098  Jacobi stage: ITER:   34387 RES:   0.0036723
 ELA:  8.1103  Jacobi stage: ITER:   34829 RES:   0.0034302
 ELA:  8.2104  Jacobi stage: ITER:   35269 RES:    0.003206
 ELA:  8.3109  Jacobi stage: ITER:   35711 RES:   0.0029965
 ELA:   8.411  Jacobi stage: ITER:   36149 RES:   0.0028007
 ELA:   8.511  Jacobi stage: ITER:   36589 RES:   0.0026177
 ELA:  8.6114  Jacobi stage: ITER:   37031 RES:   0.0024466
 ELA:  8.7115  Jacobi stage: ITER:   37469 RES:   0.0022867
 ELA:   8.812  Jacobi stage: ITER:   37911 RES:   0.0021373
 ELA:  8.9124  Jacobi stage: ITER:   38351 RES:   0.0019976
 ELA:  9.0129  Jacobi stage: ITER:   38793 RES:   0.0018659
 ELA:  9.1133  Jacobi stage: ITER:   39233 RES:    0.001744
 ELA:  9.2138  Jacobi stage: ITER:   39675 RES:     0.00163
 ELA:  9.3139  Jacobi stage: ITER:   40115 RES:   0.0015235
 ELA:   9.414  Jacobi stage: ITER:   40555 RES:   0.0014239
 ELA:  9.5144  Jacobi stage: ITER:   40995 RES:   0.0013309
 ELA:  9.6145  Jacobi stage: ITER:   41433 RES:   0.0012439
 ELA:  9.7146  Jacobi stage: ITER:   41871 RES:   0.0011633
 ELA:   9.815  Jacobi stage: ITER:   42311 RES:   0.0010873
 ELA:  9.9154  Jacobi stage: ITER:   42751 RES:   0.0010162
 ELA:  10.016  Jacobi stage: ITER:   43191 RES:  0.00094982
 ELA:  10.116  Jacobi stage: ITER:   43631 RES:  0.00088774
 ELA:  10.217  Jacobi stage: ITER:   44071 RES:  0.00082973
 ELA:  10.317  Jacobi stage: ITER:   44511 RES:  0.00077551
 ELA:  10.417  Jacobi stage: ITER:   44949 RES:  0.00072483
 ELA:  10.518  Jacobi stage: ITER:   45389 RES:  0.00067746
 ELA:  10.618  Jacobi stage: ITER:   45827 RES:  0.00063357
 ELA:  10.718  Jacobi stage: ITER:   46267 RES:  0.00059217
 ELA:  10.819  Jacobi stage: ITER:   46707 RES:  0.00055347
 ELA:  10.919  Jacobi stage: ITER:   47147 RES:   0.0005173
 ELA:  11.019  Jacobi stage: ITER:   47585 RES:  0.00048349
 ELA:   11.12  Jacobi stage: ITER:   48025 RES:   0.0004519
 ELA:   11.22  Jacobi stage: ITER:   48463 RES:  0.00042262
 ELA:   11.32  Jacobi stage: ITER:   48903 RES:    0.000395
 ELA:  11.421  Jacobi stage: ITER:   49343 RES:  0.00036919
 ELA:  11.521  Jacobi stage: ITER:   49783 RES:  0.00034506
 ELA:  11.621  Jacobi stage: ITER:   50219 RES:  0.00032271
 ELA:  11.722  Jacobi stage: ITER:   50659 RES:  0.00030162
 ELA:  11.822  Jacobi stage: ITER:   51099 RES:  0.00028191
 ELA:  11.922  Jacobi stage: ITER:   51541 RES:  0.00026332
 ELA:  12.023  Jacobi stage: ITER:   51979 RES:  0.00024627
 ELA:  12.123  Jacobi stage: ITER:   52419 RES:  0.00023017
 ELA:  12.223  Jacobi stage: ITER:   52859 RES:  0.00021513
 ELA:  12.324  Jacobi stage: ITER:   53301 RES:  0.00020095
 ELA:  12.424  Jacobi stage: ITER:   53741 RES:  0.00018782
 ELA:  12.525  Jacobi stage: ITER:   54181 RES:  0.00017554
 ELA:  12.625  Jacobi stage: ITER:   54621 RES:  0.00016407
 ELA:  12.726  Jacobi stage: ITER:   55061 RES:  0.00015335
 ELA:  12.826  Jacobi stage: ITER:   55503 RES:  0.00014333
 ELA:  12.927  Jacobi stage: ITER:   55941 RES:  0.00013396
 ELA:  13.027  Jacobi stage: ITER:   56379 RES:  0.00012528
 ELA:  13.127  Jacobi stage: ITER:   56819 RES:   0.0001171
 ELA:  13.227  Jacobi stage: ITER:   57255 RES:  0.00010951
 ELA:  13.327  Jacobi stage: ITER:   57695 RES:  0.00010235
 ELA:  13.427  Jacobi stage: ITER:   58135 RES:  9.5664e-05
 ELA:  13.528  Jacobi stage: ITER:   58575 RES:  8.9413e-05
 ELA:  13.628  Jacobi stage: ITER:   59015 RES:  8.3569e-05
 ELA:  13.729  Jacobi stage: ITER:   59455 RES:  7.8108e-05
 ELA:  13.829  Jacobi stage: ITER:   59893 RES:  7.3004e-05
 ELA:  13.929  Jacobi stage: ITER:   60333 RES:  6.8233e-05
 ELA:  14.029  Jacobi stage: ITER:   60771 RES:  6.3813e-05
 ELA:   14.13  Jacobi stage: ITER:   61211 RES:  5.9642e-05
 ELA:   14.23  Jacobi stage: ITER:   61655 RES:   5.571e-05
 ELA:   14.33  Jacobi stage: ITER:   62093 RES:   5.207e-05
 ELA:   14.43  Jacobi stage: ITER:   62531 RES:  4.8697e-05
 ELA:   14.53  Jacobi stage: ITER:   62971 RES:  4.5514e-05
 ELA:  14.631  Jacobi stage: ITER:   63411 RES:   4.254e-05
 ELA:  14.731  Jacobi stage: ITER:   63851 RES:   3.976e-05
 ELA:  14.832  Jacobi stage: ITER:   64293 RES:  3.7139e-05
 ELA:  14.932  Jacobi stage: ITER:   64733 RES:  3.4712e-05
 ELA:  15.033  Jacobi stage: ITER:   65173 RES:  3.2443e-05
 ELA:  15.133  Jacobi stage: ITER:   65615 RES:  3.0323e-05
 ELA:  15.234  Jacobi stage: ITER:   66055 RES:  2.8341e-05
 ELA:  15.334  Jacobi stage: ITER:   66495 RES:  2.6489e-05
 ELA:  15.435  Jacobi stage: ITER:   66935 RES:  2.4758e-05
 ELA:  15.535  Jacobi stage: ITER:   67375 RES:   2.314e-05
 ELA:  15.635  Jacobi stage: ITER:   67815 RES:  2.1628e-05
 ELA:  15.736  Jacobi stage: ITER:   68255 RES:  2.0214e-05
 ELA:  15.836  Jacobi stage: ITER:   68695 RES:  1.8893e-05
 ELA:  15.937  Jacobi stage: ITER:   69135 RES:  1.7659e-05
 ELA:  16.037  Jacobi stage: ITER:   69573 RES:  1.6505e-05
 ELA:  16.137  Jacobi stage: ITER:   70011 RES:  1.5436e-05
 ELA:  16.237  Jacobi stage: ITER:   70451 RES:  1.4427e-05
 ELA:  16.338  Jacobi stage: ITER:   70891 RES:  1.3484e-05
 ELA:  16.438  Jacobi stage: ITER:   71331 RES:  1.2603e-05
 ELA:  16.539  Jacobi stage: ITER:   71771 RES:  1.1779e-05
 ELA:  16.639  Jacobi stage: ITER:   72211 RES:  1.1009e-05
 ELA:  16.739  Jacobi stage: ITER:   72651 RES:   1.029e-05
 ELA:   16.84  Jacobi stage: ITER:   73091 RES:  9.6175e-06
 ELA:   16.94  Jacobi stage: ITER:   73531 RES:  8.9889e-06
 ELA:  17.041  Jacobi stage: ITER:   73971 RES:  8.4015e-06
 ELA:  17.141  Jacobi stage: ITER:   74411 RES:  7.8525e-06
 ELA:  17.241  Jacobi stage: ITER:   74849 RES:  7.3393e-06
 ELA:  17.341  Jacobi stage: ITER:   75287 RES:  6.8639e-06
 ELA:  17.441  Jacobi stage: ITER:   75727 RES:  6.4153e-06
 ELA:  17.542  Jacobi stage: ITER:   76165 RES:  5.9961e-06
 ELA:  17.642  Jacobi stage: ITER:   76607 RES:  5.6042e-06
 ELA:  17.743  Jacobi stage: ITER:   77047 RES:   5.238e-06
 ELA:  17.843  Jacobi stage: ITER:   77483 RES:  4.8987e-06
 ELA:  17.943  Jacobi stage: ITER:   77923 RES:  4.5785e-06
 ELA:  18.043  Jacobi stage: ITER:   78361 RES:  4.2793e-06
 ELA:  18.143  Jacobi stage: ITER:   78799 RES:  4.0021e-06
 ELA:  18.243  Jacobi stage: ITER:   79237 RES:  3.7406e-06
 ELA:  18.343  Jacobi stage: ITER:   79675 RES:  3.4983e-06
 ELA:  18.443  Jacobi stage: ITER:   80115 RES:  3.2696e-06
 ELA:  18.543  Jacobi stage: ITER:   80551 RES:  3.0579e-06
 ELA:  18.644  Jacobi stage: ITER:   80991 RES:   2.858e-06
 ELA:  18.744  Jacobi stage: ITER:   81597 RES:  2.6032e-06
 ELA:  18.844  Jacobi stage: ITER:   82275 RES:  2.3464e-06
 ELA:  18.944  Jacobi stage: ITER:   82939 RES:  2.1189e-06
 ELA:  19.044  Jacobi stage: ITER:   83601 RES:  1.9135e-06
 ELA:  19.144  Jacobi stage: ITER:   84261 RES:   1.729e-06
 ELA:  19.244  Jacobi stage: ITER:   84919 RES:  1.5633e-06
 ELA:  19.344  Jacobi stage: ITER:   85591 RES:    1.41e-06
 ELA:  19.444  Jacobi stage: ITER:   86251 RES:   1.274e-06
 ELA:  19.545  Jacobi stage: ITER:   86911 RES:  1.1512e-06
 ELA:  19.645  Jacobi stage: ITER:   87569 RES:  1.0402e-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