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:   48115 RES:  0.00044583
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:    2391 RES:     0.53691
  Jacobi stage: ITER:    4335 RES:     0.37826
  Jacobi stage: ITER:    7687 RES:     0.22226
  Jacobi stage: ITER:   11409 RES:     0.12523
  Jacobi stage: ITER:   15399 RES:    0.067858
  Jacobi stage: ITER:   17579 RES:    0.048548
  Jacobi stage: ITER:   20783 RES:    0.029678
  Jacobi stage: ITER:   22735 RES:     0.02199
  Jacobi stage: ITER:   25455 RES:     0.01448
  Jacobi stage: ITER:   28467 RES:    0.009117
  Jacobi stage: ITER:   29487 RES:   0.0077949
  Jacobi stage: ITER:   30059 RES:   0.0071393
  Jacobi stage: ITER:   30607 RES:   0.0065629
  Jacobi stage: ITER:   30965 RES:   0.0062099
  Jacobi stage: ITER:   31351 RES:   0.0058542
  Jacobi stage: ITER:   31581 RES:   0.0056492
  Jacobi stage: ITER:   31965 RES:   0.0053257
  Jacobi stage: ITER:   32349 RES:   0.0050206
  Jacobi stage: ITER:   32599 RES:    0.004833
  Jacobi stage: ITER:   32971 RES:   0.0045646
  Jacobi stage: ITER:   33307 RES:    0.004335
  Jacobi stage: ITER:   33587 RES:   0.0041525
  Jacobi stage: ITER:   33971 RES:   0.0039146
  Jacobi stage: ITER:   34191 RES:   0.0037846
  Jacobi stage: ITER:   34563 RES:   0.0035744
  Jacobi stage: ITER:   34907 RES:   0.0033904
  Jacobi stage: ITER:   35147 RES:   0.0032677
  Jacobi stage: ITER:   35519 RES:   0.0030862
  Jacobi stage: ITER:   35749 RES:   0.0029782
  Jacobi stage: ITER:   36123 RES:   0.0028128
  Jacobi stage: ITER:   36495 RES:   0.0026566
  Jacobi stage: ITER:   36751 RES:   0.0025541
  Jacobi stage: ITER:   37123 RES:   0.0024123
  Jacobi stage: ITER:   37511 RES:   0.0022727
  Jacobi stage: ITER:   37727 RES:   0.0021985
  Jacobi stage: ITER:   38099 RES:   0.0020764
  Jacobi stage: ITER:   38399 RES:   0.0019829
  Jacobi stage: ITER:   38659 RES:   0.0019053
  Jacobi stage: ITER:   38899 RES:   0.0018363
  Jacobi stage: ITER:   39035 RES:   0.0017984
  Jacobi stage: ITER:   39271 RES:   0.0017343
  Jacobi stage: ITER:   39491 RES:   0.0016767
  Jacobi stage: ITER:   39633 RES:     0.00164
  Jacobi stage: ITER:   39875 RES:   0.0015807
  Jacobi stage: ITER:   40087 RES:     0.00153
  Jacobi stage: ITER:   40267 RES:   0.0014883
  Jacobi stage: ITER:   40507 RES:   0.0014344
  Jacobi stage: ITER:   40655 RES:   0.0014022
  Jacobi stage: ITER:   40903 RES:   0.0013498
  Jacobi stage: ITER:   41203 RES:    0.001289
  Jacobi stage: ITER:   41441 RES:   0.0012424
  Jacobi stage: ITER:   41833 RES:   0.0011698
  Jacobi stage: ITER:   42059 RES:   0.0011302
  Jacobi stage: ITER:   42427 RES:   0.0010681
  Jacobi stage: ITER:   42801 RES:   0.0010081
  Jacobi stage: ITER:   43023 RES:  0.00097465
  Jacobi stage: ITER:   43393 RES:  0.00092052
  Jacobi stage: ITER:   43691 RES:   0.0008796
  Jacobi stage: ITER:   44003 RES:  0.00083844
  Jacobi stage: ITER:   44387 RES:  0.00079042
  Jacobi stage: ITER:   44615 RES:  0.00076322
  Jacobi stage: ITER:   44973 RES:  0.00072216
  Jacobi stage: ITER:   45347 RES:  0.00068205
  Jacobi stage: ITER:   45573 RES:  0.00065858
  Jacobi stage: ITER:   45967 RES:  0.00062009
  Jacobi stage: ITER:   46203 RES:  0.00059802
  Jacobi stage: ITER:   46559 RES:   0.0005662
  Jacobi stage: ITER:   46941 RES:  0.00053377
  Jacobi stage: ITER:   47167 RES:  0.00051571
  Jacobi stage: ITER:   47543 RES:  0.00048677
  Jacobi stage: ITER:   47941 RES:  0.00045776
  Jacobi stage: ITER:   48175 RES:  0.00044174
  Jacobi stage: ITER:   48561 RES:  0.00041618
  Jacobi stage: ITER:   48787 RES:  0.00040211
  Jacobi stage: ITER:   49171 RES:  0.00037907
  Jacobi stage: ITER:   49527 RES:   0.0003589
  Jacobi stage: ITER:   49739 RES:   0.0003474
  Jacobi stage: ITER:   50089 RES:  0.00032912
  Jacobi stage: ITER:   50319 RES:  0.00031779
  Jacobi stage: ITER:   50689 RES:  0.00030014
  Jacobi stage: ITER:   51071 RES:  0.00028312
  Jacobi stage: ITER:   51299 RES:  0.00027338
  Jacobi stage: ITER:   51689 RES:  0.00025741
  Jacobi stage: ITER:   52083 RES:  0.00024236
  Jacobi stage: ITER:   52315 RES:  0.00023388
  Jacobi stage: ITER:   52689 RES:  0.00022076
  Jacobi stage: ITER:   52907 RES:  0.00021355
  Jacobi stage: ITER:   53285 RES:  0.00020144
  Jacobi stage: ITER:   53633 RES:  0.00019096
  Jacobi stage: ITER:   53883 RES:  0.00018382
  Jacobi stage: ITER:   54251 RES:  0.00017372
  Jacobi stage: ITER:   54469 RES:  0.00016795
  Jacobi stage: ITER:   54843 RES:  0.00015862
  Jacobi stage: ITER:   55209 RES:   0.0001499
  Jacobi stage: ITER:   55431 RES:  0.00014492
  Jacobi stage: ITER:   55815 RES:  0.00013662
  Jacobi stage: ITER:   56159 RES:  0.00012959
  Jacobi stage: ITER:   56415 RES:  0.00012459
  Jacobi stage: ITER:   56791 RES:   0.0001176
  Jacobi stage: ITER:   57019 RES:  0.00011355
  Jacobi stage: ITER:   57405 RES:  0.00010698
  Jacobi stage: ITER:   57753 RES:  0.00010141
  Jacobi stage: ITER:   57983 RES:  9.7924e-05
  Jacobi stage: ITER:   58343 RES:  9.2656e-05
  Jacobi stage: ITER:   58553 RES:  8.9688e-05
  Jacobi stage: ITER:   58927 RES:  8.4707e-05
  Jacobi stage: ITER:   59291 RES:  8.0101e-05
  Jacobi stage: ITER:   59533 RES:  7.7154e-05
  Jacobi stage: ITER:   59919 RES:  7.2735e-05
  Jacobi stage: ITER:   60225 RES:  6.9374e-05
  Jacobi stage: ITER:   60529 RES:  6.6209e-05
  Jacobi stage: ITER:   60923 RES:   6.234e-05
  Jacobi stage: ITER:   61145 RES:  6.0232e-05
  Jacobi stage: ITER:   61525 RES:  5.6817e-05
  Jacobi stage: ITER:   61887 RES:   5.376e-05
  Jacobi stage: ITER:   62139 RES:  5.1719e-05
  Jacobi stage: ITER:   62515 RES:  4.8817e-05
  Jacobi stage: ITER:   62767 RES:  4.6963e-05
  Jacobi stage: ITER:   63115 RES:  4.4519e-05
  Jacobi stage: ITER:   63475 RES:  4.2124e-05
  Jacobi stage: ITER:   63699 RES:  4.0699e-05
  Jacobi stage: ITER:   64081 RES:  3.8368e-05
  Jacobi stage: ITER:   64467 RES:   3.617e-05
  Jacobi stage: ITER:   64719 RES:  3.4797e-05
  Jacobi stage: ITER:   65097 RES:  3.2824e-05
  Jacobi stage: ITER:   65401 RES:  3.1327e-05
  Jacobi stage: ITER:   65709 RES:  2.9879e-05
  Jacobi stage: ITER:   66095 RES:  2.8168e-05
  Jacobi stage: ITER:   66323 RES:  2.7198e-05
  Jacobi stage: ITER:   66699 RES:  2.5672e-05
  Jacobi stage: ITER:   67039 RES:  2.4366e-05
  Jacobi stage: ITER:   67283 RES:  2.3469e-05
  Jacobi stage: ITER:   67633 RES:  2.2234e-05
  Jacobi stage: ITER:   67857 RES:  2.1482e-05
  Jacobi stage: ITER:   68207 RES:  2.0364e-05
  Jacobi stage: ITER:   68587 RES:  1.9209e-05
  Jacobi stage: ITER:   68835 RES:  1.8491e-05
  Jacobi stage: ITER:   69215 RES:  1.7443e-05
  Jacobi stage: ITER:   69541 RES:  1.6586e-05
  Jacobi stage: ITER:   69795 RES:  1.5956e-05
  Jacobi stage: ITER:   70151 RES:  1.5107e-05
  Jacobi stage: ITER:   70367 RES:  1.4614e-05
  Jacobi stage: ITER:   70733 RES:  1.3811e-05
  Jacobi stage: ITER:   71001 RES:  1.3254e-05
  Jacobi stage: ITER:   71319 RES:  1.2626e-05
  Jacobi stage: ITER:   71703 RES:  1.1903e-05
  Jacobi stage: ITER:   71921 RES:  1.1507e-05
  Jacobi stage: ITER:   72289 RES:  1.0875e-05
  Jacobi stage: ITER:   72649 RES:   1.029e-05
  Jacobi stage: ITER:   72891 RES:  9.9175e-06
  Jacobi stage: ITER:   73259 RES:  9.3725e-06
  Jacobi stage: ITER:   73625 RES:  8.8574e-06
  Jacobi stage: ITER:   73845 RES:  8.5631e-06
  Jacobi stage: ITER:   74219 RES:  8.0875e-06
  Jacobi stage: ITER:   74595 RES:  7.6336e-06
  Jacobi stage: ITER:   74819 RES:  7.3754e-06
  Jacobi stage: ITER:   75191 RES:  6.9658e-06
  Jacobi stage: ITER:   75491 RES:  6.6521e-06
  Jacobi stage: ITER:   75795 RES:  6.3486e-06
  Jacobi stage: ITER:   76171 RES:  5.9924e-06
  Jacobi stage: ITER:   76391 RES:  5.7933e-06
  Jacobi stage: ITER:   76759 RES:  5.4749e-06
  Jacobi stage: ITER:   77129 RES:  5.1708e-06
  Jacobi stage: ITER:   77371 RES:  4.9837e-06
  Jacobi stage: ITER:   77707 RES:   4.733e-06
  Jacobi stage: ITER:   78079 RES:  4.4701e-06
  Jacobi stage: ITER:   78299 RES:  4.3216e-06
  Jacobi stage: ITER:   78667 RES:  4.0841e-06
  Jacobi stage: ITER:   78995 RES:  3.8834e-06
  Jacobi stage: ITER:   79259 RES:  3.7291e-06
  Jacobi stage: ITER:   79625 RES:  3.5242e-06
  Jacobi stage: ITER:   79845 RES:  3.4071e-06
  Jacobi stage: ITER:   80203 RES:  3.2257e-06
  Jacobi stage: ITER:   80565 RES:  3.0503e-06
  Jacobi stage: ITER:   80779 RES:  2.9526e-06
  Jacobi stage: ITER:   81143 RES:  2.7921e-06
  Jacobi stage: ITER:   81427 RES:  2.6729e-06
  Jacobi stage: ITER:   81733 RES:  2.5494e-06
  Jacobi stage: ITER:   82091 RES:  2.4137e-06
  Jacobi stage: ITER:   82311 RES:  2.3335e-06
  Jacobi stage: ITER:   82677 RES:  2.2053e-06
  Jacobi stage: ITER:   82949 RES:   2.115e-06
  Jacobi stage: ITER:   83253 RES:  2.0185e-06
  Jacobi stage: ITER:   83613 RES:  1.9099e-06
  Jacobi stage: ITER:   83821 RES:  1.8499e-06
  Jacobi stage: ITER:   84183 RES:  1.7504e-06
  Jacobi stage: ITER:   84481 RES:  1.6715e-06
  Jacobi stage: ITER:   84777 RES:  1.5973e-06
  Jacobi stage: ITER:   85147 RES:  1.5095e-06
  Jacobi stage: ITER:   85371 RES:  1.4584e-06
  Jacobi stage: ITER:   85729 RES:    1.38e-06
  Jacobi stage: ITER:   86089 RES:  1.3057e-06
  Jacobi stage: ITER:   86305 RES:  1.2631e-06
  Jacobi stage: ITER:   86673 RES:  1.1937e-06
  Jacobi stage: ITER:   86891 RES:  1.1547e-06
  Jacobi stage: ITER:   87263 RES:  1.0906e-06
  Jacobi stage: ITER:   87633 RES:    1.03e-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:3.4931e-
 ELA: 0.10014  Jacobi stage: ITER:   48787 RES:  0.00040211
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:1.8561e-
 ELA: 0.10012  Jacobi stage: ITER:     567 RES:     0.83409
 ELA: 0.20023  Jacobi stage: ITER:    1153 RES:     0.70926
 ELA: 0.30031  Jacobi stage: ITER:    1491 RES:     0.65294
 ELA: 0.40045  Jacobi stage: ITER:    1931 RES:     0.59097
 ELA: 0.50059  Jacobi stage: ITER:    2249 RES:     0.55239
 ELA: 0.60067  Jacobi stage: ITER:    2543 RES:     0.52095
 ELA: 0.70076  Jacobi stage: ITER:    2931 RES:     0.48367
 ELA: 0.80085  Jacobi stage: ITER:    3207 RES:     0.45974
 ELA: 0.90097  Jacobi stage: ITER:    3559 RES:     0.43179
 ELA:  1.0011  Jacobi stage: ITER:    3939 RES:     0.40435
 ELA:  1.1012  Jacobi stage: ITER:    4169 RES:     0.38878
 ELA:  1.2013  Jacobi stage: ITER:    4543 RES:     0.36546
 ELA:  1.3014  Jacobi stage: ITER:    4837 RES:     0.34817
 ELA:  1.4015  Jacobi stage: ITER:    5145 RES:     0.33124
 ELA:  1.5016  Jacobi stage: ITER:    5523 RES:     0.31189
 ELA:  1.6017  Jacobi stage: ITER:    5739 RES:     0.30136
 ELA:  1.7018  Jacobi stage: ITER:    6109 RES:     0.28417
 ELA:  1.8018  Jacobi stage: ITER:    6423 RES:     0.27058
 ELA:  1.9019  Jacobi stage: ITER:    6707 RES:     0.25883
 ELA:   2.002  Jacobi stage: ITER:    7093 RES:     0.24364
 ELA:  2.1021  Jacobi stage: ITER:    7455 RES:     0.23039
 ELA:  2.2022  Jacobi stage: ITER:    7731 RES:     0.22075
 ELA:  2.3023  Jacobi stage: ITER:    8117 RES:     0.20789
 ELA:  2.4024  Jacobi stage: ITER:    8351 RES:     0.20057
 ELA:  2.5025  Jacobi stage: ITER:    8707 RES:     0.18985
 ELA:  2.6026  Jacobi stage: ITER:    9091 RES:     0.17894
 ELA:  2.7027  Jacobi stage: ITER:    9315 RES:     0.17287
 ELA:  2.8028  Jacobi stage: ITER:    9561 RES:     0.16639
 ELA:  2.9029  Jacobi stage: ITER:    9715 RES:     0.16254
 ELA:   3.003  Jacobi stage: ITER:    9927 RES:     0.15732
 ELA:  3.1032  Jacobi stage: ITER:   10159 RES:     0.15181
 ELA:  3.2033  Jacobi stage: ITER:   10295 RES:     0.14867
 ELA:  3.3033  Jacobi stage: ITER:   10539 RES:     0.14319
 ELA:  3.4034  Jacobi stage: ITER:   10789 RES:     0.13775
 ELA:  3.5035  Jacobi stage: ITER:   10937 RES:     0.13465
 ELA:  3.6036  Jacobi stage: ITER:   11171 RES:     0.12993
 ELA:  3.7037  Jacobi stage: ITER:   11357 RES:     0.12623
 ELA:  3.8038  Jacobi stage: ITER:   11565 RES:     0.12226
 ELA:  3.9039  Jacobi stage: ITER:   11861 RES:     0.11682
 ELA:   4.004  Jacobi stage: ITER:   12077 RES:     0.11301
 ELA:  4.1041  Jacobi stage: ITER:   12459 RES:      0.1066
 ELA:  4.2042  Jacobi stage: ITER:   12777 RES:     0.10148
 ELA:  4.3043  Jacobi stage: ITER:   13061 RES:    0.097151
 ELA:  4.4044  Jacobi stage: ITER:   13447 RES:    0.091586
 ELA:  4.5044  Jacobi stage: ITER:   13669 RES:    0.088488
 ELA:  4.6045  Jacobi stage: ITER:   14049 RES:     0.08347
 ELA:  4.7046  Jacobi stage: ITER:   14427 RES:    0.078785
 ELA:  4.8047  Jacobi stage: ITER:   14653 RES:    0.076074
 ELA:  4.9048  Jacobi stage: ITER:   15033 RES:     0.07176
 ELA:  5.0049  Jacobi stage: ITER:   15299 RES:    0.068909
 ELA:   5.105  Jacobi stage: ITER:   15631 RES:    0.065482
 ELA:  5.2051  Jacobi stage: ITER:   16011 RES:     0.06177
 ELA:  5.3052  Jacobi stage: ITER:   16237 RES:    0.059644
 ELA:  5.4053  Jacobi stage: ITER:   16631 RES:    0.056158
 ELA:  5.5054  Jacobi stage: ITER:   16975 RES:    0.053268
 ELA:  5.6055  Jacobi stage: ITER:   17231 RES:    0.051214
 ELA:  5.7056  Jacobi stage: ITER:   17615 RES:    0.048281
 ELA:  5.8057  Jacobi stage: ITER:   17837 RES:    0.046648
 ELA:  5.9058  Jacobi stage: ITER:   18215 RES:     0.04403
 ELA:  6.0059  Jacobi stage: ITER:   18603 RES:    0.041483
 ELA:   6.106  Jacobi stage: ITER:   18851 RES:    0.039932
 ELA:  6.2061  Jacobi stage: ITER:   19235 RES:    0.037645
 ELA:  6.3062  Jacobi stage: ITER:   19563 RES:    0.035795
 ELA:  6.4063  Jacobi stage: ITER:   19843 RES:    0.034288
 ELA:  6.5064  Jacobi stage: ITER:   20215 RES:    0.032384
 ELA:  6.6065  Jacobi stage: ITER:   20435 RES:    0.031308
 ELA:  6.7066  Jacobi stage: ITER:   20791 RES:    0.029642
 ELA:  6.8067  Jacobi stage: ITER:   21117 RES:    0.028186
 ELA:  6.9068  Jacobi stage: ITER:   21387 RES:    0.027049
 ELA:  7.0068  Jacobi stage: ITER:   21773 RES:    0.025484
 ELA:  7.1069  Jacobi stage: ITER:   22003 RES:    0.024607
 ELA:   7.207  Jacobi stage: ITER:   22391 RES:    0.023183
 ELA:  7.3071  Jacobi stage: ITER:   22775 RES:    0.021855
 ELA:  7.4072  Jacobi stage: ITER:   23023 RES:    0.021038
 ELA:  7.5074  Jacobi stage: ITER:   23391 RES:    0.019882
 ELA:  7.6074  Jacobi stage: ITER:   23685 RES:    0.018999
 ELA:  7.7075  Jacobi stage: ITER:   23999 RES:    0.018109
 ELA:  7.8076  Jacobi stage: ITER:   24381 RES:    0.017072
 ELA:  7.9077  Jacobi stage: ITER:   24603 RES:    0.016505
 ELA:  8.0078  Jacobi stage: ITER:   24979 RES:    0.015579
 ELA:  8.1079  Jacobi stage: ITER:   25281 RES:    0.014868
 ELA:   8.208  Jacobi stage: ITER:   25561 RES:    0.014242
 ELA:  8.3081  Jacobi stage: ITER:   25937 RES:    0.013443
 ELA:  8.4082  Jacobi stage: ITER:   26159 RES:    0.012996
 ELA:  8.5083  Jacobi stage: ITER:   26539 RES:    0.012259
 ELA:  8.6084  Jacobi stage: ITER:   26919 RES:    0.011564
 ELA:  8.7085  Jacobi stage: ITER:   27141 RES:    0.011173
 ELA:  8.8085  Jacobi stage: ITER:   27517 RES:    0.010546
 ELA:  8.9086  Jacobi stage: ITER:   27757 RES:    0.010164
 ELA:  9.0087  Jacobi stage: ITER:   28135 RES:    0.009594
 ELA:  9.1088  Jacobi stage: ITER:   28511 RES:   0.0090556
 ELA:  9.2089  Jacobi stage: ITER:   28725 RES:   0.0087601
 ELA:   9.309  Jacobi stage: ITER:   29075 RES:   0.0083041
 ELA:  9.4091  Jacobi stage: ITER:   29347 RES:   0.0079643
 ELA:  9.5092  Jacobi stage: ITER:   29653 RES:   0.0075963
 ELA:  9.6093  Jacobi stage: ITER:   30033 RES:   0.0071656
 ELA:  9.7094  Jacobi stage: ITER:   30259 RES:   0.0069233
 ELA:  9.8095  Jacobi stage: ITER:   30639 RES:   0.0065307
 ELA:  9.9095  Jacobi stage: ITER:   31025 RES:   0.0061529
 ELA:   10.01  Jacobi stage: ITER:   31255 RES:   0.0059412
 ELA:   10.11  Jacobi stage: ITER:   31651 RES:   0.0055905
 ELA:   10.21  Jacobi stage: ITER:   31891 RES:   0.0053882
 ELA:   10.31  Jacobi stage: ITER:   32259 RES:   0.0050921
 ELA:   10.41  Jacobi stage: ITER:   32639 RES:   0.0048034
 ELA:   10.51  Jacobi stage: ITER:   32867 RES:   0.0046381
 ELA:   10.61  Jacobi stage: ITER:   33247 RES:   0.0043751
 ELA:   10.71  Jacobi stage: ITER:   33607 RES:   0.0041397
 ELA:  10.811  Jacobi stage: ITER:   33857 RES:   0.0039826
 ELA:  10.911  Jacobi stage: ITER:   34219 RES:   0.0037683
 ELA:  11.011  Jacobi stage: ITER:   34449 RES:   0.0036364
 ELA:  11.111  Jacobi stage: ITER:   34823 RES:   0.0034344
 ELA:  11.211  Jacobi stage: ITER:   35211 RES:   0.0032337
 ELA:  11.311  Jacobi stage: ITER:   35455 RES:   0.0031167
 ELA:  11.411  Jacobi stage: ITER:   35847 RES:   0.0029346
 ELA:  11.511  Jacobi stage: ITER:   36233 RES:   0.0027648
 ELA:  11.612  Jacobi stage: ITER:   36457 RES:   0.0026713
 ELA:  11.712  Jacobi stage: ITER:   36847 RES:   0.0025167
 ELA:  11.812  Jacobi stage: ITER:   37095 RES:   0.0024227
 ELA:  11.912  Jacobi stage: ITER:   37455 RES:   0.0022923
 ELA:  12.012  Jacobi stage: ITER:   37833 RES:   0.0021624
 ELA:  12.112  Jacobi stage: ITER:   38049 RES:   0.0020918
 ELA:  12.212  Jacobi stage: ITER:   38395 RES:   0.0019841
 ELA:  12.312  Jacobi stage: ITER:   38711 RES:   0.0018901
 ELA:  12.412  Jacobi stage: ITER:   38993 RES:   0.0018095
 ELA:  12.513  Jacobi stage: ITER:   39353 RES:   0.0017121
 ELA:  12.613  Jacobi stage: ITER:   39651 RES:    0.001636
 ELA:  12.713  Jacobi stage: ITER:   39987 RES:   0.0015537
 ELA:  12.813  Jacobi stage: ITER:   40351 RES:   0.0014692
 ELA:  12.913  Jacobi stage: ITER:   40571 RES:   0.0014204
 ELA:  13.013  Jacobi stage: ITER:   40927 RES:   0.0013448
 ELA:  13.113  Jacobi stage: ITER:   41163 RES:    0.001297
 ELA:  13.213  Jacobi stage: ITER:   41509 RES:   0.0012294
 ELA:  13.313  Jacobi stage: ITER:   41871 RES:   0.0011633
 ELA:  13.413  Jacobi stage: ITER:   42087 RES:   0.0011253
 ELA:  13.513  Jacobi stage: ITER:   42477 RES:   0.0010596
 ELA:  13.614  Jacobi stage: ITER:   42767 RES:   0.0010137
 ELA:  13.714  Jacobi stage: ITER:   43063 RES:  0.00096868
 ELA:  13.814  Jacobi stage: ITER:   43441 RES:  0.00091375
 ELA:  13.914  Jacobi stage: ITER:   43753 RES:    0.000871
 ELA:  14.014  Jacobi stage: ITER:   44051 RES:  0.00083228
 ELA:  14.114  Jacobi stage: ITER:   44419 RES:  0.00078654
 ELA:  14.214  Jacobi stage: ITER:   44649 RES:  0.00075901
 ELA:  14.314  Jacobi stage: ITER:   45019 RES:  0.00071729
 ELA:  14.414  Jacobi stage: ITER:   45391 RES:  0.00067746
 ELA:  14.514  Jacobi stage: ITER:   45623 RES:  0.00065374
 ELA:  14.614  Jacobi stage: ITER:   45991 RES:  0.00061781
 ELA:  14.714  Jacobi stage: ITER:   46353 RES:  0.00058422
 ELA:  14.815  Jacobi stage: ITER:   46583 RES:  0.00056411
 ELA:  14.915  Jacobi stage: ITER:   46959 RES:  0.00053245
 ELA:  15.015  Jacobi stage: ITER:   47265 RES:  0.00050785
 ELA:  15.115  Jacobi stage: ITER:   47553 RES:  0.00048588
 ELA:  15.215  Jacobi stage: ITER:   47927 RES:  0.00045889
 ELA:  15.315  Jacobi stage: ITER:   48257 RES:  0.00043608
 ELA:  15.415  Jacobi stage: ITER:   48539 RES:  0.00041772
 ELA:  15.515  Jacobi stage: ITER:   48925 RES:  0.00039355
 ELA:  15.615  Jacobi stage: ITER:   49145 RES:  0.00038047
 ELA:  15.715  Jacobi stage: ITER:   49513 RES:  0.00035956
 ELA:  15.816  Jacobi stage: ITER:   49885 RES:  0.00033959
 ELA:  15.916  Jacobi stage: ITER:   50103 RES:  0.00032851
 ELA:  16.016  Jacobi stage: ITER:   50475 RES:  0.00031027
 ELA:  16.116  Jacobi stage: ITER:   50775 RES:  0.00029629
 ELA:  16.216  Jacobi stage: ITER:   51051 RES:    0.000284
 ELA:  16.316  Jacobi stage: ITER:   51415 RES:  0.00026855
 ELA:  16.416  Jacobi stage: ITER:   51631 RES:  0.00025979
 ELA:  16.516  Jacobi stage: ITER:   51993 RES:  0.00024566
 ELA:  16.616  Jacobi stage: ITER:   52359 RES:   0.0002323
 ELA:  16.716  Jacobi stage: ITER:   52587 RES:  0.00022431
 ELA:  16.816  Jacobi stage: ITER:   52951 RES:  0.00021211
 ELA:  16.917  Jacobi stage: ITER:   53171 RES:  0.00020506
 ELA:  17.017  Jacobi stage: ITER:   53533 RES:  0.00019391
 ELA:  17.117  Jacobi stage: ITER:   53899 RES:  0.00018337
 ELA:  17.217  Jacobi stage: ITER:   54115 RES:  0.00017739
 ELA:  17.317  Jacobi stage: ITER:   54471 RES:  0.00016795
 ELA:  17.417  Jacobi stage: ITER:   54695 RES:  0.00016227
 ELA:  17.517  Jacobi stage: ITER:   55049 RES:  0.00015363
 ELA:  17.617  Jacobi stage: ITER:   55423 RES:   0.0001451
 ELA:  17.717  Jacobi stage: ITER:   55639 RES:  0.00014036
 ELA:  17.817  Jacobi stage: ITER:   56013 RES:  0.00013249
 ELA:  17.917  Jacobi stage: ITER:   56321 RES:  0.00012636
 ELA:  18.018  Jacobi stage: ITER:   56599 RES:  0.00012112
 ELA:  18.118  Jacobi stage: ITER:   56963 RES:  0.00011453
 ELA:  18.218  Jacobi stage: ITER:   57179 RES:   0.0001108
 ELA:  18.318  Jacobi stage: ITER:   57543 RES:  0.00010477
 ELA:  18.418  Jacobi stage: ITER:   57855 RES:  9.9869e-05
 ELA:  18.518  Jacobi stage: ITER:   58135 RES:  9.5664e-05
 ELA:  18.618  Jacobi stage: ITER:   58503 RES:  9.0407e-05
 ELA:  18.718  Jacobi stage: ITER:   58723 RES:  8.7403e-05
 ELA:  18.818  Jacobi stage: ITER:   59255 RES:  8.0545e-05
 ELA:  18.918  Jacobi stage: ITER:   59787 RES:  7.4225e-05
 ELA:  19.018  Jacobi stage: ITER:   60171 RES:  6.9973e-05
 ELA:  19.119  Jacobi stage: ITER:   60731 RES:  6.4206e-05
 ELA:  19.219  Jacobi stage: ITER:   61079 RES:  6.0864e-05
 ELA:  19.319  Jacobi stage: ITER:   61635 RES:  5.5882e-05
 ELA:  19.419  Jacobi stage: ITER:   62207 RES:  5.1182e-05
 ELA:  19.519  Jacobi stage: ITER:   62545 RES:  4.8577e-05
 ELA:  19.619  Jacobi stage: ITER:   63125 RES:  4.4437e-05
 ELA:  19.719  Jacobi stage: ITER:   63463 RES:  4.2202e-05
 ELA:  19.819  Jacobi stage: ITER:   64009 RES:  3.8795e-05
 ELA:  19.919  Jacobi stage: ITER:   64565 RES:  3.5619e-05
 ELA:   20.02  Jacobi stage: ITER:   64889 RES:   3.389e-05
 ELA:   20.12  Jacobi stage: ITER:   65443 RES:  3.1135e-05
 ELA:   20.22  Jacobi stage: ITER:   65789 RES:  2.9514e-05
 ELA:   20.32  Jacobi stage: ITER:   66341 RES:  2.7115e-05
 ELA:   20.42  Jacobi stage: ITER:   66903 RES:   2.488e-05
 ELA:   20.52  Jacobi stage: ITER:   67251 RES:  2.3585e-05
 ELA:   20.62  Jacobi stage: ITER:   67815 RES:  2.1628e-05
 ELA:   20.72  Jacobi stage: ITER:   68179 RES:  2.0452e-05
 ELA:   20.82  Jacobi stage: ITER:   68701 RES:   1.887e-05
 ELA:   20.92  Jacobi stage: ITER:   69241 RES:  1.7368e-05
 ELA:   21.02  Jacobi stage: ITER:   69567 RES:  1.6525e-05
 ELA:  21.121  Jacobi stage: ITER:   70117 RES:  1.5182e-05
 ELA:  21.221  Jacobi stage: ITER:   70477 RES:  1.4365e-05
 ELA:  21.321  Jacobi stage: ITER:   71015 RES:   1.323e-05
 ELA:  21.421  Jacobi stage: ITER:   71563 RES:  1.2162e-05
 ELA:  21.521  Jacobi stage: ITER:   71883 RES:  1.1578e-05
 ELA:  21.621  Jacobi stage: ITER:   72439 RES:  1.0631e-05
 ELA:  21.721  Jacobi stage: ITER:   72787 RES:  1.0077e-05
 ELA:  21.821  Jacobi stage: ITER:   73343 RES:  9.2523e-06
 ELA:  21.921  Jacobi stage: ITER:   73889 RES:  8.5054e-06
 ELA:  22.021  Jacobi stage: ITER:   74217 RES:  8.0875e-06
 ELA:  22.122  Jacobi stage: ITER:   74777 RES:  7.4209e-06
 ELA:  22.222  Jacobi stage: ITER:   75099 RES:   7.065e-06
 ELA:  22.322  Jacobi stage: ITER:   75665 RES:  6.4747e-06
 ELA:  22.422  Jacobi stage: ITER:   76211 RES:  5.9557e-06
 ELA:  22.522  Jacobi stage: ITER:   76573 RES:  5.6318e-06
 ELA:  22.622  Jacobi stage: ITER:   77131 RES:  5.1708e-06
 ELA:  22.722  Jacobi stage: ITER:   77459 RES:  4.9168e-06
 ELA:  22.822  Jacobi stage: ITER:   78021 RES:  4.5087e-06
 ELA:  22.922  Jacobi stage: ITER:   78577 RES:  4.1397e-06
 ELA:  23.023  Jacobi stage: ITER:   78919 RES:   3.929e-06
 ELA:  23.123  Jacobi stage: ITER:   79483 RES:   3.603e-06
 ELA:  23.223  Jacobi stage: ITER:   79815 RES:  3.4238e-06
 ELA:  23.323  Jacobi stage: ITER:   80387 RES:  3.1359e-06
 ELA:  23.423  Jacobi stage: ITER:   80849 RES:  2.9201e-06
 ELA:  23.523  Jacobi stage: ITER:   81279 RES:  2.7343e-06
 ELA:  23.623  Jacobi stage: ITER:   81833 RES:  2.5105e-06
 ELA:  23.723  Jacobi stage: ITER:   82171 RES:  2.3842e-06
 ELA:  23.823  Jacobi stage: ITER:   82721 RES:  2.1904e-06
 ELA:  23.923  Jacobi stage: ITER:   83131 RES:  2.0574e-06
 ELA:  24.023  Jacobi stage: ITER:   83611 RES:  1.9111e-06
 ELA:  24.124  Jacobi stage: ITER:   84153 RES:  1.7579e-06
 ELA:  24.224  Jacobi stage: ITER:   84527 RES:  1.6603e-06
 ELA:  24.324  Jacobi stage: ITER:   85087 RES:  1.5234e-06
 ELA:  24.424  Jacobi stage: ITER:   85651 RES:   1.397e-06
 ELA:  24.524  Jacobi stage: ITER:   85993 RES:  1.3251e-06
 ELA:  24.624  Jacobi stage: ITER:   86563 RES:  1.2144e-06
 ELA:  24.724  Jacobi stage: ITER:   86893 RES:   1.154e-06
 ELA:  24.824  Jacobi stage: ITER:   87455 RES:  1.0589e-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