Public Types |
Public Member Functions |
Protected Member Functions |
Protected Attributes |
List of all members
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. | |
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 >
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:
1#include <iostream>
2#include <memory>
3#include <chrono>
4#include <thread>
5#include <TNL/Matrices/SparseMatrix.h>
6#include <TNL/Devices/Sequential.h>
7#include <TNL/Devices/Cuda.h>
8#include <TNL/Solvers/Linear/Jacobi.h>
9
10template< typename Device >
11void
12iterativeLinearSolverExample()
13{
14 /***
15 * Set the following matrix (dots represent zero matrix elements):
16 *
17 * / 2.5 -1 . . . \
18 * | -1 2.5 -1 . . |
19 * | . -1 2.5 -1. . |
20 * | . . -1 2.5 -1 |
21 * \ . . . -1 2.5 /
22 */
25 const int size( 5 );
27 matrix_ptr->setDimensions( size, size );
28 matrix_ptr->setRowCapacities( Vector( { 2, 3, 3, 3, 2 } ) );
29
31 {
32 const int rowIdx = row.getRowIndex();
33 if( rowIdx == 0 ) {
34 row.setElement( 0, rowIdx, 2.5 ); // diagonal element
35 row.setElement( 1, rowIdx + 1, -1 ); // element above the diagonal
36 }
37 else if( rowIdx == size - 1 ) {
38 row.setElement( 0, rowIdx - 1, -1.0 ); // element below the diagonal
39 row.setElement( 1, rowIdx, 2.5 ); // diagonal element
40 }
41 else {
42 row.setElement( 0, rowIdx - 1, -1.0 ); // element below the diagonal
43 row.setElement( 1, rowIdx, 2.5 ); // diagonal element
44 row.setElement( 2, rowIdx + 1, -1.0 ); // element above the diagonal
45 }
46 };
47
48 /***
49 * Set the matrix elements.
50 */
51 matrix_ptr->forAllRows( f );
53
54 /***
55 * Set the right-hand side vector.
56 */
57 Vector x( size, 1.0 );
58 Vector b( size );
59 matrix_ptr->vectorProduct( x, b );
60 x = 0.0;
62
63 /***
64 * Setup solver of the linear system.
65 */
67 LinearSolver solver;
68 solver.setMatrix( matrix_ptr );
69 solver.setOmega( 0.0005 );
70
71 /***
72 * Setup monitor of the iterative solver.
73 */
75 IterativeSolverMonitorType monitor;
76 TNL::Solvers::SolverMonitorThread monitorThread( monitor );
77 monitor.setRefreshRate( 10 ); // refresh rate in milliseconds
78 monitor.setVerbose( 1 );
79 monitor.setStage( "Jacobi stage:" );
80 solver.setSolverMonitor( monitor );
81 solver.setConvergenceResidue( 1.0e-6 );
82 solver.solve( b, x );
83 monitor.stopMainLoop();
85}
86
87int
88main( int argc, char* argv[] )
89{
91 iterativeLinearSolverExample< TNL::Devices::Sequential >();
92
93#ifdef __CUDACC__
95 iterativeLinearSolverExample< TNL::Devices::Cuda >();
96#endif
97}
Implementation of sparse matrix, i.e. matrix storing only non-zero elements.
Definition SparseMatrix.h:55
Iterative solver of linear systems based on the Jacobi method.
Definition Jacobi.h:21
virtual void setMatrix(const MatrixPointer &matrix)
Set the matrix of the linear system.
Definition LinearSolver.h:120
A RAII wrapper for launching the SolverMonitor's main loop in a separate thread.
Definition SolverMonitor.h:133
T endl(T... args)
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: 24453 RES: 0.016884
Jacobi stage: ITER: 49249 RES: 0.00037444
Jacobi stage: ITER: 74247 RES: 8.0478e-06
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: 2227 RES: 0.55512
Jacobi stage: ITER: 3139 RES: 0.46546
Jacobi stage: ITER: 3823 RES: 0.41245
Jacobi stage: ITER: 5209 RES: 0.32785
Jacobi stage: ITER: 5835 RES: 0.29682
Jacobi stage: ITER: 6091 RES: 0.28506
Jacobi stage: ITER: 6361 RES: 0.27314
Jacobi stage: ITER: 6627 RES: 0.26208
Jacobi stage: ITER: 6917 RES: 0.25041
Jacobi stage: ITER: 7243 RES: 0.2381
Jacobi stage: ITER: 7741 RES: 0.22034
Jacobi stage: ITER: 8463 RES: 0.19713
Jacobi stage: ITER: 9101 RES: 0.17861
Jacobi stage: ITER: 9503 RES: 0.16793
Jacobi stage: ITER: 10095 RES: 0.15331
Jacobi stage: ITER: 10443 RES: 0.14532
Jacobi stage: ITER: 11607 RES: 0.12151
Jacobi stage: ITER: 11971 RES: 0.1149
Jacobi stage: ITER: 12159 RES: 0.11163
Jacobi stage: ITER: 12903 RES: 0.099569
Jacobi stage: ITER: 13183 RES: 0.095377
Jacobi stage: ITER: 13407 RES: 0.09215
Jacobi stage: ITER: 13701 RES: 0.088054
Jacobi stage: ITER: 14337 RES: 0.079858
Jacobi stage: ITER: 14575 RES: 0.077015
Jacobi stage: ITER: 14735 RES: 0.075145
Jacobi stage: ITER: 14911 RES: 0.07314
Jacobi stage: ITER: 15083 RES: 0.071233
Jacobi stage: ITER: 15283 RES: 0.069078
Jacobi stage: ITER: 15449 RES: 0.067318
Jacobi stage: ITER: 15763 RES: 0.064168
Jacobi stage: ITER: 15987 RES: 0.061998
Jacobi stage: ITER: 16215 RES: 0.059864
Jacobi stage: ITER: 16431 RES: 0.05791
Jacobi stage: ITER: 16665 RES: 0.055849
Jacobi stage: ITER: 16955 RES: 0.053432
Jacobi stage: ITER: 17227 RES: 0.051246
Jacobi stage: ITER: 17553 RES: 0.048728
Jacobi stage: ITER: 17795 RES: 0.046964
Jacobi stage: ITER: 18121 RES: 0.044657
Jacobi stage: ITER: 18459 RES: 0.04241
Jacobi stage: ITER: 18725 RES: 0.0407
Jacobi stage: ITER: 19047 RES: 0.038748
Jacobi stage: ITER: 19361 RES: 0.036912
Jacobi stage: ITER: 19687 RES: 0.03512
Jacobi stage: ITER: 20023 RES: 0.033353
Jacobi stage: ITER: 20359 RES: 0.031676
Jacobi stage: ITER: 20683 RES: 0.030138
Jacobi stage: ITER: 21019 RES: 0.028622
Jacobi stage: ITER: 21355 RES: 0.027182
Jacobi stage: ITER: 21801 RES: 0.025375
Jacobi stage: ITER: 22127 RES: 0.024143
Jacobi stage: ITER: 22493 RES: 0.022816
Jacobi stage: ITER: 22827 RES: 0.021681
Jacobi stage: ITER: 23185 RES: 0.020515
Jacobi stage: ITER: 23515 RES: 0.019507
Jacobi stage: ITER: 23849 RES: 0.018526
Jacobi stage: ITER: 24185 RES: 0.017594
Jacobi stage: ITER: 24523 RES: 0.016709
Jacobi stage: ITER: 24837 RES: 0.015917
Jacobi stage: ITER: 25145 RES: 0.015182
Jacobi stage: ITER: 25483 RES: 0.014418
Jacobi stage: ITER: 25825 RES: 0.013676
Jacobi stage: ITER: 26169 RES: 0.012972
Jacobi stage: ITER: 26487 RES: 0.012358
Jacobi stage: ITER: 26823 RES: 0.011736
Jacobi stage: ITER: 27155 RES: 0.011153
Jacobi stage: ITER: 27493 RES: 0.010585
Jacobi stage: ITER: 27803 RES: 0.010096
Jacobi stage: ITER: 28127 RES: 0.0096058
Jacobi stage: ITER: 28463 RES: 0.0091226
Jacobi stage: ITER: 28751 RES: 0.0087279
Jacobi stage: ITER: 29011 RES: 0.0083862
Jacobi stage: ITER: 29335 RES: 0.007979
Jacobi stage: ITER: 29615 RES: 0.0076431
Jacobi stage: ITER: 29837 RES: 0.0073846
Jacobi stage: ITER: 30119 RES: 0.0070738
Jacobi stage: ITER: 30375 RES: 0.006801
Jacobi stage: ITER: 30637 RES: 0.0065307
Jacobi stage: ITER: 30967 RES: 0.0062099
Jacobi stage: ITER: 31297 RES: 0.0059011
Jacobi stage: ITER: 31635 RES: 0.0056043
Jacobi stage: ITER: 31971 RES: 0.0053224
Jacobi stage: ITER: 32303 RES: 0.0050578
Jacobi stage: ITER: 32635 RES: 0.0048063
Jacobi stage: ITER: 32931 RES: 0.0045927
Jacobi stage: ITER: 33219 RES: 0.004394
Jacobi stage: ITER: 33551 RES: 0.0041755
Jacobi stage: ITER: 33831 RES: 0.0039997
Jacobi stage: ITER: 34043 RES: 0.0038716
Jacobi stage: ITER: 34369 RES: 0.0036814
Jacobi stage: ITER: 34693 RES: 0.0035026
Jacobi stage: ITER: 35031 RES: 0.0033264
Jacobi stage: ITER: 35313 RES: 0.0031845
Jacobi stage: ITER: 35611 RES: 0.0030429
Jacobi stage: ITER: 35943 RES: 0.0028916
Jacobi stage: ITER: 36275 RES: 0.0027479
Jacobi stage: ITER: 36607 RES: 0.0026112
Jacobi stage: ITER: 36935 RES: 0.0024829
Jacobi stage: ITER: 37263 RES: 0.002361
Jacobi stage: ITER: 37593 RES: 0.0022436
Jacobi stage: ITER: 37823 RES: 0.0021664
Jacobi stage: ITER: 38035 RES: 0.002097
Jacobi stage: ITER: 38367 RES: 0.0019927
Jacobi stage: ITER: 38699 RES: 0.0018936
Jacobi stage: ITER: 39033 RES: 0.0017984
Jacobi stage: ITER: 39367 RES: 0.001709
Jacobi stage: ITER: 39699 RES: 0.001624
Jacobi stage: ITER: 40031 RES: 0.0015433
Jacobi stage: ITER: 40359 RES: 0.0014674
Jacobi stage: ITER: 40627 RES: 0.0014083
Jacobi stage: ITER: 40959 RES: 0.0013382
Jacobi stage: ITER: 41293 RES: 0.0012709
Jacobi stage: ITER: 41625 RES: 0.0012077
Jacobi stage: ITER: 41957 RES: 0.0011477
Jacobi stage: ITER: 42291 RES: 0.0010906
Jacobi stage: ITER: 42623 RES: 0.0010364
Jacobi stage: ITER: 42915 RES: 0.00099095
Jacobi stage: ITER: 43215 RES: 0.00094632
Jacobi stage: ITER: 43523 RES: 0.00090259
Jacobi stage: ITER: 43819 RES: 0.00086248
Jacobi stage: ITER: 44143 RES: 0.0008206
Jacobi stage: ITER: 44473 RES: 0.00077981
Jacobi stage: ITER: 44785 RES: 0.00074332
Jacobi stage: ITER: 45085 RES: 0.00070984
Jacobi stage: ITER: 45403 RES: 0.00067621
Jacobi stage: ITER: 45717 RES: 0.00064417
Jacobi stage: ITER: 46041 RES: 0.0006129
Jacobi stage: ITER: 46351 RES: 0.00058458
Jacobi stage: ITER: 46649 RES: 0.00055825
Jacobi stage: ITER: 46995 RES: 0.00052952
Jacobi stage: ITER: 47347 RES: 0.00050165
Jacobi stage: ITER: 47699 RES: 0.00047525
Jacobi stage: ITER: 48031 RES: 0.00045162
Jacobi stage: ITER: 48363 RES: 0.00042917
Jacobi stage: ITER: 48695 RES: 0.00040783
Jacobi stage: ITER: 49029 RES: 0.00038731
Jacobi stage: ITER: 49361 RES: 0.00036806
Jacobi stage: ITER: 49695 RES: 0.00034976
Jacobi stage: ITER: 50031 RES: 0.00033217
Jacobi stage: ITER: 50365 RES: 0.00031546
Jacobi stage: ITER: 50697 RES: 0.00029977
Jacobi stage: ITER: 51029 RES: 0.00028487
Jacobi stage: ITER: 51363 RES: 0.00027071
Jacobi stage: ITER: 51695 RES: 0.00025725
Jacobi stage: ITER: 52027 RES: 0.00024446
Jacobi stage: ITER: 52359 RES: 0.0002323
Jacobi stage: ITER: 52703 RES: 0.00022035
Jacobi stage: ITER: 53047 RES: 0.00020901
Jacobi stage: ITER: 53389 RES: 0.00019825
Jacobi stage: ITER: 53727 RES: 0.00018828
Jacobi stage: ITER: 54063 RES: 0.00017881
Jacobi stage: ITER: 54395 RES: 0.00016992
Jacobi stage: ITER: 54729 RES: 0.00016137
Jacobi stage: ITER: 55061 RES: 0.00015335
Jacobi stage: ITER: 55393 RES: 0.00014572
Jacobi stage: ITER: 55727 RES: 0.00013848
Jacobi stage: ITER: 56059 RES: 0.00013159
Jacobi stage: ITER: 56391 RES: 0.00012505
Jacobi stage: ITER: 56727 RES: 0.00011876
Jacobi stage: ITER: 57059 RES: 0.00011286
Jacobi stage: ITER: 57391 RES: 0.00010725
Jacobi stage: ITER: 57723 RES: 0.00010191
Jacobi stage: ITER: 58055 RES: 9.6847e-05
Jacobi stage: ITER: 58387 RES: 9.2032e-05
Jacobi stage: ITER: 58721 RES: 8.7403e-05
Jacobi stage: ITER: 59053 RES: 8.3057e-05
Jacobi stage: ITER: 59387 RES: 7.8928e-05
Jacobi stage: ITER: 59719 RES: 7.5004e-05
Jacobi stage: ITER: 60051 RES: 7.1275e-05
Jacobi stage: ITER: 60383 RES: 6.7731e-05
Jacobi stage: ITER: 60717 RES: 6.4324e-05
Jacobi stage: ITER: 61049 RES: 6.1126e-05
Jacobi stage: ITER: 61383 RES: 5.8087e-05
Jacobi stage: ITER: 61715 RES: 5.5199e-05
Jacobi stage: ITER: 62047 RES: 5.2455e-05
Jacobi stage: ITER: 62379 RES: 4.9847e-05
Jacobi stage: ITER: 62711 RES: 4.7369e-05
Jacobi stage: ITER: 63045 RES: 4.4986e-05
Jacobi stage: ITER: 63377 RES: 4.275e-05
Jacobi stage: ITER: 63711 RES: 4.0624e-05
Jacobi stage: ITER: 64043 RES: 3.8604e-05
Jacobi stage: ITER: 64375 RES: 3.6685e-05
Jacobi stage: ITER: 64707 RES: 3.4861e-05
Jacobi stage: ITER: 65039 RES: 3.3128e-05
Jacobi stage: ITER: 65371 RES: 3.1481e-05
Jacobi stage: ITER: 65705 RES: 2.9897e-05
Jacobi stage: ITER: 66037 RES: 2.8411e-05
Jacobi stage: ITER: 66369 RES: 2.6999e-05
Jacobi stage: ITER: 66703 RES: 2.5656e-05
Jacobi stage: ITER: 67035 RES: 2.4381e-05
Jacobi stage: ITER: 67367 RES: 2.3169e-05
Jacobi stage: ITER: 67699 RES: 2.2017e-05
Jacobi stage: ITER: 68031 RES: 2.0922e-05
Jacobi stage: ITER: 68365 RES: 1.987e-05
Jacobi stage: ITER: 68697 RES: 1.8882e-05
Jacobi stage: ITER: 69031 RES: 1.7943e-05
Jacobi stage: ITER: 69363 RES: 1.7051e-05
Jacobi stage: ITER: 69695 RES: 1.6203e-05
Jacobi stage: ITER: 70027 RES: 1.5398e-05
Jacobi stage: ITER: 70359 RES: 1.4632e-05
Jacobi stage: ITER: 70693 RES: 1.3896e-05
Jacobi stage: ITER: 71027 RES: 1.3205e-05
Jacobi stage: ITER: 71359 RES: 1.2549e-05
Jacobi stage: ITER: 71691 RES: 1.1925e-05
Jacobi stage: ITER: 72023 RES: 1.1332e-05
Jacobi stage: ITER: 72355 RES: 1.0769e-05
Jacobi stage: ITER: 72687 RES: 1.0233e-05
Jacobi stage: ITER: 73021 RES: 9.7184e-06
Jacobi stage: ITER: 73353 RES: 9.2353e-06
Jacobi stage: ITER: 73687 RES: 8.7761e-06
Jacobi stage: ITER: 74019 RES: 8.3398e-06
Jacobi stage: ITER: 74351 RES: 7.9252e-06
Jacobi stage: ITER: 74683 RES: 7.5311e-06
Jacobi stage: ITER: 75017 RES: 7.1523e-06
Jacobi stage: ITER: 75349 RES: 6.7967e-06
Jacobi stage: ITER: 75681 RES: 6.4588e-06
Jacobi stage: ITER: 76015 RES: 6.1377e-06
Jacobi stage: ITER: 76347 RES: 5.8325e-06
Jacobi stage: ITER: 76679 RES: 5.5426e-06
Jacobi stage: ITER: 77011 RES: 5.267e-06
Jacobi stage: ITER: 77343 RES: 5.0051e-06
Jacobi stage: ITER: 77675 RES: 4.7563e-06
Jacobi stage: ITER: 78009 RES: 4.5171e-06
Jacobi stage: ITER: 78341 RES: 4.2925e-06
Jacobi stage: ITER: 78675 RES: 4.0791e-06
Jacobi stage: ITER: 79007 RES: 3.8763e-06
Jacobi stage: ITER: 79339 RES: 3.6836e-06
Jacobi stage: ITER: 79671 RES: 3.5004e-06
Jacobi stage: ITER: 80003 RES: 3.3264e-06
Jacobi stage: ITER: 80335 RES: 3.161e-06
Jacobi stage: ITER: 80669 RES: 3.002e-06
Jacobi stage: ITER: 81055 RES: 2.8301e-06
Jacobi stage: ITER: 81577 RES: 2.6112e-06
Jacobi stage: ITER: 82077 RES: 2.4182e-06
Jacobi stage: ITER: 82577 RES: 2.2394e-06
Jacobi stage: ITER: 83075 RES: 2.0751e-06
Jacobi stage: ITER: 83573 RES: 1.9217e-06
Jacobi stage: ITER: 84073 RES: 1.7797e-06
Jacobi stage: ITER: 84571 RES: 1.6491e-06
Jacobi stage: ITER: 85071 RES: 1.5272e-06
Jacobi stage: ITER: 85571 RES: 1.4143e-06
Jacobi stage: ITER: 86071 RES: 1.3097e-06
Jacobi stage: ITER: 86571 RES: 1.2129e-06
Jacobi stage: ITER: 87071 RES: 1.1233e-06
Jacobi stage: ITER: 87569 RES: 1.0402e-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:
1#include <iostream>
2#include <memory>
3#include <chrono>
4#include <thread>
5#include <TNL/Timer.h>
6#include <TNL/Matrices/SparseMatrix.h>
7#include <TNL/Devices/Sequential.h>
8#include <TNL/Devices/Cuda.h>
9#include <TNL/Solvers/Linear/Jacobi.h>
10
11template< typename Device >
12void
13iterativeLinearSolverExample()
14{
15 /***
16 * Set the following matrix (dots represent zero matrix elements):
17 *
18 * / 2.5 -1 . . . \
19 * | -1 2.5 -1 . . |
20 * | . -1 2.5 -1. . |
21 * | . . -1 2.5 -1 |
22 * \ . . . -1 2.5 /
23 */
26 const int size( 5 );
28 matrix_ptr->setDimensions( size, size );
29 matrix_ptr->setRowCapacities( Vector( { 2, 3, 3, 3, 2 } ) );
30
32 {
33 const int rowIdx = row.getRowIndex();
34 if( rowIdx == 0 ) {
35 row.setElement( 0, rowIdx, 2.5 ); // diagonal element
36 row.setElement( 1, rowIdx + 1, -1 ); // element above the diagonal
37 }
38 else if( rowIdx == size - 1 ) {
39 row.setElement( 0, rowIdx - 1, -1.0 ); // element below the diagonal
40 row.setElement( 1, rowIdx, 2.5 ); // diagonal element
41 }
42 else {
43 row.setElement( 0, rowIdx - 1, -1.0 ); // element below the diagonal
44 row.setElement( 1, rowIdx, 2.5 ); // diagonal element
45 row.setElement( 2, rowIdx + 1, -1.0 ); // element above the diagonal
46 }
47 };
48
49 /***
50 * Set the matrix elements.
51 */
52 matrix_ptr->forAllRows( f );
54
55 /***
56 * Set the right-hand side vector.
57 */
58 Vector x( size, 1.0 );
59 Vector b( size );
60 matrix_ptr->vectorProduct( x, b );
61 x = 0.0;
63
64 /***
65 * Setup solver of the linear system.
66 */
68 LinearSolver solver;
69 solver.setMatrix( matrix_ptr );
70 solver.setOmega( 0.0005 );
71
72 /***
73 * Setup monitor of the iterative solver.
74 */
76 IterativeSolverMonitorType monitor;
77 TNL::Solvers::SolverMonitorThread mmonitorThread( monitor );
78 monitor.setRefreshRate( 10 ); // refresh rate in milliseconds
79 monitor.setVerbose( 1 );
80 monitor.setStage( "Jacobi stage:" );
81 TNL::Timer timer;
82 monitor.setTimer( timer );
83 timer.start();
84 solver.setSolverMonitor( monitor );
85 solver.setConvergenceResidue( 1.0e-6 );
86 solver.solve( b, x );
87 monitor.stopMainLoop();
89}
90
91int
92main( int argc, char* argv[] )
93{
95 iterativeLinearSolverExample< TNL::Devices::Sequential >();
96
97#ifdef __CUDACC__
99 iterativeLinearSolverExample< TNL::Devices::Cuda >();
100#endif
101}
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:6.778e-0
ELA: 0.10009 Jacobi stage: ITER: 25677 RES: 0.013991
ELA: 0.2002 Jacobi stage: ITER: 52169 RES: 0.00023911
ELA: 0.3003 Jacobi stage: ITER: 79019 RES: 3.8691e-06
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:1.702e-0
ELA: 0.10012 Jacobi stage: ITER: 2211 RES: 0.5565
ELA: 0.20024 Jacobi stage: ITER: 4383 RES: 0.37526
ELA: 0.30034 Jacobi stage: ITER: 6127 RES: 0.28345
ELA: 0.40045 Jacobi stage: ITER: 7395 RES: 0.23255
ELA: 0.50055 Jacobi stage: ITER: 8325 RES: 0.20131
ELA: 0.60065 Jacobi stage: ITER: 9315 RES: 0.17287
ELA: 0.70075 Jacobi stage: ITER: 10161 RES: 0.15171
ELA: 0.80104 Jacobi stage: ITER: 10535 RES: 0.14328
ELA: 0.90114 Jacobi stage: ITER: 11035 RES: 0.13268
ELA: 1.0012 Jacobi stage: ITER: 11461 RES: 0.12423
ELA: 1.102 Jacobi stage: ITER: 11991 RES: 0.11455
ELA: 1.2021 Jacobi stage: ITER: 12327 RES: 0.10878
ELA: 1.303 Jacobi stage: ITER: 12643 RES: 0.10363
ELA: 1.4031 Jacobi stage: ITER: 12915 RES: 0.099386
ELA: 1.5032 Jacobi stage: ITER: 13437 RES: 0.091698
ELA: 1.6033 Jacobi stage: ITER: 14919 RES: 0.073051
ELA: 1.7034 Jacobi stage: ITER: 15139 RES: 0.070623
ELA: 1.8038 Jacobi stage: ITER: 15587 RES: 0.065927
ELA: 1.906 Jacobi stage: ITER: 16203 RES: 0.059975
ELA: 2.0062 Jacobi stage: ITER: 16379 RES: 0.058375
ELA: 2.1063 Jacobi stage: ITER: 16555 RES: 0.056818
ELA: 2.211 Jacobi stage: ITER: 16985 RES: 0.05317
ELA: 2.3111 Jacobi stage: ITER: 17167 RES: 0.05172
ELA: 2.4112 Jacobi stage: ITER: 17335 RES: 0.050402
ELA: 2.5113 Jacobi stage: ITER: 18003 RES: 0.045487
ELA: 2.6114 Jacobi stage: ITER: 18341 RES: 0.043173
ELA: 2.7115 Jacobi stage: ITER: 18775 RES: 0.040401
ELA: 2.8116 Jacobi stage: ITER: 19143 RES: 0.038181
ELA: 2.9117 Jacobi stage: ITER: 19309 RES: 0.037208
ELA: 3.0118 Jacobi stage: ITER: 19611 RES: 0.035532
ELA: 3.1119 Jacobi stage: ITER: 20163 RES: 0.032644
ELA: 3.212 Jacobi stage: ITER: 20511 RES: 0.030945
ELA: 3.3121 Jacobi stage: ITER: 20873 RES: 0.029262
ELA: 3.4122 Jacobi stage: ITER: 21195 RES: 0.027858
ELA: 3.5123 Jacobi stage: ITER: 21875 RES: 0.025095
ELA: 3.6125 Jacobi stage: ITER: 22259 RES: 0.023658
ELA: 3.7126 Jacobi stage: ITER: 22639 RES: 0.022317
ELA: 3.8127 Jacobi stage: ITER: 22991 RES: 0.021142
ELA: 3.9128 Jacobi stage: ITER: 23359 RES: 0.01998
ELA: 4.0129 Jacobi stage: ITER: 23683 RES: 0.01901
ELA: 4.113 Jacobi stage: ITER: 24017 RES: 0.018054
ELA: 4.213 Jacobi stage: ITER: 24375 RES: 0.017093
ELA: 4.3132 Jacobi stage: ITER: 24701 RES: 0.016253
ELA: 4.4133 Jacobi stage: ITER: 25011 RES: 0.015502
ELA: 4.5134 Jacobi stage: ITER: 25335 RES: 0.01475
ELA: 4.6135 Jacobi stage: ITER: 25671 RES: 0.014008
ELA: 4.7136 Jacobi stage: ITER: 26005 RES: 0.013303
ELA: 4.8137 Jacobi stage: ITER: 26337 RES: 0.012642
ELA: 4.9138 Jacobi stage: ITER: 26669 RES: 0.012013
ELA: 5.0139 Jacobi stage: ITER: 27007 RES: 0.011409
ELA: 5.114 Jacobi stage: ITER: 27375 RES: 0.010782
ELA: 5.2141 Jacobi stage: ITER: 27695 RES: 0.010265
ELA: 5.3142 Jacobi stage: ITER: 28057 RES: 0.0097067
ELA: 5.4143 Jacobi stage: ITER: 28391 RES: 0.0092241
ELA: 5.516 Jacobi stage: ITER: 28743 RES: 0.0087386
ELA: 5.617 Jacobi stage: ITER: 29075 RES: 0.0083041
ELA: 5.7172 Jacobi stage: ITER: 29411 RES: 0.0078864
ELA: 5.8173 Jacobi stage: ITER: 29747 RES: 0.0074897
ELA: 5.918 Jacobi stage: ITER: 30085 RES: 0.0071086
ELA: 6.022 Jacobi stage: ITER: 30413 RES: 0.0067594
ELA: 6.1221 Jacobi stage: ITER: 30739 RES: 0.0064312
ELA: 6.2222 Jacobi stage: ITER: 31075 RES: 0.0061077
ELA: 6.3241 Jacobi stage: ITER: 31357 RES: 0.005847
ELA: 6.4242 Jacobi stage: ITER: 31549 RES: 0.0056771
ELA: 6.5243 Jacobi stage: ITER: 31793 RES: 0.0054682
ELA: 6.6244 Jacobi stage: ITER: 32131 RES: 0.0051932
ELA: 6.7245 Jacobi stage: ITER: 32463 RES: 0.004935
ELA: 6.8246 Jacobi stage: ITER: 32801 RES: 0.0046839
ELA: 6.9247 Jacobi stage: ITER: 33111 RES: 0.0044675
ELA: 7.0248 Jacobi stage: ITER: 33435 RES: 0.0042506
ELA: 7.1249 Jacobi stage: ITER: 33767 RES: 0.0040392
ELA: 7.228 Jacobi stage: ITER: 34107 RES: 0.0038337
ELA: 7.3281 Jacobi stage: ITER: 34459 RES: 0.0036319
ELA: 7.4283 Jacobi stage: ITER: 34789 RES: 0.0034514
ELA: 7.5284 Jacobi stage: ITER: 35159 RES: 0.0032617
ELA: 7.629 Jacobi stage: ITER: 35557 RES: 0.0030673
ELA: 7.7292 Jacobi stage: ITER: 35883 RES: 0.0029184
ELA: 7.8293 Jacobi stage: ITER: 36221 RES: 0.0027699
ELA: 7.9294 Jacobi stage: ITER: 36591 RES: 0.0026177
ELA: 8.0295 Jacobi stage: ITER: 36923 RES: 0.0024875
ELA: 8.1296 Jacobi stage: ITER: 37247 RES: 0.0023668
ELA: 8.2297 Jacobi stage: ITER: 37585 RES: 0.0022463
ELA: 8.3298 Jacobi stage: ITER: 37921 RES: 0.0021333
ELA: 8.4299 Jacobi stage: ITER: 38255 RES: 0.0020273
ELA: 8.53 Jacobi stage: ITER: 38587 RES: 0.0019265
ELA: 8.6301 Jacobi stage: ITER: 38875 RES: 0.0018431
ELA: 8.7302 Jacobi stage: ITER: 39195 RES: 0.0017547
ELA: 8.8303 Jacobi stage: ITER: 39521 RES: 0.0016685
ELA: 8.9304 Jacobi stage: ITER: 39889 RES: 0.0015768
ELA: 9.0305 Jacobi stage: ITER: 40267 RES: 0.0014883
ELA: 9.1306 Jacobi stage: ITER: 40599 RES: 0.0014143
ELA: 9.2307 Jacobi stage: ITER: 40927 RES: 0.0013448
ELA: 9.3308 Jacobi stage: ITER: 41265 RES: 0.0012764
ELA: 9.4309 Jacobi stage: ITER: 41599 RES: 0.0012129
ELA: 9.531 Jacobi stage: ITER: 41899 RES: 0.0011583
ELA: 9.6311 Jacobi stage: ITER: 42239 RES: 0.0010994
ELA: 9.7312 Jacobi stage: ITER: 42571 RES: 0.0010447
ELA: 9.8313 Jacobi stage: ITER: 42903 RES: 0.00099278
ELA: 9.9314 Jacobi stage: ITER: 43239 RES: 0.00094284
ELA: 10.031 Jacobi stage: ITER: 43573 RES: 0.00089541
ELA: 10.132 Jacobi stage: ITER: 43907 RES: 0.0008509
ELA: 10.232 Jacobi stage: ITER: 44303 RES: 0.00080068
ELA: 10.332 Jacobi stage: ITER: 44683 RES: 0.00075529
ELA: 10.432 Jacobi stage: ITER: 45015 RES: 0.00071773
ELA: 10.532 Jacobi stage: ITER: 45349 RES: 0.00068163
ELA: 10.632 Jacobi stage: ITER: 45681 RES: 0.00064774
ELA: 10.732 Jacobi stage: ITER: 46015 RES: 0.00061554
ELA: 10.832 Jacobi stage: ITER: 46347 RES: 0.00058494
ELA: 10.932 Jacobi stage: ITER: 46679 RES: 0.00055585
ELA: 11.032 Jacobi stage: ITER: 47019 RES: 0.00052757
ELA: 11.133 Jacobi stage: ITER: 47379 RES: 0.00049919
ELA: 11.233 Jacobi stage: ITER: 47711 RES: 0.00047437
ELA: 11.333 Jacobi stage: ITER: 48043 RES: 0.00045079
ELA: 11.433 Jacobi stage: ITER: 48377 RES: 0.00042811
ELA: 11.533 Jacobi stage: ITER: 48709 RES: 0.00040683
ELA: 11.634 Jacobi stage: ITER: 49041 RES: 0.0003866
ELA: 11.734 Jacobi stage: ITER: 49375 RES: 0.00036738
ELA: 11.834 Jacobi stage: ITER: 49725 RES: 0.00034804
ELA: 11.934 Jacobi stage: ITER: 50083 RES: 0.00032952
ELA: 12.034 Jacobi stage: ITER: 50423 RES: 0.00031276
ELA: 12.134 Jacobi stage: ITER: 50773 RES: 0.00029629
ELA: 12.234 Jacobi stage: ITER: 51171 RES: 0.00027881
ELA: 12.334 Jacobi stage: ITER: 51507 RES: 0.00026478
ELA: 12.434 Jacobi stage: ITER: 51855 RES: 0.000251
ELA: 12.534 Jacobi stage: ITER: 52193 RES: 0.00023823
ELA: 12.635 Jacobi stage: ITER: 52521 RES: 0.00022653
ELA: 12.735 Jacobi stage: ITER: 52859 RES: 0.00021513
ELA: 12.835 Jacobi stage: ITER: 53199 RES: 0.00020418
ELA: 12.935 Jacobi stage: ITER: 53543 RES: 0.00019368
ELA: 13.035 Jacobi stage: ITER: 53897 RES: 0.00018337
ELA: 13.136 Jacobi stage: ITER: 54169 RES: 0.00017587
ELA: 13.236 Jacobi stage: ITER: 54415 RES: 0.0001694
ELA: 13.336 Jacobi stage: ITER: 54691 RES: 0.00016237
ELA: 13.436 Jacobi stage: ITER: 55023 RES: 0.00015429
ELA: 13.536 Jacobi stage: ITER: 55355 RES: 0.00014662
ELA: 13.636 Jacobi stage: ITER: 55687 RES: 0.00013933
ELA: 13.736 Jacobi stage: ITER: 56021 RES: 0.00013232
ELA: 13.836 Jacobi stage: ITER: 56353 RES: 0.00012575
ELA: 13.936 Jacobi stage: ITER: 56685 RES: 0.00011949
ELA: 14.036 Jacobi stage: ITER: 57023 RES: 0.00011348
ELA: 14.137 Jacobi stage: ITER: 57355 RES: 0.00010784
ELA: 14.237 Jacobi stage: ITER: 57687 RES: 0.00010248
ELA: 14.337 Jacobi stage: ITER: 58019 RES: 9.7384e-05
ELA: 14.437 Jacobi stage: ITER: 58351 RES: 9.2543e-05
ELA: 14.537 Jacobi stage: ITER: 58685 RES: 8.7888e-05
ELA: 14.637 Jacobi stage: ITER: 59017 RES: 8.3518e-05
ELA: 14.737 Jacobi stage: ITER: 59349 RES: 7.9366e-05
ELA: 14.837 Jacobi stage: ITER: 59695 RES: 7.5281e-05
ELA: 14.937 Jacobi stage: ITER: 60035 RES: 7.145e-05
ELA: 15.037 Jacobi stage: ITER: 60383 RES: 6.7731e-05
ELA: 15.138 Jacobi stage: ITER: 60719 RES: 6.4324e-05
ELA: 15.238 Jacobi stage: ITER: 61047 RES: 6.1164e-05
ELA: 15.338 Jacobi stage: ITER: 61379 RES: 5.8123e-05
ELA: 15.438 Jacobi stage: ITER: 61711 RES: 5.5233e-05
ELA: 15.538 Jacobi stage: ITER: 62045 RES: 5.2455e-05
ELA: 15.638 Jacobi stage: ITER: 62377 RES: 4.9847e-05
ELA: 15.738 Jacobi stage: ITER: 62709 RES: 4.7369e-05
ELA: 15.839 Jacobi stage: ITER: 63043 RES: 4.5014e-05
ELA: 15.939 Jacobi stage: ITER: 63375 RES: 4.2776e-05
ELA: 16.039 Jacobi stage: ITER: 63701 RES: 4.0674e-05
ELA: 16.139 Jacobi stage: ITER: 64033 RES: 3.8652e-05
ELA: 16.239 Jacobi stage: ITER: 64365 RES: 3.673e-05
ELA: 16.339 Jacobi stage: ITER: 64699 RES: 3.4904e-05
ELA: 16.439 Jacobi stage: ITER: 65031 RES: 3.3169e-05
ELA: 16.539 Jacobi stage: ITER: 65363 RES: 3.152e-05
ELA: 16.639 Jacobi stage: ITER: 65695 RES: 2.9953e-05
ELA: 16.74 Jacobi stage: ITER: 66027 RES: 2.8463e-05
ELA: 16.84 Jacobi stage: ITER: 66359 RES: 2.7048e-05
ELA: 16.94 Jacobi stage: ITER: 66691 RES: 2.5704e-05
ELA: 17.04 Jacobi stage: ITER: 67025 RES: 2.4411e-05
ELA: 17.14 Jacobi stage: ITER: 67357 RES: 2.3197e-05
ELA: 17.24 Jacobi stage: ITER: 67689 RES: 2.2044e-05
ELA: 17.34 Jacobi stage: ITER: 68023 RES: 2.0948e-05
ELA: 17.44 Jacobi stage: ITER: 68355 RES: 1.9906e-05
ELA: 17.54 Jacobi stage: ITER: 68687 RES: 1.8917e-05
ELA: 17.64 Jacobi stage: ITER: 69019 RES: 1.7976e-05
ELA: 17.741 Jacobi stage: ITER: 69353 RES: 1.7072e-05
ELA: 17.841 Jacobi stage: ITER: 69685 RES: 1.6223e-05
ELA: 17.941 Jacobi stage: ITER: 70017 RES: 1.5417e-05
ELA: 18.041 Jacobi stage: ITER: 70349 RES: 1.465e-05
ELA: 18.141 Jacobi stage: ITER: 70683 RES: 1.3922e-05
ELA: 18.241 Jacobi stage: ITER: 71015 RES: 1.323e-05
ELA: 18.341 Jacobi stage: ITER: 71347 RES: 1.2572e-05
ELA: 18.441 Jacobi stage: ITER: 71679 RES: 1.1947e-05
ELA: 18.541 Jacobi stage: ITER: 72011 RES: 1.1353e-05
ELA: 18.642 Jacobi stage: ITER: 72345 RES: 1.0782e-05
ELA: 18.742 Jacobi stage: ITER: 72677 RES: 1.0246e-05
ELA: 18.842 Jacobi stage: ITER: 73011 RES: 9.7364e-06
ELA: 18.942 Jacobi stage: ITER: 73343 RES: 9.2523e-06
ELA: 19.042 Jacobi stage: ITER: 73675 RES: 8.7923e-06
ELA: 19.142 Jacobi stage: ITER: 74007 RES: 8.3552e-06
ELA: 19.242 Jacobi stage: ITER: 74339 RES: 7.9398e-06
ELA: 19.342 Jacobi stage: ITER: 74671 RES: 7.545e-06
ELA: 19.442 Jacobi stage: ITER: 75005 RES: 7.1655e-06
ELA: 19.542 Jacobi stage: ITER: 75337 RES: 6.8093e-06
ELA: 19.643 Jacobi stage: ITER: 75671 RES: 6.4707e-06
ELA: 19.743 Jacobi stage: ITER: 76003 RES: 6.149e-06
ELA: 19.843 Jacobi stage: ITER: 76335 RES: 5.8433e-06
ELA: 19.943 Jacobi stage: ITER: 76667 RES: 5.5528e-06
ELA: 20.043 Jacobi stage: ITER: 76999 RES: 5.2735e-06
ELA: 20.143 Jacobi stage: ITER: 77333 RES: 5.0113e-06
ELA: 20.243 Jacobi stage: ITER: 77667 RES: 4.7621e-06
ELA: 20.343 Jacobi stage: ITER: 77999 RES: 4.5254e-06
ELA: 20.443 Jacobi stage: ITER: 78331 RES: 4.3004e-06
ELA: 20.544 Jacobi stage: ITER: 78663 RES: 4.0866e-06
ELA: 20.644 Jacobi stage: ITER: 78995 RES: 3.8834e-06
ELA: 20.744 Jacobi stage: ITER: 79329 RES: 3.6881e-06
ELA: 20.844 Jacobi stage: ITER: 79661 RES: 3.5047e-06
ELA: 20.944 Jacobi stage: ITER: 79995 RES: 3.3305e-06
ELA: 21.044 Jacobi stage: ITER: 80327 RES: 3.1649e-06
ELA: 21.144 Jacobi stage: ITER: 80659 RES: 3.0075e-06
ELA: 21.244 Jacobi stage: ITER: 80991 RES: 2.858e-06
ELA: 21.344 Jacobi stage: ITER: 81323 RES: 2.7159e-06
ELA: 21.444 Jacobi stage: ITER: 81657 RES: 2.5793e-06
ELA: 21.545 Jacobi stage: ITER: 81989 RES: 2.4511e-06
ELA: 21.645 Jacobi stage: ITER: 82323 RES: 2.3292e-06
ELA: 21.745 Jacobi stage: ITER: 82655 RES: 2.2134e-06
ELA: 21.845 Jacobi stage: ITER: 82987 RES: 2.1034e-06
ELA: 21.945 Jacobi stage: ITER: 83319 RES: 1.9988e-06
ELA: 22.045 Jacobi stage: ITER: 83651 RES: 1.8994e-06
ELA: 22.145 Jacobi stage: ITER: 83985 RES: 1.8039e-06
ELA: 22.245 Jacobi stage: ITER: 84317 RES: 1.7142e-06
ELA: 22.345 Jacobi stage: ITER: 84649 RES: 1.629e-06
ELA: 22.446 Jacobi stage: ITER: 84983 RES: 1.548e-06
ELA: 22.546 Jacobi stage: ITER: 85315 RES: 1.471e-06
ELA: 22.646 Jacobi stage: ITER: 85647 RES: 1.3979e-06
ELA: 22.746 Jacobi stage: ITER: 85979 RES: 1.3284e-06
ELA: 22.846 Jacobi stage: ITER: 86311 RES: 1.2623e-06
ELA: 22.946 Jacobi stage: ITER: 86645 RES: 1.1988e-06
ELA: 23.046 Jacobi stage: ITER: 86977 RES: 1.1392e-06
ELA: 23.146 Jacobi stage: ITER: 87309 RES: 1.0826e-06
ELA: 23.246 Jacobi stage: ITER: 87643 RES: 1.0288e-06
Vector x = [ 0.999999, 0.999999, 0.999998, 0.999999, 0.999999 ]
Member Function Documentation
◆ refresh()
template<typename Real = double>
|
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
Generated on for Template Numerical Library by
1.15.0