smallbox: examples/SMALL_solver

annotate examples/SMALL_solver_test.m @ 128:8e660fd14774 ivand_dev

Feature 186

author	Ivan Damnjanovic lnx <ivan.damnjanovic@eecs.qmul.ac.uk>
date	Mon, 13 Jun 2011 14:55:45 +0100
parents	002ec1b2ceff
children	855025f4c779

rev	line source
idamnjanovic@1	1 function SMALL_solver_test
ivan@128	2 %% Example test of solvers from different toolboxes on Sparco problem 6
idamnjanovic@1	3 %
idamnjanovic@1	4 % The main purpose of this example is to show how to use SMALL structure
idamnjanovic@1	5 % to solve SPARCO compressed sensing problems (1-11) and compare results
idamnjanovic@1	6 % from different solvers.
idamnjanovic@1	7 % To generate SMALL.Problem part of structure you can use generateProblem
idamnjanovic@1	8 % function from Sparco toolbox giving the problem number and any
idamnjanovic@1	9 % additional parameters you might want to change. Alternatively, you can
idamnjanovic@1	10 % might want to consult sparco documentation to write a problem by
idamnjanovic@1	11 % yourself. There are four fields the must be specified in SMALL.Problem
idamnjanovic@1	12 % - A, b, sizeA and reconstruct.
idamnjanovic@1	13 %
idamnjanovic@1	14 % To generate SMALL.solver part of the structure you must specify three
idamnjanovic@1	15 % fields:
idamnjanovic@1	16 %
idamnjanovic@1	17 % SMALL.solver.toolbox - string with toolbox name is needed because
idamnjanovic@1	18 % different toolboxes are calling solver
idamnjanovic@1	19 % functions in different ways.
idamnjanovic@1	20 % SMALL.solver.name - its string representing solver name (e.g.
idamnjanovic@1	21 % SolveOMP)
idamnjanovic@1	22 % SMALL.solver.param - string that contains optional parameters for
idamnjanovic@1	23 % particular solver (all parameters you want to
idamnjanovic@1	24 % specify except A, b and size of solution)
idamnjanovic@1	25 %
idamnjanovic@1	26 % Every call to SMALL_solve function will generate following output:
idamnjanovic@1	27 %
idamnjanovic@1	28 % SMALL.solver.solution - contains solution vector x
idamnjanovic@1	29 % SMALL.solver.reconstructed - vector containing signal reconstructed
idamnjanovic@1	30 % from the solution
idamnjanovic@1	31 % SMALL.solver.time - time that solver spent to find the solution
idamnjanovic@1	32 %
idamnjanovic@1	33 % SMALL_plot function plots the SMALL.solver.solution and reconstructed
idamnjanovic@1	34 % against original signal.
idamnjanovic@1	35 %
idamnjanovic@1	36 % In this particular example we are testing SMALL_cgp, SMALL_chol,
idamnjanovic@1	37 % SolveOMP form SparseLab and greed_pcgp form Sparsify against "PROB006
idamnjanovic@1	38 % Daubechies basis, Gaussian ensemble measurement basis, piecewise cubic
idamnjanovic@1	39 % polynomial signal" from Sparco.
idamnjanovic@1	40 %
idamnjanovic@1	41 %
idamnjanovic@25	42
idamnjanovic@25	43
maria@83	44 % Centre for Digital Music, Queen Mary, University of London.
maria@83	45 % This file copyright 2009 Ivan Damnjanovic.
maria@83	46 %
maria@83	47 % This program is free software; you can redistribute it and/or
maria@83	48 % modify it under the terms of the GNU General Public License as
maria@83	49 % published by the Free Software Foundation; either version 2 of the
maria@83	50 % License, or (at your option) any later version. See the file
maria@83	51 % COPYING included with this distribution for more information.
maria@83	52 %%
idamnjanovic@1	53
idamnjanovic@20	54 fprintf('\n\nExample test of SMALL solvers against their counterparts on Sparco problems.\n\n');
idamnjanovic@1	55
idamnjanovic@1	56 %%
idamnjanovic@1	57 % Generate SPARCO problem
idamnjanovic@41	58 clear
idamnjanovic@4	59
idamnjanovic@1	60 SMALL.Problem = generateProblem(6, 'P', 6, 'm', 270,'n',1024, 'show');
idamnjanovic@1	61 %%
idamnjanovic@4	62 i=1;
idamnjanovic@20	63 % %%
idamnjanovic@20	64 % % SMALL Conjugate Gradient test
idamnjanovic@20	65 % SMALL.solver(i)=SMALL_init_solver;
idamnjanovic@20	66 % SMALL.solver(i).toolbox='SMALL';
idamnjanovic@20	67 % SMALL.solver(i).name='SMALL_cgp';
idamnjanovic@20	68 %
idamnjanovic@20	69 % % In the following string all parameters except matrix, measurement vector
idamnjanovic@20	70 % % and size of solution need to be specified. If you are not sure which
idamnjanovic@20	71 % % parameters are needed for particular solver type "help <Solver name>" in
idamnjanovic@20	72 % % MATLAB command line
idamnjanovic@20	73 %
idamnjanovic@20	74 % SMALL.solver(i).param='200, 1e-14';
idamnjanovic@20	75 %
idamnjanovic@20	76 % SMALL.solver(i)=SMALL_solve(SMALL.Problem,SMALL.solver(i));
idamnjanovic@20	77 %
idamnjanovic@20	78 %
idamnjanovic@20	79 % i=i+1;
idamnjanovic@1	80 %%
idamnjanovic@41	81 % SMALL Conjugate Gradient test
idamnjanovic@4	82 SMALL.solver(i)=SMALL_init_solver;
idamnjanovic@4	83 SMALL.solver(i).toolbox='SMALL';
idamnjanovic@41	84 SMALL.solver(i).name='SMALL_cgp';
idamnjanovic@1	85
idamnjanovic@1	86 % In the following string all parameters except matrix, measurement vector
idamnjanovic@1	87 % and size of solution need to be specified. If you are not sure which
idamnjanovic@1	88 % parameters are needed for particular solver type "help <Solver name>" in
idamnjanovic@1	89 % MATLAB command line
idamnjanovic@1	90
idamnjanovic@4	91 SMALL.solver(i).param='200, 1e-14';
idamnjanovic@1	92
idamnjanovic@41	93 SMALL.solver(i)=SMALL_solve(SMALL.Problem,SMALL.solver(i));
idamnjanovic@41	94
idamnjanovic@1	95
idamnjanovic@4	96 i=i+1;
idamnjanovic@41	97
idamnjanovic@1	98 %%
idamnjanovic@1	99 % SolveOMP from SparseLab test
idamnjanovic@1	100
idamnjanovic@4	101 SMALL.solver(i)=SMALL_init_solver;
idamnjanovic@4	102 SMALL.solver(i).toolbox='SparseLab';
idamnjanovic@4	103 SMALL.solver(i).name='SolveOMP';
idamnjanovic@1	104
idamnjanovic@1	105 % In the following string all parameters except matrix, measurement vector
idamnjanovic@1	106 % and size of solution need to be specified. If you are not sure which
idamnjanovic@1	107 % parameters are needed for particular solver type "help <Solver name>" in
idamnjanovic@1	108 % MATLAB command line
idamnjanovic@1	109
idamnjanovic@4	110 SMALL.solver(i).param='200, 0, 0, 0, 1e-14';
idamnjanovic@1	111
idamnjanovic@4	112 SMALL.solver(i)=SMALL_solve(SMALL.Problem, SMALL.solver(i));
idamnjanovic@1	113
idamnjanovic@4	114 i=i+1;
idamnjanovic@1	115
idamnjanovic@1	116 %%
idamnjanovic@41	117 % SMALL OMP with Cholesky update test
idamnjanovic@41	118 SMALL.solver(i)=SMALL_init_solver;
idamnjanovic@41	119 SMALL.solver(i).toolbox='SMALL';
idamnjanovic@41	120 SMALL.solver(i).name='SMALL_chol';
idamnjanovic@41	121
idamnjanovic@41	122 % In the following string all parameters except matrix, measurement vector
idamnjanovic@41	123 % and size of solution need to be specified. If you are not sure which
idamnjanovic@41	124 % parameters are needed for particular solver type "help <Solver name>" in
idamnjanovic@41	125 % MATLAB command line
idamnjanovic@41	126
idamnjanovic@41	127 SMALL.solver(i).param='200, 1e-14';
idamnjanovic@41	128
idamnjanovic@41	129 SMALL.solver(i)=SMALL_solve(SMALL.Problem, SMALL.solver(i));
idamnjanovic@41	130
idamnjanovic@41	131 i=i+1;
idamnjanovic@41	132
idamnjanovic@41	133 %%
idamnjanovic@1	134 % greed_pcgp from Sparsify test
idamnjanovic@1	135
idamnjanovic@4	136 SMALL.solver(i)=SMALL_init_solver;
idamnjanovic@4	137 SMALL.solver(i).toolbox='Sparsify';
idamnjanovic@4	138 SMALL.solver(i).name='greed_pcgp';
idamnjanovic@1	139
idamnjanovic@1	140 % In the following string all parameters except matrix, measurement vector
idamnjanovic@1	141 % and size of solution need to be specified. If you are not sure which
idamnjanovic@1	142 % parameters are needed for particular solver type "help <Solver name>" in
idamnjanovic@1	143 % MATLAB command line
idamnjanovic@1	144
idamnjanovic@4	145 SMALL.solver(i).param='''stopCrit'', ''M'', ''stopTol'', 200';
idamnjanovic@1	146
idamnjanovic@4	147 SMALL.solver(i)=SMALL_solve(SMALL.Problem, SMALL.solver(i));
idamnjanovic@4	148
idamnjanovic@4	149 %%
idamnjanovic@1	150
idamnjanovic@1	151 SMALL_plot(SMALL);
idamnjanovic@1	152
idamnjanovic@4	153
idamnjanovic@1	154
idamnjanovic@1	155
idamnjanovic@1	156 end % function SMALL_solver_test

Mercurial > hg > smallbox

annotate examples/SMALL_solver_test.m @ 128:8e660fd14774 ivand_dev