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psom_test_hist.m
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psom_test_hist.m
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function [pipel,opt_pipe] = psom_test_hist(path_test,opt)
% A test pipeline with chains of jobs accumulating histograms
%
% [pipe,opt_pipe] = psom_test_hist(path_test,opt)
%
% Parallel computation of the histogram of the square root of the absolute tanh
% of a normal distribution.
%
% PATH_TEST (string, default current path) where to run the test.
% OPT (structure) any option passed to PSOM will do. In addition the
% following options are available:
% TIME (scalar, default 3) the minimum time (in sec) for the job. The job will
% keep looping the estimation until this time has passed.
% MINMAX (vector 2x1, default [-5 5]) the min/max of the histogram.
% SIZEBIN (scalar, default 0.001) the size of the bins of the histogram.
% NB_SAMP (integer, default 10^7) the number of samples to build one histogram.
% NB_JOBS (integer, default 100) the number of jobs.
% FLAG_TEST (boolean, default false) if FLAG_TEST is on, the pipeline
% is generated but not executed.
% PATH_LOGS is forced to [path_test filesep 'logs']
% PIPE (structure) the pipeline.
% OPT_PIPE (structure) the options to run the pipeline.
%
% Copyright (c) Pierre Bellec,
% Departement d'informatique et de recherche operationnelle
% Centre de recherche de l'institut de Geriatrie de Montreal
% Universite de Montreal, 2015.
% Maintainer : [email protected]
% See licensing information the LICENSE file.
% Keywords : pipeline, PSOM, test
%% Set up default options
pipel = struct;
if nargin < 2
opt = struct;
end
list_opt = { 'time' , 'nb_samp' , 'sizebin' , 'nb_jobs' , 'flag_test' };
list_def = { 3 , 10^7 , 0.001 , 100 , false };
opt = psom_struct_defaults(opt,list_opt,list_def,false);
if (nargin < 1)||isempty(path_test)
path_test = pwd;
end
if ~strcmp(path_test(end),filesep)
path_test = [path_test filesep];
end
opt.path_logs = [path_test 'logs'];
%% The options for PSOM
opt_pipe = rmfield(opt,list_opt);
%% Options for job
optj.nb_samp = opt.nb_samp;
optj.sizebin = opt.sizebin;
optj.time = opt.time;
%% Build the pipeline
for jj = 1:opt.nb_jobs
job_name = sprintf('samp%i',jj);
pipel.(job_name).opt = optj;
pipel.(job_name).command = sprintf([ ...
' edges = 0:opt.sizebin:1;' ...
' N = zeros(length(edges),1);' ...
' t1 = tic;' ...
' nb_samp_tot = 0;' ...
' while toc(t1)<opt.time;' ...
' data = sqrt(abs(tanh(randn(opt.nb_samp,1))));' ...
' N = N + histc(data,edges);' ...
' nb_samp_tot = nb_samp_tot + opt.nb_samp;' ...
' end;' ...
' N = N/nb_samp_tot;' ...
' save(files_out,''N'',''nb_samp_tot'');' ...
]);
samp_name{jj} = sprintf('%ssamp%i.mat',path_test,jj);
pipel.(job_name).files_out = samp_name{jj};
end
% now normalize the histograms
pipel.hist.files_in = samp_name;
pipel.hist.files_clean = pipel.hist.files_in;
pipel.hist.files_out = sprintf('%shistogram_gaussian.mat',path_test);
pipel.hist.opt = optj;
pipel.hist.opt.nb_jobs = opt.nb_jobs;
pipel.hist.command = sprintf([ ...
' edges = 0:opt.sizebin:1;' ...
' N = zeros(length(edges),1);' ...
' nb_samp_tot = 0;' ...
' for num_c = 1:length(files_in);' ...
' data = load(files_in{num_c});' ...
' N = N + data.N;' ...
' nb_samp_tot = nb_samp_tot + data.nb_samp_tot;' ...
' end;' ...
' H = N / (opt.sizebin * opt.nb_jobs );' ...
' save(files_out,''H'',''edges'',''nb_samp_tot'');' ...
' psom_clean(files_in);' ...
]);
%% Run the pipeline
if ~opt.flag_test
psom_run_pipeline(pipel,opt_pipe);
end