292 lines
9.1 KiB
Matlab
292 lines
9.1 KiB
Matlab
function prior_posterior_statistics(type,Y,gend,data_index,missing_value)
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% function PosteriorFilterSmootherAndForecast(Y,gend, type)
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% Computes posterior filter smoother and forecasts
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%
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% INPUTS
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% type: posterior
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% prior
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% gsa
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% Y: data
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% gend: number of observations
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% data_index [cell] 1*smpl cell of column vectors of indices.
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% missing_value 1 if missing values, 0 otherwise
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%
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% OUTPUTS
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% none
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%
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% SPECIAL REQUIREMENTS
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% none
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% PARALLEL CONTEXT
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% See the comments random_walk_metropolis_hastings.m funtion.
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% Copyright (C) 2005-2010 Dynare Team
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%
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% This file is part of Dynare.
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%
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% Dynare is free software: you can redistribute it and/or modify
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% it under the terms of the GNU General Public License as published by
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% the Free Software Foundation, either version 3 of the License, or
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% (at your option) any later version.
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%
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% Dynare is distributed in the hope that it will be useful,
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% but WITHOUT ANY WARRANTY; without even the implied warranty of
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% MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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% GNU General Public License for more details.
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%
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% You should have received a copy of the GNU General Public License
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% along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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global options_ estim_params_ oo_ M_ bayestopt_
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localVars=[];
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nvx = estim_params_.nvx;
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nvn = estim_params_.nvn;
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ncx = estim_params_.ncx;
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ncn = estim_params_.ncn;
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np = estim_params_.np ;
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npar = nvx+nvn+ncx+ncn+np;
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offset = npar-np;
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naK = length(options_.filter_step_ahead);
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%%
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MaxNumberOfBytes=options_.MaxNumberOfBytes;
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endo_nbr=M_.endo_nbr;
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exo_nbr=M_.exo_nbr;
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nvobs = size(options_.varobs,1);
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iendo = 1:endo_nbr;
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horizon = options_.forecast;
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% moments_varendo = options_.moments_varendo;
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filtered_vars = options_.filtered_vars;
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if horizon
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i_last_obs = gend+(1-M_.maximum_endo_lag:0);
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end
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maxlag = M_.maximum_endo_lag;
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%%
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DirectoryName = CheckPath('metropolis');
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load([ DirectoryName '/' M_.fname '_mh_history'])
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FirstMhFile = record.KeepedDraws.FirstMhFile;
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FirstLine = record.KeepedDraws.FirstLine;
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TotalNumberOfMhFiles = sum(record.MhDraws(:,2)); LastMhFile = TotalNumberOfMhFiles;
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TotalNumberOfMhDraws = sum(record.MhDraws(:,1));
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NumberOfDraws = TotalNumberOfMhDraws-floor(options_.mh_drop*TotalNumberOfMhDraws);
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clear record;
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if ~isempty(options_.subdraws)
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B = options_.subdraws;
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if B > NumberOfDraws
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B = NumberOfDraws;
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end
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else
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B = min(1200, round(0.25*NumberOfDraws));
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end
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%%
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MAX_nruns = min(B,ceil(MaxNumberOfBytes/(npar+2)/8));
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MAX_nsmoo = min(B,ceil(MaxNumberOfBytes/((endo_nbr)*gend)/8));
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MAX_ninno = min(B,ceil(MaxNumberOfBytes/(exo_nbr*gend)/8));
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MAX_nerro = min(B,ceil(MaxNumberOfBytes/(size(options_.varobs,1)*gend)/8));
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if naK
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MAX_naK = min(B,ceil(MaxNumberOfBytes/(size(options_.varobs,1)* ...
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length(options_.filter_step_ahead)*gend)/8));
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end
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if horizon
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MAX_nforc1 = min(B,ceil(MaxNumberOfBytes/((endo_nbr)*(horizon+maxlag))/8));
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MAX_nforc2 = min(B,ceil(MaxNumberOfBytes/((endo_nbr)*(horizon+maxlag))/ ...
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8));
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IdObs = bayestopt_.mfys;
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end
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MAX_momentsno = min(B,ceil(MaxNumberOfBytes/(get_moments_size(options_)*8)));
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%%
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varlist = options_.varlist;
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if isempty(varlist)
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varlist = M_.endo_names(1:M_.orig_endo_nbr, :);
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end
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nvar = size(varlist,1);
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SelecVariables = [];
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for i=1:nvar
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if ~isempty(strmatch(varlist(i,:),M_.endo_names,'exact'))
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SelecVariables = [SelecVariables;strmatch(varlist(i,:),M_.endo_names,'exact')];
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end
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end
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irun = ones(7,1);
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ifil = zeros(7,1);
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stock_param = zeros(MAX_nruns, npar);
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stock_logpo = zeros(MAX_nruns,1);
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stock_ys = zeros(MAX_nruns,endo_nbr);
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run_smoother = 0;
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if options_.smoother
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stock_smooth = zeros(endo_nbr,gend,MAX_nsmoo);
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stock_innov = zeros(exo_nbr,gend,B);
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stock_error = zeros(nvobs,gend,MAX_nerro);
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stock_update = zeros(endo_nbr,gend,MAX_nsmoo);
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run_smoother = 1;
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end
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if options_.filter_step_ahead
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stock_filter_step_ahead = zeros(naK,endo_nbr,gend+ ...
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options_.filter_step_ahead(end),MAX_naK);
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run_smoother = 1;
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end
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if options_.forecast
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stock_forcst_mean = zeros(endo_nbr,horizon+maxlag,MAX_nforc1);
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stock_forcst_point = zeros(endo_nbr,horizon+maxlag,MAX_nforc2);
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run_smoother = 1;
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end
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%if moments_varendo
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% stock_moments = cell(MAX_momentsno,1);
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%end
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% Store the variable mandatory for local/remote parallel computing.
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localVars.type=type;
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localVars.run_smoother=run_smoother;
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localVars.gend=gend;
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localVars.Y=Y;
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localVars.data_index=data_index;
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localVars.missing_value=missing_value;
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localVars.varobs=options_.varobs;
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localVars.irun=irun;
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localVars.endo_nbr=endo_nbr;
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localVars.nvn=nvn;
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localVars.naK=naK;
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localVars.horizon=horizon;
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localVars.iendo=iendo;
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if horizon
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localVars.i_last_obs=i_last_obs;
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localVars.IdObs=IdObs;
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localVars.MAX_nforc1=MAX_nforc1;
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localVars.MAX_nforc2=MAX_nforc2;
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end
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localVars.exo_nbr=exo_nbr;
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localVars.maxlag=maxlag;
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localVars.MAX_nsmoo=MAX_nsmoo;
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localVars.MAX_ninno=MAX_ninno;
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localVars.MAX_nerro = MAX_nerro;
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if naK
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localVars.MAX_naK=MAX_naK;
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end
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localVars.MAX_nruns=MAX_nruns;
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localVars.MAX_momentsno = MAX_momentsno;
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localVars.ifil=ifil;
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if strcmpi(type,'posterior'),
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b=0;
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while b<=B
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b = b + 1;
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[x(b,:), logpost(b,1)] = GetOneDraw(type);
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end
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end
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if ~strcmpi(type,'prior'),
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localVars.x=x;
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localVars.logpost=logpost;
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end
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b=0;
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% Like sequential execution!
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if isnumeric(options_.parallel),
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[fout] = prior_posterior_statistics_core(localVars,1,B,0);
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% Parallel execution!
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else
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[nCPU, totCPU, nBlockPerCPU] = distributeJobs(options_.parallel, 1, B);
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for j=1:totCPU-1,
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nfiles = ceil(nBlockPerCPU(j)/MAX_nsmoo);
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ifil(1,j+1) =ifil(1,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_ninno);
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ifil(2,j+1) =ifil(2,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_nerro);
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ifil(3,j+1) =ifil(3,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_naK);
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ifil(4,j+1) =ifil(4,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_nruns);
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ifil(5,j+1) =ifil(5,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_nforc1);
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ifil(6,j+1) =ifil(6,j)+nfiles;
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nfiles = ceil(nBlockPerCPU(j)/MAX_nforc2);
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ifil(7,j+1) =ifil(7,j)+nfiles;
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% nfiles = ceil(nBlockPerCPU(j)/MAX_momentsno);
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% ifil(8,j+1) =ifil(8,j)+nfiles;
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end
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localVars.ifil = ifil;
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globalVars = struct('M_',M_, ...
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'options_', options_, ...
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'bayestopt_', bayestopt_, ...
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'estim_params_', estim_params_, ...
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'oo_', oo_);
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% which files have to be copied to run remotely
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NamFileInput(1,:) = {'',[M_.fname '_static.m']};
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NamFileInput(2,:) = {'',[M_.fname '_dynamic.m']};
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if options_.steadystate_flag,
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NamFileInput(length(NamFileInput)+1,:)={'',[M_.fname '_steadystate.m']};
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end
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[fout] = masterParallel(options_.parallel, 1, B,NamFileInput,'prior_posterior_statistics_core', localVars,globalVars, options_.parallel_info);
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end
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ifil = fout(end).ifil;
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stock_gend=gend;
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stock_data=Y;
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save([DirectoryName '/' M_.fname '_data.mat'],'stock_gend','stock_data');
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if ~isnumeric(options_.parallel),
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leaveSlaveOpen = options_.parallel_info.leaveSlaveOpen;
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if options_.parallel_info.leaveSlaveOpen == 0,
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% Commenting for testing!!!
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% options_.parallel_info.leaveSlaveOpen = 1; % Force locally to leave open remote matlab sessions (repeated pm3 calls)
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end
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end
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if options_.smoother
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pm3(endo_nbr,gend,ifil(1),B,'Smoothed variables',...
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'',M_.endo_names(1:M_.orig_endo_nbr, :),'tit_tex',M_.endo_names,...
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varlist,'SmoothedVariables',[M_.dname '/metropolis'],'_smooth');
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pm3(exo_nbr,gend,ifil(2),B,'Smoothed shocks',...
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'',M_.exo_names,'tit_tex',M_.exo_names,...
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M_.exo_names,'SmoothedShocks',[M_.dname '/metropolis'],'_inno');
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if nvn
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% needs to be fixed
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% pm3(endo_nbr,gend,ifil(3),B,'Smoothed measurement errors',...
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% M_.endo_names(SelecVariables),M_.endo_names,'tit_tex',M_.endo_names,...
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% 'names2','smooth_errors',[M_.fname '/metropolis'],'_error')
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end
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end
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if options_.filtered_vars
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pm3(endo_nbr,gend,ifil(1),B,'Updated Variables',...
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'',varlist,'tit_tex',M_.endo_names,...
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varlist,'UpdatedVariables',[M_.dname '/metropolis'], ...
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'_update');
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pm3(endo_nbr,gend+1,ifil(4),B,'One step ahead forecast',...
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'',varlist,'tit_tex',M_.endo_names,...
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varlist,'FilteredVariables',[M_.dname '/metropolis'],'_filter_step_ahead');
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end
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if options_.forecast
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pm3(endo_nbr,horizon+maxlag,ifil(6),B,'Forecasted variables (mean)',...
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'',varlist,'tit_tex',M_.endo_names,...
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varlist,'MeanForecast',[M_.dname '/metropolis'],'_forc_mean');
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pm3(endo_nbr,horizon+maxlag,ifil(6),B,'Forecasted variables (point)',...
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'',varlist,'tit_tex',M_.endo_names,...
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varlist,'PointForecast',[M_.dname '/metropolis'],'_forc_point');
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end
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if ~isnumeric(options_.parallel),
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options_.parallel_info.leaveSlaveOpen = leaveSlaveOpen;
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if leaveSlaveOpen == 0,
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closeSlave(options_.parallel,options_.parallel_info.RemoteTmpFolder),
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end
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end
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