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proj_psd.m
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proj_psd.m
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function op = proj_psd( LARGESCALE, isReal, K )
% PROJ_PSD Projection onto the positive semidefinite cone.
% OP = PROJ_PSD() returns a function that implements
% the projection onto the semidefinite cone:
% X = argmin_{min(eig(X))>=0} norm(X-Y,'fro')
%
% OP = PROJ_PSD( LARGESCALE )
% performs the same computation, but in a more efficient
% manner for the case of sparse (and low-rank) matrices
%
% OP = PROJ_PSD( LARGESCALE, isReal )
% also includes the constraint that X is real-valued if isReal is true.
%
% This function is self-dual.
% See also proj_Rplus.m, the vector analog of this function
% in the future, we might include this nonconvex version:
% OP = PROJ_PSD( LARGESCALE, isReal, k )
% only returns at most a rank k matrix
%
if nargin == 0 || isempty(LARGESCALE), LARGESCALE = false; end
if nargin < 2 || isempty(isReal), isReal = false; end
if nargin < 3, K = Inf; end
if ~LARGESCALE
op = @(varargin)proj_psd_impl(isReal, varargin{:} );
else
proj_psd_largescale(); % reset any counters
op = @(varargin)proj_psd_largescale( K, isReal, varargin{:} );
end
function [ v, X ] = proj_psd_impl( isReal, X, t )
if nargin > 2 && t > 0,
v = 0;
X = full(X+X'); % divide by 2 later
if isReal, X = real(X); end
[V,D]=safe_eig(X); % we don't yet take advantage of sparsity here
D = max(0.5*diag(D),0);
tt = D > 0;
V = bsxfun(@times,V(:,tt),sqrt(D(tt,:))');
X = V * V';
else
s = eig(full(X+X'))/2;
if min(s) < -8*eps*max(s),
v = Inf;
else
v = 0;
end
end
function [ v, X ] = proj_psd_largescale(Kignore,isReal, X, t )
% Updated Sept 2012. The restriction to rank K "Kignore" has not been done yet
% (that is nonconvex)
persistent oldRank
persistent nCalls
persistent V
if nargin == 0, oldRank = []; v = nCalls; nCalls = []; V=[]; return; end
if isempty(nCalls), nCalls = 0; end
SP = issparse(X);
if nargin > 3 && t > 0,
v = 0;
if isempty(oldRank), K = 10;
else, K = oldRank + 2;
end
[M,N] = size(X);
EIG_TOL = 1e-10;
ok = false;
opts = [];
opts.tol = 1e-10;
if isreal(X)
opts.issym = true;
SIGMA = 'LA';
else
SIGMA = 'LR'; % largest real part
end
X = (X+X')/2;
if isReal, X = real(X); end
while ~ok
K = min( [K,N] );
if K > N/2 || K > N-2 || N < 20
[V,D] = safe_eig(full((X+X')/2));
ok = true;
else
[V,D] = eigs( X, K, SIGMA, opts );
ok = (min(real(diag(D))) < EIG_TOL) || ( K == N );
end
if ok, break; end
% opts.v0 = V(:,1); % starting vector
K = 2*K;
% fprintf('Increasing K from %d to %d\n', K/2,K );
if K > 10
opts.tol = 1e-6;
end
if K > 40
opts.tol = 1e-4;
end
if K > 100
opts.tol = 1e-3;
end
end
D = real( diag(D) );
oldRank = length(find( D > EIG_TOL ));
tt = D > EIG_TOL;
V = bsxfun(@times,V(:,tt),sqrt(D(tt,:))');
X = V * V';
if SP, X = sparse(X); end
else
opts.tol = 1e-10;
if isreal(X)
opts.issym = true;
SIGMA = 'SA';
else
SIGMA = 'SR'; % smallest real part
end
K = 1; % we only want the smallest
X = full(X+X'); % divide by 2 later
if isReal, X = real(X); end
d = eigs(X, K, SIGMA, opts );
d = real(d)/2;
if d < -10*eps
v = Inf;
else
v = 0;
end
end
% TFOCS v1.3 by Stephen Becker, Emmanuel Candes, and Michael Grant.
% Copyright 2013 California Institute of Technology and CVX Research.
% See the file LICENSE for full license information.