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Who can recoment stable and correct implementation SVD method in C++? Preferably standalone implementation (would not want to add large library for one method).

I use OpenCV... but openCV SVD return different decomposition(!) for single matrix. I understand, that exists more than one decomposition of simple matrix... but why openCV do like that? random basis? or what?

This instability causes the error in my calculations in some cases, and I can't understand why. However, the results are returned by mathlab or wolframalpha - always give correct calculations ....

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At the danger of outing myself as dumb: What is "SVD"?? –  sbi Oct 4 '10 at 14:21
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SVD = singular value decomposition. @sbi, not knowing this doesn't make you dumb, it's kind of specialist stuff. Of course, those of us who do know what it means feel unjustifiably smart :-) –  High Performance Mark Oct 4 '10 at 14:35
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4 Answers

up vote 9 down vote accepted

If you can't find a stand-alone implementation, you might try the eigen library which does SVD . It is pretty large, however it is template-only so you only have a compile-time dependency.

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Try redsvd (BSD license). It implements clean and very efficient, modern algorithms for SVD, including partial (truncated) SVD.

Redsvd is built on top of the beautiful C++ templating library, eigen3. Since you mention installing is an issue, you'll like to hear eigen3 requires no installation. It's just templates (C++ header files).

Also, there don't exist "more than one decomposition of a single matrix". The SVD decomposition always exists and is unique, up to flipping signs of the corresponding U/V vectors.

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In general case SVD decomposition is not unique. One must ensure that all singular values are different, then the decomposition is defined up to sign of U or V vectors as you stated. –  user502144 Mar 3 '13 at 12:23
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GSL is great for SVD.

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GSL's SVD subroutine is fine, but it is really slow while computing the SVD of a M (> 800) by (> 600) matrix. –  Gong-Yi Liao Oct 27 '12 at 18:25
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Armadillo is a C++ template library to do linear algebra. It tries to provide an API that is similar to Matlab, so its pretty easy to use. It has a SVD implementation that is built upon LAPACK and BLAS. Usage is simple:

#include <armadillo>

// Input matrix of type float
arma::fmat inMat;

// Output matrices
arma::fmat U;
arma::fvec S;
arma::fmat V;

// Perform SVD
arma::svd(U, S, V, inMat);
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For large matrices, using the "dc" option to Armadillo's SVD can provide considerable speedups -- it enables the divide-and-conquer algorithm. For example, arma::svd(U, S, V, inMat, "dc"); –  mtall Nov 20 '13 at 10:38
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