The SVD algorithm is not disclosed by MathWorks, but even if you could be sure the same algorithms were used by both Matlab and SciLab, it would not help you avoid or understand differences in the results. Since you have a matrix with non-unique SVDs, the SVD computation is unstable, and can result in large differences from one implementation to another, merely from the fact that the code implementations are different.
Which algorithm does SVD function take?
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Hi Matlab supporter,
Could I you tell me which algorithm (algorithm name and basic description) does Matlab SVD function take for svd decomposion? (In Matlab 2020b). When I compared Matlab decomposition results with Scilab decomposition results, I find they are different, all meet SVD decomposion definition, but they have different U,V. ([U S V]=svd(A), U*S*V'=A)
Hope to get help from you.
Thank you,
Regards,
Bin
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Réponse acceptée
Matt J
le 29 Jan 2024
Modifié(e) : Matt J
le 29 Jan 2024
13 commentaires
Bruno Luong
le 30 Jan 2024
Modifié(e) : Bruno Luong
le 30 Jan 2024
Matt's answer did not reveal the problem you had, Catalic's answer is right on.
Bruno Luong
le 30 Jan 2024
Modifié(e) : Bruno Luong
le 30 Jan 2024
@Bin " I would like to get 'same' U, V in Scilab like that in Matlab to make our calculation results identical."
You waste your time. The signs of eigen vectors are unpreditable. You could however force the sign to your own specification (*), but they come out of the algorithm almost arbitray.
(*) for example pick the largest element in absolute value of an singular vector, then set the sign so that this element is positive (assuming there no draw with opposite sign). Also you cannot change the signs of the odd number of eigen vectors, since U and V must be unitary matrices (det = 1) by convention of SVD.
Plus de réponses (2)
Catalytic
le 29 Jan 2024
Comparing results showed that max difference in S and S1 reached 1e-14, but for U and U1 or for V and V1, max difference reached 0.xxx.
We would have to see S and S1, so you might wish to attach them for us in a .mat file. If all the S(i) are distinct, as I would expect for a random matrix A, the singular vectors are unique up to a difference in sign. So, when you calculate the max difference, you should make sure you accounted for a sign flip.
If some singular values S(i) are repeated, then the singular vectors are unstable and, as @Matt J mentions, you can expect to see all kinds of numerical differences for all kinds of reasons.
3 commentaires
Catalytic
le 29 Jan 2024
@Bruno Luong I'm very pleased you consider my answer to merit +1 (but you didn't actually upvote it) :-)
Bruno Luong
le 29 Jan 2024
I didn't because it actually does not answer the question "which algorithm", but I think you are right on on the diagnostic.
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