How to compute cholesky to all slice of a tensor?

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virginie marchionni
virginie marchionni il 25 Ott 2021
Modificato: Bruno Luong il 27 Ott 2021
Hi All,
I was looking for a fast and efficient way to compute the cholesky decomposition to all faces of a tensor and collect them into another tensor.
The easiest approach would be the following one, but I would like to know if it exist a more "elegant" way to do it:
A=rand(N,N,M) % suppose each NxN matrix to be positive semi definite
B=zeros(N,N,M)
for k=1:M
B(:,:,k)=chol(A(:,:,k));
end
Thanks in advance

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Bruno Luong
Bruno Luong il 25 Ott 2021
For real semi definite matrices, you can take a look at https://www.mathworks.com/matlabcentral/fileexchange/37515-mmx
Unfortunately this package doesn't support complex matrices.
  2 Commenti
Bruno Luong
Bruno Luong il 27 Ott 2021
Modificato: Bruno Luong il 27 Ott 2021
Using mmx to generate correlated normal random variable as you state in the comment
K=5;
N=3;
M=2;
% Generate dummy CorrTensor for testing
R=randn([N,N,M]);
CorrTensor = pagemtimes(R,"ctranspose",R,"none");
% Factorization R(:,:,p)*R(:,:,p)' == CorrTensor(:,:,p)
R = mmx('chol', CorrTensor, []); % File from here https://www.mathworks.com/matlabcentral/fileexchange/37515-mmx
e = randn(K,N,M);
e = pagemtimes(e, R),
Bruno Luong
Bruno Luong il 27 Ott 2021
Modificato: Bruno Luong il 27 Ott 2021
I bench mark pagesvd and mmx('chol',...), on my computer mmx is much faster (8 times)
N=5;
M=100000;
% Generate dummy CorrTensor for testing
R=randn([N,N,M]);
CorrTensor =pagemtimes(R,"none",R,"ctranspose");
% Factorization T(:,:,p)'*T(:,:,p) == CorrTensor(:,:,p)
% using pagesvd
tic
[U,S,V]=pagesvd(CorrTensor,'vector');
T = sqrt(S).*pagectranspose(U); % T(:,:,p)'*T(:,:,p) == CorrTensor(:,:,p)
toc % Elapsed time is 0.156520 seconds.
% using mmx
tic
R = mmx('chol', CorrTensor, []);
toc % Elapsed time is 0.019043 seconds.

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Più risposte (1)

Christine Tobler
Christine Tobler il 26 Ott 2021
There isn't another way to do this right now. We have functions that do other linear algebra operations to each page of an ND-array: pagemtimes, pagesvd.
Could you say some more about where the matrix A is coming from in your application, and what your next steps are? Perhaps pagemtimes could be useful for working with the result of those Cholesky factorizations?
  2 Commenti
virginie marchionni
virginie marchionni il 27 Ott 2021
Thank you Christine for your comment, I will have a look at pagetimes. In my problem the NxN matrices are correlation matrices and I have M of them for M time istant, I will then have to generate M correlated brownian motions (e)
e = randn(K,N,M);
CorrTensor = Adj_Rho(Rho,dt,Param); % NxNxM
for m=1:M
t_chol = chol(squeeze(CorrTensor(:,:,m))); % NxN
e(:,:,m) = e(:,:,m)*t_chol;
end
e % KxNxM
What I'm looking for is if there is a way to avoid the for-loop.
Bruno Luong
Bruno Luong il 27 Ott 2021
Modificato: Bruno Luong il 27 Ott 2021
Ran in:
You can use pagesvd to factorize your Correlation matrix (I suspect this is slower than calling chol in a for-loop):
K=5;
N=3;
M=2;
% Generate dummy CorrTensor for testing
R=randn([N,N,M]);
CorrTensor =pagemtimes(R,"ctranspose",R,"none");
% Factorization T(:,:,p)'*T(:,:,p) == CorrTensor(:,:,p)
[U,S,~]=pagesvd(CorrTensor,'vector');
T = sqrt(S).*pagectranspose(U); % T(:,:,p)'*T(:,:,p) == CorrTensor(:,:,p)
% Generate random correlated normal vectors
e = randn(K,N,M);
e = pagemtimes(e, T),
e =
e(:,:,1) = 1.3038 1.5687 -0.3056 0.7351 0.6160 -1.3979 -1.3023 -2.4529 0.4638 -0.7750 -0.7354 1.1630 0.5316 0.4257 -0.1150 e(:,:,2) = -1.4826 0.3785 3.7542 -0.5790 -0.3740 0.3464 -0.0701 -0.4828 -1.1557 0.0878 1.5143 2.1562 -0.9627 -0.4035 1.0495

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