Diagonalization in eigs with Generalized Eigenvalue Problem with Positive Semidefinitive matrix

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Thiago Morhy
Thiago Morhy el 20 de Nov. de 2020
Comentada: Torsten el 15 de Feb. de 2025
After I execute an eigs command in Matlab 2020b, using as input matrix A and B, i.e. a generalized eigenvalue problem, and 'SM' as sigma, it appears that unstable eigenvectors are obtained when A is a positive semidefinitive matrix, eventhougth the output eigenvalues are fine. The function I use is:
[V, D] = eigs(A, B, ArbitraryNumberOfEigenvalues, 'SM');
In short, the mathematical problem I'm coding is to model the response of a Finite Element Method Vibro-Acoustic problem, hence if we normalize the eigenvectors in respect to the B matrix and diagonalize the A matrix, we should be obtaining again the eigenvalues.
%% Normalization
nm = size(D, 1);
for j = 1 : nm
fm = V(:, j).' * B * V(:, j);
V(:, j) = V(:, j) / sqrt(fm);
end
%% Diagonalization
D = V.' * A * V;
But, as I said, the curve becomes really unstable:
Now, if I impose a boundary condition to the matrices, as example, excluding the rows and collums from 49th to 72th, A matrix becomes Positive Definite and the curve congerve smoothly:
I believe both curves should converge smoothly. Unfortunalety, I can't just use the output eigenvalues matrix, because I will use the eigenvectors to multiply with other matrices. Is this instability expected ? Is there any workaround ?
Thanks.
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Bohan
Bohan el 15 de Feb. de 2025
What is the output created by eig or eigs in Matlab if the B matrix is not strictly positive definite? I tried some examples and there are output but I am not sure what this means.
Torsten
Torsten el 15 de Feb. de 2025
@Bohan
Could you be more explicit ? Please include the examples and explain what you don't understand.

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Thiago Morhy
Thiago Morhy el 22 de Nov. de 2020
Cristine Tobler's comment answered my problem.
Yes, eigs was giving me an alert of singularity of matrix A. Using, now, the command:
sigma = -100;
[V, D] = eigs(A, B, ArbitraryNumberOfEigenvalues, sigma);
I obtain the following curve of eigenvalues:
It converges flawlessly. And as the lower eigenvalue is approximately zero, a -1 sigma works as well. Thanks for the help.

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