I have many large (8000 x 8000) sparse PSD matrices for which I would like to verify that their largest eigenvalue is at most some constant C. If A denotes such a matrix, there are two ways to check this. eigs(A,1) <= C chol(C*speye(size(A,1)) - A) (and inspect the output flag) Somehow, method 1 is much faster than 2 (this difference is not due to the computation time of C*speye(size(A,1)) - A) . Why is that? The general consensus is that cholesky decomposition is the fastest way of determining PSD-ness of matrices. Is chol not as fast for sparse matrices as eigs?

Cholesky vs Eigs speed comparison?

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Lennart Sinjorgo am 25 Okt. 2024

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Bearbeitet: Bruno Luong am 29 Okt. 2024

I have many large (8000 x 8000) sparse PSD matrices for which I would like to verify that their largest eigenvalue is at most some constant C. If A denotes such a matrix, there are two ways to check this.

eigs(A,1) <= C
chol(C*speye(size(A,1)) - A) (and inspect the output flag)

Somehow, method 1 is much faster than 2 (this difference is not due to the computation time of C*speye(size(A,1)) - A) . Why is that? The general consensus is that cholesky decomposition is the fastest way of determining PSD-ness of matrices. Is chol not as fast for sparse matrices as eigs?

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Bruno Luong am 25 Okt. 2024

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Bearbeitet: Bruno Luong am 28 Okt. 2024

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Your test of PSD is not right. You should do:

eigs(A,1, 'smallestreal') > smallpositivenumber % 'sr', 'sa' for older MATLAB

EIGS compute one eigen value by iterative method. It converges rapidly for

eigs(A,1)

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Bruno Luong am 28 Okt. 2024

Bearbeitet: Bruno Luong am 28 Okt. 2024

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An example with sparse matrix based on Haar basis. The ratio of two matrix norms increases like sqrt(N)

N = 2^14
N = 16384
A = haar(N);
% eigs(A,1) must be 1
norm(A,inf) / eigs(A,1)
ans = 128.0000
function S=haar(N)
if (N<2 || (log2(N)-floor(log2(N)))~=0)
    error('The input argument should be of form 2^k');
end
p=[0 0];
q=[0 1];
n=nextpow2(N);
for i=1:n-1
    p=[p i*ones(1,2^i)];
    t=1:(2^i);
    q=[q t];
end
j = 1:N;
I = 1+0*j;
J = j;
V = 1+0*j;
for i=2:N
    P=p(1,i); Q=q(1,i);
    j = 1+N*(Q-1)/(2^P):N*(Q-0.5)/(2^P);
    I = [I, i+0*j];
    J = [J, j];
    V = [V, 2^(P/2)+0*j];
    j = 1+(N*((Q-0.5)/(2^P))):N*(Q/(2^P));
    I = [I, i+0*j];
    J = [J, j];
    V = [V, -(2^(P/2))+0*j];
end
S = sparse(I,J,V,N,N);
S=S/sqrt(N);
end
        

Bruno Luong am 29 Okt. 2024

Bearbeitet: Bruno Luong am 29 Okt. 2024

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Here is an example where the ratio is huge (= N), discovered by codinng mistake .;)

N = 2^16
N = 65536
j = 1:N;
I = 1+0*j;
J = j;
V = 1+0*j;
A = sparse(I,J,V,N,N);
norm(A,inf) / eigs(A,1)       
ans = 6.5536e+04

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