Symmetric Matrix-Vector Multiplication with only lower triangular stored

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Jan Marxen 2021 年 4 月 24 日

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コメント済み: Jan Marxen 2021 年 4 月 27 日

I have a very big (n>1000000) sparse symmetric positive definite matrix A and I want to multiply it efficiently by a vector x. Only the lower triangular of matrix A is stored with function "sparse". Is there any function inbuilt or external that anyone knows of that takes as input only the lower triangular and performs the complete operation Ax without having to recover whole A (adding the strict upper triangular again)?

Thank you very much,

Jan

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採用された回答

Jan 2021 年 4 月 24 日

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https://jp.mathworks.com/matlabcentral/answers/812175-symmetric-matrix-vector-multiplication-with-only-lower-triangular-stored#answer_683775

編集済み: Jan 2021 年 4 月 24 日

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Plese check if this is efficient in your case:

A = rand(5, 5);
A = A + A';      % Symmetric example matrix
B = tril(A);     % Left triangular part
x = rand(5, 1);
y1 = A * x;
y2 = B * x + B.' * x - diag(B) .* x;
y1 - y2
ans = 5×1
	1.0e+-15 *

         0
         0
   -0.4441
         0
         0

I assume that Matlab's JIT can handle B.' * x without computing B.' explicitly. Alternative:

y2 = B * x + B.' * x - diag(diag(B)) * x;

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Jan 2021 年 4 月 24 日

編集済み: Jan 2021 年 4 月 24 日

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Here some timings:

rep = 1e3;
n = 1000;
A = rand(n) .* (rand(n) < 0.1);
A = (A + A');
fprintf('Sparsity: %g\n', nnz(A)/numel(A));
B = tril(A);
x = rand(n, 1);
disp('Full:')
tic;
for k = 1:rep
   y1 = A * x;
end
toc
tic
for k = 1:rep
   y2 = B * x + B.' * x - diag(B) .* x;
end
toc
tic
for k = 1:rep
   yWrong = B * x + B   * x - diag(B) .* x;
end
toc
disp('Sparse:')
A = sparse(A);
B = sparse(B);
tic
for k = 1:rep
   y1 = A*x;
end
toc
tic;
for k = 1:rep
   y2 = B * x + B.' * x - diag(B) .* x;
end
toc
tic;  % Wrong result, just to test if B.' is evaluated:
for k = 1:rep
   yWrong = B * x + B * x - diag(B) .* x;
end
toc
tic;  % Clayton Gotberg's solution without B.':
for k = 1:rep
   y2 = B * x + (x.' * B).' - diag(B) .* x;
end
toc
tic
for k = 1:rep
   y2 = B * x + B.' * x - diag(diag(B)) * x;
end
toc
% Full:
Elapsed time is 0.511407 seconds.   A*x
Elapsed time is 0.979235 seconds.   B*x + B.'*x - diag(B) .* x
Elapsed time is 1.035910 seconds.   wrong y, almost same time
% Sparse:
Elapsed time is 0.187078 seconds.   A*x
Elapsed time is 0.253077 seconds.   B*x + B.'*x - diag(B) .* x
Elapsed time is 0.252763 seconds.   wrong y, transpose no expensive
Elapsed time is 0.262800 seconds.   Why is Clayton's not faster?!
Elapsed time is 0.258216 seconds.   diag(diag(B))

Clayton Gotberg 2021 年 4 月 25 日

You may try taking advantage of the reshape command as @Bruno Luong suggested below, to see if it's any faster than the transpose for row and column vectors.

When you say that the difference between A*x and B*x+B'x-diag(B).*x gets larger, do you mean that the time cost is larger or that the numbers actually change? Mathematically, that shouldn't be happening, but computers+numbers == funny things.

If the time cost just becomes too high, I can take another pass at it with an eye to exploiting the symmetry of the problem. My gut reaction was this handy identity, but there have to be a few dozen more ways to skin this cat.

Jan Marxen 2021 年 4 月 27 日

Hi @Clayton Gotberg,

im sorry for the late reply. I mean that the time cost gets larger.

There are obvious ways to exploit the symmetry of the problem such as doing the multiplication and sum as usual but change i and j index when arriving at the diagonal such that it keeps using the lower triangular elements. But programming this won't be nearly as efficient as Matlabs inbuilt multiplications, even if it exploits the symmetry.

Thank you for the help and the experimenting,

Jan

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その他の回答 (1 件)

Clayton Gotberg 2021 年 4 月 24 日

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https://jp.mathworks.com/matlabcentral/answers/812175-symmetric-matrix-vector-multiplication-with-only-lower-triangular-stored#answer_683790

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is a symmetric matrix and

is the lower triangular part of the matrix and

is the upper triangular part of the matrix:

where the diagonal function only finds the diagonal elements of

. This is because of a few relations:

To save time and space on MATLAB (because the upper triangular matrix will take up much more space), take advantage of the relations:

To get:

Now, the MATLAB calculation is

A_times_x = A_LT*x+(x.'*A_LT).'+ diag(A_LT).*x;

This should only perform transposes on the smaller resultant matrices.

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Bruno Luong 2021 年 4 月 24 日

編集済み: Bruno Luong 2021 年 4 月 24 日

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Might be you can experiment with this as well

reshape((x.'*A),[],1)

Clayton Gotberg 2021 年 4 月 24 日

I begin to understand why engineers are specifically trained and hired to test software. It's deeply interesting to get this peek into what MATLAB does to ensure I can keep writing ill-considered code.

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