Get the diagonal without calculating the explicit matrix
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Dear all:
I am trying to calculate a diagonal of a matrix (denoted A), which is formed by multiplying two large-dimensional matrices (denoted as B*C).
A naive way to do it is: first, calculating explicitly A = B*C, then get diagonal out from A. However, the first step takes forever to run due to the high-dimension of B and C. But the only thing I need is the diagonal of A.
Another straightforward way in my mind is: I could create a loop by calculating each element of the diagonal of A one by one. It will surely save a lot of time, but I am not sure if this is the most efficient way.
I am wondering if anyone knows a faster/smarter way to calculate it.
Thank you very much in advance!
Best,
Long
1 Comment
The best approach will depend on the dimensions of the matrices, and whether they are of sparse-type or not.
Accepted Answer
Assuming B*C results in a square matrix,
diagonal=sum(B.' .* C, 1);
8 Comments
If B*C is not square, the same concept applies, just a bit messier:
N=min(size(B,1), size(C,2));
diagonal=sum(B(1:N,:).' .* C(:,1:N), 1);
Long Hong
on 26 Mar 2020
Note that if your matrices are sparse, the looping method will be much slower.
N=7000;
B=sprand(N,10*N,10/N); C=B.';
tic; sum(B.'.*C,1); toc %Elapsed time is 0.021923 seconds.
tic;
for i=1:N
B(i,:)*C(:,i);
end
toc; %Elapsed time is 11.467097 seconds.
the cyclist
on 26 Mar 2020
If the transpose in Matt's algorithm is really the time-consuming step, would it be possible to go upstream in your code and do all prior calculations in a way that the B you end up with is the transpose of the current one?
Long Hong
on 26 Mar 2020
Long Hong
on 26 Mar 2020
More Answers (1)
the cyclist
on 26 Mar 2020
Here is one way:
% Make up some inputs
N = 4;
B = rand(N);
C = rand(N);
% Calculate the diagonal
A_diag = 0;
for nr = 1:N
A_diag = A_diag + B(:,nr).*C(nr,:)';
end
1 Comment
Long Hong
on 26 Mar 2020
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