How to avoid nested for loop to make the code faster?
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Hi everyone!
Do you have some suggestions to improve the following code?
As it is now, it is very slow…
B_2 = zeros(d,d);
for m = 1:M
for n = m+1 : 2*N
B_2 = B_2 + 4*N^(-1)* A(n) * B(n-m);
end
end
where A(n) and B(n) are 2x2 real, symmetric and full rank, matrices for all possible value of n.
Thanks in advance!
6 Comments
madhan ravi
on 14 Mar 2019
Edited: madhan ravi
on 14 Mar 2019
Without knowing the values of variables... M , N?
Stef
on 14 Mar 2019
I doubt this will gain much speed, but since N appears to be constant you should pull
4*N^(-1)
out of the loops and calculate it once before the loops because it shouldn't change.
Also if A and B are 2x2 matrices how does B(n-m) work? There are only 4 valid indices for a 2x2 matrix so your loop cannot be very long if it only produces values of n and n-m between 1 and 4?
Stephen23
on 14 Mar 2019
@Stef: please tell us the values of M, N, and d.
Stef
on 14 Mar 2019
Stef
on 14 Mar 2019
Accepted Answer
Doug Mercer
on 14 Mar 2019
If you can generate A and B in a vectorized manner (i.e., for inputs x=[x_1, x_2, ..., x_k] the function A(x) returns a 2x2xk 3D array where a(:, :, i) is the 2x2 array corresponding to x_i) then the following would vectorize the inner loop.
function B_2 = stef()
d = 2;
N = 10^5;
M = sqrt(N);
B_2 = zeros(d,d);
for m = 1:M
n_iter = m+1:2*N;
B_2 = B_2 + 4*N^(-1)*sum(A(n_iter).*B(n_iter - m), 3);
end
function b = B(x)
b = rand(2, 2, length(x));
function a = A(x)
a = rand(2, 2, length(x));
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