Sum of following elements in array
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Is there a faster way to do the following
s = rand(1, 10);
sum_following = zeros(length(s), 1);
for i = 1:length(s)-1
sum_following(i) = sum(s(i+1:end), 'all');
end
without doing
sum_following = sum(s,"all") - cumsum(s);
?
9 Comments
Dyuman Joshi
on 9 Dec 2023
sum_following = sum(s,"all") - cumsum(s);
I doubt there is a faster method than this.
And as the input is a vector, you don't need to specify 'all' for the sum() call.
Ivan Bioli
on 9 Dec 2023
Dyuman Joshi
on 9 Dec 2023
Edited: Dyuman Joshi
on 9 Dec 2023
Well, the function sum() is instable.
Dyuman Joshi
on 9 Dec 2023
Yes, that shows that sum() is not stable.
Take a look at the FEX submission I linked.
Matt J
on 9 Dec 2023
Technically, this is not "instability". It's just limited precision.
Dyuman Joshi
on 9 Dec 2023
How is that due to limited precision?
Because
1+eps^2 == 1
Walter Roberson
on 9 Dec 2023
The point is that doing this is fast but not numerically stable if the last entries of s are close to zero.
The loop with
sum(s(i+1:end), 'all');
is not numerically stable either. The trailing suffix [... A B -B -A] is going to come out as -A if abs(A) < eps(B)
Side note: You are using linear indexing. Linear indexing of anything always gives a vector result, and for a vector being added together, 'all' as a parameter does not provide any value.
Linear indexing of row vector: gives a row vector
Linear indexing of column ector: gives a column vector
Linear indexing of non-vectors: gives a result that is the same shape as the indices. Which, for i+1:end would be a row vector.
Accepted Answer
sum_following = cumsum([s(2:end),0],"reverse");
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