Speed optimization of partial inner product (norm)
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For a row vector, the norm can be written as
sqrt(sum(P.^2))
or
sqrt(P*P')
The latter is about twice as fast. Now I have a 4D matrix with dimensions [100,100,100,70], and would like to take the norm of the last dimension to yield a matrix of dimension [100,100,100]. This works:
sqrt(sum(P.^2,4))
but is too slow. Does anyone know a way to speed this up (perhaps in a similar way as the 1D case?)
Accepted Answer
Matt J
on 28 Feb 2014
0 votes
5 Comments
lvn
on 28 Feb 2014
Jan
on 28 Feb 2014
So you could ask the author, Ivn. Do you want the output to be in single format also?
Jan, if you're going to take that modification on, I would just request that the summations/accumulations in the norm calculation still be done in double precision, regardless of the class of the input/output (or that there be an option to do so).
I also vote that the output class should match the input class.
lvn
on 17 Apr 2014
More Answers (1)
Ernst Jan
on 28 Feb 2014
My results show that the first is actually faster:
n = 10000;
P1 = rand(1,n);
tic
A1 = sqrt(sum(P1.^2));
toc
tic
A2 = sqrt(P1*P1');
toc
tic
A3 = sqrt(sum(P1.*P1));
toc
P2 = rand([100,100,100,70]);
tic
A4 = sqrt(sum(P2.*P2,4));
toc
tic
A5 = sqrt(sum(P2.^2,4));
toc
Elapsed time is 0.000044 seconds.
Elapsed time is 0.000141 seconds.
Elapsed time is 0.000031 seconds.
Elapsed time is 0.307783 seconds.
Elapsed time is 0.309741 seconds.
Please provide a code example?
2 Comments
lvn
on 28 Feb 2014
@Ernst
You're using way too small a value of n to see a meaningful comparison. Here's what I get with n=1e7
Elapsed time is 0.031045 seconds.
Elapsed time is 0.008693 seconds.
Elapsed time is 0.030998 seconds.
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