# What is a fast way to compute column by column correlation in matlab

I have two very large matrices (60x25000) and I'd like to compute the correlation between the columns only between the two matrices. For example:

``````corrVal(1) = corr(mat1(:,1), mat2(:,1);
corrVal(2) = corr(mat1(:,2), mat2(:,2);
...
corrVal(i) = corr(mat1(:,i), mat2(:,i);
``````

For smaller matrices I can simply use:

``````   colCorr = diag( corr( mat1, mat2 ) );
``````

but this doesn't work for very large matrices as I run out of memory. I've considered slicing up the matrices to compute the correlations and then combining the results but it seems like a waste to compute correlation between column combinations that I'm not actually interested.

Is there a quick way to directly compute what I'm interested?

Edit: I've used a loop in the past but its just way to slow:

``````mat1 = rand(60,5000);
mat2 = rand(60,5000);
nCol = size(mat1,2);
corrVal = zeros(nCol,1);

tic;
for i = 1:nCol
corrVal(i) = corr(mat1(:,i), mat2(:,i));
end
toc;
``````

This takes ~1 second

``````tic;
corrVal = diag(corr(mat1,mat2));
toc;
``````

This takes ~0.2 seconds

-
I made an edit to your post ; please check if it's correct. –  Jacob Feb 13 '12 at 15:46
Also, what's wrong with the obvious for loop? –  Jacob Feb 13 '12 at 15:47
the edit is correct, thanks! Also the loop is way to slow –  slayton Feb 13 '12 at 16:07
I made another change. Also, on my PC, the loop took ~1.7s and the `diag` version is still running (well over a minute). –  Jacob Feb 13 '12 at 16:15
OK, I reduced the matrix to 60x500 and the loop & diag versions took ~0.17s and ~16.7s resp. –  Jacob Feb 13 '12 at 16:20

I can obtain a x100 speed improvement by computing it by hand.

``````An=bsxfun(@minus,A,mean(A,1)); %%% zero-mean
Bn=bsxfun(@minus,B,mean(B,1)); %%% zero-mean
An=bsxfun(@times,An,1./sqrt(sum(An.^2,1))); %% L2-normalization
Bn=bsxfun(@times,Bn,1./sqrt(sum(Bn.^2,1))); %% L2-normalization
C=sum(An.*Bn,1); %% correlation
``````

You can compare using that code:

``````A=rand(60,25000);
B=rand(60,25000);

tic;
C=zeros(1,size(A,2));
for i = 1:size(A,2)
C(i)=corr(A(:,i), B(:,i));
end
toc;

tic
An=bsxfun(@minus,A,mean(A,1));
Bn=bsxfun(@minus,B,mean(B,1));
An=bsxfun(@times,An,1./sqrt(sum(An.^2,1)));
Bn=bsxfun(@times,Bn,1./sqrt(sum(Bn.^2,1)));
C2=sum(An.*Bn,1);
toc
mean(abs(C-C2)) %% difference between methods
``````

Here are the computing times:

``````Elapsed time is 10.822766 seconds.
Elapsed time is 0.119731 seconds.
``````

The difference between the two results is very small:

``````mean(abs(C-C2))

ans =
3.0968e-17
``````

EDIT: explanation

`bsxfun` does a column-by-column operation (or row-by-row depending on the input).

``````An=bsxfun(@minus,A,mean(A,1));
``````

This line will remove (`@minus`) the mean of each column (`mean(A,1)`) to each column of `A`... So basically it makes the columns of `A` zero-mean.

``````An=bsxfun(@times,An,1./sqrt(sum(An.^2,1)));
``````

This line multiply (@times) each column by the inverse of its norm. So it makes them L-2 normalized.

Once the columns are zero-mean and L2-normalized, to compute the correlation, you just have to make the dot product of each column of `An` with each column of `B`. So you multiply them element-wise `An.*Bn`, and then you sum each column: `sum(An.*Bn);`.

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wow that is fast. Can you give me a quick explanation as to why this works? –  slayton Feb 13 '12 at 16:57
I've added some explanation. I hope it's not to unclear... –  Oli Feb 13 '12 at 17:05
@Oli: Great answer! –  Jacob Feb 13 '12 at 17:31

I think the obvious loop might be good enough for your size of problem. On my laptop it takes less than 6 seconds to do the following:

``````A = rand(60,25000);
B = rand(60,25000);
n = size(A,1);
m = size(A,2);

corrVal = zeros(1,m);
for k=1:m
corrVal(k) = corr(A(:,k),B(:,k));
end
``````
-
whoops, I didn't see your edit. Wow, diag is way faster. –  Ian Hincks Feb 13 '12 at 16:13
Wait, what am I missing? diag(corr(A,B)); takes over 10 seconds for me. –  Ian Hincks Feb 13 '12 at 16:15
Yep. Same here. –  Jacob Feb 13 '12 at 16:16
Can you run `diag(corr(A,B))` on matrices that big? I get an out of memory error when I try to run in on these matrices –  slayton Feb 13 '12 at 16:20
@slayton: I don't think you can. Besides, it seems that the loop version is faster! –  Jacob Feb 13 '12 at 16:21