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I have a nx1 vector and a 1xn vector. I want to add them in a special manner like matrix multiplication in an efficient manner (vectorized):

Example:

A=[1 2 3]'

B=[4 5 6]

A \odd_add B = 
[1+4 1+5 1+6
 2+4 2+5 2+6
 3+4 3+5 3+6
]

Regards

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2 Answers

You can use bsxfun:

A=[1 2 3]'

B=[4 5 6]

bsxfun(@plus, A, B)

The result is

ans =

     5     6     7
     6     7     8
     7     8     9
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Thank you, I hope the solution to be fast enough. –  remo Jul 27 '12 at 17:55
    
As I have tested it, it's about 6 times slower than regular matrix multiplication. I used exp(A) and exp(B) and multiplied them and then retrieved the special summation using log() function. This approach is more faster!! Can your code be vectorized? –  remo Jul 27 '12 at 18:23
    
I disagree with your tests; I find bsxfun to be many times faster than matrix multiplication, for all sizes of vector that I tested. This should be the case, as the computational complexity of multiplication is super-linear in the number of matrix elements. –  Isaac Jul 27 '12 at 21:27
    
Yes, your answer is theoretically true, but the final speed depends on the implementation. You can redo my test in your machine as below: tic; eA= exp(A); eB = exp(B); result = log(eA*eB); toc; –  remo Jul 28 '12 at 2:13
    
@remo: How large where the matrices you did the speed tests with? I have the impression that bsxfun outperforms your alternative approach for large matrices (I tested with A and B having 1000 elements each). –  H.Muster Jul 28 '12 at 9:08
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You can use the repmat function (replicate matrices):

repmat(A,1,3)+repmat(B,3,1)
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