# Multiply each value in rows of Matrix A by each corresponding value of a specfic row in Matrix B

I have a A=[m,n] matrix and a B=[n,l] matrix.

A =
[1 2 3
4 5 6
7 8 9
10 11 12]

For the sake of simplicity, let's assume l=1, so B is in fact a vector B=[n,1]

B = [100 10 1]

I would like multiply all the values in each row of A by a corresponding value of B - column-wise.

I know how to do it "manually":

C=[A(:,1)*B(:,1), A(:,2)*B(:,2), A(:,3)*B(:,3)]

This is the result I want:

C =
[100 20 3
400 50 6
700 80 9
1000 110 12]

Unfortunately my real life matrices are a bit bigger e.g. (D=[888,1270]) so I'm looking for smarter/faster way to do this.

-
What should be the output if l is not 1, i.e. if B is a matrix? –  Dirk Jun 1 '13 at 11:05

``````C=bsxfun(@times,A,B)

C =
100          20           3
400          50           6
700          80           9
1000         110          12
``````
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You beat me to it! –  Marc Claesen Jun 1 '13 at 11:07

If `I > 1`, then you will have to reorder the dimensions of `B` first with a `permute`,

``````>> B = [100 10 1; 1 10 100];
>> C = bsxfun(@times, A, permute(B, [3 2 1]));
>> C

C(:,:,1) =

100          20           3
400          50           6
700          80           9
1000         110          12

C(:,:,2) =

1          20         300
4          50         600
7          80         900
10         110        1200
``````
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+1 for the handling `I > 1`. By the way, this is in fact a faster version of `kron(A, B)`. –  Eitan T Jun 1 '13 at 19:10