Let's say we have two matrices `A`

and `B`

and let matrix `C`

be `A*B`

(matrix multiplication not element-wise). We wish to get only the diagonal entries of `C`

, which can be done via `np.diagonal(C)`

. However, this causes unnecessary time overhead, because we are multiplying A with B even though we only need the the multiplications of each row in `A`

with the column of `B`

that has the same 'id', that is row 1 of `A`

with column 1 of `B`

, row 2 of `A`

with column 2 of `B`

and so on: the multiplications that form the diagonal of `C`

. Is there a way to efficiently achieve that using Numpy? I want to avoid using loops to control which row is multiplied with which column, instead, I wish for a built-in numpy method that does this kind of operation to optimize performance.

Thanks in advance..

`A*B`

in NumPy is element-wise multiplication, not matrix multiplication (which is`a.dot(b)`

). – Blair Jul 3 '13 at 0:34`A`

and`B`

of type`ndarray`

or`matrix`

? – Bitwise Jul 3 '13 at 0:47`A`

and`B`

are`numpy.array`

. If they are`numpy.matrix`

, you can use`A*B`

– John La Rooy Jul 3 '13 at 1:15`numpy.matrix`

exists because I habitually work with three dimensional data. Thanks for pointing that out. – Blair Jul 3 '13 at 6:53`A`

and`B`

are matrices, sorry for not clarifying that – issamou Jul 3 '13 at 13:33