I have those arrays:

a = np.array([

b = np.array([1,2,3,4])

and I want them to multiply like so:

[[1*1, 2*1],
[3*2, 4*2],
[5*3, 6*3],
[7*4, 8*4]]

... basically out[i] = a[i] * b[i], where a[i].shape is (2,) and b[i] then is a scalar.

What's the trick? np.multiply seems not to work:

>>> np.multiply(a, b)
ValueError: operands could not be broadcast together with shapes (4,2) (4)
  • 3
    The answer below uses a feature called broadcasting. You can read about it here, here and here. It's also more standard to use the operator * rather than multiply
    – YXD
    Apr 8 '14 at 11:20
  • @YXD. You're right, although there are 2 things at play here - first reshape, then broadcast together. Nevertheless, I would rather insert a link to this question in the documentation, than the other way round - the theory behind broadcasting sounds very complicated, and seeing a simple example like this one, or e.g. a multiplication table on 2 aranges (outer product) gives a good concrete example. Nov 6 '19 at 19:31

add an axis to b:

>>> np.multiply(a, b[:, np.newaxis])
array([[ 1,  2],
       [ 6,  8],
       [15, 18],
       [28, 32]])
  • Perfect, thanks! I think I should spend some time figuring out what's the think with "axis" ...
    – wal-o-mat
    Apr 8 '14 at 10:35
  • a * b[:, np.newaxis] does not work for sparse matrices though. Using multiply works. Dec 3 '18 at 11:56

For those who don't want to use np.newaxis or reshape, this is as simple as:

a * b[:, None]

This is because np.newaxis is actually an alias for None.

Read more here.

>>> a * b.reshape(-1, 1)
array([[ 1,  2],
       [ 6,  8],
       [15, 18],
       [28, 32]])
  • 9
    So what? Answering on SX not only helps authors but also the people who will reach this page in the future when they've encountered the same problem. Nov 28 '17 at 12:18

What's missing here is the einsum (doc) variant:

np.einsum("ij,i->ij", a, b)

This gives you full control over the indices and a and b are passed blank.

  • 1
    As np.einsum was already available when the question was asked, I think this should be the accepted answer. The answer above uses additional memory I guess?
    – Nic
    Jun 13 at 23:16

It looks nice, but quite naive, I think, because if you change the dimensions of a or b, the solution

np.mulitply(a, b[:, None])

doesn't work anymore.

I've always had the same doubt about multiplying arrays of arbitrary size row rise, or even, more generally, n-th dimension wise.

I used to do something like

 z = np.array([np.multiply(a, b) for a, b in zip(x,y)])

and that works for x or y that have dimension 1 or 2.

Does it exist with a method with "axis" argument like in other numpy methods? Such like

 z = np.mulitply(x, y, axis=0)

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