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Does exist a numpy function or anything else when one wants to optimize a loop like this one?

for i in range(0,n):
  a[i, 0:p] = b[i, 0:p] * c[0:p]

Here, c[0:p] is a 1D array (independent of i index) which could be stored for once before the loop to save some computing. However, I am more interested in knowing if there exists a function which could replace the for-loop itself which is quite slow.

  • have you tried numpy.dot? – GOVIND DIXIT Jul 13 '19 at 13:06
  • I do not see how to use numpy.dot here since there is no sum to compute. Could you explain your idea? – Aleph Jul 13 '19 at 13:08
  • Oh, I see. So you just want to do element-wise multiplication of two 1d arrays to get the output stored in 3rd? – GOVIND DIXIT Jul 13 '19 at 13:11
  • To be clearer, the operation involved here is the element-wise product of a matrix b and another matrix which contains a vector c in each of its columns, i.e. [c, c, c, ..., c]. I think I could optimize the code by storing this last matrix and just write a = b * [c, c, ..., c] but I wonder if there exists a better solution as this one requires an extra storage cost. – Aleph Jul 13 '19 at 13:12
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    With broadcasting, a=b*c – hpaulj Jul 13 '19 at 15:50
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A loop may not be necessary as you have pointed out.

assert (c[0:p]).shape == (p,)

and where

assert (a[0:n, 0:p]).shape == (n, p)
assert (b[0:n, 0:p]).shape == (n, p)

You can perform a matrix multiplication and assignment directly in place of the loop:

a[0:n, 0:p] = b[0:n, 0:p] * c[0:p]
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