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I'm trying to use and accelerate fancy indexing to "join" two arrays and sum over one of results' axis.

Something like this:

$ ipython
In [1]: import numpy as np
In [2]: ne, ds = 12, 6
In [3]: i = np.random.randn(ne, ds).astype('float32')
In [4]: t = np.random.randint(0, ds, size=(1e5, ne)).astype('uint8')

In [5]: %timeit i[np.arange(ne), t].sum(-1)
10 loops, best of 3: 44 ms per loop

Is there a simple way to accelerate the statement in In [5] ? Should I go with OpenMP and something like scipy.weave or Cython's prange ?

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  • Another related question is how would I use pandas to do the same thing ?
    – npinto
    Aug 3, 2012 at 16:59
  • Numpy is doing that at C speed so you probably won't be able to speed it up much with weave.
    – reptilicus
    Aug 3, 2012 at 18:45

1 Answer 1

8

numpy.take is much faster than fancy indexing for some reason. The only trick is that it treats the array as flat.

In [1]: a = np.random.randn(12,6).astype(np.float32)

In [2]: c = np.random.randint(0,6,size=(1e5,12)).astype(np.uint8)

In [3]: r = np.arange(12)

In [4]: %timeit a[r,c].sum(-1)
10 loops, best of 3: 46.7 ms per loop

In [5]: rr, cc = np.broadcast_arrays(r,c)

In [6]: flat_index = rr*a.shape[1] + cc

In [7]: %timeit a.take(flat_index).sum(-1)
100 loops, best of 3: 5.5 ms per loop

In [8]: (a.take(flat_index).sum(-1) == a[r,c].sum(-1)).all()
Out[8]: True

I think the only other way you're going to see much of a speed improvement beyond this would be to write a custom kernel for a GPU using something like PyCUDA.

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  • 1
    It only treats the array as flat by default, you can still use the axis keyword. Ie, np.take(np.arange(10).reshape((-1,2)), [0], axis=0) will select the first row.
    – jorgeca
    Aug 6, 2012 at 21:43
  • @jorgeca: right, but I don't think you can pull individual elements by specifying both row and column like you can with fancy indexing unless you index the flat array.
    – user545424
    Aug 6, 2012 at 21:54

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