I notice that

In [30]: np.mean([1, 2, 3])
Out[30]: 2.0

In [31]: np.average([1, 2, 3])
Out[31]: 2.0

However, there should be some differences, since after all they are two different functions.

What are the differences between them?

  • 28
    Actually, the documentation doesn't make it immediately clear, as far as I can see. Not saying it is impossible to tell, but I think this question is valid for Stack Overflow all the same. Commented Nov 18, 2013 at 17:47
  • 1
    numpy.mean : Returns the average of the array elements.
    – joaquin
    Commented Nov 18, 2013 at 17:47
  • 2
    @joaquin: "Compute the arithmetic mean along the specified axis." vs "Compute the weighted average along the specified axis."?
    – Blender
    Commented Nov 19, 2013 at 0:01
  • @Blender right. I was just trying to make a kind of funny response to your comment because if I follow your instructions the first thing I read in the docs for numpy.mean is numpy.mean : Returns the average of the array elements which is funny if you are looking for the answer to the OP question.
    – joaquin
    Commented Nov 19, 2013 at 16:05

5 Answers 5


np.average takes an optional weight parameter. If it is not supplied they are equivalent. Take a look at the source code: Mean, Average


    mean = a.mean
except AttributeError:
    return _wrapit(a, 'mean', axis, dtype, out)
return mean(axis, dtype, out)


if weights is None :
    avg = a.mean(axis)
    scl = avg.dtype.type(a.size/avg.size)
    #code that does weighted mean here

if returned: #returned is another optional argument
    scl = np.multiply(avg, 0) + scl
    return avg, scl
    return avg
  • 82
    Why do they offer two different functions? Seems they should just offer np.average since weights is already optional. Seems unnecessary and only serves to confuse users.
    – Geoff
    Commented Nov 30, 2015 at 22:03
  • 12
    @Geoff I would rather have them throw a NotImplementedException for "average", to educate users that the arithmetic mean is not identical to "the average".
    – FooBar
    Commented Jun 26, 2018 at 11:15
  • @Geoff this and that answers actually tell you why there is a need for these two functions.
    – Olivier
    Commented Nov 8, 2023 at 18:14

np.mean always computes an arithmetic mean, and has some additional options for input and output (e.g. what datatypes to use, where to place the result).

np.average can compute a weighted average if the weights parameter is supplied.


In some version of numpy there is another imporant difference that you must be aware:

average do not take in account masks, so compute the average over the whole set of data.

mean takes in account masks, so compute the mean only over unmasked values.

g = [1,2,3,55,66,77]
f = np.ma.masked_greater(g,5)

Out: 34.0

Out: 2.0
  • 3
    Note: np.ma.average works. Also, there is a bug report.
    – Neil G
    Commented Mar 29, 2017 at 1:53
  • 2
    np.average and np.mean both takes into account masks. I've tried and got the value of "Out: 2.0"
    – CEB
    Commented Jun 30, 2022 at 14:40
  • @CEB the new version probably fix the bug thanks for reporting
    – G M
    Commented Jun 30, 2022 at 16:42

In addition to the differences already noted, there's another extremely important difference that I just now discovered the hard way: unlike np.mean, np.average doesn't allow the dtype keyword, which is essential for getting correct results in some cases. I have a very large single-precision array that is accessed from an h5 file. If I take the mean along axes 0 and 1, I get wildly incorrect results unless I specify dtype='float64':

(4096, 4096, 720)

m1 = np.average(T, axis=(0,1))                #  garbage
m2 = np.mean(T, axis=(0,1))                   #  the same garbage
m3 = np.mean(T, axis=(0,1), dtype='float64')  # correct results

Unfortunately, unless you know what to look for, you can't necessarily tell your results are wrong. I will never use np.average again for this reason but will always use np.mean(.., dtype='float64') on any large array. If I want a weighted average, I'll compute it explicitly using the product of the weight vector and the target array and then either np.sum or np.mean, as appropriate (with appropriate precision as well).

  • 1
    Very surprising. Do you know why this happens, and can you file a bug report? Thanks Commented Sep 22, 2020 at 13:48

In your invocation, the two functions are the same.

average can compute a weighted average though.

Doc links: mean and average

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