I have a function defined by a combination of basic math functions (abs, cosh, sinh, exp, ...).

I was wondering if it makes a difference (in speed) to use, for example, numpy.abs() instead of abs()?

  • 14
    Use timeit. Sep 6, 2010 at 9:37
  • 2
    There is no math.abs(). I guess you mean abs()? Sep 6, 2010 at 11:27
  • @EOL yes sorry, i edited the question. thx
    – Mermoz
    Sep 6, 2010 at 13:47

3 Answers 3


Here are the timing results:

lebigot@weinberg ~ % python -m timeit 'abs(3.15)' 
10000000 loops, best of 3: 0.146 usec per loop

lebigot@weinberg ~ % python -m timeit -s 'from numpy import abs as nabs' 'nabs(3.15)'
100000 loops, best of 3: 3.92 usec per loop

numpy.abs() is slower than abs() because it also handles Numpy arrays: it contains additional code that provides this flexibility.

However, Numpy is fast on arrays:

lebigot@weinberg ~ % python -m timeit -s 'a = [3.15]*1000' '[abs(x) for x in a]'
10000 loops, best of 3: 186 usec per loop

lebigot@weinberg ~ % python -m timeit -s 'import numpy; a = numpy.empty(1000); a.fill(3.15)' 'numpy.abs(a)'
100000 loops, best of 3: 6.47 usec per loop

(PS: '[abs(x) for x in a]' is slower in Python 2.7 than the better map(abs, a), which is about 30 % faster—which is still much slower than NumPy.)

Thus, numpy.abs() does not take much more time for 1000 elements than for 1 single float!

  • 6
    would be nice to have the result of python -m timeit -s 'import numpy' -s 'a=numpy.array((1,)*1000)' 'numpy.abs(a)' to show how numpy can be fast with its array
    – BatchyX
    Sep 6, 2010 at 14:15
  • 6
    @EOL: It appears that your timeit includes importing numpy, which alone takes a few seconds. Further, in your second example, I wonder if much of the time for Python's base "abs" function comes more from your list comprehension than from the "abs" function itself?
    – tbhartman
    Jun 11, 2012 at 14:39
  • 15
    @tbhartman: Note the -s option given to timeit: the import numpy is actually only done once, during setup. It is not timed. As for the abs() example, replacing abs(x) with x shows that abs() uses half the total run time. In any case, the point remains the same: NumPy is really fast compared to pure (CPython-interpreted) Python. Jun 12, 2012 at 11:44

You should use numpy function to deal with numpy's types and use regular python function to deal with regular python types.

Worst performance usually occurs when mixing python builtins with numpy, because of types conversion. Those type conversion have been optimized lately, but it's still often better to not use them. Of course, your mileage may vary, so use profiling tools to figure out.

Also consider the use of programs like cython or making a C module if you want to optimize further your program. Or consider not to use python when performances matters.

but, when your data has been put into a numpy array, then numpy can be really fast at computing bunch of data.


In fact, on numpy array

built in abs calls numpy's implementation via __abs__, see Why built-in functions like abs works on numpy array?

So, in theory there shouldn't be much performance difference.

import timeit

x = np.random.standard_normal(10000)

def pure_abs():
    return abs(x)

def numpy_abs():
    return np.absolute(x)

n = 10000

t1 = timeit.timeit(pure_abs, number = n)
print 'Pure Python abs:', t1
t2 = timeit.timeit(numpy_abs, number = n)
print 'Numpy abs:', t2
Pure Python abs: 0.435754060745
Numpy abs: 0.426516056061

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