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Say I compute the density of Beta(4,8):

from scipy.stats import beta
rv = beta(4, 8)
x = np.linspace(start=0, stop=1, num=200)
my_pdf = rv.pdf(x)

Why does the integral of the pdf not equal one?

> my_pdf.sum()
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2 Answers 2

up vote 2 down vote accepted

The integral over the pdf is one. You can see this by using numerical integration from scipy

>>> from scipy.integrate import quad
>>> quad(rv.pdf, 0, 1)
(0.9999999999999999, 1.1102230246251564e-14)

or by writing your own ad-hoc integration (with a trapezoidal rule in this example)

>>> x = numpy.linspace(start=0, stop=1, num=201)
>>> (0.5 * rv.pdf(x[0]) + rv.pdf(x[1:-1]).sum() + 0.5 * rv.pdf(x[-1])) / 200.0
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Thanks Sven. With this in mind, say I have the pdf stored in my_pdf and I want to compute the variance, do I still need to use quad to compute the integral: Var(x) = E(x-E(x))? Or is there an easy way with scipy.stats? – Amelio Vazquez-Reina Feb 24 '14 at 15:20
You can do things like mu=scipy.sum( x*my_pdf)/scipy.sum(my_pdf) and scipy.sum(my_pdf*(x-mu)**2)/(scipy.sum(my_pdf)) -- you are just dealing with a distribution that is not normalized. Note: you are still subject to discretization errors. – Dave Feb 25 '14 at 19:15
Even better: you can use the weight argument in scipy.average so that the mean is mu=scipy.average(x, weights=my_pdf) and variance is sigma_squared=scipy.average( (x-mu)**2 , weights=my_pdf) – Dave Feb 25 '14 at 19:19

rv.pdf returns the value of the pdf at each value of x. It doesn't sum to one because your aren't actually computing an integral. If you want to do that, you need to divide your sum by the number of intervals, which is len(x) - 1, which is 199. That would then give you a result very close to 1.

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Why dividing by len(x) - 1? I can't see any reason for applying that rule. – Sven Marnach Feb 24 '14 at 15:07
I am confused. If I collect a fine sample of the pdf, and I sum over this sample, shouldn't that be equivalent to integrating the pdf? Why do I have to divide by the length of x? – Amelio Vazquez-Reina Feb 24 '14 at 15:09
It's called the Trapezoidal Rule. – bogatron Feb 24 '14 at 15:11
@user815423426 No. Suppose you collect a bunch of uniformly spaced samples over the interval and sum them to get a result. If you then do the same thing with double the number of samples, you'll get a sum that is also roughly double again. When you integrate, you have to consider the sample interval as well, not just the number of samples. – bogatron Feb 24 '14 at 15:15
Thanks bogatron. That explanation was very helpful. – Amelio Vazquez-Reina Feb 24 '14 at 15:16

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