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How to calculate probability in normal distribution given mean, std in Python? I can always explicitly code my own function according to the definition like the OP in this question did: Calculating Probability of a Random Variable in a Distribution in Python

Just wondering if there is a library function call will allow you to do this. In my imagine it would like this:

nd = NormalDistribution(mu=100, std=12)
p = nd.prob(98)

There is a similar question in Perl: How can I compute the probability at a point given a normal distribution in Perl?. But I didn't see one in Python.

Numpy has a random.normal function but it's like sampling, not exactly what I want.

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4 Answers 4

up vote 35 down vote accepted

There's one in scipy.stats:

>>> import scipy.stats
>>> scipy.stats.norm(0, 1)
<scipy.stats.distributions.rv_frozen object at 0x928352c>
>>> scipy.stats.norm(0, 1).pdf(0)
>>> scipy.stats.norm(0, 1).cdf(0)
>>> scipy.stats.norm(100, 12)
<scipy.stats.distributions.rv_frozen object at 0x928352c>
>>> scipy.stats.norm(100, 12).pdf(98)
>>> scipy.stats.norm(100, 12).cdf(98)
>>> scipy.stats.norm(100, 12).cdf(100)

[One thing to beware of -- just a tip -- is that the parameter passing is a little broad. Because of the way the code is set up, if you accidentally write scipy.stats.norm(mean=100, std=12) instead of scipy.stats.norm(100, 12) or scipy.stats.norm(loc=100, scale=12), then it'll accept it, but silently discard those extra keyword arguments and give you the default (0,1).]

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+1 beat me to it, was about to post :) – jterrace Sep 13 '12 at 19:04
How would you get probabilities from ranges? Say from 98 - 102? – Leon Aug 15 '14 at 23:13
@DSM: In your above example, when you say scipy.stats.norm(100, 12).pdf(98), does that mean the probability of getting 98 in a distribution with mean 100 and stddev 12 is 0.032 ? – ThePredator May 12 at 12:15
@ThePredator: no, the probability of getting 98 in a normal distribution with mean 100 and stddev 12 is zero. :-) The probability density is 0.032. – DSM May 14 at 21:20

Scipy.stats is a great module. Just to offer another approach, you can calculate it directly using

import math
def normpdf(x, mean, sd):
    var = float(sd)**2
    pi = 3.1415926
    denom = (2*pi*var)**.5
    num = math.exp(-(float(x)-float(mean))**2/(2*var))
    return num/denom

This uses the formula found here:

to test:

>>> norm(5,5).pdf(7)
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I know I can always calculate directly as mentioned in my question. Thanks anyway! – clwen Sep 13 '12 at 19:38
whoops, clearly I need to learn to read better ;) – jammycrisp Sep 13 '12 at 19:42
I am not a native English speaker. Feel free to edit if it can make it clearer. – clwen Sep 13 '12 at 19:45

You can just use the error function that's built in to the math library, as stated on their website.

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This only works in python 3.2 and above though. – user2340146 May 1 '13 at 16:34

The formula cited from wikipedia mentioned in the answers cannot be used to calculate normal probabilites. You would have to write a numerical integration approximation function using that formula in order to calculate the probability.

That formula computes the value for the probability density function. Since the normal distribution is continuous, you have to compute an integral to get probabilities. The wikipedia site mentions the CDF, which does not have a closed form for the normal distribution.

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Thank you for your contribution, although it would fit better as a comment to the answer you are referring at: if I understand well, you aren't really answering to the original question. This way, everyone will see at a first glance what you are talking about. – Pierre Prinetti May 25 at 16:11

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