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I'm writing a small function to generate values from the Normal distribution using Box-Muller method, but I'm getting negative values.

Here is my source code

import random

def generate_normal(mu, sigma):
    u = random.random()
    v = random.random()

    z1 = sqrt(-2 * log(u)) * sin(2 * pi * v)
    z2 = sqrt(-2 * log(u)) * cos(2 * pi * v)

    x1 = mu + z1 * sigma
    x2 = mu + z2 * sigma

    return x2

Waht am I missing? I'm getting negative values in both x1 and x2. For example:

mu: 400
sigma: 150
u: 7.27333176449e-05
v: 0.642384573173
z1: -3.40497345242
x1: -110.746017863


x2: -9.79324023117
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up vote 6 down vote accepted

The unit normal distribution is centred on zero, and two-sided with small tails out to plus and minus infinity. 99.7% of your values will lie within three standard deviations, the other 0.3% won't.

enter image description here

In this example, with a mean of 400 and a standard deviation of 150, 99.7% of your values will fall within three standard deviations of the mean - the interval [-50,850], which includes negative numbers. So expect negative numbers right off the bat.

As for the other 0.3% of values, remember that's 3/1000 of your numbers - not uncommon at all.

If you want a "bell-curvey" distribution with finite support, try the beta distribution.

Finally, unless this is an academic exercise, there's no need to roll your own equivalent to numpy.random.normal().

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Great. I don't know how I missed it. I was just focused on the problem, and I totally forgot that very famous graphic of N(0,1) :). Thank you so much! – Oscar Mederos Mar 31 '12 at 0:38
We all have our little lapses. ;) That said, any reason you're not using numpy.random.normal()? – Li-aung Yip Mar 31 '12 at 0:42
OP isn't necessarily using NumPy at all, but the standard library offers this as random.gauss (faster but not threadsafe) or random.normalvariate. That said, IIRC the given method is prone to numerical instability (it's better to choose random coordinates in a unit square and reject them if they're outside the unit square, rather than choosing a weighted-random radius and random angle), and is throwing away half the valid results (x1 is as random as x2, and independent; better to remember this value and return it every other time, or use a generator and yield both values in a loop). – Karl Knechtel Mar 31 '12 at 1:10
@KarlKnechtel I'm doing exactly that. I'm using yield so that I can return x1, x2, then generate two new ones, and repeat the process. @Li-aungYip I'm developing a simulation of an airport for academic purposes, and the idea is to implement the used distributions from scratch (Normal, Poisson and Exponential). Thank you very much! – Oscar Mederos Apr 3 '12 at 5:54

Box-Muller transformation has stability problems when the random generated value is very close to zero. I recommend to replace random.random() by gaussinan distribution and affect by your mean and standard deviation.

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