# python 3.1 - Creating normal distribution

very new to python. I have scipy and numpy, Python v3.1

I need to create a 1D array of length 3million, using random numbers between (and including) 100-60,000. It has to fit a normal distribution.

Using 'a = numpy.random.standard_normal(3000000)', I get a normal distribution for that required length; not sure how to achieve the required range.

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If you need integers — check the edge case: you may have 50% hits cut off because of rounding! Just generate 10000 numbers and count the occurences of each: they should be more-or-less equal. Here's an example of overcoming the edge case with `uniform` distribution in 0..100: `round(random.uniform(-0.5, 100+0.5))` –  kolypto Jan 15 '11 at 4:35

A standard normal distribution has mean 0 and standard deviation 1. What I understand from your requirements is that you need a ((60000-100)/2, (60000-100)/2) one. Take each value from `standard_normal()` result, multiply it by the new variance, and add the new mean.

I haven't used NumPy, but a quick search of the docs says that you can achieve what you want directly bu using `numpy.random.normal()`

One last tidbit: normal distributions are not bounded. That means there isn't a value with probability zero. Your requirements should be in terms of means and variances (or standard deviations), and not of limits.

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Oops, didn't realise this existed, +1, use this method rather than mine. –  fmark Jan 15 '11 at 4:16
Thanks for that! Took awhile to get my head around but I got there. As much a programming problem as understanding some basic statistics. Cheers. –  jimy Jan 15 '11 at 15:14

If you want a truly random normal distribution, you can't guarentee how far the numbers will spread. You can reduce the probability of outliers, however, by specifying the standard deviation

``````>>> n = 3000000
>>> sigma5 = 1.0 / 1744278
>>> n * sigma5
1.7199093263803131  # Expect one values in 3 mil outside range at 5 stdev.
>>> sigma6 = 1.0 / 1 / 506800000
>>> sigma6 = 1.0 / 506800000
>>> n * sigma6
0.0059194948697711127 # Expect 0.005 values in 3 mil outside range at 6 stdev.
>>> sigma7 = 1.0 / 390600000000
>>> n * sigma7
7.6804915514592934e-06
``````

Therefore, in this case, ensuring that the standard deviation is only 1/6 or 1/7 of half the range will give you reasonable confidence that your data will not exceed the range.

``````>>> range = 60000 - 100
>>> spread = (range / 2) / 6 # Anything outside of the range will be six std. dev. from the mean
>>> mean = (60000 + 100) / 2
>>> a = numpy.random.normal(loc = mean, scale = spread, size = n)
>>> min(a)
6320.0238199673404
>>> max(a)
55044.015566089176
``````

Of course, you can still can values that fall outside the range here

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I used above, but the comments really helped with the understanding. Thanks! –  jimy Jan 15 '11 at 15:13

try this nice little method:

You'll want a method that just makes one random number.

``````import random
list = [random.randint(min,max) for i in range(numitems)]
``````

This will give you a list with numitems random numbers between min and max.

Of course, 3000000 is a lot of items to have in memory. Consider making the random numbers as they are needed by the program.

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`random.randrange` does not create a normal distribution. Also, the OP is asking for a NumPy array, not a list. –  Amber Jan 15 '11 at 3:53