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I have a histogram


I can see that the shape is almost gaussian but I would like to fit this histogram with a gaussian function and print the value of the mean and sigma I get. Can you help me?

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"fit this histogram with a gaussian function"? Usually we just compute the mean and standard deviation of the histogram directly. What do you mean by "fit this histogram with a gaussian function"? –  S.Lott Oct 18 '11 at 10:13
how can you compute the mean and standard deviation "directly". What if the histogram is not really a gaussian and I want to fit it, let's say, with a log-normal distribution? –  Matteo Oct 18 '11 at 10:18
There are equations for the mean and standard deviation of any set of data points regardless of their distribution. And any curve (such as a straight line y = mx + b) can be fit to any set of data. You will need to read up on basic statistical functions (mean, median, mode, variance, ...) and least-squares approximation. Understand curve fitting for basic (linear and quadratic) functions first before trying it out on more complex curves. –  Dave Oct 18 '11 at 10:59
Curve fitting is not actually required, if you've got the data. Just find the mean and the standard deviation, and plug them into the formula for the normal (aka Gaussian) distribution (en.wikipedia.org/wiki/Normal_distribution). –  Thomas K Oct 18 '11 at 11:57
The mean of a histogram is sum( value*frequency for value,frequency in h )/sum( frequency for _,frequency in h ). The standard deviation is equally simple -- but a bit long for a comment. Can you please update the question to explain in more detail what you're trying to do? –  S.Lott Oct 18 '11 at 12:08

2 Answers 2

Here you have an example working on py2.6 and py3.2:

from scipy.stats import norm
import matplotlib.mlab as mlab
import matplotlib.pyplot as plt

# read data from a text file. One number per line
arch = "test/Log(2)_ACRatio.txt"
datos = []
for item in open(arch,'r'):
    item = item.strip()
    if item != '':
        except ValueError:

# best fit of data
(mu, sigma) = norm.fit(datos)

# the histogram of the data
n, bins, patches = plt.hist(datos, 60, normed=1, facecolor='green', alpha=0.75)

# add a 'best fit' line
y = mlab.normpdf( bins, mu, sigma)
l = plt.plot(bins, y, 'r--', linewidth=2)

plt.title(r'$\mathrm{Histogram\ of\ IQ:}\ \mu=%.3f,\ \sigma=%.3f$' %(mu, sigma))


enter image description here

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I want to do this to my dataset, without scaling, thus getting my data's sigma.. Not some scaled sigma! –  Mossa Nova Mar 8 '12 at 23:06

Here is an example that uses scipy.optimize to fit a non-linear functions like a Gaussian, even when the data is in a histogram that isn't well ranged, so that a simple mean estimate would fail. An offset constant also would cause simple normal statistics to fail ( just remove p[3] and c[3] for plain gaussian data).

from pylab import *
from numpy import loadtxt
from scipy.optimize import leastsq

fitfunc  = lambda p, x: p[0]*exp(-0.5*((x-p[1])/p[2])**2)+p[3]
errfunc  = lambda p, x, y: (y - fitfunc(p, x))

filename = "gaussdata.csv"
data     = loadtxt(filename,skiprows=1,delimiter=',')
xdata    = data[:,0]
ydata    = data[:,1]

init  = [1.0, 0.5, 0.5, 0.5]

out   = leastsq( errfunc, init, args=(xdata, ydata))
c = out[0]

print "A exp[-0.5((x-mu)/sigma)^2] + k "
print "Parent Coefficients:"
print "1.000, 0.200, 0.300, 0.625"
print "Fit Coefficients:"
print c[0],c[1],abs(c[2]),c[3]

plot(xdata, fitfunc(c, xdata))
plot(xdata, ydata)

title(r'$A = %.3f\  \mu = %.3f\  \sigma = %.3f\ k = %.3f $' %(c[0],c[1],abs(c[2]),c[3]));



A exp[-0.5((x-mu)/sigma)^2] + k 
Parent Coefficients:
1.000, 0.200, 0.300, 0.625
Fit Coefficients:
0.961231625289 0.197254597618 0.293989275502 0.65370344131

gaussian plot with fit

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