I can generate Gaussian data with random.gauss(mu, sigma) function, but how can I generate 2D gaussian? Is there any function like that?


Since the standard 2D Gaussian distribution is just the product of two 1D Gaussian distribution, if there are no correlation between the two axes (i.e. the covariant matrix is diagonal), just call random.gauss twice.

def gauss_2d(mu, sigma):
    x = random.gauss(mu, sigma)
    y = random.gauss(mu, sigma)
    return (x, y)
  • If there are no correlation between the axes, I will call random.gauss twice and I will have 2 1D gaussian dist. Then do I need to product the two 1D gaussian distribution? Or can I just put them as columns of my 2D data? Because if I need to product them together, since I have 10k data, it will cost too much. – user103021 Oct 7 '11 at 13:46
  • @user984041: No, just treat the results as the coordinates of a 2D point. The product is the reason why this approach is valid. – kennytm Oct 7 '11 at 13:50
  • 4
    Saying to call it twice isn't a sufficient answer. You will have 2 1D arrays. A complete answer would explain how to combine two 1D arrays into a 2D array. – Octopus Jul 18 '14 at 2:14
  • @Octopus: Sampling a 2D gaussian gives you an array of 2-tuples i.e. 2×N matrix, not a 2D array (N×N matrix). I don't see how it is insufficient. – kennytm Jul 18 '14 at 7:10
  • 1
    @shakram02 Literally calling random.gauss twice 👀. See update. – kennytm Jul 21 '18 at 14:25

If you can use numpy, there is numpy.random.multivariate_normal(mean, cov[, size]).

For example, to get 10,000 2D samples:

np.random.multivariate_normal(mean, cov, 10000)

where mean.shape==(2,) and cov.shape==(2,2).

  • I am trying to draw 10000 samples from 2D distribution I created like this: data = np.random.multivariate_normal(mean,cov,(10000,10000)) but it gives memory error. Am I generating a 10000x10000 data or 2x2 data, I am confused a bit. If so, how can I draw 10000 samples from a 2D distribution? – user103021 Oct 7 '11 at 13:34
  • I believe the correct way to get 10K 2D samples is np.random.multivariate_normal(mean,cov,10000), where mean.shape==(2,) and cov.shape==(2,2). – NPE Oct 7 '11 at 13:39

I'd like to add an approximation using exponential functions. This directly generates a 2d matrix which contains a movable, symmetric 2d gaussian.

I should note that I found this code on the scipy mailing list archives and modified it a little.

import numpy as np

def makeGaussian(size, fwhm = 3, center=None):
    """ Make a square gaussian kernel.

    size is the length of a side of the square
    fwhm is full-width-half-maximum, which
    can be thought of as an effective radius.

    x = np.arange(0, size, 1, float)
    y = x[:,np.newaxis]

    if center is None:
        x0 = y0 = size // 2
        x0 = center[0]
        y0 = center[1]

    return np.exp(-4*np.log(2) * ((x-x0)**2 + (y-y0)**2) / fwhm**2)

For reference and enhancements, it is hosted as a gist here. Pull requests welcome!

  • Thanks for a way to generate a matrix, that's exactly what I needed. – Phlya Oct 4 '15 at 11:27
  • I might be confused, but is the center actually correct? If I do scipy.ndimage.center_of_mass(makeGaussian(10, 3, center=(4,3))) I get (3, 4). – deinonychusaur Nov 25 '15 at 11:18
  • I've also played with it a bit, the centre is indeed falsely placed – Ido_f Apr 19 '16 at 13:59

Numpy has a function to do this. It is documented here. Additionally to the method proposed above it allows to draw samples with arbitrary covariance.

Here is a small example, assuming ipython -pylab is started:

samples = multivariate_normal([-0.5, -0.5], [[1, 0],[0, 1]], 1000)
plot(samples[:, 0], samples[:, 1], '.')

samples = multivariate_normal([0.5, 0.5], [[0.1, 0.5],[0.5, 0.6]], 1000)
plot(samples[:, 0], samples[:, 1], '.')
  • Plotting lines should be plot(samples[:,0], samples[:,1], '.') – physicsmichael Nov 11 '13 at 21:03

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