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I am trying to figure out how to calculate covariance with the Python Numpy function cov. When I pass it two one-dimentional arrays, I get back a 2x2 matrix of results. I don't know what to do with that. I'm not great at statistics, but I believe covariance in such a situation should be a single number. This is what I am looking for. I wrote my own:

def cov(a, b):

    if len(a) != len(b):

    a_mean = np.mean(a)
    b_mean = np.mean(b)

    sum = 0

    for i in range(0, len(a)):
        sum += ((a[i] - a_mean) * (b[i] - b_mean))

    return sum/(len(a)-1)

That works, but I figure the Numpy version is much more efficient, if I could figure out how to use it.

Does anybody know how to make the Numpy cov function perform like the one I wrote?



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1 Answer 1

up vote 35 down vote accepted

When a and b are 1-dimensional sequences, numpy.cov(a,b)[0][1] is equivalent to your cov(a,b).

The 2x2 array returned by np.cov(a,b) has elements equal to

cov(a,a)  cov(a,b)

cov(a,b)  cov(b,b)

(where, again, cov is the function you defined above.)

share|improve this answer
Thank you so much! I wish the documentation had explained it that well. That works perfectly. Once I had my own working function, I should have compared the result to the numpy.cov function and I'd probably have figured that out. I'd vote-up if I could, but I'm new and apparently can't. – Dave Mar 10 '13 at 1:59
No problem. Glad I could help. – unutbu Mar 10 '13 at 2:05

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