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To perform an outer product between two vectors in Python (scipy/numpy) you can use the outer function, or you can simply use dot like this:

In [76]: dot(rand(2,1), rand(1,2))
array([[ 0.43427387,  0.5700558 ],
       [ 0.19121408,  0.2509999 ]])

Now the question is, suppose I have a list of vectors (or two lists...) and I want to calculate all the outer products, creating a list of square matrices. How do I do that easily? I believe tensordot is able to do that, but how?

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If it the lists are huge, look at PyTables: – Paulo Scardine Feb 25 '11 at 20:23
Do you need to compute the list of outer products, or just their sum (or some other property)? – Jeremiah Willcock Feb 25 '11 at 20:24
@dividebyzero: Is creating a list of square matrices really your end goal? Could you be more specific what you are aiming for? Thanks – eat Feb 25 '11 at 23:09
@Paulo They are not very large lists... Around 1000 elements. And what I am looking for is for the fastest and simplest way to calculate. – dividebyzero Feb 26 '11 at 15:22
@Jeremiah I do need the list... What I am doing is calculating the so-called Structure Tensors from an image, over just a line of the image. It's a list of gradient vectors, and I need the outer product of each vector with itself. I will actually add some of them later, over the three image channels, and also with the top and bottom lines. But the result is still a list of 2x2 matrices, one for each pixel of the image line. – dividebyzero Feb 26 '11 at 15:26

2 Answers 2

up vote 5 down vote accepted

The third (and easiest to generalize) way to compute outer products is via broadcasting.

Some 3-vectors (vectors on rows):

import numpy as np
x = np.random.randn(100, 3)
y = np.random.randn(100, 3)

Outer product:

from numpy import newaxis
xy = x[:,:,newaxis] * y[:,newaxis,:]

# 10th matrix
print xy[10]
print np.outer(x[10,:], y[10,:])
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Thanks for that, I didn't know this! – dividebyzero Feb 26 '11 at 15:21
...But I am still looking for a tensordot implementation in order to compare the speed! – dividebyzero Feb 26 '11 at 17:16

Actually the answer provided by pv. is not correct, as the resulting xy array would have shape (100,3,3). The correct broadcasting is the following:

import numpy as np
from numpy import newaxis
x = np.random.randn(100, 3)
y = np.random.randn(100, 3)

xy =  x[:,newaxis, :,newaxis] * y[newaxis,:,newaxis,:] 

The resulting xy array is now of shape (100,100,3,3) and contains cross products of all couples of 3-vectors in x and y:

for i,a in enumerate(x):
    for j,b in enumerate(y):
        if not np.alltrue(np.outer(a,b) == xy[i,j]): print("The code is wrong")

gives no output :)

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