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I want to multiply a sparse matrix A, with a matrix B which has 0, -1, or 1 as elements. To reduce the complexity of the matrix multiplication, I can ignore items if they are 0, or go ahead and add the column without multiplication if the item is 1, or subs. if it's -1. The discussion about this is here:

Random projection algorithm pseudo code

Now I can go ahead and implement this trick but I wonder if I use Numpy's multiplication functions it'll be faster.

Does anyone knows if they optimised matrix multiplication for such matrices? Or can you suggest something to speed this process up since I have a matrix 300000x1000.

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1 Answer 1

up vote 8 down vote accepted

Have you looked at scipy.sparse? There's no point in re-inventing the wheel, here. Sparse matricies are a fairly standard thing.

(In the example, I'm using a 300000x4 matrix for easier printing after the multiplication. A 300000x1000 matrix shouldn't be any problem, though. This will be much faster than multiplying two dense arrays, assuming you have a majority of 0 elements.)

import scipy.sparse
import numpy as np

# Make the result reproducible...

def generate_random_sparse_array(nrows, ncols, numdense):
    """Generate a random sparse array with -1 or 1 in the non-zero portions"""
    i = np.random.randint(0, nrows-1, numdense)
    j = np.random.randint(0, ncols-1, numdense)
    data = np.random.random(numdense)
    data[data <= 0.5] = -1
    data[data > 0.5] = 1
    ij = np.vstack((i,j))
    return scipy.sparse.coo_matrix((data, ij), shape=(nrows, ncols))

A = generate_random_sparse_array(4, 300000, 1000)
B = generate_random_sparse_array(300000, 5, 1000)

C = A * B

print C.todense()

This yields:

[[ 0.  1.  0.  0.  0.]
 [ 0.  2. -1.  0.  0.]
 [ 1. -1.  0.  0.  0.]
 [ 0.  0.  0.  0.  0.]]
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wow, that's exactly what i want to do. many thanks. –  Ahmed Sep 19 '11 at 23:55
Joe: I've implemented the algorithm as discussed but I am facing a problem after reducing the dimensions. Maybe you have an idea: stackoverflow.com/questions/7481339/… –  Ahmed Sep 20 '11 at 7:09

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