I'm trying to take the dot product of two lil_matrix sparse matrices that are approx. 100,000 x 50,000 and 50,000 x 100,000 respectively.

from scipy import sparse
a = sparse.lil_matrix((100000, 50000))
b = sparse.lil_matrix((50000, 100000))

c = a.dot(b)

and getting this error:

 File "/usr/lib64/python2.6/site-packages/scipy/sparse/base.py", line 211, in dot
 return self * other
 File "/usr/lib64/python2.6/site-packages/scipy/sparse/base.py", line 247, in __mul__
 return self._mul_sparse_matrix(other)
 File "/usr/lib64/python2.6/site-packages/scipy/sparse/base.py", line 300, in      _mul_sparse_matrix
 return self.tocsr()._mul_sparse_matrix(other)
 File "/usr/lib64/python2.6/site-packages/scipy/sparse/compressed.py", line 290, in _mul_sparse_matrix
 indices = np.empty(nnz, dtype=np.intc)
 ValueError: negative dimensions are not allowed

Any ideas on what might be happening - running this on a machine with about 64GB of ram, and using about 13GB when executing the dot.


This is a bad error message, but the "problem" quite simply is that your resulting matrix would be too big (has too many nonzero elements, not its dimension).

Scipy uses int32 to store indptr and indices for the sparse formats. This means that your sparsematrix cannot have more then (approximatly) 2^31 nonzero elements. Maybe you could change the code in scipy to use int64 or uint32, if this is not just a toy problem anyways. But maybe the use of sparse matrixes is not the best solution for solving this anyways?

EDIT: This is solved in the new scipy versions AFIAK.


Just to add to @seberg's answer.

There are two issues related to this on github.com/scipy/scipy.

Issue #1833 (marked closed April 2013) and Issue #442 with some pull requests that haven't been merged (Nov 2013 - SciPy version 0.13.1) due to some missing tests etc. You should be able to pull those into your own installation and compile a version that supports larger sparse matrices.

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