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Given a very sparse nxn matrix A with nnz(A) non-zeros, and a dense nxn matrix B. I would like to compute the matrix product AxB. Since n is very large, if carried out naively, the dense matrix B cannot be put into the memory. I have the following two options, but not sure which one is better. Could you give some suggestions. Thanks.

Option1. I parition the matrix B into n column vectors [b1,b2,...,bn]. Then, I can put matrix A and any single vector bi into the memory, and calculate the A*b1, A*b2, ..., A*bn, respectively.

Option2. I partition the matrices A and B, respectively, into four n/2Xn/2 blocks, and then use the block matrix-matrix multiplications to calculate A*B.

Which of the above choice is better? Can I say that Option 1 has high performance in parallel calculation?

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...use Eigen, Armedillo, or some other 3rd party matrix library rather than reinventing the wheel. –  IdeaHat Oct 18 '13 at 20:39
Currently, I may want to know the performance comparison of the above two choices. –  John Smith Oct 18 '13 at 20:43
Order of magnitude of n might be useful... Apparently root(n) will fit into memory? So perhaps it's really just out of the bounds of a typical (16 GB) working memory set? n is maybe 10^21 or less? –  user645280 Oct 18 '13 at 20:43
n may be approximately 2M. –  John Smith Oct 18 '13 at 20:53
Then en.wikipedia.org/wiki/… There you go. Method 1 is essentially Schoolbook long multiplication, method 2 is worse than Karatsubas algorithm. –  IdeaHat Oct 18 '13 at 20:54

1 Answer 1

See a discussion of both approaches, though for two dense matrices, in this document from the Scalapack documentation. Scalapack is the one of the reference tools for distributed linear algebra.

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