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I'm looking for a matrix / linear algebra library in Java that provides a sparse matrix that can be written to concurrently from different threads. Most of the libraries I've come across either do not provide sparse matrices at all, or 1.) back them with an open addressed hash map, or 2.) store then in CSR or CSC format which is not at all amenable to multithreaded construction. Right now I'm gather the entries in parallel using a concurrent hash map and them populating the sparse matrix from a single thread, but this seems like a waste of resources (space to store the concurrent hash map, and time to essentially fill in the matrix twice).

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Have you tried Colt? acs.lbl.gov/software/colt –  larsmans May 31 '11 at 20:05
I've looked at colt. The problem with their sparse matrix (acs.lbl.gov/software/colt/api/cern/colt/matrix/impl/…), as detailed in the implementation note, is that it uses an OpenIntDoubleHashMap, and is therefore not synchronized. –  nomad May 31 '11 at 20:10

2 Answers 2

You can't just magically make sparse matrix algebra routines scalably parallel. Tackling these issues involves some of the most complex numerical analysis algorithms around and is still the subject of intense research.

You don't say what you want to do with these matrices but I imagine that you want solution to systems of linear equations. If you want that in parallel then you'll need a 3rd party library, very large matrices, and likely some money.

The most common way to assemble sparse matrices is to assemble them in triplet format and convert to compressed row or column format. The assembly can be expensive but it is easy to do in parallel. Just let each thread have its own list of triplets and splice them together before converting to compressed format.

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Hey David, thanks for your response. I actually don't want to solve a linear system with the matrix. I do, however, need to compute a matrix vector product. I gather from your response, however, that building a sparse matrix concurrently is more of a "roll your own" type thing? –  nomad May 31 '11 at 20:17
matrix vector product can run in parallel but you need big matrices to make it worthwhile. Of course you don't need compressed storage for that operation but it might still be more efficient. How do you currently build you matrices? Do you use triplets? –  David Heffernan May 31 '11 at 20:30
Right now I'm using the Apache Commons Math sparse matrix implementation. Its one of the ones I was referring to above that is not thread-safe, and is backed by a hash map. I currently build the matrix by placing all of the entries into a ConcurrentHashMap, and then build the Matrix from this hash map sequentially in a single thread. I guess I need a matrix class to which I can just hand off an already constructed triplet list, or which is inherently thread-safe. –  nomad May 31 '11 at 21:02
how big are matrices? How many non zeroes? –  David Heffernan May 31 '11 at 21:06
They range from small (~10,000 x 10,000) to medium (~100,000 x 100,000) in size -- some may be larger in the future. They tend to be around 1% dense. –  nomad May 31 '11 at 21:12

I remember the matrices in parallel colt being thread safe. The library is a multithreaded version of colt.

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It seems that, though some of the operations matrix operations are parallelized in "parallel colt", the actual sparse matrix implementation is largely the same as that of colt. This means it uses the same backend storage, which is not thread-safe to write. –  nomad May 31 '11 at 21:29

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