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I'm looking for a software package to solve a very large, sparse non-linear least squares problem in C++. I've come across a large number of modern linalg libraries in C++ (eigen, armadillo, boost, etc.), but none seem to have such a solver (or even a regular least-squares solver) built in. I'd really like to avoid a bunch of messy calls to an old C / Fortran interface if possible. Thanks!

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you can take a look at SuiteSparse –  enobayram Oct 4 '12 at 18:32

2 Answers 2

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I would simply use the general-purpose NLP solver IPOPT written in C++. It is the most robust solver among those I have tried and it is meant and successfully used on very large problems.

A change in requirements (e.g. adding constraints) would be no problem if you use the general-purpose IPOPT.

The time consuming part of the solution procedure is to solve the linear systems in each iteration step so it's worth getting the best linear solver + LinAlg package for your platform.

Unfortunately IPOPT calls Fortran subroutines internally so you will need a Fortran compiler which is sort of a pain.

If IPOPT is not enough, you will have to look for a problem specific solver.

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Hi @Ali. This makes sense, but my only concern is that adding the non-negativity constraint for all variables might introduce a lot of overhead, whereas a dedicated non-negative least squares solver might incorporate these constraints more efficiently. Anyway, if there are no more suggestions in the next day or so I'll mark you answer as accepted; thanks! –  nomad Oct 5 '12 at 14:17
@nomad Yes, it can easily happen that IPOPT is not the best tool for you. How big are your problems? –  Ali Oct 5 '12 at 14:26
My matrix is 50M by 96K with a few hundred entries per column. So it's incredibly sparse, but huge. –  nomad Oct 8 '12 at 14:44
That's really HUGE. Nevertheless, I would try MA57 with METIS. The doc explicitly says that the linear solver has a huge impact on the performance. Please let me know how things turned out for you! –  Ali Oct 8 '12 at 18:45

If you don't need constraints, try out Ceres or g2o. Both build on top of Eigen and can utilize sparse matrix solvers, i.e. SuiteSparse and friends.

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