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Library for computing eigenvectors of large sparse matrices using ARPACK and SuiteSparse

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Eigensolver library

Description

This library contains code for the fast computation of eigenvectors corresponding to the dominant eigenvalues of large, sparse matrices. This code can be used with arbitrary matrices. However, its main application is the obtainment of the stationary distributions of stochastic matrices corresponding to Markov chains with very large state spaces.

Dependencies

The library uses ARPACK-ng [1] for the (shift-and-invert) Arnoldi iteration method together with the SPQR solver from the SuiteSparse library [2].

Compilation

Follow these steps:

mkdir build

cmake ..

make && make test

Usage

The program test-eigen-solver is an example of a stand-alone tool for computing the dominant eigenvalue of a sparse matrix.

Matrices are stored as text files whose first line contains the dimension (maximum number of rows or columns) with each of the remaining lines containing two indices and a value (separated by white space). There are several examples of valid matrix files in the test-data folder.

Support for the Matrix Market format [3] will be added in the future.

[1] Lehoucq, R. B., Sorensen, D. C., & Yang, C. (1998). ARPACK Users’ Guide. doi:10.1137/1.9780898719628

[2] Davis, T. A. (2011). Algorithm 915, SuiteSparseQR: multifrontal multithreaded rank-revealing sparse QR factorization. ACM Trans. Math. Software, 38(1), 1–22. doi:10.1145/2049662.2049670

[3] http://math.nist.gov/MatrixMarket/

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