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I have a linear system A*x=b which should be solved several times. A is constant all the time and b changes. What would be the fastest way to solve this equation?


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What programming language / math library are you using? – Mark Byers Nov 9 '12 at 20:10
I am using MATLAB. – Pouya Feb 5 '13 at 5:23

It depends on your matrix A:

  • if it is small and symmetric, make a cholesky factorization and reuse it for every system you need to solve.

  • if the matrix is relatively small but not symmetric, make a LU factorization and reuse the factorization to solve the systems.

  • if the matrix is too large for the factorizations, compute a good preconditioner (e.g. an incomplete LU) and reuse this preconditioner to solve the systems with an iterative method (conjugate gradient if the matrix is symmetric, BiCGStab or GMRES otherwise).

Hope it helps!

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Actually, I tried an iterative solver (BiCGStab) and I do not know why it does not converge and says the matrix is singular. I am sure that the matrix is not singular (if not well-conditioned) as I decompose the matrix using LU decomposition with no problem. – Pouya Feb 5 '13 at 0:55
@Pouya Have you computed de condition number? Did you use a preconditioner with BiCGStab? Did you try GMRES? – Dr_Sam Feb 5 '13 at 5:19
Thanks for your suggestions. The condition number is 1.81e6 which is large. The LU decomposition and backward/forward substitution can be used smoothly. But when I use ilu to calculate incomplete LU, an error is generated which says "Your input matrix has a zero in the diagonal." So, I use luinc instead which gives me preconditioner. When I use this preconditioner for BiCGStab, it is that matrix is singular and the method is unable to find the solution. It seems that LU decomposition works better. The situation is the same for GMRES. I do not know why iterative methods does not work here. – Pouya Feb 5 '13 at 5:40
Also, the matrix is 426*426. Actually, in a practical system, the matrix is much larger and can be as large as 30000*30000. – Pouya Feb 5 '13 at 5:42
Yes, UMFPACK is quite fast in my experience. And yes, iterative methods are the way to go for large systems: they are usually faster, more flexible, need less memory and are easier to parallelize. But you need more work to take the best out of it. – Dr_Sam Feb 5 '13 at 10:08

If you need all the x vectors after having formed all the b vectors (say you have n b vectors), then put the b vectors in columns in a matrix B and solving A\ B should give the answers in an n-columns matrix, one column per each b.

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Which question did you answer? I am pretty sure it wasn't this one.. – drahnr Feb 5 '14 at 17:18
Did you notice that Pouya is using Matlab? What i suggested is the simplest way to solve for multiple right-hand-sides while the matrix A remains constant. (and of course in case when the use of Matlab solver is intended.) – hamid attar Jul 13 '14 at 13:03

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