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DOI 10.5286/raltr.2010022
Persistent URL http://purl.org/net/epubs/work/53444
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Record Id 53444
Title A robust two-level incomplete factorization for (Navier-)Stokes saddle point matrices
Abstract We present a new hybrid direct/iterative approach to the solution of a special class of saddle point matrices arising from the discretization of the steady incompressible Navier-Stokes equations on an Arakawa C-grid. The two-level method introduced here has the following properties: (i) it is very robust, even close to the point where the solution becomes unstable; (ii) a single parameter controls fill and convergence, making the method straightforward to use; (iii) the convergence rate is independent of the number of unknowns; (iv) it can be implemented on distributed memory machines in a natural way; (v) the matrix on the second level has the same structure and numerical properties as the original problem, so the method can be applied recursively; (vi) the iteration takes place in the divergence-free space, so the method qualifies as a ?constraint preconditioner?; (vii) the approach can also be applied to Poisson problems. This work is also relevant for problems in which similar saddle point matrices occur, for instance when simulating electrical networks, where one has to satisfy Kirchhoff?s conservation law for currents.
Organisation CSE , CSE-NAG , STFC
Keywords electrical networks , Saddle point problem , F-matrix , contraint preconditioning , incompressible (Navier-)Stokes equations , grid-independent convergence , indefinite matrix , incomplete factorization , Arakawa C-grid
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Language English (EN)
Type Details URI(s) Local file(s) Year
Report RAL Technical Reports RAL-TR-2010-022. 2010. wRAL2010022.pdf 2010