Fast Direct Solvers for Elliptic PDEs

Monday, February 10, 2014 -
4:30pm to 5:30pm
That the linear systems arising upon the discretization of elliptic PDEs can be solved very efficiently is well-known, and many successful iterative solvers with linear complexity have been constructed (multigrid, Krylov methods, etc). Interestingly, it has recently been demonstrated that it is often possible to directly compute an approximate inverse to the coefficient matrix in linear (or close to linear) time. The talk will survey some recent work in the field and will argue that direct solvers have several advantages, including improved stability and robustness, and dramatic improvements in speed in certain environments. Moreover, the direct solvers being proposed have low communication costs, and are better suited to parallel implementations than many previously existing fast solvers.
Speaker: 
Gunnar Martinsson
University of Colorado - Applied Mathematics
Event Location: 
Fine Hall 214