Fast parallel solvers for elliptic problems

A fast elliptic solver for separable elliptic equations on rectangular domains is considered. The method is referred to as FASV (fast algorithm for separation of variables) and is based on the odd-even block elimination technique in combination with the method for discrete separation of variables. T

We have developed a fast direct solver for parallel solution of coarse grid problems, Ax=b, such as arise when domain decomposition or multigrid methods are applied to elliptic partial differential equations in d space dimensions. The approach is based on a (quasi-) sparse factorization of the inver

A new family of direct spectral solvers for the 3D Helmholtz equation in a spherical gap and inside a sphere for nonaxisymmetric problems is presented. A variational formulation (no collocation) is adopted, based on the Fourier expansion and the associated Legendre functions to represent the angular

We approximate the solution of advection-diffusion equations by collocation at a special grid related to the differential operator and the classical Legendre grid.