Alternating Direction Multistep Methods for Parabolic Problems–Iterative Stabilization

Abstract

Efficient multistep procedures for time-stepping Galerkin methods for parabolic partial differential equations are presented and analyzed. The procedures involve using an alternating direction preconditioned iterative method for approximately solving the linear equations arising at each timestep in a discrete Galerkin method. Optimal order convergence rates are obtained for the iterative methods. Work estimates of almost optimal order are obtained.