Dynamical low-rank approximation for parabolic problems
André Uschmajew  1@  , Markus Bachmayr, Henrik Eisenmann, Emil Kieri@
1 : Max Planck Institute for Mathematics in the Sciences

Dynamical low-rank approximation is a framework for time integration of matrix valued ODEs on a fixed-rank manifold based on a time dependent variational principle. Several applications arise from PDEs on product domains, but setting up a corresponding well-posed problem in function space (before discretization) may not be straightforward. Here we present a weak formulation of dynamical low-rank approximation for parabolic PDEs in two spatial dimensions. The existence and uniqueness of weak solutions is shown using a variational time-stepping scheme on the low-rank manifold which is related to practical methods for low-rank integration.

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