Recent developments in DOLFINx allow for the block assembly of linear algebraic systems arising from discretisations of coupled partial differential equations. Each algebraic block represents a subproblem associated with a coupling of the unknown fields. Designing and implementing robust and scalable solution and preconditioning strategies for block-structured linear systems is an active area of research. In this contribution we show how DOLFINx can now exploit one of the most significant features of PETSc; the dynamic composition of the hierarchical solver and preconditioner options at runtime, see Brown et al [1]. The idea is inspired by the work of Kirby and Mitchell [2] that was originally implemented in the Firedrake Project. One...
This paper studies a new preconditioning technique for sparse systems arising from discretized parti...
In this article we introduce new bounds on the effective condition number of deflated and preconditi...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...
The efficient solution of discretizations of coupled systems of partial differential equations (PDEs...
Abstract. Finite element discretizations of multiphysics problems frequently give rise to block-stru...
Abstract. Most efficient linear solvers use composable algorithmic components, with the most common ...
We provide a novel analysis of the PCD (pressure convection-diffusion) preconditioner based on infin...
Most efficient linear solvers use composable algorithmic components, with the most common model bei...
In recent years, considerable effort has been placed on developing efficient and robust solution alg...
Some algorithmic aspects of systems of PDEs based simulations can be better clarified by means of sy...
We consider the iterative solution of the linear systems arising from four convection-diffusion mode...
We describe several numerical solvers for the pressure Poisson equation arising in models of incompr...
In this paper we outline a general methodology for the solution of the system of algebraic equations...
We outline a new class of robust and efficient methods for solving subproblems that arise in the lin...
We are interested in the numerical solution of the unsteady Navier–Stokes equations on large scale p...
This paper studies a new preconditioning technique for sparse systems arising from discretized parti...
In this article we introduce new bounds on the effective condition number of deflated and preconditi...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...
The efficient solution of discretizations of coupled systems of partial differential equations (PDEs...
Abstract. Finite element discretizations of multiphysics problems frequently give rise to block-stru...
Abstract. Most efficient linear solvers use composable algorithmic components, with the most common ...
We provide a novel analysis of the PCD (pressure convection-diffusion) preconditioner based on infin...
Most efficient linear solvers use composable algorithmic components, with the most common model bei...
In recent years, considerable effort has been placed on developing efficient and robust solution alg...
Some algorithmic aspects of systems of PDEs based simulations can be better clarified by means of sy...
We consider the iterative solution of the linear systems arising from four convection-diffusion mode...
We describe several numerical solvers for the pressure Poisson equation arising in models of incompr...
In this paper we outline a general methodology for the solution of the system of algebraic equations...
We outline a new class of robust and efficient methods for solving subproblems that arise in the lin...
We are interested in the numerical solution of the unsteady Navier–Stokes equations on large scale p...
This paper studies a new preconditioning technique for sparse systems arising from discretized parti...
In this article we introduce new bounds on the effective condition number of deflated and preconditi...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...