Two parallel and scalable multilevel preconditioners for the Bidomain system in computational electrocardiology are introduced and studied. The Bido- main system, consisting of two degenerate parabolic reaction-diffusion equations coupled with a stiff system of several ordinary differential equations, generates very ill-conditioned discrete systems when discretized with semi-implicit methods in time and finite elements in space. The multilevel preconditioners presented in this paper attain the best performance to date, both in terms of convergence rate and solution time and outperform the simpler one-level preconditioners previously introduced. Parallel numerical results, using the PETSc library and run on Linux Clusters, show the ...
We develop a parallel solver for the cardiac electro-mechanical coupling. The electric model consist...
We introduce a preconditioner for the solution of the Bidomain system governing the propagation of a...
The bidomain and monodomain models describing cardiac electrophysiology are computationally demandin...
The aim of this work is to develop parallel multilevel and block preconditioners for the Bidomain mo...
Multilevel additive and hybrid Schwarz methods are analyzed and studied numerically for the anisotro...
A hybrid multilevel Schwarz method is studied numerically for the anisotropic Bidomain model in both...
Multilevel additive Schwarz methods are analyzed and studied numerically for the anisotropic cardiac...
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
The so called {em bidomain system} is possibly the most complete model for the cardiac bioelectri...
A two-level Newton\u2013Krylov\u2013Schwarz (NKS) solver is constructed and analyzed for implicit ti...
AbstractThe numerical solution of the bidomain equations is a fundamental tool in the field of compu...
The aim of this work is to develop a BPX preconditioner for the Bidomain model of electrocardiology....
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
We deal with the e±cient solution of the so-called bidomain system which is possibly the most compl...
We develop a parallel solver for the cardiac electro-mechanical coupling. The electric model consist...
We introduce a preconditioner for the solution of the Bidomain system governing the propagation of a...
The bidomain and monodomain models describing cardiac electrophysiology are computationally demandin...
The aim of this work is to develop parallel multilevel and block preconditioners for the Bidomain mo...
Multilevel additive and hybrid Schwarz methods are analyzed and studied numerically for the anisotro...
A hybrid multilevel Schwarz method is studied numerically for the anisotropic Bidomain model in both...
Multilevel additive Schwarz methods are analyzed and studied numerically for the anisotropic cardiac...
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
We study two parallel coupled and uncoupled multilevel solvers for the cardiac Bidomain model, descr...
The so called {em bidomain system} is possibly the most complete model for the cardiac bioelectri...
A two-level Newton\u2013Krylov\u2013Schwarz (NKS) solver is constructed and analyzed for implicit ti...
AbstractThe numerical solution of the bidomain equations is a fundamental tool in the field of compu...
The aim of this work is to develop a BPX preconditioner for the Bidomain model of electrocardiology....
A multilevel hybrid Newton-Krylov-Schwarz (NKS) method is constructed and studied numerically for im...
We deal with the e±cient solution of the so-called bidomain system which is possibly the most compl...
We develop a parallel solver for the cardiac electro-mechanical coupling. The electric model consist...
We introduce a preconditioner for the solution of the Bidomain system governing the propagation of a...
The bidomain and monodomain models describing cardiac electrophysiology are computationally demandin...