期刊
SIAM JOURNAL ON SCIENTIFIC COMPUTING
卷 44, 期 2, 页码 B224-B249出版社
SIAM PUBLICATIONS
DOI: 10.1137/20M1353848
关键词
domain decomposition; FETI-DP and BDDC preconditioners; deluxe scaling; bidomain system
资金
- INdAM
- MIUR [2017AXL54F 003, 2017AXL54F 002]
This paper constructs two novel parallel solvers and optimizes them using deluxe scaling. Through numerical experiments and theoretical analysis, it is proved that these two solvers are scalable and quasi-optimal.
Two novel parallel Newton-Krylov balancing domain decomposition by constraints (BDDC) and dual-primal finite element tearing and interconnecting (FETI-DP) solvers with deluxe scaling are constructed, analyzed, and tested numerically for implicit time discretizations of the three-dimensional bidomain system of equations. This model represents the most advanced mathematical description of the cardiac bioelectrical activity, and it consists of a degenerate system of two nonlinear reaction-diffusion partial differential equations (PDEs), coupled with a stiff system of ordinary differential equations (ODEs). A finite element discretization in space and a segregated implicit discretization in time, based on decoupling the PDEs from the ODEs, yields at each time step the solution of a nonlinear algebraic system. The Jacobian linear system at each Newton iteration is solved by a Krylov method, accelerated by BDDC or FETI-DP preconditioners, both augmented with the recently introduced deluxe scaling of the dual variables. A polylogarithmic convergence rate bound is proven for the resulting parallel Bidomain solvers. Extensive numerical experiments on Linux clusters up to two thousand processors confirm the theoretical estimates, showing that the proposed parallel solvers are scalable and quasi-optimal.
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