SNESASPIN#

Helper SNES type for Additive-Schwarz Preconditioned Inexact Newton [CK02], [BKST15]

Options Database Keys#

  • -npc_snes_ - options prefix of the nonlinear subdomain solver (must be of type NASM)

  • -npc_sub_snes_ - options prefix of the subdomain nonlinear solves

  • -npc_sub_ksp_ - options prefix of the subdomain Krylov solver

  • -npc_sub_pc_ - options prefix of the subdomain preconditioner

Notes#

This solver transform the given nonlinear problem to a new form and then runs matrix-free Newton-Krylov with no preconditioner on that transformed problem.

This routine sets up an instance of SNESNETWONLS with nonlinear left preconditioning. It differs from other similar functionality in SNES as it creates a linear shell matrix that corresponds to the product

\[ \sum_{i=0}^{N_b}J_b({X^b_{converged}})^{-1}J(X + \sum_{i=0}^{N_b}(X^b_{converged} - X^b)) \]

which is the ASPIN preconditioned matrix. Similar solvers may be constructed by having matrix-free differencing of nonlinear solves per linear iteration, but this is far more efficient when subdomain sparse-direct preconditioner factorizations are reused on each application of \(J_b^{-1}\).

The Krylov method used in this nonlinear solver is run with NO preconditioner, because the preconditioning is done at the nonlinear level, but the Jacobian for the original function must be provided (or calculated via coloring and finite differences automatically) in the Pmat location of SNESSetJacobian() because the action of the original Jacobian is needed by the shell matrix used to apply the Jacobian of the nonlinear preconditioned problem (see above). Note that since the Pmat is not used to construct a preconditioner it could be provided in a matrix-free form. The code for this implementation is a bit confusing because the Amat of SNESSetJacobian() applies the Jacobian of the nonlinearly preconditioned function Jacobian while the Pmat provides the Jacobian of the original user provided function. Note that the original SNES and nonlinear preconditioner preconditioner (see SNESGetNPC()), in this case SNESNASM, share the same Jacobian matrices. SNESNASM computes the needed Jacobian in SNESNASMComputeFinalJacobian_Private().

References#

BKST15

Peter R. Brune, Matthew G. Knepley, Barry F. Smith, and Xuemin Tu. Composing scalable nonlinear algebraic solvers. SIAM Review, 57(4):535–565, 2015. http://www.mcs.anl.gov/papers/P2010-0112.pdf. URL: http://www.mcs.anl.gov/papers/P2010-0112.pdf, doi:10.1137/130936725.

CK02

X.-C. Cai and D. E. Keyes. Nonlinearly preconditioned inexact Newton algorithms. SIAM J. Sci. Comput., 24:183–200, 2002. URL: http://www.cs.colorado.edu/homes/cai/public_html/papers/aspin.ps.

See Also#

SNES: Nonlinear Solvers, SNESCreate(), SNES, SNESSetType(), SNESNEWTONLS, SNESNASM, SNESGetNPC(), SNESGetNPCSide()

Level#

intermediate

Location#

src/snes/impls/nasm/aspin.c


Index of all SNES routines
Table of Contents for all manual pages
Index of all manual pages