KSPPIPECGRR#

Pipelined conjugate gradient method with automated residual replacements. Pipelined Krylov Methods

Notes#

This method has only a single non-blocking reduction per iteration, compared to 2 blocking for standard KSPCG. The non-blocking reduction is overlapped by the matrix-vector product and preconditioner application.

KSPPIPECGRR improves the robustness of KSPPIPECG by adding an automated residual replacement strategy. True residual and other auxiliary variables are computed explicitly in a number of dynamically determined iterations to counteract the accumulation of rounding errors and thus attain a higher maximal final accuracy.

See also KSPPIPECG, which is identical to KSPPIPECGRR without residual replacements. See also KSPPIPECR, where the reduction is only overlapped with the matrix-vector product.

MPI configuration may be necessary for reductions to make asynchronous progress, which is important for performance of pipelined methods. See What steps are necessary to make the pipelined solvers execute efficiently?

Contributed by#

Siegfried Cools, Universiteit Antwerpen, Dept. Mathematics & Computer Science, European FP7 Project on EXascale Algorithms and Advanced Computational Techniques (EXA2CT) / Research Foundation Flanders (FWO)

Reference#

S. Cools, E.F. Yetkin, E. Agullo, L. Giraud, W. Vanroose, “Analyzing the effect of local rounding error propagation on the maximal attainable accuracy of the pipelined Conjugate Gradients method”, SIAM Journal on Matrix Analysis and Applications (SIMAX), 39(1):426–450, 2018.

See Also#

KSP: Linear System Solvers, What steps are necessary to make the pipelined solvers execute efficiently?, Pipelined Krylov Methods, KSPCreate(), KSPSetType(), KSPPIPECR, KSPGROPPCG, KSPPIPECG, KSPPGMRES, KSPCG, KSPPIPEBCGS, KSPCGUseSingleReduction()

Level#

intermediate

Location#

src/ksp/ksp/impls/cg/pipecgrr/pipecgrr.c


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