From 51b79b774df61502f4799b5e21c26156059f42fd Mon Sep 17 00:00:00 2001 From: Nicola Castelletto Date: Mon, 20 May 2024 15:06:42 -0700 Subject: [PATCH] Trilinos ref --- src/docs/JOSS/paper.bib | 15 ++++++++++----- src/docs/JOSS/paper.md | 2 +- 2 files changed, 11 insertions(+), 6 deletions(-) diff --git a/src/docs/JOSS/paper.bib b/src/docs/JOSS/paper.bib index 44b3b7d4df3..03ace484c36 100644 --- a/src/docs/JOSS/paper.bib +++ b/src/docs/JOSS/paper.bib @@ -61,13 +61,18 @@ @Misc{ petsc-web-page year = {2024} } -@Manual{trilinos-website, -title = {The {T}rilinos {P}roject {W}ebsite}, -author = {{The {T}rilinos {P}roject {T}eam}}, -year = {2020 (acccessed May 22, 2020)}, -url = {https://trilinos.github.io} +@article{ Her_etal05, + title={{An overview of the Trilinos project}}, + author={Heroux, M. A. and Bartlett, R. A. and Howle, V. E. and Hoekstra, R. J. and Hu, J. J. and Kolda, T. G. and Lehoucq, R. B. and Long, K. R. and Pawlowski, R. P. and Phipps, E. T. and Salinger, A. G. and Thornquist, H. K. and Tuminaro, R. S. and Willenbring, J. M. and Williams, A. and Stanley, K. S.}, + journal={ACM Trans. Math. Softw.}, + volume={31}, + number={3}, + pages={397--423}, + year={2005}, + doi={10.1145/1089014.1089021} } + @article{BUI:2020, author = {Bui, Quan M. and Osei-Kuffuor, Daniel and Castelletto, Nicola and White, Joshua A.}, title = {A Scalable Multigrid Reduction Framework for Multiphase Poromechanics of Heterogeneous Media}, diff --git a/src/docs/JOSS/paper.md b/src/docs/JOSS/paper.md index 22beedd81e8..89857a99daa 100644 --- a/src/docs/JOSS/paper.md +++ b/src/docs/JOSS/paper.md @@ -130,7 +130,7 @@ The physics package interface in GEOS is intended to encapsulate the development When implementing a physics package for a set of coupled physics equations, each individual physics package is first developed as a stand-alone capability. The single physics capabilities are then applied together in a coupled physics package and solved through a flexible strategy ranging from solving the fully monolithic system, to a split operator approach. -To solve the linear systems that arise from the boundary value problem, GEOS maintains a generic linear algebra interface (LAI) capable of wrapping various linear algebra packages such as hypre [@hypre], PETSc[@petsc-web-page], and Trilinos[@trilinos-website]. +To solve the linear systems that arise from the boundary value problem, GEOS maintains a generic linear algebra interface (LAI) capable of wrapping various linear algebra packages such as hypre [@hypre], PETSc[@petsc-web-page], and Trilinos[@Her_etal05]. Currently, in GEOS only the hypre interaface is actively maintained. For every multi-physics problems involving the solution of a coupled linear system, GEOS currently relies on a multigrid reduction preconditioning strategy available in hypre as presented by [@BUI:2020;@BUI:2021114111].