Dataciencia

Colección SciELO Chile

Parallel Refined Isogeometric Analysis in 3D

Indexado

WoS	WOS:000464914000013
Scopus	SCOPUS_ID:85056153277

DOI

10.1109/TPDS.2018.2879664

Año

2019

Tipo

artículo de investigación

Citas Totales

Autores Afiliación Chile

Instituciones Chile

% Participación
Internacional

Autores
Afiliación Extranjera

Instituciones
Extranjeras

Abstract

We study three-dimensional isogeometric analysis (IGA) and the solution of the resulting system of linear equations via a direct solver. IGA uses highly continuous Cp-1 basis functions, which provide multiple benefits in terms of stability and convergence properties. However, smooth basis significantly deteriorate the direct solver performance and its parallel scalability. As a partial remedy for this, refined Isogeometric Analysis (rIGA) method improves the sequential execution of direct solvers. The refinement strategy enriches traditional highly-continuous Cp-1 IGA spaces by introducing low-continuity C-0-hyperplanes along the boundaries of certain pre-defined macro-elements. In this work, we propose a solution strategy for rIGA for parallel distributed memory machines and compare the computational costs of solving rIGA versus IGA discretizations. We verify our estimates with parallel numerical experiments. Results show that the weak parallel scalability of the direct solver improves approximately by a factor of p(2) when considering rIGA discretizations rather than highly-continuous IGA spaces.

Revista

Revista	ISSN
Ieee Transactions On Parallel And Distributed Systems	1045-9219

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Disciplinas de Investigación

WOS
Computer Science, Theory & Methods
Engineering, Electrical & Electronic

Scopus
Signal Processing
Hardware And Architecture
Computational Theory And Mathematics

SciELO
Sin Disciplinas

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Publicaciones WoS (Ediciones: ISSHP, ISTP, AHCI, SSCI, SCI), Scopus, SciELO Chile.

Colaboración Institucional

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Autores - Afiliación

Ord.	Autor	Género	Institución - País
1	Siwik, Leszek	Hombre	AGH Univ Sci & Technol - Polonia AGH University of Science and Technology - Polonia AGH University of Krakow - Polonia
2	Wozniak, Maciej	Hombre	AGH Univ Sci & Technol - Polonia AGH University of Science and Technology - Polonia AGH University of Krakow - Polonia
3	Trujillo, Victor	Hombre	Pontificia Universidad Católica de Valparaíso - Chile
4	Pardo, David	Hombre	Univ Basque Country UPV EHU - España Basque Ctr Appl Math - España Ikerbasque - España Universidad del Pais Vasco - Euskal Herriko Unibertsitatea, Campus Bizkaia - España Basque Center for Applied Mathematics (BCAM) - España Ikerbasque, the Basque Foundation for Science - España Universidad del País Vasco - España Ikerbasque, Basque Foundation for Science - España
5	Calo, Victor Manuel	Hombre	Curtin Univ - Australia CSIRO - Australia Western Australian School of Mines - Australia Commonwealth Scientific and Industrial Research Organization - Australia WA School of Mines: Minerals, Energy and Chemical Engineering - Australia Commonwealth Scientific and Industrial Research Organisation - Australia
6	Paszynski, Maciej	Hombre	AGH Univ Sci & Technol - Polonia AGH University of Science and Technology - Polonia AGH University of Krakow - Polonia
7	Wozniak, Siwik	-	AGH Univ Sci & Technol - Polonia AGH University of Krakow - Polonia

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Financiamiento

Fuente
Comisión Nacional de Investigación Científica y Tecnológica
European Commission
Spanish Ministry of Economy and Competitiveness
ComisiÃ³n Nacional de InvestigaciÃ³n CientÃfica y TecnolÃ³gica
European Union's Horizon 2020 Research and Innovation programme under the Marie Sklodowska-Curie grant
Polish National Science Centre
Horizon 2020 Framework Programme
Eusko Jaurlaritza
AEI/FEDER
Commonwealth Scientific and Industrial Research Organisation
Government Council on Grants, Russian Federation
PL-Grid Infrastructure
Mega-grant of the Russian Federation Government
Chilean CONICYT project
Consolidated Research Group Grant on "Mathematical Modeling, Simulation, and Industrial Applications (M2SI)"
Curtin Institute for Computation
Basque Government through the BERC 2014-2017 program
Projects of the Spanish Ministry of Economy and Competitiveness
BCAM "Severo Ochoa" accreditation of excellence
Deep Earth Imaging Enterprise Future Science Platforms of the Commonwealth Scientific Industrial Research Organisation
BERC
Marie Sklo-dowska-Curie

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Agradecimientos

Agradecimiento
The work of Maciej Paszynski have been supported by Polish National Science Centre grant no. DEC-2016/21/B/ST6/01539. This research was supported in part by the PL-Grid Infrastructure. The visit of Victor Trujillo inKrakow and Maciej Paszynski in Valparaiso was supported by Chilean CONICYT project PAI80160025. David Pardo and Victor Calo have received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 777778. David Pardo was also partially funded by the Projects of the Spanish Ministry of Economy and Competitiveness with reference MTM2016-76329-R (AEI/FEDER, EU), and MTM2016-81697-ERC/AEI, the BCAM "Severo Ochoa" accreditation of excellence SEV-2018-0718, and the Basque Government through the BERC 2014-2017 program, and the Consolidated Research Group Grant IT649-13 on "Mathematical Modeling, Simulation, and Industrial Applications (M2SI)". This publication was also made possible in part by the CSIRO Professorial Chair in Computational Geoscience at Curtin University and the Deep Earth Imaging Enterprise Future Science Platforms of the Commonwealth Scientific Industrial Research Organisation, CSIRO, of Australia. Additional support was provided by the Mega-grant of the Russian Federation Government (N14.Y26.31.0013) and the Curtin Institute for Computation.
The work of Maciej Paszyński have been supported by Polish National Science Centre grant no. DEC-2016/21/B/ST6/ 01539. This research was supported in part by the PL-Grid Infrastructure. The visit of Victor Trujillo in Krakow and Maciej Paszyński in Valparaiso was supported by Chilean CONICYT project PAI80160025. David Pardo and Victor Calo have received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklo-dowska-Curie grant agreement No 777778. David Pardo was also partially funded by the Projects of the Spanish Ministry of Economy and Competitiveness with reference MTM2016-76329-R (AEI/FEDER, EU), and MTM2016-81697-ERC/AEI, the BCAM ‘’Severo Ochoa” accreditation of excellence SEV-2018-0718, and the Basque Government through the BERC 2014-2017 program, and the Consolidated Research Group Grant IT649-13 on ”Mathematical Modeling, Simulation, and Industrial Applications (M2SI)”. This publication was also made possible in part by the CSIRO Professorial Chair in Computational Geoscience at Curtin University and the Deep Earth Imaging Enterprise Future Science Platforms of the Commonwealth Scientific Industrial Research Organisation, CSIRO, of Australia. Additional support was provided by the Mega-grant of the Russian Federation Government (N 14.Y26.31.0013) and the Curtin Institute for Computation.

Agradecimiento

The work of Maciej Paszynski have been supported by Polish National Science Centre grant no. DEC-2016/21/B/ST6/01539. This research was supported in part by the PL-Grid Infrastructure. The visit of Victor Trujillo inKrakow and Maciej Paszynski in Valparaiso was supported by Chilean CONICYT project PAI80160025. David Pardo and Victor Calo have received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 777778. David Pardo was also partially funded by the Projects of the Spanish Ministry of Economy and Competitiveness with reference MTM2016-76329-R (AEI/FEDER, EU), and MTM2016-81697-ERC/AEI, the BCAM "Severo Ochoa" accreditation of excellence SEV-2018-0718, and the Basque Government through the BERC 2014-2017 program, and the Consolidated Research Group Grant IT649-13 on "Mathematical Modeling, Simulation, and Industrial Applications (M2SI)". This publication was also made possible in part by the CSIRO Professorial Chair in Computational Geoscience at Curtin University and the Deep Earth Imaging Enterprise Future Science Platforms of the Commonwealth Scientific Industrial Research Organisation, CSIRO, of Australia. Additional support was provided by the Mega-grant of the Russian Federation Government (N14.Y26.31.0013) and the Curtin Institute for Computation.

The work of Maciej Paszyński have been supported by Polish National Science Centre grant no. DEC-2016/21/B/ST6/ 01539. This research was supported in part by the PL-Grid Infrastructure. The visit of Victor Trujillo in Krakow and Maciej Paszyński in Valparaiso was supported by Chilean CONICYT project PAI80160025. David Pardo and Victor Calo have received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklo-dowska-Curie grant agreement No 777778. David Pardo was also partially funded by the Projects of the Spanish Ministry of Economy and Competitiveness with reference MTM2016-76329-R (AEI/FEDER, EU), and MTM2016-81697-ERC/AEI, the BCAM ‘’Severo Ochoa” accreditation of excellence SEV-2018-0718, and the Basque Government through the BERC 2014-2017 program, and the Consolidated Research Group Grant IT649-13 on ”Mathematical Modeling, Simulation, and Industrial Applications (M2SI)”. This publication was also made possible in part by the CSIRO Professorial Chair in Computational Geoscience at Curtin University and the Deep Earth Imaging Enterprise Future Science Platforms of the Commonwealth Scientific Industrial Research Organisation, CSIRO, of Australia. Additional support was provided by the Mega-grant of the Russian Federation Government (N 14.Y26.31.0013) and the Curtin Institute for Computation.