Recent EUROfusion Achievements in Support of Computationally Demanding Multiscale Fusion Physics Simulations and Integrated Modeling
Integrated modeling (IM) of present experiments and future tokamak reactors requires the provision of computational resources and numerical tools capable of simulating multiscale spatial phenomena as well as fast transient events and relatively slow plasma evolution within a reasonably short computa...
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| Vydáno v: | Fusion science and technology Ročník 74; číslo 3; s. 186 - 197 |
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| Médium: | Journal Article Publikace |
| Jazyk: | angličtina |
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Taylor & Francis
03.10.2018
American Nuclear Society |
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| ISSN: | 1536-1055, 1943-7641, 1943-7641 |
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| Abstract | Integrated modeling (IM) of present experiments and future tokamak reactors requires the provision of computational resources and numerical tools capable of simulating multiscale spatial phenomena as well as fast transient events and relatively slow plasma evolution within a reasonably short computational time. Recent progress in the implementation of the new computational resources for fusion applications in Europe based on modern supercomputer technologies (supercomputer MARCONI-FUSION), in the optimization and speedup of the EU fusion-related first-principle codes, and in the development of a basis for physics codes/modules integration into a centrally maintained suite of IM tools achieved within the EUROfusion Consortium is presented. Physics phenomena that can now be reasonably modelled in various areas (core turbulence and magnetic reconnection, edge and scrape-off layer physics, radio-frequency heating and current drive, magnetohydrodynamic model, reflectometry simulations) following successful code optimizations and parallelization are briefly described. Development activities in support to IM are summarized. They include support to (1) the local deployment of the IM infrastructure and access to experimental data at various host sites, (2) the management of releases for sophisticated IM workflows involving a large number of components, and (3) the performance optimization of complex IM workflows. |
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| AbstractList | Integrated modeling (IM) of present experiments and future tokamak reactors requires the provision of computational resources and numerical tools capable of simulating multiscale spatial phenomena as well as fast transient events and relatively slow plasma evolution within a reasonably short computational time. Recent progress in the implementation of the new computational resources for fusion applications in Europe based on modern supercomputer technologies (supercomputer MARCONI-FUSION), in the optimization and speedup of the EU fusion-related first-principle codes, and in the development of a basis for physics codes/modules integration into a centrally maintained suite of IM tools achieved within the EUROfusion Consortium is presented. Physics phenomena that can now be reasonably modelled in various areas (core turbulence and magnetic reconnection, edge and scrape-off layer physics, radio-frequency heating and current drive, magnetohydrodynamic model, reflectometry simulations) following successful code optimizations and parallelization are briefly described. Development activities in support to IM are summarized. They include support to (1) the local deployment of the IM infrastructure and access to experimental data at various host sites, (2) the management of releases for sophisticated IM workflows involving a large number of components, and (3) the performance optimization of complex IM workflows. Integrated modeling (IM) of present experiments and future tokamak reactors requires the provision of computational resources and numerical tools capable of simulating multiscale spatial phenomena as well as fast transient events and relatively slow plasma evolution within a reasonably short computational time. Recent progress in the implementation of the new computational resources for fusion applications in Europe based on modern supercomputer technologies (supercomputer MARCONI-FUSION), in the optimization and speedup of the EU fusion-related first-principle codes, and in the development of a basis for physics codes/modules integration into a centrally maintained suite of IM tools achieved within the EUROfusion Consortium is presented. Physics phenomena that can now be reasonably modelled in various areas (core turbulence and magnetic reconnection, edge and scrape-off layer physics, radio-frequency heating and current drive, magnetohydrodynamic model, reflectometry simulations) following successful code optimizations and parallelization are briefly described. Development activities in support to IM are summarized. They include support to (1) the local deployment of the IM infrastructure and access to experimental data at various host sites, (2) the management of releases for sophisticated IM workflows involving a large number of components, and (3) the performance optimization of complex IM workflows. This work has been carried out within the framework of the EUROfusion Consortium and has received funding from the Euratom research and training programme 2014 to 2018 under grant agreement 633053. The views and opinions expressed herein do not necessarily reflect those of the European Commission or ITER. Peer Reviewed © 2018, © 2018 The Authors. Published with license by Taylor & Francis Group, LLC. Integrated modeling (IM) of present experiments and future tokamak reactors requires the provision of computational resources and numerical tools capable of simulating multiscale spatial phenomena as well as fast transient events and relatively slow plasma evolution within a reasonably short computational time. Recent progress in the implementation of the new computational resources for fusion applications in Europe based on modern supercomputer technologies (supercomputer MARCONI-FUSION), in the optimization and speedup of the EU fusion-related first-principle codes, and in the development of a basis for physics codes/modules integration into a centrally maintained suite of IM tools achieved within the EUROfusion Consortium is presented. Physics phenomena that can now be reasonably modelled in various areas (core turbulence and magnetic reconnection, edge and scrape-off layer physics, radio-frequency heating and current drive, magnetohydrodynamic model, reflectometry simulations) following successful code optimizations and parallelization are briefly described. Development activities in support to IM are summarized. They include support to (1) the local deployment of the IM infrastructure and access to experimental data at various host sites, (2) the management of releases for sophisticated IM workflows involving a large number of components, and (3) the performance optimization of complex IM workflows. |
| Author | Leggate, H. Hollocombe, J. Da Silva, F. Figat, D. McDonald, D. C. Tskhakaya, D. Ribeiro, T. Kang, K. S. David, J. Palak, B. Heuraux, S. Manduchi, G. Hölzl, M. Mochalskyy, S. Signoret, J. Voitsekhovitch, I. Pinches, S. D. Yadykin, D. Maslennikov, A. Bracco, G. Rossi, E. Aniel, T. Vouland, C. Imbeaux, F. Kamendje, R. Plociennik, M. Kaljun, D. Tran, T.-M. Robin, F. Iannone, F. Coster, D. Sáez, X. Martone, M. Owsiak, M. Hatzky, R. Pais, V. Noé, J. Hoenen, O. Fehér, T. B. Fleury, L. Gutierrez-Milla, A. |
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S. organization: Max-Planck-Institut für Plasmaphysik – sequence: 8 givenname: H. surname: Leggate fullname: Leggate, H. organization: Dublin City University – sequence: 9 givenname: M. surname: Martone fullname: Martone, M. organization: Max-Planck-Institut für Plasmaphysik – sequence: 10 givenname: S. surname: Mochalskyy fullname: Mochalskyy, S. organization: Max-Planck-Institut für Plasmaphysik – sequence: 11 givenname: X. surname: Sáez fullname: Sáez, X. organization: Barcelona Supercomputing Center – sequence: 12 givenname: T. surname: Ribeiro fullname: Ribeiro, T. organization: Max-Planck-Institut für Plasmaphysik – sequence: 13 givenname: T.-M. surname: Tran fullname: Tran, T.-M. organization: Swiss Plasma Centre (SPC) – sequence: 14 givenname: A. surname: Gutierrez-Milla fullname: Gutierrez-Milla, A. organization: Barcelona Supercomputing Center – sequence: 15 givenname: T. surname: Aniel fullname: Aniel, T. organization: CEA, Institute for Magnetic Fusion Research – sequence: 16 givenname: D. surname: Figat fullname: Figat, D. organization: Poznan Supercomputing and Networking Center – sequence: 17 givenname: L. surname: Fleury fullname: Fleury, L. organization: CEA, Institute for Magnetic Fusion Research – sequence: 18 givenname: O. surname: Hoenen fullname: Hoenen, O. organization: Max-Planck-Institut für Plasmaphysik – sequence: 19 givenname: J. surname: Hollocombe fullname: Hollocombe, J. organization: United Kingdom Atomic Energy Authority, CCFE, Culham Science Centre – sequence: 20 givenname: D. surname: Kaljun fullname: Kaljun, D. organization: University of Ljubljana – sequence: 21 givenname: G. surname: Manduchi fullname: Manduchi, G. organization: Consorzio RFX – sequence: 22 givenname: M. surname: Owsiak fullname: Owsiak, M. organization: Poznan Supercomputing and Networking Center – sequence: 23 givenname: V. surname: Pais fullname: Pais, V. organization: National Institute for Laser, Plasma and Radiation Physics – sequence: 24 givenname: B. surname: Palak fullname: Palak, B. organization: Poznan Supercomputing and Networking Center – sequence: 25 givenname: M. surname: Plociennik fullname: Plociennik, M. organization: Poznan Supercomputing and Networking Center – sequence: 26 givenname: J. surname: Signoret fullname: Signoret, J. organization: CEA, Institute for Magnetic Fusion Research – sequence: 27 givenname: C. surname: Vouland fullname: Vouland, C. organization: CEA, Institute for Magnetic Fusion Research – sequence: 28 givenname: D. surname: Yadykin fullname: Yadykin, D. organization: Chalmers University of Technology – sequence: 29 givenname: F. surname: Robin fullname: Robin, F. organization: CEA-DRF, Centre de Saclay – sequence: 30 givenname: F. surname: Iannone fullname: Iannone, F. organization: ENEA C. R. Frascati – sequence: 31 givenname: G. surname: Bracco fullname: Bracco, G. organization: ENEA C. R. Frascati – sequence: 32 givenname: J. surname: David fullname: David, J. organization: CEA-DRF, Centre de Saclay – sequence: 33 givenname: A. surname: Maslennikov fullname: Maslennikov, A. organization: CINECA – sequence: 34 givenname: J. surname: Noé fullname: Noé, J. organization: CEA-DRF, Centre de Saclay – sequence: 35 givenname: E. surname: Rossi fullname: Rossi, E. organization: CINECA – sequence: 36 givenname: R. surname: Kamendje fullname: Kamendje, R. organization: Graz University of Technology, Institut fuer Theoretische Physik-Computational Physics – sequence: 37 givenname: S. surname: Heuraux fullname: Heuraux, S. organization: CNRS-Université de Lorraine, Institute Jean Lamour UMR 7198, BP 70239 F-54506 – sequence: 38 givenname: M. surname: Hölzl fullname: Hölzl, M. organization: Max-Planck-Institut für Plasmaphysik – sequence: 39 givenname: S. D. surname: Pinches fullname: Pinches, S. D. organization: ITER Organization, Route de Vinon-sur-Verdon, CS 90 046 – sequence: 40 givenname: F. surname: Da Silva fullname: Da Silva, F. organization: Instituto de Plasmas e Fusão Nuclear-Laboratório Associado – sequence: 41 givenname: D. surname: Tskhakaya fullname: Tskhakaya, D. organization: Vienna University of Technology, Institute of Applied Physics, Fusion@ÖAW |
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| SubjectTerms | Code optimization and parallelization Fusió nuclear Física High-performance computer Infrastructure for integrated modeling Nuclear fusion Physics Àrees temàtiques de la UPC |
| Title | Recent EUROfusion Achievements in Support of Computationally Demanding Multiscale Fusion Physics Simulations and Integrated Modeling |
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