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LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN
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Zeitschriftentitel: | Open Engineering |
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Personen und Körperschaften: | , , , , , , , , , , , , , , , , , , , , , , , , , |
In: | Open Engineering, 7, 2017, 1, S. 379-393 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Walter de Gruyter GmbH
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author_facet |
Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor |
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author |
Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor |
spellingShingle |
Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor Open Engineering LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering |
author_sort |
barranco, javier |
spelling |
Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor 2391-5439 Walter de Gruyter GmbH Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering http://dx.doi.org/10.1515/eng-2017-0042 <jats:title>Abstract</jats:title><jats:p>The LHC@Home BOINC project has provided computing capacity for numerical simulations to researchers at CERN since 2004, and has since 2011 been expanded with a wider range of applications. The traditional CERN accelerator physics simulation code SixTrack enjoys continuing volunteers support, and thanks to virtualisation a number of applications from the LHC experiment collaborations and particle theory groups have joined the consolidated LHC@Home BOINC project. This paper addresses the challenges related to traditional and virtualized applications in the BOINC environment, and how volunteer computing has been integrated into the overall computing strategy of the laboratory through the consolidated LHC@Home service. Thanks to the computing power provided by volunteers joining LHC@Home, numerous accelerator beam physics studies have been carried out, yielding an improved understanding of charged particle dynamics in the CERN Large Hadron Collider (LHC) and its future upgrades. The main results are highlighted in this paper.</jats:p> LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN Open Engineering |
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title |
LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
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LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_full |
LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_fullStr |
LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
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LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_short |
LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_sort |
lhc@home: a boinc-based volunteer computing infrastructure for physics studies at cern |
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Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering |
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http://dx.doi.org/10.1515/eng-2017-0042 |
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2017 |
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379-393 |
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<jats:title>Abstract</jats:title><jats:p>The LHC@Home BOINC project has provided computing capacity for numerical simulations to researchers at CERN since 2004, and has since 2011 been expanded with a wider range of applications. The traditional CERN accelerator physics simulation code SixTrack enjoys continuing volunteers support, and thanks to virtualisation a number of applications from the LHC experiment collaborations and particle theory groups have joined the consolidated LHC@Home BOINC project. This paper addresses the challenges related to traditional and virtualized applications in the BOINC environment, and how volunteer computing has been integrated into the overall computing strategy of the laboratory through the consolidated LHC@Home service. Thanks to the computing power provided by volunteers joining LHC@Home, numerous accelerator beam physics studies have been carried out, yielding an improved understanding of charged particle dynamics in the CERN Large Hadron Collider (LHC) and its future upgrades. The main results are highlighted in this paper.</jats:p> |
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author | Barranco, Javier, Cai, Yunhai, Cameron, David, Crouch, Matthew, Maria, Riccardo De, Field, Laurence, Giovannozzi, Massimo, Hermes, Pascal, Høimyr, Nils, Kaltchev, Dobrin, Karastathis, Nikos, Luzzi, Cinzia, Maclean, Ewen, McIntosh, Eric, Mereghetti, Alessio, Molson, James, Nosochkov, Yuri, Pieloni, Tatiana, Reid, Ivan D., Rivkin, Lenny, Segal, Ben, Sjobak, Kyrre, Skands, Peter, Tambasco, Claudia, Veken, Frederik Van der, Zacharov, Igor |
author_facet | Barranco, Javier, Cai, Yunhai, Cameron, David, Crouch, Matthew, Maria, Riccardo De, Field, Laurence, Giovannozzi, Massimo, Hermes, Pascal, Høimyr, Nils, Kaltchev, Dobrin, Karastathis, Nikos, Luzzi, Cinzia, Maclean, Ewen, McIntosh, Eric, Mereghetti, Alessio, Molson, James, Nosochkov, Yuri, Pieloni, Tatiana, Reid, Ivan D., Rivkin, Lenny, Segal, Ben, Sjobak, Kyrre, Skands, Peter, Tambasco, Claudia, Veken, Frederik Van der, Zacharov, Igor, Barranco, Javier, Cai, Yunhai, Cameron, David, Crouch, Matthew, Maria, Riccardo De, Field, Laurence, Giovannozzi, Massimo, Hermes, Pascal, Høimyr, Nils, Kaltchev, Dobrin, Karastathis, Nikos, Luzzi, Cinzia, Maclean, Ewen, McIntosh, Eric, Mereghetti, Alessio, Molson, James, Nosochkov, Yuri, Pieloni, Tatiana, Reid, Ivan D., Rivkin, Lenny, Segal, Ben, Sjobak, Kyrre, Skands, Peter, Tambasco, Claudia, Veken, Frederik Van der, Zacharov, Igor |
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description | <jats:title>Abstract</jats:title><jats:p>The LHC@Home BOINC project has provided computing capacity for numerical simulations to researchers at CERN since 2004, and has since 2011 been expanded with a wider range of applications. The traditional CERN accelerator physics simulation code SixTrack enjoys continuing volunteers support, and thanks to virtualisation a number of applications from the LHC experiment collaborations and particle theory groups have joined the consolidated LHC@Home BOINC project. This paper addresses the challenges related to traditional and virtualized applications in the BOINC environment, and how volunteer computing has been integrated into the overall computing strategy of the laboratory through the consolidated LHC@Home service. Thanks to the computing power provided by volunteers joining LHC@Home, numerous accelerator beam physics studies have been carried out, yielding an improved understanding of charged particle dynamics in the CERN Large Hadron Collider (LHC) and its future upgrades. The main results are highlighted in this paper.</jats:p> |
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spelling | Barranco, Javier Cai, Yunhai Cameron, David Crouch, Matthew Maria, Riccardo De Field, Laurence Giovannozzi, Massimo Hermes, Pascal Høimyr, Nils Kaltchev, Dobrin Karastathis, Nikos Luzzi, Cinzia Maclean, Ewen McIntosh, Eric Mereghetti, Alessio Molson, James Nosochkov, Yuri Pieloni, Tatiana Reid, Ivan D. Rivkin, Lenny Segal, Ben Sjobak, Kyrre Skands, Peter Tambasco, Claudia Veken, Frederik Van der Zacharov, Igor 2391-5439 Walter de Gruyter GmbH Electrical and Electronic Engineering Mechanical Engineering Aerospace Engineering General Materials Science Civil and Structural Engineering Environmental Engineering http://dx.doi.org/10.1515/eng-2017-0042 <jats:title>Abstract</jats:title><jats:p>The LHC@Home BOINC project has provided computing capacity for numerical simulations to researchers at CERN since 2004, and has since 2011 been expanded with a wider range of applications. The traditional CERN accelerator physics simulation code SixTrack enjoys continuing volunteers support, and thanks to virtualisation a number of applications from the LHC experiment collaborations and particle theory groups have joined the consolidated LHC@Home BOINC project. This paper addresses the challenges related to traditional and virtualized applications in the BOINC environment, and how volunteer computing has been integrated into the overall computing strategy of the laboratory through the consolidated LHC@Home service. Thanks to the computing power provided by volunteers joining LHC@Home, numerous accelerator beam physics studies have been carried out, yielding an improved understanding of charged particle dynamics in the CERN Large Hadron Collider (LHC) and its future upgrades. The main results are highlighted in this paper.</jats:p> LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN Open Engineering |
spellingShingle | Barranco, Javier, Cai, Yunhai, Cameron, David, Crouch, Matthew, Maria, Riccardo De, Field, Laurence, Giovannozzi, Massimo, Hermes, Pascal, Høimyr, Nils, Kaltchev, Dobrin, Karastathis, Nikos, Luzzi, Cinzia, Maclean, Ewen, McIntosh, Eric, Mereghetti, Alessio, Molson, James, Nosochkov, Yuri, Pieloni, Tatiana, Reid, Ivan D., Rivkin, Lenny, Segal, Ben, Sjobak, Kyrre, Skands, Peter, Tambasco, Claudia, Veken, Frederik Van der, Zacharov, Igor, Open Engineering, LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN, Electrical and Electronic Engineering, Mechanical Engineering, Aerospace Engineering, General Materials Science, Civil and Structural Engineering, Environmental Engineering |
title | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_full | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_fullStr | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_full_unstemmed | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_short | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
title_sort | lhc@home: a boinc-based volunteer computing infrastructure for physics studies at cern |
title_unstemmed | LHC@Home: a BOINC-based volunteer computing infrastructure for physics studies at CERN |
topic | Electrical and Electronic Engineering, Mechanical Engineering, Aerospace Engineering, General Materials Science, Civil and Structural Engineering, Environmental Engineering |
url | http://dx.doi.org/10.1515/eng-2017-0042 |