Zobrazeno 1 - 10
of 19
pro vyhledávání: '"Ben Couturier"'
Autor:
Ben Couturier, Marco Clemencic
Publikováno v:
EPJ Web of Conferences, Vol 245, p 05029 (2020)
LHCb software runs in very different computing environments: the trigger farm at CERN, on the LHC Computing Grid (LCG), on shared clusters or on software developer’s desktops. . . The old model assumes the availability of CVMFS and relies on custo
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7a818756b87f19043de9902555d4c5d3
Autor:
Chris Burr, Ben Couturier
Publikováno v:
EPJ Web of Conferences, Vol 245, p 05026 (2020)
GitLab’s Continuous Integration has proven to be an efficient tool to manage the lifecycle of experimental software. This has sparked interest in uses that exceed simple unit tests, and therefore require more resources, such as production data conf
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::9feb9f14977cf0e89bf51c94b7c708e5
Autor:
George K. Thiruvathukal, Christopher R. Jones, Ben Couturier, Lorena A. Barba, Ana Trisovic, Marco Clemencic
Even though computational reproducibility is widely accepted as necessary for research validation and reuse, it is often not considered during the research process. This is because reproducibility tools are typically stand-alone and require additiona
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::9f6466e7e7e9a922fb52664034eb81ec
http://arxiv.org/abs/1910.02863
http://arxiv.org/abs/1910.02863
Publikováno v:
DASIP
DASIP 2019-The Conference on Design and Architectures for Signal and Image Processing
DASIP 2019-The Conference on Design and Architectures for Signal and Image Processing, Oct 2019, Montréal, Canada
DASIP 2019-The Conference on Design and Architectures for Signal and Image Processing
DASIP 2019-The Conference on Design and Architectures for Signal and Image Processing, Oct 2019, Montréal, Canada
International audience; Connected components labeling and analysis for dense images have been extensively studied on a wide range of architectures. Some applications, like particles detectors in High Energy Physics, need to analyse many small and spa
Publikováno v:
EPJ Web of Conferences, Vol 214, p 05001 (2019)
A continuous integration system is crucial to maintain the quality of the 6 millions lines of C++ and Python source code of the LHCb software in order to ensure consistent builds of the software as well as to run the unit and integration tests. Jenki
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7ebca3939866234248fc18b00fefe3ce
http://cds.cern.ch/record/2700233
http://cds.cern.ch/record/2700233
Autor:
Robert Currie, A.A. Alves, Armin Michael Nairz, A. Valassi, Hadrien Grasland, Nurcan Ozturk, Gianluca Cerminara, Davide Costanzo, Gabriel Perdue, G Lima, W. Pokorski, Renaud Vernet, Jürgen Reuter, Marian Babik, Glenn Patrick, Giacomo Govi, David Crooks, Sergio F Novaes, Mihaly Novak, Paul Laycock, Eric Lancon, J. R. G. Fernandez, Torben Ferber, Steven Farrell, Nicolo Magini, Josh Mcfayden, Sean Murray, Gordon Watts, B. K. Jashal, Isidro Gonzalez Caballero, Jacob Linacre, Frank Wuerthwein, Margaret Votava, Dirk Duellmann, Alessandra Forti, Peter van Gemmeren, Patricia Mendez Lorenzo, Jan Iven, Giovanni Franzoni, Charles Leggett, Sw. Banerjee, T. Kuhr, Markus Schulz, Alberto Ribon, Christopher Tunnell, Valentin Kuznetsov, Roger Jones, Frank Winklmeier, Claudio Grandi, Peter Elmer, Sünje Dallmeier-Tiessen, Gordon Stewart, Giordon Stark, Benedikt Hegner, Giuseppe Bagliesi, Catrin Bernius, Burt Holzman, Nguyen Anh-Ky, Alex Pearce, Gancho Dimitrov, Ian Bird, H. Schellman, Scott Snyder, Gloria Corti, Walter Lampl, Edward Moyse, E. Cogneras, Alexei Klimentov, Frederic Derue, Taylor Childers, K. Genser, J. Cranshaw, Manuel Giffels, Andrew Buckley, Shawn McKee, Marilena Bandieramonte, C. Bozzi, Adam L. Lyon, Heather Gray, Oliver Keeble, Todor Ivanov, Vakhtang Tsulaia, Daniel S. Katz, Gerhard Raven, Renato Santana, Agnieszka Dziurda, Marco Clemencic, Borut Paul Kerševan, Philip Chang, Johannes Elmsheuser, Carl Vuosalo, Gian Piero Siroli, Javier Cervantes Villanueva, Daniele Bonacorsi, Mark Hodgkinson, Vladimir Gligorov, Graeme A. Stewart, L. Grillo, Jakob Blomer, Markus Klute, Kevin Pedro, Michela Paganini, Sabine Crépé-Renaudin, Marko Bracko, G. Cosmo, Eduardo Rodrigues, Dmitri Konstantinov, Kaushik De, Jose Benito Gonzalez Lopez, Oliver Gutsche, Miron Livny, Farah Hariri, Teng Li, Laurent Duflot, U. Tamponi, Alaettin Serhan Mete, Jose M Hernandez, Frank Jm Geurts, Ulrik Egede, Jose Flix, Richard Mount, G. Andronico, Dario Menasce, David Lange, Steven Schramm, Vardan Gyurjyan, Lukas Heinrich, Maria Girone, Dorian Kcira, Giulio Eulisse, Alberto Sánchez-Hernández, Francesco Polci, Antonio Boveia, T. J. Smith, Peter Clarke, Ivan Glushkov, Stewart Martin-Haugh, Jeff Templon, H. Meinhard, James Robinson, David Colling, Jean-Roch Vlimant, Michael Kagan, Luca Atzori, Riccardo-Maria Bianchi, Douglas Benjamin, Kyle Cranmer, S. Fuess, Andre Sailer, Sofia Vallecorsa, Gianpaolo Carlino, Torre Wenaus, Gang Chen, Salvatore Di Guida, Soon Yung Jun, Tomas Lindén, Giacomo Tenaglia, Grigori Rybkine, Michael H. Seymour, Albert De Roeck, Simone Campana, Mario Lassnig, Andrea Sartirana, B. Viren, Andrea Formica, Leo Piilonen, John Harvey, Birgit Lewendel, Panagiotis Spentzouris, Sally Seidel, Andrea Sciabà, Stefano Belforte, Dave Dykstra, Leonardo Cristella, Douglas Gingrich, Lorenzo Moneta, Gerardo Ganis, Lorenzo Rinaldi, Meghan Kane, Zhang Xiao-Mei, John Apostolakis, Bodhitha Jayatilaka, M. D. Sokoloff, Thomas Hauth, Carlos Vázquez Sierra, Laurent Bernard Aphecetche, Xingtao Huang, Kajari Mazumdar, R. Mehdiyev, Antonio María Pérez-Calero Yzquierdo, Thomas McCauley, Mike Williams, M. S. Neubauer, Michael Hildreth, Stefan Roiser, Stefano Giagu, Peter Zahariev Hristov, Anyes Taffard, A. Petzold, Martin Barisits, Edward Karavakis, Jing-Ge Shiu, Alessandro Di Girolamo, Jim Kowalkowski, Andreas Heiss, Tai Sakuma, V. Daniel Elvira, Jeremy Coles, Davide Sgalaberna, Johannes Albrecht, James Chapman, Tomasz Bold, Antonio Delgado Peris, Robert Gardner, Andrew McNab, Christoph Wissing, Romain Wartel, Sandro Christian Wenzel, Ian Fisk, Vladimir Ivanchenko, Ian Collier, Peter Love, Andres Pacheco Pages, Jim Pivarski, Edoardo Martelli, Vincent R. Pascuzzi, Michel Jouvin, Hartmut Stadie, Makoto Asai, Albert Puig Navarro, Gunter Quast, Troels Petersen, Wahid Bhimji, Brian Bockelman, Andrej Filipcic, B. Pearson, Stefan Hoeche, Luca Perrozzi, Jaroslava Schovancova, Z. Marshall, Marco Cattaneo, Vincent Garonne, Hannah Short, Danilo Piparo, Liviu Valsan, Lothar A. T. Bauerdick, Gareth Roy, Horst Severini, A. Oyanguren, Francesco Giacomini, Kenneth Bloom, A. Gellrich, Marko Petrič, Efe Yazgan, Samuel Cadellin Skipsey, Andrea Dotti, W. Gohn, Wen Guan, Tommaso Boccali, C. Biscarat, Katarzyna Maria Dziedziniewicz-Wojcik, L. Kreczko, Simon George, Arturo Sánchez, Philippe Canal, Illya Shapoval, Caterina Doglioni, Ilya Komarov, Nuno Filipe Castro, Patrick Koppenburg, Jérôme Pansanel, Pere Mato, Wei Yang, Paolo Calafiura, Sezen Sekmen, C. Voss, David Britton, Thomas Hartmann, Guilherme Amadio, Andrew Norman, Michel De Cian, James Letts, Sebastian Lopienski, David Rousseau, Andrew Hanushevsky, Jamie Shiers, Andrei Gheata, Martin Ritter, Karolos Potamianos, Elizabeth Sexton-Kennedy, Michele Michelotto, Luca Canali, Cedric Serfon, Beate Heinemann, Giuseppe Lo Presti, J. Piedra, Fernanda Psihas, Ben Couturier, Robert K. Kutschke, Jovan Mitrevski, Charles William Kalderon, Benjamin Wynne, B. Morgan, Frank Gaede, Mihaela Gheata, Michael H Kirby, P. Buncic, Eric Wayne Vaandering, James Frost, Conor Fitzpatrick
Publikováno v:
Comput.Softw.Big Sci.
Comput.Softw.Big Sci., 2019, 3 (1), pp.7. ⟨10.1007/s41781-018-0018-8⟩
Computing and Software for Big Science
Computing and Software for Big Science, 2019, 3 (1), pp.7. ⟨10.1007/s41781-018-0018-8⟩
Albrecht, J, Jr, A A A, Amadio, G, Andronico, G, Anh-Ky, N, Aphecetche, L, Apostolakis, J, Asai, M, Atzori, L, Babik, M, Bagliesi, G, Bandieramonte, M, Banerjee, S, Barisits, M, Bauerdick, L A T, Belforte, S, Benjamin, D, Bernius, C, Bhimji, W, Bianchi, R M, Bird, I, Biscarat, C, Blomer, J, Bloom, K, Boccali, T, Bockelman, B, Bold, T, Bonacorsi, D, Boveia, A, Bozzi, C, Bracko, M, Britton, D, Buckley, A, Buncic, P, Calafiura, P, Campana, S, Canal, P, Canali, L, Carlino, G, Castro, N, Cattaneo, M, Cerminara, G, Villanueva, J C, Chang, P, Chapman, J, Chen, G, Childers, T, Clarke, P, Clemencic, M, Cogneras, E, Coles, J, Collier, I, Colling, D, Corti, G, Cosmo, G, Costanzo, D, Couturier, B, Cranmer, K, Cranshaw, J, Cristella, L, Crooks, D, Crépé-Renaudin, S, Currie, R, Dallmeier-Tiessen, S, De, K, Cian, M D, Roeck, A D, Peris, A D, Derue, F, Girolamo, A D, Guida, S D, Dimitrov, G, Doglioni, C, Dotti, A, Duellmann, D, Duflot, L, Dykstra, D, Dziedziniewicz-Wojcik, K, Dziurda, A, Egede, U, Elmer, P, Elmsheuser, J, Elvira, V D, Eulisse, G, Farrell, S, Ferber, T, Filipcic, A, Fisk, I, Fitzpatrick, C, Flix, J, Formica, A, Forti, A, Franzoni, G, Frost, J, Fuess, S, Gaede, F, Ganis, G, Gardner, R, Garonne, V, Gellrich, A, Genser, K, George, S, Geurts, F, Gheata, A, Gheata, M, Giacomini, F, Giagu, S, Giffels, M, Gingrich, D, Girone, M, Gligorov, V V, Glushkov, I, Gohn, W, Lopez, J B G, Caballero, I G, Fernández, J R G, Govi, G, Grandi, C, Grasland, H, Gray, H, Grillo, L, Guan, W, Gutsche, O, Gyurjyan, V, Hanushevsky, A, Hariri, F, Hartmann, T, Harvey, J, Hauth, T, Hegner, B, Heinemann, B, Heinrich, L, Heiss, A, Hernández, J M, Hildreth, M, Hodgkinson, M, Hoeche, S, Holzman, B, Hristov, P, Huang, X, Ivanchenko, V N, Ivanov, T, Iven, J, Jashal, B, Jayatilaka, B, Jones, R, Jouvin, M, Jun, S Y, Kagan, M, Kalderon, C W, Kane, M, Karavakis, E, Katz, D S, Kcira, D, Keeble, O, Kersevan, B P, Kirby, M, Klimentov, A, Klute, M, Komarov, I, Konstantinov, D, Koppenburg, P, Kowalkowski, J, Kreczko, L, Kuhr, T, Kutschke, R, Kuznetsov, V, Lampl, W, Lancon, E, Lange, D, Lassnig, M, Laycock, P, Leggett, C, Letts, J, Lewendel, B, Li, T, Lima, G, Linacre, J, Linden, T, Livny, M, Presti, G L, Lopienski, S, Love, P, Lyon, A, Magini, N, Marshall, Z L, Martelli, E, Martin-Haugh, S, Mato, P, Mazumdar, K, McCauley, T, McFayden, J, McKee, S, McNab, A, Mehdiyev, R, Meinhard, H, Menasce, D, Lorenzo, P M, Mete, A S, Michelotto, M, Mitrevski, J, Moneta, L, Morgan, B, Mount, R, Moyse, E, Murray, S, Nairz, A, Neubauer, M S, Norman, A, Novaes, S, Novak, M, Oyanguren, A, Ozturk, N, Pages, A P, Paganini, M, Pansanel, J, Pascuzzi, V R, Patrick, G, Pearce, A, Pearson, B, Pedro, K, Perdue, G, Yzquierdo, A P-C, Perrozzi, L, Petersen, T, Petric, M, Petzold, A, Piedra, J, Piilonen, L, Piparo, D, Pivarski, J, Pokorski, W, Polci, F, Potamianos, K, Psihas, F, Navarro, A P, Quast, G, Raven, G, Reuter, J, Ribon, A, Rinaldi, L, Ritter, M, Robinson, J, Rodrigues, E, Roiser, S, Rousseau, D, Roy, G, Rybkine, G, Sailer, A, Sakuma, T, Santana, R, Sartirana, A, Schellman, H, Schovancová, J, Schramm, S, Schulz, M, Sciabà, A, Seidel, S, Sekmen, S, Serfon, C, Severini, H, Sexton-Kennedy, E, Seymour, M, Sgalaberna, D, Shapoval, I, Shiers, J, Shiu, J-G, Short, H, Siroli, G P, Skipsey, S, Smith, T, Snyder, S, Sokoloff, M D, Spentzouris, P, Stadie, H, Stark, G, Stewart, G, Stewart, G A, Sánchez, A, Sánchez-Hernández, A, Taffard, A, Tamponi, U, Templon, J, Tenaglia, G, Tsulaia, V, Tunnell, C, Vaandering, E, Valassi, A, Vallecorsa, S, Valsan, L, Gemmeren, P V, Vernet, R, Viren, B, Vlimant, J-R, Voss, C, Votava, M, Vuosalo, C, Sierra, C V, Wartel, R, Watts, G T, Wenaus, T, Wenzel, S, Williams, M, Winklmeier, F, Wissing, C, Wuerthwein, F, Wynne, B, Xiaomei, Z, Yang, W & Yazgan, E 2019, ' A Roadmap for HEP Software and Computing R &D for the 2020s ', Computing and Software for Big Science, vol. 3, no. 7 . https://doi.org/10.1007/s41781-018-0018-8
Scopus
Repositório Institucional da UNESP
Universidade Estadual Paulista (UNESP)
instacron:UNESP
Repositório Científico de Acesso Aberto de Portugal
Repositório Científico de Acesso Aberto de Portugal (RCAAP)
instacron:RCAAP
Computing and software for big science 3(1), 7 (2019). doi:10.1007/s41781-018-0018-8
Foundation, HEPS; Albrecht, J; Jr, AAA; Amadio, G; Andronico, G; Anh-Ky, N; et al.(2018). A Roadmap for HEP Software and Computing R&D for the 2020s. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/93c2r1gr
Comput.Softw.Big Sci., 2019, 3 (1), pp.7. ⟨10.1007/s41781-018-0018-8⟩
Computing and Software for Big Science
Computing and Software for Big Science, 2019, 3 (1), pp.7. ⟨10.1007/s41781-018-0018-8⟩
Albrecht, J, Jr, A A A, Amadio, G, Andronico, G, Anh-Ky, N, Aphecetche, L, Apostolakis, J, Asai, M, Atzori, L, Babik, M, Bagliesi, G, Bandieramonte, M, Banerjee, S, Barisits, M, Bauerdick, L A T, Belforte, S, Benjamin, D, Bernius, C, Bhimji, W, Bianchi, R M, Bird, I, Biscarat, C, Blomer, J, Bloom, K, Boccali, T, Bockelman, B, Bold, T, Bonacorsi, D, Boveia, A, Bozzi, C, Bracko, M, Britton, D, Buckley, A, Buncic, P, Calafiura, P, Campana, S, Canal, P, Canali, L, Carlino, G, Castro, N, Cattaneo, M, Cerminara, G, Villanueva, J C, Chang, P, Chapman, J, Chen, G, Childers, T, Clarke, P, Clemencic, M, Cogneras, E, Coles, J, Collier, I, Colling, D, Corti, G, Cosmo, G, Costanzo, D, Couturier, B, Cranmer, K, Cranshaw, J, Cristella, L, Crooks, D, Crépé-Renaudin, S, Currie, R, Dallmeier-Tiessen, S, De, K, Cian, M D, Roeck, A D, Peris, A D, Derue, F, Girolamo, A D, Guida, S D, Dimitrov, G, Doglioni, C, Dotti, A, Duellmann, D, Duflot, L, Dykstra, D, Dziedziniewicz-Wojcik, K, Dziurda, A, Egede, U, Elmer, P, Elmsheuser, J, Elvira, V D, Eulisse, G, Farrell, S, Ferber, T, Filipcic, A, Fisk, I, Fitzpatrick, C, Flix, J, Formica, A, Forti, A, Franzoni, G, Frost, J, Fuess, S, Gaede, F, Ganis, G, Gardner, R, Garonne, V, Gellrich, A, Genser, K, George, S, Geurts, F, Gheata, A, Gheata, M, Giacomini, F, Giagu, S, Giffels, M, Gingrich, D, Girone, M, Gligorov, V V, Glushkov, I, Gohn, W, Lopez, J B G, Caballero, I G, Fernández, J R G, Govi, G, Grandi, C, Grasland, H, Gray, H, Grillo, L, Guan, W, Gutsche, O, Gyurjyan, V, Hanushevsky, A, Hariri, F, Hartmann, T, Harvey, J, Hauth, T, Hegner, B, Heinemann, B, Heinrich, L, Heiss, A, Hernández, J M, Hildreth, M, Hodgkinson, M, Hoeche, S, Holzman, B, Hristov, P, Huang, X, Ivanchenko, V N, Ivanov, T, Iven, J, Jashal, B, Jayatilaka, B, Jones, R, Jouvin, M, Jun, S Y, Kagan, M, Kalderon, C W, Kane, M, Karavakis, E, Katz, D S, Kcira, D, Keeble, O, Kersevan, B P, Kirby, M, Klimentov, A, Klute, M, Komarov, I, Konstantinov, D, Koppenburg, P, Kowalkowski, J, Kreczko, L, Kuhr, T, Kutschke, R, Kuznetsov, V, Lampl, W, Lancon, E, Lange, D, Lassnig, M, Laycock, P, Leggett, C, Letts, J, Lewendel, B, Li, T, Lima, G, Linacre, J, Linden, T, Livny, M, Presti, G L, Lopienski, S, Love, P, Lyon, A, Magini, N, Marshall, Z L, Martelli, E, Martin-Haugh, S, Mato, P, Mazumdar, K, McCauley, T, McFayden, J, McKee, S, McNab, A, Mehdiyev, R, Meinhard, H, Menasce, D, Lorenzo, P M, Mete, A S, Michelotto, M, Mitrevski, J, Moneta, L, Morgan, B, Mount, R, Moyse, E, Murray, S, Nairz, A, Neubauer, M S, Norman, A, Novaes, S, Novak, M, Oyanguren, A, Ozturk, N, Pages, A P, Paganini, M, Pansanel, J, Pascuzzi, V R, Patrick, G, Pearce, A, Pearson, B, Pedro, K, Perdue, G, Yzquierdo, A P-C, Perrozzi, L, Petersen, T, Petric, M, Petzold, A, Piedra, J, Piilonen, L, Piparo, D, Pivarski, J, Pokorski, W, Polci, F, Potamianos, K, Psihas, F, Navarro, A P, Quast, G, Raven, G, Reuter, J, Ribon, A, Rinaldi, L, Ritter, M, Robinson, J, Rodrigues, E, Roiser, S, Rousseau, D, Roy, G, Rybkine, G, Sailer, A, Sakuma, T, Santana, R, Sartirana, A, Schellman, H, Schovancová, J, Schramm, S, Schulz, M, Sciabà, A, Seidel, S, Sekmen, S, Serfon, C, Severini, H, Sexton-Kennedy, E, Seymour, M, Sgalaberna, D, Shapoval, I, Shiers, J, Shiu, J-G, Short, H, Siroli, G P, Skipsey, S, Smith, T, Snyder, S, Sokoloff, M D, Spentzouris, P, Stadie, H, Stark, G, Stewart, G, Stewart, G A, Sánchez, A, Sánchez-Hernández, A, Taffard, A, Tamponi, U, Templon, J, Tenaglia, G, Tsulaia, V, Tunnell, C, Vaandering, E, Valassi, A, Vallecorsa, S, Valsan, L, Gemmeren, P V, Vernet, R, Viren, B, Vlimant, J-R, Voss, C, Votava, M, Vuosalo, C, Sierra, C V, Wartel, R, Watts, G T, Wenaus, T, Wenzel, S, Williams, M, Winklmeier, F, Wissing, C, Wuerthwein, F, Wynne, B, Xiaomei, Z, Yang, W & Yazgan, E 2019, ' A Roadmap for HEP Software and Computing R &D for the 2020s ', Computing and Software for Big Science, vol. 3, no. 7 . https://doi.org/10.1007/s41781-018-0018-8
Scopus
Repositório Institucional da UNESP
Universidade Estadual Paulista (UNESP)
instacron:UNESP
Repositório Científico de Acesso Aberto de Portugal
Repositório Científico de Acesso Aberto de Portugal (RCAAP)
instacron:RCAAP
Computing and software for big science 3(1), 7 (2019). doi:10.1007/s41781-018-0018-8
Foundation, HEPS; Albrecht, J; Jr, AAA; Amadio, G; Andronico, G; Anh-Ky, N; et al.(2018). A Roadmap for HEP Software and Computing R&D for the 2020s. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/93c2r1gr
Computing and software for big science 3(1), 7 (2019). doi:10.1007/s41781-018-0018-8
Particle physics has an ambitious and broad experimental programme for the coming decades. This programme requires large investments in detector hardware, eithe
Particle physics has an ambitious and broad experimental programme for the coming decades. This programme requires large investments in detector hardware, eithe
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::3dfda4697ac7320065f324122c1f013a
https://hal.archives-ouvertes.fr/hal-02080720
https://hal.archives-ouvertes.fr/hal-02080720
Autor:
Mika Vesterinen, Lucio Anderlini, Roel Aaij, T. Head, Marco Clemencic, R. Matev, G. Raven, Vladimir Gligorov, Markus Frank, Ben Couturier, Sandra Amato, Barbara Storaci, Sean Benson, Stephen M. Stahl, C. R. Jones, Barbara Sciascia, P. Spradlin, Marco Cattaneo, T. Skwarnicki, I. Komarov, Oliver Lupton
Publikováno v:
Computer Physics Communications, 208, 35-42. Elsevier
Computer Physics Communications
Computer Physics Communications, 2016, 208, pp.35-42. ⟨10.1016/j.cpc.2016.07.022⟩
Computer Physics Communications, Elsevier, 2016, 208, pp.35-42. ⟨10.1016/j.cpc.2016.07.022⟩
Aaij, R, Amato, S, Anderlini, L, Benson, S, Cattaneo, M, Clemencic, M, Couturier, B, Frank, M, Gligorov, V V, Head, T, Jones, C, Komarov, I, Lupton, O, Matev, R, Raven, G, Sciascia, B, Skwarnicki, T, Spradlin, P, Stahl, S, Storaci, B & Vesterinen, M 2016, ' Tesla : An application for real-time data analysis in High Energy Physics ', Computer Physics Communications, vol. 208, pp. 35-42 . https://doi.org/10.1016/j.cpc.2016.07.022
Computer Physics Communications
Computer Physics Communications, 2016, 208, pp.35-42. ⟨10.1016/j.cpc.2016.07.022⟩
Computer Physics Communications, Elsevier, 2016, 208, pp.35-42. ⟨10.1016/j.cpc.2016.07.022⟩
Aaij, R, Amato, S, Anderlini, L, Benson, S, Cattaneo, M, Clemencic, M, Couturier, B, Frank, M, Gligorov, V V, Head, T, Jones, C, Komarov, I, Lupton, O, Matev, R, Raven, G, Sciascia, B, Skwarnicki, T, Spradlin, P, Stahl, S, Storaci, B & Vesterinen, M 2016, ' Tesla : An application for real-time data analysis in High Energy Physics ', Computer Physics Communications, vol. 208, pp. 35-42 . https://doi.org/10.1016/j.cpc.2016.07.022
Upgrades to the LHCb computing infrastructure in the first long shutdown of the LHC have allowed for high quality decay information to be calculated by the software trigger making a separate offline event reconstruction unnecessary. Furthermore, the
Any time you modify an implementation within a program, change compiler version or operating system, you should also do regression testing. You can do regression testing by rerunning existing tests against the changes to determine whether this breaks
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::ac90d3c7954e179299f6a49a473ac44b
http://cds.cern.ch/record/2296799
http://cds.cern.ch/record/2296799
Publikováno v:
EPJ Web of Conferences, Vol 214, p 05016 (2019)
LHCb is undergoing major changes in its data selection and processing chain for the upcoming LHC Run 3 starting in 2021. With this in sight several initiatives have been launched to optimise the software stack. This contribution discusses porting the
Autor:
Victor Coco, Johannes Albrecht, Sebastien Ponce, C. Hasse, Dylan Bourgeois, Niklas Stefan Nolte, Ben Couturier
Publikováno v:
EPJ Web of Conferences, Vol 214, p 01042 (2019)
Starting with Upgrade 1 in 2021, LHCb will move to a purely software-based trigger system. Therefore, the new trigger strategy is to process events at the full rate of 30MHz. Given that the increase of CPU performance has slowed down in recent years,