Machine Learning in High Energy Physics Community White Paper

Kim Albertsson; Piero Altoe; Dustin Anderson; Michael Andrews; Juan Pedro Araque Espinosa; Adam Aurisano; Laurent Basara; Adrian Bevan; Wahid Bhimji; Daniele Bonacorsi; Paolo Calafiura; Mario Campanelli; Louis Capps; Federico Carminati; Stefano Carrazza; Taylor Childers; Elias Coniavitis; Kyle Cranmer; Claire David; Douglas Davis; Javier Duarte; Martin Erdmann; Jonas Eschle; Amir Farbin; Matthew Feickert; Nuno Filipe Castro; Conor Fitzpatrick; Michele Floris; Alessandra Forti; Jordi Garra-Tico; Jochen Gemmler; Maria Girone; Paul Glaysher; Sergei Gleyzer; Vladimir Gligorov; Tobias Golling; Jonas Graw; Lindsey Gray; Dick Greenwood; Thomas Hacker; John Harvey; Benedikt Hegner; Lukas Heinrich; Ben Hooberman; Johannes Junggeburth; Michael Kagan; Meghan Kane; Konstantin Kanishchev; Przemysław Karpiński; Zahari Kassabov; Gaurav Kaul; Dorian Kcira; Thomas Keck; Alexei Klimentov; Jim Kowalkowski; Luke Kreczko; Alexander Kurepin; Rob Kutschke; Valentin Kuznetsov; Nicolas Köhler; Igor Lakomov; Kevin Lannon; Mario Lassnig; Antonio Limosani; Gilles Louppe; Aashrita Mangu; Pere Mato; Helge Meinhard; Dario Menasce; Lorenzo Moneta; Seth Moortgat; Meenakshi Narain; Mark Neubauer; Harvey Newman; Hans Pabst; Michela Paganini; Manfred Paulini; Gabriel Perdue; Uzziel Perez; Attilio Picazio; Jim Pivarski; Harrison Prosper; Fernanda Psihas; Alexander Radovic; Ryan Reece; Aurelius Rinkevicius; Eduardo Rodrigues; Jamal Rorie; David Rousseau; Aaron Sauers; Steven Schramm; Ariel Schwartzman; Horst Severini; Paul Seyfert; Filip Siroky; Konstantin Skazytkin; Mike Sokoloff; Graeme Stewart; Bob Stienen; Ian Stockdale; Giles Strong; Savannah Thais; Karen Tomko; Eli Upfal; Emanuele Usai; Andrey Ustyuzhanin; Martin Vala; Sofia Vallecorsa; Justin Vasel; Mauro Verzetti; Xavier Vilasís-Cardona; Jean-Roch Vlimant; Ilija Vukotic; Sean-Jiun Wang; Gordon Watts; Michael Williams; Wenjing Wu; Stefan Wunsch; Omar Zapata

doi:10.1088/1742-6596/1085/2/022008

Journal of Physics: Conference Series

Paper • The following article is Open access

Machine Learning in High Energy Physics Community White Paper

Kim Albertsson¹, Piero Altoe², Dustin Anderson³, Michael Andrews⁴, Juan Pedro Araque Espinosa⁵, Adam Aurisano⁶, Laurent Basara⁷, Adrian Bevan⁸, Wahid Bhimji⁹, Daniele Bonacorsi¹⁰, Paolo Calafiura⁹, Mario Campanelli⁸, Louis Capps², Federico Carminati¹¹, Stefano Carrazza¹¹, Taylor Childers¹², Elias Coniavitis¹³, Kyle Cranmer¹⁴, Claire David¹⁵, Douglas Davis¹⁶, Javier Duarte¹⁷, Martin Erdmann¹⁸, Jonas Eschle¹⁹, Amir Farbin²⁰, Matthew Feickert²¹, Nuno Filipe Castro⁵, Conor Fitzpatrick²², Michele Floris¹¹, Alessandra Forti²³, Jordi Garra-Tico²⁴, Jochen Gemmler²⁵, Maria Girone¹¹, Paul Glaysher¹⁵, Sergei Gleyzer²⁶, Vladimir Gligorov²⁷, Tobias Golling²⁸, Jonas Graw², Lindsey Gray¹⁷, Dick Greenwood²⁹, Thomas Hacker³⁰, John Harvey¹¹, Benedikt Hegner¹¹, Lukas Heinrich¹⁴, Ben Hooberman³¹, Johannes Junggeburth³², Michael Kagan³³, Meghan Kane³⁴, Konstantin Kanishchev⁷, Przemysław Karpiński¹¹, Zahari Kassabov³⁵, Gaurav Kaul³⁶, Dorian Kcira³, Thomas Keck²⁵, Alexei Klimentov³⁷, Jim Kowalkowski¹⁷, Luke Kreczko³⁸, Alexander Kurepin³⁹, Rob Kutschke¹⁷, Valentin Kuznetsov⁴⁰, Nicolas Köhler³², Igor Lakomov¹¹, Kevin Lannon⁴¹, Mario Lassnig¹¹, Antonio Limosani⁴², Gilles Louppe¹⁴, Aashrita Mangu⁴³, Pere Mato¹¹, Helge Meinhard¹¹, Dario Menasce⁴⁴, Lorenzo Moneta¹¹, Seth Moortgat⁴⁵, Meenakshi Narain⁴⁶, Mark Neubauer³¹, Harvey Newman³, Hans Pabst³⁶, Michela Paganini⁴⁷, Manfred Paulini⁴, Gabriel Perdue¹⁷, Uzziel Perez⁴⁸, Attilio Picazio⁴⁹, Jim Pivarski⁵⁰, Harrison Prosper⁵¹, Fernanda Psihas⁵², Alexander Radovic⁵³, Ryan Reece⁵⁴, Aurelius Rinkevicius⁴⁰, Eduardo Rodrigues⁶, Jamal Rorie⁵⁵, David Rousseau⁵⁶, Aaron Sauers¹⁷, Steven Schramm²⁸, Ariel Schwartzman³³, Horst Severini⁵⁷, Paul Seyfert¹¹, Filip Siroky⁵⁸, Konstantin Skazytkin³⁹, Mike Sokoloff⁶, Graeme Stewart⁵⁹, Bob Stienen⁶⁰, Ian Stockdale⁶¹, Giles Strong⁵, Savannah Thais⁴⁷, Karen Tomko⁶², Eli Upfal⁴⁶, Emanuele Usai⁴⁶, Andrey Ustyuzhanin⁶³, Martin Vala⁶⁴, Sofia Vallecorsa⁶⁵, Justin Vasel⁵², Mauro Verzetti⁶⁶, Xavier Vilasís-Cardona⁶⁷, Jean-Roch Vlimant³, Ilija Vukotic⁶⁸, Sean-Jiun Wang²⁶, Gordon Watts⁶⁹, Michael Williams⁷⁰, Wenjing Wu⁷¹, Stefan Wunsch²⁵ and Omar Zapata⁷²

Published under licence by IOP Publishing Ltd
Journal of Physics: Conference Series, Volume 1085, Issue 2 Citation Kim Albertsson et al 2018 J. Phys.: Conf. Ser. 1085 022008 DOI 10.1088/1742-6596/1085/2/022008

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¹ Lulea University of Technology

² NVidia

³ California Institute of Technology

⁴ Carnegie Mellon University

⁵ LIP Lisboa

⁶ University of Cincinnati

⁷ Universita e INFN, Padova

⁸ University of London

⁹ Lawrence Berkeley National Laboratory

¹⁰ Universita e INFN, Bologna

¹¹ CERN

¹² Argonne National Laboratory

¹³ Universitaet Freiburg

¹⁴ New York University

¹⁵ Deutsches Elektronen-Synchrotron

¹⁶ Duke University

¹⁷ Fermi National Accelerator Laboratory

¹⁸ RWTH Aachen University

¹⁹ Universität Zürich

²⁰ University of Texas at Arlington

²¹ Southern Methodist University

²² Ecole Polytechnique Federale de Lausanne

²³ University of Manchester

²⁴ University of Cambridge

²⁵ Karlsruher Institut für Technologie

²⁶ University of Florida

²⁷ Centre National de la Recherche Scientifique

²⁸ Université de Genève

²⁹ Louisiana Tech University

³⁰ Purdue University

³¹ University of Illinois at Urbana-Champaign

³² Max Planck Institut für Physik

³³ SLAC National Accelerator Laboratory

³⁴ Sound Cloud

³⁵ University of Milan

³⁶ Intel

³⁷ Brookhaven National Laboratory

³⁸ University of Bristol

³⁹ Russian Academy of Sciences

⁴⁰ Cornell University

⁴¹ University of Notre Dame

⁴² University of Melbourne

⁴³ University of California Berkeley

⁴⁴ Universita & INFN, Milano Bicocca

⁴⁵ Vrije Universiteit Brussel

⁴⁶ Brown University

⁴⁷ Yale University

⁴⁸ University of Alabama

⁴⁹ University of Massachusetts

⁵⁰ Princeton University

⁵¹ Florida State University

⁵² Indiana University

⁵³ College of William and Mary

⁵⁴ University of California, Santa Cruz

⁵⁵ Rice University

⁵⁶ Universite de Paris Sud 11

⁵⁷ University of Oklahoma

⁵⁸ Masaryk University

⁵⁹ University of Glasgow

⁶⁰ Radboud Universiteit Nijmegen

⁶¹ Altair Engineering

⁶² Ohio Supercomputer Center

⁶³ Yandex School of Data Analysis

⁶⁴ Technical University of Kosice

⁶⁵ Gangneung-Wonju National University

⁶⁶ University of Rochester

⁶⁷ University of Barcelona

⁶⁸ University of Chicago

⁶⁹ University of Washington

⁷⁰ Massachusetts Institute of Technology

⁷¹ Chinese Academy of Sciences

⁷² OProject and University of Antioquia

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Abstract

Machine learning is an important applied research area in particle physics, beginning with applications to high-level physics analysis in the 1990s and 2000s, followed by an explosion of applications in particle and event identification and reconstruction in the 2010s. In this document we discuss promising future research and development areas in machine learning in particle physics with a roadmap for their implementation, software and hardware resource requirements, collaborative initiatives with the data science community, academia and industry, and training the particle physics community in data science. The main objective of the document is to connect and motivate these areas of research and development with the physics drivers of the High-Luminosity Large Hadron Collider and future neutrino experiments and identify the resource needs for their implementation. Additionally we identify areas where collaboration with external communities will be of great benefit.

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Machine Learning in High Energy Physics Community White Paper

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