Authors: Sudhir Malik, S. Meehan, K. Lieret, Meirin Oan Evans, Michel Hernández Villanueva, Daniel S. Katz, G. A. Stewart, Peter Elmer, Sizar Aziz, Matthew Bellis, Riccardo-Maria Bianchi, Gianluca Bianco, J. Bonilla, Angela Maria Burger, Jackson Carl Burzynski, David Chamont, Matthew Feickert, Philipp Gadow, Bernhard Manfred Gruber, D. Guest, Stephan Hageboeck, Lukas Heinrich, Maximilian M. Horzela, Marc Huwiler, Clemens Lange, Konstantin Lehmann, Ke Li, Devdatta Majumder, Judita Mamužić, Kevin Michael Nelson, Robin Newhouse, Emery Nibigira, Scarlet Norberg, Arturo Rodolfo Sanchez Pineda, Mason Proffitt, Brendan Regnery, Amber Roepe, Stefan Roiser, Henry Schreiner, Oksana Shadura, Giordon Holtsberg Stark, Stephen Nicholas Swatman, Savannah Thais, A. Valassi, Stefan Wunsch, David Yakobovitch, Siqi Yuan
Venue: Computing and Software for Big Science
Type: Publication
Abstract: Long term sustainability of the high energy physics (HEP) research software ecosystem is essential for the field. With upgrades and new facilities coming online throughout the 2020s this will only become increasingly relevant throughout this decade. Meeting this sustainability challenge requires a workforce with a combination of HEP domain knowledge and advanced software skills. The required software skills fall into three broad groups. The first is fundamental and generic software engineering (e.g. Unix, version control,C++, continuous integra...
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DOI:
10.5445/ir/1000139162
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