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Cyberinfrastructure Requirements to Enhance Multi-messenger Astrophysics

Authors :: Chang, Philip
Allen, Gabrielle
Anderson, Warren
Bianco, Federica B.
Bloom, Joshua S.
Brady, Patrick R.
Brazier, Adam
Cenko, S. Bradley
Couch, Sean M.
DeYoung, Tyce
Deelman, Ewa
Etienne, Zachariah B
Foley, Ryan J.
Fox, Derek B
Golkhou, V. Zach
Grant, Darren R
Hanna, Chad
Holley-Bockelmann, Kelly
Howell, D. Andrew
Huerta, E. A.
Johnson, Margaret W. G.
Juric, Mario
Kaplan, David L.
Katz, Daniel S.
Keivani, Azadeh
Kerzendorf, Wolfgang
Kopper, Claudio
Lam, Michael T.
Lehner, Luis
Marka, Zsuzsa
Marka, Szabolcs
Nabrzyski, Jarek
Narayan, Gautham
O'Shea, Brian W.
Petravick, Donald
Quick, Rob
Street, Rachel A.
Taboada, Ignacio
Timmes, Frank
Turk, Matthew J.
Weltman, Amanda
Zhang, Zhao
Publication Year :: 2019
Abstract: The identification of the electromagnetic counterpart of the gravitational wave event, GW170817, and discovery of neutrinos and gamma-rays from TXS 0506+056 heralded the new era of multi-messenger astrophysics. As the number of multi-messenger events rapidly grow over the next decade, the cyberinfrastructure requirements to handle the increase in data rates, data volume, need for event follow up, and analysis across the different messengers will also explosively grow. The cyberinfrastructure requirements to enhance multi-messenger astrophysics will both be a major challenge and opportunity for astronomers, physicists, computer scientists and cyberinfrastructure specialists. Here we outline some of these requirements and argue for a distributed cyberinfrastructure institute for multi-messenger astrophysics to meet these challenges.<br />Comment: 7 pages, astro2020 white paper