astro-ph.CO

New software tackles the deluge of Euclid galaxy data

Marco Bonici, Guadalupe Cañas-Herrera, Pedro Carrilho, Santiago Casas, Chiara Moretti, Andrea Pezzotta, Michel Aguena, Giovanni Aricó, Zahra Baghkhani, Matteo Baratto, Emilio Bellini, Jip de Buck, Klara Bertmann, Ben Bose, Jeger C. Broxterman, Pierre Burger, Carmelita Carbone, Chaitanya Chawak, Jose Coloma-Nadal, Martin Crocce, Stefano Davini, Christopher A. J. Duncan, Samuel Farrens, Lisa Goh, Nastassia Grimm, Alex Hall, Ryusei R. Kano, Martin Kärcher, Felicitas Keil, Raphaël Kou, Laila Linke, Arthur Loureiro, Katarina Markovic, David Navarro-Gironés, Filippo Oppizzi, Gabriele Parimbelli, Anna Porredon, Robert Reischke, Jaime Ruiz Zapatero, Iñigo Sáez-Casares, Ziad Sakr, Neel Shah, Davide Sciotti, Matthieu Schaller, Ivan Sladoljev, Arghavan Souki, Sankarshana Srinivasan, Konstantinos Tanidis, Peter L. Taylor, Nicolas Tessore, Linus Thummel, Maria Tsedrik, Isaac Tutusaus, Casper Vedder, Angus H. Wright, Miguel Zumalacárregui, Joe Zuntz

May 22, 2026

Euclid, an ESA mission mapping billions of galaxies, will demand faster cosmology computations than older tools can handle. cloelib automates gradient calculations for parameter inference while maintaining links to established physics solvers, supporting galaxy clustering, CMB cross-checks, and other measurements needed for Euclid's first cosmological release.

Published as cloelib: A Flexible Python Library for Computing Cosmological Observables in the Euclid Era arXiv:2605.23839

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