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Main Authors: Valassi, Andrea, Childers, Taylor, Hageböck, Stephan, Massaro, Daniele, Mattelaer, Olivier, Nichols, Nathan, Optolowicz, Filip, Roiser, Stefan, Teig, Jørgen, Wettersten, Zenny
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.21935
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author Valassi, Andrea
Childers, Taylor
Hageböck, Stephan
Massaro, Daniele
Mattelaer, Olivier
Nichols, Nathan
Optolowicz, Filip
Roiser, Stefan
Teig, Jørgen
Wettersten, Zenny
author_facet Valassi, Andrea
Childers, Taylor
Hageböck, Stephan
Massaro, Daniele
Mattelaer, Olivier
Nichols, Nathan
Optolowicz, Filip
Roiser, Stefan
Teig, Jørgen
Wettersten, Zenny
contents The effort to speed up the Madgraph5_aMC@NLO generator by exploiting CPU vectorization and GPUs, which started at the beginning of 2020, has delivered the first production release of the code for leading-order (LO) processes in October 2024. To achieve this goal, many new features, tests and fixes have been implemented in recent months. This process benefitted also from the early feedback of the CMS experiment. In this contribution, we report on these activities and on the status of the LO software at the time of CHEP2024.
format Preprint
id arxiv_https___arxiv_org_abs_2503_21935
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Madgraph on GPUs and vector CPUs: towards production (The 5-year journey to the first LO release CUDACPP v1.00.00)
Valassi, Andrea
Childers, Taylor
Hageböck, Stephan
Massaro, Daniele
Mattelaer, Olivier
Nichols, Nathan
Optolowicz, Filip
Roiser, Stefan
Teig, Jørgen
Wettersten, Zenny
Computational Physics
High Energy Physics - Experiment
High Energy Physics - Phenomenology
65C05, 81T18, 81V05
C.1.2; D.1.3; G.3; I.6.8; J.2
The effort to speed up the Madgraph5_aMC@NLO generator by exploiting CPU vectorization and GPUs, which started at the beginning of 2020, has delivered the first production release of the code for leading-order (LO) processes in October 2024. To achieve this goal, many new features, tests and fixes have been implemented in recent months. This process benefitted also from the early feedback of the CMS experiment. In this contribution, we report on these activities and on the status of the LO software at the time of CHEP2024.
title Madgraph on GPUs and vector CPUs: towards production (The 5-year journey to the first LO release CUDACPP v1.00.00)
topic Computational Physics
High Energy Physics - Experiment
High Energy Physics - Phenomenology
65C05, 81T18, 81V05
C.1.2; D.1.3; G.3; I.6.8; J.2
url https://arxiv.org/abs/2503.21935