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Main Authors: Ganguly, Graeme Andrew Stewart. Sanmay, Ghosh, Sattwamo, Gras, Philippe, Krasnopolski, Atell
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.08146
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author Ganguly, Graeme Andrew Stewart. Sanmay
Ghosh, Sattwamo
Gras, Philippe
Krasnopolski, Atell
author_facet Ganguly, Graeme Andrew Stewart. Sanmay
Ghosh, Sattwamo
Gras, Philippe
Krasnopolski, Atell
contents Jet reconstruction remains a critical task in the analysis of data from HEP colliders. We describe in this paper a new, highly performant, Julia package for jet reconstruction, JetReconstruction.jl, which integrates into the growing ecosystem of Julia packages for HEP. With this package users can run sequential reconstruction algorithms for jets. In particular, for LHC events, the Anti-${k}_\text{T}$, Cambridge/Aachen and Inclusive-${k}_\text{T}$ algorithms can be used. For FCCee studies the use of alternative algorithms such as the Generalised ${k}_\text{T}$ for $e^+e^-$ and Durham are also supported. The performance of the core algorithms is better than Fastjet's C++ implementation, for typical LHC and FCCee events, thanks to the Julia compiler's exploitation of single-instruction-multiple-data (SIMD), as well as ergonomic compact data layouts. The full reconstruction history is made available, allowing inclusive and exclusive jets to be retrieved. The package also provides the means to visualise the reconstruction. Substructure algorithms have been added that allow advanced analysis techniques to be employed. The package can read event data from EDM4hep files and reconstruct jets from these directly, opening the door to FCCee and other future collider studies in Julia.
format Preprint
id arxiv_https___arxiv_org_abs_2503_08146
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fast Jet Finding in Julia
Ganguly, Graeme Andrew Stewart. Sanmay
Ghosh, Sattwamo
Gras, Philippe
Krasnopolski, Atell
High Energy Physics - Experiment
Computational Physics
Jet reconstruction remains a critical task in the analysis of data from HEP colliders. We describe in this paper a new, highly performant, Julia package for jet reconstruction, JetReconstruction.jl, which integrates into the growing ecosystem of Julia packages for HEP. With this package users can run sequential reconstruction algorithms for jets. In particular, for LHC events, the Anti-${k}_\text{T}$, Cambridge/Aachen and Inclusive-${k}_\text{T}$ algorithms can be used. For FCCee studies the use of alternative algorithms such as the Generalised ${k}_\text{T}$ for $e^+e^-$ and Durham are also supported. The performance of the core algorithms is better than Fastjet's C++ implementation, for typical LHC and FCCee events, thanks to the Julia compiler's exploitation of single-instruction-multiple-data (SIMD), as well as ergonomic compact data layouts. The full reconstruction history is made available, allowing inclusive and exclusive jets to be retrieved. The package also provides the means to visualise the reconstruction. Substructure algorithms have been added that allow advanced analysis techniques to be employed. The package can read event data from EDM4hep files and reconstruct jets from these directly, opening the door to FCCee and other future collider studies in Julia.
title Fast Jet Finding in Julia
topic High Energy Physics - Experiment
Computational Physics
url https://arxiv.org/abs/2503.08146