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Graph neural networks for neutrino telescope event reconstruction

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🚀 About

GraphNeT is an open-source Python framework aimed at providing high quality, user friendly, end-to-end functionality to perform reconstruction tasks at neutrino telescopes using deep learning (DL). GraphNeT makes it fast and easy to train complex models that can provide event reconstruction with state-of-the-art performance, for arbitrary detector configurations, with inference times that are orders of magnitude faster than traditional reconstruction techniques.

Feel free to join the GraphNeT Slack group!

Publications using GraphNeT

Type Title DOI
Proceeding Extending the IceCube search for neutrino point sources in the Northern sky with additional years of data PoS
Proceeding Sensitivity of the IceCube Upgrade to Atmospheric Neutrino Oscillations PoS
Paper GraphNeT: Graph neural networks for neutrino telescope event reconstruction status
Paper Graph Neural Networks for low-energy event classification & reconstruction in IceCube JINST

⚙️ Install

GraphNeT is compatible with Python 3.8 - 3.11, Linux and macOS, and we recommend installing graphnet in a separate virtual environment. To install GraphNeT, please follow the installation instructions

🪐 Use cases

Below is an incomplete list of potential use cases for Deep Learning in neutrino telescopes. These are categorised as either "Reconstruction challenges" that are considered common and that may benefit several experiments physics analyses; and those same "Experiments" and "Physics analyses".

Reconstruction challenges
Title Status People Materials
Low-energy neutrino classification and reconstruction Done Rasmus Ørsøe https://arxiv.org/abs/2209.03042
High-energy neutrino classification and reconstruction Active Rasmus Ørsøe
Pulse noise cleaning Paused Rasmus Ørsøe, Kaare Iversen (past), Morten Holm
(In-)elasticity reconstruction Paused Marc Jacquart (past)
Multi-class event classification Active Morten Holm, Peter Andresen
Data/MC difference mitigation
Systematic uncertainty mitigation
Experiments
Title Status People Materials
IceCube Active (...)
IceCube-Upgrade Active (...)
IceCube-Gen2 Active (...)
P-ONE (...)
KM3NeT-ARCA (...)
KM3NeT-ORCA (...)
Physics analyses
Title Status People Materials
Neutrino oscillations  
Point source searches  
Low-energy cosmic alerts  
High-energy cosmic alerts  
Moon pointing  
Muon decay asymmetry  
Spectra measurements  

🤝 Contributing

To make sure that the process of contributing is as smooth and effective as possible, we provide a few guidelines in the contributing guide that we encourage contributors to follow.

In short, everyone who wants to contribute to this project is more than welcome to do so! Contributions are handled through pull requests, that should be linked to a GitHub issue describing the feature to be added or bug to be fixed. Pull requests will be reviewed by the project maintainers and merged into the main branch when accepted.

📝 License

GraphNeT has an Apache 2.0 license, as found in the LICENSE file.

🙌 Acknowledgements

This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 890778, and the PUNCH4NFDI consortium via DFG fund “NFDI39/1”.

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