9–13 May 2022
CERN
Europe/Zurich timezone

Semi-supervised Graph Neural Networks for Pileup Noise Removal

13 May 2022, 11:20
5m
500/1-001 - Main Auditorium (CERN)

500/1-001 - Main Auditorium

CERN

400
Show room on map
Lightning talk Workshop

Speaker

Garyfallia Paspalaki (Purdue University (US))

Description

The high instantaneous luminosity of the CERN Large Hadron Collider leads to multiple proton-proton interactions in the same or nearby bunch crossings (pileup). Advanced pileup mitigation algorithms are designed to remove this noise from pileup particles and improve the performance of crucial physics observables. This study implements a semi-supervised graph neural network for particle-level pileup noise removal, by identifying individual particles produced from pileup. The graph neural network is firstly trained on charged particles with known labels, which can be obtained from detector measurements on data or simulation, and then inferred on neutral particles for which such labels are missing. This semi-supervised approach does not depend on the ground truth information from simulation and thus allows us to perform training directly on experimental data. The performance of this approach is found to be consistently better than widely-used domain algorithms and comparable to the fully-supervised training using simulation truth information. The study serves as the first attempt at applying semi-supervised learning techniques to pileup mitigation, and opens up a new direction of fully data-driven machine learning pileup mitigation studies.

Primary authors

Shikun Liu Tianchun Li Yongbin Feng (Fermi National Accelerator Lab. (US)) Garyfallia Paspalaki (Purdue University (US)) Miaoyuan Liu (Purdue University (US)) Pan Li Nhan Tran (Fermi National Accelerator Lab. (US))

Presentation materials