Online Event Selection for Mu3e using GPUs
Abstract
In the search for physics beyond the Standard Model the Mu3e experiment tries to observe the lepton flavor violating decay . By observing the decay products of /s it aims to either observe the process, or set a new upper limit on its estimated branching ratio. The high muon rates result in high data rates of \,Gbps, dominated by data produced through background processes. We present the Online Event Selection, a three step algorithm running on the graphics processing units (GPU) of the Mu3e filter farm computers. By using simple and fast geometric selection criteria, the algorithm first reduces the amount of possible event candidates to below of the initial set. These candidates are then used to reconstruct full particle tracks, correctly reconstructing over of signal tracks. Finally a possible decay vertex is reconstructed using simple geometric considerations instead of a full reconstruction, correctly identifying over of signal events. We also present a full implementation of the algorithm, fulfilling all performance requirements at the targeted muon rate and successfully reducing the data rate by a factor of .
Cite
@article{arxiv.2206.11535,
title = {Online Event Selection for Mu3e using GPUs},
author = {Valentin Henkys and Bertil Schmidt and Niklaus Berger},
journal= {arXiv preprint arXiv:2206.11535},
year = {2022}
}
Comments
8 pages, to be published in IEEE ISPDC 2022 conference proceedings