EPJ Web of Conferences (Jan 2019)

The TrackML high-energy physics tracking challenge on Kaggle

  • Kiehn Moritz,
  • Amrouche Sabrina,
  • Calafiura Paolo,
  • Estrade Victor,
  • Farrell Steven,
  • Germain Cécile,
  • Gligorov Vava,
  • Golling Tobias,
  • Gray Heather,
  • Guyon Isabelle,
  • Hushchyn Mikhail,
  • Innocente Vincenzo,
  • Moyse Edward,
  • Rousseau David,
  • Salzburger Andreas,
  • Ustyuzhanin Andrey,
  • Vlimant Jean-Roch,
  • Yilnaz Yetkin

DOI
https://doi.org/10.1051/epjconf/201921406037
Journal volume & issue
Vol. 214
p. 06037

Abstract

Read online

The High-Luminosity LHC (HL-LHC) is expected to reach unprecedented collision intensities, which in turn will greatly increase the complexity of tracking within the event reconstruction. To reach out to computer science specialists, a tracking machine learning challenge (TrackML) was set up on Kaggle by a team of ATLAS, CMS, and LHCb physicists tracking experts and computer scientists building on the experience of the successful Higgs Machine Learning challenge in 2014. A training dataset based on a simulation of a generic HL-LHC experiment tracker has been created, listing for each event the measured 3D points, and the list of 3D points associated to a true track.The participants to the challenge should find the tracks in the test dataset, which means building the list of 3D points belonging to each track.The emphasis is to expose innovative approaches, rather than hyper-optimising known approaches. A metric reflecting the accuracy of a model at finding the proper associations that matter most to physics analysis will allow to select good candidates to augment or replace existing algorithms.