15–18 Oct 2024
Purdue University
America/Indiana/Indianapolis timezone

A Streamlined Neural Model for Real-Time Analysis at the First Level of the LHCb Trigger

15 Oct 2024, 14:15
15m
Steward Center 306 (Third floor) (Purdue University)

Steward Center 306 (Third floor)

Purdue University

128 Memorial Mall Dr, West Lafayette, IN 47907
Standard 15 min talk Contributed talks

Speaker

Jiahui Zhuo (Univ. of Valencia and CSIC (ES))

Description

One of the most significant challenges in tracking reconstruction is the reduction of "ghost tracks," which are composed of false hit combinations in the detectors. When tracking reconstruction is performed in real-time at 30 MHz, it introduces the difficulty of meeting high efficiency and throughput requirements. A single-layer feed-forward neural network (NN) has been developed and trained to address this challenge. The simplicity of the NN allows for parallel evaluation of many track candidates to filter ghost tracks using CUDA within the Allen framework. This capability enables us to run this type of NN at the first level of the trigger (HLT1) in the LHCb experiment. This neural network approach is already utilized in several HLT1 algorithms and is becoming an essential tool for Run 3. Details of the implementation and performance of this strategy will be presented in this talk.

Primary authors

Arantza Oyanguren (IFIC - Valencia) Brij Kishor Jashal (Rutherford Appleton Laboratory) Jiahui Zhuo (Univ. of Valencia and CSIC (ES)) Valerii Kholoimov (Instituto de Física Corpuscular (Univ. of Valencia)) Volodymyr Svintozelskyi (CERN)

Presentation materials