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15–18 Apr 2019
CERN
Europe/Zurich timezone
There is a live webcast for this event.

A hybrid deep learning approach to vertexing

17 Apr 2019, 14:00
20m
500/1-001 - Main Auditorium (CERN)

500/1-001 - Main Auditorium

CERN

400
Show room on map

Speaker

Henry Fredrick Schreiner (University of Cincinnati (US))

Description

In the transition to Run 3 in 2021, LHCb will undergo a major luminosity upgrade, going from 1.1 to 5.6 expected visible Primary Vertices (PVs) per event, and will adopt a purely software trigger. This has fueled increased interest in alternative highly-parallel and GPU friendly algorithms for tracking and reconstruction. We will present a novel prototype algorithm for vertexing in the LHCb upgrade conditions.

We use a custom kernel to transform the sparse 3D space of hits and tracks into a dense 1D dataset, and then apply Deep Learning techniques to find PV locations. By training networks on our kernels using several Convolutional Neural Network layers, we have achieved better than 90% efficiency with no more than 0.2 False Positives (FPs) per event. Beyond its physics performance, this algorithm also provides a rich collection of possibilities for visualization and study of 1D convolutional networks. We will discuss the design, performance, and future potential areas of improvement and study, such as possible ways to recover the full 3D vertex information.

Preferred contribution length 20 minutes

Primary authors

Rui Fang Henry Fredrick Schreiner (University of Cincinnati (US)) Michael David Sokoloff (University of Cincinnati (US)) Mr Constantin Niko Weisser (Massachusetts Inst. of Technology (US)) J Michael Williams (Massachusetts Inst. of Technology (US))

Presentation materials