Abstract
LHCb has introduced a novel real-time detector alignment and calibration strategy for LHC Run2. Data collected at the start of the fill are processed in a few minutes and used to update the alignment parameters, while the calibration constants are evaluated for each run. This procedure improves the quality of the online reconstruction. For example, the vertex locator is retracted and reinserted for stable beam conditions in each fill to be centred on the primary vertex position in the transverse plane. Consequently its position changes on a fill-by-fill basis. Critically, this new real-time alignment and calibration procedure allows identical constants to be used in the online and offline reconstruction, thus improving the correlation between triggered and offline-selected events. This offers the opportunity to optimise the event selection in the trigger by applying stronger constraints. The required computing time constraints are met thanks to a new dedicated framework using the multi-core farm infrastructure for the trigger. The motivation for a real-time alignment and calibration of the LHCb detector is discussed from both the operational and physics performance points of view. Specific challenges of this novel configuration are discussed, as well as the working procedures of the framework and its performance.
Highlights
The LHCb Experiment is a spectrometer with acceptance in the forward region designed to measure with high efficiency and resolution the decays of B mesons [1]
The detector includes a high-precision tracking system consisting of a silicon-strip vertex detector (Velo) surrounding the pp interaction region, a large-area siliconstrip detector (TT) located upstream of a dipole magnet with a bending power of about 4 Tm, and three stations of silicon-strip detectors (IT) and straw drift tubes (OT) placed downstream of the magnet
The tracking system provides a measurement of momentum, p, of charged particles with a relative uncertainty that varies from 0.5% at low momentum to 1.0% at 200 GeV/c
Summary
The LHCb Experiment is a spectrometer with acceptance in the forward region designed to measure with high efficiency and resolution the decays of B mesons [1]. The LHCb trigger system is designed to record interesting events among the multitude of those produced at the LHC and reduce the data rate to disk to an acceptable level. The HLT performs a reconstruction of the particles in the event tuned to its time constraints and runs a mixture of exclusive and inclusive selection algorithms.
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