FunTuple: A New N-tuple Component for Offline Data Processing at the LHCb Experiment.

Q1 Computer Science Computing and Software for Big Science Pub Date : 2024-01-01 Epub Date: 2024-02-24 DOI:10.1007/s41781-024-00116-1

Abhijit Mathad, Martina Ferrillo, Sacha Barré, Patrick Koppenburg, Patrick Owen, Gerhard Raven, Eduardo Rodrigues, Nicola Serra

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Abstract

The offline software framework of the LHCb experiment has undergone a significant overhaul to tackle the data processing challenges that will arise in the upcoming Run 3 and Run 4 of the Large Hadron Collider. This paper introduces FunTuple, a novel component developed for offline data processing within the LHCb experiment. This component enables the computation and storage of a diverse range of observables for both reconstructed and simulated events by leveraging on the tools initially developed for the trigger system. This feature is crucial for ensuring consistency between trigger-computed and offline-analysed observables. The component and its tool suite offer users flexibility to customise stored observables, and its reliability is validated through a full-coverage set of rigorous unit tests. This paper comprehensively explores FunTuple's design, interface, interaction with other algorithms, and its role in facilitating offline data processing for the LHCb experiment for the next decade and beyond.

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FunTuple：用于 LHCb 实验离线数据处理的新 N 元组组件。

为了应对大型强子对撞机即将进行的运行 3 和运行 4 中出现的数据处理挑战，大型强子对撞机 b 实验的离线软件框架进行了重大改革。本文介绍了为大型强子对撞机实验离线数据处理而开发的新型组件 FunTuple。通过利用最初为触发系统开发的工具，该组件能够计算和存储重建和模拟事件的各种观测值。这一功能对于确保触发计算的观测数据与离线分析的观测数据之间的一致性至关重要。该组件及其工具套件为用户提供了定制存储观测值的灵活性，其可靠性通过一套全覆盖的严格单元测试得到了验证。本文全面探讨了 FunTuple 的设计、界面、与其他算法的交互，以及它在未来十年及以后促进 LHCb 实验离线数据处理方面的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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