The Analytical Method algorithm for trigger primitives generation at the   LHC Drift Tubes detector

G. Abbiendi; J. Alcaraz Maestre; A. \'Alvarez Fern\'andez; B.; \'Alvarez Gonz\'alez; N. Amapane; I. Bachiller; L. Barcellan; C. Baldanza; C.; Battilana; M. Bellato; G. Bencze; M. Benettoni; N. Beni; A. Benvenuti; A.; Bergnoli; L. C. Blanco Ramos; L. Borgonovi; A. Bragagnolo; V. Cafaro; A.; Calderon; E. Calvo; R. Carlin; C. A. Carrillo Montoya; F. R. Cavallo; J. M.; Cela Ruiz; M. Cepeda; M. Cerrada; P. Checchia; L. Ciano; N. Colino; D. Corti,; G. Cotto; A. Crupano; S. Cuadrado Calzada; J. Cuevas; M. Cuffiani; G. M.; Dallavalle; D. Dattola; B. De La Cruz; C. I. de Lara Rodr\'iguez; P. De; Remigis; C. Erice Cid; D. Eliseev; F. Fabbri; A. Fanfani; D. Fasanella; C. F.; Bedoya; J. F. de Troc\'oniz; D. Fern\'andez del Val; J. Fern\'andez; Men\'endez; J. P. Fern\'andez Ramos; S. Folgueras; M. C. Fouz; D. Francia; Ferrero; J. Garc\'ia Romero; F. Gasparini; U. Gasparini; V. Giordano; F.; Gonella; I. Gonz\'alez Caballero; J. R. Gonz\'alez Fern\'andez; O. Gonz\'alez; L\'opez; S. Goy L\'opez; A. Gozzelino; A. Griggio; G. Grosso; C. Guandalini,; L. Guiducci; M. Gulmini; T. Hebbeker; K. Hoepfner; R. Isocrate; M. I. Josa,; B. Kiani; J. Le\'on Holgado; S. Lo Meo; E. Lusiani; L. Lunerti; S.; Marcellini; M. Margoni; C. Mariotti; I. Mart\'in Mart\'in; J. J. Mart\'inez; Morales; S. Maselli; G. Masetti; A. T. Meneguzzo; M. Merschmeyer; M.; Migliorini; L. Modenese; J. Molnar; F. Montecassiano; J. Mora Mart\'inez; D.; Moran; S. Mukherjee; J. J. Navarrete; F. Navarria; A. Navarro Tobar; F.; Nowotny; E. Palencia Cortez\'on; M. Passaseo; J. Pazzini; M. Pelliccioni; A.; Perrotta; B. Philipps; J. Piedra Gomez; F. Primavera; J. Puerta Pelayo; J. C.; Puras S\'anchez; C. Ram\'on \'Alvarez; I. Redondo; D. D. Redondo Ferrero; H.; Reithler; R. Reyes-Almanza; V. Rodr\'iguez Bouza; P. Ronchese; A. M. Rossi,; R. Rossin; F. Rotondo; T. Rovelli; S. S\'anchez Cruz; S. S\'anchez Navas; J.; Sastre; A. Sharma; F. Simonetto; A. Soto Rodr\'iguez; A. Staiano; Z.; Szillasi; D. F. Teyssier; N. Toniolo; G. Torromeo; A. Trapote; N. Trevisani,; A. Triossi; D. Trocino; B. Ujvari; G. Umoret; L. Urda G\'omez; B. Uwe; S.; Ventura; C. Vico Villalba; S. Wiedenbeck; M. Zanetti; F. P. Zantis; G.; Zilizi; P. Zotto; A. Zucchetta

arXiv:2302.01666·hep-ex·February 6, 2023

The Analytical Method algorithm for trigger primitives generation at the LHC Drift Tubes detector

G. Abbiendi, J. Alcaraz Maestre, A. \'Alvarez Fern\'andez, B., \'Alvarez Gonz\'alez, N. Amapane, I. Bachiller, L. Barcellan, C. Baldanza, C., Battilana, M. Bellato, G. Bencze, M. Benettoni, N. Beni, A. Benvenuti, A., Bergnoli, L. C. Blanco Ramos, L. Borgonovi, A. Bragagnolo

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TL;DR

This paper introduces the Analytical Method algorithm for generating trigger primitives in the upgraded CMS Drift Tube detector, improving robustness and performance in high-luminosity LHC conditions through software and hardware validation.

Contribution

It presents a novel analytical algorithm for trigger primitive reconstruction, implemented in software and firmware, validated with real and simulated data, and tested in a prototype system during LHC operations.

Findings

01

Achieved 96-98% efficiency in trigger primitive generation

02

Near-ultimate spatial and time resolution performance

03

Successful hardware validation during LHC cosmic data campaigns

Abstract

The Compact Muon Solenoid (CMS) experiment prepares its Phase-2 upgrade for the high-luminosity era of the LHC operation (HL-LHC). Due to the increase of occupancy, trigger latency and rates, the full electronics of the CMS Drift Tube (DT) chambers will need to be replaced. In the new design, the time bin for the digitisation of the chamber signals will be of around 1~ns, and the totality of the signals will be forwarded asynchronously to the service cavern at full resolution. The new backend system will be in charge of building the trigger primitives of each chamber. These trigger primitives contain the information at chamber level about the muon candidates position, direction, and collision time, and are used as input in the L1 CMS trigger. The added functionalities will improve the robustness of the system against ageing. An algorithm based on analytical solutions for reconstructing…

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