Technical Design Report for the Phase-II Upgrade of the ATLAS TDAQ System - Laboratoire de Physique Corpusculaire de Clermont-Ferrand Accéder directement au contenu
Rapport (Rapport De Recherche) Année : 2018

Technical Design Report for the Phase-II Upgrade of the ATLAS TDAQ System

N. Berger (1) , A.M. Burger (1) , O. Dartsi (1) , M. Delmastro (1) , L. Di Ciaccio (1) , P.J. Falke (1) , S. Falke (1) , C. Goy (1) , T. Guillemin (1) , T. Hryn’ova (1) , S. Jézéquel (1) , O. Kivernyk (1) , I. Koletsou (1) , R. Lafaye (1) , J. Levêque (1) , N. Lorenzo Martinez (1) , P. Mastrandrea (1) , S. Raspopov (1) , E. Sauvan (1) , B.H. Smart (1) , S. Todorova-Nova (1) , A. Vallier (1) , I. Wingerter-Seez (1) , E. Yatsenko (1) , S. Angelidakis (2) , W.M. Barbe (2) , D. Boumediene (2) , D. Calvet (2) , S. Calvet (2) , J. Donini (2) , Ph. Gris (2) , F.A. Jimenez Morales (2) , R. Madar (2) , M. Marjanovic (2) , E. Nibigira (2) , D. Pallin (2) , C. Santoni (2) , S. Senkin (2) , F. Vazeille (2) , S. Berlendis (3) , C. Camincher (3) , J. Collot (3) , S. Crépé-Renaudin (3) , P.A. Delsart (3) , M.H. Genest (3) , M. Kuna (3) , F. Ledroit-Guillon (3) , A. Lleres (3) , A. Lucotte (3) , F. Malek (3) , T. Meideck (3) , E. Petit (3) , N.P. Readioff (3) , J. Stark (3) , B. Trocmé (3) , G. Rahal (4) , G. Aad (5) , M.I. Alstaty (5) , M. Barbero (5) , N. Brahimi (5) , A. Calandri (5) , Y. Coadou (5) , K. de Vasconcelos Corga (5) , C. Diaconu (5) , F. Djama (5) , A.E. Dumitriu (5) , A. Duperrin (5) , R. El Kosseifi (5) , V. Ellajosyula (5) , L. Feligioni (5) , Z. Guo (5) , A. Hadef (5) , G.D. Hallewell (5) , D. Hoffmann (5) , F. Hubaut (5) , E.B.F.G. Knoops (5) , R. Kukla (5) , E. Le Guirriec (5) , C. Meessen (5) , E. Monnier (5) , S. Muanza (5) , E. Nagy (5) , H.D.N. Nguyen (5) , P. Pralavorio (5) , Y. Rodina (5) , A. Rozanov (5) , M. Talby (5) , G. Tarna (5) , S. Tisserant (5) , J. Toth (5) , F. Touchard (5) , L. Vacavant (5) , C. Wang (5) , R. Wolff (5) , R. Zhang (5) , B. Abeloos (6) , C. Allaire (6) , A. Bassalat (6) , C. Bourdarios (6) , A.R. Chomont (6) , D. Delgove (6) , C. Delporte (6) , J.B. de Vivie De Regie (6) , L. Duflot (6) , M. Escalier (6) , L. Fayard (6) , D. Fournier (6) , C.R. Goudet (6) , J.-F. Grivaz (6) , A. Guerguichon (6) , K. Han (6) , D. Hohov (6) , J. Hrivnac (6) , L. Iconomidou-Fayard (6) , M. Kado (6) , A. Laudrain (6) , A. Lounis (6) , N. Makovec (6) , N. Morange (6) , P. Petroff (6) , L. Poggioli (6) , P. Puzo (6) , T. Rashid (6) , D. Rousseau (6) , G. Rybkin (6) , S. Sacerdoti (6) , A.C. Schaffer (6) , L. Serin (6) , S. Simion (6) , R. Tanaka (6) , D. Varouchas (6) , D. Zerwas (6) , Z. Zhang (6) , Y. Zhao (6) , T. Beau (7) , G. Bernardi (7) , M. Bomben (7) , G. Calderini (7) , F. Crescioli (7) , L. D’eramo (7) , S. De Cecco (7) , F. Derue (7) , A. Ducourthial (7) , M. Garci (7) , R. Hankache (7) , M.W. Krasny (7) , D. Lacour (7) , B. Laforge (7) , S. Laplace (7) , O. Le Dortz (7) , Kliu Liu (7) , A. Lopez Solis (7) , I. Luise (7) , P.M. Luzi (7) , B. Malaescu (7) , G. Marchiori (7) , I. Nikolic-Audit (7) , J. Ocariz (7) , D.M. Portillo Quintero (7) , M. Ridel (7) , L. Roos (7) , A. Tarek Abouelfadl Mohamed (7) , S. Trincaz-Duvoid (7) , R.-J. Wang (7) , H. Bachacou , F. Balli (8) , F. Bauer (8) , N. Besson (8) , M. Boonekamp (8) , L. Chevalier (8) , F. Deliot (8) , A.I. Etienvre (8) , A. Formica (8) , P.F. Giraud (8) , C. Guyot (8) , S. Hassani (8) , F. Jeanneau (8) , W. Kozanecki (8) , J.F. Laporte (8) , E.P. Le Quilleuc (8) , A.A.J. Lesage (8) , B. Mansoulie (8) , J-P. Meyer (8) , T.J. Neep (8) , R. Nicolaidou (8) , A. Ouraou (8) , L. Pacheco Rodriguez (8) , M.M. Perego (8) , A. Peyaud (8) , L. Schoeffel (8) , Ph. Schune (8) , Ph. Schwemling (8) , T. Xu (8)
G. Aad
H. Bachacou
  • Fonction : Auteur

Résumé

This Technical Design Report documents the plans to upgrade the ATLAS Trigger and Data Acquisition system for the High Luminosity LHC (HL-LHC). The HL-LHC is expected to start operations in the middle of 2026, to ultimately reach a peak instantaneous luminosity of L=7.5×1034L=7.5×1034 cm−2−2s−1−1, corresponding to approximately 200 inelastic proton-proton collisions per bunch crossing, and to deliver more than ten times the integrated luminosity of the LHC Runs 1-3 combined (up to 4000 fb−1−1). Meeting these requirements poses significant challenges to the Trigger and to the Data Acquisition system to fully exploit the physics potential of the HL-LHC. A baseline architecture, based on a single-level hardware trigger with a maximum rate of 1 MHz and 10 ms latency, is proposed and documented. With the help of a hardware-based tracking subsystem as co-processor, software-based reconstruction follows to achieve further rejection. Up to 10 kHz event data are sent into storage. The Report describes in detail the physics motivations, the requirements, the fundamental parameters, the technical design implementation, and the expected performance of the proposed upgrade. The Report also documents the organisation of the Upgrade Project, its management structure, planning and scheduling with a review of the major milestones, and costing information.
Fichier principal
Vignette du fichier
ATLAS-TDR-029.pdf (61.46 Mo) Télécharger le fichier
Origine : Fichiers éditeurs autorisés sur une archive ouverte

Dates et versions

hal-03990850 , version 1 (15-02-2023)

Licence

Paternité

Identifiants

Citer

N. Berger, A.M. Burger, O. Dartsi, M. Delmastro, L. Di Ciaccio, et al.. Technical Design Report for the Phase-II Upgrade of the ATLAS TDAQ System. CERN-LHCC-2017-020, CERN. 2018. ⟨hal-03990850⟩
51 Consultations
4 Téléchargements

Altmetric

Partager

Gmail Facebook X LinkedIn More