Online muon reconstruction in the ATLAS level-2 trigger system

S. Armstrong; A. Dos Anjos; J. T.M. Baines; C. P. Bee; M. Biglietti; J. A. Bogaerts; V. Boisvert; M. Bosman; B. Caron; P. Casado; G. Cataldi; D. Cavalli; M. Cervetto; G. Comune; P. Conde Muino; A. De Santo; A. Di Mattia; M. Diaz Gomez; M. Dosil; N. Ellis; D. Emeliyanov; B. Epp; S. Falciano; A. Farilla; S. George; V. Ghete; S. González; M. Grothe; S. Kabana; A. Khomich; G. Kilvington; N. Kostantinidis; A. Kootz; A. Lowe; C. Luci; L. Luminari; T. Maeno; F. Marzano; J. Masik; C. Meessen; A. G. Mello; G. Merino; R. Moore; P. Morettini; A. Negri; N. Nikitin; A. Nisati; C. Padilla; N. Panikashvili; F. Parodi; E. Pasqualucci; V. Perez Reale; J. L. Pinfold; P. Pinto; Z. Qian; S. Resconi; S. Rosati; C. Sanchez; C. Santamarina; D. A. Scannicchio; C. Schiavi; E. Segura; J. M. De Seixas; S. Sivoklokov; R. Soluk; E. Stefanidis; S. Sushkov; M. Sutton; S. Tapprogge; E. Thomas; F. Touchard; B. V. Pinto; V. Vercesi; P. Werner; S. Wheeler; F. J. Wickens; W. Wiedenmann; M. Wielers; H. Zobernig

doi:10.1109/TNS.2006.872630

Online muon reconstruction in the ATLAS level-2 trigger system

S. Armstrong, A. Dos Anjos, J. T.M. Baines, C. P. Bee, M. Biglietti, J. A. Bogaerts, V. Boisvert, M. Bosman, B. Caron, P. Casado, G. Cataldi, D. Cavalli, M. Cervetto, G. Comune, P. Conde Muino, A. De Santo, A. Di Mattia, M. Diaz Gomez, M. Dosil, N. EllisD. Emeliyanov, B. Epp, S. Falciano, A. Farilla, S. George, V. Ghete, S. González, M. Grothe, S. Kabana, A. Khomich, G. Kilvington, N. Kostantinidis, A. Kootz, A. Lowe, C. Luci, L. Luminari, T. Maeno, F. Marzano, J. Masik, C. Meessen, A. G. Mello, G. Merino, R. Moore, P. Morettini, A. Negri, N. Nikitin, A. Nisati, C. Padilla, N. Panikashvili, F. Parodi, E. Pasqualucci, V. Perez Reale, J. L. Pinfold, P. Pinto, Z. Qian, S. Resconi, S. Rosati, C. Sanchez, C. Santamarina, D. A. Scannicchio, C. Schiavi, E. Segura, J. M. De Seixas, S. Sivoklokov, R. Soluk, E. Stefanidis, S. Sushkov, M. Sutton, S. Tapprogge, E. Thomas, F. Touchard, B. V. Pinto, V. Vercesi, P. Werner, S. Wheeler, F. J. Wickens, W. Wiedenmann, M. Wielers, H. Zobernig

Departament de Física

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

2 Cites (Scopus)

Resum

To cope with the 40 MHz event production rate of LHC, the trigger of the ATLAS experiment selects events in three sequential steps of increasing complexity and accuracy whose final results are close to the offline reconstruction. The Level-1, implemented with custom hardware, identifies physics objects within Regions of Interests and operates with a first reduction of the event rate to 75 kHz. The higher trigger levels, Level-2 and Level-3, provide a software based event selection which further reduces the event rate to about 100 Hz. This paper presents the algorithm (μFast) employed at Level-2 to confirm the muon candidates flagged by the Level-1. μFast identifies hits of muon tracks inside the barrel region of the Muon Spectrometer and provides a precise measurement of the muon momentum at the production vertex. The algorithm must process the Level-1 muon output rate (∼20 kHz), thus particular care has been taken for its optimization. The result is a very fast track reconstruction algorithm with good physics performance which, in some cases, approaches that of the offline reconstruction: it finds muon tracks with an efficiency of about 95% and computes p T of prompt muons with a resolution of 5.5% at 6 GeV and 4.0% at 20 GeV. The algorithm requires an overall execution time of ∼1 ms on a 100 SpecInt95 machine and has been tested in the online environment of the Atlas detector test beam. © 2006 IEEE.

Idioma original	Anglès
Número d’article	1645041
Pàgines (de-a)	1339-1346
Revista	IEEE Transactions on Nuclear Science
Volum	53
Número	3
DOIs	https://doi.org/10.1109/TNS.2006.872630
Estat de la publicació	Publicada - 1 de juny 2006

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10.1109/TNS.2006.872630

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Armstrong, S., Dos Anjos, A., Baines, J. T. M., Bee, C. P., Biglietti, M., Bogaerts, J. A., Boisvert, V., Bosman, M., Caron, B., Casado, P., Cataldi, G., Cavalli, D., Cervetto, M., Comune, G., Conde Muino, P., De Santo, A., Di Mattia, A., Diaz Gomez, M., Dosil, M., ... Zobernig, H. (2006). Online muon reconstruction in the ATLAS level-2 trigger system. IEEE Transactions on Nuclear Science, 53(3), 1339-1346. Article 1645041. https://doi.org/10.1109/TNS.2006.872630

@article{d4b1af5ca0f94a8099bb34539de2ae85,

title = "Online muon reconstruction in the ATLAS level-2 trigger system",

abstract = "To cope with the 40 MHz event production rate of LHC, the trigger of the ATLAS experiment selects events in three sequential steps of increasing complexity and accuracy whose final results are close to the offline reconstruction. The Level-1, implemented with custom hardware, identifies physics objects within Regions of Interests and operates with a first reduction of the event rate to 75 kHz. The higher trigger levels, Level-2 and Level-3, provide a software based event selection which further reduces the event rate to about 100 Hz. This paper presents the algorithm (μFast) employed at Level-2 to confirm the muon candidates flagged by the Level-1. μFast identifies hits of muon tracks inside the barrel region of the Muon Spectrometer and provides a precise measurement of the muon momentum at the production vertex. The algorithm must process the Level-1 muon output rate (∼20 kHz), thus particular care has been taken for its optimization. The result is a very fast track reconstruction algorithm with good physics performance which, in some cases, approaches that of the offline reconstruction: it finds muon tracks with an efficiency of about 95\% and computes p T of prompt muons with a resolution of 5.5\% at 6 GeV and 4.0\% at 20 GeV. The algorithm requires an overall execution time of ∼1 ms on a 100 SpecInt95 machine and has been tested in the online environment of the Atlas detector test beam. {\textcopyright} 2006 IEEE.",

keywords = "Atlas level-2, Online, Trigger",

author = "S. Armstrong and \{Dos Anjos\}, A. and Baines, \{J. T.M.\} and Bee, \{C. P.\} and M. Biglietti and Bogaerts, \{J. A.\} and V. Boisvert and M. Bosman and B. Caron and P. Casado and G. Cataldi and D. Cavalli and M. Cervetto and G. Comune and \{Conde Muino\}, P. and \{De Santo\}, A. and \{Di Mattia\}, A. and \{Diaz Gomez\}, M. and M. Dosil and N. Ellis and D. Emeliyanov and B. Epp and S. Falciano and A. Farilla and S. George and V. Ghete and S. Gonz{\'a}lez and M. Grothe and S. Kabana and A. Khomich and G. Kilvington and N. Kostantinidis and A. Kootz and A. Lowe and C. Luci and L. Luminari and T. Maeno and F. Marzano and J. Masik and C. Meessen and Mello, \{A. G.\} and G. Merino and R. Moore and P. Morettini and A. Negri and N. Nikitin and A. Nisati and C. Padilla and N. Panikashvili and F. Parodi and E. Pasqualucci and \{Perez Reale\}, V. and Pinfold, \{J. L.\} and P. Pinto and Z. Qian and S. Resconi and S. Rosati and C. Sanchez and C. Santamarina and Scannicchio, \{D. A.\} and C. Schiavi and E. Segura and \{De Seixas\}, \{J. M.\} and S. Sivoklokov and R. Soluk and E. Stefanidis and S. Sushkov and M. Sutton and S. Tapprogge and E. Thomas and F. Touchard and Pinto, \{B. V.\} and V. Vercesi and P. Werner and S. Wheeler and Wickens, \{F. J.\} and W. Wiedenmann and M. Wielers and H. Zobernig",

year = "2006",

month = jun,

day = "1",

doi = "10.1109/TNS.2006.872630",

language = "English",

volume = "53",

pages = "1339--1346",

journal = "IEEE Transactions on Nuclear Science",

issn = "0018-9499",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "3",

}

Armstrong, S, Dos Anjos, A, Baines, JTM, Bee, CP, Biglietti, M, Bogaerts, JA, Boisvert, V, Bosman, M, Caron, B, Casado, P, Cataldi, G, Cavalli, D, Cervetto, M, Comune, G, Conde Muino, P, De Santo, A, Di Mattia, A, Diaz Gomez, M, Dosil, M, Ellis, N, Emeliyanov, D, Epp, B, Falciano, S, Farilla, A, George, S, Ghete, V, González, S, Grothe, M, Kabana, S, Khomich, A, Kilvington, G, Kostantinidis, N, Kootz, A, Lowe, A, Luci, C, Luminari, L, Maeno, T, Marzano, F, Masik, J, Meessen, C, Mello, AG, Merino, G, Moore, R, Morettini, P, Negri, A, Nikitin, N, Nisati, A, Padilla, C, Panikashvili, N, Parodi, F, Pasqualucci, E, Perez Reale, V, Pinfold, JL, Pinto, P, Qian, Z, Resconi, S, Rosati, S, Sanchez, C, Santamarina, C, Scannicchio, DA, Schiavi, C, Segura, E, De Seixas, JM, Sivoklokov, S, Soluk, R, Stefanidis, E, Sushkov, S, Sutton, M, Tapprogge, S, Thomas, E, Touchard, F, Pinto, BV, Vercesi, V, Werner, P, Wheeler, S, Wickens, FJ, Wiedenmann, W, Wielers, M & Zobernig, H 2006, 'Online muon reconstruction in the ATLAS level-2 trigger system', IEEE Transactions on Nuclear Science, vol. 53, núm. 3, 1645041, pàg. 1339-1346. https://doi.org/10.1109/TNS.2006.872630

TY - JOUR

T1 - Online muon reconstruction in the ATLAS level-2 trigger system

AU - Armstrong, S.

AU - Dos Anjos, A.

AU - Baines, J. T.M.

AU - Bee, C. P.

AU - Biglietti, M.

AU - Bogaerts, J. A.

AU - Boisvert, V.

AU - Bosman, M.

AU - Caron, B.

AU - Casado, P.

AU - Cataldi, G.

AU - Cavalli, D.

AU - Cervetto, M.

AU - Comune, G.

AU - Conde Muino, P.

AU - De Santo, A.

AU - Di Mattia, A.

AU - Diaz Gomez, M.

AU - Dosil, M.

AU - Ellis, N.

AU - Emeliyanov, D.

AU - Epp, B.

AU - Falciano, S.

AU - Farilla, A.

AU - George, S.

AU - Ghete, V.

AU - González, S.

AU - Grothe, M.

AU - Kabana, S.

AU - Khomich, A.

AU - Kilvington, G.

AU - Kostantinidis, N.

AU - Kootz, A.

AU - Lowe, A.

AU - Luci, C.

AU - Luminari, L.

AU - Maeno, T.

AU - Marzano, F.

AU - Masik, J.

AU - Meessen, C.

AU - Mello, A. G.

AU - Merino, G.

AU - Moore, R.

AU - Morettini, P.

AU - Negri, A.

AU - Nikitin, N.

AU - Nisati, A.

AU - Padilla, C.

AU - Panikashvili, N.

AU - Parodi, F.

AU - Pasqualucci, E.

AU - Perez Reale, V.

AU - Pinfold, J. L.

AU - Pinto, P.

AU - Qian, Z.

AU - Resconi, S.

AU - Rosati, S.

AU - Sanchez, C.

AU - Santamarina, C.

AU - Scannicchio, D. A.

AU - Schiavi, C.

AU - Segura, E.

AU - De Seixas, J. M.

AU - Sivoklokov, S.

AU - Soluk, R.

AU - Stefanidis, E.

AU - Sushkov, S.

AU - Sutton, M.

AU - Tapprogge, S.

AU - Thomas, E.

AU - Touchard, F.

AU - Pinto, B. V.

AU - Vercesi, V.

AU - Werner, P.

AU - Wheeler, S.

AU - Wickens, F. J.

AU - Wiedenmann, W.

AU - Wielers, M.

AU - Zobernig, H.

PY - 2006/6/1

Y1 - 2006/6/1

N2 - To cope with the 40 MHz event production rate of LHC, the trigger of the ATLAS experiment selects events in three sequential steps of increasing complexity and accuracy whose final results are close to the offline reconstruction. The Level-1, implemented with custom hardware, identifies physics objects within Regions of Interests and operates with a first reduction of the event rate to 75 kHz. The higher trigger levels, Level-2 and Level-3, provide a software based event selection which further reduces the event rate to about 100 Hz. This paper presents the algorithm (μFast) employed at Level-2 to confirm the muon candidates flagged by the Level-1. μFast identifies hits of muon tracks inside the barrel region of the Muon Spectrometer and provides a precise measurement of the muon momentum at the production vertex. The algorithm must process the Level-1 muon output rate (∼20 kHz), thus particular care has been taken for its optimization. The result is a very fast track reconstruction algorithm with good physics performance which, in some cases, approaches that of the offline reconstruction: it finds muon tracks with an efficiency of about 95% and computes p T of prompt muons with a resolution of 5.5% at 6 GeV and 4.0% at 20 GeV. The algorithm requires an overall execution time of ∼1 ms on a 100 SpecInt95 machine and has been tested in the online environment of the Atlas detector test beam. © 2006 IEEE.

AB - To cope with the 40 MHz event production rate of LHC, the trigger of the ATLAS experiment selects events in three sequential steps of increasing complexity and accuracy whose final results are close to the offline reconstruction. The Level-1, implemented with custom hardware, identifies physics objects within Regions of Interests and operates with a first reduction of the event rate to 75 kHz. The higher trigger levels, Level-2 and Level-3, provide a software based event selection which further reduces the event rate to about 100 Hz. This paper presents the algorithm (μFast) employed at Level-2 to confirm the muon candidates flagged by the Level-1. μFast identifies hits of muon tracks inside the barrel region of the Muon Spectrometer and provides a precise measurement of the muon momentum at the production vertex. The algorithm must process the Level-1 muon output rate (∼20 kHz), thus particular care has been taken for its optimization. The result is a very fast track reconstruction algorithm with good physics performance which, in some cases, approaches that of the offline reconstruction: it finds muon tracks with an efficiency of about 95% and computes p T of prompt muons with a resolution of 5.5% at 6 GeV and 4.0% at 20 GeV. The algorithm requires an overall execution time of ∼1 ms on a 100 SpecInt95 machine and has been tested in the online environment of the Atlas detector test beam. © 2006 IEEE.

KW - Atlas level-2

KW - Online

KW - Trigger

UR - https://www.scopus.com/pages/publications/33746365405

U2 - 10.1109/TNS.2006.872630

DO - 10.1109/TNS.2006.872630

M3 - Article

SN - 0018-9499

VL - 53

SP - 1339

EP - 1346

JO - IEEE Transactions on Nuclear Science

JF - IEEE Transactions on Nuclear Science

IS - 3

M1 - 1645041

ER -

Online muon reconstruction in the ATLAS level-2 trigger system

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