Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC

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; M. Diaz Gomez; M. Dosil; N. Ellis; D. Emeliyanov; B. Epp; S. Falciano; A. Farilla; S. George; V. Ghete; S. Gonzalez; M. Grothe; S. Kabana; A. Khomich; G. Kilvington; N. Konstantinidis; A. Kootz; A. Lowe; L. Luminari; T. Maeno; J. Masik; A. Di Mattia; C. Meessen; A. G. Mello; G. Merino; R. Moore; P. Morettini; A. Negri; N. Nikitin; A. Nisati; C. Padilla; N. Panikashvili; F. Parodi; 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. Venda Pinto; V. Vercesi; P. Werner; S. Wheeler; F. J. Wickens; W. Wiedenmann; M. Wielers; G. Zobernig

Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC

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
, M. Diaz Gomez
, M. Dosil
, N. Ellis
, D. Emeliyanov

B. Epp, S. Falciano, A. Farilla, S. George, V. Ghete, S. Gonzalez, M. Grothe, S. Kabana, A. Khomich, G. Kilvington, N. Konstantinidis, A. Kootz, A. Lowe, L. Luminari, T. Maeno, J. Masik, A. Di Mattia, C. Meessen, A. G. Mello, G. Merino, R. Moore, P. Morettini, A. Negri, N. Nikitin, A. Nisati, C. Padilla, N. Panikashvili, F. Parodi, 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. Venda Pinto, V. Vercesi, P. Werner, S. Wheeler, F. J. Wickens, W. Wiedenmann, M. Wielers, G. Zobernig

Producción científica: Contribución a una revista › Artículo de la conferencia › revisión exhaustiva

1 Cita (Scopus)

Resumen

The ATLAS experiment at the Large Hadron Collider (LHC) will face the challenge of efficiently selecting interesting candidate events in pp collisions at 14 TeV center of mass energy, while rejecting the enormous number of background events, stemming from an interaction rate of up to 10⁹ Hz. The Level1 trigger will reduce this rate to around script O sign(100 kHz). Subsequently, the High Level Trigger (HLT), which is comprised of the Second Level trigger and the Event Filter, will need to reduce this rate further by a factor of script O sign(10³). The HLT selection is software based and will be implemented on commercial CPUs using a common framework built on the standard ATLAS object oriented software architecture. In this paper an overview of the current implementation of the selection for electrons and photons in the HLT is given. The performance of this implementation has been evaluated using Monte Carlo simulations in terms of the efficiency for the signal channels, rate expected for the selection, data preparation times, and algorithm execution times. Besides the efficiency and rate estimates, some physics examples will be discussed, showing that the triggers are well adapted for the physics programme envisaged at LHC. The electron and photon trigger software is also being exercised at the ATLAS 2004 Combined Test Beam, where components from all ATLAS subdetectors are taking data together along the H8 SPS extraction line; from these tests a validation of the selection architecture chosen in a real on-line environment is expected.

Idioma original	Inglés
Páginas (desde-hasta)	2038-2042
Número de páginas	5
Publicación	IEEE Nuclear Science Symposium Conference Record
Volumen	4
Estado	Publicada - 2004
Publicado de forma externa	Sí
Evento	2004 Nuclear Science Symposium, Medical Imaging Conference, Symposium on Nuclear Power Systems and the 14th International Workshop on Room Temperature Semiconductor X- and Gamma- Ray Detectors - Rome, Italia Duración: 16 oct. 2004 → 22 oct. 2004

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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., Muino, P. C., De Santo, A., Gomez, M. D., Dosil, M., Ellis, N., ... Zobernig, G. (2004). Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC. IEEE Nuclear Science Symposium Conference Record, 4, 2038-2042.

@article{5ce05416d6044749a24130847a4065e8,

title = "Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC",

abstract = "The ATLAS experiment at the Large Hadron Collider (LHC) will face the challenge of efficiently selecting interesting candidate events in pp collisions at 14 TeV center of mass energy, while rejecting the enormous number of background events, stemming from an interaction rate of up to 109 Hz. The Level1 trigger will reduce this rate to around script O sign(100 kHz). Subsequently, the High Level Trigger (HLT), which is comprised of the Second Level trigger and the Event Filter, will need to reduce this rate further by a factor of script O sign(103). The HLT selection is software based and will be implemented on commercial CPUs using a common framework built on the standard ATLAS object oriented software architecture. In this paper an overview of the current implementation of the selection for electrons and photons in the HLT is given. The performance of this implementation has been evaluated using Monte Carlo simulations in terms of the efficiency for the signal channels, rate expected for the selection, data preparation times, and algorithm execution times. Besides the efficiency and rate estimates, some physics examples will be discussed, showing that the triggers are well adapted for the physics programme envisaged at LHC. The electron and photon trigger software is also being exercised at the ATLAS 2004 Combined Test Beam, where components from all ATLAS subdetectors are taking data together along the H8 SPS extraction line; from these tests a validation of the selection architecture chosen in a real on-line environment is expected.",

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 Muino, \{P. Conde\} and \{De Santo\}, A. and Gomez, \{M. Diaz\} 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. Gonzalez and M. Grothe and S. Kabana and A. Khomich and G. Kilvington and N. Konstantinidis and A. Kootz and A. Lowe and L. Luminari and T. Maeno and J. Masik and \{Di Mattia\}, A. 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 Reale, \{V. Perez\} 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. Venda\} and V. Vercesi and P. Werner and S. Wheeler and Wickens, \{F. J.\} and W. Wiedenmann and M. Wielers and G. Zobernig",

year = "2004",

language = "English",

volume = "4",

pages = "2038--2042",

journal = "IEEE Nuclear Science Symposium Conference Record",

issn = "1095-7863",

note = "2004 Nuclear Science Symposium, Medical Imaging Conference, Symposium on Nuclear Power Systems and the 14th International Workshop on Room Temperature Semiconductor X- and Gamma- Ray Detectors ; Conference date: 16-10-2004 Through 22-10-2004",

}

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, Muino, PC, De Santo, A, Gomez, MD, Dosil, M, Ellis, N, Emeliyanov, D, Epp, B, Falciano, S, Farilla, A, George, S, Ghete, V, Gonzalez, S, Grothe, M, Kabana, S, Khomich, A, Kilvington, G, Konstantinidis, N, Kootz, A, Lowe, A, Luminari, L, Maeno, T, Masik, J, Di Mattia, A, Meessen, C, Mello, AG, Merino, G, Moore, R, Morettini, P, Negri, A, Nikitin, N, Nisati, A, Padilla, C, Panikashvili, N, Parodi, F, Reale, VP, 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, G 2004, 'Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC', IEEE Nuclear Science Symposium Conference Record, vol. 4, pp. 2038-2042.

TY - JOUR

T1 - Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC

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 - Muino, P. Conde

AU - De Santo, A.

AU - Gomez, M. Diaz

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 - Gonzalez, S.

AU - Grothe, M.

AU - Kabana, S.

AU - Khomich, A.

AU - Kilvington, G.

AU - Konstantinidis, N.

AU - Kootz, A.

AU - Lowe, A.

AU - Luminari, L.

AU - Maeno, T.

AU - Masik, J.

AU - Di Mattia, A.

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 - Reale, V. Perez

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. Venda

AU - Vercesi, V.

AU - Werner, P.

AU - Wheeler, S.

AU - Wickens, F. J.

AU - Wiedenmann, W.

AU - Wielers, M.

AU - Zobernig, G.

PY - 2004

Y1 - 2004

N2 - The ATLAS experiment at the Large Hadron Collider (LHC) will face the challenge of efficiently selecting interesting candidate events in pp collisions at 14 TeV center of mass energy, while rejecting the enormous number of background events, stemming from an interaction rate of up to 109 Hz. The Level1 trigger will reduce this rate to around script O sign(100 kHz). Subsequently, the High Level Trigger (HLT), which is comprised of the Second Level trigger and the Event Filter, will need to reduce this rate further by a factor of script O sign(103). The HLT selection is software based and will be implemented on commercial CPUs using a common framework built on the standard ATLAS object oriented software architecture. In this paper an overview of the current implementation of the selection for electrons and photons in the HLT is given. The performance of this implementation has been evaluated using Monte Carlo simulations in terms of the efficiency for the signal channels, rate expected for the selection, data preparation times, and algorithm execution times. Besides the efficiency and rate estimates, some physics examples will be discussed, showing that the triggers are well adapted for the physics programme envisaged at LHC. The electron and photon trigger software is also being exercised at the ATLAS 2004 Combined Test Beam, where components from all ATLAS subdetectors are taking data together along the H8 SPS extraction line; from these tests a validation of the selection architecture chosen in a real on-line environment is expected.

AB - The ATLAS experiment at the Large Hadron Collider (LHC) will face the challenge of efficiently selecting interesting candidate events in pp collisions at 14 TeV center of mass energy, while rejecting the enormous number of background events, stemming from an interaction rate of up to 109 Hz. The Level1 trigger will reduce this rate to around script O sign(100 kHz). Subsequently, the High Level Trigger (HLT), which is comprised of the Second Level trigger and the Event Filter, will need to reduce this rate further by a factor of script O sign(103). The HLT selection is software based and will be implemented on commercial CPUs using a common framework built on the standard ATLAS object oriented software architecture. In this paper an overview of the current implementation of the selection for electrons and photons in the HLT is given. The performance of this implementation has been evaluated using Monte Carlo simulations in terms of the efficiency for the signal channels, rate expected for the selection, data preparation times, and algorithm execution times. Besides the efficiency and rate estimates, some physics examples will be discussed, showing that the triggers are well adapted for the physics programme envisaged at LHC. The electron and photon trigger software is also being exercised at the ATLAS 2004 Combined Test Beam, where components from all ATLAS subdetectors are taking data together along the H8 SPS extraction line; from these tests a validation of the selection architecture chosen in a real on-line environment is expected.

UR - https://www.scopus.com/pages/publications/23844480863

M3 - Conference article

AN - SCOPUS:23844480863

SN - 1095-7863

VL - 4

SP - 2038

EP - 2042

JO - IEEE Nuclear Science Symposium Conference Record

JF - IEEE Nuclear Science Symposium Conference Record

T2 - 2004 Nuclear Science Symposium, Medical Imaging Conference, Symposium on Nuclear Power Systems and the 14th International Workshop on Room Temperature Semiconductor X- and Gamma- Ray Detectors

Y2 - 16 October 2004 through 22 October 2004

ER -

Implementation and performance of the High Level Trigger electron and photon selection for the ATLAS experiment at the LHC

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