Prototype of a File-Based High-Level Trigger in CMS

G Bauer; T Bawej; U Behrens; J Branson; O Chaze; S Cittolin; J A Coarasa; G-L Darlea; C Deldicque; M Dobson; A Dupont; S Erhan; D Gigi; F Glege; G Gomez-Ceballos; R Gomez-Reino; C Hartl; J Hegeman; A Holzner; L Masetti; F Meijers; E Meschi; R K Mommsen; S Morovic; C Nunez-Barranco-Fernandez; V O'Dell; L Orsini; W Ozga; C Paus; A Petrucci; M Pieri; A Racz; O Raginel; H Sakulin; M Sani; C Schwick; AC Spataru; B Stieger; K Sumorok; J Veverka; C C Wakefiled; P Zejdl

doi:10.1088/1742-6596/513/1/012025

Journal of Physics: Conference Series

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Prototype of a File-Based High-Level Trigger in CMS

G Bauer⁶, T Bawej², U Behrens¹, J Branson⁴, O Chaze², S Cittolin⁴, J A Coarasa², G-L Darlea⁶, C Deldicque², M Dobson², A Dupont², S Erhan³, D Gigi², F Glege², G Gomez-Ceballos⁶, R Gomez-Reino², C Hartl², J Hegeman², A Holzner⁴, L Masetti², F Meijers², E Meschi², R K Mommsen⁵, S Morovic^2,7, C Nunez-Barranco-Fernandez², V O'Dell⁵, L Orsini², W Ozga², C Paus⁶, A Petrucci², M Pieri⁴, A Racz², O Raginel⁶, H Sakulin², M Sani⁴, C Schwick², AC Spataru², B Stieger², K Sumorok⁶, J Veverka⁶, C C Wakefiled² and P Zejdl²

Published under licence by IOP Publishing Ltd
Journal of Physics: Conference Series, Volume 513, Issue 1 Citation G Bauer et al 2014 J. Phys.: Conf. Ser. 513 012025 DOI 10.1088/1742-6596/513/1/012025

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¹ DESY, Hamburg, Germany

² CERN, Geneva, Switzerland

³ University of California, Los Angeles, California, USA

⁴ University of California, San Diego, California, USA

⁵ FNAL, Chicago, Illinois, USA

⁶ Massachusetts Institute of Technology, Cambridge, Massachusetts, USA

⁷ Also at Institute Rudjer Boskovic, Zagreb, Croatia

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Abstract

The DAQ system of the CMS experiment at the LHC is upgraded during the accelerator shutdown in 2013/14. To reduce the interdependency of the DAQ system and the high-level trigger (HLT), we investigate the feasibility of using a file-system-based HLT. Events of ~1 MB size are built at the level-1 trigger rate of 100 kHz. The events are assembled by ~50 builder units (BUs). Each BU writes the raw events at ~2GB/s to a local file system shared with Q(10) filter-unit machines (FUs) running the HLT code. The FUs read the raw data from the file system, select Q(1%) of the events, and write the selected events together with monitoring meta-data back to a disk. This data is then aggregated over several steps and made available for offline reconstruction and online monitoring. We present the challenges, technical choices, and performance figures from the prototyping phase. In addition, the steps to the final system implementation will be discussed.

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Prototype of a File-Based High-Level Trigger in CMS

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