MiniDAQ-3: Providing concurrent independent subdetector data-taking on CMS production DAQ resources

Vassileios Amoiridis; Ulf Behrens; Andrea Bocci; James Branson; Philipp Brummer; Eric Cano; Sergio Cittolin; Joao Da Silva Almeida Da Quintanilha; Georgiana-Lavinia Darlea; Christian Deldicque; Marc Dobson; Antonin Dvorak; Dominique Gigi; Frank Glege; Guillelmo Gomez-Ceballos; Patrycja Gorniak; Neven Gutić; Jeroen Hegeman; Guillermo Izquierdo Moreno; Thomas Owen James; Wassef Karimeh; Miltiadis Kartalas; Rafał Dominik Krawczyk; Wei Li; Kenneth Long; Frans Meijers; Emilio Meschi; Srećko Morović; Luciano Orsini; Christoph Paus; Andrea Petrucci; Marco Pieri; Dinyar Sebastian Rabady; Attila Racz; Theodoros Rizopoulos; Hannes Sakulin; Christoph Schwick; Dainius Šimelevičius; Polyneikis Tzanis; Cristina Vazquez Velez; Petr Žejdl; Yousen Zhang; Dominika Zogatova

doi:10.1051/epjconf/202429502020

All issues

Volume 295 (2024)

EPJ Web of Conf., 295 (2024) 02020

Abstract

Open Access

Issue		EPJ Web of Conf. Volume 295, 2024 26^th International Conference on Computing in High Energy and Nuclear Physics (CHEP 2023)


Article Number		02020
Number of page(s)		8
Section		Online Computing
DOI		https://doi.org/10.1051/epjconf/202429502020
Published online		06 May 2024

EPJ Web of Conferences 295, 02020 (2024)
https://doi.org/10.1051/epjconf/202429502020

MiniDAQ-3: Providing concurrent independent subdetector data-taking on CMS production DAQ resources

Vassileios Amoiridis¹, Ulf Behrens², Andrea Bocci¹, James Branson³, Philipp Brummer¹^*, Eric Cano¹, Sergio Cittolin³, Joao Da Silva Almeida Da Quintanilha¹, Georgiana-Lavinia Darlea⁴, Christian Deldicque¹, Marc Dobson¹, Antonin Dvorak¹, Dominique Gigi¹, Frank Glege¹, Guillelmo Gomez-Ceballos⁴, Patrycja Gorniak¹, Neven Gutić¹, Jeroen Hegeman¹, Guillermo Izquierdo Moreno¹, Thomas Owen James¹, Wassef Karimeh¹, Miltiadis Kartalas¹, Rafał Dominik Krawczyk², Wei Li², Kenneth Long⁴, Frans Meijers¹, Emilio Meschi¹, Srećko Morović³, Luciano Orsini¹, Christoph Paus⁴, Andrea Petrucci³, Marco Pieri³, Dinyar Sebastian Rabady¹, Attila Racz¹, Theodoros Rizopoulos¹, Hannes Sakulin¹^**, Christoph Schwick¹, Dainius Šimelevičius¹^,5, Polyneikis Tzanis¹, Cristina Vazquez Velez¹, Petr Žejdl¹, Yousen Zhang² and Dominika Zogatova¹

¹ CERN, Geneva, Switzerland
² Rice University, Houston, Texas, USA
³ UCSD, San Diego, California, USA
⁴ MIT, Cambridge, Massachusetts, USA
⁵ Vilnius University, Vilnius, Lithuania

^* e-mail: philipp.brummer@cern.ch
^** e-mail: hannes.sakulin@cern.ch

Published online: 6 May 2024

Abstract

The data acquisition (DAQ) of the Compact Muon Solenoid (CMS) experiment at CERN, collects data for events accepted by the Level-1 Trigger from the different detector systems and assembles them in an event builder prior to making them available for further selection in the High Level Trigger, and finally storing the selected events for offline analysis. In addition to the central DAQ providing global acquisition functionality, several separate, so-called “MiniDAQ” setups allow operating independent data acquisition runs using an arbitrary subset of the CMS subdetectors.

During Run 2 of the LHC, MiniDAQ setups were running their event builder and High Level Trigger applications on dedicated resources, separate from those used for the central DAQ. This cleanly separated MiniDAQ setups from the central DAQ system, but also meant limited throughput and a fixed number of possible MiniDAQ setups. In Run 3, MiniDAQ-3 setups share production resources with the new central DAQ system, allowing each setup to operate at the maximum Level-1 rate thanks to the reuse of the resources and network bandwidth. Configuration management tools had to be significantly extended to support the synchronization of the DAQ configurations needed for the various setups.

We report on the new configuration management features and on the first year of operational experience with the new MiniDAQ-3 system.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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