The LHCb experiment is a forward spectrometer, designed to study beauty and charm quarks Physics at the LHC. To exploit of the higher luminosity that will be delivered during Run3, the full experiment needed a substantial upgrade, from the detector to the DAQ and HLT. In this paper, we will focus on the new DAQ system for the LHCb experiment; that represents a substantial paradigm shift...
In recent years, particle physics and nuclear physics experiments require faster data collection systems and advanced trigger systems as the beam intensity increases. The current DAQ system at the J-PARC hadron experimental facility (HEF) uses a fixed- and low-latency trigger with dedicated hardware to reduce data and event-building software that merges data into a single endpoint. This...
The CODA Data Acquisition system is a software toolkit developed in conjunction with both custom and commercial hardware to support the general experimental program at Jefferson Lab. This includes larger complex DAQ systems in the four primary experimental halls as well as more basic developmental test bed systems. Recent developments for CODA have been focused on support for streaming...
The Electron-Ion Collider (EIC) is an extraordinary new facility enabling frontier research in nuclear physics, with initial operation planned for 2031. It is the largest single project undertaken by the US DOE Office of Nuclear Physics and, as such, represents a landmark allocation of resources. Recently, the proposal of the ECCE consortium has been selected as the reference design for...
DarkSide-20k is a direct dark matter search detector using a two-phase Liquid Argon Time Projection Chamber (LArTPC) with an active mass of 50 tonnes of low radioactivity Argon from an underground source. Two planes of cryogenic SiPMs covering the top and the bottom faces of the TPC detect the light signals produced by the scattering of a WIMP particle on an Argon nucleus. The TPC is...