Author :
Beck, Hans Peter ; Abolins, Maris ; Battaglia, Andreas ; Blair, Robert ; Bogaerts, Andre ; Bosman, Martine ; Ciobotaru, Matei ; Cranfield, Robert ; Crone, Gordon ; Dawson, John ; Dobinson, Robert ; Dobson, Marc ; Anjos, Andre Dos ; Drake, Gary ; Ermoline,
Abstract :
Event data from proton-proton collisions at the LHC will be selected by the ATLAS experiment in a three level trigger system, which reduces the initial bunch crossing rate of 40 MHz at its first two trigger levels (LVL1+LVL2) to ~3 kHz. At this rate the Event-Builder collects the data from all read-out system PCs (ROSs) and provides fully assembled events to the the event-filter (EF), which is the third level trigger, to achieve a further rate reduction to ~ 200 Hz for permanent storage. The event-builder is based on a farm of O(100) PCs, interconnected via gigabit Ethernet to O(150) ROSs. These PCs run Linux and multi-threaded software applications implemented in C++. All the ROSs and one third of the event-builder PCs are already installed and commissioned. We report on performance tests on this initial system, which show promising results to reach the final data throughput required for the ATLAS experiment.
Keywords :
data acquisition; high energy physics instrumentation computing; local area networks; nuclear electronics; readout electronics; ATLAS; C++; Ethernet; LHC; Linux; bunch crossing rate; data acquisition; event builder; event-filter; proton-proton collisions; read-out system; three-level trigger system; Application software; Assembly; Ethernet networks; Laboratories; Large Hadron Collider; Linux; Nuclear physics; Personal communication networks; System testing; Throughput; ATLAS; Event Building; High Energy Physics; LHC; TDAQ;
