APEIRON: composing smart TDAQ systems for high energy physics experiments
Roberto Ammendola, Andrea Biagioni, Carlotta Chiarini, Andrea, Ciardiello, Paolo Cretaro, Ottorino Frezza, Francesca Lo Cicero, Alessandro, Lonardo, Michele Martinelli, Pier Stanislao Paolucci, Cristian Rossi,, Francesco Simula, Matteo Turisini, Piero Vicini
TL;DR
APEIRON is a comprehensive framework that facilitates the design, prototyping, and deployment of intelligent trigger and data acquisition systems for high energy physics experiments, covering hardware and software layers.
Contribution
It introduces a versatile architecture and software stack for building adaptive TDAQ systems in high energy physics.
Findings
Supports heterogeneous processing platforms
Enables efficient prototyping of smart TDAQ systems
Provides a unified software framework
Abstract
APEIRON is a framework encompassing the general architecture of a distributed heterogeneous processing platform and the corresponding software stack, from the low level device drivers up to the high level programming model. The framework is designed to be efficiently used for studying, prototyping and deploying smart trigger and data acquisition (TDAQ) systems for high energy physics experiments.
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Taxonomy
TopicsDistributed and Parallel Computing Systems · Advanced Data Storage Technologies · Scientific Computing and Data Management