APEIRON: composing smart TDAQ systems for high energy physics experiments

07/03/2023

∙

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.

READ FULL TEXT

APEIRON: composing smart TDAQ systems for high energy physics experiments

Programming Bare-Metal Accelerators with Heterogeneous Threading Models: A Case Study of Matrix-3000

OpenHLS: High-Level Synthesis for Low-Latency Deep Neural Networks for Experimental Science

Innovations in trigger and data acquisition systems for next-generation physics facilities

DEMO: Attaching InternalBlue to the Proprietary macOS IOBluetooth Framework

Interlinking Heterogeneous Data for Smart Energy Systems

An SOA Based Design of JUNO DAQ Online Software

J-PET Framework: Software platform for PET tomography data reconstruction and analysis

APEIRON: composing smart TDAQ systems for high energy physics experiments

Related Research

Programming Bare-Metal Accelerators with Heterogeneous Threading Models: A Case Study of Matrix-3000

OpenHLS: High-Level Synthesis for Low-Latency Deep Neural Networks for Experimental Science

Innovations in trigger and data acquisition systems for next-generation physics facilities

DEMO: Attaching InternalBlue to the Proprietary macOS IOBluetooth Framework

Interlinking Heterogeneous Data for Smart Energy Systems

An SOA Based Design of JUNO DAQ Online Software

J-PET Framework: Software platform for PET tomography data reconstruction and analysis