Open AccessCOMPUTING ENVIRONMENT FOR THE SUPER-CHARM- TAU FACTORY DETECTOR PROJECT
Author(s) -
Maria Belozyorova,
D. A. Maximov,
G.P. Razuvaev,
A. M. Soukharev,
V. Vorobyev,
Anastasiia Zhadan,
Daniil Zhadan
Publication year - 2021
Publication title -
9th international conference "distributed computing and grid technologies in science and education"
Language(s) - English
Resource type - Conference proceedings
DOI - 10.54546/mlit.2021.97.25.001
Subject(s) - physics , particle physics , charm (quantum number) , interaction point , factory (object oriented programming) , detector , luminosity , software , collider , nuclear physics , upgrade , point (geometry) , lepton , electron , operating system , large hadron collider , computer science , astronomy , programming language , geometry , mathematics , galaxy , optics
The project of the Super Charm-Tau (SCT) factory – a high-luminosity electron-positron collider forstudying charmed hadrons and tau lepton – is proposed by Budker INP. The project implies singlecollision point equipped with a universal particle detector. The Aurora software framework has beendeveloped for the SCT detector. It is based on trusted and widely used in high energy physics softwarepackages, such as Gaudi, Geant4, and ROOT. At the same time, new ideas and developments areemployed, in particular the Aurora project benefits a lot from the turnkey software for future colliders(Key4HEP) initiative. This paper describes the first release of the Aurora framework, summarizes itscore technologies, structure and roadmap for the near future. From the hardware point of view theBudker INP general computing facility (BINP/GCF) providing the required computational and storageresources is described.