The Deep Underground Neutrino Experiment (DUNE) plans to collect physics
data for over 10 years, starting in 2029. The full DUNE design consists of four far
detectors with multiple 10 kT fiducial mass LArTPCs and a heterogeneous near
detector complex with 1300 km between them. This combination of technologies
and readout time scales is expected to require large storage volumes with on...
As a low background experiment at the intensity frontier, the SHiP experiment faces many unique computing challenges compared to collider experiments. At the same time, the experiment is small, with very limited person power, and everything is evolving quickly in preparation for the TDRs, including core parts of the software, which need to be replaced while avoiding disruption to future-proof...
FairRoot is a software framework for detector simulation, reconstruction, and data analysis
developed at GSI for the experiments at the upcoming FAIR accelerator complex.
Started as a framework for experiments at the FAIR project, it is meanwhile also used by several experiments outside of GSI.
The framework is based on ROOT and Virtual Monte Carlo (VMC) and allows fast prototyping as well...
The BESIII experiment has been operating since 2009, to study physics in the $\tau$-charm energy region utilizing the high luminosity BEPCII (Beijing Electron-Positron Collider II) double ring collider. The BESIII Offline Software System (BOSS) is built upon the Gaudi framework, while also leveraging ROOT extensively across its various components.
The BESIII experiment primarily utilizes ROOT...
We bring a core technology from high-energy physics to financial market surveillance. The HighLO project uses the ROOT framework to process terabytes of high-speed trading data where conventional tools fail. In this presentation, we'll showcase our deployed platform and demonstrate how it equips regulators with powerful tools to protect market integrity.
Gravitational Wave (GW) Physics has entered a new era of Multi-Messenger Astronomy (MMA), characterized by increasing GW event detections from GW observatories at the LIGO-Virgo-KAGRA collaborations. This presentation will introduce the KAGRA experiment, outlining the current workflow from data collection to physics interpretation, and demonstrate the transformative role of machine learning...
