Conveners
Track 9: Future Directions: 9.1
- Oxana Smirnova (Lund University (SE))
The ATLAS experiment successfully commissioned a software and computing infrastructure to support
the physics program during LHC Run 2. The next phases of the accelerator upgrade will present
new challenges in the offline area. In particular, at High Luminosity LHC (also known as Run 4)
the data taking conditions will be very demanding in terms of computing resources:
between 5 and 10 KHz...
The LHCb detector will be upgraded for the LHC Run 3 and will be readout at 40 MHz, with major implications on the software-only trigger and offline computing. If the current computing model is kept, the data storage capacity and computing power required to process data at this rate, and to generate and reconstruct equivalent samples of simulated events, will exceed the current capacity by a...
The Belle II is the next-generation flavor factory experiment at the SuperKEKB accelerator in Tsukuba, Japan. The first physics run will take place in 2017, then we plan to increase the luminosity gradually. We will reach the world’s highest luminosity L=8x10^35 cm-2s-1 after roughly five years operation and finally collect ~25 Petabyte of raw data per year. Such a huge amount of data allows...
The Compressed Baryonic Matter experiment (CBM) is a next-generation heavy-ion experiment to be operated at the FAIR facility, currently under construction in Darmstadt, Germany. A key feature of CBM are very high intercation rates, exceeding those of contemporary nuclear collision experiments by several orders of magnitude. Such interaction rates forbid a conventional, hardware-triggered...
The Electron-Ion Collider (EIC) is envisioned as the
next-generation U.S. facility to study quarks and gluons in
strongly interacting matter. Developing the physics program for
the EIC, and designing the detectors needed to realize it,
requires a plethora of software tools and multifaceted analysis
efforts. Many of these tools have yet to be developed or need to
...