Issue |
EPJ Web Conf.
Volume 214, 2019
23rd International Conference on Computing in High Energy and Nuclear Physics (CHEP 2018)
|
|
---|---|---|
Article Number | 01050 | |
Number of page(s) | 8 | |
Section | T1 - Online computing | |
DOI | https://doi.org/10.1051/epjconf/201921401050 | |
Published online | 17 September 2019 |
https://doi.org/10.1051/epjconf/201921401050
Gpu-Based Online Track Reconstruction for the Alice Tpc in Run 3 With Continuous Read-Out
1
European Organization for Nuclear Research (CERN)
Geneva
Switzerland
2
Frankfurt Institute for Advanced Studies
Ruth-Moufang-Str. 1, 60438 Frankfurt
Germany
3
Goethe University Frankfur
Germany
4
University of Heidelberg
Germany
* e-mail: drohr@cern.ch
Published online: 17 September 2019
In LHC Run 3, ALICE will increase the data taking rate significantly to 50 kHz continuous read-out of minimum bias Pb—Pb collisions. The reconstruction strategy of the online-offline computing upgrade foresees a first synchronous online reconstruction stage during data taking enabling detector calibration and data compression, and a posterior calibrated asynchronous reconstruction stage. Many new challenges arise, among them continuous TPC read-out, more overlapping collisions, no a priori knowledge of the primary vertex and of location-dependent calibration in the synchronous phase, identification of low-momentum looping tracks, and sophisticated raw data compression. The tracking algorithm for the Time Projection Chamber (TPC) will be based on a Cellular Automaton and the Kalman filter. The reconstruction shall run online, processing 50 times more collisions per second than today, while yielding results comparable to current offline reconstruction. Our TPC track finding leverages the potential of hardware accelerators via the OpenCL and CUDA APIs in a shared source code for CPUs and GPUs for both reconstruction stages. We give an overview of the status of Run 3 tracking including performance on processors and GPUs and achieved compression ratios.
© The Authors, published by EDP Sciences, 2019
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