A study on implementing a multithreaded version of the SIRENE detector simulation software for high energy neutrinos

A study on implementing a multithreaded version of the SIRENE detector simulation software for high energy neutrinos

The primary objective of SIRENE is to simulate the response to neutrino events of any type of high energy neutrino telescope. Additionally, it implements different geometries for a neutrino detector and different configurations and characteristics of photo-multiplier tubes (PMTs) inside the optical...

Full description

Bibliographic Details
Main Authors: Giannakopoulos Petros, Gkoumas Michail, Diplas Ioannis, Voularinos Georgios, Vlachos Theofanis, Balasi Konstantia, Tzamariudaki Ekaterini, Filippidis Christos, Cotronis Yiannis, Markou Christos
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/201611607005
Description
Summary:The primary objective of SIRENE is to simulate the response to neutrino events of any type of high energy neutrino telescope. Additionally, it implements different geometries for a neutrino detector and different configurations and characteristics of photo-multiplier tubes (PMTs) inside the optical modules of the detector through a library of C+ + classes. This could be considered a massive statistical analysis of photo-electrons. Aim of this work is the development of a multithreaded version of the SIRENE detector simulation software for high energy neutrinos. This approach allows utilization of multiple CPU cores leading to a potentially significant decrease in the required execution time compared to the sequential code. We are making use of the OpenMP framework for the production of multithreaded code running on the CPU. Finally, we analyze the feasibility of a GPU-accelerated implementation.
ISSN:2100-014X

Similar Items