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DTSTAMP:20190719T085744Z
LOCATION:HG E 1.1
DTSTART;TZID=Europe/Stockholm:20190614T090000
DTEND;TZID=Europe/Stockholm:20190614T093000
UID:submissions.pasc-conference.org_PASC19_sess183_pap_jan114@linklings.co
 m
SUMMARY:Numerical Simulation of the Quantum Cascade Laser Dynamics on Para
 llel Architectures
DESCRIPTION:Paper\nComputer Science and Applied Mathematics, Physics\n\nNu
 merical Simulation of the Quantum Cascade Laser Dynamics on Parallel Archi
 tectures\n\nRiesch, Tchipev, Bungartz, Jirauschek\n\nOver the last decades
 , quantum cascade lasers (QCLs) have become established sources of mid-inf
 rared and terahertz light. For their anticipated applications, e.g., in sp
 ectroscopy, their dynamical behavior is particularly interesting. Numerica
 l simulations constitute an essential tool for investigating the QCL dynam
 ics but exhibit considerable computational workload. In order to accelerat
 e the simulations and thereby aid the design process of QCLs, we present e
 fficient parallel implementations of an established numerical method using
  OpenMP. Performance measurements on a 28-core CPU confirm their efficienc
 y.<br /><br />Full paper: https://doi.org/10.1145/3324989.3325715
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