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BEGIN:VEVENT
DTSTAMP:20220812T074335Z
LOCATION:Darwin Room
DTSTART;TZID=Europe/Stockholm:20220628T180000
DTEND;TZID=Europe/Stockholm:20220628T183000
UID:submissions.pasc-conference.org_PASC22_sess151_msa240@linklings.com
SUMMARY:Modeling Plasma Accelerators with the WarpX PIC Code
DESCRIPTION:Minisymposium\n\nModeling Plasma Accelerators with the WarpX P
 IC Code\n\nHuebl\n\nMany plasma and particle accelerator physics problems 
 can be simulated with the Particle-In-Cell technique. However, depending o
 n the details of the physical system to be simulated, the specifics of the
  corresponding best-suited PIC loop may differ considerably (e.g., electro
 magnetic, electrostatic or quasistatic PIC algorithm). Here, we present co
 des in the Beam, Plasma & Accelerator Simulation Toolkit (BLAST) that are 
 all based on the AMReX framework: WarpX, HiPACE++, ImpactX. Using the same
  framework and the ABLASTR code sharing library enables reuse across these
  applications, while at the same time accommodating their differing parall
 elization patterns. Based on AMReX, these simulation tools to run on NVIDI
 A/AMD/Intel GPUs, as well as on multi-core CPUs without code duplication.<
 br /><br />[1] A Myers et al. including A Huebl. "Porting WarpX to GPU-acc
 elerated platforms," Parallel Computing, 108:102833 (2021). DOI:10.1016/j.
 parco.2021.102833<br />[2] The WarpX Authors. "WarpX - an advanced electro
 magnetic Particle-In-Cell code," (2022). DOI:10.5281/zenodo.4571577<br /><
 br />This work is partially supported by the Exascale Computing Project (1
 7-SC-20-SC), a collaborative effort of two U.S. Department of Energy organ
 izations (Office of Science and the National Nuclear Security Administrati
 on). This work was supported by the Laboratory Directed Research and Devel
 opment Program of Lawrence Berkeley National Laboratory under U.S. Departm
 ent of Energy Contract No. DE-AC02-05CH11231.\n\nDomain: Computer Science 
 and Applied Mathematics, Physics
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