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DTSTAMP:20230831T095754Z
LOCATION:Flüela
DTSTART;TZID=Europe/Stockholm:20230627T140000
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UID:submissions.pasc-conference.org_PASC23_sess181@linklings.com
SUMMARY:AP2B - ACM Papers Session 2B
DESCRIPTION:Paper\n\nHardware-Agnostic Interactive Exascale In Situ Visual
 ization of Particle-In-Cell Simulations\n\nThe volume of data generated by
  exascale simulations requires scalable tools for analysis and visualizati
 on. Due to the relatively low I/O bandwidth of modern HPC systems, it is c
 rucial to work as close as possible with simulated data via in situ approa
 ches. In situ visualization provides insights i...\n\n\nFelix Meyer (Helmh
 oltz-Zentrum Dresden-Rossendorf, TU Dresden); Benjamin Hernandez (Oak Ridg
 e National Laboratory); Richard Pausch and Rene Widera (Helmholtz-Zentrum 
 Dresden-Rossendorf); David Groß (TU Dresden); Sergei Bastrakov (Helmholtz-
 Zentrum Dresden-Rossendorf); Axel Huebl (Lawrence Berkeley National Labora
 tory); Guido Juckeland and Jeffrey Kelling (Helmholtz-Zentrum Dresden-Ross
 endorf); Matt Leinhauser (University of Delaware, CASUS); David Rogers (Oa
 k Ridge National Laboratory); Ulrich Schramm (Helmholtz-Zentrum Dresden-Ro
 ssendorf, TU Dresden); Klaus Steiniger (Helmholtz-Zentrum Dresden-Rossendo
 rf); Stefan Gumhold (TU Dresden); Jeff Young (Georgia Institute of Technol
 ogy); Michael Bussmann (Helmholtz-Zentrum Dresden-Rossendorf, CASUS); Suni
 ta Chandrasekaran (University of Delaware); and Alexander Debus (Helmholtz
 -Zentrum Dresden-Rossendorf)\n---------------------\nCornerstone: Octree C
 onstruction Algorithms for Scalable Particle Simulations\n\nThis paper pre
 sents an octree construction method, called Cornerstone, that facilitates 
 global domain decomposition and interactions between particles in mesh-fre
 e numerical simulations. Our method is based on algorithms developed for 3
 D computer graphics, which we extend to distributed high perform...\n\n\nS
 ebastian Keller (ETH Zurich / CSCS), Aurélien Cavelan and Rubén Cabezon (U
 niversity of Basel), Lucio Mayer (University of Zurich), and Florina Ciorb
 a (University of Basel)\n---------------------\nScalable Riemann Solvers w
 ith the Discontinuous Galerkin Method for Hyperbolic Network Simulation\n\
 nWe develop a set of highly efficient and effective computational algorith
 ms and simulation tools for fluid simulations on a network. The mathematic
 al models are a set of hyperbolic conservation laws on edges of a network,
  as well as coupling conditions on junctions of a network. For example, th
 e sha...\n\n\nAidan Hamilton (University of Delaware, Argonne National Lab
 oratory); Jingmei Qiu (University of Delaware); and Hong Zhang (Illinois I
 nstitute of Technology)\n\nDomain: Physics, Computer Science, Machine Lear
 ning, and Applied Mathematics &#8232;\n\nSession Chair: Theofilos Manitaras (ETH
  Zurich / CSCS)
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