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DTSTAMP:20210402T160544Z
LOCATION:Poster Module
DTSTART;TZID=America/New_York:20201119T083000
DTEND;TZID=America/New_York:20201119T170000
UID:submissions.supercomputing.org_SC20_sess337_rpost141@linklings.com
SUMMARY:Parallel Implementation of a Hybrid Particle-Continuum Finite Elem
 ent Framework for Blood Clot Biomechanics
DESCRIPTION:Posters, Research Posters\n\nParallel Implementation of a Hybr
 id Particle-Continuum Finite Element Framework for Blood Clot Biomechanics
 \n\nTeeraratkul, Mukherjee\n\nPathological blood clotting is the primary c
 ause of major cardiovascular diseases. Here we present a distributed-memor
 y parallelized implementation of a hybrid particle-continuum fictitious do
 main finite element framework which is used to study flow and transport ar
 ound a pathologically formed blood clot (thrombus). Understanding how clot
  shape and microstructure affect transport of proteins and drugs is essent
 ial for treatment of such diseases. Our particle-continuum approach repres
 ents a clot as an aggregate of discrete particles. The particle aggregate 
 is projected onto a background fluid grid as fictitious domain data, and c
 ommunicated in accordance with mesh partitions across the distributed memo
 ry processes. We have illustrated details of the parallel implementation u
 sing a parametric study of 2D transient hemodynamics, and a 3D mesh-refine
 ment study.\n\nRegistration Category: Tech Program Reg Pass, Exhibits Reg 
 Pass
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