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7 research outputs found

The influence of red blood cell deformability on hematocrit profiles and platelet margination

Author: Czaja B.
de Kanter D.
Eniola-Adefeso O.
Gutierrez M.
Hoekstra A.
Závodszky G.
Publication venue: 'Public Library of Science (PLoS)'
Publication date: 12/03/2020
Field of study

International Migration, Integration and Social Cohesion online publications

A Heterogeneous Multi-scale Model for Blood Flow

Author: A Abdulle
A Updegrove
AG Hoekstra
DA Fedosov
DA Fedosov
E Lorenz
E Weinan
F Abraham
G Barshtein
G Zavodszky
G Závodszky
G Závodszky
G Závodszky
GR Cokelet
J Jung
L Dintenfass
LT Cheng
P Bagchi
R Fåhræus
S Alowayyed
S Chen
S Chien
S Nadeem
SA Alowayyed
TM Fischer
VA Tarksalooyeh
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2020
Field of study

Crossref

International Migration, Integration and Social Cohesion online publications

UvA-DARE

Platelet adhesion and aggregation in high shear blood flow:An <i>in silico</i> and <i>in vitro</i> study

Author: van Rooij B.J.M.
Publication venue
Publication date: 01/01/2020
Field of study

International Migration, Integration and Social Cohesion online publications

UvA-DARE

Computational models for hemodynamic management in critically ill patients:a systematic review

Author: Donker Dirk W.
Fresiello Libera
Mulder M.P.
Publication venue
Publication date: 06/09/2022
Field of study

University of Twente Research Information

Clinical testing of a non-invasive method for lung compliance estimation during pressure support ventilation

Author: Cornet Alexander Daniel
Donker Dirk W.
Oppersma Eline
Warnaar Rob
Publication venue
Publication date: 07/09/2022
Field of study

University of Twente Research Information

Optimizing Parallel Performance of the Cell Based Blood Flow Simulation Software HemoCell

Author: Azizi Tarksalooyeh V.
Cardoso P.J.S.
Dongarra J.J.
Hoekstra A.G.
Krzhizhanovskaya V.V.
Lam R.
Lees M.H.
Monteiro J.
Rodrigues J.M.F.
Sloot P.M.A.
Závodszky G.
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2019
Field of study

Large scale cell based blood flow simulations are expensive, both in time and resource requirements. HemoCell can perform such simulations on high performance computing resources by dividing the simulation domain into multiple blocks. This division has a performance impact caused by the necessary communication between the blocks. In this paper we implement an efficient algorithm for computing the mechanical model for HemoCell together with an improved communication structure. The result is an up to 4 times performance increase for blood flow simulations performed with HemoCell

Optimizing Parallel Performance of the Cell Based Blood Flow Simulation Software HemoCell

Author: A Farb
B Czaja
CS Peskin
DA Fedosov
E Moeendarbary
G Závodszky
J Tan
L Augsburger
L Mountrakis
L Mountrakis
M Bernaschi
P Bagchi
R Ouared
T Skorczewski
T Ye
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2019
Field of study

Crossref

International Migration, Integration and Social Cohesion online publications

UvA-DARE