Parallel Solver for Blood Flow in Human Vascular System
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Abstract In order to simulate blood flow in human vascular system, the unsteady, three-dimensional, incompressible Navier-Stokes equations are solved numerically. The solver is capable of dealing with moving boundaries and moving grids. A second-order in time and third-order upwind finite volume method for solving time-accurate incompressible flows utilizing pseudo-compressibility technique is used. For parallel execution, the flow domain is partitioned. Communication between the subdomains of the flow on Riken’s VPP/700E supercomputer is implemented using MPI message-passing library. The code is capable of running on both shared and/or distributed memory architectures.
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2010 ◽
Vol 297-301
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pp. 924-929
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Vol 37
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pp. 727-750
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Vol 212
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pp. 269-287
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Vol 29
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pp. 2146-2160
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2013 ◽
Vol 353-356
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pp. 2545-2549