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Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts.

Publication ,  Conference
Roychowdhury, S; Balogh, P; Mahmud, ST; Puleri, DF; Martin, A; Gounley, J; Draeger, EW; Randles, A
Published in: International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings]. SC (Conference : Supercomputing)
November 2023

Simulations of cancer cell transport require accurately modeling mm-scale and longer trajectories through a circulatory system containing trillions of deformable red blood cells, whose intercellular interactions require submicron fidelity. Using a hybrid CPU-GPU approach, we extend the advanced physics refinement (APR) method to couple a finely-resolved region of explicitly-modeled red blood cells to a coarsely-resolved bulk fluid domain. We further develop algorithms that: capture the dynamics at the interface of differing viscosities, maintain hematocrit within the cell-filled volume, and move the finely-resolved region and encapsulated cells while tracking an individual cancer cell. Comparison to a fully-resolved fluid-structure interaction model is presented for verification. Finally, we use the advanced APR method to simulate cancer cell transport over a mm-scale distance while maintaining a local region of RBCs, using a fraction of the computational power required to run a fully-resolved model.

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Published In

International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings]. SC (Conference : Supercomputing)

DOI

EISSN

2167-4337

ISSN

2167-4329

Publication Date

November 2023

Volume

2023

Start / End Page

41
 

Citation

APA
Chicago
ICMJE
MLA
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Roychowdhury, S., Balogh, P., Mahmud, S. T., Puleri, D. F., Martin, A., Gounley, J., … Randles, A. (2023). Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts. In International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings]. SC (Conference : Supercomputing) (Vol. 2023, p. 41). https://doi.org/10.1145/3581784.3607105
Roychowdhury, Sayan, Peter Balogh, Samreen T. Mahmud, Daniel F. Puleri, Aristotle Martin, John Gounley, Erik W. Draeger, and Amanda Randles. “Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts.” In International Conference for High Performance Computing, Networking, Storage and Analysis : [Proceedings]. SC (Conference : Supercomputing), 2023:41, 2023. https://doi.org/10.1145/3581784.3607105.
Roychowdhury S, Balogh P, Mahmud ST, Puleri DF, Martin A, Gounley J, et al. Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts. In: International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings] SC (Conference : Supercomputing). 2023. p. 41.
Roychowdhury, Sayan, et al. “Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts.International Conference for High Performance Computing, Networking, Storage and Analysis : [Proceedings]. SC (Conference : Supercomputing), vol. 2023, 2023, p. 41. Epmc, doi:10.1145/3581784.3607105.
Roychowdhury S, Balogh P, Mahmud ST, Puleri DF, Martin A, Gounley J, Draeger EW, Randles A. Enhancing Adaptive Physics Refinement Simulations Through the Addition of Realistic Red Blood Cell Counts. International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings] SC (Conference : Supercomputing). 2023. p. 41.

Published In

International Conference for High Performance Computing, Networking, Storage and Analysis : [proceedings]. SC (Conference : Supercomputing)

DOI

EISSN

2167-4337

ISSN

2167-4329

Publication Date

November 2023

Volume

2023

Start / End Page

41