Accelerating the Lagrangian Particle Tracking in Hydrologic Modeling to Continental‐Scale

Chen Yang; Carl Ponder; Bei Wang; Hoang Tran; Jun Zhang; Jackson Swilley; Laura Condon; Reed Maxwell

doi:10.1029/2022MS003507

Journal of Advances in Modeling Earth Systems (May 2023)

Accelerating the Lagrangian Particle Tracking in Hydrologic Modeling to Continental‐Scale

Chen Yang,
Carl Ponder,
Bei Wang,
Hoang Tran,
Jun Zhang,
Jackson Swilley,
Laura Condon,
Reed Maxwell

Affiliations

Chen Yang: Department of Civil and Environmental Engineering Princeton University Princeton NJ USA
Carl Ponder: NVIDIA Developer Technology Austin TX USA
Bei Wang: Research Computing Princeton University Princeton NJ USA
Hoang Tran: Atmospheric Science & Global Change Division Pacific Northwest National Laboratory Richland WA USA
Jun Zhang: Key Laboratory of VGE of Ministry of Education Nanjing Normal University Nanjing China
Jackson Swilley: Department of Civil and Environmental Engineering Princeton University Princeton NJ USA
Laura Condon: Department of Hydrology and Atmospheric Sciences The University of Arizona Tucson AZ USA
Reed Maxwell: Department of Civil and Environmental Engineering Princeton University Princeton NJ USA

DOI: https://doi.org/10.1029/2022MS003507
Journal volume & issue: Vol. 15, no. 5
pp. n/a – n/a

Abstract

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Abstract Unprecedented climate change and anthropogenic activities have induced increasing ecohydrological problems, motivating the development of large‐scale hydrologic modeling for solutions. Water age/quality is as important as water quantity for understanding the terrestrial water cycle. However, scientific progress in tracking water parcels at large‐scale with high spatiotemporal resolutions is far behind that in simulating water balance/quantity owing to the lack of powerful modeling tools. EcoSLIM is a particle tracking model working with ParFlow‐CLM that couples integrated surface‐subsurface hydrology with land surface processes. Here, we demonstrate a parallel framework on distributed, multi‐Graphics Processing Unit platforms with Compute Unified Device Architecture‐Aware Message Passing Interface for accelerating EcoSLIM to continental‐scale. In tests from catchment‐, to regional‐, and then to continental‐scale using 25‐million to 1.6‐billion particles, EcoSLIM shows significant speedup and excellent parallel performance. The parallel framework is portable to atmospheric and oceanic particle tracking models, where the parallelization is inadequate, and a standard parallel framework is also absent. The parallelized EcoSLIM is a promising tool to accelerate our understanding of the terrestrial water cycle and the upscaling of subsurface hydrology to Earth System Models.

Published in Journal of Advances in Modeling Earth Systems

ISSN: 1942-2466 (Online)
Publisher: American Geophysical Union (AGU)
Country of publisher: United States
LCC subjects: Geography. Anthropology. Recreation: Physical geography; Geography. Anthropology. Recreation: Oceanography
Website: https://agupubs.onlinelibrary.wiley.com/journal/19422466

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