Enormous river basin information has been collected by for high resolution of the physically-based distributed hydrological model, while the scales of computational domain are often restricted by the intensive calculation. The parallel algorithms of physically-based regional hydrologic soil model (P-RHSM) in OpenGeoSys are brought forward in this paper. The object-oriented C++ programming in the model approaches the two objectives: one is data structure organizations including the spatial discretization of the computation domain with nodes density arrangement and solutions communication of temporal variables, the other is computational efficiency by parallel computing. The Message passing interface (MPI) communication is implemented in P-RHSM which is carried out on Linux supported symmetric multiprocessing computers. P-RHSM is applied to Heihe basin in the northwest China. The high-resolution results of temporal soil moisture content distribution, front movement and parallel performance is presented.
[1]
Olaf Kolditz,et al.
Object‐oriented finite element analysis of thermo‐hydro‐mechanical (THM) problems in porous media
,
2007
.
[2]
C. Schär,et al.
Soil Control on Runoff Response to Climate Change in Regional Climate Model Simulations
,
2005
.
[3]
Prasad Yarlagadda.
Advances in mechatronics, robotics and automation II : selected, peer reviewed papers from the 2014 2nd International Conference on Mechatronics, Robotics and Automation (ICMRA 2014), March 8-9, 2014, Zhuhai, China
,
2014
.
[4]
P. Kolditz,et al.
Computational Methods in Environmental Fluid Mechanics
,
2002,
Springer Berlin Heidelberg.
[5]
David W. Blowes,et al.
Multicomponent reactive transport modeling in variably saturated porous media using a generalized formulation for kinetically controlled reactions
,
2002
.