A high-resolution (1/20°) global ocean general circulation model with Graphics processing units (GPUs) code implementations is developed based on the LASG/IAP Climate system Ocean Model version 3 (LICOM3) under Heterogeneous-compute Interface for Portability (HIP) framework. The dynamic core and physics package of LICOM3 are both ported to the GPU, and 3-dimensional parallelization is applied. The HIP version of the LICOM3 (LICOM3-HIP) is 42 times faster than what the same number of CPU cores dose, when 384 AMD GPUs and CPU cores are used. The LICOM3-HIP has excellent scalability; it can still obtain speedup of more than four on 9216 GPUs comparing to 384 GPUs. In this phase, we successfully performed a test of 1/20° LICOM3-HIP using 6550 n...
Abstract—ROMS is software that models and simulates an ocean region using a finite difference grid a...
Graphics processing unit (GPU) has become a powerful computation platform not only for graphic rende...
The goal of the SDSC effort described here is to evaluate the performance potential of the Oberhuber...
A high-resolution (1/20°) global ocean general circulation model with Graphics processing units (GPU...
The ocean general circulation model (OGCM) is an essential tool for researching oceanography and atm...
Graphics processing units (GPUs) are an attractive solution in many scientific applications due to t...
This paper proposes a series of parallel optimizations on a high-resolution ocean model, the LASG/IA...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
ROMS is software that models and simulates an ocean region using a finite difference grid and time s...
The two-dimensional barotropic vorticity equation is one of the basic equations of ocean dynamics. I...
The new platform of general-purpose computing on graphic processing units(GP-GPU) was employed in ma...
Part 8: High Performance Computing and BigDataInternational audienceWe investigate the scalability o...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Up to 1920 processors of a cluster of distributed shared memory machines at the NASA Ames Research C...
Abstract—ROMS is software that models and simulates an ocean region using a finite difference grid a...
Graphics processing unit (GPU) has become a powerful computation platform not only for graphic rende...
The goal of the SDSC effort described here is to evaluate the performance potential of the Oberhuber...
A high-resolution (1/20°) global ocean general circulation model with Graphics processing units (GPU...
The ocean general circulation model (OGCM) is an essential tool for researching oceanography and atm...
Graphics processing units (GPUs) are an attractive solution in many scientific applications due to t...
This paper proposes a series of parallel optimizations on a high-resolution ocean model, the LASG/IA...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
ROMS is software that models and simulates an ocean region using a finite difference grid and time s...
The two-dimensional barotropic vorticity equation is one of the basic equations of ocean dynamics. I...
The new platform of general-purpose computing on graphic processing units(GP-GPU) was employed in ma...
Part 8: High Performance Computing and BigDataInternational audienceWe investigate the scalability o...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Up to 1920 processors of a cluster of distributed shared memory machines at the NASA Ames Research C...
Abstract—ROMS is software that models and simulates an ocean region using a finite difference grid a...
Graphics processing unit (GPU) has become a powerful computation platform not only for graphic rende...
The goal of the SDSC effort described here is to evaluate the performance potential of the Oberhuber...