In this work, the numerical simulation of the thermal convection in the Earth's outer core for CPU-MIC heterogeneous many-core systems is studied. Firstly, ...
Experiments on Tianhe-2 Supercomputer show that as compared to the original code, our Xeon Phi- accelerated design is able to deliver 6.93x and 6.00x speedups.
Request PDF | On Dec 1, 2016, Changmao Wu and others published Accelerating the Simulation of Thermal Convection in the Earth's Outer Core on Tianhe-2 ...
Accelerating the Simulation of Thermal Convection in the Earth's ...
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Experiments on Tianhe-2 Supercomputer show that as compared to the original code, our Xeon Phiaccelerated design is able to deliver 6.93x and 6.00x speedups for ...
Accelerating the Simulation of Thermal Convection in the Earth's Outer Core on Tianhe-2. C. Wu, F. Liu, C. Yang, L. Li, H. Zhao, Y. Lu, L. Li, and Y. Du.
Large-scale simulation of the thermal convection in the Earth's outer core is studied. Starting from a legacy parallel code using Aztec and MPI, two ...
Accelerating the Simulation of Thermal Convection in the Earth's Outer Core on Tianhe-2. ICPADS 2016: 800-809. [c2]. view. electronic edition via DOI ...
Oct 30, 2019 · A parallel fully implicit finite volume solver for the thermal convection problem in the Earth's outer core is presented.
In this paper, we propose a CPU and Intel® Xeon Phi Many Integrated Core (MIC) collaborated parallel framework to accelerate GROMACS using the offload mode on a ...
Accelerating the simulation of thermal convection in the earth's outer core on tianhe-2. C Wu, F Liu, C Yang, L Li, H Zhao, Y Lu, L Li, Y Du. 2016 IEEE 22nd ...