Unconventional multi-core processors (e.g., IBM Cell B/E and NYIDIDA GPU) have emerged as accelerators in climate simulation. However, climate models typically run on parallel computers with conventional processors (e.g., Intel and AMD) using MPI. Connecting accelerators to this architecture efficiently and easily becomes a critical issue. When using MPI for connection, we identified two challenges: (1) identical MPI implementation is required in both systems, and; (2) existing MPI code must be modified to accommodate the accelerators. In response, we have extended and deployed IBM Dynamic Application Virtualization (DAV) in a hybrid computing prototype system (one blade with two Intel quad-core processors, two IBM QS22 Cell blades, connect...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
AbstractThe article is concerned with the relevant problem of effective mapping of existing applicat...
Ongoing climate change calls for fast and accurate weather and climate modeling. However, when solvi...
Unconventional multi- and many-core processors (e.g. IBM (R) Cell B.E.(TM) and NVIDIA (R) GPU) have ...
The call for ever-increasing model resolutions and physical processes in climate and weather models ...
The call for ever-increasing model resolutions and physical processes in climate and weather models...
NASA is interested in the performance and cost benefits for adapting its applications to the IBM Cel...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Abstract—Accelerators have become critical in the process to develop supercomputers with exascale co...
This work is distributed under the Creative Commons Attribution 3.0 License.-- et al.We have optimis...
The performance and scalability of atmospheric transport models on high performance computing enviro...
A comprehensive climate system model is under development at Lawrence Livermore National Laboratory....
Heterogeneous multicore chipsets with many levels of parallelism are becoming increasingly common in...
Ongoing climate change calls for fast and accurate weather and climate modeling. However, when solvi...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
AbstractThe article is concerned with the relevant problem of effective mapping of existing applicat...
Ongoing climate change calls for fast and accurate weather and climate modeling. However, when solvi...
Unconventional multi- and many-core processors (e.g. IBM (R) Cell B.E.(TM) and NVIDIA (R) GPU) have ...
The call for ever-increasing model resolutions and physical processes in climate and weather models ...
The call for ever-increasing model resolutions and physical processes in climate and weather models...
NASA is interested in the performance and cost benefits for adapting its applications to the IBM Cel...
Weather and climate models are severely limited by the strong scaling ability with respect to achiev...
We present an analysis of the performance aspects of an atmospheric general circulation model at the...
Abstract—Accelerators have become critical in the process to develop supercomputers with exascale co...
This work is distributed under the Creative Commons Attribution 3.0 License.-- et al.We have optimis...
The performance and scalability of atmospheric transport models on high performance computing enviro...
A comprehensive climate system model is under development at Lawrence Livermore National Laboratory....
Heterogeneous multicore chipsets with many levels of parallelism are becoming increasingly common in...
Ongoing climate change calls for fast and accurate weather and climate modeling. However, when solvi...
The scientific demand for more accurate modeling of the climate system calls for more computing powe...
AbstractThe article is concerned with the relevant problem of effective mapping of existing applicat...
Ongoing climate change calls for fast and accurate weather and climate modeling. However, when solvi...