The climate numerical models require a considerable amount of computing power. The modern parallel architectures provide the needed computing power to perform scientific simulations at acceptable resolutions. However, the efficiency of the exploitation of the parallel architectures by the climate models is often poor. Several factors influence the parallel efficiency such as the parallel overhead due to the communications among concurrent tasks, the memory contention among tasks on the same computing node, the load balancing and the tasks synchronization. The work here described aims at addressing two of the factors influencing the efficiency: the communications and the memory contention. The used approach is based on the optimal mapping of...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
In the High Performance Computing context, the performance evaluation of a parallel algorithm is car...
Earth System Models are critical tools for the study of our climate and its future trends. These mod...
The NEMO (Nucleus for European Modeling of the Ocean) oceanic model is one of the most widely used b...
The present work aims at evaluating the scalability performance of a high-resolution global ocean bi...
The NEMO oceanic model, characterized by a resolution of 1/16◦and tailored on the Mediterranean Basi...
This paper focuses on the parallelization of an ocean model applying current multicore processor-bas...
Abstract—We present a new method for mapping applica-tions ’ MPI tasks to cores of a parallel comput...
This work describes the introduction of a second level of parallelism based on the OpenMP shared mem...
A faire apr`es Keywords: Parallel environment, Distributed-memory machines, Load-balancing, Mapping...
International audienceCommunications in distributed memory supercomputers are still limiting scalabi...
The prediction of the climate system is highly depended on the efficient integration of observations...
Abstract: The computer industry has evolved from single-core to many-core architectures to keep offe...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
In the High Performance Computing context, the performance evaluation of a parallel algorithm is car...
Earth System Models are critical tools for the study of our climate and its future trends. These mod...
The NEMO (Nucleus for European Modeling of the Ocean) oceanic model is one of the most widely used b...
The present work aims at evaluating the scalability performance of a high-resolution global ocean bi...
The NEMO oceanic model, characterized by a resolution of 1/16◦and tailored on the Mediterranean Basi...
This paper focuses on the parallelization of an ocean model applying current multicore processor-bas...
Abstract—We present a new method for mapping applica-tions ’ MPI tasks to cores of a parallel comput...
This work describes the introduction of a second level of parallelism based on the OpenMP shared mem...
A faire apr`es Keywords: Parallel environment, Distributed-memory machines, Load-balancing, Mapping...
International audienceCommunications in distributed memory supercomputers are still limiting scalabi...
The prediction of the climate system is highly depended on the efficient integration of observations...
Abstract: The computer industry has evolved from single-core to many-core architectures to keep offe...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
In the High Performance Computing context, the performance evaluation of a parallel algorithm is car...
Earth System Models are critical tools for the study of our climate and its future trends. These mod...