The present work describes the analysis and optimisation of the PELAGOS025 configuration based on the coupling of the NEMO physic component of the ocean dynamics and the BFM (Biogeochemical Flux Model), a sophisticated biogeochemical model that can simulate both pelagic and benthic processes. The methodology here followed is characterised by the performance analysis of the original parallel code, in terms of strong scalability, the definition of the bottlenecks limiting the scalability when the number of processes increases, the analysis of the features of the most computational intensive kernels through the Roofline model which provides an insightful visual performance model for multicore architectures and which allows to measure and compa...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
HPC has evolved in the last years from a technology crucial to the academic research community to a ...
The present work aims at evaluating the scalabil- ity performance of a high-resolution global ocean ...
The NEMO (Nucleus for European Modeling of the Ocean) oceanic model is one of the most widely used b...
A study of the scalability of the Finite-volumE Sea ice–Ocean circulation Model, Version 2.0 (FESOM2...
This paper presents the development of a general-purpose parallel ocean circulation model, for use ...
International audienceOceanic numerical models are used to understand and predict a wide range of pr...
International audienceIn order to explore the effects of mesoscale eddies on marine biogeochemistry ...
Earth System Models are critical tools for the study of our climate and its future trends. These mod...
The central objective of work package 1 of ESiWACE2 is to develop and run coupled model simulations ...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
HPC has evolved in the last years from a technology crucial to the academic research community to a ...
The present work aims at evaluating the scalabil- ity performance of a high-resolution global ocean ...
The NEMO (Nucleus for European Modeling of the Ocean) oceanic model is one of the most widely used b...
A study of the scalability of the Finite-volumE Sea ice–Ocean circulation Model, Version 2.0 (FESOM2...
This paper presents the development of a general-purpose parallel ocean circulation model, for use ...
International audienceOceanic numerical models are used to understand and predict a wide range of pr...
International audienceIn order to explore the effects of mesoscale eddies on marine biogeochemistry ...
Earth System Models are critical tools for the study of our climate and its future trends. These mod...
The central objective of work package 1 of ESiWACE2 is to develop and run coupled model simulations ...
It is a matter of consensus that the ability to efficiently use current and future high performance ...
Global climate modeling is one of the grand challenges of computational science, and ocean modeling ...
HPC has evolved in the last years from a technology crucial to the academic research community to a ...