We present a framework based on Domain Decomposition approach (we call it DD-framework), for solving Variational Data Assimilation problem. DD-framework involves a size reduction of the physical domain, a partitioning of the solution and a modification of the regularization functional describing the Variational DA problem. We provide a mathematical justification and we show a study of DD approach (in terms of numerical conditioning and in terms of time complexity). We present a project for the design of a DD- framework to OceanVAR software to effectively take advantage of the available High Performance Computing resources and to handle very big data. That was achieved using multi-level parallelism and scalability of the current and the next generation of leadership computing facility systems (multi processors, many cores and GPUs).
Data Assimilation Achievements in HPC sysyems: experiments on OceanVar in the Mediterranean Sea / Arcucci, Rossella; D'Amore, Luisa; Carracciuolo, Luisa; Murli, Almerico. - STAMPA. - (2013). (Intervento presentato al convegno Annual Meeting CMCC tenutosi a Ugento (lecce), ITALY nel 4-6 june 2013).
Data Assimilation Achievements in HPC sysyems: experiments on OceanVar in the Mediterranean Sea
ARCUCCI, ROSSELLA;D'AMORE, LUISA;CARRACCIUOLO, LUISA;MURLI, ALMERICO
2013
Abstract
We present a framework based on Domain Decomposition approach (we call it DD-framework), for solving Variational Data Assimilation problem. DD-framework involves a size reduction of the physical domain, a partitioning of the solution and a modification of the regularization functional describing the Variational DA problem. We provide a mathematical justification and we show a study of DD approach (in terms of numerical conditioning and in terms of time complexity). We present a project for the design of a DD- framework to OceanVAR software to effectively take advantage of the available High Performance Computing resources and to handle very big data. That was achieved using multi-level parallelism and scalability of the current and the next generation of leadership computing facility systems (multi processors, many cores and GPUs).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
