Add to ORKGWe discuss a model for computing the chemical reactions occurring among air pollutants and predict their dispersion in the atmosphere. We consider a parallel implementation on a CRAY T3D, using up to 128 processors. A regular subdomain decomposition is considered to optimize inter-processor communications, while load balancing Ð the main technical di¦culty to obtain a good e¦ciency Ð is achieved by re-assigning temporarily pieces of work to other processors, according to a global strategy. The performance of our implementation is described by an analytical relation whose validity is checked on realistic data sets. A speedup of 100 is obtained with 128 processors
Abstract: The numerical modeling of pollution expansion in parallel mode is considered. Th...
The single instruction stream, multiple data stream Massively Parallel Processor (MPP) unit consists...
International audienceDuring ESCOMPTE precampaign (15 June to 10 July 2000), three days of intensive...
We discuss a model for computing the chemical reactions occurring among air pollutants and predict t...
The use of massively parallel computers provides an avenue to overcome the computational requirement...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
A large-scale global air quality model, running efficiently on a single vector processor, is enhance...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
This work investigates the potential of an in-time parallelization of atmospheric chemical ki- neti...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
Cette thèse présente un modèle bi-dimensionnel pour le transport atmosphérique à grande échelle, nom...
Atmospheric modeling is a grand challenge problem for several reasons, including its inordinate comp...
Despite increasing processing power of systems, sequential programs have limitations to achieve corr...
Abstract: The numerical modeling of pollution expansion in parallel mode is considered. Th...
The single instruction stream, multiple data stream Massively Parallel Processor (MPP) unit consists...
International audienceDuring ESCOMPTE precampaign (15 June to 10 July 2000), three days of intensive...
We discuss a model for computing the chemical reactions occurring among air pollutants and predict t...
The use of massively parallel computers provides an avenue to overcome the computational requirement...
This paper describes a parallel implementation of a grand challenge problem: global atmospheric mode...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
A large-scale global air quality model, running efficiently on a single vector processor, is enhance...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
This work investigates the potential of an in-time parallelization of atmospheric chemical ki- neti...
Atmospheric air quality modeling relies in part on numerical simulation. Required numerical simulati...
Cette thèse présente un modèle bi-dimensionnel pour le transport atmosphérique à grande échelle, nom...
Atmospheric modeling is a grand challenge problem for several reasons, including its inordinate comp...
Despite increasing processing power of systems, sequential programs have limitations to achieve corr...
Abstract: The numerical modeling of pollution expansion in parallel mode is considered. Th...
The single instruction stream, multiple data stream Massively Parallel Processor (MPP) unit consists...
International audienceDuring ESCOMPTE precampaign (15 June to 10 July 2000), three days of intensive...
