The GENIE project has built a Grid enabled framework that facilitates the integration, execution and management of component models for the study of the Earth system over millennial timescales. The existing framework supports collaborative study of GENIE models across heterogeneous compute grids through scripted workflows in the Matlab environment. In this paper, Windows Workflow Foundation technologies are applied to demonstrate the benefits of an environment that provides rapid composition, event driven logic and reliable hosting of scientific workflows. These improvements are demonstrated through a parametric study of bi-stability of the oceanic thermohaline circulation in a GENIE model
The Grid ENabled Integrated Earth system modelling (GENIE) frame-work supports modularity (i.e. inte...
The Geodise project brings computer scientists and engineer's skills together to build up a service-...
A computationally efficient, intermediate complexity ocean-atmosphere-sea ice model (C-GOLDSTEIN) ha...
Abstract. The GENIE project has built a Grid enabled framework that facilitates the integration, exe...
The GENIE project has built a Grid enabled framework that facilitates the integration, execution and...
The GENIE project has built a Grid-enabled Earth system modelling framework that facilitates the int...
The GENIE project is developing a grid based framework for the composition, execution and management...
An understanding of the astonishing and, as yet, unexplained natural variability of past climate is ...
The GENIE project aims to deliver a Grid-based, modular, distributed and scalable Earth System Model...
GENIE is a Grid-enabled framework for composing an extensive range of Earth System Models (ESMs) and...
GENIE is a flexible Earth system modelling framework supporting a distributed community of environme...
The integration of compute and data grids into a common problem solving environment enables collabor...
of atmospheric dynamics and ocean resolution on bi-stability of the thermohaline circulation examine...
Abstract. A computationally efficient, intermediate com-plexity ocean-atmosphere-sea ice model (C-GO...
Next-generation scientific applications feature complex workflows comprised of many computing module...
The Grid ENabled Integrated Earth system modelling (GENIE) frame-work supports modularity (i.e. inte...
The Geodise project brings computer scientists and engineer's skills together to build up a service-...
A computationally efficient, intermediate complexity ocean-atmosphere-sea ice model (C-GOLDSTEIN) ha...
Abstract. The GENIE project has built a Grid enabled framework that facilitates the integration, exe...
The GENIE project has built a Grid enabled framework that facilitates the integration, execution and...
The GENIE project has built a Grid-enabled Earth system modelling framework that facilitates the int...
The GENIE project is developing a grid based framework for the composition, execution and management...
An understanding of the astonishing and, as yet, unexplained natural variability of past climate is ...
The GENIE project aims to deliver a Grid-based, modular, distributed and scalable Earth System Model...
GENIE is a Grid-enabled framework for composing an extensive range of Earth System Models (ESMs) and...
GENIE is a flexible Earth system modelling framework supporting a distributed community of environme...
The integration of compute and data grids into a common problem solving environment enables collabor...
of atmospheric dynamics and ocean resolution on bi-stability of the thermohaline circulation examine...
Abstract. A computationally efficient, intermediate com-plexity ocean-atmosphere-sea ice model (C-GO...
Next-generation scientific applications feature complex workflows comprised of many computing module...
The Grid ENabled Integrated Earth system modelling (GENIE) frame-work supports modularity (i.e. inte...
The Geodise project brings computer scientists and engineer's skills together to build up a service-...
A computationally efficient, intermediate complexity ocean-atmosphere-sea ice model (C-GOLDSTEIN) ha...