Large-scale computation-intensive applications in various science fields feature complex DAG-structured workflows comprised of distributed computing modules with intricate inter-module dependencies. Supporting such workflows in heterogeneous network environments and optimizing their end-to-end performance are crucial to the success of large-scale collaborative scientific applications. We design and develop a generic Scientific Workflow Automation and Management Platform (SWAMP), which contains a set of easy-to-use computing and networking toolkits for application scientists to conveniently assemble, execute, monitor, and control complex computing workflows in distributed network environments. The current version of SWAMP integrates the grap...
Scientific computing applications involving complex simulations and data-intensive processing are of...
Automation of the execution of computational tasks is at the heart of improving scientific productiv...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Next-generation scientific applications feature complex workflows comprised of many computing module...
Large-scale data-intensive streaming applications in various science fields feature complex DAG-stru...
Making use of distributed execution within scientific workflows is a growing and promising methodolo...
Scientific exploration demands heavy usage of computational resources for large-scale and deep analy...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Many scientific disciplines are now data and information driven, and new scientific knowledge is oft...
Progress in science is deeply bound to the effective use of high-performance computing infrastructur...
Abstract e-Science has been greatly enhanced from the developing capability and usability of cyberin...
Abstract—A significant amount of recent research in scientific workflows aims to develop new techniq...
Enabling scientists to use remote distributed infrastructures, parametrize and execute common scienc...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
Abstract. The Kepler scientific workflow system enables creation, execution and sharing of work-flow...
Scientific computing applications involving complex simulations and data-intensive processing are of...
Automation of the execution of computational tasks is at the heart of improving scientific productiv...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Next-generation scientific applications feature complex workflows comprised of many computing module...
Large-scale data-intensive streaming applications in various science fields feature complex DAG-stru...
Making use of distributed execution within scientific workflows is a growing and promising methodolo...
Scientific exploration demands heavy usage of computational resources for large-scale and deep analy...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Many scientific disciplines are now data and information driven, and new scientific knowledge is oft...
Progress in science is deeply bound to the effective use of high-performance computing infrastructur...
Abstract e-Science has been greatly enhanced from the developing capability and usability of cyberin...
Abstract—A significant amount of recent research in scientific workflows aims to develop new techniq...
Enabling scientists to use remote distributed infrastructures, parametrize and execute common scienc...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
Abstract. The Kepler scientific workflow system enables creation, execution and sharing of work-flow...
Scientific computing applications involving complex simulations and data-intensive processing are of...
Automation of the execution of computational tasks is at the heart of improving scientific productiv...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...