Automation of the execution of computational tasks is at the heart of improving scientific productivity. Over the last years, scientific workflows have been established as an important abstraction that captures data processing and computation of large and complex scientific applications. By allowing scientists to model and express entire data processing steps and their dependencies, workflow management systems relieve scientists from the details of an application and manage its execution on a computational infrastructure. As the resource requirements of today’s computational and data science applications that process vast amounts of data keep increasing, there is a compelling case for a new generation of advances in high-performance computi...
Scientific workflows are a cornerstone of modern scientific computing, and they have underpinned som...
International audienceNowadays, more and more computer-based scientific experiments need to handle m...
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...
Workflows have been used traditionally as a mean to describe and implement the computing usually par...
Workflows have recently emerged as a paradigm for representing and managing complex distributed scie...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Computational science is well established as the third pillar of scientific discovery and is on par ...
Over the last two decades, scientific workflow management systems (SWfMS) have emerged as a means to...
International audienceWorkflows may be defined as abstractions used to model the coherent flow of ac...
International audienceMany large-scale scientific applications require the processing of complete da...
Scientific workflows require the coordination of data processing activities, resulting in executions...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
Abstract: Researchers working on the planning, scheduling, and execution of scientific workflows nee...
Workflow management has been widely adopted by scientific communities as a valuable tool to carry ou...
Scientific workflows are a cornerstone of modern scientific computing, and they have underpinned som...
International audienceNowadays, more and more computer-based scientific experiments need to handle m...
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...
Workflows have been used traditionally as a mean to describe and implement the computing usually par...
Workflows have recently emerged as a paradigm for representing and managing complex distributed scie...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Computational science is well established as the third pillar of scientific discovery and is on par ...
Over the last two decades, scientific workflow management systems (SWfMS) have emerged as a means to...
International audienceWorkflows may be defined as abstractions used to model the coherent flow of ac...
International audienceMany large-scale scientific applications require the processing of complete da...
Scientific workflows require the coordination of data processing activities, resulting in executions...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
Abstract: Researchers working on the planning, scheduling, and execution of scientific workflows nee...
Workflow management has been widely adopted by scientific communities as a valuable tool to carry ou...
Scientific workflows are a cornerstone of modern scientific computing, and they have underpinned som...
International audienceNowadays, more and more computer-based scientific experiments need to handle m...
Scientific computing applications involving complex simulations and data-intensive processing are of...