Scientific computing applications involving complex simulations and data-intensive processing are often composed of multiple tasks forming a workflow of computing jobs. Scientific communities running such applications on computing resources often find it cumbersome to manage and monitor the execution of these tasks and their associated data. These workflow implementations usually add overhead by introducing unnecessary input/output (I/O) for coupling the models and can lead to sub-optimal CPU utilization. Furthermore, running these workflow implementations in different environments requires significant adaptation efforts, which can hinder the reproducibility of the underlying science. High-level scientific workflow management systems (WMS) ...
Abstract: In the distributed computing domain, several approaches have been evolved that allow the u...
Scientific exploration demands heavy usage of computational resources for large-scale and deep analy...
Progress in science is deeply bound to the effective use of high-performance computing infrastructur...
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...
Scientific workflows are a cornerstone of modern scientific computing, and they have underpinned som...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
Workflows have been used traditionally as a mean to describe and implement the computing usually par...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
Next-generation scientific applications feature complex workflows comprised of many computing module...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Large-scale data-intensive streaming applications in various science fields feature complex DAG-stru...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Scientific work flows are common and powerful tools used to elevate small scale analysis to large sc...
Problems in modeling and simulation require significantly different workflow management technologies...
Abstract: In the distributed computing domain, several approaches have been evolved that allow the u...
Scientific exploration demands heavy usage of computational resources for large-scale and deep analy...
Progress in science is deeply bound to the effective use of high-performance computing infrastructur...
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...
Scientific workflows are a cornerstone of modern scientific computing, and they have underpinned som...
Emerging coupled scientific simulation workflows are composed of multiple component applications tha...
Workflows have been used traditionally as a mean to describe and implement the computing usually par...
Modern scientific collaborations have opened up the opportunity to solve complex problems that requi...
Next-generation scientific applications feature complex workflows comprised of many computing module...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...
Large-scale data-intensive streaming applications in various science fields feature complex DAG-stru...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Scientific work flows are common and powerful tools used to elevate small scale analysis to large sc...
Problems in modeling and simulation require significantly different workflow management technologies...
Abstract: In the distributed computing domain, several approaches have been evolved that allow the u...
Scientific exploration demands heavy usage of computational resources for large-scale and deep analy...
Progress in science is deeply bound to the effective use of high-performance computing infrastructur...