Add to ORKGAbstract. The Kepler scientific workflow system enables creation, execution and sharing of work-flows across a broad range of scientific and engineering disciplines while also facilitating remote and distributed execution of workflows. In this paper, we present and compare different approaches to distributed execution of workflows using the Kepler environment, including a distributed data-parallel framework using Hadoop and Stratosphere, and Cloud and Grid execution using Serpens, Nimrod/K and Globus actors. We also present real-life applications in computational chemistry, bioinformatics and computational physics to demonstrate the usage of different distributed com-puting capabilities of Kepler in executable workflows. We further analyze ...
Abstract—Robust scientific methods require the exploration of the parameter space of a system (some ...
Large-scale computation-intensive applications in various science fields feature complex DAG-structu...
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...
AbstractScientific workflow systems are designed to compose and execute either a series of computati...
This paper presents the overview of exploitation scenarios making use of the Serpens suite for the K...
Distributed Data-Parallel (DDP) patterns such as MapReduce have become increasingly popular as solut...
AbstractThis paper presents the overview of exploitation scenarios making use of the Serpens suite f...
Scientific workflow tools allow users to specify complex computational experiments and provide a goo...
Over the past five years, our activities have both established Kepler as a viable scientific workflo...
AbstractThe growing scale and complexity of cataloguing and analyzing of astronomical data forces sc...
Clouds are rapidly becoming an important platform for scientific applications. In this paper we desc...
Making use of distributed execution within scientific workflows is a growing and promising methodolo...
Abstract e-Science has been greatly enhanced from the developing capability and usability of cyberin...
Clouds are rapidly becoming an important platform for sci-entific applications. In this paper we des...
Abstract—Robust scientific methods require the exploration of the parameter space of a system (some ...
Large-scale computation-intensive applications in various science fields feature complex DAG-structu...
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...
AbstractScientific workflow systems are designed to compose and execute either a series of computati...
This paper presents the overview of exploitation scenarios making use of the Serpens suite for the K...
Distributed Data-Parallel (DDP) patterns such as MapReduce have become increasingly popular as solut...
AbstractThis paper presents the overview of exploitation scenarios making use of the Serpens suite f...
Scientific workflow tools allow users to specify complex computational experiments and provide a goo...
Over the past five years, our activities have both established Kepler as a viable scientific workflo...
AbstractThe growing scale and complexity of cataloguing and analyzing of astronomical data forces sc...
Clouds are rapidly becoming an important platform for scientific applications. In this paper we desc...
Making use of distributed execution within scientific workflows is a growing and promising methodolo...
Abstract e-Science has been greatly enhanced from the developing capability and usability of cyberin...
Clouds are rapidly becoming an important platform for sci-entific applications. In this paper we des...
Abstract—Robust scientific methods require the exploration of the parameter space of a system (some ...
Large-scale computation-intensive applications in various science fields feature complex DAG-structu...
The wide availability of high-performance computing systems, Grids and Clouds, allowed scientists an...