As scientific workflows are becoming more complex and apply compute-intensive methods to increasingly large data volumes, access to HPC resources is becoming mandatory. We describe the development of a novel plugin for the Taverna workflow system, which provides transparent and secure access to HPC/grid resources via the UNICORE grid middleware, while maintaining the ease of use that has been the main reason for the success of scientific workflow systems. A use case from the bioinformatics domain demonstrates the potential of the UNICORE plugin for Taverna by creating a scientific workflow that executes the central parts in parallel on a cluster resource
Resource-intensive and complex medical imaging applications can benefit from the use of scientific w...
The Taverna workflow management system is an open source project with a history of widespread adopti...
The goal of comprehensive provenance tracking in the scientific environment should be the inclusion ...
Scientific workflows have emerged as a flexible and easily comprehensible way to implement complex m...
Scientific workflows have emerged as a flexible and easily comprehensible way to implement complex m...
Background and objective: To address the increasing need for collaborative endeavours within the Vir...
Summary: This work presents two independent approaches for a seamless integration of computational g...
The Taverna workflow tool suite (http://www.taverna.org.uk) is designed to combine distributed Web S...
As modern science requires modern approaches, vast collaborations comprising federated resources on ...
Biological research is increasingly dependent on analyzing vast amounts of microscopy datasets. Tech...
Nowadays more and more scientists require a lot of high performance computing power to run their com...
The UNICORE (UNiform Interface to COmputing REsources) software provides a Grid infrastructure toget...
This paper gives an overview of the goals, functions, architecture and future development of UNICORE...
UNICORE is a mature middleware solution for building federated computing and data infrastructures (i...
Nowadays, HPC, Grid and Cloud systems are evolving very rapidly. However, the development of infrast...
Resource-intensive and complex medical imaging applications can benefit from the use of scientific w...
The Taverna workflow management system is an open source project with a history of widespread adopti...
The goal of comprehensive provenance tracking in the scientific environment should be the inclusion ...
Scientific workflows have emerged as a flexible and easily comprehensible way to implement complex m...
Scientific workflows have emerged as a flexible and easily comprehensible way to implement complex m...
Background and objective: To address the increasing need for collaborative endeavours within the Vir...
Summary: This work presents two independent approaches for a seamless integration of computational g...
The Taverna workflow tool suite (http://www.taverna.org.uk) is designed to combine distributed Web S...
As modern science requires modern approaches, vast collaborations comprising federated resources on ...
Biological research is increasingly dependent on analyzing vast amounts of microscopy datasets. Tech...
Nowadays more and more scientists require a lot of high performance computing power to run their com...
The UNICORE (UNiform Interface to COmputing REsources) software provides a Grid infrastructure toget...
This paper gives an overview of the goals, functions, architecture and future development of UNICORE...
UNICORE is a mature middleware solution for building federated computing and data infrastructures (i...
Nowadays, HPC, Grid and Cloud systems are evolving very rapidly. However, the development of infrast...
Resource-intensive and complex medical imaging applications can benefit from the use of scientific w...
The Taverna workflow management system is an open source project with a history of widespread adopti...
The goal of comprehensive provenance tracking in the scientific environment should be the inclusion ...