International audienceScience gateways often rely on workflow engines to execute applications on distributed infrastructures. We investigate six software architectures commonly used to integrate workflow engines into science gateways. In tight integration, the workflow engine shares software components with the science gateway. In service invocation, the engine is isolated and invoked through a specific software interface. In task encapsulation, the engine is wrapped as a computing task executed on the infrastructure. In the pool model, the engine is bundled in an agent that connects to a central pool to fetch and execute workflows. In nested workflows, the engine is integrated as a child process of another engine. In workflow conversion, t...
AbstractScience gateways allow computational scientists to interact with a complex mix of mathematic...
The workflow interoperability problem was successfully solved by the SHIWA project if the workflows ...
Abstract In this paper, we leverage the previous work on the SHIWA bundling format and expand on thi...
International audienceScience gateways often rely on workflow engines to execute applications on dis...
Distributed scientific and engineering computations on service-oriented architectures are often repr...
The importance of workflows is highlighted by the fact that they have underpinned some of the most s...
In this paper, we leverage the previous work on the SHIWA bundling format and expand on this specifi...
International audienceIn this paper, we leverage the previous work on the SHIWA bundling format and ...
Science gateways allow computational scientists to interact with a complex mix of mathematical model...
In this paper we present a solution to cloud-enable workflow-oriented science gateways. The integr...
Today there exist a wide variety of scientific workflow management systems, each designed to fulfill...
Next-generation scientific applications feature complex workflows comprised of many computing module...
AbstractScience gateways allow computational scientists to interact with a complex mix of mathematic...
The workflow interoperability problem was successfully solved by the SHIWA project if the workflows ...
Abstract In this paper, we leverage the previous work on the SHIWA bundling format and expand on thi...
International audienceScience gateways often rely on workflow engines to execute applications on dis...
Distributed scientific and engineering computations on service-oriented architectures are often repr...
The importance of workflows is highlighted by the fact that they have underpinned some of the most s...
In this paper, we leverage the previous work on the SHIWA bundling format and expand on this specifi...
International audienceIn this paper, we leverage the previous work on the SHIWA bundling format and ...
Science gateways allow computational scientists to interact with a complex mix of mathematical model...
In this paper we present a solution to cloud-enable workflow-oriented science gateways. The integr...
Today there exist a wide variety of scientific workflow management systems, each designed to fulfill...
Next-generation scientific applications feature complex workflows comprised of many computing module...
AbstractScience gateways allow computational scientists to interact with a complex mix of mathematic...
The workflow interoperability problem was successfully solved by the SHIWA project if the workflows ...
Abstract In this paper, we leverage the previous work on the SHIWA bundling format and expand on thi...