A challenge for Grid computing is the difficulty in developing software that is parallel, distributed and highly dynamic. Whilst there have been many general purpose mechanisms developed over the years, Grid programming still remains a low level, error prone task. Scientific workflow engines can double as programming environments, and allow a user to compose ‘virtual ’ Grid applications from pre-existing components. Whilst existing workflow engines can specify arbitrary parallel programs, (where components use message passing) they are typically not effective with large and variable parallelism. Here we discuss dynamic dataflow, originally developed for parallel tagged dataflow architectures (TDAs), and show that these can be used for imple...
Many scientific disciplines are now data and information driven, and new scientific knowledge is oft...
One approach to Grid application programming is to implement services with often-used functionality ...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments ...
Scientific workflow tools allow users to specify complex computational experiments and provide a goo...
Abstract—Robust scientific methods require the exploration of the parameter space of a system (some ...
Whereas a consensus has been reached on defining the set of workflow patterns for business process m...
Grid brings the power of many computers to scientists. However, the development of Grid-enabled appl...
Abstract—This paper provides an overview of the Concurrency&Computation: Practice&Experience...
Distributed Data-Parallel (DDP) patterns such as MapReduce have become increasingly popular as solut...
Abstract. The Kepler scientific workflow system enables creation, execution and sharing of work-flow...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Grid computing is now becoming a new computing paradigm and solution for distributed systems and app...
eScience applications need to use distributed Grid environments where each component is an individua...
Built on Internet and World Wide Web, the Grid is a new class of infrastructure which supports coord...
Over the last two decades, scientific workflow management systems (SWfMS) have emerged as a means to...
Many scientific disciplines are now data and information driven, and new scientific knowledge is oft...
One approach to Grid application programming is to implement services with often-used functionality ...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments ...
Scientific workflow tools allow users to specify complex computational experiments and provide a goo...
Abstract—Robust scientific methods require the exploration of the parameter space of a system (some ...
Whereas a consensus has been reached on defining the set of workflow patterns for business process m...
Grid brings the power of many computers to scientists. However, the development of Grid-enabled appl...
Abstract—This paper provides an overview of the Concurrency&Computation: Practice&Experience...
Distributed Data-Parallel (DDP) patterns such as MapReduce have become increasingly popular as solut...
Abstract. The Kepler scientific workflow system enables creation, execution and sharing of work-flow...
In the last decade we witnessed an immense evolution of the computing infrastructures in terms of p...
Grid computing is now becoming a new computing paradigm and solution for distributed systems and app...
eScience applications need to use distributed Grid environments where each component is an individua...
Built on Internet and World Wide Web, the Grid is a new class of infrastructure which supports coord...
Over the last two decades, scientific workflow management systems (SWfMS) have emerged as a means to...
Many scientific disciplines are now data and information driven, and new scientific knowledge is oft...
One approach to Grid application programming is to implement services with often-used functionality ...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments ...