International audienceScientific workflows are used routinely in numerous scientific domains, and Workflow Management Systems (WMSs) have been developed to orchestrate and optimize workflow executions on distributed platforms. WMSs are complex software systems that interact with complex software infrastructures. Most WMS research and development activities rely on empirical experiments conducted with full-fledged software stacks on actual hardware platforms. These experiments, however, are limited to hardware and software infrastructures at hand and can be labor-and/or time-intensive. As a result, relying solely on real-world experiments impedes WMS research and development. An alternative is to conduct experiments in simulation. In this wo...
International audienceThis paper presents an end-to-end SimGrid-based simulation of a Monte-Carlo co...
Computer simulations play an increasingly important role to explain or predict phenomena of the real...
International audienceThis paper presents the design, implementation and deployment of a simulation ...
International audienceScientific workflows are used routinely in numerous scientific domains, and Wo...
International audienceScientific workflows are used routinely in numerous scientific domains, and Wo...
Abstract—A significant amount of recent research in scientific workflows aims to develop new techniq...
A key difficulty when designing and evolving CI runtime systems is the need to perform extensive exp...
Abstract—Computational Science on large high performance computing resources is hampered by the comp...
Production ready version of a distributed computing simulator (DCSim) based on WRENCHv2.2 and SimGri...
<div> <div> <div> <p>WRENCH ...
International audienceAs real systems become larger and more complex, the use of simulator framework...
Abstract—This paper presents an approach to design, implement and deploy a simulation platform based...
Abstract: In the distributed computing domain, several approaches have been evolved that allow the u...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
Abstract—This paper presents an approach to design, implement and deploy a simulation platform based...
International audienceThis paper presents an end-to-end SimGrid-based simulation of a Monte-Carlo co...
Computer simulations play an increasingly important role to explain or predict phenomena of the real...
International audienceThis paper presents the design, implementation and deployment of a simulation ...
International audienceScientific workflows are used routinely in numerous scientific domains, and Wo...
International audienceScientific workflows are used routinely in numerous scientific domains, and Wo...
Abstract—A significant amount of recent research in scientific workflows aims to develop new techniq...
A key difficulty when designing and evolving CI runtime systems is the need to perform extensive exp...
Abstract—Computational Science on large high performance computing resources is hampered by the comp...
Production ready version of a distributed computing simulator (DCSim) based on WRENCHv2.2 and SimGri...
<div> <div> <div> <p>WRENCH ...
International audienceAs real systems become larger and more complex, the use of simulator framework...
Abstract—This paper presents an approach to design, implement and deploy a simulation platform based...
Abstract: In the distributed computing domain, several approaches have been evolved that allow the u...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
Abstract—This paper presents an approach to design, implement and deploy a simulation platform based...
International audienceThis paper presents an end-to-end SimGrid-based simulation of a Monte-Carlo co...
Computer simulations play an increasingly important role to explain or predict phenomena of the real...
International audienceThis paper presents the design, implementation and deployment of a simulation ...