Towards extending the SWITCH platform for time-critical, cloud-based CUDA applications: Job scheduling parameters influencing performance

Abstract: SWITCH (Software Workbench for Interactive, Time Critical and Highly self-adaptive cloud applications) allows for the development and deployment of real-time applications in the cloud, but it does not yet support instances backed by Graphics Processing Units (GPUs). Wanting to explore how SWITCH might support CUDA (a GPU architecture) in the future, we have undertaken a review of time-critical CUDA applications, discovering that run-time requirements (which we call 'wall time') are in many cases regarded as th… Show more

“…Štefanič et al presented the workbench architecture and a novel cooperative programming and control model for developing and operating time-critical applications in Cloud environments [7]. In the same project, Knight et al explore the utilisation of graphics processing units in Cloud applications, integrated into the SWITCH workbench to support time-critical applications [8].…”

Editorial for FGCS Special issue on “Time-critical Applications on Software-defined Infrastructures”

“…Štefanič et al presented the workbench architecture and a novel cooperative programming and control model for developing and operating time-critical applications in Cloud environments [7]. In the same project, Knight et al explore the utilisation of graphics processing units in Cloud applications, integrated into the SWITCH workbench to support time-critical applications [8].…”

Editorial for FGCS Special issue on “Time-critical Applications on Software-defined Infrastructures”