Workflows offer a great potential for enacting corelated jobs in an automated manner. This is especially desirable when workflows are large or there is a desire to run a workflow multiple times. Much research has been conducted in reducing the makespan of running workflows and maximising the utilisation of the resources they run on, with some existing research investigates how to reduce the energy consumption of workflows on dedicated resources. We extend the HTC-Sim simulation framework to support workflows allowing us to evaluate different scheduling strategies on the overheads and energy consumption of workflows run on non-dedicated systems. We evaluate a number of scheduling strategies from the literature in an environment where (workfl...
In recent years power consumption of high performance computing (HPC) clusters has become a growing ...
International audienceWhile distributed computing infrastructures can provide infrastructure level t...
When performing a trace-driven simulation of a High Throughput Computing system we are limited to th...
High Throughput Computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
High-throughput computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
High Throughput Computing (HTC) through the use of vol- unteer computing provides a compelling oppo...
International audienceSophisticated applications turn out to be executed upon more than one CPU for ...
© 2014 IEEE.Scientific workflow management systems face a new challenge in the era of cloud computin...
Checkpointing is a fault-tolerance mechanism commonly used in High Throughput Computing (HTC) enviro...
Checkpointing is a fault-tolerance mechanism commonly used in High Throughput Computing (HTC) enviro...
Exploiting computational resources within an organisation for more than their primary task offers g...
New challenges and opportunities emerge as computing interacts with our surroundings in unprecedente...
Virtual Machine (VM) live migration is one strategic approach that can be employed to reduce energy ...
Many breakthroughs in scientific and industrial research are supported by simulations and calculatio...
Reduction of power consumption for any computer system is now an important issue, although this shou...
In recent years power consumption of high performance computing (HPC) clusters has become a growing ...
International audienceWhile distributed computing infrastructures can provide infrastructure level t...
When performing a trace-driven simulation of a High Throughput Computing system we are limited to th...
High Throughput Computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
High-throughput computing (HTC) is a powerful paradigm allowing vast quantities of independent work ...
High Throughput Computing (HTC) through the use of vol- unteer computing provides a compelling oppo...
International audienceSophisticated applications turn out to be executed upon more than one CPU for ...
© 2014 IEEE.Scientific workflow management systems face a new challenge in the era of cloud computin...
Checkpointing is a fault-tolerance mechanism commonly used in High Throughput Computing (HTC) enviro...
Checkpointing is a fault-tolerance mechanism commonly used in High Throughput Computing (HTC) enviro...
Exploiting computational resources within an organisation for more than their primary task offers g...
New challenges and opportunities emerge as computing interacts with our surroundings in unprecedente...
Virtual Machine (VM) live migration is one strategic approach that can be employed to reduce energy ...
Many breakthroughs in scientific and industrial research are supported by simulations and calculatio...
Reduction of power consumption for any computer system is now an important issue, although this shou...
In recent years power consumption of high performance computing (HPC) clusters has become a growing ...
International audienceWhile distributed computing infrastructures can provide infrastructure level t...
When performing a trace-driven simulation of a High Throughput Computing system we are limited to th...