Estimation of execution parameters takes centre stage in automatic offloading of complex biomedical workflows to cloud and high performance facilities. Since ordinary users have no or very limited knowledge of the performance characteristics of particular tasks in the workflow, the scheduling system has to have the capabilities to select appropriate amount of compute resources, e.g., compute nodes, GPUs, or processor cores and estimate the execution time and cost. The presented approach considers a fixed set of executables that can be used to create custom workflows, and collects performance data of successfully computed tasks. Since the workflows may differ in the structure and size of the input data, the execution parameters can only b...
The effective selection of resources on supercomputers and grids improves workload schedul- ing and ...
Abstract: Evaluation methods for parallel computers often require the availability of relevant workl...
Computational science is well established as the third pillar of scientific discovery and is on par ...
This thesis focuses on scheduling, i.e. correct approximation of configurations used to run k-Wave s...
This work aims to predict the execution time of k-Wave ultrasound simulations on supercomputers base...
Estimates of task runtime, disk space usage, and memory consumption, are commonly used by scheduling...
Abstract—Scientific workflows, which capture large compu-tational problems, may be executed on large...
International audienceScientific experiments based on computer simulations can be defined, executed ...
The architectures which support modem supercomputing machinery are as diverse today, as at any point...
In this paper we present a predictive performance model for a key biomedical imaging application fou...
Many scientific workflow scheduling algorithms need to be informed about task runtimes a-priori to c...
Projecting performance of applications and hardware is important to several market segments—hardware...
Task characteristics estimations such as runtime, disk space, and memory consumption, are commonly u...
Scientific experiments based on computer simulations can be defined, executed and monitored using Sc...
The effectiveness of distributed execution of computationally intensive applications (jobs) largely ...
The effective selection of resources on supercomputers and grids improves workload schedul- ing and ...
Abstract: Evaluation methods for parallel computers often require the availability of relevant workl...
Computational science is well established as the third pillar of scientific discovery and is on par ...
This thesis focuses on scheduling, i.e. correct approximation of configurations used to run k-Wave s...
This work aims to predict the execution time of k-Wave ultrasound simulations on supercomputers base...
Estimates of task runtime, disk space usage, and memory consumption, are commonly used by scheduling...
Abstract—Scientific workflows, which capture large compu-tational problems, may be executed on large...
International audienceScientific experiments based on computer simulations can be defined, executed ...
The architectures which support modem supercomputing machinery are as diverse today, as at any point...
In this paper we present a predictive performance model for a key biomedical imaging application fou...
Many scientific workflow scheduling algorithms need to be informed about task runtimes a-priori to c...
Projecting performance of applications and hardware is important to several market segments—hardware...
Task characteristics estimations such as runtime, disk space, and memory consumption, are commonly u...
Scientific experiments based on computer simulations can be defined, executed and monitored using Sc...
The effectiveness of distributed execution of computationally intensive applications (jobs) largely ...
The effective selection of resources on supercomputers and grids improves workload schedul- ing and ...
Abstract: Evaluation methods for parallel computers often require the availability of relevant workl...
Computational science is well established as the third pillar of scientific discovery and is on par ...