The prediction of file access times is an important part for the modeling of supercomputer's storage systems. These models can be used to develop analysis tools which support the users to integrate efficient I/O behavior. In this paper, we analyze and predict the access times of a Lustre file system from the client perspective. Therefore, we measure file access times in various test series and developed different models for predicting access times. The evaluation shows that in models utilizing artificial neural networks the average prediciton error is about 30% smaller than in linear models. A phenomenon in the distribution of file access times is of particular interest: File accesses with identical parameters show several typical access ...
The broadening disparity between the performance of I/O devices and the performance of processors an...
This thesis presents a contribution to the field of performance analysis for Input/Output (I/O) rela...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
Performance models for storage devices are an important part of simulations of large-scale computing...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
Abstract With the rapid incr system latency is an everaccess costs, which has modern operating syste...
Scientific computing workloads at HPC facilities have been shifting from traditional numerical simul...
Most modern I/O systems treat each file access independently. However, events in a computer system a...
PhD ThesisPerformance measurements of two large time-sharing computer systems are presented, with e...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Abstract—Most existing studies of file access prediction are experimental in nature and rely on trac...
A probabilistic scheme was developed to predict process resource usage in UNIX. Given the identity o...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Abstract. We present an estimation methodology, accurately predicting the execution time for a given...
The broadening disparity between the performance of I/O devices and the performance of processors an...
This thesis presents a contribution to the field of performance analysis for Input/Output (I/O) rela...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
Performance models for storage devices are an important part of simulations of large-scale computing...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
Abstract With the rapid incr system latency is an everaccess costs, which has modern operating syste...
Scientific computing workloads at HPC facilities have been shifting from traditional numerical simul...
Most modern I/O systems treat each file access independently. However, events in a computer system a...
PhD ThesisPerformance measurements of two large time-sharing computer systems are presented, with e...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Abstract—Most existing studies of file access prediction are experimental in nature and rely on trac...
A probabilistic scheme was developed to predict process resource usage in UNIX. Given the identity o...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Abstract. We present an estimation methodology, accurately predicting the execution time for a given...
The broadening disparity between the performance of I/O devices and the performance of processors an...
This thesis presents a contribution to the field of performance analysis for Input/Output (I/O) rela...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...