High-performance computing (HPC) systems consist of thousands of compute nodes, storage systems and high-speed networks, providing multiple layers of I/O stack with high complexity. By adjusting the diverse configuration settings that HPC systems provide, the I/O performance of applications can be improved. However, it is challenging to identify the optimal configuration settings without a thorough knowledge of the system, as each of the different I/O characteristics of applications can be an important factor for parameter decision. In this paper, we use multiple machine learning approaches to perform an in-depth analysis on I/O behaviors of HPC applications and to search for the optimal configuration settings for jobs sharing similar I/O c...
International audienceModern High Performance Computing (HPC) storage systems use heterogeneous stor...
The increasing gap between the computation performance of post-petascale machines and the performanc...
Scientific computing workloads at HPC facilities have been shifting from traditional numerical simul...
© 2021 IEEE.High-performance computing (HPC) systems consist of thousands of compute nodes, storage ...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
Large high-performance computers (HPC) are expensive tools responsible for supporting thousands of s...
I/O is one of the main performance bottlenecks for many data-intensive scientific applications. Accu...
In high-performance computing (HPC) environments, an appropriate amount of hardware resources must b...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
The cloud has become a promising alternative to tradi-tional HPC centers or in-house clusters. This ...
Parallel Input output is an essential component of modern high-performance computing (HPC). Obtainin...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
Taufer, MichelaHigh performance computing (HPC) is undergoing many changes at both the system and wo...
Doctor of PhilosophyDepartment of Computer ScienceDaniel A. AndresenOverestimation of High Performan...
International audienceModern High Performance Computing (HPC) storage systems use heterogeneous stor...
The increasing gap between the computation performance of post-petascale machines and the performanc...
Scientific computing workloads at HPC facilities have been shifting from traditional numerical simul...
© 2021 IEEE.High-performance computing (HPC) systems consist of thousands of compute nodes, storage ...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
Large high-performance computers (HPC) are expensive tools responsible for supporting thousands of s...
I/O is one of the main performance bottlenecks for many data-intensive scientific applications. Accu...
In high-performance computing (HPC) environments, an appropriate amount of hardware resources must b...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
The cloud has become a promising alternative to tradi-tional HPC centers or in-house clusters. This ...
Parallel Input output is an essential component of modern high-performance computing (HPC). Obtainin...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
Taufer, MichelaHigh performance computing (HPC) is undergoing many changes at both the system and wo...
Doctor of PhilosophyDepartment of Computer ScienceDaniel A. AndresenOverestimation of High Performan...
International audienceModern High Performance Computing (HPC) storage systems use heterogeneous stor...
The increasing gap between the computation performance of post-petascale machines and the performanc...
Scientific computing workloads at HPC facilities have been shifting from traditional numerical simul...