International audienceThe increasing gap between the computation performance of post-petascale machines and the performance of their I/O subsystem has motivated many I/O optimizations including prefetching, caching and scheduling techniques. To further improve these techniques, modeling and predicting spatial and temporal I/O patterns of HPC applications as they run has became crucial. In this paper we present Omnisc'IO, an approach that builds a grammar-based model of the I/O behavior of any HPC application, and uses it to predict when future I/O operations will occur, where and how much data will be accessed. Omnisc'IO is transparently integrated into the POSIX and MPI I/O stacks, and does not require any modification in applications or h...
International audienceWith the ever-growing need of data in HPC applications, the congestion at the ...
HPC applications with suboptimal I/O behavior interfere with well-behaving applications and lead to...
Million-core supercomputers have become a reality in 2012 with LLNL's Sequoia supercomputer. Followi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
The increasing gap between the computation performance of post-petascale machines and the performanc...
The e cient use of high performance computing is usually focused on the use of computational resourc...
High-performance computing (HPC) systems consist of thousands of compute nodes, storage systems and ...
The prediction of file access times is an important part for the modeling of supercomputer's storage...
The advance in both computation and data storage size in High Performance Computing (HPC) has not ...
International audienceModern High Performance Computing (HPC) storage systems use heterogeneous stor...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
International audienceWith the ever-growing need of data in HPC applications, the congestion at the ...
HPC applications with suboptimal I/O behavior interfere with well-behaving applications and lead to...
Million-core supercomputers have become a reality in 2012 with LLNL's Sequoia supercomputer. Followi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
International audienceThe increasing gap between the computation performance of post-petascale machi...
The increasing gap between the computation performance of post-petascale machines and the performanc...
The e cient use of high performance computing is usually focused on the use of computational resourc...
High-performance computing (HPC) systems consist of thousands of compute nodes, storage systems and ...
The prediction of file access times is an important part for the modeling of supercomputer's storage...
The advance in both computation and data storage size in High Performance Computing (HPC) has not ...
International audienceModern High Performance Computing (HPC) storage systems use heterogeneous stor...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
Large-scale high performance computing (HPC) systems typically consist of many thousands of CPUs and...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
International audienceWith the ever-growing need of data in HPC applications, the congestion at the ...
HPC applications with suboptimal I/O behavior interfere with well-behaving applications and lead to...
Million-core supercomputers have become a reality in 2012 with LLNL's Sequoia supercomputer. Followi...