International audience—As we move toward the exascale era, performance variability in HPC systems remains a challenge. I/O interference , a major cause of this variability, is becoming more important every day with the growing number of concurrent applications that share larger machines. Earlier research efforts on mitigating I/O interference focus on a single potential cause of interference (e.g., the network). Yet the root causes of I/O interference can be diverse. In this work, we conduct an extensive experimental campaign to explore the various root causes of I/O interference in HPC storage systems. We use microbenchmarks on the Grid'5000 testbed to evaluate how the applications' access pattern, the network components, the file system's...
I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improv...
International audienceParallel file systems are at the core of HPC I/O infrastructures. Those system...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
A significant percentage of the computing capacity of large-scale platforms is wasted due to interfe...
Beside the computational scalability of an HPC application, its I/O behaviour can significantly infl...
International audienceA significant percentage of the computing capacity of large-scale platforms is...
HPC applications are large software packages with high computation and storage requirements. To meet...
Competing workloads on a shared storage system cause I/O resource contention and application perform...
To increase the scale and performance of scientific applications, scientists commonly distribute com...
International audienceUnmatched computation and storage performance in new HPC systems have led to a...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
Many contemporary HPC systems expose their jobs to substantial amounts of interference, leading to s...
I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improv...
International audienceParallel file systems are at the core of HPC I/O infrastructures. Those system...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
A significant percentage of the computing capacity of large-scale platforms is wasted due to interfe...
Beside the computational scalability of an HPC application, its I/O behaviour can significantly infl...
International audienceA significant percentage of the computing capacity of large-scale platforms is...
HPC applications are large software packages with high computation and storage requirements. To meet...
Competing workloads on a shared storage system cause I/O resource contention and application perform...
To increase the scale and performance of scientific applications, scientists commonly distribute com...
International audienceUnmatched computation and storage performance in new HPC systems have led to a...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
Many contemporary HPC systems expose their jobs to substantial amounts of interference, leading to s...
I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improv...
International audienceParallel file systems are at the core of HPC I/O infrastructures. Those system...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...