I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improve I/O performance in the access to shared storage infrastructure. On such machines, this layer is often physically deployed on dedicated nodes, and their connection to the clients is static. Furthermore, the increasingly heterogeneous workloads entering HPC installations stress the I/O stack, requiring tuning and reconfiguration based on the applications' characteristics. Nonetheless, it is not always feasible in a production system to explore the potential benefits of this layer under different configurations without impacting clients. In this paper, we investigate the effects of I/O forwarding on performance by considering the application's...
Benchmarking and analyzing I/O performance across high performance computing (HPC) platforms is nece...
A significant percentage of the computing capacity of large-scale platforms is wasted due to interfe...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
International audienceI/O forwarding is an established and widely-adopted technique in HPC to reduce...
I/O forwarding is a well-established and widely-adopted technique in HPC to reduce contention in the...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
International audienceI/O forwarding is a well-established and widelyadopted technique in HPC to red...
Abstract—Current leadership-class machines suffer from a significant imbalance between their computa...
Input and output (I/O) operations are a bottleneck for an increasing number of applications in High-...
Rewriting application I/O for performance and scalability on petaflops machines easily becomes a for...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
International audienceThis paper presents a study of I/O scheduling techniques applied to the I/O fo...
Beside the computational scalability of an HPC application, its I/O behaviour can significantly infl...
In high-performance computing (HPC) environments, an appropriate amount of hardware resources must b...
In this paper, we propose an approach to adapt the I/O forwarding layer of HPC systems to applicatio...
Benchmarking and analyzing I/O performance across high performance computing (HPC) platforms is nece...
A significant percentage of the computing capacity of large-scale platforms is wasted due to interfe...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
International audienceI/O forwarding is an established and widely-adopted technique in HPC to reduce...
I/O forwarding is a well-established and widely-adopted technique in HPC to reduce contention in the...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
International audienceI/O forwarding is a well-established and widelyadopted technique in HPC to red...
Abstract—Current leadership-class machines suffer from a significant imbalance between their computa...
Input and output (I/O) operations are a bottleneck for an increasing number of applications in High-...
Rewriting application I/O for performance and scalability on petaflops machines easily becomes a for...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
International audienceThis paper presents a study of I/O scheduling techniques applied to the I/O fo...
Beside the computational scalability of an HPC application, its I/O behaviour can significantly infl...
In high-performance computing (HPC) environments, an appropriate amount of hardware resources must b...
In this paper, we propose an approach to adapt the I/O forwarding layer of HPC systems to applicatio...
Benchmarking and analyzing I/O performance across high performance computing (HPC) platforms is nece...
A significant percentage of the computing capacity of large-scale platforms is wasted due to interfe...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...