Abstract—Current leadership-class machines suffer from a significant imbalance between their computational power and their I/O bandwidth. While Moore’s law ensures that the computational power of high-performance computing systems increases with every generation, the same is not true for their I/O subsystems. The scalability challenges faced by existing parallel file systems with respect to the increasing number of clients, coupled with the minimalistic compute node kernels running on these machines, call for a new I/O paradigm to meet the requirements of data-intensive scientific applications. I/O forwarding is a technique that attempts to bridge the increasing performance and scalability gap between the compute and I/O components of leade...
Rewriting application I/O for performance and scalability on petaflops machines easily becomes a for...
International audienceI/O forwarding is an established and widely-adopted technique in HPC to reduce...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
Ohio Supercomputer Center (OSC) is a junior partner in the project titled Common HEC I/O Forwarding ...
The increasing number of cores per node has propelled the performance of leadershipscale systems fro...
I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improv...
International audienceThis paper presents a study of I/O scheduling techniques applied to the I/O fo...
Parallel and distributed computing have matured sufficiently for their adoption in production enviro...
Abstract. The technology advances made in supercomputers and high performance computing clusters ove...
SUMMARY Applications running on leadership platforms are more and more bottlenecked by storage input...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
© 2021 IEEE.Parallel file systems (PFS) are used to distribute data processing and establish shared ...
Rewriting application I/O for performance and scalability on petaflops machines easily becomes a for...
International audienceI/O forwarding is an established and widely-adopted technique in HPC to reduce...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
Ohio Supercomputer Center (OSC) is a junior partner in the project titled Common HEC I/O Forwarding ...
The increasing number of cores per node has propelled the performance of leadershipscale systems fro...
I/O forwarding is an established and widely-adopted technique in HPC to reduce contention and improv...
International audienceThis paper presents a study of I/O scheduling techniques applied to the I/O fo...
Parallel and distributed computing have matured sufficiently for their adoption in production enviro...
Abstract. The technology advances made in supercomputers and high performance computing clusters ove...
SUMMARY Applications running on leadership platforms are more and more bottlenecked by storage input...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
© 2021 IEEE.Parallel file systems (PFS) are used to distribute data processing and establish shared ...
Rewriting application I/O for performance and scalability on petaflops machines easily becomes a for...
International audienceI/O forwarding is an established and widely-adopted technique in HPC to reduce...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...