Abstract—Parallel applications currently suffer from a signifi-cant imbalance between computational power and available I/O bandwidth. Additionally, the hierarchical organization of current Petascale systems contributes to an increase of the I/O subsystem latency. In these hierarchies, file access involves pipelining data through several networks with incremental latencies and higher probability of congestion. Future Exascale systems are likely to share this trait. This paper presents a scalable parallel I/O software system designed to transparently hide the latency of file system accesses to applications on these platforms. Our solution takes advantage of the hierarchy of networks involved in file accesses, to maximize the degree of overla...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
Abstract—Parallel applications currently suffer from a signifi-cant imbalance between computational ...
Recent advances in storage technologies and high performance interconnects have made possible in the...
Abstract—The ever-growing gap between the computation and I/O is one of the fundamental challenges f...
© 2021 IEEE.Parallel file systems (PFS) are used to distribute data processing and establish shared ...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
A large number of real-world scientific applications can be char-acterized as loosely coupled: the c...
Abstract—Current leadership-class machines suffer from a significant imbalance between their computa...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
Abstract. The technology advances made in supercomputers and high performance computing clusters ove...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
Abstract—Parallel applications currently suffer from a signifi-cant imbalance between computational ...
Recent advances in storage technologies and high performance interconnects have made possible in the...
Abstract—The ever-growing gap between the computation and I/O is one of the fundamental challenges f...
© 2021 IEEE.Parallel file systems (PFS) are used to distribute data processing and establish shared ...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
A large number of real-world scientific applications can be char-acterized as loosely coupled: the c...
Abstract—Current leadership-class machines suffer from a significant imbalance between their computa...
High performance computing (HPC) has crossed the Petaflop mark and is reaching the Exaflop range qui...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
Abstract. The technology advances made in supercomputers and high performance computing clusters ove...
Abstract—Current leadership-class machines suffer from a significant imbalance between their increas...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...