2022
DOI: 10.3390/electronics11091318
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Adaptively Periodic I/O Scheduling for Concurrent HPC Applications

Abstract: With the convergence of big data and HPC (high-performance computing), various machine learning applications and traditional large-scale simulations with a stochastically iterative I/O periodicity are running concurrently on HPC platforms, which poses more challenges on the scarcely shared I/O resources due to the ever-growing data transfer demand. Currently the existing heuristic online and periodic offline I/O scheduling methods for traditional HPC applications with a fixed I/O periodicity are not suitable f… Show more

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Cited by 4 publications
(3 citation statements)
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“…The main limitation is of course the assumed periodicity of each application. An extension is provided by other authors in [28], where applications still consist of phases with work followed by I/O transfers, but now CPU phases have stochastic lengths taken from some probability distribution, while I/O phases have constant length. As a motivation, for CPU phases, we can think of a constant amount of flops to perform, with some system-dependent or data-dependent noise, while for I/O transfers, we can think of a fixed-size checkpoint operation.…”
Section: I/o-copmentioning
confidence: 99%
See 1 more Smart Citation
“…The main limitation is of course the assumed periodicity of each application. An extension is provided by other authors in [28], where applications still consist of phases with work followed by I/O transfers, but now CPU phases have stochastic lengths taken from some probability distribution, while I/O phases have constant length. As a motivation, for CPU phases, we can think of a constant amount of flops to perform, with some system-dependent or data-dependent noise, while for I/O transfers, we can think of a fixed-size checkpoint operation.…”
Section: I/o-copmentioning
confidence: 99%
“…Several researchers have already identified and addressed this problem (see [7,12,25,2,28,27] among others). Performance degradation due to I/O is already significant for current state-of-the-art platforms and is expected to worsen due to the faster increase in processing speed than in I/O bandwidth [22].…”
Section: Introductionmentioning
confidence: 99%
“…Several researchers have already identified and addressed this problem (see [7,12,25,2,28,27] among others). Performance degradation due to I/O is already significant for current state-of-the-art platforms and is expected to worsen due to the faster increase in processing speed than in I/O bandwidth [22].…”
Section: Introductionmentioning
confidence: 99%