Abstract—The continuing technological progress resulted in sustained increase in the number of transistors per chip as well as improved energy efficiency per FLOPS. This spurred a dramatic growth in aggregate computational performance of the largest supercomputing systems, yielding multiple Petascale implementations deployed in various locations over the world. Unfortunately, these advances did not translate to the required extent into accompanying I/O systems, which primarily saw the improvement in cumulative storage sizes required to match the ever expanding volume of scientific data sets, but little more in terms of architecture or effective access latency. Moreover, while new models of computations are formulated to handle the burden of...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
In this paper we present the behavior of PAFS in a scientific environment where big parallel applica...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
The continuing technological progress resulted in a dramatic growth in aggregate computational perfo...
Due to processors reaching the maximum performance allowable by current technology, architectural tr...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Due to processors reaching the maximum performance allowable by current technology, architectural tr...
Workload characterization studies highlight the prevalence of small and sequential data requests in ...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
In this paper we describe the architecture and design of a new file system, XFS, for Silicon Graphic...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
In this paper we describe the architecture and design of a new file system, XFS, for Silicon Graphic...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Emerging high performance computing (HPC) systems are expected to be deployed with an unprecedented ...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
In this paper we present the behavior of PAFS in a scientific environment where big parallel applica...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
The continuing technological progress resulted in a dramatic growth in aggregate computational perfo...
Due to processors reaching the maximum performance allowable by current technology, architectural tr...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Due to processors reaching the maximum performance allowable by current technology, architectural tr...
Workload characterization studies highlight the prevalence of small and sequential data requests in ...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
In this paper we describe the architecture and design of a new file system, XFS, for Silicon Graphic...
Scientific applications at exascale generate and analyze massive amounts of data. A critical require...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
In this paper we describe the architecture and design of a new file system, XFS, for Silicon Graphic...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
Emerging high performance computing (HPC) systems are expected to be deployed with an unprecedented ...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
In this paper we present the behavior of PAFS in a scientific environment where big parallel applica...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...