High-performance parallel file systems are needed to satisfy tremendous I/O requirements of parallel scientific applications. The design of such high-performance parallel file systems depends on a comprehensive understanding of the expected workload, but so far there have been very few usage studies of multiprocessor file systems. This paper is part of the CHARISMA project, which intends to fill this void by measuring real file-system workloads on various production parallel machines. In particular, we present results from the CM-5 at the National Center for Supercomputing Applications. Our results are unique because we collect information about nearly every individual I/O request from the mix of jobs running on the machine. Analysis of the...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Many scientific applications have intense computational and I/O requirements. Although multiprocesso...
As the input/output (I/O) needs of parallel scientific applications increase, file systems for multi...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
Although there are several extant studies of parallel scientific application request patterns, there...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Multiprocessors have permitted astounding increases in computational performance, but many cannot me...
Many scientific applications have intense computational and I/O requirements. Although multiprocesso...
As the input/output (I/O) needs of parallel scientific applications increase, file systems for multi...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
Although there are several extant studies of parallel scientific application request patterns, there...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...
As the I/O needs of parallel scientific applications increase, file systems for multiprocessors are ...