I/O workload is a critical and important factor to analyze I/O pattern and to maximize file system performance. However to measure I/O workload on running distributed parallel file system is non-trivial due to collection overhead and large volume of data. In this paper, we measured and analyzed file system activities on two large-scale cluster systems which had TFlops level high performance computation resources. By comparing file system activities of 2009 with those of 2006, we analyzed the change of I/O workloads by the development of system performance and high-speed network technology
The computing power of high-performance computing (HPC) systems is increasing with a rapid growth in...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
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. ...
I/O performance is a critical aspect of data-intensive scientific computing. We seek to advance the ...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
Most prior studies of distributed file systems have focussed on relatively small communities of user...
137 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1999.This research addresses the i...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
High-performance parallel file systems are needed to satisfy tremendous I/O requirements of parallel...
This thesis presents a contribution to the field of performance analysis for Input/Output (I/O) rela...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
In this paper, we describe the collection and analysis of file system traces from a variety of diffe...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
The computing power of high-performance computing (HPC) systems is increasing with a rapid growth in...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
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. ...
I/O performance is a critical aspect of data-intensive scientific computing. We seek to advance the ...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
Most prior studies of distributed file systems have focussed on relatively small communities of user...
137 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1999.This research addresses the i...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
High-performance parallel file systems are needed to satisfy tremendous I/O requirements of parallel...
This thesis presents a contribution to the field of performance analysis for Input/Output (I/O) rela...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
In this paper, we describe the collection and analysis of file system traces from a variety of diffe...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
The computing power of high-performance computing (HPC) systems is increasing with a rapid growth in...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...