Traditionally, maximizing input/output performance has required tailoring application input /output patterns to the idiosyncrasies of specific input/output systems. In this paper, we show that one can achieve high application input/output performance via a low overhead input /output system that automatically recognizes file access patterns and adaptively modifies system policies to match application input/output needs. This approach reduces the application developer's input/output optimization effort by isolating input/output optimization decisions within a retargetable file system infrastructure. To validate these claims, we have built a lightweight file system policy testbed that uses a trained learning mechanism to recognize access ...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Slow I/O is widespread, as attested to by splash screens and progress bars; however, it can be done ...
Disk drives are the bottleneck in the processing of large amounts of data used in almost all common ...
Parallel input/output characterization studies and experiments with flexible resource management alg...
187 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.We have implemented this appr...
In this paper, we present aggressive, proactive mechanisms that tailor file system resource manageme...
Effective file system caching reduces local disk accesses and remote file server accesses significan...
Conventional computer systems have insufficient information about storage device performance charact...
Conventional computer systems have insufficient information about storage device performance charact...
In this work, we have analyzed the input/output (I/O) activities of Cori, which is a high-performanc...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
I/O data access is a recognized performance bottleneck of high-end computing. Several commercial and...
In this thesis, we propose a self-tuning approach for automatically selecting and refining the file ...
This paper introduces OASIS, a self-tuning storage management architecture that allows applications ...
The modest I/O configurations and file system limitations of many current high-performance systems p...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Slow I/O is widespread, as attested to by splash screens and progress bars; however, it can be done ...
Disk drives are the bottleneck in the processing of large amounts of data used in almost all common ...
Parallel input/output characterization studies and experiments with flexible resource management alg...
187 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.We have implemented this appr...
In this paper, we present aggressive, proactive mechanisms that tailor file system resource manageme...
Effective file system caching reduces local disk accesses and remote file server accesses significan...
Conventional computer systems have insufficient information about storage device performance charact...
Conventional computer systems have insufficient information about storage device performance charact...
In this work, we have analyzed the input/output (I/O) activities of Cori, which is a high-performanc...
. The broadening disparity in the performance of input/output (I/O) devices and the performance of p...
I/O data access is a recognized performance bottleneck of high-end computing. Several commercial and...
In this thesis, we propose a self-tuning approach for automatically selecting and refining the file ...
This paper introduces OASIS, a self-tuning storage management architecture that allows applications ...
The modest I/O configurations and file system limitations of many current high-performance systems p...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Slow I/O is widespread, as attested to by splash screens and progress bars; however, it can be done ...
Disk drives are the bottleneck in the processing of large amounts of data used in almost all common ...