Buffer management for a D-disk parallel I/O system is considered in the context of randomized placement of data on the disks. A simple prefetching and caching algorithm PHASE-LRU using bounded lookahead is described and analyzed. It is shown that PHASE-LRU performs an expected number of I/Os that is within a factor (logD/log logD) of the number performed by an optimal off-line algorithm. In contrast, any deterministic buffe
High-performance I/O systems depend on prefetching and caching in order to deliver good performance ...
High performance applications involving large data sets require the efficient and flexible use of mu...
AbstractWe study integrated prefetching and caching in single and parallel disk systems. In the firs...
The I/O performance of applications in multiple-disk systems can be improved by overlapping disk acc...
Abstract—We address the problem of prefetching and caching in a parallel I/O system and present a ne...
In parallel I/O systems the I/O buffer can be used to improve I/O parallelism by improving I/O laten...
In this thesis we study prefetching and buffer management algorithms for parallel I/O systems. Two m...
We provide a competitive analysis framework for online prefetching and buffer management algorithms ...
We provide a competitive analysis framework for online prefetching and buffer management algorithms ...
We present an optimal algorithm, L-OPT, for prefetching and I/O scheduling in parallel I/O systems u...
Since the I/O subsystem is the bottleneck in external mergesort, I/O parallelism can result in subst...
AbstractMultiple-disk organizations can be used to improve the I/O performance of problems like exte...
Multiple-disk organizations can be used to improve the I/O performance of problems like external me...
Because of the slow access time of disk storage, storage management is crucial to the performance of...
[[abstract]]We consider the natural extension of the well-known single disk caching problem to the p...
High-performance I/O systems depend on prefetching and caching in order to deliver good performance ...
High performance applications involving large data sets require the efficient and flexible use of mu...
AbstractWe study integrated prefetching and caching in single and parallel disk systems. In the firs...
The I/O performance of applications in multiple-disk systems can be improved by overlapping disk acc...
Abstract—We address the problem of prefetching and caching in a parallel I/O system and present a ne...
In parallel I/O systems the I/O buffer can be used to improve I/O parallelism by improving I/O laten...
In this thesis we study prefetching and buffer management algorithms for parallel I/O systems. Two m...
We provide a competitive analysis framework for online prefetching and buffer management algorithms ...
We provide a competitive analysis framework for online prefetching and buffer management algorithms ...
We present an optimal algorithm, L-OPT, for prefetching and I/O scheduling in parallel I/O systems u...
Since the I/O subsystem is the bottleneck in external mergesort, I/O parallelism can result in subst...
AbstractMultiple-disk organizations can be used to improve the I/O performance of problems like exte...
Multiple-disk organizations can be used to improve the I/O performance of problems like external me...
Because of the slow access time of disk storage, storage management is crucial to the performance of...
[[abstract]]We consider the natural extension of the well-known single disk caching problem to the p...
High-performance I/O systems depend on prefetching and caching in order to deliver good performance ...
High performance applications involving large data sets require the efficient and flexible use of mu...
AbstractWe study integrated prefetching and caching in single and parallel disk systems. In the firs...