Add to ORKGWe develop an algorithm for parallel disk sorting, whose I/O cost approaches the lower bound and that guarantees almost perfect overlap between I/O and computation. Previous algorithms have either suboptimal I/O volume or cannot guarantee that I/O and computations can always be overlapped. We give an efficient implementation that can (at least) compete with the best practical implementations but gives additional performance guarantees. For the experiments we have configured a state of the art machine that can sustain full bandwidth I/O with eight disks and is very cost effective
We live in an era of data explosion that necessitates the discovery of novel out-of-core techniques....
In this paper, we propose a taxonomy of parallel sorting that includes a broad range of array and f...
Abstract. The Parallel Disks Model (PDM) has been proposed to al-leviate the I/O bottleneck that ari...
We develop an algorithm for parallel disk sorting, whose I/O cost approaches the lower bound and tha...
We develop an algorithm for parallel disk sorting, whose I/O cost approaches the lower bound and tha...
This paper discusses our implementation of Rajasekaran\u27s (l,m)-mergesort algorithm (LMM) for sort...
The original publication is available at www.springerlink.comExternal sorting|the process of sorting...
In this paper we present a simple parallel sorting algorithm and illustrate two applications. The al...
In this paper we present a simple parallel sorting algorithm and illustrate its application in gener...
The Parallel Disks Model (PDM) has been proposed to alleviate the I/O bottle-neck that arises in the...
We present the design and implementation of a parallel out-of-core sorting algorithm, which is based...
This is the published version, made available with the permission of the publisher. Copyright © 200...
Several algorithms for parallel disk systems have appeared in the literature recently, and they are ...
The Parallel Disks Model (PDM) has been proposed to alleviate the I/O bottleneck that arises in the ...
Abstract. Merge sort is useful in sorting a great number of data pro-gressively, especially when the...
We live in an era of data explosion that necessitates the discovery of novel out-of-core techniques....
In this paper, we propose a taxonomy of parallel sorting that includes a broad range of array and f...
Abstract. The Parallel Disks Model (PDM) has been proposed to al-leviate the I/O bottleneck that ari...
We develop an algorithm for parallel disk sorting, whose I/O cost approaches the lower bound and tha...
We develop an algorithm for parallel disk sorting, whose I/O cost approaches the lower bound and tha...
This paper discusses our implementation of Rajasekaran\u27s (l,m)-mergesort algorithm (LMM) for sort...
The original publication is available at www.springerlink.comExternal sorting|the process of sorting...
In this paper we present a simple parallel sorting algorithm and illustrate two applications. The al...
In this paper we present a simple parallel sorting algorithm and illustrate its application in gener...
The Parallel Disks Model (PDM) has been proposed to alleviate the I/O bottle-neck that arises in the...
We present the design and implementation of a parallel out-of-core sorting algorithm, which is based...
This is the published version, made available with the permission of the publisher. Copyright © 200...
Several algorithms for parallel disk systems have appeared in the literature recently, and they are ...
The Parallel Disks Model (PDM) has been proposed to alleviate the I/O bottleneck that arises in the ...
Abstract. Merge sort is useful in sorting a great number of data pro-gressively, especially when the...
We live in an era of data explosion that necessitates the discovery of novel out-of-core techniques....
In this paper, we propose a taxonomy of parallel sorting that includes a broad range of array and f...
Abstract. The Parallel Disks Model (PDM) has been proposed to al-leviate the I/O bottleneck that ari...