AbstractWe extend the classic paging model by allowing reordering of requests under the constraint that a request is delayed by no longer than a predetermined number of time steps. We first give a dynamic programming algorithm to solve the offline case. Then we give tight bounds on competitive ratios for the online case. For caches of size k, we obtain bounds of k+O(1) for deterministic algorithms and Θ(logk) for randomized algorithms. We also give bounds for the case where either the online or the offline algorithm can reorder the requests, but not both. Finally, we extend our analysis to the case where pages have different sizes
We study the writeback-aware caching problem, a variant of classic paging where paging requests that...
We consider online algorithms for the generalized caching problem. Here we are given a cache of size...
We consider an extension of the standard on-line model to settings in which an on-line algorithm has...
We extend the classic paging model by allowing reordering of requests under the constraint that a re...
AbstractWe extend the classic paging model by allowing reordering of requests under the constraint t...
We study web caching with request reordering. The goal is to maintain a cache of web documents so th...
We study web caching with request reordering. The goal is to maintain a cache of web documents so th...
Current web caching algorithms process requests in the order of the arrival. While such restriction ...
A generalized paging problem is considered. Each request is expressed as a set of $u$ pages. In orde...
This paper studies the effect of scheduling (reordering) page requests on the page hit ratio. First,...
We consider a variant of the online paging problem where the online algorithm may buy additional cac...
We consider a variant of the online paging problem where the online algorithm may buy additional cac...
AbstractWe consider a paging problem in which each page is assigned an expiration time at the time i...
Abstract — We present a universal algorithm for the classical online problem of caching or demand pa...
Caching has been recognized as an effective scheme for avoiding service bottleneck and reducing netw...
We study the writeback-aware caching problem, a variant of classic paging where paging requests that...
We consider online algorithms for the generalized caching problem. Here we are given a cache of size...
We consider an extension of the standard on-line model to settings in which an on-line algorithm has...
We extend the classic paging model by allowing reordering of requests under the constraint that a re...
AbstractWe extend the classic paging model by allowing reordering of requests under the constraint t...
We study web caching with request reordering. The goal is to maintain a cache of web documents so th...
We study web caching with request reordering. The goal is to maintain a cache of web documents so th...
Current web caching algorithms process requests in the order of the arrival. While such restriction ...
A generalized paging problem is considered. Each request is expressed as a set of $u$ pages. In orde...
This paper studies the effect of scheduling (reordering) page requests on the page hit ratio. First,...
We consider a variant of the online paging problem where the online algorithm may buy additional cac...
We consider a variant of the online paging problem where the online algorithm may buy additional cac...
AbstractWe consider a paging problem in which each page is assigned an expiration time at the time i...
Abstract — We present a universal algorithm for the classical online problem of caching or demand pa...
Caching has been recognized as an effective scheme for avoiding service bottleneck and reducing netw...
We study the writeback-aware caching problem, a variant of classic paging where paging requests that...
We consider online algorithms for the generalized caching problem. Here we are given a cache of size...
We consider an extension of the standard on-line model to settings in which an on-line algorithm has...