The weighted k-server problem is a natural generalization of the k-server problem where each server has a different weight. We consider the problem on uniform metrics, which corresponds to a natural generalization of paging. Our main result is a doubly exponential lower bound on the competitive ratio of any deterministic online algorithm, that essentially matches the known upper bounds for the problem and closes a large and long-standing gap. The lower bound is based on relating the weighted k-server problem to a certain combinatorial problem and proving a Ramsey-theoretic lower bound for it. This combinatorial connection also reveals several structural properties of low cost feasible solutions to serve a sequence of requests. We use this t...
We give the first polylogarithmic-competitive randomized online algorithm for the k-server problem o...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
AbstractThe k-server problem is one of the most fundamental online problems. The problem is to sched...
The weighted k-server problem is a natural generalization of the k-server problem where each server ...
AbstractIn this paper we deal with a generalization of the k-server problem (Manasse 1988), in which...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
grantor: University of TorontoIn this paper, we introduce the 'Multi-threaded k-server Pro...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The weighted k-server problem is a natural generalization of the k-server problem in which the cost ...
We give the first polylogarithmic-competitive randomized online algorithm for the $k$-server problem...
The weighted k-server problem is a generalization of the k-server problem wherein the cost of moving...
We study the resource augmented version of the k-server problem, also known as the k-server problem ...
AbstractWe consider a generalization of the 2-server problem in which servers have different costs. ...
We give the first polylogarithmic-competitive randomized online algorithm for the k-server problem o...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
AbstractThe k-server problem is one of the most fundamental online problems. The problem is to sched...
The weighted k-server problem is a natural generalization of the k-server problem where each server ...
AbstractIn this paper we deal with a generalization of the k-server problem (Manasse 1988), in which...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
grantor: University of TorontoIn this paper, we introduce the 'Multi-threaded k-server Pro...
The generalized k-server problem is a far-reaching extension of the k-server problem with several ap...
The weighted k-server problem is a natural generalization of the k-server problem in which the cost ...
We give the first polylogarithmic-competitive randomized online algorithm for the $k$-server problem...
The weighted k-server problem is a generalization of the k-server problem wherein the cost of moving...
We study the resource augmented version of the k-server problem, also known as the k-server problem ...
AbstractWe consider a generalization of the 2-server problem in which servers have different costs. ...
We give the first polylogarithmic-competitive randomized online algorithm for the k-server problem o...
In this paper we give deterministic competitive k-server algorithms for all k and all metric spaces....
AbstractThe k-server problem is one of the most fundamental online problems. The problem is to sched...