textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to use $n$ machines, whereas the optimal off-line algorithm is limited to $m$ machines, for some fixed $m < n$. We show that while the greedy algorithm has a competitive ratio which decays linearly in the inverse of $n/m$, the best on-line algorithm has a ratio which decays exponentially in $n/m$. Specifically, we give an algorithm with competitive ratio of $1+2^{- frac{n{m (1- o (1))$, and a lower bound of $1+ e^{ - frac{n{m (1+ o(1))$ on the competitive ratio of any randomized algorithm. We also consider the preemptive case. We show an on-line algorithm with a competitive ratio of $1+ e^{ - frac{n{m (1+ o(1))$. We show that the algorithm is...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
We study the scheduling problem of minimizing the maximum starting time on-line. The goal is to mini...
We consider load-balancing in the following setting. The on-line algorithm is allowed to use $n$ mac...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
We study the scheduling problem of minimizing the maximum starting time on-line. The goal is to mini...
We consider load-balancing in the following setting. The on-line algorithm is allowed to use $n$ mac...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
We consider the problem of online scheduling of jobs on unrelated machines with dynamic speed scalin...
Abstract. We consider the problem of scheduling a sequence of jobs to m parallel machines as to maxi...
We study the scheduling problem of minimizing the maximum starting time on-line. The goal is to mini...