AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task can be handled only by a subset of the servers, requires a different level of service, and once assigned cannot be reassigned. We make the natural assumption that the level of service is known at arrival time, but that the duration of service is not. The on-line load balancing problem is to assign each task to an appropriate server in such a way that the maximum load on the servers is minimized. In this paper we derive matching upper and lower bounds for the competitive ratio of the on-line greedy algorithm for this problem, namely, [(3n)23/2](1+o(1)), and derive a lower bound, Ω(n12), for any other deterministic or randomized on-line algori...
textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
A machine instantly serves requests but needs to undergo maintenance after serving a maximum of L re...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
A machine instantly serves requests but needs to undergo maintenance after serving a maximum of L re...
The setup for our problem consists of n servers that must complete a set of tasks. Each task can be ...
AbstractThe setup for our problem consists of n servers that must complete a set of tasks. Each task...
We consider the on-line load balancing problem where there are m identical machines (servers) and a ...
AbstractWe provide a new approach to the on-line load balancing problem in the case of restricted as...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
We provide a new simpler approach to the on-line load balancing problem in the case of restricted as...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...
We provide a new approach to the on-line load balancing problem in the case of restricted assignment...
textabstractWe consider load-balancing in the following setting. The on-line algorithm is allowed to...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
A machine instantly serves requests but needs to undergo maintenance after serving a maximum of L re...