We provide a new simpler approach to the on-line load balancing problem in the case of restricted assignment of temporary weighted tasks. The approach is very general and allows to derive on-line distributed algorithms whose competitive ratio is characterized by some combinatorial properties of the underlying graph representing the problem. The effectiveness of our approach is shown by the hierarchical server model introduced by Bar-Noy et al '99. In this case, our method yields simpler and distributed algorithms whose competitive ratio is at least as good as the existing ones. Moreover, the resulting algorithms and their analysis turn out to be simpler. Finally, in all cases the algorithms are optimal up to a constant factor. Some of our r...
We consider load balancing in the following setting. The on-line algorithm is allowed to use n machi...
In online load balancing problems, jobs arrive over a list. Upon arrival of a job, the algorithm is ...
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...
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 provide a new approach to the on-line load balancing problem in the case of restricted assignment...
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 ...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
A centralized scheduler must assign tasks to servers, processing on-line a sequence of task arrivals...
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...
In online load balancing problems, jobs arrive over a list. Upon arrival of a job, the algorithm is ...
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...
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 provide a new approach to the on-line load balancing problem in the case of restricted assignment...
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 ...
We consider the problem of scheduling permanent jobs on related machines in an on-line fashion. We d...
This paper considers the non-preemptive on-line load balancing problem where tasks have limited dura...
AbstractWe consider the on-line load balancing problem where there are m identical machines (servers...
A centralized scheduler must assign tasks to servers, processing on-line a sequence of task arrivals...
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...
In online load balancing problems, jobs arrive over a list. Upon arrival of a job, the algorithm is ...
Consider the on-line problem where a number of servers are ready to provide service to a set of cust...