In this article we study the problem of scheduling independent tasks, each of which requires the simultaneous availability of a set of prespecified processors, with the objective of minimizing the maximum completion time. We propose a graph-theoretical approach and identify a class of polynomial instances, corresponding to comparability graphs. We show that the scheduling problem is polynomially equivalent to the problem of extending a graph to a comparability graph whose maximum weighted clique has minimum weight. Using this formulation we show that in some cases it is possible to decompose the problem according to the canonical decomposition of the graph. Finally, a general solution procedure is given that includes a branch-and-bound algo...
This paper addresses a multiprocessor generalization of the preemp-tive open-shop scheduling problem...
Multiprocessor tasks are executed by more than one processor at the same moment of time, This work c...
We study the offline and online versions of the well known problem of scheduling a set of n indepen-...
In this article we study the problem of scheduling independent tasks, each of which requires the sim...
Abstract: In this paper we consider a problem of preemptive scheduling of multiprocessor tasks on de...
We study the offline and online versions of the well known problem of scheduling a set of n independ...
In this paper, we consider the problem of scheduling tasks on two dedicated processors where some ta...
In this paper we study a scheduling problem with duo-processor tasks, that is tasks simultaneously ...
AbstractWe address a generalization of the classical 1- and 2-processor unit execution time scheduli...
AbstractWe discuss the problem of scheduling preemptive independent tasks, subject to release dates ...
We consider the problem of scheduling tasks on a set of dedicated processors, where each task requir...
AbstractThis paper considers the problem of scheduling nonpreemptive multiprocessor tasks in a homog...
We consider the problem of scheduling tasks on a set of dedicated processors, where each task requir...
In this work we consider the problem of scheduling multiprocessor tasks on parallel processors avail...
AbstractThe paper is concerned with scheduling problems with multiprocessor tasks and presents condi...
This paper addresses a multiprocessor generalization of the preemp-tive open-shop scheduling problem...
Multiprocessor tasks are executed by more than one processor at the same moment of time, This work c...
We study the offline and online versions of the well known problem of scheduling a set of n indepen-...
In this article we study the problem of scheduling independent tasks, each of which requires the sim...
Abstract: In this paper we consider a problem of preemptive scheduling of multiprocessor tasks on de...
We study the offline and online versions of the well known problem of scheduling a set of n independ...
In this paper, we consider the problem of scheduling tasks on two dedicated processors where some ta...
In this paper we study a scheduling problem with duo-processor tasks, that is tasks simultaneously ...
AbstractWe address a generalization of the classical 1- and 2-processor unit execution time scheduli...
AbstractWe discuss the problem of scheduling preemptive independent tasks, subject to release dates ...
We consider the problem of scheduling tasks on a set of dedicated processors, where each task requir...
AbstractThis paper considers the problem of scheduling nonpreemptive multiprocessor tasks in a homog...
We consider the problem of scheduling tasks on a set of dedicated processors, where each task requir...
In this work we consider the problem of scheduling multiprocessor tasks on parallel processors avail...
AbstractThe paper is concerned with scheduling problems with multiprocessor tasks and presents condi...
This paper addresses a multiprocessor generalization of the preemp-tive open-shop scheduling problem...
Multiprocessor tasks are executed by more than one processor at the same moment of time, This work c...
We study the offline and online versions of the well known problem of scheduling a set of n indepen-...