We investigate the power of migration in online scheduling for parallel identical machines. Our objective is to maximize the total processing time of accepted jobs. Once we decide to accept a job, we have to complete it before its deadline d that satisfies d >= (1+epsilon)p + r, where p is the processing time, r the submission time and the slack epsilon > 0 a system parameter. Typically, the hard case arises for small slack epsilon << 1, i.e. for near-tight deadlines. Without migration, a greedy acceptance policy is known to be an optimal deterministic online algorithm with a competitive factor of (1+epsilon)/epsilon (DasGupta and Palis, APPROX 2000). Our first contribution is to show that migrations do not improve the competitive ratio of ...
In this paper, we derive bounds on performance guarantees of online algorithms for real-time preempt...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
We consider the problem of scheduling jobs arriving over time in a multiprocessor setting, with imme...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
We consider a basic admission control problem in which jobs with deadlines arrive online and our goa...
AbstractWe study the problem of scheduling parallel machines online, allowing preemptions while disa...
We study the problem of scheduling parallel machines online, allowing preemptions while disallowing ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
Online models that allow recourse are highly effective in situations where classical models are too ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
In this paper we consider multiprocessor scheduling with hard deadlines and investigate the cost of ...
We consider online preemptive throughput scheduling of jobs with fixed starting times on m uniformly...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
In this paper, we derive bounds on performance guarantees of online algorithms for real-time preempt...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
We consider the problem of scheduling jobs arriving over time in a multiprocessor setting, with imme...
We investigate the power of migration in online scheduling for parallel identical machines. Our obje...
Consider the classical online scheduling problem where jobs that arrive one by one are assigned to i...
We consider a basic admission control problem in which jobs with deadlines arrive online and our goa...
AbstractWe study the problem of scheduling parallel machines online, allowing preemptions while disa...
We study the problem of scheduling parallel machines online, allowing preemptions while disallowing ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
Online models that allow recourse are highly effective in situations where classical models are too ...
In the classic minimum makespan scheduling problem, we are given an input sequence of n jobs with si...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
In this paper we consider multiprocessor scheduling with hard deadlines and investigate the cost of ...
We consider online preemptive throughput scheduling of jobs with fixed starting times on m uniformly...
Abstract. We study a classical problem in online scheduling. A sequence of jobs must be scheduled on...
In this paper, we derive bounds on performance guarantees of online algorithms for real-time preempt...
AbstractMakespan minimization on m identical machines is a fundamental scheduling problem. The goal ...
We consider the problem of scheduling jobs arriving over time in a multiprocessor setting, with imme...