In this paper we consider multiprocessor scheduling with hard deadlines and investigate the cost of eliminating migration in the online setting. Let I be any set of jobs that can be completed by some migratory offline schedule on m processors. We show that I can also be completed by a non-migratory online schedule using m speed-5.828 processors (i.e., processors of 5.828 times faster). This result supplements the previous results that I can also be completed by a non-migratory offline schedule using 6m unit-speed processors or a migratory online schedule using m speed-2 processors. Our result is based on a simple conservative scheduling algorithm called PARK which commits a processor to a job only when the processor has zero commitment befo...
Energy usage has been an important concern in recent research on online scheduling. In this paper we...
This thesis presents several new results on online job scheduling. Job scheduling is a basic require...
We present a new online algorithm for profit-oriented scheduling on multiple speed-scalable pro-cess...
Abstract. In this paper we consider multiprocessor scheduling with hard deadlines and inves-tigate t...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
This paper is concerned with the design of online scheduling algorithms that exploit extra resources...
We consider the problem of scheduling jobs arriving over time in a multiprocessor setting, with imme...
AbstractThis paper is concerned with online algorithms for scheduling jobs with deadlines on a singl...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
Energy usage has been an important concern in recent research on online job scheduling, where proces...
This paper is concerned with online algorithms for scheduling jobs with deadlines on a single proces...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
We investigate the power of migration in real-time multiprocessor scheduling with preemption. We sho...
This article extends the study of online algorithms for energy-efficient deadline scheduling to the ...
International audienceWhen a computer system schedules jobs there is typically a significant cost as...
Energy usage has been an important concern in recent research on online scheduling. In this paper we...
This thesis presents several new results on online job scheduling. Job scheduling is a basic require...
We present a new online algorithm for profit-oriented scheduling on multiple speed-scalable pro-cess...
Abstract. In this paper we consider multiprocessor scheduling with hard deadlines and inves-tigate t...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
This paper is concerned with the design of online scheduling algorithms that exploit extra resources...
We consider the problem of scheduling jobs arriving over time in a multiprocessor setting, with imme...
AbstractThis paper is concerned with online algorithms for scheduling jobs with deadlines on a singl...
We consider the classical problem of scheduling jobs in a multiprocessor setting in order to minimiz...
Energy usage has been an important concern in recent research on online job scheduling, where proces...
This paper is concerned with online algorithms for scheduling jobs with deadlines on a single proces...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
We investigate the power of migration in real-time multiprocessor scheduling with preemption. We sho...
This article extends the study of online algorithms for energy-efficient deadline scheduling to the ...
International audienceWhen a computer system schedules jobs there is typically a significant cost as...
Energy usage has been an important concern in recent research on online scheduling. In this paper we...
This thesis presents several new results on online job scheduling. Job scheduling is a basic require...
We present a new online algorithm for profit-oriented scheduling on multiple speed-scalable pro-cess...