In this paper we consider online deadline scheduling on a processor that can manage its energy usage by scaling the speed dynamically or entering a sleep state. A new online scheduling algorithm called SOA is presented. Assuming speed can be scaled arbitrarily high (the infinite speed model), SOA can complete all jobs with reduced energy usage, improving the competitive ratio for energy from 22α-2αα+2α-1+2 (Irani et al. (2007) [17]) to αα+2, where α is the constant involved in the speed-to-power function, commonly believed to be 2 or 3. More importantly, SOA is the first algorithm that works well even if the processor has a fixed maximum speed and the system is overloaded. In this case, SOA is 4-competitive for throughput and (αα+α24α+2)-co...
This paper is concerned with online scheduling algorithms that aim at minimizing the total flow time...
Speed scaling is a power management technology that involves dynamically changing the speed of a pro...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
AbstractIn this paper we consider online deadline scheduling on a processor that can manage its ener...
This article extends the study of online algorithms for energy-efficient deadline scheduling to the ...
We consider online scheduling algorithms in the dynamic speed scaling model, where a processor can s...
Lecture Notes in Computer Science, vol. 6534 entitled: Approximation and Online Algorithms: 8th inte...
The past few years have witnessed different scheduling algorithms for a processor that can manage it...
We present theoretical algorithmic research of processor scheduling in an energy aware environment u...
Abstract. We present and study a new model for energy-aware and profit-oriented schedul-ing on a sin...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
Online flow-time scheduling is a fundamental problem in computer science and has been extensively st...
We present a new online algorithm for profit-oriented scheduling on multiple speed-scalable pro-cess...
Job scheduling, which greatly impacts on the system performance, is a fundamental problem in compute...
Existing work on scheduling with energy concern has focused on minimizing the energy for completing ...
This paper is concerned with online scheduling algorithms that aim at minimizing the total flow time...
Speed scaling is a power management technology that involves dynamically changing the speed of a pro...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...
AbstractIn this paper we consider online deadline scheduling on a processor that can manage its ener...
This article extends the study of online algorithms for energy-efficient deadline scheduling to the ...
We consider online scheduling algorithms in the dynamic speed scaling model, where a processor can s...
Lecture Notes in Computer Science, vol. 6534 entitled: Approximation and Online Algorithms: 8th inte...
The past few years have witnessed different scheduling algorithms for a processor that can manage it...
We present theoretical algorithmic research of processor scheduling in an energy aware environment u...
Abstract. We present and study a new model for energy-aware and profit-oriented schedul-ing on a sin...
In this paper we study energy efficient deadline scheduling on multiprocessors in which the processo...
Online flow-time scheduling is a fundamental problem in computer science and has been extensively st...
We present a new online algorithm for profit-oriented scheduling on multiple speed-scalable pro-cess...
Job scheduling, which greatly impacts on the system performance, is a fundamental problem in compute...
Existing work on scheduling with energy concern has focused on minimizing the energy for completing ...
This paper is concerned with online scheduling algorithms that aim at minimizing the total flow time...
Speed scaling is a power management technology that involves dynamically changing the speed of a pro...
In this paper we investigate algorithmic instruments leading to low power consumption in computing d...