We present a battery-efficient task execution methodology for portable Reconfigurable Computing (RC) platforms. We implement a given algorithm with varying power-performance levels: we call these implementations, Cores and each core is characterized in terms of its power and performance levels. Core change and/or the frequency change are the two mechanisms used to vary the battery consumption. We consider two cases for single task execution: one increasing the performance with a battery life constraint and the other prolonging the battery life with a performance constraint. The execution time of each task is divided into equal time intervals, called slots. A Simulated Annealing based algorithm is used to find the best constraint-satisfying ...
In this paper, we propose the task scheduling for preventing the occurrence of peak power in the mul...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...
In this paper, we investigate the impact of scheduler overhead on energy-efficient, real-time schedu...
Portable devices, such as mobile phones, personal digital assistants, notebooks, etc., have become a...
International audienceThis paper deals with the real-time scheduling in a reconfigurable multi-core ...
Battery lifetime is a critical parameter in the operation of mobile computing devices. The lifetime ...
Abstract. We propose to improve battery life in pervasive devices by using multiple processors that ...
International audienceThis paper deals with real-time scheduling of homogeneous multi-core platforms...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
International audienceThis paper addresses the management of tasks execution for real-time reconfigu...
ABSTRACT Operation of battery-powered portable systems can no longer besustained once a battery beco...
Power management saves power by shutting down idle devices. These devices often serve requests from ...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
International audiencePerformance boosting has been a highly important goal in system designs in the...
In this paper, we propose the task scheduling for preventing the occurrence of peak power in the mul...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...
In this paper, we investigate the impact of scheduler overhead on energy-efficient, real-time schedu...
Portable devices, such as mobile phones, personal digital assistants, notebooks, etc., have become a...
International audienceThis paper deals with the real-time scheduling in a reconfigurable multi-core ...
Battery lifetime is a critical parameter in the operation of mobile computing devices. The lifetime ...
Abstract. We propose to improve battery life in pervasive devices by using multiple processors that ...
International audienceThis paper deals with real-time scheduling of homogeneous multi-core platforms...
Energy consumption is a major concern for designers of embedded devices. Especially for battery oper...
International audienceThis paper addresses the management of tasks execution for real-time reconfigu...
ABSTRACT Operation of battery-powered portable systems can no longer besustained once a battery beco...
Power management saves power by shutting down idle devices. These devices often serve requests from ...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
International audiencePerformance boosting has been a highly important goal in system designs in the...
In this paper, we propose the task scheduling for preventing the occurrence of peak power in the mul...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...
In this paper, we investigate the impact of scheduler overhead on energy-efficient, real-time schedu...