The trade-off between system performance and energy efficiency (service time) is critical for battery-based embedded systems. Most of the previous work focuses on saving energy in a deterministic way by taking the average or worst scenario into account. However, such deterministic approaches usually are inappropriate in modeling energy consumption because of uncertainties in conditional instructions on processors and time-varying external environments (e.g., fluctuant network bandwidth and different user inputs). By adopting a probabilistic approach, this paper proposes a model and a set of algorithms to address the Processor and Voltage Assignment with Probability (PVAP) problem of data-dependent aperiodic tasks in real-time embedded syste...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
International audienceIn this paper, we propose feasibility and schedulability tests for a real-time...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...
Energy-saving is extremely important in real-time em-bedded systems. Dynamic Voltage Scaling (DVS) i...
Reducing energy consumption is one of the main concerns in the design and implementation of embedded...
The modeling and analysis of real-time applications focus on the worst-case scenario because of thei...
Energy-efficiency has been an important system issue in hardware and software designs for both real-...
Abstract The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art ener...
In this paper, we tackle the problem of minimizing the energy consumption of single-processor-core s...
This paper presents an energy-aware method to schedule multiple real-time tasks in multiprocessor sy...
Energy consumption has become an increasingly important consideration in designing many real-time em...
We present a CPU scheduling algorithm, called Energy-efficient Utility Accrual Algorithm (or EUA), f...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
International audienceIn this paper, we propose feasibility and schedulability tests for a real-time...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...
Energy-saving is extremely important in real-time em-bedded systems. Dynamic Voltage Scaling (DVS) i...
Reducing energy consumption is one of the main concerns in the design and implementation of embedded...
The modeling and analysis of real-time applications focus on the worst-case scenario because of thei...
Energy-efficiency has been an important system issue in hardware and software designs for both real-...
Abstract The Dynamic Voltage Scaling (DVS) technique is the basis of numerous state-of-the-art ener...
In this paper, we tackle the problem of minimizing the energy consumption of single-processor-core s...
This paper presents an energy-aware method to schedule multiple real-time tasks in multiprocessor sy...
Energy consumption has become an increasingly important consideration in designing many real-time em...
We present a CPU scheduling algorithm, called Energy-efficient Utility Accrual Algorithm (or EUA), f...
Minimizing energy consumption is an important issue in the design of real-time embedded systems. As ...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
This paper describes a new Dynamic Voltage Scaling (DVS) technique for embedded systems expressed as...
A dynamic voltage scaling (DVS) technique for embedded systems expressed as conditional task graphs ...
International audienceIn this paper, we propose feasibility and schedulability tests for a real-time...
Energy consumption is a critical design issue in real-time systems, especially in battery- operated ...