Add to ORKGLimited preemptive scheduling has been shown to dominate both non-preemptive and fully preemptive scheduling under fixed priority systems, as far as schedulability is concerned. This paper suggests the use of DVS and DMP techniques under limited preemptive scheduling to further reduce energy consumption with respect to a fully preemptive or non-preemptive approach
The coordination of appliances in a smart building to limit the peak load is one of the common objec...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Power management has become an important system design issue for both embed-ded systems and server s...
Limited preemptive scheduling has been shown to dominate both non-preemptive and fully preemptive sc...
This paper presents a new energy-aware algorithm that integrates Dynamic Voltage and Frequency Scali...
This paper presents a new energy-aware algorithm that integrates Dynamic Voltage and Frequency Scali...
Abstract—The real-time research community is often con-cerned with finding suitable assumptions to s...
A novel energy reduction strategy to maximally exploit the dynamic workload variation is proposed fo...
In reality, peripheral devices often make a significant con-tribution to the power consumption of th...
The question whether preemptive algorithms are better than nonpreemptive ones for scheduling a set o...
The strict requirements on the timing correctness biased the modeling and analysis of real-time sys...
In this paper, we present a dynamic scheduling algorithm to minimize the energy consumption by both ...
In this paper, we present a dynamic scheduling algorithm to minimize the energy consumption by both ...
This paper aims to present a three phase scheduling algorithm that offers lesser energy consumption ...
In this paper, an energy-efficient scheduling algorithm, called ceiling-based condi-tional abortable...
The coordination of appliances in a smart building to limit the peak load is one of the common objec...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Power management has become an important system design issue for both embed-ded systems and server s...
Limited preemptive scheduling has been shown to dominate both non-preemptive and fully preemptive sc...
This paper presents a new energy-aware algorithm that integrates Dynamic Voltage and Frequency Scali...
This paper presents a new energy-aware algorithm that integrates Dynamic Voltage and Frequency Scali...
Abstract—The real-time research community is often con-cerned with finding suitable assumptions to s...
A novel energy reduction strategy to maximally exploit the dynamic workload variation is proposed fo...
In reality, peripheral devices often make a significant con-tribution to the power consumption of th...
The question whether preemptive algorithms are better than nonpreemptive ones for scheduling a set o...
The strict requirements on the timing correctness biased the modeling and analysis of real-time sys...
In this paper, we present a dynamic scheduling algorithm to minimize the energy consumption by both ...
In this paper, we present a dynamic scheduling algorithm to minimize the energy consumption by both ...
This paper aims to present a three phase scheduling algorithm that offers lesser energy consumption ...
In this paper, an energy-efficient scheduling algorithm, called ceiling-based condi-tional abortable...
The coordination of appliances in a smart building to limit the peak load is one of the common objec...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Power management has become an important system design issue for both embed-ded systems and server s...