Preemption-Aware Dynamic Voltage Scaling in Hard Real-Time Systems
international symposium on low power electronics and design(2004)
摘要
Dynamic voltage scaling (DVS) is a well-known low-power design technique for embedded real-time systems. Because of its effectiveness on energy reduction, several variable voltage processors have been developed and many DVS algorithms targeting these processors have been proposed. However, most existing DVS algorithms focus on reducing the energy consumption of CPU only, ignoring their negative impacts on task scheduling and system wide energy consumption. In this paper, we address one of such side effects, an increase in task preemptions due to DVS. We present two preemption control techniques which can reduce the number of task preemptions of DVS algorithms. Experimental results show that the delayed-preemption technique is effective in reducing the number of preemptions incurred by DVS algorithms while achieving a high energy efficiency.
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关键词
processor scheduling,preemption control techniques,existing dvs algorithms focus,low-power systems,delayed-preemption technique,dynamic voltage scaling,microprocessor chips,integrated circuit modelling,energy reduction,power supply circuits,low-power electronics,high energy efficiency,dvs algorithms,preemption-aware dynamic voltage scaling,low-power design technique,system wide energy consumption,integrated circuit design,embedded real-time systems,energy consumption,hard real-time systems,hard real-time system,variable voltage processors,embedded systems,energy efficiency,task preemptions,task scheduling,real-time systems,dvs algorithm,electric potential,cpu energy consumption,side effect,real time systems
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