Power dissipation has been an important design issue for a wide range of computer systems in the past decades. Dynamic power consumption due to signal switching activities and static power consumption due to leakage current are the two major sources of power consumption in a CMOS circuit. As CMOS technology advances towards deep sub-micron domain, static power dissipation is comparable to or even more than dynamic power dissipation. This article explores how to apply dynamic power management to reduce static power for hard real-time systems. We propose online algorithms that adaptively control the power mode of a system, procrastinating the processing of arrived events as late as possible. To cope with multiple event streams with different ...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
Energy reduction is critical to increase the mobility and battery life for today’s pervasive computi...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
One of the most important considerations for the current VLSI/SOC design is power, which can be clas...
AbstractPower aware computing has become popular recently because of the vast application of the por...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
International audienceEnergy consumption of highly reliable real-time embedded systems is a signific...
While the dynamic voltage scaling (DVS) techniques are efficient in reducing the dynamic energy cons...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
cited By 5; Conference of 21st International Conference on Real-Time Networks and Systems, RTNS 2013...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
Energy reduction is critical to increase the mobility and battery life for today’s pervasive computi...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
One of the most important considerations for the current VLSI/SOC design is power, which can be clas...
AbstractPower aware computing has become popular recently because of the vast application of the por...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
International audienceEnergy consumption of highly reliable real-time embedded systems is a signific...
While the dynamic voltage scaling (DVS) techniques are efficient in reducing the dynamic energy cons...
Dynamic voltage scaling and sleep state control have been shown to be extremely effective in reducin...
In this paper, we analyze the faults tolerance capability of hard real-time systems under power cons...
cited By 5; Conference of 21st International Conference on Real-Time Networks and Systems, RTNS 2013...
Dynamic power management is a design methodology aiming at controlling perfor-mance and power levels...
Energy consumption is a major concern for designers of embedded devices.\ud Especially for battery o...
[[abstract]]The development cost of low-power embedded systems can be significantly reduced by reusi...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...