The challenge in conserving energy in embedded real-time systems is to reduce power consumption while preserving temporal correctness. Much research has focused on power conservation for the processor, while power conservation for I/O devices has received little attention. In this paper, we analyze the problem of online energy-aware I/O scheduling for hard real-time systems based on the preemptive periodic task model with non-preemptible shared resources. We extend the concept of device slack proposed in [2] to support non-preemptible shared resources; and propose an online energy-aware I/O scheduling algorithm: Energy-efficient Device Scheduling with Non-preemptible Resources (EEDS NR). The EEDS NR algorithm utilizes device slack to perfor...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
An ever increasing need for extra functionality in a single embedded system demands for extra Input/...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...
The challenge in conserving energy in embedded real-time systems is to reduce power consumption whil...
The challenge in conserving energy in embedded real-time systems is to reduce power consumption whil...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
An ever increasing need for extra functionality in a single embedded system demands for extra Input/...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...
The challenge in conserving energy in embedded real-time systems is to reduce power consumption whil...
The challenge in conserving energy in embedded real-time systems is to reduce power consumption whil...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
Over the past several years, many embedded real-time systems have emerged with energy conservation r...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
In real-time systems, Dynamic Power Management (DPM) techniques have traditionally centered on the C...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
In embedded real-time systems, Dynamic Power Management (DPM) techniques have traditionally focused ...
A large part of power dissipation in a system is generated by I/O devices. Increasingly these device...
An ever increasing need for extra functionality in a single embedded system demands for extra Input/...
Many I/O devices provide multiple power states known as the dynamic power management (DPM) feature. ...