The growing class of portable systems, such as personal computing and communication devices, has resulted in a new set of system design requirements, mainly characterized by dominant importance of power minimization and design reuse. The energy efficiency of systems-on-a-chip (SOC) could be much improved if one were to vary the supply voltage dynamically at run time. We develop the design methodology for the lowpower core-based real-time SOC based on dynamically variable voltage hardware. The key challenge is to develop effective scheduling techniques that treat voltage as a variable to be determined, in addition to the conventional task scheduling and allocation. Our synthesis technique also addresses the selection of the proce...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
Voltage scheduling is indispensable for exploiting the benefit of variable voltage processors. Thoug...
The growing class of portable systems, such as personal computing and communication devices, has re...
The energy efficiency of systems-on-a-chip can be much improved if one were to vary the supply volt...
System-On-Chip design which utilizes multiple processor cores and hardware accelerator becomes more ...
With the demands of power-constrained mobile ap-plications and devices, it becomes a crucial and cha...
Energy consumption has become an increasingly important consideration in designing many real-time em...
This paper presents an efficient technique for energy minimisation based on dynamically variable sup...
Dynamic voltage scheduling has been proven to be one of the most effective ways to reduce the power ...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Power efficient design of real-time embedded systems based on programmable processors becomes more i...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
Design systems to provide various quality of service (QoS) guarantees has received a lot of attenti...
This paper presents a real-time OS based on $ mu $ITRON using proposed voltage scheduling algorithm ...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
Voltage scheduling is indispensable for exploiting the benefit of variable voltage processors. Thoug...
The growing class of portable systems, such as personal computing and communication devices, has re...
The energy efficiency of systems-on-a-chip can be much improved if one were to vary the supply volt...
System-On-Chip design which utilizes multiple processor cores and hardware accelerator becomes more ...
With the demands of power-constrained mobile ap-plications and devices, it becomes a crucial and cha...
Energy consumption has become an increasingly important consideration in designing many real-time em...
This paper presents an efficient technique for energy minimisation based on dynamically variable sup...
Dynamic voltage scheduling has been proven to be one of the most effective ways to reduce the power ...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Power efficient design of real-time embedded systems based on programmable processors becomes more i...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
Design systems to provide various quality of service (QoS) guarantees has received a lot of attenti...
This paper presents a real-time OS based on $ mu $ITRON using proposed voltage scheduling algorithm ...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
We present an iterative schedule optimisation for multi-rate system specifications, mapped onto hete...
Voltage scheduling is indispensable for exploiting the benefit of variable voltage processors. Thoug...