Microprocessors represent a significant portion of the energy con-sumed in portable electronic devices. Dynamic Voltage Scaling (DVS) allows a device to reduce energy consumption by lowering its processor speed at run-time, allowing a corresponding reduction in processor voltage and energy. A voltage scheduler determines the appropriate operating voltage by analyzing application con-straints and requirements. A complete software implementation, including both applications and the underlying operating system, shows that DVS is effective at reducing the energy consumed without requiring extensive software modification
Traditionally, the primary performance goal of computer systems has focused on reducing the executio...
Power consumption has become a major concern, both for processor design with high clock rates and em...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Abstract Dynamic Voltage Scaling (DVS) is an effective technique for reducing energy consumption in...
Because of technology advances power consumption has emerged up as an important design issue in mode...
Abstract. When peak performance is unnecessary, Dynamic Voltage Scaling (DVS) can be used to reduce ...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Dynamic voltage scaling (DVS) has become an important dynamic power-management technique to save ene...
Traditionally, the primary performance goal of computer systems has focused on reducing the executio...
Power consumption has become a major concern, both for processor design with high clock rates and em...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
While Dynamic Voltage Scaling (DVS) is an efficient tech-nique in reducing the dynamic energy consum...
The energy usage of computer systems is becom-ing important, especially for portable battery-operate...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Dynamic voltage scaling (DVS) is a well-known low power design technique that reduces the processor ...
Abstract Dynamic Voltage Scaling (DVS) is an effective technique for reducing energy consumption in...
Because of technology advances power consumption has emerged up as an important design issue in mode...
Abstract. When peak performance is unnecessary, Dynamic Voltage Scaling (DVS) can be used to reduce ...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Dynamic voltage scaling (DVS) is a technique used in modern microprocessors operated by battery to s...
Dynamic voltage scaling (DVS) has become an important dynamic power-management technique to save ene...
Traditionally, the primary performance goal of computer systems has focused on reducing the executio...
Power consumption has become a major concern, both for processor design with high clock rates and em...
Clock (and voltage) scheduling is an important technique to reduce the energy consumption of process...