In this work, we propose a combined Dynamic Voltage Scaling (DVS) and Dynamic Cache Reconfiguration (DCR) online algorithm that dynamically adapts the processor speed (i.e., voltage) and the cache subsystem to the workload requirements for the purposes of saving energy. The workload is considered to be a set of tasks with real-time deadlines. Our online algorithm is invoked as part of the OS scheduler, which performs standard earliest deadline first (EDF) task scheduling first. Then, our online algorithm, determines an ideal voltage/cache configuration for the current executing task
While the dynamic voltage scaling (DVS) techniques are efficient in reducing the dynamic energy cons...
Dynamic voltage scaling (DVS) algorithms save energy by scaling down the processor frequency when th...
In this paper, an energy aware dynamic voltage and frequency selection (EA-DVFS) algorithm is propos...
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...
In recent years, there has been a rapid and wide spread of non-traditional computing platforms, espe...
Applying classical dynamic voltage scaling (DVS) techniques to real-time systems running on processo...
Because of technology advances power consumption has emerged up as an important design issue in mode...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
Dynamic voltage scaling (DVS) algorithms save energy by scaling down the processor frequency when th...
This paper concerns with the issue of minimizing of ever increasing energy consumption in computer s...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Power management has become an important system design issue for both embed-ded systems and server s...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
While the dynamic voltage scaling (DVS) techniques are efficient in reducing the dynamic energy cons...
Dynamic voltage scaling (DVS) algorithms save energy by scaling down the processor frequency when th...
In this paper, an energy aware dynamic voltage and frequency selection (EA-DVFS) algorithm is propos...
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...
In recent years, there has been a rapid and wide spread of non-traditional computing platforms, espe...
Applying classical dynamic voltage scaling (DVS) techniques to real-time systems running on processo...
Because of technology advances power consumption has emerged up as an important design issue in mode...
This paper applies the concept of real-time process scheduling to a Dynamic Voltage Scaling (DVS) mi...
Dynamic voltage scaling (DVS) algorithms save energy by scaling down the processor frequency when th...
This paper concerns with the issue of minimizing of ever increasing energy consumption in computer s...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Power management has become an important system design issue for both embed-ded systems and server s...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
While the dynamic voltage scaling (DVS) techniques are efficient in reducing the dynamic energy cons...
Dynamic voltage scaling (DVS) algorithms save energy by scaling down the processor frequency when th...
In this paper, an energy aware dynamic voltage and frequency selection (EA-DVFS) algorithm is propos...