This paper presents a method of dynamic voltage scaling (DVS) that tackles both switching and leakage power with combined Vdd/Vbs scaling and gives minimum average energy consumption exploiting the runtime distribution of software execution. We present a mathematical formulation of the DVS problem and an efficient numerical solution. Experimental results show that the presented method shows up to 44 % further reduction in energy consumption compared with existing methods. Especially, when the leakage power consumption is significant, i.e. when temperature is high, the presented method is proven to be the most effective. 1
This paper presents an efficient algorithm for voltage scaling of an distributed embedded system tak...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
The Power consumption of large scale integrated circuits increasing with each generation which becom...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Abstract—With the shrinking of technology feature sizes, the share of leakage in total power consump...
In this paper, we propose a new technique for the combined voltagescaling of processors and communic...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
There is a growing need to analyze and optimize the stand-by component of power in digital circuits ...
Energy consumption has become a major constraint in providing increased functionality for devices wi...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
Dynamic voltage scaling (DVS) is a popular approach for energy reduction of integrated circuits. Cur...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
Increasing complexity and higher performance requirements of modern integrated circuits have natural...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
This paper presents an efficient algorithm for voltage scaling of an distributed embedded system tak...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
The Power consumption of large scale integrated circuits increasing with each generation which becom...
With power-related concerns becoming dominant aspects of hardware and software design, significant r...
Abstract—With the shrinking of technology feature sizes, the share of leakage in total power consump...
In this paper, we propose a new technique for the combined voltagescaling of processors and communic...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
There is a growing need to analyze and optimize the stand-by component of power in digital circuits ...
Energy consumption has become a major constraint in providing increased functionality for devices wi...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
Dynamic voltage scaling (DVS) is a popular approach for energy reduction of integrated circuits. Cur...
Dynamic voltage scaling and adaptive body biasing have been shown to reduce dynamic and leakage powe...
Dynamic voltage scaling (DVS) is a powerful technique to reduce power dissipation in embedded system...
Increasing complexity and higher performance requirements of modern integrated circuits have natural...
Dynamic voltage scaling (DVS), arguably the most effective energy reduction technique, can be enable...
This paper presents an efficient algorithm for voltage scaling of an distributed embedded system tak...
In this paper, an approach that uses dynamic voltage scaling (DVS) to reduce the configuration energ...
The Power consumption of large scale integrated circuits increasing with each generation which becom...