Power management at any abstraction level is a key issue for many mobile multimedia and embedded applications. In this paper a design workflow to generate system-level power models will be presented, tailored to support quantitative runtime power optimization policies to be implemented within an operating system. The approach we followed to derive power models is strongly use-case oriented. Starting from a comprehensive general and accurate model of a representative architecture for embedded applications (including a multi core MPSoC, accelerators, interfaces and peripherals), a methodology to derive compact models is presented, based upon the distinctive characteristics of the selected use cases. The methodology to generate suc...
In modern embedded systems, the use of hardware-level online power monitors is crucial to support th...
With the progress of low-power research on embedded systems, the estimation and analysis of the ener...
Nowadays, embedded systems are ubiquitous and inherent in almost all areas of life. In recent years,...
Power management at any abstraction level is a key issue for many mobile multimedia and embedded ap...
The increasing complexity and software content of embedded sys-tems has led to the frequent use of s...
In this paper we propose an application-level power consumption modeling and optimization technique ...
International audiencePower optimization has become a major concern for most digital hardware design...
In the near future, portable embedded devices must run multimedia and wireless network applications ...
International audienceRecent technological advances have greatly improved the performance and featur...
Due to the resource-constrained nature of embedded systems, it is crucial to support the estimation ...
Power consumption issues are one of the most significant factors affecting the future of performance...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
The use of models to predict the power con- sumption of a system is an appealing alternative...
Abstract — We have developed a specialized rapid power-estimation methodology for multimedia appli-c...
In modern embedded systems, the use of hardware-level online power monitors is crucial to support th...
With the progress of low-power research on embedded systems, the estimation and analysis of the ener...
Nowadays, embedded systems are ubiquitous and inherent in almost all areas of life. In recent years,...
Power management at any abstraction level is a key issue for many mobile multimedia and embedded ap...
The increasing complexity and software content of embedded sys-tems has led to the frequent use of s...
In this paper we propose an application-level power consumption modeling and optimization technique ...
International audiencePower optimization has become a major concern for most digital hardware design...
In the near future, portable embedded devices must run multimedia and wireless network applications ...
International audienceRecent technological advances have greatly improved the performance and featur...
Due to the resource-constrained nature of embedded systems, it is crucial to support the estimation ...
Power consumption issues are one of the most significant factors affecting the future of performance...
Minimising energy use is an important factor in the operation of many classes of embedded systems — ...
The use of models to predict the power con- sumption of a system is an appealing alternative...
Abstract — We have developed a specialized rapid power-estimation methodology for multimedia appli-c...
In modern embedded systems, the use of hardware-level online power monitors is crucial to support th...
With the progress of low-power research on embedded systems, the estimation and analysis of the ener...
Nowadays, embedded systems are ubiquitous and inherent in almost all areas of life. In recent years,...