This work presents a methodology for designing an ultra low power application specific instruction set processor. This paper shows the different steps to develop a digital signal processing architecture for a single channel ECG application assuming a system level power dissipation constraint of 100μW. We follow a bottleneck driven approach based on the following steps. First coarse grained clock gating is applied. Next, the static as well as the dynamic dissipation of the digital processor is reduced and possibilities for future improvements are discussed. Finally, an optimal processor is built consuming 8.40μW when running the reference application.</p
Les travaux de cette thèse se concentrent sur la réduction de l'énergie consommée et l'amélioration ...
and Computer Science In a number of emerging applications such as wireless sensor networks, system l...
An Ultra Low Power (ULP) biomedical System-on Chip (SoC) has been developed for efficient ECG/EEG si...
This work presents a methodology for designing an ultra low power application specific instruction s...
Wireless sensor nodes span a wide range of applications. This paper focuses on the biomedical area, ...
Wireless sensor nodes span a wide range of applications. This paper focuses on the biomedical area, ...
Impulse Radio-based Ultra-Wideband (UWB) technology is a strong candidate for the implementation of ...
In order to make sensor networks cost-effective and practical, the electronic compo-nents of a wirel...
High efficiency and low power consumption are among the main topics in embedded systems today. For c...
This thesis pertains to the design of a digital signal processor (DSP) with emphasis on lowpower for...
\u3cp\u3eMany signal processing applications demand for highly energy efficient flexible implementat...
The main objective of this research is to improve the energy efficiency of low throughput wireless b...
Wireless sensor nodes are applicable in a wide range of situations such as the medical, industrial o...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
Les travaux de cette thèse se concentrent sur la réduction de l'énergie consommée et l'amélioration ...
and Computer Science In a number of emerging applications such as wireless sensor networks, system l...
An Ultra Low Power (ULP) biomedical System-on Chip (SoC) has been developed for efficient ECG/EEG si...
This work presents a methodology for designing an ultra low power application specific instruction s...
Wireless sensor nodes span a wide range of applications. This paper focuses on the biomedical area, ...
Wireless sensor nodes span a wide range of applications. This paper focuses on the biomedical area, ...
Impulse Radio-based Ultra-Wideband (UWB) technology is a strong candidate for the implementation of ...
In order to make sensor networks cost-effective and practical, the electronic compo-nents of a wirel...
High efficiency and low power consumption are among the main topics in embedded systems today. For c...
This thesis pertains to the design of a digital signal processor (DSP) with emphasis on lowpower for...
\u3cp\u3eMany signal processing applications demand for highly energy efficient flexible implementat...
The main objective of this research is to improve the energy efficiency of low throughput wireless b...
Wireless sensor nodes are applicable in a wide range of situations such as the medical, industrial o...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
Les travaux de cette thèse se concentrent sur la réduction de l'énergie consommée et l'amélioration ...
and Computer Science In a number of emerging applications such as wireless sensor networks, system l...
An Ultra Low Power (ULP) biomedical System-on Chip (SoC) has been developed for efficient ECG/EEG si...