© 2015 IEEE. A wide variety of existing and emerging applications in recognition, mining and synthesis and machine-to-human interactions tolerate small errors or deviations in their computational results. Digital systems can exploit this error tolerance to increase their energy efficiency, which is crucial in high performance wearable electronics and in emerging low power systems for the internet-of-things. A dynamic energy-accuracy trade-off brings an extra degree of freedom for system level power management. We introduce the concept of Dynamic Voltage Accuracy Scaling and illustrate its analogy to Dynamic Voltage Frequency Scaling. Dynamic Voltage Accuracy Scaling proves to have higher energy gains at most output qualities compared to oth...
Dynamic voltage scaling (DVS) is a technique that varies the supply voltage and clock frequency, ba...
In this paper, we apply dynamic voltage scaling (DVS) to the match-ing metric computation (MMC) used...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
© 2017 IEEE. Several applications in machine learning and machine-to-human interactions tolerate sma...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
The increasing performance demands in emerging Internet of Things applications clash with the low en...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
As more and more multimedia applications are integrated in mobile devices, a significant amount of e...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
textThe Dynamic Voltage Scaling (DVS) technique has proven to be ideal in regard to balancing perfor...
DVS (Dynamic Voltage Scaling) is a technique used for reducing the power consumption of digital cir...
Abstract: Many recent dynamic voltage-scaling (DVS) algorithms use hardware events (such as cache mi...
International audienceMobile and IoT applications must balance increasing processing demands with li...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Dynamic voltage scaling (DVS) is a technique that varies the supply voltage and clock frequency, ba...
In this paper, we apply dynamic voltage scaling (DVS) to the match-ing metric computation (MMC) used...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...
© 2017 IEEE. Several applications in machine learning and machine-to-human interactions tolerate sma...
The demand for power efficient design has increased exponentially with the advent of smartphones cap...
The increasing performance demands in emerging Internet of Things applications clash with the low en...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
The reduction of energy consumption in micro-processors can be accomplished without impacting the pe...
As more and more multimedia applications are integrated in mobile devices, a significant amount of e...
Abstract- Energy consumption of electronic devices has become a serious concern in recent years. Ene...
textThe Dynamic Voltage Scaling (DVS) technique has proven to be ideal in regard to balancing perfor...
DVS (Dynamic Voltage Scaling) is a technique used for reducing the power consumption of digital cir...
Abstract: Many recent dynamic voltage-scaling (DVS) algorithms use hardware events (such as cache mi...
International audienceMobile and IoT applications must balance increasing processing demands with li...
Dynamic voltage and frequency scaling (DVFS) mechanisms have been developed for years to decrease th...
Dynamic voltage scaling (DVS) is a technique that varies the supply voltage and clock frequency, ba...
In this paper, we apply dynamic voltage scaling (DVS) to the match-ing metric computation (MMC) used...
This dissertation provides a comprehensive overview of the theory and practice of Dynamic Voltage/Fr...