Energy-quality scalable systems are a promising solution to cope with the small energy budgets and high processing demands of mobile and IoT applications. These systems leverage the error resilience of applications to obtain high energy efficiency, at the expense of tolerable reductions in the output quality. Hardware datapath operators able to reconfigure their precision and power consumption at runtime are key components of such systems. However, most implementations of these operators require manual, architecture-specific modifications and tend to have large power overheads compared to standard designs, when working at maximum precision. One promising design-independent alternative is Dynamic Voltage and Accuracy Scaling, whose adoption,...
Energy-efficiency is a critical concern for many systems, ranging from Internet of things objects an...
textAs semiconductor technology continues to scale, energy-efficiency and power consumption have bec...
In this paper, we propose a system level design approach considering voltage over-scaling (VOS) that...
International audienceEnergy-quality scalable systems are a promising solution to cope with the smal...
Mobile and IoT applications must balance increasing processing demands with limited power and cost b...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Energy efficiency is one of the key design goals in modern computing. Increasingly complex tasks are...
As more and more multimedia applications are integrated in mobile devices, a significant amount of e...
The increasing performance demands in emerging Internet of Things applications clash with the low en...
As more and more artificial intelligence capabilities are deployed onto resource-constrained devices...
As technology scaling slows down in the nanometer CMOS regime and mobile computing becomes more ubiq...
In this dissertation, novel methodologies for designing energy-efficient hardware systems that deliv...
Technology scaling has progressed to enable integrated circuits with extremely high density enabling...
This paper demonstrates a wide supply range multiply-accumulate datapath block in 28nm UTBB FD-SOI t...
The most critical concern in circuit is to achieve high level of performance with very tight power c...
Energy-efficiency is a critical concern for many systems, ranging from Internet of things objects an...
textAs semiconductor technology continues to scale, energy-efficiency and power consumption have bec...
In this paper, we propose a system level design approach considering voltage over-scaling (VOS) that...
International audienceEnergy-quality scalable systems are a promising solution to cope with the smal...
Mobile and IoT applications must balance increasing processing demands with limited power and cost b...
International audienceVoltage scaling has been used as a prominent technique to improve energy effic...
Energy efficiency is one of the key design goals in modern computing. Increasingly complex tasks are...
As more and more multimedia applications are integrated in mobile devices, a significant amount of e...
The increasing performance demands in emerging Internet of Things applications clash with the low en...
As more and more artificial intelligence capabilities are deployed onto resource-constrained devices...
As technology scaling slows down in the nanometer CMOS regime and mobile computing becomes more ubiq...
In this dissertation, novel methodologies for designing energy-efficient hardware systems that deliv...
Technology scaling has progressed to enable integrated circuits with extremely high density enabling...
This paper demonstrates a wide supply range multiply-accumulate datapath block in 28nm UTBB FD-SOI t...
The most critical concern in circuit is to achieve high level of performance with very tight power c...
Energy-efficiency is a critical concern for many systems, ranging from Internet of things objects an...
textAs semiconductor technology continues to scale, energy-efficiency and power consumption have bec...
In this paper, we propose a system level design approach considering voltage over-scaling (VOS) that...