Add to ORKGAdaptive circuit techniques enable modification of power-performance efficient circuit operation. Yet it is unclear if such techniques remain effective in modern deep-submicron CMOS. In this paper we examine the technological boundaries of supply voltage scaling and body biasing in 45nm low-power CMOS. We demonstrate that there exists an effective tuning range for power-performance and performance variability control. Our analysis is supported by ring oscillator test-chip measurements
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
As technology scales down in order to meet demands of more computing power per area, a variety of ch...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Adaptive circuit techniques enable modification of power-performance efficient circuit operation. Ye...
We examine technology constraints on tuning active power and delay using adaptive voltage scaling (A...
In this chapter, we concentrate on technological quantitative pointers for adaptive voltage scaling ...
Abstract-In this paper we examine technology constraints on tuning active power and delay using adap...
The minimum operating voltage (VDDmin) of 90-nm CMOS ring oscillators (RO’s) is investigated in orde...
In this paper we examine the expectations and limitations of design technologies such as adaptive vo...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
Adaptive body bias (ABB) and adaptive supply voltage (ASV) have been showed to be effective methods ...
......Adaptive body bias has been pro-posed as a method for optimizing system power at a given perfo...
The most critical concern in circuit is to achieve high level of performance with very tight power c...
Adaptive body bias (ABB) and adaptive supply voltage (ASV) are effective methods for post-silicon tu...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
As technology scales down in order to meet demands of more computing power per area, a variety of ch...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Adaptive circuit techniques enable modification of power-performance efficient circuit operation. Ye...
We examine technology constraints on tuning active power and delay using adaptive voltage scaling (A...
In this chapter, we concentrate on technological quantitative pointers for adaptive voltage scaling ...
Abstract-In this paper we examine technology constraints on tuning active power and delay using adap...
The minimum operating voltage (VDDmin) of 90-nm CMOS ring oscillators (RO’s) is investigated in orde...
In this paper we examine the expectations and limitations of design technologies such as adaptive vo...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
Adaptive body bias (ABB) and adaptive supply voltage (ASV) have been showed to be effective methods ...
......Adaptive body bias has been pro-posed as a method for optimizing system power at a given perfo...
The most critical concern in circuit is to achieve high level of performance with very tight power c...
Adaptive body bias (ABB) and adaptive supply voltage (ASV) are effective methods for post-silicon tu...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
As technology scales down in order to meet demands of more computing power per area, a variety of ch...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...