Add to ORKGA generalized power tracking algorithm that minimizes power consumption of digital circuits by dynamic control of supply voltage and the body bias is proposed. A direct power monitoring scheme is proposed that does not need any replica and hence can sense total power consumed by load circuit across process, voltage, and temperature corners. Design details and performance of power monitor and tracking algorithm are examined by a simulation framework developed using UMC 90-nm CMOS triple well process. The proposed algorithm with direct power monitor achieves a power savings of 42.2% for activity of 0.02 and 22.4% for activity of 0.04. Experimental results from test chip fabricated in AMS 350 nm process shows power savings of 46.3% and 65% for...
The requirement to control each possible degree of freedom of digital circuits becomes a necessity i...
Traditional dynamic voltage scaling algorithms periodically monitor CPU utilization and adapt its op...
Dynamic Voltage Scaling (DVS) and Adaptive body bias (ABB) techniques respectively try to reduce the...
A generalized power tracking algorithm that minimizes power consumption of digital circuits by dynam...
An in-situ power monitoring technique for Dynamic Voltage and Threshold scaling (DVTS) systems is pr...
Abstract: This paper describes a novel monitoring scheme to minimize total active power in digital c...
This paper describes a novel monitoring scheme to minimize total active power in digital circuits de...
The Power consumption of large scale integrated circuits increasing with each generation which becom...
CMOS chips are engineered with sufficient performance margins to ensure that they meet the target pe...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
The demand to integrate more features has significantly increased the complexity and power consumpti...
With IC technology scaling into the deep sub-micron region, circuit power dissipation has become a p...
All digital circuits have design margins for delay and power consumption. This thesis introduces an ...
The requirement to control each possible degree of freedom of digital circuits becomes a necessity i...
Traditional dynamic voltage scaling algorithms periodically monitor CPU utilization and adapt its op...
Dynamic Voltage Scaling (DVS) and Adaptive body bias (ABB) techniques respectively try to reduce the...
A generalized power tracking algorithm that minimizes power consumption of digital circuits by dynam...
An in-situ power monitoring technique for Dynamic Voltage and Threshold scaling (DVTS) systems is pr...
Abstract: This paper describes a novel monitoring scheme to minimize total active power in digital c...
This paper describes a novel monitoring scheme to minimize total active power in digital circuits de...
The Power consumption of large scale integrated circuits increasing with each generation which becom...
CMOS chips are engineered with sufficient performance margins to ensure that they meet the target pe...
Increasing performance demands in integrated circuits, together with limited energy budgets, force I...
IoT devices operating on harvested energy from the environment need to deal with the variability of ...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
The demand to integrate more features has significantly increased the complexity and power consumpti...
With IC technology scaling into the deep sub-micron region, circuit power dissipation has become a p...
All digital circuits have design margins for delay and power consumption. This thesis introduces an ...
The requirement to control each possible degree of freedom of digital circuits becomes a necessity i...
Traditional dynamic voltage scaling algorithms periodically monitor CPU utilization and adapt its op...
Dynamic Voltage Scaling (DVS) and Adaptive body bias (ABB) techniques respectively try to reduce the...