Add to ORKGThe impressive evolution of modern high-performance microprocessors have resulted in chips with over one billion transistors as well as multi-GHz clock frequencies. As the silicon integrated circuit industry moves further into the nanometer regime, three of the main challenges to overcome in order for continuing CMOS technology scaling are; growing standby power dissipation, increasing variations in process parameters, and increasing power dissipation due to growing clock load and circuit complexity. This thesis addresses all three of these future scaling challenges with the overall focus on reducing the total clock-power for low-power, multi-GHz VLSI circuits. Power-dissipation related to the clock generation and distribution is identified...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
This paper presents a novel circuit design technique to reduce the power dissipation in sequential c...
Two novel low power flip-flops are presented in the paper. Proposed flip-flops use new gating techni...
Over the last four decades the integrated circuit industry has evolved in a tremendous pace. This su...
As the CMOS technology continues to scale down, power dissipation and robustness to leakage and proc...
Thesis (Ph.D.)--University of Washington, 2019Ensuring high performance and low-power is the goal fo...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
The advantage of scaling devices is to achieve high performance, low power, large integration and lo...
In integrated circuits, power consumption is a one of the top three challenges like area, power and ...
2010 International Conference on Embedded Systems and Intelligent Technology (ICESIT 2010) : Feb 5, ...
Since integration technology is approaching the nanoelectronics range, some practical limits are bei...
The increasing demand of portable applications motivates the research on low power and high speed ci...
As VLSI technology advances to deep sub-micron regime, power consumption has become a critical conce...
clock system is one of the major power consuming component. It consumes around 40 % of the total sys...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
This paper presents a novel circuit design technique to reduce the power dissipation in sequential c...
Two novel low power flip-flops are presented in the paper. Proposed flip-flops use new gating techni...
Over the last four decades the integrated circuit industry has evolved in a tremendous pace. This su...
As the CMOS technology continues to scale down, power dissipation and robustness to leakage and proc...
Thesis (Ph.D.)--University of Washington, 2019Ensuring high performance and low-power is the goal fo...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
The advantage of scaling devices is to achieve high performance, low power, large integration and lo...
In integrated circuits, power consumption is a one of the top three challenges like area, power and ...
2010 International Conference on Embedded Systems and Intelligent Technology (ICESIT 2010) : Feb 5, ...
Since integration technology is approaching the nanoelectronics range, some practical limits are bei...
The increasing demand of portable applications motivates the research on low power and high speed ci...
As VLSI technology advances to deep sub-micron regime, power consumption has become a critical conce...
clock system is one of the major power consuming component. It consumes around 40 % of the total sys...
Growing power dissipation and clock instability are resisting the continued scaling of high-performa...
This paper presents a novel circuit design technique to reduce the power dissipation in sequential c...
Two novel low power flip-flops are presented in the paper. Proposed flip-flops use new gating techni...