As CMOS System-on-Chips approach the limits of power dissipation, static power has become dominant in a circuit’s total power dissipation. The static power is increasing exponentially as technology nodes shrink and is projected to exceed the dynamic power within the near future. Techniques that use the multi-threshold CMOS (MTCMOS) technology have been developed to reduce static power effectively. In this thesis, a novel triple-threshold static power minimization technique in high-level synthesis has been developed using the 90nm MTCMOS technology. Using static timing analysis, the optimal partitioning of gates with three different threshold voltages is determined via iterative analysis. The proposed triple-threshold technique has been appl...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Multi-Threshold CMOS (MTCMOS) is commonly utilized for suppressing leakage currents in idle integrat...
Technology scaling leads to sub threshold leakages in deep sub micron regime. There is a need for ef...
As integrated-circuits (IC) technology advances into the deep-submicron (DSM) regime, more functiona...
The need for low power dissipation in portable computing and wireless communication systems is makin...
This paper proposes an optimum methodology for assigning supply and threshold voltages to modules in...
This book presents an in-depth treatment of various power reduction and speed enhancement techniques...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
Due to semiconductor technology advancements, the static power dissipation caused by leakage current...
Abstract:- We present a multiple-voltage high-level synthesis methodology that minimizes power dissi...
[[abstract]]We study the reduction of static power consumption by dual threshold voltage assignment....
textIn a Power Efficiency System (PES), Energy Aware Computing (EAC) is a qualitative system attrib...
Channel subthreshold and gate leakage currents are predicted by many to become much more significant...
The strategy joins VS (Voltage Scaling) and MTCMOS procedure that aids in lessening active and passi...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Multi-Threshold CMOS (MTCMOS) is commonly utilized for suppressing leakage currents in idle integrat...
Technology scaling leads to sub threshold leakages in deep sub micron regime. There is a need for ef...
As integrated-circuits (IC) technology advances into the deep-submicron (DSM) regime, more functiona...
The need for low power dissipation in portable computing and wireless communication systems is makin...
This paper proposes an optimum methodology for assigning supply and threshold voltages to modules in...
This book presents an in-depth treatment of various power reduction and speed enhancement techniques...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Total power dissipation in CMOS circuits has become a huge challenging in current semiconductor indu...
Due to semiconductor technology advancements, the static power dissipation caused by leakage current...
Abstract:- We present a multiple-voltage high-level synthesis methodology that minimizes power dissi...
[[abstract]]We study the reduction of static power consumption by dual threshold voltage assignment....
textIn a Power Efficiency System (PES), Energy Aware Computing (EAC) is a qualitative system attrib...
Channel subthreshold and gate leakage currents are predicted by many to become much more significant...
The strategy joins VS (Voltage Scaling) and MTCMOS procedure that aids in lessening active and passi...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
Multi-Threshold CMOS (MTCMOS) is commonly utilized for suppressing leakage currents in idle integrat...
Technology scaling leads to sub threshold leakages in deep sub micron regime. There is a need for ef...