Add to ORKGDesign of systems in the low-end nanometer domain has introduced new dimensions in power consumption and dissipation in CMOS devices. With continued and aggressive scaling, using low thickness SiO2 for the transistor gates, gate leakage due to gate oxide direct tunneling current has emerged as the major component of leakage in the CMOS circuits. Therefore, providing a solution to the issue of gate oxide leakage has become one of the key concerns in achieving low power and high performance CMOS VLSI circuits. In this thesis, a new approach is proposed involving dual dielectric of dual thicknesses (DKDT) for the reducing both ON and OFF state gate leakage. It is claimed that the simultaneous utilization of SiON and SiO2 each with multiple thi...
The need for low power dissipation in portable computing and wireless communication systems is makin...
Gate oxide tunneling current (Igate) will become the dominant component of leakage in CMOS circuits ...
Temperature-dependent subthreshold and gate-oxide leakage power characteristics of domino logic circ...
Design of systems in the low-end nanometer domain has introduced new dimensions in power consumption...
An effective model to evaluate the leakage currents for different stacked gates deep submicron MOS t...
An effective model to evaluate the leakage currents for different stacked gates deep submicron MOS t...
The major sources of power dissipation in a nanometer CMOS circuit are capacitive switching, short-c...
In the sub-65 nm CMOS technologies, subthreshold and gate dielectric leakage currents need to be sim...
We show that a technique previously introduced for subthreshold leakage reduction can be effectively...
Abstract: This paper presents a comprehensive study of leakage reduction techniques applicable to CM...
We show that a technique previously introduced for subthreshold leakage reduction can be effectively...
Abstract: With the explosive growth in portable computing and wireless communication during last few...
Abstract – In the sub-65 nm CMOS technologies, subthreshold and gate dielectric leakage currents nee...
This paper reveals the use of high-k dielectric material to mitigate the subthreshold leakage curren...
The scaling of the gate length down in CMOS devices increases the drivecurrent performance and the d...
The need for low power dissipation in portable computing and wireless communication systems is makin...
Gate oxide tunneling current (Igate) will become the dominant component of leakage in CMOS circuits ...
Temperature-dependent subthreshold and gate-oxide leakage power characteristics of domino logic circ...
Design of systems in the low-end nanometer domain has introduced new dimensions in power consumption...
An effective model to evaluate the leakage currents for different stacked gates deep submicron MOS t...
An effective model to evaluate the leakage currents for different stacked gates deep submicron MOS t...
The major sources of power dissipation in a nanometer CMOS circuit are capacitive switching, short-c...
In the sub-65 nm CMOS technologies, subthreshold and gate dielectric leakage currents need to be sim...
We show that a technique previously introduced for subthreshold leakage reduction can be effectively...
Abstract: This paper presents a comprehensive study of leakage reduction techniques applicable to CM...
We show that a technique previously introduced for subthreshold leakage reduction can be effectively...
Abstract: With the explosive growth in portable computing and wireless communication during last few...
Abstract – In the sub-65 nm CMOS technologies, subthreshold and gate dielectric leakage currents nee...
This paper reveals the use of high-k dielectric material to mitigate the subthreshold leakage curren...
The scaling of the gate length down in CMOS devices increases the drivecurrent performance and the d...
The need for low power dissipation in portable computing and wireless communication systems is makin...
Gate oxide tunneling current (Igate) will become the dominant component of leakage in CMOS circuits ...
Temperature-dependent subthreshold and gate-oxide leakage power characteristics of domino logic circ...