[[abstract]]One of the effective techniques to reduce leakage power is power gating. Previously, a Distributed Sleep Transistor Network was proposed to reduce the sleep transistor area for power gating by connecting all the virtual ground lines together to minimize the Maximum Instantaneous Current flowing through sleep transistors. In this paper, we propose a new methodology for determining the sizes of sleep transistors of the DSTN structure. We present novel algorithms and theorems for efficiently estimating a tight upper bound of the voltage drop and minimizing the sizes of sleep transistors. We also present mathematical proofs of our theorems and lemmas in detail. Our experimental results show 23.36% sleep transistor area reduction com...
[[abstract]]©2008 IEEE-Leakage power has become a major concern in mobile device and power gating is...
This paper introduces a new approach to sub-threshold leakage power reduction in CMOS circuits. Our ...
Sleep transistor insertion is a key step in low power design methodologies for nanometer CMOS. In th...
[[abstract]]Power Gating is effective for reducing leakage power. Previously, a Distributed Sleep Tr...
[[abstract]]Power Gating is effective for reducing leakage power. Previously, a Distributed Sleep Tr...
[[abstract]]Power gating is one of the most effective ways to reduce leakage power. In this paper, w...
Power gating is one of the most effective ways to reduce leakage power. In this paper, we introduce ...
Abstract—Power gating is an effective way to reduce leakage power. This technique uses high Vth tran...
Leakage power reduction in nano-CMOS designs has gained tremendous interest both in academia and in...
The use of sleep transistors as power-gating elements to cut-off sub-threshold leakage stand-by curr...
With the growing scaling of technology, leakage power dissipation has become a critical issue of VLS...
Leakage power has become a serious concern in nanometer CMOS technologies, and power-gating has show...
This paper concentrates on the various power reduction techniques for clustered sleep transistors an...
A very popular approach for leakage power reduction is today represented by the adoption of emerging...
Sleep transistor insertion is a key step in low power design methodologies for nanometer CMOS. In th...
[[abstract]]©2008 IEEE-Leakage power has become a major concern in mobile device and power gating is...
This paper introduces a new approach to sub-threshold leakage power reduction in CMOS circuits. Our ...
Sleep transistor insertion is a key step in low power design methodologies for nanometer CMOS. In th...
[[abstract]]Power Gating is effective for reducing leakage power. Previously, a Distributed Sleep Tr...
[[abstract]]Power Gating is effective for reducing leakage power. Previously, a Distributed Sleep Tr...
[[abstract]]Power gating is one of the most effective ways to reduce leakage power. In this paper, w...
Power gating is one of the most effective ways to reduce leakage power. In this paper, we introduce ...
Abstract—Power gating is an effective way to reduce leakage power. This technique uses high Vth tran...
Leakage power reduction in nano-CMOS designs has gained tremendous interest both in academia and in...
The use of sleep transistors as power-gating elements to cut-off sub-threshold leakage stand-by curr...
With the growing scaling of technology, leakage power dissipation has become a critical issue of VLS...
Leakage power has become a serious concern in nanometer CMOS technologies, and power-gating has show...
This paper concentrates on the various power reduction techniques for clustered sleep transistors an...
A very popular approach for leakage power reduction is today represented by the adoption of emerging...
Sleep transistor insertion is a key step in low power design methodologies for nanometer CMOS. In th...
[[abstract]]©2008 IEEE-Leakage power has become a major concern in mobile device and power gating is...
This paper introduces a new approach to sub-threshold leakage power reduction in CMOS circuits. Our ...
Sleep transistor insertion is a key step in low power design methodologies for nanometer CMOS. In th...