P. Khaled scite author profile

Leakage has become one of the most dominant factors of power management and signal integrity of nanometer scale integrated circuits. Recently, power gating structures has proven to be effective in controlling leakage. In this paper an alternative dual diode-Vth reduced power gating structure is proposed for better reduction of leakage currents, especially for low-power, high-performance portable devices. The proposed technique maintains an intermediate power saving state as well as the conventional power cut-off state. Experimental results have demonstrated that the proposed technique can significantly reduce leakage current and associated power consumptions during the HOLD and CUT-OFF power saving modes. It has also been demonstrated that the proposed technique significantly reduces ground bounce due to power mode transition.

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An Innovative Power-Gating Technique for Leakage and Ground Bounce Control in System-on-a-Chip (SOC)

Chowdhury

Khaled

Gjanci

2010

Circuits Syst Signal Process

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Leakage has become one of the most dominant factors of power consumption and signal integrity of nanometer-scale integrated circuits. Recently, powergating structures have proven to be effective in controlling leakage. In this paper an alternative dual-V th reduced power-gating structure is proposed for better reduction of leakage currents, especially for low-power and high-performance portable devices. The proposed technique maintains an intermediate power-saving state as well as the conventional power cut-off state. The experimental results have demonstrated that the proposed technique can significantly reduce leakage current and associated power consumptions during the HOLD and CUT-OFF modes. In addition, an analysis of ground bounce due to power-mode transition in power-gating structures is presented. It is demonstrated that the proposed technique provides a way to control ground bounce during power-mode transition. Due to the presence of the intermediate state, its stepwise turning on feature will provide higher reduction of the magnitudes of peak current and voltage glitches in the power distribution network as well as the minimum time required to stabilize power and ground as compared to other similar techniques.

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Prospects and Challenges of Handling Power Bus Modeling and Supply Noise in Package-Chip C0-design Approach

Khaled

Chowdhury

2006

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P. Khaled

Controlling Ground Bounce Noise in Power Gating Scheme for System-on-a-Chip

Innovative power gating for leakage reduction

Dual diode-Vth reduced power gating structure for better leakage reduction

An Innovative Power-Gating Technique for Leakage and Ground Bounce Control in System-on-a-Chip (SOC)

Prospects and Challenges of Handling Power Bus Modeling and Supply Noise in Package-Chip C0-design Approach

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