Journal ArticleDOI
Leakage current mechanisms and leakage reduction techniques in deep-submicrometer CMOS circuits
Kaushik Roy,Saibal Mukhopadhyay,H. Mahmoodi-Meimand +2 more
- Vol. 91, Iss: 2, pp 305-327
TLDR
Channel engineering techniques including retrograde well and halo doping are explained as means to manage short-channel effects for continuous scaling of CMOS devices and different circuit techniques to reduce the leakage power consumption are explored.Abstract:
High leakage current in deep-submicrometer regimes is becoming a significant contributor to power dissipation of CMOS circuits as threshold voltage, channel length, and gate oxide thickness are reduced. Consequently, the identification and modeling of different leakage components is very important for estimation and reduction of leakage power, especially for low-power applications. This paper reviews various transistor intrinsic leakage mechanisms, including weak inversion, drain-induced barrier lowering, gate-induced drain leakage, and gate oxide tunneling. Channel engineering techniques including retrograde well and halo doping are explained as means to manage short-channel effects for continuous scaling of CMOS devices. Finally, the paper explores different circuit techniques to reduce the leakage power consumption.read more
Citations
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Proceedings ArticleDOI
Circuit-aware Device Design Methodology for Nanometer Technologies: A Case Study for Low Power SRAM Design
TL;DR: A general circuit-aware device design methodology, which can improve the overall circuit design by taking advantages of the individual circuit characters during the device design phase, is proposed.
Proceedings ArticleDOI
A semiempirical model for wakeup time estimation in power-gated logic clusters
TL;DR: A semiempirical model for virtual supply voltage in terms of basic parameters of the power-gated circuit is presented and a closed-form expression for estimation of wakeup time of a power- gated logic cluster is derived.
Journal ArticleDOI
SECRET: A Selective Error Correction Framework for Refresh Energy Reduction in DRAMs
TL;DR: A novel error correction framework for retention errors in DRAMs, called SECRET (selective error correction for refresh energy reduction), which can reduce refresh power by 87.2p and overall DRAM power up to 18.57p with negligible area and performance overheads.
Journal ArticleDOI
High-Performance Computing-in-Memory Architecture Using STT-/SOT-Based Series Triple-Level Cell MRAM
TL;DR: A series triple-level cell (sTLC) architecture based on spin-transfer torque (STT) and spin–orbit torque (SOT) switching mechanisms is proposed, and one-step parallel read operation for sTLC is presented that enables ultra-fast reading of 3 bits of data.
Journal ArticleDOI
A Novel Low Power Technique for FinFET Domino OR Logic
Kajal,Vijay Kumar Sharma +1 more
TL;DR: Excessive scaling of complementary metal oxide semiconductor (CMOS) technology is the main reason of large power dissipation in electronic circuits.
References
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TL;DR: Digital Integrated Circuits as discussed by the authors is a practical book that bridges the gap between the circuit perspective and system perspective of digital integrated circuit design, including the impact of interconnect, design for low power, issues in timing and clocking, design methodologies and the tremendous effect of design automation on the digital design perspective.