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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Journal ArticleDOI
Towards a Thermal Moore's Law
TL;DR: In this paper, thermal design power trends and power densities for present and future single-core microprocessors are derived based on Moore's law and scaling theory, both active and stand-by power are discussed and accounted for in the calculations.
Journal ArticleDOI
FinFETs: From Devices to Architectures
D. Bhattacharya,Niraj K. Jha +1 more
TL;DR: Research on FinFETs from the bottommost device level to the topmost architecture level is reviewed and various possible FinFet asymmetries and their impact are surveyed, and novel logic-level and architecture-level tradeoffs offered by FinFetts are surveyed.
Journal ArticleDOI
23.2 A 1.1nW energy harvesting system with 544pW quiescent power for next-generation implants
Saurav Bandyopadhyay,Patrick P. Mercier,Andrew C. Lysaght,Konstantina M. Stankovic,Anantha P. Chandrakasan +4 more
TL;DR: This work presents the details of the nanowatt PMU required to power the electronics and focuses on the low-power circuit design techniques needed to realize a nW power converter that is applicable to a broad spectrum of emerging biomedical applications with ultra-low energy-harvesting sources.
Journal ArticleDOI
Diode-footed domino: a leakage-tolerant high fan-in dynamic circuit design style
H. Mahmoodi-Meimand,Kaushik Roy +1 more
TL;DR: Dynamic comparators and multiplexers are designed using the diode-footed domino and conventional techniques to demonstrate the effectiveness of the proposed scheme in improving leakage-tolerance and performance of high fan-in circuits.
Journal ArticleDOI
Effect of Drain Doping Profile on Double-Gate Tunnel Field-Effect Transistor and its Influence on Device RF Performance
TL;DR: In this article, the effect of drain doping profile on a double-gate tunnel field effect transistor (DG-TFET) and its radio-frequency (RF) performances was investigated.
References
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Journal ArticleDOI
Design of ion-implanted MOSFET's with very small physical dimensions
TL;DR: This paper considers the design, fabrication, and characterization of very small Mosfet switching devices suitable for digital integrated circuits, using dimensions of the order of 1 /spl mu/.
Book
Fundamentals of Modern VLSI Devices
Yuan Taur,Tak H. Ning +1 more
TL;DR: In this article, the authors highlight the intricate interdependencies and subtle tradeoffs between various practically important device parameters, and also provide an in-depth discussion of device scaling and scaling limits of CMOS and bipolar devices.
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TL;DR: The Planar Technology of Semiconductor Surfaces is described in this article, where it is shown that the planar planar technology can be used to model the surface effects on p-n junction transistors.
Book
Digital Integrated Circuits
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.