2009 52nd IEEE International Midwest Symposium on Circuits and Systems 2009
DOI: 10.1109/mwscas.2009.5236063
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A novel CNTFET-based ternary logic gate design

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Cited by 129 publications
(77 citation statements)
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“…CNTFET can operate five times faster than CMOS in the best case without any extra power overhead [26]. Another essential characteristic of CNTFET is its flexible behavior in manipulating the threshold voltage (V th ) by adopting a proper diameter for CNTs [17]. There are three types of CNTFET: The first type is the MOSFET-like CNTFET (includes the p-type CNTFET [P-CNTFET] and n-type CNTFET [N-CNTFET]), which operates in a unipolar fashion; The second type is the Schottky barrier (SB) CNTFET, which demonstrates ambipolar characteristics [31] but is not proper for ultra high-performance applications because of the SB element; The third type of CNTFET, suitable for ultra lowpower applications, is the band-to-band tunneling CNTFET and has significantly low current in its active mode [23].…”
Section: Cntfet Reviewmentioning
confidence: 99%
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“…CNTFET can operate five times faster than CMOS in the best case without any extra power overhead [26]. Another essential characteristic of CNTFET is its flexible behavior in manipulating the threshold voltage (V th ) by adopting a proper diameter for CNTs [17]. There are three types of CNTFET: The first type is the MOSFET-like CNTFET (includes the p-type CNTFET [P-CNTFET] and n-type CNTFET [N-CNTFET]), which operates in a unipolar fashion; The second type is the Schottky barrier (SB) CNTFET, which demonstrates ambipolar characteristics [31] but is not proper for ultra high-performance applications because of the SB element; The third type of CNTFET, suitable for ultra lowpower applications, is the band-to-band tunneling CNTFET and has significantly low current in its active mode [23].…”
Section: Cntfet Reviewmentioning
confidence: 99%
“…The scaling down of technology has closely reflected Moore's law. As the length of physical gates reaches the nanoscale, different destructive effects, such as short channel effects, affect the current-voltage characteristics of the MOSFET family, which limits the miniaturization of the feature size of this family [2], [17], [18]. Another negative effect of miniaturization is the exponential increase of leakage current involving subthreshold voltage caused by scaling down the supply voltage and threshold voltage [19].…”
Section: Introductionmentioning
confidence: 99%
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“…Because of their miniaturized dimensions, they are implemented as a reliable switch with much less power than a silicon-based device to response of increasing sensitivity to voltage scaling variations in today's VLSI circuit designs. The unique feature which makes difference CNTFETs form MOSFETs is the threshold voltage which can be controlled by changing the chirality vector or the diameter of the CNTs [16]. This feature makes easier the design process of the VLSI circuits.…”
Section: A Technology Constraintsmentioning
confidence: 99%
“…To follow the Moore's law that states the number of transistors on integrated circuits (ICs) doubles almost every two years [2], the feature size of conventional silicon based MOSFETs must be scale down. CMOS technology has faced serious problems by scaling down of the feature size into the nanoranges, such as increase of current leakage, high power densities, decreased gate control, short-channel effects and high sensitivity to process variations [3].…”
Section: Introductionmentioning
confidence: 99%