Open AccessAn Analogous Computation of Different Techniques for The Digital Implementation of Inverter and NAND Logic Gates
Author(s) -
I.Hameem Shanavas,
M. Brindha,
V. Nallusamy
Publication year - 2012
Publication title -
international journal of information engineering and electronic business
Language(s) - English
Resource type - Journals
eISSN - 2074-9023
pISSN - 2074-9031
DOI - 10.5815/ijieeb.2012.04.05
Subject(s) - nand gate , computer science , inverter , electronic circuit , microelectronics , logic gate , digital electronics , nand logic , electronic engineering , set (abstract data type) , and or invert , power consumption , power (physics) , logic synthesis , electrical engineering , logic family , engineering , algorithm , voltage , physics , quantum mechanics , programming language
Feature size reduction in microelectronic circuits has been an important contributing factor to the dramatic increase in the processing power of computer arithmetic circuits. However, it is generally accepted that MOS based circuits cannot be reduced further in feature size due to fundamental physical restrictions. Therefore, several emerging technologies are currently being investigated. Nano devices offer greater scaling potential than MOS as well as ultra low power consumption. Nano devices display a switching behaviour that differs from traditional MOS devices. This provides new possibilities and challenges for implementing digital circuits using different techniques like CNTFET,SET, FinFET etc. In this work the design of Inverter and Nand gate using CNT, SET and FinFET has been analyzed elaborately with its own advantageous of the mentioned techniques.
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