Design of High-Performance Full Adder Using 20nm CNTFET Technology
Full adder was also known as basic component in any digital circuitry for microprocessors, digital signal processors and for every processing chip used in nowadays technology. The main purpose of full adder is to do basic logic along with operations of arithmetic's. Thus it allows designer for...
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| Published in: | 2021 4th International Conference on Recent Trends in Computer Science and Technology (ICRTCST) pp. 192 - 196 |
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| Main Authors: | , , , , , , |
| Format: | Conference Proceeding |
| Language: | English |
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11-02-2022
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| Abstract | Full adder was also known as basic component in any digital circuitry for microprocessors, digital signal processors and for every processing chip used in nowadays technology. The main purpose of full adder is to do basic logic along with operations of arithmetic's. Thus it allows designer for further advancement of the circuits with improvement in characteristic such as robust, compact, efficient, including scalabilities. Carbon Nanotube Field Effect Transistor (CNTFET) are came into use as substitute of CMOS innovation for planning circuits in the arising innovation. Main moto for this model is to design a advanced and high performable full adder circuit using CNTFET transistor admired by new CMOS full adder plan with cutting edge execution boundaries. To a voltage supply of 0.7V, the quantity of semiconductors was diminished to 10 and furthermore the force was generally separated in two differentiated to the top accessible adder that is based on CNTFET. This plan furnishes checked improvement when contrasted and the current plans like C-CMOS, TFA, TGA, HPSC, 18T-FA adder and so on. Similar information examination show that is 37%, 50%, and 49% improvement as far as territory, delay, and power delay contrasted and both CNTFET and CMOS based adders in existing plans. The circuit was planned in 20nm innovation and reenacted with CADENCE apparatuses. |
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| AbstractList | Full adder was also known as basic component in any digital circuitry for microprocessors, digital signal processors and for every processing chip used in nowadays technology. The main purpose of full adder is to do basic logic along with operations of arithmetic's. Thus it allows designer for further advancement of the circuits with improvement in characteristic such as robust, compact, efficient, including scalabilities. Carbon Nanotube Field Effect Transistor (CNTFET) are came into use as substitute of CMOS innovation for planning circuits in the arising innovation. Main moto for this model is to design a advanced and high performable full adder circuit using CNTFET transistor admired by new CMOS full adder plan with cutting edge execution boundaries. To a voltage supply of 0.7V, the quantity of semiconductors was diminished to 10 and furthermore the force was generally separated in two differentiated to the top accessible adder that is based on CNTFET. This plan furnishes checked improvement when contrasted and the current plans like C-CMOS, TFA, TGA, HPSC, 18T-FA adder and so on. Similar information examination show that is 37%, 50%, and 49% improvement as far as territory, delay, and power delay contrasted and both CNTFET and CMOS based adders in existing plans. The circuit was planned in 20nm innovation and reenacted with CADENCE apparatuses. |
| Author | Rao, V.R Seshagiri Vallabhuni, Rajeev Ratna L, Pavan Kalyan Venkateswarlu, S. China N, Nirmala Naveen, G. Vijay, Vallabhuni |
| Author_xml | – sequence: 1 givenname: G. surname: Naveen fullname: Naveen, G. email: g.naveen@iare.ac.in organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 2 givenname: V.R Seshagiri surname: Rao fullname: Rao, V.R Seshagiri organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 3 givenname: Nirmala surname: N fullname: N, Nirmala organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 4 givenname: Pavan Kalyan surname: L fullname: L, Pavan Kalyan organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 5 givenname: Vallabhuni surname: Vijay fullname: Vijay, Vallabhuni email: v.vijay@iare.ac.in organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 6 givenname: S. China surname: Venkateswarlu fullname: Venkateswarlu, S. China organization: Institute of Aeronautical Engineering,Department of Electronics and Communications Engineering,Hyderabad,India,500043 – sequence: 7 givenname: Rajeev Ratna surname: Vallabhuni fullname: Vallabhuni, Rajeev Ratna email: rajeevratna@ieee.org organization: Bayview Asset Management, LLC,Florida,USA |
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| Snippet | Full adder was also known as basic component in any digital circuitry for microprocessors, digital signal processors and for every processing chip used in... |
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| SubjectTerms | CNTFET CNTFETs Full adder Low power PDP Semiconductor device measurement Semiconductor device modeling Solids Technological innovation Voltage Writing |
| Title | Design of High-Performance Full Adder Using 20nm CNTFET Technology |
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