Design and simulation of an optimized Ternary-to-Binary converter based on carbon nanotube field effect transistor

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Moosavy Seyed Saeed; Yousefi Mousa; MONFAREDI KHALIL

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Journal Paper

Paper Information

Journal: JOURNAL OF ADVANCED SIGNAL PROCESSING Year:2021 | Volume:4 | Issue:2 (6) Page(s): 291-301

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Information Journal Paper

Title

Design and simulation of an optimized Ternary-to-Binary converter based on carbon nanotube field effect transistor

Author(s)

Moosavy Seyed Saeed | Yousefi Mousa | MONFAREDI KHALIL | Issue Writer Certificate

Keywords

Ternary to Binary Converter

Multi level Logic

carbon nanotube field effect transistors

Abstract

This paper presents an optimized multi-digit Ternary to Binary Converter based on nano-carbone tubes field-effect transistors. By modifying a part of the circuit structure of the ternary-to-binary converter, the efficiency of the system has increased. Due to the unique features nanotubes carbon tubes feild effect transistors, as well as the possibility of designing different threshold voltages for transistors, designing multi-level logic systems is much simpler and less costly. Therefore, considering that the existing processing systems work on a dual basis, the design of binary to bernary converters and vice versa is very important and basic processing systems. Therefore, considering that the existing processing systems work on a binary, the design of binary to turner and turner to binary converters is very important and fundamental in processing systems. The circuit modification has reduced chip occupancy, reduced power consumption, and reduced circuit latency. The proper and optimal performance of the proposed converter have been confirmed by simulation by HSPICE software based on 32 nm CNTFET transistor. The simulation results show that the optimal terbnary to binary converter has a power consumption of 0. 665 μ W and a propagation delay of 27. 3 ps. These results show that overall PDP index has improved by 14. 4%.

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APA: Copy

Moosavy, Seyed Saeed, Yousefi, Mousa, & MONFAREDI, KHALIL. (2021). Design and simulation of an optimized Ternary-to-Binary converter based on carbon nanotube field effect transistor. JOURNAL OF ADVANCED SIGNAL PROCESSING, 4(2 (6) ), 291-301. SID. https://sid.ir/paper/953224/en

Vancouver: Copy

Moosavy Seyed Saeed, Yousefi Mousa, MONFAREDI KHALIL. Design and simulation of an optimized Ternary-to-Binary converter based on carbon nanotube field effect transistor. JOURNAL OF ADVANCED SIGNAL PROCESSING[Internet]. 2021;4(2 (6) ):291-301. Available from: https://sid.ir/paper/953224/en

IEEE: Copy

Seyed Saeed Moosavy, Mousa Yousefi, and KHALIL MONFAREDI, “Design and simulation of an optimized Ternary-to-Binary converter based on carbon nanotube field effect transistor,” JOURNAL OF ADVANCED SIGNAL PROCESSING, vol. 4, no. 2 (6) , pp. 291–301, 2021, [Online]. Available: https://sid.ir/paper/953224/en

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