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AuthorJaber R.A.
AuthorAljaam J.M.
AuthorOwaidat B.
AuthorAl-Maadeed, Somaya
AuthorKassem A.
AuthorHaidar A.M.
Available date2022-05-19T10:23:08Z
Publication Date2021
Publication NameIEEE Access
ResourceScopus
Identifierhttp://dx.doi.org/10.1109/ACCESS.2021.3105577
URIhttp://hdl.handle.net/10576/31104
AbstractThe embedded systems, IoT (Internet of Things) devices, and portable electronic devices spread very quickly recently. Most of them depend on batteries to operate. The target of this work is to decrease energy consumption by (1) using Multiple-valued logic (MVL) that shows notable enhancements regarding energy consumption over binary circuits and (2) using carbon nanotube field-effect transistors (CNFET) that show better performance than CMOS. This work proposes ternary combinational circuits using 32 nm CNFET: Ternary Half Adder (THA) with 36 transistors and Ternary Multiplier (TMUL) with 23 transistors. To reduce energy consumption by utilizing the unary operator of the ternary system and employing two voltage supplies (Vdd and Vdd/2). The result of extensive HSPICE simulations regarding PVT (Process, Voltage, and Temperatures) variations and Noise Immunity Curve (NIC) show the improvements of the proposed designs up to 25% in transistors count and up to 98% in energy consumption reductions. Further, increasing the robustness of process variations and the noise tolerance compared to recent similar designs. CCBY
Languageen
PublisherInstitute of Electrical and Electronics Engineers Inc.
SubjectCarbon nanotubes
Embedded systems
Energy utilization
Internet of things
Low power electronics
Many valued logics
Timing circuits
Transistors
Carbon nanotube field effect transistor (CNFET)
Hspice simulations
Multiple valued logic
Noise immunity curve
Portable electronic devices
Process Variation
Reduce energy consumption
Ultra low energy
Carbon nanotube field effect transistors
TitleUltra-Low Energy CNFET-Based Ternary Combinational Circuits Designs
TypeArticle
dc.accessType Abstract Only


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