A Novel Design of Penternary Inverter Gate Based on Carbon Nano Tube
محورهای موضوعی : فصلنامه نانوساختارهای اپتوالکترونیکیMahdieh Nayeri 1 , peiman keshavarzian 2 , Maryam Nayeri 3
1 - Department of Computer Engineering, Kerman Branch, Islamic Azad
University, Kerman, Iran.
2 - Department of Computer Engineering, Kerman Branch, Islamic Azad
University, Kerman, Iran.
3 - Department of Electrical Engineering, Yazd Branch, Islamic Azad University,
Yazd, Iran.
کلید واژه: CNTFET, Delay, Multiple-Valued Logic, Inverter, Penternary, Power Consumption,
چکیده مقاله :
This paper investigates a novel design of penternary logic gates using
carbon nanotube field effect transistors (CNTFETs). CNTFET is a suitable candidate for
replacing MOSFET with some useful properties, such as the capability of having the
desired threshold voltage by regulating the diameter of the nanotubes. Multiple-valued
logic (MVL) such as ternary, quaternary, and penternary is a promising alternative to
the binary logic design, because of less complexity, less computational step and reduced
chip area. We propose two penternary inverters which are designed in the multiplevalued
voltage mode based on CNTFET. In the first proposed design, the resistors are
used to implement penternary logic whereas, in the second proposed design, they are
replaced with the transistors. Extensive simulation results using HSPICE represent that
the two proposed designs reduce significantly the power consumption and delay and
sensitivity to process variations as compared to the state-of-the-art penternary logic
circuit in the literature.
[1] Moaiyeri, Mohammad Hossein, Reza Faghih Mirzaee, Akbar Doostaregan, Keivan Navi, and Omid Hashemipour. An universal method for designing low-power carbon nanotube FET-based multiple-valued logic circuits. IET Computers & Digital Techniques 7(4) (2013,Jul) 167-181.
[2] Mehrabani, Yavar Safaei, and Mohammad Eshghi. Noise and Process Variation Tolerant, Low-Power, High-Speed, and Low-Energy Full Adders in CNFET Technology. IEEE Transactions on Very Large Scale Integration (VLSI) Systems 24(11) (2016,Nov) 3268-3281.
[3] Sahoo, Subhendu Kumar, Gangishetty Akhilesh, Rasmita Sahoo, and Manasi Muglikar. High-Performance Ternary Adder Using CNTFET. IEEE Transactions on Nanotechnology 16(3) (2017, May) 368-374.
[4] Raychowdhury, Arijit, and Kaushik Roy. Carbon-nanotube-based voltage-mode multiple-valued logic design. IEEE Transactions on Nanotechnology 4(2) (2005, Mar) 168-179.
[5] Lin, Sheng, Yong-Bin Kim, and Fabrizio Lombardi. CNTFET-based design of ternary logic gates and arithmetic circuits. IEEE transactions on nanotechnology 10(2) (2011, Mar) 217-225.
[6] Moaiyeri, Mohammad Hossein, Keivan Navi, and Omid Hashemipour. Design and evaluation of CNFET-based quaternary circuits. Circuits, Systems, and Signal Processing 31(5) (2012,Oct) 1631-1652.
[7] Keshavarzian, Peiman, and Keivan Navi. Optimum quaternary galois field circuit design through carbon nano tube technology. . Presented at ADCOM 2007 at,[Online]. Available: https://ieeexplore.ieee.org/abstract/document/4425975/
[8] Sharifi, Fazel, Mohammad Hossein Moaiyeri, and Keivan Navi. A novel quaternary full adder cell based on nanotechnology. International Journal of Modern Education and Computer Science 7(3) (2015, Mar) 19.
[9] Sharifi, Fazel, Mohammad Hossein Moaiyeri, Keivan Navi, and Nader Bagherzadeh. Ultra-low-power carbon nanotube FET-based quaternary logic gates. International Journal of Electronics 103(9) (2016, Sep) 1524-1537.
[10] Sharifi Fazel, Mohammad Hossein Moaiyeri, Keivan Navi, and Nader Bagherzadeh. Quaternary full adder cells based on carbon nanotube FETs. Journal of Computational Electronics 14(3) (2015, Sep) 762-772.
[11] Cho, Geunho, and Fabrizio Lombardi. Design and process variation analysis of CNTFET-based ternary memory cells. Integration, the VLSI Journal 54(1) (2016, Jun) 97-108.
[12] Karimghasemi-rabori, Malakeh, and Peiman Keshavarzian. Design and Implementation of MOSFET Circuits and CNTFET, Ternary Multiplier in the Field of Galois. Journal of Advances in Computer Research 8(1) (2017, Feb) 129-142.
[13] Sahoo, Subhendu Kumar, Gangishetty Akhilesh, Rasmita Sahoo, and Manasi Muglikar. High-Performance Ternary Adder Using CNTFET. IEEE Transactions on Nanotechnology 16(3) (2017, May) 368-374.
[14] Moaiyeri, Mohammad Hossein, and Keivan Navi. "Robust Carbon Nanotube Field Effect Transistor-Based Penternary Logic Circuits." Journal of Computational and Theoretical Nanoscience 11(9) (2014, Sep) 2055-2062.
[15] Moaiyeri, Mohammad Hossein, Reza Faghih Mirzaee, Keivan Navi, and Omid Hashemipour. Efficient CNTFET-based ternary full adder cells for nanoelectronics. Nano-Micro Letters 3(1) (2011, Mar) 43-50.
[16] Moaiyeri, Mohammad Hossein, Akbar Doostaregan, and Keivan Navi. Design of energy-efficient and robust ternary circuits for nanotechnology. IET Circuits, Devices & Systems 5(4) (2011, Jul) 285-296.
[17] Keshavarzian, Peiman, and Keivan Navi. Universal ternary logic circuit design through carbon nanotube technology. International Journal of Nanotechnology 6(10-11) (2009, Jan) 942-953.
[18] Keshavarzian, Peiman, and Keivan Navi. Efficient carbon nanotube galois field circuit design. IEICE Electronics Express 6(9) (2009, May) 546-552.
[19] Sridharan, K., Sundaraiah Gurindagunta, and Vikramkumar Pudi. Efficient multi ternary digit Adder design in CNTFET technology. IEEE transactions on Nanotechnology 12 (3) (2013, May) 283-287.
[20] Lin, Sheng, Yong-Bin Kim, and Fabrizio Lombardi. Design of a ternary memory cell using CNTFETs. IEEE transactions on nanotechnology 11(5) (2012, Sep) 1019-1025.
[21] Moaiyeri, Mohammad Hossein, Reza Chavoshisani, Ali Jalali, Keivan Navi, and Omid Hashemipour. Efficient radix-r adders for nanoelectronics. International Journal of Electronics 103 (2) (2016, Feb) 281-296.
[22] Sharifi, Fazel, Mohammad Hossein Moaiyeri, Keivan Navi, and Nader Bagherzadeh. Ultra-low-power carbon nanotube FET-based quaternary logic gates. International Journal of Electronics 103(9) (2016, Sep) 1524-1537.
[23] Ebrahimi, Seyyed Ashkan, Mohammad Reza Reshadinezhad, Ali Bohlooli, and Mahyar Shahsavari. Efficient CNTFET-based design of quaternary logic gates and arithmetic circuits. Microelectronics Journal 53 (2016, Jul) 156-166
[24] J.Deng and H.-S. P.Wong, A compact SPICE model for carbon nanotube field-effect transistors including nonidealities and its application—part I: model of the
intrinsic channel region, IEEE Transactions on Electron Devices, 54 (12) (2007, Dec) 3186–3194.