A High-Performance and Energy-Efficient Ternary Multiplier Using CNTFETs
Author:
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
Link
https://link.springer.com/content/pdf/10.1007/s13369-023-07618-x.pdf
Reference27 articles.
1. Abbasian, E.; Gholipour, M.: Design of a Schmitt-Trigger-Based 7T SRAM cell for variation resilient low-energy consumption and reliable internet of things applications. AEU Int. J. Electron. Commun. 138, 153899 (2021)
2. Jaber, R.A.; Aljaam, J.M.; Owaydat, B.N.; Al-Maadeed, S.A.; Kassem, A.; Haidar, A.M.: Ultra-low energy CNFET-based ternary combinational circuits designs. IEEE Access 9, 115951–115961 (2021)
3. Sanapala, K.; Yeo, S.-S.: Schmitt trigger-based single-ended 7T SRAM cell for internet of things (IoT) applications. J. Supercomput. 74, 4613–4622 (2018)
4. Aljaam, J.M.; Jaber, R.A.; Al-Maadeed, S.A.: Novel ternary adder and multiplier designs without using decoders or encoders. IEEE Access 9, 56726–56735 (2021)
5. Zarandi, A.D.; Reshadinezhad, M.R.; Rubio, A.: A systematic method to design efficient ternary high performance CNTFET-based logic cells. IEEE Access 8, 58585–58593 (2020)
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