Low power Single Bit Full Adder Using GDI and PTL Technique

Authors

  • Philip A Department of ECE, Mangalam College of Engineering, Ettumanoor, Kottayam, India
  • Chandran R Department of ECE, Mangalam College of Engineering, Ettumanoor, Kottayam, India
  • Thomas SP Department of ECE, Mangalam College of Engineering, Ettumanoor, Kottayam, India

Keywords:

leakage power, GDI, Pass transistor logic, tri-state inverters

Abstract

Full adder circuit is functional building block of microprocessors, digital signal processors or any ALUs. In this paper leakage power is reduced by using less number of transistors with the techniques like GDI (Gate Diffusion Input) and PTL (Pass Transistor Logic) techniques. In this paper 3 designs have been proposed of low power 1 bit full adder circuit with 10Transistors ( using PTL multiplexer) , 8 Transistor(by using NMOS and PMOS PTL devices), 12 Transistors (6 Transistors to generate carry using GDI technique and 6 Transistors to generate sum using tri state inverters).These circuits consume less power with maximum of 73% power saving com-pare to conventional 28T design. The proposed circuit exploits the advantage of GDI technique and pass transistor logic, and sum is generated by tri state inverter logic in all designs.The entire simulations have been done on 180nm single n-well CMOS bulk technology, in virtuoso platform of cadence tool with the supply voltage 1.8V and frequency of 100MHz.

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Published

2025-11-11

How to Cite

[1]
A. Philip, R. Chandran, and S. P. Thomas, “Low power Single Bit Full Adder Using GDI and PTL Technique”, Int. J. Comp. Sci. Eng., vol. 5, no. 1, pp. 115–119, Nov. 2025.

Issue

Vol. 5 No. 1 (2017): IJCSE January Edition

Section

Research Article

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