Energy Efficient GDI Based Full Adders For Computing Applications
This This paper presents energy efficient GDI based 1-bit full adder cells with low power consumption and lesser delay with full swing modified basic logic gates to have reduced Power Delay Product (PDP). The various full adders are effectively realized by means of full swing OR, AND and XOR gates with the noteworthy enhancement in their performance. The simulations for the designed circuits performed in cadence virtuoso tool with 45-nm CMOS technologies at a supply voltage of 1 Volts. The proposed 1-bit adder cells are compared with various basic adders based on speed, power consumption and energy (PDP). The proposed adder schemes with full swing basic cells achieve significant savings in terms of delay and energy consumption and which are more than 41% and 32% respectively in comparison to conventional “C-CMOS” 1-bit full adder and other existing adders.