Abstract

Adders are plays a vital role in digital and vlsi systems. Arithmetic operations are an essential part of digital systems. During VLSI systems, the entire research is on lowering the scale of transistors for enforcing any other digital system. This proposed architecture implemented by different types of logic systems; each logic performs the different role in the hybrid system. The hybrid Full Adder cell with one bit is implemented in this structure. The proposed method is investigated using 22-nm CMOS hybrid full adder. The proposed architecture demonstrates substantial efficiency in power consumption and delay, based on simulation results. The simulation result expressed that the full adder circuit is used to modern high speed central processing unit in the data path architecture. This form of hybrid Full Adder, reduces the delay and increasing efficiency and mainly used in nano technology applications. The average power consumption of 1.1055 μW with moderately low delay of 7.0415ps was found to be extremely low for 0.8-V supply at 22-nm technology. These kind of adder allocates significant improvements in power, high speed and area compared with previous full adder designs.