VLSI technology become one of the most significant
and demandable because of the characteristics like device
portability, device size, large amount of features, expenditure,
consistency, rapidity and many others. Multipliers and Adders
place an important role in various digital systems such as
computers, process controllers and signal processors in order to
achieve high speed and low power. Two input XOR/XNOR gate
and 2:1 multiplexer modules are used to design the Hybrid Full
adders. The XOR/XNOR gate is the key punter of power included
in the Full adder cell. However this circuit increases the delay,
area and critical path delay. Hence, the optimum design of the
XOR/XNOR is required to reduce the power consumption of the
Full adder Cell. So a 6 New Hybrid Full adder circuits are
proposed based on the Novel Full-Swing XOR/XNOR gates and a
New Gate Diffusion Input (GDI) design of Full adder with
high-swing outputs. The speed, power consumption, power delay
product and driving capability are the merits of the each proposed
circuits. This circuit simulation was carried used cadence virtuoso
EDA tool. The simulation results based on the 90nm CMOS
process technology model.