Abstract:
The construction of devices with smaller sizes, lower power dissipation, and higher speeds is a significant
problem in contemporary computational technology. Technology advancement is required to get improved power
dissipation, size, and speed optimization. By incorporating numerous architectural and behavioural alterations in the
current technologies, researchers are attempting to identify ways and means. Designing digital circuits based on
reversible logic and implementing them in quantum cellular automata is one such potential approach (QCA). The
propagation delay in a multiplication operation is mostly caused by the addition of partial products and the
production of partial products. This study proposes a Vedic multiplier based on Urdhwa Triyakbhyam. It’s been
observed that the proposed designs of Half Adder, 4-bit Ripple Carry Adder, 2×2 Vedic Multiplier followed by 4×4
Vedic Multiplier and 8×8 Vedic Multiplier circuits have resulted in 68.75%, 72.64%, 44.84%,43.44% and 60.00%
reduction in the size of the circuits respectively. In comparison with previously proposed circuits, it was also
observed that there are 57.14%, 55.55%,48.45%, 28.03% and 42.57% improvements in the area of the Half Adder
Circuit, 2×2 Vedic Multiplier, 4-bit RCA, 4×4 VM and 8×8 VM circuits respectively. Numerous parameters like
area, clock latency, and quantum cost were calculated using the QCAD tool.