Reversible Vedic Direct Flag Divider in Key Generation of RSA Cryptography
DOI:
https://doi.org/10.31838/jvcs/06.02.08Keywords:
Direct Flag Vedic Division Method, Reversible Gates, Rivest-Shamir-Adleman Cryptography.Abstract
Reversible logic does not dissipate energy, and information loss never occurs. So, this futuristic technology is forced towards many applications involving less energy dissipation. This work targets the design of a new Vedic divider circuit and its implementation using reversible gates. The Direct Flag Vedic Division Method (DFVDM) is a new methodology, and it is addressed in this proposed work using reversible logic. We have utilized basic reversible gates in the block-level construction and shown that the proposed Reversible Direct Flag Vedic Division Method (RDFVDM) implementation has quantum parameter efficiency as well as area power and delay efficiency. This divider circuit inherits many advantages, such as fewer garbage outputs and a minimum quantum cost. Simulation investigations have been done by Cadence Tool. The proposed Vedic divider is also compared using reversible structural metrics like garbage outputs, constant inputs, and quantum cost with existing works, and the results showcase that RDFVDM excels over the equivalent designs. In terms of energy usage, RDFVDM outperforms by about 19%. Also, the 5% reduction is observed in Quantum Cost implementation compared to other state of art designs.