A novel vedic divider based crypto-hardware for nanocomputing paradigm: An extended perspective

Restoring and non-restoring divider has become widely applicability in the era of digital computing application due to its computation speed. In this paper, we have proposed the design of divider of different architecture for the computation of Vedic sutra based. The design of divider in the Vedic mode results in high computation throughput due to its replica architecture, where latency is minimized in each of the replica stages. The proposed novel divider based symmetric key crypto-hardware architecture for lightweight embedded devices and the results obtained for this architecture by the analysis using the QCADesigner tool. For the physical environment in QCA (Quantum dot Cellular Automata) computing paradigm are achieved through optimization the architecture of cell by using the robust design computing architecture. For the extended perspective of lower divider to higher divider and to synthesize target outcomes by using efficient architecture.