ABSTRACT
Multi-Valued DNA Computing is one of the most exciting and challenging research topics in the present world. Multi-Valued DNA computing is a branch of bio-molecular computing where Multi-Valued DNA molecule sequence is used to perform a logical operation or arithmetical operation. The most stable form of nucleic acid is called deoxyribonucleic acid. In one clock cycle, the qubit molecular input sequences of a ternary DNA D-type flip flop are actuated with a delay. D flip flops have two molecular input sequences: one for data and the other for clock. D flip flops have two output sequences that are logically opposite to one another. The D flip-flop has a single qubit molecular input sequence and is developed using Ternary DNA NAND operations and a ternary DNA SR latch. In flip-flop designs, the Multi-Valued DNA JK flip-flop will be the most extensively utilized flip-flop. The Multi-Valued DNA T flip-flop differs from the ternary DNA JK flip-flop in a few ways.
