ABSTRACT
The combination of multi-valued quantum and DNA computing can form multi-valued quantum-DNA and DNA-quantum computing. The potential for multiple-valued quantum molecular biology to contribute in the development of sustainable energy solutions is widely highlighted as a driving force behind the study, especially in terms of understanding quantum-coherent excitation energy conversion in photosynthetic systems. The characteristics of the DNA molecule aid in inducing quantum features such as superposition, tunneling, coherence, and entanglement. NMR is necessary for synthesizing a qubit from a DNA sequence, and NMR may be conducted at two temperatures: 0-kelvin and room temperature. To retrieve the appropriate DNA sequence, RNMR is employed to relax the qubit. In multiple-valued quantum computing, qubits are utilized to carry out operations, whereas in multiple-valued DNA computing, DNA sequences are employed as inputs. Using multiple-valued quantum-DNA computing the heat generated in multiple-valued quantum computing is used in multiple-valued DNA computing.
