ABSTRACT
This chapter describes the memory devices in quantum-DNA computing with multi-valued logic system. It discusses combined Quantum and DNA computing for designing different memory devices considering a binary logic system. The chapter discusses combined multiple-valued Quantum and DNA computing and novel theoretical methods for designing different memory devices considering a binary logic system. Therefore, an integrated computing system as multiple-valued Quantum-to-DNA and vice versa for multi-valued 9-to-2 ROM memory is the main concern. For information processing and storing, bits are used as traditional computing systems, qubits in quantum computing, and sequences in DNA computing systems. Multi-Valued ROM consists of two basic components- multi-valued Decoder and multi-valued OR operations. The software can “partition” a portion of a computer's Cache memory, allowing it to act as a much faster hard drive that is called a Cache memory disk.
