Main description:

Discusses various design aspects of multiple-valued logic DNA-quantum and quantum-DNA sequential circuits, memory devices, programmable logic devices and nano-processors
Presents how multiple-valued quantum, DNA, quantum-DNA and DNA-quantum nano processors are designed with algorithms
Examines the architecture and design procedure of memory devices such as Random Access Memory (RAM), Read Only Memory (ROM)
Reviews the designs and algorithms of Multiple-valued quantum, DNA, quantum-DNA and DNA-quantum nano processors.

Contents:

PART 1: Multivalued Sequential Circuits in Quantum Molecular Biology. 1. Multiple-Valued Sequential Circuits in Quantum Computing. 2. Multivalued Sequential Circuits in DNA Computing. 3. Multivalued Sequential Circuits in Quantum-DNA Computing. 4. Multivalued Sequential Circuits in DNA-Quantum Computing. Part 2. Multiple-Valued Memory Devices in Quantum Molecular Biology. 5. Multiple-Valued Quantum Memory Devices. 6. Multiple-Valued DNA Memory Devices. 7. Multiple-Valued Quantum-DNA Memory Devices. 8. Multiple-Valued DNA-Quantum Memory Devices. Part 3. Multiple-Valued Programmable Logic Devices in Quantum Molecular Biology. 9. Multiple-Valued Programmable Logic Devices in Quantum Computing. 10. Multiple-Valued Programmable Logic Devices in DNA Computing. 11. Multiple-Valued Programmable Logic Devices in Quantum-DNA Computing. 12. Multiple-Valued Programmable Logic Devices in DNA-Quantum Computing. Part 4. Multiple-Valued Nano-Processors in Quantum Molecular Biology. 13. Multiple-Valued Quantum Nano Processor. 14. Multiple-Valued DNA Nano Processor. 15. Multiple-Valued Quantum-DNA Nano-Processor. 16. Multiple-Valued DNA-Quantum Nano-Processor. Final Remarks. Index.