A Transformed Blueprint for Memory Devices in Integrated DNA - Quantum Computing

Paper ID: 52

Abstract

This research explores the integration of quantum computing and DNA computing to create advanced memory devices such as RAM, ROM, and cache memory, combining binary and ternary logic systems. Quantum computing's atomic-level capabilities and DNA computing's high data processing power and massive storage potential are leveraged to design memory devices with improved speed and energy efficiency. The approach involves using DNA molecules for data storage and transforming DNA sequences into qubits for quantum processing. A heat transfer circuit is also developed to manage the heat generated by quantum computing, ensuring efficient and safe data retrieval. This integration aims to revolutionize data storage and processing, offering a scalable, high-performance solution for future computing systems.

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