Biomolecule-based quantum dot computer system and control method thereof

Abstract

The invention relates to a biomolecule-based quantum dot computer system. The system comprises a biomolecule arithmetic unit, a biomolecule controller, a biomolecule memory, a biomolecule instruction set assembly, a biomolecule quantum dot computer bus and a biomolecule quantum dot computer I / O interface, the biomolecule arithmetic unit comprises a plurality of biomolecule arithmetic unit units capable of performing parallel operation, a large number of DNA molecules, RNA molecules, protein molecules and enzymes are arranged in the biomolecule arithmetic unit units, and the physical state or the chemical state of biomolecules serves as the quantum state. Reversible quantum computation and parallel computation are realized through biochemical reaction of biomolecules, polymerase chain reaction and gene regulation and control. According to the invention, the calculation and storage of quantum information are realized by utilizing the two-way transition of the physical state or chemical state of biomolecules, the power consumption is lower, the calorific value is small, the calculation speed is high, the storage capacity is large, and the automatic fault detection, automatic positioning, self-copying and fault part repairing can be realized by utilizing the chemical reaction of the biomolecules.

Description

technical field [0001] The invention belongs to the field of biomolecules and quantum computing, in particular to a quantum dot computer system based on biomolecules. Background technique [0002] Quantum computers are different from classical computers in that they follow the principles of quantum mechanics to perform high-speed arithmetic and logic operations, store and process quantum information. Like a classical computer, a quantum computer consists of hardware and software. The hardware includes quantum transistors, quantum memories, quantum effectors, etc., and the software includes quantum algorithms and quantum codes. In general, if quantum information is calculated and processed in a physical device, or a quantum algorithm is run, it can be regarded as a quantum computer. In the early 1980s, Benioff first proposed the idea of ​​quantum computing, and designed a prototype of an executable quantum Turing machine with classical analogies. In 1982, on the basis of Be...

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Problems solved by technology

[0013] The purpose of the present invention is to address the above problems, to provide a quantum dot computer system based on biomolecules, which uses different physical and chemical states of biomolecules to realize information storage, and achieve a breakthrough increase in the capacity of storage devices per unit volume; Molecular reaction and gene regulation complete reversible quantum arithmetic and logic operations, pre-judge user computing instructions, judge whether the instructions are standardized, and perform timing control and operation result detection to improve the quantum state stability and data accuracy of quantum computers ; Use the quantum state of biomolecules to form a quantum entanglement subsystem, and use the state of the quantum entanglement subsystem as the quantum entanglement state to implement quantum entanglement operations through biochemical reactions, polymerase chain reaction (polymerase chain reaction, PCR) and gene regulation, Realize the reversible transformation and entanglement state maintenance of quantum operations; at the same time, set redundant components for the quantum dot computer system, use biomolecular controllers to detect and locate faults, and realize automatic repair of faults to solve the problem of difficult repair of quantum computers

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