QUANTUM INFORMATION PROCESSING DEVICE AND QUANTUM INFORMATION PROCESSING SYSTEM

Organization Name

Hitachi, Ltd.

Inventor(s)

Go Shinkai of Tokyo (JP)

QUANTUM INFORMATION PROCESSING DEVICE AND QUANTUM INFORMATION PROCESSING SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240037437 titled 'QUANTUM INFORMATION PROCESSING DEVICE AND QUANTUM INFORMATION PROCESSING SYSTEM

Simplified Explanation

The patent application describes a quantum information processing device that includes a control unit and a common control gate line. The control unit is responsible for controlling a quantum bit array, while the common control gate line is capable of controlling multiple quantum bits. The common control gate line is connected to each of the transistors in the device. The control unit ensures that the number of quantum bits operated in the quantum bit array is less than or equal to half the total number of transistors.

• The patent application describes a quantum information processing device with a control unit and a common control gate line.
• The control unit is responsible for controlling a quantum bit array.
• The common control gate line can control multiple quantum bits and is connected to each transistor in the device.
• The control unit ensures that the number of quantum bits operated in the quantum bit array is less than or equal to half the total number of transistors.

Potential Applications:

• Quantum computing: This technology can be applied in quantum computing systems to control and manipulate quantum bits efficiently.
• Quantum communication: The device can be used in quantum communication systems to process and transmit quantum information securely.

Problems Solved:

• Efficient control: The device solves the problem of efficiently controlling a large number of quantum bits by using a common control gate line.
• Resource optimization: By limiting the number of quantum bits operated in the quantum bit array, the device optimizes the use of transistors and resources.

Benefits:

• Increased efficiency: The device allows for efficient control and operation of quantum bits, improving the overall efficiency of quantum information processing.
• Resource optimization: By limiting the number of quantum bits operated, the device optimizes the use of transistors and reduces resource requirements.
• Scalability: The device can be scaled up to handle larger quantum bit arrays, making it suitable for future advancements in quantum computing and communication.

Original Abstract Submitted

a quantum information processing device includes a control unit controlling a quantum bit array, and a common control gate line capable of controlling a plurality of quantum bits, the common control gate line is commonly connected to each of the plurality of transistors, and the control unit performs control such that the number of quantum bits operated in the quantum bit array is less than or equal to half the total number of transistors.