COMPUTER-READABLE RECORDING MEDIUM STORING QUANTUM CIRCUIT DESIGN PROGRAM, QUANTUM CIRCUIT DESIGN METHOD, AND QUANTUM CIRCUIT DESIGN DEVICE

Organization Name

FUJITSU LIMITED

Inventor(s)

Masatoshi Ishii of Kawasaki (JP)

COMPUTER-READABLE RECORDING MEDIUM STORING QUANTUM CIRCUIT DESIGN PROGRAM, QUANTUM CIRCUIT DESIGN METHOD, AND QUANTUM CIRCUIT DESIGN DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240296366 titled 'COMPUTER-READABLE RECORDING MEDIUM STORING QUANTUM CIRCUIT DESIGN PROGRAM, QUANTUM CIRCUIT DESIGN METHOD, AND QUANTUM CIRCUIT DESIGN DEVICE

Simplified Explanation: The patent application describes a program stored on a computer-readable medium that generates a quantum circuit design by converting elements of a first quantum circuit into equivalent circuits for ion operations.

Key Features and Innovation:

• Detection of elements in a quantum circuit indicating operations on specific qubits.
• Conversion of elements into equivalent circuits for ion operations.
• Symmetrical movement of elements to create a second quantum circuit.

Potential Applications: This technology could be used in quantum computing, specifically in designing and optimizing quantum circuits for various applications such as cryptography, optimization problems, and simulation.

Problems Solved: This technology addresses the challenge of efficiently converting quantum circuit elements into equivalent circuits for ion operations, improving the overall performance and accuracy of quantum computing systems.

Benefits:

• Enhanced efficiency in quantum circuit design.
• Improved accuracy in quantum computing operations.
• Potential for advancements in quantum computing applications.

Commercial Applications: The technology has potential commercial applications in industries such as cybersecurity, finance, and scientific research where quantum computing can provide significant advantages in solving complex problems.

Prior Art: Readers can explore prior research in quantum circuit design, ion operations, and quantum computing algorithms to understand the existing knowledge in this field.

Frequently Updated Research: Stay updated on the latest advancements in quantum computing, quantum circuit design, and ion operations to leverage cutting-edge technologies in this rapidly evolving field.

Questions about Quantum Circuit Design: 1. What are the key challenges in converting quantum circuit elements into equivalent circuits for ion operations? 2. How does symmetrical movement of elements in a quantum circuit improve its design and performance?

Original Abstract Submitted

a non-transitory computer-readable recording medium stores a quantum circuit design program for causing a computer to execute processing including: detecting, from a first quantum circuit that is a quantum circuit that includes a elements and that indicates operation order on each of a qubits included in a quantum computer by arrangement of each of the elements in the quantum circuit, a first element that indicates a predetermined operation on first qubits among qubits and a second element that indicates the predetermined operation on the first qubits; and generating a second quantum circuit obtained by converting the first element of the first quantum circuit into a first equivalent circuit for ion operation that corresponds to the first qubits and converting the second element into a second equivalent circuit arranged by symmetrically moving elements of the first equivalent circuit in an arrangement direction of the first qubits.