QUANTUM CIRCUIT COMPRESSION

Organization Name

HSBC Group Management Services Limited

Inventor(s)

Christos Aravanis of Sheffield (GB)

Georgios Korpas of London (GB)

Jakub Marecek of Prague (CZ)

Philip Intallura of London (GB)

QUANTUM CIRCUIT COMPRESSION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240311669 titled 'QUANTUM CIRCUIT COMPRESSION

Simplified Explanation: The patent application describes a method for compressing a quantum circuit using a quantum circuit compressor. This method involves identifying a section of the quantum circuit that matches a predetermined circuit template, determining if the section meets a compression criterion, and modifying the circuit definition to replace certain quantum gates with a more efficient arrangement.

• The method involves compressing a quantum circuit by replacing specific quantum gates with a more optimized arrangement.
• The compressor identifies sections of the circuit that match a predetermined template and evaluates them against a compression criterion.
• If the section meets the compression criterion, the compressor modifies the circuit definition to improve efficiency.
• This innovation aims to streamline quantum circuit operations and enhance quantum computing performance.
• By optimizing the arrangement of quantum gates, the method reduces the complexity of quantum circuits without compromising functionality.

Potential Applications: This technology can be applied in quantum computing systems to improve the efficiency and performance of quantum circuits. It can benefit research institutions, technology companies, and organizations working on quantum computing projects.

Problems Solved: This technology addresses the challenge of optimizing quantum circuits to enhance their efficiency and reduce complexity. It streamlines quantum operations by replacing specific quantum gates with more efficient arrangements, leading to improved performance.

Benefits: - Enhanced efficiency of quantum circuits - Reduced complexity of quantum operations - Improved performance of quantum computing systems - Streamlined quantum circuit design and execution

Commercial Applications: Title: Quantum Circuit Compression Technology for Enhanced Efficiency This technology can be commercially utilized in quantum computing research, software development for quantum systems, and applications requiring high-performance quantum circuits. It can potentially revolutionize the field of quantum computing by optimizing circuit operations and improving overall system efficiency.

Prior Art: Readers interested in exploring prior art related to quantum circuit compression technology can refer to research papers, patents, and publications in the field of quantum computing, quantum algorithms, and quantum circuit optimization.

Frequently Updated Research: Researchers are continuously exploring new methods and techniques for optimizing quantum circuits and improving quantum computing performance. Stay updated on the latest advancements in quantum circuit compression technology to leverage its benefits effectively.

Questions about Quantum Circuit Compression: 1. How does quantum circuit compression technology impact the overall efficiency of quantum computing systems? 2. What are the potential challenges associated with implementing quantum circuit compression in practical quantum computing applications?

Original Abstract Submitted

a method of compressing a quantum circuit using a quantum circuit compressor is disclosed. the method comprises receiving data defining a quantum circuit and identifying a section of the quantum circuit that matches a predetermined circuit template. the circuit template specifies a first arrangement of quantum gates including at least one swap gate for implementing a non-local interaction and is associated with a predetermined second arrangement of quantum gates that does not include the swap gate. the compressor determines whether the circuit section meets a compression criterion. in response to determining that the circuit section meets the compression criterion; the compressor modifies the circuit definition to replace the first arrangement of quantum gates with the second arrangement of quantum gates, and outputs the modified circuit definition, for example to a quantum computing system for execution of the modified circuit.