QUANTUM ERROR CORRECTION USING REAL PROJECTIVE PLANE TOPOLOGY DEFINED STABILIZERS

Organization Name

Quantinuum LLC

Inventor(s)

Natalie Christine Brown of Denver CO (US)

Ciaran Ryan-anderson of Broomfield CO (US)

QUANTUM ERROR CORRECTION USING REAL PROJECTIVE PLANE TOPOLOGY DEFINED STABILIZERS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240320537 titled 'QUANTUM ERROR CORRECTION USING REAL PROJECTIVE PLANE TOPOLOGY DEFINED STABILIZERS

The abstract describes a quantum computing system that includes a classical computing entity, a controller, and a quantum processor. The controller manages the quantum processor's operations and interacts with the computing entity. It executes a syndrome circuit segment to produce a syndrome for a logical qubit, involving interactions between at least two physical qubits. The logical qubit is structured in a real projective plane topology, and the interactions are determined based on stabilizers derived from this topology. The classical computing entity identifies quantum error corrections from the syndrome and updates a classical memory accordingly.

• The quantum computing system comprises a classical computing entity, a controller, and a quantum processor.
• The controller orchestrates the quantum processor's functions and interfaces with the classical computing entity.
• A syndrome circuit segment is performed to generate a syndrome for a logical qubit, involving interactions between at least two physical qubits.
• The logical qubit is organized in a real projective plane topology, with interactions determined by stabilizers derived from this topology.
• Quantum error corrections are identified based on the syndrome, and the classical memory is updated accordingly.

Potential Applications: - Quantum error correction in quantum computing systems - Enhancing the reliability and accuracy of quantum computations

Problems Solved: - Addressing errors and inaccuracies in quantum computing systems - Improving the stability and performance of quantum processors

Benefits: - Increased precision and reliability in quantum computations - Enhanced error correction capabilities in quantum systems

Commercial Applications: Title: Quantum Error Correction Technology for Enhanced Computing Performance This technology can be utilized in industries such as: - Quantum computing research and development - Data encryption and cybersecurity - Advanced scientific simulations and modeling

Questions about Quantum Error Correction Technology: 1. How does the real projective plane topology impact the interactions between physical qubits in quantum error correction? 2. What are the potential implications of improved error correction in quantum computing for various industries?

Original Abstract Submitted

a quantum computing system comprises a classical computing entity, a controller, and a quantum processor. the controller is configured to control operation of the quantum processor and communicate with the computing entity. the controller causes performance of a syndrome circuit segment to generate a syndrome of a logical qubit. the syndrome circuit segment is performed at least in part by causing performance of a sequence of at-least-two-physical-qubits interactions. the logical qubit comprises a plurality of data qubits logically organized in a real projective plane topology and the sequence of at-least-two-physical-qubits interactions is determined based on stabilizers determined based on the real projective plane topology of the logical qubit. the classical computing entity determines at least one quantum error correction based on the syndrome. a classical memory of the controller or the classical computing entity is updated based on the syndrome and/or the at least one quantum error correction.