REAL TIME QUBIT ALLOCATION FOR DYNAMIC NETWORK TOPOGRAPHIES

Organization Name

Red Hat, Inc.

Inventor(s)

Leigh Griffin of Waterford (IE)

Stephen Coady of Waterford (IE)

REAL TIME QUBIT ALLOCATION FOR DYNAMIC NETWORK TOPOGRAPHIES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240031238 titled 'REAL TIME QUBIT ALLOCATION FOR DYNAMIC NETWORK TOPOGRAPHIES

Simplified Explanation

The patent application describes a system and method for qubit allocation in dynamic network topographies. The system includes a processor device that implements a configuration to quantum definition (c2q) service. This service performs real-time qubit allocation for dynamic network topographies by ensuring synchronization between a configuration file for a network topography and a quantum definition file for qubits allocated to the network topography.

• The c2q service performs real-time qubit allocation for dynamic network topographies.
• It ensures synchronization between a configuration file for a network topography and a quantum definition file for qubits allocated to the network topography.

Potential applications of this technology:

• Quantum computing: The qubit allocation system can be used in quantum computing systems to efficiently allocate qubits in dynamic network topographies.
• Network optimization: The system can optimize the allocation of qubits in network topographies, leading to improved performance and efficiency in network operations.

Problems solved by this technology:

• Qubit allocation in dynamic network topographies: The system solves the problem of efficiently allocating qubits in network topographies that change dynamically.
• Synchronization between configuration and quantum definition files: The system ensures that the configuration file for a network topography and the quantum definition file for qubits allocated to the network topography are synchronized, avoiding any inconsistencies or errors.

Benefits of this technology:

• Improved performance: The qubit allocation system improves the performance of quantum computing systems by efficiently allocating qubits in dynamic network topographies.
• Enhanced efficiency: By optimizing qubit allocation, the system increases the efficiency of network operations, leading to reduced resource wastage and improved overall system performance.

Original Abstract Submitted

qubit allocation for dynamic network topographies is disclosed. in one example, a processor device of a computing system implements a configuration to quantum definition (c2q) service that performs real time qubit allocation for dynamic network topographies. the c2q service can ensure synchronization between a configuration file for a network topography and a quantum definition file for qubits allocated to the network topography.