QUANTUM COMPUTING NETWORK WITH PHYSICAL MESH SERVICE

Organization Name

Red Hat, Inc.

Inventor(s)

Stephen Coady of Waterford (IE)

Leigh Griffin of Waterford (IE)

QUANTUM COMPUTING NETWORK WITH PHYSICAL MESH SERVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240037432 titled 'QUANTUM COMPUTING NETWORK WITH PHYSICAL MESH SERVICE

Simplified Explanation

The abstract of the patent application describes a system for quantum computing networks. In this system, a quantum computing device joins the network and data related to it is received. Multiple quantum simulator nodes are generated for the device, with each node simulating a different operating state of the device. These simulator nodes are stored as execution nodes in the quantum computing network for the execution of quantum services.

• The patent application describes a system for quantum computing networks.
• A quantum computing device can join the network and its data is received.
• Multiple quantum simulator nodes are generated for the device.
• Each simulator node simulates a different operating state of the device.
• The simulator nodes are stored as execution nodes in the network.
• The execution nodes are used for the execution of quantum services.

Potential Applications:

• Quantum computing networks can be used for advanced scientific simulations.
• Quantum computing networks can be utilized for cryptography and secure communication.
• Quantum computing networks can enable faster optimization and machine learning algorithms.

Problems Solved:

• The system allows for the integration of quantum computing devices into a network.
• Simulating different operating states of the device helps in understanding its behavior.
• The execution nodes enable the execution of quantum services in the network.

Benefits:

• Quantum computing networks can enhance computational power and solve complex problems.
• The system provides a scalable and efficient way to incorporate quantum computing devices.
• Simulating different operating states helps in testing and optimizing quantum algorithms.
• The execution nodes enable the utilization of quantum services within the network.

Original Abstract Submitted

examples relating to quantum computing networks are provided. in one example, data indicative of a quantum computing device joining a quantum computing network is received. a plurality of quantum simulator nodes are generated for the quantum computing device. each quantum simulator node simulates one of a plurality of different operating states of the quantum computing device. each of the quantum simulator nodes is stored as an execution node of the quantum computing network for execution of a quantum service.