VISUAL PRESENTATION OF QUANTUM-CLASSICAL INTERFACE IN A USER EXPERIENCE

Organization Name

INTERNATIONAL BUSINESS MACHINES CORPORATION

Inventor(s)

Joseph Anthony Russo of Westford (MA)

Jill Sherman of Northfield IL (US)

Christopher P. Wilczak of Chicago IL (US)

Jonathan Ralph of Rosemount MN (US)

Joshua Totte of Santa Monica CA (US)

Megan Arthur of Yorktown Heights NY (US)

Erin Mcphail of Yorktown Heights NY (US)

VISUAL PRESENTATION OF QUANTUM-CLASSICAL INTERFACE IN A USER EXPERIENCE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17548518 titled 'VISUAL PRESENTATION OF QUANTUM-CLASSICAL INTERFACE IN A USER EXPERIENCE

Simplified Explanation

The patent application describes a system for a quantum computing interface that allows users to interact with both classical and quantum computing domains. Here are the key points:

• The system provides a user interface (UI) element to represent the classical computing domain.
• Changes in the appearance of the classical computing UI element indicate events happening in the classical computing domain.
• The system also presents a UI element to represent the quantum computing domain.
• Changes in the appearance of the quantum computing UI element indicate events happening in the quantum computing domain.
• A data connection UI element is used to represent the data flow between the classical and quantum computing domains.
• Changes in the appearance of the data connection UI element indicate events related to data transition between the two domains.

Potential Applications

This technology has potential applications in various fields, including:

• Quantum computing research: Researchers can use the interface to monitor and analyze events in both classical and quantum computing domains.
• Quantum algorithm development: Developers can use the interface to test and optimize quantum algorithms by observing the data flow between classical and quantum computing domains.
• Quantum simulation: The interface can be used to simulate and visualize the behavior of quantum systems, aiding in the understanding and analysis of complex quantum phenomena.

Problems Solved

The system addresses several problems related to quantum computing interfaces, such as:

• Lack of visibility: The interface provides a visual representation of events in both classical and quantum computing domains, allowing users to easily monitor and understand the system's behavior.
• Data flow management: The data connection UI element helps users track and manage the flow of data between classical and quantum computing domains, ensuring efficient and accurate data transition.
• Event identification: The altered appearance of UI elements indicates events occurring in the respective computing domains, enabling users to quickly identify and respond to these events.

Benefits

The technology offers several benefits, including:

• Enhanced user experience: The interface provides a familiar and intuitive way for users to interact with both classical and quantum computing domains, making it easier to understand and work with quantum systems.
• Improved system monitoring: Users can effectively monitor events in both domains, allowing for better control and management of the computing system.
• Efficient data transition: The data connection UI element helps users track and optimize the flow of data between classical and quantum computing domains, ensuring smooth and accurate data transition.

Original Abstract Submitted

A quantum computing interface system is provided. The system presents a classical computing user interface (UI) element to represent a classical computing domain. An altered appearance of the classical computing UI element indicates a classical domain event occurring in the classical computing domain. The system presents a quantum computing UI element to represent a quantum computing domain. An altered appearance of the quantum computing UI element indicates a quantum domain event occurring in the quantum computing domain. The system presents a data connection UI element to represent a data connection between the classical computing domain and the quantum computing domain. An altered appearance of the data connection UI element indicates a data flow event related to data transition between the classical computing domain and the quantum computing domain.