QUANTUM CIRCUIT FOR PAIRWISE TESTING

Organization Name

International Business Machines Corporation

Inventor(s)

Shashanka Ubaru of Ossining NY (US)

Ismail Yunus Akhalwaya of Emmarentia (ZA)

Mark S. Squillante of Greenwich CT (US)

Kenneth Lee Clarkson of Madison NJ (US)

Vasileios Kalantzis of White Plains NY (US)

Lior Horesh of North Salem NY (US)

QUANTUM CIRCUIT FOR PAIRWISE TESTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240022247 titled 'QUANTUM CIRCUIT FOR PAIRWISE TESTING

Simplified Explanation

The patent application describes systems and methods for performing pairwise checking of data points in a dataset using quantum hardware. Here is a simplified explanation of the abstract:

• An apparatus or computing device includes a controller, quantum hardware, and an interface.
• The controller generates a command signal.
• The quantum hardware consists of multiple qubits.
• The interface is connected to the controller and the quantum hardware.
• The interface controls the quantum hardware based on the command signal to perform pairwise checking for every pair of data points in a dataset.
• The purpose of pairwise checking is to identify a property relating to the data points.
• The data points are represented by the qubits.

Potential applications of this technology:

• Data analysis: The pairwise checking can be used to identify patterns or relationships between data points in a dataset, which can be useful in various fields such as finance, healthcare, and marketing.
• Machine learning: The quantum hardware can be utilized to enhance machine learning algorithms by performing more efficient and accurate pairwise comparisons.

Problems solved by this technology:

• Scalability: Quantum hardware has the potential to handle large datasets and perform complex computations more efficiently than classical computers.
• Speed: Pairwise checking using quantum hardware can potentially provide faster results compared to traditional methods.

Benefits of this technology:

• Improved accuracy: Quantum computing can provide more precise results in pairwise checking, leading to better insights and decision-making.
• Enhanced efficiency: Quantum hardware can perform computations in parallel, reducing the time required for pairwise checking.
• Future-proofing: As quantum computing continues to advance, this technology can provide a competitive advantage in data analysis and machine learning applications.

Original Abstract Submitted

systems and methods for performing pairwise checking of data points in a dataset are described. an apparatus or computing device can include a controller, quantum hardware, and an interface. the controller can be configured to generate a command signal. the quantum hardware can include a plurality of qubits. the interface can be connected to the controller and the quantum hardware. the interface can be configured to control the quantum hardware based on the command signal received from the controller to perform pairwise checking for every pair of data points in a dataset to identify a property relating to the data points. the data points can be represented by the plurality of qubits.