20240039830. SWITCHING OPTIMIZATION simplified abstract (MASTERCARD INTERNATIONAL INCORPORATED)

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SWITCHING OPTIMIZATION

Organization Name

MASTERCARD INTERNATIONAL INCORPORATED

Inventor(s)

Nicola Mariella of Oranmore, Galway (IE)

Stephen Patrick Flinter of Terenure, Dublin (IE)

SWITCHING OPTIMIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240039830 titled 'SWITCHING OPTIMIZATION

Simplified Explanation

The abstract describes a system and method for allocating multiple transactions to multiple networks. The process involves receiving information associated with the transactions and networks from a router, determining a switching characteristic to be optimized, and expressing the information and characteristic to a quantum computer. The quantum computer resolves the expression to determine the allocation of transactions to networks, which is then provided to the router.

  • The system and method allocate multiple transactions to multiple networks.
  • Information associated with the transactions and networks is received from a router.
  • A switching characteristic to be optimized is determined.
  • The information and characteristic are expressed to a quantum computer.
  • The quantum computer resolves the expression to determine the allocation of transactions to networks.
  • The allocation is provided to the router.

Potential Applications:

  • Network traffic optimization: The technology can be used to optimize the allocation of transactions to different networks, improving overall network performance and efficiency.
  • Load balancing: By allocating transactions to multiple networks based on their characteristics, the system can help distribute the workload evenly across the networks, preventing congestion and improving response times.
  • Resource allocation: The technology can be applied in scenarios where resources need to be allocated to different networks or systems, ensuring efficient utilization and maximizing performance.

Problems Solved:

  • Network congestion: By intelligently allocating transactions to different networks, the system can help alleviate congestion and prevent bottlenecks, leading to smoother network operations.
  • Inefficient resource utilization: The technology solves the problem of inefficient resource allocation by optimizing the allocation of transactions to networks, ensuring that resources are utilized effectively and efficiently.

Benefits:

  • Improved network performance: By optimizing the allocation of transactions to networks, the technology can enhance network performance, resulting in faster response times and improved overall user experience.
  • Enhanced resource utilization: The system ensures that resources are allocated in an efficient manner, maximizing their utilization and minimizing wastage.
  • Scalability: The technology can be scaled to handle a large number of transactions and networks, making it suitable for various applications and scenarios.


Original Abstract Submitted

a system and computer-implemented method for allocating a plurality of transactions to a plurality of networks comprising: receiving from a router at a classical computer a plurality of first information associated with a respective one of the plurality of transactions; receiving from a router at the classical computer a plurality of second information associated with a respective one of the plurality of networks; determining in the classical computer a switching characteristic to be optimised by the allocation of the plurality of transactions to the plurality of networks; expressing by the classical computer in at least one expression to a quantum computer, the plurality of first information, the plurality of second information and the switching characteristic; resolving in the quantum computer the at least one expression to determine the allocation of the plurality of transactions to the plurality of networks; and providing the allocation to the router.