APPLICATION PROGRAMMING INTERFACE TO DETERMINE WHETHER WIRELESS CELLS HAVE BEEN ALLOCATED

Organization Name

NVIDIA Corporation

Inventor(s)

Lopamudra Kundu of Sunnyvale CA (US)

Timothy James Martin of San Marcos CA (US)

Harsha Deepak Banuli Nanje Gowda of Santa Clara CA (US)

APPLICATION PROGRAMMING INTERFACE TO DETERMINE WHETHER WIRELESS CELLS HAVE BEEN ALLOCATED - A simplified explanation of the abstract

This abstract first appeared for US patent application 17684314 titled 'APPLICATION PROGRAMMING INTERFACE TO DETERMINE WHETHER WIRELESS CELLS HAVE BEEN ALLOCATED

Simplified Explanation

The abstract describes apparatuses, systems, and techniques for performing one or more APIs related to 5G-NR cells by one or more processors. This includes indicating the number of cells that can be performed concurrently, determining if processors can handle a specific number of cells at once, allocating resources for cell performance, and specifying techniques for cell execution.

• Processor performs APIs related to 5G-NR cell performance
• APIs indicate number of cells that can be handled concurrently
• APIs determine if processors can handle a specific number of cells at once
• APIs allocate resources for cell performance
• APIs specify techniques for cell execution

Potential Applications

The technology described in the patent application could be applied in various industries such as telecommunications, network infrastructure, and mobile device manufacturing.

Problems Solved

This technology helps in optimizing the performance of 5G-NR cells by efficiently utilizing processor resources and allocating them based on the workload. It also aids in managing concurrent cell operations effectively.

Benefits

The benefits of this technology include improved efficiency in handling 5G-NR cells, better resource utilization, enhanced performance of processors, and overall optimization of network operations.

Potential Commercial Applications

Optimizing 5G-NR cell performance can benefit companies in the telecommunications sector, network equipment manufacturers, and mobile device companies. This technology can help in providing faster and more reliable network services to customers.

Possible Prior Art

One possible prior art could be existing patents or research papers related to optimizing processor performance for cellular network operations. Additionally, prior art may include patents on resource allocation techniques in telecommunications systems.

Unanswered Questions

How does this technology impact the speed of 5G network operations?

The abstract mentions techniques for performing 5G-NR cells, but it does not specify how these techniques affect the speed of network operations. It would be interesting to know if this technology leads to faster data transmission rates or reduced latency in 5G networks.

What are the potential security implications of implementing these APIs for 5G-NR cells?

While the abstract focuses on performance optimization, it does not address any security considerations related to implementing these APIs. It would be important to understand how the use of these APIs could impact the security of 5G networks and what measures are in place to mitigate any potential risks.

Original Abstract Submitted

Apparatuses, systems, and techniques to perform one or more APIs. In at least one embodiment, a processor is to perform an API to indicate a number of 5G-NR cells that are able to be performed concurrently by one or more processors; a processor is to perform an API to indicate whether one or more processors are able to perform a first number of 5G-NR cells concurrently; a processor comprising one or more circuits is to perform an API to indicate whether one or more resources of one or more processors are allocated to perform 5G-NR cells; and/or a processor comprises one or more circuits to perform an API to indicate one or more techniques to be used by one or more processors in performing one or more 5G-NR cells.