A NON-INTRUSIVE METHOD FOR RESOURCE AND ENERGY EFFICIENT USER PLANE IMPLEMENTATIONS

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

[[:Category:Mattias R�nnblom of Vikingstad (SE)|Mattias R�nnblom of Vikingstad (SE)]][[Category:Mattias R�nnblom of Vikingstad (SE)]]

A NON-INTRUSIVE METHOD FOR RESOURCE AND ENERGY EFFICIENT USER PLANE IMPLEMENTATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18546739 titled 'A NON-INTRUSIVE METHOD FOR RESOURCE AND ENERGY EFFICIENT USER PLANE IMPLEMENTATIONS

Simplified Explanation

The patent application describes a method for a network device to dynamically allocate cores to a user plane application based on its processing load. This involves determining the processing load of the application, allocating a different number of cores based on this load, and executing the application using the allocated cores.

• The method involves determining the processing load of a user plane application with multiple worker threads.
• Based on the processing load, a different number of cores is allocated to the application.
• The allocated cores are used to execute the worker threads of the application.

Potential Applications

This technology could be applied in telecommunications networks to optimize resource allocation for user plane applications.

Problems Solved

This technology solves the problem of inefficient resource allocation for user plane applications, leading to improved performance and resource utilization.

Benefits

The benefits of this technology include enhanced performance, better resource utilization, and improved scalability for user plane applications.

Potential Commercial Applications

Potential commercial applications of this technology include network equipment vendors, telecommunications companies, and cloud service providers looking to optimize resource allocation for user plane applications.

Possible Prior Art

One possible prior art could be dynamic resource allocation techniques in cloud computing environments, where resources are allocated based on workload demands.

What is the impact of this technology on network performance?

This technology can significantly improve network performance by dynamically allocating cores to user plane applications based on their processing load, leading to optimized resource utilization and enhanced overall performance.

How does this technology compare to traditional static resource allocation methods?

Unlike traditional static resource allocation methods, this technology offers dynamic allocation of cores based on the processing load of user plane applications, allowing for better scalability, performance, and resource utilization.

Original Abstract Submitted

A method by a network device to dynamically allocate cores to a user plane application based on a processing load of the user plane application. The method includes determining a processing load of the user plane application, where the user plane application has a plurality of worker threads that are configured to poll queues for traffic to process, determining, based on the processing load of the user plane application, that the user plane application is to be allocated a number of cores in the plurality of cores that is different from a current number of cores allocated to the user plane application, allocating the different number of cores in the plurality of cores to the user plane application, and executing the plurality of worker threads of the user plane application using the different number of cores in the plurality of cores instead of the current number of cores.