TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR COMPUTE RESOURCES

Organization Name

VMWARE, INC.

Inventor(s)

Victor Cionca of Cork (IE)

Hemanth Kumar Pannem of Danville CA (US)

Akshatha Sathyanarayan of San Jose CA (US)

Archit Baweja of San Francisco CA (US)

Ki Suh Lee of San Francisco CA (US)

Sacheth Hegde of Cupertino CA (US)

Donna O'shea of Cork (IE)

TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR COMPUTE RESOURCES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240040433 titled 'TELECOMMUNICATIONS INFRASTRUCTURE GENERATION AND PROVISIONING FOR COMPUTE RESOURCES

Simplified Explanation

The patent application describes a method for defining compute resource deployments in a telecommunications network for a specific geographic region. The method involves determining the population density of user equipment (UES) within the region and using this information to identify the amount of compute resources required for non-telephony applications and the locations in a non-core network where these resources should be deployed. The method also includes simulating the performance of the network based on the identified amounts and locations of compute resources. When the simulated performance meets specified performance metric thresholds, the method uses the identified amounts and locations to define compute resource deployments for the telecommunications network.

• The method determines the population density of UES in a specific geographic region.
• It identifies the amount of compute resources required for non-telephony applications based on the population density of UES.
• It identifies the locations in a non-core network where the compute resources should be deployed.
• It simulates the performance of the telecommunications network based on the identified amounts and locations of compute resources.
• It uses the identified amounts and locations to define compute resource deployments for the telecommunications network when the simulated performance meets specified performance metric thresholds.

Potential applications of this technology:

• Efficient deployment of compute resources in telecommunications networks for specific geographic regions.
• Optimization of non-telephony applications to provide multiple services to user equipment connected to the network.
• Improved performance and resource allocation in telecommunications networks.

Problems solved by this technology:

• Determining the appropriate amount of compute resources required for non-telephony applications based on population density.
• Identifying the optimal locations for deploying compute resources in a non-core network.
• Simulating and evaluating the performance of a telecommunications network to ensure it meets specified performance metric thresholds.

Benefits of this technology:

• More efficient use of compute resources in telecommunications networks.
• Improved performance and service delivery to user equipment.
• Cost savings through optimized resource allocation.
• Enhanced scalability and flexibility in network deployments.

Original Abstract Submitted

some embodiments of the invention provide a method for defining compute resource deployments in a telecommunications network for a particular geographic region, the telecommunications network including an access network, an edge network and a core network, the compute resources for consumption by a set of non-telephony applications that are deployed in the telecommunications network to provide multiple services for multiplicities of ues (user equipment) connected to the telecommunications network in the particular geographic region. the method determines population density of ues (user equipment) within the particular geographic region. for each non-telephony application in the set of non-telephony applications, the method uses the determined population density of ues to identify (1) an amount of compute resources required for the non-telephony application to provide one or more respective services in the multiple services to a first multiple ues, and (2) a set of locations in a non-core network at which to deploy the identified amount of compute resources for consumption by the non-telephony application. the method simulates performance of the telecommunications network for the particular geographic region based on the identified amounts and sets of locations of compute resources for each non-telephony application in the set of non-telephony applications. when a set of performance metrics resulting from simulating performance of the telecommunications network meet a set of performance metric thresholds specified for the telecommunications network, the method uses the identified amounts and sets of locations of compute resources for the set of non-telephony applications to define compute resource deployments for the telecommunications network.