High Availability and High Utilization Cloud Data Center Architecture for Supporting Telecommunications Services

Organization Name

AT&T Intellectual Property I, L.P.

Inventor(s)

Manikka Thyagarajan of Short Hills NJ (US)

Kaustubh Joshi of Scotch Plains NJ (US)

Ganeshkumar Natarajan of Morganville NJ (US)

Israel L. Means of Chula Vista CA (US)

Michael L. Hammer of Dike TX (US)

Praveen Ramadenu of Manalapan NJ (US)

Shobhna Goyal of Marlboro NJ (US)

Marius J. Gudelis of Holmdel NJ (US)

Satyendra Tripathi of East Brunswick NJ (US)

High Availability and High Utilization Cloud Data Center Architecture for Supporting Telecommunications Services - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240031432 titled 'High Availability and High Utilization Cloud Data Center Architecture for Supporting Telecommunications Services

Simplified Explanation

The abstract of the patent application describes a cloud data center architecture that supports telecommunications services with high availability and high utilization. It presents different models of application placement within the cloud computing environment, each offering specific resource utilization and availability levels.

• The 4-site model provides 37.5% resource utilization, with site availability of 99.999% (five 9s) and virtual machine availability of five 9s.
• The 3-site model offers 66% resource utilization, with site availability of five 9s and virtual machine availability of five 9s.
• The 4-site model provides 75% resource utilization, with site availability of five 9s and virtual machine availability of five 9s.

Potential applications of this technology:

• Telecommunications services: The architecture is specifically designed to support telecommunications services in the cloud, making it suitable for applications such as voice, video, and data transmission.
• Cloud computing: The concepts and technologies disclosed in the patent application can be applied to enhance the performance and reliability of cloud computing environments.

Problems solved by this technology:

• Resource utilization: The architecture aims to maximize resource utilization in the cloud data center, ensuring that available resources are efficiently utilized to meet the demands of telecommunications services.
• Availability: By providing high availability with site and virtual machine availability of five 9s, the architecture addresses the need for reliable and uninterrupted telecommunications services.

Benefits of this technology:

• High utilization: The architecture allows for significant resource utilization, enabling efficient use of computing resources in the cloud data center.
• High availability: With site availability and virtual machine availability of five 9s, the architecture ensures a highly reliable and resilient infrastructure for telecommunications services.
• Improved performance: By optimizing resource utilization and availability, the technology enhances the overall performance of cloud-based telecommunications services.

Original Abstract Submitted

the concepts and technologies disclosed herein provide high availability and high utilization cloud data center architecture for supporting telecommunications services. according to one aspect of the concepts and technologies disclosed herein, a 4-site model of application placement within the cloud computing environment provides 37.5% resource utilization with site availability of five 9s (99.999%) and virtual machine availability of five 9s. according to another aspect of the concepts and technologies disclosed herein, a 3-site model of application placement within the cloud computing environment provides 66% resource utilization with site availability of five 9s and virtual machine availability of five 9s. according to another aspect of the concepts and technologies disclosed herein, a 4-site model of application placement within the cloud computing environment provides 75% resource utilization with site availability of five 9s and virtual machine availability of five 9s.