SYSTEMS AND METHODS FOR SERVICE INTERWORKING

Organization Name

Juniper Networks, Inc.

Inventor(s)

Zhaohui Zhang of Westford MA (US)

Shraddha Hegde of Bangalore (IN)

Krzysztof Grzegorz Szarkowicz of Wien (AT)

SYSTEMS AND METHODS FOR SERVICE INTERWORKING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18478599 titled 'SYSTEMS AND METHODS FOR SERVICE INTERWORKING

Simplified Explanation: The patent application describes a network device that receives a route from another device in an MPLS domain, modifies the route to include a prefix SID attribute, and sends it to a device in an SRv6 domain.

Key Features and Innovation:

• Interworking network device receives route with label, prefix, and next-hop identifier
• Generates prefix SID attribute with SID value and structure information
• Modifies route to include prefix SID attribute and change next-hop identifier
• Sends modified route to another network device in SRv6 domain

Potential Applications: This technology can be applied in telecommunications, networking, and data transfer industries for efficient routing and traffic management.

Problems Solved:

• Simplifies routing processes between different network domains
• Enhances network device interoperability and communication
• Improves overall network performance and reliability

Benefits:

• Streamlines network routing configurations
• Facilitates seamless communication between diverse network devices
• Optimizes network traffic flow and reduces latency

Commercial Applications: The technology can be utilized by network equipment manufacturers, service providers, and data centers to enhance their network infrastructure, improve service delivery, and increase customer satisfaction.

Prior Art: Prior research in the field of network routing protocols, MPLS, and SRv6 technologies can provide insights into similar approaches and solutions.

Frequently Updated Research: Stay updated on advancements in network routing protocols, MPLS, and SRv6 technologies to leverage the latest innovations in network communication and management.

Questions about Network Routing Optimization: 1. How does this technology improve network efficiency and performance? 2. What are the potential challenges in implementing this routing optimization solution?

Question 1: How does this technology improve network efficiency and performance?

Answer 1: This technology improves network efficiency and performance by optimizing routing processes, enhancing communication between network devices, and reducing latency in data transfer.

Question 2: What are the potential challenges in implementing this routing optimization solution?

Answer 2: Potential challenges in implementing this routing optimization solution may include compatibility issues with existing network infrastructure, configuration complexities, and the need for thorough testing and validation before deployment.

Original Abstract Submitted

An interworking network device receives from a first other network device associated with an MPLS domain, a route that includes a label, a prefix, and a next-hop identifier that indicates the first other network device. The interworking network device thereby generates a prefix SID attribute that includes a SID value and information indicating a structure of the SID value, wherein a LOC portion of the SID value identifies the interworking network device, and a first sub-portion of a FUNCT portion of the SID value identifies an endpoint behavior of the interworking network device in association with the first other network device. The interworking network device modifies the route to cause the next-hop identifier to indicate the interworking network device, and to cause the route to include the prefix SID attribute. The interworking network device thereby sends the route to a second other network device associated with an SRv6 domain.