18513261. MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE simplified abstract (Intel Corporation)
Contents
- 1 MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Original Abstract Submitted
MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE
Organization Name
Inventor(s)
Patrick Connor of Beaverton OR (US)
Andrey Chilikin of Limerick (IE)
Chris Macnamara of Limerick (IE)
John J. Browne of Limerick (IE)
Krishnamurthy Jambur Sathyanarayana of Limerick (IE)
Anthony Kelly of Limerick (IE)
MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18513261 titled 'MIGRATION FROM A LEGACY NETWORK APPLIANCE TO A NETWORK FUNCTION VIRTUALIZATION (NFV) APPLIANCE
Simplified Explanation
The computing device described in the patent application includes a system for managing network functions virtualization (NFV) appliances and legacy network appliances by migrating packet processing based on reliability and performance data.
- The computing device stores reliability and performance data for NFV and legacy network appliances in an appliance status table.
- The load controller configures an IP filter rule to migrate packet processing from a legacy network appliance to an NFV appliance based on the data in the appliance status table.
- The packet distributor selects an NFV appliance to process the packet based on the appliance status table and sends the packet to the selected NFV appliance.
Potential Applications
This technology could be applied in:
- Telecommunications industry for optimizing network traffic flow
- Cloud computing environments for efficient resource allocation
Problems Solved
This technology solves the following problems:
- Efficiently managing network traffic between NFV and legacy network appliances
- Improving overall network performance and reliability
Benefits
The benefits of this technology include:
- Enhanced network performance and reliability
- Dynamic allocation of packet processing resources
- Improved scalability and flexibility in network management
Potential Commercial Applications
Optimizing Network Traffic Flow in Telecommunications Industry
Unanswered Questions
How does this technology impact network security?
This technology focuses on optimizing network traffic flow and resource allocation, but it is important to consider how it may affect network security measures. Implementing packet processing migration between appliances could potentially introduce vulnerabilities if not properly managed.
What are the scalability limitations of this technology?
While the technology aims to improve scalability and flexibility in network management, there may be limitations in terms of the number of appliances that can be efficiently managed and the complexity of network configurations that can be supported. It is important to understand the scalability constraints of this technology for large-scale network deployments.
Original Abstract Submitted
A computing device includes an appliance status table to store at least one of reliability and performance data for one or more network functions virtualization (NFV) appliances and one or more legacy network appliances. The computing device includes a load controller to configure an Internet Protocol (IP) filter rule to select a packet for which processing of the packet is to be migrated from a selected one of the one or more legacy network appliances to a selected one of the one or more NFV appliances, and to update the appliance status table with received at least one of reliability and performance data for the one or more legacy network appliances and the one or more NFV appliances. The computing device includes a packet distributor to receive the packet, to select one of the one or more NFV appliances based at least in part on the appliance status table, and to send the packet to the selected NFV appliance. Other embodiments are described herein.
- Intel Corporation
- Patrick Connor of Beaverton OR (US)
- Andrey Chilikin of Limerick (IE)
- Brendan Ryan of Limerick (IE)
- Chris Macnamara of Limerick (IE)
- John J. Browne of Limerick (IE)
- Krishnamurthy Jambur Sathyanarayana of Limerick (IE)
- Stephen Doyle of Ennis (IE)
- Tomasz Kantecki of Ennis (IE)
- Anthony Kelly of Limerick (IE)
- Ciara Loftus of Tuam (IE)
- Fiona Trahe of Ennis (IE)
- H04L47/125
- G06F8/76
- G06F9/455
- H04L43/0817
- H04L47/2441