The IPX and SPX network protocols have a network layer and a transport layer, respectively. IPX and IP protocol serve the same purpose, defining how data is transmitted and received between two devices. This internet protocol is used to create and maintain a secure connection between two devices. They operate together to transmit data and establish a network link between IPX Networks systems. You can learn more here about IPX networks.
Benefits
Through a range of customizable connectivity choices, TNS delivers a one-to-many advantage. Carriers can choose from a variety of network design options with TNS Voice IPX, including network connection type, topology, speeds, load-balancing, and reliability.
Total SAP updates will be provided on a regular basis until the EIGRP neighbour is detected, and then whenever the SAP table is changed. It operates by utilising EIGRP’s dependable transport server, which necessitates the presence of an IPX-EIGRP peer in order for SAPs to be sent.
Automatic redistribution — Because IPX-RIP routes are automatically disseminated in EIGRP, IPX-EIGRP routes may be redistributed in RIP without the user having to input any instructions. When the no redistribute subcommand is used, redistribution is disabled. On a router, IPX-EIGRP and IPX-RIP will be completely disabled.
IP Routing
All parties under the connection agreements will get routing information from the IPX Networks. The BGP-4 routing protocol will be used to transmit dynamic routing information across various networks. In the case of an IP address change, dynamic routing lowers the amount of administrative effort required (that is, new address ranges are applied). Dynamic routing also allows for redundant connections to IPX Carriers.
All additional IPX Network nodes should communicate routing information and traffic with IPX Providers. All Inter-Service Carrier BGP-4 information should be distributed by an IPX Provider to all of its peers.
Networking and IP Addressing
In terms of IP routing, the IPX Providers and Services Provider networks must be completely isolated from the public Internet. That is, Internet routers cannot transit IP datagrams to IP addresses broadcast to the IPX network and vice versa. IPv4 identity and routing must be supported by the IPX Provider and Service Provider’s networks. It is suggested to use IPv6 addressing and routing. IPX Providers and Service Providers who use IPv6 in their network are responsible for any network changes required to maintain connection with all other IPX Providers and/or Service Providers who use IPv4.
IP Routing for Service Providers
All linked Service Provider and IPX Provider networks must be transparent to and inaccessible from the public Internet, according to the Service Provider. Unwanted routes can be screened by Service Providers by choosing address ranges of their interconnect clients.
IP Addressing for Service Providers
All IPX Network components that are marketed or visible to other Service Providers must use public addressing. Using public addressing implies that each Service Provider has its own address space, which has been reserved by the Internet addressing agency.
High-Speed Internet Access
IPX provides end-to-end voice services through a single, efficient, and secure network At the same time, by decreasing network complexity, it can make global connectivity easier. TNS allows you to extend your voice reach and simplify voice peering connections by using your current IPX connection. To convert VoLTE/SIP to TDM, TNS Voice IPX can replace the requirement for a gateway. It can also offer end-to-end IP conversations with optimum voice partner network routing.
That’s all folks, learn more here and stay up to date.