IP Routing Overview | This document describes: l Introduction to IP routing and routing table l Routing protocol overview |
Static Routing | A static route is manually configured by the administrator. The proper configuration and usage of static routes can improve network performance and ensure bandwidth for important network applications. This document describes: l Static route configuration l Detecting Reachability of the Static Route’s Nexthop |
RIP | Routing Information Protocol (RIP) is a simple Interior Gateway Protocol (IGP), mainly used in small-sized networks. This document describes: l RIP basic functions configuration l RIP advanced functions configuration l RIP network optimization configuration |
OSPF | Open Shortest Path First (OSPF) is an Interior Gateway Protocol based on the link state developed by IETF. This document describes: l Enabling OSPF l Configuring OSPF Areas l Configuring OSPF Network Types l Configuring OSPF Route Control l Configuring OSPF Network Optimization l Configuring OSPF Graceful Restart |
IS-IS | Intermediate System-to-Intermediate System (IS-IS) is a link state protocol, which uses the shortest path first (SPF) algorithm. This document describes: l Configuring IS-IS Basic Functions l Configuring IS-IS Routing Information Control l Tuning and Optimizing IS-IS Networks l Configuring IS-IS Authentication l Configuring System ID to Host Name Mappings l Configuring IS-IS GR l Enabling the Logging of Neighbor State Changes l Enabling IS-IS SNMP Trap |
BGP | Border gateway protocol (BGP) is an inter-autonomous system (inter-AS) dynamic route discovery protocol. This document describes: l Configuring BGP Basic Functions l Controlling Route Generation l Controlling Route Distribution and Reception l Configuring BGP Route Attributes l Tuning and Optimizing BGP Networks l Configuring a Large Scale BGP Network l Configuring BGP GR l Enabling Trap l Enabling Logging of Peer State Changes |
IPv6 Static Routing | Static routes are special routes that are manually configured by network administrators. Similar to IPv4 static routes, IPv6 static routes work well in simple IPv6 network environments. This document describes: l IPv6 static route configuration |
IPv6 RIPng | RIP next generation (RIPng) is an extension of RIP-2 for IPv4. RIPng for IPv6 is IPv6 RIPng. This document describes: l Configuring RIPng Basic Functions l Configuring RIPng Route Control l Tuning and Optimizing the RIPng Network |
IPv6 OSPFv3 | OSPFv3 is OSPF version 3 for short, supporting IPv6 and compliant with RFC2740 (OSPF for IPv6). This document describes: l Enabling OSPFv3 l Configuring OSPFv3 Area Parameters l Configuring OSPFv3 Network Types l Configuring OSPFv3 Routing Information Control l Tuning and Optimizing OSPFv3 Networks |
IPv6 IS-IS | The IS-IS routing protocol supports multiple network protocols, including IPv6. IS-IS with IPv6 support is called IPv6 IS-IS dynamic routing protocol. This document describes: l Configuring IPv6 IS-IS Basic Functions l Configuring IPv6 IS-IS Routing Information Control |
IPv6 BGP | To support multiple network layer protocols, IETF extended BGP-4 by introducing IPv6 BGP. This document describes: l Configuring IPv6 BGP Basic Functions l Controlling Route Distribution and Reception l Configuring IPv6 BGP Route Attributes l Tuning and Optimizing IPv6 BGP Networks l Configuring a Large Scale IPv6 BGP Network |
Routing Policy | Routing policy is used on the router for route inspection, filtering, attributes modifying when routes are received, advertised, or redistributed. This document describes: l Defining Filters l Route policy configuration |
