Справочное Руководство для Netopia r3100-u
Understanding Frame Relay G-5
Note that the four routers above are connected in a par tial mesh, all on the same IP network (1.0.0.0/24).
Router 1 and router 2 cannot communicate directly, because there is no PVC between them. However, they can
communicate via router 3 or router 4. The same is true for router 3 and router 4, which can communicate via
router 1 or router 2.
Router 1 and router 2 cannot communicate directly, because there is no PVC between them. However, they can
communicate via router 3 or router 4. The same is true for router 3 and router 4, which can communicate via
router 1 or router 2.
Another common par tial mesh topology is the following “star” or “hub and spoke” configuration:
where there is connectivity among remote routers 2 through 6 and the networks behind them only via central
site router 1.
site router 1.
Split horizon is a technique to reduce the possibility of routing loops that can occur due to network topology
changes, such as when a router in the network fails.
changes, such as when a router in the network fails.
Split-horizon means that the router does not propagate routes back to the subnet from which they were
received. Poison-reverse means that it propagates routes back to the subnet from which they were received,
but with a metric of 16 (unreachable).
received. Poison-reverse means that it propagates routes back to the subnet from which they were received,
but with a metric of 16 (unreachable).
Poison Reverse speeds convergence but adds to network overhead. When topology changes, mentioning routes
that should not go through the router as well as those that should can speed up convergence.
that should not go through the router as well as those that should can speed up convergence.
If you select Split Horizon without Poison Reverse, the router omits routes learned from an inter face from RIP
updates sent on that inter face. Split Horizon without Poison Reverse has the advantage of minimizing network
overhead in large network configurations at the expense of slower convergence.
updates sent on that inter face. Split Horizon without Poison Reverse has the advantage of minimizing network
overhead in large network configurations at the expense of slower convergence.
For example, consider a campus backbone connecting many buildings, each of which has a router. With Split
Horizon without Poison Reverse, only the network that is connected to a router is included in the router's RIP
updates. With Split Horizon with Poison Reverse, all networks will be included.
Horizon without Poison Reverse, only the network that is connected to a router is included in the router's RIP
updates. With Split Horizon with Poison Reverse, all networks will be included.
A par tially meshed network is a WAN in which one or more nodes do not have logically direct connections to all
other nodes. In a star or par tially meshed Frame Relay topology, you may need to disable Split Horizon so the
routers can learn about other networks.
other nodes. In a star or par tially meshed Frame Relay topology, you may need to disable Split Horizon so the
routers can learn about other networks.
Choose No Split Horizon for par tial mesh frame relay networks where you have two or more PVCs that are
connected to devices with IP addresses on the same subnet and are not directly connected by their own PVC.
No Split Horizon is intended for use on any profile corresponding to a Frame Relay IP inter face/subnet that has
more than one DLCI that is not fully meshed. The effect is to suppress the normal Split Horizon behavior of RIP
on that IP inter face. This will ensure full connectivity on the par tial mesh.
connected to devices with IP addresses on the same subnet and are not directly connected by their own PVC.
No Split Horizon is intended for use on any profile corresponding to a Frame Relay IP inter face/subnet that has
more than one DLCI that is not fully meshed. The effect is to suppress the normal Split Horizon behavior of RIP
on that IP inter face. This will ensure full connectivity on the par tial mesh.
router 2
router 3
router 1
router 4
2.0.0.1
9.0.0.1
3.0.0.1
4.0.0.1
1.0.0.2
1.0.0.1
1.0.0.4
1.0.0.3
router 6
router 5
6.0.0.1
5.0.0.1
1.0.0.6
1.0.0.5