Fast Convergence (Ospfv2, Ipv4 Only); Multi-Process Ospf (Ospfv2, Ipv4 Only); Processing Snmp And Sending Snmp Traps; Rfc-2328 Compliant Ospf Flooding - Dell Force10 MXL Blade Configuration Manual

• Opaque Link-local (type 9)

Fast Convergence (OSPFv2, IPv4 only)

Fast convergence allows you to define the speeds at which LSAs are originated and accepted, and reduce
OSPFv2 end-to-end convergence time. FTOS allows you to accept and originate LSAs as soon as they are
available to speed up route information propagation.
Note: The faster the convergence, the more frequent the route calculations and updates. This impacts CPU
utilization and may impact adjacency stability in larger topologies.

Multi-Process OSPF (OSPFv2, IPv4 only)

Multi-process OSPF is supported on OSPFv2 with IPv4 only.
Multi-process OSPF allows multiple OSPFv2 processes on a single router. Multiple OSPFv2 processes
allow for isolating routing domains, supporting multiple route policies and priorities in different domains,
and creating smaller domains for easier management.
• The MXL Switch supports up to 16 OSPFv2 processes.
Each OSPFv2 process has a unique process ID and must have an associated router ID. There must be an
equal number of interfaces in Layer-3 mode for the number of processes created. For example, if five
OSPFv2 processes are created on a system, there must be at least five interfaces assigned in Layer-3 mode.
Each OSPFv2 process is independent. If one process loses adjacency, the other processes continue to
function.

Processing SNMP and Sending SNMP Traps

Though there are may be several OSPFv2 processes, only one process can process SNMP requests and
send SNMP traps. The
mib-binding
responsible for SNMP management. If the
created manages the SNMP processes and traps.

RFC-2328 Compliant OSPF Flooding

In OSPF, flooding is the most resource-consuming task. The flooding algorithm described in RFC 2328
requires that OSPF flood LSAs on all interfaces, as governed by LSA's flooding scope. (Refer to Section
13 of the RFC.) When multiple direct links connect two routers, the RFC 2328 flooding algorithm
generates significant redundant information across all links.
By default, FTOS implements an enhanced flooding procedure which dynamically and intelligently detects
when to optimize flooding. Wherever possible, the OSPF task attempts to reduce flooding overhead by
selectively flooding on a subset of the interfaces between two routers.
command identifies one of the OSPVFv2 processes as the process
command is not specified, the first OSPFv2 process
mib-binding
Open Shortest Path First (OSPFv2) | 363