Route Processor Redundancy (RPR) allows you to configure a standby RP. When you configure RPR, the standby RP loads the Cisco
IOS software on bootup and initializes itself in standby mode. In the event of a fatal error on the active RP, the system
switches to the standby RP, which reinitializes itself as the active RP. In this event, the entire system is rebooted, so
the switchover with RPR is slower than with other High Availability switchover features such as Nonstop Forwarding/Stateful
Switchover (NSF/SSO).
On the Cisco ASR 1000 Series Router, RPR can also be used to enable a second IOS process on a single RP for a Cisco ASR1002-X,
ASR1002-HX or Cisco 1004 Router. See the Second IOS Process on a Cisco ASR 1002-X, Cisco ASR 1002-HX or Cisco 1004 Router for additional information on the second IOS process.
For the Cisco ASR 1000 Series Routers, RPR introduces the following functionality:
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Startup configuration synchronization between the active and standby RP or IOS process. It is important to note, however,
that changes in the running configuration are not synchronized using RPR.
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Warm Reload—The Warm Reload feature allows users to reload their routers without reading images from storage; that is, the
router reboots by restoring the read-write data from a previously saved copy in the RAM and by starting execution without
either copying the software from flash to RAM or self-decompression of the image.
It is important to note that in most cases, Stateful Switchover (SSO) requires less downtime for switchover and upgrades than
RPR. RPR should only be used when there is a compelling reason to not use SSO.
It is important to note RPR is supported on the Cisco ASR 1000 Series Routers while RPR+ is not.