priority 1
wait-to-restore 0
ssm disable
quality receive exact itu-t option 2 generation 2 PRS
!
!
Configuring Clock Interface in Downstream Device (ASR 9000):
clock-interface sync 0 location 0/RSP0/CPU0
port-parameters
bits-output e1 crc-4 sa4 hdb3
!
frequency synchronization
wait-to-restore 0
ssm disable
!
!
Configuring Frequency Synchronization in ICLs
SyncE is configured at the physical interface level for both physical and bundle ICLs.
Host A Configuration:
interface TenGigE0/0/0/0
bundle id 100 mode on
frequency synchronization
wait-to-restore 0
quality transmit exact itu-t option 2 generation 2 PRS
!
!
Host B Configuration:
interface TenGigE0/0/0/0
ipv4 point-to-point
ipv4 unnumbered Loopback100
frequency synchronization
wait-to-restore 0
quality transmit exact itu-t option 2 generation 2 STU
!
nv
satellite-fabric-link satellite 100
redundancy
iccp-group 1
!
remote-ports GigabitEthernet 0/0/0-20
!
!
!
Configuring SyncE on the interface connected to Sat-Ether ports in downstream device (ASR 9000):
interface GigabitEthernet0/0/0/0
frequency synchronization
selection input
wait-to-restore 0
!
!
Upgrading and Managing Satellite nV Software
Satellite software images are bundled inside a PIE and the PIE name is dependent on the type of satellite, such
as asr9k-9000v-nV-px.pie, asr9k-asr901-nV-px.pie, asr9k-asr903-nV-px.pie within the Cisco ASR 9000
Series Router package. The Cisco IOS XR software production SMU tool can be used to generate patches for
the satellite image in the field to deliver bug fixes or minor enhancements without requiring a formal software
upgrade.
Cisco ASR 9000 Series Aggregation Services Router nV System Configuration Guide, Release 5.3.x
52
Configuring the Satellite Network Virtualization (nV) System
Upgrading and Managing Satellite nV Software
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