Ip-Encapsulated Tunnels; Multiple Destinations For Unidirectional Circuits; Sncp Circuits - Cisco ONS 15600 Reference Manual

7.4.2 IP-Encapsulated Tunnels

7.4.2 IP-Encapsulated Tunnels
An IP-encapsulated tunnel puts an RS-DCC in an IP packet at a source node and dynamically routes the
packet to a destination node. To compare traditional DCC tunnels with IP-encapsulated tunnels, a
traditional DCC tunnel is configured as one dedicated path across a network and does not provide a
failure recovery mechanism if the path is down. An IP-encapsulated tunnel is a virtual path, which adds
protection when traffic travels between different networks.
IP-encapsulated tunneling has the potential of flooding the DCC network with traffic resulting in a
degradation of performance for CTC. The data originating from an IP tunnel can be throttled to a
user-specified rate, which is a percentage of the total RS-DCC bandwidth.
Each ONS 15600 SDH supports up to 128 IP-encapsulated tunnels. You can convert a traditional DCC
tunnel to an IP-encapsulated tunnel or an IP-encapsulated tunnel to a traditional DCC tunnel. Only
tunnels in the DISCOVERED status can be converted.
Converting from one tunnel type to the other is service-affecting.
Caution

7.5 Multiple Destinations for Unidirectional Circuits

Unidirectional circuits can have multiple destinations (drops) for use in broadcast circuit schemes. In
broadcast scenarios, one source transmits traffic to multiple destinations, but traffic is not returned to the
source. The ONS 15600 SDH supports one of the following:
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When you create a unidirectional circuit, the card that does not have its backplane receive (Rx) input
terminated with a valid input signal generates a Loss of Signal (LOS) alarm. To mask the alarm, create
an alarm profile suppressing the LOS alarm and apply the profile to the port that does not have its Rx
input terminated. To create an alarm profile, refer to the "Manage Alarms" chapter in the
Cisco ONS 15600 SDH Procedure Guide.

7.6 SNCP Circuits

Use the Edit Circuit window to change SNCP selectors and switch protection paths
SNCP Selectors subtab in the Edit Circuits window, you can:
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In the SNCP Selectors tab, the SF Ber Level and SD Ber Level columns display "N/A" for those nodes
Note
that do not support low-order path signal bit error rate (BER) monitoring.
From the SNCP Switch Counts subtab, you can:
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Cisco ONS 15600 SDH Reference Manual, Release 9.0
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Up to 2048 1:2 nonblocking broadcast connections
Up to 682 1:n nonblocking broadcast connections (where n is less than or equal to 8)
View the SNCP circuit's working and protection paths.
Edit the reversion time.
Set the hold-off timer.
Edit the Signal Fail (SF) and Signal Degrade (SD) thresholds.
Perform maintenance switches on the circuit selector.
Chapter 7 Circuits and Tunnels
(Figure 7-3). In the
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