Руководство Разработчика для Cisco Cisco Prime Optical 10.6
Cisco Prime Optical 10.6 GateWay/CORBA Programmer Reference Guide
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2.1.12.4 CTPs
All CTPs are in channelized mode for the ONS 15600 SDH. Alarm monitoring cannot be turned on or off
for CTPs.
for CTPs.
2.1.12.5 SNCs
One ONS 15600 SDH NE supports a maximum of 1536 VC4 SNCs.
2.1.12.6 Protection
The ONS 15600 SDH supports 1+1 protection to create redundancy for optical ports. Protect ports must
match the working ports. For example, port 1 on an STM-16 card can be protected only by port 1 on
another STM-16 card.
match the working ports. For example, port 1 on an STM-16 card can be protected only by port 1 on
another STM-16 card.
2.1.12.7 Autodiscovery
The ONS 15600 SDH supports automatic discovery of connected elements. Prime Optical can connect to
one node and retrieve information about all connected nodes. The first time Prime Optical connects to a
node, it retrieves only the IP address of the connected node; Prime Optical does not retrieve the node
name. However, Prime Optical must report this element to the users. Because the IP address is unique,
Prime Optical initializes the name of the newly discovered element with the IP address. An object
creation event is generated for this managed element with the IP address as the name. Later, Prime
Optical connects to this element and retrieves all information, including the actual name, and an AVC
event is generated for the managed element name. The NMS listens to the AVC event for the managed
element name and invokes managedElementManager::ManagedElementManager_I::
getManagedElement.
one node and retrieve information about all connected nodes. The first time Prime Optical connects to a
node, it retrieves only the IP address of the connected node; Prime Optical does not retrieve the node
name. However, Prime Optical must report this element to the users. Because the IP address is unique,
Prime Optical initializes the name of the newly discovered element with the IP address. An object
creation event is generated for this managed element with the IP address as the name. Later, Prime
Optical connects to this element and retrieves all information, including the actual name, and an AVC
event is generated for the managed element name. The NMS listens to the AVC event for the managed
element name and invokes managedElementManager::ManagedElementManager_I::
getManagedElement.
2.1.13 Carrier Packet Transport 200/600 SONET/SDH
Prime Optical manages the following NE types for the CPT System:
• CPT 200
• CPT 200 SDH
• CPT 600
• CPT 600 SDH
• CPT 200 SDH
• CPT 600
• CPT 600 SDH
These NEs support a subset of the ONS15454 and ONS 15454 SDH features. The features are limited to
the card and port types listed in
the card and port types listed in
2.1.14 Unmanaged NEs
Unmanaged NEs are other vendor MEs in Prime Optical. There is no equipment for these NEs. Prime
Optical reports PTPs for unmanaged NEs only if a topological link originates from or terminates on the
unmanaged NE. There are no alarms reported for unmanaged NEs.
Optical reports PTPs for unmanaged NEs only if a topological link originates from or terminates on the
unmanaged NE. There are no alarms reported for unmanaged NEs.
2.2 Prime Optical-Specific Details
2.2.1 Layer Rate
The following table reports the layer rates supported by Prime Optical. The layer rates are used for
tasks such as link and circuit management, PM retrieval, port provisioning, and alarm handling. The
Comments column contains further details on usage. Layer rates numbered 0 to 91 are TMF-defined,
and layer rates numbered 92 and above are Prime Optical-defined.
Comments column contains further details on usage. Layer rates numbered 0 to 91 are TMF-defined,
and layer rates numbered 92 and above are Prime Optical-defined.
Table 2-16: Layer Rates Supported by Prime Optical 10.6
Layer
Type
Layer Rate
Value
Comments