Provisioning Transponding and Muxponding Cross-Connects
Supported Cross-Connects
Cross-connects can be created between interfaces within the same UFM. Cross-connects cannot be created across UFMs. Depending on what you are cross-connecting, you can be regenerating, transponding, or muxponding.
Table 1 lists the cross-connects that are supported. The A and B designations in the table are used only to distinguish between the two cross-connect endpoints. They are assigned arbitrarily and are interchangeable.
Not all interfaces are supported on all transceivers. To see which transceivers support which interfaces, see UFM Interfaces.
The UFM6 is supported starting with release 4.1.
When cross-connecting two 10-Gbps interfaces on a UFM3 equipped with 12x SFP+ BICs, both interfaces must reside on the same BIC.
Table 1: UFM Cross-Connects
Description | Supported UFMs | Interface A | Interface B | Rate | Introduced in Release |
---|---|---|---|---|---|
Regenerating | |||||
10GbE to/from 10GbE | UFM3 UFM4 | 10ge on an SFP+ transceiver | 10ge on an SFP+ transceiver | 10GbE | Before 2.1.1 |
SONET/SDH (OC-192/STM-64/ 10GbE WAN PHY) to/from SONET/SDH (OC-192/STM-64/ 10GbE WAN PHY) | UFM3 UFM4 | oc192/stm64/wanoc192/wanstm64 on an SFP+ transceiver | oc192/stm64/wanoc192/wanstm64 on an SFP+ transceiver | OC-192 or STM-64 | Before 2.1.1 |
OTU2 to/from OTU2 | UFM3 UFM4 | odu2 on an SFP+ transceiver | odu2 on an SFP+ transceiver | ODU2 | Before 2.1.1 |
OTU2e to/from OTU2e | UFM3 | odu2e on an SFP+ transceiver | odu2e on an SFP+ transceiver | ODU2e | 4.1 |
100GbE to/from 100GbE | UFM3 | 100ge on a CFP transceiver | 100ge on a CFP transceiver | 100GbE | 4.2 |
OTU4 to/from OTU4 | UFM3 UFM4 | odu4 on a CFP or on the integrated transceiver | odu4 on a CFP or on the integrated transceiver | ODU4 | Before 2.1.1 |
UFM61 | odu4 on a QSFP28 transceiver | odu4 on the integrated transceiver | ODU4 | 4.3 | |
Transponding | |||||
10GbE to/from OTU2 | UFM3 UFM4 | 10ge on an SFP+ transceiver | odu2 on an SFP+ transceiver | ODU2 | Before 2.1.1 |
10GbE to/from OTU2e | UFM3 | 10ge on an SFP+ transceiver | odu2e on an SFP+ transceiver | ODU2e | 4.5 |
SONET/SDH (OC-192/STM-64/ 10GbE WAN PHY) to/from OTU2 | UFM3 UFM4 | oc192/stm64/wanoc192/wanstm64 on an SFP+ transceiver | odu2 on an SFP+ transceiver | ODU2 | Before 2.1.1 |
100GbE to/from OTU4 | UFM3 UFM4 | 100ge on a CFP transceiver | odu4 on a CFP or on the integrated transceiver | ODU4 | Before 2.1.1 |
UFM61 | 100ge on a QSFP28 transceiver | odu4 on the integrated transceiver | ODU4 | 4.1 | |
Muxponding | |||||
10GbE to/from OTU4 | UFM3 UFM4 | 10ge on an SFP+ transceiver | odu2 within an odu4 on a CFP or on the integrated transceiver | ODU2 | Before 2.1.1 |
UFM3 | 10ge on an SFP+ transceiver | odu2e within an odu4 on a CFP | ODU2e | 4.5 | |
UFM61 | 10ge on a QSFP+ transceiver | odu2e within an odu4 on the integrated transceiver | ODU2e | 4.1 | |
OTU2 to/from OTU4 | UFM3 UFM4 | odu2 on an SFP+ transceiver | odu2 within an odu4 on a CFP or on the integrated transceiver | ODU2 | Before 2.1.1 |
UFM61 | odu2 on a QSFP+ transceiver | odu2 within an odu4 on the integrated transceiver | ODU2 | 4.2 | |
OTU2e to/from OTU4 | UFM3 | odu2e on an SFP+ transceiver | odu2e within an odu4 on a CFP or on the integrated transceiver | ODU2e | 4.1 |
UFM61 | odu2e on a QSFP+ transceiver | odu2e within an odu4 on the integrated transceiver | ODU2e | 4.2 | |
SONET/SDH (OC-192/STM-64) to/from OTU4 | UFM3 UFM4 | oc192/stm64 on an SFP+ transceiver | odu2 within an odu4 on a CFP or on the integrated transceiver | ODU2 | Before 2.1.1 |
UFM61 | oc192/stm64 on a QSFP+ transceiver | odu2 within an odu4 on the integrated transceiver | ODU2 | 4.2 | |
SONET/SDH (10GbE WAN PHY) to/from OTU4 | UFM3 UFM4 | wanoc192/wanstm64 on an SFP+ transceiver | odu2 within an odu4 on a CFP or on the integrated transceiver | ODU2 | Before 2.1.1 |
Fibre Channel to/from OTU4 | UFM61 | 8gfc on a QSFP+ transceiver | odu2 within an odu4 on the integrated transceiver | ODU2 | 4.3 |
10gfc on a QSFP+ transceiver | odu2e within an odu4 on the integrated transceiver | ODU2e | 4.3 | ||
40GbE to/from OTU4 | UFM61 | 40ge on a QSFP+ 40GE transceiver | odu3 within an odu4 on the integrated transceiver | ODU3 | 4.4 |
1 UFM6 modules have fixed cross-connect mappings. See Table 2. |
Table 2: UFM6 Fixed Cross-Connect Mappings
Description | Client Interface | Line Interface | Introduced in Release |
---|---|---|---|
100GbE to/from OTU4 | 100ge:chassis/slot/1/1 | odu4:chassis/slot/2/1/1.1.1 | 4.1 |
100ge:chassis/slot/1/2 | odu4:chassis/slot/2/1/1.1.2 | 4.1 | |
100ge:chassis/slot/1/6 | odu4:chassis/slot/2/1/2.1.1 | 4.1 | |
100ge:chassis/slot/1/7 | odu4:chassis/slot/2/1/2.1.2 | 4.1 | |
OTU4 to/from OTU4 | odu4:chassis/slot/1/1 | odu4:chassis/slot/2/1/1.1.1 | 4.3 |
odu4:chassis/slot/1/2 | odu4:chassis/slot/2/1/1.1.2 | 4.3 | |
odu4:chassis/slot/1/6 | odu4:chassis/slot/2/1/2.1.1 | 4.3 | |
odu4:chassis/slot/1/7 | odu4:chassis/slot/2/1/2.1.2 | 4.3 | |
10GbE/SONET/SDH/OTU2 to/from subinterface within OTU4 | 10ge:chassis/slot/1/1/1 oc192:chassis/slot/1/1/1 stm64:chassis/slot/1/1/1 odu2:chassis/slot/1/1/1 odu2e:chassis/slot/1/1/1 8gfc:chassis/slot/1/1/1 10gfc:chassis/slot/1/1/1 | odu2e:chassis/slot/2/1/1.1.1.1 odu2:chassis/slot/2/1/1.1.1.1 odu2:chassis/slot/2/1/1.1.1.1 odu2:chassis/slot/2/1/1.1.1.1 odu2e:chassis/slot/2/1/1.1.1.1 odu2:chassis/slot/2/1/1.1.1.1 odu2e:chassis/slot/2/1/1.1.1.1 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 |
10ge:chassis/slot/1/1/2 oc192:chassis/slot/1/1/2 stm64:chassis/slot/1/1/2 odu2:chassis/slot/1/1/2 odu2e:chassis/slot/1/1/2 8gfc:chassis/slot/1/1/2 10gfc:chassis/slot/1/1/2 | odu2e:chassis/slot/2/1/1.1.1.2 odu2:chassis/slot/2/1/1.1.1.2 odu2:chassis/slot/2/1/1.1.1.2 odu2:chassis/slot/2/1/1.1.1.2 odu2e:chassis/slot/2/1/1.1.1.2 odu2:chassis/slot/2/1/1.1.1.2 odu2e:chassis/slot/2/1/1.1.1.2 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/1/3 oc192:chassis/slot/1/1/3 stm64:chassis/slot/1/1/3 odu2:chassis/slot/1/1/3 odu2e:chassis/slot/1/1/3 8gfc:chassis/slot/1/1/3 10gfc:chassis/slot/1/1/3 | odu2e:chassis/slot/2/1/1.1.1.3 odu2:chassis/slot/2/1/1.1.1.3 odu2:chassis/slot/2/1/1.1.1.3 odu2:chassis/slot/2/1/1.1.1.3 odu2e:chassis/slot/2/1/1.1.1.3 odu2:chassis/slot/2/1/1.1.1.3 odu2e:chassis/slot/2/1/1.1.1.3 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/1/4 oc192:chassis/slot/1/1/4 stm64:chassis/slot/1/1/4 odu2:chassis/slot/1/1/4 odu2e:chassis/slot/1/1/4 8gfc:chassis/slot/1/1/4 10gfc:chassis/slot/1/1/4 | odu2e:chassis/slot/2/1/1.1.1.4 odu2:chassis/slot/2/1/1.1.1.4 odu2:chassis/slot/2/1/1.1.1.4 odu2:chassis/slot/2/1/1.1.1.4 odu2e:chassis/slot/2/1/1.1.1.4 odu2:chassis/slot/2/1/1.1.1.4 odu2e:chassis/slot/2/1/1.1.1.4 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/2/1 oc192:chassis/slot/1/2/1 stm64:chassis/slot/1/2/1 odu2:chassis/slot/1/2/1 odu2e:chassis/slot/1/2/1 8gfc:chassis/slot/1/2/1 10gfc:chassis/slot/1/2/1 | odu2e:chassis/slot/2/1/1.1.1.5 odu2:chassis/slot/2/1/1.1.1.5 odu2:chassis/slot/2/1/1.1.1.5 odu2:chassis/slot/2/1/1.1.1.5 odu2e:chassis/slot/2/1/1.1.1.5 odu2:chassis/slot/2/1/1.1.1.5 odu2e:chassis/slot/2/1/1.1.1.5 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/2/2 oc192:chassis/slot/1/2/2 stm64:chassis/slot/1/2/2 odu2:chassis/slot/1/2/2 odu2e:chassis/slot/1/2/2 8gfc:chassis/slot/1/2/2 10gfc:chassis/slot/1/2/2 | odu2e:chassis/slot/2/1/1.1.1.6 odu2:chassis/slot/2/1/1.1.1.6 odu2:chassis/slot/2/1/1.1.1.6 odu2:chassis/slot/2/1/1.1.1.6 odu2e:chassis/slot/2/1/1.1.1.6 odu2:chassis/slot/2/1/1.1.1.6 odu2e:chassis/slot/2/1/1.1.1.6 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/2/3 oc192:chassis/slot/1/2/3 stm64:chassis/slot/1/2/3 odu2:chassis/slot/1/2/3 odu2e:chassis/slot/1/2/3 8gfc:chassis/slot/1/2/3 10gfc:chassis/slot/1/2/3 | odu2e:chassis/slot/2/1/1.1.1.7 odu2:chassis/slot/2/1/1.1.1.7 odu2:chassis/slot/2/1/1.1.1.7 odu2:chassis/slot/2/1/1.1.1.7 odu2e:chassis/slot/2/1/1.1.1.7 odu2:chassis/slot/2/1/1.1.1.7 odu2e:chassis/slot/2/1/1.1.1.7 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/2/4 oc192:chassis/slot/1/2/4 stm64:chassis/slot/1/2/4 odu2:chassis/slot/1/2/4 odu2e:chassis/slot/1/2/4 8gfc:chassis/slot/1/2/4 10gfc:chassis/slot/1/2/4 | odu2e:chassis/slot/2/1/1.1.1.8 odu2:chassis/slot/2/1/1.1.1.8 odu2:chassis/slot/2/1/1.1.1.8 odu2:chassis/slot/2/1/1.1.1.8 odu2e:chassis/slot/2/1/1.1.1.8 odu2:chassis/slot/2/1/1.1.1.8 odu2e:chassis/slot/2/1/1.1.1.8 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/3/1 oc192:chassis/slot/1/3/1 stm64:chassis/slot/1/3/1 odu2:chassis/slot/1/3/1 odu2e:chassis/slot/1/3/1 8gfc:chassis/slot/1/3/1 10gfc:chassis/slot/1/3/1 | odu2e:chassis/slot/2/1/1.1.1.9 odu2:chassis/slot/2/1/1.1.1.9 odu2:chassis/slot/2/1/1.1.1.9 odu2:chassis/slot/2/1/1.1.1.9 odu2e:chassis/slot/2/1/1.1.1.9 odu2:chassis/slot/2/1/1.1.1.9 odu2e:chassis/slot/2/1/1.1.1.9 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/3/2 oc192:chassis/slot/1/3/2 stm64:chassis/slot/1/3/2 odu2:chassis/slot/1/3/2 odu2e:chassis/slot/1/3/2 8gfc:chassis/slot/1/3/2 10gfc:chassis/slot/1/3/2 | odu2e:chassis/slot/2/1/1.1.1.10 odu2:chassis/slot/2/1/1.1.1.10 odu2:chassis/slot/2/1/1.1.1.10 odu2:chassis/slot/2/1/1.1.1.10 odu2e:chassis/slot/2/1/1.1.1.10 odu2:chassis/slot/2/1/1.1.1.10 odu2e:chassis/slot/2/1/1.1.1.10 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/3/3 oc192:chassis/slot/1/3/3 stm64:chassis/slot/1/3/3 odu2:chassis/slot/1/3/3 odu2e:chassis/slot/1/3/3 8gfc:chassis/slot/1/3/3 10gfc:chassis/slot/1/3/3 | odu2e:chassis/slot/2/1/1.1.2.1 odu2:chassis/slot/2/1/1.1.2.1 odu2:chassis/slot/2/1/1.1.2.1 odu2:chassis/slot/2/1/1.1.2.1 odu2e:chassis/slot/2/1/1.1.2.1 odu2:chassis/slot/2/1/1.1.2.1 odu2e:chassis/slot/2/1/1.1.2.1 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/3/4 oc192:chassis/slot/1/3/4 stm64:chassis/slot/1/3/4 odu2:chassis/slot/1/3/4 odu2e:chassis/slot/1/3/4 8gfc:chassis/slot/1/3/4 10gfc:chassis/slot/1/3/4 | odu2e:chassis/slot/2/1/1.1.2.2 odu2:chassis/slot/2/1/1.1.2.2 odu2:chassis/slot/2/1/1.1.2.2 odu2:chassis/slot/2/1/1.1.2.2 odu2e:chassis/slot/2/1/1.1.2.2 odu2:chassis/slot/2/1/1.1.2.2 odu2e:chassis/slot/2/1/1.1.2.2 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/4/1 oc192:chassis/slot/1/4/1 stm64:chassis/slot/1/4/1 odu2:chassis/slot/1/4/1 odu2e:chassis/slot/1/4/1 8gfc:chassis/slot/1/4/1 10gfc:chassis/slot/1/4/1 | odu2e:chassis/slot/2/1/1.1.2.3 odu2:chassis/slot/2/1/1.1.2.3 odu2:chassis/slot/2/1/1.1.2.3 odu2:chassis/slot/2/1/1.1.2.3 odu2e:chassis/slot/2/1/1.1.2.3 odu2:chassis/slot/2/1/1.1.2.3 odu2e:chassis/slot/2/1/1.1.2.3 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/4/2 oc192:chassis/slot/1/4/2 stm64:chassis/slot/1/4/2 odu2:chassis/slot/1/4/2 odu2e:chassis/slot/1/4/2 8gfc:chassis/slot/1/4/2 10gfc:chassis/slot/1/4/2 | odu2e:chassis/slot/2/1/1.1.2.4 odu2:chassis/slot/2/1/1.1.2.4 odu2:chassis/slot/2/1/1.1.2.4 odu2:chassis/slot/2/1/1.1.2.4 odu2e:chassis/slot/2/1/1.1.2.4 odu2:chassis/slot/2/1/1.1.2.4 odu2e:chassis/slot/2/1/1.1.2.4 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/4/3 oc192:chassis/slot/1/4/3 stm64:chassis/slot/1/4/3 odu2:chassis/slot/1/4/3 odu2e:chassis/slot/1/4/3 8gfc:chassis/slot/1/4/3 10gfc:chassis/slot/1/4/3 | odu2e:chassis/slot/2/1/1.1.2.5 odu2:chassis/slot/2/1/1.1.2.5 odu2:chassis/slot/2/1/1.1.2.5 odu2:chassis/slot/2/1/1.1.2.5 odu2e:chassis/slot/2/1/1.1.2.5 odu2:chassis/slot/2/1/1.1.2.5 odu2e:chassis/slot/2/1/1.1.2.5 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/4/4 oc192:chassis/slot/1/4/4 stm64:chassis/slot/1/4/4 odu2:chassis/slot/1/4/4 odu2e:chassis/slot/1/4/4 8gfc:chassis/slot/1/4/4 10gfc:chassis/slot/1/4/4 | odu2e:chassis/slot/2/1/1.1.2.6 odu2:chassis/slot/2/1/1.1.2.6 odu2:chassis/slot/2/1/1.1.2.6 odu2:chassis/slot/2/1/1.1.2.6 odu2e:chassis/slot/2/1/1.1.2.6 odu2:chassis/slot/2/1/1.1.2.6 odu2e:chassis/slot/2/1/1.1.2.6 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/5/1 oc192:chassis/slot/1/5/1 stm64:chassis/slot/1/5/1 odu2:chassis/slot/1/5/1 odu2e:chassis/slot/1/5/1 8gfc:chassis/slot/1/5/1 10gfc:chassis/slot/1/5/1 | odu2e:chassis/slot/2/1/1.1.2.7 odu2:chassis/slot/2/1/1.1.2.7 odu2:chassis/slot/2/1/1.1.2.7 odu2:chassis/slot/2/1/1.1.2.7 odu2e:chassis/slot/2/1/1.1.2.7 odu2:chassis/slot/2/1/1.1.2.7 odu2e:chassis/slot/2/1/1.1.2.7 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/5/2 oc192:chassis/slot/1/5/2 stm64:chassis/slot/1/5/2 odu2:chassis/slot/1/5/2 odu2e:chassis/slot/1/5/2 8gfc:chassis/slot/1/5/2 10gfc:chassis/slot/1/5/2 | odu2e:chassis/slot/2/1/1.1.2.8 odu2:chassis/slot/2/1/1.1.2.8 odu2:chassis/slot/2/1/1.1.2.8 odu2:chassis/slot/2/1/1.1.2.8 odu2e:chassis/slot/2/1/1.1.2.8 odu2:chassis/slot/2/1/1.1.2.8 odu2e:chassis/slot/2/1/1.1.2.8 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/5/3 oc192:chassis/slot/1/5/3 stm64:chassis/slot/1/5/3 odu2:chassis/slot/1/5/3 odu2e:chassis/slot/1/5/3 8gfc:chassis/slot/1/5/3 10gfc:chassis/slot/1/5/3 | odu2e:chassis/slot/2/1/1.1.2.9 odu2:chassis/slot/2/1/1.1.2.9 odu2:chassis/slot/2/1/1.1.2.9 odu2:chassis/slot/2/1/1.1.2.9 odu2e:chassis/slot/2/1/1.1.2.9 odu2:chassis/slot/2/1/1.1.2.9 odu2e:chassis/slot/2/1/1.1.2.9 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/5/4 oc192:chassis/slot/1/5/4 stm64:chassis/slot/1/5/4 odu2:chassis/slot/1/5/4 odu2e:chassis/slot/1/5/4 8gfc:chassis/slot/1/5/4 10gfc:chassis/slot/1/5/4 | odu2e:chassis/slot/2/1/1.1.2.10 odu2:chassis/slot/2/1/1.1.2.10 odu2:chassis/slot/2/1/1.1.2.10 odu2:chassis/slot/2/1/1.1.2.10 odu2e:chassis/slot/2/1/1.1.2.10 odu2:chassis/slot/2/1/1.1.2.10 odu2e:chassis/slot/2/1/1.1.2.10 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/6/1 oc192:chassis/slot/1/6/1 stm64:chassis/slot/1/6/1 odu2:chassis/slot/1/6/1 odu2e:chassis/slot/1/6/1 8gfc:chassis/slot/1/6/1 10gfc:chassis/slot/1/6/1 | odu2e:chassis/slot/2/1/2.1.1.1 odu2:chassis/slot/2/1/2.1.1.1 odu2:chassis/slot/2/1/2.1.1.1 odu2:chassis/slot/2/1/2.1.1.1 odu2e:chassis/slot/2/1/2.1.1.1 odu2:chassis/slot/2/1/2.1.1.1 odu2e:chassis/slot/2/1/2.1.1.1 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/6/2 oc192:chassis/slot/1/6/2 stm64:chassis/slot/1/6/2 odu2:chassis/slot/1/6/2 odu2e:chassis/slot/1/6/2 8gfc:chassis/slot/1/6/2 10gfc:chassis/slot/1/6/2 | odu2e:chassis/slot/2/1/2.1.1.2 odu2:chassis/slot/2/1/2.1.1.2 odu2:chassis/slot/2/1/2.1.1.2 odu2:chassis/slot/2/1/2.1.1.2 odu2e:chassis/slot/2/1/2.1.1.2 odu2:chassis/slot/2/1/2.1.1.2 odu2e:chassis/slot/2/1/2.1.1.2 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/6/3 oc192:chassis/slot/1/6/3 stm64:chassis/slot/1/6/3 odu2:chassis/slot/1/6/3 odu2e:chassis/slot/1/6/3 8gfc:chassis/slot/1/6/3 10gfc:chassis/slot/1/6/3 | odu2e:chassis/slot/2/1/2.1.1.3 odu2:chassis/slot/2/1/2.1.1.3 odu2:chassis/slot/2/1/2.1.1.3 odu2:chassis/slot/2/1/2.1.1.3 odu2e:chassis/slot/2/1/2.1.1.3 odu2:chassis/slot/2/1/2.1.1.3 odu2e:chassis/slot/2/1/2.1.1.3 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/6/4 oc192:chassis/slot/1/6/4 stm64:chassis/slot/1/6/4 odu2:chassis/slot/1/6/4 odu2e:chassis/slot/1/6/4 8gfc:chassis/slot/1/6/4 10gfc:chassis/slot/1/6/4 | odu2e:chassis/slot/2/1/2.1.1.4 odu2:chassis/slot/2/1/2.1.1.4 odu2:chassis/slot/2/1/2.1.1.4 odu2:chassis/slot/2/1/2.1.1.4 odu2e:chassis/slot/2/1/2.1.1.4 odu2:chassis/slot/2/1/2.1.1.4 odu2e:chassis/slot/2/1/2.1.1.4 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/7/1 oc192:chassis/slot/1/7/1 stm64:chassis/slot/1/7/1 odu2:chassis/slot/1/7/1 odu2e:chassis/slot/1/7/1 8gfc:chassis/slot/1/7/1 10gfc:chassis/slot/1/7/1 | odu2e:chassis/slot/2/1/2.1.1.5 odu2:chassis/slot/2/1/2.1.1.5 odu2:chassis/slot/2/1/2.1.1.5 odu2:chassis/slot/2/1/2.1.1.5 odu2e:chassis/slot/2/1/2.1.1.5 odu2:chassis/slot/2/1/2.1.1.5 odu2e:chassis/slot/2/1/2.1.1.5 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/7/2 oc192:chassis/slot/1/7/2 stm64:chassis/slot/1/7/2 odu2:chassis/slot/1/7/2 odu2e:chassis/slot/1/7/2 8gfc:chassis/slot/1/7/2 10gfc:chassis/slot/1/7/2 | odu2e:chassis/slot/2/1/2.1.1.6 odu2:chassis/slot/2/1/2.1.1.6 odu2:chassis/slot/2/1/2.1.1.6 odu2:chassis/slot/2/1/2.1.1.6 odu2e:chassis/slot/2/1/2.1.1.6 odu2:chassis/slot/2/1/2.1.1.6 odu2e:chassis/slot/2/1/2.1.1.6 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/7/3 oc192:chassis/slot/1/7/3 stm64:chassis/slot/1/7/3 odu2:chassis/slot/1/7/3 odu2e:chassis/slot/1/7/3 8gfc:chassis/slot/1/7/3 10gfc:chassis/slot/1/7/3 | odu2e:chassis/slot/2/1/2.1.1.7 odu2:chassis/slot/2/1/2.1.1.7 odu2:chassis/slot/2/1/2.1.1.7 odu2:chassis/slot/2/1/2.1.1.7 odu2e:chassis/slot/2/1/2.1.1.7 odu2:chassis/slot/2/1/2.1.1.7 odu2e:chassis/slot/2/1/2.1.1.7 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/7/4 oc192:chassis/slot/1/7/4 stm64:chassis/slot/1/7/4 odu2:chassis/slot/1/7/4 odu2e:chassis/slot/1/7/4 8gfc:chassis/slot/1/7/4 10gfc:chassis/slot/1/7/4 | odu2e:chassis/slot/2/1/2.1.1.8 odu2:chassis/slot/2/1/2.1.1.8 odu2:chassis/slot/2/1/2.1.1.8 odu2:chassis/slot/2/1/2.1.1.8 odu2e:chassis/slot/2/1/2.1.1.8 odu2:chassis/slot/2/1/2.1.1.8 odu2e:chassis/slot/2/1/2.1.1.8 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/8/1 oc192:chassis/slot/1/8/1 stm64:chassis/slot/1/8/1 odu2:chassis/slot/1/8/1 odu2e:chassis/slot/1/8/1 8gfc:chassis/slot/1/8/1 10gfc:chassis/slot/1/8/1 | odu2e:chassis/slot/2/1/2.1.1.9 odu2:chassis/slot/2/1/2.1.1.9 odu2:chassis/slot/2/1/2.1.1.9 odu2:chassis/slot/2/1/2.1.1.9 odu2e:chassis/slot/2/1/2.1.1.9 odu2:chassis/slot/2/1/2.1.1.9 odu2e:chassis/slot/2/1/2.1.1.9 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/8/2 oc192:chassis/slot/1/8/2 stm64:chassis/slot/1/8/2 odu2:chassis/slot/1/8/2 odu2e:chassis/slot/1/8/2 8gfc:chassis/slot/1/8/2 10gfc:chassis/slot/1/8/2 | odu2e:chassis/slot/2/1/2.1.1.10 odu2:chassis/slot/2/1/2.1.1.10 odu2:chassis/slot/2/1/2.1.1.10 odu2:chassis/slot/2/1/2.1.1.10 odu2e:chassis/slot/2/1/2.1.1.10 odu2:chassis/slot/2/1/2.1.1.10 odu2e:chassis/slot/2/1/2.1.1.10 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/8/3 oc192:chassis/slot/1/8/3 stm64:chassis/slot/1/8/3 odu2:chassis/slot/1/8/3 odu2e:chassis/slot/1/8/3 8gfc:chassis/slot/1/8/3 10gfc:chassis/slot/1/8/3 | odu2e:chassis/slot/2/1/2.1.2.1 odu2:chassis/slot/2/1/2.1.2.1 odu2:chassis/slot/2/1/2.1.2.1 odu2:chassis/slot/2/1/2.1.2.1 odu2e:chassis/slot/2/1/2.1.2.1 odu2:chassis/slot/2/1/2.1.2.1 odu2e:chassis/slot/2/1/2.1.2.1 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/8/4 oc192:chassis/slot/1/8/4 stm64:chassis/slot/1/8/4 odu2:chassis/slot/1/8/4 odu2e:chassis/slot/1/8/4 8gfc:chassis/slot/1/8/4 10gfc:chassis/slot/1/8/4 | odu2e:chassis/slot/2/1/2.1.2.2 odu2:chassis/slot/2/1/2.1.2.2 odu2:chassis/slot/2/1/2.1.2.2 odu2:chassis/slot/2/1/2.1.2.2 odu2e:chassis/slot/2/1/2.1.2.2 odu2:chassis/slot/2/1/2.1.2.2 odu2e:chassis/slot/2/1/2.1.2.2 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/9/1 oc192:chassis/slot/1/9/1 stm64:chassis/slot/1/9/1 odu2:chassis/slot/1/9/1 odu2e:chassis/slot/1/9/1 8gfc:chassis/slot/1/9/1 10gfc:chassis/slot/1/9/1 | odu2e:chassis/slot/2/1/2.1.2.3 odu2:chassis/slot/2/1/2.1.2.3 odu2:chassis/slot/2/1/2.1.2.3 odu2:chassis/slot/2/1/2.1.2.3 odu2e:chassis/slot/2/1/2.1.2.3 odu2:chassis/slot/2/1/2.1.2.3 odu2e:chassis/slot/2/1/2.1.2.3 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/9/2 oc192:chassis/slot/1/9/2 stm64:chassis/slot/1/9/2 odu2:chassis/slot/1/9/2 odu2e:chassis/slot/1/9/2 8gfc:chassis/slot/1/9/2 10gfc:chassis/slot/1/9/2 | odu2e:chassis/slot/2/1/2.1.2.4 odu2:chassis/slot/2/1/2.1.2.4 odu2:chassis/slot/2/1/2.1.2.4 odu2:chassis/slot/2/1/2.1.2.4 odu2e:chassis/slot/2/1/2.1.2.4 odu2:chassis/slot/2/1/2.1.2.4 odu2e:chassis/slot/2/1/2.1.2.4 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/9/3 oc192:chassis/slot/1/9/3 stm64:chassis/slot/1/9/3 odu2:chassis/slot/1/9/3 odu2e:chassis/slot/1/9/3 8gfc:chassis/slot/1/9/3 10gfc:chassis/slot/1/9/3 | odu2e:chassis/slot/2/1/2.1.2.5 odu2:chassis/slot/2/1/2.1.2.5 odu2:chassis/slot/2/1/2.1.2.5 odu2:chassis/slot/2/1/2.1.2.5 odu2e:chassis/slot/2/1/2.1.2.5 odu2:chassis/slot/2/1/2.1.2.5 odu2e:chassis/slot/2/1/2.1.2.5 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/9/4 oc192:chassis/slot/1/9/4 stm64:chassis/slot/1/9/4 odu2:chassis/slot/1/9/4 odu2e:chassis/slot/1/9/4 8gfc:chassis/slot/1/9/4 10gfc:chassis/slot/1/9/4 | odu2e:chassis/slot/2/1/2.1.2.6 odu2:chassis/slot/2/1/2.1.2.6 odu2:chassis/slot/2/1/2.1.2.6 odu2:chassis/slot/2/1/2.1.2.6 odu2e:chassis/slot/2/1/2.1.2.6 odu2:chassis/slot/2/1/2.1.2.6 odu2e:chassis/slot/2/1/2.1.2.6 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/10/1 oc192:chassis/slot/1/10/1 stm64:chassis/slot/1/10/1 odu2:chassis/slot/1/10/1 odu2e:chassis/slot/1/10/1 8gfc:chassis/slot/1/10/1 10gfc:chassis/slot/1/10/1 | odu2e:chassis/slot/2/1/2.1.2.7 odu2:chassis/slot/2/1/2.1.2.7 odu2:chassis/slot/2/1/2.1.2.7 odu2:chassis/slot/2/1/2.1.2.7 odu2e:chassis/slot/2/1/2.1.2.7 odu2:chassis/slot/2/1/2.1.2.7 odu2e:chassis/slot/2/1/2.1.2.7 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/10/2 oc192:chassis/slot/1/10/2 stm64:chassis/slot/1/10/2 odu2:chassis/slot/1/10/2 odu2e:chassis/slot/1/10/2 8gfc:chassis/slot/1/10/2 10gfc:chassis/slot/1/10/2 | odu2e:chassis/slot/2/1/2.1.2.8 odu2:chassis/slot/2/1/2.1.2.8 odu2:chassis/slot/2/1/2.1.2.8 odu2:chassis/slot/2/1/2.1.2.8 odu2e:chassis/slot/2/1/2.1.2.8 odu2:chassis/slot/2/1/2.1.2.8 odu2e:chassis/slot/2/1/2.1.2.8 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/10/3 oc192:chassis/slot/1/10/3 stm64:chassis/slot/1/10/3 odu2:chassis/slot/1/10/3 odu2e:chassis/slot/1/10/3 8gfc:chassis/slot/1/10/3 10gfc:chassis/slot/1/10/3 | odu2e:chassis/slot/2/1/2.1.2.9 odu2:chassis/slot/2/1/2.1.2.9 odu2:chassis/slot/2/1/2.1.2.9 odu2:chassis/slot/2/1/2.1.2.9 odu2e:chassis/slot/2/1/2.1.2.9 odu2:chassis/slot/2/1/2.1.2.9 odu2e:chassis/slot/2/1/2.1.2.9 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
10ge:chassis/slot/1/10/4 oc192:chassis/slot/1/10/4 stm64:chassis/slot/1/10/4 odu2:chassis/slot/1/10/4 odu2e:chassis/slot/1/10/4 8gfc:chassis/slot/1/10/4 10gfc:chassis/slot/1/10/4 | odu2e:chassis/slot/2/1/2.1.2.10 odu2:chassis/slot/2/1/2.1.2.10 odu2:chassis/slot/2/1/2.1.2.10 odu2:chassis/slot/2/1/2.1.2.10 odu2e:chassis/slot/2/1/2.1.2.10 odu2:chassis/slot/2/1/2.1.2.10 odu2e:chassis/slot/2/1/2.1.2.10 | 4.1 4.2 4.2 4.2 4.2 4.3 4.3 | |
40GbE to/from subinterface within OTU4 | 40ge:chassis/slot/1/1 | odu3:chassis/slot/2/1/1.1.1.1 | 4.4 |
40ge:chassis/slot/1/2 | odu3:chassis/slot/2/1/1.1.1.2 | 4.4 | |
40ge:chassis/slot/1/4 | odu3:chassis/slot/2/1/1.1.2.1 | 4.4 | |
40ge:chassis/slot/1/5 | odu3:chassis/slot/2/1/1.1.2.2 | 4.4 | |
40ge:chassis/slot/1/6 | odu3:chassis/slot/2/1/2.1.1.1 | 4.4 | |
40ge:chassis/slot/1/7 | odu3:chassis/slot/2/1/2.1.1.2 | 4.4 | |
40ge:chassis/slot/1/9 | odu3:chassis/slot/2/1/2.1.2.1 | 4.4 | |
40ge:chassis/slot/1/10 | odu3:chassis/slot/2/1/2.1.2.2 | 4.4 |
Provisioning a Transponding Cross-Connect on a UFM3 or UFM4
Use this procedure to provision a cross-connect that transponds between interfaces on a UFM3 or UFM4. This procedure transponds a 100-Gigabit Ethernet signal into an ODU4 as an example, but the same procedure can be used for other protocols. See Supported cross-connects for more information on what interfaces can be cross-connected.
- Enter configuration mode.
bti7800# config
bti7800(config)#
- Create the interfaces to be cross-connected. The following
example shows the creation of a 100-Gigabit Ethernet interface and
an ODU4 interface.
See Provisioning a Transport Interface for information on creating transport interfaces.
Create the OTU4 interface. For example:
bti7800(config)# interface otu4:1/7/1/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOtu bti7800(config-interface-otu4:1/7/1/1)# frequency 193.1 bti7800(config-interface-otu4:1/7/1/1)# commit Commit complete.
When you create an OTU4 interface on a UFM3 or UFM4, the system automatically creates the corresponding ODU4 interface and configures it for no multiplexing.
If you are cross-connecting an existing ODU4 interface that has been configured for multiplexing, you will need to change it to no multiplexing. For example:
bti7800(config)# interface odu4:1/7/1/1 bti7800(config-interface-odu4:1/7/1/1)# multiplex-mode no-multiplex bti7800(config-interface-odu4:1/7/1/1)# commit Commit complete.
Create the 100-Gigabit Ethernet interface. For example:
bti7800(config)# interface 100ge:1/7/2/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: ethernetCsmacd bti7800(config-interface-100ge:1/7/2/1)# commit Commit complete.
The following lists the interfaces created on the UFM in slot 7 (for example):
bti7800(config)# do show interface | include 1/7
Name : 100ge:1/7/2/1 Name : odu4:1/7/1/1 Name : otu4:1/7/1/1
- Configure the cross-connect.
The following example cross-connects the 100-Gigabit Ethernet interface with the ODU4 interface:
bti7800(config)# cross-connect 100ge:1/7/2/1 odu4:1/7/1/1
bti7800(config-cross-connect-100ge:1/7/2/1/odu4:1/7/1/1)#
- Optionally, specify the service name.
For example:
bti7800(config-cross-connect-100ge:1/7/2/1/odu4:1/7/1/1)# service-name circuit_17
- Apply the changes.
bti7800(config-cross-connect-100ge:1/7/2/1/odu4:1/7/1/1)# commit
Commit complete.
- Optionally, show the resulting cross-connect.
For example:
bti7800(config-cross-connect-100ge:1/7/2/1/odu4:1/7/1/1)# do show cross-connect table | include circuit_17
2 100ge:1/7/2/1 odu4:1/7/1/1 2way odu4 circuit_17
Provisioning a Transponding Cross-Connect on a UFM6
Use this procedure to provision a cross-connect that transponds between a 100-Gbps client interface and an OTU4 line interface on a UFM6. This procedure transponds a 100-Gigabit Ethernet signal into an ODU4 as an example. See Supported cross-connects for more information on what interfaces can be cross-connected.
- Enter configuration mode.
bti7800# config
bti7800(config)#
- Create the interfaces to be cross-connected. See Provisioning a Transport Interface for
information on creating transport interfaces.
Note The cross-connect mapping between the client and line interfaces on a UFM6 is fixed and cannot be changed. Ensure that the interfaces you create conform to the required mapping. See Supported cross-connects for more information.
Create the optical channel interface. For example:
bti7800(config)# interface och:1/5/2/1/1.1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: opticalChannel bti7800(config-interface-och:1/5/2/1/1.1)# frequency 192.1 bti7800(config-interface-och:1/5/2/1/1.1)# commit Commit complete.
The optical channel represents the optical signal and contains attributes that are shared by all contained OTU4 signals. The optical channel interface must exist before you can create an OTU4 interface. For more information on creating an optical channel interface, see Provisioning an Optical Channel Interface.
Create the OTU4 interface and configure it as a non-multiplexed interface. When you create an OTU4 line interface on a UFM6, the system automatically creates the corresponding ODU4 interface and configures it for multiplexing. You will need to manually configure the ODU4 for non-multiplexing. For example:
bti7800(config)# interface otu4:1/5/2/1/1.1.1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOtu bti7800(config-interface-otu4:1/5/2/1/1.1.1)# commit Commit complete. bti7800(config-interface-otu4:1/5/2/1/1.1.1)# exit bti7800(config)# interface odu4:1/5/2/1/1.1.1 bti7800(config-interface-odu4:1/5/2/1/1.1.1)# multiplex-mode no-multiplex bti7800(config-interface-odu4:1/5/2/1/1.1.1)# commit Commit complete.
Create the 100-Gbps client interface. For example:
bti7800(config)# interface 100ge:1/5/1/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: ethernetCsmacd bti7800(config-interface-100ge:1/5/1/1)# commit Commit complete.
The following lists the interfaces created on the UFM6 in slot 5 (for example):
bti7800(config)# do show interface | include 1/5
Name : 100ge:1/5/1/1 Name : odu4:1/5/2/1/1.1.1 Name : otu4:1/5/2/1/1.1.1 Name : och:1/5/2/1/1.1
- Configure the cross-connect.
The following cross-connects the ODU4 line interface with the 100-Gbps client interface:
bti7800(config)# cross-connect odu4:1/5/2/1/1.1.1 100ge:1/5/1/1
bti7800(config-cross-connect-odu4:1/5/2/1/1.1.1 100ge:1/5/1/1)#
- Optionally, specify the service name.
For example:
bti7800(config-cross-connect-odu4:1/5/2/1/1.1.1 100ge:1/5/1/1)# service-name circuit_2129
- Apply the changes.
bti7800(config-cross-connect-odu4:1/5/2/1/1.1.1 100ge:1/5/1/1)# commit
Commit complete.
- Optionally, show the resulting cross-connect.
For example:
bti7800(config-cross-connect-odu4:1/5/2/1/1.1.1 100ge:1/5/1/1)# do show cross-connect table
Cross-Connect Source-Name Destination-Name Direction Rate ------------- ----------------- ----------------- ---------- ----- 1 odu4:1/5/2/1/1.1.1 100ge:1/5/1/1 2way odu4
Provisioning a Muxponding Cross-Connect on a UFM3 or UFM4
Use this procedure to provision a cross-connect that muxponds between a 10-Gbps interface and a 10-Gbps subinterface within a higher-order ODU4 on a UFM3 or UFM4. This procedure muxponds a 10-Gigabit Ethernet signal into an ODU2 as an example, but the same procedure can be used for other 10-Gbps protocols by cross-connecting other interfaces. See Supported cross-connects for information on the cross-connects these modules support.
- Enter configuration mode.
bti7800# config
bti7800(config)#
- Create the interfaces to be cross-connected. See Provisioning a Transport Interface for
information on creating transport interfaces.
Create the OTU4 interface and configure the automatically created ODU4 interface for multiplexing. For example:
bti7800(config)# interface otu4:1/7/1/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOtu bti7800(config-interface-otu4:1/7/1/1)# frequency 193.1 bti7800(config-interface-otu4:1/7/1/1)# commit Commit complete. bti7800(config-interface-otu4:1/7/1/1)# exit bti7800(config)# interface odu4:1/7/1/1 bti7800(config-interface-odu4:1/7/1/1)# multiplex-mode gmp-capable bti7800(config-interface-odu4:1/7/1/1)# commit Commit complete.
When you configure the ODU4 interface for multiplexing, the system automatically creates 10 ODU2 subinterfaces; for example, odu2:1/7/1/1.1 to odu2:1/7/1/1.10.
Create the 10-Gbps client interface. For example:
bti7800(config)# interface 10ge:1/7/2/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: ethernetCsmacd bti7800(config-interface-10ge:1/7/2/1)# commit Commit complete.
The following lists the interfaces created on the UFM in slot 7 (for example):
bti7800(config)# do show interface | include 1/7
Name : 10ge:1/7/2/1 Name : odu2:1/7/1/1.1 Name : odu2:1/7/1/1.2 Name : odu2:1/7/1/1.3 Name : odu2:1/7/1/1.4 Name : odu2:1/7/1/1.5 Name : odu2:1/7/1/1.6 Name : odu2:1/7/1/1.7 Name : odu2:1/7/1/1.8 Name : odu2:1/7/1/1.9 Name : odu2:1/7/1/1.10 Name : odu4:1/7/1/1 Name : otu4:1/7/1/1
- If you are multiplexing into an ODU2e instead of an ODU2,
delete the corresponding ODU2 subinterface and manually create the
ODU2e subinterface. See Provisioning a Transport Interface for more information.
For example:
bti7800(config)# no interface odu2:1/7/1/1.1 bti7800(config)# interface odu2e:1/7/1/1.1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOdu bti7800(config-interface-odu2e:1/7/1/1.1)# commit Commit complete.
- Configure the cross-connect.
The following example cross-connects the 10-Gbps client interface with one of the subinterfaces on the ODU4:
bti7800(config)# cross-connect 10ge:1/7/2/1 odu2:1/7/1/1.4
bti7800(config-cross-connect-10ge:1/7/2/1/odu2:1/7/1/1.4)#
- Optionally, specify the service name.
For example:
bti7800(config-cross-connect-10ge:1/7/2/1/odu2:1/7/1/1.4)# service-name circuit_1714
- Apply the changes.
bti7800(config-cross-connect-10ge:1/7/2/1/odu2:1/7/1/1.4)# commit
Commit complete.
- Optionally, show the resulting cross-connect.
For example:
bti7800(config-cross-connect-10ge:1/7/2/1/odu2:1/7/1/1.4)# do show cross-connect table | include circuit_1714
2 10ge:1/7/2/1 odu2:1/7/1/1.4 2way odu2 circuit_1714
Provisioning a Muxponding Cross-Connect on a UFM6
Use this procedure to provision a cross-connect that muxponds between a client interface and an ODU subinterface within a higher-order ODU4 on a UFM6. This procedure muxponds a 10-Gigabit Ethernet signal into an ODU2e within an ODU4 as an example, but the same procedure can be used for other 10-Gbps and 40-Gbps protocols by cross-connecting other interfaces. See Supported cross-connects for information on the cross-connects this module supports.
- Enter configuration mode.
bti7800# config
bti7800(config)#
- Create the interfaces to be cross-connected. See Provisioning a Transport Interface for
information on creating transport interfaces.
Note The cross-connect mapping between the client interface and the line subinterface on the ODU4 is fixed and cannot be changed. Ensure that the interfaces you create conform to the required mapping. See Supported cross-connects for more information.
Create the optical channel interface. For example:
bti7800(config)# interface och:1/5/2/1/1.1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: opticalChannel bti7800(config-interface-och:1/5/2/1/1.1)# frequency 192.1 bti7800(config-interface-och:1/5/2/1/1.1)# commit Commit complete.
The optical channel represents the optical signal and contains attributes that are shared by all contained OTU4 signals. The optical channel interface must exist before you can create an OTU4 interface. For more information on creating an optical channel interface, see Provisioning an Optical Channel Interface.
Create the OTU4 line interface. For example:
bti7800(config)# interface otu4:1/5/2/1/1.1.1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOtu bti7800(config-interface-otu4:1/5/2/1/1.1.1)# commit Commit complete.
When you create an OTU4 line interface on a UFM6, the system automatically creates the corresponding ODU4 interface and configures it for multiplexing. The multiplexed ODU4 interface contains 10 automatically created ODU2e subinterfaces; for example, odu2e:1/5/2/1/1.1.1.1 to odu2e:1/5/2/1/1.1.1.10.
If you are cross-connecting an existing ODU4 interface that has not been configured for multiplexing, you will need to configure it for multiplexing. For example:
bti7800(config)# interface odu4:1/5/2/1/1.1.1 bti7800(config-interface-odu4:1/5/2/1/1.1.1)# multiplex-mode gmp-capable bti7800(config-interface-odu4:1/5/2/1/1.1.1)# commit Commit complete.
Create the client interface. For example, this creates a 10ge client interface for multiplexing into an ODU2 or ODU2e subinterface:
bti7800(config)# interface 10ge:1/5/1/1/1 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: ethernetCsmacd bti7800(config-interface-10ge:1/5/1/1/1)# commit Commit complete.
The following lists the interfaces created on the UFM in slot 5 (for example):
bti7800(config)# do show interface | include 1/5
Name : 10ge:1/5/1/1/1 Name : odu2e:1/5/2/1/1.1.1.1 Name : odu2e:1/5/2/1/1.1.1.2 Name : odu2e:1/5/2/1/1.1.1.3 Name : odu2e:1/5/2/1/1.1.1.4 Name : odu2e:1/5/2/1/1.1.1.5 Name : odu2e:1/5/2/1/1.1.1.6 Name : odu2e:1/5/2/1/1.1.1.7 Name : odu2e:1/5/2/1/1.1.1.8 Name : odu2e:1/5/2/1/1.1.1.9 Name : odu2e:1/5/2/1/1.1.1.10 Name : odu4:1/5/2/1/1.1.1 Name : otu4:1/5/2/1/1.1.1 Name : och:1/5/2/1/1.1
- If you are multiplexing a 10-Gbps interface into an ODU2
or a 40-Gbps interface into an ODU3, delete the corresponding ODU2e
subinterface and manually create the ODU2 or ODU3 subinterface. If
you are creating an ODU3 subinterface, you will need to delete all ODU2e subinterfaces that use the same
tributary slots as the ODU3. See Provisioning a Transport Interface for more information.
For example, this deletes an ODU2e subinterface and creates an ODU2 subinterface:
bti7800(config)# no interface odu2e:1/5/2/1/1.1.1.9 bti7800(config)# interface odu2:1/5/2/1/1.1.1.9 Value for 'type' [ethernetCsmacd,opticalChannel,otnOdu,otnOtu,...]: otnOdu bti7800(config-interface-odu2:1/5/2/1/1.1.1.9)# commit Commit complete.
- Configure the cross-connect.
The following cross-connects the 10-Gbps interface with the associated ODU2e subinterface on the ODU4:
bti7800(config)# cross-connect 10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1
bti7800(config-cross-connect-10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1)#
- Optionally, specify the service name.
For example:
bti7800(config-cross-connect-10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1)# service-name circuit_2129
- Apply the changes.
bti7800(config-cross-connect-10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1)# commit
Commit complete.
- Optionally, show the resulting cross-connect.
For example:
bti7800(config-cross-connect-10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1)# do show cross-connect table
Cross-Connect Source-Name Destination-Name Direction Rate ------------- -------------- -------------------- ---------- ----- 1 10ge:1/5/1/1/1 odu2e:1/5/2/1/1.1.1.1 2way odu2e