09-01-2020 04:43 AM
Hi,
I have two Cisco ONS 15454 , CTC Version: 9.6.0 & i have to configure the setup for DWDM testing .Can anyone let me know following:-
Connectivity Flow:
ASR903->Cisco ONS 15454 Node A ->Cisco ONS 15454 Node B -> ASR903
Since I am very new in configurating the CISCO product , any help is highly appreciated.
I downloaded the configuration file using the program CTC. Configured a service channel stm1/udc that works. But the green lines between the nodes do not appear and the main channel 10Gb/s does not start
Thanks
Solved! Go to Solution.
09-03-2020 12:43 AM
Diagnostic
09-03-2020 12:43 AM
Diagnostic
09-03-2020 12:48 AM
>>>> Start Time 2020/02/20 13:41:47 <<<<
------------------------------------------------
------------------------------------------------
>> Starting Automatic Node Provisioning...
>> Provisioning Shelf #1...
>> Provisioning Slot #2 with OPT-RAMP C card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #4 with OPT-EDFA-24 card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #5 with 40 SMR1 C card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #6 with 40 SMR1 C card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #7 with OPT-EDFA-24 card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #1 with TNC card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #8 with TNC card...
>> Slot already provisioned with same equipment...
------------------------------------------------
>> Applied...
------------------------------------------------
>> Provisioning Shelf #2...
>> Provisioning Slot #2 with OTU2_XP card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #1 with TSC card...
>> Slot already provisioned with same equipment...
>> Provisioning Slot #8 with TSC card...
>> Slot already provisioned with same equipment...
------------------------------------------------
>> Applied...
------------------------------------------------
>> Starting Passive Units Provisioning...
>> Provisioning Unit #1 with MECH UNIT passive unit...
>> Done...
>> Provisioning Unit #2 with PASSIVE DCU passive unit...
>> Done...
>> Provisioning Unit #3 with PASSIVE DCU passive unit...
>> Done...
>> Provisioning Unit #4 with PASSIVE DCU passive unit...
>> Done...
>> Provisioning Unit #5 with PASSIVE DCU passive unit...
>> Done...
>> Provisioning Unit #6 with PASSIVE MD 40 ODD passive unit...
>> Done...
>> Provisioning Unit #8 with PASSIVE MD 40 ODD passive unit...
>> Done...
------------------------------------------------
>> Applied...
------------------------------------------------
>> Position all the chassis in node...
>> Passive unit <1> not found...
>> Passive unit <2> not found...
>> Passive unit <3> not found...
>> Passive unit <4> not found...
>> Passive unit <5> not found...
>> Passive unit <6> not found...
>> Passive unit <8> not found...
>> Done...
------------------------------------------------
>> Applied...
>> Starting Pluggable Port Modules Provisioning...
>> Provisioning PPM #1 at shelf 2, slot 2 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning Pluggable Port #1-1 with Port Type TEN_GE at shelf 2, slot 2, port 1
>> Done...
>> Provisioning PPM #2 at shelf 2, slot 2 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning Pluggable Port #2-1 with Port Type TEN_GE at shelf 2, slot 2, port 2
>> Done...
>> Provisioning PPM #3 at shelf 2, slot 2 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning PPM #4 at shelf 2, slot 2 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning PPM #1 at shelf 1, slot 1 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning Pluggable Port #1-1 with Port Type STM1 at shelf 1, slot 1, port 1
>> Done...
>> Provisioning PPM #1 at shelf 1, slot 8 with PPM Type PPM (1 Port)
>> Provisioning Pluggable already provisioned...
>> Provisioning Pluggable Port #1-1 with Port Type STM1 at shelf 1, slot 8, port 1
>> Done...
>> Starting Operating mode Provisioning before provisioning the payloads...
>> Provisioning Pluggable Port #1-1 with Port Type TEN_GE at shelf 2, slot 2, port 1
>> Provisioning Pluggable Port #2-1 with Port Type TEN_GE at shelf 2, slot 2, port 2
>> Provisioning Pluggable Port #1-1 with Port Type STM1 at shelf 1, slot 1, port 1
>> Provisioning Pluggable Port #1-1 with Port Type STM1 at shelf 1, slot 8, port 1
------------------------------------------------
>> Applied...
>> Starting Card Parameters Provisioning...
>> Provisioning OPT_AMP at shelf 1, slot 4, with value BST_AMPLI
>> Done...
>> Provisioning TDCU/DCU Compensation at unit id 2 with value -750.0
>> Done...
>> Provisioning TDCU/DCU Compensation at unit id 3 with value -550.0
>> Done...
>> Provisioning TDCU/DCU Compensation at unit id 4 with value -1350.0
>> Done...
>> Provisioning OPT_AMP at shelf 1, slot 7, with value BST_AMPLI
>> Done...
>> Provisioning TDCU/DCU Compensation at unit id 5 with value -1950.0
>> Done...
>> Configuring Ports 1-3 at shelf 2, slot 2, with value Transponder
>> Done...
>> Configuring Ports 2-4 at shelf 2, slot 2, with value Transponder
>> Done...
>> Provisioning WL at shelf 2, slot 2, port 3 with value 1561.42 nm
>> Done...
>> Provisioning WL at shelf 2, slot 2, port 4 with value 1561.42 nm
>> Done...
------------------------------------------------
>> Applied...
>> Starting Internal Patchcords Provisioning...
>> Provisioning internal patchcord Shelf 1, Slot 5, Port 2Shelf 1, Slot 6, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 6, Port 2Shelf 1, Slot 5, Port 1
>> Done...
>> Provisioning internal patchcord Unit 6, Port 80Shelf 2, Slot 2, Port 4
>> Done...
>> Provisioning internal patchcord Shelf 2, Slot 2, Port 4Unit 6, Port 79
>> Done...
>> Provisioning internal patchcord Unit 8, Port 80Shelf 2, Slot 2, Port 3
>> Done...
>> Provisioning internal patchcord Shelf 2, Slot 2, Port 3Unit 8, Port 79
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 4, Port 2Shelf 1, Slot 5, Port 9
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 5, Port 10Shelf 1, Slot 4, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 2, Port 2Shelf 1, Slot 4, Port 5
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 4, Port 6Shelf 1, Slot 2, Port 1
>> Done...
>> Provisioning internal patchcord Unit 4, Port 2Shelf 1, Slot 2, Port 7
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 2, Port 8Unit 4, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 1, Port 1Shelf 1, Slot 2, Port 3
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 2, Port 4Shelf 1, Slot 1, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 5, Port 8Unit 6, Port 81
>> Done...
>> Provisioning internal patchcord Unit 6, Port 82Shelf 1, Slot 5, Port 7
>> Done...
>> Provisioning internal patchcord Unit 2, Port 2Shelf 1, Slot 5, Port 3
>> Done...
>> Provisioning internal patchcord Unit 3, Port 2Unit 2, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 5, Port 4Unit 3, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 7, Port 2Shelf 1, Slot 6, Port 9
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 6, Port 10Shelf 1, Slot 7, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 8, Port 1Shelf 1, Slot 7, Port 3
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 7, Port 4Shelf 1, Slot 8, Port 1
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 6, Port 8Unit 8, Port 81
>> Done...
>> Provisioning internal patchcord Unit 8, Port 82Shelf 1, Slot 6, Port 7
>> Done...
>> Provisioning internal patchcord Unit 5, Port 2Shelf 1, Slot 6, Port 3
>> Done...
>> Provisioning internal patchcord Shelf 1, Slot 6, Port 4Unit 5, Port 1
>> Done...
------------------------------------------------
>> Applied...
>> Starting Optical Sides Provisioning...
>> Provisioning Side A Line In: Shelf 1, Slot 2, Port 5 Line Out: Shelf 1, Slot 2, Port 6
>> Done...
>> Provisioning Side B Line In: Shelf 1, Slot 7, Port 5 Line Out: Shelf 1, Slot 7, Port 6
>> Done...
------------------------------------------------
>> Applied...
>> Starting ANS Parameters import...
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 5, wl=null, name=MinExpSpanLoss, value=34.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 5, wl=null, name=MaxExpSpanLoss, value=37.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 5, wl=null, name=MinExpSpanLoss, value=29.9
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 5, wl=null, name=MaxExpSpanLoss, value=32.9
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 5, wl=null, name=ChLossTh, value=-34.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 5, wl=null, name=OscLossTh, value=-38.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 2, wl=null, name=WkgMode, value=Control Gain
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 2, wl=null, name=Tilt, value=-0.9
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 2, wl=null, name=ChPwr, value=1.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 4, port# 6, wl=null, name=WkgMode, value=Control Gain
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 4, port# 6, wl=null, name=Tilt, value=-1.1
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 4, port# 6, wl=null, name=ChPwr, value=4.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 2, wl=null, name=WkgMode, value=Control Gain
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 2, wl=null, name=Tilt, value=-3.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 2, wl=null, name=ChPwr, value=1.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 6, wl=null, name=WkgMode, value=Control Gain
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 6, wl=null, name=Tilt, value=-1.1
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 6, wl=null, name=ChPwr, value=4.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 10, wl=null, name=Gain, value=8.5
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 10, wl=null, name=Ratio, value=37.1
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 10, wl=null, name=RamanTotalPower, value=392
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 8, wl=null, name=ChPwr, value=-8.2
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 2, port# 2, wl=null, name=ChPwr, value=-16.6
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 8, wl=null, name=ChPwr, value=-9.7
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 10, wl=null, name=ChPwr, value=-15.2
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 8, wl=null, name=ChPwr, value=-10.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 10, wl=null, name=ChPwr, value=-15.2
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 9, wl=null, name=ChLossTh, value=-26.4
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 4, port# 5, wl=null, name=ChLossTh, value=-30.0
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 4, port# 1, wl=null, name=ChLossTh, value=-20.7
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 1, wl=null, name=ChLossTh, value=-9.5
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 5, port# 7, wl=null, name=ChLossTh, value=-11.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 9, wl=null, name=ChLossTh, value=-35.3
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 7, port# 1, wl=null, name=ChLossTh, value=-20.7
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 1, wl=null, name=ChLossTh, value=-9.5
>> Parsing ANS parameter ANS Param: Shelf# 1, slot# 6, port# 7, wl=null, name=ChLossTh, value=-11.3
>> Parsing ANS parameter ANS Param: Shelf# null, slot# null, port# null, wl=null, name=NetworkType, value=Metro-Core
>> Importing Min Expected Span Loss with value = 34.3
>> Done...
>> Importing Max Expected Span Loss with value = 37.3
>> Done...
>> Importing Min Expected Span Loss with value = 29.9
>> Done...
>> Importing Max Expected Span Loss with value = 32.9
>> Done...
>> Importing Channel LOS Threshold with value = -34.3
>> Done...
>> Importing OSC LOS Threshold with value = -38.3
>> Done...
>> Importing Amplifier Working Mode with value = Control Gain
>> Done...
>> Importing Amplifier Tilt with value = -0.9
>> Done...
>> Importing Power with value = 1.0
>> Done...
>> Importing Amplifier Working Mode with value = Control Gain
>> Done...
>> Importing Amplifier Tilt with value = -1.1
>> Done...
>> Importing Power with value = 4.0
>> Done...
>> Importing Amplifier Working Mode with value = Control Gain
>> Done...
>> Importing Amplifier Tilt with value = -3.0
>> Done...
>> Importing Power with value = 1.0
>> Done...
>> Importing Amplifier Working Mode with value = Control Gain
>> Done...
>> Importing Amplifier Tilt with value = -1.1
>> Done...
>> Importing Power with value = 4.0
>> Done...
>> Importing Amplifier Gain with value = 8.5
>> Done...
>> Importing Raman Ratio with value = 37.1
>> Done...
>> Importing Raman Total Power with value = 392
>> Done...
>> Importing Power with value = -8.2
>> Done...
>> Importing Power with value = -16.6
>> Done...
>> Importing Power with value = -9.7
>> Done...
>> Importing Power with value = -15.2
>> Done...
>> Importing Power with value = -10.3
>> Done...
>> Importing Power with value = -15.2
>> Done...
>> Importing Channel LOS Threshold with value = -26.4
>> Done...
>> Importing Channel LOS Threshold with value = -30.0
>> Done...
>> Importing Channel LOS Threshold with value = -20.7
>> Done...
>> Importing Channel LOS Threshold with value = -9.5
>> Done...
>> Importing Channel LOS Threshold with value = -11.3
>> Done...
>> Importing Channel LOS Threshold with value = -35.3
>> Done...
>> Importing Channel LOS Threshold with value = -20.7
>> Done...
>> Importing Channel LOS Threshold with value = -9.5
>> Done...
>> Importing Channel LOS Threshold with value = -11.3
>> Done...
>> Importing Network Type with value = Metro-Core
>> Done...
------------------------------------------------
>> Applied...
------------------------------------------------
>>>> End Time 2020/02/20 13:43:48 <<<<
09-04-2020 04:50 AM
Why ?
09-20-2020 10:03 PM
I have 2 Nodes ONS MSTTP 15454 M6 Rev 9.60. In a complete set of everyone : 2хTNC (include sfp 1510nm), 2хOPT-EDFA-24, 2х40-SMR-1C, OUT-2XP (include XFP 850nm, XFP 1561.4nm), node a side b – 130km - node B side A. I connect to configure the STS program on Network View, there is only node A. Since only 1 node, it is impossible to create PPC side-to-side, OCHNC, OCHCC. When I turn on comm channel -> OSC-> STM1 (node a side b, node B side A) there are connections on both nodes and there are two nodes on Network View. When trying to create a connection (node a side b - node B side A) PPC side-to-side -> EID 2030 IDL: OnsError / xProvisionError: 1.0. A patchcord cannot be provisioned on the endpoint shelf 1, slot 7 (OPT-EDFA-24), port LINE-RX, side B on the node A. When trying to create OCHNC / OCHCC gives an error: EID 2192 A (8102) -> B (1102). (LINK_PHYSICAL, LINK_TYPE_OSC Unprotected, State = Up). lsmState = TERM_OBS_STATE, TERM_OBS_STATE: OSC Link can be used only for OverHead circuits.
We are conducting an experiment:
When trying to create a PPC side-to-side (node A side A, node B side B) where comm channel -> OSC-> STM1 is missing, a connection is created. OCHNC, OCHCC is also created. Ports on nodes are activated. Nodes issue a LOSS OS error because there is no fiber. When trying to create a comm channel -> OSC-> STM1 we get EID-6050
Some OSC terminations were not created. EID 3269 (1 OSC termination was not created, as follows: shelf 1, slot 1 (TNC), port 1-1 (STM1): EID-3239 The overhead termination is invalid.)
From the given information I draw a conclusion that in connection comm channel -> OSC-> STM1 blocks creation of РРС side-to-side.
It turns out a vicious circle without comm channel -> OSC-> STM1 there are no nodes on Network View and no PPC side-to-side is created. Creating a side-to-side PPC blocks creation
comm channel -> OSC-> STM1.
How to get out of this vicious circle to create a comm channel -> OSC-> STM1 and PPC side-to-side on the section Node A side B - Node B side A.
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