Configure Controllers

There are six types of controllers for Cisco NCS 1010. The controllers are the OTS, OTS-OCH, OSC, DFB, OCH, and OMS controllers. This chapter describes the tasks that are used to configure and view these controllers.

Table 1. Controllers

Controller Types

Description

Optical Transport Section (OTS)

The OTS controller holds all the optical parameters for the OTS optical interfaces.

OTS-OCH

The OTS-OCH controller is created on the LINE side of the OLT and ILA nodes using the hw-module command in Flex-Grid configuration. OTS-OCH controller supports optical cross-connection between the LINE side and ADD/DROP side of the OLT nodes only. The channel IDs must be the same for both LINE side and COM side OTS-OCH controllers.

Optical Service Channel (OSC)

The OSC controller represents the optical layer of the OSC channel. Line ports host the OSC controller.

Distributed Feedback (DFB)

The DFB controller represents the dedicated DFB laser on the line side of the OLT and ILA nodes with a RAMAN module for link continuity. The line ports host the DFB controller along with the OSC controller.

Optical Channel (OCH)

By default, the OCH controllers are automatically configured when Mux/Demux panels and breakout panels are brought up.

Optical Multiplex Section (OMS)

By default, the OMS controllers are automatically configured when Mux/Demux panels and breakout panels are brought up.

OTS Controllers

There are two types of controller models supported on Cisco NCS 1010. They are:

ILA Controller Model

When the NCS1K-ILA-2R-C, NCS1K-ILA-L, NCS1K-E-ILA-R-C, NCS1K-E-ILA-2R-C, NCS1K-E-ILA-R-C-2, NCS1K-ILA-R-C and NCS1K-ILA-C cards are brought up, four OTS controllers are created by default. The OTS controllers are:

  • OTS controllers for side 1:

    • LINE 0 port: ots 0/0/0/0 (L band line OTS controller)

    • L-BAND 1 port: ots 0/0/0/1 (L band line OTS controller)

  • OTS controllers for side 2:

    • LINE 2 port: ots 0/0/0/2 (L band line OTS controller)

    • L-BAND 3 port: ots 0/0/0/3 (L band line OTS controller)

Table 2. Feature History

Feature Name

Release Information

Feature Description

NCS 1010 L-Band and C+L-Band Support.

Cisco IOS XR Release 7.9.1

NCS 1010 now supports C+L-Band. The addition of the L-Band to the existing C-Band provides more channels increasing the data transfer capacity of the optical line system.

  • L-band gain range: (ILA)

    • EDFA Gain Range 1 range: 10.8 — 25.8

    • EDFA Gain Range 2 range: 18.8 — 38.8

  • EDFA1: Instance 1 (OLT )

    • 0 -> Gain Range Mode 1: 13.3dB — 26.3dB

    • 1 -> Gain Range mode 2: 21.3dB — 39.3dB

The following figures and tables show the three ILA variants and the mapping between physical ports and controllers:

Figure 1. NCS1K-ILA-2R-C
NCS1K-ILA-2R-C Port Mapping
Table 3. NCS1K-ILA-2R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, DFB0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, DFB0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Figure 2. NCS1K-ILA-R-C
NCS1K-ILA-R-C Port Mapping
Table 4. NCS1K-ILA-R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, DFB0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Figure 3. NCS1K-ILA-C
NCS1K-ILA-C Port Mapping
Table 5. NCS1K-ILA-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Figure 4. NCS1K-ILA-L
NCS1K-ILA-L Port Mapping
Table 6. NCS1K-ILA-L Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, Line OTS-OCH 0/0/0/2/x

The following figures and tables show the three ILA variants that are introduced in Release 7.10.1 and the mapping between their physical ports and controllers:


Note


The new ILA variants have ports that are highlighted in red to indicate the Raman ports.


Figure 5. NCS1K-E-ILA-2R-C
E-ILA-2R-C Port Mapping
Table 7. E-ILA-2R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, DFB0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, DFB0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Figure 6. NCS1K-E-ILA-R-C
E-ILA-R-C Port Mapping
Table 8. E-ILA-R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, DFB0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

The following figures and tables show the new ILA variant that is introduced in Release 7.11.1 and the mapping between its physical ports and controllers:

Figure 7. NCS1K-E-ILA-R-C-2
E-ILA-R-C-2 Port Mapping
Table 9. E-ILA-R-C-2 Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, DFB0/0/0/2, Line OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

To view the card type, use the following command:

RP/0/RP0/CPU0:ios#show platform

The following output highlights the NCS1K-ILA-C card type for the ILA controller model.

Fri Mar 25 09:23:43.417 UTC
Node              Type                     State                    Config state
--------------------------------------------------------------------------------
0/RP0/CPU0        NCS1010-CNTLR-K9(Active) IOS XR RUN               NSHUT,NMON
0/PM0             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/PM1             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/FT0             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/FT1             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/0/NXR0          NCS1K-ILA-C              OPERATIONAL              NSHUT,NMON
0/2               NCS1K-BRK-SA             OPERATIONAL              NSHUT,NMON
RP/0/RP0/CPU0:ios#

The following output highlights the NCS1K-E-ILA-R-C card type for the ILA controller model.

Fri Jun  9 07:04:19.710 UTC
Node              Type                     State                    Config state
--------------------------------------------------------------------------------
0/RP0/CPU0        NCS1010-CNTLR-K9(Active) IOS XR RUN               NSHUT,NMON
0/PM0             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/PM1             NCS1010-AC-PSU           OFFLINE                  NSHUT,NMON
0/FT0             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/FT1             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/0/NXR0          NCS1K-E-ILA-R-C          OPERATIONAL              NSHUT,NMON

To view the OTS controller status on the ILA cards, use the show controller description command.

RP/0/RP0/CPU0:ios#show controller description

The following output highlights the status of the OTS controller interfaces (ots0/0/0/0…ots0/0/0/3) on the ILA cards

Fri Mar 25 09:24:53.386 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Osc0/0/0/0                  up
Osc0/0/0/2                  up
Ots0/0/0/0                  up
Ots0/0/0/1                  up
Ots0/0/0/2                  up
Ots0/0/0/3                  up
RP/0/RP0/CPU0:ios#

To view the parameters of the LINE 0 OTS controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/0

The following output displays the parameters of the LINE 0 OTS controller ots 0/0/0/0.

Fri Mar 25 09:27:44.146 UTC

 Controller State: Up

 Transport Admin State: In Service

 LED State: Green

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         LOW-TX-PWR = 0
         RX-LOS-P = 0
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 0
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------
         Total RX Power(C+L) = 20.00 dBm
         Total TX Power(C+L) = 20.00 dBm
         Total RX Power = 20.00 dBm
         Total TX Power = 23.01 dBm
         RX Signal Power = -30.00 dBm
         TX Signal Power = 20.00 dBm
         TX Voa Attenuation = 0.0 dB
         Egress Ampli Gain = 8.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Gain Range = Normal
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF



         Configured Parameters:
         -------------
         TX Voa Attenuation = 0.0 dB
         Egress Ampli Gain = 8.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Gain Range = Normal
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF

To view the parameters of the LINE 2 OTS controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/2

The following output displays the parameters of the LINE 2 OTS controller ots 0/0/0/2.

Wed Jun 29 15:54:05.699 UTC

 Controller State: Up

 Transport Admin State: In Service

 LED State: Green

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 0
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------
         Total RX Power(C+L) = 20.00 dBm
         Total TX Power(C+L) = 20.00 dBm
         Total RX Power = 20.00 dBm
         Total TX Power = 23.01 dBm
         RX Signal Power = -30.00 dBm
         TX Signal Power = 20.00 dBm
         TX Voa Attenuation = 0.0 dB
         Egress Ampli Gain = 8.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Gain Range = Normal
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF



         Configured Parameters:
         -------------
         
         TX Voa Attenuation = 0.0 dB
         Egress Ampli Gain = 8.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Gain Range = Normal
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF

The following output displays the parameters of the LINE 1 OTS controller ots 0/0/0/1.

RP/0/RP0/CPU0:OLT-C-14#show controllers ots 0/0/0/1
Mon Feb 27 20:34:00.257 UTC

 Controller State: Up

Transport Admin State: In Service

LED State: Green

Alarm Status:
-------------
Detected Alarms: None


Alarm Statistics:
-----------------
RX-LOS-P = 1
RX-LOC = 0
TX-POWER-FAIL-LOW = 2
INGRESS-AUTO-LASER-SHUT = 0
INGRESS-AUTO-POW-RED = 0
INGRESS-AMPLI-GAIN-LOW = 0
INGRESS-AMPLI-GAIN-HIGH = 0
EGRESS-AUTO-LASER-SHUT = 0
EGRESS-AUTO-POW-RED = 0
EGRESS-AMPLI-GAIN-LOW = 0
EGRESS-AMPLI-GAIN-HIGH = 0
HIGH-TX-BR-PWR = 0
HIGH-RX-BR-PWR = 0
SPAN-TOO-SHORT-TX = 0
SPAN-TOO-SHORT-RX = 0

Parameter Statistics:
---------------------
Total Rx Power = 19.39 dBm
Total Tx Power = 3.99 dBm



Configured Parameters:
-------------

OLT Controller Model

When the NCS1K-E-OLT-C, NCS1K-E-OLT-R-C, NCS1K-E-OLT-L, NCS1K-OLT-L, NCS1K-OLT-R-C, and NCS1K-OLT-C cards are brought up, 34 and 33 OTS controllers are created by default for C band and L Band OLT cards respectively.

  • LINE 0 port: ots 0/0/0/0 (C band line OTS controller)

  • L-BAND 1 port: ots 0/0/0/1 (L band line OTS controller)

  • LC port: ots 0/0/0/2 ( Add1 Rx/Drop1 Tx OTS controller)

  • LC port: ots 0/0/0/3 ( Add2 Rx/Drop2 Tx OTS controller)

  • MPO ports: ots 0/0/0/4 to ots 0/0/0/11

  • MPO ports: ots 0/0/0/12 to ots 0/0/0/19

  • MPO ports: ots 0/0/0/20 to ots 0/0/0/27

  • MPO ports: ots 0/0/0/28 to ots 0/0/0/33

For the new OLT variants, the following lists the Add/Drop ports that are mapped to the OTS controllers:

  • LINE 0 port: ots 0/0/0/0 (C band line OTS controller)

  • L-BAND 1 port: ots 0/0/0/1 (L band line OTS controller)

  • LC port: ots 0/0/0/2…17 ( Add1…16 Rx/Drop1…16 Tx OTS controller)

  • MPO ports: ots 0/0/0/18 to ots 0/0/0/25

  • MPO ports: ots 0/0/0/26 to ots 0/0/0/33

The following figures and tables show the two OLT variants and the mapping between physical ports and controllers:

Figure 8. NCS1K-OLT-R-C
NCS1K-OLT-R-C Port Mapping
Table 10. NCS1K-OLT-R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, DFB0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: COM OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Child Controller: COM OTS-OCH 0/0/0/3/x

5

Parent Controller: OTS0/0/0/4-11

Child Controller: COM OTS-OCH 0/0/0/4-11/x

6

Parent Controller: OTS0/0/0/12-19

Child Controller: COM OTS-OCH 0/0/0/12-19/x

7

Parent Controller: OTS0/0/0/20-27

Child Controller: COM OTS-OCH 0/0/0/20-27/x

8

Parent Controller: OTS0/0/0/28-33

Child Controller: COM OTS-OCH 0/0/0/28-33/x

Figure 9. NCS1K-OLT-C
NCS1K-OLT-C Port Mapping
Table 11. NCS1K-OLT-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: COM OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Child Controller: COM OTS-OCH 0/0/0/3/x

5

Parent Controller: OTS0/0/0/4-11

Child Controller: COM OTS-OCH 0/0/0/4-11/x

6

Parent Controller: OTS0/0/0/12-19

Child Controller: COM OTS-OCH 0/0/0/12-19/x

7

Parent Controller: OTS0/0/0/20-27

Child Controller: COM OTS-OCH 0/0/0/20-27/x

8

Parent Controller: OTS0/0/0/28-33

Child Controller: COM OTS-OCH 0/0/0/28-33/x

Figure 10. NCS1K-OLT-L
NCS1K-OLT-L Port Mapping
Table 12. NCS1K-OLT-L Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/2

Child Controller: OSC0/0/0/2, Line OTS-OCH 0/0/0/2/x

3

Parent Controller: OTS0/0/0/3

The following figures and tables show the three OLT variants that are introduced in Release 7.10.1 and the mapping between their physical ports and controllers:

Figure 11. NCS1K-E-OLT-L
NCS1K-E-OLT-L Port Mapping
Table 13. NCS1K-E-OLT-L Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/2

Child Controller: COM OTS-OCH 0/0/0/2/x

3

Parent Controller: OTS0/0/0/3

Child Controller: COM OTS-OCH 0/0/0/3/x

4

Parent Controller: OTS0/0/0/4

Child Controller: COM OTS-OCH 0/0/0/4/x

5

Parent Controller: OTS0/0/0/5

Child Controller: COM OTS-OCH 0/0/0/5/x

6

Parent Controller: OTS0/0/0/6

Child Controller: COM OTS-OCH 0/0/0/6/x

7

Parent Controller: OTS0/0/0/7

Child Controller: COM OTS-OCH 0/0/0/7/x

8

Parent Controller: OTS0/0/0/8

Child Controller: COM OTS-OCH 0/0/0/8/x

9

Parent Controller: OTS0/0/0/9

Child Controller: COM OTS-OCH 0/0/0/9/x

10

Parent Controller: OTS0/0/0/10

Child Controller: COM OTS-OCH 0/0/0/10/x

11

Parent Controller: OTS0/0/0/11

Child Controller: COM OTS-OCH 0/0/0/11/x

12

Parent Controller: OTS0/0/0/12

Child Controller: COM OTS-OCH 0/0/0/12/x

13

Parent Controller: OTS0/0/0/13

Child Controller: COM OTS-OCH 0/0/0/13/x

14

Parent Controller: OTS0/0/0/14

Child Controller: COM OTS-OCH 0/0/0/14/x

15

Parent Controller: OTS0/0/0/15

Child Controller: COM OTS-OCH 0/0/0/15/x

16

Parent Controller: OTS0/0/0/16

Child Controller: COM OTS-OCH 0/0/0/16/x

17

Parent Controller: OTS0/0/0/17

Child Controller: COM OTS-OCH 0/0/0/17/x

18

Parent Controller: OTS0/0/0/18-25

Child Controller: COM OTS-OCH 0/0/0/18-25/x

19

Parent Controller: OTS0/0/0/26-33

Child Controller: COM OTS-OCH 0/0/0/26-33/x

Figure 12. NCS1K-E-OLT-C
NCS1K-E-OLT-C Port Mapping
Table 14. NCS1K-E-OLT-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: COM OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Child Controller: COM OTS-OCH 0/0/0/3/x

5

Parent Controller: OTS0/0/0/4

Child Controller: COM OTS-OCH 0/0/0/4/x

6

Parent Controller: OTS0/0/0/5

Child Controller: COM OTS-OCH 0/0/0/5/x

7

Parent Controller: OTS0/0/0/6

Child Controller: COM OTS-OCH 0/0/0/6/x

8

Parent Controller: OTS0/0/0/7

Child Controller: COM OTS-OCH 0/0/0/7/x

9

Parent Controller: OTS0/0/0/8

Child Controller: COM OTS-OCH 0/0/0/8/x

10

Parent Controller: OTS0/0/0/9

Child Controller: COM OTS-OCH 0/0/0/9/x

11

Parent Controller: OTS0/0/0/10

Child Controller: COM OTS-OCH 0/0/0/10/x

12

Parent Controller: OTS0/0/0/11

Child Controller: COM OTS-OCH 0/0/0/11/x

13

Parent Controller: OTS0/0/0/12

Child Controller: COM OTS-OCH 0/0/0/12/x

14

Parent Controller: OTS0/0/0/13

Child Controller: COM OTS-OCH 0/0/0/13/x

15

Parent Controller: OTS0/0/0/14

Child Controller: COM OTS-OCH 0/0/0/14/x

16

Parent Controller: OTS0/0/0/15

Child Controller: COM OTS-OCH 0/0/0/15/x

17

Parent Controller: OTS0/0/0/16

Child Controller: COM OTS-OCH 0/0/0/16/x

18

Parent Controller: OTS0/0/0/17

Child Controller: COM OTS-OCH 0/0/0/17/x

19

Parent Controller: OTS0/0/0/18-25

Child Controller: COM OTS-OCH 0/0/0/18-25/x

20

Parent Controller: OTS0/0/0/26-33

Child Controller: COM OTS-OCH 0/0/0/26-33/x

Figure 13. NCS1K-E-OLT-R-C

Note


In the following image, the port that is highlighted in red indicate the Raman port.


NCS1K-E-OLT-R-C Port Mapping
Table 15. NCS1K-E-OLT-R-C Port Mapping

1

Parent Controller: OTS0/0/0/0

Child Controller: OSC0/0/0/0, Line OTS-OCH 0/0/0/0/x

2

Parent Controller: OTS0/0/0/1

3

Parent Controller: OTS0/0/0/2

Child Controller: COM OTS-OCH 0/0/0/2/x

4

Parent Controller: OTS0/0/0/3

Child Controller: COM OTS-OCH 0/0/0/3/x

5

Parent Controller: OTS0/0/0/4

Child Controller: COM OTS-OCH 0/0/0/4/x

6

Parent Controller: OTS0/0/0/5

Child Controller: COM OTS-OCH 0/0/0/5/x

7

Parent Controller: OTS0/0/0/6

Child Controller: COM OTS-OCH 0/0/0/6/x

8

Parent Controller: OTS0/0/0/7

Child Controller: COM OTS-OCH 0/0/0/7/x

9

Parent Controller: OTS0/0/0/8

Child Controller: COM OTS-OCH 0/0/0/8/x

10

Parent Controller: OTS0/0/0/9

Child Controller: COM OTS-OCH 0/0/0/9/x

11

Parent Controller: OTS0/0/0/10

Child Controller: COM OTS-OCH 0/0/0/10/x

12

Parent Controller: OTS0/0/0/11

Child Controller: COM OTS-OCH 0/0/0/11/x

13

Parent Controller: OTS0/0/0/12

Child Controller: COM OTS-OCH 0/0/0/12/x

14

Parent Controller: OTS0/0/0/13

Child Controller: COM OTS-OCH 0/0/0/13/x

15

Parent Controller: OTS0/0/0/14

Child Controller: COM OTS-OCH 0/0/0/14/x

16

Parent Controller: OTS0/0/0/15

Child Controller: COM OTS-OCH 0/0/0/15/x

17

Parent Controller: OTS0/0/0/16

Child Controller: COM OTS-OCH 0/0/0/16/x

18

Parent Controller: OTS0/0/0/17

Child Controller: COM OTS-OCH 0/0/0/17/x

19

Parent Controller: OTS0/0/0/18-25

Child Controller: COM OTS-OCH 0/0/0/18-25/x

20

Parent Controller: OTS0/0/0/26-33

Child Controller: COM OTS-OCH 0/0/0/26-33/x

To view the platform information, use the following command:

RP/0/RP0/CPU0:ios#s

The following output highlights the NCS1K-OLT-R-C card type for the OLT controller model.

Wed Jun 29 16:00:14.373 UTC
Node              Type                     State                    Config state
--------------------------------------------------------------------------------
0/RP0/CPU0        NCS1010-CNTLR-K9(Active) IOS XR RUN               NSHUT,NMON
0/PM0             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/PM1             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/FT0             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/FT1             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/0/NXR0          NCS1K-OLT-R-C            OPERATIONAL              NSHUT,NMON
0/2               NCS1K-BRK-SA             OPERATIONAL              NSHUT,NMON
0/2/0             NCS1K-BRK-8              OPERATIONAL              NSHUT,NMON
0/2/1             NCS1K-BRK-16             OPERATIONAL              NSHUT,NMON
0/2/2             NCS1K-BRK-24             OPERATIONAL              NSHUT,NMON
RP/0/RP0/CPU0:ios#

The following output highlights the NCS1K-E-OLT-R-C card type for the OLT controller model.

Fri Jun  9 07:04:19.710 UTC
Node              Type                     State                    Config state
--------------------------------------------------------------------------------
0/RP0/CPU0        NCS1010-CNTLR-K9(Active) IOS XR RUN               NSHUT,NMON
0/PM0             NCS1010-AC-PSU           OPERATIONAL              NSHUT,NMON
0/PM1             NCS1010-AC-PSU           OFFLINE                  NSHUT,NMON
0/FT0             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/FT1             NCS1010-FAN              OPERATIONAL              NSHUT,NMON
0/0/NXR0          NCS1K-E-OLT-R-C          OPERATIONAL              NSHUT,NMON

To view the OTS controller status on the NCS1K-OLT-R-C line card, use the show controller description command.

RP/0/RP0/CPU0:ios#show controller description

The following output highlights the status of the OTS controller interfaces (ots0/0/0/0…ots0/0/0/33) on the OLT cards

Wed Jun 29 16:03:59.914 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Dfb0/0/0/0                  up
Osc0/0/0/0                  up
Ots0/0/0/0                  up
Ots0/0/0/1                  up
Ots0/0/0/2                  up
.
.
Output snipped
.
.
Ots0/0/0/30                 up
Ots0/0/0/31                 up
Ots0/0/0/32                 up
Ots0/0/0/33                 up

To view the parameters of the LINE 0 OTS controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/0

The following output displays the parameters of the LINE 0 OTS controller ots 0/0/0/0.

Wed Jun 29 16:07:16.771 UTC

 Controller State: Up

 Transport Admin State: In Service

 LED State: Green

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 0
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------
         Total RX Power(C+L) = -10.00 dBm
         Total TX Power(C+L) = 20.00 dBm
         Total RX Power = 20.00 dBm
         Total TX Power = 20.00 dBm
         RX Signal Power = 20.00 dBm
         TX Signal Power = 20.00 dBm
         TX Voa Attenuation = 0.0 dB
         Ingress Ampli Gain = 12.0 dB
         Ingress Ampli Tilt = 0.0 dB
         Ingress Ampli Gain Range = Normal
         Ingress Ampli Safety Control mode = auto
         Ingress Ampli Osri = OFF
         Ingress Ampli Force Apr = OFF
         Egress Ampli Gain = 16.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF



         Configured Parameters:
         -------------
         
         TX Voa Attenuation = 0.0 dB
         Ingress Ampli Gain = 12.0 dB
         Ingress Ampli Tilt = 0.0 dB
         Ingress Ampli Gain Range = Normal
         Ingress Ampli Safety Control mode = auto
         Ingress Ampli Osri = OFF
         Ingress Ampli Force Apr = OFF
         Egress Ampli Gain = 16.0 dB
         Egress Ampli Tilt = 0.0 dB
         Egress Ampli Safety Control mode = auto
         Egress Ampli Osri = OFF
         Egress Ampli Force Apr = OFF

To view the Raman parameters of the LINE 0 OTS controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/0 raman-info

The following output displays the Raman parameters of the LINE 0 OTS controller ots 0/0/0/0.

Wed Mar 23 06:02:41.093 UTC

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RAMAN-AUTO-POW-RED = 0
         RAMAN-1-LOW-POW = 0
         RAMAN-2-LOW-POW = 0
         RAMAN-3-LOW-POW = 0
         RAMAN-4-LOW-POW = 0
         RAMAN-5-LOW-POW = 0
         RAMAN-1-HIGH-POW = 0
         RAMAN-2-HIGH-POW = 0
         RAMAN-3-HIGH-POW = 0
         RAMAN-4-HIGH-POW = 0
         RAMAN-5-HIGH-POW = 0

         Parameter Statistics:
         ---------------------
         Raman Safety Control mode = auto
         Raman Osri = OFF
         Raman Force Apr = OFF
         Composite Raman Power = 10.40 mW

         RAMAN Pump Info:
         ---------------------
         Instance        Wavelength(nm)  Power(mW)
          1               1424.00                 0.00
          2               1438.00                 0.10
          3               1457.00                 10.00
          4               1470.00                 0.20
          5               1495.00                 1.20



         Configured Parameters:
         -------------
         Raman Safety Control mode = auto
         Raman Osri = OFF
         Raman Force Apr = OFF

         RAMAN Pump Info:
         ---------------------
         Instance        Power(mW)
          1               45.00
          2               40.00
          3               40.00
          4               40.00
          5               35.00

To view the parameters on OTS port 2 or 3, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/2

The following output displays the parameters of the OTS port 2 controller ots 0/0/0/2.

Wed Mar 23 06:14:53.465 UTC

 Controller State: Down

 Transport Admin State: In Service

 LED State: Red

         Alarm Status:
         -------------
         Detected Alarms:
                 RX-LOS-P
                 TX-POWER-FAIL-LOW

         Alarm Statistics:
         -----------------
         LOW-TX-PWR = 0
         RX-LOS-P = 1
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 1
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------
         Total RX Power = -50.00 dBm
         Total TX Power = -50.00 dBm
         Ingress Ampli Gain = 0.0 dB
         Ingress Ampli Tilt = 0.0 dB



         Configured Parameters:
         -------------
         Ingress Ampli Gain = 16.0 dB
         Ingress Ampli Tilt = 0.0 dB
RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/1
Wed Mar 23 06:17:57.475 UTC

 Controller State: Down

 Transport Admin State: In Service

 LED State: Red

         Alarm Status:
         -------------
         Detected Alarms:
                 RX-LOS-P
                 TX-POWER-FAIL-LOW

         Alarm Statistics:
         -----------------
         LOW-TX-PWR = 0
         RX-LOS-P = 1
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 1
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------



         Configured Parameters:
         -------------
RP/0/RP0/CPU0:OLT-C-14#sh controllers ots 0/0/0/1
Mon Feb 27 20:34:00.257 UTC

Controller State: Up

Transport Admin State: In Service

LED State: Green

Alarm Status:
-------------
Detected Alarms: None


Alarm Statistics:
-----------------
RX-LOS-P = 1
RX-LOC = 0
TX-POWER-FAIL-LOW = 2
INGRESS-AUTO-LASER-SHUT = 0
INGRESS-AUTO-POW-RED = 0
INGRESS-AMPLI-GAIN-LOW = 0
INGRESS-AMPLI-GAIN-HIGH = 0
EGRESS-AUTO-LASER-SHUT = 0
EGRESS-AUTO-POW-RED = 0
EGRESS-AMPLI-GAIN-LOW = 0
EGRESS-AMPLI-GAIN-HIGH = 0
HIGH-TX-BR-PWR = 0
HIGH-RX-BR-PWR = 0
SPAN-TOO-SHORT-TX = 0
SPAN-TOO-SHORT-RX = 0

Parameter Statistics:
---------------------
Total Rx Power = 19.39 dBm
Total Tx Power = 3.99 dBm



Configured Parameters:
-------------

RP/0/RP0/CPU0:OLT-C-14#

To view the parameters on the MPO port, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/33

The following output displays the paramters for the MPO port ots 0/0/0/33.

Sun Apr 10 14:04:40.513 UTC

 Controller State: Up

 Transport Admin State: In Service

 LED State: Green

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         RX-LOC = 0
         TX-POWER-FAIL-LOW = 0
         INGRESS-AUTO-LASER-SHUT = 0
         INGRESS-AUTO-POW-RED = 0
         INGRESS-AMPLI-GAIN-LOW = 0
         INGRESS-AMPLI-GAIN-HIGH = 0
         EGRESS-AUTO-LASER-SHUT = 0
         EGRESS-AUTO-POW-RED = 0
         EGRESS-AMPLI-GAIN-LOW = 0
         EGRESS-AMPLI-GAIN-HIGH = 0
         HIGH-TX-BR-PWR = 0
         HIGH-RX-BR-PWR = 0
         SPAN-TOO-SHORT-TX = 0
         SPAN-TOO-SHORT-RX = 0

         Parameter Statistics:
         ---------------------
         Total RX Power = -5.00 dBm
         Total TX Power = -10.50 dBm



         Configured Parameters:
         -------------

Configure OTS Controllers

The Optical Transport Section (OTS) controller holds all the optical parameters for the OTS optical interfaces. The optical interface has different capabilities depending on its hardware components such as photodiode, VOA, amplifier, and OCM.

There are multiple parameters for the OTS controllers. You can configure the parameters that are required for the different configuration for an OTS controller on an ILA node by using the following commands in the Ots controller configuration mode:

  • tx-voa-attenuation value

  • egress-ampli-gain-range {normal | extended}

  • egress-ampli-gain value

  • egress-ampli-tilt value

  • egress-ampli-osri {on | off}

  • egress-ampli-safety-control-mode {auto | disabled}

  • egress-ampli-force-apr {on | off}

  • raman-tx-power Raman-transmit-pump-instance power power-value

  • raman-tx-power-disable Raman-transmit-pump-instance

  • raman-force-apr {on | off}

  • raman-osri {on | off}

  • raman-safety-control-mode {auto | disabled}

There are multiple parameters for the OTS controllers. You can configure the parameters that are required for the different configuration for an OTS controller on an OLT node by using the following commands in the Ots controller configuration mode:

  • tx-voa-attenuation value

  • egress-ampli-gain value

  • egress-ampli-tilt value

  • egress-ampli-osri {on | off}

  • egress-ampli-safety-control-mode {auto | disabled}

  • egress-ampli-force-apr {on | off}

  • egress-channel-slice channel-slice attn attenuation-value

  • ingress-ampli-gain-range {normal | extended}

  • ingress-ampli-gain value

  • ingress-ampli-tilt value

  • ingress-ampli-osri {on | off}

  • ingress-ampli-safety-control-mode {auto | disabled}

  • ingress-ampli-force-apr {on | off}

  • ingress-channel-slice channel-slice attn attenuation-value

  • raman-tx-power Raman-transmit-pump-instance power power-value

  • raman-tx-power-disable Raman-transmit-pump-instance

  • raman-force-apr {on | off}

  • raman-osri {on | off}

  • raman-safety-control-mode {auto | disabled}

OTS Controller Configuration Parameters

Table 16. OTS Controller Configuration Parameters

Parameter

Description

Hardware Capability

Range

Default

Notes

tx-voa- attenuation

TX VOA attenuation set point

VOA

  • OLT: 0–20 dB

  • ILA: 0–15 dB

0.0

ampli- safety-control-mode

(ingress/egress)

Amplifier control mode

Amplifier

auto and disabled

automatic

ampli-gain-range

(ingress/egress)

Amplifier gain range

Amplifier

normal and extended

normal

If you change the gain range from Normal to Extended or the opposite way, without updating the proper gain value for the new gain range, then the following may happen:

  • The EDFA switches to the preconfigured or default value of the gain causing a mismatch between the operational and configured gain.

  • The gain configuration is lost during the reload of software or line card, as the configured gain mismatches with the latest gain-range. This may result in traffic interruption during these reload operations.

Hence, we recommend that you explicitly configure the gain range mode as normal or extended, and the corresponding gain values for each mode to get the expected results.

The following are a few example scenarios that may not work as expected:

  • Scenario 1:

    Current running config:

    controller Ots R/S/I/P
     egress-ampli-gain-range extended
     egress-ampli-gain <gain value in extended mode>
      

    New applied config:

    controller Ots R/S/I/P
     no egress-ampli-gain-range extended
     commit
  • Scenario 2:

    Current running config:

    controller Ots R/S/I/P
     egress-ampli-gain-range extended
     egress-ampli-gain <gain value in extended mode>
      

    New applied config:

    controller Ots R/S/I/P
     egress-ampli-gain-range Normal
     commit
    
  • Scenario 3:

    Current running config:

    controller Ots R/S/I/P
    egress-ampli-gain <gain value in normal mode>

    New applied config:

    controller Ots R/S/I/P
    egress-ampli-gain-range extended
    commit
    

The following is another example scenario that involves commit-replace command where you replace the existing gain configuration that does not have explicitly configured gain-range, with new gain-range and gain value.

Scenario 4:

Current running config:

controller Ots R/S/I/P
egress-ampli-gain <gain value in normal mode>

New applied config:

…………..
controller Ots R/S/I/P
egress-ampli-gain-range extended
egress-ampli-gain <gain value in extended mode>
commit replace

ampli-gain

(ingress/egress)

Amplifier gain set point

Amplifier

80–380

OLT ingress: 12, egress: 16

ILA: 8

The actual range of amplifier gain set point depends on amplifier gain range.

Note

 

Gain is calibrated to line port and so the supported range varies in Raman variants (OLT-C-R, ILA-C-R, and ILA-C-2R) due to insertion loss by Raman amplifier.

ampli-tilt

(ingress/egress)

Amplifier tilt

Amplifier

–5 to +5

0.0

osri

(ingress/egress)

Optical safety remote interlock

Amplifier

on and off

off

When osri is on, the EDFA is in shut state and vice versa.

ampli-force-apr

(ingress/egress)

Amplifier

on and off

off

When ampli-force-apr is set to on, the EDFA output power is clamped to 8 dBm.

channel-slice channel-slice attn attenuation

(ingress/egress)

Channel slice attenuation set point

1–1548 (channel slice)

OLT: 0–250 (attenuation value in 0.1 dB)

ILA: 0–50 (attenuation value in 0.1 dB)

0.0

raman-tx-power pump instance value value

Tx power

Raman amplifier

1–5 (pump instance)

The values are:

  • Pump1: 45–390

  • Pump 2: 40–390

  • Pump 3: 40–220

  • Pump 4: 40–220

  • Pump 5: 35–190

raman-tx- power-disable pump instance

Tx power

Raman amplifier

raman-force-apr

Raman amplifier

on and off

off

When raman-force-apr is set to on, the Raman pump maximum output power is clamped to 10 mW.

raman-osri

Optical safety remote interlock

Raman amplifier

on and off

off

When raman-osri is set to on, the Raman pumps are switched off.

Channel Slice Attenuation

The attenuation for the channel slices is automatically configured by APC.

To view the channel slice attenuation information, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/0 channel-slice-attenuation-info

The following sample output shows the channel slice attenuation information:


Sun Mar 27 15:27:27.600 UTC

 Attenuation Slices spacing     :            3.125 GHz
 Attenuation Slices Range       :            1 - 1548
 Slice start wavelength         :            1566.82 nm
 Slice start frequency          :            191337.50 GHz

 Sub Channel Attenuation information :
 Ingress Channel Slice Attenuation :
 ----------------------------------------------------------------------------------
 spectrum-slice num                 Attenuation values (dB)
 ----------------------------------------------------------------------------------
   1 - 12     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  13 - 24     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  25 - 36     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  37 - 48     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  49 - 60     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  61 - 72     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  .
  .
  output snipped
  .
  .
 1501 - 1512   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1513 - 1524   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1525 - 1536   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1537 - 1548   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 ----------------------------------------------------------------------------------
 Egress Channel Slice Attenuation :
 ----------------------------------------------------------------------------------
 spectrum-slice num                        Attenuation values (dB)
 ----------------------------------------------------------------------------------
   1 - 12     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  13 - 24     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  25 - 36     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  37 - 48     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  49 - 60     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  61 - 72     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  .
  .
  output snipped
  .
  .
 1501 - 1512   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1513 - 1524   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1525 - 1536   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1537 - 1548   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0

To modify the attenuation values manually, APC must be disabled first using the following commands:

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#optical-line-control controller ots 0/0/0/0 apc disable
RP/0/RP0/CPU0:ios(config)#commit

For more information on APC commands, see the section, "Configure APC".

To modify the attenuation value for an egress channel slice, use the following commands:


Note


The OTS controller commands do not support decimal inputs. The OTS controller commands consider the inputs to one decimal place for the parameter values. In the following example, the attn value for the egress-channel-slice 10 is provided as 100 to configure the attn value for the egress-channel-slice 10 to 10.0 dB.


RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0 egress-channel-slice 10 attn 100
RP/0/RP0/CPU0:ios(config)#commit
Sun Apr 10 14:47:37.849 UTC
RP/0/RP0/CPU0:ios(config)#end

To view the modified attenuation value for egress channel slice 10, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/0 channel-slice-attenuation-info

The following output highlights the modified attenuation value for egress channel slice 10 that is set to 10.0 dB.

Sun Apr 10 14:47:47.050 UTC

 Attenuation Slices spacing     :            3.125 GHz
 Attenuation Slices Range       :            1 - 1548
 Slice start wavelength         :            1566.82 nm
 Slice start frequency          :            191337.50 GHz

 Sub Channel Attenuation information :
 Ingress Channel Slice Attenuation :
 ----------------------------------------------------------------------------------
 spectrum-slice num                 Attenuation values (dB)
 ----------------------------------------------------------------------------------
   1 - 12     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  13 - 24     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  25 - 36     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  37 - 48     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  49 - 60     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  61 - 72     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  .
  .
  output snipped
  .
  . 
 1501 - 1512   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1513 - 1524   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1525 - 1536   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1537 - 1548   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 ----------------------------------------------------------------------------------
 Egress Channel Slice Attenuation :
 ----------------------------------------------------------------------------------
 spectrum-slice num                        Attenuation values (dB)
 ----------------------------------------------------------------------------------
   1 - 12     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   10.0   25.0   25.0
  13 - 24     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  25 - 36     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  37 - 48     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  49 - 60     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  61 - 72     25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
  .
  .
  output snipped
  .
  . 
 1501 - 1512   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1513 - 1524   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1525 - 1536   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
 1537 - 1548   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0   25.0
RP/0/RP0/CPU0:ios#

Examples

In the following example, the tx-voa-attenuation is set to 10 dB.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#tx-voa-attenuation 100
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-ampli-gain is set to 20 dB.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-gain 200
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-ampli-tilt is set to 2.5 dB.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-tilt 25
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following examples, the egress-ampli-gain-range is set to extended and Normal.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-gain-range extended
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-gain 360
RP/0/RP0/CPU0:ios(config-Ots)#commit
RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-gain-range normal
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-gain 150
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-ampli-safety-control-mode is set to auto.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-safety-control-mode auto
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-ampli-osri is set to on.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-osri on
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-ampli-force-apr is set to on.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-ampli-force-apr on
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the egress-channel-slice attenuation is set to 20 dB.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#egress-channel-slice 1 attn 200
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, to establish connection using the existing GRPC framework.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#optical-line-control
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#partner-band-port ipv4 address 10.10.1.2
RP/0/RP0/CPU0:ios(config-Ots)#controller Ots0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the raman-tx-power is set to 55 mW.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#raman-tx-power 1 value 5500
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the raman-force-apr is set to on.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#raman-force-apr on
RP/0/RP0/CPU0:ios(config-Ots)#commit

In the following example, the raman-osri is set to on.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller ots 0/0/0/0
RP/0/RP0/CPU0:ios(config-Ots)#raman-osri on
RP/0/RP0/CPU0:ios(config-Ots)#commit

Configure Partner Band IP Address

NCS1010 can be configured to operate in both C and L-band wavelengths to increase the capacity of optical fibers. This can be done by connecting the C-band OLT or ILA line cards to the L-band OLT or ILA line cards respectively.

To establish a connection between C and L-band nodes, configure the L-band peer IP on C-band node and C-band peer IP on L-band node using the following commands in the Optical Line Control configuration:

optical-line-control

controller ots Rack/Slot/Instance/Port

partner-band-port ipv4 address ip-address controller ots Rack/Slot/Instance/Port

Example

The following output displays the peer node L-band IP address 192.168.1.2 is configured on the C-band node.

RP/0/RP0/CPU0:ios#conf
Wed Jul  6 04:45:47.720 UTC
RP/0/RP0/CPU0:ios(config)#optical-line-control controller Ots0/0/0/0
RP/0/RP0/CPU0:ios(config)#partner-band-port ipv4 address 192.168.1.2 controller Ots0/0/0/0 

Note


The above configuration needs to be made on all the C and L-band nods in the Optical Line Control configuration mode.


OTS-OCH Controllers

The OTS-OCH controllers are not created by default when the cards (NCS1K-ILA-2R-C, NCS1K-ILA-R-C, NCS1K-ILA-C, NCS1K-OLT-R-C, and NCS1K-OLT-C) are brought up. The LINE OTS-OCH controllers can be created using the hw-module command.

Optical Cross Connections

Optical Cross Connections can be configured only on OLT nodes. In these nodes, the OTS-OCH controller is not created automatically on the Add/Drop ports (COM side). The optical cross connect configuration defines the line side OTS-OCH channel as the source and creates an OTS-OCH controller on the Add/Drop port to which the cross connection is made. The channel ID must be the same for both the LINE side and COM side OTS-OCH controllers.

Flex Grid Validation

The following validations are performed before the hw-module configurations are committed:

  • The channel ID is any value 1–194.

  • The center frequency must be within the C-band spectrum , for the OLT-C cards. The frequency range is 191.3375-196.1750 THz.

  • The center frequency must be within the L-band spectrum, for the OLT-L card. The frequency range is 184.6153-190.8875 THz.

  • The supported channel width range is 25.000GHz to 4837.500 GHz. From Release 7.9.1, overlap of channels is permitted as Nyquist channels are supported. See #Cisco_Concept.dita_da0d66f6-405e-4db6-8845-1578e253f5bd__.

  • From Release 7.9.1, you can set the channel centre frequency and width with 1MHz resolution.

Create OTS-OCH Controllers

To create the OTS-OCH controllers on the LINE side of the ILA-C, ILA-R-C, or ILA-2R-C node, use the following commands in the configuration mode:

  • hw-module location location inline-ampli grid-mode mode

  • channel-id channel-id centre-freq frequency width channel-width

To create the OTS-OCH controllers on the LINE side of the ILA-C node, use the following commands:

RP/0/RP0/CPU0:ios#configure
Thu Apr  7 13:14:49.841 UTC
RP/0/RP0/CPU0:ios(config)#
RP/0/RP0/CPU0:ios(config)#hw-module location 0/0/NXR0 inline-ampli grid-mode flex
RP/0/RP0/CPU0:ios(config-hwmod-ila-flexi)#channel-id 1 centre-freq 196.1 width 75
RP/0/RP0/CPU0:ios(config-hwmod-ila-flexi)# commit

The OTS-OCH controller is created on both the LINE 0 and LINE 2 ports of the ILA-C node. To view the OTS-OCH controllers, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots-och ?

The following output displays the OTS-OCH controller is created on both the LINE 0 and LINE 2 ports of the ILA-C node.

  0/0/0/0/1             Ots-Och Interface Instance
  0/0/0/2/1             Ots-Och Interface Instance
  R/S/I/P/B or R/S/I/P  Forward interface in Rack/Slot/Instance/Port/Breakout format or R/S/I/P format

To view the parameters of the OTS-OCH controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots-och 0/0/0/0/1

The following output displays the parameters of the OTS-OCH controller.

Thu Apr  7 13:22:29.125 UTC

 Controller State: Up

 Transport Admin State: In Service

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total RX Power = -10.50 dBm
         Total TX Power = -10.50 dBm



         Configured Parameters:
         -------------

To create the OTS-OCH controller on the LINE side of the OLT-C or OLT-R-C node, use the following commands in the configuration mode:

  • hw-module location location terminal-ampli grid-mode mode

  • channel-id channel-id centre-freq frequency width channel-width

To configure the optical cross-connect, use the following command in the configuration mode:

controller ots-och Rack/Slot/Instance/Port/Channel-id-number add-drop-channel ots-och Rack/Slot/Instance/Port/Channel-id-number

To create the OTS-OCH controller on the LINE side of an OLT-R-C node, use the following commands:

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#hw-module location 0/0/nxr0 terminal-ampli grid-mode flex
RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)#channel-id 1 centre-freq 196.1 width 75
RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)#commit

To view the OTS-OCH controller that is created on the LINE side, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots-och ?

The following output highlights the OTS-OCH controller that is created on the LINE side.

  0/0/0/0/1             Ots-Och Interface Instance
  R/S/I/P/B or R/S/I/P  Forward interface in Rack/Slot/Instance/Port/Breakout format or R/S/I/P format

To configure the optical cross-connect, use the following commands:

RP/0/RP0/CPU0:ios#configure
Mon Apr  4 14:54:32.834 UTC
RP/0/RP0/CPU0:ios(config)#controller ots-och 0/0/0/0/1 add-drop-channel ots-och 0/0/0/33/1
RP/0/RP0/CPU0:ios(config)#commit

The OTS-OCH controller is created on the Add/Drop port to which the cross-connection is made on the COM side. To view the OTS-OCH controller, use the following command:

RP/0/RP0/CPU0:ios#show controller ots-och ?

The following output highlights the OTS-OCH controller that is created on the Add/Drop port to which the cross-connection is made on the COM side.

  0/0/0/0/1             Ots-Och Interface Instance
  0/0/0/33/1            Ots-Och Interface Instance
  R/S/I/P/B or R/S/I/P  Forward interface in Rack/Slot/Instance/Port/Breakout format or R/S/I/P format

You can also use python-based configuration script to automatically create 75 or 150 GHz fixed grid channels on ports 2 and 3 using the following commands:

RP/0/RP0/CPU0:ios#configure
RP/0/RP0/CPU0:ios(config)#load script /pkg/script/flexgrid_config_builder.py args -w75 -c terminal-ampli
Loading.
6839 bytes parsed in 1 sec (6835)bytes/sec
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

Note


This script can be used only for a colored solution that uses the NCS1K-MD-32O/E-C patch panel with fixed channel width.


To view the OTS-OCH controllers, use the following command:

RP/0/RP0/CPU0:ios#show controllers ots-och ?

The following output displays the OTS-OCH controller interfaces:

  0/0/0/0/1             Ots-Och Interface Instance
  0/0/0/0/10            Ots-Och Interface Instance
  .
  .
  output snipped
  .
  .
  0/0/0/0/29            Ots-Och Interface Instance
  0/0/0/0/3             Ots-Och Interface Instance
  0/0/0/0/49            Ots-Och Interface Instance
  0/0/0/0/5             Ots-Och Interface Instance
  .
  .
  output snipped
  .
  .
  0/0/0/0/64            Ots-Och Interface Instance
  0/0/0/0/7             Ots-Och Interface Instance
  0/0/0/0/8             Ots-Och Interface Instance
  0/0/0/0/9             Ots-Och Interface Instance
  R/S/I/P/B or R/S/I/P  Forward interface in Rack/Slot/Instance/Port/Breakout format or R/S/I/P format
  

To view the flex grid information on the OLT node, use the following command:

RP/0/RP0/CPU0:ios#show hw-module location 0/0/NXR0 terminal-ampli

The following output displays the flex grid information on the OLT node.

Tue Jun 28 15:46:07.026 UTC

Legend:
NXC    - Channel not cross-connected
ACTIVE - Channel cross-connected to data port
ASE    - Channel filled with ASE
FAILED - Data channel failed, pending transition to ASE

Location:             0/0/NXR0

Status:               Provisioned

Flex Grid Info

Channel Number      Centre Frequency(THz)       Channel Width(GHz)    Channel Status
1                   196.100000                  75.000                NXC
2                   196.025000                  75.000                NXC
3                   195.950000                  75.000                NXC
4                   195.875000                  75.000                NXC
5                   195.800000                  75.000                NXC
6                   195.725000                  75.000                NXC
7                   195.650000                  75.000                NXC
8                   195.575000                  75.000                NXC
9                   195.500000                  75.000                NXC
10                  195.425000                  75.000                NXC
11                  195.350000                  75.000                NXC
12                  195.275000                  75.000                NXC
13                  195.200000                  75.000                NXC
14                  195.125000                  75.000                NXC
15                  195.050000                  75.000                NXC
16                  194.975000                  75.000                NXC
17                  194.900000                  75.000                NXC
18                  194.825000                  75.000                NXC
19                  194.750000                  75.000                NXC
20                  194.675000                  75.000                NXC
21                  194.600000                  75.000                NXC
22                  194.525000                  75.000                NXC
23                  194.450000                  75.000                NXC
24                  194.375000                  75.000                NXC
25                  194.300000                  75.000                NXC
26                  194.225000                  75.000                NXC
27                  194.150000                  75.000                NXC
28                  194.075000                  75.000                NXC
29                  194.000000                  75.000                NXC
30                  193.925000                  75.000                NXC
31                  193.850000                  75.000                NXC
32                  193.775000                  75.000                NXC
33                  193.700000                  75.000                NXC
34                  193.625000                  75.000                NXC
35                  193.550000                  75.000                NXC
36                  193.475000                  75.000                NXC
37                  193.400000                  75.000                NXC
38                  193.325000                  75.000                NXC
39                  193.250000                  75.000                NXC
40                  193.175000                  75.000                NXC
41                  193.100000                  75.000                NXC
42                  193.025000                  75.000                NXC
43                  192.950000                  75.000                NXC
44                  192.875000                  75.000                NXC
45                  192.800000                  75.000                NXC
46                  192.725000                  75.000                NXC
47                  192.650000                  75.000                NXC
48                  192.575000                  75.000                NXC
49                  192.500000                  75.000                NXC
50                  192.425000                  75.000                NXC
51                  192.350000                  75.000                NXC
52                  192.275000                  75.000                NXC
53                  192.200000                  75.000                NXC
54                  192.125000                  75.000                NXC
55                  192.050000                  75.000                NXC
56                  191.975000                  75.000                NXC
57                  191.900000                  75.000                NXC
58                  191.825000                  75.000                NXC
59                  191.750000                  75.000                NXC
60                  191.675000                  75.000                NXC
61                  191.600000                  75.000                NXC
62                  191.525000                  75.000                NXC
63                  191.450000                  75.000                NXC
64                  191.375000                  75.000                NXC


Note


The legend provides information about the channel's status. By default, the channels are brought up with NXC channel status.

The channel's status is preserved after HA events.


To view the flex grid information on the ILA node, use the following command:

RP/0/RP0/CPU0:ios#show hw-module location 0/0/nxr0 inline-ampli

The following output displays the flex grid information on the ILA node.

Sat Jul  2 02:46:33.657 UTC
Location:             0/0/NXR0
Status:               Provisioned
Flex Grid Info
Channel Number      Centre Frequency(THz)       Channel Width(GHz)
1                   191.375000                  75.000
2                   191.450000                  75.000
3                   191.525000                  75.000
4                   191.600000                  75.000
5                   191.675000                  75.000
6                   191.750000                  75.000
7                   191.825000                  75.000
8                   191.900000                  75.000
9                   191.975000                  75.000
10                  192.050000                  75.000
11                  192.125000                  75.000
12                  192.200000                  75.000
13                  192.275000                  75.000
14                  192.350000                  75.000
15                  192.425000                  75.000
16                  192.500000                  75.000
17                  192.575000                  75.000
18                  192.650000                  75.000
19                  192.725000                  75.000
20                  192.800000                  75.000
21                  192.875000                  75.000
22                  192.950000                  75.000
23                  193.025000                  75.000
24                  193.100000                  75.000
25                  193.175000                  75.000
26                  193.250000                  75.000
27                  193.325000                  75.000
28                  193.400000                  75.000
29                  193.475000                  75.000
30                  193.550000                  75.000
31                  193.625000                  75.000
32                  193.700000                  75.000
33                  193.775000                  75.000
34                  193.850000                  75.000
35                  193.925000                  75.000
36                  194.000000                  75.000
37                  194.075000                  75.000
38                  194.150000                  75.000
39                  194.225000                  75.000
40                  194.300000                  75.000
41                  194.375000                  75.000
42                  194.450000                  75.000
43                  194.525000                  75.000
44                  194.600000                  75.000
45                  194.675000                  75.000
46                  194.750000                  75.000
47                  194.825000                  75.000
48                  194.900000                  75.000
49                  194.975000                  75.000
50                  195.050000                  75.000
51                  195.125000                  75.000
52                  195.200000                  75.000
53                  195.275000                  75.000
54                  195.350000                  75.000
55                  195.425000                  75.000
56                  195.500000                  75.000
57                  195.575000                  75.000
58                  195.650000                  75.000
59                  195.725000                  75.000
60                  195.800000                  75.000
61                  195.875000                  75.000
62                  195.950000                  75.000
63                  196.025000                  75.000
64                  196.100000                  75.000

To view the parameters of the OTS-OCH controller (LINE side), use the following command:

RP/0/RP0/CPU0:ios#show controllers ots-och 0/0/0/0/1

The following output displays the parameters of the OTS-OCH controller on the LINE side.

Tue Apr  5 06:32:29.696 UTC

 Controller State: Up

 Transport Admin State: In Service

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total RX Power = -10.50 dBm
         Total TX Power = -10.50 dBm


         Cross Connect Info:
         ---------------------
         Add-Drop Channel  = Ots-Och0/0/0/33/1




         Configured Parameters:
         -------------

Note


The Add/Drop channel that is cross-connected to the line port, 0/0/0/0/1 is displayed in the output.


DFB Controllers

The line port in the NCS1K-E-ILA-R-C-2, NCS1K-E-OLT-R-C, NCS1K-E-ILA-R-C, NCS1K-E-ILA-2R-C, NCS1K-OLT-R-C, NCS1K-ILA-R-C, and NCS1K-ILA-2R-C line cards have a DFB (Distributed Feedback) controller in addition to the OSC controller. The DFB laser at 191.1 THz is used to perform a link continuity check on the Raman span for optical safety. The power of DFB laser can be regulated with a VOA.

To view the parameters of the LINE 0 DFB controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers dfb 0/0/0/0

The following output displays the parameters of the LINE 0 DFB controller.

Wed Mar 23 06:05:09.074 UTC

 Controller State: Up

 Transport Admin State: In Service

 Laser State: On

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 1
         TX-POWER-FAIL-LOW = 106

         Parameter Statistics:
         ---------------------
         Total TX Power = 6.79 dBm
         Total RX Power = -8.30 dBm
         TX Voa Attenuation = 0.0 dB



         Configured Parameters:
         -------------
         TX Voa Attenuation = 0.0 dB

Configure DFB Controllers

There are multiple parameters for the DFB controllers. You can configure the following parameters for a DFB controller on a NCS1K-OLT-R-C, NCS1K-ILA-R-C, or NCS1K-ILA-2R-C node by using the following commands in the configuration mode:

  • controller dfb Rack/Slot/Instance/Port

  • tx-voa-attenuation value

  • tx-low-threshold value

  • sec-admin-state {normal | maintenance}

  • transmit-shutdown

  • shutdown

Examples

In the following example, the tx-voa-attenuation is set to 2 dB.


Note


The DFB controller commands do not support decimal inputs. The DFB controller commands consider the inputs to one decimal place for the parameter values. In this example, the tx-voa-attenuation value for the DFB controller dfb 0/0/0/0 is provided as 20 to configure the tx-voa-attenuation value for dfb 0/0/0/0 to 2.0 dB.


RP/0/RP0/CPU0:ios#configure
Thu Apr 21 17:00:57.654 UTC
RP/0/RP0/CPU0:ios(config)#
RP/0/RP0/CPU0:ios(config)#controller dfb 0/0/0/0 tx-voa-attenuation 20
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

To view the configured tx-voa-attenuation value, use the following command:

RP/0/RP0/CPU0:ios#show controller dfb 0/0/0/0

The following output highlights the tx-voa-attenuation of the DFB controller that is set to 2.0 dB.

Thu Apr 21 17:02:06.316 UTC

 Controller State: Up

 Transport Admin State: In Service

 Laser State: On

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = 20.00 dBm
         Total RX Power = 10.00 dBm
         TX Voa Attenuation = 2.0 dB



         Configured Parameters:
         -------------
         TX Voa Attenuation = 2.0 dB

The DFB laser power is attenuated based on the updated value and the TX power changes accordingly.

In the following example, the sec-admin-state is set to maintenance.

P/0/RP0/CPU0:ios#configure
RP/0/RP0/CPU0:ios(config)#controller dfb 0/0/0/0 sec-admin-state maintenance
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

To view the configured sec-admin-state value, use the following command:

RP/0/RP0/CPU0:ios#show controllers dfb 0/0/0/0

The following output highlights the sec-admin-state set to maintenance.

Thu Apr 21 17:05:41.311 UTC

 Controller State: Up

 Transport Admin State: Maintenance

 Laser State: On

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = 20.00 dBm
         Total RX Power = 10.00 dBm
         TX Voa Attenuation = 2.0 dB



         Configured Parameters:
         -------------
         TX Voa Attenuation = 2.0 dB

In the following example, the DFB controller is shut down.

RP/0/RP0/CPU0:ios#configure
RP/0/RP0/CPU0:ios(config)#controller dfb 0/0/0/0 shutdown
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

To view the configured value, use the following command:

RP/0/RP0/CPU0:ios#show controllers dfb 0/0/0/0

The following output highlights the Controller State, Transport Admin State, and Laser State set to shut down.

Thu Apr 21 17:08:40.211 UTC

 Controller State: Administratively Down

 Transport Admin State: Out Of Service

 Laser State: Off

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = -50.00 dBm 
         Total RX Power = 10.00 dBm
         TX Voa Attenuation = 2.0 dB



         Configured Parameters:
         -------------
         TX Voa Attenuation = 2.0 dB

OSC Controllers

The Optical Service Channel (OSC) controller is used to represent the optical capabilities, configuration, and monitoring of the OSC laser. The corresponding Gigabit Ethernet interface is the child interface that represents Ethernet capabilities, configuration, and monitoring.

OSC provides a communication channel for traffic coming from a UDC port. OSC serves as a channel probe to check fiber continuity between two nodes. OSC provides remote node management functionality. OSC is generated and terminated on each line side. OSC-C operates at a frequency of 198.50 THz and OSC-L operates at a frequency of 184.450 THz.

Nodes with NCS1K-OLT-R-C or NCS1K-OLT-C, NCS1K-OLT-L cards have one OSC controller. To view the status of the OSC controller, use the following command:

RP/0/RP0/CPU0:ios#show controller description

The following output highlights the status of the OSC controller for the NCS1K-OLT-R-C or NCS1K-OLT-C, NCS1K-OLT-L or NCS1K-ILA-L cards.

Tue Apr 12 17:17:51.306 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Osc0/0/0/0                  up
Ots0/0/0/0                  up
Ots0/0/0/1                  up
Ots0/0/0/2                  up
 .
 .
 output snipped
 .
 .
Ots0/0/0/31                 up
Ots0/0/0/32                 up
Ots0/0/0/33                 up

Nodes with NCS1K-ILA-2R-C, NCS1K-ILA-R-C, NCS1K-ILA-L or NCS1K-ILA-C card have two OSC controllers. To view the OSC controllers, use the following command:

RP/0/RP0/CPU0:ios#show controllers description

The following output highlights the status of the OSC controller for the NCS1K-ILA-2R-C, NCS1K-ILA-R-C , NCS1K-ILA-L or NCS1K-ILA-C card.

Tue Apr 12 17:20:20.667 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Osc0/0/0/0                  up
Osc0/0/0/2                  up
Ots0/0/0/0                  up
Ots0/0/0/1                  up
Ots0/0/0/2                  up
Ots0/0/0/3                  up

To view the parameters of the LINE 0 OSC controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers osc 0/0/0/0

The following output shows the parameters of the LINE 0 OSC controller.

Wed Mar 23 06:04:18.565 UTC

 Controller State: Down

 Transport Admin State: In Service

 Laser State: Off

         Alarm Status:
         -------------
         Detected Alarms:
                 RX-LOS-P

         Alarm Statistics:
         -----------------
         RX-LOS-P = 369
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = -50.00 dBm
         Total RX Power = -50.00 dBm



         Configured Parameters:
         -------------

Configure OSC Controllers

There are multiple parameters for the OSC controllers. You can configure the parameters that are required for the different configuration for an OSC controller on an ILA or OLT node by using the following commands in the configuration mode:

  • transmit-power value

  • sec-admin-state {normal | maintenance}

  • tx-low-threshold

  • shutdown

Examples

In the following example, the transmit-power is set to 2 dBm. The OSC Tx power can be changed by configuring the OSC transmit power attribute. This attribute internally regulates the OSC Tx VOA.


Note


The OSC controller commands do not support decimal inputs. The OSC controller commands consider the inputs to one decimal place for the parameter values. In this example, the transmit-power parameter is provided as 20 to configure the transmit-power parameter to 2 dBm.


RP/0/RP0/CPU0:ios(config)#controller osc 0/0/0/0 transmit-power 20
Fri May 13 11:26:53.445 UTC
WARNING! Changing TX power can impact traffic
RP/0/RP0/CPU0:ios(config)#commit
Fri May 13 11:26:55.127 UTC
RP/0/RP0/CPU0:ios(config)#end

To view the parameters of the OSC controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers osc 0/0/0/0

The following output shows the parameters of the OSC controller.

Fri May 13 11:26:59.542 UTC

Controller State: Up

Transport Admin State: In Service

Laser State: On

Alarm Status:
-------------
Detected Alarms: None


Alarm Statistics:
-----------------
RX-LOS-P = 0
TX-POWER-FAIL-LOW = 0

Parameter Statistics:
---------------------
Total TX Power = 1.89 dBm
Total RX Power = -17.30 dBm



Configured Parameters:
-------------

In the following example, the sec-admin-state is set to maintenance.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller osc 0/0/0/0 sec-admin-state maintenance
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

To view the parameters of the OSC controller, use the following command:

RP/0/RP0/CPU0:ios#show controllers osc 0/0/0/0

The following output highlights the Transport Admin State of the OSC controller that is set to Maintenance.

Fri Apr 22 15:55:36.324 UTC

 Controller State: Up

 Transport Admin State: Maintenance

 Laser State: On

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = -10.00 dBm
         Total RX Power = -30.00 dBm



         Configured Parameters:
         -------------

In the following example, the OSC controller is shut down.

P/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#controller osc 0/0/0/0 shutdown
RP/0/RP0/CPU0:ios(config)#commit
RP/0/RP0/CPU0:ios(config)#end

To view the parameters of the OSC controller that is shut down, use the following command:

RP/0/RP0/CPU0:ios#show controllers osc 0/0/0/0

The following output highlights the Controller State, Transport Admin State, and Laser State of the OSC controller that is shut down.

Tue Apr 12 17:33:12.998 UTC

 Controller State: Administratively Down

 Transport Admin State: Out Of Service

 Laser State: Off

         Alarm Status:
         -------------
         Detected Alarms: None


         Alarm Statistics:
         -----------------
         RX-LOS-P = 0
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         Total TX Power = -50.00 dBm 
         Total RX Power = -30.00 dBm



         Configured Parameters:
         -------------

Gigabit Ethernet Interfaces

A Gigabit Ethernet interface represents the packet layer of an OSC channel.

To view the parameters of a Gigabit Ethernet interface, use the following command:

RP/0/RP0/CPU0:ios#show interfaces gigabitEthernet 0/0/0/0

The following output shows the parameters of a Gigabit Ethernet interface.

Tue Apr 19 10:57:18.251 UTC
GigabitEthernet0/0/0/0 is up, line protocol is up
  Interface state transitions: 1
  Hardware is GigabitEthernet, address is 38fd.f866.096c (bia 38fd.f866.096c)  - IP of the OSC controller
  Internet address is 10.7.1.1/24
  MTU 1514 bytes, BW 1000000 Kbit (Max: 1000000 Kbit)
     reliability 255/255, txload 0/255, rxload 0/255
  Encapsulation ARPA,
  Full-duplex, 1000Mb/s, unknown, link type is force-up
  output flow control is off, input flow control is off
  loopback not set,
  Last link flapped 01:14:28
  ARP type ARPA, ARP timeout 04:00:00
  Last input Unknown, output Unknown
  Last clearing of "show interface" counters Unknown
  5 minute input rate 0 bits/sec, 0 packets/sec
  5 minute output rate 0 bits/sec, 0 packets/sec
  
  

To view the IPv4 address of a Gigabit Ethernet interface, use the following command:

RP/0/RP0/CPU0:ios#show ipv4 interface brief

The following output highlights the interface, IPv4 address (IP-Address), status, operational status of the routing protocol (Protocol), VPN routing and forwarding (VRF) instance name (Vrf-Name) of the Gigabit Ethernet interface.

Tue Apr 19 10:58:02.951 UTC

Interface                      IP-Address      Status          Protocol Vrf-Name
Loopback0                      10.3.3.11       Up              Up       default
Loopback3                      10.1.1.1        Up              Up       default
GigabitEthernet0/0/0/0         10.7.1.1        Up              Up       default
MgmtEth0/RP0/CPU0/0            10.33.0.61      Up              Up       default
PTP0/RP0/CPU0/0                unassigned      Shutdown        Down     default
MgmtEth0/RP0/CPU0/1            unassigned      Shutdown        Down     default
PTP0/RP0/CPU0/1                unassigned      Shutdown        Down     default
MgmtEth0/RP0/CPU0/2            unassigned      Shutdown        Down     default

The Gigabit Ethernet interface must be in Up state for the OSC laser to turn up. When the node comes up, the Gigabit Ethernet interface turns to Down state. Run the following commands on the Gigabit Ethernet interface to bring it up.

RP/0/RP0/CPU0:ios#config
RP/0/RP0/CPU0:ios(config)#no interface gigabitEthernet 0/0/0/0 shutdown
RP/0/RP0/CPU0:ios(config)#commit

The UDC ports on the OLT and ILA nodes carry 100 Mbps traffic. To see the port parameters, use the following command:

RP/0/RP0/CPU0:ios#show controllers switch summary

The following output highlights the UDC0 and UDC1 ports values including their 100 Mbps traffic speed.

Mon May  9 07:30:03.726 UTC

Rack  Card  Switch   Rack Serial Number
-------------------------------------------
  0   RP0   RP-SW    FCB2546B08L

         Phys      Admin      Port          Protocol    Forward
Port     State     State      Speed         State       State       Connects To
-------------------------------------------------------------------------------
0          Up       Up     10-Gbps            -      Forwarding     CPU0
1          Up       Up     10-Gbps            -      Forwarding     CPU1
2        Down     Down      1-Gbps            -      Forwarding     DEWEY
3        Down     Down     Unknown            -      Forwarding     UnUsed
4          Up       Up      1-Gbps            -      Forwarding     MGMT0
5        Down       Up      1-Gbps            -      Forwarding     MGMT1
6        Down       Up      1-Gbps            -      Forwarding     MGMT2
7        Down     Down      1-Gbps            -      Forwarding     UnUsed
8        Down       Up      1-Gbps            -      Forwarding     PTP0
9        Down       Up      1-Gbps            -      Forwarding     PTP1
10         Up       Up    100-Mbps            -      Forwarding     UDC0
11         Up       Up    100-Mbps            -      Forwarding     UDC1
12         Up       Up    100-Mbps            -      Forwarding     OSC0
13         Up       Up    100-Mbps            -      Forwarding     OSC1
14       Down     Down     10-Mbps            -      Forwarding     UnUsed
15       Down     Down     Unknown            -      Forwarding     UnUsed

The Tx and Rx drops counters do not increment on the node when the fiber is removed from the UDC0 or UDC1 port of the neighboring node. To view the statistics, use the following command:

RP/0/RP0/CPU0:ios#show controllers switch statistics 

The following output highlights the Tx and Rx drops counters on the node when the fiber is removed from the UDC0 and UDC1 ports.

Mon May  9 07:30:10.164 UTC

Rack  Card  Switch   Rack Serial Number
-----------------------------------------
  0   RP0   RP-SW    FCB2546B08L

                                                                 Tx             Rx    
          Phys      State          Tx             Rx             Drops/         Drops/
Port      State     Changes        Packets        Packets        Errors         Errors  Connects To
0       Up            1        8250025        3171592             0              0        CPU0
1       Up            1        6380049       10790031             0              0        CPU1
2     Down            0              0              0             0              0        DEWEY
3     Down            0              0              0             0              0        UnUsed
4       Up            2        3171749        8319773            49              0        MGMT0
5     Down            0              0              0             0              0        MGMT1
6     Down            0              0              0             0              0        MGMT2
7     Down            0              0              0             0              0        UnUsed
8     Down            2              0              0             0              0        PTP0
9     Down            2              0              0             0              0        PTP1
10      Up            0              0              0             0              0        UDC0
11      Up            0      497065830     3937555205             0              0        UDC1
12      Up            0              0              0             0              0        OSC0
13      Up            0      508219613      503446049    3440127611           1218        OSC1
14    Down            0              0              0             0              0        UnUsed
15    Down            0              0              0             0              0        UnUsed

OCH Controller

When nodes with Mux/Demux panels and breakout panels are brought up, OCH controllers are created by default. The OCH controllers for the patch panels are:

Table 17. Supported Interfaces

Patch Panel

Port Type

OCH Ports

Interfaces

NCS1K-BRK-8

LC Ports

8

och R/S/I/0 to och R/S/I/7

NCS1K-BRK-24

LC Ports

24

och R/S/I/0 to och R/S/I/23

NCS1K-MD-32O/E-C

LC Ports

32

och R/S/I/0 to och R/S/I/31


Note


R/S/I/P stands for Rack/Slot/Instance/Port.


The following table displays the C-band odd and even channel plans for the NCS1K-MD-32O/E-C patch panel.

Table 18. NCS1K-MD-32O/E-C Channel Plan

Port

Frequency (THz)

Wavelength (nm)

Frequency (THz)

Wavelength (nm)

0

196.100

1528.77

196.025

1529.36

1

195.950

1529.94

195.875

1530.53

2

195.800

1531.12

195.725

1531.70

3

195.650

1532.29

195.575

1532.88

4

195.500

1533.47

195.425

1534.05

5

195.350

1534.64

195.275

1535.23

6

195.200

1535.82

195.125

1536.41

7

195.050

1537.00

194.975

1537.59

8

194.900

1538.19

194.825

1538.78

9

194.750

1539.37

194.675

1537.59

10

194.600

1540.56

194.525

1541.15

11

194.450

1541.75

194.375

1541.34

12

194.300

1542.94

194.225

1543.53

13

194.150

1544.13

194.075

1544.72

14

194.00

1545.32

193.925

1545.92

15

193.850

1546.52

193.775

1547.12

16

193.700

1547.72

193.625

1548.31

17

193.550

1548.91

193.475

1549.52

18

193.400

1550.12

193.325

1550.72

19

193.250

1551.32

193.175

1551.92

20

193.100

1552.52

193.025

1553.13

21

192.950

1553.73

192.875

1554.34

22

192.800

1554.94

192.725

1555.55

23

192.650

1556.15

192.575

1556.76

24

192.500

1557.36

192.425

1557.97

25

192.350

1558.58

192.275

1559.19

26

192.200

1559.79

192.125

1560.40

27

192.050

1561.01

191.975

1561.62

28

191.900

1562.23

191.825

1562.84

29

191.750

1563.45

191.675

1564.07

30

191.600

1564.68

191.525

1565.29

31

191.450

1565.90

191.375

1566.52

To view the status of the OCH controller, use the following command:

RP/0/RP0/CPU0:ios#show controller description

The following shows the status of the OCH controller.

Tue Apr 12 17:17:51.306 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Och0/1/0/0                  up
Och0/1/0/1                  up
Och0/1/0/2                  up
Och0/1/0/3                  up
Och0/1/0/4                  up
Och0/1/0/5                  up
Och0/1/0/6                  up
.
.
Output snipped
.
.
Och0/1/0/28                 up
Och0/1/0/29                 up
Och0/1/0/30                 up
Och0/1/0/31                 up
Oms0/1/0/32                 up
Och0/3/0/0                  up
Och0/3/0/1                  up
Och0/3/0/2                  up
Och0/3/0/3                  up
Och0/3/0/4                  up
Och0/3/0/5                  up
Och0/3/0/6                  up
Och0/3/0/7                  up
.
.
Output snipped
.
.
Och0/3/0/28                 up
Och0/3/0/29                 up
Och0/3/0/30                 up
Och0/3/0/31                 up
Oms0/3/0/32                 up

To view the parameters of the OCH controller for the NCS1K-BRK-8 panel, use the following command:

RP/0/RP0/CPU0:ios#show controllers och 0/1/0/0

The following output shows the parameters of the OCH controller for the NCS1K-BRK-8 panel.

Tue May 10 11:27:31.354 UTC

 Controller State: Down 

 LED State: Red 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1          
         TX-POWER-FAIL-LOW = 0          

         Parameter Statistics:
         ---------------------
         TX Power = -50.00 dBm 
         RX Power = -50.00 dBm

To view the parameters of the OCH controller for the Mux/Demux panel, use the following command:


Note


The parameters of the OCH controller for the Mux/Demux panel contain information about the Channel Width, Frequency, and Wavelength.
RP/0/RP0/CPU0:ios#show controllers och 0/2/0/0

The following output highlights the Channel Width, Frequency, and Wavelength parameters of the OCH controller for the Mux/Demux panel.

Wed May 25 11:50:03.481 UTC

 Controller State: Down 

 LED State: Red 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1          
         TX-POWER-FAIL-LOW = 0 

         Parameter Statistics:
         ---------------------
         TX Power = -50.00 dBm 
         RX Power = -50.00 dBm 
         channel Frequency = 196.025 THz 
         Maximum Channel Width = 150.0 GHz 
         Channel Wavelength = 1529.36 nm

OMS Controller

When nodes with Mux/Demux panels and breakout panels are brought up, OMS controllers are created by default. The OMS controllers for the patch panels are:

Table 19. Supported Interfaces

Patch Panel

Port Type

OMS Ports

Interfaces

NCS1K-BRK-8

MPO Ports

8

oms R/S/I/8 to oms R/S/I/15

NCS1K-BRK-24

MPO Ports

8

oms R/S/I/24 to oms R/S/I/31

NCS1K-MD-32O/E-C

LC Ports

1

oms R/S/I/32


Note


R/S/I/P stands for Rack/Slot/Instance/Port.


To view the status of the OMS controller, use the following command:

RP/0/RP0/CPU0:ios#show controller description

The following output shows the status of the OMS controller.

Tue Apr 12 17:17:51.306 UTC

Interface                   Status          Description
--------------------------------------------------------------------------------
Och0/1/0/0                  up
Och0/1/0/1                  up
Och0/1/0/2                  up
.
.
Output snipped
.
.
Och0/1/0/29                 up
Och0/1/0/30                 up
Och0/1/0/31                 up
Oms0/1/0/32                 up
Och0/3/0/0                  up
Och0/3/0/1                  up
.
.
Output snipped
.
.
Och0/3/0/29                 up
Och0/3/0/30                 up
Och0/3/0/31                 up
Oms0/3/0/32                 up

To view the parameters of the OMS controller for the BRK-24 panel, use the following command:

RP/0/RP0/CPU0:ios#show controllers oms 0/1/0/25

The following output shows the parameters of the OMS controller for the BRK-24 panel.

Thu Jul 14 11:05:50.419 UTC

 Controller State: Down 

 Transport Admin State: Automatic In Service 

 LED State: Red 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1         
         TX-POWER-FAIL-LOW = 0

         Parameter Statistics:
         ---------------------
         TX Power = -7.40 dBm 
         RX Power = -50.00 dBm

To view the parameters of the OMS controller for the Mux/Demux panel, use the following command:

RP/0/RP0/CPU0:ios#show controllers oms 0/3/0/32 

The following output shows the parameters of the OMS controller for the Mux/Demux panel.

Tue May 10 11:28:02.856 UTC

 Controller State: Down 

 LED State: Red 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1          
         TX-POWER-FAIL-LOW = 0          

         Parameter Statistics:
         ---------------------
         TX Power = -50.00 dBm 
         RX Power = -50.00 dBm 

Insertion loss for each port is calculated and the power values are displayed on the OMS controller for NCS1K-BRK-8 and OCH controller for NCS1K-BRK-24. Insertion loss per port for NCS1K-BRK-24 is 5.9 dBm and NCS1K-BRK-8 is 0.6 dBm. The NCS1K-MD-32O/E-C panels have a maximum insertion loss of 6.2 dBm for the respective Mux and Demux sections.

AINS

The Automatic-In-Service (AINS) feature allows the OTS, OMS and OCH controllers to automatically move to the automatic-in-service state after the system boots up. A soak time period is associated with the AINS state. By default, the soak time period is one minute. The controllers automatically moves to the In-Service state after the soak time period is completed. During the AINS maintenance window, alarms are not propagated to the EMS/NMS monitoring system.

Soak Time Period

Soak time period for the controllers to move from AINS to In-Service state is 1 minute. You cannot configure the soak time.

The AINS soak time period restarts when there are line card cold reloads or power cycles.

All alarms are suppressed during the AINS state. When the optical and ethernet alarms are raised on the port during the soak time period, the port remains in the AINS state. These alarms are not displayed in the output of the show alarms brief system active command but these alarms are displayed in the output of the show alarms brief system conditions command. When all the alarms clear, the port moves to IS state.

Displaying the AINS Configuration

AINS is supported for the COM side controllers on the OTS port. It is not supported for the line side OTS-OCH controllers on OLT and ILA cards. Afte the optical cross connections are configured, the COM side OTS-OCH controller boot ups in AINS state.

This example displays the OTS controller statistics with AINS Soak time running.

RP/0/RP0/CPU0:ios#show controllers ots 0/0/0/2
Wed Jun 22 09:43:04.356 UTC

Controller State: Down 

Transport Admin State: Automatic In Service 

LED State: Red 

Alarm Status:
-------------
Detected Alarms:
RX-LOS-P
TX-POWER-FAIL-LOW

Alarm Statistics:
-----------------
RX-LOS-P = 1
RX-LOC = 0
TX-POWER-FAIL-LOW = 1
INGRESS-AUTO-LASER-SHUT = 0
INGRESS-AUTO-POW-RED = 0
INGRESS-AMPLI-GAIN-LOW = 0
INGRESS-AMPLI-GAIN-HIGH = 0
EGRESS-AUTO-LASER-SHUT = 0
EGRESS-AUTO-POW-RED = 0
EGRESS-AMPLI-GAIN-LOW = 0
EGRESS-AMPLI-GAIN-HIGH = 0
HIGH-TX-BR-PWR = 0
HIGH-RX-BR-PWR = 0
SPAN-TOO-SHORT-TX = 0
SPAN-TOO-SHORT-RX = 0

Parameter Statistics:
---------------------
Total RX Power = -50.00 dBm
Total TX Power = -50.00 dBm
Ingress Ampli Gain = 0.0 dB
Ingress Ampli Tilt = 0.0 dB



Configured Parameters:
------------
Ingress Ampli Gain = 16.0 dB
Ingress Ampli Tilt = 0.0 dB

The following example displays the OTS-OCH cross-connect controller statistics with AINS Soak time running.

RP/0/RP0/CPU0:ios#show controllers ots-och 0/0/0/13/20

Tue Jul 12 10:19:48.838 UTC

 Controller State: Down 

 Transport Admin State: Automatic In Service 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    
                 TX-POWER-FAIL-LOW    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1          
         TX-POWER-FAIL-LOW = 1          

         Parameter Statistics:
         ---------------------
         Total RX Power = -50.00 dBm 
         Total TX Power = -50.00 dBm 


         Cross Connect Info:
         ---------------------
         line Channel  = Ots-Och0/0/0/0/20
          
          
          
          
         Configured Parameters:
         -------------
         Rx Low Threshold = -50.0 dBm 
         Tx Low Threshold = -50.0 dBm 

The following example displays the OCH controller statistics in AINS state.

RP/0/RP0/CPU0:ios#show controllers och 0/1/0/0
Wed Jul 6 14:28:12.500 UTC

Controller State: Down

Transport Admin State: Automatic In Service

LED State: Red

Alarm Status:
-------------
Detected Alarms:
RX-LOS-P

Alarm Statistics:
-----------------
RX-LOS-P = 1
TX-POWER-FAIL-LOW = 0

Parameter Statistics:
---------------------
TX Power = -50.00 dBm
RX Power = -20.72 dBm

The following example displays the OCH controller statistics after AINS Soak time expiry. When the soak time expires, the Transport Admin State of OCH controller changes from Automatic In Service to In Service.

RP/0/RP0/CPU0:ios#show controllers och 0/1/0/0
Wed Jul 6 14:29:59.242 UTC

Controller State: Up

Transport Admin State: In Service

LED State: Off

Alarm Status:
-------------
Detected Alarms: None


Alarm Statistics:
-----------------
RX-LOS-P = 1
TX-POWER-FAIL-LOW = 0

Parameter Statistics:
---------------------
TX Power = -50.00 dBm
RX Power = 2.79 dBm

The following example displays the OMS controller statistics in AINS state.

RP/0/RP0/CPU0:ios#show controllers oms 0/1/0/25

Tue Jul 12 10:32:05.258 UTC

 Controller State: Down 

 Transport Admin State: Automatic In Service 

 LED State: Red 

         Alarm Status:
         -------------
         Detected Alarms: 
                 RX-LOS-P    

         Alarm Statistics:
         -----------------
         RX-LOS-P = 1          
         TX-POWER-FAIL-LOW = 0          

         Parameter Statistics:
         ---------------------
         TX Power = -7.40 dBm 
         RX Power = -19.91 dBm 

All the alarms reported for the controllers in AINS state are displayed in the output of the show alarms brief system conditions command.

The following example displays the controller alarms in AINS state.

RP/0/RP0/CPU0:ios#show alarms brief system conditions
Mon Jul 25 05:43:50.073 UTC

------------------------------------------------------------------------------------
Conditions 
------------------------------------------------------------------------------------
Location        Severity     Group            Set Time                   Description                                                                                                                                                                                                                                                
------------------------------------------------------------------------------------
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/1 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/2 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/4 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/5 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/6 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/7 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/8 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/9 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/10 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/11 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/12 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/13 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/14 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/15 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/16 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/17 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/18 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/19 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/21 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Och0/1/0/22 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/31 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/26 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/27 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/28 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/29 - Loss of Signal - Payload
0/1             Critical     Controller       07/21/2022 11:11:54 UTC    Oms0/1/0/30 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/33 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/33 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/9 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/9 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/8 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/8 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/7 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/7 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/6 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/6 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/5 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/5 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/4 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/4 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/3 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/3 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/2 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/2 - Loss of Signal - Payload 
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/32 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/32 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/31 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/31 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/30 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/30 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/29 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/29 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/28 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/28 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/25 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/25 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/10 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/10 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/11 - Output OTS Power Reading Below The Fail-Low Threshold
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/11 - Loss of Signal - Payload
0/0             Critical     Controller       07/21/2022 11:12:00 UTC    Ots0/0/0/12 - Output OTS Power Reading Below The Fail-Low Threshold

Headless Mode

The headless mode of operation allows Cisco NCS 1010 to operate errorless during software upgrades and when the controller card is either physically absent or in a failed state. For example, NCS 1010 operates in headless mode for up to 72 hours, during process restarts, controller reload, line card warm reload, line card FPD upgrade, or removal of the controller (Online Insertion and Removal (OIR)). During this time, traffic is not impacted, although the control plane is not up and running. However, you cannot provision anything nor view operational data with a nonfunctional controller. Performance monitoring data based on 15 minutes and 24-hour intervals are not supported with a nonfunctional controller.

OIR is done during the upgrade or replacement of controller cards. When you initiate an OIR, you cannot reach the NCS 1010 through any medium. When the OIR completes, the NCS 1010 becomes reachable.

You can initiate OIR on the controller unit for the following scenarios:

  • FPD upgrade failure

  • Software image update failure

  • Bootup failure

ASE Loading

The OLT card (both OLT-C and OLT-L) includes a Noise Loader (NL) EDFA, which acts as an Amplified Spontaneous Emission (ASE) or noise source. The NL connected to the 2x33 ports Wavelength Selective Switch (WSS) loads optical noise. The optical noise fills the Line-TX optical spectrum, when the provisioned optical channels are not available on the ADD- 1 RX, ADD- 2 RX, or COM (OTS0/0/0/2 - OTS0/0/0/33) ports. For more details about the ports, see OLT Functional Layout.

The CHANNEL-NOISE-LOADED alarm is raised when an OTS-OCH controller channel fails and the missing carrier power in the channel is replaced with internally generated ASE noise. The alarm is cleared automatically when the original traffic channel is restored and the temporary ASE noise is removed. For more details about the alarm, see CHANNEL-NOISE-LOADED.

Benefits of ASE Loading:

  • Completely populates the transmission spectrum at LINE-TX independent of the actual system traffic load, thereby easing the system regulation starting from the Day-1 of the installation.

  • The same channel load is maintained during channel failures or channel deletion, which makes the system tolerant to power transients.

  • System performances can be verified efficiently because the ASE pattern emulates the full spectrum load also for the nonlinear interaction in the fibers, such as Four Wave Mixing (FWM), Cross Phase Modulations (XPM), and Stimulated Raman Scattering (SRS). Also, gradual fiber degradation that affects utilization of full-fiber capacity can be tracked.

  • Keeps the system running the full-channel configuration, which makes the system be intrinsically stable and provide optimal performance.

How ASE Operates

The following is the list of operations that are performed as part of the ASE loading:

  1. The NL emits a total power of 16 dBm, and generates a power-spectral density (PSD) that is approximately equal to –10 dBm/12.5 GHz at the WSS input port. The OCM7 port monitors profile of the generated ASE channel. A Variable Optical Attenuator (VOA) available between the NL and the WSS input port regulates the ASE channel level properly.

  2. The controller sets a predefined value for the VOA so that the ASE channels that are obtained at the COM TX-1 port are equalized to the actual traffic channels to fill out the spectrum at the input of the fixed gain amplifier.

  3. When the controller detects a missing channel, for example any failure on the ADD/ EXP ports, it sends an updated attenuation value to the OLT. The OLT applies this value as a new attenuation setpoint and executes the transition from ADDs/EXPs path to ASE in the impacted wavelengths, thus ensuring fast recovery of the initial total optical power on the LINE-TX port.

  4. When the optical power is restored, the controller sends a restoration command to the OLT. The OLT executes the transition from ASE to ADDs/EXPs in the impacted wavelengths ensuring minimal total optical power disturbance on the LINE-TX port, thus allowing a smooth fade-out of the ASE.

How ASE Is Managed

The default target ASE Load Spectral Density (AL_SD) is set to 81% for the OLT-C card and 78% for the OLT-L card. This default AL_SD is defined based on the frequency grid at 75 GHz with the first channel centered at 191.375 THz for OLT-C card and 186.125 THz for the OLT-L card. The spectrum is allocated through logical bins with 3.125-GHz width such that each physical slice is associated to two bins. Based on the above, the first ASE channel for the OLT-C card has:

  • Bins 1 and 2 blocked (frequency range 191.33750 – 191.34375 THz)

  • Bins 3–22 opened (frequency range 191.34375 to 191.40625 THz)

  • Bins 23 and 24 blocked (frequency range 191.40625 – 191.4125 THz)

The first ASE channel for the OLT-L card has:

  • Bins 13 and 14 blocked (frequency range 186.0875 – 186.09375 THz)

  • Bins 15–34 opened (frequency range 186.09375 to 186.15625 THz)

  • Bins 35 and 36 blocked (frequency range 186.15625 – 186.1625 THz)

All the other ASE channels are defined similarly by shifting all the settings by 75 GHz (24 bins).


Note


The ASE channels on the bins 1537–1548 and 1-12 are retained as blocked for Automatic VOA Shutdown (AVS) for the OLT-C and OLT-L cards respectively. In this AVS mode, the VOA is set at maximum attenuation value, when the channel is not provisioned to ensure the system reliability in case power is accidentally inserted.


Static ASE—At the system startup, without any channel provisioned, the complete ASE Load pattern is forwarded to the OLT LINE-TX port.

Figure 14. Static ASE

Dynamic ASE—When a traffic channel fails (for example, the PSD within the set of slices that are dedicated to the traffic channel is below a given threshold) an equivalent temporary ASE channel is inserted to maintain the spectral density on the line port. This dynamic ASE channel fills the original traffic channel with only a single slice guard band, at the beginning and the end. When the original traffic channel is restored, the temporary ASE channel is removed, and the original routing on the WSS is reestablished.

Dynamic ASE—With the Nyquist channels, dynamic ASE has the following behavior changes:

  • A minimum guard band of 6.25GHz is maintained between the active channel and the dynamic ASE, so the guard band of dynamic ASE will be 6.25 GHz + unused portion of the next user channel.

  • When there are two channels, and if channel 1 has failed and channel 2 overlaps channel 1, the dynamic ASE is filled in the slices other than the overlapping slices while leaving at least one slice as guard band.

  • If both channel 1 and channel 2 are overlapping and both have failed, dynamic ASE fills both the channels without leaving any guardband.

  • Static ASE and Dynamic ASE cannot overlap.

Figure 15. Dynamic ASE with Nyquist Channels

Optical Channel Monitoring

The Optical Channel Monitor (OCM) blocks in the OLT and ILA cards provide per-channel optical power monitoring.

The OLT-C card has a single OCM device with 37 OCM measuring points (OCM1 - OCM37). You can read the OCM data for the all the OCM blocks through the IOS-XR commands, except OCM1, OCM4, and OCM7.

The measuring points in the OLT-C card are:

  • LINE-TX

  • LINE-RX

  • 2x33 ports of WSS in the multiplexer section of the OLT-C card

See OLT Functional Layout for details of the ports.

Table 20. Optical Specifications for OCM in OLT-C
Parameter Unit Minimum Typical Maximum Note
Dynamic ranges dBm/12.5GHz –10 10 Ports: LINE-TX, COM-RX-1 and internal Noise Loader port
–30 0 Port LINE-RX
–35 0 Ports: ADD-RX-1 and ADD-RX-2
–35 5

Ports ADD/DROP-i (i=3..32)

(on DROP ports OCM is virtual)

Accuracy dB ± 0.5 ± 2 Depending on the adjacent channel relative power
Frequency range THz

191.175

191.150

196.175 Out-of-band channel frequency 191.150 - 191.3375 THz are available only as row-data values.
Frequency accuracy (absolute) GHz ± 5
Frequency accuracy (relative) GHz +/-3
Resolution Bandwidth GHz 12.5
Frequency step GHz 3.125
Scan Time ms 250 Single port

The ILA-C card has a single OCM device with 4 OCM measuring points.

The measuring points in the ILA-C card are:

  • Input port of EDFA1

  • Input port of EDFA2

  • Output port of EDFA1

  • Output port of EDFA2

See ILA Functional Layout for details of the ports.

Table 21. Optical Specifications for OCM in ILA-C
Parameter Unit Min. Typical Max Note
Dynamic ranges dBm/12.5GHz –30 0 LINE-RX ports
–10 10 LINE-TX ports
Accuracy dB ± 0.5 ± 2 Depending on the adjacent channel relative power
Frequency range THz 191.175 196.175
Frequency accuracy (absolute) GHz ± 5
Frequency accuracy (relative) GHz ± 3
Resolution Bandwidth GHz 12.5
Frequency step GHz 3.125
Scan Time ms 250 Single port

View OCM Data

You can view the raw OCM data (slice level channel power) using the following commands:

RP/0/RP0/CPU0:ios#sh controllers ots 0/0/0/0 spectrum-info 
Fri Feb 4 13:12:49.841UTC​
Spectrum Slices spacing        :            3.125 GHz​
Spectrum Slices Range          :            1 - 1548​
Slice start wavelength         :            1566.82 nm​
Slice start frequency          :            191337.50 GHz​
Spectrum power information :​
Rx power :​
----------------------------------------------------------------------------------​
spectrum-slice num                        Rx-power values (dBm)​
----------------------------------------------------------------------------------​
   1 - 12               -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8​
  13 - 24               -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8​
…....​
…....​
…....​
1537 - 1548             -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8      -88.8  -88.8  -88.8  -88.8​
----------------------------------------------------------------------------------​
Tx power :​
----------------------------------------------------------------------------------​
spectrum-slice num                        Tx-power values (dBm)​
----------------------------------------------------------------------------------​
1 - 12                -9.5   -7.3   -6.0   -5.2       -4.9   -4.8   -4.6   -4.4       -4.4   -4.4   -4.4   -4.4​
13 - 24                -4.4   -4.5   -4.6   -4.8       -5.1   -5.5   -6.4   -7.7       -9.6  -12.0  -13.2  -11.4​
25 - 36                -9.2   -7.7   -6.7   -6.2       -6.0   -5.9   -5.7   -5.6       -5.6   -5.5   -5.4   -5.4​
37 - 48                -5.3   -5.3   -5.4   -5.5       -5.8   -6.1   -6.6   -7.3       -8.6  -10.4  -12.2  -11.8​
…...​
…...​
…...​
1525 - 1536              -2.4   -2.4   -2.4   -2.4       -2.4   -2.3   -2.3   -3.0       -4.2   -6.5  -10.3  -14.9​
1537 - 1548             -19.3  -22.6  -24.3  -25.3      -26.1  -26.6  -27.1  -27.6      -27.9  -28.2  -28.4  -28.6​
​

The preceding sample displays the Rx-power values (OCM3 raw data) and Tx-power values (OCM2 raw data) at the line sides. Similarly, you can view the OCM raw data for the COM side controllers OTS0/0/0/2 to 0/0/0/33.

You can also view the grid OCM data (per channel power level) for a particular channel in the ILA-C and OLT-C cards. By default, the channels are not created. Create a channel using the following commands:

configure

hw-module location location terminal-ampli grid-mode mode

channel-id channel id centre-freq frequency width channel-width

commit

The following is a sample to configure the channel on an OLT-C card:

RP/0/RP0/CPU0:ios#config
Fri Feb 4 13:14:49.841 UTC
RP/0/RP0/CPU0:ios(config)#
RP/0/RP0/CPU0:ios(config)#hw-module location 0/0/NXR0 terminal-ampli grid-mode flex
RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)#channel-id 1 centre-freq 196.1 width 75
RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)# commit
Fri Feb 4 13:15:12.841 UTC

RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)#end

The following sample shows the OTS OCH controller channel parameters such as Total Rx power and Total Tx power.

RP/0/RP0/CPU0:ios#sh controllers ots-och 0/0/0/0/1
Fri Feb 4 13:15:59.125 UTC
Controller State: Up
Transport Admin State: In Service
LED State: Yellow
Parameter Statistics:
---------------------
Total RX Power = -10.50 dBm
Total TX Power = -10.50 dBm
Configured Parameters:
-------------
RP/0/RP0/CPU0:ios#

To view the grid OCM data for a particular channel in the ILA-C card, create a channel using the following commands:

configure

hw-module location location inline-ampli grid-mode mode

channel-id channel id centre-freq frequency width channel-width

commit

The following is a sample to a configure the OTS-OCH controller on an ILA-C card:

RP/0/RP0/CPU0:ios#config
Fri Feb 4 13:15:49.841 UTC
RP/0/RP0/CPU0:ios(config)#
RP/0/RP0/CPU0:ios(config)#hw-module location 0/0/NXR0 inline-ampli grid-mode flex
RP/0/RP0/CPU0:ios(config-hwmod-ila-flexi)#channel-id 1 centre-freq 196.1 width 75
RP/0/RP0/CPU0:ios(config-hwmod-ila-flexi)# commit
Fri Feb 4 13:15:12.841 UTC

RP/0/RP0/CPU0:ios(config-hwmod-olt-flexi)#end

The following sample shows the OTS OCH controller channel parameters such as Total Rx power and Total Tx power.

RP/0/RP0/CPU0:ios#sh controllers ots-och 0/0/0/2/1
Fri Feb 4 13:15:59.125 UTC
Controller State: Up
Transport Admin State: In Service
Alarm Status:
-------------
Detected Alarms: None
Alarm Statistics:
-----------------
RX-LOS-P = 0
TX-POWER-FAIL-LOW = 0
Parameter Statistics:
---------------------
Total RX Power = -10.50 dBm
Total TX Power = -10.50 dBm
Configured Parameters:
-------------
RP/0/RP0/CPU0:ios#