Cisco Transport Manager User's Guide, 7.0
Appendix D: Slot Property Information--FC_MR-4, FMEC, Multirate, Optical, and Transponder Cards
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Table Of Contents

Slot Property Information—FC_MR-4, FMEC, Multirate, Optical, and Transponder Cards

D.1  FC_MR-4 Card

D.1.1  Slot Properties—FC_MR-4

D.2  FMEC Cards

D.2.1  Slot Properties—FMEC-DS-1/E1

D.2.2  Slot Properties—FMEC-DS-3/E3

D.2.3  Slot Properties—FMEC-E1

D.2.4  Slot Properties—FMEC-E1-120NP

D.2.5  Slot Properties—FMEC-STM1E 1:1

D.2.6  Slot Properties—MIC-A/P

D.2.7  Slot Properties—MIC-C/T/P

D.3  Multirate Cards

D.3.1  Slot Properties—ASAP_4

D.3.2  Slot Properties—MRC-12

D.4  Optical Cards

D.4.1  Slot Properties—OC12 IR/STM4 SH 1310

D.4.2  Slot Properties—OC12-4 IR/STM4 SH 1310

D.4.3  Slot Properties—OC192 LR/STM64 LH 1550

D.4.4  Slot Properties—OC192/STM64 XFR-Based

D.4.5  Slot Properties—OC3 IR 4 1310

D.4.6  Slot Properties—OC3 IR/STM1 SH 1310-8

D.4.7  Slot Properties—OC48

D.4.8  Slot Properties—OC48 IR 1310

D.4.9  Slot Properties—OC48 LR 1550

D.4.10  Slot Properties—OECP-L

D.4.11  Slot Properties—STM-1

D.4.12  Slot Properties—STM-1E-12

D.4.13  Slot Properties—STM-16 (ONS 15454 SDH)

D.4.14  Slot Properties—STM-16 (ONS 15600 SDH)

D.4.15  Slot Properties—STM-4 IR/STM4 SH 1310

D.4.16  Slot Properties—STM-64 LH 1550 (ONS 15454 SDH)

D.4.17  Slot Properties—STM-64 LR/LH 4 (ONS 15600 SDH)

D.5  Transponder Cards

D.5.1  Slot Properties—BT10E-LCxx and BT10E-LLxx

D.5.2  Slot Properties—FEC-LEM

D.5.3  Slot Properties—LEM

D.5.4  Slot Properties—LEM-10-B1

D.5.5  Slot Properties—LEM-10G-Nxx

D.5.6  Slot Properties—LEM-EM-M

D.5.7  Slot Properties—LT

D.5.8  Slot Properties—RT

D.5.9  Slot Properties—RXT

D.5.10  Slot Properties—RXT-10G-N

D.5.11  Slot Properties—RXT-10H-M

D.5.12  Slot Properties—RXT-B1

D.5.13  Slot Properties—RXT-FEC

D.5.14  Slot Properties—Transmitter Transponder

D.5.15  Slot Properties—WCM

D.5.16  Slot Properties—WCM-10G-Nxx

D.5.17  Slot Properties—WCM-FEC

D.5.18  Slot Properties—WCM-EM-Fxx

D.5.19  Slot Properties—WCM-EM-Mxx

D.5.20  Slot Properties—WCM10


Slot Property Information—FC_MR-4, FMEC, Multirate, Optical, and Transponder Cards

This appendix provides information on the cards supported in CTM. This appendix contains the following sections:

FC_MR-4 Card

FMEC Cards

Multirate Cards

Optical Cards

Transponder Cards

Note In the CTM GUI, read-only fields have a gray background.

Caution Refer to the appropriate hardware documentation before attempting to set thresholds on ONS 1580x boards. See 1.7  Related Documentation, page 1-46.

D.1  FC_MR-4 Card

This section describes the FC_MR-4 card supported within CTM.

D.1.1  Slot Properties—FC_MR-4

The Slot Properties pane displays information about the Cisco ONS 15454 SONET or ONS 15454 SDH card slot that is selected in the NE Explorer tree. Use this property sheet to change the card properties.

The Fiber Channel 4-port (FC_MR-4) card is a 1.0625- or 2.125-Gbps Fiber Channel/Fiber Connectivity (FICON) card that integrates non-SONET or non-SDH framed protocols into a SONET or SDH time-division multiplexing (TDM) platform through virtually concatenated payloads.

The FC_MR-4 card uses pluggable Gigabit Interface Converters (GBICs) to transport non-SONET/SDH-framed, block-coded protocols over SONET/SDH in virtually concatenated or contiguously concatenated payloads. The FC_MR-4 can transport fiber channel over SONET/SDH using fiber-channel client interfaces and allows transport of one of the following at a time:

Two contiguously concatenated (CCAT) STS-24c/VC4-8c circuits

One STS-48c/VC4-16c CCAT

Two virtually concatenated (VCAT) circuits (STC3c-8V/VC4-8v) compliant with ITU-T G.7041 GFP-T and Telcordia GR-253-CORE

One STS-24c/VC4-8c CCAT and one STS-24c/VC4-8c VCAT

For the FC_MR module, the Slot Properties pane displays the following tabs: Module View, Identification, Card, Port, Alarm Behavior, RMON Thresholds, J1 Path Trace, GBIC Inventory, and Info.

D.1.1.1  Module View Tab

The Module View tab displays a graphic of the FC_MR that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

Right-clicking the graphic opens a shortcut menu that you can use to reset, delete, or change the card.

D.1.1.2  Identification Tab

The Identification tab allows you to view and update FC_MR identification information.

Table D-1 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.1.1.3  Card Tab

The Card tab allows you to view and update card information.

Table D-2 Field Descriptions for the Card Tab 

Field
Description

Card Mode

Select the card mode. It can be either of the following:

Distance Extension (Cisco default)

Line Rate Only

Current Bandwidth Usage

Displays the current bandwidth utilization in terms of STS or VC-4 usage.


D.1.1.4  Port Tab

The Port tab allows you to view and update FC_MR port information. The tab contains the following subtabs:

General Subtab

Distance Extension Subtab

Enhanced FC/FICON Subtab

D.1.1.4.1  General Subtab

The General subtab allows you to view and update general port information.

Table D-3 Field Descriptions for the General Subtab 

Field
Description

Port Number

Displays the card port number. Values are 1 to 4.

Port Name

Allows you to assign the specified port a name. The name can be up to 32 alphanumeric or special characters and is blank by default.

Admin State

Displays the administration state. The state can either be Unlocked or Locked, Maintenance.

Media Type

Set the media type for each port. Options are:

FICON - 2 Gbps—Available when Distance Extension card mode is selected or distance extension is enabled on the port.

FICON - 1 Gbps—Available when Distance Extension card mode is selected or distance extension is enabled on the port.

Fibre Channel - 1 Gbps—Fiber channel interface.

Fibre Channel - 2 Gbps—Fiber channel interface.

Undefined—This is the Cisco default media type when the card is inserted.

Link Rate

Displays the actual rate of the port.

Max GBIC Rate

Displays the maximum GBIC rate. Cisco supports two GBICs for the FC_MR-4 card (ONS-GX-2FC-SML and ONS-GX-2FC-MMI). If used with another GBIC, "See GBIC vendor" displays.

Enable Link Recovery

Enables or disables link recovery if a local port is inoperable. If enabled, a link reset occurs when there is a loss of transport from a cross-connect switch, a protection switch, or an upgrade.

State

Places the port in service (IS), out of service (OOS), or out of service-maintenance (OOS_MT).


D.1.1.4.2  Distance Extension Subtab

The Distance Extension subtab allows you to enable the buffer-to-buffer extension between the client and the FC_MR-4 card in order to increase the dense wavelength division multiplexing (DWDM) distance without affecting the throughput.

Table D-4 Field Descriptions for the Distance Extension Subtab 

Field
Description

Port No.

Displays the port number.

Enable Distance Extension

Check to enable end-to-end distances of up to 1600 km for 1 GFC and up to 800 km for 2 GFC. When enabled, all the fields for the port are enabled.

Auto Detect Credits

Check to enable automatic detection of buffer credits for flow control.

Credits Available

Displays the number of credits available. You can set the credits available only if the Auto Detect Credits field is disabled on the port. Values should be in multiples of 2. The minimum value is 2 and the maximum value is 256.

Autoadjust GFP Buffer Threshold

Check to automatically adjust the threshold of the GFP buffer.

GFP Buffers Available

Displays the number of GFP buffers. You can set the GFP buffers as available only if the Autoadjust GFP Buffer Threshold field is disabled. Values should be in multiples of 16. The minimum value is 16 and the maximum value is 1200.


D.1.1.4.3  Enhanced FC/FICON Subtab

The Enhanced FC/FICON ISL subtab allows you to enable FPGA to drop duplicate frames.

Table D-5 Field Descriptions for the Enhanced FC/FICON Subtab 

Field
Description

Port No.

Displays the port number.

Ingress Idle Filtering

Enable or disable ingress idle filtering.

Maximum Frame Size

Allows you to select the maximum frame size supported by the FICON/FC. Valid range is from 2148 to 2172.


D.1.1.5  Alarm Behavior Tab

The Alarm Behavior tab allows you to view and update FC_MR alarm profile information.

Table D-6 Field Descriptions for the Alarm Behavior Tab 

Field
Description

Card Profile

Choose a global alarm profile for the card from the drop-down list.

Port Number

Displays the FC_MR port number (1 to 4).

Alarm Profile

Choose an alarm profile for the slot from the drop-down list.

Suppress Alarms

If checked, all alarms are suppressed.

Force to All Ports

Forces the selected alarm profile to all FC_MR ports.


D.1.1.6  RMON Thresholds Tab

The RMON Thresholds tab allows you to create, view, and delete FC_MR-4 thresholds.

Table D-7 Field Descriptions for the RMON Thresholds Tab 

Field
Description

Index Number

A unique value that identifies the different thresholds currently existing on the NE.

Slot

Select a slot for the new FC_MR threshold.

Port

Select a port for the selected slot. If you select All, the threshold will be created on all ports for that slot. This operation may take several minutes to complete.

Variable

Select a variable for the new FC_MR threshold. Available variables will differ based on the type of card selected in the Slot field.

Alarm Type

Select an alarm type for the new FC_MR threshold. Indicate whether the event will be triggered by the rising threshold, falling threshold, or both the rising and falling thresholds.

Sample Type

Select a sample type for the new FC_MR threshold. Available sample types are relative and absolute. Relative restricts the threshold to using the number of occurrences in the user-set sample period. Absolute sets the threshold to use the total number of occurrences, regardless of time period.

Sample Period

Enter a sample period for the new FC_MR threshold. The sample period is measured in seconds.

Rising Threshold

Enter a rising threshold for the new FC_MR threshold. The value must be equal to or greater than the falling threshold value.

Falling Threshold

Enter a falling threshold for the new FC_MR threshold. The value must be equal to or less than the rising threshold value.

Create

Click the Create button to create an FC_MR threshold.

Delete

Select an FC_MR threshold from the list displayed and click the Delete button.


D.1.1.7  J1 Path Trace Tab

The J1 Path Trace tab allows you to view and retrieve FC_MR-4 J1 path trace information.

Table D-8 Field Descriptions for the J1 Path Trace Tab 

Column
Description

Port Number

Displays the port number.

STS Number/VC4 Number

Displays the STS or VC4 number.

Expected String

Displays the current expected string.

Received String

Displays the current received string.

Mode

Displays the path trace mode (Off/None, Auto, or Manual).

C2

Represents a machine-generated J1/J2 payload label byte.

Mismatch

Indicates whether there is a mismatch in the C2 byte received.

Vcat Mem Num

Displays the virtual concatenation (VCAT) member number.


D.1.1.8  GBIC Inventory Tab

The GBIC Inventory tab allows you to view GBIC inventory information.

Table D-9 Field Descriptions for the GBIC Inventory Tab 

Field
Description

Port Number

Displays the GBIC card port number.

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot. Values are single mode or multimode.

Hardware Part Number

Displays the manufacturer's part number.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the GBIC serial number that is unique to each GBIC.

CLEI Code

Displays the CLEI code.

Application Filename

The application filename is not supported; therefore, this field displays "unknown."


D.1.1.9  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the FC_MR-4 card.

Table D-10 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2  FMEC Cards

This section describes the following FMEC cards supported within CTM:

Slot Properties—FMEC-DS-1/E1

Slot Properties—FMEC-DS-3/E3

Slot Properties—FMEC-E1

Slot Properties—FMEC-E1-120NP

Slot Properties—FMEC-STM1E 1:1

Slot Properties—MIC-A/P

Slot Properties—MIC-C/T/P

D.2.1  Slot Properties—FMEC-DS-1/E1

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 SDH FMEC-DS-1/E1 card provides front-mount electrical connection for 14 ITU-compliant, G.703 E-1 ports. With the FMEC-DS-1/E1 card, each E1-N-14 port operates at 2.048 Mbps over a 120-ohm, balanced cable through two 37-pin DB connectors.

For the FMEC DS-1/E1 module, the Slot Properties pane displays the following tabs: Module View and Identification.

D.2.1.1  Module View Tab

The Module View tab displays a graphic of the FMEC DS-1/E1 that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.1.2  Identification Tab

The Identification tab allows you to view and update FMEC DS-1/E1 identification information.

Table D-11 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware version number of the card.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.2  Slot Properties—FMEC-DS-3/E3

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 SDH FMEC-DS-3/E3 card provides front-mount electrical connection for 14 ITU-compliant, G.703 E-1 ports. With the FMEC-DS-3/E3 card, each E1-N-14 port operates at 2.048 Mbps over a 120-ohm, balanced cable through two 37-pin DB connectors.

For the FMEC DS-3/E3 module, the Slot Properties pane displays the following tabs: Module View and Identification.

D.2.2.1  Module View Tab

The Module View tab displays a graphic of the FMEC DS-3/E3 that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.2.2  Identification Tab

The Identification tab allows you to view and update FMEC DS-3/E3 identification information.

Table D-12 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware version number of the card.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.3  Slot Properties—FMEC-E1

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 SDH FMEC-E1 card provides front-mount electrical connection for fourteen ITU-compliant, G.703 E-1 ports. With the FMEC-E1 card, each E1-N-14 port operates at 2.048 Mbps over a 75-ohm unbalanced coaxial 1.0/2.3 miniature coaxial connector.

For the FMEC-E1 module, the Slot Properties pane displays the following tabs: Module View, Identification, and Info.

D.2.3.1  Module View Tab

The Module View tab displays a graphic of the FMEC-E1 that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.3.2  Identification Tab

The Identification tab allows you to view and update FMEC-E1 identification information.

Table D-13 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.2.3.3  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the FMEC-E1 card.

Table D-14 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.4  Slot Properties—FMEC-E1-120NP

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 SDH FMEC-E1-120NP (Unprotected) card provides front-mount electrical connection for 42 ITU-compliant, G.703 E-1 ports. With the FMEC E1-120NP card, each E1-42 port operates at 2.048 Mbps over a 120-ohm, balanced interface. Twenty-one interfaces are led through one common Molex 96-pin LFH connector.

The ONS 15454 SDH FMEC E1-120PROA (1:3 Protect A) card provides front-mount electrical connection for 42 ITU-compliant, G.703 E-1 ports. With the FMEC E1-120PROA card, each E1-42 port operates at 2.048 Mbps over a 120-ohm, balanced interface. Twenty-one interfaces are led through one common Molex 96-pin LFH connector.

The ONS 15454 SDH FMEC E1-120PROB (1:3 Protect B) card provides front-mount electrical connection for 42 ITU-compliant, G.703 E-1 ports. With the FMEC E1-120PROB card, each E1-42 port operates at 2.048 Mbps over a 120-ohm, balanced interface. Twenty-one interfaces are led through one common Molex 96-pin LFH connector.

For the FMEC-E1-120NP module, the Slot Properties pane displays the following tabs: Module View, Identification, and Info.

D.2.4.1  Module View Tab

The Module View tab displays a graphic of the FMEC-E1-120NP that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.4.2  Identification Tab

The Identification tab allows you to view and update FMEC-E1-120NP identification information.

Table D-15 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.2.4.3  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the FMEC-E1-120NP card.

Table D-16 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.5  Slot Properties—FMEC-STM1E 1:1

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 SDH FMEC-STM1E 1:1 card provides front-mount electrical connection for 2 x 12 ITU-compliant, G.703 STM1E ports. With the FMEC-STM1E 1:1 card, each interface of an STM1E-12 card operates at 155.52 Mbps for STM-1 over a 75-ohm unbalanced coaxial 1.0/2.3 miniature coaxial connector. The FMEC STM1E 1:1 card is required if you want to use the STM1E-12 card in 1:1 protection mode or for connection to two unprotected STM1E-12 cards.

For the FMEC-STM1E card, the Slot Properties pane displays the following tabs: Module View, Identification, and Info.

D.2.5.1  Module View Tab

The Module View tab displays a graphic of the FMEC-STM1E 1:1 card that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.5.2  Identification Tab

The Identification tab allows you to view and update the FMEC-STM1E 1:1 card identification information.

Table D-17 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware version number of the card.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.2.5.3  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the FMEC-STM1E 1:1 card.

Table D-18 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.6  Slot Properties—MIC-A/P

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The MIC-A/P card provides connection for the BATTERY B input, one of the two possible redundant power supply inputs. It also provides connection for eight alarm outputs (coming from the TCC2 card), sixteen alarm inputs, and four configurable alarm inputs/outputs. Its position is in slot 23 in the center of the ONS 15454 SDH subrack EFCA area.

For the MIC-A/P module, the Slot Properties pane displays the following tabs: Module View and Identification.

D.2.6.1  Module View Tab

The Module View tab displays a graphic of the MIC-A/P that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.6.2  Identification Tab

The Identification tab allows you to view and update MIC-A/P identification information.

Table D-19 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware version number of the card.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.2.7  Slot Properties—MIC-C/T/P

The Slot Properties pane displays information about the Cisco ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The MIC-C/T/P card provides connection for the BATTERY A input, one of the two possible redundant power supply inputs. It also provides connection for system management serial port, system management LAN port, modem port (for future use), and system timing inputs and outputs.

For the MIC-C/T/P module, the Slot Properties pane displays the following tabs: Module View and Identification.

D.2.7.1  Module View Tab

The Module View tab displays a graphic of the MIC-C/T/P that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s).

D.2.7.2  Identification Tab

The Identification tab allows you to view and update MIC-C/T/P identification information.

Table D-20 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

HW Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware version number of the card.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.3  Multirate Cards

This section describes the following multirate cards supported within CTM:

Slot Properties—ASAP_4

Slot Properties—MRC-12

D.3.1  Slot Properties—ASAP_4

The Slot Properties pane displays information about the Cisco ONS 15600 SONET slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15600 SONET Any Service Any Port (ASAP_4) card provides 16 optical network interface ports; each port can be provisioned as any one of the following port types: OC3/STM-1, OC12/STM-4, OC48/STM-16, or LX GE. The card can be installed in any I/O module card slot. The card provides 16 optical interfaces on the front panel. When configured for Ethernet, an ASAP port forwards Ethernet frames by encapsulating them in Cisco HDLC or GFP and transports them over SONET to the far-end GE port, where the unencapsulation is performed.

The ASAP_4 card consists of a motherboard with four pluggable daughterboards; each daughterboard has four pluggable SFPs and each SFP can have one or more ports.

The Slot Properties pane for the ASAP_4 card displays the following tabs: Module View, Card Identification, Pluggable Provisioning, Line, STS, Loopback, Protection, Alarm Behavior, J1 Path Trace, Info, Ether Line, Ether Loopback, Ether Alarm Behavior, POS Alarm Behavior, POS Line, and Transceiver.

D.3.1.1  Module View Tab

The Module View tab displays a graphic of the transponder that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Moving the mouse pointer over the graphic also displays the alarm counts.)

D.3.1.2  Card Identification Tab

The Card Identification tab allows you to view and update identification information.

Table D-21 Field Descriptions for the Card Identification Tab 

Field
Description

Equipment Type

Displays the equipment type that the slot is provisioned for.

Hardware Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Actual Equipment Type

Displays the actual card that is installed in the slot.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

User Code

Allows you to enter an ASCII string to identify the card. The user code is stored in nonvolatile memory so that it is not lost when the unit is moved or stored as a spare.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.3.1.3  Pluggable Provisioning Tab

The Pluggable Provisioning tab allows you to view and provision pluggable entities; for example, pluggable port module (PPM) and the ports inside these entities.

Table D-22 Field Descriptions for the Pluggable Provisioning Tab 

Field
Description
Pluggable IO Module

Pluggable Number

Displays the identifier of the plugin module.

Equipment Type

Displays the equipment type that the pluggable slot is provisioned for.

Hardware Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each pluggable I/O module.

CLEI Code

Displays the CLEI code.

Actual Equipment Type

Displays the actual pluggable I/O module that is installed in the pluggable slot.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the pluggable I/O module.

User Code

Allows you to enter an ASCII string to identify the pluggable I/O module. The user code is stored in nonvolatile memory so that it is not lost when the unit is moved or stored as a spare.

Product ID

Displays a product ID string of 63 characters maximum. If the pluggable I/O module does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the pluggable I/O module.

Pluggable Port Module

Pluggable Number

Displays the identifier of the plugin module.

Equipment Type

Displays the equipment type that the pluggable slot is provisioned for.

Hardware Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each pluggable port module.

CLEI Code

Displays the CLEI code.

Actual Equipment Type

Displays the actual pluggable port module that is installed in the pluggable slot.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the pluggable port module.

User Code

Allows you to enter an ASCII string to identify the pluggable port module. The user code is stored in nonvolatile memory so that it is not lost when the unit is moved or stored as a spare.

Product ID

Displays a product ID string of 63 characters maximum. If the pluggable port module does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall condition of the port. It can be:

IS_NR—In Service and Normal

OOS_AU, AINS—Out of Service and Autonomous, Automatic In Service

OOS_MA, DSBLD—Out of Service and Management, Disabled

OOS_MA, MT—Out of Service and Management, Maintenance

Equipment State

Displays the equipment state of the pluggable port module.

Optical Ports

Pluggable Number

Displays the identifier of the plugin module.

Equipment Type

Displays the equipment type that the optical port is provisioned for.

Ether Ports

Pluggable Number

Displays the identifier of the plugin module.

Equipment Type

Displays the equipment type that the Ether port is provisioned for.


D.3.1.3.1  Provision Pluggable Dialog Box

Click the Create button to launch the Provision Pluggable dialog box. The Provision Pluggable dialog box allows you to provision pluggable entities; for example, the PPM and PIM, and to create the ports inside these entities. See C.1.7.5.1  Provision Pluggable Dialog Box, page C-37 for more information.

D.3.1.4  Line Tab

The Line tab allows you to view and update optical line performance monitoring information. The Line tab contains the following subtabs:

Line Config Subtab

Line Thresh 15 Min Subtab

Line Thresh 1 Day Subtab

Physical Thresh 15 Min Subtab

Physical Thresh 1 Day Subtab

Section Thresh 15 Min Subtab

Section Thresh 1 Day Subtab

Alarm Thresh Subtab

D.3.1.4.1  Line Config Subtab

The Line Config subtab allows you to view and change the line settings of the ASAP_4 card.

Table D-23 Field Descriptions for the Line Config Subtab 

Field
Description

Port Number

Displays the port number.

Port Name

Allows you to add a name for the optical port.

SF BER

Sets the signal fail bit error rate.

SD BER

Sets the signal degrade bit error rate.

ProvidesSync

If checked, the card is provisioned as an NE timing reference.

EnableSyncMsg

When checked, enables synchronization status messages, which allow the node to choose the best timing source.

Send Do Not Use

When checked, sends a do not use (DUS) message on the S1 byte.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Synchronization Status Message

Allows you to view the incoming synchronization status message.

BLSR Ext. Byte

Select an alternate BLSR byte.

Type

Defines the port.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Reach

Allows you to provision the reach value. You can choose Auto Provision, which allows the system to automatically provision the reach from the PPM reach value on the hardware. Choose one of the following reach distances:

Note The reach distances options that appear in the drop-down list depend on the card selected.

SR (short reach, up to 2km distance)

SR 1 (up to 2km distance)

IR 1 (intermediate reach, up to 15km distance)

IR 2 (up to 40kmm distance)

LR 1 (long reach, up to 40km distance)

LR 2 (up to 80km distance)

LR 3 (up to 80km distance)

I1

S1

S2

L1

L2

L3

SX (up to 550m or 270m distance based on 50um/62.5um diameter fiber)

LX (up to 10km or 550m distance based on 50um/62.5um diameter fiber)

CX

T

DX (up to 40km distance)

HX (up to 40km distance)

ZX (up to 80km distance)

VX (up to 100km distance)

Wavelength

Allows you to provision the wavelength frequency.

AINS Soak (H:M)

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down (H:M)

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.


D.3.1.4.2  Line Thresh 15 Min Subtab

The Line Thresh 15 Min subtab allows you to view and change the 15-minute near- and far-end line thresholds of the ASAP_4 card.

Table D-24 Field Descriptions for the Line Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

CV-L

Displays the coding violations-line

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line

PSC

Displays the protection switching count-line

PSD

Displays the protection switching duration-line

PSC-W

Displays the protection switching count-working

PSD-W

Displays the protection switching duration-working

PSC-S

Displays the protection switching count-span

PSD-S

Displays the protection switching duration-span

PSC-R

Displays the protection switching count-ring

PSD-R

Displays the protection switching duration-ring

Far End

Port Number

Displays the optical port number

CV-L

Displays the coding violations-line

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line


D.3.1.4.3  Line Thresh 1 Day Subtab

The Line Thresh 1 Day subtab allows you to view and change the 1-day near- and far-end line thresholds of the ASAP_4 card.

Table D-25 Field Descriptions for the Line Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

CV-L

Displays the coding violations-line

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line

PSC

Displays the protection switching count-line

PSD

Displays the protection switching duration-line

PSC-W

Displays the protection switching count-working

PSD-W

Displays the protection switching duration-working

PSC-S

Displays the protection switching count-span

PSD-S

Displays the protection switching duration-span

PSC-R

Displays the protection switching count-ring

PSD-R

Displays the protection switching duration-ring

Far End

Port Number

Displays the optical port number

CV-L

Displays the coding violations-line

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line


D.3.1.4.4  Physical Thresh 15 Min Subtab

The Physical Thresh 15 Min subtab allows you to view and change the 15-minute near-end physical thresholds of the ASAP_4 card.

Table D-26 Field Descriptions for the Physical Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent.

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.1.4.5  Physical Thresh 1 Day Subtab

The Physical Thresh 1 Day subtab allows you to view and change the 1-day near-end physical thresholds of the ASAP_4 card.

Table D-27 Field Descriptions for the Physical Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.1.4.6  Section Thresh 15 Min Subtab

The Section Thresh 15 Min subtab allows you to view and change the 15-minute near-end section thresholds of the ASAP_4 card.

Table D-28 Field Descriptions for the Section Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the port number.

CV-S

Displays the coding violations-section.

ES-S

Displays the errored seconds-section.

SES-S

Displays the severely errored seconds-section.

SEFS-S

Displays the severely errored framing seconds-section.


D.3.1.4.7  Section Thresh 1 Day Subtab

The Section Thresh 1 Day subtab allows you to view and change the 1-day near-end section thresholds of the ASAP_4 card.

Table D-29 Field Descriptions for the Section Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the port number.

CV-S

Displays the coding violations-section.

ES-S

Displays the errored seconds-section.

SES-S

Displays the severely errored seconds-section.

SEFS-S

Displays the severely errored framing seconds-section.


D.3.1.4.8  Alarm Thresh Subtab

The Alarm Thresh subtab allows you to select the thresholds for the alarms.

Table D-30 Field Descriptions for the Alarm Thresh Subtab 

Field
Description

Port No.

Port number.

LBC-HIGH

Laser bias current maximum.

LBC-LOW

Laser bias current minimum.

OPT-HIGH

Optical power transmitted maximum.

OPT-LOW

Optical power transmitted minimum.

OPR-HIGH

Optical power received maximum.

OPR-LOW

Optical power received minimum.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.1.5  STS Tab

The STS tab allows you to view and update ASAP_4 STS information. The STS tab contains the following subtabs:

STS Config Subtab

Path Thresh 15 Min Subtab

Path Thresh 1 Day Subtab

Customer Info Subtab

D.3.1.5.1  STS Config Subtab

The STS Config subtab allows you to view and change the STS settings of the ASAP_4 card.

Table D-31 Field Descriptions for the STS Config Subtab 

Field
Description

STS Number

Displays the synchronous transport signal number information.

IPPM Enabled

Check to enable IPPM and uncheck to disable IPPM.

XC Loopback

Displays the cross-connect loopback status.


D.3.1.5.2  Path Thresh 15 Min Subtab

The Path Thresh 15 Min subtab allows you to view and change the 15-minute path thresholds of the ASAP_4 card.

Table D-32 Field Descriptions for the Path Thresh 15 Min Subtab 

Field
Description
Near End

STS Number

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.

PPJC-Pdet

Displays positive pointer justification count, STS path detected.

NPJC-Pdet

Displays negative pointer justification count, STS path detected.

PPJC-Pgen

Displays positive pointer justification count, STS path generated.

NPJC-Pgen

Displays negative pointer justification count, STS path generated.

Far End

STS No

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

FC-P

Displays failure count-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.


D.3.1.5.3  Path Thresh 1 Day Subtab

The Path Thresh 1 Day subtab allows you to view and change the 1-day path thresholds of the ASAP_4 card.

Table D-33 Field Descriptions for the Path Thresh 1 Day Subtab 

Field
Description
Near End

STS Number

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.

PPJC-Pdet

Displays positive pointer justification count, STS path detected.

NPJC-Pdet

Displays negative pointer justification count, STS path detected.

PPJC-Pgen

Displays positive pointer justification count, STS path generated.

NPJC-Pgen

Displays negative pointer justification count, STS path generated.

Far End

STS No

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

FC-P

Displays failure count-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.


D.3.1.5.4  Customer Info Subtab

The Customer Info subtab allows you to view the customer information.

Table D-34 Field Descriptions for the Customer Info Subtab

Field
Description

STS No.

The STS number

Customer ID

The user-defined customer ID number

Service ID

The user-defined service ID number


D.3.1.6  Loopback Tab

The Loopback tab allows you to view and update loopback information.

Table D-35 Field Descriptions for the Loopback Tab 

Field
Description

Port Number

Displays the port number.

Loopback Type

Allows you to configure a port to terminal loopback (Inward) or Facility (Line), or clear the current loopback (none).

Note The line state must be OOS_MT before you can configure the loopback type.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.


D.3.1.7  Protection Tab

The Protection tab allows you to view and update ASAP_4 protection group information.

Table D-36 Field Descriptions for the Protection Tab 

Field
Description

Protection Groups

Displays a list of available protection groups.

Protection Group Details

Displays details about the selected protection group.


D.3.1.8  Alarm Behavior Tab

The Alarm Behavior tab allows you to view and update alarm profile information.

Table D-37 Field Descriptions for the Alarm Behavior Tab 

Field
Description

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Alarm Profile

Choose an alarm profile for all ports.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.3.1.9  J1 Path Trace Tab

The J1 Path Trace tab allows you to view and update J1 path trace information.

Table D-38 Field Descriptions for the J1 Path Trace Tab 

Field
Description

Port Number

Displays the port number.

STS Number

Displays the STS number.

Expected String

Displays the current expected string.

Received String

Displays the current received string.

Mode

Displays the path trace mode (Off/None, Auto, or Manual).

C2

Represents a machine-generated J1/J2 payload label byte.


D.3.1.10  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the ASAP_4 card.

Table D-39 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


D.3.1.11  Ether Line Tab

The Ether Line tab allows you to configure Ether line information.

Table D-40 Field Descriptions for the Ether Line Tab 

Field
Description

Port Number

The port number.

Port Name

Allows you to enter a port name.

Admin State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Link State

Displays the physical port state. Possible values are Up, Down, or Not Present.

Flow Control

Displays the negotiated flow control mode. Values are None, Symmetrical, and Asymmetrical.

Negotiation Status

Displays the result of the most-recent auto-negotiation. The type of flow control that was negotiated will be displayed.

Auto Negotiation

Allows you to enable the card to match the speed and duplex mode of a partner node.

Max Frame

Sets the maximum frame size.

Flow Control Low

Sets the low flow control buffer level.

Flow Control High

Sets the high flow control buffer level.

Reach

Allows you to provision the reach value. You can choose Auto Provision, which allows the system to automatically provision the reach from the PPM reach value on the hardware. Choose one of the following reach distances:

Note The reach distances options that appear in the drop-down list depend on the card selected.

SR (short reach, up to 2km distance)

SR 1 (up to 2km distance)

IR 1 (intermediate reach, up to 15km distance)

IR 2 (up to 40kmm distance)

LR 1 (long reach, up to 40km distance)

LR 2 (up to 80km distance)

LR 3 (up to 80km distance)

I1

S1

S2

L1

L2

L3

SX (up to 550m or 270m distance based on 50um/62.5um diameter fiber)

LX (up to 10km or 550m distance based on 50um/62.5um diameter fiber)

CX

T

DX (up to 40km distance)

HX (up to 40km distance)

ZX (up to 80km distance)

VX (up to 100km distance)

Wavelength

Allows you to provision the wavelength frequency.

AINS Soak (H:M)

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down (H:M)

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.


D.3.1.12  Ether Loopback Tab

The Ether Loopback tab allows loopback to be configured in the Ether port. The Ether Loopback tab contains the following subtabs:

Ether Loopback Port Subtab

SONET STS (Ether) Subtab

D.3.1.12.1  Ether Loopback Port Subtab

The Ether Loopback Port subtab allows you to configure Ethernet loopback port information.

Table D-41 Field Descriptions for the Ether Loopback Port Subtab 

Field
Description

Port Number

The port number.

Loopback Type

Allows you to configure a port to terminal loopback (Inward) or Facility (Line), or clear the current loopback (none).

Note The line state must be OOS_MT before you can configure the loopback type.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.


D.3.1.12.2  SONET STS (Ether) Subtab

The SONET STS (Ether) subtab allows you to configure loopback on cross-connects.

Table D-42 Field Descriptions for the SONET STS (Ether) Subtab 

Field
Description

STS

Displays the STS number

XC Loopback

Displays the cross-connect loopback status.


D.3.1.13  Alarm Behavior Tab

The Alarm Behavior tab contains the following subtabs:

Ether Alarm Behavior Subtab

POS Alarm Behavior Subtab

D.3.1.13.1  Ether Alarm Behavior Subtab

The Ether Alarm Behavior subtab allows you to view and update Ether alarm profile information.

Table D-43 Field Descriptions for the Ether Alarm Behavior Subtab 

Field
Description

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.3.1.13.2  POS Alarm Behavior Subtab

The POS Alarm Behavior subtab allows you to view and update POS alarm profile information.

Table D-44 Field Descriptions for the POS Alarm Behavior Subtab 

Field
Description

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.3.1.14  POS Line Tab

The POS Line tab allows you to view and update alarm profile information.

Table D-45 Field Descriptions for the POS Line Tab 

Field
Description

Port Number

Displays the card port number.

Port Name

Allows you to enter a port name.

Admin State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Encap CRC

Sets the cyclic redundancy check (CRC) to verify the integrity of the transmitted data.

Framing Type

Allows you to select the line framing type.

Link State

Displays the physical port state. Possible values are Up and Down.

MTU

Maximum transfer unit. The largest acceptable packet size configured for that port. The Cisco default value is 1500.


D.3.1.15  Transceiver Tab

The Transceiver tab allows you to view and update ASAP_4 transceiver information.

Table D-46 Field Descriptions for the Transceiver Tab 

Field
Description

Port No.

PIM number, PPM number, Port number.

Non-normalized LBC (mA)

The actual operating value of laser bias current (in mA) for the specified card port.

Non-normalized OPT (dBm)

The actual operating value of optical power transmitted (in dBm) for the specified card port.

Non-normalized OPR (dBm)

The actual operating value of optical power received (in dBm) for the specified card port.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.3.2  Slot Properties—MRC-12

The Slot Properties pane displays information about the Cisco ONS 15454 SONET and ONS 15454 SDH slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The MRC-12 multirate card (MRC) provides up to 12 OC-3/STM-1 ports, 12 OC-12/STM-4 ports, or 4 OC-48/STM-16 ports using Small Form-factor Pluggables (SFPs), in any combination of line rates. All ports are Telcordia GR-253 compliant. The SFP optics can use SR, IR, LR, coarse wavelength division multiplexing (CWDM), and DWDM SFPs to support unrepeated spans.

The ports operate at up to 2488.32 Mbps over a single-mode fiber. The MRC-12 card has 12 physical connector adapters with 2 fibers per connector adapter (Tx and Rx). The card supports VT payloads, STS-1 payloads, and concatenated payloads at STS-3c, STS-6c, STS-9c, STS-12c, STS-18c, STS-24c, STS-36c, or STS-48c signal levels. It is fully interoperable with the ONS 15454 G-Series Ethernet cards.

The card supports 1+1 unidirectional and bidirectional facility protection. It also supports 1+1 protection in 4-fiber BLSR applications for the ONS 15454 SONET and in 4-fiber MS-SPRing applications for the ONS 15454 SDH, where both span switching and ring switching might occur. You can provision this card as part of a BLSR, UPSR, or 1+1 linear configuration for the ONS 15454 SONET or an MS-SPRing, SNCP, or linear configuration for the ONS 15454 SDH.

Note Longer distances are possible in an amplified system using dispersion compensation.

Note MRC-12 cards can only protect another MRC-12 card if the card is in the same speed slot (drop or trunk slot) and if both ports have matching line rates. For example, port 1 of the MRC-12 card 1 will protect port 1 of the MRC-12 card 2 only if both ports are provisioned with the same rate (for example, OC12/STM-4). If the ports are provisioned with different rates, you cannot set a 1+1 protection.

You can install MRC-12 cards in Slots 1 through 6 and 12 through 17 with an XCVT, XC10G, XC-VXL-2.5G, XC-VXL-10G, or XC-VXC-10G card.

Note The MRC-12 card supports an errorless software-initiated cross-connect card switch when used in a shelf equipped with XC-VXL-2.5G, XC-VXL-10G, or XC-VXC-10G cards.

The maximum bandwidth of the MRC-12 card is determined by the cross-connect card, as shown in the following table.

Table D-47 Maximum Bandwidth by Shelf Slot for the MRC-12 in Different Cross-Connect Configurations 

XC Card Type
Maximum Bandwidth in the Drop Slot1 (Slots 1 to 4 and Slots 14 to 17)
Maximum Bandwidth in the Trunk Slot2 (Slots 5, 6, 12, or 13)

XCVT

OC-12

OC-48

XC10G/XC-VXC-10G

OC-48

OC-192

XC-VXL-2.5G

STM-16

STM-16

XC-VXC-10G/XC-VXL-10G

STM-16

STM-64

1 Drop slots are low-speed slots

2 Trunk slots are high-speed slots


The twelve ports of the MRC-12 card are divided into four groups, with each group having a master port as shown in the following table.

Table D-48 Port Grouping 

Group
Ports Included
Master Port

1

1

1

2

2, 3, 4

4

3

5, 6, 7, 8

7

4

9, 10, 11, 12

10


Following are the general port rate configuration rules:

The maximum bandwidth for each port is OC48.

Port 1 can occupy all possible backplane bandwidth but cannot exceed OC48.

Each port group can have a maximum of 25% backplane bandwidth, except for group 1.

Only a master port can occupy all possible bandwidth assigned to the group.

Based on the cross-connect card and slot limitations shown in Table D-47, the following rules apply for various synchronous transport signal (STS) available bandwidths:

STS-12

Port 1 is the only port that is usable as an OC-12/STM-4. If port 1 is used as an OC-12/STM-4, all other ports are disabled.

Ports 1, 4, 7, and 10 are the only ports usable as OC-3/STM-1. If any of these ports is used as an OC-3/STM-1, Ports 2, 3, 5, 6, 8, 9, 11, and 12 are disabled.

STS-48

Port 1 is the only port usable as an OC-48/STM-16. If port 1 is used as an OC-48/STM-16, all other ports are disabled.

Ports 1, 4, 7, and 10 are the only ports usable as OC-12/STM-4.

If port 4 is used as an OC-12/STM-4, Ports 2 and 3 are disabled.

If port 7 is used as an OC-12/STM-4, Ports 5, 6, and 8 are disabled.

If port 10 is used as an OC-12/STM-4, Ports 9, 11, and 12 are disabled.

Any port can be used as an OC-3/STM-1 as long as all of the above rules are followed.

STS-192

Ports 1, 4, 7, and 10 are the only ports usable as OC-48/STM-16.

If port 4 is used as an OC-48/STM-16, Ports 2 and 3 are disabled.

If port 7 is used as an OC-48/STM-16, Ports 5, 6, and 8 are disabled.

If port 10 is used as an OC-48/STM-16, Ports 9, 11, and 12 are disabled.

If port 4 is used as an OC-12/STM-4, Ports 2 and 3 can be used as an OC-12/STM-4 or OC-3/STM-1.

If port 7 is used as an OC-12/STM-4, Ports 5, 6, and 8 can be used as an OC-12/STM-4 or OC-3/STM-1.

If Port 10 is as used as an OC-12/STM-4, Ports 9, 11, and 12 can be used as an OC-12/STM-4 or OC-3/STM-1.

If port 4 is used as an OC-3/STM-1, Ports 2 and 3 can be used as an OC-12/STM-4 or OC-3/STM-1.

If port 7 is used as an OC-3/STM-1, Ports 5, 6, and 8 can be used as an OC-12/STM-4 or OC-3/STM-1.

If port 10 is used as an OC-3/STM-1, Ports 9, 11, and 12 can be used as an OC-12/STM-4 or OC-3/STM-1.

Any port can be used as an OC-12/STM-4 or OC-3/STM-1, as long as all of the above rules are followed.

For the MRC-12 card, the Slot Properties pane displays the following tabs: Module View, Identification, Pluggable Provisioning, Line, STS, VC-4 (available only on the ONS 15454 SDH), Loopback, Protection, Alarm Behavior, Transceiver, Auto Laser Shutdown, Section Trace, J1 Path Trace, and Info. The tabs shown depend on the NE configuration.

D.3.2.1  Module View Tab

The Module View tab displays a graphic of the transponder that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Moving the mouse pointer over the graphic also displays the alarm counts.) Right-clicking the graphic opens a shortcut menu that you can use to reset, delete, or change the card.

D.3.2.2  Identification Tab

The Identification tab allows you to view and update MRC-12 card identification information.

Table D-49 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type that the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

Hardware Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Admin State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.3.2.3  Pluggable Provisioning Tab

The Pluggable Provisioning tab allows you to view and provision pluggable entities; for example, pluggable port module (PPM) and the ports inside these entities.

Table D-50 Field Descriptions for the Pluggable Provisioning Tab 

Field
Description
Pluggable Port Modules

Pluggable Number

Displays the identifier of the plugin module.

Actual Equipment Type

Displays the actual pluggable I/O module that is installed in the pluggable slot.

Equipment State

Displays the equipment state of the card.

Admin State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Pluggable Ports

Pluggable Number

Displays the identifier of the plugin module.

Rate

Displays the rate of the port inside the pluggable entity.


D.3.2.3.1  Provision Pluggable Dialog Box

Click the Create button to launch the Provision Pluggable dialog box. The Provision Pluggable dialog box allows you to provision pluggable entities; for example, the PPM and PIM, and to create the ports inside these entities. See C.1.7.5.1  Provision Pluggable Dialog Box, page C-37 for more information.

D.3.2.3.2  Create Port Dialog Box

Use the Create Port dialog box to configure the port rate for a particular pluggable port module (PPM). In the Port Rate field, use the drop-down list to select the new port rate and click OK.

D.3.2.4  Line Tab (ONS 15454 SONET)

The Line tab allows you to view and update optical line performance monitoring information. The Line tab contains the following subtabs:

Line Config Subtab

Line Thresh 15 Min Subtab

Line Thresh 1 Day Subtab

Physical Thresh 15 Min Subtab

Physical Thresh 1 Day Subtab

Section Thresh 15 Min Subtab

Section Thresh 1 Day Subtab

Alarm Thresholds Subtab

D.3.2.4.1  Line Config Subtab

The Line Config subtab allows you to view and change the line settings of the MRC-12 card.

Table D-51 Field Descriptions for the Line Config Subtab 

Field
Description

Port Number

Displays the port number.

Port Name

Allows you to add a name for the optical port.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Port Rate

Sets the rate of the new port.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

SF BER

Sets the signal fail bit error rate.

SD BER

Sets the signal degrade bit error rate.

Provide Sync

If checked, the card is provisioned as an NE timing reference.

EnableSyncMsg

When checked, enables synchronization status messages, which allow the node to choose the best timing source.

Send Do Not Use

When checked, sends a do not use (DUS) message on the S1 byte.

BLSR Ext. Byte

Select an alternate BLSR byte.

Type

Defines the port.

AINS Soak (H:M)

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down (H:M)

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.

Admin SSM

If the node does not receive an SSM signal, it defaults to STU (synchronization traceability unknown). Admin SSM allows you to override the STU value with one of the following:

PRS—Primary reference source (Stratum 1)

STS2—Stratum 2

TNC—Transit node clock

STS3E—Stratum 3E

STS3—Stratum 3

SMC—SONET minimum clock

ST4—Stratum 4

Send <FF> DoNotUse

When checked, sends a special do not use (DUS) (0xff) message on the S1 byte.

PJSTSMon#

Sets the STS that will be used for pointer justification. If set to 0, no STS is monitored. Only one STS can be monitored on each OC-N port.

0 (Cisco default) - 3 (OC3, per port)

0 (Cisco default) - 12 (OC-12)

Reach

Allows you to provision the reach value. You can choose Auto Provision, which allows the system to automatically provision the reach from the PPM reach value on the hardware. Choose one of the following reach distances:

Note The reach distances options that appear in the drop-down list depend on the card selected.

SR (short reach, up to 2km distance)

SR 1 (up to 2km distance)

IR 1 (intermediate reach, up to 15km distance)

IR 2 (up to 40kmm distance)

LR 1 (long reach, up to 40km distance)

LR 2 (up to 80km distance)

LR 3 (up to 80km distance)

I1

S1

S2

L1

L2

L3

SX (up to 550m or 270m distance based on 50um/62.5um diameter fiber)

LX (up to 10km or 550m distance based on 50um/62.5um diameter fiber)

CX

T

DX (up to 40km distance)

HX (up to 40km distance)

ZX (up to 80km distance)

VX (up to 100km distance)

Wavelength

Allows you to provision the wavelength frequency.


D.3.2.4.2  Line Thresh 15 Min Subtab

The Line Thresh 15 Min subtab allows you to view and change the 15-minute near- and far-end line thresholds of the MRC-12 card.

Table D-52 Field Descriptions for the Line Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

CV-L

Displays the coding violations-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line

PSC

Protection switching count-line

PSD

Protection switching duration-line

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

PSC-S

Protection switching count-span

PSD-S

Protection switching duration-span

PSC-R

Protection switching count-ring

PSD-R

Protection switching duration-ring

Far End

Port Number

Displays the optical port number

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

CV-L

Displays the coding violations-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line


D.3.2.4.3  Line Thresh 1 Day Subtab

The Line Thresh 1 Day subtab allows you to view and change the 1-day near- and far-end line thresholds of the MRC-12 card.

Table D-53 Field Descriptions for the Line Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

CV-L

Displays the coding violations-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line

PSC

Protection switching count-line

PSD

Protection switching duration-line

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

PSC-S

Protection switching count-span

PSD-S

Protection switching duration-span

PSC-R

Protection switching count-ring

PSD-R

Protection switching duration-ring

Far End

Port Number

Displays the optical port number

ES-L

Displays the errored seconds-line

SES-L

Displays the severely errored seconds-line

CV-L

Displays the coding violations-line

UAS-L

Displays the unavailable seconds-line

FC-L

Displays the failure count-line


D.3.2.4.4  Physical Thresh 15 Min Subtab

The Physical Thresh 15 Min subtab allows you to view and change the 15-minute near-end physical thresholds of the MRC-12 card.

Table D-54 Field Descriptions for the Physical Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent.

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.4.5  Physical Thresh 1 Day Subtab

The Physical Thresh 1 Day subtab allows you to view and change the 1-day near-end physical thresholds of the MRC-12 card.

Table D-55 Field Descriptions for the Physical Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.4.6  Section Thresh 15 Min Subtab

The Section Thresh 15 Min subtab allows you to view and change the 15-minute near-end section thresholds of the MRC-12 card.

Table D-56 Field Descriptions for the Section Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the port number.

CV-S

Displays the coding violations-section.

ES-S

Displays the errored seconds-section.

SES-S

Displays the severely errored seconds-section.

SEFS-S

Displays the severely errored framing seconds-section.


D.3.2.4.7  Section Thresh 1 Day Subtab

The Section Thresh 1 Day subtab allows you to view and change the 1-day near-end section thresholds of the MRC-12 card.

Table D-57 Field Descriptions for the Section Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the port number.

CV-S

Displays the coding violations-section.

ES-S

Displays the errored seconds-section.

SES-S

Displays the severely errored seconds-section.

SEFS-S

Displays the severely errored framing seconds-section.


D.3.2.4.8  Alarm Thresholds Subtab

The Alarm Thresholds subtab allows you to select the thresholds for the alarms.

Table D-58 Field Descriptions for the Alarm Thresholds Subtab 

Field
Description

Port No.

Port number.

LBC-HIGH

Laser bias current maximum.

LBC-LOW

Laser bias current minimum.

OPT-HIGH

Optical power transmitted maximum.

OPT-LOW

Optical power transmitted minimum.

OPR-HIGH

Optical power received maximum.

OPR-LOW

Optical power received minimum.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.5  Line Tab (ONS 15454 SDH)

The Line tab allows you to view and update optical line performance monitoring information. The Line tab contains the following subtabs:

Line Config Subtab

MS Thresh 15 Min Subtab

MS Thresh 1 Day Subtab

Physical Thresh 15 Min Subtab

Physical Thresh 1 Day Subtab

RS Thresh 15 Min

RS Thresh 1 Day Subtab

Alarm Thresholds Subtab

D.3.2.5.1  Line Config Subtab

The Line Config subtab allows you to view and change the line settings of the MRC-12 card.

Table D-59 Field Descriptions for the Line Config Subtab 

Field
Description

Port Number

Displays the port number.

Port Name

Allows you to add a name for the optical port.

Admin State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Port Rate

Sets the rate of the new port.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

SF BER

Sets the signal fail bit error rate.

SD BER

Sets the signal degrade bit error rate.

Provide Sync

If checked, the card is provisioned as an NE timing reference.

EnableSyncMsg

When checked, enables synchronization status messages, which allow the node to choose the best timing source.

Send Do Not Use

When checked, sends a do not use (DUS) message on the S1 byte.

MS-SPRing Ext. Byte

Select an alternate MS-SPRing byte.

Type

Defines the port.

AINS Soak (H:M)

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down (H:M)

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.

Admin SSM

If the node does not receive an SSM signal, it defaults to STU (synchronization traceability unknown). Admin SSM allows you to override the STU value with one of the following:

PRS—Primary reference source (Stratum 1)

STS2—Stratum 2

TNC—Transit node clock

STS3E—Stratum 3E

STS3—Stratum 3

SMC—SONET minimum clock

ST4—Stratum 4

Send <FF> DoNotUse

When checked, sends a special do not use (DUS) (0xff) message on the S1 byte.

PJ VC-4 Mon#

Sets the VC that will be used for pointer justification. If set to 0, no VC is monitored. Only one VC can be monitored on each STM port.

Reach

Allows you to provision the reach value. You can choose Auto Provision, which allows the system to automatically provision the reach from the PPM reach value on the hardware. Choose one of the following reach distances:

Note The reach distances options that appear in the drop-down list depend on the card selected.

SR (short reach, up to 2km distance)

SR 1 (up to 2km distance)

IR 1 (intermediate reach, up to 15km distance)

IR 2 (up to 40kmm distance)

LR 1 (long reach, up to 40km distance)

LR 2 (up to 80km distance)

LR 3 (up to 80km distance)

I1

S1

S2

L1

L2

L3

SX (up to 550m or 270m distance based on 50um/62.5um diameter fiber)

LX (up to 10km or 550m distance based on 50um/62.5um diameter fiber)

CX

T

DX (up to 40km distance)

HX (up to 40km distance)

ZX (up to 80km distance)

VX (up to 100km distance)

Wavelength

Allows you to provision the wavelength frequency.


D.3.2.5.2  MS Thresh 15 Min Subtab

The MS Thresh 15 Min subtab allows you to view and change the 15-minute near- and far-end line thresholds of the MRC-12 card.

Table D-60 Field Descriptions for the MS Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

EB-MS

Displays the errored block-multiplex section

BBE-MS

Displays the background block errors-multiplex section

ES-MS

Displays the errored seconds-multiplex section

SES-MS

Displays the severely errored seconds-multiplex section

UAS-MS

Displays the unavailable seconds-multiplex section

PSC

Displays the protection switching count

PSD

Displays the protection switching duration

PSC-W

Displays the protection switching count-working

PSD-W

Displays the protection switching duration-working

PSC-S

Displays the protection switching count-span

PSD-S

Displays the protection switching duration-span

PSC-R

Displays the protection switching count-ring

PSD-R

Displays the protection switching duration-ring

Far End

Port Number

Displays the optical port number

EB-MS

Displays the errored block-multiplex section

BBE-MS

Displays the background block errors-multiplex section

ES-MS

Displays the errored seconds-multiplex section

SES-MS

Displays the severely errored seconds-multiplex section

UAS-MS

Displays the unavailable seconds-multiplex section


D.3.2.5.3  MS Thresh 1 Day Subtab

The MS Thresh 1 Day subtab allows you to view and change the 1-day near- and far-end line thresholds of the MRC-12 card.

Table D-61 Field Descriptions for the MS Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

EB-MS

Displays the errored block-multiplex section

BBE-MS

Displays the background block errors-multiplex section

ES-MS

Displays the errored seconds-multiplex section

SES-MS

Displays the severely errored seconds-multiplex section

UAS-MS

Displays the unavailable seconds-multiplex section

PSC

Displays the protection switching count

PSD

Displays the protection switching duration

PSC-W

Displays the protection switching count-working

PSD-W

Displays the protection switching duration-working

PSC-S

Displays the protection switching count-span

PSD-S

Displays the protection switching duration-span

PSC-R

Displays the protection switching count-ring

PSD-R

Displays the protection switching duration-ring

Far End

Port Number

Displays the optical port number

EB-MS

Displays the errored block-multiplex section

BBE-MS

Displays the background block errors-multiplex section

ES-MS

Displays the errored seconds-multiplex section

SES-MS

Displays the severely errored seconds-multiplex section

UAS-MS

Displays the unavailable seconds-multiplex section


D.3.2.5.4  Physical Thresh 15 Min Subtab

The Physical Thresh 15 Min subtab allows you to view and change the 15-minute near-end physical thresholds of the MRC-12 card.

Table D-62 Field Descriptions for the Physical Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent.

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.5.5  Physical Thresh 1 Day Subtab

The Physical Thresh 1 Day subtab allows you to view and change the 1-day near-end physical thresholds of the MRC-12 card.

Table D-63 Field Descriptions for the Physical Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the port number.

LBC-HIGH

Laser bias current maximum. Cisco default is (15 min): 150 percent.

LBC-LOW

Laser bias current minimum. Cisco default is (15 min): 50 percent.

OPT-HIGH

Optical power transmitted maximum. Cisco default is (15 min): 120 percent.

OPT-LOW

Optical power transmitted minimum. Cisco default is (15 min): 80 percent

OPR-HIGH

Optical power received maximum. Cisco default is (15 min): 200 percent.

OPR-LOW

Optical power received minimum. Cisco default is (15 min): 50 percent.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.5.6  RS Thresh 15 Min

The RS Thresh 15 Min subtab allows you to view and change the 15-minute near-end section thresholds of the MRC-12 card.

Table D-64 Field Descriptions for the RS Thresh 15 Min Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

EB-RS

Displays the errored block-regenerator section

BBE-RS

Displays the background block errors-regenerator section

ES-RS

Displays the errored seconds-regenerator section

SES-RS

Displays the severely errored seconds-regenerator section

UAS-RS

Displays the unavailable seconds-regenerator section

OFS-RS

Displays the out of framing seconds-regenerator section


D.3.2.5.7  RS Thresh 1 Day Subtab

The RS Thresh 1 Day subtab allows you to view and change the 1-day near-end section thresholds of the MRC-12 card.

Table D-65 Field Descriptions for the RS Thresh 1 Day Subtab 

Field
Description
Near End

Port Number

Displays the optical port number

EB-RS

Displays the errored block-regenerator section

BBE-RS

Displays the background block errors-regenerator section

ES-RS

Displays the errored seconds-regenerator section

SES-RS

Displays the severely errored seconds-regenerator section

UAS-RS

Displays the unavailable seconds-regenerator section

OFS-RS

Displays the out of framing seconds-regenerator section


D.3.2.5.8  Alarm Thresholds Subtab

The Alarm Thresholds subtab allows you to select the thresholds for the alarms.

Table D-66 Field Descriptions for the Alarm Thresholds Subtab 

Field
Description

Port No.

Port number.

LBC-HIGH

Laser bias current maximum.

LBC-LOW

Laser bias current minimum.

OPT-HIGH

Optical power transmitted maximum.

OPT-LOW

Optical power transmitted minimum.

OPR-HIGH

Optical power received maximum.

OPR-LOW

Optical power received minimum.

Set OPR

Setting the optical power received (OPR) establishes the received power level as 100 percent. If the receiver power decreases, then the OPR percentage decreases to reflect the loss in receiver power. For example, if the receiver power decreases 3 dBm, the OPR decreases 50 percent.


D.3.2.6  STS Tab (ONS 15454 SONET)

The STS tab allows you to view and update MRC-12 STS information. The STS tab contains the following subtabs:

STS Config Subtab

Path Thresh 15 Min Subtab

Path Thresh 1 Day Subtab

Customer Info Subtab

D.3.2.6.1  STS Config Subtab

The STS Config subtab allows you to view and change the STS settings of the MRC-12 card.

Table D-67 Field Descriptions for the STS Config Subtab 

Field
Description

STS Number

Displays the synchronous transport signal number information.

IPPM Enabled

Check to enable IPPM and uncheck to disable IPPM.

XC Loopback

Displays the cross-connect loopback status.


D.3.2.6.2  Path Thresh 15 Min Subtab

The Path Thresh 15 Min subtab allows you to view and change the 15-minute path thresholds of the MRC-12 card.

Table D-68 Field Descriptions for the Path Thresh 15 Min Subtab 

Field
Description
Near End

STS Number

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.

PPJC-Pdet

Displays positive pointer justification count, STS path detected.

NPJC-Pdet

Displays negative pointer justification count, STS path detected.

PPJC-Pgen

Displays positive pointer justification count, STS path generated.

NPJC-Pgen

Displays negative pointer justification count, STS path generated.

PJCS-Pdet

Displays positive pointer justification count, STS path detected.

PJCS-Pgen

Displays positive pointer justification count, STS path generated.

PJC-Diff

Displays the sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Far End

STS No.

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.


D.3.2.6.3  Path Thresh 1 Day Subtab

The Path Thresh 1 Day subtab allows you to view and change the 1-day path thresholds of the MRC-12 card.

Table D-69 Field Descriptions for the Path Thresh 1 Day Subtab 

Field
Description
Near End

STS Number

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.

PPJC-Pdet

Displays positive pointer justification count, STS path detected.

NPJC-Pdet

Displays negative pointer justification count, STS path detected.

PPJC-Pgen

Displays positive pointer justification count, STS path generated.

NPJC-Pgen

Displays negative pointer justification count, STS path generated.

PJCS-Pdet

Displays positive pointer justification count, STS path detected.

PJCS-Pgen

Displays positive pointer justification count, STS path generated.

PJC-Diff

Displays the sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Far End

STS No.

Displays the synchronous transport signal number information.

CV-P

Displays coding violations-path information.

ES-P

Displays errored seconds-path information.

SES-P

Displays severely errored seconds-path information.

UAS-P

Displays unavailable seconds-path information.

FC-P

Displays failure count-path information.


D.3.2.6.4  Customer Info Subtab

The Customer Info subtab allows you to view the customer information.

Table D-70 Field Descriptions for the Customer Info Subtab 

Field
Description

STS No.

The STS number.

Customer ID

The user-defined customer ID number.

Service ID

The user-defined service ID number.


D.3.2.7  VC-4 Tab (ONS 15454 SDH)

The VC-4 tab allows you to view and update MRC-12 VC-4 information. The VC-4 tab contains the following subtabs:

VC-4 Config Subtab

SDH Path Thresh 15 Min Subtab

SDH Path Thresh 1 Day Subtab

Customer Info Subtab

D.3.2.7.1  VC-4 Config Subtab

The VC-4 Config subtab allows you to view and change the VC-4 settings of the MRC-12 card.

Table D-71 Field Descriptions for the VC-4 Config Subtab 

Field
Description

VC Number

Displays the VC number.

IPPM Enabled

Check to enable intermediate path performance monitoring (IPPM) and uncheck to disable IPPM.

XC Loopback

Indicates cross-connect loopback.


D.3.2.7.2  SDH Path Thresh 15 Min Subtab

The SDH Path Thresh 15 Min subtab allows you to view and change the 15-minute path thresholds of the MRC-12 card.

Table D-72 Field Descriptions for the SDH Path Thresh 15 Min Subtab 

Field
Description
Near End

VC Number

Displays the VC-4 port number.

EB-HP

Errored block-higher order path.

ES-HP

Errored seconds-higher order path.

SES-HP

Severely errored seconds-higher order path.

UAS-HP

Unavailable seconds-higher order path.

BBE-HP

Background block errors-higher order path.

PPJC-Pdet

Positive Pointer Justification Count, Path Detected (PPJC-Pdet) is a count of the positive pointer justifications detected on a particular path on an incoming SDH signal.

NPJC-Pdet

Negative Pointer Justification Count, Path Detected (NPJC-Pdet) is a count of the negative pointer justifications detected on a particular path on an incoming SDH signal.

PPJC-Pgen

Positive Pointer Justification Count, Path Generated (PPJC-Pgen) is a count of the positive pointer justifications generated for a particular path.

NPJC-Pgen

Negative Pointer Justification Count, Path Generated (MS-NPJC-Pgen) is a count of the negative pointer justifications generated for a particular path.

PJCS-Pdet

Number of Higher Order Path Pointer Justification Count Seconds detected on a particular path.

PJCS-Pgen

Number of Higher Order Path Pointer Justification Count Seconds generated for a particular path.

PJC-Diff

Displays the sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Far End

VC Number

Displays the VC-4 port number.

EB-HP

Errored block-higher order path.

ES-HP

Errored seconds-higher order path.

SES-HP

Severely errored seconds-higher order path.

UAS-HP

Unavailable seconds-higher order path.

BBE-HP

Background block errors-higher order path.


D.3.2.7.3  SDH Path Thresh 1 Day Subtab

The SDH Path Thresh 1 Day subtab allows you to view and change the 1-day path thresholds of the MRC-12 card.

Table D-73 Field Descriptions for the SDH Path Thresh 15 Min Subtab 

Field
Description
Near End

VC Number

Displays the VC-4 port number.

EB-HP

Errored block-higher order path.

ES-HP

Errored seconds-higher order path.

SES-HP

Severely errored seconds-higher order path.

UAS-HP

Unavailable seconds-higher order path.

BBE-HP

Background block errors-higher order path.

PPJC-Pdet

Positive Pointer Justification Count, Path Detected (PPJC-Pdet) is a count of the positive pointer justifications detected on a particular path on an incoming SDH signal.

NPJC-Pdet

Negative Pointer Justification Count, Path Detected (NPJC-Pdet) is a count of the negative pointer justifications detected on a particular path on an incoming SDH signal.

PPJC-Pgen

Positive Pointer Justification Count, Path Generated (PPJC-Pgen) is a count of the positive pointer justifications generated for a particular path.

NPJC-Pgen

Negative Pointer Justification Count, Path Generated (MS-NPJC-Pgen) is a count of the negative pointer justifications generated for a particular path.

PJCS-Pdet

Number of Higher Order Path Pointer Justification Count Seconds detected on a particular path.

PJCS-Pgen

Number of Higher Order Path Pointer Justification Count Seconds generated for a particular path.

PJC-Diff

Displays the sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Far End

VC Number

Displays the VC-4 port number.

EB-HP

Errored block-higher order path.

ES-HP

Errored seconds-higher order path.

SES-HP

Severely errored seconds-higher order path.

UAS-HP

Unavailable seconds-higher order path.

BBE-HP

Background block errors-higher order path.


D.3.2.7.4  Customer Info Subtab

The Customer Info subtab allows you to view the customer information.

Table D-74 Field Descriptions for the Customer Info Subtab 

Field
Description

VC No.

The VC number.

Customer ID

The user-defined customer ID number.

Service ID

The user-defined service ID number.


D.3.2.8  Loopback Tab

The Loopback tab allows you to view and update loopback information.

Table D-75 Field Descriptions for the Loopback Tab 

Field
Description

Port Number

Displays the port number.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Loopback Type

Allows you to configure a port to terminal loopback (Inward) or Facility (Line), or clear the current loopback (none).

Note The line state must be OOS_MT before you can configure the loopback type.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Send AIS on Facility Loopback

When selected, sends AIS on the facility loopback.

Send AIS on Terminal Loopback

When selected, sends AIS on the terminal loopback.


D.3.2.9  Protection Tab

The Protection tab allows you to view and update MRC-12 protection group information.

Table D-76 Field Descriptions for the Protection Tab 

Field
Description

Protection Groups

Displays a list of available protection groups.

Protection Group Details

Displays details about the selected protection group.


D.3.2.10  Alarm Behavior Tab

The Alarm Behavior tab allows you to view and update alarm profile information.

Table D-77 Field Descriptions for the Alarm Behavior Tab 

Field
Description

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Alarm Profile

Choose an alarm profile for all ports.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.3.2.11  Transceiver Tab

The Transceiver tab allows you to view and update MRC-12 transceiver information.

Table D-78 Field Descriptions for the Transceiver Tab 

Field
Description

Port No.

PIM number, PPM number, Port number.

Non-normalized LBC (mA)

The actual operating value of laser bias current (in mA) for the specified card port.

Non-normalized OPT (dBm)

The actual operating value of optical power transmitted (in dBm) for the specified card port.

Non-normalized OPR (dBm)

The actual operating value of optical power received (in dBm) for the specified card port.


D.3.2.12  Auto Laser Shutdown Tab

The Auto Laser Shutdown tab allows you to view and update MRC-12 ALS parameters.

Table D-79 Field Descriptions for the Auto Laser Shutdown Tab 

Field
Description

Port No.

Displays the port number.

ALS Mode

Displays the ALS mode (Disabled, Auto Restart, Manual Restart, or Manual Restart for Test).

Rec. Pulse Dur. (sec)

Allows you to set the received laser pulse duration, in seconds. The range is 2.0 to 100.0 seconds.

Rec. Pulse Int. (sec)

Allows you to set the received laser pulse interval, in seconds. The range is 60 to 300 seconds.

Status

Displays the current laser status. Values are Shutdown or Not Shutdown.

Request Restart

If selected, it allows you to request a laser restart. This parameter is configurable only when the ALS mode is set to Manual Restart or Manual Restart for Test and when the laser status is Shut Down.


D.3.2.13  Section Trace Subtab

The Section Trace subtab allows you to change the section trace settings for the MRC-12 card.

Table D-80 Field Descriptions for the Section Trace Subtab 

Field
Description

Port Number

Displays the port number.

Trace Mode

The trace mode (Off/None or Manual).

Disable AIS/RDI on TIM-S

Allows you to disable the Alarm Indication Signal (AIS) and the Remote Defect Indication (RDI) when the path Trace Identifier Mismatch Section (TIM-S) alarm is detected.

Transmit Length

Select a transmit length for the trace.

Current Transmit String

Displays the current transmit string. The trail trace identifier is 64 bytes in length.

Current Expected String

Displays the current expected string; sets a new expected string.

Current Received String

Displays the current received string.


D.3.2.14  J1 Path Trace Tab

The J1 Path Trace tab allows you to view and update J1 path trace information.

Table D-81 Field Descriptions for the J1 Path Trace Tab 

Field
Description

Port Number

Displays the port number.

STS | VC-4 Number

Displays the STS or VC-4 number.

Expected String

Displays the current expected string.

Received String

Displays the current received string.

Mode

Displays the path trace mode (Off/None, Auto, or Manual).

C2

Represents a machine-generated J1/J2 payload label byte.


D.3.2.15  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the MRC-12 card.

Table D-82 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.4  Optical Cards

This section describes the following optical cards supported within CTM:

Slot Properties—OC12 IR/STM4 SH 1310

Slot Properties—OC12-4 IR/STM4 SH 1310

Slot Properties—OC192 LR/STM64 LH 1550

Slot Properties—OC192/STM64 XFR-Based

Slot Properties—OC3 IR 4 1310

Slot Properties—OC3 IR/STM1 SH 1310-8

Slot Properties—OC48

Slot Properties—OC48 IR 1310

Slot Properties—OC48 LR 1550

Slot Properties—OECP-L

Slot Properties—STM-1

Slot Properties—STM-1E-12

Slot Properties—STM-16 (ONS 15454 SDH)

Slot Properties—STM-16 (ONS 15600 SDH)

Slot Properties—STM-4 IR/STM4 SH 1310

Slot Properties—STM-64 LH 1550 (ONS 15454 SDH)

Slot Properties—STM-64 LR/LH 4 (ONS 15600 SDH)

D.4.1  Slot Properties—OC12 IR/STM4 SH 1310

The Slot Properties pane displays information about the Cisco ONS 15327 or ONS 15454 slot that is selected in the NE Explorer tree. Use this properties pane to change the module performance monitoring thresholds.

The ONS 15454 Optical Connector (OC12 IR/STM4 SH 1310) card provides one intermediate or short range SONET/SDH OC-12 port compliant with the International Telecommunication Union (ITU) G.707, ITU-T G.957, and Telcordia GR-253-CORE. The port operates at 622.08 Mbps over a single-mode fiber span. The card supports VT and nonconcatenated or concatenated payloads at STS-1, STS-3c, STS-6c, or STS-12c signal levels.

For the OC12 IR/STM4 SH 1310 module, the Slot Properties pane displays the following tabs: Module View, Identification, Line, STS, Loopback, Protection, Alarm Behavior, and Info.

D.4.1.1  Module View Tab

The Module View tab displays a graphic of the OC12 IR/STM4 SH 1310 that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms are also displayed when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s). Right-clicking the graphic opens a shortcut menu that you can use to reset, delete, or change the card.

D.4.1.2  Identification Tab

The Identification tab allows you to view and update OC12 IR/STM4 SH 1310 identification information.

Table D-83 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type that the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

Hardware Part Number

Displays the card part number that is printed on the top of the card.

Hardware Revision

Displays the hardware revision number.

Serial Number

Displays the card serial number that is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.4.1.3  Line Tab

The Line tab allows you to view and update OC12 IR/STM4 SH 1310 line performance monitoring information.

Table D-84 Field Descriptions for the Line Tab 

Field
Description
Line Config

Port Number

Displays the optical port number.

Port Name

Allows you to enter the name of the optical port.

SD BER

Sets the signal degrade bit error rate.

SF BER

Sets the signal fail bit error rate.

Type

Defines the port as SONET or SDH.

PJSTSMon#

Sets the STS that will be used for pointer justification. If set to 0, no STS is monitored. Only one STS can be monitored on each OC-N port.

0 (Cisco default)-3 (OC-3, per port)

0 (Cisco default)-12 (OC-12)

0 (Cisco default)-48 (OC-48)

ProvidesSync

If checked, the card is provisioned as an NE timing reference.

EnableSyncMsg

Enables synchronization status messages (S1 byte), which allow the node to choose the best timing source.

Admin SSM

If the node does not receive an SSM signal, it defaults to STU (synchronization traceability unknown). Admin SSM allows you to override the STU value with one of the following:

PRS—Primary reference source (Stratum 1)

STS2—Stratum 2

TNC—Transit node clock

STS3E—Stratum 3E

STS3—Stratum 3

SMC—SONET minimum clock

ST4—Stratum 4

Send DoNotUse

When checked, sends a do not use (DUS) message on the S1 byte.

Admin State

Select the designation that drives whether an entity is in service or out of service. The Admin state is the driver for the Service state.

Service State

Displays the service state:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped; there is nothing in the slot.

UAS—Unassigned; the entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic in service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE does not support the Service State, this field shows N/A.

AINS Soak

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.

Line Threshold 15 Minutes
Near End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

PSC

Protection switching count

PSD

Protection switching duration

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

Far End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

Line Threshold 1 Day
Near End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

PSC

Protection switching count

PSD

Protection switching duration

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

Far End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

Section Threshold 15 Minutes

Port Number

The optical port number

CV-S

Coding violations-section

ES-S

Errored seconds-section

SES-S

Severely errored seconds-section

SEFS-S

Severely errored framing seconds-section

Section Threshold 1 Day

Port Number

The optical port number

CV-S

Coding violations-section

ES-S

Errored seconds-section

SES-S

Severely errored seconds-section

SEFS-S

Severely errored framing seconds-section


D.4.1.4  STS Tab

The STS tab allows you to view and update OC12 IR/STM4 SH 1310 synchronous transport signal (STS) information.

Table D-85 Field Descriptions for the STS Tab 

Field
Description
STS Config

Displays the STS number, the intermediate path protection monitoring (IPPM) status, and XC loopback status.

Path Threshold 15 Minutes

STS Number

The synchronous transport signal number

CV-P

Coding violations-path

ES-P

Errored seconds-path

SES-P

Severely errored seconds-path

UAS-P

Unavailable seconds-path

FC-P

Failure count-path

PPJC-Pdet

Positive pointer justification count, STS path detected

NPJC-Pdet

Negative pointer justification count, STS path detected

PPJC-Pgen

Positive pointer justification count, STS path generated

NPJC-Pgen

Negative pointer justification count, STS path generated

PJCS-Pdet

Positive pointer justification count, STS path detected

PJCS-Pgen

Positive pointer justification count, STS path generated

PJC-Diff

The sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Path Threshold 1 Day

STS Number

The synchronous transport signal number

CV-P

Coding violations-path

ES-P

Errored seconds-path

SES-P

Severely errored seconds-path

UAS-P

Unavailable seconds-path

FC-P

Failure count-path

PPJC-Pdet

Positive pointer justification count, STS path detected

NPJC-Pdet

Negative pointer justification count, STS path detected

PPJC-Pgen

Positive pointer justification count, STS path generated

NPJC-Pgen

Negative pointer justification count, STS path generated

PJCS-Pdet

Positive pointer justification count, STS path detected

PJCS-Pgen

Positive pointer justification count, STS path generated

PJC-Diff

The sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Customer Info

STS Number

The STS number

Customer ID

The user-defined customer ID number

Service ID

The user-defined service ID number


D.4.1.5  Loopback Tab

The Loopback tab allows you to view and update OC12 IR/STM4 SH 1310 loopback information.

Table D-86 Field Descriptions for the Loopback Tab 

Field
Description

Port Number

Displays the port number.

Admin State

Displays the status of the line. The line can be In Service (IS), In Service-Auto In Service Soak (IS_AINS), Out of Service (OOS), or Out of Service-Maintenance (OOS_MT).

Loopback Type

Allows you to configure a port to terminal loopback (Inward) or Facility (Line), or clear the current loopback (None).

Note The line state must be OOS_MT before you can configure the loopback type.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.


D.4.1.6  Protection Tab

The Protection tab allows you to view and update OC12 IR/STM4 SH 1310 protection group information.

Table D-87 Field Descriptions for the Protection Tab 

Field
Description

Protection Groups

Displays a list of available protection groups.

Protection Group Details

Displays details about the selected protection group.


D.4.1.7  Alarm Behavior Tab

The Alarm Behavior tab allows you to view and update OC12 IR/STM4 SH 1310 alarm profile information.

Table D-88 Field Descriptions for the Alarm Behavior Tab 

Field
Description

Alarm Profile

Displays the alarm profile that has been configured for the card.

Suppress Alarms

If checked, indicates that all alarms are suppressed for the card.

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Alarm Profile

Choose an alarm profile for all ports.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.4.1.8  Info Tab

The Info tab allows you to view nominal operating values set during manufacturing for the OC12 IR/STM4 SH 1310 module.

Table D-89 Field Descriptions for the Info Tab 

Field
Description
Extended Manufacturing Information

Attribute

Displays the nominal card specification.

Value

Displays the value of the attribute.


Note See Table 1-20 on page 1-45 for descriptions of actions that can be performed using the buttons at the bottom of the window.

D.4.2  Slot Properties—OC12-4 IR/STM4 SH 1310

The Slot Properties pane displays information about the Cisco ONS 15327 or ONS 15454 slot that is selected in the NE Explorer tree. Use this properties pane to change the module's performance monitoring thresholds.

The Optical Connector (OC12-4 IR/STM4 SH 1310) card provides one intermediate or short range SONET/SDH OC-12 port compliant with the International Telecommunication Union's G.707, G.957, and Telcordia's GR-253. The port operates at 622.08 Mbps over a single-mode fiber span. The card supports VT and nonconcatenated or concatenated payloads at STS-1, STS-3c, STS-6c, or STS-12c signal levels.

For the OC12-4 IR/STM4 SH 1310 module, the Slot Properties pane displays the following tabs: Module View, Identification, Line, STS, Loopback, Protection, Alarm Behavior, J1 Path Trace, and Info.

D.4.2.1  Module View Tab

The Module View tab displays a graphic of the OC12-4 IR/STM4 SH 1310 that is installed in the slot. The number of critical, major, minor, and warning alarms for the module is displayed under Alarm Status. (Alarms also display when you move the mouse pointer over the graphic.) The Suppress Alarms check box is read-only and indicates whether all alarms are suppressed for the card and its port(s). Right-clicking the graphic opens a shortcut menu that you can use to reset, delete, or change the card.

D.4.2.2  Identification Tab

The Identification tab is where you view and update OC12-4 IR/STM4 SH 1310 identification information.

Table D-90 Field Descriptions for the Identification Tab 

Field
Description

Equipment Type

Displays the equipment type the slot is provisioned for.

Actual Equipment Type

Displays the actual card that is installed in the slot.

Hardware Part Number

Displays the card part number. This number is printed on the top of the card.

Hardware Revision

Displays the hardware revision number of the card.

Serial Number

Displays the card serial number. This number is unique to each card.

CLEI Code

Displays the CLEI code.

Firmware Version

Displays the revision number of the software used by the ASIC chip installed on the card.

Product ID

Displays a product ID string of 63 characters maximum. If the card does not support the product ID, the field shows N/A.

Version ID

Displays a version ID string in the format "V99_." The version ID always begins with a V and ends with a space. If the card does not support the version ID, the field shows N/A.

Administration State

The port administration state. It can be:

IS—In Service.

IS, AINS—Automatic In Service.

OOS, DSBLD—Out of Service, Disabled.

OOS, MT—Out of Service, Maintenance.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Equipment State

Displays the equipment state of the card.

Alarm Profile

Sets the alarm profile for the port. Check the Suppress Alarms check box to suppress all alarms for this card and its port(s).


D.4.2.3  Line Tab

The Line tab is where you view and update OC12-4 IR/STM4 SH 1310 optical line performance monitoring information.

Table D-91 Field Descriptions for the Line Tab 

Field
Description
Line Config

Port Number

Displays the optical port number.

Port Name

Displays the port name.

SD BER

Sets the signal degrade bit error rate.

SF BER

Sets the signal fail bit error rate.

Type

Defines the port as SONET or SDH.

PJSTSMon#

Sets the STS that will be used for pointer justification. If set to 0, no STS is monitored. Only one STS can be monitored on each OC-N port.

0 (Cisco default) - 3 (OC3, per port)

0 (Cisco default) - 12 (OC-12)

0 (Cisco default) - 48 (OC-48)

ProvidesSync

If checked, the card is provisioned as an NE timing reference.

EnableSyncMsg

Enables synchronization status messages (S1 byte), which allow the node to choose the best timing source.

Send DoNotUse

When checked, sends a do not use (DUS) message on the S1 byte.

Admin State

The port administration state. Choosing an administrative state from the drop-down list and clicking Apply changes the port's service state unless network conditions prevent the change. Admin states include:

IS—In Service. The port service state changes to IS_NR.

OOS,DSBLD—Out of Service, Disabled. The port service state changes to OOS_MA, DSBLD.

OOS, MT—Out of Service, Maintenance. The port service state changes to OOS_MA, MT. For loopbacks, the OOS, MT admin state must be initiated.

IS, AINS—Automatic In Service. The port service state changes to OOS_AU, AINS.

AINS Soak

Automatic in-service soak. The determination of duration left before the traffic/termination transitions to IS state.

AINS Soak Count Down

Automatic in-service soak countdown. Displays the remaining time of valid input signal in hh:mm, after which the card becomes in service (IS) automatically.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.

Admin SSM

If the node does not receive an SSM signal, it defaults to STU (synchronization traceability unknown). Admin SSM allows you to override the STU value with one of the following:

PRS—Primary reference source (Stratum 1)

STS2—Stratum 2

TNC—Transit node clock

STS3E—Stratum 3E

STS3—Stratum 3

SMC—SONET minimum clock

ST4—Stratum 4

Send <<FF> DoNotUse

When checked, sends a do not use (DUS) message on the S1 byte.

Line Threshold 15 Minutes
Near End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

PSC

Protection switching count

PSD

Protection switching duration

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

PSC-S

Protection switching count-span

PSD-S

Protection switching duration-span

Far End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

Line Threshold 1 Day
Near End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

PSC

Protection switching count

PSD

Protection switching duration

PSC-W

Protection switching count-working

PSD-W

Protection switching duration-working

PSC-S

Protection switching count-span

PSD-S

Protection switching duration-span

Far End

Port Number

The optical port number

ES-L

Errored seconds-line

SES-L

Severely errored seconds-line

CV-L

Coding violations-line

UAS-L

Unavailable seconds-line

FC-L

Failure count-line

Section Threshold 15 Minutes

Port Number

Displays the optical port number.

CV-S

Coding violations

ES-S

Errored seconds

SES-S

Severely errored seconds

SEFS-S

Severely errored framing seconds

Section Threshold 1 Day

Port Number

Displays the optical port number.

CV-S

Coding violations

ES-S

Errored seconds

SES-S

Severely errored seconds

SEFS-S

Severely errored framing seconds


D.4.2.4  STS Tab

The STS tab is where you view and update OC12-4 IR/STM4 SH 1310 STS information.

Table D-92 Field Descriptions for the STS Tab 

Field
Description
STS Config

Displays the STS number, the intermediate path protection monitoring (IPPM) status, and XC loopback status.

Path Threshold 15 Minutes

STS Number

The synchronous transport signal number

CV-P

Coding violations-path

ES-P

Errored seconds-path

SES-P

Severely errored seconds-path

UAS-P

Unavailable seconds-path

FC-P

Failure count-path

PPJC-Pdet

Positive pointer justification count, STS path detected

NPJC-Pdet

Negative pointer justification count, STS path detected

PPJC-Pgen

Positive pointer justification count, STS path generated

NPJC-Pgen

Negative pointer justification count, STS path generated

PJCS-Pdet

Positive pointer justification count, STS path detected

PJCS-Pgen

Positive pointer justification count, STS path generated

PJC-Diff

The sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Path Threshold 1 Day

STS Number

The synchronous transport signal number

CV-P

Coding violations-path

ES-P

Errored seconds-path

SES-P

Severely errored seconds-path

UAS-P

Unavailable seconds-path

FC-P

Failure count-path

PPJC-Pdet

Positive pointer justification count, STS path detected

NPJC-Pdet

Negative pointer justification count, STS path detected

PPJC-Pgen

Positive pointer justification count, STS path generated

NPJC-Pgen

Negative pointer justification count, STS path generated

PJCS-Pdet

Positive pointer justification count, STS path detected

PJCS-Pgen

Positive pointer justification count, STS path generated

PJC-Diff

The sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.

Customer Info

STS Number

The STS number

Customer ID

The user-defined customer ID number

Service ID

The user-defined service ID number


D.4.2.5  Loopback Tab

The Loopback tab is where you view and update OC12-4 IR/STM4 SH 1310 loopback information.

Table D-93 Field Descriptions for the Loopback Tab 

Field
Description

Port Number

Displays the port number.

Admin State

Displays the status of the line. The line can be In Service (IS), In Service-Auto In Service Soak (IS_AINS), Out of Service (OOS), or Out of Service-Maintenance (OOS_MT).

Loopback Type

Allows you to configure a port to terminal loopback (Inward) or Facility (Line), or clear the current loopback (None).

Note The line state must be OOS_MT before you can configure the loopback type.

Service State

Overall availability of the entity. Values are:

IS_NR—In Service-Normal.

OOS_AU—Out of Service-Autonomous.

OOS_MA—Out of Service-Management.

OOS_AUMA—Out of Service-Autonomous and Management.

In addition, a secondary state provides additional information about the status of the entity. Values for secondary state are:

MEA—Mismatch of equipment due to invalid equipment insertion.

UEQ—Unequipped. There is nothing in the slot.

UAS—Unassigned. The entity does not exist, has not been created, or has been deleted.

SWDL—Software download in progress.

MT—Maintenance, as per the Admin State change.

AINS—Automatic In Service.

DSBLD—Traffic is disabled on the entity.

LPBK—Port or connection has a loopback on it.

FLT—Fault secondary state. When an entity is faulted, an FLT state is raised. Equipment and ports in FLT state should be cleared as they transition. Transition states are listed in Table 11-10 on page 11-15.

See Table 11-10 on page 11-15 for the Service state/Secondary state possible values.

Note If the NE release does not support the Service state, this field shows N/A.


D.4.2.6  Protection Tab

The Protection tab is where you view and update OC12-4 IR/STM4 SH 1310 protection group information.

Table D-94 Field Descriptions for the Protection Tab 

Field
Description

Protection Groups

Displays a list of available protection groups.

Protection Group Details

Displays details about the selected protection group.


D.4.2.7  Alarm Behavior Tab

The Alarm Behavior tab is where you view and update OC12-4 IR/STM4 SH 1310 alarm profile information.

Table D-95 Field Descriptions for the Alarm Behavior Tab 

Field
Description

Alarm Profile

Displays the alarm profile that has been configured for the card.

Suppress Alarms

If checked, indicates that all alarms are suppressed for the card.

Port Number

Displays the card port number.

Alarm Profile

Choose an alarm profile for the port from the drop-down list. Values are Default, Inherited, or a customized alarm profile.

Suppress Alarms

If checked, all alarms are suppressed for the port.

Alarm Profile

Choose an alarm profile for all ports.

Force to All Ports

When clicked, forces all the ports to the selected alarm profile.


D.4.2.8  J1 Path Trace Tab

The J1 Path Trace tab allows you to view and update OC12-4 IR/STM4 SH 1310 J1 Path Trace information.

Note This tab is not available on ONS 15327 OC12-4 IR/STM4 SH 1310 cards.

Table D-96 Field Descriptions for the J1 Path Trace Tab 

Field
Description

Port Number

Displays the port number.

STS Number

Displays the STS number.

Expected String

Displays the current expected string.

Received String