Table of Contents

Selecting a Line
Configuring DSX1 Lines

Physical Line Configuration (DSX1)
DSX1 Physical Line Alarm Configuration
DSX1 Line RealTime Counters
DSX1 PLCP Configuration

DSX3 Lines Configuration

Physical Line Configuration (dsx3)
DSX3 Physical Line Alarm Configuration
DSX3 Counters
DSX3 PLCP Alarm Configuration

Channelized Line Configuration

Channelized Line Configuration (DSX1)
Channelized Line Configuration (DSX3)

X21 Lines Configuration Dialogs

X21 Line Config
X21 Physical Line Alarm Configuration

Sonet Lines Configuration

Physical Line Config (Sonet)
Physical Line Alarm Config (Sonet)
Sonet Counters
ATM Line

SRM Line Configuration

SRM Counters
SRM Line Distribution (SRM 3T3)

Logical Ports

CESM Ports Configuration

Logical Port Config (CESM)

FRSM Ports Configuration

FRSM Logical Ports Configuration
FR Port RTCs
FR Port RTCs (CLLM)

X21 Frame Ports Configuration

Displaying and Configuring Lines

Selecting a Line

There are four ways to select the line (the rear view of the card must be displaying) to display the appropriate line configuration dialog:

• Double-click the connector on the card.

• Select the connector, then select Configure>Line.

• Select the connector, right-click to display the Line pop-up menu, then select Configure.

• Select the connector, then click the Configure button on the toolbar.

To display the configuration parameters for a particular line/port, select the name of the category from the Category pop-up menu at the top of the dialog. The categories of line configuration are:

• DSX1

• DSX3

• Sonet Lines

• X21/HSSI/V.35

• Channelized Lines

• SRM Lines

Configuring DSX1 Lines

Use these dialogs to view and configure dsx1 line information. (If you reached any of these dialogs by device selection, the total number of rows read is displayed at the bottom of the dialog.) To select another line for viewing, enter a line number in the Line field at the top of the dialog. The dialog is refreshed and displays the new information.

The categories of line configuration for dsx1 lines are:

• Physical Line Config (dsx1)

• Physical Line Alarm Config (dsx1)

• DSX1Line RealTime Counters

• DSX1 PLCP Configuration

These dialogs are described in the sections that follow.

Physical Line Configuration (DSX1)

To view and configure the dsx1 physical line information, select dsx1 Physical Line Configuration from the Category pull-down menu. The parameters are described in Table 17-1.

Table 17-1: DSX1 Line Configuration Dialog Parameters

Parameter	Description
Line Number	Line number.
Type	Line type. Choose one from the pop-up menu: dsx1ESF dsx1D4 dsx1E1 dsx1E1CRC dsx1E1CRC-MF dsx1E1MF dsc1E1clearchannel
Connector	Line connector type and the back card type. Can be db15 bnc rj48
Line Enable	Line-enabled status. Choose one from the pop-up menu: modify enable disable
Coding	Type of zero code suppression used on the line, which in turn affects a number of its characteristics. Choose one pop-up menu: dsx1HDB3 dsx1JBZS dsx1B8ZS dsx1AMI JBZS = Jammed Bit Zero Suppression
Length	Line length. Choose one from the pop-up menu: lineLength0to110Feet lineLength110to220Feet lineLength220to330Feet lineLength330to440Feet lineLength440to550Feet lineLength550to660Feet lineLength660FeetPlus lineLength-75-0hm lineLength-120-0hm lineLength0to131Feet lineLength131to262Feet lineLength262to393Feet lineLength393to524Feet lineLength524to655Feet lineLength655FeetPlus notRequired
Xmt Clock	Transmit clock source. Choose one from the pop-up menu: localTiming loopTiming throughTiming On a CESM card, only localTiming is supported.
Loopback	Line loopback configuration of the DS1 interface. Choose one of the following from the pop-up menu: dsx1LocalLoop dsx1NoLoop dsx1RemoteLoop
Code Sent	Type of code sent across DS1. Choose one from the pop-up menu: dsx1SendNoCode dsx1SendLineCode dsx1SendPayLoadCode dsx1SendResetCode LineUsedTimeslotsBitMap
DS0's Used	DS0s used for this line.
Loopback code Detect	Indicates whether or not detection of line loopback codes is enabled. Choose codeDetectDisabled or codeDetectEnabled from the pop-up menu.
Enable BERT	Indicates whether or not BERT is enabled.

DSX1 Physical Line Alarm Configuration

To view and configure the dsx1 physical line alarm information, select dsx1 Physical Line Alarm Information from the Category pull-down menu. The parameters are described in Table 17-2.

Table 17-2: DSX1 Physical Line Alarm Configuration Parameters

Parameter	Description
Line Number	Line number.
Line Alarm State	Status of the line alarm. A value of zero indicates no alarms.
Line Statistical Alarm State	Status of the line statistical alarm. A value of zero indicates no alarms.
Setup Severity of Red Alarm	Used to set up the severity of RED alarm. When the LOS alarm is detected, the FRSM sends the alarm with the appropriate severity status. Choose major or minor from the pop-up menu.
Setup Severity of RAI Alarm	Used to set up the severity of RAI alarm. When the LOS alarm is detected, the FRSM sends the alarm with the appropriate severity status. Choose major or minor from the pop-up menu.
Near-End Alarm Counter (up counter)	Integration counter. The local alarms are LOS and LOF. The default is 6.
Near-End Alarm Counter (down counter)	Integration counter. The near-end alarms are LOS and LOF. The default is 1.
Near-End Alarm Threshold	Determines the value to declare for near-end alarm. A count of 1500 gives 2.5 seconds to declare LOS with an up-count value of 6.
Far-End Alarm Counter (up counter)	Integration counter. The far-end alarms are AIS and YEL. The default is 6.
Far-End Alarm Counter (down counter)	Integration counter. The far-end alarms are AIS and YEL. The default is 1.
Far-End Alarm Threshold	Determines the value to declare for far-end alarm. A count of 1500 gives 2.5 seconds to declare LOS with an up count value of 6.
Statistical Alarm Severity	Used to set up the severity of statistical alarm. When any statistical alarm is detected, the FRSM sends the alarm with appropriate severity status. Choose one from the pop-up menu: major minor inhibit

DSX1 Line RealTime Counters

To view and configure the dsx1 line RealTime Counters information, select dsx1 Line RealTime Counters from the Category pull-down menu. The parameters are described in Table 17-3.

Table 17-3: DSX1 Line RealTime Counters Parameters

Parameter	Description
Cnt Line Number	Line number.
Clear Line Counters	Choose noaction or clear.
Rcv LOS Count	Number of times the Loss of Signal is detected with or without integrating to LOS alarm.
Rcv OOF Count	The number of times Yellow alarm is detected with or without integrating to RAI alarm.
Rcv RAI Count	The number of times Yellow alarm is detected with or without integrating to RAI alarm.
Rcv FE Count	The number of Framing Errors detected.

DSX1 PLCP Configuration

To view and configure dsx1 PLCP configuration information, select dsx1 PLCP Configuration from the Category pull-down menu. The parameters are described in Table 17-4.

Table 17-4: DSX1 PLCP Configuration Parameters

Parameter	Description
Cell Framing	Indicates the supported cell framing type. Choose one of the following from the pop-up menu: other, atm, or plcp.
Cell Scramble	Indicates whether or not cell scrambling is required. Choose one of the following from the pop-up menu: noScramble or scramble.
plppLoopBack	The type of loopback. Choose one of the following from the pop-up menu: noLoopBack, remoteLoopBack, or localLoopBack.

DSX3 Lines Configuration

Use these dialogs to view and configure dsx3 line information. (If you reached any of these dialogs by device selection, the total number of rows read is displayed at the bottom of the dialog.) To select another line for viewing, enter a line number in the Line field at the top of the dialog. The dialog is refreshed and displays the new information.

The categories of line configuration for dsx3 lines are:

• Physical Line Config (dsx3)

• Physical Line Alarm Config (dsx3)

• DSX3 Counters (2 dialogs)

• DSX3 PLCP Configuration

These dialogs are described in the sections that follow.

Physical Line Configuration (dsx3)

To view and configure dsx3 physical line configuration information, select Physical Line Configuration (dsx3) from the Category pull-down menu. The parameters are described in Table 17-5.

Table 17-5: DSX3 Physical Line Configuration(dsx3) Parameters

Parameter	Description
Line Number	Line number.
Line Enable	Choose enable or disable.
Line Type	Line type Choose one: dsx3CbitParity g832-g804 dsx3M23 g751 dsx3Unframed e3Unframed
Line Coding	Line coding. Can be dsx3B3ZS or e3HDB3.
Line Length	Line length. Choose lessThan225 or moreThan225 from the pop-up menu.
Line OOF Criteria	Line OOF decision criteria. Can be fBits30f8 or fBits3Of16.
Line Check AIS Bits Check	Choose checkCbits or ignorebits from the pop-up menu. If checkCbits, AIS is declared when 1010 pattern is found and C-bits are all zero. If ignorebits, an AIS condition is declared when the AIS pattern 1010 is detected, regardless of the state of the C-bits.
Line Loopback Command	Loopback configuration of the DS3/E3 interface. Choose one from the pop-up menu: dsx3NoLoop dsx3RemoteLineLoop dsx3LocalLineLoop dsx3InbndLocalLoopback
Line Receive FEAC Validation	Far-end alarm and control (FEAC) code validation criteria. Choose fFEACCodes4Of5 or fFEACCodes8Of10 from the pop-up menu. If FEACCodes4Of5 is specified, a valid FEAC codes is declared if four of five codes match. If fFEACCodes8Of10 is specified, a valid FEAC code is declared when eight of ten codes match.
Line Transmit FEAC Code	Indicates the bit-oriented code to transmit over the far-end alarm and control (FEAC) channel. Choose one from the pop-up menu: dsx3SendNoCode dsx3SendLineCode dsx3SendLineCode dsx3SendPayLoadCode dsx3SendResetCode dsx3SendDS1LoopCode dsx3SendSendTestPattern
Line XMT Clock Source	Line transmit clock source. Choose one from the pop-up menu: backplaneClk recoverClk localClk
Far End Loopback Status	Bitmap of the DSX3 FarEnd line loopback status bits.
Line equalizer	Determines type of line equalizer. Choose one from the pop-up menu: intrnlequalizer extequalizer

DSX3 Physical Line Alarm Configuration

To view and configure dsx3 physical line alarm information, select dsx3 Physical Line Alarm Configuration from the Category pull-down menu. The parameters are described in Table 17-6.

Table 17-6: DSX3 Physical Line Alarm Configuration Parameters

Parameter	Description
Line Alarm State	Status of the line alarm. A value of zero indicates no alarms.
Line Statistical Alarm State	Status of the line statistical alarms. A value of zero indicates no alarms.
Red Severity	Used to set up the severity of RED alarm. When an LOS/LOF alarm is detected, the BNM sends the alarm with the appropriate alarm status. Can be minor or major.
RAI Severity	Used to set up the severity of RAI alarm. When RAI alarm is detected, the BNM sends the alarm with the appropriate alarm status. Can be minor or major.
Near End Alarm Up Count	Specifies the increment to the near-end alarm integration counters. The local alarms are LOS and LOF. The default is 6, and the integration counter is incremented by this value every 10 milliseconds when the alarm persists. The counter is decremented by the value of dsx3NEAlarmDownCount while there is no alarm (the counter does not decrement below zero). When the integration counter exceeds dsx3NEAlarmThreshold, an alarm of the severity specified for the particular NE alarm is declared.
Near End Alarm Down Count	Specifies the decrement to the near-end alarm integration counters. The local alarms are LOS and LOF. The default is 1, and the integration counter is decremented by this value every 10 milliseconds while no alarm persists. The counter is incremented by the value of dsx3NEAlarmUpCount while there is no alarm (the counter does not decrement below zero). When the integration counter reaches zero, any alarm previously declared is removed.
Near End Alarm Threshold	Determines the value that the alarm integration counter must reach for a near-end alarm to be declared. If the up-count is 6, the down-count is 1, and the threshold is 1500, an alarm is integrated in 2.5 seconds and removed in 15 seconds.
Far End Alarm Up Count	Determines the value that the alarm integration counter must reach for a near-end alarm to be declared. If the up-count is 6, the down-count is 1, and the threshold is 1500, an alarm is integrated in 2.5 seconds and removed in 15 seconds.
Far End Alarm Down Count	Specifies the decrement to the far-end alarm integration counters. The local alarms are RAI and AIS. The default is 1, and the integration counter is decremented by this value every 10 milliseconds while no alarm persists. The counter is incremented by the value of dsx3FEAlarmUpCount while there is no alarm (the counter does not decrement below zero). When the integration counter decrements to zero, any previously declared alarm is removed.
Far End Alarm Threshold	Determines the value that the alarm integration counter must reach for a far-end alarm to be declared. If the up-count is 6, the down-count is 1, and the threshold is 1500, an alarm is integrated in 2.5 seconds and removed in 15 seconds.
Statistical Alarm Severity	Used to set up the severity of any of the statistical alarms. When a statistical counter exceeds its specified threshold, the AUM sends the alarm with the appropriate severity. Can be minor or major.

DSX3 Counters

There are two dialogs for viewing and configuring dsx3 counters. The parameters are described in Table 17-7 and Table 17-8.

Table 17-7: DSX3 Counters Parameters (1 of 2)

Parameter	Description
dsx3CounterClrButton	Choose noAction or clear.
Rcv LOS Count	Number of times the Loss of Signal is detected with or without integrating to LOS alarm.
Rcv OOF Count	Number of times the Out of Frame is detected with or without integrating to OOF alarm.
RAI Count	Number of times Yellow alarm is detected with or without integrating to RAI alarm.
CCV Count	Number of C-bit Coding Violations encountered by a DS3/E3 interface.
FE Count	Number of Framing Pattern Errors encountered by a DS3/E3 interface.
LCV Current	Number of Line Code Violations encountered by the interface.
LCV 15 Min Bucket	Number of Line Code Violations in the last 15-minute period encountered by the interface.
LCV 24 Hr Bucket	Number of Line Code Violations in the last 24-hour period encountered by the interface.
LES Current	Number of Line Code Violations Errored Seconds encountered by the interface.
LES 15 Min Bucket	Number of Line Code Violations Errored Seconds in the last 15-minute period encountered by the interface.
LES 24 Hr Bucket	Number of Line Code Violations Errored Seconds in the last 24-hour period encountered by the interface.
LSES Current	Number of Line Code Violations Severely Errored Seconds encountered by the interface.
LSES 15 Min Bucket	Number of Line Code Violations Severely Errored Seconds in the last 15-minute period encountered by the interface.
LSES 24 Hr Bucket	Number of Line Code Violations Severely Errored Seconds in the last 24-hour period encountered by the interface.
PCV Current	Number of P-bit Code Violations encountered by the interface.
PCV 15 Min Bucket	Number of P-bit Code Violations in the last 15-minute period encountered by the interface.
PCV 24 Hr Bucket	Number of P-bit Code Violations in the last 24-hour period encountered by the interface.

DSX3 PLCP Alarm Configuration

To view and configure the dsx3 PLCP alarm information, select dsx3 PLCP Alarm Information from the Category pull-down menu. The parameters are described in Table 17-9.

Table 17-9: DSX3 PLCP Alarm Configuration Parameters

Parameter	Description
PLCP Red Severity	Used to set up the severity of PLCP RED alarm. When a PLCP_OOF alarm is detected, the AUM declares the alarm with the appropriate severity status. Can be minor or major.
PLCP RAI Severity	Used to set up the severity of PLCP RAI alarm. When a PLCP RAI alarm is detected, the AUM sends the alarm with the appropriate severity status. Can be minor or major.
PLCP Lss Severity	Used to set up the severity of PLCP RAI alarm. When a PLCP LSS alarm is detected, the AUM sends the alarm with the appropriate severity status. Can be minor or major.
PLCP Lss Enable	Specifies whether or not the LSS feature is turned on. Can be lssEnable or lssDisable.
PLCP Lss Code Connected	Defines the value of the LSS code that is to be interpreted as Link Connected.
PLCP Lss Code Rx Link Dn	Defines the value of the LSS code that is to be interpreted as Receive Link down.
PLCP Lss Code Rx Link Up	Defines the value of the LSS code that is to be interpreted as Receive Link up.
Bip-8CV15minThreshold	Determines the value which, when exceeded in a 15-minute window, causes a statistical alarm to be declared.
Bip-8SES24HrThreshold	Determines the value which, when exceeded in a sliding 24-hour window, causes a statistical alarm to be declared. The threshold is checked every 15 minutes for the preceding 24-hour interval.
Bip-8ES15MinThreshold	Determines the value which, when exceeded in a 15-minute window, causes a statistical alarm to be declared.
Bip-8ES24HrThreshold	Determines the value which, when exceeded in a sliding 24-hour window, causes a statistical alarm to be declared. The threshold is checked every 15 minutes for the preceding 24-hour interval.
Bip-8SES15MinThreshold	Determines the value which, when exceeded in a 15-minute window, causes a statistical alarm to be declared.
Bip-8SES24HrThreshold	Determines the value which, when exceeded in a sliding 24-hour window, causes a statistical alarm to be declared. The threshold is checked every 15 minutes for the preceding 24-hour interval.
SEFS15MinThreshold	Determines the value which, when exceeded in a 15-minute window, causes a statistical alarm to be declared.
SEFS24HrThreshold	Determines the value which, when exceeded in a sliding 24-hour window, causes a statistical alarm to be declared. The threshold is checked every 15 minutes for the preceding 24-hour interval.
UAS15MinThreshold	Determines the value which, when exceeded in a 15-minute window, causes a statistical alarm to be declared.
UAS24HrThreshold	Determines the value which, when exceeded in a sliding 24-hour window, causes a statistical alarm to be declared. The threshold is checked every 15 minutes for the preceding 24-hour interval.

Channelized Line Configuration

There are two dialogs for configuring channelized lines.

• Channelized Line Config (dsx1)

• Channelized Line Config (dsx3)

These dialogs are described in the sections that follow.

Channelized Line Configuration (DSX1)

To view and configure dsx1 channelized line information, select Channelized Line Config (dsx1) from the Category pull-down menu. The parameters are described in Table 17-10.

Table 17-10: Channelized Line Config (dsx1) Dialog Parameters

Parameter	Description
Port No.	Logical port number.
Port Line No.	Line number.
Port Row Status	Port row status. Choose one of the following from the pop-up menu: add del mod
portDs0ConfigBitMap	Bitmap of DS0s for a line, used to form this logical port. Bit 0 represents DS0-1
Port Ds0 Speed	Port speed. Choose one of the following from the pop-up menu: speed56k or speed64k.
Port Flags	Number of flags transmitted between Frame Relay frames.
Equeue Service Ratio	Number of times queue 1 is serviced for every time queue 2 is serviced.
Port Speed	Port speed in Kbps.
Port Admin Status	Port administrative status. Choose one of the following from the pop-up menu: up down write-Only
Port State	Logical port state. Can be one of: notConfigured active remoteLoopback linefailure signallingfailure outofcelldelineation localloopback
Port Type	Port type. Choose one of the following from the pop-up menu: frame-relay frFUNI frame-forward
Signalling Protocol Type	Signalling protocol type. Choose one of the following from the menu: other noSignalling strataLMI annexAUNI annexDUNI annexANNI annexDNNI.
Async Updates	Enables asynchronous status updates. Choose disable or enable from the pop-up menu.
Link Integrity Timer	Interval in seconds for NNI to do status polling
Poll Verification Timer	Interval in seconds for UNI to expect status polling.
Status Polling Counter	Number of UNI/NNI polling cycles.
Error Threshold	UNI/NNI error threshold.
Event Count	UNI/NNI events, always greater than the Error Threshold parameter.
Enhanced LMI	Indicates whether or not enhanced LMI is enabled on a logical port. Choose disable or enable from the pop-up menu.
CLLM Enable	Enables or disables CLLM. Choose disable or enable from the pop-up menu.
CLLM Xmt Status Timer	Interval in milliseconds for CLLM to send CLLM updates.
portSignallingState	Indicates the signalling state of the port Bit 0 = 0 LMI okay or not enabled Bit 0 = 1 LMI failed Bit 1 = 0 CLLM okay or not enabled Bit 1 = 1 CLLM failed
Port Oversubscribe	Indicates whether or not the port is oversubscribed. Can be true or false.
Port Ingress Percentage Utilization	Percentage of utilization of the port in the Ingress direction.
Port Egress Percentage Utilization	Percentage of utilization of the port in the Egress direction.

Channelized Line Configuration (DSX3)

To view and configure dsx3 channelized line information, select Channelized Line Config (dsx3) from the Category pull-down menu. The parameters are described in Table 17-11.

Table 17-11: DSX3 Channelized Line Configuration Parameters

Parameter	Description
Line Num	Identifier of a DS1/E1 interface on a managed device.
Type	Indicates the connector as well as the backcard type.
Line Enable	Used to enable or disable the line.
XMT Clock	Source of the transmit clock. Choose one: localTiming: Indicates that the recovered receive clock is used as the transmit clock. loopTiming: Indicates that a local clock source is used.
Loopback	Represents the loopback configuration of the DS1 interface. Agents supporting read/write access should return badValue in response to a requested loopback state that the interface does not support. Choose one: dsx1NoLoop: Not in the loopback state. A device that is not capable of performing a loopback on the interface will always return this as its value. dsx1RemoteLoop: Received signal at this interface is looped through the device. Typically the received signal is looped back for retransmission after it has passed through the device's framing function. dsx1LocalLoop: Local data is looped back.
Code Sent	Indicates what type of code is being sent across the DS1 interface by the device. Choose one: dsx1SendNoCode: Sending looped or normal data. dsx1SendLineCode: Sending a request for a line loopback. dsx1SendPayloadCode: Sending a request for a payload loopback. dsx1SendResetCode: Sending a loopback termination request.
DS0's used	Bitmap of DS0s used for a line.
Loopback Code Detect	Enables/disables loopback code detection. Choose codeDetectDisabled or codeDetectEnabled.
Enable Bert	Indicates whether Bert is enabled.

X21 Lines Configuration Dialogs

These dialogs show X21 line configuration information. (If you reached this dialog by device selection, the total number of rows read is displayed at the bottom of the dialog.) To select another line for viewing, enter a line number in the Line field at the top of the dialog. The dialog is refreshed and displays the new information.

There are two dialogs for viewing and configuring X21 Line information.

• X21 Line Config

• X21 Physical Line Alarm Config

These dialogs are described in the sections that follow.

X21 Line Config

To view and configure X21 line information, select X21 Line Alarm Configuration from the Category pull-down menu. The parameters are described in Table 17-12.

Table 17-12: X21 Lines Configuration Parameters

Parameter	Description
Line Number	Line number.
Line Enable	Disables, enables, or modifies a line. Can be modify disable enable The default is enable.
Line Type	Line type. Can be dte or dce. The default is dce.
Line Rate	Line rate.
Line Loopback Command	Line loopback command. Can be x21DiagnosticMetallicLoop x21NoLoop x21DiagnosticFrontcardLoop RemoteLoop
Line Send Code	Line send code. Can be: x21SendLoopACode: Start sending loop A code. Valid only if the back card is HSSI and the line type is DTE. This command loops the line module of the remote device. x21SendLoopBCode: Start sending loop B code. Valid only if the back card is HSSI and the line type is DTE. This command loops the digital section of the remote device. x21SendLocalLoopCode: Start sending CCITT X21 loopback type 3 code. This is valid only if the back card is type X21. x21SendRemoteLoopCode: Start sending CCITT X21 loopback type 2 code. This is valid only if the back card is type X21. x21SendUnLoopCode: Sending a loopback termination request. This is valid for both HSSI and X21 lines.
Line Loopback Code Detection	Enables detection of line loopback codes. Can be codeDetectEnabled or codeDetectDisabled. The default is codeDetectDisabled.

X21 Physical Line Alarm Configuration

To view and configure X21 physical line alarm information, select X21 Physical Line Alarm from the Category pull-down menu. The parameters are described in Table 17-13.

Table 17-13: X21 Physical Line Alarm Configuration Dialog Parameters

Parameter	Description
x21AlmLineNum	Line number of the X21/HSSI interface.
x21LineAlarmState	Status of the line alarms. A value of zero indicates no alarms.
x21LineEIAStatus	Status of the X21/HSSI lines.
x21Severity	Used to set up the severity of an LOS or clock mismatch alarm. When an LOS or clock mismatch occurs, the FRSM-HS1 sends an alarm with the appropriate status. Can be: minor major donotcare

Sonet Lines Configuration

These dialogs show Sonet line configuration information. (If you reached any of these dialogs by device selection, the total number of rows read is displayed at the bottom of the dialog.) To select another line for viewing, enter a line number in the Line field at the top of the dialog. The dialog is refreshed and displays the new information.

The dialogs for Sonet line configuration are:

• Physical Line Config (Sonet)

• Physical Line Alarm Config (Sonet)

• Sonet Counters

• ATM Line

These dialogs are described in the sections that follow.

Physical Line Config (Sonet)

To view and configure Sonet physical line information, select Physical Line Config (Sonet) from the Category pull-down menu.The parameters are described in Table 17-14.

Table 17-14: Sonet Line Configuration Parameters

Parameter	Description
Sonet Line Number	Line number.
SonetLineEnable	Cell framing. The default is STM-1.
Sonet Line Type	Cell framing. The default is STM-1.
Line Loopback Command	Loopback Configuration of the Sonet Interface. Can be sonetNoLoop: Not in the loopback state sonetRemoteLineLoop: Near end loops back remote data. sonetLocalLineLoop: Near end loops back local data.
Line HCS Masking	HCS masking. Can be disable or enable. The default is enable.
Line Payload Scrambling	STS3c or STM-1 payload scrambling. Can be disable or enable. The default is enable.
Line Frame Scrambling	STS3c or STM-1 frame scrambling. Can be disable or enable. The default is enable.
Sonet Medium Type	Identifies whether or not a Sonet or an SDH signal is used across this interface. Can be sonet or sdh.
Sonet Medium Time Elapsed	Number of seconds, including partial seconds, that have elapsed since the beginning of the mandatory error-measurement period.
Sonet Medium Valid Intervals	Number of previous intervals for which valid data has been stored. A Sonet device must support at least n intervals, where n: 4 = minimum value 32 = default value 96 = maximum value The value of this object is n unless the device was brought online within the last nx15 minutes, in which case the value is the number of complete 15-minute intervals the device has been online.
Sonet Line Coding	Line Coding for the Sonet interface. Can be sonetMediumOther sonetMediumB3ZS: Used for electrical Sonet/SDH signals (STS-1 and STS-2). sonetMediumCMI: Used for electrical Sonet/SDH signals (STS-1 and STS-2). sonetMediumNRZ: (Non-Return to Zero) Used for optical Sonet/SDH signals. sonetMediumRZ: (Return to Zero) Used for optical Sonet/SDH signals.
Sonet Line Type	Line type for the Sonet interface. The line types are Short and Long Range Single Mode fiber or Multimode fiber interfaces, and coax and UTP for electrical interfaces. Can be sonetOther sonetMediumB3Zs sonetShortSingleMode sonetLongSingleMode sonetMultimode sonetCoax sonetUTP
Sonet Circuit Identifier	Transmission vendor's circuit identifier for facilitating troubleshooting.

Physical Line Alarm Config (Sonet)

To view and configure Sonet physical line alarm information, select Physical Line Alarm Config (Sonet) from the Category pull-down menu.The parameters are described in Table 17-15.

Table 17-15: Sonet Line Configuration Parameters

Parameter	Description
Section Current Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Section Statistical Alarm Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Line Current Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Line Statistical Alarm Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Path Current Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Path Statistical Alarm Status	Indicates the status of the interface. This parameter is a bit map represented as a sum. It can represent multiple defects simultaneously.
Line Statistical Alarm Severity	Indicates that a statistical threshold has been exceeded. Can be minor or major.

Sonet Counters

To view and configure Sonet counters information, select Sonet Counters from the Category pull-down menu. The parameters are described in Table 17-16.

Table 17-16: Sonet Counters Configuration Parameters

Parameter	Description
sonetSectionCurrentClrButton	Clears all the section's current 15-min. counters. Choose noAction or clear.
sonetSectionCurrentDayClrButton	Clears all the section's current Day counters. Choose noAction or clear.
sonetSectionCounterClrButton	Clears all the section's counters. Choose noAction or clear.
sonetLineCurrentClrButton	Clears all the Sonet line's current 15-min. counters. Choose noAction or clear.
sonetLineCurrentDayClrButton	Clears all the Sonet line's current Day counters. Choose noAction or clear.
sonetFarEndLineCurrentClrButton	Clears all the Sonet Far End Line's current 15-min. counters. Choose noAction or clear.
sonetFarEndLineCurrentDayClrButton	Clears all the Sonet Far End Line's current Day counters. Choose noAction or clear.
sonetLineCounterClrButton	Clears all the Sonet line's counters. Choose noAction or clear.
sonetPathCurrentClrButton	Clears all the Sonet path's current counters.Choose noAction or clear.
sonetPathCurrentDayClrButton	Clears all the Sonet path's current Day counters. Choose noAction or clear.
sonetFarEndPathCurrentClrButton	Clears all the Sonet Far End path's current 15-min. counters. Choose noAction or clear.
sonetFarEndPathCurrentDayClrButton	Clears all the Sonet Far End path's current Day counters. Choose noAction or clear.
sonetPathCounterClrButton	Clears all the Sonet path's counters. Choose noAction or clear.

ATM Line

To view and configure ATM Line information, select ATM Lines from the Category pull-down menu.The parameters are described in Table 17-17.

Table 17-17: ATM Line Configuration Parameters

Parameter	Description
atmLineCnfNum	Refers to the physical line number. A PXM port will have a maximum of 4 lines.
atmLineInterfaceFormat	Indicates the format of the cells going out on the physical interface. Choose one: other atmUni atmNni

SRM Line Configuration

These dialogs show SRM line configuration information. (If you reached this dialog by device selection, the total number of rows read is displayed at the bottom of the dialog.)

The dialogs for SRM lines are:

• SRM Counters

• SRM Line Distribution

These dialogs are describes in the sections that follow.

SRM Counters

To view and configure SRM counters information, select SRM Counters from the Category pull-down menu.The parameters are described in Table 17-18.

Table 17-18: SRM Counters Dialog Parameters

Parameter	Description
Rcv PERR Counter	Number of P-bit Parity Errors.
Rcv FEBRR Counter	Number of Far-End Block Errors.

SRM Line Distribution (SRM 3T3)

To view and configure line distribution on an SRM 3T3 line, select SRM Line Distribution (SRM 3T3) from the Category pull-down menu. The parameters are described in Table 17-19.

Table 17-19: SRM Line Distribution (SRM3T3) Dialog Parameters

Parameter	Description
SRM T3 Line No.	T3 line number.
SRM Start T1 Line No.	Start T1 number to be affected.
SRM T1 Row Status	Used to add, delete, or modify one or more DS1 mapping.
SRM Target Slot No.	Specifies the target slot number to be linked.
SRM Target Slot Line No.	Specifies the target slot line number to be linked. 0 means not assigned.

Logical Ports

These dialogs show logical port configuration information. The Logical Ports Configuration dialogs differ depending on the type of card the line is in:

• CESM

• FRSM

• X21

• AUSM

The port configuration dialogs for each type of card are described in the sections that follow.

CESM Ports Configuration

The Logical Port Config (CESM) dialog is used to configure ports on a CESM:

Logical Port Config (CESM)

To view and configure logical ports on a CESM card, select Logical Port Config (CESM) from the Category pull-down menu. The parameters are described in Table 17-20.

Table 17-20: Logical Ports Parameters CESM

Parameter	Description
Port Num	Logical port number.
Port Row Status	Port row enabled status. Choose add, delete, or modify.
Port Line Number	Line number.
Port Type	Port type. Choose one of the following from the pop-up menu: structured unstructured framingOnVcDisconnect strau
Port DS0 Config Bitmap	Bitmap of DS0s for a line, used to form this logical port. Bit 0 represents DS0-1.
Port Num of DS0 Slot	Number of DS0 time slots configured to this port. If Port Type is strau, this cannot have more than one DS0 time slot.
cesPortNumofSCIPerDs0	Number of subcircuits in the DS0 time slot (for strau port types only).
Port Speed	Port speed in Kbps.
Port State	Logical port state. Choose one of the following from the pop-up menu: notConfigured active remoteLoopback failedDueToLine failedDueToSignalling inactive inBert farEndRemoteLoopback

FRSM Ports Configuration

The dialogs for port configuration on an FRSM are:

• Logical Port Config

• FR Port RTCs

• FR Port RTCs (CLLM)

• FR Port Resource Partition Config

FRSM Logical Ports Configuration

To view and configure logical ports on an FRSM card, select Logical Port Config from the Category pull-down menu. The parameters are described in Table 17-21.

Table 17-21: Logical Ports Parameters

Parameter	Description
Port No.	Logical port number.
Line No.	Line number associated with the logical port.
Port Row Status	Port row status. Choose add, delete, or modify
Port DS0 Config Bitmap	Bitmap of DS0s for a line, used to form this logical port. Bit 0 represents DS0-1.
Port DS0 Speed	Port DSO speed in cells per second.
Port Flags	Number of flags transmitted between FrameRelay frames.
EQueue Service Ratio	Number of times queue 1 is serviced for every time queue 2 is serviced.
Port Speed (kbps)	Port DSO speed in Kbps.
Port Admin Status	Port administrative status. Choose one from the pop-up menu: up down write-Only
Port State	Logical port state. Choose one from the pop-up menu: notConfigured active remoteLoopback failedDueToLine failedDueToSignalling inactive inBert farEndRemoteLoopback
Port Type	Port type. Choose one from the pop-up menu: structured unstructured framingOnVcDisconnect strau
Signalling Protocol Type	Signalling protocol type. Choose one from the pop-up menu: other no signalling strataLMI annexAUNI annexDUNI annexANNI annexDNNI
Async Updates	Enables asynchronous status updates. Choose disable or enable.
Link Integrity Timer (Secs)	Interval in seconds for NNI to do status polling.
Poll Verification Timer (Secs)	Interval in seconds for UNI to expect status polling.
Status Polling Counter	Number of UNI/NNI polling cycles.
Error Threshold	UNI/NNI error threshold.
Event Count	UNI/NNI events, always greater than the Error Threshold parameter.
Enhance LMI	Indicates whether or not enhanced LMI is enabled on a logical port. Choose disable or enable.
CLLM Enable	Enables or disables CLLM. Choose disable or enable
CLLM XMT Status Timer (Milli Secs)	Interval in milliseconds for CLLM to send CLLM updates.
rcvCLLMStatusTimer	Interval in milliseconds for CLLM to receive CLLM updates.
Port Signalling State	Port signalling state. Bit 0 = 0 LMI okay or not enabled Bit 0 = 1 LMI failed Bit 1 = 0 CLLM okay or not enabled Bit 1 = 1 CLLM failed
Port Oversubscribed	Indicates whether or not the port is oversubscribed. Can be true or false.
Port Ingress Percent Utilization	Percentage of utilization of the port in the Ingress direction.
Port Egress Percent Utilization	Percentage of utilization of the port in the Egress direction.

FR Port RTCs

To view and configure Port RealTime counters on an FRSM card, select FR Port RTCs from the Category pull-down menu. The parameters are described in Table 17-22.

Table 17-22: FR Port RTCs Dialog Parameters

Parameter	Description
Port Num	Logical port number.
Rcv Port Frames	Total number of frames received in the Ingress direction.
Rcv Port Bytes	Total number of bytes received in the Ingress direction.
rcvPortFramesDE	Total number of frames with DE bit set in the Ingress direction.
Rcv Port Frames FECN	Total number of frames with FCNS bit set in the Ingress direction.
Rcv Port Frames BECN	Total number of frames with BECN bit set in the Ingress direction.
Rcv CRC ErrFrames	Total number of frames discarded in Ingress due to CRC error.
Rcv Frames DiscAlignmentErr	Total number of frames discarded in Ingress due to alignment error.
RcvFramesDiscIllLen	Total number of frames discarded in Ingress due to illegal length.
rcvFramesIllegalHeader	Total number of frames discarded in Ingress due to illegal header.
rcvFramesAbort	Total number of received frames aborted.
rcvFramesUnknownDLCI	Total number of frames received with an unknown DLCI.
rcvLastUnKnownDLCI	Last unknown DLCI received.
rcvPort FramesTagged FECN	Total number of frames received that were tagged with FECN bit.
rcvPortFramesTaggedBECN	Total number of frames received that were tagged with BECN bit.
rcvPortFramesTaggedDE	Total number of frames received that were tagged with DE bit.
rcvPortFramesDiscXceedDEThresh	Total number of frames discarded in Ingress due to exceeded DE threshold.
rcvPortKbpsAIR	Received Average Information Rate in Kbps.
rcvBufNotAvailable	Total number of times the receiver is turned off.
xmtPortFrames	Total number of frames transmitted.
xmtPortBytes	Total number of bytes transmitted.
xmtPortFramesFECN	Total number of frames transmitted with FECN bit already set.
xmtPortFramesBECN	Total number of frames transmitted with BECN bit already set.
xmtPortFramesDiscXceedQDepth	Total number of frames discarded in Egress due to exceeded queue depth.
xmtPortBytesDiscXceedQDepth	Total number of bytes discarded in Egress due to exceeded queue depth.
xmtPortFramesDuringLMIAlarm	Total number of frames transmitted during LMI logical port alarm.
xmtPortBytesDuringLMIAlarm	Total number of bytes transmitted during LMI logical port alarm.
xmtFramesAbort	Total number of transmit frames aborted.
xmtFramesUnderrun	Total number of frames discarded due to overrun.
xmtPortKbpsAIR	Transmit Average Information Rate in Kbps.
xmtBufNotAvailable	Total number of times the transmitter is turned off.
rcvFramesDiscNoChan	Total number of frames received when no channel is set up.
rcvStatusInquiry	Total number of Status Inquiry messages received.
rcvInvalidRequest	Total number of Invalid Request messages received.
rcvUniSeqMismatch	Number of times UNI messages with sequence number mismatches were received.
xmtStatus	Number of times Status Response messages were transmitted.
xmtAsynchUpdate	Number of times Asynchronous Status messages were transmitted.
uniSignalingTimeout	Number of times UNI Status Requests were not received.
xmtStatusInquiry	Number of Status Inquiry messages transmitted.
rcvAsynchupdate	Number of times Asynchronous Status messages were received.
rcvnniSeqMismatch	Number of times NNI messages with sequence number mismatches were received.
nniSignalingTimeout	Number of times NNI Status requests were not received.
rcvFramesCLLM	Total number of CLLM frames received.
rcvBytesCLLM	Total number of CLLM bytes received.
xmtFramesCLLM	Total number of CLLM frames transmitted.
cllmFailures	Number of times an expected CLLM message was not received.

FR Port RTCs (CLLM)

To view and configure CLLM port RealTime counters on an FRSM card, select FR Port RTCs (CLLM) from the Category pull-down menu. The parameters are described in Table 17-23.

Table 17-23: FR Port RTCs (CLLM) Dialog Parameters

Parameter	Description
Rcv Frames CLLM	Number of CLLM frames received.
Rcv Bytes CLLM	Number of CLLM bytes received.
XMT Frames CLLM	Number of CLLM frames transmitted.
XMT Bytes CLLM	Number of CLLM bytes transmitted.
CLLM Failures	Number of times an expected CLLM message was not received.

X21 Frame Ports Configuration

To view and configure X21 logical ports, select X21 Logical Ports from the Category pull-down menu. The parameters are described in Table 17-24.

Table 17-24: X21 Logical Ports Parameters

Parameter	Description
X21 Port Num	Logical port number. The HSS1 back card can support up to three ports. The X.21 back card can support four logical ports.
X21 Port Line Num	Line number associated with the logical port. On FRSM-HS1, the HSSI can support three lines; on X.21, the HSSI can support four lines.
X21 Port Row Status	Used to add, delete, or modify the port.
X21 Port Flags Between Frames	Number of flags transmitted between two consecutive HDLC frames. The default is one flag.
X21 Port EQueue Service Ratio	Number of times queue 1 is serviced for every time queue 2 is serviced. The default is 1.
Line Rate	Configures the X21/HSSI line rate.

Posted: Fri Feb 4 10:51:16 PST 2000
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