|
|
Select the AXSM card to display AXSM card configuration dialogs by doing one of the following:
The AXSM Card Category menu contains the following items:
These dialogs are described in the sections that follow.
There are two dialogs for displaying front card and back card information. These dialogs are described in the subsections that follow.
Use the Front Card Configuration dialog to view AXSM front card characteristics, hardware, firmware, and status information (Figure 3-1).
The Front Card Configuration dialog parameters are described in Table 3-1.
| Parameter | Description |
|---|---|
Status | Front card status. |
Admin Status | Administrative status of the card. Can be enabled or disabled. |
Type | Current card type. |
Slot Number | Number of the current slot the card is installed in. |
Front Card Description | Description of the front card. |
HW Revision | Hardware revision number of the function module. |
FW Revision | Firmware revision number of the function module. |
SW Revision | Software revision number of the function module. |
Serial No. | Serial number of the front card. |
Orderable Part No. | Orderable part number of this function module. |
Reset Reason | Last reason for card to reset. Can be Powerup, parityError, watchDog, resource, clrAll, missingTask. |
 |
Note This is not a configurable dialog. |
Use this dialog to view AXSM back card characteristics, hardware, firmware, and status information (Figure 3-2).
The Back Card Configuration dialog parameters are described in Table 3-2.
| Parameter | Description |
|---|---|
Slot Number | Number of the current slot the card is installed in. |
Type | Current card type. |
HW Revision | Current card hardware revision. |
Orderable Part No. | Orderable part number of this function module. |
PCA No. | PCA number of this fuction module. |
Use this dialog to view ATM Virtual Port Configuration parameters (Figure 3-3).
The parameters are described in Table 3-3.
| Parameter | Description |
|---|---|
Physical Interface | Number identifying the physical interface. |
Virtual Interface | Virtual port number. |
Max Cell Rate | Virtual interface's maximum cell rate. This is the maximum bandwidth allocated for the interface. The total bandwidth of connections configured over this interface cannot exceed this value. ATM cell bandwidths for various physical lines are as follows:
|
Min Cell Rate | Virtual interface's minimum cell rate. This is the guaranteed bandwidth allocated for the interface. The sum of caviMinRate of all logical interfaces configured on a single physical line, must not exceed the bandwidth of the physical line. Creation of a row is rejected when the sum of caviMinRate of all existing logical interfaces exceeds the physical line bandwidth. ATM cell bandwidths for various physical lines are as follows:
|
SCT ID | ID of the file that holds module specific configuration parameters for this Virtual interface. |
Interface Type | Reflects the format of the cells transmitted by the physical interface. The following formats can be configured: uni: user port nni: network port vnni: virtual network port vuni: virtual user port |
VPI No. | The VPI to be used with the VNNI interface type. |
To create a new ATM Virtual Port, follow these steps:
The ATM Virtual Port Create dialog appears. The ATM Virtual Port Create dialog parameters are described in Table 3-4.
| Parameter | Description | ||
|---|---|---|---|
Virtual Port | Virtual Port Number. | ||
Type | Reflects the format of the cells transmitted by the physical interface. The following formats can be configured:
| ||
Maximum Rate (cps) | Virtual interface's maximum cell rate. This is the maximum bandwidth allocated for the interface. The total bandwidth of connections configured over this interface cannot exceed this value. ATM cell bandwidths for various physical lines are as follows:
| ||
Guaranteed Rate (cps) | Virtual interface's minimum cell rate. This is the guaranteed bandwidth allocated for the interface. The sum of caviMinRate of all logical interfaces configured on a single physical line, must not exceed the bandwidth of the physical line. Creation of a row is rejected when the sum of caviMinRate of all existing logical interfaces exceeds the physical line bandwidth.
| ||
SCT File ID | The file identification number. |
Step 2 Click OK.
Use the ATM Virtual Port Ingress Cells dialog to view ATM Virtual Port Ingress Cells parameters (Figure 3-4).
The parameters are described in Table 3-5.
| Parameter | Description |
|---|---|
Virtual Port | Virtual port number. |
CLP0 Cells | Number of CLP-0 cells received from switch at the traffic management and policing device in ingress direction. |
CLP1 Cells | Number of CLP-1 cells received from switch at the traffic management and policing device in ingress direction. |
CLP0 Discarded Cells | Number of CLP-0 cells discarded due to policing in the ingress direction. |
CLP1 Discarded Cells | Number of CLP-1 cells discarded due to policing in the ingress direction. |
Use the ATM Virtual Port Egress dialog to view ATM Virtual Egress Port parameters (Figure 3-5).
The parameters are described in Table 3-5.
| Parameter | Description |
|---|---|
Virtual Port | Virtual port number. |
CLP0 Cells | Number of CLP-0 cells received from switch at the traffic management and policing device in egress direction. |
CLP1 Cells | Number of CLP-1 cells received from switch at the traffic management and policing device in egress direction |
CLP0 Discarded Cells | Number of CLP-0 cells discarded due to policing in the egress direction. |
CLP1 Discarded Cells | Number of CLP-1 cells discarded due to policing in the egress direction. |
Use the ATM Port (AXSM Card) dialog to view AXSM ATM Port parameters (Figure 3-6).
The parameters are described in Table 3-7.
| Parameter | Description |
|---|---|
Logical Port | Logical port number. |
Neighbor IP Address | IP address of the switch the Port is connected. |
Neighbor Interface Name | Name of the switch to which selected the Port is connected. |
Use the ATM Resource Partitions dialog to view ATM Resource Partitions parameters (Figure 3-7).
The parameters are described in Table 3-8.
| Parameters | Description |
|---|---|
Interface | Identifies the interface that has resource partitions. |
Resource Partition | Resource partition controller identifier. One interface can have multiple resource partitions on it. |
Partition Controller | Identifies the slot in which the partition controller resides. |
Min Bw (Egress) | Minimum percentage of bandwidth used for this partition in the egress direction. Must be a number between 1 and 1,000,000. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocate bandwidth up to this value. |
Max Bw (Egress) | Maximum percentage bandwidth allocated for the resource partition in egress direction. Must be a number between 1 and 1,000,000. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocate bandwidth up to this value. |
Min Bw (Ingress) | Minimum percentage of bandwidth used for this partition in the ingress direction. Must be a number between 1 and 1,000,000. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocate bandwidth up to this value. |
Max Bw (Ingress) | Maximum percentage bandwidth allocated for the resource partition in ingress direction. Must be a number between 1 and 1,000,000. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocate bandwidth up to this value. |
Lower VPI Range | Beginning of the VPI range reserved for this partition. Connections provisioned on this partition must have a VPI greater than or equal to this value. |
Higher VPI Range | End of the VPI range reserved for this partition. Connections provisioned on this partition must have a VPI less than or equal to this value. |
Lower VCI Range | Beginning of the VCI range reserved for this partition. Connections provisioned on this partition must have a VCI greater than or equal to this value. |
ILMI Enable | Enables ILMI signalling on the resource partition. |
Higher VCI Range | End of the VCI range reserved for this partition. Connections provisioned on this partition must have a VCI less than or equal to this value. |
Min Connection | Minimum number of connections that can be configured on this partition. |
Max Connection | Maximum number of connections that can be configured on this partition. |
VPI Signalling | Indicates the VPI on which signalling cells arrive on this resource partition. |
ILMI Trap Enable | Ilmi trap generation can be enabled or disabled using this parameter. Choose enable or disable from the pop-up menu. |
Est Conn Poll Intervals | Amount of time (in seconds) between successive transmissions of ILMI messages on this interface for the purpose of detecting establishment of ILMI connectivity. |
ILMI Connect Poll Intvl | Amount of time (in seconds) between successive transmissions of ILMI messages on this interface for the purpose of detecting loss of ILMI connectivity. The distinguished value zero disables ILMI connectivity procedures on this interface. |
Poll Conn Inact Factor | Number of consecutive polls on this interface for which no ILMI response message is received before ILMI connectivity is declared lost. |
To create a new ATM resource partition, perform the following steps:
The Row Creation dialog appears (Figure 3-8).
The parameters are described in Table 3-9.
| Parameter | Description |
|---|---|
Virtual Port | Virtual port number. |
Partition ID | Resource partition identifier. One interface can have multiple resource partitions on it. |
cwRsrcPartMaxCon | Maximum number of connections that can be configured on this partition. |
Partition Controller | Controller identifier. One resource partition can be controlled by multiple controllers. Users may want to do this to configure redundant controllers. |
MinBW (Egress) | Guaranteed percentage bandwidth for the resource partition in egress direction. |
MaxBW (Egress) | Maximum percentage bandwidth for the resource partition in egress direction. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocated bandwidth up to this value. |
MinBW (Ingress) | Guaranteed percentage bandwidth for the resource partition in ingress direction. |
MaxBW (Ingress) | Minimum percentage bandwidth for the resource partition in egress direction. This is not the guaranteed bandwidth. If bandwidth is available, the resource partition will be allocated bandwidth up to this value. |
Lower VPI Range | Beginning of the VPI range for this partition. Connections provisioned on this partition must have a VPI greater than or equal to this value. |
Higher VPI Range | End of the VPI range for this partition. Connections provisioned on this partition must have a VPI less than or equal to this value. |
Lower VCI Range | Beginning of the VCI range for this partition. Connections provisioned on this partition must have VCI greater than or equal to this VCI. |
Higher VCI Range | End of the VCI range reserved for this partition. Connections provisioned on this partition must have a VCI less than or equal to this VCI. |
Min Connections | Guaranteed number of connections that can be configured on this partition. |
Step 2 Click OK.
To delete a partition, select the partition in the ATM Resource Partition dialog and click delete.
Use the Feeder Configuration dialog to view feeder parameters (Figure 3-9).
The parameters are described in Table 3-10.
| Parameter | Description |
|---|---|
Physical Interface | Physical Interface number. |
Virtual Port | Virtual port number. |
Name | Feeder name. |
LAN IP Addr | IP Address of the current LAN. |
Network IP Addr | IP Address of the current Network. |
To create a new feeder, perform the following steps:
The Feeder Creation dialog appears (Figure 3-10).
Step 2 Set the Virtual Port number and click OK.
The AXSM Line Category menu contains the following items:
These dialogs are described in the sections that follow.
Use this dialog to view ATM Cell Layer Config dialog parameters (Figure 3-11).
The dialog parameters are described in Table 3-11.
| Parameter | Description |
|---|---|
Port Number | Port number. |
Status | Displays the status of the port. |
ATM Address | Displays the ATM address of the current node. |
Null Cell Header | First four bytes of the ATM header to be used for Null cells. Generally, idle cells are inserted into a cell stream as a mechanism for rate adaptation between the ATM data link layer and the physical layer. The following fields can be specified in the value of this object:
The Null Cell Header applies to both transmitted as well as received cells. |
Null Cell Payload | Null Cell Payload definition. The idle cell information field can be specified in this parameter. It applies to both transmitted as well as received cells. The default value is 106. |
HEC Coset Enable | Use this parameter to enable or disable the algorithm of Coset Polynomial Addition to do header error check calculations. To enable the algorithm, select True from the popup menu; to disable it, select False. This parameter applies to transmitted as well as received cells. |
Payload Scrambling | Indicates whether Payload Scrambling is enabled. To enable Payload Scrambling, select True from the popup menu; to disable it, select False. |
Use this dialog to view the ATM Cell Layer Config Ingress Counters dialog parameters (Figure 3-12).
The dialog parameters are described in Table 3-12.
| Parameter | Description | ||
|---|---|---|---|
Port Number | Port number. | ||
CLP0 Cells | Number of cells received on the interface with CLP0 bit set. | ||
CLP1 Cells | Number of cells received on the interface with CLP1 bit set. | ||
Total Cells | Total number of cells received on the interface. | ||
OAM Cells | Number of valid Operation and Maintenance (OAM) cells received on the interface. | ||
Valid OAM Cells | Number of valid OAM cells received on the interface. | ||
Error OAM Cells | Number of errored OAM cells received on the interface. | ||
Non-zero GFC Cells | Number of non-zero GFC cells received on the interface. | ||
Error VPI/VCI Cells (ingress) | Number of cells received from the interface with unknown VPI/VCI values. | ||
Valid RM Cells | Number of Valid RM cells received from the interface. | ||
HEC Error Cells | HEC calculation is used to provide error detection and correction from the ATM cell header. This parameter displays the number of received cells which were discarded because they had HEC errors. | ||
HEC Error Corrected Cells | Number of received cells which had HEC errors that were corrected. | ||
Total HEC Error Cells | Total number of received cells which had Header Error Check (HEC) errors. | ||
Discarded CLP0 Cells | Number of CLP-0 cells discarded due to policing.
| ||
Total Discarded Cells | Total number of cells (CLP0+1) discarded due to policing. | ||
Total Non-Compliant Cells | Number of non-compliant cells (cells that are not compliant to a specific traffic profile) discarded due to policing. |
Use this dialog to view ATM Cell Layer Egress Counters dialog parameters (Figure 3-13).
The dialog parameters are described in Table 3-13.
| Parameter | Description |
|---|---|
Port Num | Port number. |
CLP0 Cells | Number of cells received on the interface with CLP0 bit set. |
CLP1 Cells | Number of cells received on the interface with CLP1 bit set. |
Total Cells | Total number of cells received on the interface. |
Valid OAM Cells | Number of valid Operation and Maintenance (OAM) cells received on the interface. |
Valid RM Cells | Number of Valid RM cells received from the interface. |
Error OAM Cells | Number of errored OAM cells received on the interface. |
Error VPI/VCI Cells | Number of cells received from the interface with unknown VPI/VCI values. |
Use this dialog to view Sonet Line Config dialog parameters (Figure 3-14).
The dialog parameters are described in Table 3-14.
| Parameter | Description |
|---|---|
Line | Line number. |
Speed(MBPS) | Line speed in MBPS. |
Enable | Enables/disables the SONET line. |
Loopback Type | Represents the desired loopback configuration of the SONET line. Choose one from the popup menu: noLoopback—Not in the loopback state. lineLocal—Signal sent at this line is looped back through the device. lineRemote—Signal sent does not go through the device but is looped back out. |
Clock source | Source of the transmit clock. Choose one from the popup menu: loopTiming—Indicates that the recovered receive clock is used as the transmit clock. localTiming—Indicates that a local clock source is used or that an external clock is attached to the box containing the interface. |
FrameScramble | Enables/disables the Scrambling option in SONET line. Choose enabled or disabled from the popup menu. |
Line Type | Configured line type. This object can be used to switch between SONET (North America) format and SDH (Europe) format. Sts is SONET format. Stm is SDH format. The line types are as follows: sonetSts3c: For OC3 sonetStm1: For European standard OC3 sonetSts12c: For OC12 sonetStm4: European standard OC12 sonetSts48c: OC48 sonetStm16: European standard OC48 |
Use this dialog to view AXSM Sonet Line Alarm dialog parameters (Figure 3-15).
The dialog parameters are described in Table 3-15.
| Parameter | Description |
|---|---|
Line Number | Line number. |
cwsLineStatisticalAlarmSeverity | Indicates whether exceeding this statistical threshold is considered to be a minor or major severity alarm. |
Line Curr ES Threshold | Threshold for Errored Seconds detection on the working line. |
Line Total ES Threshold | Number of Errored Seconds encountered by a SONET/SDH Section in the last 24 hours. |
Line Curr SES Threshold | Number of Severely Errored Seconds currently encountered by a SONET/SDH Section. |
Line Total SES Threshold | Number of Severely Errored Seconds encountered by a SONET/SDH Section in the last 24 hours. |
Line Curr CV Threshold | Number of Coding Violations encountered by a SONET/SDH Section in the last 24 hours. |
Line TotalCV Threshold | Number of Coding Violations currently encountered by a SONET/SDH Section. |
Line Curr UAS Threshold | Number of Unavailable Seconds encountered by a SONET/SDH Section in the last 24 hours. |
Line Total UAS Threshold | Total number of Unavailable Seconds encountered by a SONET/SDH Section. |
Line Alarms | Indicates the status of the line. Can be Can be one or more of the following:
|
Use this dialog to view AXSM Sonet Line Current dialog parameters (Figure 3-16).
The dialog parameters are described in Table 3-16.
| Parameter | Description |
|---|---|
Line Number | Line number. |
Current Status | Current status of the sonet line. |
Current ESs | Number of Errored Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
Current SESs | Number of Severely Errored Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
Current CVs | Number of Coding Violations in the current 15-minute interval encountered by a SONET/SDH line. |
CurrentUASs | Number of Unavailable Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
Use this dialog to view Sonet Line Total dialog parameters (Figure 3-17).
The dialog parameters are described in Table 3-17.
| Parameter | Description |
|---|---|
Line Number | Line number. |
cslTotalESs | Number of Errored Seconds encountered by a SONET/SDH Line in the last 24 hours. |
cslTotalSESs | Number of Severely Errored Seconds encountered by a SONET/SDH Line in the last 24 hours. |
cslTotalCVs | Number of Coding Violations encountered by a SONET/SDH Line in the last 24 hours. |
cslTotalUASs | Number of Unavailable Seconds encountered by a SONET/SDH Line in the last 24 hours. |
cslFarEndTotalESs | Number of Errored Seconds encountered by a SONET/SDH Far End Line in the last 24 hours. |
cslFarEndTotalSESs | Number of Severely Errored Seconds encountered by a SONET/SDH Far End Line in the last 24 hours. |
cslFarEndTotalCVs | Number of Coding Violations encountered by a SONET/SDH Far End Line in the last 24 hours. |
cslFarEndTotalUASs | Number of Unavailable Seconds encountered by a SONET/SDH Far End Line in the last 24 hours. |
Use this dialog to view Sonet Medium Config dialog parameters (Figure 3-18).
The dialog parameters are described in Table 3-18.
| Parameter | Description |
|---|---|
Line | Line number. |
Medium Type | Identifies whether or not a Sonet or an SDH signal is used across this interface. Can be Sonet or sdh. |
Time Elapsed | Number of seconds, including partial seconds, that have elapsed since the beginning of the mandatory error-measurement period. |
Valid Intervals | Number of previous intervals for which valid data has been stored. |
Line Coding | Number of Coding Violations encountered by a SONET/SDH line. |
Line Type | Line type for the Sonet interface. The line types are Short and Long Range Single Mode fiber or Multi-Mode fiber interfaces, and coax and UTP for electrical interfaces. Can be one of the following:
|
Circuit Id | Circuit identifier. |
Use this dialog to view Sonet Section Alarm parameters (Figure 3-19).
The dialog parameters are described in Table 3-19.
| Parameter | Description |
|---|---|
Line | Identifies the line type. |
cwSectionStatisticalAlarmSeverity | Indicates whether exceeding this statistical threshold is considered to be a minor or major severity alarm. |
Sect Curr ES Threshold | Indicates the threshold for errored seconds (ES), for the current 15-minute interval. |
Sect Total ES Threshold | Indicates the threshold for ES on a 24 hour interval. |
Sect Curr SES Threshold | Indicates the threshold for severely errored seconds (SES) on a 15-minute interval. |
Sect Total SES Threshold | Indicates the threshold for SES on a 24 hour interval. |
Sect Current SEFS Threshold | Indicates the threshold for the current 15-minute interval, for severely errored framing seconds (SEFS). |
Sect Total SEFS Threshold | Indicates the threshold for SEFS on a 24 hour interval. |
Sect Curr CV Threshold | Indicates the threshold for coding violations (CV) for the current 15-minute interval. |
Sect Total CV Threshold | Indicates the threshold for CV on a 24 hour interval. |
Section Alarms | Indicates the status of the interface. When an alarm is raised, this would indicate which threshold was exceeded. This object is updated every 15 minutes. Once the current 15-minute window has passed, and there are no errors in the current 15-minute window, the object is cleared from the lower level sonet task. The Section Alarm Status is a bit map represented as a sum, therefore, it can represent multiple defects simultaneously. If none of the bits are set, it indicates no defect. Can be one or more of the following:
|
Use this dialog to view Sonet Section Current parameters (Figure 3-20).
The dialog parameters are described in Table 3-20.
| Parameter | Description |
|---|---|
Line | Identifies the line type. |
Current Status | Current status of the Sonet line. |
Current ESs | Number of Errored Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
CurrentSESs | Number of Severely Errored Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
CurrentSEFSs | Number of Coding Violations in the current 15-minute interval encountered by a SONET/SDH line. |
Current CVs | Number of Unavailable Seconds in the current 15-minute interval encountered by a SONET/SDH line. |
Use this dialog to view Sonet Section Total parameters (Figure 3-21).
The dialog parameters are described in Table 3-21.
| Parameter | Description |
|---|---|
Line Number | Line number. |
cssTotalESs | Number of Errored Seconds encountered by a SONET/SDH Line in the last 24 hours. |
cssTotalSESs | Number of Severely Errored Seconds encountered by a SONET/SDH Line in the last 24 hours. |
cssTotalCVs | Number of Coding Violations encountered by a SONET/SDH Line in the last 24 hours. |
Use this dialog to view Sonet Path Current dialog parameters (Figure 3-22).
The dialog parameters are described in Table 3-22.
| Parameter | Description |
|---|---|
Line Number | Line Number. |
Current Status | Current status of the line. |
Current ESs | Number of Errored Seconds encountered by a SONET/SDH Line in the last 15 minutes. |
Current SESs | Number of Severely Errored Seconds encountered by a SONET/SDH Line in the last 15 minutes. |
Current CVs | Number of Coding Violations encountered by a SONET/SDH Line in the last 15 minutes. |
CurrentUASs | Number of Unavailable Seconds encountered by a SONET/SDH Line in the last15 minutes. |
Use this dialog to view Sonet Path Total parameters (Figure 3-23).
The dialog parameters are described in Table 3-23.
| Parameter | Description |
|---|---|
Line Number | Line number. |
cspTotalESs | Number of Errored Seconds encountered by a SONET/SDH Path in the last 24 hours. |
cspTotalSESs | Number of Severely Errored Seconds encountered by a SONET/SDH Path in the last 24 hours. |
cspTotalCVs | Number of Coding Violations encountered by a SONET/SDH Path in the last 24 hours. |
cspTotalUASs | Number of Unavailable Seconds encountered by a SONET/SDH Path in the last 24 hours. |
cspFarEndTotalESs | Number of Errored Seconds encountered by a SONET/SDH far end path in the last 24 hours. |
cspFarEndTotalSESs | Number of Severely Errored Seconds encountered by a SONET/SDH far end path in the last 24 hours. |
cspFarEndTotalCVs | Number of Coding Violations encountered by a SONET/SDH far end path in the last 24 hours. |
cspFarEndTotalUASs | Number of Unavailable Seconds encountered by a SONET/SDH far end path in the last 24 hours. |
Use this dialog to view Sonet Path Alarm parameters (Figure 3-24).
The dialog parameters are described in Table 3-24.
| Parameter | Description |
|---|---|
Line Number | Identifies the selected line. |
cwsPathStatisticalAlarmSeverity | When any statistical threshold is exceeded, this object is set to major or minor. |
Path Curr ES Threshold | Indicates the threshold for errored seconds ES for the current |
Path Total ES Threshold | Indicates the threshold for ES for the 24-hour interval, above which alarm is generated. This threshold is the same for Far End (remote end of the line) and Near End (this end of the line). |
Path Curr SES Threshold | Indicates the threshold for severely errored seconds (SES) for the current 15-minute interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Total SES Threshold | Indicates the threshold for SES for the 24 hour interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Current CV Threshold | Indicates the threshold for Coding Violations (CV) for the current 15-minute interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Total CV Threshold | Indicates the threshold for CV for the 24 hour interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Current UAS Threshold | Unavailable seconds (UAS) threshold for the current 15-minute interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Total UAS Threshold | UAS threshold for the 24 hour interval, above which alarm is generated. This threshold is the same for Far End and Near End. |
Path Alarms | Indicates the status of the interface. The cwsPathStatAlarmStatus is a bit map represented as a sum, therefore, it can represent multiple defects simultaneously. If none of the bits are set, it indicates no defect. Can be one of the following:
|
Use this dialog to view DSX3 Line Config dialog parameters (Figure 3-25).
The dialog parameters are described in Table 3-25.
| Parameter | Description |
|---|---|
Line Number | Identifies the DS3/E3 interface on a managed device. |
cdsx3Line Type | Indicates the variety of DS3 C-bit or E3 application implementing this interface. |
dsx3Line Type | Indicates the variety of DS3 C-bit or E3 application implementing this interface. |
Interface Status | Indicates the line status of the interface. It contains loopback state information and failure state information. |
Alarm Indication Signal Bits | When check(1) is set, then Alarm Indication Signal (AIS) is declared when 1010...b is found and C-Bits are all zero. When ignore(2) is set, an AIS condition is declared when the 1010...b is detected irrespective of the state of the C-Bits. Does not apply to the E3 interface. |
Far End Alarm and Control validation | specifies the FEAC (Far End Alarm and Control) code validation criteria. If fEACCodes4Of5 is specified, then a valid FEAC code is declared if 4 of 5 codes match. When fEACCodes8Of10 is specified, then a valid FEAC code is declared when 8 of 10 codes match. Does not apply to the E3 interface. |
Out of Frame Criteria | Specifies the Out Of Frame (OOF) decision criteria. If bits3Of8 is specified then an OOF condition is declared if at least 3 of 8 framing bits are in error. When bits3Of16 is specified then OOF is declared if 3 of 16 framing bits are found to be in error. When errors are detected in the framing octets for four consecutive frames, OOF is declared. This object does not apply to E3 interface. |
Time Elapsed seconds | Number of seconds that have elapsed since the beginning of the near end current error- measurement period. If, for some reason, such as an adjustment in the system's time-of-day clock, the current interval exceeds the maximum value, the agent will return the maximum value. |
Valid Intervals | Number of previous near end intervals for which data was collected. The value will be 96 unless the interface was brought online within the last 24 hours, in which case the value will be the number of complete 15-minute near end intervals since the interface has been online. In the case where the agent is a proxy, it is possible that some intervals are unavailable. In this case, this interval is the maximum interval number for which data is available. |
Line Coding | Describes the variety of Zero Code Suppression used on this interface, which in turn affects a number of its characteristics. dsx3B3ZS and e3HDB3 refer to the use of specified patterns of normal bits and bipolar violations which are used to replace sequences of zero bits of a specified length. |
Send Code Type | Indicates what type of code is being sent across the DS3/E3 interface by the device. (These are optional for E3 interfaces.) Setting this variable causes the interface to begin sending the code requested. |
Circuit Identifier | Contains the transmission vendor's circuit identifier, which facilitates troubleshooting. |
Loopback Configuration | Represents the desired loopback configuration of the DS3/E3 interface. |
Interface Line Status | Indicates the line status of the interface. It contains loopback state information and failure state information. The dsx3LineStatus is a bit map represented as a sum, therefore, it can represent multiple failures and a loopback (see dsx3LoopbackConfig object for the type of loopback) simultaneously. The dsx3NoAlarm must be set if and only if no other flag is set. |
Transmit Clock Source | Source of Transmit Clock.
|
Invalid Intervals | Number of intervals in the range from 0 to dsx3ValidIntervals for which no data is available. This object will typically be zero except in cases where the data for some intervals are not available (for example, in proxy situations). |
Line Length (mls) | Length of the ds3 line in meters. This object provides information for line build out circuitry. |
Line Status Change | Indicates change in current line status state. If the current state was entered prior to the last re-initialization of the proxy-agent, then this object contains a zero value. |
Status Trap Enable | Indicates whether dsx3LineStatusChange traps should be generated for this interface. |
Use this dialog to view DSX3 15 Min Alarm dialog parameters (Figure 3-26).
The dialog parameters are described in Table 3-26.
| Parameter | Description |
|---|---|
Line Number | Identifies the DS3/E3 interface on a managed device. |
NEAlarm increment | Specifies the increment to the Near End alarm integration counters. The local alarms are LOS and LOF. The default value is 6 and the integration counter is incremented by this value every 10 ms while the alarm persists. The counter is decremented by the value of cds3NEAlarmDownCount while there is no alarm (the counter does not decrement below zero). When the integration counter exceeds an Alarm of the severity specified for the particular Near End alarm is declared. |
NEAlarm decrement | Specifies the decrement to the Near End alarm integration counters. The alarms are LOS and LOF. The default value is 1 and the integration counter is decremented by this value every 10 ms while no alarm persists. The counter is incremented by the value of cds3NEAlarmUpCount while there is no alarm (the counter does not decrement below zero). When the integration counter reaches zero any alarm previously declared is removed. |
NEAlarm Threshold | Value set in this object determines the value that the alarm integration counter must reach for an near end alarm to be declared. If the up count is 6, and the threshold 150, an alarm is integrated in 2.5 seconds. If the down count is 1, then the alarm will be cleared in 15 seconds. |
FEAlarm increment | Specifies the increment to the Far End alarm integration counters. The alarms are Remote Alarm Indication (RAI) and Alarm Indication Signal (AIS). The integration counter is incremented by this value every 10 ms while the alarm persists. The counter is decremented by this value while there is no alarm (the counter does not decrement below zero). When the integration counter exceeds cds3FEAlarmThreshold an alarm of the severity specified for the particular far end alarm is declared. |
FEAlarm decrement | Specifies the decrement to the Far End alarm integration counters. The alarms are Alarm Indication Signal (AIS) and Remote Alarm Indication (RAI). The integration counter is decremented by this value every 10 ms (till zero), while no alarm persists. The counter is incremented by this value while there is no alarm. When the integration counter decrements to zero any previously declared alarm is removed. |
FEAlarm Threshold | Determines the value that the alarm integration counter must reach for and far end alarm to be declared. If the up count is 6, the down count is 1 and the threshold 150, an alarm is integrated in 2.5 seconds and removed in 15 seconds. |
Statistical Alarm Severity | Determines the severity of any of the statistical alarms. When a statistical counter exceeds its specified threshold, the system will send the alarm with appropriate severity. |
DS3 Line Statistics Bitmap | DS3 Line statistics bitmap number. |
15 Min LCV Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. |
15 Min LES Threshold | Determines the value which when exceeded in a 15-minute window causes a statistical alarm to be declared. |
15 Min PCV Threshold | Determines the value which when exceeded in a 15-minute window causes a statistical alarm to be declared. This does not apply for E3. |
15 Min PES Threshold | Determines the value which when exceeded in a 15-minute window causes a statistical alarm to be declared. This does not apply for E3. |
15 Min PSES Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. This does not apply for E3. |
15 Min SEFS Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. |
15 Min UAS Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. |
15 Min CCV Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. This does not apply for E3. |
15 Min CES Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. This does not apply for E3. |
15 Min CSES Threshold | Determines the value, which when exceeded in a 15-minute window, causes a statistical alarm to be declared. This does not apply for E3. |
Use this dialog to view Dsx3 24 Hr Alarm parameters (Figure 3-27).
The dialog parameters are described in Table 3-27.
| Parameter | Description |
|---|---|
Line Number | Identifies the DS3/E3 interface on a managed device. |
24 H LCV Threshold | 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. |
24 HrLES Threshold | 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. |
24 HrPCV Threshold | 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. |
24 HrPES Threshold | 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. |
24 HrPSES Threshold | 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. |
24 Hr EFS Threshold | 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. |
24 HrUAS Threshold | 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. |
24 HrCCV Threshold | 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. |
24 HrCES Threshold | 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. |
24 HrCSES Threshold | 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. |
Use this dialog to view Dsx3 PLCP Alarm Config dialog parameters (Figure 3-28).
The dialog parameters are described in Table 3-28.
| Parameter | Description |
|---|---|
Line Number | Identifies the DS3/E3 interface on a managed device. |
PlcpStatisticalAlarmSeverity | Determines the severity of PLCP Statistical Alarm. When a PLCP Statistical alarm is detected, the module will send the alarm with appropriate severity. |
15 Min BIP8cv Threshold | Determines the value, which if exceeded in a 15-minute window, causes a statistical alarm to be declared. |
24 Hr BIP8cv Threshold | 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. |
15 Min BIP8ES Threshold | Determines the value, which if exceeded in a 15-minute window, causes a statistical alarm to be declared. |
24 Hr BIP8ES Threshold | 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. |
15 Min BIP8SES Threshold | Determines the value, which if exceeded in a 15-minute window, causes a statistical alarm to be declared. |
24 Hr BIP8SES Threshold | 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. |
15 Min SEFS Threshold | Determines the value, which if exceeded in a 15-minute window, causes a statistical alarm to be declared. |
24 Hr SEFS Threshold | 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. |
15 Min UAS Threshold | Determines the value, which if exceeded in a 15-minute window, causes a statistical alarm to be declared. |
24 Hr UAS Threshold | 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. |
Use this dialog to view Dsx3 Line Config dialog parameters (Figure 3-29).
The dialog parameters are described in Table 3-29.
| Parameter | Description |
|---|---|
Line Number | 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. |
Plcp Line Alarm Status | Bitmap of the DS3 Line Alarms. A value of zero for this object indicates no alarms. The possible values are as follows:
|
Plcp Line Stat Alarm State | Bitmap of the DS3 PLCP Line Statistical Alarms. A value of zero for this object indicates no alarms. The threshold indicated by the bit position as follows:
|
Current BIP8CV | Number of BIP-8 code violations (CV) encountered by the line in the current 15-minute period. |
24 Hr BIP8CV Bucket | Number of BIP-8 CVs encountered by the line in the last 24 hours. |
Current BIP8ES | Number of BIP-8 Errored Seconds (ES) encountered by the line in the current 15-minute period. |
24 Hr BIP8ES Bucket | Number of BIP-8 errored seconds encountered by the line in the last 24 hours. |
Current BIP8SES | Number of BIP-8 Severely Errored Seconds (SES) encountered by the line in the current 15-minute period. |
24 Hr BIP8SES Bucket | Number of BIP-8 SES encountered by the line in the last 24 hours. |
Current SEFS | Number of BIP-8 Severely Errored Framing Seconds (SEFS) encountered by the line in the current 15-minute period. |
24 Hr SEFS Bucket | Number of BIP-8 SEFS encountered by the line in the last 24 hours. |
Current UAS | Number of BIP-8Unavailable Seconds (UAS) encountered by the line in the current 15-minute period. |
24 Hr UAS Bucket | Number of BIP-8 UAS encountered by the line in the last 24 hours. |
Use this dialog to view DSX3 Line Config dialog parameters (Figure 3-30).
The dialog parameters are described in Table 3-30.
| Parameter | Description |
|---|---|
BIP8 Errors | Number of BIP-8 errors encountered by the line. |
Out Of Frame | Number of times Out of Frame (OOF) was detected with or without integrating to OOF alarm. |
RAI Received | Number of times Remote Alarm Indication (RAI) was detected with or without integrating to RAI alarm. |
Framing Errors (FE) | Number of Framing Error errors detected. |
FE Errored Sec | Number of Framing Error errored seconds. |
Severely Err Framing Sec | Number of severely errored framing error seconds. |
Far End Block Err (FEBE) | Number of Far End Block Errors (FEBE) detected. |
FEBE Err Sec | Number of FEBE errored seconds. |
Severely Err FEBE Sec | Number of severely errored FEBE seconds. |
The AXSM Monitor Category menu contains the following dialogs:
Use this dialog to monitor Sonet section counters on an AXSM card (Figure 3-31).
The dialog parameters are described in Table 3-31.
| Parameter | Description |
|---|---|
Errored Seconds | Displays the number of errored seconds (ES) encountered by a SONET/SDH Section in the last 24 hours. |
Severely Errored Seconds | Displays the number of severely errored seconds (SESs) encountered by a SONET/SDH Section in the last 24 hours. |
SE Framing Seconds | Displays the number of severely errored framing seconds (SEFSs) encountered by a SONET/SDH Section in the last 24 hours. |
Coding Vviolations | Displays the number of Coding Violations (CVs) encountered by a SONET/SDH Section in the last 24 hours. |
Use this dialog to view Sonet Line Counters dialog parameters (Figure 3-32).
The dialog parameters are described in Table 3-32.
| Parameter | Description |
|---|---|
errored seconds | Displays the number of errored seconds (ES) encountered by a SONET/SDH Section in the last 24 hours. |
severely errored seconds | Displays the number of severely errored seconds (SESs) encountered by a SONET/SDH Section in the last 24 hours. |
coding violations | Displays the number of Coding Violations (CVs) encountered by a SONET/SDH Section in the last 24 hours. |
unavailable seconds | Displays the number of errored seconds (ES) encountered by a SONET/SDH Section in the last 24 hours. |
Use this dialog to view Sonet Path Counters dialog parameters (Figure 3-33).
The dialog parameters are described in Table 3-33.
| Parameter | Description |
|---|---|
errored seconds | Displays the number of errored seconds (ES) encountered by a SONET Path in the last 24 hours. |
severely errored seconds | Displays the number of severely errored seconds (SESs) encountered by a SONET Path in the last 24 hours. |
coding violations | Displays the number of Coding Violations (CVs) encountered by a SONET Path in the last 24 hours. |
unavailable seconds | Displays the number of unavailable seconds (UAS) encountered by a SONET Path in the last 24 hours. |
Use this dialog to view DSX3 Coutners Refresh Rate dialog parameters (Figure 3-34).
The dialog parameters are described in Table 3-34.
| Parameter | Description |
|---|---|
LOS Count | Displays the number of LOS errors encountered by a DS3 in the last 24 hours. |
OOF Count | Displays the number of OOF errors encountered by a DS3 in the last 24 hours. |
RAI Count | Displays the number of RAI errors encountered by a DS3 in the last 24 hours. |
CCV Count | Displays the number of CCV errors encountered by a DS3 in the last 24 hours. |
FEC Count | Displays the number of FEC errors encountered by a DS3 in the last 24 hours. |
Posted: Mon Oct 2 16:21:50 PDT 2000
Copyright 1989-2000©Cisco Systems Inc.