Viewing System and Object Status

Table 7-1: Interface Status Window Field Definitions

Field Definition

Type

Displays the interface type.

Description

Displays a text string description of the interface.

Operational Status

Displays the current operational status of the interface.

Physical Address

Displays the address of the interface at its protocol sublayer.

Keep Alive

Displays whether or not keepalives are enabled on this interface.

Line Protocol

Displays whether or not the line interface protocol is operating.

Connector Present

Displays whether or not the interface has a physical connector. "True" means a physical connector is present and "False" means a physical connector is not present.

Interface Last Change

Displays the value of the system up time at the time the interface entered its current operational state.

Reason for Last Change

Reason for the last status change of the interface.

Speed

Displays an estimate of the current bandwidth of the interface in bits per second (bps).

High Speed

Displays an estimate of the current bandwidth of the interface in units of 1,000,000 bits per second (bps).

Maximum Transmission Unit

The size of the largest packet that can be sent or received on the interface, specified in octets.

Field	Definition
Type	Displays the interface type.
Description	Displays a text string description of the interface.
Operational Status	Displays the current operational status of the interface.
Physical Address	Displays the address of the interface at its protocol sublayer.
Keep Alive	Displays whether or not keepalives are enabled on this interface.
Line Protocol	Displays whether or not the line interface protocol is operating.
Connector Present	Displays whether or not the interface has a physical connector. "True" means a physical connector is present and "False" means a physical connector is not present.
Interface Last Change	Displays the value of the system up time at the time the interface entered its current operational state.
Reason for Last Change	Reason for the last status change of the interface.
Speed	Displays an estimate of the current bandwidth of the interface in bits per second (bps).
High Speed	Displays an estimate of the current bandwidth of the interface in units of 1,000,000 bits per second (bps).
Maximum Transmission Unit	The size of the largest packet that can be sent or received on the interface, specified in octets.

Viewing Card (or Module) Status

The Module Fault Management window enables you to view the generic fault information for the selected card.

To view the Module Fault Management window:

Step 1 Right-click a DMT card and select Cisco DSL Manager > Physical > Module > Status.

The Module Fault Management window appears (Figure 7-2).

Figure 7-2: Module Fault Management Window

Step 2 From the list boxes at the left, select the relevant chassis and card. The fault information for the selected card appears.

Module Fault Management Window Field Definitions

The Module Fault Management window contains two areas—Module Availability and Cisco Contact Details.

Table 7-2 defines the fields that are located in the Module Fault Management window.

Table 7-2: Module Fault Management Window Detail Descriptions

Field Description

Up Time

The time elapsed since the last initialization to a reset or reinitialization since the network management portion of the system was last reinitialized.

Free Memory

The memory space (in bytes) currently unused by the interface.

Last Restart Reason

The reason why the system was last restarted.

Last Authentication Failure Address

The IP address of the card on which the last authentication failure occurred.

Operational Status

The current operational status of the selected card. Possible values are:

Up—The card is recognized by the device and is operational.

Down—The card is not recognized by the device or not enabled for operation.

Standby—The card is enabled and is acting as a standby.

Cisco Contact Details

Displays the contact details for Cisco.

Field	Description
Up Time	The time elapsed since the last initialization to a reset or reinitialization since the network management portion of the system was last reinitialized.
Free Memory	The memory space (in bytes) currently unused by the interface.
Last Restart Reason	The reason why the system was last restarted.
Last Authentication Failure Address	The IP address of the card on which the last authentication failure occurred.
Operational Status	The current operational status of the selected card. Possible values are: Up—The card is recognized by the device and is operational. Down—The card is not recognized by the device or not enabled for operation. Standby—The card is enabled and is acting as a standby.
Cisco Contact Details	Displays the contact details for Cisco.

Viewing DS3 Interface Status

The DS3 Interface Status window displays status information for a selected DS3 interface. To view the DS3 Interface Status window:

Step 1 In the CDM Manager, with the chassis map view open, right-click an NI-2 card and select Cisco DSL Manager > Physical > Interface > DS3 Interface > Status.

The DS3 Interface Status window appears (Figure 7-3).

Figure 7-3: DS3 Interface Status Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and DS3 interface. The status information for the selected DS3 interface appears.

Note Black boxes with slashed circles indicate that no values were retrieved for that field. Traffic lights display green if the status is OK; yellow if the status is Warning; and red if the status is Errored.

DS3 Interface Status Window Field Definitions

The DS3 Interface Status window contains two areas—DS3 Status and Far End DS3 Status. Table 7-3 defines the attributes that are located in the DS3 Interface Status window.

Table 7-3: DS3 Interface Status Window Field Definitions

Field Description

Circuit Identifier

Displays the vendor's circuit identifier.

Send Code

Indicates the type of code being sent across the DS3/E3 interface by the device. Send codes are optional for E3 interfaces. Possible values are as follows:

No Code—Sending looped or normal data

Line Code—Sending a request for a line loopback

Payload Code—Sending a request for a payload loopback (for example, all DS1/E1s in a DS3/E3 frame)

Reset Code—Sending a loopback deactivation request

DS1 Loop Code—Requesting to loop back a particular DS1/E1 within a DS3/E3 frame

Test Pattern—Sending a test pattern

Line Type

Displays the line type of the interface.

Line Coding

Displays the type of line coding used in the interface.

Valid Intervals

Displays the number of previous intervals for which valid data is stored.

Time Elapsed

Displays the time elapsed (in seconds) since the beginning of the current error-measurement period.

Transmit Clock Source—Allows you to specify the source of the transmit clock.

Loop Timing—Indicates that the recovered receive clock is used as the transmit clock. You can set this option to:

Free Running—Indicates that a local clock source is used.

Network Derived—Indicates that the recovered receive clock from another interface is used as the transmit clock source.

LoopBack Config

Allows you to specify the loopback configured on the physical interface. You can set this option to:

No Loop—Indicates no loopback is present.

Diagnostic Loop—Indicates that the transmit data stream is looped to the receive direction.

Line Loop—Indicates that the receive data stream is looped to the transmit direction.

Other Loop—Indicates loopbacks that are not defined here.

No Error

Indicates no alarm present.

Loss of Signal

Indicates the loss of signal condition.

Loss of Frame

Indicates the loss of frame condition.

Loopback State

Indicates that the interface is looping the received signal.

Rx Remote Alarm Indication

Receiving a remote alarm indication failure signal.

Rx Alarm Indication Signal

Receiving a remote alarm indication signal.

Rx Test Code

Indicates reception of a test pattern.

Tx Remote Alarm Index

Transmitting a remote alarm index signal.

Tx Alarm Indicate Signal

Transmitting an alarm indication signal.

Far End Facility ID Code

An arbitrary integer value to uniquely identify the listed events. When this code reaches the maximum value, the agent cycles the value back to 1 and may flush existing entries.

Far End Location ID Code

Describes the specific location of the far end equipment.

Far End Unit Code

Describes the far end equipment location within a bay.

Field	Description
Circuit Identifier	Displays the vendor's circuit identifier.
Send Code	Indicates the type of code being sent across the DS3/E3 interface by the device. Send codes are optional for E3 interfaces. Possible values are as follows: No Code—Sending looped or normal data Line Code—Sending a request for a line loopback Payload Code—Sending a request for a payload loopback (for example, all DS1/E1s in a DS3/E3 frame) Reset Code—Sending a loopback deactivation request DS1 Loop Code—Requesting to loop back a particular DS1/E1 within a DS3/E3 frame Test Pattern—Sending a test pattern
Line Type	Displays the line type of the interface.
Line Coding	Displays the type of line coding used in the interface.
Valid Intervals	Displays the number of previous intervals for which valid data is stored.
Time Elapsed	Displays the time elapsed (in seconds) since the beginning of the current error-measurement period. Transmit Clock Source—Allows you to specify the source of the transmit clock. Loop Timing—Indicates that the recovered receive clock is used as the transmit clock. You can set this option to: Free Running—Indicates that a local clock source is used. Network Derived—Indicates that the recovered receive clock from another interface is used as the transmit clock source.
LoopBack Config	Allows you to specify the loopback configured on the physical interface. You can set this option to: No Loop—Indicates no loopback is present. Diagnostic Loop—Indicates that the transmit data stream is looped to the receive direction. Line Loop—Indicates that the receive data stream is looped to the transmit direction. Other Loop—Indicates loopbacks that are not defined here.
No Error	Indicates no alarm present.
Loss of Signal	Indicates the loss of signal condition.
Loss of Frame	Indicates the loss of frame condition.
Loopback State	Indicates that the interface is looping the received signal.
Rx Remote Alarm Indication	Receiving a remote alarm indication failure signal.
Rx Alarm Indication Signal	Receiving a remote alarm indication signal.
Rx Test Code	Indicates reception of a test pattern.
Tx Remote Alarm Index	Transmitting a remote alarm index signal.
Tx Alarm Indicate Signal	Transmitting an alarm indication signal.
Far End Facility ID Code	An arbitrary integer value to uniquely identify the listed events. When this code reaches the maximum value, the agent cycles the value back to 1 and may flush existing entries.
Far End Location ID Code	Describes the specific location of the far end equipment.
Far End Unit Code	Describes the far end equipment location within a bay.

Viewing ATM Interface Status

The ATM Interface Status window displays status information for a selected ATM interface. To view the ATM Interface Status window, follow these steps:

Step 1 In the CDM Manager, with the chassis map view open, right-click either an NI-2 card or a DMT card and select Cisco DSL Manager > Physical > Interface > ATM > Status.

The ATM Interface Status window appears (Figure 7-4).

Figure 7-4: ATM Interface Status Window

Step 2 From the list box at the left, select the relevant ATM interface.

The status information for the selected ATM interface appears.

Note The interfaces listed in the ATM Interface box are DMT, ATM, and ADSL interfaces. Refer to the "Applying an ADSL Profile to a DMT Interface" section for more information on these interfaces.

ATM Interface Status Window Field Definitions

The ATM Interface Status window contains five areas:

ATM Transmit Status
ATM Receive Status
Physical Layer Status
ATM Port Status
Action

Table 7-4 defines the fields that are located in the ATM Interface Status window.

Table 7-4: ATM Interface Status Window Field Definitions

Field Definition

Available Cell Rate

Indicates the available cell rate (specified in cells per second) for traffic sent out the interface for this service category. This is the bandwidth available for connections. For guaranteed service categories, this value decreases as a result of connection setup and increases as a result of connection release. For nonguaranteed service categories, this value does not change as a result of connection setup and connection release.

Allocated Cell Rate

Indicates the allocated cell rate (specified in cells per second) for traffic sent out the interface for this service category. This is the bandwidth allocated to connections. For guaranteed service categories, this value increases as a result of connection setup and decreases as a result of connection release. For nonguaranteed service categories, this value is always 0.

LED Status

Indicates the transmit LED color for the selected port.

Bit Rate Type

The service category to which the row applies.

Maximum Cell Transfer Delay

Indicates the maximum cell transfer delay estimated to be experienced by cells of connections transmitted out this interface or this service category. This estimate does not distinguish between clp0 and clp1 cells. This object is valid for service category cbr and vbr-nrt. For other service categories, this object is not defined.

Peak To Peak Cell Delay Variation

Indicates the estimated peak to peak cell delay variation for cells of this service category transmitted out of this interface. This estimate does not distinguish between clp0 and clp1 cells. This object is valid for service categories cbr and vbr-nrt. For other service categories, the object is not defined.

Cell Loss Ratio

Indicates the estimated cell loss ratio for cells of this service category transmitted out of this interface. This is an estimate for clp0 cells. The units of this object are negative powers of ten (so an object value of 8 means 10⁸). This object is valid for service categories cbr, vbr-rt, and vbr-nrt. For other service categories, the object is not defined.

Available Cell Rate

Indicates the available cell rate (specified in cells per second) for traffic received by the interface for this service category. This is the bandwidth available for connections. For guaranteed service categories, this value decreases as a result of connection setup and increases as a result of connection release. For nonguaranteed service categories, this value does not change as a result of connection setup and connection release.

Allocated Cell Rate

Indicates the allocated cell rate (specified in cells per second) for traffic received by the interface for this service category. This is the bandwidth allocated to connections. For guaranteed service categories, this value increases as a result of connection setup and decreases as a result of connection release. For nonguaranteed service categories, this value is always 0.

LED Status

Indicates the receive LED color for the selected port.

Physical Interface Status

Indicates the status of the physical interface. The value of this object is only valid when the interface ifAdminStatus has the value "up." Note that some of the enumerated values are specific to a particular physical layer. The values displayed are as follows: normal, los, lof, loc, ais, yellowLine, yellowPath, lop, idle, yellowAlarm, plcpLOF, plcpYellow, maFERF, pathAis, or ocd.

Clock Source Status

Indicates the network clock source status of this interface:

NotSelected—Indicates that this interface is not selected as the network clock source.

Selected—Indicates that this interface is selected as the network clock source.

Physical Port Type

Indicates the physical layer medium on the port. The type is one of the following:

Other

Cpu

Ethernet

OC-3 Utp

OC-3 Single-mode Fiber

OC-3 Multimode Fiber

OC-12 Single-mode Fiber

DS3

E3

Number of VPCs

Number of VPCs (PVCs and SVCs) configured for use at this ATM interface. At the ATM UNI, the configured number of VPCs (PVCs and SVCs) can range from 0 to 256 only.

Number of VCCs

Number of VCCs (PVCs and SVCs) configured for the ATM interface.

Number of PVCs

Number of permanent virtual channels at this interface.

Number of PVPs

Number of permanent virtual paths at this interface.

Number of PCs

Number of permanent connections (VC or VP) of this service category currently allocated to the interface.

Number of SCs

Number of signalled connections (VC or VP) of this service category currently allocated to the interface.

Total Connections

Number of existing connections at this interface.

Admin Address

Address assigned for administrative purposes, for example, an address associated with the service provider side of a public network UNI. If the interface has no assigned administrative address, or if the address used for administrative purposes is the same as that used for ifPhysAddress, then the Admin Address is an octet string of zero length.

ATM Address Type

Type of primary ATM address configured for use at the ATM interface.

NSAP (network service access point) Address

Allows you to specify the NSAP address.

Configured VP Interface

Number of configured VP interfaces at this physical interface.

SVC Minimum VCI

Minimum value in the range of values from which VCIs are assigned to new SVCs. As this value increases, the number of VCIs available for PVCs increases. This applies to each VPI of the physical interface and each logical port.

Active SVPs

Number of active switched virtual paths at this interface.

Active SVCs

Number of active switched virtual connections at this interface.

Show Connections button

If you click the Show Connections button, CDM issues a query to identify the connections currently configured for the selected interface. An action log appears that lists all connections found on the selected interface.

Field	Definition
Available Cell Rate	Indicates the available cell rate (specified in cells per second) for traffic sent out the interface for this service category. This is the bandwidth available for connections. For guaranteed service categories, this value decreases as a result of connection setup and increases as a result of connection release. For nonguaranteed service categories, this value does not change as a result of connection setup and connection release.
Allocated Cell Rate	Indicates the allocated cell rate (specified in cells per second) for traffic sent out the interface for this service category. This is the bandwidth allocated to connections. For guaranteed service categories, this value increases as a result of connection setup and decreases as a result of connection release. For nonguaranteed service categories, this value is always 0.
LED Status	Indicates the transmit LED color for the selected port.
Bit Rate Type	The service category to which the row applies.
Maximum Cell Transfer Delay	Indicates the maximum cell transfer delay estimated to be experienced by cells of connections transmitted out this interface or this service category. This estimate does not distinguish between clp0 and clp1 cells. This object is valid for service category cbr and vbr-nrt. For other service categories, this object is not defined.
Peak To Peak Cell Delay Variation	Indicates the estimated peak to peak cell delay variation for cells of this service category transmitted out of this interface. This estimate does not distinguish between clp0 and clp1 cells. This object is valid for service categories cbr and vbr-nrt. For other service categories, the object is not defined.
Cell Loss Ratio	Indicates the estimated cell loss ratio for cells of this service category transmitted out of this interface. This is an estimate for clp0 cells. The units of this object are negative powers of ten (so an object value of 8 means 10⁸). This object is valid for service categories cbr, vbr-rt, and vbr-nrt. For other service categories, the object is not defined.
Available Cell Rate	Indicates the available cell rate (specified in cells per second) for traffic received by the interface for this service category. This is the bandwidth available for connections. For guaranteed service categories, this value decreases as a result of connection setup and increases as a result of connection release. For nonguaranteed service categories, this value does not change as a result of connection setup and connection release.
Allocated Cell Rate	Indicates the allocated cell rate (specified in cells per second) for traffic received by the interface for this service category. This is the bandwidth allocated to connections. For guaranteed service categories, this value increases as a result of connection setup and decreases as a result of connection release. For nonguaranteed service categories, this value is always 0.
LED Status	Indicates the receive LED color for the selected port.
Physical Interface Status	Indicates the status of the physical interface. The value of this object is only valid when the interface ifAdminStatus has the value "up." Note that some of the enumerated values are specific to a particular physical layer. The values displayed are as follows: normal, los, lof, loc, ais, yellowLine, yellowPath, lop, idle, yellowAlarm, plcpLOF, plcpYellow, maFERF, pathAis, or ocd.
Clock Source Status	Indicates the network clock source status of this interface: NotSelected—Indicates that this interface is not selected as the network clock source. Selected—Indicates that this interface is selected as the network clock source.
Physical Port Type	Indicates the physical layer medium on the port. The type is one of the following: Other Cpu Ethernet OC-3 Utp OC-3 Single-mode Fiber OC-3 Multimode Fiber OC-12 Single-mode Fiber DS3 E3
Number of VPCs	Number of VPCs (PVCs and SVCs) configured for use at this ATM interface. At the ATM UNI, the configured number of VPCs (PVCs and SVCs) can range from 0 to 256 only.
Number of VCCs	Number of VCCs (PVCs and SVCs) configured for the ATM interface.
Number of PVCs	Number of permanent virtual channels at this interface.
Number of PVPs	Number of permanent virtual paths at this interface.
Number of PCs	Number of permanent connections (VC or VP) of this service category currently allocated to the interface.
Number of SCs	Number of signalled connections (VC or VP) of this service category currently allocated to the interface.
Total Connections	Number of existing connections at this interface.
Admin Address	Address assigned for administrative purposes, for example, an address associated with the service provider side of a public network UNI. If the interface has no assigned administrative address, or if the address used for administrative purposes is the same as that used for ifPhysAddress, then the Admin Address is an octet string of zero length.
ATM Address Type	Type of primary ATM address configured for use at the ATM interface.
NSAP (network service access point) Address	Allows you to specify the NSAP address.
Configured VP Interface	Number of configured VP interfaces at this physical interface.
SVC Minimum VCI	Minimum value in the range of values from which VCIs are assigned to new SVCs. As this value increases, the number of VCIs available for PVCs increases. This applies to each VPI of the physical interface and each logical port.
Active SVPs	Number of active switched virtual paths at this interface.
Active SVCs	Number of active switched virtual connections at this interface.
Show Connections button	If you click the Show Connections button, CDM issues a query to identify the connections currently configured for the selected interface. An action log appears that lists all connections found on the selected interface.

Viewing DMT Interface Status

The DMT Interface Status window displays status information for a selected DMT card. To view the DMT Interface Status window, follow these steps:

Step 1 In CDM Manager, with the chassis map view open, right-click a DMT card and select Cisco DSL Manager > Physical > Interface > DMT > Status.

The DMT Interface Status window appears (Figure 7-5).

Figure 7-5: DMT Interface Status Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and DMT interface.

The status information for the selected DMT line appears at the right.

DMT Interface Status Window Field Definitions

The DMT Interface Status window contains two tabs, Line and Channel, which are described in the following sections.

DMT Interface Status Window—Line Tab

The Line tab displays downstream and upstream line status information, as well as line status information that is common to both parameters, for the selected DMT card. The Line tab contains two areas—Downstream/Upstream Parameters and Common.

Table 7-5 defines the fields that are located in the Line tab.

Table 7-5: DMT Interface Status Window—Line Tab Field Definitions

Field Description

State

Indicates the current state of the DMT transceiver. The current state can change dynamically. The possible values displayed for downstream parameters are as follows:

Other—Unknown or other state.

PowerUp—DMT transceiver not yet configured.

Configure—DMT transceiver being configured.

Idle—Awaiting activation request from upstream.

Tone—Requesting upstream to be silent.

Activating—Activation in progress.

Training—Transceiver training in progress.

Analyzing—Channel analysis in progress.

Exchange—Exchanging final operating parameters.

SteadyState—Normal operating mode.

NotResponding—DMT transceiver not responding.

The possible state values displayed for upstream parameters are as follows:

Other—Unknown or other state.

Activating—Activation in progress.

Training—Transceiver training in progress.

Analyzing—Channel analysis in progress.

Exchange—Exchanging final operating parameters.

Steady State—Normal operating mode.

Issue Number

Reports the issue number of the standard according to which the downstream DMT ADSL transceiver is currently operating. The issue number is determined by the hardware and is transmitted by the downstream in C-MSGS1 during initialization. The upstream device transmits the issue number in an R-MSGS1 message during initialization. The possible issue numbers are:

Other—unknown or other

t1413Issue1—ANSI T1.413 Issue 1

t1413Issue2—ANSI T1.413 Issue 2

t1413Issue3—ANSI T1.413 Issue 3

gdmtIssue1—ITU G.dmt Issue 1

etsiIssue1—ETSI DMT Issue 1

Enterprise Specific State

The value of this object specifies the enterprise-specific status of the downstream device. Possible values include: other or standard. If the value is other, and the downstream device is in an unrecognized state, the value of this object is unknown. If the value is other and the downstream device is not in an unrecognized state, the value of this object specifies the enterprise-specific state of the downstream device.

Embedded Operations Channel Mode

Reports whether the embedded operations channel can support autonomous data streaming mode or only transaction mode. After initialization, unknown is reported until sufficient autonomous EOC messages have been transmitted to determine the true capability of both ATUs. The possible values displayed and the corresponding meaning is as follows:

Unknown—Embedded operations mode is unknown.

Transaction—Embedded operations channel only operates in original transaction mode.

Streaming—Embedded operations channel supports autonomous data streaming mode and original transaction mode.

Trellis Encoding

Reports whether the trellis coding is used on the DMT Line. Use of trellis coding is determined at line initialization with C-MSGS1 and R-MSGS1 exchanges and does not change until the line is reinitialized. The possible values displayed are as follows:

trellisOn

trellisOff

DMT Line Overhead Framing

This object represents the negotiated overhead framing structure being used downstream and upstream.

Field	Description
State	Indicates the current state of the DMT transceiver. The current state can change dynamically. The possible values displayed for downstream parameters are as follows: Other—Unknown or other state. PowerUp—DMT transceiver not yet configured. Configure—DMT transceiver being configured. Idle—Awaiting activation request from upstream. Tone—Requesting upstream to be silent. Activating—Activation in progress. Training—Transceiver training in progress. Analyzing—Channel analysis in progress. Exchange—Exchanging final operating parameters. SteadyState—Normal operating mode. NotResponding—DMT transceiver not responding. The possible state values displayed for upstream parameters are as follows: Other—Unknown or other state. Activating—Activation in progress. Training—Transceiver training in progress. Analyzing—Channel analysis in progress. Exchange—Exchanging final operating parameters. Steady State—Normal operating mode.
Issue Number	Reports the issue number of the standard according to which the downstream DMT ADSL transceiver is currently operating. The issue number is determined by the hardware and is transmitted by the downstream in C-MSGS1 during initialization. The upstream device transmits the issue number in an R-MSGS1 message during initialization. The possible issue numbers are: Other—unknown or other t1413Issue1—ANSI T1.413 Issue 1 t1413Issue2—ANSI T1.413 Issue 2 t1413Issue3—ANSI T1.413 Issue 3 gdmtIssue1—ITU G.dmt Issue 1 etsiIssue1—ETSI DMT Issue 1
Enterprise Specific State	The value of this object specifies the enterprise-specific status of the downstream device. Possible values include: other or standard. If the value is other, and the downstream device is in an unrecognized state, the value of this object is unknown. If the value is other and the downstream device is not in an unrecognized state, the value of this object specifies the enterprise-specific state of the downstream device.
Embedded Operations Channel Mode	Reports whether the embedded operations channel can support autonomous data streaming mode or only transaction mode. After initialization, unknown is reported until sufficient autonomous EOC messages have been transmitted to determine the true capability of both ATUs. The possible values displayed and the corresponding meaning is as follows: Unknown—Embedded operations mode is unknown. Transaction—Embedded operations channel only operates in original transaction mode. Streaming—Embedded operations channel supports autonomous data streaming mode and original transaction mode.
Trellis Encoding	Reports whether the trellis coding is used on the DMT Line. Use of trellis coding is determined at line initialization with C-MSGS1 and R-MSGS1 exchanges and does not change until the line is reinitialized. The possible values displayed are as follows: trellisOn trellisOff
DMT Line Overhead Framing	This object represents the negotiated overhead framing structure being used downstream and upstream.

DMT Interface Status Window—Channel Tab

The Channel tab displays fast and interleaved channel status information for the selected DMT card. The Channel tab (Figure 7-6) contains two areas—Fast and Interleaved.

Figure 7-6: DMT Interface Status Window—Channel Tab

Table 7-6 defines the fields that are located in the Channel tab.

The Fast and Interleaved areas have the same information, but for different types of channels. Both areas display the same attributes.

Table 7-6: DMT Interface Status Window—Channel Tab Field Definitions

Field Description

Current Codeword Size

Displays the number of symbols per codeword being used by the downstream device for downstream messages on an interleaved channel during the training sequence. The downstream device can fall back from this value based on the aggregate data rate achieved during training.

Current FEC¹ Size

The number of FEC redundancy bytes per codeword. The codeword size and interleave depth affect FEC operation.

¹FEC = forward error correction

Field	Description
Current Codeword Size	Displays the number of symbols per codeword being used by the downstream device for downstream messages on an interleaved channel during the training sequence. The downstream device can fall back from this value based on the aggregate data rate achieved during training.
Current FEC¹ Size	The number of FEC redundancy bytes per codeword. The codeword size and interleave depth affect FEC operation.

Viewing SONET Interface Status

After you deploy a SONET (Synchronous Optical Network) interface, you can access status information for that interface in the SONET Interface Status window.

Note SONET and OC-3 interfaces are the same component.

To open the SONET Interface Status window, follow these steps:

Step 1 In CDM Manager, with the chassis map view open, right-click an NI-2 card and select Cisco DSL Manager > Physical > Interface > SONET > Status.

The SONET Interface Status window appears (Figure 7-7).

Figure 7-7: SONET Interface Status Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and SONET interface (OC-3 interface).

The status information for the selected SONET interface appears.

SONET Interface Status Window Field Definitions

The SONET Interface Status window contains five tabs, which are described in the following sections.

Medium
Section
Line
Path
Virtual Tributary

SONET Interface Status Window—Medium Tab

The Medium tab provides information on the physical medium. Table 7-7 defines the fields that are located in the Medium tab.

Table 7-7: SONET Interface Status Window—Medium Tab Field Definitions

Field Definition

Type

Indicates whether SONET is operating over the interface.

Line Coding

Displays the type of line coding used in the interface.

Line Type

Displays the line type of the interface.

Valid Intervals

Displays the number of previous intervals for which valid data has been stored.

Time Elapsed

Displays the time elapsed (in seconds) since the beginning of current error-measurement period.

Circuit ID

Displays the vendor circuit identifier.

Field	Definition
Type	Indicates whether SONET is operating over the interface.
Line Coding	Displays the type of line coding used in the interface.
Line Type	Displays the line type of the interface.
Valid Intervals	Displays the number of previous intervals for which valid data has been stored.
Time Elapsed	Displays the time elapsed (in seconds) since the beginning of current error-measurement period.
Circuit ID	Displays the vendor circuit identifier.

SONET Interface Status Window—Section Tab

The Section tab details errors encountered during framing, scrambling, error monitoring, and section maintenance (Figure 7-8).

Figure 7-8: SONET Interface Status Window—Section Tab

Table 7-8 defines the fields that are located in the Section tab.

Table 7-8: SONET Interface Status Window—Section Tab Field Definitions

Field Definition

Loss of Frame

Displays the number of loss of framing failures since agent reset.

Loss of Signal

Displays the number of loss of signal failures since agent reset.

No Defect

Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

Field	Definition
Loss of Frame	Displays the number of loss of framing failures since agent reset.
Loss of Signal	Displays the number of loss of signal failures since agent reset.
No Defect	Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

SONET Interface Status Window—Line Tab

The information in the Line tab (Figure 7-9) details errors encountered during multiplexing or synchronization.

Figure 7-9: SONET Interface Status Window—Line Tab

Table 7-9 defines the fields that are located in the Line tab.

Table 7-9: SONET Interface Status Window—Line Tab Field Definitions

Fields Definition

Alarm Indication Signal Errors

A red light indicates that line signal errors are detected; a green light indicates that line signal errors are not detected.

Remote Defect Indication Errors

A red light indicates that remote defect errors have been detected; a green light indicates that remote defect errors are not detected.

No Defect

Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

Fields	Definition
Alarm Indication Signal Errors	A red light indicates that line signal errors are detected; a green light indicates that line signal errors are not detected.
Remote Defect Indication Errors	A red light indicates that remote defect errors have been detected; a green light indicates that remote defect errors are not detected.
No Defect	Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

SONET Interface Status Window—Path Tab

The Path tab (Figure 7-10) displays errors encountered while mapping signals into the format required by the Line layer.

Figure 7-10: SONET Interface Status Window—Path Tab

Table 7-10 defines the fields that are located in the Path tab.

Table 7-10: SONET Interface Status Window—Path Tab Field Definitions

Field Definition

Signal Label Mismatch

Indicates incorrect payload type signal label mismatch on a SONET line.

STS—Alarm Indication Signal

Reveals whether the path alarm indication signal errors are enabled or disabled.

STS—Remote Defect Indication

Reveals whether the path remote defect indication errors are enabled or disabled.

STS—Loss of Pointer

Displays whether the path loss of pointer errors are enabled or disabled.

Unequipped

Indicates STS payload unequipped—no path originating equipment.

No Defect

Transitions from failure to no alarm state if no defects (for example, LOF) are received for more than 10 seconds.

Field	Definition
Signal Label Mismatch	Indicates incorrect payload type signal label mismatch on a SONET line.
STS—Alarm Indication Signal	Reveals whether the path alarm indication signal errors are enabled or disabled.
STS—Remote Defect Indication	Reveals whether the path remote defect indication errors are enabled or disabled.
STS—Loss of Pointer	Displays whether the path loss of pointer errors are enabled or disabled.
Unequipped	Indicates STS payload unequipped—no path originating equipment.
No Defect	Transitions from failure to no alarm state if no defects (for example, LOF) are received for more than 10 seconds.

SONET Interface Status Window—Virtual Tributary Tab

The Virtual Tributary tab (Figure 7-11) displays errors encountered while converting between STS and OC signals.

Figure 7-11: SONET Interface Status Window—Virtual Tributary Tab

Table 7-11 defines the fields that are located in the Virtual Tributary tab.

Table 7-11: SONET Interface Status Window—Virtual Tributary Tab Field Definitions

Field Definition

Remote Failure Indication

A SONET port status indicator activates when a path remote defect indication (PRDI) occurs and does not clear throughout the alarm integration period, which is typically 2.5 seconds. A path remote failure indication (PRFI) occurs when bit 5 of the G1 byte is set to 1 for 10 consecutive frames. This occurrence begins the alarm integration period. If this period elapses without the detection of 10 consecutive frames in which all G1 bit 5s are set to 0, the PRFI indicator activates. The PRFI indicator clears when a PRDI does not occur for a time interval equal to the alarm deactivation period (typically 10 seconds).

Alarm Indication Signal

Reveals whether the virtual tributary alarm indication signal errors are enabled or disabled.

Loss of Pointer

Displays whether the virtual tributary loss of pointer errors are enabled or disabled.

Remote Defect Indication

Reveals whether the path remote defect indication errors are enabled or disabled.

Unequipped

Indicates STS payload unequipped—no virtual tributary originating equipment.

Signal Label Mismatch

Incorrect payload type signal label mismatch on a SONET line.

No Defect

Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

Field	Definition
Remote Failure Indication	A SONET port status indicator activates when a path remote defect indication (PRDI) occurs and does not clear throughout the alarm integration period, which is typically 2.5 seconds. A path remote failure indication (PRFI) occurs when bit 5 of the G1 byte is set to 1 for 10 consecutive frames. This occurrence begins the alarm integration period. If this period elapses without the detection of 10 consecutive frames in which all G1 bit 5s are set to 0, the PRFI indicator activates. The PRFI indicator clears when a PRDI does not occur for a time interval equal to the alarm deactivation period (typically 10 seconds).
Alarm Indication Signal	Reveals whether the virtual tributary alarm indication signal errors are enabled or disabled.
Loss of Pointer	Displays whether the virtual tributary loss of pointer errors are enabled or disabled.
Remote Defect Indication	Reveals whether the path remote defect indication errors are enabled or disabled.
Unequipped	Indicates STS payload unequipped—no virtual tributary originating equipment.
Signal Label Mismatch	Incorrect payload type signal label mismatch on a SONET line.
No Defect	Transition from failure to no alarm state occurs when no defects (for example, LOF) are received for more than 10 seconds.

Viewing SDSL Interface Status

The SDSL Status window displays status information for a selected SDSL card. To view the SDSL Status window, follow these steps:

Step 1 In CDM Manager, with the chassis map view open, right-click an SDSL card and select Cisco DSL Manager > Physical > Interface > SDSL > Status.

The SDSL Status window appears (Figure 7-12).

Figure 7-12: SDSL Status Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and SDSL interface. The status information for the selected SDSL line appears.

SDSL Interface Status Field Definitions

Table 7-12 defines the fields that are located in the SDSL Status window.

Table 7-12: SDSL Status Window Field Definitions

Field Definition

State

Specifies the state of the STU-C transceiver. Valid values are:

other(1)—idle(2)

Administratively down

training(3)—Transceiver training in progress

steadyState(4)—Nominal mode of operation

testing(5)—Transceiver in loopback or running BERT

downloading(6)—STU-C code download in progress

downloadingFailed(7)—STU-C code download failed

Signal/Noise Margin

Specifies the signal/noise margin as seen by this STU-C with respect to its receive signal.

Output Power

Specifies the measured total output power transmitted by this STU-C. This is the measurement that was reported during the last activation sequence. Specifies the measured total output power.

Rate

Specifies the rate the STU-C transceiver was able to obtain following training.

Gain

Specifies gain applied to this STU-C receiver.

Defect

Specifies any possible defects currently being exhibited by the STU-C.

Line Framing

Specifies the current Transmission Convergence framing structure being used by the interface. Possible values are:

none(1)—no frame format

other(2)

hdsl(3)—HDSL frame format for SDSL interfaces

gShdsl(4)—G.SHDSL frame format for G.SHDSL interfaces

hdsl2(5)—HDSL2 frame format for HDSL2 interfaces

ds1(6)—DS1 frame format for HDSL interfaces

Line Coding

Specifies the signal coding used on this line. The possible values are:

other(1)

base2b1q(2)—Baseband, 2B1Q encoding. SDSL ports may use 2b1q line encoding.

tcPam(3)—Trellis coded pulse amplitude modulated. G.SHDSL ports use tcPam line encoding.

optis(4)—Overlapped pulse amplitude modulated transmission with interlocked spectra. HDSL2 ports use optis line encoding.

cap(5)—Carrierless amplitude and phase modulation. SDSL may use cap line encoding.

Field	Definition
State	Specifies the state of the STU-C transceiver. Valid values are: other(1)—idle(2) Administratively down training(3)—Transceiver training in progress steadyState(4)—Nominal mode of operation testing(5)—Transceiver in loopback or running BERT downloading(6)—STU-C code download in progress downloadingFailed(7)—STU-C code download failed
Signal/Noise Margin	Specifies the signal/noise margin as seen by this STU-C with respect to its receive signal.
Output Power	Specifies the measured total output power transmitted by this STU-C. This is the measurement that was reported during the last activation sequence. Specifies the measured total output power.
Rate	Specifies the rate the STU-C transceiver was able to obtain following training.
Gain	Specifies gain applied to this STU-C receiver.
Defect	Specifies any possible defects currently being exhibited by the STU-C.
Line Framing	Specifies the current Transmission Convergence framing structure being used by the interface. Possible values are: none(1)—no frame format other(2) hdsl(3)—HDSL frame format for SDSL interfaces gShdsl(4)—G.SHDSL frame format for G.SHDSL interfaces hdsl2(5)—HDSL2 frame format for HDSL2 interfaces ds1(6)—DS1 frame format for HDSL interfaces
Line Coding	Specifies the signal coding used on this line. The possible values are: other(1) base2b1q(2)—Baseband, 2B1Q encoding. SDSL ports may use 2b1q line encoding. tcPam(3)—Trellis coded pulse amplitude modulated. G.SHDSL ports use tcPam line encoding. optis(4)—Overlapped pulse amplitude modulated transmission with interlocked spectra. HDSL2 ports use optis line encoding. cap(5)—Carrierless amplitude and phase modulation. SDSL may use cap line encoding.

Viewing IDSL Interface Status

The IDSL Interface Status/Inventory window displays status information for a selected IDSL card. To view the IDSL Interface Status/Inventory window, follow these steps:

Step 1 In CDM Manager, with the chassis map view open, right-click an IDSL card and select Cisco DSL Manager > Physical > Interface > IDSL > Status.

The IDSL Interface Status/Inventory window appears (Figure 7-13).

Figure 7-13: IDSL Interface Status/Inventory Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and IDSL interface.

The status information for the selected SDSL line displays on the status window.

IDSL Interface Status/Inventory Window Field Definitions

Table 7-13 defines the fields that are located in the IDSL Interface Status/Inventory window.

Table 7-13: IDSL Interface Status/Inventory Window Field Definitions

Field Definition

Status

Indicates the current status of the IDSL transceiver. The current state can change dynamically. No status values display for upstream parameters.

Version Number

Displays the version number of the IDSL interface.

Serial Number

Displays the serial number for the selected card.

Vendor ID

Displays the ID number for the vendor of the selected card.

Field	Definition
Status	Indicates the current status of the IDSL transceiver. The current state can change dynamically. No status values display for upstream parameters.
Version Number	Displays the version number of the IDSL interface.
Serial Number	Displays the serial number for the selected card.
Vendor ID	Displays the ID number for the vendor of the selected card.

Viewing FlexiCAP Interface Status

The CAP Interface Status window displays status information for a selected flexiCAP card. To view the CAP Interface Status window, follow these steps:

Step 1 In CDM Manager, with the chassis map view open, right-click a flexiCAP card and select Cisco DSL Manager > Physical > Interface > CAP > Status.

The CAP Interface Status window appears (Figure 7-14).

Figure 7-14: CAP Interface Status Window

Step 2 From the list boxes at the left, select the relevant chassis, card, and flexiCAP interface. The status information for the selected line card appears.

CAP Interface Status Window Field Definitions

Table 7-14 defines the fields that are located in the CAP Interface Status Window.

Table 7-14: CAP Interface Status Window Field Definitions

Field Definition

Current State

Specifies the state of the ATU-C transceiver.

Current Receiving SNR

Signal-to-noise ratio for the upstream (receive side) data channel.

Current Receiving Gain

The measure of loop attenuation over the entire DSL frequency spectrum.The card uses an algorithm to boost receiver gain so that attenuation can be corrected for proper support of a given receive data rate.

Average SNR (tenth-dB)

Average signal-to-noise ratio for the upstream (receive side) data channel.

Field	Definition
Current State	Specifies the state of the ATU-C transceiver.
Current Receiving SNR	Signal-to-noise ratio for the upstream (receive side) data channel.
Current Receiving Gain	The measure of loop attenuation over the entire DSL frequency spectrum.The card uses an algorithm to boost receiver gain so that attenuation can be corrected for proper support of a given receive data rate.
Average SNR (tenth-dB)	Average signal-to-noise ratio for the upstream (receive side) data channel.

Viewing Chassis Status

You can view chassis availability details in the Chassis Fault Management window.

Step 1 In CDM Manager, with the chassis map view open, right-click a chassis and select Cisco DSL Manager > Physical > Chassis > Status.

The Chassis Fault Management window appears (Figure 7-15).

Figure 7-15: Chassis Fault Management Window

Step 2 From the list box at the left, select the chassis for which you want to view status information.

Chassis Fault Management Window Field Definitions

The Chassis Fault Management window contains four tabs:

General
Power Supply
Temperature
Fan

Only the General tab applies to CDM for Cisco DSLAMs; the other three tabs are not applicable for this release.

The General tab contains three areas:

Chassis Availability
LED Status (this area is not applicable for CDM for this release)
Cisco Contact Details

Table 7-15 defines the attributes that are located in the General tab.

Table 7-15: Chassis Fault Management Window—General Tab Field Definitions

Field Definition

Up Time

Displays the up time since the last reset.

Last Changed Time

Displays the time when the chassis was last modified.

Last Restart Reason

Displays the reason for the last restart.

Last Authentication Failure Address

Displays the last authorization failure IP address for the selected chassis.

Clock Source Status

Not applicable for CDM.

LED Status

The LED Status area is not applicable for CDM.

Cisco Contact Details

Displays details for how to contact Cisco.

Field	Definition
Up Time	Displays the up time since the last reset.
Last Changed Time	Displays the time when the chassis was last modified.
Last Restart Reason	Displays the reason for the last restart.
Last Authentication Failure Address	Displays the last authorization failure IP address for the selected chassis.
Clock Source Status	Not applicable for CDM.
LED Status	The LED Status area is not applicable for CDM.
Cisco Contact Details	Displays details for how to contact Cisco.

Table of Contents

Viewing System and Object Status