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Configuring FRSM HS1/B Cards

Configuring FRSM HS1/B Cards

FRSM-HS1/B module sits in any of the MGX 8250 Service Module slots. The FRSM HS1/B is a high Speed frame relay service module. It provides two 52 Mbps HSSI lines and a peak throughput of 104 Mbps.

This chapter describes dialogs that show configuration information for:

Displaying Card Parameters

You can select the FRSM card to display card configuration dialogs by doing one of the following:

The FRSM HS1/B Card Category menu provides access to the following dialogs described in the sections below:

FRSM HS1/B Card

Use the Card Configuration dialog to view FRSM HS1/BFRSM HS1/B card characteristics, hardware, firmware, and status information. The Card Configuration dialog parameters are described in Figure 7-1.


Figure 7-1: Card Configuration Dialog



Table 7-1: Card Configuration Dialog Parameters
Parameter Description

Slot Number

Number of the current slot the card is installed in.

Card Type

Current card type. In this case, it is an FRSM HS1/B.

Card State

Front card status. Can be one of the following:

  • nocard

  • standby

  • active

  • failed

  • selfTest

  • heldInReset

  • boot

  • mismatch

  • unknown

  • coreCardMisMatch

  • blocked

  • reserved

Front Card Description

Description of the front card.

Front Card Serial No

Serial number of the front card.

Card Hardware Revision

Current card hardware revision.

Card Firmware Revision

Current card firmware revision.

MIB Version Number

MIB version number updated when any part of the MIB changes.

Card Reset Reason

Reason for the last card reset. Can be one of the following:

  • powerup

  • parityError

  • watchDog

  • resource

  • clrAll

  • missingTask

Line Module Type

Current line module number.

Line Module State

Current back card state. Can be notPresent, Present, invalid.

Line Module Description

Description of the current back card.

Line Module Serial Number

Serial number of the current back card.

Line Module Hardware Revision

Hardware revision of the current back card.

Line Module Firmware Revision

Firmware revision of the current back card.
The parameters are described in Table 7-1

Service Module Features

Use the Service Module Features dialog to view service module features for this card. (See Figure Figure 7-2)


Figure 7-2: Service Module Features Dialog


The parameters are described in Table 7-2.


Table 7-2: Service Module Features
Parameter Description

Card Supports Foresight?

BRAM parameter indicating whether this card will support ForeSight. Can be rateControlEnabled or rateControlDisabled.

FR Port Realtime Counters

Use the FR Port Realtime Counters dialog to configure FR port Realtime counters on a FRSM HS1/B card. (See Figure 7-3.)


Figure 7-3: FR Port Realtime Counters Table


The FR Port Realtime Counters dialog parameters are described in Table 7-3.


Table 7-3: FR Port Realtime Counters Dialog Parameters
Parameter Description

Port Num

Port number.

Rcv Port Frames

Total number of receive port frames.

Rcv Port Bytes

Total number of receive port bytes.

Rcv Port Frames with DE

Total number of frames received in the Ingress direction.

Rcv Port FECNs

Total number of frames with forward explicit congestion notification (FECN) bit set in the Ingress direction.

Rcv Port BECNs

Total number of frames with backward explicit congestion notification (BECN) bit set in the Ingress direction.

Rcv CRC ErrFrames

Total number of frames discarded in Ingress due to cycle redundancy check (CRC) error.

Rcv Frames DiscAlignmentErr

Total number of frames discarded in Ingress due to alignment error.

Rcv Frames DisIllLen

Total number of frames discarded in Ingress due to alignment error.

Rcv Frames DiscIllLen

Total number of frames discarded in Ingress due to illegal length.

Rcv Frames Illegal Header

Total number of frames discarded in Ingress due to illegal header.

Rcv Frames Abort

Total number of received frames aborted.

Rcv Frames Unknown DLCI

Total number of frames received with an unknown DLCI.

Rcv Last UnKnown DLCI

Last unknown DLCI received.

Rcv Frames Tagged FECN

Total number of frames received that were tagged with forward explicit congestion notification (FECN) bit.

Rcv FramesTaggedBECN

Number of frames received that were tagged with backward explicit congestion notification (BECN) bit.

Rcv Frames Tagged DE

Total number of frames received that were tagged with discard eligible (DE) bit.

Rcv Frames Disc Exceeded Threshold

Total number of frames discarded in Ingress due to exceeded discard eligible (DE) threshold.

Rcv Kbps AIR

Received Average Information Rate (AIR) in Kbps.

Rcv Buf Not Available

The total number of times the receiver is turned off.

Xmt Port Frames

Total number of frames transmitted.

Xmt Port Bytes

Total number of bytes transmitted.

Xmt Port Frames FECN

Total number of frames transmitted with forward explicit congestion notification (FECN) bit already set.

Xmt Port Frames BECN

Total number of frames transmitted with backward explicit congestion notification (BECN) bit already set.

Xmt Port Disc ExceedQDepth

Total number of frames discarded in Egress due to exceeded queue depth.

XmtPortBytesDiscXceedQDepth

The total number of bytes discarded in Egress due to exceeded queue depth.

Xmt Port Frames During LMI Alarm

The total number of frames transmitted during Local Management Interface (LMI) logical port alarm.

Xmt Port Bytes During LMI Alarm

The total number of bytes transmitted during LMI logical port alarm.

Xmt Port Frames Abort

The total number of transmit frames aborted.

Xmt Port Underrun

The total number of frames discarded due to overrun.

Xmt Kbps AIR

Transmit Average Information Rate in Kbps.

Xmt Buf Not Available

The total number of times the transmitter is turned off.

Rcv Frames Discarded due to No Chan

The total number of frames received when no channel is set up.

Rcv Status Inquiry

The total number of Status Inquiry messages received.

Rcv Invalid Request

The total number of Invalid Request messages received.

Rcv Uni Seq Mismatch

The number of times User-Network Interface (UNI) messages with sequence number mismatches were received.

Xmt Status

The number of times Status Response messages were transmitted.

Xmt Asynch Update

The number of times Asynchronous Status messages were transmitted.

UNI Signalling Timeout

The number of times User-Network Interface (UNI) Status Requests were not received.

Xmt Status Inquiry

The number of status inquiry messages transmitted.

RCV Asynch Update

The number of times asynchronous status messages were received.

Rcv NNI Seq Mismatch

The number of times Network-to-Network (NNI) messages with sequence number mismatches were received.

Rcv NNI Signaling Timeout

The number of times Network-to-Network (NNI) status requests were not received.

Rcv Frames CLLM

The total number of CLLM frames received.

Rcv Bytes CLLM

The total number of CLLM bytes received.

Xmt Frames CLLM

The total number of CLLM frames transmitted.

Xmt Bytes CLLM

The total number of XMT CLLM bytes received.

CLLM Failures

The number of times an expected CLLM message was not received.

Note   The FR Port Realtime Counters dialog is not a configurable dialog.

LCN Partition Type

Use the LCN Partition Type dialog to configure LCN partition type on a FRSM HS1/B card. (See Figure 7-4.)


Figure 7-4: LCN Partition Type Dialog


Choose one from the cardLcnPartitionType pulldown menu: 

  • No Partition
    



 Disables partitioning on the current card.


  • controllerBased
    



 Enables controller based resource type for the current card. This means the total number of LCNs available to each controller is fixed but no reservation on each port.


  • portControllerBased
    



 Enables card specific resource partitioning on the current card. This means that a certain number of LCNs available on each port for each controller is reserved as specified in the port resource.

Note   The dialog must be configured before adding any connections. Once a connection is added, this dialog cannot be changed until all of the connections are deleted.

To modify LCN partition type, make the changes you want and click Modify.

Card/Ports (X.21/V.35)

Use the Ports dialog to configure X.21/V.35 Ports on a FRSM HSI/B card. The Ports dialog parameters are described in Table 7-4.


Figure 7-5: Card/Ports (X.21/V.35) Dialog



Table 7-4: Card/Ports (X.21/V.35) Dialog Parameters
Parameter Description

Port Num

Logical port number.

Port Line Num

Line number.

Port Row Status

Enables, deletes, or modifies the port. Choose one from the popup menu:

  • add

  • del

  • mod

Flags Between Frames

Number of flags used.

Port Equeue Service Ratio

Number of times queue 1 is serviced for every time queue 2 is serviced.

Line/Port Rate (Kbps)

Line rate.

Port Admin

Port administrative status. Choose one from the popup menu:

  • up

  • down

Port State

Logical port state. Can be one of the following:

  • notConfigured

  • active

  • remoteLoopback

  • linefailure

  • signallingfailure

  • outofcelldelineation

  • localloopback

Channels

Use the Channels dialog to configure Channels on a FRSM HS1/B card. The Channels dialog parameters are described in Table 7-5.


Figure 7-6: Card/Channels Config Dialog



Table 7-5: Card/Channels Dialog Parameters
Parameter Description

Channel Number

Virtual connection number.

Channel RowStatus

Channel status. Choose one from the popup menu:

  • add

  • del

  • mod

Channel Port Number

Refers to the logical ports that are possible on this card, the user must set this variable.

Clear Channel Counters?

Clears Channel Port Counters. Choose: noaction or yes.

DLCI

Data-link connection identifier (DLCI) number of the channel. The user must set this variable. All the connections on the same port should have a unique DLCI number.

Egress Q Select

Selects one of two possible port queues. Can be:

  • highPriority

  • lowPriority

  • notSupported (indicates this entry is not used)

Ingress Q Depth

Sets the maximum depth for queue before it starts dropping cells. It is defined in terms of number of bytes.

Ingress Q ECN Threshold

Sets the maximum depth for queue before it starts flow control. It is defined in terms of number of bytes.

Ingress Q DE Threshold

Sets the maximum depth for queue before they become discard eligible. It is defined in terms of number of bytes.

Egress Q Depth

Sets the maximum depth for queue before it starts dropping the cells. It is defined in terms of number of bytes.

Egress Q DE Threshold

Sets the maximum depth for queue before they become discard eligible. It is defined in terms of number of bytes.

Egress Q ECN Threshold

Sets the maximum depth for queue before it starts flow control. It is defined in terms of number of bytes.

Enable DE Tagging

Enables DE tagging in the Ingress direction only. Choose enable or disable from the popup menu. The default is disable.

Committed Information Rate (BPS)

Defines the Committed Information Rate in bits per second. The default is 2400. The maximum value for E1 is 2048000; the maximum value for T1 is 1536000. CIR has to be less than or equal to the port speed.

Burst Committed

Defines the Burst Committed. The default value is 5100. If CIR is not 0, BC cannot be 0. BC must be 0 if CIR is 0.

Burst Excess

Defines the Burst Excess. The default value is 5100. If CIR is not 0, BE cannot be 0.

Burst Size

Default is 100. IBS should be less than or equal to BC when CIR is greater than 0. IBS must be 0 when CIR is 0.

Enable Foresight

Sets the ForeSight option. Choose enable or disable from the popup menu. The default is disable.

Quiescent Information Rate (CPS)

Defines Quiescent Information Rate for ForeSight in cells per second. The default is 10.

Minimum Information Rate (CPS)

Defines Minimum Information Rate for ForeSight in cells per second. The default is 10.

Peak Information Rate (CPS)

Defines Peak Information Rate for ForeSight in cells per second. The default is 10.

Remote Lpbk State

Used to enable or disable the remote loopback for each channel. When you enable this option on a channel, all the cells coming from the network side are looped back towards the network and all the frames coming from the user side are dropped. The default is disable.

Channel Test Type

Tests the continuity or delay of a connection, sending specific cell patterns towards the network. The terminating end of this connection has to be an MGX edge concentrator or ASI of a BPX switch in order for this test to be working. The receiving node would loop back when it receives these cells. The test should be done in about couple of seconds. Testcon tests the continuity of the connection. Testdelay uses the same test except that it measures for delay through the network.

Choose one from the popup menu:

  • testcon

  • testdelay

  • notest (This is the default.)

To test the delay follow this procedure:

    1. Set Channel Test Type to testdelay.

    2. Read Channel Test State till it is Pass or Fail.

    3. Read Round Trip Delay for the delay if it is Pass.

Note   The Channel Test Type returns to notest when the test is complete.

To test the continuity follow this procedure:

    1. Channel Test Type to testcon.

    2. Read Channel Test State till it is Pass or Fail.

Note   The Channel Test Type returns to notest when the test is complete.

You can not select two tests back to back. Select one test and wait for it to complete its cycle before selecting another test.

Channel Test State

State of the test. Can be one of the following:

  • passed

  • failed

  • inprogress

  • notinprogress

When you add a connection, the Channel Test State becomes notinprogress. When you select any test, it goes to the inprogress state. After it completes the test, failed or passed is displayed.

Round Trip Delay (Milli Secs)

Round trip delay in milliseconds. When Channel Test Type is testdelay, the result of the test can be read in chanRTDResult.

Channel Type

Sets the channel type. Choose one from the popup menu:

  • frNIW—Frame Relay Network Interworking.

  • frSIW-transparent—Service Interworking without any SDU translation.

  • frSIW-translate—Service Interworking with SDU translation.

  • frFUNI—Frame Relay UNI.

  • frForward—Frame Forwarding.

Channel FECN Config

Sets the forward explicit congestion notification (FECN) configuration mapEFCI, valid only for SIW. The FECN bits in frame relay are mapped to Explicit Forward Congestion Indication (EFCI) bit in the ATM cells. Choose mapEFCI or setEFCIzero from the popup menu.

Map CLP Bit

Sets the mapping of cell loss priority (CLP) bit. Choose one from the popup menu:

  • mapCLP—The discard eligible (DE) bit is mapped to cell loss priority (CLP) bit in ATM cell.

  • setCLPzero—The discard eligible (DE) bit is ignored and cell loss priority (CLP) bit is set to a constant value.

  • setCLPone—The discard eligible (DE) bit is ignored and cell loss priority (CLP) bit is set to a constant value.

Map DE Bit

Sets the mapping of discard eligible (DE) bit. Choose one from the popup menu:

  • mapDE—The cell loss priority (CLP) bit is mapped to discard eligible (DE) bit in frame relay.

  • setDEzero—The cell loss priority (CLP) bit is ignored and discard eligible (DE) bit is set to a constant value.

  • setDEone—The cell loss priority (CLP) bit is ignored and discard eligible (DE) bit is set to a constant value.

  • ignoreCLP—Ignores cell loss priority (CLP) bit and discard eligible (DE) bit remains as received.

Ingress Percent Util

Channel ingress utilized percentage. Can be 1...100.

Egress Percent Util

Channel egress utilized percentage. Can be 1...100.

Egress CIR

Channel egress committed information rate (CIR). The Egress CIR has to be less than or equal to the port speed.

Maximum value for E1 card = 2048000

Maximum value for T1 card = 1536000

Override Oversubscription

Permits adding a new connection on a port, even if it is oversubscribed. Choose disable or enable from the popup menu.

FR Conn Type

Frame Relay (FR) channel connection type. Choose pvc or svc from the popup menu.

FR CDR Number

Frame Relay (FR) count data records (CDR) key to correlate cell/frame counts, start/end record.

Lines Configuration

There are four ways to select the line (from either the front or rear view of the card) to display the appropriate line configuration dialog:

To display the configuration parameters for an X21 or V.35 line/port, select the Category popup menu at the top of the dialog. The categories of line configuration are:

Physical Line Config (X.21/V.35)

Use the Physical Line Config (X.21/V.35) dialog to view and configure line information. (See Figure 7-7.)


Figure 7-7: Physical Line Config (X.21/V.35) Dialog


The X.21/V.35 Line Config dialog parameters are described in Table 7-6.


Table 7-6: Physical Line Config (X.21/V.35) Dialog Parameters
Parameter Description

Line Number

Line number.

Line Enable

Disables, enables, or modifies a line. Can be one of the following:

  • modify

  • disable

  • enable

The default is enable.

Line Type

Line type. Can be dte or dce. The default is dce.

Line/Port Rate (Kbps)

Line rate.

Line Loopback Command

Line loopback command. Can be one of the following:

  • x21DiagnosticMetallicLoop

  • x21NoLoop

  • x21DiagnosticFrontcardLoop

  • RemoteLoop

Line Send Code

Line send code. Can be one of the following:

  • x21SendLoopACode—Start sending loop A code. Valid only if the back card is HSSI and the line type is DTE. This command loops the line module of the remote device.

  • x21SendLoopBCode—Start sending loop B code. Valid only if the back card is HSSI and the line type is DTE. This command loops the digital section of the remote device.

  • x21SendLocalLoopCode—Start sending CCITT X21 loopback type 3 code. This is valid only if the back card is type X21.

  • x21SendRemoteLoopCode—Start sending CCITT X21 loopback type 2 code. This is valid only if the back card is type X21.

  • x21SendUnLoopCode—Sending a loopback termination request. This is valid for both HSSI and X21 lines.

Line Loopback Code Detection

Enables detection of line loopback codes. Can be codeDetectEnabled or codeDetectDisabled.

The default is codeDetectDisabled.

x21InvertClock

Each setting configures two options:

  • Whether to invert the clock sent by HS1 with the TX data.

  • Whether you expect to receive a clock from the other side.

The possible settings are:

  • nonInvertedNotLooped—no inversion, don't expect clock

  • invertedNotLooped—invert clock, don't expect clock

  • nonInvertedLooped—no inversion, expect clock

  • invertedLooped—invert clock, expect clock

The default for X.21/HSSI is nonInvertedNotLooped.

The default for V.35 is nonInvertedLooped.

To modify the parameters, make the changes you want and click Modify.

Physical Line Alarm Config (X.21/V.35)

Use the Physical Line Alarm Config (X.21/V.35) dialog to view and configureX.21/V.35 physical line alarm information. (See Figure 7-8.)


Figure 7-8: Physical Line Alarm Config (X.21/V.35) Dialog


The Physical Line Alarm Config (X.21/V.35) dialog parameters are described in Table 7-7.


Table 7-7: Physical Line Alarm Config (X21/HSSI/V.35) Dialog Parameters
Parameter Description

Alarm Line Num

Line number of the X21/HSSI interface.

Lin Alarm State

Status of the line alarms. A value of zero indicates no alarms.

Line EIA Status

Status of the X21/HSSI lines.

Line Severity

Used to set up the severity of an LOS or clock mismatch alarm. When an LOS or clock mismatch occurs, the FRSM-HS1 sends an alarm with the appropriate status. Can be one of the following:

  • minor

  • major

  • donotcare

To modify the parameters, make the changes you want and click Modify.

Logical Ports

There are four dialogs for FRSM HS1/B port configuration:

These dialogs are described in the sections that follow.

Logical Port Config (X.21/V.35 Ports)

Use the Logical Port Config dialog to view and configure logical ports on an FRSM card. (See Figure 7-9.)


Figure 7-9: Logical Port Config (FR) Dialog


The Logical Port Config dialog parameters are described in Table 7-8.


Table 7-8: Logical Port Config (FR) Dialog Parameters
Parameter Description

Port No.

Logical port number.

Line No.

Line number associated with the logical port.

Port RowStatus

Port row status. Choose add, delete, or modify.

Port Ds0 Config Bitmap

Bitmap of DS0s for a line, used to form this logical port. Bit 0 represents DS0-1.

Port Ds0 Speed

Port DSO speed in cells per second.

Port Flags

Number of flags transmitted between frame relay frames.

EQueue Service Ratio

Number of times queue 1 is serviced for every time queue 2 is serviced.

Port Speed (kbps)

Port DSO speed in kbps.

Port Admin Status

Port administrative status. Choose one from the popup menu:

  • up

  • down

  • write-Only

Port State

Logical port state.

portSvcStatus

Port SVC status.

portSvcShareLcn

Indicates whether or not the LCN and VPid address spaces are shared across all the ports.

portSvcLcnLow

Beginning of the LCN range reserved for SVCs.

portSvcLcnHigh

End of the LCN range reserved for SVCs.

portSvcDlciLow

Beginning of the DLCI range reserved for SVCs.

portSvcDlciHigh

End of the DLCI range reserved for SVCs.

Port Type

Port type. Choose one from the pop-up menu:

  • structured

  • unstructured

  • framingOnVcDisconnect

  • strau

Signalling Protocol Type

Signalling protocol type. Choose one from the pop-up menu:

  • other

  • no signalling

  • strataLMI

  • annexAUNI

  • annexDUNI

  • annexANNI

  • annexDNNI

Async Updates

Enables asynchronous status updates. Choose disable or enable.

Link Integrity Timer (Secs)

Interval in seconds for NNI to do status polling.

Poll Verification Timer (Secs)

Interval in seconds for UNI to expect status polling.

Status Polling Counter

Number of UNI/NNI polling cycles.

Error Threshold

UNI/NNI error threshold.

Event Count

UNI/NNI events, always greater than the Error Threshold parameter.

Enhance LMI

Indicates whether or not enhanced LMI is enabled on a logical port. Choose disable or enable.

CLLM Enable

Enables or disables CLLM. Choose disable or enable.

CLLM Xmt Status Timer (Milli Secs)

Interval in milliseconds for CLLM to send CLLM updates.

Port Signalling State

Port signalling state.

Bit 0 = 0 LMI okay or not enabled

Bit 0 = 1 LMI failed

Bit 1 = 0 CLLM okay or not enabled

Bit 1 = 1 CLLM failed

Port Oversubscribed

Indicates whether or not the port is oversubscribed. Can be one of: true or false.

Port Ingress Percent Utilization

Percentage of utilization of the port in the Ingress direction.

Port Egress Percent Utilization

Percentage of utilization of the port in the Egress direction.

FR Port RTCs

Use the FR Port RTCs dialog to view and configure port RealTime counters on a FRSM card. (See Figure 7-10.)


Figure 7-10: FR Port RTCs Dialog


The FR Port RTCs dialog parameters are described in Table 7-9.


Table 7-9: FR Port RTCs Dialog Parameters
Parameter Description

Port Num

Logical port number.

Rcv Port Frames

Total number of frames received in the Ingress direction.

Rcv Port Bytes

Total number of bytes received in the Ingress direction.

Rcv Port Frames with DE

Total number of frames with DE bit set in the Ingress direction.

Rcv Port FECNs

Total number of frames with FCNS bit set in the Ingress direction.

Rcv Port BECNs

Total number of frames with BECN bit set in the Ingress direction.

Rcv CRC ErrFrames

Total number of frames discarded in Ingress due to CRC error.

Rcv Frames DiscAlignmentErr

Total number of frames discarded in Ingress due to alignment error.

RcvFrames DiscIllLen

Total number of frames discarded in Ingress due to illegal length.

Rcv Frames IllegalHeader

Total number of frames discarded in Ingress due to illegal header.

Rcv Frames Abort

Total number of received frames aborted.

Rcv Frames Unkn DLCI

Total number of frames received with an unknown DLCI.

Rcv Last Unkn DLCI

Last unknown DLCI received.

Rcv Frames Tagged FECN

Total number of frames received that were tagged with FECN bit.

Rcv Frames Tagged BECN

Total number of frames received that were tagged with BECN bit.

Rcv Frames Tagged DE

Total number of frames received that were tagged with DE bit.

Rcv Frames Disc Exceeded Threshold

Total number of frames discarded in Ingress due to exceeded DE threshold.

Rcv Kbps AIR

Received Average Information Rate in Kbps.

Rcv Buf Not Available

Total number of times the receiver is turned off.

Xmt Port Frames

Total number of frames transmitted.

Xmt Port Bytes

Total number of bytes transmitted.

Xmt Port Frames FECN

Total number of frames transmitted with FECN bit already set.

Xmt Port Frames BECN

Total number of frames transmitted with BECN bit already set.

Xmt Port Disc. Exceed Q Depth

Total number of bytes discarded in Egress due to exceeded queue depth.

Xmt PortBytesDiscXceedQDepth

Total number of frames discarded in Egress due to exceeded queue depth.

Xmt Port Frames During LMI Alarm

Total number of frames transmitted during LMI logical port alarm.

Xmt Port Bytes During LMI Alarm

Total number of bytes transmitted during LMI logical port alarm.

Xmt Frames Abort

Total number of transmit frames aborted.

Xmt Frames Underrun

Total number of frames discarded due to overrun.

Xmt Kbps AIR

Transmit Average Information Rate in Kbps.

Xmt Buf Not Available

Total number of times the transmitter is turned off.

Rcv Frames Discarded due to No Chan

Total number of frames received when no channel is set up.

Rcv Status Inquiry

Total number of Status Inquiry messages received.

Rcv Invalid Request

Total number of Invalid Request messages received.

Rcv UNI Seq. Mismatch

Number of times UNI messages with sequence number mismatches were received.

Xmt Status

Number of times Status Response messages were transmitted.

Xmt Async Update

Number of times Asynchronous Status messages were transmitted.

UNI Signalling Timeout

Number of times UNI Status Requests were not received.

XMT Status Inquiry

Number of Status Inquiry messages transmitted.

Rcv Async Update

Number of times Asynchronous Status messages were received.

Rcv NNI Seq. Mismatch

Number of times NNI messages with sequence number mismatches were received.

Rcv NNI Signalling Timeout

Number of times NNI Status requests were not received.

FR Port RTCs (CLLM)

Use the FR Port RTCs (CLLM) dialog to view and configure CLLM port RealTime counters on a FRSM card. (See Figure 7-11.)


Figure 7-11: FR Port RTCs (CLLM) Dialog


The FR Port RTCs (CLLM) dialog parameters are described in Table 7-9.


Table 7-10: FR Port RTCs (CLLM) Dialog Parameters 
Parameter

Description

 Rcv Frames CLLM


 Number of CLLM frames received.


 Rcv Bytes CLLM


 Number of CLLM bytes received.


 Xmt Frames CLLM


 Number of CLLM frames transmitted.


 Xmt Bytes CLLM


 Number of CLLM bytes transmitted.


 CLLM Failures


 Number of times an expected CLLM message was not received.

FR Port Resource Partition Config

Use the FR Port Resource Partition dialog to view and configure port resource partitions on a FRSM card. (See Figure 7-12.)


Figure 7-12: FR Port Resource Partition Config Dialog


The FR Port Resource Partition dialog parameters are described in Table 7-10.


Table 7-11: FR Port Resource Partition Config Dialog Parameters 
Parameter

Description

 frResPartPortNum


 Logical port number. 







Note   For a T1 card, the maximum port number is 192. For an E1 card, the maximum port number is 248. For FRSM VHS 2CT3, the maximum port number is 256.




 


 frResPartCtrlrNum


 Index number for the controller using this port. Can be one of the following: 


  • par 
    

  • pnni
    

  • tag 
    



 frResPartRowStatus


 Used to add, delete or modify the partition.


 frResPartDlciLow


 Represents low end of reserved DLCI.


 frResPartDlciHigh


 Represents high end of reserved DLCI.


 frResPartIngrPctBw


 Percentage of total ingress bandwidth reserved.


 frResPartEgrPctBw


 Percentage of total egress bandwidth reserved.


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Posted: Mon Oct 2 21:18:28 PDT 2000
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