Table of Contents

Displaying Card Parameters

FRSM-2CT3 Card Configuration Dialog
Service Module Features
FR Port Realtime Counters
LCN Partition Type
Ports
Channels

Card/Channels (FR)
Card/Channels State Info (FR)

Lines Configuration

Physical Line Config(dsx3)
dsx3 Physical Line Alarm Configuration
dsx3 Counters

dsx3 Counters (1 of 2)
dsx3Counters (2 of 2)

Channelized Line Configuration (dsx1)

Channelized Line Alarm Configuration (dsx1)
Channelized Line RealTime Counters (dsx1)

Logical Ports

Logical Port Config (FR Ports)
FR Port RTCs
FR Port RTCs (CLLM)
FR Port Resource Partition
Logical Ports (Service Queue)

Configuring FRSM 2CT3 Cards

The FRSM-2CT3 module sits in any of the MGX 8250 Service Module slots. The FRSM-2CT3 is a high speed frame relay service module. It provides 2 channelized T3 lines with 28 channelized T1 lines on each T3 (in other words, 56 T1 lines for the entire card) and a peak throughput of 90 Mbps.

This chapter describes dialogs that show configuration information for:

• Cards

• Lines

Displaying Card Parameters

Select the FRSM card to display FRSM card configuration dialogs by doing one of the following:

• Double click on the FRSM card.

• Select the FRSM card, then select Configure>card.

• Select the FRSM card, right-click to display the card popup menu, then select Configure.

• Select the FRSM card, then click the Configure button on the toolbar.

The FRSM-2CT3 Card Category menu contains the following items:

• Card

• Service Module Features

• FR Port Realtime Counters

• LCN Partition Type

• Ports

• Channels

These dialogs are described in the sections that follow.

FRSM-2CT3 Card Configuration Dialog

Use this dialog to view FRSM-2CT3 card characteristics, hardware, firmware, and status information. The Card Configuration dialog parameters are described in Figure 4-1.

Table 4-1: 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 a FRSM.
Card State	Front card status. Can be: 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 Powerup, parityError, watchDog, resource, clrAll, missingTask.
Line Module Type	Current line module number. Can be: lm-T3
Line Module State	Current back card state. Can be any of: 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.

Service Module Features

Use this dialog to view service module features for the FRSM card. (See Figure 4-2.)

The parameters are described in Table 4-1.

Table 4-2: FRSM Service Module Features Dialog Parameters

Parameter	Description
Channelized Card?	Indicates whether this card will support DS0 channels.
Card Supports Foresight?	Indicates whether this card will support ForeSight. Can be rateControlEnabled or rateControlDisabled.
FUNI Allowed?	Whether the card supports FUNI. Possible values are 1) disabled and 2) enabled.
Card Supports SVC?	Whether SVC is allowed on the channel. Possible values are 1) disabled and 2) enabled.
OAM Loopback Allowed?	Indicates whether RAS-OAM loopback test is enabled or disabled for this card.
OAM Loopback Frequency	Indicates the frequency in minutes in which the RAS task sends one OAM loopback cell per idle connection. Possible values: 1..10.
EgressQOS	Affects usability of the port service queue. The value indicates the various classes of service supported, e.g. Hi Priority, VBR rt, etc. An egrQosFeatureEnabled value indicates classes of service supported by the channel MIB objectchanServType. An egrQosFeatureDisabled value supports priority-based queuing as defined by the channel MIB object egressQSelect.

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Note   This is not a configurable dialog.

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The CLI commands related to this dialog are dspfeature, chanfst, and clrsmcnf commands.

FR Port Realtime Counters

Use the FR Port Realtime Counters dialog to view FR port Realtime counters on a FRSM card. (See Figure 4-3.)

The FR Port Realtime Counters dialog parameters are described in Table 4-3.

Table 4-3: 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	Total 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	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	Total number of bytes discarded in Egress due to exceeded queue depth.
Xmt Port Frames During LMI Alarm	Total number of frames transmitted during Local Management Interface (LMI) logical port alarm.
Xmt Port Bytes During LMI Alarm	Total number of bytes transmitted during LMI logical port alarm.
Xmt Port Frames Abort	Total number of transmit frames aborted.
Xmt Port 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 User-Network Interface (UNI) messages with sequence number mismatches were received.
Xmt Status	Number of times Status Response messages were transmitted.
Xmt Asynch Update	Number of times Asynchronous Status messages were transmitted.
UNI Signalling Timeout	Number of times User-Network Interface (UNI) Status Requests were not received.
Xmt Status Inquiry	Number of status inquiry messages transmitted.
RCV Asynch Update	Number of times asynchronous status messages were received.
Rcv NNI Seq Mismatch	Number of times Network-to-Network (NNI) messages with sequence number mismatches were received.
Rcv NNI Signaling Timeout	Number of times Network-to-Network (NNI) status requests were not received.
Rcv Frames CLLM	Total number of CLLM frames received.
Rcv Bytes CLLM	Total number of CLLM bytes received.
Xmt Frames CLLM	Total number of CLLM frames transmitted.
Xmt Bytes CLLM	Total number of XMT CLLM bytes received.
CLLM Failures	Number of times an expected CLLM message was not received.

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

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LCN Partition Type

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

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.

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Note   This 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.

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

Ports

Use the Ports dialog to configure Ports on a FRSM-2CT3 card. The Ports dialog parameters are described in Table 4-4.

Table 4-4: Card/Ports Dialog Parameters

Parameter	Description
Port Num	Logical port number.
Port Line Number	Line number.
Port Row Status	Port row enabled status. Choose one from the popup menu: del mod Use the create button to add a port.
Clear Port Counters?	Clears port row status. Choose noaction or clear from the popup menu.
Port Ds0 Config BitMap	Bitmap of DS0s for a line, used to form this logical port. Bit 0 represents DS0-1.
Port Flags	Number of flags transmitted between FR frames.
EQueue Service Ratio	Number of times queue 1 is serviced for every time queue 2 is serviced.
Port Speed (kbps)	Port speed in Kbps.
Port Admin Status	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
Port Type	Port type. Choose one from the popup menu: frame-relay frFUNI frame-forward
Signalling Protocol Type	Signalling protocol type. Choose one from the menu: noSignalling strataLMI annexAUNI annexDUNI annexANNI annexDNNI
Async Updates	Enables asynchronous status updates. Choose disable or enable from the popup menu.
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.
Enhanced LMI	Indicates whether or not enhanced LMI is enabled on a logical port. Choose disable or enable from the popup menu.
CLLM Enable	Enables or disables CLLM. Choose disable or enable from the popup menu.
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 true or false.
Port Ingress Percent Utilization	Indicates whether or not the port is oversubscribed. Can be true or false.
Port Egress Percent Utilization	Percentage of utilization of the port in the Egress direction.

Channels

The Channels menu item contains two dialogs:

• Card/Channels (FR)

• Card/Channels State Info (FR)

These dialogs are described in the sections that follow.

Card/Channels (FR)

Use the Card/Channels (FR) dialog to configure channels on a FRSM card. (See Figure 4-6.)

The Card/Channels (FR) dialog parameters are described in Table 4-5.

Table 4-5: Cards/Channels (FR) 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. Note   When adding a channel to a port that has LMI signalling enabled, do not use DLCI number 0(ANNEX A & D) and 1023(STRATA LMI).
Egress Q Select	Selects one of two possible port queues. Can be one of the following: 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 o 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 AXIS or ASI of a BPX 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. Set 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 it's 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.

Card/Channels State Info (FR)

Use the Card/Channels State Info (FR) dialog to configure channel state information on a FRSM card. The Card/Channel State Info (FR) dialog parameters are described in Table 4-5.

Table 4-6: Card/Channels State Info (FR) Dialog Parameters

Parameter	Description
stateChanNum	Virtual connection number. FRSM-2T3/E3 supports a range from 16..2015 (2000 entries).
ChanState	Indicates the LMI state of the channel. Can be one of the following: notConfigured okay alarm
xmtAbitState	A bit transmit state. Can be one of the following: off—LMI off. sendingAequal1—LMI on and connection is O.K. sendingAequal0—LMI on and connection has failed.
rcvAbitState	The A bit receive state. Can be one of the following: off—LMI off. sendingAequal1—LMI on and connection is O.K. sendingAequal0—LMI on and connection has failed.
xmtATMState	Indicates the transmit state of the channel on the ATM side: notSending—Not sending any state. sendingAIS—Sending AIS OAM state. sendingFERF—Sending FERF OAM state.
rcvATMState	Indicates the receiving state of the channel on the ATM side: notRcving—Not sending any state. rcvingAIS—Receiving AIS OAM state. rcvingFERF—Receiving FERF OAM state.

Lines Configuration

This section describes configuration parameters for dsx3 and channelized dsx1 lines.

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

• Double-click the connector on the card.

• Select the connector, then select Configure>line.

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

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

To display the configuration parameters for a particular line/port, click on the Category popup menu at the top of the dialog. The categories of line configuration available for this card are:

• Physical Line Config(dsx3)

• Physical Line Alarm Config(dsx3)

• Dsx3 Counters(1 of 2)

• Dsx3 Counters(2 of 2)

• Channelized Line Config(dsx1)

• Logical Ports

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

Physical Line Config(dsx3)

Use the Physical Line Configuration (dsx3) dialog to view and configure dsx3 physical line configuration information. (See Figure 4-7.)

The Physical Line Configuration (dsx3) dialog parameters are described in Table 4-7.

Table 4-7: Physical Line Config (dsx3) Parameters

Parameter	Description
Line Number	Line number.
Line Enable	Choose enable or disable.
Line Type	Line type Choose one from the popup menu: dsx3CbitParity g832-g804 dsx3M23 g751 dsx3Unframed e3Unframed
Line Coding	Line coding. Can be dsx3B3ZS or e3HDB3.
Line Length (Feet)	Line length. Choose lessThan225 or moreThan225 from the popup menu.
Line OOF Criteria	Line OOF decision criteria. Can be fBits30f8 or fBits3Of16.
Line check AIS Bits?	Choose checkCbits or ignorebits from the popup menu. If checkCbits, AIS is declared when 1010 pattern is found and C-Bits are all zero. If ignorebits, an AIS condition is declared when the AIS pattern 1010 is detected, regardless of the state of the C-Bits.
Line Loopback Command	Loopback configuration of the DS3/E3 interface. Choose one from the popup menu: dsx3NoLoop dsx3RemoteLineLoop dsx3LocalLineLoop dsx3InbndLocalLoopback
Line Receive FEAC Validation	Far-end alarm and control (FEAC) code validation criteria. Choose fFEACCodes4Of5 or fFEACCodes8Of10 from the popup menu. If FEACCodes4Of5 is specified, a valid FEAC codes is declared if four of five codes match. If fFEACCodes8Of10 is specified, a valid FEAC code is declared when eight of ten codes match.
Line Transmit FEAC Code	Indicates the bit-oriented code to transmit over the far-end alarm and control (FEAC) channel. Choose one from the popup menu: dsx3SendNoCode dsx3SendLineCode dsx3SendLineCode dsx3SendPayLoadCode dsx3SendResetCode dsx3SendDS1LoopCode dsx3SendSendTestPattern
Line XMT Clock Src	Line transmit clock source. Choose one from the popup menu: backplaneClk recoverClk localClk
Far End Loopback Status	Bitmap of the dsx3 FarEnd line loopback status bits.
Line Equalizer	Determines type of line equalizer. Choose one from the popup menu: intrnlequalizer extequalizer

dsx3 Physical Line Alarm Configuration

Use the dsx3 Physical Line Alarm Configuration dialog to view and configure dsx3 physical line alarm information. (See Figure 4-8.)

The dsx3 Physical Line Alarm Configuration dialog parameters are described in Table 4-8.

Table 4-8: Physical Line Alarm Config (dsx3) Parameters

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

dsx3 Counters

There are two dialogs for dsx3 counter configuration. Use the dsx3 Counters dialogs to view and configure dsx3 Counters. (See Figure 4-9 and Figure 4-10).

dsx3 Counters (1 of 2)

The dsx3 Counters (1 of 2) dialog parameters are described in Table 4-9.

Table 4-9: dsx3 Counters (1 of 2) Parameters

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

dsx3Counters (2 of 2)

The dsx3 Counters (2 of 2) dialog parameters are described in Table 4-10.

Table 4-10: dsx3 Counters (2 of 2) Parameters

Parameter	Description
dsx3CounterClrButton	Clears all dsx3 counters. Choose noAction or clear.
dsx3LineAlarmClrButton	Clears all dsx3 line alarms. Choose noAction or clear.
PES Current	Number of P-Bit Code Violations Severely Errored Seconds encountered by the interface.
PES 15 Min Bucket	Number of PCV Severely Errored Seconds in the last 15-minute period encountered by the interface.
PES 24 Hr Bucket	Number of PCV Severely Errored Seconds in the last 24-hour period encountered by the interface.
PSES Current	Number of Severely Errored Framing Seconds encountered by the interface.
PSES 15 Min Bucket	Number of PCV Severely Errored Seconds in the last 15-minute period encountered by the interface.
PSES 24 Hr Bucket	Number of PCV Severely Errored Seconds in the last 24-hour period encountered by the interface.
SEFS Current	Number of Severely Errored Framing Seconds encountered by the interface.
SEFS 15 Min Bucket	Number of Severely Errored Framing Seconds in the last 15-minute period encountered by the interface.
SEFS 24 Hr Bucket	Number of Severely Errored Framing Seconds in the last 24-hour period encountered by the interface.
AISS Current	Number of AIS Severely Errored Seconds encountered by the interface.
AISS 15 Min Bucket	Number of AIS Severely Errored Seconds in the last 15-minute period encountered by the interface.
AISS 24 Hr Bucket	Number of AIS Severely Errored Seconds in the last 24-hour period encountered by the interface.
UAS Current	Number of Unavailable Seconds encountered by the interface.
UAS 15 Min Bucket	Number of Unavailable Seconds in the last 15-minute period encountered by the interface.
UAS 24 Hr Bucket	Number of Unavailable Seconds in the last 24-hour period encountered by the interface.
Percent LCV EFS	Percentage of seconds without any LCV Errors in the total elapsed seconds.

Channelized Line Configuration (dsx1)

Use the Channelized Line Config(dsx1) dialog to view and configure dsx1 channelized line information. (See Figure 4-11.)

The Channelized Line Config(dsx1) dialog parameters are described in Table 4-11.

Table 4-11: Channelized Line Config(dsx1) Dialog Parameters

Parameter	Description
Line Num	Channelized line number
Type	Line type.
Line Enable	Line enable status. Choose one from the popup menu: modify enable diable
XMT Clock	Transmit clock source. Choose one from the popup menu: localTiming loopTiming throughTiming
Loopback	Line loopback conmfiguration of the ds1 interface. Choose one from the popup menu: dsx1LocalLoop dsx1NoLoop dsx1RemoteLoop
Code Sent	Type of code sent across the ds1 line. Choose one from the popup menu: dsx1SendNoCode dsx1SendLineCode dsx1SendPayLoadCode dsx1SendResetCode LineUsedTimeslotsBitMap
DS0's Used	DS0s for this line.
Loopback code Detect	Indicates whther or not detection of line loopback codes is enabled. Choose codeDetectDisabled or codeDetectEnabled from the popup menu.
Enable BERT	Use to Enable or disable BERT.

Channelized Line Alarm Configuration (dsx1)

Use the Channelized Line Alarm Config (dsx1) dialog to view and configure dsx1 channelized line alarm information. (See Figure 4-12.)

The Channelized Line Alarm Config (dsx1) dialog parameters are described in Table 4-12.

Table 4-12: Channelized Line Alarm Config (dsx1) Dialog Parameters

Parameter	Description
Line Number	Identifies the selected DS1/E1 line.
Line Alarm State	Bitmap of the DSX1 Line Statictical Alarms. A value of zero indicates no alarms. Itemized below are the individual alarm bits: 0—LCV 15 minute threshold exceeded 1—LCV 24 hour threshold exceeded 2—LES 15 minute threshold exceeded 3—LES 24 hour threshold exceeded 4— LSES 15 minute threshold exceeded 5—LSES 24 hour threshold exceeded 6—CRC 15 minute threshold exceeded 7—CRC 24 hour threshold exceeded 8—CRCES 15 minute threshold exceeded 9—CRCES 24 hour threshold exceeded 10—CRCSES 15 minute threshold exceeded 11—CRCSES 24 hour threshold exceeded 12—SEFS 15 minute threshold exceeded 13—SEFS 24 hour threshold exceeded 14—AISS 15 minute threshold exceeded 15—AISS 24 hour threshold exceeded 16—UAS 15 minute threshold exceeded 17—UAS 24 hour threshold exceeded
Line Statistical Alarm State	Bitmap of the DSX1 Line Statictical Alarms. A value of zero indicates no alarms. Itemized below are the individual alarm bits: 0—LCV 15 minute threshold exceeded 1—LCV 24 hour threshold exceeded 2—LES 15 minute threshold exceeded 3—LES 24 hour threshold exceeded 4—LSES 15 minute threshold exceeded 5—LSES 24 hour threshold exceeded 6—CRC 15 minute threshold exceeded 7—CRC 24 hour threshold exceeded 8—CRCES 15 minute threshold exceeded 9—CRCES 24 hour threshold exceeded 10—CRCSES 15 minute threshold exceeded 11—CRCSES 24 hour threshold exceeded 12—SEFS 15 minute threshold exceeded 13—SEFS 24 hour threshold exceeded 14—AISS 15 minute threshold exceeded 15—AISS 24 hour threshold exceeded 16—UAS 15 minute threshold exceeded 17—UAS 24 hour threshold exceeded
Setup Severity of Red Alarm	Sets up the severity of Red alarm. A major alarm will cause the audible notification and the major alarm LED will be turned ON. A minor alarm will just turn on the minor alarm LED. Choose major or minor from the popup menu. Note   This is not applicable for CESM-T3/E3.
Setup Severity of RAI Alarm	Sets up the severity of RAI alarm. A major alarm will cause the audible notification and the major alarm LED will be turned ON. A minor alarm will just turn on the minor alarm LED. Choose major or minor from the popup menu. Note   This is not applicable for CESM-T3/E3.
Near-End Alarm Counter (up counter)	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 Near-End Alarm Down Counter while there is no alarm (the counter does not decrement below zero). When the integration counter exceeds Near End Alarm Threshold, an alarm of the severity specified for the particular near-end alarm is declared. Note   This is not applicable for CESM-T3/E3.
Near-End Alarm Counter (down counter)	Specifies the decrement to the Near End alarm integration counters. The local 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 the Near-End Alarm Up Counter while there is no alarm (the counter does not decrement below zero). When the integration counter reaches zero any Alarm previously declared is removed. Note   This is not applicable for CESM-T3/E3.
Near-End Alarm Threshold	Determines the value that the alarm integration counter must reach for a near-end alarm to be declared. If the up count is 6, the down count is 1 and the threshold 1500, an Alarm is integrated in 2.5 sec and removed in 15 seconds. Note   This is not applicable for CESM-T3/E3.
Far-End Alarm Counter (up counter)	Specifies the increment to the Far End alarm integration counters. The local alarms are RAI and AIS. 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 Far-End AlarmDown Counter while there is no alarm (the counter does not decrement below zero). When the integration counter exceeds the Far-End Alarm Threshold, an alarm of the severity specified for the particular far end alarm is declared. Note   This is not applicable for CESM-T3/E3.
Far-End Alarm Counter (down counter)	Specifies the decrement to the Far End alarm integration counters. The local alarms are AIS and RAI. The Default value is 1. The integration counter is decremented by this value every 10 ms (till zero), while no alarm persists. The counter is incremented by the value of Far-End Alarm Up Counter while there is no alarm. When the integration counter decrements to zero, any previously declared Alarm is removed. Note   This is not applicable for CESM-T3/E3.
Far-End Alarm Threshold	Determines the value that the alarm integration counter must reach for an far end alarm to be declared. If the up count is 6, the down count is 1 and the threshold 1500, an alarm is integrated in 2.5 sec and removed in 15 seconds. Note   This is not applicable for CESM-T3/E3.
Statistical Alarm Severity	Used to setup the severity of any of the satistical alarms. When a Statistical Counter exceeds its specified threshold, an alarm is sent with appropriate severity. A major alarm will cause the audible notification and the major alarm LED will be turned ON. A minor alarm will just turn on the minor alarm LED. Choose major or minor from the popup menu.

Channelized Line RealTime Counters (dsx1)

Use the Channelized Line RealTime Counters (dsx1) dialog to view and configure dsx1 channelized line RealTime counters. (See Figure 4-13.)

The Channelized Line RealTime Counters (dsx1) dialog parameters are described in Table 4-13.

Table 4-13: Channelized Line RealTime Counters (dsx1) Dialog Parameters

Parameter	Description
Rcv LOS Count	Number of times the Loss Of Signal is detected with or without integrating to LOS alarm.
Rcv OOF Count	Number of times Yellow alarms is detected with or without integrating to RAI alarm.
Rcv RAI Count	Number of times Yellow alarms is detected with or without integrating to RAI alarm.
Rcv FE Count	Number of Framing Errors detected.

Logical Ports

This section describes the logical port configuration information. Logical Port Configuration dialogs differ depending on the type of card supporting the line. There are four dialogs for FRSM port configuration:

• Logical Port Config (FR Ports)

• FR Port RTCs

• FR Port RTCs (CLLM)

• FR Port Resource Partition Config

• Logical Ports (Service Queue)

Logical Port Config (FR Ports)

Use the Logical Port Config dialog to view and configure on an FRSM card. (See Figure 4-14.)

The Logical Port Config dialog parameters are described in Table 4-14.

Table 4-14: 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 4-15.)

The FR Port RTCs dialog parameters are described in Table 4-15.

Table 4-15: 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 4-16.)

Figure 4-16: FR Port RTCs (CLLM) Dialog

The FR Port RTCs (CLLM) dialog parameters are described in Table 4-15.

Table 4-16: 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

Use the FR Port Resource Partition dialog to view and configure port resource partitions on a FRSM card. (See Figure 4-17.)

The FR Port Resource Partition dialog parameters are described in Table 4-16.

Table 4-17: 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.

Logical Ports (Service Queue)

Use the Logical Ports (Service Queue) dialog to view and configure logical ports on an FRSM card. (See Figure 4-18.)

The Logical Ports (Service Queue) dialog parameters are described in Table 4-17.

Table 4-18: FR Port Resource Partition Config Dialog Parameters

Parameter	Description
frServPortNum	The logical port number.
portServiceQueueNo	Identifies 4 of 8 possible queues according to the service type: 1 (High priority) 2 (rt VBR queue) 3 (nrt VBR and ABR queue) 4 (UBR queue) Queues 5 through 8 are reserved for future use.
portEgresQDepth	Indicates the peak Egress queue depth for the logical port. The total queue depth of all connections mapped to thsi queue should not exceed this value. The default value is 1048575.
portEgresECNThresh	ECN threshold for the logical port. If the total queue depth of all connections mapped to this port queue exceeds this threshold, then the appropriate ECN bit (FECN in the downstream direction and BECN in the upstream direction) get set.
portEgresDEThresh	DE threshold for the logical port. If the total queue depth of all connections mapped to this port queue exceeds this threshold, and the DE bit is set in the incoming frame, then the frame gets dropped.
portQBwInc	Denotes the bandwidth increment for this port queue. The bandwidth increment is the percentage of the port bandwidth used by all connections mapped to a particular queue scaled by the value 16384.
portBytesdiscxceedQueFull	Counter maintained for the number of bytes discarded due to the port queue depth exceeded.
portBytesdiscxceedQueFullDEThresh	Counter maintained for the number of bytes discarded due to the DE threshold exceeded.

Posted: Mon Oct 2 20:46:32 PDT 2000
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