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9.1.22 Version Software Release Notes
Cisco WAN Switching System Software

9.1.22 Version Software Release Notes
Cisco WAN Switching System Software

About These Release Notes

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About the 9.1.22 Release

The 9.1.22 software release supports the existing Cisco WAN switching products (including the Cisco IGX 8400 series and the Cisco BPX 8600 series), it is recommended for networks with IGX 8400 series switches or mixed networks with IGX 8400 series switches and BPX 8600 series switches. Software release 9.1 introduces the following features:

    1. Support for the BPX 8600 Enhanced BXM cards (BXM-E), providing multicast connections.

    2. Support for the IGX 8400 UXM card series.

    3. Support for Feeder Alert mechanism. See Clarifications section below for its functionality.

    4. Network Protection (against network message flooding).

    5. Version interoperability between the 8.4, 8.5, and 9.1 releases, permitting individual and group node upgrades. (Replaces "Node-by-Node" upgrade feature).

    6. Graceful upgrade from the 8.2.5x releases to release 9.1.

    7. Support for MC 3810 inter-networking connections.

    8. Routing of connections based on trunk costs ("Cost Based Routing").

    9. Improvements to the run-time diagnostics on the BCC.

    10. Graceful (via a console command) switchover of Y-redundant BXM cards.

    11. Performance improvements in connection management following the switchcc operation on BPX 8600 platforms.

    12. Performance improvements in the BXM (channel programming optimization).

    13. Prevention of node reboot/rebuild in abort situations on BPX 8600 platforms.

    14. Traffic Shaping on the BXM card (BPX 8600).

    15. Support of MPLS/Tag Switching via the VSI (BPX 8600).

    16. Traffic Shaping on the UXM card (IGX 8400) [requires minimum UXM firmware level "AAE"].

    17. Support for Virtual Trunking wrap-around solution with UXM cards.

    18. Hot Standby on the UFM and UXM.

    19. Support for G729 and G729A on the UVM.

    20. D-channel compression on the UVM.

    21. Fax Relay on the UVM.

    22. CiscoView support for Equipment Management of IGX 8400, BPX 8600, and MGX 8220.

    23. Support for the Cisco Wan Manager Fab Number Display feature.

    24. Support for the MGX 8220 4.1.0x release.

    25. Support for the BXM back cards: STM1-EL and 622-XLR.

Clarifications

    1. The version of Cisco Wan Manager that is compatible with this release is 9.1.05 and later.

    2. On the BXM and UXM, for the OC-3 MultiMode Fiber backcards, Y-redundancy/hot standby is not supported.

    3. There will be card errors "0A" logged on the BXM when downgrading software from release 9.2.2x to 9.1.x on the BPX node, with BXM running 9.2 firmware.

During the software downgrading, when the node is coming up in 9.1 the VSI channels are configured during card configuration. For each BXM card, while going through card configuration, the 9.1 software sends the "0x52" message for the remote end BXM card. That remote end VSI card may not be configured yet. So the 9.2 firmware generates an 0x0A card error.
These 0x52 messages from 9.1 software were being ignored in 9.1 firmware. In 9.2 firmware they included stricter checking to generate the card errors when (9.1) software tries to send a 0x52 without first configuring the card.
This bug is only cosmetic and has no serious effect. The channel that did not get programmed due to the card error, will be programmed later on during its own card configuration. (CSCdm93411)

    4. The sizes of connection reroute bundles have changed in 9.1:

    5. Support for Feeder Alert:

The "cnfnodeparm" command has a new configurable option to enable or disable the feeder alert mechanism. This option can be configured only on the routing node.
The feeder alert mechanism (automatic) provides a way for a degraded node to inform the feeder that the node has reached a degraded state. A feeder can act on this and shut off LMI with the routing node. Since, the feeder has shut off LMI, it will not declare any communication failures with the routing node and routers connected to the feeder will not see any A-bit failures. 8.4.21 BPX and 8.4.21 IPX feeders and pre 4.0.12 MGX 8220 do not have this capability.

    6. Support for MPLS/Tag:

¯ 9.1.08 is the minimum switch software version.

¯ 11.1.23CT is the minimum IOS version.

¯ BXM cards must be Model C.

¯ BXM firmware must be MCB or later.

Special Installation/Upgrade Requirements

General

    1. Before upgrading to this release when UXM cards are to be used, certain legacy cards firmware must be upgraded. See the Compatibility Matrix for cards affected and the exact versions to be used.

    2. All grouped connections must be deleted prior to starting the upgrade. Such connections are no longer supported in any fashion in Release 9.1.

Prior to deleting grouped connections, a check should be done to identify how many connections are grouped that require deletion. Next the path the connections are routed should be checked for LCON limitations. Since grouped connections only use one LCON many connections can be routed across a trunk, however, once the group is deleted and an attempt is made to add the connections back across the trunks, there might not be enough LCONS available to route all the connections, and additional trunks and trunk cards will be required. The new connections you will be adding back require one LCON for each connection. Please note depending upon the type of trunk card are used, the maximum number of LCONS supported will vary.

    3. It may be necessary to use the Feeder Alert mechanism during an upgrade to avoid LMI failure. See the new features description for more information.

    4. Support for VSI requires a BCC with 4MB of BRAM. BCC's which have this configuration are models BCC-3-64 or BCC-4. Previous releases of 9.1 did not enforce this requirement. With this release of 9.1, this BRAM requirement will be enforced by blocking the user from adding VSI configurations if the BCC does not have 4MB of BRAM. Specifically, the Command Line Interface will block the user from enabling a VSI partition, adding a VSI controller, or configuring a VSI Qbin.(CSCdk65971).

    5. Before upgrading to 9.1.xx, you need to make sure that the network domain/partition number is 01. This can be verified with dspdmns command and can be changed with cnfdmn command. The reason is Release 9.1.xx assumes domain/partition number to be 01 since it supports only flat networks, and cnfdmn is an unknown command in 9.1.xx. If this checking is not done and the pre91 network has a domain number different from 01 the upgrade to 9.1 will result in comm failures and adding a node to this network is not possible. You may have to execute the clrallcnf command and build the network all over to recover.

    6. UFM hot standby is a new feature supported in 9.1. In order to invoke this feature, the following steps should be taken to avoid the mismatch state on the UFM or UFMU y-redundant pair after upgrading from previous releases to 9.1:


Step 1   Delete the y-redundant pair before upgrading software to 9.1.

Step 2   Upgrade the switch software to 9.1.

Step 3   Upgrade the UFM firmware with hot standby support.

Step 4   Re-add the y-redundant pair after upgrading to 9.1.


    7. There will be a mismatch state on the CVM or UVM y-redundant pair after upgrading from previous releases to 9.1 if the following steps are not orderly taken:


Step 1   Delete the y-redundant pair before upgrading software to 9.1.

Step 2   Upgrade the switch software to 9.1.

Step 3   Re-add the y-redundant pair after upgrading to 9.1.


    8. If new BCC cards are to be installed as part of the upgrade to Release 9.1, then the physical card upgrade procedure described below must be completed as a separate activity from the Switch software upgrade.

    9. Statistics collection must be disabled prior to and during the software upgrade process. The disabling must be done prior to the issuing of the first loadrev command.

    10. Statistics sampling must be disabled prior the issuing of the first loadrev command at the start of an upgrade (using off1/off2).

    11. Before upgrading to this release, all BPX nodes must have their active BCC be in slot 8. If this is not followed, there is a possibility that a non-graceful upgrade will occur (when a graceful upgrade is intended). (CSCdj24288).

    12. Before upgrading to this release, if there are any ABR connections with an MCR value set to 0, it is highly recommended that the MCR value for each of these connections be set to 1. This is to insure that the Load Model will be correct after an upgrade. This addresses a problem in earlier releases which did not handle Load Model calculations correctly for connections having MCR=0.

    13. See the Compatibility Matrix for the tested/supported versions of other firmware and software which work with this release.


Tips Please consult your Cisco representative or distributor before performing any software upgrade.

Version Interoperability Requirements

    1. There is an option, accessible in the cnffunc command (a service-level command) in release 8.5.xx and release 8.4.xx which controls the effectivity of the individual node upgrades. In order for individual node upgrades to function, the 8.4 and 8.5 nodes must have this option enabled. In the cnffunc command, it is option 7 for the BPX 8600 and option 9 for the IPX & IGX 8400.

    2. When performing individual node upgrades, the nwupgrade command available in 8.4 must not be used, as this is related to the "Node-by-Node" upgrade feature which has been replaced by the Version Interoperability feature.

Control Card Requirements

All processor cards must be configured with a minimum of 32 MB of RAM. This includes BCC's, NPMs and NPCs. NPCs and NPMs require at least 1 MB of BRAM. To verify the BRAM size on IGX 8400 nodes, use the dspcd command.


Note   If any control cards contain less than 32 MB of DRAM (these would be NPMs and NPCs) then they must be replaced with cards containing at least 32MB of DRAM prior to upgrading to Release 9.1. The physical upgrade of the nodes with these control cards must be done according to the upgrade procedure defined below.

Control Card Boot Firmware Requirements

    1. As specified below, the correct version of CC boot firmware must be installed on the cards prior to a software upgrade to Release 9.1.

    BCC Type Firmware

    BCC-32

    H.B.J

    BCC-3-32

    H.C.M

    BCC-3-64

    H.D.M

    BCC-4V

    H.H.M

    NPM Type Firmware

    NPM-32

    R.B.S

    NPM-64

    R.C.S

    NPM-32B

    R.E.S

    NPM-64B

    R.F.S

    2. With the new version of NPM boot code (RXS), the boot code upgrading does not require physical card resetting with the following steps:


Step 1   Burn the boot code on the active NPM (1).

Step 2   Execute the switchcc command and wait until the NPM(1) becomes standby. NPM(2) is now active.

Step 3   Execute the resetcd command to reset the standby (resetcd 1 h). Wait until the reset card NPM(1) becomes standby.

Step 4   Burn the boot code on the active NPM(2)

Step 5   Execute the switchcc command and wait until the NPM(2) becomes standby. NPM(1) is now active.

Step 6   Execute the resetcd command to reset the standby (resetcd 2 h). Wait until the reset card NPM(2) become standby.


Control Card Compatibility Requirements

Each redundant pair of BCC cards in a given BPX 8600 node must be of the identical type and memory configuration. That is, for example, if the active card is a BCC-3-32, then so must be the standby. BCC-3 cards with 32MB of RAM cannot be mixed with BCC-3 cards with 64MB of RAM.

Each redundant pair of NPM cards in a given IGX 8400 node must be of the identical type and memory configuration. That is, for example, if the active card is an NPM-32, then so must be the standby. NPM cards with 32MB of RAM cannot be mixed with NPM cards with 64MB of RAM. Also, NPM-64 cards cannot be mixed with NPM-64B cards.

This is a requirement for all software upgrade and downgrade procedures. It does not apply to the physical card upgrade procedure, as described below.

Control Card Physical Card Upgrade Procedure

When performing a Control Card (CC) upgrade, the following procedure must be used. This applies to all processors: BCCs, and/or NPMs.


Step 1   Remove the current standby CC front and back card

Step 2   Replace with new CC front and back cards

Step 3   Wait for the standby updates on the newly installed standby CC to complete

Step 4   Issue a switchcc command to utilize the newly installed CC.

Step 5   Verify that the network is stable

Step 6   Remove the current standby CC front and back card

Step 7   Replace with new CC front and back cards that are identical to the current active CC

Step 8   Wait for the standby updates on the newly installed standby CC to complete

Step 9   The CC physical upgrade is now complete.

Step 10   With the secondary card in the standby state, cause a switchover using the switchcc command. This will test that the hardware is working correctly.



Note   After Step 2, the node will contain a mix of an old type CC and the new type CC. This condition is only permitted while the standby updates to the new CC are in progress, which will take less than one hour. The time during which this mixture of CC types exists must be kept to a minimum, by immediately replacing the second old type CC with the matching one of the new type.

Software Upgrades Supported

Version Interoperating upgrades are supported from the following versions of switch software:

Graceful upgrades are supported from 8.2.5x to this release

Additional Commands/Features

    1. Up to the release of 9.1.08, there are more options added in the cnfnodeparm command as follows:

BPX: cnfnodeparm 42, 43, 44, 45 and 46

On the routing node, when a BPX is going through an upgrade or is in the process of switching to the standby controller card, it will do the following:
On the feeders side, upon receiving the indication that the BPX is being upgraded or is switching, the feeder will do the following:
This functionality is available IF AND ONLY IF feeder alert is enabled via the cnfnodeparm command. (`cnfnodeparm 42 Y').
Control of whether Comm Fail test failures cause deroutes on physical trunks is provided by the "cnfnodeparm" command, which indicates whether connections should be derouted on failures. If enabled, a Comm Fail test failure on any local trunk results in all nodes rerouting the connections they own that are currently on that trunk. If this is not enabled, a Comm Fail test failure will not result in the rerouting of the connections. A comm fail on a virtual trunk will always result in the rerouting of the all conns on the trunk, regardless of the setting
of the enable flag.
The user can turn off the automatic switchcc from a degraded CC card via the "cnfnodeparm" command. This can be used if the node is constantly degrading and switching CCs, but the problem causing the degradation persists. This allows the user to intervene and troubleshoot the problem. The default setting will be to enable the switching of the node.
The user can also specify the number of aborts which occur while in degraded mode after which a full rebuild will take place. This is configured via the "cnfnodeparm" command. An abort which occurs while a node is in degraded mode will result in the node staying in degraded mode unless the configured number of aborts have been exceeded. In the case that a processor switch is node feasible and the node continues to abort, this limit can be used to force a rebuild to recover the node.
When a connection is derouted, it is assigned to the appropriate time interval bucket. This is implemented by storing the bucket index in each VC and keeping a count on the number of connections in each bucket. When a connection is rerouted again, it is removed from the bucket, and the count on the number of connections in that bucket is decremented.
The LMI/ILMI process periodically checks the timeout buckets. When the time interval has elapsed, any derouted connections in the timeout buckets will send out Abit=0 on the LMI/ILMI interface.

IGX/IPX: cnfnodeparm 41, 42, 43, 44, and 45

This is the default setting (1 second) for an UVM/CVM to poll the modem status. That is every 1 second switch software sends a query to firmware for the modem status. For each query, firmware sends a response for the modem status which will be checked by switch software to update its modem database.
This timer is configurable to a bigger number so switch software polls slower base on the configured timer to increase the system idle time.
By turning ON this option, it will prevent data voice connections to use the same device code/channel address as UXM-UXM connections.

With version interoperability, there is a new method by which nodes may be grouped together for an upgrade. These commands replace the commands introduced as part of the "Node-by-Node" feature. Note that these commands are only to be run on nodes running 9.1, they cannot be run on any node running a release older than 9.1.

Formerly, the loadrev and runrev commands accepted for the node argument either a `*' to signify all (routing) nodes in the network, or a single node name. With Version Interoperability, there is now a means of collectively referring to an arbitrary group of routing nodes. This grouping is only for the purposes of upgrades, and has no other implications for any other operation of the network.

An "upgrade group" is a list of nodes, which could be all the routing nodes in the net. Note that feeder nodes could never be part of an upgrade group.

Upgrading a whole group at once instead of typing the runrev command for each node to be upgraded leads to a synchronized upgrade process which the staggered update mechanism relies upon.

The upggrp Command

There is just one command to manipulate upgrade groups: upggrp.

This command has various sub-commands:

upggrp -c[reate] <group name>

Create a new user group

upggrp -d[estroy] <group name>

Destroy a user group

upggrp -s[how] [<group name>]

Show the defined upgrades group(s)

upggrp -a[ddnode] <group name> <list of node names>

Add nodes to the group

upggrp -r[emovenode] <group name> <list of node names>

Remove list of nodes from group

Usage

To create an upgrade group type

upggrp -c <group name>

Up to 20 upgrade groups can be created. The names follow the same rule as node names. One should chose group names to be different from node names in the net. If a name conflict arises for loadrev or runrev the commands, the node name interpretation is chosen.

Note that upgrade groups are only known on the node where they are created. They are neither send to the Standby Controller Card, nor saved in BRAM, meaning it is not accessible after a switchcc or any node failure. They are assumed to be needed for a short time only. Once the upgrade is done, the groups can be destroyed.

To destroy an upgrade group that is no longer needed, enter

upggrp -d <group name>

This frees up the resources used by that group.

To list the currently defined upgrade groups, enter

upggrp -s

To list all the member nodes of a group, enter

upggrp -s <group name>

To add several nodes to an upgrade group, enter

upggrp -a <group name> <node 1> <node 2>...

The length of the node list can be as long a the command line allows. If an entry is invalid, i.e. it is not a valid node name or not a name of a node in the network, an error message is displayed and the remainder of the node list is not processed. The nodes before the invalid one are added to the group.

After the command is executed the members of the group are listed.

Nodes can be added to an upgrade group in multiple iterations.

To remove a node or several nodes from an upgrade group type

upggrp -r <group name> <node 1> <node 2>...

The length of the node list can be as long a the command line allows. If an entry is invalid, i.e. it is not a valid node name or not a name of a node in the net, an error message is printed and the remainder of the node list is not processed. The nodes before the invalid one are removed from the group. After the command is executed the members of the group are listed.

There is a new option available so that the UXM card will not automatically reset after the "burnfw" command is completed. This option is "cnffunc" option 15 which allows an enable/disable for automatic card reset after completing a "Burnfw" for CBI cards

This option has been added to allow a smooth upgrade of UXM firmware from model A to model B (9.1 to 9.2 upgrade). Since IMA protocol will not be compatible between UXM model A and UXM model B, both ends of the trunk must start the new protocol at the same time; Otherwise, node unreachability may occur.

Prior to upgrading UXM firmware to model B, the "cnffunc" option should be disabled. This will allow the user to burn the firmware to the flash without a card reset. Once both sides of the trunk have the new firmware image in the flash, a "resetcd" can be issued at both ends. This allows both ends of the trunk to start new version of IMA protocol at the same time. The "dspnovram" command can be used to display the version of UXM firmware which is in the flash.

Additional Deliverables

SNMP MIB:

The SNMP IPX/IGX/BPX switch SNMP MIB is being provided with the delivery of Release 9.1.22 Switch Software. The MIB is in standard ASN.1 format and is located in the ASCII text files switch.m, swtraps.m, and errors.m which are included in the same directory as the Switch Software images. These files may be compiled with most standards-based MIB compilers.

Switch MIB changes of Release 9.1:

The following Switch MIB changes from release 9.1.08

The following sections describe the tables that have been modified. They have had objects obsoleted, changed, and had new objects added.

atmPortTable

This table provides the manager a detailed view of the ATM ports available on the switch.

New objects:

atmPortHcfShift

Modified objects:

atmPortEntry

connTable

This table contains a list of Connection Virtual Circuit Entries

Modified objects:

connCurrRouteDesc connPrefRouteDesc

atmEndptTable

This table is used to model a PVC end-point, contains the traffic parameters for ATM end-point.

Modified objects:

atmEndptMinAdjustICA

shelfSlotInfoTable

This table provides Switch slot information.

New objects:

shelfCnfgVcPollRate shelfCnfgInternalFdrEthIPAddr shelfCnfgInternalFdrNwIPAddr shelfCnfgAverageIdle

Modified objects:

slotBackType slotFrontNumPort slotBackNumPort slotBackSonetMode slotCardMinBusUBU

rsrcPartiTable

This table provides the manager a detailed view of the ATM ports or trunks resources available on the switch. This is only available for BXM cards.

Modified objects:

rsrcPartiAdminStatus

atmQbinTable

This table provides the manager a detailed view of the ATM ports or trunks queue parameters available on the switch. This is only available for BXM cards.

Modified objects:

atmQbinAdminStatus

Features Not Supported

Committed (but not being delivered in this release):

The following feature will be released at a later date:

    1. Interoperability with ESP version 2.2 on the BPX 8600.


Note   These features are currently in trials at several customer sites and will be generally available upon successful completion of these trials. If you would like to participate in the trials, please contact your Account Manager/Systems Engineer.

The following feature has not completed sufficient field trials and is not committed for delivery in this release:

    1. Support for MGX 8220 CO-FRAD (FRASM).

Obsoleted

Grouped Connections are no longer supported in any manner. All grouped connections must be deleted prior to starting the upgrade. A technology called connection bundling, later replaced by a technology called connection grouping, allows for several different connections to use a single "logical connection". As a result, many more connections could exit in a network than before. Release 9.1 has extremely high connection limits, obviating the need for connection grouping. Cisco has provided a network management tool that will allow for the ungrouping of connections in the 8.2.x and 8.4.x series of releases prior to upgrading to the 9.1 series of releases, which do not support group connections.

The "Node-by-Node" upgrade capability has been improved. It is now called the Version Interoperability Feature, which permits individual nodes or groups of nodes to be gracefully upgraded using the same commands as a flash upgrade.

Priority Bumping is no longer supported starting with release 8.4.x and later. Priority Bumping is a purchased software option that, upon an outage that causes rerouting, allows connections with a lower class of service reroute if necessary by derouting previously working connections of a higher class of service. This feature is scheduled to return in Release 9.3.

Before Release 8.4, there was a feature allowing connections to have a small text description (e.g., NY1-SF2) that could be displayed. This information was stored in the control cards. This feature is no longer supported starting with release 8.4.x and above. Network Management stations now allow for description of connections.

Notes & Cautions

Limitations

    1. There is no UAS alarming. Spec requires that when we have more than 10 consecutive SES then we should enter UAS. Because this is currently not implemented, no UAS alarm is generated in this situation. Work around is to continue to use MBY which will prevent SES alarming to kick in.

    2. The BCC-3-64 can collected at most 4 interval statistics per connection when there are 12,000 AutoRoute (AR) connections configured on the node. (Interval statistics are those statistics that are reported to the CWM. They are often referred to as TFTP statistics).

Roughly speaking, you can collect approximately 48,000 statistics (4 x 12,000) on the BCC-3-64. This is approximate because there are many variables that will affect this value such as: are peaks enabled, how many buckets are collected, are all connection of the same type, are trunk, line or port stats enabled, etc.
With this approximation of 48,000 statistics on the BCC-3-64, this then means that as a rough estimate you could enable 32 stats on 1,500 connections, 48 stats on 1,000 connections or 9 stats on 5,000 connections, etc. The approximation formula being:
    max_stats_per_connection = 48,000 / number_of_connections

    3. The 9.1-specific features are not available with revision interoperability which allows individual and group node upgrading in a mixed network.

    4. When upgrading the network from 8.2.55 to 9.1.03 under extreme condition, very few connections may get rerouted. (CSCdk38029)

    5. The BCC selftest frequency should be greater than or equal to the default setting which is 1600 seconds.

    6. When using the Virtual Trunking wrap-around solution with UXM cards, note that:

    7. The UXM-IMA and MGX 8220 IMATM are not compatible if the IMA group contains only one T1 or E1 line. Since, on the IGX-UXM trunk, the IMA protocol is invoked only if an IMA trunk consists of multiple physical lines, therefore, for a trunk with a single T1 or E1 line, the IMA protocol is not invoked. This implementation is different with the MGX 8220 IMATM card because the MGX 8220 shelf invokes the IMA protocol regardless of the number of T1/E1 lines in the IMA group.

    8. When an IGX NPM-32 node lies in the path between two IGX NPM-64 nodes, the number of connections from the NPM-64 node to an NPM-32 node should not exceed the capacity of the NPM-32 node. Any connections that exceed the capacity supported by the NMP-32 node should be routed through other IGX nodes.

    9. Structured Networks are not supported.

    10. On the BXM and UXM, for the OC-3 Multi-Mode Fiber backcards, Y-Redundancy/hot standby is not supported.

    11. The very early version of the STM1-EL and 622-XLR BXM back cards have NOVRAM that may need to be configured to reflect the true card type. Please contact your Systems Engineer for assistance if these back cards are being installed.

    12. The maximum number of ports on the BPX 8600 that can be configured with LMI enabled is 36. Note that the total number of ports is 72 (for 32MB BCC) or 144 (for 64MB BCC), although only 36 of these can have LMI enabled. This is due to the polling that must be done for the LMI enabled ports. However, if any or all of the 16 possible feeder trunks are not being used on that specific node, then that many additional lines may have LMI enabled. That is, if a BPX 8600 is configured with only 2 feeder trunks, then 36 + (16 - 2) = 50 lines can have LMI enabled. Thus, the overall total can be 52 ports, when no feeder trunks exist.

    13. Virtual Path Connections with cells whose VCI values are above 4095 will be transmitted correctly if and only if the path is exclusively through BXM trunks and terminate at BXM ports.

    14. The feature of CIR=0 for Frame Relay connections is not supported for connections terminating between FRP /FRM cards in IPX/IGX nodes and FRSM cards in an MGX 8220 shelf.

    15. SVC Connections are derouted after decreasing the allocated bandwidth (increasing Stat Reserve). It is the design intent that increasing the statistical reserve will cause SVC conns to derouted and not be rerouted.(See bug CSCst92308).

    16. For the loadrev operation, it is important that the StrataView Plus/TFTP buffers are maintained at their default size.

    17. When the BNI trunk is connected to IM-ATM pairs, which carry less than T3 bandwidth, the granularity of the cell output engine must be taken into account in setting the BNI transmit rate.

    18. When using the shift/no-shift feature on a BPX 8600 node's port card, controlled via the cnfport command, the other end of the connection must have the same setting. Otherwise, there will be a loss of continuity.

    19. If using the no-shift feature to utilize Virtual Trunks across a Cisco WAN Switching cloud operating an 8.1 release, then the node number "2" must either not be used, or be the node connecting to the cloud.

    20. If using the no-shift feature to utilize Virtual Trunks across a Cisco WAN Switching cloud operating any Switch Software release, then the ForeSight feature will not be utilized. In general, for any connections which are or potentially routed through Virtual Trunks, they must not be configured with ForeSight enabled.

    21. If the Stat Reserve field on a trunk is dramatically increased to a value which represents a significant majority of the total trunk bandwidth, then, if connections are present on the trunk, the dspload command will show negative values. This is to signify that the trunk is oversubscribed. The trunk load values will eventually reach 0, or a small positive number after all the necessary connections are routed off that trunk. (CSCdi84878)

    22. When deleting trunks, there is a known limitation with the switch software. The deltrk command should always be executed on the node which remains as part of the network, rather than from the node which ends up being removed from the network. This is to ensure that all the necessary updates are sent to the rest of the network. (CSCdi85134). Also, If the command is not used as recommended here, a software error 419 could occur (CSCdi91285).

    23. Due to Trunk Based Loading, any commands having to do with trunk loading and the load model (dspload chklm dsplm, etc.) need to be done only after waiting a certain period of time. This time is directly a function of the trunk load update interval time (as configurable) plus the conditional update latency time.

    24. The external ABR segment control loop on ForeSight (ABRFST) is an option at the User Interface, but is not supported in hardware. The user should not enable this option on ForeSight connections (CSCdi92451). In any case, there is no coupling between the loops.

    25. A problem has been observed, on several instances, where the time to reroute connections may take over an hour. When large numbers of connections are being rerouted, this can be caused by routing collisions, which means that routing attempts being initiated at different nodes collide when they meet a common node at which point one of the routing attempts must be rescheduled. (CSCdi89734)

    26. On a heavily loaded BPX 8600 node, during connection rerouting, the status of a particular connection is indicated as OK even though the line status of the other end of the connection is listed as failed. The connection is in fact OK, because the conditioning of the connection (to update the status for both ends) is done by a low-priority process so that the rerouting of the connections can be given high priority. The status will be eventually updated. (CSCdj10762)

    27. A node whose number is greater than 63 cannot have a clrcnf operation performed on it. This is as designed. A clrallcnf can be done, or the node must be renumbered to less than 63 before running clrcnf. (CSCdj14920)

    28. The interface between a BXM feeder trunk and an MGX 8220 feeder is always considered to be an NNI interface. (CSCdj16808)

    29. The Command Line Interface currently allows a standard ABR VSVD endpoint to be configured (with cnfcon) as a non-VSVD endpoint. This should not be allowed because the BXM does not support this. This should not be attempted since it will cause connection continuity failure. (CSCdj08862)

    30. When adding more than 4000 connections on a BPX node, the VC polling rate must be changed to a higher interval, to accommodate the additional time needed to poll for the statistics for each VC. The cnfsysparm command, parameter 24 must be changed according to the following:

    0-3999 connections

    Polling Rate: 5 Minutes (or higher)

    4000-8000 connections

    Polling Rate: 10 Minutes (or higher)

    8000-12000 connections

    Polling Rate: 15 Minutes

    31. Given a connection that terminates on an IGX 8400 FRM at one end and an ASI on the other end, tstdelay initiated at the FRM end may not work if the ASI firmware is below the appropriate revision and does not support OAM cells as opposed to supervisory cells. This is because the updated BTM on the IGX will always generate OAM cells. Please check the Compatibility Matrix.

    32. The tstcon command does not work (it indicates continuity failure when it is not the case) when initiated from an FRSM card on an MGX 8220 shelf and the path of the connection passes through an IGX 8400 node. (CSCdj23908).

    33. Because the detailed card error event log is not retained within BRAM, this information will be lost should a processor rebuild occur. Therefore, when issuing a dspcderrs command on a particular slot, the display will not show the detailed card error information should rebuild event occur. This functionality has not been modified from previous releases.

    34. The setnovram command can be used on BXM cards to change the number of channel statistics. If this number is set to 0 to increase the number of channels available on the card, the dspchstats command will not work properly.

    35. When a physical-layer failure (e.g., LOS) is detected, a Major Alarm is generated, and any connection routed over that port is downed (Fail state). The software sends a command to the remote end of the connection to generate AIS in the egress direction. (CSCdj30543).

Impact:
Since the connection is in a failed state, AIS is generated in the upstream direction (in addition to the downstream direction). Although this does conform to the letter of the I.610 standard, this is not necessarily what a user would expect to see, because it interferes with the RDI response from the end-to-end connection termination point. (A fault in the downstream direction causes a fault in the upstream direction.)
Reason for the current implementation:
The BNI can not generate AIS. If there is a fault at a BNI trunk, the current mechanism is to cause AIS to be generated by the BXM port by downing the connection. Since the BXM can only generate OAM cells from the RCMP, and the RCMP is in the ingress path, the cells must be backward routed to the egress (egress QE). Also, since end-to-end OAM cells are required, the ingress QE must be configured to drop ALL cells in the ingress path. This creates a break in continuity in the opposite direction, and AIS cells must also be generated at the other end of the same connection, in the upstream direction of the original fault.

    36. There are problems in the downgrade mechanism which can cause database corruption. If downgrade is performed immediately after upgrading, the Stby_Info revision fields are not yet filled in on the new active CC. They don't get filled in until the upcard response from the new locked CC. This causes restart instead of a switchcc. If the locked CC is reset, then downgrade immediately, a restart will occur instead of a switchcc. (CSCdj30811).

    37. In order to test/simulate the Y-redundant switchover of ASI T3 or E3 pairs the resetcd command must be used, or by pulling out the active card. It will not be correctly simulated by doing a dncd (down card) on the active card. Using dncd will cause cell discards. (CSCdj08923).

    38. BXM cards can support 32K PVC's only when no stats are collected. If collecting 4 stats per PVC is desired, the number of PVC's per BXM card drops to 16K. (CSCdj31773).

    39. When connection status logging to StrataView Plus is enabled in the switch (via the cnffunc command), when more than 1500 PVC's exist on a node, an event log entry indicating there is a "comm break on flooding" may occur. This is because the network handler is being flooded with messages due to the per-PVC status updates flowing to the StrataView Plus workstation. This is a recoverable situation. However, PVC status may not be available for all connections. (CSCdj36127)

    40. It is not recommended to combine ABR and UBR PVC's on the same network. ABR and UBR PVC's share the same QBIN (Class of Service Queue) on the BXM card. However, ABR (VSVD) uses a flow control mechanism which ensures that the traffic source slows down when the QBIN usage exceeds the EFCI threshold. However, UBR does not have a mechanism to slow down. Thus, UBR traffic gains an unfair advantage over ABR. This implementation is not considered a problem, since the decision to share a QBIN for ABR and UBR traffic was intentional, since any best-effort service that one would route over UBR can be routed over ABR (VSVD), with the additional benefit of protecting resources in the network. If there is a real requirement to use UBR PVC's instead of ABR (VSVD), then either (1) add all best-effort PVC's as UBR, or (2) isolate the ABR and UBR paths by using cnfpref and separating ABR and UBR endpoints.

    41. Combining Frame Base Traffic Control (FBTC) and non-FBTC connections within a Class of Service can cause FBTC connections to not receive a fair share of bandwidth. For example, if VBR connections are added at a terminating port, and some of these VBR connections have FBTC enabled while other VBR connections have FBTC disabled, the VBR connections with FBTC disabled may obtain all of the excess bandwidth before the connections with FBTC enabled receive any of the excess bandwidth. The same holds true for ABR or UBR connections. This only is relevant where FBTC and non-FBTC connections share a QBIN, either at a port or at a trunk.

    42. If a TFTP download has been started, and a fault occurs in the network that interrupts the download, then it is possible to get an software error 513 logged into the software error table. This occurs when there is an attempt to free a memory block that has not been allocated. There is no negative side effect to this attempt, other than the appearance of the error in the table. (CSCdj45311).

    43. The maximum number of VC PARMS supported: 749 for BCC-32 MB, 2,999 for BCC-64 MB. (CSCdj48589).

    44. A hardware limitation on the BXM card can cause the background test to fail. This occurred when the BXM card was used as trunk card with number of stats set to 0 so that all 32K channels could be used, followed by the card being changed to a port card. Software uses the last 15K channels for background test. Since the card is configured to use all 32K channels, there is not enough memory available for the background test, and therefore the test fails. For the background test to work on the BXM card, only 16K channels can be utilized. (CSCdj49679).

Required Workarounds

    1. When adding a node into an existing network, ensure that its node number is unique prior to a actually adding it into the network. Use the rnmnd command, and renumber the individual node while it is still stand-alone. This will make the joining of this node much simpler, and will avoid the problem of node renumbering an active network, as described below.

    2. There is a problem with node renumbering. Node renumbering (the rnmnd command) should be executed only during a stable network environment and only if absolutely necessary. A stable network environment would be, for example, one in which no connection was added for the past 30 minutes and no topology change was made in the last hour and there are no alarms or node unreachabilities. Node renumbering must only be done when the network is stable to reduce the possibility of certain temporarily blocked messages during the node renumbering process being delivered to the wrong nodes. This would occur after the completion of the node renumbering process.It is recommended that a node be renumbered prior to being added to the network.

    3. The settling time for network wide updates can take a long time in certain situations. Specifically, the settling time for updates due to network wide topology changes and connections in a large network when a processor switchover occurs can take a long time. The time is proportional to the number of nodes as well as the number of connections. A general estimate would be 30 seconds per node. During the period of transitions (when the updates are occurring) some network operations such as adding connections might in some cases take somewhat longer to complete.

    4. When using Cisco StrataView Plus, there could be a problem with communicating with a node that just had a processor switchover. The problem is within the SPARCstation itself and its caching of Ethernet addresses. It can be solved by execution the following command on the workstation as the superuser: # arp -d <node_name>

    5. Users may not use the command addcon slot.1-24 v to add 24 voice connections to a CDP at once. Instead, they must separate this activity into two or more commands, so that no more than 16 connections are added at once. This is only an issue for voice connections. Data connections can be added using the "1-24" syntax. This also applies when the CDP circuit line is an E1, in which case "1-32" would apply. (CSCdj14319)

    6. Statistics collection must be disabled prior to the start of an upgrade, prior to the issuing of the first loadrev command.

    7. Statistics sampling must be disabled prior to the start of an upgrade (using off1/off2), prior to the issuing of the first loadrev command.

    8. Care must be taken when changing the Deroute Delay parameter, which is controlled by the cnftrk command. This defaults to zero, but if set to anything but zero, connection rerouting, due to a trunk failure, will be delayed as provided by the parameter.

    9. When a switchcc is executed on a BPX 8600 configured with two BCC-4 cards and contains a BXM-622 trunk card, there may be a bad clock path problem reported. It is indicated as a Minor Alarm - bad clock path. This is a transitory problem, although the alarm indication persists. To clear this, execute the clrclkalm command.

    10. Currently, T3-3 and T3-2 backcards are not interchangeable between ASI and BNI front cards, as this has been the case since the introduction of these cards. The back cards must be configured (with setnovram) so as to avoid backcard mismatch. (CSCdj41999)

    11. When the last trunk to a node is deleted and it has 2500+ connections, it will cause software errors 1000's and 590's. This can be avoided by first deleting all connections across the trunk before deleting the trunk. If the problem occurs a switch over or rebuild will clean up the node. (CSCdj25075).

The software error occurs when deleting a trunk that

Note   These connections do not have to terminate at the two nodes directly connected to the deleted trunk. The trunk being deleted could be connecting two subnets. If those 2500+ connections are on one node in either of the subnets then this problem can occur. If these 2500+ connections are spread about different nodes in the connected subnets there should not be a problem.

EFFECT: Not all connections that should be deleted will be deleted. In addition, memory leak may occur.
WORKAROUND: Prior to deleting the last trunk to a node, determine the connections going across the trunk and manually delete them first.
CLEANUP: If software errors 1000's and 590's are received because the last trunk on the node was deleted AND that trunk had 2500+ connections routed across it. The problem can be cleaned up by:

Step 1   Clear the active CC's software log.

Step 2   Check then clear the standby CC's software log.

Step 3   Execute command switchcc.


If the network does not have a redundant CC then rebuild the active CC by doing the following:


Step 1   Clear the active CC's software log.

Step 2   Execute command resetcd <active CC slot>.


    12. For grouped connections, if and when all connections of a group are deleted, then the connection group itself should be deleted as soon as possible to avoid any possible side effects that could potentially be caused by having empty connection groups. (CSCdj47562).

Additional Documentation:

In order to take advantage of the dual SIU when upgrading to the BCC-4, the BPX 8600 node must have a new back plane which has dual traces incorporating with the BCC-4.

The command dspbpnv can be issued to verify if the node had the new back plane or the old back plane. The following table details the bit fields for the BCC Backplane NOVRAM format, the display of word 2 describes the back plane type.

16-Bit Word Byte # (hex) Contents

0

0,1

Hardware revision

1

2,3

Backplane Type (usually 0x65=101 decimal)

2

4,5

Backplane version (0x0000:old 0x0001:new)

3

6,7

Backplane serial number in ASCII - MSB

4

8,9

"

5

A,B

" LSB

6

C,D

Board FAB number, in ASCII - MSB

7

E,F

"

8

10,11

"

9

12,13

"

A

14,15

"

B

16,17

" LSB

C

18,19

Unused

D

1A,1B

Unused

E

1C,1D

Unused

F

1E,1F

Checksum bytes - CURRENTLY NOT SUPPORTED

The command cnfbpnv can be used to configure the backplane, if backplane is so enabled.

  

Prior to Release 8.1.70, with regards to statistics collection, any time period was allowed to be a peak interval. In this release, the peak intervals are controlled to be only those values for which peaks can be accurately collected. The rules for peak intervals are as follows:

There are additional commands to control trunk and line loopbacks in this release:

On the node on which it is executed, creates a loop back within the port such that the cells do not leave the card.
On the node on which it is executed, creates a loop such that incoming cells are looped back to the other end.
Removes the loopback added by either of the above two commands.

The card synchronization (Hitless-Switchcc) feature can be turned on/off using on3/off3 command. For example, enter at the command line:

This will enable the card synchronization feature.
This will disable the card synchronization feature.
In order for the feature to work, the line statistics sampling should always be enabled (via the on2 1 command) and the front card installed must support the card synchronization feature. The dspcd command provides any easy way to determine whether the front card supports this new feature. If the front card supports the feature, the following message is shown on the dspcd screen:
Front card supports card synchronization
Additional debug commands are added to allow synchronization between the interface card and the CC database:
<slot_number> for a particular slot that supports the card synchronization feature;
* for all cards that support the card synchronization feature.
This command displays the number of connections reconciled during the synchronization process after a switchcc for different slots.
* for all slots supporting this feature.

Known Anomalies

The following is the list of known anomalies in this Switch Software delivery. Included with each is a brief discussion of the problem. A more in depth discussion is available in the release note enclosure of the problem record in Bug Navigator.

Bug ID Description

CSCdk48364

Symptom:

After upgrading from 8.4 to 9.1, a software error 1017 is logged.

Conditions:

An abort occurs on the standby processor, which is running 8.4.21, during the runrev. This precludes the standby from remaining in the locked state.

This appears to be a small window of vulnerability in our basic runrev mechanism. The locked standby was lost, making it impossible to switch back to 8.4.21, but when a loadrev of 9.1 was executed, that completed successfully.

This problem is caused by hardware failure in a small window when user is executing runrev.

This is in actuality an 8.4 problem.

CSCdk50441

Symptom:

The connection between ASI-155 and AUSM ATM VC with VPI 16 or higher at ASI-155 port do not pass ATM cell.

Workaround:

None

CSCdk55887

Symptom:

dspport command not available to level 6 user ids.

Conditions:

After upgrade from 7.x software to 8.1+ software.

Workaround:

Increase user privilege.

Further Problem Description:

The privileged level of the dspport command was changed in release 8.1 to level 2 from level 6. This difference was first noticed by off-site user after upgrade from 7.4 to 8.5.05.

User who running 8.x.x software hasn't noticed this difference until opening of this problem.

CSCdk73104

Symptom:

Error 105 is logged for standby ASI T3 card. The function code is 01 (CRD_UP).

Conditions:

When active BCC's are reset in a network one after another in one minute interval. Switch software revision is 9.1ak.

Workaround:

None

CSCdk73308

Symptom:

Software errors 379 and 614 logged after node rebuild.

Conditions:

Node rebuild was executed on this node within one minute of doing the same of neighboring node.

Workaround:

Avoid resetting the node repeatedly within short interval of time.

CSCdk79654

Symptom:

Connections on AUSM does not pass VCI >4095

Conditions:

In the AUSM-8T1/E1 VPC connection, the VCI range of user side is limited from 0 to 4095. For example, If customer equipment send cells with VCI # 5095 via VP connection, the remote end AUSM port deliver the cell with VCI # 1000. (That means our system process the VCI value only with 12 bit) When the Dacom sell VP connection service to user, they can not restrict the VCI value of network user. The standard says it range from 0 to 65535(16bit).

Workaround:

Currently no workaround available.

CSCdk88998

Symptom:

Software error 21 (BAD_CMD) is logged on BXM port or trunk card if switchyred command is performed on the card prior to the configuration being programmed on the standby card.

Conditions:

If switchyred command is invoked prior to the standby card being programmed, several software error 21 are logged.

This may impact data continuity depending on which commands are being rejected by the BXM firmware.

Workaround:

Before invoking switchyred command, verify that the standby card is already programmed and does not show "PRGRM" on the status line of dspcd screen.

CSCdk89386

Symptom:

Line integrated alarm may be cleared and re-declared after switchyred is invoked.

Conditions:

On BXM line card, if the switchyred command is invoked, the line which is currently in LOS will be cleared and re-intergrated.

If there are connections terminated on this line and LMI is enabled, the remote endpoint A-bit status will also toggle.

There is no data loss. The A-bit alarm is temporary toggle for the duration of alarm integration.

Workaround:

None

CSCdk93674

Symptom:

Not seeing same errors on both ends

Conditions:

Line code errors were reported on 8.4.21 node end while the 9.1.00p version with exact same configuration and stats enable is not seeing these errors.

Workaround:

None

CSCdm09094

Symptom:

BPX dsplogcd 111 <slot> may cause an 1M3 abort on some BXM-T3 backcards.

Conditions:

This problem may happen when you perform dsplogcd 111 against some BXM-T3 backcards. Not dependent on other conditions.

Workaround:

Replace the BXM-T3 backcard

Further Problem Description:

It is reported that 1M3 abort occurs every time when they execute dsplogcd. As a result of troubleshooting, it is found that the abort seems to occur on specific backcard its port number was changed from 12 to 8 by cnfbkcd once and turned back to 12 port by cnfbkcd again.

CSCdm22241

Symptom:

Using the 'dspchstats' on a BXM there are missing value's

Condition:

During 9.1.08 system software testing the lab personnel discovered that the BXM statistics usually recorded in an enhancement in switch software 8.4.09 has been removed.

Workaround:

None

CSCdm24829

Symptom:

There are two symptoms for this problem:

1. After successfully adding a new connection from the BPX end using standards based (Bc, Be) bandwidth parameters, the connection cannot be modified from the IGX end using cnfcon. The following error string is displayed: "MIR and/or QIR cannot exceed the PIR at remote end"

2. When adding a connection from an IGX to a BPX the following error is displayed: "MIR and QIR cannot exceed the PIR at remote end"

Conditions:

Using Standards Based (Bc, Be) Frame Relay parameters. Be which is not default (not */*).

Workaround:

Use proprietary bandwidth parameters or default (*/*) Be.

Further Problem Description:

When the Be is default, the internal peak on the BPX may be 0, but the BPX assigns the lesser of the port speed on the BPX, or the maximum FRP port speed (16384000). When the Be is not default, the BPX does not override the internal peak. If the internal value for the peak is 0, an error will be returned to the IGX because the peak (0) is less than the MIR and/or QIR.

CSCdm31518

Symptom:

After performing a software upgrade on a node, the node rebuilds after the loadrev of the new release is executed. After the rebuild, the card that was active is failed. The detailed card display shows the failure reason as 'Flash EEPROM Program Failure'.

Conditions:

Flash EEPROM failure after using loadrev to program the upgraded version of software in flash memory.

Workaround:

Use the standby control card unlocking procedure that specifies a dummy revision name for the first loadrev. The unlocking procedure is to accommodate flash failures during the unlocking process. The procedure is part of most upgrade procedures, but was omitted from this customer's upgrade.

CSCdm39088

Symptom:

A trunk that was previously configured to support voice connections was reconfigured to not support them. Following a reroute the connections were rerouted over the trunk.

Additional Information:

No cause was found for the issue and the connection data base setting may have been the source of the problem.

Workaround:

Prefer route the connections.

CSCdm42912

Symptom:

SNMP Proxy Agent fails on SET of PrefRoute with 10 hops. Switch rejects.

Condition:

When configuring a prefer route of 10 hops using CWM Service Agent, the request failed will error message that the "Route contains too many hops for its connection type (9). Same request works from the CLI of node.

Workaround:

None

CSCdm45750

Symptom:

Node keeps aborting 3000000.

Conditions:

While upgrading to 9.1.09

Workaround:

None

CSCdm47794

Symptom:

The Hold Over clock locks at 4.9ppm on a BXM srm-1 line when the input clock increases beyond 5ppm, but when the input clock comes back down even to 0ppm, the hold over clock stays at 4.9ppm and never recovers.

Condition:

BPX running 9.1.10 with a BXM line card 4 port with MBY firmware and an STRM-1 4 port back card.

Workaround:

resetcd after the input clock falls below 4.9ppm clears the holdover problem.

CSCdm53734

Symptom:

When provisioning a Virtual Trunk, the tstdelay command failed. The specific cause of this Virtual Trunk was not determined. Other Virtual Trunks were added and carried traffic successfully.

Workaround:

None

CSCdm54534

Symptom:

ATM Port LMI/ILMI failure not reflected to A-bit on UXM-UFM SIW DAX connection

Conditions:

UXM-UFM SIW Local connections

Workaround:

dncon/upcon or probably other operations whatever else which changes the connection status.

CSCdm60702

Symptom:

When a bus error occurs on a node, and a rebuild results, other nodes in the network will see the rebuilding node in the degraded state. This shows up as "UNDeg" in the dspnds screen. A log message will also appear on these other nodes indicating that the rebuilding node went unreachable due to degradation. The unreachability will recover automatically.

Conditions:

Only occurs if a node rebuilds due to a bus error, and degraded mode is enabled in cnfnodeparm. Will not occur if a node switches processors due to a bus error.

Workaround:

No workaround needed. No adverse effects.

CSCdm60707

Symptom:

Can take longer than expected to clear unreachability with a node that has rebuilt due to a bus error. Other nodes in the network will declare the node unreachable due to degradation ("UNDeg"). The unreachability will eventually clear automatically.

Conditions:

Only occurs if a node rebuilds due to a bus error, and if degraded mode is enabled in cnfnodeparm on that node.

Workaround:

None needed. Problem clears automatically.

CSCdm68934

Symptom:

Inconsistency behavior of virtual trunks

Condition:

When there are more than one virtual trunks from a BNI-BXM pair and changing the Payload scrambling parameter on one of the virtual trunks which is not yet added. This would cause the payload scrambling to change on all the other trunks. This causes Comm. failure on the other trunks, this is an expected behavior and is by design. But when we try to toggle the Payload Scrambling back, it would not result in the restoration of the trunks. They continue to be in Comm failure.

Workaround:

If we delete one of the trunks and delete the PVC used in the virtual trunking and add it back. This would update the database and all the other trunks would come back.

CSCdm71785

Symptom:

When we add a line (upln) on the BME card on switch software 9.1.15, software errors 319 and 524 are logged.

Workaround:

None

CSCdm72409

Symptom:

dspcons does not show all the existing connections.

Condition:

When we issue the command dspcons slot.port, and if that port has connections which have a VPI of "0" they would not be listed.

Workaround:

dspcons slot.port.0.0 would show all the conns present.

CSCdm78174

Symptom:

The Card is Reset when a trunk on the BXM-E card is deleted. This causes all the other trunks on that card to go down temporarily. This also results in the reroute of all the conns going through the trunk.

Workaround:

None

CSCdm78257

Symptom:

UXM cards are in Y-red. If they are firmware revision AAD and customer want to upgrade to firmware AAE. After burn in firmware AAE will yield the message cards are mismatch.

Conditions:

IGX's UXM cards with firmware rev. A.A.D or previous cannot be y-red with UXM firmware A.A.E

Workaround:

Should upgrade firmware on maintenance window by delete y-red. Upgrade each card to AAE then add y-red.

CSCdm83131

Symptom:

When we have a multi-layer multicast setup using BME cards, tstdelay on the conns from the second layer BME to any other card fails. This happens with conns using VPI or VCI of "0".

Workaround:

In most of the cases we have seen only tstdelay fails. i.e. there is no traffic

disruption. but there are cases where traffic was disrupted.

CSCdm88178

Symptom:

Standby BCC reset happens due to WDT (Watchdog Timeout) when cnftmzn and cnfdate commands are executed after clrallcnf. The reset occurs after about 5 minutes of cnfdate.

Condition:

SWSW release 9.1.15 and 9.1.08

Reproduction Procedure

(1) "clrallcnf"

(2) "setrev p"

(3) "cnftmzn g+9"

(4) "cnfdate xxxx xx xx xx xx xx"

(5) wait for about 5 minutes....

(6) Standby BCC reset happens due to WDT

Workaround:

None

CSCdm92535

Symptom:

Upgrade from 8.2.56 to 9.1.15 causes Fastpad Connections corrupted.

Conditions:

upgrade with Fastpad connections.

Workaround:

none.

Further Problem Description:

Only FastPad connections are affected after upgrade. Connection type sessions were changed to be FR and if issue dcct on the original connection it'll display: Illegal endpoint for connection. If issue dcct on the corrupted connection it'll display: Connection does not exist

CSCdp10434

Symptom:

After IGX upgrade to 9.1.15, session PVC between two FTM ports can not transmit voice data from 3810.

Conditions:

Problem occured after FTM upgrade firmware.

Workaround:

No workaround needed. The problem is caused by FTM firmware, not IGX software.

CSCdp15961

Symptom:

If you have a UVM-UVM con and a line on either side of the link fails the connections do not come back on their own.

Conditions:

Line fails on either end

Workaround:

dncon and upcon will recover them

CSCdp38746

Symptom:

Software errors 418, 501 and 3M logged.

Conditions:

The node may abort

Workaround:

None

CSCdp46812

Symptom:

We are not able to set up tag on release 9.1.17 or 9.1.19. We have tried all different combinations of firmware with this software release and failed. We are pretty sure that this is not a configuration issue as the same configuration works with 9.2 swsw.

Condition:

Either there must be some thing special with 9.1 or some thing broke. The problem seems to be the ospf. We were not able to get the ospf up between two TSCs. we are able to bring up ospf between the tsc and ter on the same node. We have a setup on one of our networks.

Workaround:

None

CSCdp50325

Symptom:

Cisco Wan Manager (CWM) does not receive correct trunk configuration from the Robust Trunk Response Message.

Conditions:

When the trunk is upped or when the trunk configuration is changed, a Robust Trunk Response Message is sent to CWM. Due to some information provided in the message are not correct, user/CWM may not be able to provide expected service.

Workaround:

None

CSCdp51531

Symptom:

Software error code 21 is logged when a UBR connection is added on an ASI-155 card.

Conditions:

- Prior to release 9.1.17, the error is logged when the UBR connection has CLP disabled, and the PCR is less than 10 cps.

- In release 9.1.17 and later, the error is logged under two conditions; when the UBR connection has CLP enabled, OR when CLP is disabled on a connection with PCR less than 10 cps.

Workaround:

No workaround is available.

CSCdp54044

Symptom:

Virtual path connections (VPCs) fail to reroute after a trunk card is reset. Based on information from the "rrtinf" command, there were no VPC conids available at the master node. Also, based on information from rrtinf, VPCs appear to be stuck attempting to route across a VT-wraparound trunk.

Conditions:

- Nodes (BPX or IGX) terminate a mix of VCCs and VPCs.

- Network has a mix of physical, virtual, and VT-wraparound trunks.

- VT-wraparound trunk(s) configured such that "VPC Conns disabled" parameter is set to "Yes". The trunk that VPCs attempt to use is configured in this manner.

Workaround:

Select new routes for the connections using the "cnfpref" command.

Solution:

The "VPC Conns disabled" trunk configuration parameter does not impose a VPC route restriction. Setting the parameter to "Yes" allows connections to use conids typically reserved for VPCs to route across the trunk. The parameter was added to alleviate connection addressing problems encountered when using VT-wraparound trunks with some public ATM networks. Since VT wraparound trunks don't support VPCs, yet still appear as physical trunks to the software, it's assumed that the customer will take action to ensure that VPCs won't route across them.

For example:

1. Use preferred, directed routing for VPCs. If the preferred route is not available, the connection fails.

2. Configure VT wraparound trunks as "Satellite" links, and configure the VPCs to avoid satellite links.

CSCdp54097

Symptom:

After attempting to delete a VSI partition on a BXM trunk using the "cnfrsrc" command, certain trunk parameters still cannot be modified using "cnftrk". The following message is observed:

"VSI configuration active on card. Cannot modify ESP parameters."

Conditions:

Use of VSI partitions on BXM trunks.

Workaround:

No workaround is available. The trunk must be deleted and added to remove parameter editing restrictions.

CSCdp57089

Symptom:

After joining a network running a 9.1.19 test version with another network running 9.2.22, one of the 9.1.19 nodes was reported as unreachable. All 9.2.22 nodes saw the node as unreachable. The node was reachable from all nodes in the 9.1.19 network.

Note: This condition could not be reproduced.

Workaround:

Delete and re-add the trunk connecting the two networks.

CSCdp66112

Symptom:

Bcc background test interfered with regular cbr connection and was resulting loss of user cells.

Conditions:

With BXM background test enabled when the full line rate was fully subscribed.

Workaround:

To disable background test for BXM

CSCdp67118

Symptom:

FRM X.21 FR ports are active even there are signalling protocols defined but there are no cabled attached.

Workaround:

None

CSCdr02790

Symptom:

Once the yred pair have had switch over, CMGUI does not appear ports on active card.

Workaround:

None

CSCdr04228

Symptom:

Policing value set incorrectly from UFM to UXM with a PCR value under 50 cps. This problem does not occur when adding from the UXM to UFM.

Conditions:

PCR less than 50 causes this condition.

Workaround:

Manually configure policing to 5 on UXM end of connection

Problems Fixed in Release 9.1.22

The following is the list of fixed bugs in the 9.1.22 Switch Software release. Included with each is a brief discussion of the problem:

Bug ID Description

CSCdk03916

Symptom:

Trunk information is inconsistent. dsptrks reports trunk as Clear-OK dsptrkmcons reports trunk is in alarm dsptrkutil will report terminating and via connections (if connections exist) on the trunk chkconids reports trunk conids as 0 (when conids are used on the trunk). Connections will not be routed on this trunk since the routing component of switch software believes the trunk to be failed.

Conditions:

Has only been seen on the BPX in version 8.4.x but may exist in all versions of switch software and the IPX and IGX as well.

Workaround:

switchcc clears the problem.

CSCdk15523

Problem:

Integer overflow results in computation in get_bc function.

Workaround

Use 'VC Q Depth' & 'PIR', instead of Frame Relay Standard parameters 'bc' & 'be'.

CSCdk22052

Symptom:

Switchcc event logged under trapd.log even when the command is cancelled by user due to updates pending... or aborted by switch software.

Conditions:

Whenever user cancels switchcc cmd or is aborted by switch software due to updates pending or standby is not in good health...switchcc cmd requested by user.

Workaround:

Directly check on node to see if Switchcc occured or not.

Further Problem Description:

Switchcc event is logged by Cisco Wan Manager as soon as the user executes switchcc. But if the user cancels the switchcc for some reason like updates pending etc., Cisco Wan Manager does not log any event about this cancellation. The same is problem even if switch software aborts switchcc due to some reason like "standby not online" etc....

CSCdm04491

Symptom:

Software error 921 flooding to the swlog

Conditions:

Occurs after the switch software upgrade from 8.1.73, 8.4.21 and then 9.1.04.

Workaround:

None

CSCdm10213

Symptom:

After upgrading from a 9.1 release or a switchcc in 9.1, there is some connection database corruption. You can dspcon on one end but dspcon on the other end shows the connection does not exist. dspchstats on one end ok but the other end shows the connection does not exist. Cards previously without connections, may have new connections.

Conditions:

The active CC has conns to a remote node. After a switchcc extra connections appear. These connections appear on a slot which matches to remote node's slot number. There is an extra logical endpoint for the connection. dcct of the connection shows the OE LCN non-zero, even though the connection actually terminates on another node. The OE LCN field should be set to a non-zero value only for dax conns. This is a side effect of the non-dax OE LCN field not being set to zero in pre 9.1.15 releases during a connection add.

Workaround:

None

CSCdm26083

Symptom:

When dsptrkbob is executed on yred secondary card for NTM with BC-SR subrate trunk back card software errors 30 and 923 are logged.

If no trunk is upped on primary card execution of dsptrkbob on primary card causes the same software error to be logged.

swerr 30 - INV_TA_SLOT(Invalid slot found in TRUNK_ADDR)

swer 923 - INV_LTRUNK (Invalid logical trunk number)

Conditions:

Normal conditions for secondary card and no trunk is up for primary card

Workaround:

No work around is possible.

CSCdm38578

Symptoms:

Characters are not echoed to the user as they are entered during a telnet session to the switch.

Conditions:

Telnet session initiated from host running AIX.

Workaround:

Explicitly set the mode of the telnet session to character at a time mode. Enter mode char from the telnet command line prior to logging into the switch.

CSCdm42254

Symptom:

When a user ID is deleted from the user database, subsequent users are shifted and use of the same privilege level as the immediately following user.

Conditions:

Issue was discovered when running network at 9.1.09, 9.1.10, and 9.2.00. Not observed in network environment at 8.4.21.

Workaround:

In order to prevent the shifting, a dummy user ID needs to be created any time an existing user ID is deleted. The dummy ID will fill the spot vacated by the deleted user ID and user IDs below the deletion will shift back to their normal positions.

If the database has had multiple adds and deletes prior to this issue being observed, it may be required to add dummy users until there are maximum entries.

It is recommended that the default password be changed for these dummy users.

CSCdm46032

Symptom:

The SNMP agent on IGX incorrectly reports the interface type of an ALM/A line as 'atmRoutingTrk'. The type should be 'atmAccessPort'.

Workaround:

None

CSCdm47765

Symptom:

VT will cause memory leak and fragmentation in the Dynamic region.

Conditions:

It appears in all conditions. The commands are a subsequent 'vt' and 'bye' with any number of commands in between the above two commands.

Workaround:

switchcc will clear the leak and fragmentation

Further Problem Description:

When a vt is performed on a node, the node that is being VT'ed is experiencing memory leak in dynamic region (exactly one block).Substantial amount of leak can be observed by doing multiple VT's from 100 to 500 times.

CSCdm48790

Symptom:

1. dspsloterrs shows "SIU Phase Errs" for one or more slots with BXM cards.

2. A cbus trace on the 0x50 function code message sent to BXMs shows the 19.2 G backplane configuration object (0C 01 01).

Conditions:

BPX with a BCC-4 active processor, one or more BXMs, and a 9.6 G (old type) back plane. Most likely to be observed after a non graceful upgrade.

Workaround:

1. Switchcc on a node with a standby BCC, or reset the active BCC on a node without a standby BCC. 2. Reset the BXM cards.

CSCdm60699

Symptom:

Port configured for Annex_D LMI and Async updates will send async updates showing a PVC is active when the PVC's VCQ fills to approx 75%, and reduces to 25%.

Conditions:

No relevant conditions are required in the network to see this problem other than the connections VCQ filling. The problem was noticed after the customer started a program to reduce the size of connection VCQ's. It can cause competitor router DLCI's to lock up. The only way to restore the competitor DLCI is to either DOWN and UP the PVC, or reset the competitor DLCI.

Workaround:

Customer can switch Async Updates off, however this does prevent the CPE from detecting a change in PVC status until a full status is sent by the switch. Customer can try to make sure the VCQ does not reach 75% by using foresight, and making sure there is enough bandwidth in the network to prevent congestion

If Async Updates must be left enabled, the following step can reduce the amount of Async Updates caused by exceeding the RNR Thld:

This workaround measure will reduce the amount of Async Updates due to reaching the RNR:

1) Temporarily configure the port to Stratum LMI

2) Change Upper RNR Threshold to 100% [leave lower RNR Threshold as is].

3) Change the port back to the other LMI [such as Annex D].

This will force the VCQ level to be at 100% before an Async update is sent due to exceeding this level.

Further Problem Description:

The Async Update is sent because the VCQ level exceeded the Upper RNR Thld [as shown on the 'cnfport' screen]. Once the upper RNR thld is reached, when the VCQ level falls below the Lower RNR Thld, another Async Update is sent. The default Upper/Lower RNR Thld is 75%/25%.

CSCdm69629

Symptom:

(1) Different values for statistical reserve when "dsptrkcnf" and "dspload" commands are issued.

(2) Value of statistical reserve gets truncated to less than 65535 if trunks are deleted and re-added.

Conditions:

Value of statistical reserve is configured greater than 65535.

Workaround:

None.

Further Problem Description:

Problem (1) has been fixed by CSCdk89096.

Problem (2) has been fixed in this case.

Both were caused due to "round-off" problem (32 bit to 16 bit casting).

CSCdm77271

Symptom:

UVM channel upgraded to full DS0 rate even the modem detection configuration is disabled. The full DS0 rate remains unchanged even a modem session is over.

Conditions:

This problem occurs when a modem session is detected while the modem detection configuration is disabled.

Workaround:

If User disables modem detection for a channel and then a modem upgrade detection is reported to SWSW, the channel will be programmed for 64K full rate and will never go back to compressed rate.

If user is interested in getting a work around for this problem please follow the procedure below.

1. enable the modem detection for the channel.

2. Send a fax to the channel. when the fax is complete the channel should go back to compressed rate.

But if user wants to find a way to refrain the channel from going to full rate while retaining the modem detection configuration disabled then there is no work around.

CSCdm87788

Symptom:

The BXM-T3 line is configured to be in the Direct-mapping(HEC) mode and the CAC override is Disable at the port. When attempting to add a single connection to a BXM-T3 line with a PCR=104268cps, the system rejects and return an error "CAC override disabled on port". This indicates that the request will over subscribe on the line but in fact it is NOT

Conditions:

CAC override is Disabled. BXM-T3 line is set for Direct-mapping(HEC). Attempt to add connection with PCR=104268.

Workaround:

Set CAC override to Enable. 9/21 (nbhatt) This is not a bug. Use cnfrsrc to configure PVC BW for that port to a new value. This is the value available to user for adding connections.

CSCdm88055

Symptom:

Run job having subsequent addcons and delcons on the same connection experiences failures.

Workaround:

Job scripts can be rewritten such that

1.) The commands to the connections alternate between different connections instead of having addcons and delcons on the same connection. and

2.) Increasing the number of rc/ra counts in the jobs.

Further Problem Description:

Jobs doing an addcon on a connection immediately after a delcon on the same connection has failures. This is because software gives control back to the cli during a delcon before releasing all the connection resources. The resources are released after a timer expiry which can be maximum of 2 sec. Addcon on the same connection before the timeout would fail.

CSCdm88262

Symptom:

Able to add FRM/UFM - UXM dax connections (ATFR/ATFST) with PCR < 50 cps or MIR < 19.2 kbps with policing=ON.

Condition:

Currently, UXM has the policing limit of 50 cps. The policing behavior is unpredictable if the MIR/PCR < 50 cps. CLI should block this type of connections. But it is not blocking currently.

Workaround:

Add the dax connection from UXM side - FRP/UFM side. In this case, CLI checks for the PCR and policing value. It allows to go below 50 cps upto cps with policing=OFF only. Otherwise, it blocks the connection.

CSCdm91529

Symptom:

Screen flickers when dspnds -p is done

Condition:

When #nodes > 14

Workaround:

None

CSCdp01511

Symptom:

Software allows addition of FRM - FRM 2 seg. conn with the routing conn. with type cbr, which shouldn't be.

Condition:

Upon addition of the connection from BTM end / software allows addition of ATM connection type even though the remote card may be FRM.

Workaround:

None

CSCdp04757

Symptom:

dspchcnf on ATM connection displays header with Frame Relay parameters instead of ATM parameters.

Conditions:

This problem appears in various releases.

Workaround:

None

CSCdp07967

Symptom:

The standby CC goes into update and stays there until stats updates to the standby are turned off (off2 16)

Conditions:

This seems to be limited to nodes with a high number of voice cards and voice connections enabled (IGX with CVMs and/or UVMs).

Workaround:

The command off2 16 can be performed, this keeps the active card from updating the standby with statistics information. If a switchcc is performed, there is the potential of losing one 'bucket interval' of statistics.

If statistics must be collected, limit the number of statistics. Frame Relay statistics are reported to the standby CC at 5 minute intervals (configurable up to 15 minutes). Most voice statistics are reported at 1 minute intervals, but the following statistics are reported at 3 second intervals: 1. Seconds V.25 Modem On 2. Seconds DSI Enabled 3. Seconds Off-Hook 4. Seconds In Service These statistics are reported to the standby CC at a rate 20 times higher than statistics reported once a minute. These statistics should not be collected on nodes that are experiencing the standby CC update problem.

The alternative is to have the standby in a non updated state. We have confirmed that the standby card does not get the complete VC database before it 'hangs' in update state. In this state there is no CC redundancy. If there is a problem with the active CC which would cause a switch to a redundant CC, the node will rebuild or enter degraded mode (depending on the problem). If the active CC is removed the standby CC will take control with an incomplete database. There will be inconsistencies with other nodes, which the system will try to clean up. This clean up will include the removal of the connections which were not sent to the standby CC before the update hung. It is recommended that the node not be allowed left with the standby CC hung in "Update" state.

Further Problem Description:

This problem also impacts processor utilization, and we have seen a 10 - 15% recovery of idle time when turning off standby updates.

CSCdp15671

Symptom:

Software error 105 logged.

Condition: This may happen when a DC power supply is used and cnfbus is done.

Workaround:

Do not do cnfbus when a DC power supply is used. Additional Information: This swerr 105 is not a harmful one. This is logged when the power supply module on the SCM is not able to process messages fast enough. Though this error is logged, the cycle to get the status from the PSM recovers and continues to work.

CSCdp21688

Symptom:

Secondary BXM card in Y-red config goes in mismatch when node is upgraded from 9.1 to 9.2.

Condition:

When Y-red card is not in service.

Workaround:

Do resetcd on the card which has gone in mismatch

CSCdp24319

Symptom:

dspcon does not display all parameters of atfst connection on second screen.

Condition:

bw_parm_def bit was set (randomly)

Workaround:

Cnfcon to modify connection, disabling 'Default Ext Parms'.

CSCdp26827

Symptom:

Software error 9082 gets logged

Condition:

When cnfcon is done using Cisco Wan Manager

Workaround:

cnfcon can be done using cli on the node

CSCdp32490

SYMPTOM:

Secondary CC transitions from UPGRADED to STANDBY after its backcard was pulled and then reinserted.

CONDITIONS:

Customer must be upgrading their software and at the point where the primary controller card (CC) is in the active state and running the old software revision and the secondary CC has reached the UPGRADED state while running the new software revision.

At this point if the following steps are done:

1) Remove the secondary CC's back card

2) Remove the primary CC's back card

3) Reinsert the primary CC's back card

4) Reinsert the secondary CC's back card

The primary CC's comes back as active, as desired, however the secondary CC comes back as STANDBY rather than UPGRADED.

NOTE: other combination of CC back card removal may result in the same effect.

WORKAROUND:

In order to get the secondary CC back into the UPGRADED state, it must be reset by using the resetcd command, or by physically pulling and reinserting the secondary CC's front card.

CUSTOMER IMPACT:

When the secondary CC is STANDBY rather than UPGRADED, the upgrade process is in an unknown state, and upgrades on this node are at risk.

The secondary CC's state of UPGRADED protects the node from spontaneously upgrading to the new release due to a primary CC failure, when the secondary card is running the new revision and in the STANDBY mode, this protection is no longer there.

Other unknown and undesirable upgrade issues may arise because of this.

CSCdp32760

Symptom:

Low memory reported on active/standby NPM/BCC.

Condition:

The command 'cnfln' was given a number of times on a line on which 'Line Stat Sampling' is enabled (on2 1). The command was given on the other processor card, i.e. not on which the memory is reported to be low.

Workaround:

None

CSCdp34935

SYMPTOM:

The symbol used in description of the connCurrRouteDesc is not correct for the terrestrial link.

CONDITIONS:

The returned string does not use the same symbol used in the DESCRIPTION of connCurrRouteDesc for terrestrial link.

WORKAROUND

The operation is not affected, so no workaround is needed.

CSCdp35148

Symptom:

IGX node stopped responding to console and lan port. Node logged Abort 3000000, software error 504 and multiple software errors 52. Node had to be powered off and on to clear problem.

This problem occurred immediately after configuring a UXM. This appears to be CBUS flooding issue.

Workaround:

Rather than powering down the node immediately, pull out the cards in the node one by one in order to reset a card that is possibly flooding the processor.

CSCdp35155

Symptom:

LDM card errors with failure type as 'background test failed' or software errors 9000 logged.

Condition:

Hitless rebuild/switchcc/upgrade was performed on the node such that the background tests running on the LDM card got aborted in the middle.

Workaround:

Hardware reset to the LDM card.

CSCdp37572

Problem:

'addcon' command fails to display connection being added until after the user add confirmation is done.

Workaround:

Use the command display line to see what connection is being added and view against the existing connections after the add is confirmed, or, do 'dspcons' first to see the existing connections.

Additional Information This DDTS tracks the IGX changes. BPX changes are being tracked in CSCdm22252.

CSCdp42776

Symptom:

cnfport with BXM on the BPX may not work properly.

Conditions:

addjob with cnfport and then runjob dspjob shows failure and the port configuration does not change

Workaround:

None

CSCdp49951

Symptom:

Cannot vt nor telnet to BPX node although it is not unreachable from the rest of the network. CPU utilization raises up to 100% and most of the RT CPU usage is consumed by the TUNL task. The following event in the log indicates the high CPU usage:

Info Cpu usage is 100

Workaround:

Use the command 'cnfcbtunl' to configure the field "Xmit Port Num" to have a different value than 3000, say 2998.

CSCdp55442

Symptoms:

Uninitialized memory gets overwritten.

Conditions:

addjob or editjob with cnfport on BPX.

Workaround:

None

CSCdp58545

Symptoms:

With UVM<->CVM VAD connections, voice quality at the CVM end sounds distorted. Also CVM reports underrun & dropped data(dspchstats) when traffic is going through.

Conditions:

UVM<->CVM VAD connections through UXM trunks.

Workaround:

Use non-VAD connections or re-route connections through an NTM if available.

CSCdp58869

Symptom:

While modifying the SIW PVC (using cnfcon) with wrong slave side Frame relay b/w parameters (PCR) from BPX, cli displays error message "unknown response 93"

Condition:

This will occur only for cnfcon not for addcon.

Workaround:

None

CSCdp72012

Symptom:

Software error 129 is seen on a node.

Condition:

There can be a number of different reasons why the swerr is seen. This fix is simply trying to reduce the possibility of multiple tasks trying to access the same software error buffer simultaneously (i.e. a race condition). If one task is already accessing the buffer, the other task which tries to generate another software error is prohibited from doing so.

Workaround:

None

CSCdp78731

Symptom:

The value of the 'conids used' and the 'vpc conids' used is wrong in the dnib display/dspload information for a trunk at the remote nodes. The value of the 'conids used' is displayed as the actual value of the 'vpc conids' used and the value of the 'vpc conids' used is displayed as zero.

Condition:

Some connections were added/deleted such that the total load (as well as the total load of each type) on the trunk remained the same but the no. of conids used changed.

Workaround:

This condition should change automatically as soon as there is a change in the load on that trunk.

CSCdp82720

Symptom:

stby UXM does not take over when FW is burned on active

Condition:

Yred configuration

Workaround:

None

CSCdp85171

Symptom:

Event log fills up with BXM <slot> Hardware failure (or HW failure). CWM logs also fill up with those messages. Node does switchcc and rebuilds later.

Workaround:

Install redundant BXM, or notice the accumulation of Hardware failures in the log and reset or replace the BXM

CSCdp87624

Symptom:

A bunch of 618 swerr's were logged, most likely followed by another bunch of 429 swerr's. After sometime, it is possible that 2085 swerr's are subsequently and periodically logged.

Conditions:

The situation happens under the following conditions:

o the node is configured with the maximum allowable number of vtrks on a physical port (e.g. 32 vtrks on a BNI-T3 port)

o a local rebuild is performed on the node

Workaround:

If it is imperative to retain the maximum number of vtrks on a port for the node, make sure that local rebuild is not triggered on the node.

A better alternative is to refrain from configuring to the maximum vtrks. For instance, 31 vtrks on a BNI-T3 is okay.

Severity of Problem:

Once the problem occurs, the trunk database has been corrupted. In many test instances, dntrk followed by rebuild or switchcc did not cure the corrupted database. The only foolproof way to restore the node is to clrallcnf.

CSCdp90130

Symptom:

Cnfrsrc shows more max bandwidth for BXM155 or BXM622 feeder trunks. The difference is the SONET overhead, which is about 13585 cps for OC3, and about 54340 cps for OC12.

Conditions:

This happens to BXM155 or BXM622 feeder trunks.

Workaround:

None

CSCdp91349

Symptom:

After upgrade from lower revision such as 8.2.xx, 8.5.xx to 9.1x UXM background test can NOT be disabled or enabled using cnftstparm.

Conditions:

Upgrade from lower revision to 9.1.xx

Workaround:

Patch memory to default 91 TEST_PARMS value for UXM. Procedure:

1. Obtain Test_Parm memory location from .num file of the 91 revision such as 9110G.num for 9.1.10 build.

2. Add offset of D2 for UXM card type(29H).

3. Patch memory(PM) to 29 E0 01 2C 03 20 00 64 01 2C 00 64 01 2C

4. reset standby CC to update standby.

5. switchcc after standbycc is in standby mode to force BRAM update.

Further Problem Description:

UXM background test is no longer configurable after upgrade from lower revision to 9.1.x

CSCdp98715

Description:

This problem occurs only if:

1. dncon/upcon with a cos option is run.

2. A single card has more than 2176 connections.

however, no harm is done unless the above 2 facts are true AND the number of connections on the card > [((15 -<slot_number>) * 2032)+ 144]

Workaround:

Do not use the dncon/upcon with cos option if a single card has more than 2176 connections.

CSCdp99622

Symptom:

Burn firmware on stand alone card got error.

Conditions:

Burn firmware on UXM stand alone

Workaround:

None

CSCdr03140

Symptom:

IGX feeder node running 9.1.18 swsw sending incorrect Abit/LMI status to CPE. dspcon for connections not passing traffic show "Port Comm Fail" on the feeder trunk endpoint of the connection segment. dcct for connections not passing traffic show "LMIfail" bit set for feeder trunk endpoint of the connection segment.

Conditions:

IGX feeder switch software upgrade to release 9.1.

Workaround:

There are two work arounds available 1. one which can be performed prior to the upgrade to avoid the problem 2. one which can be performed after the upgrade to clean up the problem

Both work arounds involve patching memory. This should only be performed by personnel experienced with the process. Please contact the TAC for implementation of either work around. Refer to the Eng-Note enclosure of CSCdr03140.

Compatibility Matrix

For a complete list of firmware revisions supported, see the Compatibility Matrix document, which is included in this release package.

This release will run with any MGX 8220 Release 4.0.0x or 4.1.0x

BPX 8600 Firmware

PCB Description dspcds Name Card Name in Firmware Image File Model Latest F/W Min F/W

BCC boot

BCC

BCC

B

HBJ

HBJ

BCC3-32 boot

BCC-3

BCC

C

HCM

HCM

BCC3-64 boot

BCC-3

BCC

D

HDM

HDM

BCC4 boot

BCC-4

BCC

E

HEM

HEM

BCC4-128 boot

BCC-4

BCC

H

HHM

HHM

ASI 2T3/2E3

ASI-T3

ASI

C

UCF

UCE

ASI 2T3/2E3

ASI-E3

ASI

C

UCF

UCE

ASI-155-E

ASI155E

ASI-155

E

WEC

WEC

ASI-155

ASI-155

ASI-155

H

WHC

WHC

ASM

ASM

A

GAC

GAC

BNI-3T3/3E3

BNI-T3

BNI

C

TCM

TCL

BNI-3T3/3E3

BNI-E3

BNI

C

TCM

TCL

BNI-155

BNI-155

BNI-155

B

VBR

VBP

BNI-155-E

BNI155E

BNI-155

D

VDR

VDP

BXM-BME

BME

BME

K

MKA

MKA

BXM-T3-8/12

BXM-T3

BXM

B

MBY

MBW

BXM-T3-8/12

BXM-T3

BXM

C

MCH

MCB

BXM-E3-8/12

BXM-E3

BXM

B

MBY

MBW

BXM-E3-8/12

BXM-E3

BXM

C

MCH

MCB

BXM-155-4/8

BXM-155

BXM

B

MBY

MBW

BXM-155-4/8

BXM-155

BXM

C

MCH

MCB

BXM-622/622-2

BXM-622

BXM

B

MBY

MBW

BXM-622/622-2

BXM-622

BXM

C

MCH

MCB

IGX 8400 Firmware

PCB Description dspcds Name Card Name in Firmware Image File Model Latest F/W Min F/W

NPM 32 boot

NPM

NPM

B

RBS

RBP

NPM 64 boot

NPM

NPM|NPM-64

C

RCS

RCP

NPM-B 32 boot

NPM

NPM|NPM-32B

E

RES

REP

NPM-B 64 boot

NPM

NPM|NPM-64B

F

RFS

RFP

IGX-ALM/A

ALM

ALM-A

A

CAE

CAD

IGX-ALM/B

ALM

ALM-B

B

CBJ

CBF

IGX-BTM/B

BTM

BTM

A

IAF

IAF

IGX-BTM/B

BTM

BTM

B

IBL

IBL

IGX-BTM/B

BTM

BTM

D

IDC

IDC

IGX-CVM-DS0A

CVM

CVM

A

DAF

DAF

IGX-CVM

CVM

CVM

B

DBF

DBD

IGX-CVM-TT

CVM

CVM

C

DCA

DCA

IGX-FRM

FRM

FRM

D

FDZ

FDY

IGX-FRM-31

FRM

FRM-31

E

FEZ

FEY

IGX-FRM-2

FRM

FRM-2

F

FFD

FFD

IGX-FRM

FRM

FRM

H

FHB

FHB

IGX-FRM

FRM

FRM

J

FJB

FJA

IGX-FRM-31

FRM

FRM-31

K

FKB

FKA

IGX-FTM

FTM

FTM

B

JBJ

JBJ

IGX-FTM

FTM

FTM

C

JCB

JCB

IGX-HDM

HDM

HDM

C

SCF

SCF

IGX-LDM

LDM

LDM

C

LCC

LCB

IGX-NTM

NTM

NTM

E

NEK

NEJ

IGX-NTM (B)

NTM

NTM

F

NFK

NFF

IGX-UFM-4C/8C

UFM

UFM-C

A

ZAP

ZAK

IGX-UFM-4C/8C

UFM

UFM-C

B

ZBB

ZBA

IGX-UFM-U

UFMU

UFM-U

A

YAJ

YAD

IGX-UFM-U

UFMU

UFM-U

B

YBB

YBA

IGX-UVM

UVM

UVM

A

DAE

DAC

IGX-UVM

UVM

UVM

B

DBD

DBD

IGX-UVM

UVM

UVM

C

DCA

DCA

IGX-UVM

UVM

UVM

D

DDF

DDA

IGX-UVM

UVM

UVM

E

DEE

DEA

IGX-UXM

UXM

UXM

A

AAF

AAE

IGX-UXM

UXM

UXM

B

ABF

ABA

IGX-UXME

UXM

UXM

B

ABF

ABA


Note    IGX-UVM model E is a supersede of models A, B and C firmware. A, B and C are obsoleted and should not be used.

IPX FIRMWARE

PCB Description dspcds Name Card Name in Firmware Image File Model Latest F/W Min F/W

NPC Boot

NPC

NPC

A

BAF

BAF

NPC 32 Boot

NPC

NPC

B

BBF

BBF

NPC 64 Boot

NPC

NPC

C

BCF

BCF

AIT Model A

AIT

AIT

A

IAF

IAF

AIT Model B

AIT

AIT

B

IBL

IBK

CDP Model A

CDP

CDP

A

DAF

DAF

CDP Model B

CDP

CDP

B

DBF

DBD

FRP Model D

FRP

FRP

D

FDZ

FDY

FRP Model E

FRP

FRP-31

E

FEZ

FEY

FRP Model F

FRP

FRP-2

F

FFD

FFD

FRP Model H

FRP

FRP

H

FHB

FHB

FTC Model B

FTC

FTC

B

JBJ

JBJ

FTC Model C

FTC

FTC

C

JCB

JCB

NTC

NTC

NTC

E

NEK

NED

SDP

SDP

SDP

C

SCF

SCF

PCB Description CW2000 Name Latest F/W Min F/W Latest F/W Min F/W

ASC F/W

ASC

5.0.11

5.0.10

4.1.06

4.1.00

ASC Boot

ASC

1.0.02

1.0.01

1.0.02

4.0.04

ASC/2 FW

ASC

5.0.11

5.0.10

4.1.06

4.1.00

ASC/2 Boot

ASC

1.0.02

1.0.01

1.0.02

4.0.04

BNM-T3

BNM-T3

n/a

n/a

n/a

n/a

BNM-E3

BNM-E3

n/a

n/a

n/a

n/a

BNM-155

BNM-155

n/a

n/a

n/a

n/a

FRSM-4T1

FRSM-4T1

4.0.20

4.0.19

4.0.20

4.0.13

FRSM-4E1

FRSM-4E1

4.0.20

4.0.19

4.0.20

4.0.13

FRSM-4T1-C

FRSM-4T1-C

4.0.20

4.0.19

4.0.20

4.0.13

FRSM-4E1-C

FRSM-4E1-C

4.0.20

4.0.19

4.0.20

4.0.13

FRSM Boot

FRSM-4T1

4.0.00

4.0.00

4.0.00

4.0.00

FRSM Boot

FRSM-4E1

4.0.00

4.0.00

4.0.00

4.0.00

FRSM Boot

FRSM-4T1-C

4.0.00

4.0.00

4.0.00

4.0.00

FRSM Boot

FRSM-4E1-C

4.0.00

4.0.00

4.0.00

4.0.00

SRM T1E1 (B)

SRM-T1E1

n/a

n/a

n/a

n/a

SRM 3T3

SRM-3T3

n/a

n/a

n/a

n/a

CESM-4T1

CESM-4T1

4.0.16

4.0.15

4.0.16

4.0.11

CESM-4E1

CESM-4E1

4.0.16

4.0.15

4.0.16

4.0.11

CESM Boot

CESM-4T1

4.0.01

4.0.01

4.0.01

4.0.00

CESM Boot

CESM-4E1

4.0.01

4.0.01

4.0.01

4.0.00

CESM-8T1

CESM-8T1

5.0.11

4.1.05

4.1.06

4.1.00

CESM-8E1

CESM-8E1

5.0.11

4.1.05

4.1.06

4.1.00

CESM-8 Boot

CESM-8T1

1.0.01

1.0.01

1.0.01

4.1.00

CESM-8 Boot

CESM-8E1

1.0.01

1.0.01

1.0.01

4.1.00

AUSM-4T1

AUSM-4T1

4.0.20

4.0.19

4.0.20

4.0.13

AUSM-4E1

AUSM-4E1

4.0.20

4.0.19

4.0.20

4.0.13

AUSM Boot

AUSM-4T1

4.0.00

4.0.00

4.0.00

4.0.00

AUSM Boot

AUSM-4E1

4.0.00

4.0.00

4.0.00

4.0.00

FRSM-8T1

FRSM-8T1

5.0.11

5.0.10

4.0.20

4.0.13

FRSM-8E1

FRSM-8E1

5.0.11

5.0.10

4.0.20

4.0.13

FRSM-8T1 Boot

FRSM-8T1

1.0.02

1.0.01

1.0.02

4.0.01

FRSM-8E1 Boot

FRSM-8E1

1.0.02

1.0.01

1.0.02

4.0.01

AUSM-8T1

AUSM-8T1

5.0.11

5.0.10

4.0.21

4.0.14

AUSM-8E1

AUSM-8E1

5.0.11

5.0.10

4.0.21

4.0.14

AUSMB-8T1

AUSMB-8T1

5.0.11

5.0.10

4.0.21

4.0.14

AUSMB-8E1

AUSMB-8E1

5.0.11

5.0.10

4.0.21

4.0.14

AUSM-8T1E1 Boot

AUSM-8T1

1.0.02

1.0.01

1.0.02

4.0.01

AUSM-8T1E1 Boot

AUSM-8E1

1.0.02

1.0.01

1.0.02

4.0.01

AUSM-8T1E1 Boot

AUSMB-8T1

1.0.02

1.0.01

1.0.02

4.0.01

AUSM-8T1E1 Boot

AUSMB-8E1

1.0.02

1.0.01

1.0.02

4.0.01

FRSM-HS1

FRSM-HS1

5.0.11

4.0.16

4.0.17

4.0.11

FRSM-HS1/B

FRSM-HS1/B

5.0.11

4.0.16

4.0.17

4.0.11

FRSM-HS1 Boot

FRSM-HS1

1.0.01

1.0.01

1.0.01

4.0.00

FRSM-HS1 Boot

FRSM-HS1/B

1.0.01

1.0.01

1.0.01

4.0.00

FRSM-HS2

FRSM-HS2

5.0.11

5.0.10

n/s

n/s

FRSM-HS2 Boot

FRSM-HS2

1.0.01

1.0.01

n/s

n/s

IMATM

IMATM-T3T1

5.0.11

5.0.10

4.0.20

4.0.13

IMATM

IMATM-E3E1

5.0.11

5.0.10

4.0.20

4.0.13

IMATM

IMATMB-T1

5.0.11

5.0.10

4.0.20

4.0.13

IMATM

IMATMB-E1

5.0.11

5.0.10

4.0.20

4.0.13

IMATM Boot

IMATM-T3T1

1.0.02

1.0.01

1.0.02

4.0.01

IMATM Boot

IMATM-E3E1

1.0.02

1.0.01

1.0.02

4.0.01

IMATM Boot

IMATMB-T1

1.0.02

1.0.01

1.0.02

4.0.01

IMATM Boot

IMATMB-E1

1.0.02

1.0.01

1.0.02

4.0.01

BPX 8600 9.1 Hardware Compatibility

Card Type Part Numbers Latest H/W Min. H/W
Controller Cards

BPX-BCC-32M (Non-Orderable)

73-213840-00

P

A

BPX-BCC-64M (Non-Orderable)

800-04008-04

P

A

BPX-BCC-BC (Non-Orderable)

73-211380-00

D

A

BPX-BCC-3-32M (Non-Orderable)

800-04004-04

R

J

BPX-BCC-3-64M

73-3720-02

R

J

BCC-3BC

800-02916-01

D

A

BPX-BCC4V

800-03580-06

E

C

Alarm Group

BPX-ASM

800-04009-01

C

A

BPX-ASM-BC

73-211910-00

C

A

ASM-LM

800-211910-10

BroadBand Switch Group

BPX-BME

800-02855-04

BPX-BXM-T3-8

800-02777-07

H

A

BPX-BXM-T3-8E

800-03933-02

H

A

BPX-BXM-E3-8

800-02779-07

H

A

BPX-BXM-E3-8E

800-03928-02

H

A

BPX-BXM-T3-12

800-02776-07

H

A

BPX-BXM-T3-12E

800-03931-02

H

A

BPX-BXM-T3-12EX

800-03934-02

H

A

BPX-BXM-E3-12

800-02778-07

H

A

BPX-BXM-E3-12E

800-03929-02

H

A

BPX-BXM-E3-12EX

800-03930-02

H

A

BPX-T3/E3-BC

73-2759-02

A

A

BPX-BXM-155-8

800-02664-07

H

A

BPX-MMF-155-8-BC

800-03255-01

B

A

BPX-SMF-155-8-BC

800-03257-01

B

A

BPX-SMFLR-155-8-BC

800-02593-02

B

A

BPX-BXM-155-4

800-02666-07

H

A

BPX-BXM-155-4D

800-03094-01

H

A

BPX-BXM-155-8D

800-03092-01

H

A

BPX-BXM-155-4DX

800-03093-01

H

A

BPX-BXM-155-8DX

800-03091-01

H

A

BPX-MMF-155-4-BC

800-03256-01

B

A

BPX-SMF-155-4-BC

800-03258-01

B

A

BPX-SMFLR-155-4-BC

800-02594-02

B

A

BPX-BXM-622

800-02646-10

L

A

BPX-BXM-622-2

800-02638-10

L

A

BPX-BXM-622-2D

800-03150-01

L

A

BPX-BXM-622DX

800-03151-01

L

A

BPX-BXM-622-2DX

800-03149-01

L

A

BPX-622-2-BC

73-2884-01

D

A

BPX-SMF-622-BC

800-03249-01

BPX-SMF-622-2-BC

800-03251-01

BPX-SMFLR-622-BC

800-03250-01

BPX-SMFLR-622-2-BC

800-03252-01

D

A

BPX-XLR-622

800-02738-01

BPX-XLR-622-2

800-02739-01

BPX-BME-OC12

73-2469-07

F

A

BPX-BXM-E-T3-8E

800-03933-02

A

A

BPX-BXM-E-E3-8E

800-03928-02

A

A

BPX-BXM-E-T3-12E

800-03931-02

A

A

BPX-BXM-E-E3-12E

800-03929-02

A

A

BPX-BXM-E-T3-12EX

800-03934-02

A

A

BPX-BXM-E-E3-12EX

800-03930-02

A

A

BPX-BXM-E-155-4D

800-03094-02

A

A

BPX-BXM-E-155-4DX

800-03093-02

A

A

BPX-BXM-E-155-8D

800-03092-02

A

A

BPX-BXM-E-155-8DX

800-03091-02

A

A

BPX-BXM-E-622-DX

800-03151-02

A

A

BPX-BXM-E-622-2D

800-03150-02

A

A

BPX-BXM-E-622-2DX

800-03149-02

A

A

RDNT-SMF-155-4R

800-03677-01

J

A

RDNT-SMF-155-8R

800-03679-01

K

A

RDNT-LR-155-8R

800-03678-01

J

A

RDNT-LR-622-2R

800-03676-01

F

A

RDNT-SMF-622R

800-03675-01

F

A

RDNT-SMF-622-2R

800-03674-01

J

A

BPX-T3/E3

800-03058-02

E

A

BPX-E3-BC

73-213070-01

E

A

BPX-MMF-2-BC

73-214290-00

D

A

BPX-SMF-2-BC

73-216270-00

D

A

BPX-SMFLR-2-BC

73-216270-01

D

A

BPX-STM1-EL-4

800-03716-02

A

A

BNI-3-T3/C

800-02858-02

A

A

BNI-3-E3/C

800-02859-02

A

A

SMF-LM-OC3

800-216270-10

C

A

SMF-LM-OC3-LR

800-216270-11

C

A

MMF-LM-OC3

800-214290-10

B

A

LM-3T3

800-213070-10

D

A

LM-3E3

800-213070-11

D

A

IGX 8400 9.1 Hardware Compatibility

Card Type Part Numbers Latest H/W Min. H/W * Note Below
Controller Cards

IGX-NPM-32

73-2894-01

W

A

IGX-NPM-64

73-2895-01

W

A

IGX-NPM-32B

73-2554-04

L

A

IGX-NPM-64B

73-2363-02

C

A

IGX-SCM

73-3341-01

Y

A

Revision X or later for nodes with UXM IMA trunks

Alarm Group

IGX-ARM

73-218230-00

B

A

BC-512011

73-212360-00

D

A

Trunk Group

IGX-NTM

73-2296-04

E

A

BC-6271A-TI

73-207380-00

M

A

BC-6171A-E1

73-207370-01

P

A

BC-6083A-SR

73-208540-00

J

A

BC-550150-Y1

73-210820-01

D

A

IGX-BTM/B

73-3005-02

B

A*

"*Show AIT H/W Rev, BTM(B)=AIT+ACM1"

ACM1

73-2921-03

W

A

BC-571110A-T3

73-2879-01

L

A

BC-571210A-E3

73-2679-01

K

A

BC-571310A-E2

73-215940-00

D

A

AIT BC HSSI/E2

BC-571410A-HSSI

73-216370-00

A

A

AIT GIM HSSI

IGX-ALM/A

73-2558-03

J

A

IGX-ALM/B

73-2558-03

J

A

BC-UAI-1T3

73-217040-00

C

A

BC-UAI-1E3

73-2986-01

E

A

IGX-UXM

73-2511-03

D

A

BC-UAI-4-155-SMF

73-2703-03

D

A

BC-UAI-4-155-MMF

73-2705-03

D

A

BC-UAI-2-155-SMF

73-2699-03

C

A

BC-UAI-6-T3

73-2952-02

A

A

BC-UAI-3-T3

73-2954-02

A

A

BC-UAI-6-E3

73-2953-02

A

A

BC-UAI-3-E3

73-2955-02

A

A

BC-UAI-8-E1-BNC

73-2932-02

C

A

BC-UAI-4-E1-BNC

73-3061-01

C

A

BC-UAI-8-T1-DB15

73-2941-02

C

A

BC-UAI-8-E1-DB15

73-2942-02

C

A

BC-UAI-4-T1-DB15

73-3059-01

C

A

BC-UAI-4-E1-DB15

73-3060-01

C

A

BC-UAI-4-STM1E

73-3364-02

A

A

Port Group

IGX-FTM

73-2519-01

M*

A*

"*Show FTC H/W Rev, FTM=FTC+ACM1A"

ACM1A

73-2930-03

W

A

BC-6351A-V35

73-213240-00

E

A

FPC-V.35

BC-6352A-T1

73-213420-00

C

A

FPC-T1

BC-6353A-E1

73-213410-00

B

A

FPC-E1

BC-6354A-X21

73-214120-00

C

A

FPC-X21

IGX-HDM

73-2853-02

H

F

"*Show SDP H/W Rev, HDM=SDP+ACM2"

ACM2

73-2922-03

T

A

BC-5082A-V35

73-2450-01

K

A

BC-5083A-RS449

73-204850-00

V

A

BC-5084B-RS232

73-2723-01

W

A

IGX-LDM

73-207250-00

K

A

"*Show LDP H/W Rev, LDM=LDP+ACM1A"

BC-5286A-RS232

73-207180-01

L

A

LDI-4RS232

BC-5287A-RS232

73-207180-00

L

A

LDI-8RS232

IGX-CVM-DSOA

73-3002-02

D

A*

"*Show CDP H/W Rev, CVM=CDP+ACM1A"

IGX-CVM-T1EC

73-3003-03

E

A*

"*Show CDP H/W Rev, CVM=CDP+ACM1A"

IGX-CVM-E1EC

73-209660-00

H*

A*

"*Show CDP H/W Rev, CVM=CDP+ACM1A"

BC-6271A-TI

73-207380-00

M

A

BC-6171A-E1

73-207370-01

P

A

BC-550100-J1

73-210820-00

C

A

IGX-FRM

73-2517-03

N

A

IGX-FRM-31

73-2517-03

N

A

IGX-FRM-2

73-2519-01

M*

A*

"*Show FRP H/W Rev, FRM-2=FRP+ACM1A"

BC-6251B-V35

73-3253-01

M

A

FRI-4V.35-2

BC-6254A-X21

73-211440-00

H

A

FRI-X.21

BC-6355A-X21

73-214120-01

C

A

FRI-2X21

IGX-UFM-4C

73-2531-05

N

A

IGX-UFM-8C

73-2531-05

N

A

BC-UFI-8T1-DB15

73-2444-02

D

A

BC-UFI-8E1-DB15

73-2445-02

D

A

BC-UFI-8E1-BNC

73-2449-02

D

A

IGX-UFM-U

73-2349-04

D

A

BC-UFI-12V35

73-2711-01

D

A

BC-UFI-12X21

73-2712-01

D

A

BC-UFI-4HSSI

73-2693-01

C

A

IGX-UVM

73-2361-04

K

A

BC-UVI-2E1EC

73-2420-01

B

A

BC-UVI-2T1EC

73-2373-01

C

A

BC-UVI-SJ1EC

73-2374-01

A

A

MGX 8220 4.1 Hardware Compatibility

Card Type Hardware Revisions Image Type

ASC

"AH, AJ, AK, AL, AM, AN, AP, AR"

ASC

ASC/B

AN

ASC

ASC2

"BA, BB, BC, BD, BE, BF"

ASC

ASC2F

"BA, BB, BC, BD, BE, BF"

ASC

BNM-T3

"AJ, BA, BB, BC, BD"

ASC

BNM-T3/B

"BE, BF"

ASC

BNM-E3

"AA, AB, AC"

ASC

BNM-E3/B

"AD, AE"

ASC

BNM-155

"AA, AB, AC, AD, AE, AF, AH"

ASC

SRM-T1E1

"AB, AC, BA, BB, BC"

ASC

SRM-T1E1/B

BD

ASC

SRM-3T3, SRM-ET3/B

"BA, BB, BC, BD, BE, BF"

ASC

FRSM-4T1E1

"AJ, BK, BL, BM, BN, BP, BQ, CA, CB, CC, CE"

FRSM

FRSM-8T1E1

"AA, AB, AC"

FRSM-8T1E1

FRSM-HS1

"AA, AB, AC, AD, AE, AH, AJ"

FRSM-HS1

FRSM-HS1/B

AA

FRSM-HS1

FRSM-HS2

AO

FRSM-HS2

CESM-4T1E1

"AA, BA, BB, BC"

CESM

AUSM-4T1E1

"AA, AB, AC, BA, BB, BC, BD"

AUSM

AUSM-8T1E1

"AA, AB, AC, AD, AE, AF"

AUSM-8T1E1

AUSM-8T1E1/B

AA

AUSM-8T1E1

IMATM-8T1E1

"AA, AB, AC, AD, AE, AF, AG"

IMATM8

IMATM-8T1E1/B

"AA, AB, AC, AD, AE, AF"

IMATM8

CESM-8T1E1

"AA, AB, AC"

CESM-8T1E1

Default Values

BPX 8600 Nodes

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT System-Wide Parameters 1 Max Time Stamped Packet Age (msec) ................................ 32 2 Fail Connections On Communication Break ........................... No 3 Max Network Delay for `v' connections (msec)....................... 14 4 Max Network Delay for `c' connections (msec)....................... 27 5 Max Network Delay for `t' & `p' connections (msec)................. 14 6 Max Network Delay for `a' connections (msec)....................... 27 7 Max Network Delay for High Speed Data connections (msec)........... 32 8 Max Network Delay for CDP-CDP `v' connections (msec)............... 64 9 Max Network Delay for CDP-CDP `c' connections (msec)............... 64 10 Max Network Delay for CDP-CDP `t' & `p' connections (msec)......... 64 11 Max Network Delay for CDP-CDP `a' connections (msec)............... 64 12 Max Network Delay for CDP-CDP High Speed Data connections (msec)... 64 13 Enable Discard Eligibility......................................... No 14 Use Frame Relay Standard Parameters Bc and Be...................... Yes 15 Max Local Delay for Interdom CDP-CDP `v' conns (msec).............. 27 16 Max Local Delay for Interdom CDP-CDP `c' conns (msec).............. 27 17 Max Local Delay for Interdom CDP-CDP `t' & `p' conns (msec)........ 27 18 Max Local Delay for Interdom CDP-CDP `a' conns (msec).............. 27 19 Max Local Delay for Interdom CDP-CDP High Speed Data conns (msec).. 27 20 Max Local Delay for Interdom High Speed Data conns (msec).......... 28 21 FastPAD Jitter Buffer Size (msec)................................. 15 22 Number of Consecutive Invalid Login Attempts to Cause Major Alarm . 0 23 Enable Connection Deroute Delay feature............................ No 24 Interval Statistics polling rate for ATM VCs....................... 5 25 Interval Statistics polling rate for ports on IPX/IGX 8400 nodes... 5 This Command: cnfsysparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT 1 Update Initial Delay [ 5000] (D) 16 TFTP Memory (x 10KB) [ 61] (D) 2 Update Per-Node Delay [30000] (D) 17 Standby Update Timer [ 10] (D) 3 Comm-Break Test Delay [30000] (D) 18 Stby Updts Per Pass [ 50] (D) 4 Comm-Break Test Offset [ 10] (D) 19 Gateway ID Timer [ 30] (D) 5 Network Timeout Period [ 1700] (D) 20 GLCON Alloc Timer [ 30] (D) 6 Network Inter-p Period [ 4000] (D) 21 Comm Fail Delay [ 60] (D) 7 NW Sliding Window Size [ 1] (D) 22 Nw Hdlr Timer (msec) [ 50] (D) 8 Num Normal Timeouts [ 7] (D) 23 SAR CC Transmit Rate [ 560] (D) 9 Num Inter-p Timeouts [ 3] (D) 24 SAR High Transmit Rate [ 280] (D) 10 Num Satellite Timeouts [ 6] (D) 25 SAR Low Transmit Rate [ 56] (D) 11 Num Blind Timeouts [ 4] (D) 26 SAR VRAM Cngestn Limit [ 7680] (D) 12 Num CB Msg Timeouts [ 5] (D) 27 SAR VRAM Cell Discard [ 256] (D) 13 Comm Fail Interval [10000] (D) 28 ASM Card Cnfged [ Y] (Y/N) 14 Comm Fail Multiplier [ 3] (D) 29 TFTP Grant Delay (sec) [ 1] (D) 15 CC Redundancy Cnfged [ Y] (Y/N) 30 TFTP ACK Timeout (sec) [ 10] (D) 31 TFTP Write Retries [ 3] (D) 46 Send Abit immediately [ N] (Y/N) 32 SNMP Event logging [ Y] (Y/N) 33 Job Lock Timeout [ 60] (D) 34 Max Via LCONs [50000] (D) 35 Max Blind Segment Size [ 3570] (D) 36 Max XmtMemBlks per NIB [ 3000] (D) 37 Max Mem on Stby Q (%) [ 33] (D) 38 Stat Config Proc Cnt [ 1000] (D) 39 Stat Config Proc Delay [ 2000] (D) 40 Enable Degraded Mode [ Y] (Y/N) 41 Trk Cell Rtng Restrict [ Y] (Y/N) 42 Enable Feeder Alert [ N] (Y/N) 43 Reroute on Comm Fail [ N] (Y/N) 44 Auto Switch on Degrade [ Y] (Y/N) 45 Max Degraded Aborts [ 100] (D) This Command: cnfnodeparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Index Status Function 1 Enabled Automatic TRK Loopback Test on Local/Remote Alarms 2 Enabled User Command Logging 3 Enabled Automatic Card Reset on Hardware Error 4 Enabled Card Error Record Wraparound 5 Disabled Card Test After Failure 6 Disabled Download From Remote Cisco StrataView Plus 7 Disabled Logging of conn events in local event log 8 Disabled Logging of conn events in Cisco StrataView Plus event log 9 Disabled Force Download From a Specific IP address This Command: cnffunc sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Index Status Function 1 Disabled Configuration Save/Restore 2 Disabled ForeSight 3 Disabled Multiple VTs (1 session enabled) 4 Disabled Virtual Trunks 5 Disabled ABR standard with VSVD This Command: cnfswfunc sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Type Freq Enable Inc Thresh Timeout Enable Inc Thresh ---- ----- -------- ------- ------- ------- -------- ------- ------- BCC 1600 Enabled 100 300 800 N/A 100 300 ASM 300 Disabled 100 300 60 N/A 100 300 BNI-T3 300 Enabled 100 300 150 N/A 100 300 BNI-E3 300 Enabled 100 300 150 N/A 100 300 ASI-E3 900 Enabled 100 300 800 Enabled 100 300 ASI-T3 900 Enabled 100 300 800 Enabled 100 300 ASI-155 900 Enabled 100 300 800 Enabled 100 300 BNI-155 300 Enabled 100 300 150 N/A 100 300 BXM 4000 Enabled 100 300 3000 Enabled 100 300 This Command: cnftstparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT 1 Normalization Interval [ 2] (D) 2 Max Number To Normalize [ 5] (D) 3 Normalization Logging [ No] 4 Settling Interval [ 4] (D) 5 Minimum Open Space [ 1000] (D) 6 Normalization Priority [ Load] 7 Load Sample Period [ 4] (D) 8 Maximum Routing Bundle [ 90] (D) 9 Reroute Timer [ 0] (secs) 10 Reset Timer on Line Fail [ Yes] 11 Max Down/Up Per Pass [ 50] (D) 12 Down/Up Timer [30000] (msecs) 13 Max Route Errs per cycle [ 50] (D) 14 Time between Rrt cycles [ 5] (mins) 15 Max. Rrt Err cycles [ 10] (D) 16 Routing pause timer [ 0] (msecs) 17 Max msgs sent per update [ 10] (D) 18 Send SVC urgent msg [ No] 19 Max SVC Retry [ 0] (D) 20 Wait for TBL Updates [ 70] (100 msecs) 21 Max Derouting Bndl (0=all)[ 500] (D) 22 Enable Cost-Based Routing [ No] 23 Enable Route Cache Usage [ No] 24 Use Delay for Routing [ No] 25 # of reroute groups used [ 50] (D) 26 Starting size of RR grps [ 0] (CLU) 27 Increment between RR grps [ 100] (CLU) This Command: cnfcmparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT 1 Rmt Blk Freq (msec) [ 100] 16 FW Dnld Msgs/Block(dec) [ 4] 2 Rmt Blk Size (hex) [ 400] 17 Flash Write TO(msec) [ 16000] 3 Lcl Blk Freq (msec) [ 100] 18 Flash Erase TO(msec) [ 100] 4 Lcl Blk Size (hex) [ 400] 19 Erase Verify TO(msec) [ 16000] 5 Image Req Freq (msec) [ 10000] 20 Standby Flash TO(sec) [ 300] 6 Dnld Req Freq (msec) [ 10000] 21 Lcl Flash Init TO(msec) [ 1000] 7 Session Timeout (msec) [ 30000] 22 Flsh Write Blk Sz (hex) [ 10000] 8 Request Hop Limit (dec) [ 1] 23 Flsh Verfy Blk Sz (hex) [ 400] 9 Crc Throttle Freq (dec) [ 5000] 24 Chips Per Write/Erase [ 1] 10 Crc Block Size (hex) [ 400] 11 Rev Change Wait(dec) [ 0] 12 CCs Switch Wait(dec) [ 1000] 13 Lcl Response TO(msec) [ 5000] 14 Rmt Response TO(msec) [ 20000] 15 FW Dnld Block TO(msec) [ 50] This Command: cnfdlparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT 1. Logout Time ........... 20 minutes 2. VT Logout Time ........ 4 minutes 3. Prompt Time ........... 60 seconds 4. Command Time .......... 3 minutes 5. UID Privilege Level ... 6 6. Input Character Echo .. Enabled 7. Screen Update Time .... 10 seconds This Command: cnfuiparm sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Function Number Status Function Number Status Background Upcard 1 Enabled Conn Stat Sampling 15 Enabled Background Updates 2 Disabled Neighbor Update Errs 16 Disabled Standby Terminal 3 Enabled Memory Protection 4 Enabled Comm Break 5 Enabled Comm Fail Test 6 Enabled CRC Test 7 Enabled Bus Fail Detection 8 Enabled Line Diag 9 Enabled Clock Restoral 10 Enabled Cm_Rerouting 11 Enabled Clock Routing 12 Enabled Dynamic BW Allocation 13 Enabled Modem Polling 14 Enabled This Command: on1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Function Number Status Function Number Status Line Stat Sampling 1 Enabled Robust Alarm Updates 15 Enabled Statistical Alarm 2 Enabled Realtime Counters 16 Enabled Job Ready Checker 3 Enabled LAN Interface 17 Enabled Configuration Backup 4 Enabled Update Standby Stats 18 Enabled Standby Update 5 Enabled Telnet Access 19 Enabled Downloader 6 Enabled Junction ID 20 Enabled Cm Updates 7 Enabled Mult SV+/Routing Node 21 Disabled Topo/Stat Updates 8 Enabled Simulated Fdr Trks 22 Disabled Card Statistical Alms 9 Enabled Deroute Delay 23 Enabled Card Stat Sampling 10 Enabled Auto Renum Fail Recov 24 Enabled Address Validation 11 Enabled Card Simulation Tool 25 Disabled ASM Stats Polling 12 Enabled Port Stat Sampling 13 Enabled Robust Updates 14 Enabled This Command: on2 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:00 GMT Function Number Status Stby heap memory init 1 Disabled Trace Msg Sent 2 Disabled Multi-DB Stby Updates 3 Enabled Trace Conv Msg 4 Disabled This Command: on3

BNI-T3:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 3.1 Config T3 [96000 cps] BNI-T3 slot: 3 Transmit Rate: 96000 VPC Conns disabled: -- Subrate data rate: -- Line framing: PLCP Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: Max Channels/Port: -- length: 0-225 ft. Connection Channels: 1771 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: -- HCS Masking: Yes SVC Channels: 0 Payload Scramble: No SVC Bandwidth: 0 cps Frame Scramble: -- Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 3.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 3.1 Parameters 1 Q Depth - Voice [ 242] (Dec) 15 Q Depth - CBR [ 600] (Dec) 2 Q Depth - Non-TS [ 360] (Dec) 16 Q Depth - VBR [ 1000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 9070] (Dec) 4 Q Depth - BData A [ 1000] (Dec) 18 Low CLP - CBR [ 100] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 100] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%) 8 Red Alm - I/O (Dec) [ 2500 / 15000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 15000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 3.1

BNI-E3:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 10.1 Config E3 [80000 cps] BNI-E3 slot: 10 Transmit Rate: 80000 VPC Conns disabled: -- Subrate data rate: -- Line framing: -- Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: Max Channels/Port: -- length: 0-225 ft. Connection Channels: 1771 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: -- HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: -- Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 10.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 10.1 Parameters 1 Q Depth - Voice [ 202] (Dec) 15 Q Depth - CBR [ 600] (Dec) 2 Q Depth - Non-TS [ 300] (Dec) 16 Q Depth - VBR [ 1000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 9170] (Dec) 4 Q Depth - BData A [ 1000] (Dec) 18 Low CLP - CBR [ 100] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 100] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%) 8 Red Alm - I/O (Dec) [ 2500 / 15000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 15000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 10.1

BNI-155E:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 2.1 Config OC3 [353207cps] BNI-155 slot: 2 Transmit Rate: 353208 VPC Conns disabled: -- Subrate data rate: -- Line framing: STS-3C Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: -- length: -- Connection Channels: 16050 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: -- HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: Yes Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 2.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 2.1 Parameters 1 Q Depth - Voice [ 885] (Dec) 15 Q Depth - CBR [ 600] (Dec) 2 Q Depth - Non-TS [ 1324] (Dec) 16 Q Depth - VBR [ 1000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [15655] (Dec) 4 Q Depth - BData A [ 1000] (Dec) 18 Low CLP - CBR [ 100] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 100] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%) 8 Red Alm - I/O (Dec) [ 2500 / 10000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 10000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 2.1

BNI-155:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 6.1 Config OC3 [353207cps] BNI-155 slot: 6 Transmit Rate: 353208 VPC Conns disabled: -- Subrate data rate: -- Line framing: STS-3C Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: -- length: -- Connection Channels: 16050 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: -- HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: Yes Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 6.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 6.1 Parameters 1 Q Depth - Voice [ 885] (Dec) 15 Q Depth - CBR [ 600] (Dec) 2 Q Depth - Non-TS [ 1324] (Dec) 16 Q Depth - VBR [ 1000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [15655] (Dec) 4 Q Depth - BData A [ 1000] (Dec) 18 Low CLP - CBR [ 100] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 100] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 100] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 100] (%) 8 Red Alm - I/O (Dec) [ 2500 / 10000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 10000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 30] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 6.1

Below are default values for BXM and BXM Enhanced cards:

BXM-OC3:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 9.1 Config OC3 [353207cps] BXM slot: 9 Transmit Rate: 353208 VPC Conns disabled: No Subrate data rate: -- Line framing: STS-3C Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: 256 length: -- Connection Channels: 256 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: 0 HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: Yes Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 9.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 9.1 Parameters 1 Q Depth - Voice [ 885] (Dec) 15 Q Depth - CBR [ 600] (Dec) 2 Q Depth - Non-TS [ 1324] (Dec) 16 Q Depth - VBR [ 5000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [20000] (Dec) 4 Q Depth - BData A [10000] (Dec) 18 Low CLP - CBR [ 60] (%) 5 Q Depth - BData B [10000] (Dec) 19 High CLP - CBR [ 80] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 60] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 80] (%) 8 Red Alm - I/O (Dec) [ 2500 / 10000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 10000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 20] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 9.1

BXM-OC12:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 11.1 Config OC12 [1412679cps] BXM slot: 11 Transmit Rate: 1412830 VPC Conns disabled: No Subrate data rate: -- Line framing: STS-12C Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: 256 length: -- Connection Channels: 256 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: 0 HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: Yes Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 11.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 11.1 Parameters 1 Q Depth - Voice [ 3533] (Dec) 15 Q Depth - CBR [ 1200] (Dec) 2 Q Depth - Non-TS [ 5297] (Dec) 16 Q Depth - VBR [10000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [40000] (Dec) 4 Q Depth - BData A [40000] (Dec) 18 Low CLP - CBR [ 60] (%) 5 Q Depth - BData B [40000] (Dec) 19 High CLP - CBR [ 80] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 60] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 80] (%) 8 Red Alm - I/O (Dec) [ 2500 / 10000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 10000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 20] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 11.1

BXM-E3:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 13.1 Config E3 [80000 cps] BXM slot: 13 Transmit Rate: 80000 VPC Conns disabled: No Subrate data rate: -- Line framing: -- Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: 256 length: 0-225 ft. Connection Channels: 256 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: 0 HCS Masking: Yes SVC Channels: 0 Payload Scramble: Yes SVC Bandwidth: 0 cps Frame Scramble: -- Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 13.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 13.1 Parameters 1 Q Depth - Voice [ 202] (Dec) 15 Q Depth - CBR [ 400] (Dec) 2 Q Depth - Non-TS [ 300] (Dec) 16 Q Depth - VBR [ 5000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [10000] (Dec) 4 Q Depth - BData A [ 8000] (Dec) 18 Low CLP - CBR [ 60] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 80] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 60] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 80] (%) 8 Red Alm - I/O (Dec) [ 2500 / 15000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 15000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 20] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 13.1

BXM-T3:

sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 12.1 Config T3 [96000 cps] BXM slot: 12 Transmit Rate: 96000 VPC Conns disabled: No Subrate data rate: -- Line framing: PLCP Line DS-0 map: -- coding: -- Statistical Reserve: 1000 cps recv impedance: -- Idle code: 7F hex cable type: -- Max Channels/Port: 256 length: 0-225 ft. Connection Channels: 256 Pass sync: Yes Traffic: V,TS,NTS,FR,FST,CBR,VBR,ABR Loop clock: No SVC Vpi Min: 0 HCS Masking: Yes SVC Channels: 0 Payload Scramble: No SVC Bandwidth: 0 cps Frame Scramble: -- Restrict CC traffic: No Virtual Trunk Type: -- Link type: Terrestrial Virtual Trunk VPI: -- Routing Cost: 10 Deroute delay time: 0 seconds Last Command: dsptrkcnf 12.1 sailorm TN StrataCom BPX 8600 9.1.19 Jan. 7 2000 17:04 GMT TRK 12.1 Parameters 1 Q Depth - Voice [ 242] (Dec) 15 Q Depth - CBR [ 400] (Dec) 2 Q Depth - Non-TS [ 360] (Dec) 16 Q Depth - VBR [ 5000] (Dec) 3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [10000] (Dec) 4 Q Depth - BData A [ 8000] (Dec) 18 Low CLP - CBR [ 60] (%) 5 Q Depth - BData B [ 8000] (Dec) 19 High CLP - CBR [ 80] (%) 6 Q Depth - High Pri [ 1000] (Dec) 20 Low CLP - VBR [ 60] (%) 7 Max Age - Voice [ 20] (Dec) 21 High CLP - VBR [ 80] (%) 8 Red Alm - I/O (Dec) [ 2500 / 15000]22 Low CLP/EPD-ABR [ 60] (%) 9 Yel Alm - I/O (Dec) [ 2500 / 15000]23 High CLP - ABR [ 80] (%) 10 Low CLP - BData A [ 100] (%) 24 EFCN - ABR [ 20] (%) 11 High CLP - BData A [ 100] (%) 25 SVC Queue Pool Size [ 0] (Dec) 12 Low CLP - BData B [ 25] (%) 13 High CLP - BData B [ 75] (%) 14 EFCN - BData B [ 30] (Dec) This Command: cnftrkparm 12.1

IGX 8400 Nodes

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set System-Wide Parameters 1 Max Time Stamped Packet Age (msec) ................................ 32 2 Fail Connections On Communication Break ........................... No 3 Max Network Delay for `v' connections (msec)....................... 14 4 Max Network Delay for `c' connections (msec)....................... 27 5 Max Network Delay for `t' & `p' connections (msec)................. 14 6 Max Network Delay for `a' connections (msec)....................... 27 7 Max Network Delay for High Speed Data connections (msec)........... 32 8 Max Network Delay for CDP-CDP `v' connections (msec)............... 64 9 Max Network Delay for CDP-CDP `c' connections (msec)............... 64 10 Max Network Delay for CDP-CDP `t' & `p' connections (msec)......... 64 11 Max Network Delay for CDP-CDP `a' connections (msec).............. 64 12 Max Network Delay for CDP-CDP High Speed Data connections (msec)... 64 13 Enable Discard Eligibility......................................... No 14 Use Frame Relay Standard Parameters Bc and Be...................... No 15 Max Local Delay for Interdom CDP-CDP `v' conns (msec).............. 27 16 Max Local Delay for Interdom CDP-CDP `c' conns (msec).............. 27 17 Max Local Delay for Interdom CDP-CDP `t' & `p' conns (msec)........ 27 18 Max Local Delay for Interdom CDP-CDP `a' conns (msec).............. 27 19 Max Local Delay for Interdom CDP-CDP High Speed Data conns (msec).. 27 20 Max Local Delay for Interdom High Speed Data conns (msec).......... 28 21 FastPAD Jitter Buffer Size (msec)................................. 15 22 Number of Consecutive Invalid Login Attempts to Cause Major Alarm . 0 23 Enable Connection Deroute Delay feature ........................... No 24 Interval Statstics polling rate for ATM/Frame Relay VCs............ 5 25 Interval Statistics polling rate for ports......................... 5 This Command: cnfsysparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set 1 Update Initial Delay [ 5000] (D) 16 CC Redundancy Cnfged [ Y] (Y/N) 2 Update Per-Node Delay [30000] (D) 17 MT3 Pass Through Relay [ Y] (Y/N) 3 Comm-Break Test Delay [30000] (D) 18 Nw Pkt Tx Rate (pps) [ 500] (D) 4 Comm-Break Test Offset [ 10] (D) 19 Stats Memory (x 100KB) [ 130] (D) 5 Network Timeout Period [ 1700] (D) 20 Standby Update Timer [ 10] (D) 6 Network Inter-p Period [ 4000] (D) 21 Stby Updts Per Pass [ 50] (D) 7 NW Sliding Window Size [ 1] (D) 22 Gateway ID Timer [ 30] (D) 8 Num Normal Timeouts [ 7] (D) 23 GLCON Alloc Timer [ 30] (D) 9 Num Inter-p Timeouts [ 3] (D) 24 Comm Fail Delay [ 60] (D) 10 Num Satellite Timeouts [ 6] (D) 25 Nw Hdlr Timer (msec) [ 100] (D) 11 Num Blind Timeouts [ 4] (D) 26 CBUS Delay (msec) [ 20] (D) 12 Num CB Msg Timeouts [ 2] (D) 27 SNMP Event logging [ Y] (Y/N) 13 Comm Fail Interval [10000] (D) 28 TFTP Grant Delay (sec) [ 1] (D) 14 Comm Fail Multiplier [ 3] (D) 29 TFTP ACK Timeout (sec) [ 10] (D) 15 Temperature Threshold [ 50] (D) 30 TFTP Write Retries [ 3] (D) 31 FRP Link Status Alarm [ Y] (Y/N) 32 Job Lock Timeout [ 0] (D) 33 Max Via LCONs [20000] (D) 34 Max Blind Segment Size [ 3570] (D) 35 Max XmtMemBlks per NIB [ 3000] (D) 36 Max Mem on Stby Q (%) [ 33] (D) 37 Trk Cell Rtng Restrict [ Y] (Y/N) 38 Stat Config Proc Cnt [ 1000] (D) 39 Stat Config Proc Delay [ 2000] (D) 40 Enable Degraded Mode [ Y] (Y/N) 41 Enable Rrt on Comm Fail[ N] (Y/N) 42 Auto Switch on Degrade [ Y] (Y/N) 43 Max Degraded Aborts [ 100] (D) 44 Modem polling timer [ 1] (D) 45 Verify CBA for non-FRP [ N] (Y/N) This Command: cnfnodeparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Index Status Function 1 Enabled Automatic CLN/PLN Loopback Test on Local/Remote Alarms 2 Enabled FDP Loopback button 3 Enabled User Command Logging 4 Enabled Automatic Card Reset on Hardware Error 5 Enabled TXR Model D Download 6 Enabled Card Error Record Wraparound 7 Disabled Card Test After Failure 8 Disabled Download From Remote Cisco StrataView Plus 9 Disabled Logging of conn events in local event log 10 Disabled Logging of conn events in Cisco StrataView Plus event log 11 Disabled Logging SVC Connection Events 12 Disabled Force Download From a Specific IP address 13 Disabled CDP WinkStart Signalling 14 Enabled Logging of Bus Diagnostic Events in local event log 15 Enabled Automatic Card Reset after Burnfw for CBI cards This Command: cnffunc thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Index Status Function 1 Disabled Data Frame Multiplexing 2 Disabled Adaptive Voice 3 Disabled Frame Relay 4 Disabled Configuration Save/Restore 5 Disabled ForeSight 6 Disabled Frame Relay Network-to-Network Interface 7 Disabled Multiple VTs (1 session enabled) 8 Disabled Interface Shelf 9 Disabled Virtual Trunks 10 Disabled ABR standard with VSVD This Command: cnfswfunc thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Type Freq Enable Inc Thresh Timeout Enable Inc Thresh ---- ----- -------- ------- ------- ------- -------- ------- ------- PSM 300 Enabled 100 300 31 N/A 100 300 HDM 300 Enabled 100 300 80 Enabled 100 300 LDM 300 Enabled 100 300 80 Enabled 100 300 NTM 300 Enabled 100 300 31 N/A 100 300 FRM 300 Enabled 100 300 80 Enabled 100 300 MT3 300 Enabled 100 300 50 N/A 100 300 CVM 300 Enabled 100 300 300 N/A 100 300 NPM 180 Enabled 100 300 120 N/A 100 300 ARM 300 Enabled 100 300 60 N/A 100 300 BTM 300 Enabled 100 300 120 N/A 100 300 FTM 300 Enabled 100 300 80 Disabled 100 300 UFM 300 Enabled 100 300 80 Enabled 100 300 UFMU 300 Enabled 100 300 80 Enabled 100 300 ALM 300 Enabled 100 300 120 N/A 100 300 UVM 300 Disabled 100 300 60 N/A 100 300 UXM 300 Enabled 100 300 800 Enabled 100 300 This Command: cnftstparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set 1 Normalization Interval [ 2] (D) 2 Max Number To Normalize [ 5] (D) 3 Normalization Logging [ No] 4 Settling Interval [ 4] (D) 5 Minimum Open Space [ 1000] (D) 6 Normalization Priority [ Load] 7 Load Sample Period [ 4] (D) 8 Maximum Routing Bundle [ 90] (D) 9 Reroute Timer [ 0] (secs) 10 Reset Timer on Line Fail [ Yes] 11 Max Down/Up Per Pass [ 50] (D) 12 Down/Up Timer [30000] (msecs) 13 Max Route Errs per cycle [ 200] (D) 14 Time between Rrt cycles [ 5] (mins) 15 Max. Rrt Err cycles [ 1] (D) 16 Routing pause timer [ 0] (msecs) 17 Max msgs sent per update [ 10] (D) 18 Send SVC urgent msg [ Yes] 19 Max SVC Retry [ 0] (D) 20 Wait for TBL Updates [ 70] (100 msecs) 21 Max Derouting Bndl (0=all)[ 500] (D) 22 Enable Cost-Based Routing [ No] 23 Enable Route Cache Usage [ No] 24 Use Delay for Routing [ No] 25 # of reroute groups used [ 50] (D) 26 Starting size of RR grps [ 0] (CLU) 27 Increment between RR grps [ 100] (CLU) This Command: cnfcmparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set 1 Rmt Blk Freq (msec) [ 100] 16 FW Dnld Msgs/Block(dec) [ 4] 2 Rmt Blk Size (hex) [ 400] 17 Flash Write TO(msec) [ 16000] 3 Lcl Blk Freq (msec) [ 100] 18 Flash Erase TO(msec) [ 100] 4 Lcl Blk Size (hex) [ 400] 19 Erase Verify TO(msec) [ 16000] 5 Image Req Freq (msec) [ 10000] 20 Standby Flash TO(sec) [ 300] 6 Dnld Req Freq (msec) [ 10000] 21 Lcl Flash Init TO(msec) [ 1000] 7 Session Timeout (msec) [ 30000] 22 Flsh Write Blk Sz (hex) [ 10000] 8 Request Hop Limit (dec) [ 1] 23 Flsh Verfy Blk Sz (hex) [ 400] 9 Crc Throttle Freq (dec) [ 5000] 24 Chips Per Write/Erase [ 1] 10 Crc Block Size (hex) [ 400] 11 Rev Change Wait(dec) [ 0] 12 CCs Switch Wait(dec) [ 1000] 13 Lcl Response TO(msec) [ 5000] 14 Rmt Response TO(msec) [ 30000] 15 FW Dnld Block TO(msec) [ 50] This Command: cnfdlparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set 1. Logout Time ........... 20 minutes 2. VT Logout Time ........ 4 minutes 3. Prompt Time ........... 60 seconds 4. Command Time .......... 3 minutes 5. UID Privilege Level ... 6 6. Input Character Echo .. Enabled 7. Screen Update Time .... 10 seconds This Command: cnfuiparm thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Function Number Status Function Number Status Background Upcard 1 Enabled Dynamic BW Allocation 15 Enabled Background Updates 2 Disabled Modem Polling 16 Enabled Standby Terminal 3 Disabled Conn Stat Sampling 17 Enabled Memory Protection 4 Enabled SVC Del Bgnd Updates 18 Disabled Comm Break 5 Enabled FastPAD Test 19 Enabled Comm Fail Test 6 Enabled Neighbor Update Errs 20 Disabled BRAM Memory Protect 7 Enabled CRC Test 8 Enabled CDT Clock Test 9 Enabled Bus Fail Detection 10 Enabled Line Diag 11 Enabled Clock Restoral 12 Enabled Cm_Rerouting 13 Enabled Clock Routing 14 Enabled This Command: on1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Function Number Status Function Number Status Line Stat Sampling 1 Enabled LAN Interface 15 Enabled Statistical Alarm 2 Enabled Update Standby Stats 16 Enabled Job Ready Checker 3 Enabled EIA Monitoring 17 Enabled Configuration Backup 4 Enabled Telnet Access 18 Enabled Standby Update 5 Enabled Junction ID 19 Enabled Downloader 6 Enabled Mult SV+/Routing Node 20 Enabled Cm Updates 7 Enabled Feeder with NW Trunks 21 Disabled Power Supply Monitor 8 Enabled Multiple Fdr Trunks 22 Disabled Topo/Stat Updates 9 Enabled Simulated Fdr Trks 23 Disabled CDP/CIP Sig. Polling 10 Enabled Auto Renum Fail Recov 24 Enabled Port Stat Sampling 11 Enabled IGX - ACM Selftest 25 Enabled Robust Updates 12 Enabled Card Simulation Tool 26 Enabled Robust Alarm Updates 13 Enabled Major Alarm on NNI 27 Disabled Realtime Counters 14 Enabled Deroute Delay 28 Enabled This Command: on2 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set Function Number Status Region memory init 1 Disabled Trace Msg Sent 2 Disabled Multi-DB Stby Updates 3 Enabled AIT/BTM/ALM 32h Ext2 4 Enabled Card Synchronization 5 Disabled Loop Access Dev Init 6 Disabled Auto allocate UXM UBU 7 Disabled Trace Conv Msg 8 Disabled Automatic Cbus Diags 9 Disabled This Command: on3

NTM-SR

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 3 Config SR/30 [10000 pps] NTM slot: 3 Subrate interface: X.21 Subrate data rate: 1920 kbps Pass sync: No Loop clock: Yes Statistical Reserve: 600 pps Routing Cost: 10 Restrict PCC traffic: No Link type: Terrestrial Valid Traffic Classes: V,TS,NTS,FR,FST Deroute delay time: 0 seconds Last Command: dsptrkcnf 3 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 3 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 27] 32 BDataA [ 600] 13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 37] 33 BDataB [ 600] 14 TS [ N/A] 17 HighPri[ N/A] 31 TS [ 2636] 34 HighPri[ 100] This Command: cnftrkparm 3

NTM-T1

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 4 Config T1/24 [8000 pps] NTM slot: 4 Line DS-0 map: 0-23 Deroute delay time: 0 seconds Pass sync: Yes Loop clock: No Statistical Reserve: 600 pps Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line framing: D4 Line coding: B8ZS Line cable type: ABAM Line cable length: 0-133 ft. Valid Traffic Classes: V,TS,NTS,FR,FST Last Command: dsptrkcnf 4 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 4 Parameters: 1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 22] 32 BDataA [ 600] 13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 30] 33 BDataB [ 600] 14 TS [ N/A] 17 HighPri[ N/A] 31 TS [ 2648] 34 HighPri[ 100] This Command: cnftrkparm 4

NTM-E1

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 5 Config E1/32 [10666 pps] NTM slot: 5 Line DS-0 map: 0-31 Pass sync: Yes Loop clock: No Statistical Reserve: 600 pps Routing Cost: 10 Idle code: 54 hex Restrict PCC traffic: No Link type: Terrestrial Line coding: HDB3 Line CRC: No Line recv impedance: 75 ohm + gnd Valid Traffic Classes: V,TS,NTS,FR,FST Deroute delay time: 0 seconds Last Command: dsptrkcnf 5 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 5 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 28] 32 BDataA [ 600] 13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 40] 33 BDataB [ 600] 14 TS [ N/A] 17 HighPri[ N/A] 31 TS [ 2632] 34 HighPri[ 100] This Command: cnftrkparm 5

ALM-T3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 6 Config T3/3 [1000 pps] ALM slot: 6 Transmit Trunk Rate: 96000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: No Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 6 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 6 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 1000] 29 Voice [ 532] 32 BDataA [ 1000] 13 Non TS [ 3] 16 BDataB [ 8000] 30 Non TS [ 795] 33 BDataB [ 8000] 14 TS [ 5993] 17 HighPri[ 1000] 31 TS [ 4673] 34 HighPri[ 1000] This Command: cnftrkparm 6

ALM-E3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 7 Config E3/3 [1000 pps] ALM slot: 7 Transmit Trunk Rate: 80000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: Yes Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 7 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 7 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 1000] 29 Voice [ 443] 32 BDataA [ 1000] 13 Non TS [ 3] 16 BDataB [ 8000] 30 Non TS [ 662] 33 BDataB [ 8000] 14 TS [ 5993] 17 HighPri[ 1000] 31 TS [ 4895] 34 HighPri[ 1000] This Command: cnftrkparm 7

BTM-E1

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 12 Config E1/32 [10666 pps] BTM slot: 12 Line DS-0 map: 0-31 Line coding: HDB3 Transmit Trunk Rate: 4830 cps Line CRC: No Rcv Trunk Rate: 10666 pps Line recv impedance: 75 ohm + gnd Pass sync: Yes HCS Masking: Yes Loop clock: No Payload Scramble: Yes Statistical Reserve: 600 pps Valid Traffic Classes: Header Type: STI V,TS,NTS,FR,FST Gateway Type: BAM Deroute delay time: 0 seconds VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Last Command: dsptrkcnf 12 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 12 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 28] 15 BDataA [ 600] 29 Voice [ 28] 32 BDataA [ 600] 13 Non TS [ 40] 16 BDataB [ 600] 30 Non TS [ 40] 33 BDataB [ 600] 14 TS [14632] 17 HighPri[ 100] 31 TS [14632] 34 HighPri[ 100] This Command: cnftrkparm 12

BTM-T3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 13 Config T3/3 [1000 pps] BTM slot: 13 Transmit Trunk Rate: 96000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: No Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 13 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 13 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 532] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 795] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [10045] 34 HighPri[ 100] This Command: cnftrkparm 13

BTM-HSSI

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 14 Config HSSI/3 [1000 pps] BTM slot: 14 Clock Rate: 50840000 bps Line cable length: 0-225 ft. Transmit Trunk Rate: 111491 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: No Pass sync: No Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Last Command: dsptrkcnf 14 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 14 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 617] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 922] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [ 9833] 34 HighPri[ 100] This Command: cnftrkparm 14

BTM-E2

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 15 Config E2/3 [1000 pps] BTM slot: 15 Transmit Trunk Rate: 19900 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: Yes Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 15 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 15 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 111] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 163] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [11098] 34 HighPri[ 100] This Command: cnftrkparm 15

BTM-E3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 16 Config E3/3 [1000 pps] BTM slot: 16 Transmit Trunk Rate: 80000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: Yes Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 16 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 16 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 443] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 662] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [10267] 34 HighPri[ 100] This Command: cnftrkparm 16

UXM-E1 (using the E1-IMA backcard with only one physical line up)

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 9.1 Config E1/30 [4528 cps] UXM slot: 9 Line DS-0 map: 1-15,17-31 HCS Masking: Yes Transmit Trunk Rate: 4528 cps Payload Scramble: Yes Rcv Trunk Rate: 4528 cps Connection Channels: 256 Pass sync: Yes Gateway Channels: 200 Loop clock: No Valid Traffic Classes: Statistical Reserve: 600 cps V,TS,NTS,FR,FST,CBR,VBR,ABR Header Type: NNI Deroute delay time: 0 seconds VPI Address: 1 VPC Conns disabled: No Routing Cost: 10 Idle code: 54 hex Restrict PCC traffic: No Link type: Terrestrial Line coding: HDB3 Line recv impedance: 120 ohm Last Command: dsptrkcnf 9.1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 9.1 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 27] 15 BDataA [10000] 29 Voice [ 26] 32 BDataA [10000] 13 Non TS [ 37] 16 BDataB [10000] 30 Non TS [ 36] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 9.1

UXM/E1-IMA (4 physical lines up)

thething TRM StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 9.1-4 Config E1/119 [17962 cps] UXM slot: 9 Line DS-0 map: 1-15,17-31 HCS Masking: Yes Transmit Trunk Rate: 17962 cps Payload Scramble: Yes Rcv Trunk Rate: 17962 cps Connection Channels: 256 Pass sync: Yes Gateway Channels: 200 Loop clock: No Valid Traffic Classes: Statistical Reserve: 600 cps V,TS,NTS,FR,FST,CBR,VBR,ABR Header Type: NNI Retained links: 4 VPI Address: 1 IMA link auto disable:Disable Routing Cost: 10 Deroute delay time: 0 seconds Idle code: 54 hex VPC Conns disabled: No Restrict PCC traffic: No Link type: Terrestrial Line coding: HDB3 Line recv impedance: 120 ohm Last Command: dsptrkcnf 9.1 thething TRM StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 9.1-4 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 101] 15 BDataA [10000] 29 Voice [ 100] 32 BDataA [10000] 13 Non TS [ 148] 16 BDataB [10000] 30 Non TS [ 147] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]

UXM-T1 (using the T1-IMA backcard with only one physical line up)

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 8.1 Config T1/24 [3622 cps] UXM slot: 8 Transmit Trunk Rate: 3622 cps Line cable length: 0-131 ft. Rcv Trunk Rate: 3622 cps HCS Masking: Yes Pass sync: Yes Payload Scramble: No Loop clock: No Connection Channels: 256 Statistical Reserve: 600 cps Gateway Channels: 200 Header Type: NNI Valid Traffic Classes: VPI Address: 1 V,TS,NTS,FR,FST,CBR,VBR,ABR Routing Cost: 10 Deroute delay time: 0 seconds Idle code: 7F hex VPC Conns disabled: No Restrict PCC traffic: No Link type: Terrestrial Line framing: ESF Line coding: B8ZS Line cable type: ABAM Last Command: dsptrkcnf 8.1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 8.1 Parameters: 1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 22] 15 BDataA [10000] 29 Voice [ 21] 32 BDataA [10000] 13 Non TS [ 30] 16 BDataB [10000] 30 Non TS [ 28] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 8.1

UXM/T1-IMA (4 physical lines up)

thething TRM StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 8.1-4 Config T1/95 [14339 cps] UXM slot: 8 Transmit Trunk Rate: 14339 cps Line cable length: 0-131 ft. Rcv Trunk Rate: 14339 cps HCS Masking: Yes Pass sync: Yes Payload Scramble: No Loop clock: No Connection Channels: 256 Statistical Reserve: 600 cps Gateway Channels: 200 Header Type: NNI Valid Traffic Classes: VPI Address: 1 V,TS,NTS,FR,FST,CBR,VBR,ABR Routing Cost: 10 Retained links: 4 Idle code: 7F hex IMA link auto disable:Disable Restrict PCC traffic: No Deroute delay time: 0 seconds Link type: Terrestrial VPC Conns disabled: No Line framing: ESF Line coding: B8ZS Line cable type: ABAM Last Command: dsptrkcnf 8.1 thething TRM StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 8.1-4 Parameters: 1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 81] 15 BDataA [10000] 29 Voice [ 80] 32 BDataA [10000] 13 Non TS [ 118] 16 BDataB [10000] 30 Non TS [ 117] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 8.1

UXM-E3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Config E3/530 [80000 cps] UXM slot: 11 Transmit Trunk Rate: 80000 cps Payload Scramble: Yes Rcv Trunk Rate: 80000 cps Connection Channels: 256 Pass sync: Yes Gateway Channels: 200 Loop clock: No Valid Traffic Classes: Statistical Reserve: 1000 cps V,TS,NTS,FR,FST,CBR,VBR,ABR Header Type: NNI Deroute delay time: 0 seconds VPI Address: 1 VPC Conns disabled: No Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line framing: HEC Line cable length: 0-225 ft. HCS Masking: Yes Last Command: dsptrkcnf 11.1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 443] 15 BDataA [10000] 29 Voice [ 443] 32 BDataA [10000] 13 Non TS [ 662] 16 BDataB [10000] 30 Non TS [ 662] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 11.1

UXM-T3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Config T3/636 [96000 cps] UXM slot: 11 Transmit Trunk Rate: 96000 cps Payload Scramble: No Rcv Trunk Rate: 96000 cps Connection Channels: 256 Pass sync: Yes Gateway Channels: 200 Loop clock: No Valid Traffic Classes: Statistical Reserve: 1000 cps V,TS,NTS,FR,FST,CBR,VBR,ABR Header Type: NNI Deroute delay time: 0 seconds VPI Address: 1 VPC Conns disabled: No Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line framing: PLCP Line cable length: 0-225 ft. HCS Masking: Yes Last Command: dsptrkcnf 11.1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 532] 15 BDataA [10000] 29 Voice [ 532] 32 BDataA [10000] 13 Non TS [ 795] 16 BDataB [10000] 30 Non TS [ 795] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 11.1

UXM-OC3

thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Config OC3 [353207cps] UXM slot: 11 Transmit Trunk Rate: 353208 cps Connection Channels: 256 Rcv Trunk Rate: 353207 cps Gateway Channels: 200 Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST,CBR,VBR,ABR Statistical Reserve: 1000 cps Frame Scramble: Yes Header Type: NNI Deroute delay time: 0 seconds VPI Address: 1 VPC Conns disabled: No Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line framing: STS-3C HCS Masking: Yes Payload Scramble: Yes Last Command: dsptrkcnf 11.1 thething TN StrataCom IGX 8420 9.1.19 Date/Time Not Set TRK 11.1 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 10000] 18 Red Alm-In/Out (D) [ 2500/ 10000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 20] 20 Tx EFCN - BdataB (%) [ 20] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP/EPD- Rx_Space (%) [ N/A] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 8 BDataA [ 80] 10 BDataA [ 60] 25 BDataA [ 80] 27 BDataA [ 60] 9 BDataB [ 80] 11 BdataB [ 60] 26 BDataB [ 80] 28 BDataB [ 60] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 1952] 15 BDataA [10000] 29 Voice [ 1952] 32 BDataA [10000] 13 Non TS [ 2925] 16 BDataB [10000] 30 Non TS [ 2925] 33 BDataB [10000] 14 TS [ 1000] 17 HighPri[ 1000] 31 TS [ 1000] 34 HighPri[ 1000] Rx Queue Depth(D) Tx Queue Depth(D) Rx EFCN (%) Tx EFCN (%) 35 CBR [ 600] 38 CBR [ 600] 36 VBR [ 5000] 39 VBR [ 5000] 37 ABR [20000] 40 ABR [20000] 47 ABR [ 20] 48 ABR [ 20] Rx High CLP (%) Rx Low CLP/EPD(%) Tx High CLP (%) Tx Low CLP/EPD(%) 41 CBR [ 80] 44 CBR [ 60] 49 CBR [ 80] 52 CBR [ 60] 42 VBR [ 80] 45 VBR [ 60] 50 VBR [ 80] 53 VBR [ 60] 43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60] This Command: cnftrkparm 11.1

IPX Nodes:

itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:00 PDT System-Wide Parameters 1 Max Time Stamped Packet Age (msec) ................................ 32 2 Fail Connections On Communication Break ........................... No 3 Max Network Delay for `v' connections (msec)....................... 14 4 Max Network Delay for `c' connections (msec)....................... 27 5 Max Network Delay for `t' & `p' connections (msec)................. 14 6 Max Network Delay for `a' connections (msec)....................... 27 7 Max Network Delay for High Speed Data connections (msec)........... 32 8 Max Network Delay for CDP-CDP `v' connections (msec)............... 64 9 Max Network Delay for CDP-CDP `c' connections (msec)............... 64 10 Max Network Delay for CDP-CDP `t' & `p' connections (msec)......... 64 11 Max Network Delay for CDP-CDP `a' connections (msec).............. 64 12 Max Network Delay for CDP-CDP High Speed Data connections (msec)... 64 13 Enable Discard Eligibility......................................... No 14 Use Frame Relay Standard Parameters Bc and Be...................... No 15 Max Local Delay for Interdom CDP-CDP `v' conns (msec).............. 27 16 Max Local Delay for Interdom CDP-CDP `c' conns (msec).............. 27 17 Max Local Delay for Interdom CDP-CDP `t' & `p' conns (msec)........ 27 18 Max Local Delay for Interdom CDP-CDP `a' conns (msec).............. 27 19 Max Local Delay for Interdom CDP-CDP High Speed Data conns (msec).. 27 20 Max Local Delay for Interdom High Speed Data conns (msec).......... 28 21 FastPAD Jitter Buffer Size (msec)................................. 15 22 Number of Consecutive Invalid Login Attempts to Cause Major Alarm . 0 23 Enable Connection Deroute Delay feature ........................... Yes 24 Interval Statstics polling rate for ATM/Frame Relay VCs............ 5 25 Interval Statistics polling rate for ports......................... 5 This Command: cnfsysparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:00 PDT 1 Update Initial Delay [ 5000] (D) 16 CC Redundancy Cnfged [ Y] (Y/N) 2 Update Per-Node Delay [30000] (D) 17 MT3 Pass Through Relay [ Y] (Y/N) 3 Comm-Break Test Delay [30000] (D) 18 Nw Pkt Tx Rate (pps) [ 500] (D) 4 Comm-Break Test Offset [ 10] (D) 19 TFTP Memory (x 10KB) [ 210] (D) 5 Network Timeout Period [ 1700] (D) 20 Standby Update Timer [ 10] (D) 6 Network Inter-p Period [ 4000] (D) 21 Stby Updts Per Pass [ 50] (D) 7 NW Sliding Window Size [ 1] (D) 22 Gateway ID Timer [ 30] (D) 8 Num Normal Timeouts [ 7] (D) 23 GLCON Alloc Timer [ 30] (D) 9 Num Inter-p Timeouts [ 3] (D) 24 Comm Fail Delay [ 60] (D) 10 Num Satellite Timeouts [ 6] (D) 25 Nw Hdlr Timer (msec) [ 100] (D) 11 Num Blind Timeouts [ 4] (D) 26 CBUS Delay (msec) [ 20] (D) 12 Num CB Msg Timeouts [ 2] (D) 27 SNMP Event logging [ Y] (Y/N) 13 Comm Fail Interval [10000] (D) 28 TFTP Grant Delay (sec) [ 1] (D) 14 Comm Fail Multiplier [ 3] (D) 29 TFTP ACK Timeout (sec) [ 10] (D) 15 Temperature Threshold [ 50] (D) 30 TFTP Write Retries [ 3] (D) 31 FRP Link Status Alarm [ Y] (Y/N) 32 Job Lock Timeout [ 0] (D) 33 Max Via LCONs [20000] (D) 34 Max Blind Segment Size [ 3570] (D) 35 Max XmtMemBlks per NIB [ 3000] (D) 36 Max Mem on Stby Q (%) [ 33] (D) 37 Trk Cell Rtng Restrict [ Y] (Y/N) 38 Stat Config Proc Cnt [ 1000] (D) 39 Stat Config Proc Delay [ 2000] (D) 40 Enable Degraded Mode [ Y] (Y/N) 41 Enable Rrt on Comm Fail[ N] (Y/N) 42 Auto Switch on Degrade [ Y] (Y/N) 43 Max Degraded Aborts [ 100] (D) 44 Modem polling timer [ 1] (D) 45 Verify CBA for non-FRP [ N] (Y/N) This Command: cnfnodeparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:00 PDT Index Status Function 1 Enabled Automatic CLN/PLN Loopback Test on Local/Remote Alarms 2 Enabled FDP Loopback button 3 Enabled User Command Logging 4 Enabled Automatic Card Reset on Hardware Error 5 Enabled TXR Model D Download 6 Enabled Card Error Record Wraparound 7 Disabled Card Test After Failure 8 Disabled Download From Remote Cisco StrataView Plus 9 Disabled Logging of conn events in local event log 10 Disabled Logging of conn events in Cisco StrataView Plus event log 11 Disabled Logging SVC Connection Events 12 Disabled Force Download From a Specific IP address 13 Disabled CDP WinkStart Signalling 14 Enabled Logging of Bus Diagnostic Events in local event log 15 Enabled Automatic Card Reset after Burnfw for CBI cards This Command: cnffunc itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:01 PDT Index Status Function 1 Disabled Data Frame Multiplexing 2 Disabled Adaptive Voice 3 Disabled Frame Relay 4 Disabled Configuration Save/Restore 5 Disabled ForeSight 6 Disabled Frame Relay Network-to-Network Interface 7 Disabled Multiple VTs (1 session enabled) 8 Disabled Interface Shelf This Command: cnfswfunc itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:01 PDT Type Freq Enable Inc Thresh Timeout Enable Inc Thresh ---- ----- -------- ------- ------- ------- -------- ------- ------- PSM 300 Enabled 100 300 31 N/A 100 300 SDP 300 Enabled 100 300 80 Enabled 100 300 LDP 300 Enabled 100 300 80 Enabled 100 300 NTC 300 Enabled 100 300 31 N/A 100 300 FRP 300 Enabled 100 300 80 Enabled 100 300 MT3 300 Enabled 100 300 50 N/A 100 300 CDP 300 Enabled 100 300 300 N/A 100 300 NPC 180 Enabled 100 300 120 N/A 100 300 ARC 300 Enabled 100 300 60 N/A 100 300 AIT 300 Enabled 100 300 120 N/A 100 300 FTC 300 Enabled 100 300 80 Disabled 100 300 UFM 300 Enabled 100 300 80 Enabled 100 300 UFMU 300 Enabled 100 300 80 Enabled 100 300 ALM 300 Enabled 100 300 120 N/A 100 300 UVM 300 Disabled 100 300 60 N/A 100 300 UXM 300 Enabled 100 300 800 Enabled 100 300 This Command: cnftstparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:01 PDT 1 Normalization Interval [ 2] (D) 2 Max Number To Normalize [ 5] (D) 3 Normalization Logging [ No] 4 Settling Interval [ 4] (D) 5 Minimum Open Space [ 1000] (D) 6 Normalization Priority [ Load] 7 Load Sample Period [ 4] (D) 8 Maximum Routing Bundle [ 90] (D) 9 Reroute Timer [ 0] (secs) 10 Reset Timer on Line Fail [ Yes] 11 Max Down/Up Per Pass [ 50] (D) 12 Down/Up Timer [30000] (msecs) 13 Max Route Errs per cycle [ 200] (D) 14 Time between Rrt cycles [ 5] (mins) 15 Max. Rrt Err cycles [ 1] (D) 16 Routing pause timer [ 0] (msecs) 17 Max msgs sent per update [ 10] (D) 18 Send SVC urgent msg [ Yes] 19 Max SVC Retry [ 0] (D) 20 Wait for TBL Updates [ 70] (100 msecs) 21 Max Derouting Bndl (0=all)[ 500] (D) 22 Enable Cost-Based Routing [ No] 23 Enable Route Cache Usage [ No] 24 Use Delay for Routing [ No] 25 # of reroute groups used [ 50] (D) 26 Starting size of RR grps [ 0] (CLU) 27 Increment between RR grps [ 100] (CLU) This Command: cnfcmparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:01 PDT 1 Rmt Blk Freq (msec) [ 100] 16 FW Dnld Msgs/Block(dec) [ 4] 2 Rmt Blk Size (hex) [ 400] 17 Flash Write TO(msec) [ 16000] 3 Lcl Blk Freq (msec) [ 100] 18 Flash Erase TO(msec) [ 100] 4 Lcl Blk Size (hex) [ 400] 19 Erase Verify TO(msec) [ 16000] 5 Image Req Freq (msec) [ 10000] 20 Standby Flash TO(sec) [ 300] 6 Dnld Req Freq (msec) [ 10000] 21 Lcl Flash Init TO(msec) [ 1000] 7 Session Timeout (msec) [ 30000] 22 Flsh Write Blk Sz (hex) [ 10000] 8 Request Hop Limit (dec) [ 1] 23 Flsh Verfy Blk Sz (hex) [ 400] 9 Crc Throttle Freq (dec) [ 5000] 24 Chips Per Write/Erase [ 1] 10 Crc Block Size (hex) [ 400] 11 Rev Change Wait(dec) [ 0] 12 CCs Switch Wait(dec) [ 1000] 13 Lcl Response TO(msec) [ 5000] 14 Rmt Response TO(msec) [ 30000] 15 FW Dnld Block TO(msec) [ 50] This Command: cnfdlparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT 1. Logout Time ........... No Timeout 2. VT Logout Time ........ 4 minutes 3. Prompt Time ........... 60 seconds 4. Command Time .......... 3 minutes 5. UID Privilege Level ... 6 6. Input Character Echo .. Enabled 7. Screen Update Time .... 10 seconds This Command: cnfuiparm itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT Function Number Status Function Number Status Background Upcard 1 Enabled Dynamic BW Allocation 15 Enabled Background Updates 2 Disabled Modem Polling 16 Enabled Standby Terminal 3 Disabled Conn Stat Sampling 17 Enabled Memory Protection 4 Enabled SVC Del Bgnd Updates 18 Enabled Comm Break 5 Enabled FastPAD Test 19 Enabled Comm Fail Test 6 Enabled Neighbor Update Errs 20 Disabled BRAM Memory Protect 7 Enabled CRC Test 8 Enabled CDT Clock Test 9 Enabled Bus Fail Detection 10 Enabled Line Diag 11 Enabled Clock Restoral 12 Enabled Cm_Rerouting 13 Enabled Clock Routing 14 Enabled This Command: on1 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT Function Number Status Function Number Status Line Stat Sampling 1 Enabled LAN Interface 15 Enabled Statistical Alarm 2 Enabled Update Standby Stats 16 Enabled Job Ready Checker 3 Enabled EIA Monitoring 17 Enabled Configuration Backup 4 Enabled Telnet Access 18 Enabled Standby Update 5 Enabled Junction ID 19 Enabled Downloader 6 Enabled Mult SV+/Routing Node 20 Enabled Cm Updates 7 Enabled Feeder with NW Trunks 21 Disabled Power Supply Monitor 8 Enabled Multiple Fdr Trunks 22 Disabled Topo/Stat Updates 9 Enabled Simulated Fdr Trks 23 Disabled CDP/CIP Sig. Polling 10 Enabled Auto Renum Fail Recov 24 Enabled Port Stat Sampling 11 Enabled IGX - ACM Selftest 25 Disabled Robust Updates 12 Enabled Card Simulation Tool 26 Enabled Robust Alarm Updates 13 Enabled Major Alarm on NNI 27 Disabled Realtime Counters 14 Enabled Deroute Delay 28 Enabled This Command: on2 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT Function Number Status Region memory init 1 Enabled Trace Msg Sent 2 Disabled Multi-DB Stby Updates 3 Enabled AIT/BTM/ALM 32h Ext2 4 Enabled Card Synchronization 5 Disabled Loop Access Dev Init 6 Disabled Auto allocate UXM UBU 7 Disabled Trace Conv Msg 8 Disabled Automatic Cbus Diags 9 Disabled This Command: on3 NTC-E1 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT TRK 4 Config E1/32 [10666 pps] NTC slot: 4 Line DS-0 map: 0-31 Pass sync: Yes Loop clock: No Statistical Reserve: 600 pps Routing Cost: 10 Idle code: 54 hex Restrict PCC traffic: No Link type: Terrestrial Line coding: HDB3 Line CRC: No Line recv impedance: 75 ohm + gnd Valid Traffic Classes: V,TS,NTS,FR,FST Deroute delay time: 0 seconds Last Command: dsptrkcnf 4 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT TRK 4 Parameters: 1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000] 2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 28] 32 BDataA [ 600] 13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 40] 33 BDataB [ 600] 14 TS [ N/A] 17 HighPri[ N/A] 31 TS [ 2632] 34 HighPri[ 100] This Command: cnftrkparm 4 NTC-T1 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:02 PDT TRK 5 Config T1/24 [8000 pps] NTC slot: 5 Line DS-0 map: 0-23 Deroute delay time: 0 seconds Pass sync: Yes Loop clock: No Statistical Reserve: 600 pps Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line framing: D4 Line coding: B8ZS Line cable type: ABAM Line cable length: 0-133 ft. Valid Traffic Classes: V,TS,NTS,FR,FST Last Command: dsptrkcnf 5 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:03 PDT TRK 5 Parameters: 1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ N/A] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ N/A] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ N/A] 5 EFCN - Rx Space (D) [ N/A] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ N/A] 21 BDataA [ 128] 23 BDataA [ 128] 7 High CLP - Rx_Space (%) [ N/A] 22 BDataB [ 128] 24 BDataB [ 128] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ N/A] 10 BDataA [ N/A] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ N/A] 11 BdataB [ N/A] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ N/A] 15 BDataA [ N/A] 29 Voice [ 22] 32 BDataA [ 600] 13 Non TS [ N/A] 16 BDataB [ N/A] 30 Non TS [ 30] 33 BDataB [ 600] 14 TS [ N/A] 17 HighPri[ N/A] 31 TS [ 2648] 34 HighPri[ 100] This Command: cnftrkparm 5

AIT-T3

itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:03 PDT TRK 6 Config T3/3 [1000 pps] AIT slot: 6 Transmit Trunk Rate: 96000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: No Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 6 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:03 PDT TRK 6 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 532] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 795] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [10045] 34 HighPri[ 100] This Command: cnftrkparm 6 AIT-E3 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:28 PDT TRK 7 Config E3/3 [1000 pps] AIT slot: 7 Transmit Trunk Rate: 80000 cps HCS Masking: Yes Rcv Trunk Rate: 1000 pps Payload Scramble: Yes Pass sync: Yes Valid Traffic Classes: Loop clock: No V,TS,NTS,FR,FST Statistical Reserve: 1000 pps Deroute delay time: 0 seconds Header Type: STI Gateway Type: BAM VPI Address: 0 VCI Address: 0 Routing Cost: 10 Idle code: 7F hex Restrict PCC traffic: No Link type: Terrestrial Line cable length: 0-225 ft. Last Command: dsptrkcnf 7 itchy TN StrataCom IPX 8 9.1.19 Jan. 5 2000 22:28 PDT TRK 7 Parameters: 1 Yel Alm-In/Out (D) [ 2500/ 15000] 18 Red Alm-In/Out (D) [ 2500/ 15000] 2 Rx Max Age - Voice (D) [ 20] 19 Tx Max Age - Voice (D) [ 20] 3 Rx EFCN - BdataB (D) [ 30] 20 Tx EFCN - BdataB (D) [ 30] 4 Gateway Efficiency (D) [ 2.0] 5 EFCN - Rx Space (D) [ 30] Tx Age Step2 (D) Tx Age Step (D) 6 Low CLP - Rx_Space (%) [ 100] 21 BDataA [ N/A] 23 BDataA [ N/A] 7 High CLP - Rx_Space (%) [ 100] 22 BDataB [ N/A] 24 BDataB [ N/A] Rx High CLP (%) Rx Low CLP (%) Tx High CLP (%) Tx Low CLP (%) 8 BDataA [ 100] 10 BDataA [ 100] 25 BDataA [ 100] 27 BDataA [ 100] 9 BDataB [ 75] 11 BdataB [ 25] 26 BDataB [ 75] 28 BDataB [ 25] Receive Queue Depth (D) Transmit Queue Depth (D) 12 Voice [ 4] 15 BDataA [ 2264] 29 Voice [ 443] 32 BDataA [ 2264] 13 Non TS [ 3] 16 BDataB [ 2264] 30 Non TS [ 662] 33 BDataB [ 2264] 14 TS [11365] 17 HighPri[ 100] 31 TS [10267] 34 HighPri[ 100] This Command: cnftrkparm 7

UXM Firmware Release Notes

UXM AAB Firmware

If the UXM is running a version of FW other than AAA (i.e. AA14), you must first burn the boot code, then burn the firmware rev AAA.

The current boot version for rev AAB is 04.

When burning FW into a Standby card, make sure that selftest and background tests are disabled.

Fixes/Enhancements

CSCdk10811

Selftest interaction with Background test

CSCdk04879

SW error 21 was logged on a UXM on an IGX 8400 feeder node after a switchcc

CSCdk08821

SWERR 103 logged when one of the port is failed in port y-red setup

Compatibility

This FW and the UXM HW is only compatible with Switch Software release 9.1.

This FW requires UXM boot rev 04. To determine the boot rev, at the UI, type:

rsh # sys version

(where # is the slot # of the card)

To burn the boot, use the same method as burning the FW.

Known Bugs and Symptoms

Firmware Related

CSCdk04879

UXM cards declare hardware failure during NPM rebuild.

After a clrcnf, some UXMs may momentarily declare a 0B err with error ID 0x301. The error clears on its own with no user intervention required.

This bug has no effect on the function of the UXM.

CSCdj85681

Ingress unfairness can occur between the fastpacket and cell VIs.

This issue may result in one VI using more than the expected available bandwidth. Only the ingress direction is affected.

CSCdk08814

SWERR 105 logged on UXM card after upgrading from 9.1.0E to 9.1.00.

This has been observed once. This cause is currently unknown.

CSCdk16979

SW ERR 21 and 103 on node n2a

This has been observed twice. It is believed to be a result of sending SW ERR 21 reports to the NPM at a rate higher than the message controller can handle causing the message controller to stop processing further messages.

There is no workaround, the UXM must be reset. Throttling will be implemented for the next release.

CSCdk16583

Comm Failure on UXM-UXM trunk.

This has been observed once. The cause is unknown at this time.

CSCdk20519

Reroutes on UXM Y-red switchover with E3 backcard when connect to a BXM.

The BXM detects a line alarms which is reported and initiates conn reroutes.

Hardware Related

CSCdj34855

VI OAM cell stats include backward routing tagged AIS cells.

This is an anomaly of the hardware and can only be addressed by a change to the QE ASIC.

CSCdj63546

UXM does not power up.

The power monitor intermittently fails when a UXM is inserted.

To prevent the failure, the PMON_OFF jumper must be installed.

UVM DDD Firmware Release Notes

Features Supported

With Release 9.1.x s/w and f/w (f/w Model D), the UVM (Universal Voice Module) card, along with an associated back card (BC-UVI-2T1EC, BC-UVI-2E1EC, or BC-UVI-2J1EC), provides the following features:

Features NOT Supported

The following features are not supported in this release:

Special Installation/Upgrade Requirements

Minimum hardware Rev. required for Model D UVM firmware to work is hardware Rev B. If you have UVM boards with h/w Rev. A, please upgrade them through the RMA program before installing new firmware.

Notes & Cautions

Exceptions and limitations that exist with this release:

Compatibility Notes

Bugs Fixed in this Release

CSCdk45361 - Some fax calls using fax relay fail when network delay exceeds 350 msec.

CSCdk80399 - Fast modem upgrade fails intermittently.

CSCdk81165 - UVM Fax Relay fails intermittently with Xerox and Canon fax machine.

CSCdk86626 - Some heartbeat TSP packets are never transmitted to the bus causing some fax calls to fail.

CSCdk86712 - Fax relay calls have poor success rate with Lucent PBXs.

CSCdk88474 - UVM echo convergence time is greater than 5 seconds when ERL is low (~6 dB). See the first paragraph in the Enhancements section below.

Enhancements

Made the echo-canceler upper convergence speed threshold (UCST) user configurable (refer to bug# CSCdk88474 above). This parameter improves convergence time on circuits with poor ERL. Use "cnfuvmchparm" parameter 8 to choose among the following four values for UCST:

Keeping in mind that the fastest setting will also result in the greatest instance of "reconverge" (this is when in the middle of a conversation, echo is heard for a fraction of a second) at the beginnings of distinct sentences, or periods of speech.

The default value of the UCST parameter, which was set at 12 dB (0x2000) in rev DDC, has been changed to 18 dB (0x1000) in rev DDD. Setting cnfuvmchparm parameter 8 to "0" sets this threshold to its default value.

UVM firmware now transmits a 56 message to swsw during modem upgrade and downgrade. This helps improve modem upgrade success rate in some cases (see switch sw bug# CSCdk75382 for details).

Integrated G.729 image with transient PCM code for fast 64K switchover during fax/modem upgrade.

Known Problems in this Release

BXM Firmware Release Notes, version MCB

Fixes/Enhancements

CSCdj90575 - One Way Foresight

CSCdk11842 - BIP 8 errors counts as P-bit Parity errors

CSCdk11853 - BIP8 errors stop counting at 10E-6

CCSdk11857 - AIS signal detected as LOF

CSCdk11863 - No count of momentary LOF

CSCdk18686 - Card error shows Address Load Exception

CSCdk23762 - BXM stops passing e2e OAM cells.

CSCdk26211 - Increase Simba Queue depth to 7

CSCdk27885 - Turn off simba look ahead feature

CSCdk38806 - Switchyred causes BXM remote framing alarm

CSCdk39716 - BXM-155 HCS burst errors

CSCdk46806 - VSI version 1 and 2 discovery problem

CSCdk48827 - Bip8 SES not counted

CSCdk51110 - Make Y-RED fatal message for link list corruption

CSCdk54028 - TSC failed trunk recovery after reset

CSCdk53247 - TSC xtag interface failed to come up after FW upgrade

CSCdk44414 - Card errors on standby BXM after download of FW MBX

CSCdk50133 - BXM card recycling while doing selftest

CSCdk58155 - BXM is removed and reinserted by itself continuously

CSCdk61949 - BXMs MBX removing inserting

Obtaining Service and Support

For service and support for a product purchased from a reseller, contact the reseller. Resellers offer a wide variety of Cisco service and support programs, which are described in the section "Service and Support" in the information packet that shipped with your chassis.


Note   If you purchased your product from a reseller, you can access Cisco Connection On-line (CCO) as a guest. CCO is Cisco Systems' primary, real-time support channel. Your reseller offers programs that include direct access to CCO's services.

For service and support for a product purchased directly from Cisco, use CCO.

Cisco Connection On-line

Cisco Connection On-line (CCO) is Cisco Systems' primary, real-time support channel. Maintenance customers and partners can self-register on CCO to obtain additional information and services.

Available 24 hours a day, 7 days a week, CCO provides a wealth of standard and value-added services to Cisco's customers and business partners. CCO services include product information, product documentation, software updates, release notes, technical tips, the Bug Navigator, configuration notes, brochures, descriptions of service offerings, and download access to public and authorized files.

CCO serves a wide variety of users through two interfaces that are updated and enhanced simultaneously: a character-based version and a multimedia version that resides on the World Wide Web (WWW). The character-based CCO supports Zmodem, Kermit, Xmodem, FTP, and Internet e-mail, and it is excellent for quick access to information over lower bandwidths. The WWW version of CCO provides richly formatted documents with photographs, figures, graphics, and video, as well as hyperlinks to related information.

You can access CCO in the following ways:

For a copy of CCO's Frequently Asked Questions (FAQ), contact cco-help@cisco.com. For additional information, contact cco-team@cisco.com.


Note   If you are a network administrator and need personal technical assistance with a Cisco product that is under warranty or covered by a maintenance contract, contact Cisco's Technical Assistance Center (TAC) at 800 553-2447, 408 526-7209, or tac@cisco.com. To obtain general information about Cisco Systems, Cisco products, or upgrades, contact 800 553-6387, 408 526-7208, or cs-rep@cisco.com.





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Posted: Mon Jan 15 21:36:40 PST 2001
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