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The 9.2 software release supports the Cisco WAN switching products, BPX 8600 series and IGX 8400 series. This release does not support IPX switch.
The MSSBU rollout plans for the 9.2 release is based upon a series of incremental feature releases. This
phased feature release strategy is designed to allow the earliest customer availability of key new features, consistent with maintaining high product quality. For the latest status of each 9.2 feature please see below.
The minimum release version noted in the table below represents the minimum switch software version required for each feature. As usual, it is recommended that the most current maintenance releases be used by customers.
Generally Available (GA) - Feature is ready for wide deployment with no restrictions. Customers deploying GA features are supported by the Technical Assistance Center (TAC).
First Customer Ship (FCS) - Feature is available for controlled introduction by selected customers. To trial an FCS feature, please contact your account representative.
Customers selected for controlled introduction will receive assistance with test plan review and special support from the New Product Team (NPT) in addition to the normal Technical Assistance Center (TAC) support.
Pre-First Customer Ship (Pre-FCS) - Feature is not yet available in the Switch Software baseline.
Target Date - This is the date for feature delivery that is supported by current Engineering and Marketing plans. This date is subject to change.
| Product | Feature Name | FCS/GA Status | Minimum Release |
IGX | Support for UXM XLR card | GA | 9.2.30 |
BPX | Support Multiple VSI Partitions | FCS | 9.2.30 |
IGX | HDM/LDM Control Lead Trap | FCS | 9.2.30 |
IGX | Support UXM Feeder | FCS | 9.2.30 |
IGX | SES Feeder to IGX | GA | 9.2.23 |
BPX | Include Sonet line protection: APS on BXM-OC3 and BXM-OC12 (1+1) | FCS | 9.2.20 |
BPX | Include Sonet line protection: APS on BXM-OC3 and BXM-OC12 (2 card, 1:1) | FCS | 9.2.20 |
BPX | Support for 16K connections | GA | 9.2.20 |
BPX | Support for LMI/ILMI on BXM card | GA | 9.2.20 |
BPX | Support for Virtual Trunking on the BXM card | GA | 9.2.20 |
BPX | Support for Virtual Switch Interface (VSI) 2.2 | GA | This interface is available in 9.2.20. Use of this interface is dependent upon other products, for example IOS. |
BPX/IGX | A-Bit Notification | GA | 9.2.20 |
BPX/IGX | Alarms for all service affecting events | GA | 9.2.20 |
BPX/IGX | Support for feature mismatch on BXM and UXM cards | GA | 9.2.20 |
BPX/IGX | Support for Hitless Rebuild including Disable Auto Bus Diagnostics | GA | 9.2.20 |
BPX/IGX | Support for IGX and BPX trunk reconfiguration without outage | GA | 9.2.20 |
BPX/IGX | Support for Revision Interoperability between 9.1 and 9.2 | GA | 9.2.20 |
BPX/IGX | Support for UXM and BXM Multi-Level Channel Statistics | GA | 9.2.20 |
BPX/IGX | Support ports and trunks on the same UXM and BXM cards | GA | 9.2.20 |
IGX | Support for ATM Forum Standard Compliant IMA Trunking with UXM Firmware Model B | GA | 9.2.20 |
IGX | Support for Virtual Trunking on the UXM card | GA | 9.2.20 |
IGX | Support VC traffic shaping on UXM port | GA | 9.2.20 |
BPX | Support for APS Annex B | FCS | 9.2.20 |
BPX/IGX | Real Time VBR | FCS | 9.2.20 |
IGX | Support Enhanced UXM (GA) | GA | 9.2.20 |
IGX | Support for Idle code suppression for video on UVM and CVM cards | FCS | 9.2.20 |
IGX | Support for UXM VP tunneling | FCS | 9.2.20 |
This is a maintenance release including all features supported up to release 9.2.30. The following files will be extracted from a TAR file upon upgrading to software release 9.2.33.
| File Name | File Size |
|---|---|
9233B.000 | 65536 |
9233B.001 | 65536 |
9233B.002 | 65536 |
9233B.003 | 65536 |
9233B.004 | 65536 |
9233B.005 | 65536 |
9233B.006 | 65536 |
9233B.007 | 65536 |
9233B.008 | 65536 |
9233B.009 | 65536 |
9233B.010 | 65536 |
9233B.011 | 65536 |
9233B.012 | 65536 |
9233B.013 | 65536 |
9233B.014 | 65536 |
9233B.015 | 65536 |
9233B.016 | 65536 |
9233B.017 | 65536 |
9233B.018 | 65536 |
9233B.019 | 65536 |
9233B.020 | 65536 |
9233B.021 | 65536 |
9233B.022 | 65536 |
9233B.023 | 65536 |
9233B.024 | 28485 |
9233B.img | 784 |
9233G.000 | 65536 |
9233G.001 | 65536 |
9233G.002 | 65536 |
9233G.003 | 65536 |
9233G.004 | 65536 |
9233G.005 | 65536 |
9233G.006 | 65536 |
9233G.007 | 65536 |
9233G.008 | 65536 |
9233G.009 | 65536 |
9233G.010 | 65536 |
9233G.011 | 65536 |
9233G.012 | 65536 |
9233G.013 | 65536 |
9233G.014 | 65536 |
9233G.015 | 65536 |
9233G.016 | 65536 |
9233G.017 | 65536 |
9233G.018 | 65536 |
9233G.019 | 65536 |
9233G.020 | 65536 |
9233G.021 | 65536 |
9233G.022 | 65536 |
9233G.023 | 65536 |
9233G.024 | 65536 |
9233G.025 | 65536 |
9233G.026 | 45869 |
9233G.img | 784 |
This is a maintenance release including all features supported up to release 9.2.30.
Including all features supported up to release 9.2.20 and introducing the following additional features:
Including all features supported up to release 9.2.20
Including all features supported up to release 9.2.10 and introducing the following additional features:
Including all features supported up to release 9.2.01 and introducing the following additional features:
Including all features supported in release 9.2.00 and introducing the following additional features:
Introducing the following features:
1. Release 9.2.31 introduces a new command - cnffdrlmiparms which makes the feeder LMI timers and counters configurable. This command is currently supported on BPX only and can not be added in the Job mode.
| Timer | Description | Range (sec.) | Default (sec.) |
|---|---|---|---|
T396 | LMI polling timer | 5-30 | 10 |
T393 | SPC STATUS ENQUIRY timer | 5-30 | 10 |
T394 | SPC UPDATE STATUS timer | 5-30 | 10 |
N394 | Max retry count for SPC STATUS ENQUIRY/ REPORT procedures | 1-10 | 5 |
N395 | Max retry count for SPC UPDATE STATUS / ACK procedures | 1 -10 | 5 |
2. In release 9.2.31 the system parameter 2 (cnfsysparm 2) is changed from "Fail Connections On Communication Break" to "Allow CPU Starvation of Fail Handler".
3. Do not mix MEE and MEF (or higher) in yred pair for BXM 2 port group enhanced cards (OC3 or OC12 port). Addyred will fail if both are in standby mode, or the primary card has been activated with MEF (or higher) and the secondary card has MEE.
4. For BXM 2 port group, enhanced cards activated with MEF or higher, downrev to MEE will bring the cards into MISMATCH mode. This applies to both single cards and yred pairs.
5. Release 9.2.30 introduces four new commands in BPX:
6. There are changes in the following command starting from release 9.2.30:
7. The multiple partitions introduces 2 VSI partitions on trunk and port interfaces on the BXM card. So, one partition can be used for MPLS, one can be used for PNNI. Virtual Trunk can have only one VSI partition or can be used for Autoroute, but cannot be used for both VSI and Autoroute simultaneously. This project introduces 6 service class templates in addition to the 3 existing templates.
8. There is a change in reporting of port group number in this release 9.2.32. Previous image (MEC) of BXM used to report 1 port group for the 2 port group cards at the channel stats level 2 and 3. This made the port belonging to 2nd port group unusable.
9. In BPX nodes that use processor cards with 32Meg of RAM, it is possible to run out of memory in the Hitless Region. This can happen if the node is too heavily configured with cards and connections. The recommendation below should prevent memory aborts.
17100 blocks for card database
1500 blocks for EACH BXM that supports 16K conns
3000 blocks for EACH BXM that supports 32K conns
300 blocks for EACH 1000 conns
-----------------------------------------------------------------
40000 blocks maximum total (34000 blocks for 9.2 releases up to 9.2.23)
10. The minimum software required to run MPLS are:
11. The 16K connections feature increases the number of connections terminating on the BPX switch to 16,000. The count includes connections terminating on BXM or ASI endpoints on cards within the node as well as connections terminating on service modules in the feeder shelves connected to the BPX switch. For example, a Frame Relay connection that originates on a FRSM in an MGX 8220 connected to a BPX counts as one of the 16,000 terminated connections on that BPX.
12. Version 2.2 of the VSI (Virtual Switch Interface) provides the BPX switch with the ability to support multiple network protocols and multiple controllers per switch (e.g., MPLS, PNNI, etc.). Switch resources can be dedicated to a specific controller or shared by multiple controllers.
13. The combinations of system limits such as the number of trunks, lines, ports, and connections as well as enabled TFTP interval statistics should be provisioned so that the node has at least 50% idle time usage. Use the command dspprfhist to verify.
14. When cost based routing is used, increasing the cost of a trunk will result in deleting the preferred path on connections in the database if the sum of the preferred path cost exceeds the connection of configured cost. The connections will remain routed on its current path.
15. On the BXM and UXM, for the OC-3 MultiMode Fiber backcards, Y-Redundancy/hot standby is not supported due to hardware restriction.
16. The trunk reconfiguration feature does not support IMA trunk.
17. HDM to UVM interworking for Nx64K connections is not supported in this release.
Please consult your Support Representative before performing any software upgrade
1. The earliest release supported for graceful upgrade is 9.1.03.
2. 9.2 switch software requires MEX or MFA BXM firmware.
3. Before upgrading to this release when UXM cards are to be used, certain legacy card firmware must be upgraded. See the compatibility matrix for cards affected and the exact versions to be used.
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Note Standards compliant IMA is not compatible with the proprietary IMA protocol used in revision A firmware. Both ends of an IMA trunk must have the same protocol. |
 |
Caution : Failure to follow this procedure may result in the card not operating. The card should be returned to Cisco if this occurs: |
In order to run Model B firmware on an UXM, the card needs to be running boot code revision 6 or greater. To determine the boot code running on the card, issue the following command from CLI (user must be logged in as Service level or greater to use this command):
rsh <slot #> sys version
Step 2 Upgrade UXM's boot code if necessary
The process for loading boot code is exactly the same process you would use to load firmware. The only part which changes is the name of the file.
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Note Burning the boot code will cause the card to reset. |
Step 3 Upgrade UXM's firmware
Step 4 When Y-redundant trunks are used, the red alarm in/out values must be configured to 1.25/1.5 seconds or greater, or else INVMUX failures will occur and trunk failures will be observed during a Y-redundancy switchover. Use the following command:
cnftrkparm
This is due to the IMA protocol and may cause re-route of connections.
Step 5 Upgrade NPM software to 9.2
4. Procedure for Upgrading UXM-to-IMATM Trunks from Proprietary IMA Protocol to ATM Forum Compliant IMA Protocol.
Step 2 On IGX to have firmware upgrade, issue command cnffunc 15 d to disable the UXM from resetting automatically after the firmware is burned in.
Step 3 On each MGX-8220 equipped with IMATM-B, upgrade the ASC to 5.0.10.
Step 4 Download the Forum Compliant-Firmware version imatm_5.0.10.fw but do NOT reset IMATM-B card.
Step 5 On each IGX-UXM with IMA to be upgrade, burn firmware A.B.E or later to each UXM with IMA trunks.
Step 6 Simultaneously reset the card at each end of each IMA trunk to minimize trunk outage.
Step 7 Upgrade 9.1 nodes to 9.2 via loadrev and runrev.
Step 8 Issue the command cnffunc 15 e after each IGX is upgraded to 9.2.20 or later.
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Note The above procedure also applies to the UXME. |
5. .Procedure for Upgrading UXM-to-UXM Trunks From Proprietary IMA Protocol to ATM Forum Compliant IMA Protocol
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Note For Y-redundant UXMs, issue the command cnftrkparm 18 100000 100000 prior to this procedure and return to default values after this procedure |
Step 2 On IGX to have firmware upgraded, issue command cnffunc 15 d to disable the UXM from resetting automatically after the firmware is burned in.
Step 3 On each IGX-UXM with IMA to be upgraded, burn firmware A.B.E or later to each UXM with IMA trunks.
Step 4 Simultaneously reset the card at each end of each IMA trunk to minimize trunk outage.
Step 5 Upgrade 9.1 nodes to 9.2 via loadrev and runrev.
Step 6 Issue the command cnffunc 15 e after each IGX is upgraded to 9.2.20 or later.
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Note The above procedure also applies to the UXME. |
6. Procedure for Upgrading BXM cards to the 9.2 Firmware Release
To enable BXM cards to utilize 9.2 features, all BXM cards must be upgraded to the 9.2 firmware release. The following steps should be taken to avoid card mismatch:
For the switch running
Perform the following steps to avoid card mismatch:
Step 2 Upgrade BCC software to 9.2.30 or higher.
Step 3 Upgrade BXM firmware to MEF.
For all other cases, do the following steps:
Step 2 Upgrade BCC software to 9.2.30 or higher.
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Note See the Compatibility Matrix for the exact versions to be used |
7. Procedure for Adding New BCC cards as a Part of Upgrading to the 9.2 Release
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Note See the Compatibility Matrix for the tested/supported versions of other firmware and software that work with this release. |
Step 2 Upgrade the BXMs
All the BXM cards in the node are upgraded to Revision E, which is VSI Version 2 and CoS capable. After each BXM card is downloaded with the Revision E image, it temporarily experiences VSI outage until the BCC software is upgraded to the 9.2.33 image. The VSI outage during the upgrade is caused by the Revision E firmware not being backward compatible with VSI Version 1 features.
Note that from the TSC perspective, after a BXM is upgraded to Revision E image the interfaces that used to be on the card will "disappear." The TDP sessions that were on the interfaces will be lost. When all the BXMs are upgraded to the Revision E while still running Release 9.1 software on the BCC, the node will experience a complete outage of MPLS traffic. Autoroute will have a hitless upgrade.
Step 3 Upgrade the BCC
As the BCC is upgraded from software Release 9.1 to Release 9.2.33, the BCC recognizes the Revision E BXMs and downloads the VSI partition configuration. This causes the BXMs to issue ifc cfg traps to the TSC, allowing the TSC to rediscover all the MPLS interfaces on the BPX. The TDP sessions are reestablished and MPLS traffic starts flowing again through the BPX.
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Note The VSI 1.1 and VSI 2.2 are not interoperable. |
Revision Interoperating upgrades are supported, from the 9.1 to 9.2 releases of switch software, with Secondary Revision Incorporation for Network Lowest Revision. This will lessen the risk of new features being enabled in a mixed network after the downgrade.
"Secondary Revision" field in the node is used for the determination of the network lowest revision. Previous to this change, software uses only the nodes primary revision. The interoperability functionality uses network lowest revision for:
For a complete list of firmware revisions supported, see the Compatibility Matrix document, which is included in this release package.
All processor cards must be configured with a minimum of 32 MB of RAM. This includes BCC's and NPMs. NPMs require at least 1 MB of BRAM. To verify the BRAM size on IGX 8400 nodes, use the dspcd command.
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Note If any control cards contain less than 32 MB of DRAM (these would be NPMs) then they must be replaced with cards containing at least 32MB of DRAM prior to upgrading to Release 9.2. The physical upgrade of the nodes with these control cards must be done according to the upgrade procedure defined below. |
As specified below, the correct version of CC boot firmware must be installed on the cards prior to a software upgrade to Release 9.2.
| 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 |
With the new version of NPM boot code (RXS), the boot code upgrading does not require physical card resetting with the following steps:
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
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 can not 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.
When performing a Control Card (CC) upgrade, the following procedure must be used. This applies to all processors: BCCs, and/or NPMs.
Step 2 Replace with new CC front and back cards. (Replace back card only apply to BCC)
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. (Remove back card only apply to BCC)
Step 7 Replace with new CC front and back cards that are identical to the current active CC. (Replace back card only apply to BCC)
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.
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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. |
1. Switch Software Release 9.2 is not compatible with UXM Firmware Model A.
2. If attempting to burn UXM firmware Model B into an UXM firmware Model A with 9.2 software, the firmware Model B will not be burned into the UXM card due to the incompatibility of software 9.2 and UXM Firmware Model A. The UXM has to be returned to Cisco for service.
3. If using M.E.A/M.E.B/M.E.C BXM firmware and upgrading to M.E.D or later, the 9.2.30 or later software has to be upgraded first so that the BXM will report 2 port groups for 2 port cards all the time. The smooth transition between the earlier 1 port group and the newly reported 2 port groups also displays message in dspcd "Inconsistency with logical PG #" (port group number). All earlier software will mismatch the card. This applied to BXM-OC3 or BXM-OC12 and configure to channel stat level 2 or higher.
4. Firmware MED and earlier supports APS Redundancy on Legacy BXM only.
5. Because of the hardware limitation, BXM hardware is not able to recognize all user programmed cell transmission rates. Rather only discrete transmission rates can be used instead.
if (configured cell rate == full line cell rate) then
transmitted cell rate = full line cell rate
else
transmitted cell rate = from equation below or from table below
1464865 | 56552 | 28832 | 19348 | 14559 | 11670 | 9738 | 8355 |
733860 | 54458 | 28278 | 19097 | 14416 | 11579 | 9674 | 8308 |
489558 | 52513 | 27744 | 18852 | 14277 | 11488 | 9611 | 8261 |
367288 | 50703 | 27231 | 18614 | 14139 | 11399 | 9549 | 8215 |
293888 | 49013 | 26736 | 18381 | 14005 | 11311 | 9487 | 8169 |
244938 | 47432 | 26258 | 18154 | 13872 | 11225 | 9426 | 8124 |
209966 | 45950 | 25798 | 17933 | 13743 | 11140 | 9366 | 8079 |
183733 | 44558 | 25353 | 17717 | 13616 | 11056 | 9307 | 8035 |
163327 | 43247 | 24923 | 17506 | 13491 | 10974 | 9248 | 7992 |
147001 | 42012 | 24508 | 17300 | 13368 | 10892 | 9190 | 7948 |
133642 | 40845 | 24106 | 17099 | 13248 | 10812 | 9133 | 7906 |
122509 | 39741 | 23717 | 16902 | 13129 | 10733 | 9077 | 7863 |
113088 | 38695 | 23341 | 16710 | 13013 | 10656 | 9021 | 7822 |
105012 | 37703 | 22976 | 16522 | 12899 | 10579 | 8966 | 7780 |
98013 | 36761 | 22623 | 16339 | 12787 | 10503 | 8912 | 7739 |
91889 | 35864 | 22280 | 16159 | 12677 | 10429 | 8858 | 7699 |
86485 | 35010 | 21947 | 15983 | 12568 | 10355 | 8805 | 7659 |
81681 | 34196 | 21625 | 15812 | 12462 | 10283 | 8753 | 7619 |
77383 | 33419 | 21311 | 15643 | 12357 | 10212 | 8701 | 7580 |
73515 | 32676 | 21007 | 15479 | 12254 | 10141 | 8650 | 7541 |
70014 | 31966 | 20711 | 15318 | 12153 | 10072 | 8599 | 7502 |
66833 | 31286 | 20423 | 15160 | 12053 | 10003 | 8549 | 7464 |
63927 | 30634 | 20143 | 15005 | 11955 | 9936 | 8500 | 7427 |
61264 | 30009 | 19871 | 14853 | 11859 | 9869 | 8451 | 7389 |
58814 | 29409 | 19606 | 14705 | 11764 | 9803 | 8403 | 7352 |
..... |
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6. On the BPX with MGX 8220 feeder(s), regardless of the setting of the Node Parameter "42 Enable Feeder Alert", a feeder alert message will be sent to all MGX 8220 feeders immediately before a hitless rebuild takes place. The feeder alert message will temporarily disable the LMI polling from the MGX 8220 feeders. The MGX 8220 polling will resume as soon as the BPX is ready to exchange LMI messages.
7. The amount of traffic allowed on a VP Tunneling connection is 2/3 bandwidth of that connection. The minimum bandwidth must be 100 cells per second. For example, CBR connection with peak cell rate 1500 cps then can pass traffic up to 1000 cps.
8. For IMA trunk, the configuration is blocked if the converted cps (cells per second) of the number of links to be decremented is MORE than the transmit rate. (CSCdm71616)
1. For Switch Software 9.2, MPLS and PNNI controllers cannot coexist.
2. In release 9.2.30 and later, we have seen nodes declare communication break when using the BXM virtual trunking feature. The problem has been observed under the following conditions:
3. When cnfrsrc command is used to delete VSI partitions on an interface, software does not check if any Soft Permanent Virtual Circuit (SPVC) connections exists on that partition. Even if there are SPVC connections on a partition, the partition can be deleted using the cnfrsrc command. The only protection is that the user is provided with a warning when he tries to delete the partition.
4. Switch software 9.2.30 or later and BXM firmware MFC and later support the attachment of multiple MPLS controllers.
5. For UVM cards, there will be no new revisions of Model-A firmware. When attempting to download Model-A firmware to a UVM, software will give the user an error message indicating that the firmware does not match the card type. Note that there is no problem with continuing to use existing UVM cards running the old firmware. (CSCdp08741)
6. For a virtual trunk on a BXM/UXM, the Transmit Trunk Rate (the transmit rate of the virtual trunk) is configurable to match the PCR value of the subscribed public VPC service. In this release, the actual shaping rate for a virtual trunk is higher than the configured Transmit Trunk Rate (CSCdm80482). The actual virtual trunk shaping rates are 1/(n x 680 x 10-9) cells per second, where n is an integer from 1 to 29,411. In this release, the user configured Transmit Trunk Rate is rounded to the next higher (as opposed to lower) actual shaping rate for shaping.
Step 2 Configure the Transmit Trunk Rate for the virtual trunk to be less than 1/(n x 680 x 10-9) cps but greater than 1/((n+1) x 680 x 10-9) cps. For example, if the PCR value of the subscribed public VPC service is 10 Mbps or 23,585 cps, configure the Transmit Trunk Rate for the virtual trunk to be less than 1/(63 x 680 x 10-9)=23,342.67 cps but greater than 1/(64 x 680 x 10-9)=22,977.94 cps.
7. There is a new traffic class added in release 9.2.20 that causes a trunk parameter conflict with pre-9.2.20 node. The conflict fails adding trunk between 9.2.20 BTM/ATM and pre- 9.2.20 BTM/ATM.
8. The cloud port to which a virtual trunk is connected should have ILMI polling disabled. Otherwise, it could lead to a virtual trunk being clear on one end and declaring Virtual Trunk Path Failure at the other end. (CSCdm52909)
9. In a BPX that contains BCC cards with 64MB, there is no limitation. All 12 available slots can contain BXM or Enhanced-BXM cards.
10. Due to performance reasons, AIS status of connections is not sent to the standby BCC. After switchcc, it may take few minutes to update the AIS status of connections. If dspcon does not show the proper status of AIS or dspalms screen shows incorrect number of AIS, (after switchcc) wait for few minutes so that the status gets updated. (dspalms and dspcon commands show the status of AIS).
11. Hitless Rebuild has similar limitations to that of a "switchcc" and full rebuild:
12. UVM cards in y-redundancy will mismatch if one is burned with Idle Code Suppression Firmware and the other is not.
13. Mismatch is reported when replacing a BXM card with another BXM card that has different Port Group, even though both BXM cards have identical channel number.
14. When upgrading from release 9.1 to 9.2, the 9.1 statistics on BXM/UXM cards are supported to maintain compatibility. However, once a user configures a statistics level in 9.2, he can not configure back to 9.1 stats.
15. The BXM and UXM channel stat level feature gives these cards the capability of collecting more than 4 statistics per connection. However it is the controller card's limitations, available memory and performance, that indicates how many statistics can actually be collected from the cards and then reported to the Cisco Wan Manager (CWM).
16. In release 9.1, the UXM card ran a proprietary IMA communication protocol. This protocol matched that used on the MGX 8220 4 IMATM-B cards and hence could be connected together to form a trunk. In release 9.2, we now support standards compliant IMA on the UXM card and the standards compliant IMATM-B on MGX 8220 5.0 is not yet released. Hence, when the network is upgraded to 9.2.00, the UXM will be running compliant IMA protocol and the IMATM-B will still be running the proprietary IMA communication protocol. They will no longer communicate and the trunk will fail. This will be fixed in the MGX 8220 5.0 release containing IMATM-B. However, it should be noted that an upgrade at that time will also incur some amount of downtime as there will be a difference in timing between the MGX 8220 upgrade and the switch software upgrade. There should be no effect to UXM-IMA trunks connected to other UXM-IMA trunks in 9.1 to 9.2 interoperability mode.
17. We allow the transmit rate on an IGX IMA trunk to be altered at the local node with any trunk outage. It is possible that the transmit rates are different at the two ends of an IMA trunk. After this trunk is deleted, we cannot add it back unless the transmit rates are the same.
18. When doing a grouped upgrade from release 9.1 to 9.2, the software error 1427 may be logged on the BPX/IGX node during non-graceful upgrade. This error can be ignored since it is harmless to the network.(CSCdm14613)
19. Reconfiguring trunk parameter may cause connection to be rerouted if the changed bandwidth load is smaller than what was used by the connections that use the trunk.
20. If LMI/ILMI is provided by the BCC:
21. 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.
22. The feature of CIR=0 for Frame Relay connections is not supported for connections terminating between FRM cards in IGX nodes and FRSM cards in an MGX 8220 shelf.
23. 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).
24. For the loadrev operation, it is important that the Cisco Wan Manager/TFTP buffers are maintained at their default size.
25. Due to a hardware limitation, the BNI trunk will send 13 -15% more traffic than what it is configured for when the trunk is configured for less speed (cps) than the maximum port speed. This is especially important when the BNI trunk is connected to IMATM pairs, which carry less than T3 bandwidth.
26. 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.
27. 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).
28. 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.
29. The external ABR segment control loop on ForeSight (ABRFST) is an option at the User Interface. It is supported by UXM-E/BXM-E but is not supported by UXM/BXM hardware. The user should not enable this option on ForeSight connections (CSCdi92451). In any case, there is no coupling between the loops.
30. On a heavily loaded BPX 8600 node, during connection re-routing, 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 re-routing of the connections can be given high priority. The status will be eventually updated. (CSCdj10762)
31. 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)
32. The interface between a BXM feeder trunk and an MGX 8220 feeder is always considered to be an NNI interface. (CSCdj16808)
33. 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) | |
4000-7999 connections | Polling Rate: 10 Minutes (or higher) | |
> 8000 connections | Polling Rate: 15 Minutes | |
34. 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.
35. 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.
36. When a physical-layer failure (e.g., LOS) is detected on the BXM, 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).
37. 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).
38. 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).
39. UBR traffic gains an advantage over ABR traffic when UBR and ABR PVC's are combined on the same network. This is because UBR and ABR PVC's share the same QBIN (Class of Service Queue) on the BXM card. ABR PVC's use a flow control mechanism, VSVD, which ensures that traffic sources slow down when the QBIN usage exceeds the EFCI threshold. However, UBR PVC's do not have this throttling mechanism. Therefore, ABR will throttle back whereas UBR will not. This unfair advantage is not considered a problem, since the decision to share a QBIN for ABR and UBR traffic was intentional. 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 UBR and ABR PVC's are required then:
Step 2 Enable VSVD
Step 3 Disable FCES (Flow Control External Segment)
Step 4 Disable DEFAULT EXTENDED PARAMETERS
Step 5 Choose policing option "4" to allow access as UBR.1 (PCR policing only). This connection has ABR VSVD in the network and allows UBR.1 access. The MCR for such ABRSTD connection may be set at the minimum acceptable value of 6 cell per second (explained later why doing so).
40. 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.
41. The maximum number of VC PARMs supported: 749 for BCC-32 MB, 2,999 for BCC-64 MB. (CSCdj48589).
42. 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 re-routing, due to a trunk failure, will be delayed as provided by the parameter.
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 Wan Manager, 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 CVM/UVM 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 CVM/UVM circuit line is an E1, in which case "1-32" would apply. (CSCdj14319)
6. Statistics must be disabled prior to the start of an upgrade, prior to the issuing of the first loadrev command. Stats should be disabled from Cisco Wan Manager which is Stats collection manager.
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. Stats sampling state machine should be disabled from Command Line Interface.
8. 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.
9. 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 using cnfbkcd (with setnovram) so as to avoid backcard mismatch. (CSCdj41999)
| 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 |
* for all slots supporting this feature.
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 Release 4.0.0x, 4.1.0x, or 5.0.0x of the MGX 8220.
| PCB Description | dspcds Name | Card Name in FW Image | 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 | UCF |
ASI 2T3/2E3 | ASI-E3 | ASI | C | UCF | UCF |
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 | TCM |
BNI-3T3/3E3 | BNI-E3 | BNI | C | TCM | TCM |
BNI-155 | BNI-155 | BNI-155 | B | VBR | VBR |
BNI-155-E | BNI155E | BNI-155 | D | VDR | VDR |
BXM-BME | BME | BME | K | MKB | MKB |
BXM-T3-8/12 | BXM-T3 | BXM | E | MEF | MEB |
BXM-T3-8/12 | BXM-T3 | BXM | F | MFA | MFA |
BXM-E3-8/12 | BXM-E3 | BXM | E | MEF | MEB |
BXM-E3-8/12 | BXM-E3 | BXM | F | MFA | MFA |
BXM-155-4/8 | BXM-155 | BXM | E | MEF | MEB |
BXM-155-4/8 | BXM-155 | BXM | F | MFA | MFA |
BXM-622/622-2 | BXM-622 | BXM | E | MEF | MEB |
BXM-622/622-2 | BXM-622 | BXM | F | MFA | MFA |
BXM-T3-8E/12E/12EX | BXM-T3 | BXM | E | MEF | MED |
BXM-T3-8E/12E/12EX | BXM-T3 | BXM | F | MFA | MFA |
BXM-E3-8E/12E/12EX | BXM-E3 | BXM | E | MEF | MED |
BXM-E3-8E/12E/12EX | BXM-E3 | BXM | F | MFA | MFA |
BXM-155-4D/8D/4DX/8DX | BXM-155 | BXM | E | MEF | MED |
BXM-155-4D/8D/4DX/8DX | BXM-155 | BXM | F | MFA | MFA |
BXM-622-2D/DX/2DX | BXM-622 | BXM | E | MEF | MED |
BXM-622-2D/DX/2DX | BXM-622 | BXM | F | MFA | MFA |
| PCB Description | dspcds Name | Card Name in Firmware Image | Model | Latest F/W | Min F/W |
|---|---|---|---|---|---|
NPM 32 boot | NPM | NPM | B | RBS | RBR |
NPM 64 boot | NPM | NPM|NPM-64 | C | RCS | RCR |
NPM-B 32 boot | NPM | NPM|NPM-32B | E | RES | RER |
NPM-B 64 boot | NPM | NPM|NPM-64B | F | RFS | RFR |
IGX-ALM/A | ALM | ALM-A | A | CAE | CAE |
IGX-ALM/B | ALM | ALM-B | B | CBJ | CBH |
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 | DBF |
IGX-CVM-TT | CVM | CVM | C | DCA | DCA |
IGX-FRM | FRM | FRM | D | FDZ | FDZ |
IGX-FRM-31 | FRM | FRM-31 | E | FEZ | FEZ |
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 | NEK |
IGX-NTM (B) | NTM | NTM | F | NFK | NFH |
IGX-UFM-4C/8C | UFM | UFM-C | A | ZAP | ZAN |
IGX-UFM-4C/8C | UFM | UFM-C | B | ZBB | ZBA |
IGX-UFM-8C | UFM | UFM-C | C | ZCA | ZCA |
IGX-UFM-U | UFMU | UFM-U | A | YAJ | YAH |
IGX-UFM-U | UFMU | UFM-U | B | YBB | YBA |
IGX-UFM-U | UFMU | UFM-U | C | YCA | YCA |
IGX-UVM | UVM | UVM | D | DDF | DDF |
IGX-UVM | UVM | UVM | E | DEE | DEA |
IGX-UXM | UXM | UXM | B | ABF | ABB |
IGX-UXME | UXM | UXM | B | ABF | ABB |
|
Note IGX-UVM model E is a superset of models A, B, C firmware. A, B, and C are obsoleted and should not be used. |
| 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 | A | 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 | E | A |
BPX-BCC4V | 800-03580-06 | E | C |
BPX-BCC4V/B | 800-06483-02 | C | A |
Alarm Group |
|
|
|
BPX-ASM | 800-04009-01 | C | A |
BPX-ASM-BC | 73-211910-00 | C | A |
ASM-LM | 800-211910-10 | B | A |
BroadBand Switch Group |
|
|
|
BPX-BXM-T3-8 | 800-02777-07 | H | B |
BPX-BXM-E3-8 | 800-02779-07 | H | B |
BPX-BXM-T3-12 | 800-02776-07 | H | B |
BPX-BXM-E3-12 | 800-02778-07 | H | B |
BPX-T3/E3-BC | 73-2759-02 | A | A |
|
|
|
|
BPX-BXM-155-8 | 800-02664-07 | H | B (C for APS) |
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 | B (C for APS) |
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 | D (E for APS) |
BPX-BXM-622-2 | 800-02638-10 | L | D (E for APS) |
BPX-622-2-BC | 73-2884-01 | D | A |
BPX-SMF-622-BC | 800-03249-01 | C | A |
BPX-SMF-622-2-BC | 800-03251-01 | C | A |
BPX-SMFLR-622-BC | 800-03250-01 | C | A |
BPX-SMFLR-622-2-BC | 800-03252-01 | D | A |
BPX-XLR-622 | 800-02738-01 | C | A |
BPX-XLR-622-2 | 800-02739-01 | C | A |
|
|
|
|
BPX-BME | 800-02855-04 | B | A |
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 |
| 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 |
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BC-5082A-V35 | 73-2450-01 | K | A |
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BC-5083A-RS449 | 73-204850-00 | V | A |
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BC-5084B-RS232 | 73-2723-01 | W | A |
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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 |
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BC-6171A-E1 | 73-207370-01 | P | A |
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BC-550100-J1 | 73-210820-00 | C | A |
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IGX-FRM | 73-2517-03 | N | A |
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IGX-FRM-31 | 73-2517-03 | N | A |
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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 |
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IGX-UFM-8C | 73-2531-05 | N | A |
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BC-UFI-8T1-DB15 | 73-2444-02 | D | A |
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BC-UFI-8E1-DB15 | 73-2445-02 | D | A |
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BC-UFI-8E1-BNC | 73-2449-02 | D | A |
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IGX-UFM-U | 73-2349-04 | D | A |
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BC-UFI-12V35 | 73-2711-01 | D | A |
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BC-UFI-12X21 | 73-2712-01 | D | A |
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BC-UFI-4HSSI | 73-2693-01 | C | A |
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IGX-UVM | 73-2361-04 | K | B |
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BC-UVI-2E1EC | 73-2420-01 | B | A |
|
BC-UVI-2T1EC | 73-2373-01 | C | A |
|
BC-UVI-2J1EC | 73-2374-01 | A | A |
|
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 |
|---|---|
CSCdk48816
| Symptom: There is no UAS alarming. Conditions: The specifications require that when we have more than 10 consecutive SESs, then we should enter UAS. This feature is not implemented; therefore, no UAS alarm is generated. In order for this feature to be implemented, a combination of fixes on firmware and switch software must be completed; namely: CSCdk48827---Firmware bug to fix the thresholds for SES to start kicking in. This is fixed in firmware image BXMMCB or later images. CSCdk48816---The software portion of this problem to alarm based on UAS. Without the software fix to this bug, customers cannot upgrade firmware beyond MBY. This situation is caused by the following: When the switch enters UAS, per specification, it stops counting Bip8 ES and SES. Therefore, there is no alarming on the ES SES. MBY provides a temporary fix to keep the ES alarming on by raising this threshold. Workaround: Continue to use MBY firmware, thus preventing SES alarming to kick in. The side effect is that this will prevent the customer from using the features introduced in the MC firmware. |
CSCdk55887
| Symptom: The command dspport is not available to level 6 user IDs. Conditions: This symptom is visible after an 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 an offsite user after upgrade from 7.4 to 8.5.05. Users running 8.x.x software hasven't noticed this difference until the current time. |
CSCdk80347
| Symptom: The NPM 2 restarts due to a Watchdog Timeout. Conditions: Occurs after running the resetsys command to reset all the cards (except the active NPM card) on an IGX node with a lot of active connections. When the standby NPM comes up, the event log mentions that: "NPM 2 Restarted due to a Watchdog Timeout" where 2 refers to the slot number of the standby NPM card. Workaround: This does not affect any functionality except for the information added to the event log. Instead of running the resetsys command, individually reset the cards using the resetcd command. |
CSCdk91790 | Symptom: The switch software system idle time is below 30% when more than 10 UVMs are activated Conditions: Switch software polls each activated UVM for modem status every 1 second for each port. Switch software also spends time in processing the responses of the modem polling. When many UVMs are activated, the modem polling handling consumes a lot of system time and resources (buffer queue) which affect system performance. UVM firmware has supported asynchonous event to report modem event. Switch software needs to stop polling modem status if the firmware in UVM supports the async event. Workaround: Use the cnfnodeparm 46 command to increase the polling timer to improve system performance. |
CSCdm22241
| Symptom: Using the command dspchstats on a BXM does not display all channel statistic values. Condition: During 9.1.08 system software testing, lab personnel discovered that the BXM statistics usually recorded in an enhancement in switch software 8.4.09 had been removed. Workaround: None. |
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: None. No adverse effects. |
CSCdm60707
| Symptom: It takes 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 required. Problem clears automatically. |
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 EnableSymptom: |
CSCdp35148
| Symptom: IGX node stopped responding to console and lan port. Node logged Abort 3000000, software error 504 and multiple software error 52's. 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. Conditions: Unknown Workaround Instead of 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. |
CSCdp50871
| Symptom: Upping a line via on ALM-A cards fails when using SNMP. Condition: SNMP set was given for an ALM-A card as follows: switchIfAdmStatus Up(1) switchIfService atmAccessPort (3) Workaround: Use the command upln from the CLI in order to up a line on an ALM-A card. |
CSCdp57264
| Symptom: ILMI manager works only on one sub-interface. Condition: On a Cisco 7500 switch, if multiple subinterfaces are configured on an ATM interface connected to a BPX switch, each of the subinterfaces with 1 PVC and BPX is configured to send ILMI traps. When the PVC's state is changed on a BPX, the BPX will send out traps for all the PVCs; however, the Cisco 7500 switch only brings down one subinterface (one PVC). Workaround: None. |
CSCdp81744
| Symptom: Inverse Mux Failure appears after upping an IMA line or trunk and does not clear. Condition: Occurs when upping an IMA line or trunk. This problem is observed only on T1 lines, and only when a combination of commands are used to bring up and configure the remaining IMA group members on the primary line: upln, uptrk, cnfln, cnftrk Workaround: Up the line or trunk quickly on both ends using the upln or uptrk command to include all the physical lines of the IMA group. That is, do not use upln and uptrk to establish the line or turnk, then use cnfln and cnftrk to add the group members. |
CSCdp93955 | Symptom: Switch software error 532 is logged while doing snmpwalk or snmp MIB browsing. Condition: BXM feeder trunk with YRED pair and secondary card is active. Workaround: 1. Ignore the error and clear the error log. 2. Make Primary active. 3. Avoid snmpwalk for condition mentioned above. |
CSCdp98648 | Symptom: Equipment MGR can't tell the difference between a BXM legacy card or a BXM-E (enhanced) card. Conditions: Workaround: Log into the BPX node and issue the command dspcd <node> to view the number of channels supported. The BXM legacy card supports less than 61K channels, and the BXM-E card supports 61K channels. |
CSCdr08430 | Symptom: The command cnftrkparm does not alter non ts transmit queue size correctly. Conditions: NTM subrate trunk (with number of DS0 <= 8) and cnftrkparm is issued to increase NTS Q depth to either 84 or 85 (maximum) for an added trunk. Workaround: Limit NTS Q depth upto 83. |
CSCdr09440 | Symptom: The ASI Qbin configuration is lost when Y-Red switches over to secondary card. Conditions: This problem can occur when the ASI Y-Red - Secondary Card is active Workaround: Switch back to Primary Card. |
CSCdr15924 | Symptom: The BPX is not sending APS robust alarm messages to CWMs for multiple APS events. APS events are being lost. The BPX only sends APS robust alarm messages to one CWM. Conditions: The problem of the BPX not sending all events happens when multiple events happen in a short span of time. The problem with only sending the APS robust alarm message to one CWM will always happen. Workaround: None. Further Problem Description: The robust alarm mechanism currently used needs to be enhanced for APS robust alarm messages in order to handle mutliple APS events occuring in a short period of time. Also a fix needs to be made to allow a BPX switch to send APS robust messages to all attached CWMs. |
CSCdr19274
| Symptom: Switch software error 136 is logged Conditions: This problem occurs during an upgrade from 9.1/9.2/9.3 to 9.1/9.2/9.3. Workaround: None. Further Problem Description: During upgrade, the error message sw136 fills the software log.(swlog). This is due to conv_parm which is called with 0. |
CSCdr20925 | Symptom: No redundancy after certain events occur. Conditions: 1. A frame relay connection from UFMU card in same chassis working well over UXM to UXM Yred trunk. 2. Yred Trunk fails and moves to standby, connection still working normally 3. Trunk forced back to Primary in Yred pair using the commands dncd or No errors logged in node logs. dsplog, cderr, swlog. dsptrkstats show OAM and BDataB traffic stopped only. Hi pri cells still traverse trunk. Workarounds: Delete and recreate connection or rrtcon. |
CSCdr22568 | Symptom: The ILMI protocol keeps running on the BXM card even after it is disabled using the cnfport command. Conditions: The problem occurs only when all of the below conditions are true: 1. The ILMI protocol should have been running on the BXM card for the port. 2. Disable ILMI protocol on the port. 3. Say NO for Protocol by the card. Workaround : Disable the ILMI protocol on the port. Let the protocol run by the card to be set to YES. as before. |
CSCdr22814 | Symptom: BPX returns an error indicating there are no channels available for networking when attempting to create a trunk or line. Conditions: A precondition is that all channels on this card are currently being used by existing trunks or lines. When a trunk or line is deleted (then theoretically freeing up channels for another trunk/line), and a user attempts to subsequently recreate this trunk or another trunk (intending to usethe very channels that were just freed by the removal of the previously mentioned trunk/line), the user finds that no channels are available to create a new trunk. WorkAround: Perform a hardware reset on the involved BXM card, and then the channels will be available that are no longer in use by the deleted trunk/line. |
CSCdr23432 | Symptom: Node ABORT in addjob. Conditions: For an ATM port. When addjob is used to configure existing the ATM port as a Frame Relay port and all the parameters are not given in the same line. * ADDJOB only. Node aborts when you try to add a job to configure EXISTING ATM port to Frame Relay port. This does not affect any other commands like configure port Workaround: Do not use the command addjob to configure existing ATM port to Frame Relay port. |
CSCdr25318 | Symptom: While the UFMU port is up, removing the back card results in the port status still showing active---it should be FAIL. Conditions: In all previous switch software supporting the UFMU card, this problem exists. Workaround: Install the UFMU card with any type of back card, run upport, remove the back card, and check the port status. It is still ACTIVE. Further problem: The port status is sent to CWM by robust message, for old SWSW without the fixin, this could cause a problem within CWM if CWM is only checking the port status without checking the back card missing alarm (to do some other configuration, such as addcon, addtrk. In the old switch software, the card missing is checked before addcon. |
CSCdr26043 | Symptom: BXM cards go to Active-F state. Condition: This problem occurs when a background test is enabled. Workaround: Replace the BXM card or the BCC card. |
CSCdr26161 | No release note information is currently available on this item. |
CSCdr26613 | Symptom: Connections get rerouted when the active line of an APS goes in yellow alarm. Conditions: Active line is in Yellow alarm and Standby line is OK. Workaround: None. Further Problem Description: This behaviour occurs on a regular trunk. On APS, even if the active line is in alarm there can exist a path to transmit and receive the data. For example, if the Active line is in Yellow and the Standby line is in LOS, then using Rx of active it can receive the data and using Tx of standby it can send the data. |
CSCdr27853 | Symptom: Value of the reroute timer displayed in cnfcmparm after the commands clrallcnf or clrcnf are executed is 0 seconds instead of 3 seconds (default). Conditions: This problem is created by clearing the configuration with clrallcnf<cncmdBold> or clrcnf. Workaround: Use cnfcmparm 9 to set the reroute timer value. Further Problem Description: Problem is due to using different units for the reroute timer value during initialization and modification. After running clrallcnf or clrcnf, the reroute timer is initialized to 3 seconds (default). Whereas, cnfcmparm treats the value as the number of ticks. Therefore, for a default value of less than number of ticks per sec (100 ticks/sec), cnfcmparm displays a reroute timer value of zero. When the reroute timer value is set using cnfcmparm, conversion to the number of ticks before updating the reroute timer solves the problem. |
CSCdr28794 | Symptom: The trunk utilization display appears inaccurate for a BXM-OC3 trunk. Conditions: A BXM-OC3 trunk always shows 1% utilization when transferring data over the OC3 trunk from 0% to 10% to 50% to 100% of OC3 rate. Workaround: None. |
CSCdr29682 | No release note information is currently available on this item. |
CSCdr29721 | No release note information is currently available on this item. |
CSCdr30234 | Symptom: IGX switch software won't update the trunk and gateway channels of a trunk if that trunk doesn't belong (connected) to this node. Condition: This problem can occur only when channel reconfiguration is attempted using the commands cnrsrc or cnftrk. Workaround: None. |
CSCdr30543 | No release note information is currently available on this item. |
CSCdr30911 | No release note information is currently available on this item. |
CSCdr31598 | Symptom: The average cell per second (CPS) values displayed when the dspchstats command is issued do not always reflect the correct transmit rate. It ramps up to the transmit rate, sometimes very slowly, some times more quickly. Conditions: This problem occur whenever the dspchstats command is issued. Workaround: For the dspchstats screen the only values that are incorrect are theCollection Time and Rate (cps) field values. We can extrapolate this information from the TFTP or USER interval statistics, which has a minimum granularity of 5, 10 or 15 minutes based upon the number of connections they have in the network. If we divide the Port Cells Received on Channel statistic by the interval (5, 10 or 15 minutes), the result is the approximate average CPS. Further Problem Description: The root cause was that a timer's initialization was removed by a different defect fix. The result or removing this initialization is that vcs_cur_ticks timer does not get reset so it contains the last time that the previous response was received rather than when this response was received, so the time value is too large. Then when we calculate the average CPS, since the time value is too large the average is way to small. It will eventually (over an extremly long period of time) approach the correct value, asymptotically. The sequence is as follows: t = A Normal statistics polling response is received from the card, vcs_cur_ticks is set to now (A). t = B The command clrchstats is issued, which sets flags to drop the next sample (for summary statistics) and to reinitialize the vcs_cur_ticks field. t = C The command dspchstats is issued, which causes a statistics poll to be sent to the card and a response to be sent back nearly instantaneously. When the response is received we see that the summary statistics filter flag is set, so we drop the first response (and we should set the vcs_cur_ticks field at this point but we don't). t = D The command dspchstats sends its second poll request, and we get back the response. We update the data for cells RX/TX, etc. We calculate the amount of time this data is for by subtracting the vcs_cur_ticks count (A) from the current time(D) so the time delta is (D - A). The problem is, the time value should be (D - C) but because the intialization code was removed it is (D - A), too big. The connection polling rate can be configured to 5, 10 or 15 minutes, therefore the amount of time that this can be off by is 4'59", 9'59" or 14'59". It can also coincidentally be correct if t=A and t=C are very close to each other. |
CSCdr32789 | Symptom: Gateway LCNs count may exceed trunk channel count if the cfrsrc command is executed at the BXM and trunk channel is reduced and falls below the gateway LCNs. Condition: Occurs only in the above scenario. Workaround: Configure the trk channels and gw lcns at the UXM end (using cnftrk). |
CSCdr33428 | Symptom: UXM mismatch occurs following a card rebuild. Condition: 1. Reset the controller card with a standby UXM in the node. 2. Activate the UXM which has the number of channels smaller than 8000. 3. Remove and reinsert the UXM card (or reset UXM card). Workaround: Deactivating the card, then reactivating the card, clears the problem. |
CSCdr33894 | Symptom: The trunk temporarily failed after switchapsln due to the Yellow alarm Conditions: When an active APS line is in Yellow alarm, doing a switchapsln on the APS line fails the trunk for 30-40 seconds. Workaround: None. |
CSCdr33931 | Symptom: Neither the dsplog (displays no record) nor CWM (receives no trap) when an APS active line goes into Yellow alarm. Conditions: An APS line in yellow is expected to be shown under dsplog as well as having a trap sent to CWM. This bug is introduced because of 9.2.32 fix MR 000253 (CSCdr26613). Said fix set the trunk status to clear if the active line is Yellow and the standby line is OK. We will remain dsptrks command to show the active line status and trigger trap, unless we can find a clean and easy path to send trap without setting the trunk to the Yellow alarm status. Workaround: The user can run the dspapsln command to monitor the APS line status. |
CSCdr35085 | Symptom: Can't stop switchcc command---switchcc continues executing evenif user says "n" when asked to "Continue?" Conditions: Issue switchcc on a BPX node, and if standby updates are pending, if the user replies "n" to not continue the switchcc, switchcc still continues. Workaround: Do switchcc only after updates are over. Use dspcds and dspqs to verify that the standby card is in "Standby" state and that no updates are pending. |
CSCdr35223 | Symptom: In 9.2.3z, the APS dsptrks command can show a communication failure when it has LOS. Conditions: When an active APS line is in LOS, the following can occur: Doing a switchapsln with option 4 to switch from a protection line to a working line can cause the trunk to fail. Workaround: |
CSCdr38707 | Symptom: Control VC establishment failure in ports. Condition: Total sum of VSI Bandwidth(BW) on all interfaces on the card exceeds the OC12 BW range of 1412830. Workaround: Reconfigure the VSI BW on the various interfaces on the card, so that total VSI BW does not exceed OC12 BW. |
Following is the list of fixed problems in the 9.2.33 Switch Software release. Included with each is a brief discussion of the problem.
| Bug ID | Description |
|---|---|
CSCdj14920 | Symptom: A node whose number is greater than 63 cannot have a clrcnf operation performed on it. Condition. All the time. Workaround: Use the command clrallcnf on such a node; otherwise, the node must be renumbered before running the command clrcnf. Further Problem Description: This is part of the software design. |
CSCdm04491 | Symptom: Switch software error 921 is flooding to the software log. Conditions: Occurs after a switch software upgrde from 8.1.73, 8.4.21 and then 9.1.04. This problem also has been experienced after upgrades from 8.2.59 to 9.1.04, and from 9.1.10 to 9.1.19. Workaround: Workaround only to be performed by qualified personnel. Please contact Cisco TAC. |
CSCdm13655 | Symptom: Customer cannot free up any VCPARMS from the VCPARMS table (limit of 255 has been reached). Despite reconfiguring connections to make them join an existing VCPARMS index, the parameters cannot be successfully matched. Conditions: Only Frame Relay connections are affected. Connections on UFM Model A have variable configurations for VCq and ECN threshold. This causes use of different VCPARMS entries. Workaround: 1. Use the command cnfcon from both ends of connection, cnfcon * ... from both ends. Or 2. Delete and readd the connection. Further Problem Description: 9.1.06 has two defects CSCdk83358 fixed in 9.1.07 and CSCdk63187 fixed in 9.1.10, both dealing with the modification of VC queues. As a result, the VCPARMs indices are not reused. Furthermore, UFM model A has altered VCq and ECN thresholds creating new profiles. UFM model B firmware will allow reconfiguring the queues to FRM values. |
CSCdm29466 | Symptom: A trunk configured for VSI only is then reconfigured for VSI + Auto Route. After the configuration change, the command addtrk was issued, and failed. This is most likely caused due to VSI database inconsistancies during switchyred. Conditions: This problem occurs only if VSI is configured on the trunk. Workaround : Delete and add the partitions on both the trunks. After this, the addtrk command will work successfully. |
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." The rebuild may also be observed if the active CC fails while the standby CC is in the Upgraded state, or if a standby CC is inserted while an active CC is failed. Conditions: Card failure on active CC when the standby CC is in the Upgraded or Downloaded state. One example is a flash EEPROM failure after using loadrev to program the upgraded version of software in flash memory. Another example is inserting a standby CC while the active CC has an EEPROM or SAR failure. Workarounds: 1. Use the standby control card unlocking procedure that specifies a dummy revision name for the first loadrev. The unlocking procedure is to accomodate flash failures during the unlocking process. This procedure is part of most upgrade procedures, but if ommitted during the upgrade, can result in the problem described above. 2. Do not reseat the standby CC while there is a card failure on the active CC. Allow the standby CC to become standby, or clear the failure on the active CC prior to inserting the standby CC. |
CSCdm38578 | Symptons: Characters are not echoed to the user as they are entered during a telnet session to the switch. Conditions: Occurs during Telnet sessions initiated from a 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. |
CSCdm48790 | Symptom: 1. The command 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: A BPX switch with a BCC-4 active processor, one or more BXMs, and a 9.6 G (old type) back plane. This probable is most to occur 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. |
CSCdm69629 | Symptoms: 1. Different values for the statistical reserve are displayed when the commands dsptrkcnf and dspload commands are issued. 2. Value of statistical reserve gets truncated to less than 65535 if trunks are deleted and readded. 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 a "round-off" problem (32 bit to 16 bit casting). |
CSCdm88055 | Symptom: Run job having subsequent addcons and delcons on the same connection experiences failures. Conditions: Workaround: Job scripts can be rewritten such that: 1. Commands to the connections alternate between different connections instead of having addcons and delcons on the same connection. 2. Increase 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 the software gives control back to the CLI during a delcon before releasing all the connection resources. The resources are released after a timer expires, which can be maximum of 2 seconds. Addcon on the same connection before the timeout would fail. |
CSCdp20486 | Symptom: 1. UXM physical line alarms are not sent to the SV+ maintenance log, but are instead logged in the node's local event log. 2. If the node terminating an IMA trunk is a SV+ gateway node, the alarm is logged in the SV+ maintenance log for the gateway node only. Conditions: Problem occurs when an IGX node using UXM IMA T1/E1 trunks experience a physical line failure. Workaround: None. |
CSCdp50871 | Symptom: Using the upln command on ALM-A cards fails when tried via SNMP. Condition: snmpset was given for an ALM-A card as follows: switchIfAdmStatus Up(1) switchIfService atmAccessPort (3) Workaround: Use the CLI command upln. |
CSCdp58131 | Symptom: An SNMP get or walk on the atmTrunkStatsTable for virtual trunks returns only 5 of the 11 valid statistics values. Conditions: The following conditions are needed for this problem to occur. 1. A UXM card with virtual trunks up. 2. Traffic is passing through the trunk. Customer Impact: An SNMP get for a virtual trunk returns valid data only for the following mib objects: atmTrkStatsTxCbrCellDrps atmTrkStatsTxVbrCellDrps atmTrkStatsTxAbrCellDrps atmTrkStatsTotalCellsTxtoLns atmTrkStatsTotalCellsRxFromPorts There is no distinction between virtual and physical trunks with respect to the ATM trunk counter statistics collected by the switch. Hence, the following mib objects, currently return a (0), should also be valid for virtual trunks: atmTrkStatsTxVoCellDrps atmTrkStatsTxTsCellDrps atmTrkStatsTxNonTsCellDrps atmTrkStatsTxHiPrioCellDrps atmTrkStatsTxBdataACellDrps atmTrkStatsTxBdataBCellDrps Customer Impact: Workaround: No workaround. This has been fixed. FURTHER PROBLEM DESCRIPTION: The main cause for this problem is explained below: The get function for the atmTrunkStatsTable differentiates between virtual and physical atm trunks and defines only a subset of the offsets of physical trunks to be valid for virtual trunks. This is probably a sideeffect of the attempt to add virtual trunking function to BTM trunks. There is no difference in the statistics supported for virtual or physical trunks and this code has been cleaned up. |
CSCdp68440 | Symptom: The software logs 961 while downing the last trunk or last line on a BXM card. Condition: This problem occurs only under the following conditions: 1. Have connections routed over any BXM trk. 2. Pull out the card. 3. Issue a deltrk command. Make sure that this is the last trk on the slot. 4. Do dntrk and see software error 961. Workaround: None. |
CSCdp72012 | Symptom: Switch software error 129 is seen on a node. Condition: There can be a number of different reasons why this error 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. |
CSCdp73065 | Symptom: Background test errors are seen on cards with ports with VSI partition configured. Condition: The VSI partition is assigned VPI=0, and data is sent on the port that uses VPI=0. Workaround: Disable background tests using the cnftstparm command. |
CSCdp73606 | Symptom: When the line is downed, the LED remains on Conditions: The line is downed by using dnln command, but the LED does not reflect the DOWN condition. Instead, it remains in the UP condition, and stays green. Workaround: None. Further Problem Description: The LED sould be in RED when the line is downed or inactive. It should be in green when it is active and up. |
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: Problem can occur when some connections are added or deleted such that the total load (as well as the total load of each type) on the trunk remained the same, but the number of conids used changed. Workaround: This condition should change automatically as soon as there is a change in the load on that trunk. |
CSCdp83180 | Symptoms: Switch software errors 614 or 612 or 325 are displayed after a fall back to software release 9.2 or 9.3. 'dlcon 11049' in 9.2.30+ shows lcon index as 0. Workaround: Turn off hitless rebuild before upgrade. |
CSCdp83902 | Symptom: The second physical line on an UVM cannot send an alarm to the attaching CPE. This can cause one of the following symptoms: 1. T1 CCS line conditioning (cnflnsigparm command, option 12) does not work on the second physical line on any UVM 2. 2. The second physical line on a UVM will not function as the secondary line in a line passthrough configuration Conditions: 1. T1 CCS line conditioning is enabled (cnflnsigparm, option 12), and at least one of the channel connections on UVM second physical line fails. 2. Using the second physical line on an UVM in a line passthru configuration (cnflnpass) Workaround: None. Further Problem Description: The IGX does not send an alarm to the CPE which attachs to the second line on a UVM card. If T1 CCS line conditioning is enabled, IGX sends the yellow-alarm to the CPE (PBX) whenever one of the channel connections on the T1 line fails, or when the remote CPE (PBX) sends a yellow-alarm to the IGX network. This defect prevents the IGX from sending the alarm to the CPE which attachs to the second line of a UVM card. |
CSCdp87624 | Symptom: Several 618 switch software errors are logged, followed by a group of 429 switch software errors. Subsequently, it is possible that a third group of 2085 switch software errors are logged. Condition: The situation happens under the following conditions: 1. The node is configured with the maximum allowable number of virtual trunks on a physical port; for example, 32 virtual trunks on a BNI-T3 port. 2. A local rebuild is performed on the node. Workaround: If it is imperative to retain the maximum number of virtual trunks 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 number of virtual trunks. For instance, 31 virtual trunks on a BNI-T3 is okay. Severity of Problem: Once the problem occurs, the trunk database has been corrupted. In many test instances, bringing the trunk down (dntrk command) followed by rebuild or switchcc did not cure the corrupted database. The only foolproof way to restore the node is to clear the configuration (clrallcnf command). |
CSCdp93368 | Symptom: Bringing a UXM line up causes the user command line interface to be sluggish or unresponsive for a short time. Condition: On UXM cards, upping a line with the upln command causes CPU usage to increase greatly if there are a great many connections on other ports on that UXM card. This problem is due to connection conditioning. Workaround: None. |
CSCdp93728 | Symptom: When a port or VI summary statistic (displayed through the dspportstats command) overflows, only that statistic is cleared. The other statistics are not cleared. Conditions: The following conditions are needed for this problem to occur. 1. A BXM/ASI card with ports up. 2. Traffic is passing through the port. After some time, one of the statistics overflows. Customer Impact: The summary statistics collected for the port/VI are inaccurate as they are collected over different time intervals. The inaccuracy results from the fact that if one statistic overflows and wraps around, it would contain information for a shorter time periodwhile other statistics would contain information for a much longer time. Workaround: None. This problem has been fixed. Further Problem Description: The main cause for this problem is explained below: Every <polling interval>, summary statistic databases (of size ULONG) are updated with the statistics obtained from the firmware. Before updating a summary statistic counter, a check to verify if adding the new data would cause an overflow should be performed, in which case the entire summary statistic database should be cleared. This is to ensure that all the summary statistics are collected over the same period of time. There was a bug found in the code, wherein, we add the new data to the counter and then check to see if an overflow occured. Since adding the data first would already have caused the overflow and wraparound, the ensuing check will not be able to detect it and hence, the entire database is not cleared. Relevant UI commands: dspportstats |
CSCdp94039 | Symptom: Switch software error 2000 is logged when snmpwalk is done or snmpget is done for switchIfCtrlVPI and switchIfCtrlVCIStart mib variables on an IGX. Condition: Occurs on the IGX node. Workaround: Ignore these errors or avoid snmpget on these objects. |
CSCdp95286 | Symptom: Cross point test from a BXM card to ASI card fails Conditions: The port on the BXM card is configured as NO SHIFT. Workaround: 1. Change it to SHIFT or have a lower number port on the same card with SHIFT. 2. Add a connection that ends on the "SHIFT" BXM port using VPI/VCI 1/257. |
CSCdp95807 | Symptom: The Channel count reported to Cisco Wan Manager in the SVR_TRUNK_OBJect for virtual trunks is the sum of all the virtual trunk channels. Conditions: Problem only occurs with virtual trunks. Workaround: None. This does not affect any operation of the NODE. |
CSCdp96768 | Symptom: Over allocation of bandwidth on qbin 2, used for HP traffic (CC traffic). This problem is seen when switch software 9.2.3x,which doesn't contain this fix but recognizes the object 0x0C/0x53 message, and going to switch software 9.3.0. Condition: This problem occurs only for the above scenario. Normally, while going from 9.2.3x software (which doesn't contain this fix) to 9.3.00 software, the firmware will be burnt first as part of the process. In this scenario, it may result in the condition as said above. Workaround: None. |
CSCdp98970 | Symptom: The VT session is broken by a timeout when running the command dsprts . Conditions: BPX is running switch software release 9.2.30, and the BXM is BXM-155 FFA SM-8 BB and in Active mode. Workaround: USe the dsprts command when logged in through telnet or through the Control Port rather than logged in through VT. |
CSCdp99622 | Symptom: Burning firmware on a stand alone card generates an error. Conditions: Burn the firmware on a stand alone UXM. Workaround: None. |
CSCdp9978 | Symptom: Not all IMA line/trunk group members are being tested for alarms when running line loop diagnostics. Conditions: This problem occurs for IMA lines and trunks with more than one link. Workaround: None. |
CSCdr00360 | Symptom: Cannot run the command tstdelay while the card is being initialized. Conditions: BXM in line configuration with y-red and the redundancy is currently active. Workaround: Switch y-red. |
CSCdr02297 | Symptom: Doing addshelf and VSI partition using the same VPI can cause a communications break. Condition: When addshelf (i, a, or x) is done using the command cnfrsrc to configure VSI range to cover VPI = 1 and/or 3. Workaround: None. |
CSCdr03562 | Symptom: After a FAIL return of the cnfpwd command, echo is not turned on. Conditions: The failure has to be "Communication Error, try again later." Workaround: Log out and log back in again. Echo is turned on after the password is entered again. |
CSCdr04828 | Symtoms: The LMI channel on a feeder trunk is not deleted after the delshelf command is issued. Conditions: This problem occurs when an AAL/5 shelf is added. Workaround: None. |
CSCdr06086 | Symtom: The error message "Card does not support High Priority traffic" is overwritten by another error message "Invalid Bandwidth Parameter." Conditions: This problem is seen when High Priority traffic is passed. Workaround: None. |
CSCdr06280 | Symptom: Trunk failed if a mapping device is used in middle of the trunk and the ds0 mappings on both ends are different. Condition: The problem occurs when a trunk is added---the mapping device used in middle of the trunk and the ds0 mappings on both ends are different. Workaround: None. For a trunk having a mapping device, it is not supported in the software to change the line DS-0 map after the trunk is added. |
CSCdr08084 | Symptom: After a Y-red switchover, all connections failed. Conditions: This problem occurs only when the standby card is in self-test when addyred is executed. Workaround: Do not execute addyred while the standby card is in self-test. If Y-red has been added while the standby card is in self-test, then reset the standby card to force the configuration to be sent to the card. |
CSCdr08231 | Symptom: The summary trunk Qbin statistics displayed via the dspqbinstats command on the BPX switch cannot be cleared by any of the existing clrear statistics commands; for example, clrtrkstats for trunk Qbin statistics. Conditions: The symptom is seen under the following conditions: 1. Line statistic sampling is ON (on2 1). 2. The switch collects non-zero summary Qbin statistics for trunks which are displayed by the dspqbinstats command. 3. Issue a clrtrkstats command to clear all summary trunk statistics collected for one or more trunks. 4. Issuing the dspqbinstats command on the cleared trunks indicates that the summary Qbin statistics for the trunk have not been cleared. Customer Impact: The trunk Qbin summary statistics cannot be cleared unless the trunk is brought down and then brough back up again. Workaround: None. This problem has been fixed, and issuing the command clrtrkstats <trunk> clears the QBin trunk statistcis, too. Further Problem Description: In switch software release 9.2 (when the dspqbinstats command was added on the BPX), the code for clearing the Qbin statistics was not added to the clrtrkstats command. This problem has been fixed. |
CSCdr08952 | Symptom: Node aborts when the command addloclp is issued on a DAX connection terminating on a BNI feeder. Conditions: The following conditions must be true for this to happen: 1. A BNI feeder is added using SNMP 2. The BNI feeder was the last line/trunk added to the node. 3. The node has not been rebuilt since adding the BNI feeder. Workaround: If the node has already aborted, the problem will not happen again, unless the above conditions are re-established. If the node has not yet aborted, the problem can be avoided by upping any line or trunk on the node using the CLI. |
CSCdr10473 | Symptom: Switch software error 1012 is logged when the total connection channels on a UXM card exceeds the available LCNs on that card. The events hitless rebuild, switchcc, node rebuild, and reset card triggers the recalculation of LCNs configured on ports and trunks activated on the card and during this process, if software finds the total configured channels exceeds the available LCNs, then it logs software error 1012. As soon as software error 1012 is triggered, the software resets the the total used card LCNs to the endpoints on that card. For example, if there are 1000 connections originating or terminating on this card, the "total number of LCNs used" field points to only 1000, though this card has trunks activated if any which is not accounted. It is strongly recommended to execute the workaround enclosed here before doing any connection provisioning (addition, rerouting ) on this card. Condition: The symptom may occur when "connection channels" configured per UXM trunk become corrupted during the collision of "connection channel" reconfiguration at the same time on one side of the trunk. UXM_1 @ NODE A---UXM_2 @ NODE B For example, reconfiguring the connection channels on any one trunk (UXM_1) and any one trunk (UXM_2) at the same time may lead to the corruption of the "connection channels" field. This is a very rare condition. Workaround: 1. Loop through all the trunks activated and check for the number of channels configured per trunk. 2. Add (270 times the number of trunks upped) to the above (270 is for networking traffic) if it a legacy UXM card. If it is UXM-E, just add 270 to the above irrespective of the number of trunks activated. 3. Add "total # endpoints originating or terminating on this card" count to the above. 4. Make sure the total of all the above does not exceed the "total LCNs" supported. If it does exceed the total, reconfigure in such a way to meet the above condition. |
CSCdr11310 | Symptom: Switch software error message 987 is logged. Condition: This symptom occurs when Configure a port to run LMI or ILMI Workaround: None. |
CSCdr11823 | Symptom: Potential problems in connections setup using VSI controller (either PNNI controller or an MPLS controller) if the connection uses VPI=1, VCI=257. Condition: A VSI based connection uses VPI=1, VCI=257 and BCC selftest is enabled using the cnftstparm command. Workaround: Disable BCC selftest using the cnftstparm command. |
CSCdr11837 | Symtoms: When the dspchoid command is issued, the IP relay channels are not displayed. For example: should display information on channel 8009, but it displays the following error instead: Conditions: This symptom occurs when (8000 + (2 * max_port)) is not within 8009-8016 Workaround: None. |
CSCdr12300 | Symptom: An snmpset request is rejected when the value for atmPortQueueDepth is set higher than 11000. Conditions: This symptom occurs due to a limitation of the interface. Through SNMP, the maximum value for atmPortQueueDepth is 11000. However, the comand line interface permits a maximum value higher than 11000. Workaround: Use the CLI command cnfporq for configuring an atmPortQueueDepth value larger than 11000. |
CSCdr14544 | Symptom: Traffic is dropped on the vpi.vci 0.18. Condition: A path connection was added on the port using the vpi zero. ILMI protocol was enabled on the port and was using 0.16 as the vpi.vci. Workaround: Configure the ILMI/LMI protocol to use a different VPI, or do not add a path connection on the VPI 0. Basically do not have the path connection and the ILMI/LMI protocol use the same VPI on the same port. |
CSCdr14558 | Symptom: For Y-red UFMs, and if the active card is secondary. Under such conditions, when switch software receives an 0xB5 message, the feeder port database updating for the standby NPM and feeder port robust message is wrong. Conditions: This symptom occurs when the active card is secondary for Y-red, and the standby NPM gets incorrect database updating. |
CSCdr14935 | Symptom: Adding a connection (addcon command) between the UFM and UXM fails from the UFM end. Conditions: This symptom occurs due to uninitialized cd_type; therefore, failing of addcon may be random. Workaround: None. |
CSCdr17056 | Symptom: NMS does not move connections to the standby node when the card in the primary node is removed and the standby node/port lifts the lead state. Conditions: NMS cannot detect hardware failure or a missing card in the switch. Workaround: When the card is removed, the connection needs to be moved to standby node by operation. |
CSCdr19348 | Symptom: NTS connections get bit errors when FrameRelay bursts fill up the trunk capacity. Conditions: The symptom occurrs when Voice, FAX and NTS data are competing for bandwidth usage with Frame relay data(burst). This symptom is likely seen when there are a lot of FAX connections with modem upgrades. Workaround: Route connections through other trunks, such as NTM. |
CSCdr20760 | Symptom: While deleting a trunk, the user gets the prompt "Delete this line (y/n)?". Conditions: Symptom always occurs while deleting a trunk. Workaround: None. This problem is now fixed. While deleting a trunk, the user now gets a prompt "Delete this trunk (y/n)?". |
CSCdr21739 | Symptom: The Trns Handler uses up most of the resources on the CPU; many connections fail to route, but the Trns Handler continues trying. Conditions: This symptom occurs under trunk failures that reduce available bandwidth. Workaround: Turning off routing (off1 11). |
CSCdr26582 | Symptom: A card on a BXM to which an SES-PNNI controller is attached errors. Condition: This symptom occurs when the VSI capability of an SES-PNNI contoller is removed using delctrlr command, then readded using the addctrlr command. Workaround: Before issuing the addctrlr command, delete the AAL5 shelf and readd it using the delshelf and addshelf commands. |
CSCdr30234 | Symptom: The IGX switch softwarewon't update the trunk and gateway channels of a trunk if that trunk doesn't belong (is connected to) this node. Condition: This symptom occurs only when channel reconfiguration is attempted using the commands cnrsrc and cnftrk. Workaround: None. |
CSCdr32875 | Symptom: If the commands cnftrk or cnfrsrc are used on a trunk to decrease the number of connection channels to less than the number of connections routed on the trunk, then the via connections or slave connections on that trunk will not get rerouted. Condition: This symptom occurs under the following conditions: 1. If four or more nodes are connected in the following manner: A---B---C---D 2. If cnftrk or cnfrsrc commands are issued for trunk B---C from either node B or node C, such that the connection channels are less than the number of connections routed over that trunk. 3. If some connections are mastered at either node A or node D. It is these connections that may not get rerouted. Workaround: Do not use the commands cnftrk/cnfrsrc on a trunk carrying via connections/slave connections. |
CSCdr41370 | Symptom: The average cell per second (CPS) values displayed when the command dspchstat is issued does not always reflect the correct transmit rate. Instead, the true CPS values take some time to be accurately displayed. Conditions: This symptom occurs whenever the dspchstats command is issued for software images after 9.2.30. Workaround: When the dspchstats command is issued, the only values displayed that are incorrect are the fields: Collection Tim, Avg CPS, %util. This information can be extrapolated from the TFTP or USER interval statisticss which have a minimum granularity of 5, 10 or 15 minutes based upon the number of connections they have in the network. If we divide the "Port Cells Received on Channel" statistic by the interval (5, 10 or 15 minutes) they will get the approximate average CPS. Therefore: <Port Cells Received on Channel> / <interval> = avg. CPS Further Problem Description: The root cause of this problems was that a timer's initialization was removed by a different defect fix. The result of this removal is that vcs_cur_ticks timer does not get reset. Therefore, it contains the last time that the previous response was received rather than when the current response was received, making the time value is too large. Since the time value is too large, this in turn, when plugged into the formula shown above, calculates a very small and incorrect CPS average. It will eventually (over an extremely long period of time) approach the correct value, asymptotically. The sequence is as follows: t = A Normal statistics polling response is received from the card, vcs_cur_ticks is set to now (A). t = B Command clrchstats is issued, which sets flags to drop the next sample (for summary statisticss) and to reinitialize the vcs_cur_ticks field. t = C Command dspchstats is issued, which causes a statistics poll to be sent to the card and a response to be sent back nearly instantaneously. When the response is received, the summary statistic filter flag is set so we drop the first response (and we should set the vcs_cur_ticks field at this point but we don't). t = D Command dspchstats sends its second poll request, and we get back the response. We update the data for cells RX/TX, etc. We calculate the amount of time this data is for by subtracting the vcs_cur_ticks count (A) from the current time(D) so the time delta is (D - A). Here is the problem. This time value should be (D - C) but because the intialization code was removed it is (D - A), too big. The connection polling rate can be configured to 5, 10 or 15 minutes, therefore the amount of time that this can be off by is 4'59", 9'59" or 14'59". It also can coincidentally be correct if t=A and t=C are very close to each other. |
Following is the list of fixed problems in the 9.2.32 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: All versions of switch software that support trunk deroute delay feature. Only seen when deroute delay is enabled and non zero on a trunk. Workaround: switchcc clears the problem. |
CSCdr26613 | Symptom: Connections get rerouted when active line of APS goes in yellow alarm Conditions: Active line is in Yellow alarm and Standby line is OK Workaround: None Further Problem Description: This behaves on regular trunk. On APS even if active line is in alarm there can exist a path to transmit and receive the data. For example: Active line in Yellow and Standby in LOS then using Rx of active it can receive the data and using Tx of standby it can send the data. |
CSCdr35085 | Symptom: Can not stop switchcc command. i.e. switchcc continues executing evenif user says "n" when asked to "Continue?". Conditions: Issue switchcc on bpx node, and if standby updates are pending, if the user reply "n" to not to continue the switchcc, it still does the switchcc. Workaround: Do switchcc only after updates are over. Use dspcds and dspqs to verify that standby card is in "Standby" state and no updates are pending. |
The SNMP IGX/BPX switch SNMP MIB is being provided with the delivery of Release 9.2.33 Switch Software. The MIB is in standard ASN.1 format and is located in the ASCII text files agent.m, ilmi.m, ilmi_ctl.m, ilmiaddr.m, 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.
The following Switch MIB changes were introduced since Release 9.2.00. The changes include Obsolete objects, Modified objects, and New objects:
New objects:
switchIfCtrlVPI switchIfCtrlVCIStart
Modified objects:
switchIfEntry switchIfScTmpltId
New objects:
atmPortHcfShift
Modified objects:
atmPortEntry atmPortMetro
Modified objects:
atmPortQueueType atmPortQueueDepth
Modified objects:
connCurrRouteDesc connPrefRouteDesc
Modified objects:
atmEndptDesc atmOtherEndptDesc atmEndptSubType atmEndptMCR
Modified objects:
atmBwClassConType
The following objects are associated with the switchShelf configuration branch.
shelfCnfgFBTC shelfCnfgSerialLeadTypeIndex shelfCnfgSerialLeadMonitorTimer shelfCnfgSystemTime
Modified objects:
slotBackType slotFrontNumPort slotBackSonetMode slotCardMinBusUBU
Modified objects:
sonetIfType
New objects:
sonetStatsYelTcs sonetStatsAisTcs sonetStatsLocs sonetStatsLops sonetStatsPthAis sonetStatsPthYels sonetStatsSecBip8s sonetStatsLnBip24s sonetStatsLnFebes sonetStatsPthBip8s sonetStatsPthFebes sonetStatsSecBip8Es sonetStatsLnBip24Es sonetStatsLnFebeEs sonetStatsPthBip8Es sonetStatsPthFebeEs sonetStatsSecBip8Ses sonetStatsSecSefs sonetStatsLnBip24Ses sonetStatsLnFebeSes sonetStatsPthBip8Ses sonetStatsPthFebeSes sonetStatsLnUas sonetStatsLnFarendUas sonetStatsPthUas sonetStatsPthFarendUas sonetStatsHcsCrtblErrEs
Modified objects:
sonetStatsEntry
Modified objects:
atmTrkType atmTrkTrafCls
New objects:
rsrcPartiVsiIlmiEnable
Modified objects:
rsrcPartiEntry rsrcPartiVsiVpiEnd
New objects:
serialPortLeadState
Modified objects:
SerialPortEntry serialPortLeadState
The default values for BXM and Enhanced-BXM cards are the same.
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
System-Wide Parameters
1 Max Time Stamped Packet Age (msec) ................................ 32
2 Allow CPU Starvation of Fail Handler .............................. 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 Statistics polling rate for ATM VCs....................... 5
25 Interval Statistics polling rate for ports on IPX/IGX 8400 nodes... 5
This Command: cnfsysparm
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
1 Update Initial Delay [ 5000] (D) 16 Stats Memory (x 100KB) [ 132] (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 Max Htls Rebuild Count [ 100] (D)
32 SNMP Event logging [ Y] (Y/N) 47 Htls Counter Reset Time[ 1000] (D)
33 Job Lock Timeout [ 60] (D) 48 Send Abit early [ N] (Y/N)
34 Max Via LCONs [50000] (D) 49 Abit Tmr Multiplier M [ 0] (D)
35 Max Blind Segment Size [ 3570] (D) 50 Abit Tmr Granularity N [ 3] (D)
36 Max XmtMemBlks per NIB [ 3000] (D) 51 FBTC with PPDPolicing [ N] (Y/N)
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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
Index Status Function
1 Disabled Configuration Save/Restore
2 Enabled ForeSight
3 Disabled Multiple VTs (1 session enabled)
4 Disabled Virtual Trunks
5 Enabled ABR standard with VSVD
This Command: cnfswfunc
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
Card Test - - - - - - Self Test - - - - - - - - - Background Test - - -
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
hugo TN StrataCom BPX 8620 9.2.33 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 [ 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
hugo TN StrataCom BPX 8620 9.2.33 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) [ 20000]
15 FW Dnld Block TO(msec) [ 50]
This Command: cnfdlparm
hugo TN StrataCom BPX 8620 9.2.33 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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
Function Number Status
Region memory init 1 Disabled
Trace Msg Sent 2 Disabled
Multi-DB Stby Updates 3 Enabled
Trace Conv Msg 4 Disabled
This Command: on3
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 1.1 Config T3 [96000 cps] BNI-T3 slot: 1
Transmit Rate: 96000 VPC Conns disabled: --
Protocol By The Card: -- Line framing: PLCP
VC Shaping: -- coding: --
Hdr Type NNI: -- recv impedance: --
Statistical Reserve: 1000 cps cable type:
Idle code: 7F hex length: 0-225 ft.
Connection Channels: 1771 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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 1.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 1.1 Parameters
1 Q Depth - rt-VBR [ 242] (Dec) 15 Q Depth - CBR [ 600] (Dec)
2 Q Depth - Non-TS [ 360] (Dec) 16 Q Depth - nrt-VBR [ 1000] (Dec)
3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 8878] (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 - nrt-VBR [ 100] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 1.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 2.1 Config E3 [80000 cps] BNI-E3 slot: 2
Transmit Rate: 80000 VPC Conns disabled: --
Protocol By The Card: -- Line framing: --
VC Shaping: -- coding: --
Hdr Type NNI: -- recv impedance: --
Statistical Reserve: 1000 cps cable type:
Idle code: 7F hex length: 0-225 ft.
Connection Channels: 1771 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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 2.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 2.1 Parameters
1 Q Depth - rt-VBR [ 202] (Dec) 15 Q Depth - CBR [ 600] (Dec)
2 Q Depth - Non-TS [ 300] (Dec) 16 Q Depth - nrt-VBR [ 1000] (Dec)
3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [ 8978] (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 - nrt-VBR [ 100] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 2.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 3.1 Config OC3 [353207cps] BNI-155 slot: 3
Transmit Rate: 353208 VPC Conns disabled: --
Protocol By The Card: -- Line framing: STS-3C
VC Shaping: -- coding: --
Hdr Type NNI: -- recv impedance: --
Statistical Reserve: 1000 cps cable type: --
Idle code: 7F hex length: --
Connection Channels: 16050 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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 3.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 3.1 Parameters
1 Q Depth - rt-VBR [ 885] (Dec) 15 Q Depth - CBR [ 600] (Dec)
2 Q Depth - Non-TS [ 1324] (Dec) 16 Q Depth - nrt-VBR [ 1000] (Dec)
3 Q Depth - TS [ 1000] (Dec) 17 Q Depth - ABR [15463] (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 - nrt-VBR [ 100] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 3.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 10.1 Config T3 [96000 cps] BXM slot: 10
Transmit Rate: 96000 VPC Conns disabled: No
Protocol By The Card: No Line framing: PLCP
VC Shaping: No coding: --
Hdr Type NNI: Yes recv impedance: --
Statistical Reserve: 1000 cps cable type: --
Idle code: 7F hex length: 0-225 ft.
Connection Channels: 256 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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 10.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 10.1 Parameters
1 Q Depth - rt-VBR [ 242] (Dec) 15 Q Depth - CBR [ 400] (Dec)
2 Q Depth - Non-TS [ 360] (Dec) 16 Q Depth - nrt-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 - nrt-VBR [ 60] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 10.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 11.1 Config E3 [80000 cps] BXM slot: 11
Transmit Rate: 80000 VPC Conns disabled: No
Protocol By The Card: No Line framing: --
VC Shaping: No coding: --
Hdr Type NNI: Yes recv impedance: --
Statistical Reserve: 1000 cps cable type: --
Idle code: 7F hex length: 0-225 ft.
Connection Channels: 256 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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 11.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 11.1 Parameters
1 Q Depth - rt-VBR [ 202] (Dec) 15 Q Depth - CBR [ 400] (Dec)
2 Q Depth - Non-TS [ 300] (Dec) 16 Q Depth - nrt-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 - nrt-VBR [ 60] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 11.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 5.1 Config OC3 [353207cps] BXM slot: 5
Transmit Rate: 353208 VPC Conns disabled: No
Protocol By The Card: No Line framing: STS-3C
VC Shaping: No coding: --
Hdr Type NNI: Yes recv impedance: --
Statistical Reserve: 1000 cps cable type: --
Idle code: 7F hex length: --
Connection Channels: 256 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,N&RT-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 5.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 5.1 Parameters
1 Q Depth - rt-VBR [ 885] (Dec) 15 Q Depth - CBR [ 600] (Dec)
2 Q Depth - Non-TS [ 1324] (Dec) 16 Q Depth - nrt-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 - nrt-VBR [ 60] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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 5.1
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 9.1 Config OC12 [1412679cps] BXM slot: 9
Transmit Rate: 1412830 VPC Conns disabled: No
Protocol By The Card: No Line framing: STS-12C
VC Shaping: No coding: --
Hdr Type NNI: Yes recv impedance: --
Statistical Reserve: 1000 cps cable type: --
Idle code: 7F hex length: --
Connection Channels: 256 Pass sync: No
Traffic:V,TS,NTS,FR,FST,CBR,NRT-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
hugo TN StrataCom BPX 8620 9.2.33 Date/Time Not Set
TRK 9.1 Parameters
1 Q Depth - rt-VBR [ 3533] (Dec) 15 Q Depth - CBR [ 1200] (Dec)
2 Q Depth - Non-TS [ 5297] (Dec) 16 Q Depth - nrt-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 - nrt-VBR [ 60] (%)
7 Max Age - rt-VBR [ 20] (Dec) 21 High CLP - nrt-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
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
System-Wide Parameters
1 Max Time Stamped Packet Age (msec) ................................ 32
2 Allow CPU Starvation of Fail Handler .............................. 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
mulder TN StrataCom IGX 8420 9.2.33 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) 46 Modem polling timer [ 1] (D)
32 Job Lock Timeout [ 0] (D) 47 Verify CBA for non-FRP [ N] (Y/N)
33 Max Via LCONs [20000] (D) 48 Send Abit early [ N] (Y/N)
34 Max Blind Segment Size [ 3570] (D) 49 Abit Tmr Multiplier M [ 0] (D)
35 Max XmtMemBlks per NIB [ 3000] (D) 50 Abit Tmr Granularity N [ 3] (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 Max Htls Rebuild Count [ 100] (D)
45 Htls Counter Reset Time[ 1000] (D)
This Command: cnfnodeparm
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
Index Status Function
1 Disabled Data Frame Multiplexing
2 Disabled Adaptive Voice
3 Enabled 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 Enabled Virtual Trunks
10 Disabled ABR standard with VSVD
This Command: cnfswfunc
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
Card Test - - - - - - Self Test - - - - - - - - - Background Test - - -
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
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 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
mulder TN StrataCom IGX 8420 9.2.33 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
CBUS Flood Protection 10 Enabled
This Command: on3
mulder TN StrataCom IGX 8420 9.2.33 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
Traffic: V,TS,NTS,FR,FST
Deroute delay time: 0 seconds
Last Command: dsptrkcnf 3
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ N/A] 19 Tx Max Age - rt-VBR (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 rt-VBR [ N/A] 15 BDataA [ N/A] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 4 Config T1/24 [8000 pps] NTM slot:4
Line DS-0 map: 0-23
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.
Traffic: V,TS,NTS,FR,FST
Deroute delay time: 0 seconds
Last Command: dsptrkcnf 4
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ N/A] 19 Tx Max Age - rt-VBR (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 rt-VBR [ N/A] 15 BDataA [ N/A] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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
Traffic: V,TS,NTS,FR,FST
Deroute delay time: 0 seconds
Last Command: dsptrkcnf 5
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ N/A] 19 Tx Max Age - rt-VBR (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 rt-VBR [ N/A] 15 BDataA [ N/A] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 1000] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 1000] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 2264] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Header Type: STI Deroute delay time: 0 seconds
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 12
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 28] 15 BDataA [ 600] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 2264] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 2264] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic: V,TS,NTS,FR,FST
Loop clock: No Deroute delay time: 0 seconds
Statistical Reserve: 1000 pps
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 4] 15 BDataA [ 2264] 29 rt-VBR [ 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
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1 Config E1/30 [4528 cps] UXM slot:11
Line DS-0 map: 1-15,17-31 Line coding: HDB3
IMA Group Member(s): 1 Line recv impedance: 120 ohm
Retained links: 1 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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
Statistical Reserve: 600 cps IMA Protocol Option: Disabled
Header Type: NNI IMA Max. Diff. Dly: 200 msec.
VPI Address: 1 IMA Clock Mode: CTC
Routing Cost: 10 Deroute delay time: 0 seconds
Idle code: 54 hex VC Shaping: No
Restrict PCC traffic: No VPC Conns disabled: No
Link type: Terrestrial
Last Command: dsptrkcnf 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1 Parameters:
1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000]
2 Rx Max Age - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 27] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1(4) Config E1/119 [17962 cps] UXM slot:11
Line DS-0 map: 1-15,17-31 Line coding: HDB3
IMA Group Member(s): 1-4 Line recv impedance: 120 ohm
Retained links: 4 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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
Statistical Reserve: 600 cps IMA Protocol Option: Enabled
Header Type: NNI IMA Max. Diff. Dly: 200 msec.
VPI Address: 1 IMA Clock Mode: CTC
Routing Cost: 10 Deroute delay time: 0 seconds
Idle code: 54 hex VC Shaping: No
Restrict PCC traffic: No VPC Conns disabled: No
Link type: Terrestrial
Last Command: dsptrkcnf 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1(4) Parameters:
1 Yel Alm-In/Out (D) [ 1000/ 2000] 18 Red Alm-In/Out (D) [ 1000/ 2000]
2 Rx Max Age - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 101] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1 Config T1/24 [3622 cps] UXM slot:11
IMA Group Member(s): 1 Line coding: B8ZS
Retained links: 1 Line cable type: ABAM
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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
VPI Address: 1 IMA Protocol Option: Disabled
Routing Cost: 10 IMA Max. Diff. Dly: 200 msec.
Idle code: 7F hex IMA Clock Mode: CTC
Restrict PCC traffic: No Deroute delay time: 0 seconds
Link type: Terrestrial VC Shaping: No
Line framing: ESF VPC Conns disabled: No
Last Command: dsptrkcnf 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1 Parameters:
1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000]
2 Rx Max Age - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 22] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1(4) Config T1/95 [14339 cps] UXM slot:11
IMA Group Member(s): 1-4 Line coding: B8ZS
Retained links: 4 Line cable type: ABAM
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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
VPI Address: 1 IMA Protocol Option: Enabled
Routing Cost: 10 IMA Max. Diff. Dly: 200 msec.
Idle code: 7F hex IMA Clock Mode: CTC
Restrict PCC traffic: No Deroute delay time: 0 seconds
Link type: Terrestrial VC Shaping: No
Line framing: ESF VPC Conns disabled: No
Last Command: dsptrkcnf 11.1
mulder TN StrataCom IGX 8420 9.2.33 Date/Time Not Set
TRK 11.1(4) Parameters:
1 Yel Alm-In/Out (D) [ 600/ 600] 18 Red Alm-In/Out (D) [ 2500/ 15000]
2 Rx Max Age - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 81] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
Statistical Reserve: 1000 cps Deroute delay time: 0 seconds
Header Type: NNI VC Shaping: No
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 532] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
Statistical Reserve: 1000 cps Deroute delay time: 0 seconds
Header Type: NNI VC Shaping: No
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 443] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
mulder TN StrataCom IGX 8420 9.2.33 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 Traffic:V,TS,NTS,FR,FST,CBR,N&RVBR,ABR
Loop clock: No Frame Scramble: Yes
Statistical Reserve: 1000 cps Deroute delay time: 0 seconds
Header Type: NNI VC Shaping: No
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
mulder TN StrataCom IGX 8420 9.2.33 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 - rt-VBR (D) [ 20] 19 Tx Max Age - rt-VBR (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 rt-VBR [ 1952] 15 BDataA [10000] 29 rt-VBR [ 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 nrt-VBR[ 5000] 39 nrt-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 nrt-VBR[ 80] 45 nrt-VBR[ 60] 50 nrt-VBR[ 80] 53 nrt-VBR[ 60]
43 ABR [ 80] 46 ABR [ 60] 51 ABR [ 80] 54 ABR [ 60]
This Command: cnftrkparm 11.1
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.
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For service and support for a product purchased directly from Cisco, use CCO.
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.
Posted: Thu Jul 13 13:49:18 PDT 2000
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