Release Notes for Cisco ONS 15454 Release 7.0.2 September 2006 Release notes address closed (maintenance) issues, caveats, and new features for the Cisco ONS 15454 SONET multiplexer. For detailed information regarding features, capabilities, hardware, and software introduced with this release, refer to the “Release 7.0” version of the Cisco ONS 15454 DWDM Installation and Operations Guide; and the “Release 7.
Changes to the Release Notes Changes to the Release Notes This section documents supplemental changes that have been added to the Release Notes for Cisco ONS 15454 Release 7.0.2 since the production of the Cisco ONS 15454 System Software CD for Release 7.0.2. The following changes have been added to the release notes for Release 7.0.2. Changes to Caveats The following caveats have been added.
Caveats CSCuk48503 Under specific conditions the non-enhanced MXPD does not pass the Telcordia GR-253/G.825 Jitter generation mask test on 10G TX Trunk port. The 2.5 G TX Client jitter generation is always within mask and does not exhibit this issue. This occurs only when, in SONET mode, there is no FEC, no G.709, and client interfaces are looped back, with non-synchronous clocking, and the jitter testbox TX connected to Trunk RX port, while the jitter testbox RX is connected to the Trunk TX port.
Caveats Note CTC does not support adding/creating more than 5 circuits in auto-ranged provisioning. This is as designed. Note In releases prior to 4.6 you could independently set proxy server gateway settings; however, with Release 4.6.x and forward, this is no longer the case. To retain the integrity of existing network configurations, settings made in a pre-4.6 release are not changed on an upgrade to Release 7.0.x.
Caveats As a workaround to the standing alarm, you can change the BIC-MEA alarm severity by creating and using a custom alarm profile following the steps that apply for your network in the NTP-A71 Create, Download, and Assign Alarm Severity Profiles procedure of the Manage Alarms chapter in the Cisco ONS 15454 Procedure Guide, Release 6.0. This issue will be resolved in Release 6.1.
Caveats CSCdu82934 When you auto-route a VT circuit on an ONS 15454 node, a path is computed based on the availability of STSs on the nodes involved. This selection process, when combined with a lack of VT matrix (or STS-VT connections) on an auto-route selected node, can result in the VT circuit creation failing with the message “unable to create connection object at node.” To correct this situation, manually route VT circuits in cases when auto-routing fails.
Caveats CSCee82052 After setting the node time (either manually or via NTP) you must wait for the endpoint of the interval to be reached before the end time will reflect the recently-set node time. Until this has occurred, the date time stamp for the end of the retrieved interval remains 12/31/69. This issue has been closed and will not be resolved. CSCdx35561 CTC is unable to communicate with an ONS 15454 that is connected via an Ethernet craft port.
Caveats CSCdy10030 CVs are not positively adjusted after exiting a UAS state. When a transition has been made from counting UAS, at least 10 seconds of non-SES must be counted to exit UAS. When this event occurs, Telcordia GR-253 specifies that CVs that occurred during this time be counted, but they are not. There are no plans to resolve this issue at this time.
Caveats “Are you sure” Prompts Whenever a proposed change occurs, the “Are you sure” dialog box appears to warn the user that the action can change existing provisioning states or can cause traffic disruptions. Common Control Cards CSCdw27380 Performing cross connect card switches repeatedly might cause a signal degrade condition on the lines or paths that can trigger switching on these lines or paths.
Caveats created, the alarm behavior is not the same as in two way circuit creation. In particular, for the one way circuit creation, UNEQ-V and PLM-V alarms are reported, and the circuit state remains OOS. This issue will not be resolved. CSCdw66444 When an SDH signal is sent into an ONS 15454 OC-12/STM-4 (IR, 1310 LR and 1550 LR) or an OC-48/STM-16 high-speed (IR and LR) port which has been configured to support SDH, an SD-P (Signal Degrade) alarm will appear as soon as the circuit is created.
Caveats CSCeh43011 An LOS alarm is cleared when switching to protect when the working card is on opposite side of the shelf from the protect card (in portless configuration) in a DS3XM-12 1:N protection group. An electrical port brought into IS state on the portless only card produces an LOS alarm. If you then switch to protect, the alarm appears to clear. To avoid this issue, do not bring electrical ports into IS state on a portless only card. This issue will be resolved in a future release.
Caveats Table 2 SONET Data Cards that are SDH Compatible Product Name Description CE-1000-4 4 port 1000-Mbps Gigabit Ethernet module CE-100T-8 8 port 10/100FE Ethernet module 15454-G1000-4 4 Port Gigabit Ethernet 15454-E100T-G 10/100BT, 12 circuit, compatible w/ XC, XCVT and XC10G 15454-E1000-2-G Gigabit Ethernet, 2 circuit, GBIC - G 15454-ML100T-12 10/100 Mbps Ethernet card, 12 ports, RJ-45, L2/L3 switching, SONET/ANSI system, includes console cable 15454-ML1000-2 1000 Mbps Ethernet card,
Caveats http://www-tac.cisco.com/Support_Library/field_alerts/fn13171.html This issue can last for a few seconds (typically less). The workaround is to avoid issuing any operation (such as the “Clear all MAC” command) that clears the complete MAC table under heavy traffic loads. To recover from this issue, wait for a few seconds to let the invalid addresses age out, and to allow the software to restore the well-known/static MAC addresses.
Caveats Table 4 Protocols Added to the MAC Address Table Protocol Release Protocol Introduced In Broadcast MAC (used by many protocols) 2.2.1 Open Shortest Path First (OSPF) 2.2.2 Cisco Discovery Protocol (CDP) 2.2.2 Per-VLAN Spanning Tree (PVST) 2.2.2 Enhanced Interior Gateway Routing Protocol (EIGRP) 2.2.2 Internet Group Management Protocol (IGMP) 2.2.2 Hot Standby Routing Protocol (HSRP) 3.0.3 E1000-2/E100T Do not use the repair circuit option with provisioned stitched Ethernet circuits.
Caveats CSCds02031 and CSCsb49501 E1000-2/E100 When you drop two 3c multicard EtherSwitch circuits onto an Ethernet card and delete only the first circuit, you should not provision STS-1 circuits to the card without first deleting the remaining STS-3c circuit. If you attempt to create an STS-1 circuit after deleting the first STS-3c circuit, the STS-1 circuit will not work and no alarms will indicate this condition. Under rare conditions, this could trigger a TCC reset.
Caveats CSCdz49700 The ML-series cards always forward Dynamic Trunking Protocol (DTP) packets between connected devices. If DTP is enabled on connected devices (which might be the default), DTP might negotiate parameters, such as ISL, that are not supported by the ML-series cards. All packets on a link negotiated to use ISL are always counted as multicast packets by the ML-series card, and STP and CDP packets are bridged between connected devices using ISL without being processed.
Caveats CSCdz74432 Issuing a “clear IP route *” command can result in high CPU utilization, causing other processes to be delayed in their execution. To avoid this issue do not clear a large number of route table entries at once, or, if you must use the “clear IP route *” command, do not install more than 5000 EIGRP network routes.
Caveats CSCsb79548 A long traffic hit can occur when an active TCC2/TCC2P resets while an MXP_MR_10DME-C or MXP_MR_10DME-L card is rebooting. This issue can be reproduced as follows: Step 1 1. Set up two MXP_MR_10DME-C or MXP_MR_10DME-L cards, connected back-to-back in two different nodes, A and B. Step 2 2. Ensure that Node A has two TCC2 cards; one is active, and the other is standby. Step 3 3. Set up any kind of traffic between the two MXP_MR_10DME-C or MXP_MR_10DME-L cards. Step 4 4.
Caveats Step 4 Perform user-initiated manual Y cable switches from CTC. After a few switchovers, the FC link will go down. SIGLOSS and GFP-CSF alarms are seen on the CTC. Cisco recommends you provision squelching to be on when interworking with brocade switches. If for some reason, squelching must be off with brocade switches, Cisco recommends you use a FORCE command to perform Y cable switches. It is not known when or if this issue will be resolved.
Caveats CSCef15415 RMON TCAs are not raised on the TXPP_MR_2.5G client port after a hardware reset. To see this issue, provision two nodes with TXPP_MR_2.5G (TXP-1 and TXP-2) as follows. Step 1 Connect the TXP-1 DWDM-A trunk to the TXP-2 DWDM-A trunk. Step 2 Connect the TXP-1 DWDM-B trunk to the TXP-2 DWDM-B trunk. Step 3 Create an external fiber loopback on the TXP-1 client. Step 4 Connect the TXP-2 client to a traffic generator. Step 5 Provision 1G FC payload on the TXP-1 and TXP-2.
Caveats Step 1 Connect a jitter testbox TX to Trunk RX port. Step 2 Connect a jitter testbox RX to Trunk TX port. The jitter testbox TX clock recovers from RX with an additional 5 ppm offset added. This issue will not be resolved. CSCef50726 Receive client fiber removal can cause a switch from the protect to the active in a TXPP_MR_2.5G. To see this issue, perform the following steps. Step 1 Set up two nodes with TXPP_MR_2.5G (call the nodes TXP-1 and TXP-2).
Caveats Step 9 Reconnect the fibers for TXP-1 port 1 (client). ALS is now initiated on TXP-1 port 2 (trunk) and the laser shuts down. Traffic never comes back. Note This issue is restricted to the TXPP_MR_2.5G card. To recover from this situation, perform a manual restart or disable the ALS in this configuration. This issue will not be resolved. CSCuk51184 When downloading Release 4.7 nodes with Release 4.
Caveats Step 2 Disable OTN. Step 3 Provision DCC on both client and trunk ports. Step 4 Go to the Network view Provisioning > Overhead Circuits tab. During the EOW circuit provisioning only the MXP/TXP client ports are listed for the selection. This issue will not be resolved. CSCuk51185 After a soft reset of an OSCM or OSC-CSM card, a CONTBUS-IO alarm is raised. This issue will not be resolved. CSCuk50144 Neither E1 nor E2 circuits are available for EOW circuits on TXP_MR_2.
Caveats CSCuk42752 If you go to the Overhead Circuits Tab in network view and select any User Data, F1 or User Data D4-D12 circuit type, no nXP cards are available for selection in the Endpoints. However, user Data type circuits can still be made end-to-end (where “end-to-end” refers to external cards, such as AIC to AIC) if the nXP cards are put in Transparent mode. This issue will not be resolved. CSCeb49422 With TXPP cards, a traffic loss up to six seconds can occur during a DWDM protection switch.
Caveats CSCeb27187 During a Y-Cable protection switch, the client interface sends 200,000 to 300,000 8B/10B errors towards the attached Catalyst 3550 switch. The switch reacts to this large amount of 8B/10B errors by reinitializing the interface and spanning tree. The end result is that a protection switch can lead to a 30-45 second traffic hit if the switch is running spanning tree (default mode). This is expected behavior.
Caveats CSCed10127 Extra traffic is not restored when an SF-R occurs on the same span where a lockout of protect is applied at the opposite node, and where the extra traffic is sourced, destined, or travels through the node with the SF-R. to work around this, issue a lockout on each end of the span at the node where the SF-R occurs. Extra traffic should then be restored. This issue will not be resolved. CSCea59342 DS3 PCA traffic may take up to 20 seconds to recover after a BLSR switch is cleared.
Caveats UPSR Functionality CSCee53579 Traffic hits can occur in an unprotected to UPSR topology upgrade in unidirectional routing. If you create an unprotected circuit, then upgrade the unprotected circuit to a UPSR circuit using Unprotected to UPSR wizard, selecting unidirectional routing in the wizard, the circuit will be upgraded to a UPSR circuit. However, during the conversion, traffic hits on the order of 300 ms should be expected. This issue will not be resolved.
Resolved Caveats for Release 7.0.x • Cost: 10 • Provision any non-DCN connected node as ENE. A documented solution is available in the February 2006 online version of the ONS 15454 DWDM Reference Manual, Release 7.0. SNMP Attribute Changes The following SNMP attributes will be replaced in future releases, and will no longer be supported after Release 7.0.
Resolved Caveats for Release 7.0.x Maintenance and Administration CSCsd67191 A node might rarely report DCC failure and loses all connections when it is participating in a large network with several host routes, where multiple netJobAdd calls are likely, which eventually deplete the allowable ring buffer. When the MCC driver fails to complete the add it stops responding to receive packets and the DCC fails.
Resolved Caveats for Release 7.0.x Create the DS3XM-12 conversion circuit again as before. The DS-1 portless port lines do not transition to IS. To recover from this issue, change the DS-3 port state to OOS_MT and then to IS. The DS-1 portless port lines will transition properly. This issue is resolved in Release 7.0.
Resolved Caveats for Release 7.0.x CSCsc62581 A T-TX-PWR-MIN TCA is raised and a wrong receive optical power value (of -40 dB) is displayed after a card is reset. The alert and incorrect Rx value both clear in the next 15 min sample period. This issue is resolved in Release 7.0.1. CSCei37691 The trunk port service state for the TXPP and TXP cards does not transition to OOS-AU,FLT in the presence of an LOS-P alarm. This can occur when the payload signal for LOS-P is missing for the particular port type.
New Features and Functionality Bridge and Roll CSCei37364 When a rollTo leg is not receiving a good signal, and because of this the rollPending alarm is not cleared, there is no alarm indicating the reason that the RollPending alarm fails to clear. This issue is resolved in Release 7.0. TL1 CSCsc62784 The Calibration Tilt is not properly changed using the TL1 interface. The reference tilt is changed instead.
New Features and Functionality • 1-Gigabit Fibre Channel • 2-Gigabit Fibre Channel • 4-Gigabit Fibre Channel • IBM FICON-1G • IBM FICON-2G • 1-Gigabit Ethernet • 1-Gigabit ISC-Compatible (ISC-1) • 1-Gigabit ISC-Peer (ISC-3) • 2-Gigabit ISC-Peer (ISC-3) The MXP_MR_10DME-C and MXP_MR_10DME-L muxponders pass all SONET/SDH overhead bytes transparently. The digital wrapper function (ITU-T G.
New Features and Functionality The MXP_MR_10DME-C and MXP_MR_10DME-L cards feature a 1550-nm laser for the trunk/line port and a 1310-nm or 850-nm laser (depending on the SFP) for the client ports. The cards contain eight 12.5 degree downward tilt SFP modules for the client interfaces. For optical termination, each SFP uses two LC connectors, which are labeled TX and RX on the faceplate. The trunk port is a dual-LC connector with a 45 degree downward angle.
New Features and Functionality The advantage of these cards over previous versions (TXP_MR_10G and TXP_MR_10E) is that there is only one version of each card (one C-band version and one L-band version) instead of several versions needed to cover each band. You can install TXP_MR_10E_C and TXP_MR_10E_L cards in Slots 1 to 6 and 12 to 17 and provision the cards in a linear configuration, BLSR/MS-SPRing, UPSR/SNCP, or a regenerator.
New Features and Functionality The maximum system reach in filterless applications without the use of optical amplification or regenerators is nominally rated at 23 dB over C-SMF fiber. This rating is not a product specification, but is given for informational purposes. It is subject to change. Y-Cable Protection The TXP_MR_10E card supports Y-cable protection, which provides transponder equipment protection without client terminal equipment interface protection.
New Features and Functionality Digital wrappers that define client side interfaces are called Optical Data Channel Unit 2 (ODU2) entities in ITU-T G.709. Digital wrappers that define trunk side interfaces are called Optical Channels (OCh) in ITU-T G.709. ODU2 digital wrappers can include Generalized Multiprotocol Label Switching (G-MPLS) signaling extensions to ITU-T G.
New Features and Functionality • Onboard E-FEC processor—The processor supports both standard RS (specified in ITU-T G.709) and E-FEC, which allows an improved gain on trunk interfaces with a resultant extension of the transmission range on these interfaces. The E-FEC functionality increases the correction capability of the transponder to improve performance, allowing operation at a lower OSNR compared to the standard RS (237,255) correction algorithm.
New Features and Functionality Multiplexing Function The muxponder is an integral part of the optically transparent ROADM network in which data payload channels and wavelengths are processed exclusively at the optical level without electrical to optical (E-O) conversion. The key function of the MXP_MP_10E_C and MXP_MP_10E_L cards is to multiplex 4 OC-48/STM16 signals onto one ITU-T G.709 OTU2 optical signal (DWDM transmission).
New Features and Functionality Because the cards are tunable to one of four adjacent grid channels on a 100-GHz spacing, each card is available in eight versions, with 15xx.xx representing the first wavelength and 15yy.yy representing the last wavelength of the four available on the board. In total, 32 DWDM wavelengths are covered in accordance with the ITU-T 100-GHz grid standard, G.692, and Telcordia GR-2918-CORE, Issue 2.
New Features and Functionality The MXP_MR_2.5G card features a 1550-nm laser for the trunk/line port and a 1310-nm or 850-nm laser (depending on the SFP) for the client ports. The card contains eight 12.5 degree downward tilt SFP modules for the client interfaces. For optical termination, each SFP uses two LC connectors, which are labeled TX and RX on the faceplate. The trunk port is a dual-LC connector with a 45 degree downward angle. The MXPP_MR_2.
New Features and Functionality Several photodiodes monitor the power for the OPT-BST-L card. The returned power level values are calibrated to the ports on the card. See the Cisco ONS 15454 DWDM Installation and Operations Guide for details. OPT-AMP-L Preamplifier Card The OPT-AMP-L is an L-band DWDM optical amplifier module consisting of a two-stage EDFA with mid-stage access loss (MSL) for an external DCU and OSC add-and-drop capability.
New Features and Functionality particularly well suited for use in networks that employ DS fiber or SMF-28 single-mode fiber. Equipped with ROADM functionality, the ONS 15454 DWDM can be configured to add or drop individual optical channels using CTC, Cisco MetroPlanner, and CTM. A ROADM NE utilizes two 32WSS-L cards (two slots each) and two 32DMX-L cards (one slot each), for a total of six slots in the chassis.
New Features and Functionality CE-1000-4 card Ethernet frames are encapsulated using the ITU-T generic framing procedure (GFP) (with or without CRC) or LEX, the point-to-point protocol (PPP) with high-level data link control (HDLC). The CE-1000-4 card can interoperate with G1000-4/G1K-4 cards (using LEX encapsulation), CE-100T-8 cards (using LEX or GFP-F), and ML-Series cards (using LEX or GFP-F). The Ethernet frames can be mapped into: • T1X1 G.
New Features and Functionality loaded. The MS-ISC-100T card operates in Slots 1 to 6 and 12 to 17 on the node controller shelf; the recommended slots are Slot 6 and Slot 12. For MS-ISC-100T card port assignments and card-level indicators consult the user documentation. MMU Card The Mesh/Multiring Upgrade Unit (MMU) card supports multiring and mesh upgrades for ROADM nodes in both the C band and the L band.
New Features and Functionality Multishelf Nodes Release 7.0.x supports multishelf DWDM nodes. Multishelf node provisioning enables you to centralize many tasks, such as node configuration and maintenance, VLAN management, software download, alarm management, performance monitoring, remote DCC, GCC, and OSC terminations, and database and diagnostic functions. An ONS 15454 node provisioned as a multishelf node can manage up to 8 subtending shelves as a single entity.
New Features and Functionality • OSC links terminate on OSCM/OSC-CSM cards. Two links between each ONS node are required. An OSC link between two nodes cannot be substituted by an equivalent GCC or DCC link terminated on the same pair of nodes. OSC links are mandatory and they can be used to connect a node to a GNE. • GCC and DCC links terminate on TXP or MXP cards. The maximum number of DCC, GCC, and OSC terminations that are supported in a multishelf node is 48.
New Features and Functionality An Optical Channel Network Connection (OCHNC) is an optical circuit from an optical channel card to an optical channel card. Wavelength is the primary characteristic. OCHNCs are the legacy optical channel circuit type used in situations when OCH trails are not supported. OCHNCs are also used to carry wavelengths from non-ONS 15454 equipment.
New Features and Functionality • FEC—Allows you to enable or disable FEC on the client cards, if permitted by the client card and payload. • SF BER—Allows you to set the signal fail bit error rate for payloads and client cards that allow the parameter to be provisioned. • SD BER—Allows you to set the signal degrade bit error rate for payloads and client cards that allow the parameter to be provisioned.
New Features and Functionality Cisco MetroPlanner Internal Connections Report Support With Release 7.0.x you can use the MetroPlanner Release 7.0 Internal Connections Report to install cables on your DWDM cards. The table displayed in the report identifies the patchcords that you must cable by their endpoints. Position 1 identifies the fiber start point; Position 2 indicates the fiber endpoint. The patchcord endpoints are identified by site, slot, and port.
New Features and Functionality The server trail link is bidirectional and can be VT1.5, VT2, STS1, STS-3c, STS-6c, STS-12c, STS-48c, or STS-192c; you cannot upgrade an existing server trail to another size. A server trail link can be one of the following protection types: Preemptible, Unprotected, and Fully Protected. The server trail protection type determines the protection type for any circuits that traverse it. PCA circuits will use server trails with the Preemptible attribute.
New Features and Functionality An STS grooming node (VAP source) does not carry VT circuits through a VTT. The STS grooming node performs STS-level squelching for each STS timeslot at the switching node in case the VT-grooming (VAP destination) node fails. The node dropping VT traffic performs VT-level squelching for each VT timeslot in case the STS-grooming end node fails. No VT traffic on the VAP is protected during a failure of the STS-grooming node or the VT-grooming node.
New Features and Functionality Advanced Circuit Filtering and Export Release 7.0.x adds an Advanced tab to the Circuit Filter dialog. With advanced circuit filtering you can filter on selected rings, nodes, links, or source/drop combinations. Also, you can export the active Circuit window data in HTML, comma-separated values (CSV), or tab-separated values (TSV) format using the Export command from the File menu. Superuser Privileges for Provisioning Users With Release 7.0.
New Features and Functionality TL1 New Card Support The following new cards are supported by TL1 in Release 7.0.x. • CE1000-4 Ethernet card • MXP_MR_10DME-C and MXP_MR_10DME-L Multirate Muxponder cards • TXP_MR_10E_C and TXP_MR_10E_L Multirate Transponder cards • MXP_2.5G_10E_C and MXP_2.5G_10E_L cards • MXP_MR_2.5G and MXPP_MR_2.5G demultiplexer cards • MS-ISC-100T Data card • MMU card TL1 Command Changes New Commands The following new TL1 commands are added for Release 7.0.x.
New Features and Functionality ED-EQPT[:]::[:::PROTID=,][PRTYPE=,][RVRTV=,][RVTM=,][CARDMODE=,][PEERID=,][REGENNAME= ,][PWL=,][CMDMDE=][:[,]]; Is changed to: ED-EQPT[:]::[:::PROTID=,][PRTYPE=,][RVRTV=,][RVTM=,][CARDMODE=,][PEERID=,][REGENNAME= ,][CMDMDE=,][RETIME=,][SHELFROLE=,][ NEWSHELFID=][:
New Features and Functionality Is changed to: RTRV-NE-SYNCN[:][:]:[::::]; RTRV-SYNCN syntax: RTRV-SYNCN[:]::[::::]; Is changed to: RTRV-SYNCN[:][:]:[::::]; RTRV-TADRMAP syntax: RTRV-TADRMAP[:][:]::::MODE= Is changed to: RTRV-TADRMAP[:][:]:[:::MODE=] ED-NE-GEN syntax: ED-NE-GEN[:]::[:::NAME=,][IPADDR=,][IPMASK=,][DEFRTR=,][IIOPPORT=,][NTP=,][SUPPRESSIP=
New Features and Functionality ,::[],[],[],[],[],[],[],[],[],[],[],[],[],[],[] Is changed to: ,::[],[],[],[],[],[],[],[],[],[],[],[],[],[],[],[] RTRV-DS1 response: <
New Features and Functionality Table 6 MTU_TYPE enum items added to Release 7.0.x Enum Name Enum Value MTU_1500 “1500” MTU_10004 “10004” MTU_1548 “1548” MTU_TYPE is used in the following commands: • ED-GIGE • ED-POS Table 7 CARDMODE enum items added to Release 7.0.
New Features and Functionality Table 9 FLOW enum items added in Release 7.0.x Enum Name Enum Value FLOW_PASSTHRU “PASSTHRU” FLOW is used in the following commands: • ED-GIGE • RTRV-FSTE • RTRV-G1000 • RTRV-GIGE Table 10 MOD1PAYLOAD enum items added to Release 7.0.
New Features and Functionality Table 12 MOD2 enum items added to Release 7.0.x (continued) Enum Name Enum Value MOD2_M2_ISCCOMPAT “ISCCOMPAT” MOD2_M2_OCHCC “OCHCC” MOD2_M2_OCHNC “OCHNC” MOD2 is used in the following commands: • RTRV-FFP-MOD2 • RTRV-LNK-MOD2LNK • RTRV-NE-APC • RTRV-NE-WDMANS • RTRV-OCHTERM • RTRV-TRC-OCH • SCHED-PMREPT-MOD2 Table 13 MOD2ALM enum items dropped from Release 7.0.
New Features and Functionality Table 16 MOD2B enum items added to Release 7.0.
New Features and Functionality MOD2O is used in the following commands: • RTRV-ALMTH-MOD2O Table 19 MOD2_DATA enum items dropped from Release 7.0.x Enum Name Enum Value MOD2_DATA_M2_ISC1 “ISC1” Table 20 MOD2_DATA enum items added to Release 7.0.
New Features and Functionality Table 22 OPTICAL_WLEN enum items added to Release 7.0.x (continued) Enum Name Enum Value OPTICAL_WLEN_WL_1536_22 “1536.22” OPTICAL_WLEN_WL_1537_00 “1537.00” OPTICAL_WLEN_WL_1537_40 “1537.40” OPTICAL_WLEN_WL_1537_79 “1537.79” OPTICAL_WLEN_WL_1538_58 “1538.58” OPTICAL_WLEN_WL_1539_37 “1539.37” OPTICAL_WLEN_WL_1540_16 “1540.16” OPTICAL_WLEN_WL_1540_95 “1540.95” OPTICAL_WLEN_WL_1541_35 “1541.35” OPTICAL_WLEN_WL_1541_75 “1541.
New Features and Functionality Table 22 OPTICAL_WLEN enum items added to Release 7.0.x (continued) Enum Name Enum Value OPTICAL_WLEN_WL_1560_20 “1560.20” OPTICAL_WLEN_WL_1561_01 “1561.01” OPTICAL_WLEN_WL_1561_42 “1561.42” OPTICAL_WLEN_WL_1561_83 “1561.83” OPTICAL_WLEN_WL_1570_83 “1570.83” OPTICAL_WLEN_WL_1571_24 “1571.24” OPTICAL_WLEN_WL_1571_65 “1571.65” OPTICAL_WLEN_WL_1572_06 “1572.06” OPTICAL_WLEN_WL_1572_48 “1572.48” OPTICAL_WLEN_WL_1572_89 “1572.
New Features and Functionality Table 22 OPTICAL_WLEN enum items added to Release 7.0.x (continued) Enum Name Enum Value OPTICAL_WLEN_WL_1601_03 “1601.03” OPTICAL_WLEN_WL_1601_46 “1601.46” OPTICAL_WLEN_WL_1601_88 “1601.88” OPTICAL_WLEN_WL_1602_31 “1602.31” OPTICAL_WLEN_WL_1602_74 “1602.74” OPTICAL_WLEN_WL_1603_17 “1603.17” OPTICAL_WLEN_WL_1603_60 “1603.60” OPTICAL_WLEN_WL_1604_03 “1604.
Related Documentation Table 24 PAYLOAD enum items added to Release 7.0.x Enum Name Enum Value PAYLOAD_PT_4GFC “4GFC” PAYLOAD_PT_4GFICON “4GFICON” PAYLOAD_PT_ISC3PEER1G “ISC3PEER1G” PAYLOAD_PT_ISC3PEER2G “ISC3PEER2G” PAYLOAD_PT_ISC3PEER2R “ISC3PEER2R” PAYLOAD_PT_ISCCOMPAT “ISCCOMPAT” PAYLOAD is used in the following commands: • ED-FAC • RTRV-E4 • RTRV-STM1E Table 25 SHELF_ROLE enum items added to Release 7.0.
Obtaining Documentation • Release Notes for the Cisco ONS 15327, Release 7.0.2 • Release Notes for the Cisco ONS 15600, Release 7.0.2 • Release Notes for the Cisco ONS 15310-CL, Release 7.0.2 • Release Notes for the Cisco ONS 15310-MA, Release 7.0.2 • Cisco ONS 15454 Software Upgrade Guide, Release 7.
Documentation Feedback Cisco Ordering tool: http://www.cisco.com/en/US/partner/ordering/ Cisco Marketplace: http://www.cisco.com/go/marketplace/ Ordering Documentation You can find instructions for ordering documentation at this URL: http://www.cisco.com/univercd/cc/td/doc/es_inpck/pdi.htm You can order Cisco documentation in these ways: • Registered Cisco.com users (Cisco direct customers) can order Cisco product documentation from the Ordering tool: http://www.cisco.
Obtaining Technical Assistance If you prefer to see advisories and notices as they are updated in real time, you can access a Product Security Incident Response Team Really Simple Syndication (PSIRT RSS) feed from this URL: http://www.cisco.com/en/US/products/products_psirt_rss_feed.html Reporting Security Problems in Cisco Products Cisco is committed to delivering secure products. We test our products internally before we release them, and we strive to correct all vulnerabilities quickly.
Obtaining Technical Assistance Note Use the Cisco Product Identification (CPI) tool to locate your product serial number before submitting a web or phone request for service. You can access the CPI tool from the Cisco Technical Support Website by clicking the Tools & Resources link under Documentation & Tools. Choose Cisco Product Identification Tool from the Alphabetical Index drop-down list, or click the Cisco Product Identification Tool link under Alerts & RMAs.
Obtaining Additional Publications and Information Obtaining Additional Publications and Information Information about Cisco products, technologies, and network solutions is available from various online and printed sources. • Cisco Marketplace provides a variety of Cisco books, reference guides, and logo merchandise. Visit Cisco Marketplace, the company store, at this URL: http://www.cisco.com/go/marketplace/ • Cisco Press publishes a wide range of general networking, training and certification titles.
