AEG 10693 - User Manual

1 Safety information 1.1 Structure of safety statements 1.1.1 Overview This topic describes the components of safety statements that appear in this document. 1.1.2 General structure Safety statements include the following structural elements: Item Structure element Purpose 1 Safety alert symbol Indi...

1.1.3 Signal words The signal words identify the hazard severity levels as follows: Signal word Meaning DANGER Indicates an extremely hazardous situation which, if not avoided, willresult in death or serious injury. WARNING Indicates a hazardous situation which, if not avoided, could result indeath ...

2 What’s new? 2.1 Overview 2.1.1 Purpose This chapter provides information on the latest 9500 MPR features introduced to the 5620 SAM. 2.1.2 Contents 2.1 Overview 11 2.2 What’s new in 5620 SAM Release 14.0 for 9500 MPR 11 2.2 What’s new in 5620 SAM Release 14.0 for 9500 MPR 2.2.1 General information...

− ports listed in the Navigation equipment tree− port alarm management− automatic radio link discovery− automatic node S/W download managed via a policy (same as the 9500 MPR/9500 MPRe)− automatic node MIB backup and restore managed via a policy (same as the 9500 MPR/9500 MPRe) − microwave backhaul ...

• 32 × DS1 • 32 × E1 • AUX alarm • Core-B • Core-ENH • CorEvo • EASv2 See Chapter 9, “9500 MPR shelf object configuration” for detailed information of the supported cards and auxiliary equipment on 9500 MPR devices. Note: The 5620 SAM, version 13.0 R3 and higher, allows you to discover all the EASv2...

3.3.3 IDUs and ODUs support The ODU is a microprocessor-controlled transceiver that interfaces the MSS with the microwaveantenna. Each Radio modem card connects to one ODU. A 1+0 Radio modem protection schemerequires one Radio modem card and one ODU for each Radio direction. Two Radio modem cardsand...

− MPT -HQAM in Standard/MPT-HC Compatibility mode or MPT-MC to an L1 LAG of MPT- HQAM in MPT-HC Compatibility or Standard mode The 5620 SAM supports the discovery of Radio L2 LAG by adding: − MPT -HQAM in MPT-HC Compatibility mode to an L2 LAG of MPT-HCv2 − MPT -HQAM in Standard mode to an L2 LAG of...

3.4 9500 MPR statistics support 3.4.1 Introduction The 5620 SAM supports the collection of network performance, accounting, and flow-basedstatistics for 9500 MPR devices. The 5620 SAM also provides statistics for monitoring 5620 SAMprocesses and functions. These statistics are typically used to moni...

• The granularity period column displays the statistic collection period based on a set time interval,for example, 15 corresponds to 15 minutes and 24 corresponds to 24 hours. • The radio interface performance management statistics are listed separately for collectionintervals of 15 minutes and 24 h...

interface performance management statistics” (p. 24) for more information; also see the “Bulk operations” chapter in the 5620 SAM User Guide for more information. • Perform the following to plot the statistics for both ends of a Radio link traversing between two 9500 MPRs, between a 9500 MPR and a 7...

3.6 To configure bulk changes for radio interface performancemanagement statistics 3.6.1 Steps 1 Choose T ools→Bulk Operations from the 5620 SAM main menu. The Bulk Operations form opens. 2 Click Create. The Create Bulk Change (New) step form opens. 3 Configure the General parameters and click Next....

8 Click on the Batch Control tab and click Generate Batches. The batches are generated. 9 Either click Execute All or choose the required entries and click Execute Selected to enable ordisable PM statistics collection intervals of 24 hours and/or 15 minutes. Close the form. E ND OF STEPS 3.7 9500 MP...

R5; the current 5620 SAM release manages the NEtO installation. See the applicable 9500 MPRRelease Notice for the supported versions of NEtO. 3.7.3 Service management with NEtO You can use the NEtO to manage services on the 9500 MPR. The use of an external elementmanager to change key network manage...

3.8.2 Open WebCT from 5620 SAM The 5620 SAM supports the cross-launch of WebCT from the equipment navigation tree and thetopology map. 3.9 To open WebCT from the 5620 SAM 3.9.1 Steps Note: The external EMS browser is supported on the latest release of Firefox, IE, Chrome, and Safari. 1 Choose Equipm...

4 9500 MPR device commissioning and management 4.1 General description 4.1.1 General description The 9500 MPR requires commissioning and device-specific pre-configuration before the 5620 SAMcan discover and manage the device. See the 4.3 “Workflow to commission and manage 9500 MPR devices” (p. 36) f...

Perform the following initial configuration on the 9500 MPR: 1. Connect the first 9500 MPR Node 1 to the switch using the TMN port or port 4 of the 9500 MPR A. When the 5620 SAM is connected to the 9500 MPR network via non-9500 MPR devices like the7705 SAR or 7750 SR, expect that the TMN in-band fea...

4.2.3 Supported Radio links Radio links between 9500 MPR devices are automatically discovered by the 5620 SAM. The auto-discovery is supported for the following Radio links: • 1+0 • 1+1 • L2 LAG • L1 LAG After the auto-discovery, the 5620 SAM displays the following parameters on the Radio tab of the...

When you configure out-of-band management, the PPPRF and LinkID parameters need notbe enabled for the 9500 MPR, Release 5.2, 6.0, and later. If the PPPRF and LinkIDparameters are disabled on all the Radio ports, the Radio links are still discoveredsuccessfully and the criteria 1 and 2 are not applic...

4 Use the 5620 SAM client to discover the NE and to verify that the NE configuration allowsmanagement of the 9500 MPR; see the “Device discovery” chapter in the 5620 SAM User Guide . E ND OF STEPS 4.5 To configure polling for an 9500 MPR 4.5.1 Steps 1 In the navigation tree Equipment or Routing view...

6 Save your changes and close the form. E ND OF STEPS 4.6 To collect 9500 MPR statistics from a 5620 SAM auxiliary server 4.6.1 Purpose Perform this procedure if you plan to use a 5620 SAM auxiliary server to collect 9500 MPRstatistics using IPv4 or IPv6. 4.6.2 Steps 1 Choose Administration→System I...

5 9500 MPR software upgrade 5.1 Software upgrade workflow 5.1.1 Introduction General workflow to perform 9500 MPR device software upgrades: 5.1.2 9500 MPR software upgrade workflow Upgrade the device software, as required. 1 Create a software upgrade policy that specifies MPR Node as the Policy Type...

5.2 To perform an on-demand 9500 MPR software upgrade 5.2.1 Purpose Perform this procedure to upgrade the device software on one or more 9500 MPR NEs. Prior toperforming this procedure, review the 9500 MPR software upgrade workflow steps contained in the 5.1 “Software upgrade workflow” (p. 43) for t...

5 Select one or more NEs and click OK. The software upgrade begins. 6 Click on the Software Upgrade Status tab to view the status of the upgrade as it progresses.Verify that the files are successfully transferred. 7 Close the Software Upgrade form. After a successful software upgrade, you must activ...

6 9500 MPR migration to revised service model 6.1 Migration workflow 6.1.1 Workflow Pre-upgrade 1 Perform the pre-upgrade tasks to upgrade from any of the 5620 SAM releases earlier than 14.0R7. See 6.2 “To perform pre-upgrade tasks ” (p. 47) . 5620 SAM upgrade 2 See 5620 SAM Installation and Upgrade...

Execute script 4 Log in to the 5620 SAM database station as the Oracle management user. 5 Download the following 5620 SAM installation script to a local directory in which the Oraclemanagement user has read, write, and execute privileges: MPR_migrate.bash 6 Use a CLI to navigate to the script locati...

Migrate service data 2 Log in to the main server station as the samadmin user. 3 Navigate to the /opt/5620sam/server/nms/config directory. 4 Create a backup copy of the nms-server.xml file. 5 NOTICE Service-disruption hazard Contact technical support representative before you attempt to modify the n...

7 9500 MPR SCM device management 7.1 Secure certification mode 7.1.1 Introduction The 5620 SAM supports the management of the CorEvo-based 9500 MPR devices (Release 7.1 orlater) that are configured in a secure certification mode and are managed using the secureprotocols. The security certification m...

7.1.4 Disable HTTPS protocol DANGER If the 9500 MPR SCM device is unmanaged with the HTTPS Protocol parameter setto Disabled, no other EMS or NMS that does not have the server IP addressregistered in trusted manager of the 9500 MPR SCM device can access the 9500MPR SCM device. To recover the 9500 MP...

7.1.7 Software upgrade The 5620 SAM does not support the software upgrade function for 9500 MPR SCM devices. 7.1.8 Alarms The following alarms are supported in the SCM: • CKM (Current Key Mismatch) • NKM (Next Key Mismatch) • KeyUnavailable (Key Unavailable) • ESM (Encryption State Mismatch) • Traff...

7.4 To configure 9500 MPR SCM NE mediation 7.4.1 Steps 1 Choose Administration→Mediation from the 5620 SAM main menu. The Mediation (Edit) formopens with the General tab displayed. 2 Click on the Mediation Security tab. 3 Perform one of the following: a. Click Create to create a new mediation securi...

14 Perform the following to view the device properties: 1. Right-click on the device and choose properties. The Network Element (Edit) form Opens 2. Click on the System Settings tab and the SNMP Mode parameter displays the read-onlyvalue as Secured Certified. 15 Save your changes and close the form....

8 9500 MPR object configuration 8.1 Overview 8.1.1 General information The device object is the discovered device at the top of the hierarchy in the navigation tree, directlybelow the network icon. This chapter contains the procedures to configure 9500 MPR device objects using the navigationtree. De...

5 Start the 9500 MPR external element manager from the 5620 SAM GUI; see 8.7 “To cross- launch the NEtO from the 5620 SAM GUI” (p. 63) . 6 As required, configure or modify the DSCP value for TMN in-band interfaces on the 9500 MPR;see 8.8 “To configure QoS for inband TMN interfaces on the 9500 MPR” (...

8.4.2 Steps 1 In the navigation tree Equipment view, right-click on a 9500 MPR and choose Properties. The9500 MPR network element form opens. 2 Click Cleanup Inconsistencies. The 5620 SAM attempts to resolve the NE MIB inconsistencies. 3 To verify all MIB NE inconsistencies are resolved, click on th...

8.5.2 Steps 1 In the navigation tree Equipment view, right-click on a 9500 MPRe shelf and choose Properties.The Shelf (Edit) form opens. 2 Click on the Software Bank Details tab, select the Standby Bank and click Properties. TheMPRSoftware Package (Edit) form opens. 3 Set the Activation parameter to...

Note: If the option to run TACACS+ in the network is enabled, choose the Default NEtO launch. 6 Save your changes and close the form. E ND OF STEPS 8.7 To cross-launch the NEtO from the 5620 SAM GUI 8.7.1 Purpose To cross-launch the NEtO, you must belong to a user group that includes one of the foll...

b. Perform the following for TACAS+: 1. In the navigation tree Equipment view, right-click on a 9500 MPR and choose External Element Manager. A login prompt appears. 2. Type your login credentials. The NEtO main view screen appears. Note: See the appropriate 9500 MPR (Hardware) User Guide for inform...

9 9500 MPR shelf object configuration 9.1 Overview 9.1.1 General information On the equipment navigation tree, shelf objects are children of device objects. Shelf objects appearbelow logical group objects in the navigation tree. Card slot objects are children of shelf objects,and as such appear belo...

9.1.4 CorEvo card The CorEvo card is an extended version of the Core-ENH card. The card has eight ports. Ports 1 to4 are electrical ports. Ports 5 and 6 are only used for SFPs. Ports 7 and 8 can be used as a Radioport or an SFP. The electrical ports do not support half-duplex operation. You can view...

5 If required, configure a 1588 transparent clock; see 12.5 “To configure an IEEEv2 1588 TC on a 9500 MPR shelf” (p. 90) . 6 Upgrade the device software, as required. See Chapter 5, “9500 MPR software upgrade” 7 As required, migrate a 9500 MPRe connected to a 7705 SAR from standalone mode to singleN...

6 Configure the parameters as required and click OK. The Fan Tray (Edit) form reappears. 7 As required, repeat Step 5 and Step 6 to configure more ports for housekeeping alarms. 8 Save your changes and close the form. E ND OF STEPS 9.4 To migrate the 9500 MPRe connected to a 7705 SAR fromstandalone ...

10 9500 MPR port object configuration 10.1 Overview 10.1.1 General information Port objects are children of card slot objects. Port objects appear below the card slot after the cardis configured. Properties forms for port objects are accessed using the 5620 SAM navigation tree. 10.1.2 QoS protection...

Note: The link monitoring and fault signaling operational aspects of the 802.3ah EFM OAM diagnostic test are not supported on the 9500 MPR. When enabled, the remote loopback allows a local DTE to locate a remote DTE and put a into astate whereby all inbound traffic is immediately reflected back onto...

f. loopback test on a 9500 MPR DS1, ES1, or 1x Radio modem port; see 10.8 “To configure a loopback test on 9500 MPR ports” (p. 79) g. enable 802.3ah EFM OAM loopbacks on Ethernet or SFP ports; see 10.9 “To configure 802.3ah EFM OAM remote loopbacks on 9500 MPR ports” (p. 80) h. configure Tx mute on ...

5 View the read-only performance values for the 1x Radio modem port. 6 Close the forms. E ND OF STEPS 10.6 To configure 9500 MPR port segregation on an EAS module 10.6.1 Steps 1 In the navigation tree Equipment view, right-click on a 9500 MPR shelf and choose Properties.The Shelf (Edit) form opens. ...

10.7 To configure a power source for 9500 MPR card slots 10.7.1 Supported card slots You can configure a power source on the following card slots: • 2+2 x Ethernet (EAS) • EASv2 • MSS1 10.7.2 Steps 1 In the navigation tree Equipment view, right-click on a supported 9500 MPR card slot andchoose Prope...

Note: You must not modify the Mode parameter when the Administrative State parameter is configured as Disabled, even though the Mode parameter is configurable.The Operational Status parameter has intermediate values, before changing toOperational. The Operational Status can be Operational only when ...

11 9500 MPR LAG object configuration 11.1 Overview 11.1.1 9500 MPR LAGs Link Aggregation groups (LAGs) are a set of ports used to interconnect network nodes usingmultiple links to increase link capacity and availability between them. LAGs also provideredundancy between the aggregated links. If a lin...

11.1.3 L1 Radio port deployment guidelines An L1 Radio LAG follows a similar deployment model as an L2 Radio LAG except that the L1 RadioLAG functions are deployed at the Radio layer. As a result, the L1 Radio LAG has different portassociations, cross-connections, and validations from the L2 Radio L...

11 As required, right-click on the LAG and choose Properties to view information about the createdLAG or to modify the LAG parameters. The LAG (Edit) form opens and displays the LAG ID and description. • Choose one of the following Mode parameter values: Access (Ethernet LAG only) or Network. • The ...

12 9500 MPR synchronization management 12.1 Introduction 12.1.1 Synchronization — Ethernet ports PDH and SDH data flow is fragmented and the fragments are transmitted over a packet-switchednetwork. The data rates are controlled by the terminating sites using clocks. The rate at which thefragments ar...

12.2.2 Transparent clock Transparent clock is a device that measures the time taken for a PTP event message to transit thedevice and provides this information to clocks receiving this PTP event message. You can enablean IEEE 1588 transparent clock (TC) on a 9500 MPR shelf if the software License par...

See 12.6 “To configure IEEEv2 1588 BC and OC PTP clocks” (p. 91) for more information about configuring the 1588 BC and OC clocks. Boundary clock The Boundary Clock has 16 PTP ports. The boundary clock can be configured as a synchronizationsource. See 12.7 “To configure the PTP clock as a synchroniz...

2 Click on the Timing tab, select the TC Enabled check box in the 1588 panel and click Apply tosave the changes and close the form. Note: By default, the 1588 panel is present in the Shelf (Edit) form. However, if the corresponding 9500 MPR device does not have the 1588 TC license, then you cannotmo...

11 Save your changes and close the forms. E ND OF STEPS 12.7 To configure the PTP clock as a synchronization source 12.7.1 Steps 1 On the 5620 SAM equipment navigation tree, expand Network→9500MPR→Synchronization→IEEE 1588 PTP→Clock. 2 Right-click on the Clock object and choose Properties. The IEEE ...

7 Save your changes and close the forms. E ND OF STEPS 12.8 To configure the ToD 12.8.1 Steps Configure ToD using NEtO 1 Configure the 1588 ToD SFP on port 7 or 8 of the CorEvo card using NEtO. See the 9500 MPR WebEML User Manual for more information. 2 On the navigation tree, expand Network→9500 MP...

13 9500 MPR inventory management 13.1 Radio port inventory — 9500 MPRe and 9500 MSS-1c 13.1.1 General information You can view the inventory of the 9500 MPRe and 9500 MSS-1c radio ports using the 5620 SAMEquipment Manager. See 13.4 “To configure radio port inventory for 9500 MPRe and 9500 MSS-1c dev...

d. To remove a column, perform the following steps: 1. Right-click on the column heading and choose Column Display. The Column Display form opens. 2. Select the columns to remove in the Displayed on Table list, then click on the left arrow. The columns move to the Available for Table list. 3. Click ...

4 Click Save. The 5620 SAM saves the inventory list. E ND OF STEPS 13.4 To configure radio port inventory for 9500 MPRe and 9500 MSS-1cdevices 13.4.1 Steps 1 Choose Manage→Equipment→Equipment from the 5620 SAM main menu. The ManageEquipment form opens. 2 Choose Port (Physical Equipment)→Radio Port (...

13.6 Procedure to configure radio port inventory for 9500 MPR ANSIand ETSI devices 13.6.1 Steps 1 Choose Manage→Equipment→Equipment from the 5620 SAM main menu. The ManageEquipment form opens. 2 Choose Port (Physical Equipment)→Radio Port (Radio Equipment) from the object drop-downmenu. A list of ra...

14 9500 MPR QoS policies 14.1 Overview 14.1.1 Supported QoS policies QoS policies define how network traffic is shaped and queued on one or more 9500 MPR deviceports and to regulate data throughput. You can use the 5620 SAM to create the following 9500MPR-specific QoS policies: • 9500 NE QoS policie...

b. 9500 NE QoS policies; see 14.4 “To configure a 9500 NE QoS policy” (p. 103) . 14.3 To configure a 9500 Radio Interface Queue Map policy 14.3.1 General information When configuring a 9500 Radio Interface Queue Map policy, the following QoS variants aresupported: ODU, MPT-HL, MPT-HC/MPT-MC. 14.3.2 ...

8 Click Search to display the created policy. To distribute the 9500 Radio Interface Map policy,see the “Policies overview” chapter in the 5620 SAM User Guide . E ND OF STEPS 14.4 To configure a 9500 NE QoS policy 14.4.1 Steps 1 Choose Policies→QoS→9500 MPR QoS→9500 NE QoS from the 5620 SAM main men...

15.1.5 9500 MPR ERPS tail node support on Ethernet (G.8032) rings The 5620 SAM supports configuration of tail nodes on Ethernet rings. You can create several tail network configurations (see sample 1 and 2 below) on the 9500 MPRincluding: • a tail network of one or more MSS-4 or MSS-8 shelves attach...

or on another tail node. For the 9500 MPRe, a single hop is supported by allowing a service toterminate on a network Radio port. The service terminates on the Radio port as a networkattachment with a remote node is the target. You can add a manual link for the 9500 MPRe on the5620 SAM map to provide...

Daisy chain is supported only for VLAN services. See Chapter 16, “9500 MPR service management” for more information about configuring VLAN services on 9500 MPR devices. 15.1.8 Supported ERP service types You can configure the following service types in an ERP (G.8032) topology using the 5620 SAM on9...

7 Configure the parameters as required and click Apply. The radio ring template is created andsearched from the Radio Ring (Ethernet Ring) drop-down menu. 8 Double click on an entry and the Radio Ring (Edit) form opens. Define the elements in the Radio ring 9 Click on the Components tab, right-click...

16 9500 MPR service management 16.1 Microwave backhaul service configuration 16.1.1 Introduction The 5620 SAM supports the configuration of VLAN, VLL, and composite services on the 9500 MPRdevices. The VLAN and VLL services are configured using the microwave backhual serviceconfiguration form. All t...

16.1.4 Service objects See 16.5 “To view the microwave backhaul service objects” (p. 124) for more information about each of the service objects. 16.1.5 Manual adjacency configuration The 5620 SAM supports the addition of the sites and adjacencies manually when you configure amicrowave backhaul serv...

create a new microwave backhaul service. All of the sites and ports are copied from the existingmicrowave backhaul service except the TDM, SDH channelized, and SDH ports that cannot bereused. Ensure that the existing microwave backhaul service and the new microwave backhaul service: • are of the sam...

If user enables this option (Administrator→System Preferences→Services) from 5620 SAM GUI“Whenever a site is added to a service in 5620 SAM propagate the Service Name to Site Name”then 5620 SAM will propagate the Service Name to Site Name while adding new site to the existingservice or while creatio...

4. Choose the required path and click OK. The Site, Adjacencies, and Port objects appear below the Sites object on the navigation tree. Note: The path search lists either VLL or VLAN path depending upon the microwave backhaul service type configured. The path search does not list both VLL and VLANpa...

16.4 To copy a microwave backhaul service 16.4.1 Before you begin Ensure that the microwave backhaul service that you want to copy has the service type configuredas VLL or VLAN and the service is topologically correct. You can copy a VLL service into amicrowave backhaul service configured with the s...

Note: • Ensure that the service that you want to copy has the service type configured and notunknown. • You can only copy a VLAN service into a microwave backhaul service with service typeVLAN and VLL service into a microwave backhaul service with service type VLL. Connect and deploy 6 Click Connect...

10 Choose an adjacency and click Properties. The Backhaul Adjacency (Edit) form opens and theparameters are as follows: • The Local Port parameters displays the properties of the port that is part of a ring in services that include one or more rings. • The VLAN Tagging parameter is displayed when th...

operation on the auto-discovered services and the multiple service topologies appear with topologyIDs in the Sites tab of the microwave backhaul services (Edit) form. The sites belonging to onetopology have the same IDs and such sites can be moved into a new service. Perform connect onboth the new s...

5 Check if the Topology Misconfigured check box is selected. If selected, the parameter indicatesthat the configuration is incorrect. Correct the configuration.. The Topology Changed check boxis selected automatically since the topology is modified. 6 Click Connect Service again to connect the micro...

16.9 To separate microwave backhaul service topologies 16.9.1 Steps Separate services 1 Choose Manage→Service→Services from the 5620 SAM main menu. The Manage Servicesform opens. 2 Choose the discovered service containing a large number of service topologies and clickProperties. The Microwave Backha...

16.10 To propagate microwave backhaul service name to sites 16.10.1 Steps 1 Choose Administration→System preferences from the 5620 SAM main menu. The SystemPreferences form opens. 2 Click on the Services tab and select the following check boxes: • Propagate Name and Description of Service • Whenever...

16.11.2 NEtO interworking Table 16-1, “NEtO interworking” (p. 131) lists the impact on the microwave backhaul services when the modifications are done in NEtO. Table 16-1 NEtO interworking If... Then... you modify the backhaul adjacency in NEtO the serviceModified alarm is generated for the service ...

Table 16-1 NEtO interworking (continued) If... Then... you modify VLAN ID in NEtO as part of errorcorrection for VLL services: • VLL:serviceModified alarm is generated for the old VLL service with no additional text • a new service with new VLAN ID is automatically discovered with Topology Changed c...

16.11.5 Service state The 5620 SAM calculates the service state under the following conditions: • All of the service objects are deployed • Service is connected • Service is topologically correct Table 16-3, “Operational state” (p. 134) lists the operational state of microwave backhaul services. Tab...

Protection types and 9500 MPR service status In-service protected Radio links are represented as green links on the Physical topology map;standby Radio links are shown as blue links. The status of a 9500 MPR service, spanning over anyprotected link, does not depend on the status of the link. The sta...

Table 16-4 9500 MPR service status (continued) Protection Type Main switchingcriteria / command Spare switchingcriteria / command Main status Spare status Radio DirectionOperative Status 1 RPS Auto (SignalFail/HBER) Auto (EW) Standby Active Up Auto (Signal Fail) Auto (HBER) Standby Active Errors Aut...

17 9500 MPR composite service 17.1 Composite service 17.1.1 General information The following workflow describes the sequence of high-level tasks required to configure acomposite service with a microwave backhaul service on a 9500 MPR, and a VPLS on a 7210 SASor 7750 SR. Note: If the 7750 SR is conf...

17.2 To configure a composite service 17.2.1 Steps 1 Perform one of the following to open the Composite Service (Create) form: a. Choose Create→Service→Composite Service from the 5620 SAM main menu. The Composite Service (Create) form opens. b. Perform the following: 1. Choose Manage→Service→Composi...