RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Integrating the mcRNC to RAN and CN2 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Nokia Solutions and Networks AcademyLegal noticeIntellectual Property RightsAll copyrights and intellectual property rights for Nokia Solutions and Networks training documentation, product documentation and slide presentation material, all of which are forthwith known as Nokia Solutions and Networks training material, are the exclusive property of Nokia Solutions and Networks. Nokia Solutions and Networks owns the rights to copying, modification, translation, adaptation or derivatives including any improvements or developments. Nokia Solutions and Networks has the sole right to copy, distribute, amend, modify, develop, license, sublicense, sell, transfer and assign the Nokia Solutions and Networks training material. Individuals can use the Nokia Solutions and Networks training material for their own personal self-development only, those same individuals cannot subsequently pass on that same Intellectual Property to others without the prior written agreement of Nokia Solutions and Networks. The Nokia Solutions and Networks training material cannot be used outside of an agreed Nokia Solutions and Networks training session for development of groups without the prior written agreement of Nokia Solutions and Networks.3 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks4 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks5 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Recovery Groups in mcRNC The mcRNC high availability is implemented by using a Recovery Group (RG) concept. A Recovery Group instance is associated with certain Functional Units. The service related to the RG is running in the active Recovery Unit (RU).6 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.QNUP Recovery Units (user plane) allocation in 2 BCN modules setup7 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.The QNUP Recovery Groups terminate the user plane services of all mcRNC logical interfaces.The QNUP Recovery Groups have the following functions and characteristics: It is bound to EIPU nodes Holds the termination of IP addresses at the IP layer terminates the User Plane connections from any logical interface from several neighboring nodes Has a hot active/standby redundancy scheme for end user connection resilience8 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.QNIUB Recovery Units (IUB control plane) allocation in 2 BCN modules setup9 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.The QNIUB Recovery Groups terminate the Iub control plane services at the IP/SCTP layer.The QNIUB Recovery Groups have the following functions and characteristics: It is bound to EIPU nodes It holds the termination of Control Plane IP addresses at the IP layer Terminates connections from several BTSs Has a cold active/standby redundancy scheme for end user connection resilience Cold active/standby redundancy scheme is sufficient for Iub control plane resilience.The provided redundancy mechanism is transparent to a BTS.10 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.SCTP multihoming redundancy (Iu and Iur control plane)11 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.The Iu/Iur control plane traffic termination and the SIGTRAN stack implementation is located in EIPU nodes. The control plane traffic is terminated directly at the network interface IP addresses, configured to these EIPU nodes. The transport network redundancy is provided by SCTP multihoming, the service level redundancy and load sharing is handled at the M3UA/SCCP layer.The SCCP layer contains a hot active/standby redundancy scheme in order to provide full RANAP/RNSAP resilience. The SCCP layer redundancy scheme is implemented by the QNIU Recovery Group, which is automatically maintained by the system. The NIU RG does not contain the IP addresses and does not require any configuration by the user.12 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.mcRNC provides three redundancy models:1. Hot active/standby- Comprises exactly two recovery units offering identical service- State and process data is synchronized between active & standby-Enables uninterrupted service in case of unit failure2. Cold active/standby- Comprises exactly two recovery units offering identical service- Processes in standby unit are not running-Standby unit needs warming in case of failover3. . No redundancy- Allows to configure node-local services- Processes / recovery units are restarted in case of failureExamples:1. Iub user plane termination is configured to hot active/standby- Keeps end user connections alive also in case of RNC internal failures2. Iub control plane termination is configured to cold active/standby- NBAP implementation is tolerant to SCTP layer re-establishment, thus hot standby not required- Saves resources13 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IP interface hierarchy14 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Link aggregation groups (LAG) provide increased bandwidth and high reliability by combining several interfaces into one logical link. The mcRNC Ethernet ports can be aggregated into LAGs to provide more than 1 Gigabit bandwidth per logical interface. The Link Aggregation Control Protocol is used to manage LAGs. Up to eight 1GE ports of the same mcRNC module can be aggregated within a one LAG. A maximum of eight LAGs can be supported for the mcRNC within the same module.15 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.mcRNC redundant configuration16 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Basic Routing Configuration 17 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.The basic routing configuration provides redundancy via static routes as shown in this routing example. It is assumed that the active recovery unit is located in EIPU processing unit zero and the standby recovery unit is located in EIPU unit one. Note the single IP address pointing to the recovery group. The network interface IP addresses are also shown in the example. In the egress direction there are two high priority routes via site switch 1. In the ingress direction there is one high priority route and one low priority route via site switch 1. The routes are configured in a similar way via site switch 2. The internal routing takes place via the 10 Gigabit Ethernet backbone. 18 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Network Failure Cases: Application Failure 19 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Network Failure Cases: Network Failure 20 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Network Failure Cases: Network Failure, cont.As a network failure case we assume that a site switch say site switch 1 fails. Again, the loss of signal recognition causes the stopping of all routing through the affected network interfaces. All ingress and egress IP traffic is now routed via site switch 2. 21 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.fsclish FlexiServer Command Line Interface Shell Local Operation and Maintenance interface To be executed from CFPU unit[root@CFPU-0(MCRNC-91) /root]# fsclish Press key to get help Type one command and press to see the options A full command can be also typed at once22 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks23 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.VLAN Ethernet ConnectivityMap mcRNC units to SFPs and PortsMap mcRNC units with VLAN interfaces and VLAN tagsAssign IP addresses for mcRNC VLAN interfacesCreate mcRNC static routes towards elementsAdd IP-based routesCreate Iub subnetworkAdd NTP and DNS server24 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Map mcRNC units to SFPs and Portsadd networking ether /EIPU-0 iface ethsfp7 port sfp7 Maps external interface with the internal logical port to a functional unit This command needs to be executed for the EIPU units (interface units) and for as many ports as needed For CFPU units (O&M), the ethernet port eth0 are predefined. No configuration is needed This will connect the functional unit from an internal port to the actual external interface port where the interface is connected (Iu-CS, Iu-PS, Iur, Iub) Port number varies according to BCN variants: sfp7 to sfp22 for BCN-A, sfp11 to sfp22 for BCN-B25 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Map mcRNC units with VLAN interfaces and VLAN tag (optional)add networking vlan /EIPU-0 realiface ethsfp7 vid 612 vlaniface iucsup_r1 Defines a VLAN in the external interface(ethsfp7) Tags it with a VLAN Id (612) Assigns a name to interface (iucsup_r1)26 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Assign IP addresses to interfacesadd networking address dedicated /EIPU-0 iface iucsup_r1ip-address 10.2.36.74/27 (VLAN example)add networking address dedicated /EIPU-0 iface ethsfp8ip-address 10.2.36.74/27 (no VLAN) In case VLAN is in use, iface should be the vlaniface previously defined, otherwise use the logical ethsfp port previously defined Assigns a dedicated IP address and netmask to the previously defined VLAN interface or ethernet interface for Operation and Maintenance access to different Recovery Users in the CFPU unit27 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Assign logical IP addresses for recovery groupsadd networking address dedicated /QNUP-0 iface lo ip-address 10.2.36.193/32 role iucsup The IP address is assigned to the Recovery Group This needs to be defined for: at least one /QNUP for User Plane in the Iu-CS, Iu-PS and Iur at least one /QNIUB /SSH for remote connections two different /QNOMU for OMS and BTS O&M link28 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Create mcRNC static routes towards elementsDefault routeset routing node CFPU-0 static-route default nexthop gateway address 10.16.67.17 onRoute to a specific subnetset routing node CFPU-0 static-route 10.2.34.112/28 nexthop gateway address 10.2.34.194 on Defines a static routes from the functional unit to the gateway Static route can be configured as default orto a specific subnet This has to be defined in: CFPUs (for O&M) EIPUs (for Iu-CS, Iu-PS, Iur and Iub both for Control Plane and User Plane)29 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Add IP-based routesadd networking ipbr ipbr-id 2 committed-bandwidth 100000 committed-dcn-bandwidth 0 committed-sig-bandwidth 0 ipbr-name IUCSUP route-bandwidth 300000add networking ipro ipbr-id 2 ip-address 10.16.67.14 iface csup1_r1 owner /QNUP-1 IP based route needs to be defined for all User Plane interfaces (Iu-CS, Iu-PS, Iur and Iub) with the following parameters: Committed bandwidth committed DCN bandwidth committed signalling bandwidth total route bandwidth After this, the IP based route has to be associated to the IP address and interface and the Recovery Group handling it30 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Create Iub subnetwork (optional)add networking iubsnt iubsnt-id 1 net-address 10.16.67.48/28A local Iub subnetwork can be defined with SCTP parameters to be used for the Iub control plane subnetwork. If not defined, default values are used.31 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Configuring O&M connections O&M connections must be configured in CFPU-0 and CFPU-1 eth0 port is used, VLAN is optional IP address for RG /SSH must be defined for SSH connection to CFPUsadd networking address dedicated /SSH iface lo ip-address role ssh IP addresses for RG /QNOMU must be defined: northbound IP for OMS and southbound IP for Node B. Southbound IP is optional and if not configured the same IP (with role oms) will be used for both interfacesadd networking address dedicated /QNOMU iface lo ip-address role btsomadd networking address dedicated /QNOMU iface lo ip-address role oms user /QNHTTPD Static routing or OSPF is required to route to destinations (OMS, Node B, user PCs) via site routers/switches Connect to OMSset radio-network omsconn omsipadd rncid 32 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Configuring DNS and NTP Add an NTP server to synchronize the mcRNC timeadd networking-service ntp forwarder 10.8.147.40 Enable DNSadd networking-service dns forwarder 10.8.144.2033 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Link Aggregation Group (optional) Link aggregation group (LAG) provides increased bandwidth and high reliability Up to eight 1GE ports of the same mcRNC module can be aggregated The configured LAG can then be assigned VLANs and IP addresses similar to ordinary SFP or SFP+ portsadd networking ether /EIPU-0 iface ethsfp7_r1 port sfp7add networking ether /EIPU-0 iface ethsfp8_r1 port sfp8add networking ether /EIPU-0 iface ethsfp9_r1 port sfp9add networking ether /EIPU-0 iface ethsfp10_r1 port sfp10add networking linkaggr /EIPU-0 iface lag1 slave ethsfp7_r1 slave ethsfp8_r1 slave ethsfp9_r1 slave ethsfp10_r1add networking vlan /EIPU-0 realiface lag1 vid 11 vlaniface iuup_r134 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Virtual Routing and Forwarding (optional) Virtual routing and forwarding (VRF) is used to divide routing tables into several separate tables VRF is required in OSPF configuration to separate dynamic routing part with internal static routing Each VRF instance requires an ID range 1-63. VRF1 to 4 is required for Iu/Iur control planes. ID=0 is default instance (when VRF is not used, reserved for management plane if VRF is used.) VRF applies to vlan, linkaggr, address, ipro, routing, signaling, iubsnt, etc.add networking vrf name iuup id 5add networking ether /EIPU-0 iface ethsfp7_r1 port sfp7add networking instance iuup vlan /EIPU-0 realiface ethsfp7_r1 vid 11 vlaniface iuup_r1add networking instance iuup address dedicated /EIPU-0 iface iuup_r1 ipaddress 10.0.1.2/28set routing instance iuup node EIPU-0 static-route 10.1.1.0/24 nexthop gateway address 10.0.1.1 on35 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Link State Detector (optional) Link state detector is used to notify recovery group about interface state changes. Once the interface state goes down, the active RU of the RG instance is moved to the EIPU-pair node. Link state detector is required in VRRP/HSRP and L3 OSPF site solution Link state detector is applied for 1GE, LAG or 10GE interfaces with QNUP and QNIUB as owneradd networking ether /EIPU-0 iface ethsfp7 port sfp7add networking link-state-detector /QNUP-0 iface ethsfp7add networking link-state-detector /QNIUB-0 iface ethsfp736 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Ethernet Switch Port Group (optional) 1/2 Ethernet switch port group contains one or more ports which can be in different boxes All ports the port group share the same VLAN ID When a port group is mapped to a node, the node is able to receive traffic from any port in the port group When a port group is mapped to multiple nodes, each node receives traffic from the same port group Port group is used for 10GE port to share the port to two EIPUs (with different control plane/user plane IP addresses)37 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Ethernet Switch Port Group (optional) 2/2Example configuration:add networking switch port-group name sfp11-bcn1 port LMP-1-1-1:sfp11add networking ether /EIPU-0 iface ethsfp11 port sfp11-bcn1 outqset rncdefaultadd networking ether /EIPU-2 iface ethsfp11 port sfp11-bcn1 outqset rncdefaultadd networking instance iuiurup vlan /EIPU-0 realiface ethsfp11 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcp mtu 1560add networking instance iuiurup vlan /EIPU-2 realiface ethsfp11 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcp mtu 1560add networking instance iuiurup address dedicated /EIPU-0 iface iuiurup_vl11 ipaddress 10.0.1.2/28add networking instance iuiurup address dedicated /EIPU-2 iface iuiurup_vl11 ipaddress 10.0.1.3/2838 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: 2 box configuration, Evolved Site Solution39 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: port creation# port creation add networking ether /EIPU-0 iface ethsfp7 port sfp7 add networking ether /EIPU-0 iface ethsfp8 port sfp8 add networking ether /EIPU-2 iface ethsfp15 port sfp15 add networking ether /EIPU-2 iface ethsfp16 port sfp16 add networking ether /EIPU-1 iface ethsfp7 port sfp7 add networking ether /EIPU-1 iface ethsfp8 port sfp8 add networking ether /EIPU-3 iface ethsfp15 port sfp15 add networking ether /EIPU-3 iface ethsfp16 port sfp1640 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS control plane integration41 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: vlan, IP and routing for IUCS control plane# vlan: iucscp1 add networking vlan /EIPU-0 realiface ethsfp7 vid 10 vlaniface iucscp1_r1add networking vlan /EIPU-1 realiface ethsfp7 vid 10 vlaniface iucscp1_r1 # vlan: iucscp2 add networking vlan /EIPU-0 realiface ethsfp8 vid 15 vlaniface iucscp2_r2 add networking vlan /EIPU-1 realiface ethsfp8 vid 15 vlaniface iucscp2_r2 # IP: iucscp1 add networking address dedicated /EIPU-0 iface iucscp1_r1 ip-address 10.16.224.2/28 user /SS7SGU add networking address dedicated /EIPU-1 iface iucscp1_r1 ip-address 10.16.224.3/28 user /SS7SGU # IP: iucscp2 add networking address dedicated /EIPU-0 iface iucscp2_r2 ip-address 10.16.224.18/28 user /SS7SGU add networking address dedicated /EIPU-1 iface iucscp2_r2 ip-address 10.16.224.19/28 user /SS7SGU # iucscp1, iucscp2 routing set routing instance default node EIPU-0 static-route 10.20.153.48/32 nexthop gateway address 10.16.224.1 on set routing instance default node EIPU-0 static-route 10.20.153.188/32 nexthop gateway address 10.16.224.17 on set routing instance default node EIPU-1 static-route 10.20.153.47/32 nexthop gateway address 10.16.224.1 on set routing instance default node EIPU-1 static-route 10.20.153.187/32 nexthop gateway address 10.16.224.17 on 42 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS user plane integration43 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: vlan and IP for IUCS user plane# vlan: iucsup add networking vlan /EIPU-0 realiface ethsfp7 vid 60 vlaniface iucsup_r1 add networking vlan /EIPU-1 realiface ethsfp7 vid 60 vlaniface iucsup_r1 add networking vlan /EIPU-0 realiface ethsfp8 vid 65 vlaniface iucsup_r2 add networking vlan /EIPU-1 realiface ethsfp8 vid 65 vlaniface iucsup_r2 # IP: iucsup add networking address dedicated /EIPU-0 iface iucsup_r1 ip-address 10.16.224.162/28 add networking address dedicated /EIPU-1 iface iucsup_r1 ip-address 10.16.224.163/28 add networking address dedicated /EIPU-0 iface iucsup_r2 ip-address 10.16.224.178/28 add networking address dedicated /EIPU-1 iface iucsup_r2 ip-address 10.16.224.179/28 # lo: iucsup add networking address dedicated /QNUP-0 iface lo ip-address 10.16.225.190/32 role iucsup 44 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: routing and IPBR for IUCS user plane# iucsup routingset routing instance default node EIPU-0 static-route 10.16.8.128/27 nexthop gateway address 10.16.224.161 bfd-detect-mult 3 bfd-rx-interval 150 bfd-tx-interval 150 bfd-monitoring enabled onset routing instance default node EIPU-0 static-route 10.16.8.128/27 nexthop gateway address 10.16.224.177 bfd-detect-mult 3 bfd-rx-interval 150 bfd-tx-interval 150 bfd-monitoring enabled priority 4 onset routing instance default node EIPU-0 static-route 10.16.8.128/27 nexthop gateway address 169.254.0.7 priority 8 onset routing instance default node EIPU-1 static-route 10.16.8.128/27 nexthop gateway address 10.16.224.161 bfd-detect-mult 3 bfd-rx-interval 150 bfd-tx-interval 150 bfd-monitoring enabled onset routing instance default node EIPU-1 static-route 10.16.8.128/27 nexthop gateway address 10.16.224.177 bfd-detect-mult 3 bfd-rx-interval 150 bfd-tx-interval 150 bfd-monitoring enabled priority 4 onset routing instance default node EIPU-1 static-route 10.16.8.128/27 nexthop gateway address 169.254.0.6 priority 8 on# lo routing iucsupset routing instance default node EIPU-0 static-route 10.16.225.190/32 nexthop gateway address 169.254.0.7 priority 8 onset routing instance default node EIPU-1 static-route 10.16.225.190/32 nexthop gateway address 169.254.0.6 priority 8 on# ipbradd networking ipbr ipbr-id 1 committed-bandwidth 100000 committed-dcn-bandwidth 0 committed-sig-bandwidth 0 ipbr-name IUCSUP route-bandwidth 300000add networking ipro ipbr-id 1 ip-address 10.16.225.190 iface lo owner /QNUP-045 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks46 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.SS7 Integration1. Create an SAP2. Create local and remote AS3. Create associations4. Create own point code and subsystem for the local AS5. Create destination point code and subsystem for the remote AS6. Add concerned point codes7. Add concerned subsystems8. Enable the associations47 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS control plane integration48 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS control plane# service-access-point creation (sap) add signaling service-access-point id 1 name sap_iucs network-appearance 1 network-indicator NA0 network-type itu # m3ua-local-as creation (las) add signaling ss7 local-as id 1 name las_iucs routing-context 2 routing-key-dpc 1108 service-access-point-name sap_iucs traffic-mode loadshare # m3ua-remote-as creation (ras) add signaling ss7 remote-as id 4 name ras_iucs communication-type ipsp pending-timer 3 routing-context 2 routing-key-dpc 913 service-access-point-name sap_iucs traffic-mode loadshare # sctp-association add signaling ss7 association id 11 local-as-name las_iucs communication-type ipsp local-ip-addr 10.16.224.2 local-ip-addr 10.16.224.18 local-client-port 49225 remote-as-name ras_iucs remote-ip-addr 10.20.153.48 remote-ip-addr 10.20.153.188 remote-port 2905 node /EIPU-0 role client exchange-mode double sctp-profile SS7 add signaling ss7 association id 12 local-as-name las_iucs communication-type ipsp local-ip-addr 10.16.224.3 local-ip-addr 10.16.224.19 local-client-port 49225 remote-as-name ras_iucs remote-ip-addr 10.20.153.47 remote-ip-addr 10.20.153.187 remote-port 2905 node /EIPU-1 role client exchange-mode double sctp-profile SS749 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS control plane# sccp-opc creation (own pointcode)add signaling sccp own-point-code id 1 type primary local-as-name las_iucs# sccp-dpc creation (destination pointcode)add signaling sccp destination-point-code id 6 remote-as-name ras_iucs# ssn-for-sccp-opc creation (sccp subsystem for local)add signaling sccp subsystem id 1 name opc_iucs point-code-name las_iucs ssn 142# ssn-for-sccp-dpc creation (sccp subsystem for destination)add signaling sccp subsystem id 6 name dpc_iucs point-code-name ras_iucs ssn 14250 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 1: IUCS control plane# concerned-subsystem creation add signaling sccp concerned-subsystem name css_iucs subsystem-name opc_iucs affected-subsystem-name dpc_iucs# conserned-point-code creationadd signaling sccp concerned-point-code name cpc_iucs point-code-name ras_iucs affected-subsystem-name opc_iucs# enable associations (admin-state) set signaling ss7 association admin-state enabled id 11set signaling ss7 association admin-state enabled id 1251 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Exchange-mode configurationImportant parameter in the remote-asp configuration is exchange-mode. This can be either Single or Double and matches with the Core Network parameter ASP MESSAGES IN IPSP. This can be seen from the core network element using the command ZOYI:NAME=>name_of_RNC>:A;Yes double modeNo single modeThis can be changed in the script under section #sctp-association creation by modifying the exchange-mode parameteradd signaling ss7 association id localas-name las_iucs communication-type ipsp local-ip-addr local-client-port 49225 remote-as-name ras_iucs remote-ip-addr remote-port 2905 node /EIPU-0 role client exchange-mode 52 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks53 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: 2 box configuration, OSPF Site Solution with VRF, 10GE and shared EIPU54 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: VRF, port group, port creation# VRF creationadd networking vrf name iuiurup id 5add networking vrf name iuiurcp id 1add networking vrf name iub id 11# Add shared port group to first BCN moduleadd networking switch port-group name sfp11-bcn1 port LMP-1-1-1:sfp11# Add shared port group to second BCN moduleadd networking switch port-group name sfp11-bcn2 port LMP-1-2-1:sfp11# Assign shared 10GE port to EIPU nodes of first BCN moduleadd networking ether /EIPU-0 iface ethsfp11 port sfp11-bcn1 outqset rncdefaultadd networking ether /EIPU-2 iface ethsfp11 port sfp11-bcn1 outqset rncdefault# Assign shared 10GE port to EIPU nodes of second BCN moduleadd networking ether /EIPU-1 iface ethsfp11 port sfp11-bcn2 outqset rncdefaultadd networking ether /EIPU-3 iface ethsfp11 port sfp11-bcn2 outqset rncdefault55 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: link state detector, VLAN part 1add networking link-state-detector /QNUP-0 iface ethsfp11add networking link-state-detector /QNUP-1 iface ethsfp11add networking link-state-detector /QNUP-2 iface ethsfp11add networking link-state-detector /QNUP-3 iface ethsfp11add networking link-state-detector /QNIUB-0 iface ethsfp11add networking link-state-detector /QNIUB-1 iface ethsfp11add networking link-state-detector /QNIUB-2 iface ethsfp11add networking link-state-detector /QNIUB-3 iface ethsfp11# vlan 11&12, iu iur user planeadd networking instance iuiurup vlan /EIPU-0 realiface ethsfp11 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcp mtu 1560add networking instance iuiurup vlan /EIPU-2 realiface ethsfp11 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcp mtu 1560add networking instance iuiurup vlan /EIPU-1 realiface ethsfp11 vid 12 vlaniface iuiurup_vl12 mapping vlandscptopcp mtu 1560add networking instance iuiurup vlan /EIPU-3 realiface ethsfp11 vid 12 vlaniface iuiurup_vl12 mapping vlandscptopcp mtu 156056 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: VLAN part 2# vlan 17&18, iu iur control planeadd networking instance iuiurcp vlan /EIPU-0 realiface ethsfp11 vid 17 vlaniface iuiurcp_vl17 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-1 realiface ethsfp11 vid 18 vlaniface iuiurcp_vl18 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-2 realiface ethsfp11 vid 17 vlaniface iuiurcp_vl17 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-3 realiface ethsfp11 vid 18 vlaniface iuiurcp_vl18 mapping vlandscptopcp# vlan 21&22, iub control and user planeadd networking instance iub vlan /EIPU-0 realiface ethsfp11 vid 21 vlaniface iub_vl21 mapping vlandscptopcpadd networking instance iub vlan /EIPU-2 realiface ethsfp11 vid 21 vlaniface iub_vl21 mapping vlandscptopcpadd networking instance iub vlan /EIPU-1 realiface ethsfp11 vid 22 vlaniface iub_vl22 mapping vlandscptopcpadd networking instance iub vlan /EIPU-3 realiface ethsfp11 vid 22 vlaniface iub_vl22 mapping vlandscptopcp57 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: IP address for VLAN# VLANs 11 and 12add networking instance iuiurup address dedicated /EIPU-0 iface iuiurup_vl11 ipaddress 10.0.1.2/28add networking instance iuiurup address dedicated /EIPU-2 iface iuiurup_vl11 ipaddress 10.0.1.3/28add networking instance iuiurup address dedicated /EIPU-1 iface iuiurup_vl12 ipaddress 10.0.1.18/28add networking instance iuiurup address dedicated /EIPU-3 iface iuiurup_vl12 ipaddress 10.0.1.19/28# VLANs 17 and 18add networking instance iuiurcp address dedicated /EIPU-0 iface iuiurcp_vl17 ipaddress 10.1.8.2/28add networking instance iuiurcp address dedicated /EIPU-1 iface iuiurcp_vl18 ipaddress 10.1.8.130/28add networking instance iuiurcp address dedicated /EIPU-2 iface iuiurcp_vl17 ipaddress 10.1.8.3/28add networking instance iuiurcp address dedicated /EIPU-3 iface iuiurcp_vl18 ipaddress 10.1.8.131/28# VLANs 21 and 22add networking instance iub address dedicated /EIPU-0 iface iub_vl21 ipaddress 10.0.4.2/28add networking instance iub address dedicated /EIPU-2 iface iub_vl21 ipaddress 10.0.4.3/28add networking instance iub address dedicated /EIPU-1 iface iub_vl22 ipaddress 10.0.4.18/28add networking instance iub address dedicated /EIPU-3 iface iub_vl22 ipaddress 10.0.4.19/2858 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Iu/Iur user plane59 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: IP address for Iu/Iur user plane 1/2# Iu-PS user plane IP addresses, VRF iuiurupadd networking instance iuiurup address dedicated /QNUP-0 iface lo ip-address 10.1.1.1/32 role iupsupadd networking instance iuiurup address dedicated /QNUP-1 iface lo ip-address 10.1.1.2/32 role iupsupadd networking instance iuiurup address dedicated /QNUP-2 iface lo ip-address 10.1.1.3/32 role iupsupadd networking instance iuiurup address dedicated /QNUP-3 iface lo ip-address 10.1.1.4/32 role iupsup# Iu-CS user plane IP addresses, VRF iuiurupadd networking instance iuiurup address dedicated /QNUP-0 iface lo ip-address 10.1.1.17/32 role iucsupadd networking instance iuiurup address dedicated /QNUP-1 iface lo ip-address 10.1.1.18/32 role iucsupadd networking instance iuiurup address dedicated /QNUP-2 iface lo ip-address 10.1.1.19/32 role iucsupadd networking instance iuiurup address dedicated /QNUP-3 iface lo ip-address 10.1.1.20/32 role iucsup60 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: IP address for Iu/Iur user plane 2/2# Iur user plane IP addresses, VRF iuiurupadd networking instance iuiurup address dedicated /QNUP-0 iface lo ip-address 10.1.1.33/32 role iurupadd networking instance iuiurup address dedicated /QNUP-1 iface lo ip-address 10.1.1.34/32 role iurupadd networking instance iuiurup address dedicated /QNUP-2 iface lo ip-address 10.1.1.35/32 role iurupadd networking instance iuiurup address dedicated /QNUP-3 iface lo ip-address 10.1.1.36/32 role iurup61 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Iub62 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: IP address for Iub, IUBSNT# Iub control and user plane IP addresses, VRF iubadd networking instance iub address dedicated /QNUP-0 iface lo ip-address 10.1.0.1/32 role iubupadd networking instance iub address dedicated /QNUP-1 iface lo ip-address 10.1.0.2/32 role iubupadd networking instance iub address dedicated /QNUP-2 iface lo ip-address 10.1.0.3/32 role iubupadd networking instance iub address dedicated /QNUP-3 iface lo ip-address 10.1.0.4/32 role iubupadd networking instance iub address dedicated /QNIUB-0 iface lo ip-address 10.1.0.65/32 role iubcpadd networking instance iub address dedicated /QNIUB-1 iface lo ip-address 10.1.0.66/32 role iubcpadd networking instance iub address dedicated /QNIUB-2 iface lo ip-address 10.1.0.67/32 role iubcpadd networking instance iub address dedicated /QNIUB-3 iface lo ip-address 10.1.0.68/32 role iubcpadd networking iubsnt iubsnt-id 1 net-address 10.1.0.0/24 rto-initial 2000 rto-min 1759 rto-max 3000 association-max-retrans 7 path-max-retrans 7 heartbeat-interval 2000 sack-period 400 max-frame-size 145263 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Iu/Iur control plane64 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: IP address for Iu/Iur control plane SCTP interfaceOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur.# Iu-PS Control plane IP addressesadd networking instance iuiurcp address dedicated /EIPU-0 iface sctp1_1 ip-address 10.1.8.17/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-1 iface sctp1_1 ip-address 10.1.8.18/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-2 iface sctp1_1 ip-address 10.1.8.19/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-3 iface sctp1_1 ip-address 10.1.8.20/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-0 iface sctp2_1 ip-address 10.1.8.145/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-1 iface sctp2_1 ip-address 10.1.8.146/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-2 iface sctp2_1 ip-address 10.1.8.147/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-3 iface sctp2_1 ip-address 10.1.8.148/28 role iupscp user /SS7SGU65 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Static routing Iu/Iur control planeOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur.# Control plane, routes may serve several destination CN elements depending on the network planningset routing instance iuiurcp node EIPU-0 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.1 onset routing instance iuiurcp node EIPU-0 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.146 onset routing instance iuiurcp node EIPU-1 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.17 onset routing instance iuiurcp node EIPU-1 static-route 10.8.1.0/24 nexthop gateway address 10.0.1.129 onset routing instance iuiurcp node EIPU-2 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.17 onset routing instance iuiurcp node EIPU-2 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.145 onset routing instance iuiurcp node EIPU-3 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.17 onset routing instance iuiurcp node EIPU-3 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.145 on66 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF router id# Router id values for iuiurup VRFset routing instance iuiurup node EIPU-0 router-id 10.0.1.2set routing instance iuiurup node EIPU-1 router-id 10.0.1.18set routing instance iuiurup node EIPU-2 router-id 10.0.1.3set routing instance iuiurup node EIPU-3 router-id 10.0.1.19# Router id values for iub VRFset routing instance iub node EIPU-0 router-id 10.0.4.2set routing instance iub node EIPU-1 router-id 10.0.4.18set routing instance iub node EIPU-2 router-id 10.0.4.3set routing instance iub node EIPU-3 router-id 10.0.4.1967 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF area# iuiurup areasset routing instance iuiurup node EIPU-0 ospf area 10.0.1.0 onset routing instance iuiurup node EIPU-0 ospf area 10.0.1.0 stub onset routing instance iuiurup node EIPU-1 ospf area 10.0.1.0 onset routing instance iuiurup node EIPU-1 ospf area 10.0.1.0 stub onset routing instance iuiurup node EIPU-2 ospf area 10.0.1.0 onset routing instance iuiurup node EIPU-2 ospf area 10.0.1.0 stub onset routing instance iuiurup node EIPU-3 ospf area 10.0.1.0 onset routing instance iuiurup node EIPU-3 ospf area 10.0.1.0 stub on#iub areasset routing instance iub node EIPU-0 ospf area 10.0.4.0 onset routing instance iub node EIPU-0 ospf area 10.0.4.0 stub onset routing instance iub node EIPU-1 ospf area 10.0.4.0 onset routing instance iub node EIPU-1 ospf area 10.0.4.0 stub onset routing instance iub node EIPU-2 ospf area 10.0.4.0 onset routing instance iub node EIPU-2 ospf area 10.0.4.0 stub onset routing instance iub node EIPU-3 ospf area 10.0.4.0 onset routing instance iub node EIPU-3 ospf area 10.0.4.0 stub on68 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF loopback interface activation# iuiurup VRF loopback interfaceset routing instance iuiurup node EIPU-0 ospf interface lo area 10.0.1.0 onset routing instance iuiurup node EIPU-1 ospf interface lo area 10.0.1.0 onset routing instance iuiurup node EIPU-2 ospf interface lo area 10.0.1.0 onset routing instance iuiurup node EIPU-3 ospf interface lo area 10.0.1.0 on# iub VRF loopback interfaceset routing instance iub node EIPU-0 ospf interface lo area 10.0.4.0 onset routing instance iub node EIPU-1 ospf interface lo area 10.0.4.0 onset routing instance iub node EIPU-2 ospf interface lo area 10.0.4.0 onset routing instance iub node EIPU-3 ospf interface lo area 10.0.4.0 on69 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF VLAN interface activation# iuiurup VRF VLAN interfacesset routing instance iuiurup node EIPU-0 ospf interface iuiurup_vl11 area 10.0.1.0 onset routing instance iuiurup node EIPU-1 ospf interface iuiurup_vl12 area 10.0.1.0 onset routing instance iuiurup node EIPU-2 ospf interface iuiurup_vl11 area 10.0.1.0 onset routing instance iuiurup node EIPU-3 ospf interface iuiurup_vl12 area 10.0.1.0 on# iub VRF VLAN interfacesset routing instance iub node EIPU-0 ospf interface iub_vl21 area 10.0.4.0 onset routing instance iub node EIPU-1 ospf interface iub_vl22 area 10.0.4.0 onset routing instance iub node EIPU-2 ospf interface iub_vl21 area 10.0.4.0 onset routing instance iub node EIPU-3 ospf interface iub_vl22 area 10.0.4.0 on70 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF BFD monitoring# VRF iuiurupset routing instance iuiurup node EIPU-0 ospf interface iuiurup_vl11 bfd-detect-mult 3 bfd-monitoring enable bfd-rxinterval 150 bfd-tx-interval 150set routing instance iuiurup node EIPU-1 ospf interface iuiurup_vl12 bfd-detect-mult 3 bfd-monitoring enable bfd-rxinterval 150 bfd-tx-interval 150set routing instance iuiurup node EIPU-2 ospf interface iuiurup_vl11 bfd-detect-mult 3 bfd-monitoring enable bfd-rxinterval 150 bfd-tx-interval 150set routing instance iuiurup node EIPU-3 ospf interface iuiurup_vl12 bfd-detect-mult 3 bfd-monitoring enable bfd-rxinterval 150 bfd-tx-interval 150# VRF iubset routing instance iub node EIPU-0 ospf interface iub_vl21 bfd-detect-mult 3 bfd-monitoring enable bfd-rx-interval 150 bfd-tx-interval 150set routing instance iub node EIPU-1 ospf interface iub_vl22 bfd-detect-mult 3 bfd-monitoring enable bfd-rx-interval 150 bfd-tx-interval 150set routing instance iub node EIPU-2 ospf interface iub_vl21 bfd-detect-mult 3 bfd-monitoring enable bfd-rx-interval 150 bfd-tx-interval 150set routing instance iub node EIPU-3 ospf interface iub_vl22 bfd-detect-mult 3 bfd-monitoring enable bfd-rx-interval 150 bfd-tx-interval 15071 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF parameters 1/2# VRF iuiurupset routing instance iuiurup node EIPU-0 ospf interface iuiurup_vl11 priority 0set routing instance iuiurup node EIPU-1 ospf interface iuiurup_vl12 priority 0set routing instance iuiurup node EIPU-2 ospf interface iuiurup_vl11 priority 0set routing instance iuiurup node EIPU-3 ospf interface iuiurup_vl12 priority 0# VRF iubset routing instance iub node EIPU-0 ospf interface iub_vl21 priority 0set routing instance iub node EIPU-1 ospf interface iub_vl22 priority 0set routing instance iub node EIPU-2 ospf interface iub_vl21 priority 0set routing instance iub node EIPU-3 ospf interface iub_vl22 priority 072 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: OSPF parameters 2/2# VRF iuiurupset routing instance iuiurup node EIPU-0 ospf interface iuiurup_vl11 cost 2set routing instance iuiurup node EIPU-1 ospf interface iuiurup_vl12 cost 2set routing instance iuiurup node EIPU-2 ospf interface iuiurup_vl11 cost 2set routing instance iuiurup node EIPU-3 ospf interface iuiurup_vl12 cost 2# VRF iubset routing instance iub node EIPU-0 ospf interface iub_vl21 cost 2set routing instance iub node EIPU-1 ospf interface iub_vl22 cost 2set routing instance iub node EIPU-2 ospf interface iub_vl21 cost 2set routing instance iub node EIPU-3 ospf interface iub_vl22 cost 273 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: user planeOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS, Iur and Iub.add networking ipbr ipbr-id 1 route-bandwidth 0 committed-bandwidth 0 committed-dcn-bandwidth 0 committed-sig-bandwidth 0 ipbr-name iupsipbr-1 scheduler-type noneadd networking ipro ipbr-id 1 ip-address 10.1.1.1 iface lo5 owner /QNUP-0 vrf iuiurupadd networking ipro ipbr-id 1 ip-address 10.1.1.2 iface lo5 owner /QNUP-1 vrf iuiurupadd networking ipro ipbr-id 1 ip-address 10.1.1.3 iface lo5 owner /QNUP-2 vrf iuiurupadd networking ipro ipbr-id 1 ip-address 10.1.1.4 iface lo5 owner /QNUP-3 vrf iuiurup74 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Iu/Iur control plane 1/2Only Iu-PS is shown as example. Adjust IP addresses for Iu-CS, Iur and Iub.add signaling sccp sccp-timer-profile name sccpprofile1 network-type itu t-a 100 t-congestion 5 t-connect 80 t-d 5 t-guard 1380 t-iar 700 t-ias 300 t-interval 50 t-reassembly 10 t-release 10 t-repeat-release 10 t-reset 10add signaling service-access-point id 1 name SAPRNC1 network-appearance 1 network-indicator NA0 network-type itu sccp-timer-profile-name sccpprofile1add signaling ss7 local-as id 1 name LASRNC1 routing-context 1 routing-key-dpc 310 service-access-point-name SAPRNC1 traffic-mode loadshareadd signaling ss7 remote-as id 1 name SGSN1 communicationtype ipsp pending-timer 3 routing-context 2000 routing-keydpc 500 service-access-point-name SAPRNC1 traffic-mode loadshare75 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 2: Iu/Iur control plane 2/2add signaling ss7 association id 21 local-as-name LASRNC1 communication-type ipsp local-ip-addr 10.1.8.2 local-ipaddr 10.1.8.145 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.1 remote-ip-addr 10.8.1.1 remote-port 2905 node /EIPU-0 role client exchange-mode singleadd signaling ss7 association id 22 local-as-name LASRNC1 communication-type ipsp local-ip-addr 10.1.8.18 local-ipaddr 10.1.8.130 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.2 remote-ip-addr 10.8.1.2 remote-port 2905 node /EIPU-1 role client exchange-mode singleadd signaling sccp own-point-code id 1 local-as-name LASRNC1add signaling sccp destination-point-code id 4 remote-asname SGSN1add signaling sccp subsystem id 1 name SSN310510 point-codename LASRNC1 ssn 142add signaling sccp subsystem id 2 name SSN500310 point-codename SGSN1 ssn 142add signaling sccp concerned-subsystem name CSS1 subsystemname SSN310510 affected-subsystem-name SSN500310add signaling sccp concerned-point-code name CPC1 pointcode-name SGSN1 affected-subsystem-name SSN310510set signaling ss7 association admin-state enabled id 21set signaling ss7 association admin-state enabled id 2276 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: 2 box configuration, VRRP/HSRP Site Solution with VRF, LAG and shared EIPU77 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: VRF, port creation part 1add networking vrf name iuiurup1 id 5add networking vrf name iuiurup1 id 6add networking vrf name iuiurcp id 1add networking vrf name iub1 id 11add networking vrf name iub2 id 12add networking ether /EIPU-0 iface ethsfp13_r1 port sfp13 outqset rncdefaultadd networking ether /EIPU-0 iface ethsfp14_r1 port sfp14 outqset rncdefaultadd networking ether /EIPU-0 iface ethsfp15_r1 port sfp15 outqset rncdefaultadd networking ether /EIPU-0 iface ethsfp16_r1 port sfp16 outqset rncdefaultadd networking ether /EIPU-1 iface ethsfp13_r2 port sfp13 outqset rncdefaultadd networking ether /EIPU-1 iface ethsfp14_r2 port sfp14 outqset rncdefaultadd networking ether /EIPU-1 iface ethsfp15_r2 port sfp15 outqset rncdefaultadd networking ether /EIPU-1 iface ethsfp16_r2 port sfp16 outqset rncdefault78 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: port creation part 2add networking ether /EIPU-2 iface ethsfp17_r1 port sfp17 outqset rncdefaultadd networking ether /EIPU-2 iface ethsfp18_r1 port sfp18 outqset rncdefaultadd networking ether /EIPU-2 iface ethsfp19_r1 port sfp19 outqset rncdefaultadd networking ether /EIPU-2 iface ethsfp20_r1 port sfp20 outqset rncdefaultadd networking ether /EIPU-3 iface ethsfp17_r2 port sfp17 outqset rncdefaultadd networking ether /EIPU-3 iface ethsfp18_r2 port sfp18 outqset rncdefaultadd networking ether /EIPU-3 iface ethsfp19_r2 port sfp19 outqset rncdefaultadd networking ether /EIPU-3 iface ethsfp20_r2 port sfp20 outqset rncdefault79 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: LAG, link state detectoradd networking linkaggr /EIPU-0 iface lag01 slave ethsfp13_r1 slave ethsfp14_r1 slave ethsfp15_r1 slave ethsfp16_r1 outqset rncdefaultadd networking linkaggr /EIPU-1 iface lag01 slave ethsfp13_r2 slave ethsfp14_r2 slave ethsfp15_r2 slave ethsfp16_r2 outqset rncdefaultadd networking linkaggr /EIPU-2 iface lag23 slave ethsfp17_r1 slave ethsfp18_r1 slave ethsfp19_r1 slave ethsfp20_r1 outqset rncdefaultadd networking linkaggr /EIPU-3 iface lag23 slave ethsfp17_r2 slave ethsfp18_r2 slave ethsfp19_r2 slave ethsfp20_r2 outqset rncdefaultadd networking link-state-detector /QNUP-0 iface ethsfp11add networking link-state-detector /QNUP-1 iface ethsfp11add networking link-state-detector /QNUP-2 iface ethsfp11add networking link-state-detector /QNUP-3 iface ethsfp11add networking link-state-detector /QNIUB-0 iface ethsfp11add networking link-state-detector /QNIUB-1 iface ethsfp11add networking link-state-detector /QNIUB-2 iface ethsfp11add networking link-state-detector /QNIUB-3 iface ethsfp1180 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: VLAN 1/2# vlan 11&12, iu iur user planeadd networking instance iuiurup1 vlan /EIPU-0 realiface lag01 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcpadd networking instance iuiurup2 vlan /EIPU-0 realiface lag01 vid 12 vlaniface iuiurup_vl12 mapping vlandscptopcpadd networking instance iuiurup1 vlan /EIPU-1 realiface lag01 vid 11 vlaniface iuiurup_vl11 mapping vlandscptopcpadd networking instance iuiurup2 vlan /EIPU-1 realiface lag01 vid 12 vlaniface iuiurup_vl12 mapping vlandscptopcp(similar configuration of vlan 11&12 for EIPU-2 and 3 omitted for brevity)#vlan 17&18, iu iur control planeadd networking instance iuiurcp vlan /EIPU-0 realiface lag01 vid 17 vlaniface iuiurcp_vl17 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-1 realiface lag01 vid 18 vlaniface iuiurcp_vl18 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-2 realiface lag01 vid 17 vlaniface iuiurcp_vl17 mapping vlandscptopcpadd networking instance iuiurcp vlan /EIPU-3 realiface lag01 vid 18 vlaniface iuiurcp_vl18 mapping vlandscptopcp81 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: VLAN 2/2# vlan 21&22, iub control and user planeadd networking instance iub1 vlan /EIPU-0 realiface lag01 vid 21 vlaniface iub_vl21 mapping vlandscptopcpadd networking instance iub2 vlan /EIPU-0 realiface lag01 vid 22 vlaniface iub_vl22 mapping vlandscptopcpadd networking instance iub1 vlan /EIPU-1 realiface lag01 vid 21 vlaniface iub_vl21 mapping vlandscptopcpadd networking instance iub2 vlan /EIPU-1 realiface lag01 vid 22 vlaniface iub_vl22 mapping vlandscptopcp(configuration of vlan 21&22 for EIPU-2 and 3 omitted)82 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: IP address for VLAN# VLANs 17 and 18add networking instance iuiurcp address dedicated /EIPU-0 iface iuiurcp_vl17 ipaddress 10.1.8.2/28add networking instance iuiurcp address dedicated /EIPU-1 iface iuiurcp_vl18 ipaddress 10.1.8.130/28add networking instance iuiurcp address dedicated /EIPU-2 iface iuiurcp_vl17 ipaddress 10.1.8.3/28add networking instance iuiurcp address dedicated /EIPU-3 iface iuiurcp_vl18 ipaddress 10.1.8.131/28(IP addresses for VLAN 11, 12,21, 22 are assigned via /QNUP and /QNIUB and are not configured here)83 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Iu/Iur user plane84 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: IP address Iu/Iur for user plane 1/2Note that /QNUP, /QNIUB IP addresses are assigned for VLAN interface instead of lo interface in other types of site solution# Iu-PS user plane IP addresses, VRF iuiurupadd networking instance iuiurup1 address dedicated /QNUP-0 iface iuiurup_vl11 ip-address 10.0.1.4/27 role iupsupadd networking instance iuiurup2 address dedicated /QNUP-1 iface iuiurup_vl12 ip-address 10.0.1.36/27 role iupsupadd networking instance iuiurup1 address dedicated /QNUP-2 iface iuiurup_vl11 ip-address 10.0.1.5/27 role iupsupadd networking instance iuiurup2 address dedicated /QNUP-3 iface iuiurup_vl12 ip-address 10.0.1.37/27 role iupsup# Iu-CS user plane IP addresses, VRF iuiurupadd networking instance iuiurup1 address dedicated /QNUP-0 iface iuiurup_vl11 ip-address 10.0.1.14/27 role iucsupadd networking instance iuiurup2 address dedicated /QNUP-1 iface iuiurup_vl12 ip-address 10.0.1.46/27 role iucsupadd networking instance iuiurup1 address dedicated /QNUP-2 iface iuiurup_vl11 ip-address 10.0.1.15/27 role iucsupadd networking instance iuiurup2 address dedicated /QNUP-3 iface iuiurup_vl12 ip-address 10.0.1.47/27 role iucsup85 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: IP address Iu/Iur for user plane 2/2# Iur user plane IP addresses, VRF iuiurupadd networking instance iuiurup1 address dedicated /QNUP-0 iface iuiurup_vl11 ip-address 10.0.1.24/27 role iurupadd networking instance iuiurup2 address dedicated /QNUP-1 iface iuiurup_vl12 ip-address 10.0.1.56/27 role iurupadd networking instance iuiurup1 address dedicated /QNUP-2 iface iuiurup_vl11 ip-address 10.0.1.25/27 role iurupadd networking instance iuiurup2 address dedicated /QNUP-3 iface iuiurup_vl12 ip-address 10.0.1.57/27 role iurup86 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Iub87 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: IP address for Iub# Iub user plane IP addresses, VRF iubadd networking instance iub1 address dedicated /QNUP-0 iface iub_vl21 ip-address 10.0.4.4/27 role iubupadd networking instance iub2 address dedicated /QNUP-1 iface iub_vl22 ip-address 10.0.4.36/27 role iubupadd networking instance iub1 address dedicated /QNUP-2 iface iub_vl21 ip-address 10.0.4.5/27 role iubupadd networking instance iub2 address dedicated /QNUP-3 iface iub_vl22 ip-address 10.0.4.37/27 role iubup# Iub control plane IP addresses, VRF iubadd networking instance iub1 address dedicated /QNIUB-0 iface iub_vl21 ip-address 10.0.4.20/27 role iubcpadd networking instance iub2 address dedicated /QNIUB -1 iface iub_vl22 ip-address 10.0.4.52/27 role iubcpadd networking instance iub1 address dedicated /QNIUB -2 iface iub_vl21 ip-address 10.0.4.21/27 role iubcpadd networking instance iub2 address dedicated /QNIUB -3 iface iub_vl22 ip-address 10.0.4.53/27 role iubcp88 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Iu/Iur control plane89 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: IP address for Iu/Iur control plane SCTP interfaceOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur.#Iu-PS Control plane IP addressesadd networking instance iuiurcp address dedicated /EIPU-0 iface sctp1_1 ip-address 10.1.8.1/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-1 iface sctp1_1 ip-address 10.1.8.2/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-2 iface sctp1_1 ip-address 10.1.8.3/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-3 iface sctp1_1 ip-address 10.1.8.4/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-0 iface sctp2_1 ip-address 10.1.8.145/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-1 iface sctp2_1 ip-address 10.1.8.146/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-2 iface sctp2_1 ip-address 10.1.8.147/28 role iupscp user /SS7SGUadd networking instance iuiurcp address dedicated /EIPU-3 iface sctp2_1 ip-address 10.1.8.148/28 role iupscp user /SS7SGU90 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Static routing user planeNote that VRRP/HSRP group virtual address is used instead of router/switch physical address. Only Iu/Iur user plane is shown as example. Adjust IP addresses for Iub user plane and control plane.set routing instance iuiurup1 node EIPU-0 static-route default nexthop gateway address 10.0.1.1 onset routing instance iuiurup2 node EIPU-0 static-route default nexthop gateway address 10.0.1.33 onset routing instance iuiurup1 node EIPU-1 static-route default nexthop gateway address 10.0.1.1 onset routing instance iuiurup2 node EIPU-1 static-route default nexthop gateway address 10.0.1.33 onset routing instance iuiurup1 node EIPU-2 static-route default nexthop gateway address 10.0.1.1 onset routing instance iuiurup2 node EIPU-2 static-route default nexthop gateway address 10.0.1.33 onset routing instance iuiurup1 node EIPU-3 static-route default nexthop gateway address 10.0.1.1 onset routing instance iuiurup2 node EIPU-3 static-route default nexthop gateway address 10.0.1.33 on91 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Static routing Iu/Iur control planeOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur.set routing instance iuiurcp node EIPU-0 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.1 onset routing instance iuiurcp node EIPU-0 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.146 onset routing instance iuiurcp node EIPU-1 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.17 onset routing instance iuiurcp node EIPU-1 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.129 onset routing instance iuiurcp node EIPU-2 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.1 onset routing instance iuiurcp node EIPU-2 static-route 10.8.1.0/24 nexthop gateway address 10.1.8.146 onset routing instance iuiurcp node EIPU-3 static-route 10.8.0.0/24 nexthop gateway address 10.1.8.17 onset routing instance iuiurcp node EIPU-3 static-route 10.8.1.0/24 nexthop gateway address 0.1.8.129 on92 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: user planeOnly Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur.add networking ipbr ipbr-id 1 route-bandwidth 0 committed-bandwidth 0 committed-dcn-bandwidth 0 committed-sig-bandwidth 0 ipbr-name iupsipbr-1 scheduler-type noneadd networking ipro ipbr-id 1 ip-address 10.0.1.4 iface iuiurup_vl11 owner /QNUP-0 vrf iuiurup1add networking ipro ipbr-id 1 ip-address 10.0.1.36 iface iuiurup_vl12 owner /QNUP-1 vrf iuiurup2add networking ipro ipbr-id 1 ip-address 10.0.1.5 iface iuiurup_vl11 owner /QNUP-2 vrf iuiurup1add networking ipro ipbr-id 1 ip-address 10.0.1.37 iface iuiurup_vl12 owner /QNUP-3 vrf iuiurup293 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Example 3: Iu/Iur control planeOnly M3UA association for Iu-PS is shown as example. Adjust IP addresses for Iu-CS and Iur. Other parts of control plane configuration are the same as other types of site solutionadd signaling instance iuiurcp ss7 association id 21 local-asname LASRNC1 communication-type ipsp local-ip-addr 10.1.8.2 local-ip-addr 10.1.8.145 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.1 remote-ip-addr 10.8.1.1 remote-port 2905 node /EIPU-0 role client exchange-mode singleadd signaling instance iuiurcp ss7 association id 22 local-asname LASRNC1 communication-type ipsp local-ip-addr 10.1.8.18 local-ip-addr 10.1.8.130 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.2 remote-ip-addr 10.8.1.2 remote-port 2905 node /EIPU-1 role client exchange-mode singleadd signaling instance iuiurcp ss7 association id 23 local-asname LASRNC1 communication-type ipsp local-ip-addr 10.1.8.3 local-ip-addr 10.1.8.147 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.3 remote-ip-addr 10.8.1.3 remote-port 2905 node /EIPU-2 role client exchange-mode singleadd signaling instance iuiurcp ss7 association id 24 local-asname LASRNC1 communication-type ipsp local-ip-addr 10.1.8.20 local-ip-addr 10.1.8.131 local-client-port 49225 remote-as-name SGSN1 remoteip-addr 10.8.0.4 remote-ip-addr 10.8.1.4 remote-port 2905 node /EIPU-3 role client exchange-mode single94 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks95 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database96 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Configuring Radio Network DatabaseWays to configure Radio Network database RNW plan download in mcRNC RNW plan download with CM Operation Manager in NetAct Modifying RNW with web-based user interface in OMS Modifying RNW with CM Editor in NetActIn NetAct, it is also possible to modify or plan download IP connectivity.97 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Plan download in mcRNC (zplan.sh) A prepared network plan may be downloaded to the mcRNC Southbound GOMS IP address needs to be included in this plan so that mcRNC can recognize what GOMS is connected to Plan should be copied to CFPU-0 /mnt/QNOMU/plan using scp Plan in XML format with file name RNWPLAND.XML Execute command: zplan /mnt/QNOMU/plan/RNWPLAND.XML To see objects that have been written into the Radio Network Database, execute command:zdbindex98 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Plan management with CM Operation Manager99 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW modification with OMS web-based user interface100 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW modification with CM Editor101 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - RNC parameters 1/2Object DescriptionRNCRNC refers to the logical object of RNC. Exceptionally, there are no create or delete operations associated with the RNC object. The RNC managed object contains RNC level parameters i.e. commissioning parameters, System Information parameters, Location Services (LCS), Time of Arrival Window Endpoint (TOAWE) and Time of Arrival Window Startpoint (TOAWS) related parameters.RNACRNAC object maintains admission control parameters, Packet Data Convergence Protocol (PDCP) and power control/balancing/allocation related parameters. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNFCRNFC object maintains all feature control parameters. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNHSPARNHSPA object maintains High Speed Packet Access parameters i.e. High Speed Packet Access (HSPA), High Speed Uplink Packet Access (HSUPA), Continuous Packet Connectivity (CPC) and Fractional Dedicated Physical Channel (F-DPCH) related. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.102 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - RNC parameters 2/2Object DescriptionRNMOBIRNMOBI object maintains mobility management parameters. i.e. handover, Compressed mode and mobile device control related. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNPSRNPS object maintains mandatory Packet Scheduler parameters and Dynamic Link Optimization related parameters. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNRLCRNRLC object maintains Radio Link Control parameters. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNTRMRNTRM object maintains transmission parameters. This object is not a network topology object. Delete operation is denied. The number of managed objects is 1.RNCERMRadio Network Centralized Entity Resource Management object defines the parameters needed to implement CSCP load balancing.103 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - Interfaces 1/2Object DescriptionPREBTS PREBTS object maintains BTS auto connection parameters.CBCICBCI object maintains the data related to the cell broadcast center used in the service area broadcast feature. The maximum number of CBCI objects is 4.IUOIUO object maintains data related to the Iu Operator (like plmn-id, shared plmn id etc.) The maximum number of IUO objects is 4.IUCS, IUPSThe IUCS managed object contains connection settings towards a particular MGW. The IUPS managed object contains connection settings towards a particular SGSN. These objects contain the configuration for the Iu-CS and Iu-PS interfaces. The maximum number of IUCS and IUPS core managed objects in the RNC is 32.IUCSIP, IUPSIPThe IUCSIP object contains the destination IP address list for the IUCS item. The maximum number of such objects is 20.The IUPSIP object contains the destination IP address list for the IUPS item. The maximum number of such objects is 20.104 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - Interfaces 2/2Object DescriptionIURThe IUR managed object contains neighboring RNC-related parameters. The maximum number of IUR managed objects in RNC is 32. If I-BTS sharing feature is available, the maximum number of IUR managed objects in RNC is 300.IPQMThis object is used in configuring the IP Based Iu-CS and IP Based Iu-PS features. The maximum number of IPQM managed objects in the RNC is 8.TQMThis object is used for configuring RAN1253: Iub Transport QoS feature. The maximum number of TQM managed objects in the RNC is 4.COCOA logical connection configuration object (COCO) is created to reserve local transmission resources for each WCDMA BTS. A COCO object displays the transmission resources at the Iub interface, but not the actual radio network topology. This object is needed only when ATM transport is used for the BTS. Before creating a COCO, the corresponding ATM interface has to be created. The maximum number of radio network COCO objects in the RNW database follows the number of supported BTSs under the RNC.IPNBAn IPNB object contains the NBAP link configuration for the WBTS with the IP-based Iub interface. The maximum number of radio network IPNB objects in the RNW database follows the number of the supported BTSs under the RNC.105 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - FMC, HOPObject DescriptionFMCS, FMCI, FMCGA frequency measurement control (FMC) object contains information concerning the frequency measurement functionality of the RNC. The maximum number of frequency measurement objects within one category is 100. A logical FMC object is created so that its parameters can be used in WCDMA cell definitions. One FMC can be related to several WCDMA cells. FMC objects must be created before they can be used by WCELs.There are three types of FMC objects: FMCS = object for intra-frequency measurement control FMCI = object for inter-frequency measurement control FMCG = object for inter-system frequency measurement control (optional)HOPS, HOPI, HOPG, HOPLA handover path (HOP) object stores the values used in handover and call drop decision making. The maximum number of HOP objects within one category is 100. A logical HOP object is created so that its parameters can be used in adjacent WCDMA cell definitions. One HOP can be related to several adjacency objects of the same group.There are four types of HOP objects: HOPS = object for intra-frequency HOP, which contains, for example, parameters that affect hard handover decision and call drop decision procedures HOPI = object for inter-frequency handover path HOPG = object for inter-system handover path (optional) HOPL = object for inter-system handover path to LTE network (optional)106 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - WBTS, WCELObject DescriptionWBTSA WCDMA BTS (WBTS) is the logical object of the WCDMA base station. A logical WBTS object is created to manage a BTS-related telecom and radio resource configuration. A WBTS can host WCDMA cells. Depending on the transport technology used for the WBTS (ATM or IP), either COCO objects (ATM transport) or IPNB objects (IP transport) can be related to the WBTS object. It is possible to create a WBTS without a reference to any COCO objects when the WBTS is not yet integrated to RNC(IPA-RNC only). WCELA WCDMA cell (WCEL) is the logical object of the WCDMA cell. A logical cell object is created to define the configuration of the WCDMA BTS site.The following objects have to be created before creating WCELs: a parent WBTS IUCS (CS CN node to be used) IUPS (PS CN node to be used) FMCSs for RT and NRT traffic (also FMCI/FMCG if needed) used WRAB107 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Object DescriptionADJS, ADJD, ADJI, ADJG, ADJLAn adjacency for a WCDMA cell (ADJ) refers to a handover relationship between two WCDMA cells. Adjacencies are defined for neighboring cells. Depending on the type of cells for which this relationship is defined, there are three different types ofadjacencies: ADJS = object for intra-frequency adjacency ADJD = object for additional intra-frequency adjacency ADJI = object for inter-frequency adjacency ADJG = object for inter-system adjacency (optional) ADJL = object for inter-system adjacency to LTE networkRNW Database Objects - ADJ108 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - Location ServicesObject DescriptionWSMLCA WSMLC object contains general purpose parameters used in the positioning methods. The actual SMLC device does not exist, but the SMLC functionality in the Interface Control and Signaling Unit (ICSU) is configured using WSMLC parameters. In the RNW database, there can be only one WSMLC object. WSLMC objects can only be created if feature RAN2.0041: LCS Cell Coverage Based (RTT) with Geographical Coordinates is supported.WLCSEWCEL-related parameters needed by location algorithms are defined in a WLCSE object collection. The WLCSE parameters must be defined for each cell used in location calculation in the RNC. The parameters must also be defined for cells controlled by the neighboring RNCs used in location calculation in the locating RNC. A WLCSE object in a WLCSE object collection is identified by using the UTRAN cell identifier, which must be unique in the RNC (in the RNW database). In the RNW database, there can be a total of 8000 WLCSE objects, of which 4800 are for the RNCs own cells and 3200 for the neighboring RNCs' cells. The amount of WLCSE objects was increased from 6000 to 8000 due the feature RAN1795: RNC2600 coverage optimized solution. WLCSE objects can only be created if feature RAN2.0041: LCS Cell Coverage Based (RTT) with Geographical Coordinates is supported.109 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - Misc. Objects 1/2Object DescriptionWANE, WSGWANE and WSG objects contain parameters used in IMSI-based handover, which is an optional feature. WANE and WSG objects can only be created if feature RAN2.0060: IMSI Based Handover is supported.CMOBRNW CM supports limiting access rights to the network (allowed/restricted) broadcast to all user equipment (UE) in the system information message on an access level basis. In a normal situation, the network access is allowed for all access levels. If network access needs to be limited because of the aforementioned reasons, the operator can activate the access control algorithm, which allows and restricts the network access of access levels 0 to 9 users at predefined intervals.A CMOB object contains RNW parameters used in traffic restriction. Traffic restriction is introduced in the optional feature RAN1128: Dynamic Access Class Restriction, which means that this object is optional as well. One CMOB object contains parameters for one restriction area. One WCDMA cell can be connected up to three restriction areas, which must be of different types (CS-DSAC, PS-DSAC and RNAR). The maximum number of CMOB objects under one RNC is 13. If feature RAN801: Radio Network Access Regulation Function is enabled in the RNC, the RNC creates three 'forced' CMOB objects during the RNC startup or the RNC object creation.110 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.RNW Database Objects - Misc. Objects 2/2Object DescriptionWRABA WRAB object contains connection-based quality control parameters. The parameters define the service bearer and signaling bearer quality targets and the related power control thresholds for each transport channel configuration. The maximum number of WRABs in the RNW database is 5.WACWCEL Admission Control object servers for storing: cell-specific UL load control parameters, admission control parameters and several state transition control parameters.VBTSA virtual BTS. The common configuration for all WCDMA and I-HSPA BTSs is controlled by neighboring network elements.VCELA virtual cell. The common configuration for all WCDMA and I-HSPA cells is controlled by neighboring network elements.PFLPreferred Frequency Layer (PFL) object is created in order to define preferred frequency layers for different UE capability and service combinations (for example, HSDPA capable UE with NRT service). The PFL object can be created only when feature RAN2172: Multi-Band Load Balancing has been installed in the RNC. PFL object is under RNC object. Maximum number of PFL objects is 50 in the RNC.111 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.IntegrationRecovery GroupsVLAN Ethernet ConnectivitySS7 Signalling configurationOSPF, VRRP/HSRP site solutionsRadio Network DatabaseFinal checks112 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Final checks after integration and plan provisioning (1/2) Ping or traceroute to destination IP addresses of the relevant node units. -V option is required when Virtual Routing and Forwarding is in used.ping [-V ] I traceroute [-V ] -s Check state of the interfaces by using fsclish commands: show networking interface iface show networking vlan iface show networking address iface show routing node route static show routing node static-route config all show networking ipbr show networking ipro show signaling ss7 association all show signaling sccp subsystem all113 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved.Final checks after integration and plan provisioning (2/2) Show routing for the unit you are logged intoip rnetstat rroute Show interfaces and ports assigned to the different unitsip a To see the IP address of all loopback interfaces on a unitip a s lo Check if O&M link to OMS and BTS are upnetstat -nat | grep 8002114 RN33823EN40GLA012014 Nokia Solutions and Networks. All rights reserved./Module Version controlVersion Date Status Contactv0.1 26.Nov.2010 Draft Guillermo Ferrero-FerriV0.2 08.Dec.2010 Review after use Guillermo Ferrero-FerriV0.4 30.Jun.2011 Guilermo Ferrero-FerriV1.0 29.Sep.2011 Update to existing SW versionRecovery groups section addedExamples of IP and SS7 integration addedMarek JanickiV2.0 20.Feb.2012 Update for mcRNC2.0 Marek JanickiV2.1 11.Apr.2012 IP interface hierarchy and network failure cases addedMarek JanickiV3.0 9 Jan 2014 Update to RU40 Kriang Lerdsuwanakij