ftm parameters ru30
DESCRIPTION
Ftm Parameters RU30TRANSCRIPT
Parameter Operating Documents, Issue 01, Nokia Siemens Networks WCDMA RAN, Rel. RU30, Operating Documentation, Issue 01
Flexi Transport Module Parameters
Nokia Siemens Networks Proprietary and Confidential
DN70577885Issue 03A2010-12-17
The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This document is not an officialcustomer document and Nokia Siemens Networks does not take responsibility for any errors oromissions in this document. This document is intended for the use of Nokia Siemens Networkscustomers only for the purposes of the agreement under which the document is submitted. Nopart of this documentation may be used, reproduced, modified or transmitted in any form ormeans without the prior written permission of Nokia Siemens Networks. The documentation hasbeen prepared to be used by professional and properly trained personnel, and the customerassumes full responsibility when using it. Nokia Siemens Networks welcomes customercomments as part of the process of continuous development and improvement of thedocumentation.
The information or statements given in this documentation concerning the suitability, capacity orperformance of the mentioned hardware or software products are given “as is” and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer.
IN NO EVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THISDOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL,DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES SUCH AS BUTNOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESSOPPORTUNITY OR DATA, that might arise from the use of this document or the information in it.
THE CONTENTS OF THIS DOCUMENT ARE PROVIDED "AS IS". EXCEPT AS REQUIREDBY APPLICABLE MANDATORY LAW, NO WARRANTIES OF ANY KIND, EITHER EXPRESSOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OFMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT,ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THISDOCUMENT. NOKIA SIEMENS NETWORKS RESERVES THE RIGHT TO REVISE THISDOCUMENT OR WITHDRAW IT AT ANY TIME WITHOUT PRIOR NOTICE.
This document and the product it describes are considered protected by copyrights and otherintellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark ofNokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners,and they are mentioned for identification purposes only.
Copyright © Nokia Siemens Networks 2010. All rights reserved.
The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This document is not an officialcustomer document and Nokia Siemens Networks does not take responsibility for any errors oromissions in this document. This document is intended for the use of Nokia Siemens Networkscustomers only for the purposes of the agreement under which the document is submitted. Nopart of this documentation may be used, reproduced, modified or transmitted in any form ormeans without the prior written permission of Nokia Siemens Networks. The documentation hasbeen prepared to be used by professional and properly trained personnel, and the customerassumes full responsibility when using it. Nokia Siemens Networks welcomes customercomments as part of the process of continuous development and improvement of thedocumentation.
The information or statements given in this documentation concerning the suitability, capacity orperformance of the mentioned hardware or software products are given “as is” and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer.
IN NO EVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THISDOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL,DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES SUCH AS BUTNOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESSOPPORTUNITY OR DATA, that might arise from the use of this document or the information in it.
THE CONTENTS OF THIS DOCUMENT ARE PROVIDED "AS IS". EXCEPT AS REQUIREDBY APPLICABLE MANDATORY LAW, NO WARRANTIES OF ANY KIND, EITHER EXPRESSOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OFMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT,ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THISDOCUMENT. NOKIA SIEMENS NETWORKS RESERVES THE RIGHT TO REVISE THISDOCUMENT OR WITHDRAW IT AT ANY TIME WITHOUT PRIOR NOTICE.
This document and the product it describes are considered protected by copyrights and otherintellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark ofNokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners,and they are mentioned for identification purposes only.
Copyright © Nokia Siemens Networks 2010. All rights reserved.
Parameter Operating Documents, Issue 01, Nokia Siemens Networks WCDMA RAN, Rel. RU30, Operating Documentation, Issue 01
Flexi Transport Module Parameters
Nokia Siemens Networks Proprietary and Confidential
DN70577885Issue 03A2010-12-17
The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This document is not an officialcustomer document and Nokia Siemens Networks does not take responsibility for any errors oromissions in this document. This document is intended for the use of Nokia Siemens Networkscustomers only for the purposes of the agreement under which the document is submitted. Nopart of this documentation may be used, reproduced, modified or transmitted in any form ormeans without the prior written permission of Nokia Siemens Networks. The documentation hasbeen prepared to be used by professional and properly trained personnel, and the customerassumes full responsibility when using it. Nokia Siemens Networks welcomes customercomments as part of the process of continuous development and improvement of thedocumentation.
The information or statements given in this documentation concerning the suitability, capacity orperformance of the mentioned hardware or software products are given “as is” and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer.
IN NO EVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THISDOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL,DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES SUCH AS BUTNOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESSOPPORTUNITY OR DATA, that might arise from the use of this document or the information in it.
THE CONTENTS OF THIS DOCUMENT ARE PROVIDED "AS IS". EXCEPT AS REQUIREDBY APPLICABLE MANDATORY LAW, NO WARRANTIES OF ANY KIND, EITHER EXPRESSOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OFMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT,ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THISDOCUMENT. NOKIA SIEMENS NETWORKS RESERVES THE RIGHT TO REVISE THISDOCUMENT OR WITHDRAW IT AT ANY TIME WITHOUT PRIOR NOTICE.
This document and the product it describes are considered protected by copyrights and otherintellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark ofNokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners,and they are mentioned for identification purposes only.
Copyright © Nokia Siemens Networks 2010. All rights reserved.
The information in this document is subject to change without notice and describes only theproduct defined in the introduction of this documentation. This document is not an officialcustomer document and Nokia Siemens Networks does not take responsibility for any errors oromissions in this document. This document is intended for the use of Nokia Siemens Networkscustomers only for the purposes of the agreement under which the document is submitted. Nopart of this documentation may be used, reproduced, modified or transmitted in any form ormeans without the prior written permission of Nokia Siemens Networks. The documentation hasbeen prepared to be used by professional and properly trained personnel, and the customerassumes full responsibility when using it. Nokia Siemens Networks welcomes customercomments as part of the process of continuous development and improvement of thedocumentation.
The information or statements given in this documentation concerning the suitability, capacity orperformance of the mentioned hardware or software products are given “as is” and all liabilityarising in connection with such hardware or software products shall be defined conclusively andfinally in a separate agreement between Nokia Siemens Networks and the customer.
IN NO EVENT WILL Nokia Siemens Networks BE LIABLE FOR ERRORS IN THISDOCUMENTATION OR FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO SPECIAL,DIRECT, INDIRECT, INCIDENTAL OR CONSEQUENTIAL OR ANY LOSSES SUCH AS BUTNOT LIMITED TO LOSS OF PROFIT, REVENUE, BUSINESS INTERRUPTION, BUSINESSOPPORTUNITY OR DATA, that might arise from the use of this document or the information in it.
THE CONTENTS OF THIS DOCUMENT ARE PROVIDED "AS IS". EXCEPT AS REQUIREDBY APPLICABLE MANDATORY LAW, NO WARRANTIES OF ANY KIND, EITHER EXPRESSOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OFMERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT,ARE MADE IN RELATION TO THE ACCURACY, RELIABILITY OR CONTENTS OF THISDOCUMENT. NOKIA SIEMENS NETWORKS RESERVES THE RIGHT TO REVISE THISDOCUMENT OR WITHDRAW IT AT ANY TIME WITHOUT PRIOR NOTICE.
This document and the product it describes are considered protected by copyrights and otherintellectual property rights according to the applicable laws.
The wave logo is a trademark of Nokia Siemens Networks Oy. Nokia is a registered trademark ofNokia Corporation. Siemens is a registered trademark of Siemens AG.
Other product names mentioned in this document may be trademarks of their respective owners,and they are mentioned for identification purposes only.
Copyright © Nokia Siemens Networks 2010. All rights reserved.
MO Class Parameter Name Abbreviated Name 3GPP Name
A2NE AAL2 Node Identifier aal2NodeId
A2ST AAL2 End Address AAL2EndAddress
A2ST Virtual Channel Identifier VCI
A2ST Virtual Path Identifier VPI
A2ST AAL2 Signalling Link Identifaal2sigTTPId
A2ST Interface Number interfaceNumber
A2ST Signalling Transport Conve stcAlarmEnable
A2ST Unit Number unitNumber
A2UT Virtual Channel Identifier VCI
A2UT Virtual Path Identifier VPI
A2UT AAL2 User Path Identifier aal2pathTTPId
A2UT Interface Number interfaceNumber
A2UT Path Identifier pid
A2UT Weight of AAL2 user path queue2Weight
A2UT Weight of AAL2 user path queue3Weight
A2UT Weight of AAL2 user path queue4Weight
A2UT Unit Number unitNumber
ACCP ATM Access Profile Identifi atmAccessProfileId
ACCP Egress Bandwidth egressBandwidth
ACCP Ingress Bandwidth ingressBandwidth
AMGR Account Manager Identifier amgrId
AMGR LDAP Server TLS access ldapConnectionType
AMGR Port Number of Primary LD primaryLdapPort
AMGR IP address of Primary LDAPprimaryLdapServer
ANBA Virtual Channel Identifier VCI
ANBA Virtual Path Identifier VPI
ANBA Interface Identifier interfaceNumber
ANBA Upper Layer Path Identifier nbapTTPId
ANBA Upper Layer Connection TynbapType
ANBA Unit Number unitNumber
BFD BFD session activation flag bfdActivation
BFD BFD session admin down stabfdAdminUp
BFD Destination IP address for bfdDestAddress
BFD BFD session packets lost detbfdDetectMult
BFD BFD group reference bfdGrp
BFD BFD session identifier bfdId
BFD Source IP address for the bfdSourceIpAddr
BFD UDP source port of the BFDbfdSourceUdpPort
BFD BFD session type bfdType
BFD Desired minimum BFD controdesMinTxInt
BFD function function
BFD Required minimum BFD contrreqMinRxInt
BFDGRP Bidirectional Forwarding DetbfdGrpId
CCFA ATM Fabric Identifier atmFabricId
CCFA UBR+ Enabled ubrPlusEnabled
CCFA VCC Bundle Enabling Flag vccBundleEnabled
CERTH CMP server subject name caSubjectName
CERTH Certification Handler Id certhId
CERTH CMP Server IP Address cmpServerIpAddress
CERTH CMP Server Port cmpServerPort
CERTH CR Server IP Address crServerIpAddress
CERTH CR Server Port crServerPort
CESIF CES over PSN source port cesMinUDPPort
CESIF CES over PSN interface idencesifId
CESPW Administrative state administrativeState
CESPW CES over PSN pseudowire idcesPWid
CESPW DSCP value dscp
CESPW Number of frames per CES framesNumber
CESPW Jitter Buffer Size jitterBufferSize
CESPW Payload timeslots of TDM f payloadTimeslots
CESPW Remote UDP port number f remoteUDPPort
CESPWT CES over PSN pseudowire tucesPWTid
CESPWT Destination IP address destIpAddress
ETHLK Administrative State administrativeState
ETHLK Ethernet Link Identifier ethLinkId
ETHLK Layer 2 switch member ingrel2RateLimiter
ETHLK Layer 2 switch member shapl2ShaperRate
ETHLK Layer 2 switch member flag l2SwitchMember
ETHLK Layer 2 switch member VLAN l2VlanIdList
ETHLK Upper value of VLAN identifhighValue
ETHLK Low value of VLAN identifie lowValue
ETHLK Link OAM enabling flag linkOAMEnabled
ETHLK Link OAM profile reference linkOAMProfile
ETHLK MAC address macAddr
ETHLK Speed and Duplex flag speedAndDuplex
FRLI Fractional Interface IdentifieafrLinkInterfaceId
FRLI ATM over Fractional JT1 T afrTimeSlotSequence
FRLI Interface Identifier interfaceNumber
FRLI Unit Number unitNumber
FTM Adaptation Version Major adaptationVersionMajor
FTM FTM Identifier ftmId
FTM Location Name locationName
FTM Software Release Version softwareReleaseVersion
FTM System Title systemTitle
FTM User Label userLabel
IAIF Virtual Channel Identifier VCI
IAIF Virtual Path Identifier VPI
IAIF ATM IP Net Interface IdentifatmIfNetId
IAIF Destination IP Address destIpAddr
IAIF Interface Number interfaceNumber
IAIF Unit Number unitNumber
IEIF Committed information rate cir
IEIF Identifier of the plain EthernieifId
IEIF OSPF interface area interfaceArea
IEIF IP Address Info in the Tran ipAddr
IEIF Local Address of the IP IntelocalIpAddr
IEIF IP Network Mask netmask
IEIF Maximum transfer unit mtu
IEIF QOS traffic priorisation enabqosEnabled
IEIF Shaper burst size sbs
IEIF Total shaper burst size sbsTotal
IEIF Shaped Bandwidth shapedBandwidth
IEIF Shaper information rate sir
IEIF Total shaper information ratsirTotal
IEIF Traffic path shaping enablintrafficPathShapingEnable
IEIF Upper Layer Shaping EnablupperLayerShaping
IEIF Vlan Enabled flag vlanEnabled
IEIF Vlan ID vlanId
IHCP Entry set for DHCP clients client_identifier
IHCP DHCP Client Identifier dhcpClientIdentifier
IHCP DHCP Fixed IP Address dhcpFixedIpAddress
IHCP DHCP Server Identifier dhcpAccessId
IHCP Entry set of DHCP clients i hardware_identifier
IHCP DHCP Fixed IP Address dhcpFixedIpAddress
IHCP DHCP Hardware Identifier dhcpHardwareIdentifier
IHCP DHCP server IP address porange_identifier
IHCP DHCP Range End IP AddredhcpRangeEnd
IHCP DHCP Range Start IP Addr dhcpRangeStart
IMAG Administrative State administrativeState
IMAG IMA group identifier imaGroupId
IMAG IMA Version Identifier imaVersionId
IMAG Interface Number interfaceNumber
IMAG Physical interface list interfaces
IMAG Minimum Number of Links minNumLinks
IMAG Unit Number unitNumber
INTP NTP Identifier ntpAccessId
INTP List of NTP Server IP Addr ntpServers
IPNO BFD throttle time for re-inst bfdHoldUpTime
IPNO BTS Identifier btsId
IPNO Base Station IP Address btsIpAddr
IPNO Control-plane application I cPlaneIpAddress
IPNO CES over PSN application cesopsnIpAddress
IPNO Disable FTP server disableFtp
IPNO Public IP Address of FlexbuflexBusIpAddr
IPNO Flexi Transport Module IP ftmIpAddr
IPNO Netmask of the public IP a ftmNetmask
IPNO I-HSPA adapter initial com iHSPAAdapterCommissioningParameter
IPNO I-HSPA mode activation fla iHSPAmode
IPNO Enable response to ICMP traicmpResponseEnabled
IPNO I-HSPA Adapter IP address ihspaIpAddr
IPNO IP Node Identifier ipNodeId
IPNO Link OAM remote loopback dlinkOAMLoopbackSupport
IPNO Management -plane applicatmPlaneIpAddress
IPNO Maximum transfer unit of t mtu
IPNO Committed information rat oamCir
IPNO Optional TLV message replyoamTlvReply
IPNO TLS usage towards the O& omsTls
IPNO RET IP Address ret1IpAddr
IPNO RNC IP Address rncIpAddr
IPNO Synchronization-plane applisPlaneIpAddress
IPNO BTS transport mode transportMode
IPNO TWAMP initiator rate for s twampMessageRate
IPNO TWAMP message response etwampReflectorOn
IPNO TWAMP reflector port numbtwampReflectorPort
IPNO TWAMP source port numbetwampSourcePort
IPNO Second user-plane applicat uPlane2IpAddress
IPNO Second user-plane applicatiuPlane2IpInterface
IPNO User plane application IP a uPlaneIpAddress
IPNO User-plane application IP n uPlaneIpInterface
IPRM Restricted Mode Exception RmExceptions
IPRM How is source two defined?sourceTwoDiscr
IPRM IP address for source two sourceTwoIpAddr
IPRM IP Subnet Mask sourceTwoNetMask
IPRM User Label userLabel
IPRM IP Restricted Mode IdentifieiprmId
IPRT IP Routing Table Identifier ipRoutingTableId
IPRT List of static routes staticRoutes
IPRT BFD route protection sessionbfdId
IPRT Route destination IP addre destIpAddr
IPRT IP address of the next hop ogateway
IPRT Netmask of the destination netmask
IPRT Preference value for the roupreference
IVIF CES over PSN flag cESoPSN
IVIF Committed information rate cir
IVIF BFD desired minimum transmdesMinTxInt
IVIF OSPF keepalive message trahelloInterval
IVIF Local Address of the IP IntelocalIpAddr
IVIF IP network mask of the locanetmask
IVIF QOS traffic priorisation enabqosEnabled
IVIF Shaper burst size sbs
IVIF Shaper information rate sir
IVIF VLAN identifier vlanId
IVIF VLAN interface object identivlanIfNetId
L2SWI Default VLAN identifier defaultVlanId
L2SWI Flag to decide if untagged discardUntagged
L2SWI DSCP to priority queue ma dscpMap
L2SWI DSCP value dscp
L2SWI Priority queue identifier priorityQueue
L2SWI Priority queue for non-IP f priorityQueueNonIP
L2SWI Priority queue for ethernet priorityQueuePcp0
L2SWI Priority queue for ethernet priorityQueuePcp1
L2SWI Priority queue for ethernet priorityQueuePcp2
L2SWI Priority queue for ethernet priorityQueuePcp3
L2SWI Priority queue for ethernet priorityQueuePcp4
L2SWI Priority queue for ethernet priorityQueuePcp5
L2SWI Priority queue for ethernet priorityQueuePcp6
L2SWI Priority queue for ethernet priorityQueuePcp7
L2SWI Priority queue for untagged priorityQueueUntagged
L2SWI QOS classification flag qosClassification
L2SWI Identifier of the layer 2 swit switchId
L2SWI Flag to decide if VLAN awarvlanAwareSwitch
OAMMA Maintenance association ideassocId
OAMMA Name of the maintenance maName
OAMMA VLAN identifier of the main vlanId
OAMMD Maintenance domain identifdomainId
OAMMD Level of the maintenance d mdLevel
OAMMD Name of the maintenance mdName
OAMMEP AIS message transmission eaisEnabled
OAMMEP AIS messages transmissionaisTxPeriod
OAMMEP Continuity Check Messages ccmTxPeriod
OAMMEP Allow sending of CCM messenableCcm
OAMMEP Ethernet link reference ethernetPort
OAMMEP Maintenance association endoammepId
OAMMEP Maintenance association endremoteMepList
OAMMEP MAC address macAddr
OAMMEP Maintenance association endmepId
OAMMEP VLAN PCP bits vlanPrio
OAMPRF Link OAM operational mode activeMode
OAMPRF Link OAM Link Critical EvenalarmClearanceDelay
OAMPRF Errored Frame Event countiefEventThreshold
OAMPRF Errored Frame Event countinefEventWindow
OAMPRF Errored Frame Period EventefpEventThreshold
OAMPRF Errored Frame Period Event efpEventWindow
OAMPRF Errored Frame Seconds SumefssEventThreshold
OAMPRF Errored Frame Seconds SumefssEventWindow
OAMPRF Allow sending of CCM messenableCcm
OAMPRF OAM PDU message transmiseventRepetition
OAMPRF Link OAM event support fla eventSupport
OAMPRF Link OAM link lost time linkLostTime
OAMPRF Link OAM loopback duratio loopBackTime
OAMPRF Profile instance identifier profileId
OAMPRF Link OAM loopback test metestFrameRate
OAMPRF Link OAM loopback test metestFrameSize
P3LP Access Control Field CompracFieldCompressionOn
P3LP Frame Check Sequence fielfcsFieldLength
P3LP Magic number flag magicNumberOn
P3LP Maximum Receive Unit (MRmruSize
P3LP PPP link identifier p3lpId
P3LP Protocol Field Compression protocolFieldCompressionOn
P3LP Short sequence numbering shortSeqNrOn
P3ML Administrative state of the administrativeState
P3ML CAC committed bit rate cacCommittedBitRate
P3ML Endpoint discriminator type endPointDiscriminatorType
P3ML Physical interface list interfaces
P3ML Fragment size in egress dir mpFragmentSize
P3ML Maximum Receive ReconstrmrruSize
P3ML Netmask of the IP address netmask
P3ML PPP multi-link identifier p3mlId
P3ML PPP endpoint IP address p3pIpAddr
P3ML Is timeslot TS16 excluded ts16Excluded
P3SL Administrative state of the administrativeState
P3SL CAC committed bit rate cacCommittedBitRate
P3SL Physical interface list interface
P3SL Netmask for the IP address netmask
P3SL PPP endpoint IP address p3pIpAddr
P3SL PPP single link object instanp3slId
P3SL Is timeslot TS16 excluded ts16Excluded
PPTT Administrative State administrativeState
PPTT Interface Number interfaceNumber
PPTT PDH Line Build Out pdhLbo
PPTT PDH Line Type pdhLineType
PPTT PDH Interface Identifier pdhPSTTPId
PPTT Unit Number unitNumber
PWMP BFD actual session administbfdAdminUp
PWMP Bidirectional Forwarding EnbfdEnable
PWMP Uplink Concatenation FactocellsConcatUl
PWMP Set of registered vcCTPs. ctpList
PWMP Downlink MPLS Header labelDl
PWMP Uplink MPLS Header labelUl
PWMP Per hop behaviour DiffServ perHopBehaviour
PWMP Packetization Timer pkTimer
PWMP MPLS Pseudowire IdentifierpwMplsId
PWNE BFD Timer bfdTimer
PWNE Maximum allowed number of bfdDetectMult
PWNE Desired Minimum Transmit IdesiredMinTxIntvl
PWNE Required Minimum Receive requiredMinRxIntvl
PWNE Control Word Enable cwEnable
PWNE Pseudowire Network ElemepwNeId
PWTIP Administrative State administrativeState
PWTIP Attached Pseudo-Wires ListattachedPWList
PWTIP Pseudowire Tunnel IP IdentipwTipId
PWTIP Remote IPv4 Address remoteIpv4Addr
QOS Per Hop Behaviour Weight LperHopBehaviourWeightList
QOS Assured Forwarding Class assuredForwardingClass1
QOS Assured Forwarding Class assuredForwardingClass2
QOS Assured Forwarding Class assuredForwardingClass3
QOS Assured Forwarding Class assuredForwardingClass4
QOS Best Effort Weight Value bestEffort
QOS QOS class naming identifie qosId
QOS Quality of Service mapping trafficTypesMap
QOS Differentiated Services CodedscpList
QOS Per Hop Behaviour pHB
QOS Traffic type trafficType
QOS Vlan priority flag vlanPrio
SDHIF Administrative State administrativeState
SDHIF Interface Number interfaceNumber
SDHIF Laser Mode laserMode
SDHIF Remote Defect Indication OnrdiOnExcessiveBer
SDHIF SDH Interface Identifier sdhifId
SDHIF Unit Number unitNumber
SDHIF Sent Trace Identifier (J1, xmtTraceId_HP
SDHIF Sent Trace Identifier (J0, R xmtTraceId_RS
STPG The synchronization sourcesynchroSourceList
STPG Protocol of the clock sourceclockProtocol
STPG Interface number interfaceNumber
STPG Clock source priority priority
STPG SSM enabling flag ssmEnabled
STPG SSM message timeout ssmTimeout
STPG Unit number unitNumber
STPG Synchronisation Protection timingGenPgId
SYNC SYNC Object Identifier syncId
TCTT Interface number interfaceNumber
TCTT ATM Interface Identifier tcAdaptorTTPId
TCTT Unit Number unitNumber
TMPAR CAC Committed Bit Rate cacCommittedBitRate
TMPAR DCN Committed Bit Rate dcnCommittedBitRate
TMPAR External NAT IP Address externalNATIpAddress
TMPAR Far End SCTP Subnet IP A farEndSctpSubnetIpAddress
TMPAR Far End SCTP Subnet Mas farEndSctpSubnetMask
TMPAR Minimum SCTP port numbeminSCTPPort
TMPAR Minimum UDP port number minUDPPort
TMPAR Signalling Committed Bit RasignallingCommittedBitRate
TMPAR TMPAR Object Instance IdentmparId
TOPIK Administrative State administrativeState
TOPIK Log mean synchronization logMeanSyncValue
TOPIK IP Address of the ToP mastmasterIpAddr
TOPIK Identifier of the ToP instanc topId
TRDE Traffic Descriptor Identifier atmTrafficDescriptorId
TRDE Conformance Definition conformanceDefinition
TRDE Minimum Desired Cell Rate minDesiredCellRate
TRDE Peak Cell Rate peakCellRate
TRDE UBR Share ubrShare
TRDE User Label userLabel
TWAMP Lock or unlock a TWAMP s administrativeState
TWAMP TWAMP session destinationdestIpAddress
TWAMP TWAMP session destinationdestPort
TWAMP DSCP value for TWAMP mesdscp
TWAMP TWAMP initiator message smessageSize
TWAMP Packet loss ratio alarm thre plrAlarmThreshold
TWAMP Round-trip-time alarm thres rttAlarmThreshold
TWAMP TWAMP initiator messages sourceIpAddress
TWAMP TWAMP session identifier twampId
UNIT Unit Identifier unitId
UNIT Installed hardware unit typeunitTypeActual
UNIT Expected hardware unit typ unitTypeExpected
VCCT Virtual Channel Identifier VCI
VCCT Virtual Path Identifier VPI
VCCT Interface Number interfaceNumber
VCCT Traffic Descriptor Pointer trafficDescriptorId
VCCT Unit Number unitNumber
VCCT Virtual Channel Identifier (VvcCTPId
VCTT Virtual Channel Identifier VCI
VCTT Virtual Path Identifier VPI
VCTT ATM Adaptation Layer (AAL)aalProfilePtr
VCTT Interface Number interfaceNumber
VCTT Unit Number unitNumber
VCTT Virtual Channel Trail TerminavcTTPId
VPCT Virtual Path Identifier VPI
VPCT Interface Number interfaceNumber
VPCT Traffic Descriptor Pointer trafficDescriptorId
VPCT Unit Number unitNumber
VPCT Virtual Path Identifier (VPI) vpCTPId
VPTT Virtual Path Identifier VPI
VPTT Interface Number interfaceNumber
VPTT Unit Number unitNumber
VPTT Virtual Path Trail TerminatiovpTTPId
Description Short Description Multiplicity
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
1
Identifies the AAL2 node. Because the FTM represents a single AAL2 node, the identifier is always 1.
Identifies the AAL2 node. Because the FTM represents a single AAL2 node, the identifier is always 1.
AAL2 endpoint address (A2EA) for a signalling link. The value has to be the same as the one configured in the RNC.
AAL2 endpoint address (A2EA) for a signalling link.The value has to be the same as the one configured in the RNC.
This parameter identifies the signalling link.
The identifier is composed from the elements:
- Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 1-8-000C0)- unit#-imag#-vpi#vci# (e.g. 1-34-00210)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 000..FFF (hexadecimal number, 3 digits)
This parameter identifies the signalling link.
The identifier is composed from the elements:
- Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 1-8-000C0)- unit#-imag#-vpi#vci# (e.g. 1-34-00210)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 000..FFF (hexadecimal number, 3 digits)
1
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
Enables or disables alarm 61260 "STC connection to signalling peer not established". If enabled, the FTM observes the availability of the adjacent node's signalling link.
Enables or disables alarm 61260 "STC connection to signalling peer not established". If enabled, the FTM observes the availability of the adjacent node's signalling link.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Identifies the AAL2 User Path.
The object is identified by - Unitnumber (unit#)- Interfacenumber(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 2-8-000C0)- unit#-imag#-vpi#vci# (e.g. 2-34-00210)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 000..FFF (hexadecimal number, 3 digits)
composed of the parameters- unitNumber (always 1)- interfaceNumber (decimal 1..76)- vpi (hexa 00..FF)- vci (hexa 000..FFF)e.g. 1-2-0203B
1
1
1
1
1
1
1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
Associates AAL2 signalling messages to the VCC (AAL2 user path) that has been selected as the carrier for the AAL2 connection.
The PID is unique for each AAL2 signalling link (A2ST, ANI).
Associates AAL2 signalling messages to the VCC (AAL2 user path) that has been selected as the carrier for the AAL2 connection. Unique for each AAL2 signalling link (A2ST, ANI).
This is the weight of AAL2 User Path queue Q2.
This is the weight of AAL2 User Path queue Q2.
This is the weight of AAL2 User Path queue Q3.
This is the weight of AAL2 User Path queue Q3.
This is the weight of AAL2 User Path queue Q4.
This is the weight of AAL2 User Path queue Q4.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Identifies the ATM Access Profile. The value is always 1. Exactly 1 ATM access profile exists on the BTS for the ATM over Ethernet interface.
Identifies the ATM Access Profile. The value is always 1. Exactly 1 ATM access profile exists on the BTS for the ATM over Ethernet interface.
1
1
1
Defines the maximum allowed egress bandwidth in cells per second for a logical ATM interface.
The value range of egressBandwidth is as follows:- E1: fixed value 4528- T1/JT1: fixed value 3622- STM-1: 36..144896, step 1, default 144896 (32 x E1)- ATM over Ethernet (pseudowire): 1132..144896, step 1132, default 144896.
- IMA E1: fixed value: int[n*4526*(m-1)/m] where m = Tx Frame Length and n = number of IMA links in a group- IMA T1/JT1 fixed value: int[n*3621*(m-1)/m] where m = Tx Frame Length and n = number of IMA links in a group
Defines the maximum allowed egress bandwidth in cells per second for a logical ATM interface. The value is configurable for SDH and pseudowire and fixed for PDH, IMA and fractional.
Defines the maximum allowed ingress bandwidth in cells per second for a logical ATM interface.
For the following interfaces the values are fixed:- E1: 4528- STM-1: 144896 (32 x E1)- T1/JT1: 3622- IMA E1: int[n*4526*(m-1)/m] where m = Tx Frame Length and n = number of IMA links in a group- IMA T1/JT1: int[n*3621*(m-1)/m] where m = Tx Frame Length and n = number of IMA links in a group
For ATM over Ethernet (Pseudowire tunnel) the value is operator configurable from 1132 to 144896 in steps of 1132.
Defines the maximum allowed ingress bandwidth in cells per second for a logical ATM interface.The parameter can be changed only for ATM over Ethernet from 1132 to 144896 in steps of 1132 cells/s. For other protocols the parameter has a fixed value.
This parameter identifies the account manager. The value is always 1. Exactly 1 account manager object exists on the BTS.
This parameter identifies the account manager. The value is always 1. Exactly 1 account manager object exists on the BTS.
1
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
1
This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "TLS" (allow only secured connections) and "TLS_OR_PLAIN_TEXT" (allow both unsecured and secured connections).
This parameter holds the TLS access mode for the LDAP server(s) of the BTS. Values are "TLS" (allow only secured connections) and "TLS_OR_PLAIN_TEXT" (allow both unsecured and secured connections).
The port number of the Primary LDAP Server.
The port number of the Primary LDAP Server.
The IP address of the Primary LDAP Server, as dotted decimal string.
The IP address of the Primary LDAP Server, as dotted decimal string.
Defines the location on the unit of the physical interface that carries the signallink link. The value depends on the unit type.FTEB: 1..8FTPB: 1..8FTIA: 1..4FTIB: 1..4FTFA: 1..16FTHA: 1..16FTJA: 1..4FTLB: 1..4
For IMA, the parameter identifies the IMA group. Values are: 33..75.For the ATM over Ethernet pseudowire the value is always: 76.
Defines the location on the unit of the physical interface that carries the signallink link. The value depends on the unit type.FTEB: 1..8FTPB: 1..8FTIA: 1..4FTIB: 1..4FTFA: 1..16FTHA: 1..16FTJA: 1..4FTLB: 1..4
For IMA, the parameter identifies the IMA group. Values are: 33..75.For the ATM over Ethernet pseudowire the value is always: 76.
1
1
1
Identifies the upper layer path.
The object is identified by - Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 2-8-000C0)- unit#-imag#-vpi#vci# (e.g. 2-34-00210)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 000..FFF (hexadecimal number, 3 digits)
Identifies the upper layer path.
The object is identified by - Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 2-8-000C0)- unit#-imag#-vpi#vci# (e.g. 2-34-00210)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 000..FFF (hexadecimal number, 3 digits)
This parameter defines the Upper Layer Connection Type.
In case of a WCDMA environment this is the NBAP type: it can be either C-NBAP or D-NBAP.In case of an I-HSPA environment, this is the type of traffic converted to IP and then forwarded to the I-HSPA adapter.The labels AA0 to AA7 are used for AAL5 on FTLB integrated I-HSPA.
Upper Layer Connection Type.
In case of a WCDMA environment this is the NBAP type: it can be either C-NBAP or D-NBAP.In case of an I-HSPA environment, this is the type of traffic converted to IP and then forwarded to the I-HSPA adapter.The labels AA0 to AA7 are used for AAL5 on FTLB integrated I-HSPA.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
1
1
1
1
This parameter activates or deactivates the BFD session.
Activate: if set to value true, the transmission of BFD control packets towards the remote peer is started and, in case the BFD session fails, alarms are raised.Deactivate: if set to value false, the transmission of BFD control packets towards the remote peer is stopped. Also the BTS discards every received BFD packet for a deactivated BFD instance. Moreover all active alarms related to the BFD session are cleared. The BFD session effectively does not exist at all.
This parameter activates or deactivates the BFD session.
Activate: if set to value true, the transmission of BFD control packets towards the remote peer is started and, in case the BFD session fails, alarms are raised.Deactivate: if set to value false, the transmission of BFD control packets towards the remote peer is stopped. Also the BTS discards every received BFD packet for a deactivated BFD instance. Moreover all active alarms related to the BFD session are cleared.
This parameter controls the admin state of the BFD session.If set to false, the session enters the "Down" state. Only control messages with state "Admin Down" are sent to the peer. All active alarms of the BFD session are cleared.If set to true, the session leaves the "Down" state. It will reach the "Up" state if the remote peer is also in "Up" state. If the BFD session fails, alarms are raised for it.
This parameter controls the admin state of the BFD session.If set to false, the session enters the "Down" state. Only control messages with state "Admin Down" are sent to the peer. All active alarms of the BFD session are cleared.If set to true, the session leaves the "Down" state. It will reach the "Up" state if the remote peer is also in "Up" state. If the BFD session fails, alarms are raised for it.
This parameter specifies the destination IP address to be used in the BFD session. To be entered in dotted decimal format.
This parameter specifies the destination IP address to be used in the BFD session. To be entered in dotted decimal format.
The negotiated BFD control word transmission interval, multiplied by this parameter, provides the detection time for lost packets in the BFD session. Roughly speaking bfdDetectMult is the number of BFD control packets that the FTM may lose in a row, before it shall declare the BFD session to be down.
The negotiated BFD control word transmission interval, multiplied by this parameter, provides the detection time for lost packets in the BFD session. Roughly speaking bfdDetectMult is the number of BFD control packets that the FTM may lose in a row, before it shall declare the BFD session to be down.
1
1
1
1
1
1
1
1
This parameter references the BFD group of which the BFD session is a member.The parameter is a managed object instance identifier (LMOID), referencing an instance of object class BFDGRP. The parameter may remain empty, meaning the BFD session is not bound to a BFD group.
This parameter references the BFD group of which the BFD session is a member.The parameter is a managed object instance identifier (LMOID), referencing an instance of object class BFDGRP. The parameter may remain empty, meaning the BFD session is not bound to a BFD group.
This parameter identifies the BFD session.
This parameter identifies the BFD session.
This parameter specifies the source IP address to be used in BFD messages for the BFD session. This can be a network interface IP address or a virtual IP address.To be entered in dotted decimal format.
This parameter specifies the source IP address to be used in BFD messages for the BFD session. This can be a network interface IP address or a virtual IP address.To be entered in dotted decimal format.
This parameter specifies the UDP source port to be used in the BFD session.Note: value range and default value depend on the BFD type. - For Multi Hop BFD, the value range is 4784, 49152...65535 and the default value = 4784. - For Single Hop BFD the value range is 3784, 49152...65535 and the default value = 3784.
This parameter specifies the UDP source port to be used in the BFD session.Note: value range and default value depend on the BFD type. - For Multi Hop BFD, the value range is 4784, 49152...65535 and the default value = 4784. - For Single Hop BFD the value range is 3784, 49152...65535 and the default value = 3784.
This parameter specifies the type of the BFD session: Single Hop or Multi Hop BFD.
This parameter specifies the type of the BFD session: Single Hop or Multi Hop BFD.
This parameter specifies the minimum interval, that the FTM would like to use when transmitting BFD control packets for the BFD session.
This parameter specifies the minimum interval, that the FTM would like to use when transmitting BFD control packets for the BFD session.
This parameter defines for which purpose BFD session is used. For this release only manually configured BFD sessions are supported.
This parameter defines for which purpose BFD session is used. For this release only manually configured BFD sessions are supported.
This parameter specifies the minimum interval between received BFD control packets that the FTM shall support for the BFD session.
This parameter specifies the minimum interval between received BFD control packets that the FTM shall support for the BFD session.
1
1
1
1
1
1
1
This parameter identifies a BFD group.
This parameter identifies a BFD group.
As in FTM there are no actual ATM cross connections, the MO ATM Fabric is a dummy, introduced just to keep the attribute ubrPlusEnabled on the same place as in AXC. This parameter identifies the ATM Fabric configuration. Values is always 1: Exactly 1 instance of ATM Fabric exists on the BTS.
As in FTM there are no actual ATM cross connections, the MO ATM Fabric is a dummy, introduced just to keep the attribute ubrPlusEnabled on the same place as in AXC. This parameter identifies the ATM Fabric configuration. Values is always 1: Exactly 1 instance of ATM Fabric exists on the BTS.
This attribute is used to explicitly enable (TRUE) or disable (FALSE) the network element to take UBR+ into use. If set to FALSE then the network element ingnores MDCR and UBRshare parameters in the TRDE. If set to TRUE, the network element uses MDCR and UBR share for UBR+ connection traffic management scheduling. If TRUE and MDCR and UBRshare are not given then the network element shall take the default values for MDCR and UBRshare. The usage of UBR+ requires the availability of a licence.
This attribute is used to explicitly enable (TRUE) or disable (FALSE) the network element to take UBR+ into use. If set to FALSE then the network element ingnores MDCR and UBRshare parameters in the TRDE. If set to TRUE, the network element uses MDCR and UBR share for UBR+ connection traffic management scheduling. If TRUE and MDCR and UBRshare are not given then the network element shall take the default values for MDCR and UBRshare. The usage of UBR+ requires the availability of a licence.
This parameter enables VCC bundling for collecting extra bandwidth unused by neighbour VCCs.
This parameter enables VCC bundling for collecting extra bandwidth unused by neighbour VCCs.
This parameter identifies the CMP server by its subject name. It may either be detected by DHCP upon autoconnection or configured by the management system.
This parameter identifies the CMP server by its subject name. It may either be detected by DHCP upon autoconnection or configured by the management system.
Naming Attribute. This parameter identifies the unique instance of the certification handler object class of the BTS. Value is always 1.
Naming Attribute. This parameter identifies the unique instance of the certification handler object class of the BTS. Value is always 1.
This is the IP address of the Certificate Management Protocol server. To be entered in dotted decimal format.
This is the IP address of the Certificate Management Protocol server. To be entered in dotted decimal format.
1
1
1
1
1
1
This is the port number to be used for addressing the Certificate Management Protocol server.
This is the port number to be used for addressing the Certificate Management Protocol server.
This is the IP Address of the CR Server in dotted decimal format.
This is the IP Address of the CR Server in dotted decimal format.
This is the port number to be used for addressing the CR server in certificate management.
This is the port number to be used for addressing the CR server in certificate management.
This parameter defines the range of the source port numbers that shall be used for CES over PSN. The parameter defines the lower value of that range. This port and the subsequent ports are used for the CES over PSN pseudowires.
Also a remote UDP port number is defined for each CES over PSN pseudowire. Local and remote port may but don't have to be different.
It shall be ensured that CES over PSN ports are not configured for other purposes. i.e. other pseudowires or 3G traffic types.
This parameter defines the range of the source port numbers that shall be used for CES over PSN. The parameter defines the lower value of that range. This port and the subsequent ports are used for the CES over PSN pseudowires.
Also a remote UDP port number is defined for each CES over PSN pseudowire. Local and remote port may but don't have to be different.
It shall be ensured that CES over PSN ports are not configured for other purposes. i.e. other pseudowires or 3G traffic types.
This parameter identified the CES over PSN interface. Its value is always 1.
This parameter identified the CES over PSN interface. Its value is always 1.
This parameter is used to lock and unlock the CES over PSN pseudowire.Locking the pseudowire switches the CES functionality off. Also all CES over PSN related alarms are suppressed.
This parameter is used to lock and unlock the CES over PSN pseudowire.Locking the pseudowire switches the CES functionality off. Also all CES over PSN related alarms are suppressed.
1
1
1
This parameter identifies the CES over PSN pseudowire.The format of the parameter is slot#-if#where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4FTFB: 1-16
This parameter identifies the CES over PSN pseudowire.The format of the parameter is slot#-if#where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4FTFB: 1-16
This is the Diff Serve Code Point value that shall be inserted into the traffic that is running over this CES over PSN pseudowire.
This is the Diff Serve Code Point value that shall be inserted into the traffic that is running over this CES over PSN pseudowire.
This parameter holds the number of frames per CES over PSN packet.
Note: the number of frames per packet multiplied by the number of PDH timeslots (parameter payloadTimeslots) shall be between 40 and 1536. Otherwise the resulting CESoPSN packet size is violating the allowed ethernet packet size and the CES connection cannot be established.
This parameter holds the number of frames per CES over PSN packet.
Note: the number of frames per packet multiplied by the number of PDH timeslots (parameter payloadTimeslots) shall be between 40 and 1536. Otherwise the resulting CESoPSN packet size is violating the allowed ethernet packet size and the CES connection cannot be established.
1
31
This parameter holds the jitter buffer size to be used by the LLP to equalize the packet delay variation on the network for this pseudowire.
Unit: the value of the parameter is used as +/- x milliseconds, meaning that packets x ms too late or x ms too early still fit into the jitter buffer.Value range is +/- 125 microseconds to +/- 64 milliseconds.A higher value allows equalizing more jitter but increases the end-to-end delay.
This parameter holds the jitter buffer size to be used by the LLP to equalize the packet delay variation on the network for this pseudowire.
Unit: the value of the parameter is used as +/- x milliseconds, meaning that packets x ms too late or x ms too early still fit into the jitter buffer.Value range is +/- 125 microseconds to +/- 64 milliseconds.A higher value allows equalizing more jitter but increases the end-to-end delay.
This parameter defines which timeslots from each TDM frame are used to form the packet payload for CES over PSN over this pseudowire. The set of configured timeslots may be an arbitrary one. It does not have to be contiguous.Note that timeslot 0 is never transmitted.
Range: [1...31] for E1 and [1...24] for T1/JT1.
Note: the number of timeslots multiplied by the number of frames per packet (parameter framesNumber) shall be between 40 and 1536. Otherwise the resulting CESoPSN packet size is violating the allowed ethernet packet size and the CES connection cannot be established.
This parameter defines which timeslots from each TDM frame are used to form the packet payload for CES over PSN over this pseudowire. The set of configured timeslots may be an arbitrary one. It does not have to be contiguous.Note that timeslot 0 is never transmitted.
Range: [1...31] for E1 and [1...24] for T1/JT1.
Note: in orde to obtain a valid ethernet packet size, the number of timeslots multiplied by the number of frames per packet (parameter framesNumber) shall be between 40 and 1536.
1
1
1
1
1
This is the number of the remote UDP port to be used for running traffic on the CES over PSN pseudowire. The remote port is used to identify packets belonging to this pseudowire.
Also a local UDP port number is defined for this CES pseudowire. Local and remote port may but don't have to be different.
It shall be ensured that both ports are not configured for other purposes. i.e. other pseudowires or 3G traffic types.
This is the number of the remote UDP port to be used for running traffic on the CES over PSN pseudowire. The remote port is used to identify packets belonging to this pseudowire.
Also a remote UDP port number is defined for this CES pseudowire. Local and remote port may but don't have to be different.
It shall be ensured that both ports are not configured for other purposes. i.e. other pseudowires or 3G traffic types.
This parameter identifies the CES over PSN pseudowire tunnel. Its value is always 1. Currently only 1 pseudowire tunnel can be configured for CES over PSN.
This parameter identifies the CES over PSN pseudowire tunnel. Its value is always 1. Currently only 1 pseudowire tunnel can be configured for CES over PSN.
This is the destination IP address of the packets belonging to the CES over PSN pseudowire tunnel.This is an IPv4 IP address in dotted decimal format.
This is the destination IP address of the packets belonging to the CES over PSN pseudowire tunnel.This is an IPv4 IP address in dotted decimal format.
This parameter is used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any traffic over the interface is suppressed.
This parameter is used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any traffic over the interface is suppressed.
This parameter identifies the Ethernet link. It is formed as "ETHLK-s#-p#" where s# is the slot number - in this release always 1 - and p# is the port number [1..4]. Example "1-1".
The value range of port number p# is [1..4] for the FTFB hardware unit and [1..3] for all other hardware unit types.
For FTFB the port numbers 1 and 2 are reserved for the external Gigabit ethernet links and port numbers 3 and 4 are reserved for the ethernet links towards the FlexBus.
This parameter identifies the Ethernet link. It is formed as "ETHLK-s#-p#" where s# is the slot number - in this release always 1 - and p# is the port number [1..4]. Example "1-1".
The value range of port number p# is [1..4] for the FTFB hardware unit and [1..3] for all other hardware unit types.
For FTFB the port numbers 1 and 2 are reserved for the external Gigabit ethernet links and port numbers 3 and 4 are reserved for the ethernet links towards the FlexBus.
1
1
1
16
1
1
This parameter specifies the rate for limiting ingress traffic at the ethernet link interface when it participates in the QOS aware layer 2 switch. Parameter value unit = MBit/s.
This parameter specifies the rate for limiting ingress traffic at the ethernet link interface when it participates in the QOS aware layer 2 switch. Parameter value unit = MBit/s.
This parameter specifies the shaping rate of the ethernet link interface when participating in the QOS aware layer 2 switch.The actual shaper rate is derived from the configured shaper rate by internal calculation.
This parameter specifies the shaping rate of the ethernet link interface when participating in the QOS aware layer 2 switch.The actual shaper rate is derived from the configured shaper rate by internal calculation.
This parameter indicates if the ethernet link is participating in the QOS aware layer 2 switch.
This parameter indicates if the ethernet link is participating in the QOS aware layer 2 switch.
This parameter specifies the VLANs that are supported over this ethernet interface when it participates in the QOS aware layer 2 switch. The parameter is a list of up to 16 entries where each entry represents either a single VLAN identifier or a range of VLAN identifiers. The VLAN identifiers of the various entries should not but may overlap each other. The BTS internally will use a cleaned list on non-overlapping identifiers. The value of vlanIdList is however not changed by the BTS.
The default value of the parameter is the empty list.
This parameter specifies the VLANs that are supported over this ethernet interface when it participates in the QOS aware layer 2 switch. The parameter is a list of up to 16 entries where each entry represents either a single VLAN identifier or a range of VLAN identifiers. The VLAN identifiers of the entries should not but may overlap each other. The BTS internally will use a cleaned list on non-overlapping VLAN IDs. The value of vlanIdList is however not changed by the BTS.Default value is the empty list.
This parameter specifies the upper value of a range of VLAN identifiers.
This parameter specifies the upper value of a range of VLAN identifiers.
This parameter specifies either a single VLAN identifier or the lower value of a range of VLAN identifiers.
This parameter specifies either a single VLAN identifier or the lower value of a range of VLAN identifiers.
1
1
1
1
1
Enables the Link OAM functionality for this ethernet link. In consequence:- the values of all statistics counters of the Link OAM feature for this interface are set to 0- the Link OAM alarms for this interface are cleared- the Link OAM discovery process is started, either in active or in passive mode.
Enables the Link OAM functionality for this ethernet link. In consequence:- the values of all statistics counters of the Link OAM feature for this interface are set to 0- the Link OAM alarms for this interface are cleared- the Link OAM discovery process is started, either in active or in passive mode.
A reference to a Link OAM profile. This is a distinguished name referencing an instance of class OAMPRF.
A reference to a Link OAM profile. This is a distinguished name referencing an instance of class OAMPRF.
This parameter shows the MAC address of the ethernet interface.
This parameter shows the MAC address of the ethernet interface.
This parameter specificies if link characteristics are autonegotiated or not.If not, the attribute contains the capacity and the duplex mode to be set forcibly. Note that 1000 MBit is available only on Gigabit Ethernet interfaces (GE).
This parameter is not applied for the FlexBus interfaces of the FTFB hardware unit (interfaces 3 and 4 of the FTFB unit). For these interfaces the capacity and traffic mode is not configurable by the management system.
This parameter specificies if link characteristics are autonegotiated or not.If not, the attribute contains the capacity and the duplex mode to be set forcibly. Note that 1000 MBit is available only on Gigabit Ethernet interfaces (GE).
This parameter is not applied for the FlexBus interfaces of the FTFB hardware unit (interfaces 3 and 4 of the FTFB unit). For these interfaces the capacity and traffic mode is not configurable by the management system.
This parameter identifies the fractional interface of a unit.
The object is identified by - unit location (slot#)- interface location (if#)
Format: slot#-if#Ranges:slot#: 1 (always)if#:FIIB, FILB, FTIB, FTIA, FTLB: 1..4FTPB: 1..8
Fractional is only available on units FTPB, FTIA, FTIB and FTLB. Note that only 1 interface shall be used for fractional at any given time.
This parameter identifies the fractional interface of a unit.
The object is identified by - unit location (slot#)- interface location (if#)
Format: slot#-if#Ranges:slot#: 1 (always)if#:FIIB, FILB, FTIB, FTIA, FTLB: 1..4FTPB: 1..8
Fractional is only available on units FTPB, FTIA, FTIB and FTLB. Note that only 1 interface shall be used for fractional at any given time.
24
1
1
1
1
1
1
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
Specifies a list of consequtive timeslots that are to be used for an ATM interface, starting from timeslot 1. The maximum number of timeslots is 24.At least two timeslots must be used.
Specifies a list of consequtive timeslots that are to be used for an ATM interface, starting from timeslot 1. The maximum number of timeslots is 24.At least two timeslots must be used.
Defines the location of the PDH interface that is used for fractional mode. The value depends on the unit type.
FTIB, FTIA, FTLB: 1..4FTPB: 1..8
Defines the location of the PDH interface that is used for fractional mode. The value depends on the unit type.
FTIB, FTIA, FTLB: 1..4FTPB: 1..8
This parameter identifies the slot number of the unit of the PDH interface that is used for fractional mode. The value is always 1 (only 1 slot available in this release).
This parameter identifies the slot number of the unit of the PDH interface that is used for fractional mode. The value is always 1 (only 1 slot available in this release).
Adaptation Version (Major) of the Site Configuration File supported by FTM.
Adaptation Version (Major) of the Site Configuration File supported by FTM.
Formal identifier for the whole FTM. Always 1.
Formal identifier for the whole FTM. Always 1.
Label that can be used to describe the geographical location of the network element.
Label that can be used to describe the geographical location of the network element.
Identifies the SW Release Version of the FlexiTransport Module. This value is set by the BTS.
Identifies the SW Release Version of the FlexiTransport Module. This value is set by the BTS.
Label that can be used to enter the name of the network element.
Label that can be used to enter the name of the network element.
Label that can be used for a description of the BTS.
Label that can be used for a description of the BTS.
1
1
1
1
Identifies an ATM interface over an Ethernet Pseudowire.
The object is identified by - Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 2-8-000C0)- unit#-imag#-vpi#vci# (e.g. 2-34-0020)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 00..FFF (hexadecimal number, 3 digits)
Identifies an ATM interface over an Ethernet Pseudowire.
The object is identified by - Unit number (unit#)- Interface number(if#, imag# or pw#)- Virtual Path Identifier (vpi#)- Virtual Channel Identifier (vci#)
Format:- unit#-if#-vpi#vci# (e.g. 2-8-000C0)- unit#-imag#-vpi#vci# (e.g. 2-34-0020)
Range:unit#: 1if#: 1..16 (maxi. 2 digits)imag#: 33..75 (2 digits)pw#: 76vpi#: 00..FF (hexadecimal number, 2 digits) vci#: 00..FFF (hexadecimal number, 3 digits)
Specifies the far-end IP address of an ATM point-to-point connection (IPoA).
Specifies the far-end IP address of an ATM point-to-point connection (IPoA).
Defines the location on the unit of the physical interface that carries the signallink link. The value depends on the unit type.FTEB: 1..8FTPB: 1..8FTIA: 1..4FIIB, FTIB: 1..4FTFA: 1..16FTHA: 1..16FTJA: 1..4FILB, FTLB: 1..4
For IMA, the parameter identifies the IMA group. Values are: 33..75.For the ATM over Ethernet pseudowire the value is always: 76.
Defines the location on the unit of the physical interface that carries the signallink link. The value depends on the unit type.FTEB: 1..8FTPB: 1..8FTIA: 1..4FIIB, FTIB: 1..4FTFA: 1..16FTHA: 1..16FTJA: 1..4FILB, FTLB: 1..4
For IMA, the parameter identifies the IMA group. Values are: 33..75.For the ATM over Ethernet pseudowire the value is always: 76.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
1
1
1
1
1
1
1
The Committed Information Rate ("CIR") shall define the average rate up to which traffic is delivered by the plain Ethernet interface. It shall define the guaranteed transport capacity for the interface. The parameter is required for dynamic CAC.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
Note that the maximum throughput (100 MBps or 1000 MBps) can only - theoretically - be achieved on layer 1, not on layer 2 and 3.
The Committed Information Rate ("CIR") shall define the average rate up to which traffic is delivered by this interface. It shall define the guaranteed transport capacity for the interface. The parameter is required for dynamic CAC.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
Note that the maximum throughput (100 MBps or 1000 MBps) can only - theoretically - be achieved on layer 1, not on layer 2 and 3.
This parameter identifies the unique plain ethernet interface object in the BTS. Value is always 1.
This parameter identifies the unique plain ethernet interface object in the BTS. Value is always 1.
This parameter specifies the OSPF area to which the interface belongs.
This parameter specifies the OSPF area to which the interface belongs.
Primary and - optionally - secondary IP address of the BTS in the transport network. Both are accompanied with a subnet mask.In this release only the primary IP address shall be used.
Primary and - optionally - secondary IP address of the BTS in the transport network. Both are accompanied with a subnet mask.In this release only the primary IP address shall be used.
IP address of the BTS in the transport network. It is accompanied with a subnet mask.
IP address of the BTS in the transport network. It is accompanied with a subnet mask.
Network mask for the IP address of the BTS in the transport network. To be entered in dotted decimal format.
Network mask for the IP address of the BTS in the transport network. To be entered in dotted decimal format.
This is the maximum transfer unit in octets. In this release it has fixed value 1500.
This is the maximum transfer unit in octets. In this release it has fixed value 1500.
1
1
1
1
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
Amongst the active interfaces (IEIF or IVIF managed object instances) there shall be at least one and at most 2 interfaces carrying a multiple queue scheduler. So qosEnabled shall have value true for at least one active interface and must not have value true on more than 2 active interfaces.
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
Amongst the active interfaces (IEIF or IVIF managed object instances) there shall be at least one and at most 2 interfaces carrying a multiple queue scheduler. So qosEnabled shall have value true for at least one active interface and must not have value true on more than 2 active interfaces.
This parameter holds the shaper burst size for the interface.
This parameter holds the shaper burst size for the interface.
The Total Shaper Burst Size ("SBS") defines the maximum burst size that is allowed to pass at the output of the WFQ aggregator.
The Total Shaper Burst Size ("SBS") defines the maximum burst size that is allowed to pass at the output of the WFQ aggregator.
This is the egress shaping bandwidth on the network interface (in kbit/s).The related parameter upperLayingShaping decides if shaping is for the IP layer only or if the ethernet overhead is taken into account.Values above 100 MBit/s are only allowed on Gigabit Ethernet interfaces.
This is the egress shaping bandwidth on the network interface (in kbit/s).Values above 100 MBit/s are only allowed on Gigabit Ethernet interfaces.
1
1
1
1
1
This parameter holds the shaper information rate for the interface.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
This parameter holds the shaper information rate for the interface.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
This parameter holds the total Shaper Information Rate ("SIR") at the output of the WFQ aggregator.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
This parameter holds the total Shaper Information Rate ("SIR") at the output of the WFQ aggregator.The maximum value of this parameter is 100 MBps for Fast Ethernet interfaces and 1 GBps for Gigabit Ethernet interfaces.
This parameters decides on the type of shaping in case of VLANs. When traffic path shaping is enabled, shaping at the level of each VLAN enabled, else shaping at the WFQ aggregator level is enabled. Shaping may also be switched off entirely.
This parameters decides on the type of shaping in case of VLANs. When traffic path shaping is enabled, shaping at the level of each VLAN enabled, else shaping at the WFQ aggregator level is enabled. Shaping may also be switched off entirely.
This parameter decides if shaping takes the ethernet overhead into account when shaping the bandwidth or not. If the flag has value true, the associated shapedBandwidth is the bandwidth on the IP layer only. If the flag has value false the Ethernet header is counted also. Use "true" for an IP only network, e.g. xDSL, use "false" for an Ethernet network, e.g. Metro Ethernet.
If this flag = true, the associated shapedBandwidth is the bandwidth on the IP layer only. If the flag = false the Ethernet header is counted also. Use "true" for an IP only network, e.g. xDSL, use "false" for an Ethernet network, e.g. Metro Ethernet.
This flag indicates if Vlan mapping is enabled for this ethernet interface. Value "true" means that Vlan mapping is enabled. In case Vlan mapping is not enabled, all messages on the interface will be sent in plain format.
This flag indicates if Vlan mapping is enabled for this ethernet interface. In case Vlan mapping is not enabled, all messages on the interface will be sent in plain format.
1
10
1
1
1
10
1
Vlan ID to be used over this ethernet interface. The parameter is only relevant if vlan mapping is enabled (parameter Vlan Enabled flag has value true).
Vlan ID to be used over this ethernet interface. The parameter is only relevant if vlan mapping is enabled (parameter Vlan Enabled flag has value true).
This is a set of entries in the DHCP database in which an IP address is assigned to a DHCP client that identifies itself at the BTS by a system name (by a "text string").
This is a set of entries in the DHCP database in which an IP address is assigned to a DHCP client that identifies itself at the BTS by a system name (by a "text string").
This is a unique string used in the DHCP server of the BTS for identifying a DHCP client that is assigned a fixed IP address. This may either be one of the predefined names "RET1" (Remote Electrical Tilt), "RET2", "BBU" and "LMU" or a user-defined name consisting of up to 20 digits [0-9] and letters [a-z] and [A-Z].
A unique string used in the DHCP server of the BTS to identify a DHCP client that is assigned a fixed IP address. Can be either one of the names "RET1", "RET2", "BBU" or "LMU" or a user-defined name of up to 20 digits [0-9] or letters [a-z] and [A-Z].
Specifies a fixed IP address to be assigned to the DHCP client if it requests a lease with the specified client-identifier.The IP address must be within the public IP subnet of the LMP. However, neither the IP addresses of the BTS nor its subnet IP address can be used.
Specifies a fixed IP address to be assigned to the DHCP client if it requests a lease with the specified client-identifier.The IP address must be within the public IP subnet of the LMP but neither the BTS IP address nor its subnet IP address itself.
This parameter identifies the unique DHCP Server object in the BTS. Value is always 1.
This parameter identifies the unique DHCP Server object in the BTS. Value is always 1.
This is set of entries in the DHCP database of the BTS that binds an IP address to a DHCP client that identifies itself at BTS by a hardware address (by a "MAC address").
This is set of entries in the DHCP database of the BTS that binds an IP address to a DHCP client that identifies itself at BTS by a hardware address (by a "MAC address").
Specifies the fixed IP address to be assigned to the DHCP client if it requests a lease with the hardware (MAC) address specified in parameter "DHCP Hardware Identifier".The IP address must be within the public IP subnet of the LMP. However, the IP addresses of the BTS, its subnet IP address and its broadcast IP address cannot be used.
This is IP address for the DHCP client that requests a lease with the MAC address of parameter "DHCP Hardware Identifier".Address must be within the public IP subnet of the LMP but not the BTS IP address, its broadcast or its subnet IP address.
1
1
1
1
1
This is the unique hardware (MAC) address within the DHCP server of the BTS by which a DHCP client identifies itself at the BTS. The server will then assign the IP address of parameter "DHCP Fixed IP Address" to the client.
This is the unique hardware (MAC) address within the DHCP server of the BTS by which a DHCP client identifies itself at the BTS. The server will then assign the IP address of parameter "DHCP Fixed IP Address" to the client.
This entry reserves an IP address range to be used for assignments for the DHCP clients.
This entry reserves an IP address range to be used for assignments for the DHCP clients.
Specifies the final IP address of the DHCP IP address range.The IP address must be within the public IP subnet of the LMP. However, neither the IP addresses of the BTS nor its subnet IP address shall be used.
Specifies the final IP address of the DHCP IP address range.The IP address must be within the public IP subnet of the LMP. However, neither the IP addresses of the BTS nor its subnet IP address shall be used.
Specifies the starting IP address of the DHCP IP address range.The IP address must be within the public IP subnet of the LMP. However, neither the IP addresses of the BTS nor its subnet IP address shall be used.
Specifies the starting IP address of the DHCP IP address range.The IP address must be within the public IP subnet of the LMP. However, neither the IP addresses of the BTS nor its subnet IP address shall be used.
Used to lock and unlock the IMA group.
When the Adminstrative State is locked, the IMA group is deactivated. All alarms and any ATM cell transfer is suppressed. Unlocking the Administrative State will trigger the creation of a TCTT (ATM interface).
Note that setting the Administrative State to locked will not delete the associated TCTT. Changing the value for an IMA group also changes the Administrative State of the physical interfaces assigned to the group.
Used to lock and unlock the IMA group.
When the Adminstrative State is locked, the IMA group is deactivated. All alarms and any ATM cell transfer is suppressed. Unlocking the Administrative State will trigger the creation of a TCTT (ATM interface).
1
1
1
16
1
1
This parameter identifies the IMA group. Format: unit#-imag# whereunit#: always 1 (unit number)imag#: 33..75 (IMA group number on the unit)
This parameter identifies the IMA group. Format: unit#-imag# whereunit#: always 1 (unit number)imag#: 33..75 (IMA group number on the unit)
Specifies the standard according to which the IMA group is operating.
ATM Forum af-phy-0086.000 allows for two interpretations: IMA version 1.0 and IMA version 1.0Alt (alternate). ATM Forum af-phy-0086.001 eliminates this ambiguity and is the basis for IMA version 1.1. This version is the most common one.The Transport Module provides also an option to atomatically detect the correct IMA version (default).
IMA version 1.0 is not supported
The value must be the same at both local and remote site.
Specifies the standard according to which the IMA group is operating.
This parameter holds the IMA Group identifier.
This parameter holds the IMA Group identifier.
This parameter holds the list of the physical interfaces used by the IMA group. The maximum number of interfaces in one IMA group depends on the unit type:FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4FTEB, FTPB, FTFA: 8FTFA, FTHA, FTFB: 16
This parameter holds the list of the physical interfaces used by the IMA group. The maximum number of interfaces in one IMA group depends on the unit type:FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4FTEB, FTPB, FTFA: 8FTFA, FTHA, FTFB: 16
Specifies the minimum number of IMA links required to keep the IMA group operable.If the number of working IMA links is smaller, the IMA group is out of use.
Specifies the minimum number of IMA links required to keep the IMA group operable.If the number of working IMA links is smaller, the IMA group is out of use.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
Specifies the location of the unit (slot number). In this release it is always 1. The BTS has only 1 unit in slot 1.
1
3
1
1
Base Station IP Address 1
1
Identifies the NTP entity on the FTM. It is always 1.
Identifies the NTP entity on the FTM. It is always 1.
Specifies the IP addresses of the NTP servers.
Specifies the IP addresses of the NTP servers.
This parameter specifies the delay for re-installig routes as active ones after a BFD session has recovered from down to up state. Defining a delay can prevent too heavy toggling of de-installing and re-installing routes for unstable BFD sessions.
This parameter specifies the delay for re-installig routes as active ones after a BFD session has recovered from down to up state. Defining a delay can prevent too heavy toggling of de-installing and re-installing routes for unstable BFD sessions.
Base Station Identifier.
Reserved Values: 0 = "BTS not configured" and 0xFFFF (=65535) = "RNC not configured"
Base Station Identifier
Reserved Values: 0 = "BTS not configured" and 0xFFFF (=65535) = "RNC not configured"
IP Address of the Base Station. Address under which the Base Station is available remotely.
This parameter specifies the IP address to be used for control-plane traffic by the FTM.
This IP address can collapse with the local IP address of the plain Ethernet interface (IEIF object) or with the local IP address of one of the VLAN interfaces (IVIF object) or with the local IP address of the ML-PPP interface (P3SL or P3ML object) of the FTM. If it does not collapse with such network interface IP address, the IP address is virtual.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the control-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) and in case of Dual Iub mode.
This parameter specifies the IP address to be used for control-plane traffic by the FTM.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the control-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) and in case of Dual Iub mode.
1
1
1
1
1
100
1
1
This parameter specifies the application IP address for CES over PSN.The address can collapse with the IP address of the plain Ethernet interface (IEIF object) or with the IP address of one of the VLAN interfaces (IVIF object). If it does not collapse with such network interface IP address, the CES over PSN IP address is virtual.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the CES over PSN IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) and in DualIub mode.
This parameter specifies the application IP address for CES over PSN.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the CES over PSN IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) and in DualIub mode.
Control whether to allow/disallow running FTP server on Transport module for security reasons
Allow/disallow running FTP server on Transport module
Public IP address of the Flexbus part of the unit. In dotted decimal format.
Public IP address of the Flexbus part of the unit. In dotted decimal format.
Public IP address of the Flexi Transport Module
Public IP address of the Flexi Transport Module
This parameter specifies the subnet mask of the public IP address of the transport module.
This parameter specifies the subnet mask of the public IP address of the transport module.
Defines the parameters which are needed for the initial commissioning of the I-HSPA adapter.
Defines the parameters which are needed for the initial commissioning of the I-HSPA adapter.
This parameter defines whether the BTS shall be operated in I-HSPA mode.A prerequisite is that the I-HSPA SW support is enabled. This can be viewed from parameter IPNO - iHSPASwSupport.
This parameter defines whether the BTS shall be operated in I-HSPA mode.A prerequisite is that the I-HSPA SW support is enabled. This can be viewed from parameter IPNO - iHSPASwSupport.
This parameter controls if the BTS shall respond to ICMP and traceroute requests via BTS Site Manager or SCF or not at all. Value false means: response is disabled.
This parameter controls if the BTS shall respond to ICMP and traceroute requests via BTS Site Manager or SCF or not at all. Value false means: response is disabled.
1
1
1
1
1
IP Address of the I-HSPA adapter.
It is present only in an I-HSPA environment. A valid value in this attribute serves at the same time as an indicator that the Base Station is configured as an I-HSPA Base Station. If it is not configured as I_HSPA then let the field empty
IP Address of the I-HSPA adapter.
Present only in an I-HSPA environment. A valid IP address indicates that the Base Station is configured as an I-HSPA Base Station. Else let the field empty
Formal Identifier. Since the FlexiBTS represents one IP node, the identifier is always 1. Value auto-generated if user doesn't enter any value
Formal Identifier. Since the FlexiBTS represents one IP node, the identifier is always 1. Value auto-generated if user doesn't enter any value
If set to true, the FTM enables the discovery process for Link OAM loopback requests initiated by a remote network element. If set to false, a loopback initiated from the remote network is not accepted by the FTM.
If set to true, the FTM enables the discovery process for Link OAM loopback requests initiated by a remote network element. If set to false, a loopback initiated from the remote network is not accepted by the FTM.
This parameter specifies the IP address to be used for management-plane traffic by the FTM.
This IP address can collapse with the local IP address of the plain Ethernet interface (IEIF object) or with the local IP address of one of the VLAN interfaces (IVIF object) or with the local IP address of the ML-PPP interface (P3SL or P3ML object) of the FTM. If it does not collapse with such network interface IP address, the IP address is virtual.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the management-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
This parameter specifies the IP address to be used for management-plane traffic by the FTM.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the management-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
This is the maximum transfer unit that is to be used equally on all IP interfaces of the BTS.
This is the maximum transfer unit that is to be used equally on all IP interfaces of the BTS.
1
1
1
1
1
1
This parameter specifies the committed information rate (CIR) for Service OAM messages sent by the FTM.
This parameter specifies the committed information rate (CIR) for Service OAM messages sent by the FTM.
If this parameter is set to true, the optional TLV received in a Link Trace or Loopback message (LTM or LBM message) is sent back unchecked in the corresponding reply message (LTR, or LBR).If this parameter is set to false, the received optional TLV is ignored and not being sent in the reply-message.
If this parameter is set to true, the optional TLV received in a Link Trace or Loopback message (LTM or LBM message) is sent back unchecked in the corresponding reply message (LTR, or LBR).If this parameter is set to false, the received optional TLV is ignored and not being sent in the reply-message.
Defines the usage of TLS between the BTS and the O&M system.The usage of TLS requires that valid certificates are installed to the BTS.
Defines the usage of TLS between the BTS and the O&M system.The usage of TLS requires that valid certificates are installed to the BTS.
IP Address of the RET, which is connected to the Base Station.
IP Address of the RET, which is connected to the Base Station.
IP Address of the RNC to which the Base Station is connected.
IP Address of the RNC to which the Base Station is connected.
This parameter specifies the IP address to be used for synchronization-plane traffic by the FTM.
This IP address can collapse with the local IP address of the plain Ethernet interface (IEIF object) or with the local IP address of one of the VLAN interfaces (IVIF object) or with the local IP address of the ML-PPP interface (P3SL or P3ML object) of the FTM. If it does not collapse with such network interface IP address, the IP address is virtual.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the synchronization-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
This parameter specifies the IP address to be used for synchronization-plane traffic by the FTM.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the synchronization-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
1
1
1
1
1
This parameter selects between the transport modes AtmOverEthernet, Dual Iub and Iub/IP.
This parameter selects between the transport modes AtmOverEthernet, Dual Iub and Iub/IP.
This parameter specifies the overall rate at which the FTM sends TWAMP initiator messages. The messages are evenly spread over the enabled TWAMP sessions at any given time.
This parameter specifies the overall rate at which the FTM sends TWAMP initiator messages. The messages are evenly spread over the enabled TWAMP sessions at any given time.
This parameter switches the TWAMP reflector on. The TWAMP reflector shall respond to each received measurement request packet from any sender. The TWAMP reflector re-uses the Sender Sequence Number, Sender Timestamp and Sender Error Estimate fields from the received packet in the response packet.
This parameter switches the TWAMP reflector on. The TWAMP reflector shall respond to each received measurement request packet from any sender. The TWAMP reflector re-uses the Sender Sequence Number, Sender Timestamp and Sender Error Estimate fields from the received packet in the response packet.
This parameter specifies the source port that is assigned to the TWAMP reflector. The sender on any measurement request packet shall use that port to reach the TWAMP reflector.
This parameter specifies the source port that is assigned to the TWAMP reflector. The sender on any measurement request packet shall use that port to reach the TWAMP reflector.
This parameter specifies the source port that is used in TWAMP initiator messages. The TWAMP port must be lower than the smallest port number used for regular traffic user plane connections of the FTM.
This parameter specifies the source port that is used in TWAMP initiator messages. The TWAMP port must be lower than the smallest port number used for regular traffic user plane connections of the FTM.
1
This parameter specifies a 2nd IP address to be used for user-plane traffic by the FTM. This IP address can collapse with the local IP address of the plain Ethernet interface (IEIF object) or with the local IP address of one of the VLAN interfaces (IVIF object) or with the local IP address of the ML-PPP interface (P3SL or P3ML object) of the FTM. If it does not collapse with such network interface IP address, the second user-plane IP address is virtual. In the latter case, the assignment to a network interface has to be configured additionally by the operator.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the 2nd user-plane application IP address is not used at all.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
This parameter specifies a 2nd IP address to be used for user-plane traffic by the FTM.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the 2nd user-plane application IP address is not used at all.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
1
This parameter maps the second user-plane IP address to an IP network interface if this IP address is a virtual IP address. This means: the FTM will use the second user-plane application IP address as source IP address in user-plane traffic sent over this interface.
Note that the interface of user-plane traffic is selected based on the entries of the static routing table of the FTM. If it happens to match the value of parameter uPlane2IpInterface, the IP address in parameter uPlane2IpAddress is used in user-plane traffic.
The format of this parameter is local managed object instance identifier (LMOID). The value references either the plain Ethernet interface (instance of IEIF object class) or a VLAN interface (instance of IVIF object class).
This parameter maps the second user-plane IP address to an IP network interface if this IP address is a virtual IP address. This means: the FTM will use the second user-plane application IP address as source IP address in user-plane traffic sent over this interface.
The format of this parameter is local managed object instance identifier (LMOID). The value references either the plain Ethernet interface (instance of IEIF object class) or a VLAN interface (instance of IVIF object class).
1
This parameter specifies the IP address that is used for user plane traffic by the FTM. This IP address can collapse with the local IP address of the plain Ethernet interface (IEIF object) or with the local IP address of one of the VLAN interfaces (IVIF object) or with the local IP address of the ML-PPP interface (P3SL or P3ML object) of the FTM. If it does not collapse with such network interface IP address, the second user-plane IP address is virtual. In the latter case, the assignment to a network interface has to be configured additionally by the operator.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the user-plane application IP address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
In case the second user-plane IP address is configured too, the operator has to additionally assign both the first and the 2nd user plane IP address to an IP network interface.
This parameter specifies the IP address that is used for user plane traffic by the FTM.
The format of this parameter is dotted decimal.Value 0.0.0.0 means the user-plane IP application address is not used.The parameter is not used at all in case of AtmOverEthernet (AtmIub) mode.
1
32
This parameter maps the first user-plane IP address to an IP network interface if this IP address is a virtual IP address. This means: the FTM will use the first user-plane application IP address as source IP address in user-plane traffic sent over this interface.
Note that the interface of user-plane traffic is selected based on the entries of the static routing table of the FTM. If it happens to match the value of parameter uPlaneIpInterface, the IP address in parameter uPlaneIpAddress is used in user-plane traffic over that interface.
The format of this parameter is local managed object instance identifier (LMOID). The value references either the plain Ethernet interface (instance of IEIF object class) or a VLAN interface (instance of IVIF object class).
This parameter maps the first user-plane IP address to an IP network interface if this IP address is a virtual IP address. This means: the FTM will use the first user-plane application IP address as source IP address in user-plane traffic sent over this interface.
The format of this parameter is local managed object instance identifier (LMOID). The value references either the plain Ethernet interface (instance of IEIF object class) or a VLAN interface (instance of IVIF object class).
Restricted mode provides protection of the mobile carriers' network against intrusion through interfaces of the Base Station, in particular the LMT. By default, all traffic to other destinations will be barred. IPRM allows to configure exceptions, so that defined IP traffic will be allowed, for example communication with an LDAP server or administration of other base stations through the LMP of the local one. Administration of the Restricted Mode consists therefore in defining exceptions from the general blocking of traffic to the outside world. An RM exception is defined as a far end IP address to/from which traffic is allowed. Port information is not taken into account.It is possible to define up to 32 exceptions.
IPRM holds up to 32 far end IP addresses to/from which traffic which shall not be blocked in restricted mode.
1
1
1
1
1
1
With this parameter the user can select the way how to define source two.Possible values are: SINGLE: a single IP addressRANGE: a range of IP addresses given by an IP address and a subnet maskWILDCARD: any IP adress is allowed
Select how to define source two: SINGLE: a single IP addressRANGE: a range of IP addresses given by an IP address and a subnet maskWILDCARD: any IP adress is allowed
This parameter is meaningful if and only if source two is defined as SINGLE or as RANGE; in all other cases it is ignored."IP address source two" specifies a single IP address.If source two is defined as SINGLE, this is the only allowed IP address. If source two is defined as RANGE, then the allowed range of IP addresses is obtained by applying the "IP subnet mask for source two" to this IP address.The IP address must be given as "dotted decimal" string.
This parameter is meaningful if and only if source two is defined as SINGLE or as RANGE; in all other cases it is ignored."IP address source two" specifies a single IP address as dotted decimal string.
This parameter is meaningful if and only if source two is defined as RANGE; in all other cases it is ignored."IP Subnet Mask" specifies a netmask which, when applied to "IP address for source two" yields the allowed range of far end IP addresses. The netmask must be entered in dotted decimal format.
Only meaningful if parameter sourceTwoDiscr has value RANGE; otherwise ignored. SourceTwoNetMask specifies a netmask which, when applied to sourceTwoIPAddr yields the allowed range of far end IP addresses.To be entered in dotted decimal format.
An alphanumeric string asigned by the user to uniquely identify the RM Exception.(More exactly: only the pair userLabel/sourceOne must be unique)
An alphanumeric string asigned by the user to uniquely identify the RM Exception.(More exactly: only the pair userLabel/sourceOne must be unique)
This parameter identifies the restricted mode configuration of the BTS. Only one configuration exist. The value of iprmId is always 1.
This parameter identifies the restricted mode configuration of the BTS. Only one configuration exist. The value of iprmId is always 1.
Identifies the IP routing entity on the FTM. Instance 1 shall only be used for DCN routing, instance 2 shall be used for IP routing.
Identifies the IP routing entity on the FTM. Instance 1 shall only be used for DCN routing, instance 2 shall be used for IP routing.
Contains a list of the static routes. Contains a list of the static routes. 32
1
1
1
1
1
1
This parameter identifies the Bidirectional Forwarding Detection (BFD) session that shall protect this route. The parameter value shall match one of the object instance identifiers of the BFD managed object class.Value 0 means the route is not protected by any BFD session.
This parameter identifies the Bidirectional Forwarding Detection (BFD) session that shall protect this route. The parameter value shall match one of the object instance identifiers of the BFD managed object class.Value 0 means the route is not protected by any BFD session.
Specifies the IP address for indirectly connected (point-to-point) IP nodes (remote network). If a default gateway shall be defined, the value is to be set to 0.0.0.0.
Specifies the IP address for indirectly connected (point-to-point) IP nodes (remote network). If a default gateway shall be defined, the value is to be set to 0.0.0.0.
Specifies the IP address of the next hop via which the route destination Ip address can be reached.
Specifies the IP address of the next hop via which the route destination Ip address can be reached.
Specifies the subnet mask of the route destination IP address. If a default gateway shall be defined, the value is to be set to 0.0.0.0.
Specifies the subnet mask of the route destination IP address. If a default gateway shall be defined, the value is to be set to 0.0.0.0.
This parameter specifies a preference value for this route. The FTM shall use by preference routes with lower preference value.
This parameter specifies a preference value for this route. The FTM shall use by preference routes with lower preference value.
This flag specifies if this interface shall be used for CES over PSN. If true, the traffic over this interface will not be shaped.
Beware that still the actual interface that is used for CES over PSN packets is decided via dynamic routing based on the entries of the static routing table of managed object class IPRT.
This flag specifies if this interface shall be used for CES over PSN. If true, the traffic over this interface will not be shaped.
Beware that still the actual interface that is used for CES over PSN packets is decided via dynamic routing based on the entries of the static routing table of managed object class IPRT.
1
1
1
1
1
1
The VLAN Committed Information Rate ("VLAN CIR") shall define the average rate up to which traffic is delivered by one VLAN. It shall define the guaranteed transport capacity for the VLAN. The parameter is required for dynamic CAC.
The sum of the CIR values of all configured network interfaces of the FTM shall not exceed the total available bitrate of the Ethernet interface or the available bandwidth specified by a service level agreement.
The VLAN Committed Information Rate ("VLAN CIR") shall define the average rate up to which traffic is delivered by one VLAN. It shall define the guaranteed transport capacity for the VLAN. The parameter is required for dynamic CAC.
The sum of the CIR values of all configured network interfaces of the FTM shall not exceed the total available bitrate of the Ethernet interface or the available bandwidth specified by a service level agreement.
Desired minimum transmit interval for the control word in ms.
Desired minimum transmit interval for the control word in ms.
This parameter specifies the interval for transmitting keepalive ("Hello") messages.
This parameter specifies the interval for transmitting keepalive ("Hello") messages.
This parameter holds the IP address of the BTS in the transport network for this VLAN. It is accompanied with a subnet mask.
This parameter holds the IP address of the BTS in the transport network for this VLAN. It is accompanied with a subnet mask.
This parameter holds the network mask for the IP address of the BTS in the transport network for this VLAN.
This parameter holds the network mask for the IP address of the BTS in the transport network for this VLAN.
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
Amongst the active interfaces (IEIF or IVIF managed object instances) there shall be at least one and at most 2 interfaces carrying a multiple queue scheduler. So qosEnabled shall have value true for at least one interface and must not have value true on more than 2 interfaces.
This parameter specifies if multiple queues are used over this interface or only a single one. Multiple queues allow DSCP based traffic priorisation.
Amongst the active interfaces (IEIF or IVIF managed object instances) there shall be at least one and at most 2 interfaces carrying a multiple queue scheduler. So qosEnabled shall have value true for at least one interface and must not have value true on more than 2 interfaces.
1
1
1
1
1
The Traffic Path Shaper Burst Size (SBS) shall define the maximum burst size that is allowed to pass the traffic path shaper.
The Traffic Path Shaper Burst Size (SBS) shall define the maximum burst size that is allowed to pass the traffic path shaper.
The Shaper Information Rate ("VLAN SIR") defines the bandwidth limit to which VLAN traffic is shaped by the traffic path shaper.
Note: The SIRs should be configured to equal the sum of CIR+EIR at the corresponding UNI.The sum of all SIRs is allowed to exceed the total available bandwidth on the interface (overbooking). Therefore, SIR cannot be guaranteed by the system.
The Shaper Information Rate ("VLAN SIR") defines the bandwidth limit to which VLAN traffic is shaped by the traffic path shaper.
Note: The SIRs should be configured to equal the sum of CIR+EIR at the corresponding UNI.The sum of all SIRs is allowed to exceed the total available bandwidth on the interface (overbooking). Therefore, SIR cannot be guaranteed by the system.
This parameter holds the VLAN identifier number.
This parameter holds the VLAN identifier number.
This parameter identifies the VLAN interface object. Value is 1 to 7. In case of IubIP up to 6 VLANs may exist on the FTM. In case of Dual Iub, up to 5 VLANs may exist on the FTM.One of the interfaces is intended to be reserved for FlexiPacket Radio Management.One of the interfaces is intended to be reserved for CES over PSN.
This parameter identifies the VLAN interface object. Value is 1 to 7. In case of IubIP up to 6 VLANs may exist on the FTM. In case of Dual Iub, up to 5 VLANs may exist on the FTM.One of the interfaces is intended to be reserved for FlexiPacket Radio Management.One of the interfaces is intended to be reserved for CES over PSN.
This parameter specifies The VLAN id that is inserted internally into an untagged frame if parameter discardUntagged has value false. If the interface on which the packet is to be transmitted contains the same VLAN id in its list of configured VLAN identifiers, the packet will indeed be transmitted via this interface, else it will be discarded.
This parameter specifies The VLAN id that is inserted internally into an untagged frame if parameter discardUntagged has value false. If the interface on which the packet is to be transmitted contains the same VLAN id in its list of configured VLAN identifiers, the packet will indeed be transmitted via this interface, else it will be discarded.
1
64
1
1
1
1
If discardUntagged has value true, any untagged ingress frame is discarded.
If discardUntagged has value false, any untagged ingress frame is assigned internally the default VLAN ID, i.e. the value of parameter defaultVlanId. If the interface on which the packet is to be transmitted contains the same VLAN id in its list of configured VLAN identifiers (parameter ETHLK - l2VlanIdList), the packet will indeed be transmitted via this interface, else it will be discarded.
If discardUntagged has value true, any untagged ingress frame is discarded.
If discardUntagged has value false, any untagged ingress frame is assigned internally the default VLAN ID, i.e. the value of parameter defaultVlanId. If the interface on which the packet is to be transmitted contains the same VLAN id in its list of configured VLAN identifiers (parameter ETHLK - l2VlanIdList), the packet will indeed be transmitted via this interface, else it will be discarded.
This parameter maps DSCP values to priority queues. The table contains at most 64 entries, one for each possible DSCP value (0..63).
Default values:DSCP value 46 maps to priority queue 1 (high priority).DSCP values 26, 28, 30, 34, 36 and 38 map to priority queue 2.DSCP values 10, 12, 14, 18, 20 and 22 map to priority queue 3.All other DSCP values map to priority queue 4 (low priority, "Best Effort").
This parameter maps DSCP values to priority queues. The table contains at most 64 entries, one for each possible DSCP value (0..63).
Default values:DSCP value 46 maps to priority queue 1 (high priority).DSCP values 26, 28, 30, 34, 36 and 38 map to priority queue 2.DSCP values 10, 12, 14, 18, 20 and 22 map to priority queue 3.All other DSCP values map to priority queue 4 (low priority, "Best Effort").
This parameter specifies a DSCP value.
This parameter specifies a DSCP value.
This parameter specifies a priority queue.Priority queue values range from 1 to 4 where 4 means lowest and 1 means highest priority.
This parameter specifies a priority queue.Priority queue values range from 1 to 4 where 4 means lowest and 1 means highest priority.
This parameter specifies which priority queue shall be used for non-IP frames. Non-IP frames examples are ARP-, Ethernet OAM- and Synchronous Ethernet messages.
This parameter specifies which priority queue shall be used for non-IP frames. Non-IP frames examples are ARP-, Ethernet OAM- and Synchronous Ethernet messages.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 0.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 0.
1
1
1
1
1
1
1
1
1
1
1
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 1.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 1.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 2.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 2.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 3.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 3.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 4.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 4.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 5.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 5.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 6.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 6.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 7.
This parameter specifies which priority queue shall be used for ethernet frames with VLAN PCP bits value 7.
This parameter specifies which priority queue shall be used for untagged ethernet frames.
This parameter specifies which priority queue shall be used for untagged ethernet frames.
This parameter specifies if the QOS aware switching is based on DSCP to PHB mapping or on PCP to PHB mapping.
This parameter specifies if the QOS aware switching is based on DSCP to PHB mapping or on PCP to PHB mapping.
This parameter identifies the layer 2 switch. The value is always 1.
This parameter identifies the layer 2 switch. The value is always 1.
This parameter specifies if VLAN information shall be taken into account at the layer 2 switch. By default VLAN information is not taken into account: switching is only based on MAC destination address lookup.
This parameter specifies if VLAN information shall be taken into account at the layer 2 switch. By default VLAN information is not taken into account: switching is only based on MAC destination address lookup.
1
1
1
1
1
1
1
1
1
This parameter identifies a Maintenance Association. Up to 15 associations may exist in the BTS.
This parameter identifies a Maintenance Association. Up to 15 associations may exist in the BTS.
This parameter specifies the name of the Maintenance Association.
This parameter specifies the name of the Maintenance Association.
This parameter specifies the VLAN identifier that is associated to the Maintenance Association.The FTM uses this VLAN identifier in the Service OAM messages its sends over the Service OAM ethernet link (configured in the OAMMEP managed object).
Note: The configured VLAN identifier must match the restrictions of the VLAN identifier settings of the Layer 2 bridges of the FTM, in order to prevent that the Service OAM messages are discarded in the bridge.
This parameter specifies the VLAN identifier that is associated to the Maintenance Association.The FTM uses this VLAN identifier in the Service OAM messages its sends over the Service OAM ethernet link (configured in the OAMMEP managed object).
Note: The configured VLAN identifier must match the restrictions of the VLAN identifier settings of the Layer 2 bridges of the FTM, in order to prevent that the Service OAM messages are discarded in the bridge.
This parameter identifies a Maintenance Domain. Up to 10 domains may exist on the FTM.
This parameter identifies a Maintenance Domain. Up to 10 domains may exist on the FTM.
This parameter specifies the level of the Maintenance Domain.
This parameter specifies the level of the Maintenance Domain.
This parameter specifies the name of the Maintenance Domain.
This parameter specifies the name of the Maintenance Domain.
This parameter specifies if the transmission of AIS messages is enabled.
This parameter specifies if the transmission of AIS messages is enabled.
This parameter specifies the rate for sending AIS messages.
This parameter specifies the rate for sending AIS messages.
This parameter specifies the period for sending Continuity Check messages (CCMs). Note: it is not possible to modify the transmission period during runtime. CCM transmission shall be disabled first.
This parameter specifies the period for sending Continuity Check messages (CCMs). Note: it is not possible to modify the transmission period during runtime. CCM transmission shall be disabled first.
1
1
1
30
1
1
1
1
1
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changeing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changeing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter specifies the ethernet link that the FTM shall use for sending Service OAM messages. The parameter is a local managed object instance identifier (LMOID), i.e. a reference to an instance of object class ETHLK.
This parameter specifies the ethernet link that the FTM shall use for sending Service OAM messages. The parameter is a local managed object instance identifier (LMOID), i.e. a reference to an instance of object class ETHLK.
This parameter identifies the Maintenance association Endpoint (MEP).
This parameter identifies the Maintenance association Endpoint (MEP).
This parameter specifies the list of Maintenance Association Endpoints (MEPs) that are contained in the Maintenance Association.
This parameter specifies the list of Maintenance Association Endpoints (MEPs) that are contained in the Maintenance Association.
This parameter specifies the MAC address of the remote Maintenance Association End Point.
This parameter specifies the MAC address of the remote Maintenance Association End Point.
This parameter identifies the remote Maintenance Asociation Endpoint (MEP).
This parameter identifies the remote Maintenance Asociation Endpoint (MEP).
This parameter specifies the PCP bits value to be used for Service OAM messages for this Maintenance association Endpoint (MEP).
This parameter specifies the PCP bits value to be used for Service OAM messages for this Maintenance association Endpoint (MEP).
This parameter specifies the Link OAM operational mode at the local peer. If false the BTS shall only respond to a remotely initiated discovery process, if active the BTS shall itself initiate the process.
This parameter specifies the Link OAM operational mode at the local peer. If false the BTS shall only respond to a remotely initiated discovery process, if active the BTS shall itself initiate the process.
This parameter specifies for how long critical event flags must have been cleared before the FTM will clear the corresponding Link OAM Critical Event alarm.
This parameter specifies for how long critical event flags must have been cleared before the FTM will clear the corresponding Link OAM Critical Event alarm.
1
1
1
1
This parameter specifies the threshold value for counting the Errored Frame Event. If the number of errored frames detected within the measurement window specified by efEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efEventThreshold equals "32 bit value".
This parameter specifies the threshold value for counting the Errored Frame Event. If the number of errored frames detected within the measurement window specified by efEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efEventThreshold equals "32 bit value".
This parameter specifies the measurement interval for counting the Errored Frame Event. If the number of errored frames detected within the measurement interval exceeds the threshold number specified in parameter efEventThreshold, the FTM transmits an OAM PDU Event Notification message for that event.
This parameter specifies the measurement interval for counting the Errored Frame Event. If the number of errored frames detected within the measurement interval exceeds the threshold number specified in parameter efEventThreshold, the FTM transmits an OAM PDU Event Notification message for that event.
This parameter specifies the threshold value for counting the Errored Frame Period Event. If the number of received errored frames within the measurement window specified by efpEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efpEventThreshold equals "32 bit value".
This parameter specifies the threshold value for counting the Errored Frame Period Event. If the number of received errored frames within the measurement window specified by efpEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efpEventThreshold equals "32 bit value".
This parameter specifies the measurement interval for counting the Errored Frames. If the number of received errored frames within the measurement interval exceeds the threshold number specified in parameter efpEventThreshold, the BTS transmits an OAM PDU Event Notification message for that event.
This parameter specifies the measurement interval for counting the Errored Frames. If the number of received errored frames within the measurement interval exceeds the threshold number specified in parameter efpEventThreshold, the BTS transmits an OAM PDU Event Notification message for that event.
1
1
1
1
1
This parameter specifies the threshold value for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval specified by efssEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efssEventThreshold equals "16 bit value".
This parameter specifies the threshold value for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval specified by efssEventWindow is exceeded, the BTS transmits an OAM PDU Event Notification message for that event.
The maximum value of efssEventThreshold equals "16 bit value".
This parameter specifies the measurement interval for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval exceeds the threshold number specified in parameter efssEventThreshold, the BTS transmits an OAM PDU Event Notification message for that event.
This parameter specifies the measurement interval for counting the Errored Frame Seconds Summary Event. If the number of errored frame seconds that occurred during the specified measurement interval exceeds the threshold number specified in parameter efssEventThreshold, the BTS transmits an OAM PDU Event Notification message for that event.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter specifies how often the FTM repeats the transmission of OAM Events Notifications to its remote peer to increase the probability that they are received by the remote peer. The parameter specifies the total number of repetitive transmissions of such messages.
This parameter specifies how often the FTM repeats the transmission of OAM Events Notifications to its remote peer to increase the probability that they are received by the remote peer. The parameter specifies the total number of repetitive transmissions of such messages.
This parameter specifies if the FTM supports Link OAM events.
This parameter specifies if the FTM supports Link OAM events.
1
1
1
1
1
1
1
1
This parameter specifies the time for raising the Link OAM Link Lost Alarm. The Alarm shall be raised if no Link OAM PDUs are received for a period equal to linkLostTime. The alarm shall be cleared if Link OAM PDUs have been continuously received again for the same period of time.
This parameter specifies the time for raising the Link OAM Link Lost Alarm. The Alarm shall be raised if no Link OAM PDUs are received for a period equal to linkLostTime. The alarm shall be cleared if Link OAM PDUs have been continuously received again for the same period of time.
This parameter specifies the duration of a loopback operation initiated by the FTM.The parameter is only relevant in Link OAM active mode.
This parameter specifies the duration of a loopback operation initiated by the FTM.The parameter is only relevant in Link OAM active mode.
This parameter identifies a Link OAM profile.
This parameter identifies a Link OAM profile.
This parameter specifies the number of frames / second to be sent during loopback operation for Link OAM.Value 0 switched the test frame generator off.
This parameter specifies the number of frames / second to be sent during loopback operation for Link OAM.Value 0 switched the test frame generator off.
This parameter specifies the ethernet frame size of test messages sent during loopback operation for Link OAM.
This parameter specifies the ethernet frame size of test messages sent during loopback operation for Link OAM.
If acFieldCompressionOn is true, the Address & Control Field (ACF) is compressed (saves 2 bytes, RFC-1661 chapter 6.6).
If acFieldCompressionOn is true, the Address & Control Field (ACF) is compressed (saves 2 bytes, RFC-1661 chapter 6.6).
This parameter specificies the size of the Frame Check Sequence (FCS) field in bits (RFC 1570).
This parameter specificies the size of the Frame Check Sequence (FCS) field in bits (RFC 1570).
A magic number provides a way to detect looped-back links and other data link layer anomalies by sending a number that is otherwise unlikely to happen (RFC-1661chapter 6.4). The attribute decides if the option is used.
A magic number provides a way to detect looped-back links and other data link layer anomalies by sending a number that is otherwise unlikely to happen (RFC-1661chapter 6.4). The attribute decides if the option is used.
1
1
1
1
1
1
This parameter specifies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specifies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter identifies the PPP link.The format is slot#-if#where slot# is always 1 (slot number) andif# = 1..16 (interface number).
This parameter identifies the PPP link.The format is slot#-if#where slot# is always 1 (slot number) andif# = 1..16 (interface number).
The Protocol Field (PCF) in LCP packets by default has 2 octets. If the PCF option is used, it is compressed to 1 octet (RFC-1661 chapter 6.5). If protocolFieldCompressionOn equals true, the option is used.
The Protocol Field (PCF) in LCP packets by default has 2 octets. If the PCF option is used, it is compressed to 1 octet (RFC-1661 chapter 6.5). If protocolFieldCompressionOn equals true, the option is used.
This parameter specificies how packets are numbered. The Long Sequence Number Format uses 24 bits for the fragment sequence number, the short sequence format 12 bits (RFC 1990). If shortSeqNrOn equals true, the short sequence number is used.
This parameter specificies how packets are numbered. The Long Sequence Number Format uses 24 bits for the fragment sequence number, the short sequence format 12 bits (RFC 1990). If shortSeqNrOn equals true, the short sequence number is used.
This parameter is used to lock and unlock the PPP multi-link. Locking the PPP multi-link deactivates it.
This parameter is used to lock and unlock the PPP multi-link. Locking the PPP multi-link deactivates it.
Connection Admission Control committed bit rate. CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
Connection Admission Control committed bit rate. CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
1
16
1
1
1
1
1
1
The Endpoint Discriminator Option is a way to dynamically link to an existing multilink bundle of the peer or to create a new multilink bundle in the peer (RFC 1990 chapter 5.5.3). The attribute decides if the option is used.
The Endpoint Discriminator Option is a way to dynamically link to an existing multilink bundle of the peer or to create a new multilink bundle in the peer (RFC 1990 chapter 5.5.3). The attribute decides if the option is used.
This parameter holds the list of the physical interfaces used for MLPPP. The maximum number of interfaces in one MLPPP interface depends on the unit type:FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4FTEB, FTPB, FTFA: 8FTFA, FTHA, FTFB: 16Interfaces have to be selected consecutively starting with 1.
This parameter holds the list of the physical interfaces used for MLPPP. The maximum number of interfaces in one MLPPP interface depends on the unit type:FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4FTEB, FTPB, FTFA: 8FTFA, FTHA, FTFB: 16Interfaces have to be selected consecutively starting with 1.
This parameter specificies the PPP MultiLink Protocol fragment size in egress direction in octets.
This parameter specificies the PPP MultiLink Protocol fragment size in egress direction in octets.
This parameter specifies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
This parameter specifies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
Netmask for the primary IP address of the PPP endpoint. To be entered in dotted decimal format.
Netmask for the primary IP address of the PPP endpoint. To be entered in dotted decimal format.
This parameter identifies the unique PPP multi-link object in the BTS. Value is always 1.
This parameter identifies the unique PPP multi-link object in the BTS. Value is always 1.
IP address of the PPP endpoint in the transport network. To be entered in dotted decimal format.
IP address of the PPP endpoint in the transport network. To be entered in dotted decimal format.
This parameter specifies if timeslot TS16 is used. By default all timeslots from TS1 to TS31 are used. If parameter TS16Excluded has value true, timeslots TS1..TS15 and TS17..TS31 are used.
This parameter specifies if timeslot TS16 is used. By default all timeslots from TS1 to TS31 are used. If parameter TS16Excluded has value true, timeslots TS1..TS15 and TS17..TS31 are used.
1
1
1
1
1
1
1
1
This parameter is used to lock and unlock the PPP link. Locking the PPP link deactivates it.
This parameter is used to lock and unlock the PPP link. Locking the PPP link deactivates it.
Connection Admission Control committed bit rate. CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
Connection Admission Control Committed Bit Rate. CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
This parameter holds the physical interface id used by the PPP link over PDH. This id is restricted by the number of interfaces present in the transport module. Only IF 1 is supported for current release.
This parameter holds the physical interface id used by the PPP link over PDH. This id is restricted by the number of interfaces present in the transport module. Only IF 1 is supported for current release.
Netmask for the primary IP address of the PPP endpoint. To be entered in dotted decimal format.
Netmask for the primary IP address of the PPP endpoint. To be entered in dotted decimal format.
IP address of the PPP endpoint in the transport network. To be entered in dotted decimal format.
IP address of the PPP endpoint in the transport network. To be entered in dotted decimal format.
This is the object instance identifier of the PPP single link object. The value is always 1.
This is the object instance identifier of the PPP single link object. The value is always 1.
This parameter specifies if timeslot TS16 is used. By default all timeslots from TS1 to TS31 are used. If parameter TS16Excluded has value true, timeslots TS1..TS15 and TS17..TS31 are used.
This parameter specifies if timeslot TS16 is used. By default all timeslots from TS1 to TS31 are used. If parameter TS16Excluded has value true, timeslots TS1..TS15 and TS17..TS31 are used.
Used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed.
Used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed.
1
1
1
1
1
Defines the interface location on the unit.The number of interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTHA, FTFA: 1..16
Defines the interface location on the unit. The value depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTHA, FTFA: 1..16
Specifies the attenuation for the signal from the transmitter.
All attenuation values are specified in dB at 772 kHz. This parameter is only supported on T1 interfaces.
Specifies the attenuation for the signal from the transmitter. All attenuation values are specified in dB at 772 kHz. This parameter is only supported on T1 interfaces.
Specifies the frame format of the PDH signal for a physical PDH interface of a unit.
E1 (G.704): - DOUBLEFRAME- MULTIFRAME- DOUBLEFRAME UNBALANCED- MULTIFRAME UNBALANCED
T1: EXTENDED_SUPERFRAME
JT1: EXTENDED_MULTIFRAME
NOTEs: 1) This parameter is "not modifiable" for FTIB and FTLB hardware unit.2) For FTIB and FTLB hardware unit UNBALANCED mode is not supported at all.
Specifies the frame format of the PDH signal for the physical PDH interface.
E1 (G.704): - DOUBLEFRAME- MULTIFRAME- DOUBLEFRAME UNBALANCED- MULTIFRAME UNBALANCED
T1: EXTENDED_SUPERFRAME
JT1: EXTENDED_MULTIFRAME
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTHA, FTFA: 1..16
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTHA, FTFA: 1..16
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
1
1
Uplink Concatenation Factor. Uplink Concatenation Factor. 1
100
Downlink MPLS Header (inner label) Downlink MPLS Header (inner label) 1
Uplink MPLS Header (inner label) Uplink MPLS Header (inner label) 1
1
1
This parameter is used to switch on or off the actual BFD session. Note that this parameter is only relevant if parameter bfdEnable has value true.
This parameter is used to switch on or off the actual BFD session. Note that this parameter is only relevant if parameter bfdEnable has value true.
This parameter switches the BFD session on or off for each PW. BFD comprises VCCV-BFD (== PW OAM)and VCCV = Virtual Channel Continuity Verification.
This parameter switches the BFD session on or off for each PW. BFD comprises VCCV-BFD (== PW OAM)and VCCV = Virtual Channel Continuity Verification.
Set of registered vcCTPs. Represented as Local MOId strings of VCCT without the prefix "DN:" Example: "VPTT-1-76-2/VCCT-32"
Set of registered vcCTPs. Represented as Local MOId strings of VCCT without the prefix "DN:" Example: "VPTT-1-76-2/VCCT-32"
Per hop behaviour (DiffServ). This parameter is used to determine the DSCP value(Diff Serv Code Point) that must be stored in the first 6 bits of the 'Type of Service' (ToS) field that is part of the standard IP header. The DSCP for the given perHopBehaviour is configured in the trafficTypesMap of the QOS object.
Per hop behaviour. This is used to determine the DSCP value that must be stored in the first 6 bits of the 'Type of Service' field of the standard IP header. The DSCP for the given perHopBehaviour is configured in the trafficTypesMap of the QOS object.
This parameter shall define for each PW the maximum time allowed to create a PW frame. Value range is [500, 5000] µs, possible values are 500, 1000, 2000, 3000, 4000 and 5000 µs. Please note that small deviations between actual and nominal values exist in the implementation. These must be taken into account by the planning tools.
This parameter shall define for each PW the maximum time allowed to create a PW frame. Deviations of the actual value from the configured value are possible, see documentation.
1
1
1
1
1
1
1
1
6
1
1
Identifies the MPLS Pseudowire. Format: slot#-mp# where
slot# = 1mp# = 1..6
Identifies the MPLS Pseudowire. Format: slot#-mp# where
slot# = 1 mp# = 1..6
Timing details for VCCV-BFD. (i.e. PW OAM)
Only one value set must be defined
Timing details for VCCV-BFD. (i.e. PW OAM)
Only one value set must be defined
This parameter holds the number of control packets that the BTS may lose before the BFD session is declared down.
This parameter holds the number of control packets that the BTS may lose before the BFD session is declared down.
Desired minimum transmit interval for the control word in ms.
Desired minimum transmit interval for the control word in ms.
Required minimum receive interval for the control word in ms.
Required minimum receive interval for the control word in ms.
Enables the setting of the Control Word bits in the data packet.
Enables the setting of the Control Word bits in the data packet.
There is alway only one instance of this class. It is identified with 1
There is alway only one instance of this class. It is identified with 1
Used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed.
Used to lock and unlock the interface.
Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed.
A list of all Pseudowires running through this tunnel.
Format: slot#-mp#, e.g. "1-5" withslot#: always "1" in this releasemp#: 1..6
A list of all Pseudowires running through this tunnel.
Format: slot#-mp#, e.g. "1-5" withslot#: always "1" in this releasemp#: 1..6
Identifier for the Pseudowire Tunnel.The value is fixed to 1-76.
Identifier for the Pseudowire Tunnel.The value is fixed to 1-76
This parameter shall define the IPv4 address of the remote PWE3 GW (RNC GW) where the PW is terminated. The address will range from 0.0.0.0 (7 characters) to 255.255.255.255 (15 characters)
This parameter shall define the IPv4 address of the remote PWE3 GW (RNC GW) where the PW is terminated. The address will range from 0.0.0.0 (7 characters) to 255.255.255.255 (15 characters)
1
1
1
1
1
1
1
34
1
This is a set of 5 weight values for the traffic queues associated to the Per Hop Behaviours:- Assured Forwarding 4 (AF4)- Assured Forwarding 3 (AF3)- Assured Forwarding 2 (AF2)- Assured Forwarding 1 (AF1)- Best Effort (BE.Weight value range is between 1 and 10.000.
This is a set of 5 weight values for the traffic queues associated to the Per Hop Behaviours:- AF4- AF3- AF2- AF1- BE.Weight value range is between 1 and 10.000.
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 1 (AF1).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 1 (AF1).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 2 (AF2).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 2 (AF2).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 3 (AF3).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 3 (AF3).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 4 (AF4).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Assured Forwarding Class 4 (AF4).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Best Effort (BE).
This is the weight value of the traffic queue associated to the Per Hop Behaviour Best Effort (BE).
This parameter identifies the unique instance of the QOS class of the BTS. Value always 1.
This parameter identifies the unique instance of the QOS class of the BTS. Value always 1.
This table maps traffic types to Per Hop Behaviours and to other quality of service properties, including VlanId, VlanPrio and DSCP values.
This table maps traffic types to Per Hop Behaviours and to other quality of service properties, including VlanId, VlanPrio and DSCP values.
This is the list of Differentiated Services Code Point (DSCP) values that relate to a specific traffic category. The list is a comma-seperated value list. The values are DSCP decimal values. The list can contain up to 64 entries.
This is the list of Differentiated Services Code Point (DSCP) values that relate to a specific traffic category. The list is a comma-seperated value list. The values are DSCP decimal values. The list can contain up to 64 entries.
1
1
1
This parameter designates a Per Hop Behaviour.The following values are predefined:0 = EF (meaning: Expedited Forwarding)1 = AF4 (Assured Forwarding 4)2 = AF3 (Assured Forwarding 3)3 = AF2 (Assured Forwarding 2)4 = AF1 (Assured Forwarding 1)5 = BE (Best Effort).
This parameter designates a Per Hop Behaviour. Values:0 = EF (Expedited Forwarding)1 = AF4 (Assured Forwarding 4)2 = AF3 (Assured Forwarding 3)3 = AF2 (Assured Forwarding 2)4 = AF1 (Assured Forwarding 1)5 = BE (Best Effort).
type.Values for transport mode AtmOverEthernet: "TOP" "SG1" - Pseudowire (PW) for perHopBehaviour (pHB) EF"SG2" - PW for pHB AF4"SG3" - PW for pHB AF3"SG4" - PW for pHB AF2"SG5" - PW for pHB AF1"SG6" - PW for pHB BE"ICMP"
Values for transport mode Iub IP:"DCN""NBAP""TOP""SG1" - Signalled traffic for pHB EF"SG2" - Signalled traffic for pHB AF4"SG3" - Signalled traffic for pHB AF3"SG4" - Signalled traffic for pHB AF2"SG5" - Signalled traffic for pHB AF1"SG6" - Signalled traffic for pHB BE"ICMP""CES1" to "CES8" - For mapping DSCP values to vlanPrio bits"BFD1" to "BFD16"
Values for transport mode Dual Iub:"TOP""SG1" - Signalled traffic for pHB EF"SG2" - Signalled traffic for pHB AF4
This parameter designates a traffic type.Values for transport mode AtmOverEthernet: "TOP" "SG1" EF"SG2" AF4"SG3" AF3"SG4" AF2"SG5" AF1"SG6" BE"ICMP"
Values for transport mode Iub IP:"DCN""NBAP""TOP""SG1" EF"SG2" AF4"SG3" AF3"SG4" AF2"SG5" AF1"SG6" BE"ICMP""CES1" to "CES8" - Mapping DSCP to vlanPrio"BFD1" to "BFD16"
Values for transport mode Dual Iub:"TOP""SG1" EF"SG2" AF4"SG3" AF3"SG4" AF2"SG5" AF1"SG6" BE"ICMP"
This is the vlan priority to be used on all connections for a given Per Hop Behaviour.
This is the vlan priority to be used on all connections for a given Per Hop Behaviour.
1
1
1
1
1
1
1
1
2
Used to lock and unlock the interface.
Unlocking the interface triggers the creation of a TCTT (ATM interface).
Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed. Note that the associated TCTT (ATM interface) is not deleted.
This parameter is used for locking and unlocking the interface.
Defines the interface location on the unit.Since the FTOA unit provides just one SDH interface, the number is fixed to 1.
Defines the interface location on the unit.Since the FTOA unit provides just one SDH interface, the number is fixed to 1.
Switches the laser on or off separately for each SDH interface. Automatic switching is not provided.
Switches the laser on or off separately for each SDH interface. Automatic switching is not provided.
Enables or disables RDI on EBER that is set in SDH/SONET frame if the Bit Error Ratio of the connection is exceeded.
Enables or disables RDI on EBER that is set in SDH/SONET frame if the Bit Error Ratio of the connection is exceeded.
This MO class has only one instance in this release. The identifier is "1-1"(unit#-if#)
This MO class has only one instance in this release. The identifier is "1-1"(unit#-if#)
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
Specifies a signal label forwarded to the remote site on the High Order Path. The Trace Identifier is located in the J1 byte of the RSOH in the STM/SONET frame.
Specifies a signal label forwarded to the remote site. The Trace Identifier is located in the J1 byte of the RSOH in the STM/SONET frame.
Specifies a signal label forwarded to the remote site. The Trace Identifier is located in the J0 byte of the RSOH in the STM-1 frame. It is not supported on SONET interfaces.
As a default, no value is defined. In this case the Trace Identifier is not checked in the FTM.
Specifies a signal label forwarded to the remote site. The Trace Identifier is located in the J0 byte of the RSOH in the STM-1 frame. It is not supported on SONET interfaces.
This is the list of synchronization sources of the BTS. Up to 2 clock sources can be configured.
This is the list of synchronization sources of the BTS. Up to 2 clock sources can be configured.
1
1
1
1
1
This parameter holds the protocol of this clock source: PDH, SDH, synchronuous Ethernet, Time over Packet or the external 2 MHz clock.
This parameter holds the protocol of this clock source: PDH, SDH, synchronuous Ethernet, Time over Packet or the external 2 MHz clock.
This parameter specifies - either the physical location of the PDH interface location on the unit (value range 1..16) for a PDH clock source- or the physical location of the SDH interface location on the unit (value is always 1) for a SDH clock source- or the physical location of the ethernet interface of the unit (value range 1..3) for the synchronous ethernet clock source.
In case of Time Over Packet the BTS automatically selects the ethernet link. The parameter is ignored.
The parameter is ignored also, if the external clock is used.
This parameter specifies- the physical location of the PDH interface on the unit for a PDH clock source (value 1..16)- or the physical location of the SDH interface on the unit for a SDH clock source (always 1)- or the physical location of the ethernet interface of the unit (value 1..3) for the synchronous ethernet clock source.
In case of Time Over Packet the BTS automatically selects the ethernet link. The parameter is ignored.
The parameter is ignored also, if the external clock is used.
This parameter holds the priority in which the clock sources of the BTS are to be taken into use. Value 1 ist highest priority: this clock source will be taken first.
This parameter holds the priority in which the clock sources of the BTS are to be taken into use. Value 1 ist highest priority: this clock source will be taken first.
This parameter enables SSM support (Synchronization Status Message) for Synchronuous Ethernet.
This parameter enables SSM support (Synchronization Status Message) for Synchronuous Ethernet.
This is the maximum duration in seconds for which the actual SSM value may be less than a required clock quality. If the duration is surpassed, an alarm will be raised.If SSM support is according to network standard ITU / ETSI, an alarm will be raised if the observed SSM value falls below ssmPRC quality for ssmTimeout seconds.If SSM support is according to network standard ANSI / SONET, an alarm will be raised if the observed SSM value falls below ssmPRS quality for ssmTimeout seconds.
This is the maximum duration in seconds for which the actual SSM value may be less than a required clock quality. If the duration is surpassed, an alarm will be raised.If SSM support is according to network standard ITU / ETSI, an alarm will be raised if the observed SSM value falls below ssmPRC quality for ssmTimeout seconds.If SSM support is according to network standard ANSI / SONET, an alarm will be raised if the observed SSM value falls below ssmPRS quality for ssmTimeout seconds.
1
1
1
1
1
1
Specifies the location of the unit on which the clock source is running. In this release it is always 1.
Specifies the location of the unit on which the clock source is running. In this release it is always 1.
Identifies the Synchronisation Protection Group. The value is always 1.
Identifies the Synchronisation Protection Group. The value is always 1.
Identifies the SYNC instance. Always one because there is only one instance.
Identifies the SYNC instance. Always one because there is only one instance.
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
Naming attribute
The object is identified by- Interface Type (PPTT, IMAG, PWTIP, SVTT) - UnitNumber (always "1")- InterfaceNumber (if#, must be equal to the attribute interfaceNumber)
Format:- PPTT-1-if#- IMAG-1-if#- PWTIP-1-76- SVTT-1-1
Naming attribute
The object is identified by- Interface Type (PPTT, IMAG, PWTIP, SVTT) - UnitNumber (always "1")- InterfaceNumber (if#, must be equal to the attribute interfaceNumber)
Format:-PPTT-1-if#-IMAG-1-if#-PWTIP-1-76-SVTT-1-1
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
1
1
1
1
1
1
Connection Admission Control Committed Bit Rate. CAC committed bit rate is a total bit rate, which is available for guaranteed traffic at the Iub. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control. Used in Dual Iub and Iub/IP transport modes.The maximum value depends on the network interface type. For Fast Ethernet interfaces it is 100 kbps below 100 Mbps, for Gigabit interfaces it is 100 kbps below 1 Gbps.
Connection Admission Control Committed Bit Rate. CAC committed bit rate is a total bit rate, which is available for guaranteed traffic at the Iub. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control. Used in Dual Iub and Iub/IP transport modes.The maximum value depends on the network interface type.
DCN Committed Bit Rate. Used in transport mode Iub/IP.
DCN Committed Bit Rate. Used in transport mode Iub/IP.
This is the IP address to be used in addressing the external NAT device.
This is the IP address to be used in addressing the external NAT device.
This is the IP address to be used in the transport network at the far end of the SCTP tunnel. The address is the SCTP tunnel subnet address, i.e all its host bits must be set to 0´s. It must be entered in dotted decimal format.
The parameter is used in Iub/IP transport mode.
The associated subnet mask is defined in parameter farEndSctpSubnetMask.
This is the IP address in the transport network at the far end of the SCTP tunnel. The address is the SCTP subnet address, i.e all its host bits must be set to 0´s. To be entered in dotted decimal format.The parameter is used in Iub/IP transport mode.
This is the subnet mask for the far end SCTP tunnel subnet IP address (parameter farEndSctpSubnetIpAddress). To be entered in dotted decimal format.
This is the subnet mask for the far end SCTP tunnel subnet IP address (parameter farEndSctpSubnetIpAddress). To be entered in dotted decimal format.
This is is the minimum value of the port number to be used for SCTP. Used in transport mode Iub/IP.
This is is the minimum value of the port number to be used for SCTP. Used in transport mode Iub/IP.
1
1
1
1
1
1
1
1
This is is the minimum value of the port number to be used for UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub an IubIP (65535 - 2488 = 63047).
This is is the minimum value of the port number to be used for UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub an IubIP (65535 - 2488 = 63047).
Signalling Committed Bit Rate. Used in transport mode Iub/IP.
Signalling Committed Bit Rate. Used in transport mode Iub/IP.
This parameter identifies the unique object instance of the TMPAR clas. Value is always 1.
This parameter identifies the unique object instance of the TMPAR clas. Value is always 1.
Used to lock and unlock the TOP object instance.Locking the object deactivates it and supresses all its alarms.
Used to lock and unlock the TOP object instance.Locking the object deactivates it and supresses all its alarms.
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period. (The transmission duration request period is currently fixed to 300 seconds.)The following values are defined:-3: 8 per second-4: 16 per second-5: 32 per second
This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration request period (of 300 seconds).
IP address of the ToP master. To be entered in dotted format.
IP address of the ToP master. To be entered in dotted format.
This parameter uniquely defines the instance of the ToP class. Always 1.
This parameter uniquely defines the instance of the ToP class. Always 1.
This parameter identifies the traffic descriptor.The value of the parameter shall represent a number starting with 100. Note that at most 32 traffic descriptors can exist in the AXC.
This parameter identifies the traffic descriptor.The value of the parameter shall represent a number starting with 100. Note that at most 32 traffic descriptors can exist in the AXC.
1
1
1
1
1
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1 and for UBR UBR.1.
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1 and for UBR UBR.1.
Minimum Desired Cell Rate (MDCR). Is the targeted minimum throughput of a UBR connection in cells per second. The parameter can be set optionally for UBR connections. The same value applies both for ingress and egress traffic.Note: The value of the MDCR cannot exceed the PCR.
Minimum Desired Cell Rate (MDCR). Targeted minimum throughput of a UBR connection in cells/sec. MDCR can be set optionally for UBR connections. The same value applies for ingress and egress traffic.Note: The value of the MDCR cannot exceed the PCR.
Specifies the peak cell rate (PCR) assigned or reserved in both egress and ingress directions of transmission across the VP or VC link that is terminated.The rate is given in cells per seconds. It cannot be greater than the line rate of the source.The exact allowed value range depends on the type of interface (E1, T1, SDH, IMA, ATMOverEthernet)
Specifies the peak cell rate (PCR) assigned or reserved in both egress and ingress directions of transmission across the VP or VC link that is terminated.The exact allowed value range depends on the type of interface (E1, T1, SDH, IMA, ATMOverEthernet)
UBRshare allows to weight the traffic exceeding the Minim Desired Cell Rate among UBR connections that share the same ATM interface. An individual UBR connection may get at least the ingress MDCR and up to ingress MDCR + ingressUBRshare_i / Sum(ingress UBRshare_i) * ingress EBW. Where ingres EBW is the currently available ingress bandwidth for the traffic of all the UBR connections sharing the same ATM interface.The value of UBR Share applies to both ingress and egress traffic.
UBRshare weights the traffic exceeding the Minim Desired Cell Rate among the UBR connections. The value of UBR Share applies to both ingress and egress traffic.
A string used as label to describe the ATM traffic descriptor.
A string used as label to describe the ATM traffic descriptor.
1
1
1
1
1
This parameter locks or unlocks the TWAMP session. Locking a session stops it. Unlocking a session starts or re-starts it.Starting or re-starting a session clears all statistics and alarms for the session. Stopping a session clears TWAMP alarms but not TWAMP statistics.
This parameter locks or unlocks the TWAMP session. Locking a session stops it. Unlocking a session starts or re-starts it.Starting or re-starting a session clears all statistics and alarms for the session. Stopping a session clears TWAMP alarms but not TWAMP statistics.
This parameter specifies the destination IP address of the TWAMP session. The TWAMP session must be locked, before its destination IP address can be changed.
This parameter specifies the destination IP address of the TWAMP session. The TWAMP session must be locked, before its destination IP address can be changed.
This parameter specifies the destination port for TWAMP initiator messages. Changeing the destination port of the TWAMP session requires locking the session.
This parameter specifies the destination port for TWAMP initiator messages. Changeing the destination port of the TWAMP session requires locking the session.
This parameter specifies the DSCP value to be used for transmission of TWAMP messages over the session. The corresponding mapping to a Per Hop Behaviour priority queue is contained in table trafficTypesMap of the QOS managed object class.
This parameter specifies the DSCP value to be used for transmission of TWAMP messages over the session. The corresponding mapping to a Per Hop Behaviour priority queue is contained in table trafficTypesMap of the QOS managed object class.
This parameter specifies the size of the TWAMP messages sent by the TWAMP initiator on this session. The value of the parameter shall not exceed the Maximum Transfer Unit value of the FTM.
This parameter specifies the size of the TWAMP messages sent by the TWAMP initiator on this session. The value of the parameter shall not exceed the Maximum Transfer Unit value of the FTM.
1
1
1
1
1
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive packet loss ratio (PRL).The alarm is raised, if the packet loss ratio observed over a 15 minute evalutation period exceeds the threshold value. The alarm will be cleared if the packet loss ratio drops below the threshold value for 2 consecutive 15-minute observation periods.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive packet loss ratio (PRL).The alarm is raised, if the packet loss ratio observed over a 15 minute evalutation period exceeds the threshold value. The alarm will be cleared if the packet loss ratio drops below the threshold value for 2 consecutive 15-minute observation periods.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive round-trip-time (RTT).The alarm is raised if the average round-trip-time of the TWAMP messages, calculated during a 1-minute evaluation period, exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-minute periods the average value of the RTT remains below the threshold.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive round-trip-time (RTT).The alarm is raised if the average round-trip-time of the TWAMP messages, calculated during a 1-minute evaluation period, exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-minute periods the average value of the RTT remains below the threshold.
This parameter specifies the source IP address of TWAMP initiator messages. The TWAMP session must be locked, before its source IP address can be changed.
This parameter specifies the source IP address of TWAMP initiator messages. The TWAMP session must be locked, before its source IP address can be changed.
This parameter identifies a TWAMP session.
This parameter identifies a TWAMP session.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:System Module Release 2FIIB: 472271AFILB: 472294AFSIB: 472272AFTEB: 470156AFTFA: 470134AFTFB: 472036AFTHA: 471522AFTIA: 471025AFTIB: 471720AFTJA: 471248AFTLA: 471730AFTLB: 471984AFTOA: 470133AFTPB: 470137A
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:System Module Release 2FIIB: 472271AFILB: 472294AFSIB: 472272AFTEB: 470156AFTFA: 470134AFTFB: 472036AFTHA: 471522AFTIA: 471025AFTIB: 471720AFTJA: 471248AFTLA: 471730AFTLB: 471984AFTOA: 470133AFTPB: 470137A
This parameter specifies the type of the hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:System Module Release 2FIIB: 472271AFILB: 472294AFSIB: 472272AFTEB: 470156AFTFA: 470134AFTFB: 472036AFTHA: 471522AFTIA: 471025AFTIB: 471720AFTJA: 471248AFTLA: 471730AFTLB: 471984AFTOA: 470133AFTPB: 470137A
This parameter specifies the type of the hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:System Module Release 2FIIB: 472271AFILB: 472294AFSIB: 472272AFTEB: 470156AFTFA: 470134AFTFB: 472036AFTHA: 471522AFTIA: 471025AFTIB: 471720AFTJA: 471248AFTLA: 471730AFTLB: 471984AFTOA: 470133AFTPB: 470137A
1
1
1
1
Virtual Channel Identifier. Virtual Channel Identifier. 1
Virtual Path Identifier. Virtual Path Identifier 1
1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
This parameter points to the instance of the ATM traffic descriptor (TRDE) that contains the peak cell rate (PCR) settings for this virtual channel.The value of the parameter is a number above 100. This references the identifier of the TRDE managed object instance, e.g. TRDE-104.The traffic descriptor managed object instance must have been created before it can be referenced by this parameter.
This parameter points to the instance of the ATM traffic descriptor (TRDE) that contains the peak cell rate (PCR) settings for this virtual channel.The value of the parameter is a number above 100. This references the identifier of the TRDE managed object instance, e.g. TRDE-104.The traffic descriptor managed object instance must have been created before it can be referenced by this parameter.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
Naming attribute (relative to Virtual Path).
The value is the same as the attribute VCI
Naming attribute (relative to Virtual Path).
The value is the same as the attribute VCI
Specifies for which AAL type the virtual channel (VCCT) is terminated.
Supported types are AAL2-1 (AAL2 user traffic) and AAL5-1 (IP over ATM connections, AAL2 signalling).
Specifies for which AAL type the virtual channel (VCCT) is terminated. Supported types are AAL2 and AAL5.
1
1
1
Virtual Path Identifier. Virtual Path Identifier 1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
Naming attribute
The object is identified by - unitNumber(unit#)- interfaceNumber (if#, imag# or pw#)- virtual path identifier (vpi#)- virtual channel identifier (vci#)
Possible formats (examples in parentheses):- unit#-if#-vpi#vci# (2-8-000C0)- slot#-imag#-vpi#vci# (2-34-00210)
Value ranges:- unit#: 1- if#: 1..16 (1 or 2 digits)- imag#: 33..75 (2 digits)- pw#: 76- vpi#: 00..FF (hexadecimal number, 2 digits) - vci#: 000..FFF (hexadecimal number, 3 digits)
Naming attributecomposed of the parameters- unitNumber (always 1)- interfaceNumber (decimal 1..76)- vpi (hexa 00..FF)- vci (hexa 000..FFF)e.g. 1-2-0203B
1
1
1
1
Virtual Path Identifier. Virtual Path Identifier 1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
This parameter points to the instance of the ATM traffic descriptor (TRDE) that contains the peak cell rate (PCR) settings for this virtual path.The value of the parameter is a number above 100. This references the identifier of the TRDE managed object instance, e.g. TRDE-104.The traffic descriptor managed object instance must have been created before it can be referenced by this parameter.
This parameter points to the instance of the ATM traffic descriptor (TRDE) that contains the peak cell rate (PCR) settings for this virtual path.The value of the parameter is a number above 100. This references the identifier of the TRDE managed object instance, e.g. TRDE-104.The traffic descriptor managed object instance must have been created before it can be referenced by this parameter.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
Specifies a virtual path on an ATM interface (TCTT) and serves as naming attribute for this object.
The value range is defined in the access profile of the ATM interface with the attribute maxNumVPIBitsSupported.
Specifies a virtual path on an ATM interface (TCTT) and serves as naming attribute for this object.
1
1
1
Defines the location of the physical interface on the unit.The value range depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.For ATM over Ethernet, the value is always: 76.
Specifies the location of the unit. In this release it is always 1.
Specifies the location of the unit. In this release it is always 1.
Specifies the termination of the virtual path.
The object is identified by - unitNumber(unit#)- interfaceNumber (if#, imag#)- virtual path identifier (vpi#)- pw tunnel id (pwt#)
Possible formats:- unit#-if#-vpi#- unit#-imag#-vpi#- unit#-pwt#-vpi#Value ranges:unit#: 1if#: 1..16 imag#: 33..75 vpi#: 0..255pwt#: 76
Naming attribute
unit#-if#-vpi#
with their values equal to the corresponding attributes.
Related Functions Related Parameters Description of Parameter Relationships
VCI of A2ST - null VPI of A2ST - null interfaceNumber of A2ST - null unitNumber of A2ST - null
The A2ST id is composed of the values of these other attributes
VCI of A2UT - null VPI of A2UT - null interfaceNumber of A2UT - null unitNumber of A2UT - null
The A2UT id is composed of the values of these other attributes
VCI of ANBA - The value of parameter VCI is contained in the value of parameter nbapTTPId. VPI of ANBA - The value of parameter VPI is contained in the value of parameter nbapTTPId. interfaceNumber of ANBA - The value of parameter interfaceNumber is contained in the value of parameter nbapTTPId. unitNumber of ANBA - The value of parameter unitNumber is contained in the value of parameter nbapTTPId.
bfdActivation of BFD - Parameter bfdAdminUp is only relevant if parameter bfdActivation has value true.
bfdType of BFD - - For Multi Hop BFD, the value range is 4784, 49152...65535 and the default value = 4784. - For Single Hop BFD the value range is 3784, 49152...65535 and the default value = 3784.
payloadTimeslots of CESPW - The number of frames per packet multiplied by the number of PDH timeslots (parameter payloadTimeslots) shall be between 40 and 1536. Otherwise the resulting CESoPSN packet size is violating the allowed ethernet packet size and the CES connection cannot be established.
framesNumber of CESPW - The number of timeslots multiplied by the number of frames per packet (parameter framesNumber) shall be between 40 and 1536. Otherwise the resulting CESoPSN packet size is violating the allowed ethernet packet size and the CES connection cannot be established.
linkOAMProfile of ETHLK - The value of linkOAMEnabled shall only be set to true, if the value of linkOAMProfile is not the empty string but references an existing instance of object class OAMPRF.
pdhLineType of PPTT - JT1: EXTENDED_MULTIFRAME
The "timeSlotSequence" must be set only if pdhLineType is set to EXTENDED_MULTIFRAME.
The ftmIpAddr must be configured first.
VCI of IAIF - The value of parameter VCI is contained in the value of parameter atmIfNetId. VPI of IAIF - The value of parameter VPI is contained in the value of parameter atmIfNetId. interfaceNumber of IAIF - The value of parameter interfaceNumber is contained in the value of parameter atmIfNetId. unitNumber of IAIF - The value of parameter unitNumber is contained in the value of parameter atmIfNetId.
ftmIpAddr of IPNO - null
transportMode of IPNO - The parameter cir is only relevant in transport modes Dual Iub and IubIP. localIpAddr of IEIF - The parameter cir is only relevant in case the interface is in use, i.e. in case the localIpAddr is different from 0.0.0.0.
localIpAddr of IEIF - Parameter qosEnabled is only relevant in case the interface is in use, i.e. in case the localIpAddr is different from 0.0.0.0.
localIpAddr of IEIF - Parameter sbs is only relevant in case the interface is in use, i.e. in case the localIpAddr is different from 0.0.0.0. trafficPathShapingEnable of IEIF - Parameter sbs is only relevant in case parameter trafficPathShapingEnable has value TPS_PATH.
trafficPathShapingEnable of IEIF - Parameter sbsTotal is only relevant in case parameter trafficPathShapingEnable has value TPS_WFQ.
upperLayerShaping of IEIF - null
localIpAddr of IEIF - Parameter sir is only relevant in case the interface is in use, i.e. in case the localIpAddr is different from 0.0.0.0. trafficPathShapingEnable of IEIF - Parameter sir is only relevant in case parameter trafficPathShapingEnable has value TPS_PATH.
bfdActivation of IEIF - Parameter sirTotal is only relevant in case parameter trafficPathShapingEnable has value TPS_WFQ.
vlanEnabled of IEIF - null
Parameter Vlan ID is only relevant if parameter Vlan Enabled flag has value true.
The value must be smaller than or equal to the number of links in the IMA group.
transportMode of IPNO - Parameter cPlaneIpAddress is irrelevant in case parameter transportMode has value AtmOverEthernet and in case parameter transportMode has value DualIub.
transportMode of IPNO - Parameter cesopsnIpAddress is irrelevant in case parameter transportMode has value AtmOverEthernet and in case parameter transportMode has value DualIub.
transportMode of IPNO - Parameter sPlaneIpAddress is irrelevant in case parameter transportMode has value AtmOverEthernet.
transportMode of IPNO - Parameter uPlane2IpAddress is irrelevant in case parameter transportMode has value AtmOverEthernet. uPlane2IpInterface of IPNO - In case uPlane2IpAddress is a virtual IP address, the operator must configure parameter uPlane2IpInterface too.
uPlane2IpAddress of IPNO - Parameter uPlane2IpInterface must be configured in case parameter uPlane2IpAddress is a virtual IP address.
transportMode of IPNO - Parameter uPlaneIpAddress is irrelevant in case parameter transportMode has value AtmOverEthernet. uPlane2IpAddress of IPNO - In case uPlane2IpAddress is a virtual IP address, the operator must configure parameter uPlaneIpInterface too.
uPlaneIpAddress of IPNO - Parameter uPlaneIpInterface must be configured in case parameter uPlaneIpAddress is a virtual IP address.
sourceTwoDiscr of IPRM - null
sourceTwoIpAddr is only relevant if parameter sourceTwoDiscr has value SINGLE or RANGE.
sourceTwoDiscr of IPRM - null
SourceTwoNetmask is only meaningfull if parameter sourceTwoDiscr has value RANGE. Otherwise sourceTwoNetMask is ignored.
transportMode of IPNO - An instance for IP routing shall only be available in transport mode Iub/IP.
enableCcm of OAMMEP - Parameter ccmTxPerdiod cannot be modified online in case parameter enableCcm has value true.
efpEventWindow of OAMPRF - Configured value for efpEventThreshold should be within configured value for OAMPRF-efpEventWindow to enable the possibility of generating Errored Frame Period Event Notifications
activeMode of OAMPRF - Parameter eventRepetition is only relevant in Link OAM active mode (parameter activeMode = true).
activeMode of OAMPRF - Parameter loopBackTime is only relevant in Link OAM active mode (parameter activeMode = true).
unitTypeActual of UNIT - null (internal)
When setting the PDH Line Type to another interface type (E1/T1/JT1), FTM switches on all interfaces of this unit the PDH Line Type to the default value for that interface type. In the second configuration step the framing format within this interface type can be modified.
Notes
1) In case of switching the line type, all ATM, IMA and CES objects that are associated with this unit are deleted!
2) PdhLineType is not modifiable for the FTIB and the FTLB hardware unit. It must be set on creation of the object instance.
3) UNBALANCED mode is not supported at all for the FTIB and FTLB hardware unit.
bfdEnable of PWMP - null
bfdAdminUp is only relevant if bfdEnable has value true.
trafficTypesMap of QOS - null
perHopBehaviour is used as a search criterium in the trafficTypesMap to find the corresponding DSCP value.
The Expected ID in the local node and the Sent ID in the remote node have to be equal and vice versa. If the Received ID (read-only) does not match the Expected ID, an alarm will be raised.
The Expected ID in the local node and the Sent ID in the remote node have to be equal and vice versa. If the Received ID (read-only) does not match the Expected ID, an alarm will be raised.
The parameter ssmEnabled is only relevant in case the value of parameter clockProtocol is equal to clkSyncE (Synchronuous Ethernet clock source).
The parameter ssmEnabled is only relevant in case the value of parameter clockProtocol is equal to clkSyncE (Synchronuous Ethernet clock source).
imaGroupId of IMAG - null
If the TC adapter is associated to an IMA group, the imaGroupId is used as interface number
interfaceNumber of TCTT - The value of the attribute interfaceNumber is contained in the ATM interface identifier.
transportMode of IPNO - null
cacCommittedBitRate is relevant only for transport modes Dual Iub and Iub/IP.
transportMode of IPNO - null
dcnCommitttedBitRate is only relevant for transport mode Iub/IP.
transportMode of IPNO - null
farEndSctpSubnetIpAddress is only relevant in transportMode Iub/IP.
transportMode of IPNO - null
The farEndSctpSubnetMask is only relevant in transport mode Iub/IP.
transportMode of IPNO - null
minSCTPPort is only relevant in transport mode Iub/IP.
transportMode of IPNO - null
signallingCommittedBitRate is only relevant for transport mode Iub/IP.
administrativeState of TOPIK - null
The parameter masterIpAddr shall have a regular value (not NULL, not 0.0.0.0, etc). whenever parameter administrativeState is set to unlocked.
The value of the MDCR cannot exceed the PCR.peakCellRate of TRDE - null
administrativeState of TWAMP - The TWAMP session must be locked, before its destination IP address can be changed (set administrativeState to "locked").
administrativeState of TWAMP - Changeing the destination port of the session requires locking it.
mtu of IPNO - The value of the parameter messageSize shall not exceed the Maximum Transfer Unit value of the FTM.
administrativeState of TWAMP - The TWAMP session must be locked, before its source IP address can be changed (set administrativeState to "locked").
VCI of VCCT - null The value must be the same as the attribute VCI
VCI of VCTT - null VPI of VCTT - null interfaceNumber of VCTT - null unitNumber of VCTT - null
The VCTT id is composed of the values of these other attributes.
VPI of VPTT - The value of parameter VPI is contained in the value of parameter vpTTPId. interfaceNumber of VPTT - The value of parameter interfaceNumber is contained in the value of parameter vpTTPId. unitNumber of VPTT - The value of parameter unitNumber is contained in the value of parameter vpTTPId.
The VPTT id is composed of the values of these other attributes
Interfaces Range and Step Default Value Default Value Notes
1...1, step 1 -
40...40 characters -
32...4095, step 1 -
0...255, step 1 -
9...10 characters -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
1...76, step 1 -
false
1...1, step 1 -
32...4095, step 1 -
0...255, step 1 -
9...10 characters -
FTM -> EM, FTM -> RAC
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
1...76, step 1 -
0...99999999, step 1 -
1...1000, step 1 1000
1...1000, step 1 500
1...1000, step 1 1
1...1, step 1 -
1...1, step 1 -
FTM -> EM, FTM -> RAC
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
36...144896 cells/s, step 1 c144896 cells/s
1132...144896 cells/s, step 144896 cells/s Range and step and default val
FTM -> RAC 1...1, step 1 -
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
The range, step and default value of the parameter depend on the interface type.The default value of 144896 e.g. applies only to Pseudowire and STM-1. See the description of the parameter for more details.
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
TLS (0), TLS_OR_PLAIN_TTLS (0)
1...65535, step 1 389 standard port for LDAP
7...15 characters -
32...4095, step 1 -
0...255, step 1 -
1...76, step 1 -
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
9...10 characters -
C_NBAP (0), D_NBAP (1), I-
1...1, step 1 -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
false
true
7...15 characters -
2...10, step 1 5
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...40 characters - Default is the empty string. By default a BFD sessio
1...16, step 1 -
7...15 characters -
3784...65535, step 1 4784 Since the default value of BF
singleHopBFD (0), multiHo multiHopBFD (1)
100...5000 ms, step 100 ms500 ms
MANUAL_BFD_SESSION (MANUAL_BFD_SESSION (0)
100...5000 ms, step 100 ms500 ms
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
1...8, step 1 -
1...1, step 1 -
false
false
0...128 characters -
FTM -> RAC 1...1, step 1 -
7...15 characters -
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
1...65535, step 1 -
7...15 characters -
1...65535, step 1 -
49152...65532, step 1 -
1...1, step 1 -
locked (0), unlocked (1) locked (0)
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
3...4 characters -
0...63, step 1 46 This corresponds to the Per
1...32, step 1 8
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
125...64000 microseconds, 8000 microseconds
TS1 (1), TS2 (2), TS3 (3), -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
49152...65535, step 1 -
1...1, step 1 -
7...15 characters -
locked (0), unlocked (1) locked (0)
3...3 characters -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
RT_LINE_RATE (0), RT_1 (1)RT_LINE_RATE (0) Use the configured line rate of the interface from th
RT_LINE_RATE (0), RT_1 (1)RT_LINE_RATE (0) Use the configured line rate of the interface from th
false
-1...4094, step 1 -1
0...4094, step 1 0 Default value means "untagge
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
false Link OAM is not enabled for the interface.
0...40 characters -
17...17 characters -
AUTODETECT (0), 1000MBIAUTODETECT (0)
3...3 characters -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
TS1 (1), TS2 (2), TS3 (3), -
1...8, step 1 -
1...1, step 1 -
5...6 characters WN6.0
1...1, step 1 -
0...50 characters -
0...50 characters -
0...80 characters -
0...128 characters -
32...4095, step 1 -
0...255, step 1 -
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
9...10 characters -
7...15 characters -
1...76, step 1 -
1...1, step 1 -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
0...1000000 kbps, step 100 -
1...1 characters 1 Always 1.
7...15 characters -
7...15 characters -
7...15 characters -
1500...1500 octets, step 1 o1500 octets Fixed value 1500.
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM -> FTM, RAC -> FTM
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
true By default a 6 PHB qeueue scheduler is indeed instal
1522...2000000, step 1 1522
1522...2000000 octets, step1522 octets
500...1000000 kbit/s, step 1100000 kbit/s The default is 1000000 (1 Giga
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
100...1000000, step 100 1000000
100...1000000 kbps, step 1 1000000 kbps
TPS_OFF (0), TPS_WFQ (1TPS_WFQ (1)
-
false
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
0...4094, step 1 -
1...20 characters -
7...15 characters -
1...1, step 1 -
7...15 characters -
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
17...17 characters -
7...15 characters -
0...15 characters -
locked (0), unlocked (1) locked (0)
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
4...4 characters -
imaVersion10Alt (1), imaVerautomatic (3)
33...75, step 1 -
0...16, step 1 -
1...16, step 1 1
1...1, step 1 -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
1...1, step 1 -
7...15 characters -
0...30 seconds, step 1 sec 0 seconds
1...65534, step 1 -
7...15 characters -
7...15 characters 0.0.0.0 By default the control-plane application IP address i
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
7...15 characters 0.0.0.0 By default the CES over PSN application IP address
FTP_SERVER_ENABLED (0FTP_SERVER_ENABLED (0)
7...15 characters -
7...15 characters -
7...15 characters -
0...255 characters -
disabled (0), enabled (1) disabled (0) Default is disabled I-HSPA mode.
true
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
RAC <-> FTM, RAC <-> RACApp, EM <-> FTM
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC -> FTM
FTM <-> EM, RAC <-> FTM
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
0...15 characters -
1...1, step 1 -
false By default, the FTM does not accept loopbacks initi
7...15 characters 0.0.0.0 By default the management-plane application IP addr
576...1500 octets, step 1 oc1500 octets
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
100...1000000 kbps, step 1 1000 kbps Default value is 1 Mbps.
false By default TLV is ignored.
off (0), forced (1), probing ( probing (2)
7...15 characters -
7...15 characters -
7...15 characters 0.0.0.0 By default the synchronization-plane application IP a
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
AtmOverEthernet (0), DualIuAtmOverEthernet (0)
RATE_1 (0), RATE_10 (1) RATE_10 (1)
true By default the TWAMP reflector is switched on.
1...65535, step 1 5000 IANA-assigned well-known twa
1...49151, step 1 49151
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
7...15 characters 0.0.0.0 By default the second user-plane application IP addr
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...40 characters - By default the parameter is empty: non-virtual IP add
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
7...15 characters 0.0.0.0 By default the user-plane application IP address is n
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...40 characters - By default the parameter is empty: non-virtual IP add
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
SINGLE (1), RANGE (2), WSINGLE (1)
7...15 characters 0.0.0.0
7...15 characters 0.0.0.0
1...40 characters -
1...1, step 1 -
1...2, step 1 -
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...16, step 1 0 The route is not protected.
7...15 characters -
7...15 characters -
7...15 characters -
1...254, step 1 1 Default value is lowest possib
false
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...1000000 kbps, step 100 0 kbps
500...5000 ms, step 500 ms500 ms
1...65535, step 1 1
7...15 characters -
7...15 characters -
false By default the 6 PHB qeueue scheduler is not instal
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
1522...2000000 octets, step1522 octets
0...1000000 kbps, step 100 1000000 kbps
0...4094, step 1 -
1...7, step 1 -
0...4094, step 1 0 Default value is to leave the
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
false Default value is not to discard untagged frames imme
0...63, step 1 -
1...4, step 1 4
1...4, step 1 1 The default queue is the strict
1...4, step 1 4 The default queue is a Weigh
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
1...4, step 1 4 The default queue is a Weigh
1...4, step 1 3 The default queue is a Weigh
1...4, step 1 3 The default queue is a Weigh
1...4, step 1 2 The default queue is a Weigh
1...4, step 1 2 The default queue is a Weigh
1...4, step 1 1 The default queue is the strict
1...4, step 1 1 The default queue is the strict
1...4, step 1 1 The default queue is the stric
DSCP (0), PCP (1) DSCP (0) Default value means DSCP to PHB mapping.
1...1, step 1 -
false Default value is not to include VLAN information in t
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
1...15, step 1 -
1...42 characters -
0...4094, step 1 0 Parameter vlanId = 0 means t
1...10, step 1 -
0...7, step 1 -
1...42 characters -
true
AIS_1SEC (0), AIS_1MIN (1AIS_1SEC (0)
CCM_3_33MS (0), CCM_10MCCM_1SEC (3)
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
false By default, sending CCM messages is not allowed.
0...40 characters -
1...8191, step 1 -
17...17 characters -
1...8191, step 1 -
0...7, step 1 7
false
1...10 seconds, step 1 sec 1 seconds
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM -> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...4294967295, step 1 1
1...60 seconds, step 1 sec 1 seconds
0...4294967295, step 1 1
1...4294967295, step 1 1
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...65535, step 1 1
10...900 seconds, step 1 s 60 seconds
false By default, sending CCM messages is not allowed.
1...4, step 1 2
false
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
2...10 seconds, step 1 sec 10 seconds
10...600 seconds, step 1 s 10 seconds
1...5, step 1 -
0...25000, step 1 1
64...1518, step 1 64 Default is minimum PDU size.
false
fcs0 (0), fcs16 (1), fcs32 (2) fcs16 (1)
false
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
PACKET_SIZE_1500 (1500)PACKET_SIZE_1500 (1500)
3...4 characters -
false
false
locked (0), unlocked (1) locked (0) The interface is locked.
500...32000 kbps, step 100 32000 kbps
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RACApp <-> RAC
NORMAL (0), EDGE (1) NORMAL (0)
1...16, step 1 -
FRAGMENT_SIZE_128 (128FRAGMENT_SIZE_256 (256)
PACKET_SIZE_1500 (1500)PACKET_SIZE_1500 (1500)
7...15 characters -
1...1, step 1 - Always 1. Only 1 PPP multi-lin
7...15 characters -
false By default timeslot TS16 is included for E1. All time
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
locked (0), unlocked (1) locked (0) The interface is locked.
500...2000 kbps, step 100 2000 kbps
1...16, step 1 -
7...15 characters -
7...15 characters -
1...1, step 1 -
false By default timeslot TS16 is included for E1. All time
locked (0), unlocked (1) locked (0)
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
1...16, step 1 -
PDH_LBO_0 (1), PDH_LBO_PDH_LBO_0 (1)
PDH_LINE_TYPE_DOUBLE-
3...4 characters -
1...1, step 1 -
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
Defaults depend on E1/T1/JT1:E1: PDH_LINE_TYPE_MULTI_FRAME_G704T1: PDH_LINE_TYPE_EXTENDED_SUPERFRAMEJT1: PDH_LINE_TYPE_EXTENDED_MULTIFRAME
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
true
false
1...28, step 1 28
10...32 characters -
16...1048575, step 1 -
16...1048575, step 1 -
expeditedForwarding (0), a bestEffort (5)
500 (500), 1000 (1000), 20 500 (500)
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
3...3 characters -
2...10, step 1 5
500...5000, step 500 500
500...5000, step 500 500
false
1...1 characters -
locked (0), unlocked (1) locked (0)
3...3 characters -
4...4 characters -
7...15 characters -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, FTM <-> RAC, RAC <-> RACApp
1...10000, step 1 10
1...10000, step 1 100
1...10000, step 1 1000
1...10000, step 1 10000
1...10000, step 1 1
1...1, step 1 -
0...255 characters -
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
expeditedForwarding (0), a -
1...40 characters -
0...7, step 1 0
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
locked (0), unlocked (1) locked (0)
1...1, step 1 1 Fixed value 1.
LASER_MODE_OFF (0), L LASER_MODE_OFF (0)
true
3...3 characters 1-1 Value is always "1-1. In this release only one unit wi
1...1, step 1 -
0...15 characters - The empty string is default value and indicates that t
0...15 characters - The empty string is default value and indicates that t
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
clkPDH (1), clkSDH (2), clkS-
0...16, step 1 -
1...2, step 1 -
true By default SSM support is enabled.
2...10 seconds, step 1 sec 5 seconds
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
1...1, step 1 1
1...1, step 1 -
1...1, step 1 -
1...76, step 1 -
8...10 characters -
1...1, step 1 -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
400...999900 kbps, step 10 -
50...1000 kbps, step 50 kbp150 kbps
7...15 characters -
7...15 characters -
7...15 characters -
49152...65534, step 1 49152
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
49152...63047, step 1 49152
50...1000 kbps, step 50 kbp100 kbps
1...1, step 1 -
locked (0), unlocked (1) locked (0)
-5...-3, step 1 -4 This means 16 per second.
7...15 characters -
1...1, step 1 -
3...10 characters -
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RACApp <-> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
CBR1 (0), UBR1 (1) -
0...144896 cells/s, step 1 ce0 cells/s
36...144896 cells/s, step 1 c-
1...1000 none, step 1 none 1 none
1...20 characters -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
Default values for service categories:CBR: CBR.1UBR: UBR.1
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM <-> RAC, FTM <-> EM, RAC <-> RACApp
locked (0), unlocked (1) locked (0) By default the TWAMP session is locked.
7...15 characters -
1...65535, step 1 862
0...63, step 1 34 The default DSCP value maps
69...1500, step 1 100 Default value is 100 octets.
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
0...10000 0.01%, step 1 0. 10000 0.01% Default value is 100 percent.
0...1000000 microseconds, 1000000 microseconDefault value is 1 second.
7...15 characters -
1...10, step 1 -
1...1, step 1 -
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC -> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
7...7 characters -
470137A (0), 470156A (1), -
32...4095, step 1 -
0...255, step 1 -
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
1...76, step 1 -
100...9999999999, step 1 -
1...1, step 1 -
32...4095, step 1 -
32...4095, step 1 -
0...255, step 1 -
AAL2-1 (1), AAL5-1 (2) -
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
1...76, step 1 -
1...1, step 1 -
9...10 characters -
0...255, step 1 -
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
1...76, step 1 -
100...9999999999, step 1 -
1...1, step 1 -
0...255, step 1 -
0...255, step 1 -
FTM -> EM, FTM -> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
FTM -> EM, FTM -> RAC
1...76, step 1 -
1...1, step 1 -
5...8 characters -
FTM -> EM, FTM -> RAC
FTM -> EM, FTM -> RAC
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
Formula Modification Related Features References
Not modifiable
On-line
Not modifiable
Not modifiable
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line
Not modifiable
Not modifiable
Not modifiable
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line
On-line
On-line
On-line
Not modifiable
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
internal_value = gui_value
On-line
On-line
Not modifiable
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
On-line RAN1314 Secure LDAP
On-line
On-line
Not modifiable
Not modifiable
Not modifiable
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
On-line
On-line
Not modifiableinternal_value = gui_value
On-line
On-line
On-line
On-line
RAN2440 Fast IP Rerouting, RAN1449 Dual Iub for Flexi WCDMA, RAN74 Native Iub IP for Flexi WCDMA BTS
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
Default is the empty string. By default a BFD sessio On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
RAN2440 Fast IP Rerouting
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
Not modifiable
Not modifiable
On-line
On-line
On-line
Not modifiable
On-line
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA, RAN2440 Fast IP Rerouting
internal_value = gui_value
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
CR 1406 Improvements for VCC bundle
RAN963 Network Element Certificate Management
internal_value = gui_value
RAN963 Network Element Certificate Management
RAN963 Network Element Certificate Management
On-line
On-line
On-line
On-line
Not modifiable
On-line
internal_value = gui_value
RAN963 Network Element Certificate Management
RAN963 Network Element Certificate Management
internal_value = gui_value
RAN963 Network Element Certificate Management
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
RAN1707 Flexi WCDMA Integrated CESoPSN
Not modifiable
On-line
On-line
RAN1707 Flexi WCDMA Integrated CESoPSN
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
On-line
On-line
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
RAN1707 Flexi WCDMA Integrated CESoPSN
On-line
Not modifiable
On-line
On-line
Not modifiable
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
internal_value = gui_value
RAN1707 Flexi WCDMA Integrated CESoPSN
RAN1707 Flexi WCDMA Integrated CESoPSN
Use the configured line rate of the interface from th On-line
Use the configured line rate of the interface from th On-line
On-line
On-line
On-line
On-line
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
Link OAM is not enabled for the interface. On-line
On-line
Not modifiable
On-line
Not modifiable
On-line
Not modifiable
Not modifiable
Not modifiable
Not modifiable
On-line
Not modifiable
On-line
On-line
Not modifiable
Not modifiable
RAN1649 ATM over Fractional JT1
internal_value = gui_value
RAN1649 ATM over Fractional JT1
internal_value = gui_value
RAN1649 ATM over Fractional JT1
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line
Not modifiable
Not modifiable
internal_value = gui_value
internal_value = gui_value
On-line
Not modifiable
On-line
On-line
On-line
On-line
Not modifiable
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA
By default a 6 PHB qeueue scheduler is indeed instalOn-line
On-line
On-line
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
On-line
On-line
On-line
On-line
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
RAN1709 VLAN Traffic Differentiation
On-line
On-line DHCP Server
On-line DHCP Server
On-line DHCP Server
Not modifiable
On-line DHCP Server
On-line DHCP Server
internal_value = gui_value
internal_value = gui_value
On-line DHCP Server
On-line DHCP Server
On-line DHCP Server
On-line DHCP Server
On-line Inverse Multiplexing (IMA)
Not modifiable
On-line Inverse Multiplexing (IMA)
Not modifiable Inverse Multiplexing (IMA)
On-line
On-line Inverse Multiplexing (IMA)
On-line Inverse Multiplexing (IMA)
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line NTP Server
On-line
On-line
On-line
By default the control-plane application IP address i On-line CN4065
internal_value = gui_value
internal_value = gui_value
RAN2440 Fast IP Rerouting
internal_value = gui_value
By default the CES over PSN application IP address On-line CN4065
On-line
On-line
On-line
On-line
BTS restart needed
Default is disabled I-HSPA mode. On-line
On-line
RAN2060 Conversion of a BTS containing FTLB into an I-BTS
RAN2060 Conversion of a BTS containing FTLB into an I-BTS
On-line
Not modifiable
By default, the FTM does not accept loopbacks initi On-line
By default the management-plane application IP addrOn-line CN4065
On-line
RAN1066 BTS Support for I-HSPA Adapter
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Link OAM)
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA
On-line
On-line
On-line
On-line
On-line
By default the synchronization-plane application IP aOn-line CN4065
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1102 Secure BTS Management Interface
On-line
On-line CN4065
By default the TWAMP reflector is switched on. On-line
On-line
On-line
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
By default the second user-plane application IP addrOn-line CN4065
By default the parameter is empty: non-virtual IP addOn-line CN4065
By default the user-plane application IP address is n On-line CN4065
By default the parameter is empty: non-virtual IP addOn-line CN4065
On-line RAN1749 BTS Firewall
On-line RAN1749 BTS Firewall
On-line RAN1749 BTS Firewall
On-line RAN1749 BTS Firewall
On-line RAN1749 BTS Firewall
Not modifiable RAN1749 BTS Firewall
Not modifiable
internal_value = gui_value
internal_value = gui_value
IPv4 routing for management traffic, DHCP, NTP
On-line
On-line
On-line
On-line
On-line
On-line
On-line
IPv4 routing for management traffic, DHCP, NTP
internal_value = gui_value
RAN2440 Fast IP Rerouting
IPv4 routing for management traffic, DHCP, NTP
IPv4 routing for management traffic, DHCP, NTP
IPv4 routing for management traffic, DHCP, NTP
internal_value = gui_value
RAN2440 Fast IP Rerouting
RAN1707 Flexi WCDMA Integrated CESoPSN
On-line
On-line
On-line
BTS restart needed
BTS restart needed
By default the 6 PHB qeueue scheduler is not instal On-line
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
RAN1709 VLAN Traffic Differentiation
RAN1709 VLAN Traffic Differentiation
On-line
On-line
On-line
Not modifiable
On-line
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation
internal_value = gui_value
RAN1709 VLAN Traffic Differentiation, RAN1883 FlexiPacket Radio Management
internal_value = gui_value
RAN1769 Ethernet Switching
Default value is not to discard untagged frames immeOn-line
On-line
On-line
On-line
On-line
On-line
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
Default value means DSCP to PHB mapping. On-line
Not modifiable
Default value is not to include VLAN information in t On-line
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
internal_value = gui_value
RAN1769 Ethernet Switching
RAN1769 Ethernet Switching
Not modifiable
On-line
On-line
Not modifiable
On-line
On-line
On-line
On-line
On-line
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
By default, sending CCM messages is not allowed. On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Link OAM)
internal_value = gui_value
On-line
On-line
On-line
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
On-line
On-line
By default, sending CCM messages is not allowed. On-line
On-line
On-line
internal_value = gui_value
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Service OAM)
internal_value = gui_value
On-line
On-line
Not modifiable
On-line
On-line
On-line
On-line
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Link OAM)
internal_value = gui_value
RAN1880 Ethernet OAM (Ethernet Link OAM)
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
On-line
Not modifiable
On-line
On-line
On-line
On-line
CN4065, RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
On-line
On-line
On-line
On-line
On-line
Not modifiable
On-line
By default timeslot TS16 is included for E1. All time On-line
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
On-line
On-line
On-line
On-line
On-line
Not modifiable
By default timeslot TS16 is included for E1. All time On-line
On-line
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
internal_value = gui_value
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
Physical Interfaces E1, T1, JT1
Not modifiable
On-line
On-line
Not modifiable
Not modifiable
internal_value = gui_value
Physical Interfaces E1, T1, JT1
Defaults depend on E1/T1/JT1:E1: PDH_LINE_TYPE_MULTI_FRAME_G704T1: PDH_LINE_TYPE_EXTENDED_SUPERFRAMEJT1: PDH_LINE_TYPE_EXTENDED_MULTIFRAME
Physical Interfaces E1, T1, JT1
internal_value = gui_value
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
On-line
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
internal_value = gui_value
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
RAN1142 ATM over Ethernet for BTS
On-line
On-line
On-line
On-line
On-line
On-line
Not modifiable
On-line
On-line
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
internal_value = gui_value
RAN1253 Iub Transport QoS
RAN1142 ATM over Ethernet for BTS, RAN1253 Iub Transport QoS, RAN2440 Fast IP Rerouting
On-line
On-line
On-lineinternal_value = gui_value
On-line
Not modifiable
On-line
On-line
Value is always "1-1. In this release only one unit wi Not modifiable
On-line
The empty string is default value and indicates that t On-line
The empty string is default value and indicates that t On-line
On-line
Physical Interfaces STM1/OC3 & STM0/OC1
internal_value = gui_value
Physical Interfaces STM1/OC3 & STM0/OC1
Physical Interfaces STM1/OC3 & STM0/OC1
Physical Interfaces STM1/OC3 & STM0/OC1
Physical Interfaces STM1/OC3 & STM0/OC1
internal_value = gui_value
Physical Interfaces STM1/OC3 & STM0/OC1
Physical Interfaces STM1/OC3 & STM0/OC1
Physical Interfaces STM1/OC3 & STM0/OC1
RAN1254 Timing over Packet, RAN1708 Synchronuous Ethernet
On-line
On-line
On-line
By default SSM support is enabled. On-line
On-line
RAN1254 Timing over Packet, RAN1708 Synchronuous Ethernet
internal_value = gui_value
RAN1254 Timing over Packet, RAN1708 Synchronuous Ethernet
internal_value = gui_value
RAN1254 Timing over Packet, RAN1708 Synchronuous Ethernet
RAN1708 Synchronuous Ethernet
internal_value = gui_value
RAN1708 Synchronuous Ethernet
On-line
On-line
Not modifiable
Not modifiable
On-line
Not modifiable
internal_value = gui_value
RAN1254 Timing over Packet, RAN1708 Synchronuous Ethernet
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
On-line
On-line
On-line
On-line
On-line
On-line
internal_value = gui_value
RAN1449 Dual Iub for Flexi WCDMA, RAN74 Native Iub IP for Flexi WCDMA BTS
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS
RAN1449 Dual Iub for Flexi WCDMA
RAN74 Native Iub IP for Flexi WCDMA BTS
RAN74 Native Iub IP for Flexi WCDMA BTS
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS
On-line
On-line
Not modifiable
On-line
On-line
On-line
Not modifiable
On-line
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA
internal_value = gui_value
RAN74 Native Iub IP for Flexi WCDMA BTS, RAN1449 Dual Iub for Flexi WCDMA
internal_value = gui_value
RAN1254 Timing over Packet
internal_value = gui_value
RAN1254 Timing over Packet
RAN1254 Timing over Packet
internal_value = gui_value
RAN1254 Timing over Packet
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
On-line
On-line
On-line
On-line
On-line
Default values for service categories:ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
internal_value = gui_value
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
internal_value = gui_value
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
internal_value = gui_value
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping
By default the TWAMP session is locked. On-line
Requires object lockin
Requires object lockin
On-line
On-line
RAN1900 IP Transport Network Measurement
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
On-line
On-line
On-line
Not modifiable
Not modifiable
internal_value = gui_value
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
RAN1900 IP Transport Network Measurement
internal_value = gui_value
RAN1900 IP Transport Network Measurement
internal_value = gui_value
Not modifiable
On-line
Not modifiable
Not modifiable
RAN1299 BTS Auto Configuration
RAN1299 BTS Auto Configuration
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line
Not modifiable
On-line
Not modifiable
Not modifiable
On-line
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
Not modifiable
On-line
Not modifiable
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
On-line
Not modifiable
On-line
Not modifiable
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
internal_value = gui_value
Not modifiable
Not modifiable
On-line
internal_value = gui_value
internal_value = gui_value
Changed parameters in Issue 03A
MO Class Abbreviated Name Parameter Name (Issue 03A)BFD bfdActivationBFD bfdAdminUpBFD bfdDestAddressBFD bfdDetectMultBFD bfdGrpBFD bfdIdBFD bfdSourceIpAddrBFD bfdSourceUdpPortBFD bfdTypeBFD desMinTxIntBFD reqMinRxIntBFDGRP bfdGrpIdCERTH certhId
CESPW cesPWidETHLK l2RateLimiter Layer 2 switch member ingress rate limiterETHLK l2VlanIdList Layer 2 switch member VLAN identifier listsETHLK linkOAMProfile
IEIF ieifId Identifier of the plain Ethernet interfaceIMAG interfaceNumber
IMAG interfacesIPNO twampReflectorPortIPNO twampSourcePortIPRM iprmIdIPRT ipRoutingTableIdIPRT staticRoutesIPRT bfdIdIPRT destIpAddrIPRT gatewayIPRT netmask
IPRT preference Preference value for the routeIVIF cirIVIF localIpAddrIVIF netmaskOAMMA maName Name of the maintenance domain
OAMMEP enableCcm
P3LP mruSize
P3ML mrruSize
PPTT interfaceNumber
PPTT pdhPSTTPIdPWMP pwMplsIdPWNE pwNeIdPWTIP pwTipIdQOS qosIdQOS trafficTypesMapQOS dscpList
QOS trafficTypeSDHIF sdhifIdSDHIF unitNumberSDHIF xmtTraceId_HPSDHIF xmtTraceId_RS
TCTT interfaceNumber
TMPAR minUDPPortTOPIK topId
TRDE atmTrafficDescriptorId
TRDE conformanceDefinition
TWAMP destIpAddressTWAMP destPortTWAMP dscp
TWAMP plrAlarmThreshold
TWAMP rttAlarmThreshold
TWAMP sourceIpAddress
UNIT unitTypeActual
UNIT unitTypeExpected
VCCT vcCTPId
VPCT interfaceNumber
VPTT interfaceNumberVPTT vpTTPId
Parameter Name (Issue 03 DRAFT) Description (Issue 03A)
Layer 2 switch member rate limiterLayer 2 switch member VLAN identifier list
Identifier of the IP based ethernet interface.
This parameter identifies the CES over PSN pseudowire.
The format of the parameter is slot#-if#
where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.
In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4
FTFB: 1-16
This parameter identifies the unique plain ethernet interface object in the BTS. Value is always 1.
Cost value for the route
Name of the maintenance association
This parameter holds the list of the physical interfaces used by the IMA group.
The maximum number of interfaces in one IMA group depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FTFA, FTHA, FTFB: 16
This parameter specifies a preference value for this route. The FTM shall use by preference routes with lower preference value.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changeing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter specifies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specifies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
Defines the interface location on the unit.
The number of interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTHA, FTFA: 1..16
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.
The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTHA, FTFA: 1..16
Values for transport mode AtmOverEthernet:
"TOP"
"SG1" - Pseudowire (PW) for perHopBehaviour (pHB) EF
"SG2" - PW for pHB AF4
"SG3" - PW for pHB AF3
"SG4" - PW for pHB AF2
"SG5" - PW for pHB AF1
"SG6" - PW for pHB BE
"ICMP"
Values for transport mode Iub IP:
"DCN"
"NBAP"
"TOP"
"SG1" - Signalled traffic for pHB EF
"SG2" - Signalled traffic for pHB AF4
"SG3" - Signalled traffic for pHB AF3
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
This is is the minimum value of the port number to be used for UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub an IubIP (65535 - 2488 = 63047).
This parameter identifies the traffic descriptor.
The value of the parameter shall represent a number starting with 100. Note that at most 32 traffic descriptors can exist in the AXC.
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1 and for UBR UBR.1.
This parameter specifies the destination IP address of the TWAMP session. The TWAMP session must be locked, before its destination IP address can be changed.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive packet loss ratio (PRL).
The alarm is raised, if the packet loss ratio observed over a 15 minute evalutation period exceeds the threshold value. The alarm will be cleared if the packet loss ratio drops below the threshold value for 2 consecutive 15-minute observation periods.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive round-trip-time (RTT).
The alarm is raised if the average round-trip-time of the TWAMP messages, calculated during a 1-minute evaluation period, exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-minute periods the average value of the RTT remains below the threshold.
This parameter specifies the source IP address of TWAMP initiator messages. The TWAMP session must be locked, before its source IP address can be changed.
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
This parameter specifies the type of the hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
Description (Issue 03 DRAFT) Short Description (Issue 03A)
This parameter identifies the CES over PSN pseudowire.
The format of the parameter is slot#-if#
where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.
In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4
FSIB, FTFB: 1-16
This parameter identifies the CES over PSN pseudowire.
The format of the parameter is slot#-if#
where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.
In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4
FTFB: 1-16
This parameter identifies the unique IP based ethernet interface object in the BTS. Value is always 1.
This parameter identifies the unique plain ethernet interface object in the BTS. Value is always 1.
This parameter holds the list of the physical interfaces used by the IMA group.
The maximum number of interfaces in one IMA group depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FSIB, FTFA, FTHA, FTFB: 16
This parameter holds the list of the physical interfaces used by the IMA group.
The maximum number of interfaces in one IMA group depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FTFA, FTHA, FTFB: 16
This parameter specifies a cost value for this route. Lower preference means lower cost. The FTM shall use by preference routes with lower preference value.
This parameter specifies a preference value for this route. The FTM shall use by preference routes with lower preference value.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changeing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter specificies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specifies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specificies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
This parameter specifies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
Defines the interface location on the unit.
The number of interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTHA, FTFA: 1..16
Defines the interface location on the unit. The value depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTHA, FTFA: 1..16
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.
The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTHA, FTFA: 1..16
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.
The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTHA, FTFA: 1..16
Values for transport mode AtmOverEthernet:
"TT_TOP"
"TT_SG1" - Pseudowire (PW) for perHopBehaviour (pHB) EF
"TT_SG2" - PW for pHB AF4
"TT_SG3" - PW for pHB AF3
"TT_SG4" - PW for pHB AF2
"TT_SG5" - PW for pHB AF1
"TT_SG6" - PW for pHB BE
"TT_ICMP"
Values for transport mode Iub IP:
"TT_DCN"
"TT_NBAP"
"TT_BFD"
"TT_TOP"
"TT_SG1" - Signalled traffic for pHB EF
"TT_SG2" - Signalled traffic for pHB AF4
This parameter designates a traffic type.
Values for transport mode AtmOverEthernet:
"TOP"
"SG1" EF
"SG2" AF4
"SG3" AF3
"SG4" AF2
"SG5" AF1
"SG6" BE
"ICMP"
Values for transport mode Iub IP:
"DCN"
"NBAP"
"TOP"
"SG1" EF
"SG2" AF4
"SG3" AF3
"SG4" AF2
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
This is is the minimum value of the port number to be used over UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub and IubIP (65535 - 2488 = 63047).
This is is the minimum value of the port number to be used for UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub an IubIP (65535 - 2488 = 63047).
This parameter identifies the traffic descriptor.
The value shall represent a number between 100 and 131.
This parameter identifies the traffic descriptor.
The value of the parameter shall represent a number starting with 100. Note that at most 32 traffic descriptors can exist in the AXC.
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1. For UBR it is UBR.1.
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1 and for UBR UBR.1.
This parameter specifies the destination IP address of the TWAMP session. Changeing the destination IP address of the TWAMP session requires locking the session.
This parameter specifies the destination IP address of the TWAMP session. The TWAMP session must be locked, before its destination IP address can be changed.
This parameter specifies the threshold for raising the packet loss ratio alarm (PRL).
The alarm is raised, if the packet loss ratio during the current observation period exceeds the threshold value. The alarm will be cleared, after at least 2 observation periods are error free again.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive packet loss ratio (PRL).
The alarm is raised, if the packet loss ratio observed over a 15 minute evalutation period exceeds the threshold value. The alarm will be cleared if the packet loss ratio drops below the threshold value for 2 consecutive 15-minute observation periods.
This parameter specifies the threshold for raising the round-trip-time alarm (RTT).
The alarm is raised if during a 1-min period the value of the round-trip-time of a TWAMP message exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-min periods the average value of the RTT remains below the threshold.
This parameter specifies the threshold for raising the TWAMP session alarm for reasons of excessive round-trip-time (RTT).
The alarm is raised if the average round-trip-time of the TWAMP messages, calculated during a 1-minute evaluation period, exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-minute periods the average value of the RTT remains below the threshold.
This parameter specifies the source IP address of TWAMP initiator messages.
This parameter specifies the source IP address of TWAMP initiator messages. The TWAMP session must be locked, before its source IP address can be changed.
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
System Module Release 3:
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
This parameter specifies the type of the hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
Defines the location of the physical interface on the unit.
The value range depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
In case of Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
Short Description (Issue 03 DRAFT) 3GPP Name (Issue 03A)
This parameter identifies the CES over PSN pseudowire.
The format of the parameter is slot#-if#
where slot# is the slot of the unit where the interface resides and if# is the interface number of the corresponding PDH interface on this unit.
In this release slot is always 1.
The value range of the if# part of the parameter depends on the hardware:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1:4
FSIB, FTFB: 1-16
This parameter identifies the unique IP based ethernet interface object in the BTS. Value is always 1.
This parameter holds the list of the physical interfaces used by the IMA group.
The maximum number of interfaces in one IMA group depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FSIB, FTFA, FTHA, FTFB: 16
This parameter specifies a cost value for this route. Lower preference means lower cost. The FTM shall use by preference routes with lower preference value.
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
This parameter specificies maximum receive unit size in octets. The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specificies maximum receive unit size in octets.
A LCP MRU Configure-Request shall be sent automatically when a different value than the default 1500 bytes is set for parameter mruSize. Otherwise no Configure-Request shall be sent.
The BTS sends an alarm is the size of a received packet surpasses the mruSize.
This parameter specificies maximum receive reconstructed unit size in octets.
The MRRU option shall always be sent as part of every LCP negotiation and applies to then to the bundle.
The BTS sends an alarm is the size of a received packet surpasses the mrruSize.
Defines the interface location on the unit. The value depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTHA, FTFA: 1..16
Identifies a PDH interface. Format: unit#-if#
The value of unit# is always 1.
The value range for the interface number (if#) depends on the unit type:
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTHA, FTFA: 1..16
This parameter designates a traffic type.
Possible values are:
"TT_DCN"
"TT_NBAP"
"TT_BFD"
"TT_TOP"
"TT_SG1"
"TT_SG2"
"TT_SG3"
"TT_SG4"
"TT_SG5"
"TT_SG6"
"TT_ICMP"
"TT_CES1" to "TT_CES8"
Values to be used depend on the transport mode."
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
This is is the minimum value of the port number to be used over UDP connections.
The maximum value of this parameter = 63047, since 2488 calls are supported in transport modes Dual Iub and IubIP (65535 - 2488 = 63047).
This parameter identifies the traffic descriptor.
The value shall represent a number between 100 and 131.
Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).
The FTM enforces the correspondence between conformance definition and service category. For CBR the conformance definition is CBR.1. For UBR it is UBR.1.
This parameter specifies the destination IP address of the TWAMP session. Changeing the destination IP address of the TWAMP session requires locking the session.
This parameter specifies the threshold for raising the packet loss ratio alarm (PRL).
The alarm is raised, if the packet loss ratio during the current observation period exceeds the threshold value. The alarm will be cleared, after at least 2 observation periods are error free again.
This parameter specifies the threshold for raising the round-trip-time alarm (RTT).
The alarm is raised if during a 1-min period the value of the round-trip-time of a TWAMP message exceeds the configured threshold. The alarm will be cleared, if during 5 consecutive 1-min periods the average value of the RTT remains below the threshold.
This parameter specifies the source IP address of TWAMP initiator messages.
This parameter shows the type of the hardware unit that is installed in the FTM.
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
System Module Release 3:
hardware unit that is expected to be installed in the FTM slot.
Values are:
Values are:
System Module Release 2
FIIB: 472271A
FILB: 472294A
FSIB: 472272A
FTEB: 470156A
FTFA: 470134A
FTFB: 472036A
FTHA: 471522A
FTIA: 471025A
FTIB: 471720A
FTJA: 471248A
FTLA: 471730A
FTLB: 471984A
FTOA: 470133A
FTPB: 470137A
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
The location of the physical interfaces depends on the unit type.
FTEB, FTPB: 1..8
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 1..4
FSIB, FTFB, FTFA, FTHA: 1..16
For Inverse Multiplexing for ATM (IMA) the value range is: 33..75.
For ATM over Ethernet, the value is always: 76.
3GPP Name (Issue 03 DRAFT) Multiplicity (Issue 03A)
34
Multiplicity (Issue 03 DRAFT) Related Functions (Issue 03A)
20
Related Functions (Issue 03 DRAFT) Related Parameters (Issue 03A)
administrativeState of TWAMP - The TWAMP session must be locked, before its destination IP address can be changed (set administrativeState to "locked").
administrativeState of TWAMP - The TWAMP session must be locked, before its source IP address can be changed (set administrativeState to "locked").
VCI of VCCT -
Related Parameters (Issue 03 DRAFT)
administrativeState of TWAMP - Changeing the destination IP address of the session requires locking it.
VCI of VCCT - The value of parameter vcCTPId must be the same as the value of attribute VCI.
Description of Parameter Relationships (Issue 03A)
The value must be the same as the attribute VCI
The VPTT id is composed of the values of these other attributes
Description of Parameter Relationships (Issue 03 DRAFT)
Range and Step (Issue 03A) Range and Step (Issue 03 DRAFT)
0..40 characters 1..40 characters
1..65535, step 1 0..65535, step 11..49151, step 1 1..65535, step 1
3..10 characters 3 characters
0..10000, step 1 0..65535, step 1000
0..1000000, step 100 0..1000, step 1000
0 (470137A), 1 (470156A), 2 (470134A), 3 (4715 0 (470137A), 1 (470156A), 2 (470134A), 3 (471522A), 4 (471025A), 5 (471720A), 6 (471248A), 7 (470133A), 8 (471730A), 9 (471984A), 10 (472036A), 11 (472311A), 12 (472355A), 13 (NONE)
Default Value (Issue 03A) Default Value (Issue 03 DRAFT)
500049151
0
86234
10000 1000
1000000 1000
0 (470137A), 1 (470156A), 2 (470134A), 3 (471522A), 4 (471025A), 5 (471720A), 6 (471248A), 7 (470133A), 8 (471730A), 9 (471984A), 10 (472036A), 11 (472311A), 12 (472355A), 13 (NONE)
Default Value Notes (Issue 03A) Default Value Notes (Issue 03 DRAFT)
IANA-assigned well-known twamp-control port
Default value is lowest possible preference value. By dDefault value is lowest possible preference value. By default all routes have equally lowest cost.
The default DSCP value maps to Per Hop Behaviour Assured Forwarding Class 4 (AF4).
Default value is 100 percent. This means the alarm is Default value is 1000 packets.
0 (470137A), 1 (470156A), 2 (470134A), 3 (471522A), 4 (471025A), 5 (471720A), 6 (471248A), 7 (470133A), 8 (471730A), 9 (471984A), 10 (472036A), 11 (472311A), 12 (472355A), 13 (NONE)
Modification (Issue 03A) Modification (Issue 03 DRAFT)
Default value is lowest possible preference value. By default all routes have equally lowest cost.
BTS restart needed onLineBTS restart needed onLine
Related Features (Issue 03A) Related Features (Issue 03 DRAFT)RAN2440 Fast IP Rerouting (optional), RAN1449 DRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optional), RAN1449 Dual Iub for Flexi WCDMA (optional), RAN2440 Fast IP Rerouting (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optionRAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN74 Native Iub IP for Flexi WCDMA BTS (optional), RAN1449 Dual Iub for Flexi WCDMA (optional), RAN2440 Fast IP Rerouting (optional)RAN963 Network Element Certificate Management (optional)
Inverse Multiplexing (IMA) (standard)
RAN1749 BTS Firewall (optional)IPv4 routing for management traffic, DHCP, NTP (standard)IPv4 routing for management traffic, DHCP, NTP (standard)RAN2440 Fast IP Rerouting (optional)IPv4 routing for management traffic, DHCP, NTP (standard)IPv4 routing for management traffic, DHCP, NTP (standard)IPv4 routing for management traffic, DHCP, NTP (standard)
RAN2440 Fast IP Rerouting (optional)
CN4065 (standard), RAN1878 IP over ML-PPP on E1CN4065 (standard)
RAN1142 ATM over Ethernet for BTS (standard)RAN1142 ATM over Ethernet for BTS (standard)RAN1142 ATM over Ethernet for BTS (standard)RAN1253 Iub Transport QoS (optional)RAN1142 ATM over Ethernet for BTS (standard), RAN1253 Iub Transport QoS (optional), RAN2440 Fast IP Rerouting (optional)
Physical Interfaces STM1/OC3 & STM0/OC1 (standard)Physical Interfaces STM1/OC3 & STM0/OC1 (standard)Physical Interfaces STM1/OC3 & STM0/OC1 (standard)Physical Interfaces STM1/OC3 & STM0/OC1 (standard)
RAN1254 Timing over Packet (optional)
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping (standard)
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping (standard)
Process/calculation (Issue 03A) Process/calculation (Issue 03 DRAFT)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)
RAN74 Native Iub IP for Flexi WCDMA BTS (optional), RAN1449 Dual Iub for Flexi WCDMA (optional), RAN2440 Fast IP Rerouting (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)RAN1879 Dynamic Routing in BTS (BFD triggered route switching) (optional)
RAN74 Native Iub IP for Flexi WCDMA BTS (optional), RAN1449 Dual Iub for Flexi WCDMA (optional), RAN2440 Fast IP Rerouting (optional)
RAN1142 ATM over Ethernet for BTS (standard), RAN1253 Iub Transport QoS (optional), RAN2440 Fast IP Rerouting (optional)
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping (standard)
ATM Traffic Management: UBR (Unspecified Bit Rate), CBR (Constant Bit Rate), Shaping (standard)
References (Issue 03A) References (Issue 03 DRAFT)
NSN reference: WBTS_TRS_4548
Interfaces (Issue 03A) Interfaces (Issue 03 DRAFT)
New parameters in Issue 03A
MO Class Abbreviated Name Parameter Name Description
BFD function function
ETHLK macAddr MAC address
IPNO bfdHoldUpTime BFD throttle time for re-in
IPNO oamCir Committed information ra
IPNO oamTlvReply Optional TLV message rep
IPRT metric Cost value for the route
This parameter defines for which purpose BFD session is used. For this release only manually configured BFD sessions are supported.
This parameter shows the MAC address of the ethernet interface.
This parameter specifies the delay for re-installig routes as active ones after a BFD session has recovered from down to up state. Defining a delay can prevent too heavy toggling of de-installing and re-installing routes for unstable BFD sessions.
This parameter specifies the committed information rate (CIR) for Service OAM messages sent by the FTM.
If this parameter is set to true, the optional TLV received in a Link Trace or Loopback message (LTM or LBM message) is sent back unchecked in the corresponding reply message (LTR, or LBR).
If this parameter is set to false, the received optional TLV is ignored and not being sent in the reply-message.
This parameter specifies a cost value for this route. The BTS shall use by preference routes with lower metric values.
Upper limit = 32 bit value.
OAMPRF enableCcm Allow sending of CCM me
P3ML cacCommittedBitRate CAC committed bit rate
P3ML interfaces Physical interface list
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
Connection Admission Control committed bit rate.
CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
This parameter holds the list of the physical interfaces used for MLPPP.
The maximum number of interfaces in one MLPPP interface depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FTFA, FTHA, FTFB: 16
Interfaces have to be selected consecutively starting with 1.
P3SL cacCommittedBitRate CAC committed bit rate
P3SL interface Physical interface list
Connection Admission Control committed bit rate.
CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
This parameter holds the physical interface id used by the PPP link over PDH.
This id is restricted by the number of interfaces present in the transport module. Only IF 1 is supported for current release.
Short Description 3GPP Name Multiplicity Related Functions
1
1
1
1
1
1
This parameter defines for which purpose BFD session is used. For this release only manually configured BFD sessions are supported.
This parameter shows the MAC address of the ethernet interface.
This parameter specifies the delay for re-installig routes as active ones after a BFD session has recovered from down to up state. Defining a delay can prevent too heavy toggling of de-installing and re-installing routes for unstable BFD sessions.
This parameter specifies the committed information rate (CIR) for Service OAM messages sent by the FTM.
If this parameter is set to true, the optional TLV received in a Link Trace or Loopback message (LTM or LBM message) is sent back unchecked in the corresponding reply message (LTR, or LBR).
If this parameter is set to false, the received optional TLV is ignored and not being sent in the reply-message.
This parameter specifies a cost value for the route. The BTS shall use by preference routes with lower metric values.
Upper limit = 32 bit value.
1
1
16
This parameter allows sending continuity check messages (ETH_CCM) towards the remote Maintenance Association Endpoints (MEPs) of the End Point. Changing the parameter from false (not allowed) to true (allowed) resets the CCM counters of all remote MEPs.
Connection Admission Control committed bit rate.
CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
This parameter holds the list of the physical interfaces used for MLPPP.
The maximum number of interfaces in one MLPPP interface depends on the unit type:
FIIB, FILB, FTIA, FTIB, FTJA, FTLB: 4
FTEB, FTPB, FTFA: 8
FTFA, FTHA, FTFB: 16
Interfaces have to be selected consecutively starting with 1.
1
1
Connection Admission Control Committed Bit Rate.
CAC committed bit rate is the total bit rate, which is available for guaranteed traffic at the interface. Signalling bit rate and DCN bit rate are subtracted from the CAC committed bit rate and the rest is available for the user-plane data connections which are under transport connection admission control.
This parameter holds the physical interface id used by the PPP link over PDH.
This id is restricted by the number of interfaces present in the transport module. Only IF 1 is supported for current release.
Related Parameters Description of Parameter Relationships Range and Step
MANUAL_BFD_SESSION
17...17 characters
0...30 seconds, step 1 s
100...1000000 kbps, step
0...4294967295, step 1
500...32000 kbps, step 1
1...16, step 1
500...2000 kbps, step 10
1...16, step 1
Default Value Default Value Notes Modification Related Features
MANUAL_BFD_SESSION (0) onLine RAN2440 Fast IP Rerouting
unmodifiable
0 seconds onLine RAN2440 Fast IP Rerouting
1000 kbps Default value is 1 Mbps. onLine RAN1880-b Ethernet OAM (Ethernet Service OAM)
false By default TLV is ignored. onLine
0 Default value is lowest possibl onLine
false By default, sending CCM messaonLine RAN1880-b Ethernet OAM (Ethernet Service OAM)
32000 kbps onLine RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
onLine RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
2000 kbps onLine RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
onLine RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
Process/calculation Interfaces
RAN2440 Fast IP Rerouting
RAN2440 Fast IP Rerouting
RAN1880-b Ethernet OAM (Ethernet Service OAM)
FTM -> EM, FTM -> RAC, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
RAN1880-b Ethernet OAM (Ethernet Service OAM)
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
EM <-> FTM, RAC <-> FTM, RAC <-> RACApp
EM <-> FTM, RAC <-> FTM, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
RAN1878 IP over ML-PPP on E1/T1/JT1 Interfaces
EM <-> FTM, RAC <-> FTM, RACApp <-> RAC
FTM <-> EM, FTM <-> RAC, RAC <-> RACApp
Removed parameters in Issue 03AMO Class Abbreviated Name
AMGR loginDelayBFD authIdBFD authKeyBFD authModeBFD dscpCERTH btsCertificateUpdateTimeCERTH caCertificateUpdateTimeCERTH crlUpdatePeriodETHLK synchEModeIEIF activeEthernetLinkIEIF authIdIEIF authKeyIEIF confCostIEIF helloIntervalIEIF helloMultiplierIEIF interfaceAreaIEIF ospfWithBfdIEIF proxyArpIpAddrListIEIF retransIntervalIEIF routerDeadIntervalIEIF transmitDelayIPNO bfdThrottleTimeIPNO fpLocalUdpPortIPNO fpMuxAmountIPNO fpMuxDelayIPNO fpRemoteUdpPortIVIF authIdIVIF authKeyIVIF confCostIVIF desMinTxIntIVIF helloIntervalIVIF helloMultiplierIVIF interfaceAreaIVIF ospfWithBfdIVIF proxyArpIpAddrListIVIF retransIntervalIVIF routerDeadIntervalIVIF transmitDelayOAMMEP mepIdOAMMEP tlvReplyP3ML numberOfLinksSTPG ssmTxUntaggedSTPG synchERegenOnSTPG ssmTypeTOPIK topMastersIDNS dnsAccessIdIDNS serverIpAddress
IDNS serverIpAddress2OSPFV2 confPrefOSPFV2 desMinTxIntOSPFV2 ospfAreasOSPFV2 ospfEnabledOSPFV2 ospfRouterIdOSPFV2 ospfV2IdOSPFV2 refBandwidthOSPFV2 spfDelayOSPFV2 spfHoldTimeOSPFV2 spfMaxHoldTimeIPSECC ipSecEnabledIPSECC ipSeccIdIPSECC securityPoliciesIVMP trafficPathMapIVMP vlanMapId