AXC Equip, C5.5 Parameters All MO's

8/13/2019 AXC Equip, C5.5 Parameters All MO's

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Reference InformationDocument Type ParameterDate 2011-07-04 12:09

Search scope AXC, C5.5

Managed Object Parameter name

A2NE AAL2 Node Identifier

A2NE BTS Parameter Modification Enabled

A2NE Enable AAL2 Multiplexing

A2ST AAL2 End Address of the WAM

A2ST AAL2 Endpoint Address

A2ST AAL2 Endpoint Address

A2ST AAL2 Interface List

A2ST AAL2 Signaling Link TTP Enable Performance Monitoring


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A2ST AAL2 Signalling Link Identifier

A2ST Signaling Transport Converter Alarm Enable

A2ST WAM Identifier


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ACCP Egress Bandwidth

ACCP Ingress Bandwidth

ACCP Maximum Number of VCI Bits Supported

ACCP Maximum Number of VPI Bits Supported

ACCP Policing


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ANBA NBAP Identifier

ANBA NBAP Type

ANBA WAM Identifier

AXC AXC Identifier


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AXC Basestation Variant

AXC Local User Password

AXC Local Username

AXC Location Name

AXC Software Release Version

AXC System Title

AXC User Label

BFD BFD session activation flag

BFD BFD session admin down state control

BFD BFD session packets lost detection time multiplier

BFD Bidirectional Forwarding Detection Naming Attribute

BFD Destination IP address of BFD session


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CCFA Cross Connect Fabric Identifier

CCFA Cross Connection

CCFA From Termination

CCFA Termination Point

CCFA Termination Point 1

CCFA Termination Point 2

CCFA To Termination

CCFA UBR+ Enabled

CCFA User Label

CCFA User Label

CCFA VCC Bundle Enabling Flag

CIWT CES Id

CIWT CES Partial Fill

CIWT CES Port Pointer


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CIWT CES Service

CIWT CES Timeslot Sequence CBR Interface

ETHLK Administrative State

ETHLK Ethernet link identifier

ETHLK Speed and Duplex flag

FMAF Alarm Blocking

FMAF Alarm Blocking List

FMAF Alarm Filter Identifier

FMAF alarm Filter Set Name


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FMAS Alarm Selection Identifier

FRLI ATM over Fractional E1/JT1/T1 Time Slot Sequence

FRLI Fractional Interface Id


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IAIF DCN Interface Identifier

IAIF Destination IP Address

IAIF Destination IP Address

IAIF Disabled

IAIF Enable OSPF


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IAIF OSPF Extention Interface

IAIF OSPF Extention Interface Network Identifier

IAIF OSPF Hello Interval

IAIF OSPF Hello Interval

IAIF OSPF Interface Area

IAIF OSPF Interface Area

IAIF OSPF Interface Cost

IAIF OSPF Interface Cost

IAIF OSPF Retransmit Interval

IAIF OSPF Retransmit Interval

IAIF OSPF Router Dead Interval

IAIF OSPF Router Dead Interval

IAIF OSPF Timing

IAIF OSPF Transit Delay

IAIF OSPF Transit Delay

IEIF Broadcast IP Address

IEIF Ethernet Interface Identifier

IEIF IP Address

IEIF IP Address Info in the Transport Network

IEIF IP Network Mask

IEIF Local Address of the IP Interface


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IEIF Local IP Address

IEIF Netmask

IEIF OSPF Extention Interface Network Identifier

IEIF OSPF Extention Interface Network Identifier

IEIF Restricted Mode (discard public IP)

IEIF Shaping Bandwidth

IEIF Upper Layer Shaping Enabled Flag

IEIF Vlan ID

IEIF Vlan mapping enabled flag

IFPG Interface Number

IFPG Interface Number

IFPG Interface Protection Group Id

IFPG Lockout State of the Interface Protection Group

IFPG Mask Signal Degrade

IFPG Mask Signal Degrade

IFPG Multiplexer Section Protocol


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IFPG Protected Interface

IFPG Protecting Interface

IFPG Revertive Operation

IFPG Unit Number

IFPG Unit Number

IHCP Client Identifier

IHCP Client Identifier

IHCP DHCP Client Identifier

IHCP DHCP Client Identifier

IHCP DHCP Configuration Entry IP Address

IHCP DHCP Configuration Information

IHCP DHCP Configuration Information Identifier

IHCP DHCP Fixed IP Address



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IHCP DHCP Hardware Identifier

IHCP DHCP Hardware Identifier

IHCP DHCP Range End IP Address

IHCP DHCP Range Start IP Address

IHCP DHCP Range Start IP Address

IHCP DHCP Server Identifier

IHCP Hardware Identifier

IHCP Hardware Identifier

IHCP Range Identifier

IHCP Range Identifier

IHCP dhcpRangeEnd

IMAG Administrative State


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IMAG IMA Group Identifier

IMAG IMA Version Identifier

IMAG Interface Number

IMAG Maximum Differential Delay

IMAG Minimum Number of Links

IMAG Tx Frame Length

INTP List of NTP Server IP Addresses

INTP NTP Enabled

INTP NTP Identifier

INTP NTP Server IP Address

INTP NTP Server IP Address

IPNO BTS Identifier

IPNO BTS transport mode

IPNO Base Station IP Address

IPNO IP Node Identifier

IPNO Public IP Address


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IPNO RET IP Address

IPNO RNC IP Address

IPRM How is source two defined?

IPRM IP Restricted Mode Access Identifier

IPRM IP Subnet Mask

IPRM IP address for source two

IPRM Name reference for source two

IPRM Ports associated to source one

IPRM Ports associated to source two

IPRM Restricted Mode Exception

IPRM Source One Identifier


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IPRM User Label

IPRT Destination IP Address



IPRT Gateway

IPRT Gateway

IPRT IP Routing Table Identifier

IPRT List of static routes

IPRT Netmask

IPRT Netmask

IPRT Netmask

ISPF Action Create OSPF Area

ISPF OSPF Access Identifier

ISPF OSPF Area Identifier

ISPF OSPF Area Stub

ISPF OSPF Area Stub Cost

MODUL Actual Module Type

MODUL Expected Module Type

MODUL Module Identifier

N3CF Get Publication Service Retry Interval

N3CF Heartbeat Period

N3CF Initial Registration Password

N3CF Initial Registration Username


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N3CF Mediator Configuration Identifier

N3CF Primary LDAP Configuration Root DN

N3CF Primary LDAP People Root DN

N3CF Primary LDAP Server IP Address

N3CF Primary LDAP Server Port

N3CF Re-Publication Period

N3CF Re-Registration Period

N3CF Registration Retry Base Period

N3CF Retry Random

N3CF Secondary LDAP Configuration Root DN

N3CF Secondary LDAP People Root DN

N3CF Secondary LDAP Server IP Address

N3CF Secondary LDAP Server Port

N3CF Use Next

N3CF User Label

N3MD Base Identifier

N3MD Configuration Object

N3MD Mediator Identifier

N3MD New Base ID

N3MD Old Base ID

N3MD Time To Wait

N3MD Time To Wait


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N3MD Use Next

NNDT Administrative State

NNDT Neighbour Node Discovery Identifier

NNDT Remote System Identifier

NNDT Remote Transmission Convergence Adaptor TTP Identifier

PPTT Administrative State

PPTT Bit Error Ratio Mode

PPTT PDH Haul Type


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PPTT PDH Interface ID

PPTT PDH Line Build Out

PPTT PDH Line Type

PPTT Q1 Support

PWMP BFD actual session administration flag

PWMP Bidirectional Forwarding Enabled


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PWMP Downlink MPLS Header

PWMP Packetization Timer

PWMP Per hop behaviour DiffServ

PWMP Pseudowire MPLS identifier

PWMP Pseudowire tunnel pointer

PWMP Set of registered vcCTPs.

PWMP Uplink Concatenation Factor.

PWMP Uplink MPLS Header

PWNE BFD session packets lost detection time multiplier

PWNE BFD timing parameters

PWNE Control Word Enable

PWNE Desired minimum BFD control word transmission interval

PWNE Naming String

PWNE Required minimum BFD control word receive interval

PWTIP Administrative State

PWTIP Next Hop IP Address


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PWTIP Pseudowire Tunnel IP identifier

PWTIP Remote IPv4 Address

QOS Assured Forwarding Class 1 Weight Value




QOS Best Effort Weight Value

QOS Differentiated Services Code Point list

QOS Per Hop Behaviour

QOS Per Hop Behaviour Weight List

QOS QOS class naming identifier

QOS Quality of Service mapping table


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QOS Traffic type

QOS Vlan priority flag

SMTT Bit Error Ratio Mode

SMTT Remote Defect Indication On Excessive Bit Error Ratio

SMTT SDH Multiplexer Section Interface ID

SPTT Administrative State

SPTT Laser Mode

SPTT Path Mapping


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SPTT SDH Physical Section Interface ID

SPTT STM Level

SRTT Expected Trace Identifier

SRTT SDH Regenerator Section Interface ID

SRTT Sent Trace Identifier

STPG Frequency

STPG Frequency

STPG Interface Number


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STPG Interface Number

STPG Priority

STPG Priority

STPG Synchronisation Protection Group Identifier

STPG Synchronization Source 1

STPG Synchronization Source 2

STPG Timing Source Pointer



STPG Unit Number

STPG Unit Number

SVTT Expected Trace Identifier


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SVTT SDH Virtual Container Interface ID

SVTT Sent Trace Identifier


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TCTT ATM Interface Identifier

TCTT ATM Interface Utilization Monitoring

TCTT Conditions for raising a utilization alarm

TCTT Duration, the traffic is exceeding the thresholdValue

TCTT Enable TCTT Disabled Alarm

TCTT Threshold Value for the Traffic

TMPAR CAC Committed Bit Rate

TMPAR DCN Committed Bit Rate


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TMPAR Far End SCTP Subnet IP Address

TMPAR Far End SCTP Subnet Mask

TMPAR Minimum SCTP port number

TMPAR Minimum UDP port number

TMPAR Next hop router IP address

TMPAR Pointer to the unit that carries the Iub IP traffic

TMPAR Signalling Committed Bit Rate

TMPAR TMPAR Object Instance Identifier

TOPIK Administrative State

TOPIK IP Address of the ToP master

TOPIK Identifier of the ToP instance

TOPIK Log mean synchronization value

TOPIK Master clock state

TOPIK Next hop IP address of the ToP master


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TPEL Parent Network Identifier

TPEL Topology Identifier

TRDE Cell Delay Variation Tolerance Peak Cell Rate

TRDE Conformance Definition

TRDE Minimum Desired Cell Rate

TRDE Peak Cell Rate

TRDE Traffic Descriptor Identifier

TRDE UBR Share

TRDE User Label


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UNIT Actual Unit Type

UNIT Expected Unit Type

UNIT Unit Id

VCCT Egress Frame Discard Enabled

VCCT Enable Performance Monitoring

VCCT New Traffic Descriptor Pointer

VCCT Traffic Descriptor Pointer

VCCT Virtual Channel Identifier (VCI)


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VPCT Virtual Path Identifier (VPI)

VPTT Supported Service Categories

VPTT Virtual Path Trail Termination Point Identifier


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Abbreviated name 3GPP name Parameter group Category Multiplicity:

aal2NodeId 1

btsParaModEnabled 1

enableAal2Multiplexing 1

AAL2EndAddress 1

a2ea 1

a2ea 1

muxInterfaceConfigList 5

aal2sigTTPenablePm 1


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aal2sigTTPId 1

stcAlarmEnable 1

wamId 1


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egressBandwidth 1

ingressBandwidth 1

maxNumVCIBitsSupported 1

maxNumVPIBitsSupported 1

upcNpc 1


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nbapTTPId 1

nbapType 1

wamId 1

axcId 1


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equipmentHolderSpecificType 1

localUserPassword 1

userName 1

locationName 1

softwareReleaseVersion 1

systemTitle 1

userLabel 1

bfdActivation 1

bfdAdminUp 1

bfdDetectMult 1

bfdId 1

bfdDestAddress 1


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atmFabricId 1

crossConnection 1000

fromTermination 1

tps 1

fromTerminationPoint 1

toTerminationPoint 1

toTermination 1

ubrPlusEnabled 1

userLabel 1

userLabel 1

vccBundleEnabled 1

cesIwfId 1

cesPartialFill 1

cesPortPointer 1


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cesService 1

cesTimeSlotSequenceCbrIf 31

administrativeState 1

ethLinkId Transmission 1

speedAndDuplex 1

alarmFilterSetActivation 1

alarmFilterList 70

alarmFilterSetId 1

alarmFilterSetName 1


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alarmSelectionId 1

afrTimeSlotSequence 31

afrLinkInterfaceId 1


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atmIfNetId 1

destIpAddr 1

destIpAddr 1

disabled 1

ospfEnabled 1


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localIp 1

netmask 1

ospfExtentionIfNetIdentifier 1

ospfExtentionIfNetIdentifier 1

discardPublic 1

shapedBandwidth 1

upperLayerShaping 1

vlanId 1

vLanEnabled 1

interfaceNumber 1

interfaceNumber 1

transIfPgId 1

lockoutStatePg 1

maskSignalDegrade 1

maskSignalDegrade 1

mspProtocol 1


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protectedInterface 1

protectingInterface 1

revertiveOperation 1

unitNumber 1

unitNumber 1

client_identifier 1

client_identifier 10

dhcpClientIdentifier 1

dhcpClientIdentifier 1

dhcpConfigurationEntry 1

dhcpConfigurationInfo 1

dhcpConfigurationInfoIdentifier 1

dhcpFixedIpAddress 1



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dhcpHardwareIdentifier 1

dhcpHardwareIdentifier 1

dhcpRangeEnd 1

dhcpRangeStart 1

dhcpRangeStart 1

dhcpAccessId 1

hardware_identifier 10

hardware_identifier 1

range_identifier 1

range_identifier 1

dhcpRangeEnd 1



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imaGroupId 1

imaVersionId 1

interfaces 32

diffDelayMax 1

minNumLinks 1

txFrameLength 1

ntpServers 3

ntpEnabled 1

ntpAccessId 1

ntpServerIp 1

ntpServerIp 1

btsId 1

transportMode 1

btsIpAddr 1

ipNodeId 1

publicIpAddress 1


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ret1IpAddr 1

rncIpAddr 1

sourceTwoDiscr 1

ipRmAccessId 1

sourceTwoNetMask 1

sourceTwoIpAddr 1

sourceTwoAlias 1

sourceOnePorts 1

sourceTwoPorts 1

RmExceptions 100

sourceOne 1


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userLabel 1

destIpAddr 1

destIpAddr 1

destIpAddr 1

gateway 1

gateway 1

ipRoutingTableId 1

staticRoutes 100

netmask 1

netmask 1

netmask 1

ospfAreas 10

ospfAccessId 1

ospfAreaId 1

ospfAreaStub 1

ospfAreaStubCost 1

moduleTypeActual 1

moduleTypeExpected 1

moduleId 1

getPublicationServiceRetryPeriod 1

heartbeatPeriod 1

initialRegistrationPassword 1

initialRegistrationUsername 1


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n3CfId 1

primaryLDAPConfigurationRootDN 1

primaryPeopleRootDN 1

primaryLDAPServer 1

primaryLDAPPort 1

rePublicationPeriod 1

reRegistrationPeriod 1

registrationRetryBasePeriod 1

retryRandom 1

secondaryLDAPConfigurationRootDN 1

secondaryPeopleRootDN 1

secondaryLDAPServer 1

secondaryLDAPPort 1

useNext 1

userLabel 1

baseId 1

configurationObject 1

mdId 1

newBaseID 1

oldBaseID 1

timeToWait 1

timeToWait 1


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useNext 1


nndTtpId 1

remoteSystemId 1

remoteTcAdaptorTTPId 1


berMode 1

pdhHaulType 1


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pdhPSTTPId 1

pdhLbo 1

pdhLineType 1

q1Support 1

bfdAdminUp 1

bfdEnable 1


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labelDl 1

pkTimer Transmission 1

perHopBehaviour 1

pwMplsId Transmission 1

tunnelPtr 1

ctpList Transmission 100

cellsConcatUl 1

labelUl 1

bfdDetectMult 1

bfdTimer 1

cwEnable Transmission 1

desiredMinTxIntvl 1

pwneId 1

requiredMinRxIntvl Transmission 1


nextHopIpAddr 1


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pwTipId Transmission 1

remoteIpv4Addr 1

assuredForwardingClass1 1




bestEffort 1

dscpList 1

pHB 1

perHopBehaviourWeightList 1

qosId 1

trafficTypesMap 20


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trafficType 1

vlanPrio 1

berMode 1

rdiOnExcessiveBer 1

sdhMSTTPId 1


laserMode 1

pathMapping 1


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sdhPSTTPId 1

stmLevel 1

expTraceId 1

sdhRSTTPId 1

xmtTraceId 1

frequency 1

frequency 1

interfaceNumber 1


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interfaceNumber 1

priority 1

priority 1

timingGenPgId 1

synchroSource1 1

synchroSource2 1

timingSourcePtr 1

timingSourcePtr 1

timingSourcePtr 1

unitNumber 1

unitNumber 1

expTraceId 1


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sdhVcxTTPId 1

xmtTraceId 1


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tcAdaptorTTPId 1

utilMonEnabled 1

utilizationAlarm 1

thresholdDuration 1

enableTcttDisabledAlarm 1

thresholdValue 1

cacCommittedBitRate 1

dcnCommittedBitRate 1


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farEndSctpSubnetIpAddress 1

farEndSctpSubnetMask 1

minSCTPPort 1

minUDPPort 1

ipRouterAddress 1

iubIPUnitPtr 1

signallingCommittedBitRate 1

tmparId 1


masterIpAddr 1

topId 1

logMeanSyncValue 1

masterClockState 1

nextHopIPAddress 1


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tpParentPtr 1

tpElemId 1

cdvTolerancePCR 1

conformanceDefinition 1

MinDesiredCellRate Transmission 1

peakCellRate 1

atmTrafficDescriptorId 1

UbrShare 1

userLabel 1


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unitTypeActual 1

unitTypeExpected 1

unitId 1

egressFrameDiscardEnabled 1

enablePm 1

newTrafficDescriptorPtr 1

trafficDescriptorPtr 1

vcCTPId 1


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aalProfilePtr 1

enablePmForAAL 1

vcTTPId 1

enablePm 1

newTrafficDescriptorPtr 1

trafficDescriptorPtr 1


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vpCTPId 1

supportedServiceCategories 2

vpTTPId 1


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Description

Identifies the AAL2 node. Because AXC represents a single AAL2 node, the identifier is always 1.

Indicates whether BTS Parameter Modification is enabled.

If disabled, no BTS related Parameter modification is supported (e.g. RNS Split)

Enables AAL2 multiplexing functionality in the AXC application software.

The parameter also influences the possible kinds of AAL2 user paths: if multiplexing is switched off, the AAL2 VC

connection kind cannot be RTDCH nor NRTDCH (see A2UT - aal2UpUsage).

AAL2 End Address of the WAM. Fixed length of 20 Octets.The A2EA uses AESA format.

The Authority and Format Identifier (AFI) field of AESA is used to identify what AESA format is used.

AAL2 endpoint address (A2EA) for a signalling link.

The A2EA value has to be different for each signalling link towards the WAMs and RNC. The values have to be the

same as configured in the RNC. The A2EA is also required on the AXC's adjacent AAL2 node towards the RNC.

AAL2 endpoint address (A2EA) for a signalling link.

The A2EA value has to be different for each signalling link towards the WAMs

and RNC. The values have to be the same as configured in the RNC. The A2EA is also required on the AXC's

adjacent AAL2 node towards the RNC.

This attribute lists all connected WAMs and it's related AAL2 destination endpoint address (A2EA).

Two cases can be destinguished.

1. AAL2 Multiplexing is disabled

For each AAL2 Signalling Link exactly one WAM and it's A2EA is to be specified.

2. AAL2 Multiplexing is enabled:

All supported WAMs and it's related A2EA are to be specified.

Maximum 5 WAMs are supported.

Note that WAM 5 is not supported.

Enables or disables Performance Monitoring for the AAL2 signalling link Trail Termination Point.


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Identifies the AAL2 Signalling Link.

The object is identified by

- Unit Location (slot#)

- Interface Location (if# or imag# or klm(16)#)

- Virtual Path Identifier (vpi#)

- Virtual Channel Identifier (vci#)

Format:

- slot#-if#-vpi#vci# (e.g. 2-8-000C0)

- slot#-imag#-vpi#vci# (e.g. 2-34-00200)

- slot#-klm(16)#-vpi#vci# (e.g. 2-A2-011C0)

Range:

slot#: 1..6

if#: 1..16 (maxi. 2 digits)

imag#: 33..99 (2 digits)

klm(16)#: A0..F2 (coded number, 2 digits, identifies the VC-12 on IFUF)

vpi#: 00..FF (hexadecimal number, 2 digits)

vci#: 00..FFF (hexadecimal number, 3 digits)

Coding of klm(16)# :The klm value identifies the VC-12 on the IFUF.

the 3 digit value k#l#m# has to be transformed into a 2 digit value.

value range for k,l,m:

k#: 1..3

l#: 1..7

m#: 1..3

Out of the k,l and m value a 3 digit number can be constructed

in the form of k#l#m# (e.g. 132).

This 3 digit number is transformed to a new 3 digit number

with the following formular.

C=127+28k+4l+m

Finally the klm(16)# is derived by transforming the C value in a hexadecimal value.

klm(16)# = C(hex).Enables or disables alarm 61260 STC connection to signalling peer not established. If enabled, the AXC observes

the availability of the adjacent node's signalling link.

Identifies the WAM to which the connection shall be terminated.


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Identifies the AAL2 user path.






Format:




Range:

slot#: 1..6







the 3 digit value k#l#m# has to be transformed into a 2 digit value.

value range for k,l,m:

k#: 1..3

l#: 1..7

m#: 1..3



This 3 digit number is transformed to a new 3 digit number

with the following formular.

C=127+28k+4l+m

Finally the klm(16)# is derived by transforming the C value in a hexadecimal value.

klm(16)# = C(hex).Enables or disables Performance Monitoring for CPS HEC Errors for an AAL2 User Path Trail Termination Point.

Defines the usage of the AAL2 User Path. A Virtual Channel connection dedicated to AAL2 user path can carry for

instance HSDPA traffic or DCH traffic or HSUPA traffic or also shared DCH-HSDPA traffic or shared HSUPA-

HSDPA traffic. The allowed values depend on the parameter enableAal2Multiplexing of class A2NE.

Defines the maximum period of time that CPS packets with one or more octets wait before they are scheduled for

transmission.

CU Timer does not apply to full CPS packets. They are scheduled for transmission immediately.

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).

Identifies the ATM Access Profile. It is always 1.


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Defines the maximum allowed egress bandwidth in cells per second for a logical ATM interface.

The AXC Manager automatically sets the following values (cells/s) for each interface type:

- STM-1/STS-3c: 353207

- E1/VC-12: 4528

- T1/JT1: 3622

- fractional E1: int(m*150,9434) where m = number of timeslots

- fractional T1/JT1: int(m*150,9434) where m = number of timeslots - IMA E1: int[n*4528*(m-1)/m*2048/2049] where m = Tx Frame Length and n = number of IMA links in a group

- IMA T1/JT1: int[n*3622*(m-1)/m*2048/2049] where m = Tx Frame Length and n = number of IMA links in a group

- ATM over Ethernet: 72452

Defines the maximum allowed ingress bandwidth in cells per second for a logical ATM interface.

The AXC Manager automatically sets the following values (cells/s) for each interface type:

- STM-1/STS-3c: 353207

- E1/VC-12: 4528

- T1/JT1: 3622

- fractional E1: int(m*150,9434) where m = number of timeslots

- fractional T1/JT1: int(m*150,9434) where m = number of timeslots

- IMA E1: int[n*4528*(m-1)/m*2048/2049] where m = Tx Frame Length and n = number of IMA links in a group- IMA T1/JT1: int[n*3622*(m-1)/m*2048/2049] where m = Tx Frame Length and n = number of IMA links in a group

- ATM over Ethernet: 72452

Defines the maximum number of contiguous VCI bits of the ATM cell that will be interpreted on a particular logical

ATM interface.

The maximum number of bits that can be allocated to VPI and VCI is 13 for a logical ATM interface. However, a

maximum of eight bits can be allocated to VPI.

Defines the maximum number of contiguous VPI bits of the ATM cell that will be interpreted on a particular logical

ATM interface.

The maximum number of bits that can be allocated to VPI and VCI is 13 for a logical ATM interface. However, a

maximum of eight bits can be allocated to VPI.

Defines whether policing is performed for a particular logical ATM interface.


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Identifies the NBAP Termination Point






Format:- slot#-if#-vpi#vci# (e.g. 2-8-000C0)



Range:

slot#: 1..6






Coding of klm(16)# :

The klm value identifies the VC-12 on the IFUF.The three-digit value k#l#m# has to be transformed into a 2 digit value.

Value range for k,l,m:

k#: 1..3

l#: 1..7

m#: 1..3



This three-digit number is transformed to a new three-digit number

with the following formula:

C=127+28k+4l+m

Finally, the klm(16)# is derived by transforming the C value into a hexadecimal value:

klm(16)# = C(hex).

Example: k=1, l=3, m=2NBAP Type.

The NBAP Type can be either C-NBAP or D-NBAP.

Identifies the WAM in which the Dedicated NBAP connection is terminated.

No WAM is specified for the Common NBAP connection since the WAM that has actually been selected can just be

read.

Identifies the AXC.


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Indicates the Basestation Variant.

The Basestation Variant is derived from the Backplane the AXC is connected to.

The number of WAMs within a Basestation depend on the Basestation Variant.

The following mapping applies:

Variant # Slots # WAMValue

MetroSite WCDMA 21"068796A"UltraSite WCDMA Optima 44 "070055A"

UltraSite WCDMA Optima Compact 44 "070055A"

UltraSite WCDMA Optima 44"079688A"

UltraSite WCDMA Supreme 66"T32101.01"

UltraSite WCDMA Supreme 66"075983A"

UltraSite WCDMA Supreme 66"080436A"

Triple-Mode UltraSite Edge 22"071086A"

MetroSite 50 21"081212A"

Stand Alone AXC 60"T32106.01"

Password of the local user account. It is available only in encrypted format.

Username of the local User Account.

It is available only in encrypted format.

Label that can be used to describe the geographical location of the network element.

Describes the major SW Release Version of the AXC.

Examples are: C2.0, C2.1, C2.5, C2.6, C2.7.

Label that can be used to enter the name of the network element.

Label that can be used for a short description.

This parameter activates or deactivates the unique BFD session of the AXC.

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 controls the admin state of the unique BFD session of the AXC.

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.

The negotiated BFD control word transmission interval, multiplied by this parameter, provides the detection time for

lost packets in the unique BFD session of the AXC. Roughly speaking bfdDetectMult is the number of BFD controlpackets that the AXC may lose in a row, before it shall declare the BFD session to be down.

This is the naming attribute of the unique instance of the Bidirectional Forwarding Detection object class of the AXC.

The value is always 1.

This is the IP address to be used in Bidirectional Forwarding Detection. To be entered in dotted decimal format.


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Identifies the ATM cross-connect entity in the AXC.

Because the AXC represents one ATM cross-connect, the identifier is always 1.

List of ATM VP or VC cross-connections between two termination points.

Identifies the instance of the VPCT or VCCT managed entity that represents one of the cross-connected CTPs.

The VPCT or VCCT must be defined before creating one endpoint. A cross-connection can only be done between

two VPCTs exclusive or two VCCTs. ATM cross-connections are always bi-directional.

Specifies one of the connection termination points (VPCT or VCCT) of the VP or VC cross-connection that will be

deleted.







Identifies the instance of the VPCT or VCCT managed entity that represents one of the cross connected CTPs.



This attribute is used to explicitly enable (TRUE) or disable (FALSE) the usage of UBR+ in the network. If set to

FALSE then the network element ingnores the parameters ingress/egress Minimum Desired Cell Rate (MDCR) and

ingress/egress UBRshare in the traffic descriptors.

If set to TRUE, the network element uses these parameters for handling UBR+ traffic.

There are default values for MDCR and UBRshare, which are used when UBR is enabled but MDCR or UBRshare

are not defined explicitly.

The usage of UBR+ requires the availability of a licence.

Optional label that can be used to associate a text string to a cross-connection for documentation purposes.

Optional label that can be used to associate a text string to a cross-connection for documentation purposes.

This parameter enables VCC bundling for collecting extra bandwidth unused by neighbour VCCs.

Identifies CES interworking function. The object is identified by unit and interface location of the CBR interface.

slot#-if#

slot#: 1..6

if#: 1..16

Identifies the number of leading payload octets in the AAL-1 payload used for structured IWF interfaces.

Setting the parameter to 47 disables partial fill and causes the cells to be completely filled before they are sent.

Smaller values decrease delay, but require a greater bandwidth.

Points to the interface that is cross-connected to the CBR interface. It can point to an ATM interface (VCTT) or, in

case of pass-through configuration, to a CBR interface (PPTT IWF interface).


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Defines the operation mode of the CES interworking function. CES can be operated either in structured (partial

E1/T1/JT1 frames) or unstructured mode (whole E1/T1/JT1 frames).

Defines a sequence of consecutive timeslots on the CES interworking (TDM) interface in structured operation. In

unstructured mode the sequence is empty.

When the PDH interface is E1, timeslot 16 is handled as a normal timeslot.

Used to lock and unlock the interface.

Locking the interface deactivates it and all alarms and any ATM cell transfer is suppressed.

The local MO id is formed as "ETHLK-s#-p#" where

s# is the slot number 2..6. For AXCC/AXCD the right most slot.

p# is the port number [1..3].

Example "ETHLK-2-1"

The ethLinkId is the "trunk" part of the LMOID, i.e. in the above example "2-1"

This parameter specificies if link characteristics are autonegotiated or not.

If no, the attribute contains the capacity and the duplex mode to be set forcibly. Note that 100 MBit is available only

on Fast Ethernet interfaces (FE) and 1000 MBit only on the Gigabit Ethernet interface (GE).

Enables or disables alarm blocking.

List of alarms that are to be blocked. Blocked alarms are not sent to NetAct.

Identifies the alarm filter. Always defined to be 1 in AXC.

Human-readable name for the alarm filter.


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Identifies the Alarm Selection. Always defined to be 1 in AXC.

Specifies a list of consequtive timeslots that are to be used for an ATM interface, starting from timeslot 1. The

maximum number of timeslots for E1 is 31 and for T1/JT1 24.

For E1, timeslot 16 is optional and can be left out if not used. The capacity for 31 timeslots is then higher (4679

cells/s) than that of a non-fractional E1 (4528 cells/s). At least one timeslot must be used.

On T1/JT1 timeslot 16 cannot be excluded and at least two timeslots are required (1, 2).

Fractional interfaces are only supported on IFUA and IFUD.

Identifies the fractional interface of a unit.


- unit location (slot#)

- interface location (if#)

Format:

slot#-if#

Range:slot#: 2..6

if#: 1..8


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Identifies the DCN configuration.






Format:




Range:

slot#: 1..6







The three-digit value k#l#m# has to be transformed into a two-digit value.

Value range for k,l,m:

k#: 1..3

l#: 1..7

m#: 1..3

Out of the k,l and m value a three-digit number can be constructed


This 3 digit number is transformed to a new three-digit number

with the following formula:

C=127+28k+4l+m

Finally, the klm(16)# is derived by transforming the C value to a hexadecimal value:

klm(16)# = C(hex)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).

If OSPF and inATMARP are to be enabled, the value must be set to 0.0.0.0.

The interface does not participate in OSPF, in neither active nor host advertisement mode, if the value for OSPF

Extention Interface Network Identifier is set to ospfDisabled.

If OSPF Extention Interface Network Identifier is not ospfDisabled, this attribute must not be present in the structure.

Enables or disables OSPF.

If OSPF is enabled, the following parameters are to be provided:

- interfaceArea

- interfaceCost

- helloInterval

- retransinterval

- routerDeadInterval

- transitDelay


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Contains the OSPF configuration data if the value for OSPF Extention Interface Network Identifier is set to

ospfEnabled.

If OSPF Extention Interface Network Identifier is not ospfEnabled, this attribute must not be present in the structure.

Defines the type of OSPF configuration for the interface. The value is either ospfEnabled or ospfDisabled.

Specifies the value for OSPF Hello Interval in seconds.

Specifies the value for OSPF Hello Interval in seconds.

Specifies the OSPF area that the interface is to be part of.

Specifies the OSPF area that the interface is to be part of.

Specifies the cost used by the interface.

Specifies the cost used by the interface.

Specifies the value for OSPF Retransmit Interval in seconds.

Specifies the value for OSPF Retransmit Interval in seconds.

Specifies the value for OSPF Router Dead Interval in seconds.

Specifies the value for OSPF Router Dead Interval in seconds.

Contains all values related to OSPF timing.

Specifies the value for OSPF Transit Delay in seconds.

Specifies the value for OSPF Transit Delay in seconds.

Used to send information to all hosts in one subnet. The address is the last IP address in the chosen subnet.

Identifies an ethernet interface on the AXC. The first interface is always used for the LMP.

Range: slot#

where slot number = 1..6.

Contains the IP address information of the interface. The address is a sequence of Local IP Address, Destination IP

Address, Netmask and Broadcast Address.

For the LMP configuration only Netmask and Broadcast Address are supported.

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.

Network mask for the IP address of the BTS in the transport network. To be entered in dotted decimal format.

IP address of the BTS in the transport network. To be entered in dotted decimal format.


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Specifies the public IP address of the AXC that is to be deleted from the LMP.

Specifies the size of the LMP subnet, that is how many hosts on the LMP are possible.

The value is an IP address with all the network bits set to 1 and all the host bits set to 0.

Defines the type of the OSPF configuration for a given interface. The value can be either ospfHostAdvertisement or

ospfDisabled.

Specifies the type of OSPF configuration for the LMP. The value can be either ospfHostAdvertisement orospfDisabled.

If enabled, all IP packets with the public IP address in the source or destination are discarded on the LMP.

This is the egress shaping bandwidth on the network interface (in kbit/s).

The related parameter Upper Layer Shaping decides if shaping is for the IP layer only or if the ethernet overhead is

taken into account.

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.

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 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.

Specifies the interface location on the unit.

Specifies the interface location on the unit.

Identifies the interface protection group. The object is identified by unit and interface location (slot#-if#).

Value ranges:

- slot#: 2..6

- if#: 1..3 (IFUC)

- if#: 1 (IFUF)

Enables or disables Interface Protection Group to be switched when a trigger becomes active. If enabled, the

working interface is always the active one.

Specifies whether an EBER alarm will trigger a switch (false) or not (true).

Specifies whether an EBER alarm will trigger a switch (false) or not (true).

Specifies the MSP compatibility mode. It is MSP1:1 when disabled, and MSP1:1 with MSP1+1 compatibility when

enabled.

The attribute modifies the MSP mode bit 5 within the K2 byte to indicate the compatibility mode.


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Specifies the protected interface. If a problem on the interface occurs, the AXC switches the traffic to the protecting

interface.

Interface protection is available for SDH interfaces only and supported between units of the same type.

The following rules apply for IFUC:

- IF (interface) #1 can be protected by IF#1 of another IFUC or any IF#3

- IF#2 can be protected by IF#2 of another IFUC or any IF#3- IF#3 can be protected by IF#3 of another IFUC.

Specifies the protecting interface. If a problem on the protected interface occurs, the AXC switches the traffic to this

interface.

Interface protection is available for SDH interfaces only and supported between units of the same type.

The following rules apply for IFUC:

- IF (interface) #1 can be protected by IF#1 of another IFUC or any IF#3

- IF#2 can be protected by IF#2 of another IFUC or any IF#3

- IF#3 can be protected by IF#3 of another IFUC.

When revertive operation is enabled, the AXC reverts the traffic back to the working interface after recovering from

the failure that caused the protection switch.

In non-revertive mode (default), the traffic remains on the protecting interface even though the AXC recovers fromthe failure.

Specifies the location of the unit in the AXC subrack.


Contains the DHCP configuration data in case the value for DHCP Configuration Information Identifier is

"client_identifier".

If DHCP Configuration Information Identifier is not client_identifier, this attribute must not be present in the structure.


client_identifier.

If DHCP Configuration Information Identifier is not client_identifier, this attribute must not be present in the structure.

Specifies a unique string used in the DHCP server (AXC) to assign a specified IP address to a DHCP client that

requests a lease and is identified by this client-identifier label.

Specifies a unique string used in the DHCP server (AXC) to assign a specified IP address to a DHCP client that

requests a lease and is identified by this client-identifier label.

Specifies the IP address of the DHCP configuration entry to be deleted.

If the type of the DHCP configuration is range, the value should be the value of DHCP Range Start IP address.

Specifies whether the DHCP configuration to be created is of a type client, hardware or subnet range.

Specifies the type of the new DHCP configuration. Possible values are client_identifier, hardware_identifier andrange_identifier.

Specifies a fixed IP address to be assigned to the DHCP client if it requests a lease with the specified client-

identifier.

Specifies a fixed IP address to be assigned to the DHCP client if it requests a lease with the specified hardware

(MAC) address.


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It is the fixed IP address to be assigned to the DHCP client if it requests a lease with the specified hardware (MAC)

address.

Specifies the fixed IP address to be assigned to the DHCP client if i t requests a lease with the client-identifier.

Specifies a unique hardware (MAC) address used in the DHCP server (AXC) to assign an IP address to a DHCP

client that requests a lease and is identified by this hardware address.

Specifies a unique hardware (MAC) address used in the DHCP server (AXC) to assign a specified IP address to a

DHCP client that requests a lease and is identified by this hardware address.

Specifies the ending IP address of the DHCP range (pool).

Specifies the starting IP address of the DHCP range (pool).

Specifies the starting IP address of the DHCP range (pool).

Identifies the DHCP Server in the AXC. Since the AXC contains only one DHCP server, the identifier is always 1.

Automatic generation of value if user does not insert it


hardware_identifier.

If DHCP Configuration Information Identifier is not hardware_identifier, this attribute must not be present in the

structure.

Contains the DHCP configuration data in case the value for DHCP Configuration Information Identifier is set to

hardware_identifier.

If DHCP Configuration Information Identifier is not hardware_identifier, this attribute must not be present in the

structure.


range_identifier.

If DHCP Configuration Information Identifier is not range_identifier, this attribute must not be present in the structure.


range_identifier.

If DHCP Configuration Information Identifier is not range_identifier, this attribute must not be present in the structure.

Specifies the ending IP address of the DHCP range (pool).

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.


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Identifies the IMA group on a unit by unit location and IMA group number (slot#-imag#). The IMA group number must

be unique for the unit.

The value ranges:

slot#: 1..6

imag#: 33..99

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 (default). This version is the

most common one.

The value must be the same at both local and remote site. The configured value can be different from the actual

value.

Defines the location of the interface on the unit.

All interfaces in a single IMA group must be located on the same unit.

Specifies the maximum allowed differential link delay (in milliseconds) among the constituent physical links.

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 fraction of ATM user cells to the IMA frame cell in the transmit direction. For example, m128 (default)

means one IMA cell and 127 ATM cells (payload).

Specifies the IP addresses of the NTP servers.

Enables or disables NTP synchronization. If enabled, the AXC requests the current time from the specified NTP

server.

Identifies the NTP entity on the AXC. It is always 1.

Specifies the IP address of the NTP server entry to be created.

Specifies the IP address of the NTP server entry to be deleted.

Base Station Identifier.

The identifier is not to be specified for Stand-alone AXC.

Reserved values: 0 = "BTS not configured" and 0xFFFF (=65535) "RNC not configured"

This parameter selects between the transport modes AtmOverEthernet and Iub/IP. It cannot be modified by online

configuration management. Default value is AtmOverEthernet.

IP Address of the Base Station. Address under which the Base Station is available remotely.

Identifies the IP node entity on the AXC. Since the AXC represents one IP node, the identifier is always 1.

Specifies the near-end IP address for all ATM point-to-point connections (IPoA) or for the LMP.


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IP Address of the RET, which is connected to the Base Station.

IP Address of the RNC to which the Base Station is connected.

With this parameter the user can select the way how to define source two.

Possible values are: ALIAS: reference to an IP source already configured in the system for other contexts

SINGLE: a single IP address

RANGE: a range of IP addresses given by an IP address and a subnet mask

WILDCARD: any IP adress is allowed

Identifies the Restricted Mode Functionality (IP-Filter).The value is always 1.

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 IP addresses for source two.

The netmask must be given as "dotted decimal" string, e.g. "255.255.255.0"

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 by "ALIAS".

In all other cases this parameter is ignored.

It specifies source two by reference to a sigle IP address (or a group of IP addresses) and ports which have been

defined already in another configuration scope. Referencing it with an alias name saves the user to specify it here

again.

Allowed values are:

- RNC

- NWI3_REGISTRATION_SERVER

- NTP_SERVER- LDAP_SERVER

Define the port(s) which will be associated to source one in this RM exception. Allowed input is EITHER "*" for all

ports OR a range of ports in the form "200-280" OR a list of single ports like "15, 17, 1055". (But no combinations

like "15,200-300") Lists of ports are limited to 10 ports. Port 0 must not be included in the resulting set.

This parameter is ignored if source two is defined as "ALIAS".

Define the port(s) which will be associated to source two in this RM exception. Allowed input is EITHER "*" for all

ports OR a range of ports in the form "200-280" OR a list of single ports like "15, 17, 1055". (But no combinations

like "15,200-300")

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. However, from AXC C3.0 on,

it is possible to configure exceptions, so that defined IP traffic will still be allowed, for example communication with

an LDAP server or administration of other base stations through the LMP of the local one. This means that

administration of the Restricted Mode consists in defining exceptions from the general blocking of traffic to the

outside world. An RM exception is defined in terms of the near-end IP source ("source one") such as LMT, TRS,

BTS and any far-end IP source ("source two"), such as a server, the RNC or a remote base station. IP sources are

defined as combinations of (sets of) IP addresses and IP ports.

Selects the near-end IP source for the RM Exception. Possible values are BTS, TRS and LMP


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An alphanumeric string asigned by the user to uniquely identify the RM Exception

Specifies the IP address for indirectly connected (point-to-point) IP nodes (remote network).

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 route to be deleted.

Specifies the IP address for the next IP hop via which a remote network is reachable.

Specifies the IP address of the next IP hop via which a remote network can be reached.

Identifies the IP routing entity on the AXC for DCN. The value is always 1.

Contains a list of the static routes.

Specifies the netmask of the route to be deleted.

Specifies the mask of the remote network.

Specifies the mask of the remote network.

If a default gateway shall be defined, the value is to be set to 0.0.0.0.

Used to create an OSPF area.

Identifies the OSPF entity on the AXC. The identifier is always 1.

Specifies a unique identifier for the OSPF area in IP address notation.

Specifies whether the OSPF area is a stub area.

Specifies the default cost to be used for the OSPF area in case "ospfAreaStub" is enabled.

Returns the type of the module. For the TOP chip set the value is T32107.13.

Defines the type of the module expected for a specific unit. For the TOP chip set the expected type is T32107.13.

This is the naming attribute of the class. Currently only the TOP chip set is modelled. The value is therefore always

1.

Specifies the interval by which the AXC tries to obtain the publication service in certain error situations.

The parameter is optional since the AXC may be able to function without waiting for the state of the publication

service

Specifies the interval (in minutes) by which the AXC must send heartbeats to NetAct in order for it to detect AXC

failures.

The password, which is used for the initial registration of the AXC in NetAct. It is available only in encrypted format.

The username, which is used for the initial registration of the AXC in NetAct. It is available only in encrypted format.


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Identifies the Mediator Configuration by a number (index#). The value range is 0..9999999999.

Configuration Root DN of the primary LDAP Server.

People Root DN of the primary LDAP Server.

IP Address of the primary LDAP server.

Primary LDAP Server Port

Specifies the interval (in minutes) by which the AXC must republish its notification types in some error situations.

Specifies the interval (in minutes) by which the AXC must re-register with the Registration Service during normal

operation (no failures).

Specifies the base interval (in minutes) by which the AXC must retry registration with the Registration Service if

either initial registering or re-registering with the Registration Service fails.

The length of the interval is determined by Registration Retry Base Period and Retry Random.

Specifies the randow part of the interval (in minutes) by which the AXC must retry registration with the Registration

Service if either initial registering or re-registering with the Registration Service fails.

The length of the interval is determined by Registration Retry Base Period and Retry Random.

Configuration Root DN of the secondary LDAP Server

People Root DN of the Secondary LDAP Server.

IP Address of the secondary LDAP server.

Secondary LDAP Server Port

Specifies whether the configuration will be used as the next configuration.

Can be used to define a label for the registration/publication configuration.

Specifies a unique identifier for the AXC in the network in the format NE-AXC-. The can contain up

to 10 characters.

The System ID is the Base ID without the "NE-" part.

Points to an N3CF object. The format is N3CF-, where the can contain up to 10 characters.

Identifies the Mediator entity on the AXC. The identifier is always 1.

Specifies a unique identifier for the AXC in the network in the format NE-AXC-. The can contain up

to 10 characters.

The System ID is the Base ID without the "NE-" part.

Specifies the Base ID currently in use in the format NE-AXC-. The can contain up to 10 characters.

The string can also be empty.

Specifies the time (in seconds) that the AXC waits before restarting the Registration and Publication Service.

Specifies the time (in seconds) that the AXC waits before shutting down the Registration and Publication Service.


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Allows the next registration/publication configuration object to be used after a restart of the AXC's

Registration/Publication Service (or AXC reboot).

Enables or disables the Neigbour Node Discovery (NND) functionality for an ATM interface (TCTT).

Identifies the Neigbour Node Discovery interface.

The object is identified by- interface type (SVTT, PPTT, IMAG)


- interface location (if#, imag#, k#l#m#)

Possible formats:

- SVTT-slot#-if# (for example, SVTT-2-1)

- SPTT-slot#-if#

- SPTT-slot#-k#l#m#

- IMAG-slot#-imag#

Value ranges:

- slot#: 1..6

- if#:

IFUA: 1..8

IFUC: 1..3

IFUD: 1..8

IFUE: 1..16

IFUF: 1

AXCC: 1..8

AXCD: 1..8

- imag#: 33..99

- k#: 1..3

- l#: 1..7

- m#: 1..3

Specifies the System ID of the neighbour node.

Specifies the identifier of the neighbours slot/interface(index) managed entity that is connected to this network

element.



Specifies the Bit Error Rate threshold that is acceptable before a signal degrade occurs in the local receiver.

The Bit Error Rate in 1 * 10E-[berMode] is the result of the number of all received error bits divided by the number of

all transmitted bits.

Specifies the incoming power for the PDH interface. For E1/T1/JT1 the AXC will automatically change the value

based on the quality of the received signal.


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Identifies the PDH interface on a unit.



- interface location (if#, k#l#m#)

slot#-if#|k#l#m#

Value ranges:

AXCC/D:

- slot#: 1

- if#: 1..8

IFUA/IFUD:

- slot#: 2..6

- if#: 1..8

IFUE:

- slot#: 2..6

- if#: 1..16

IFUF:

- slot#: 2..6- k#: 1..3

- l#: 1..7

- m#: 1..3

The IFUF provides an SDH interface to which up to 64 PDH interfaces can be multiplexed. Those 64 PDH interfaces

are identified by the following:

- k identifies the Tributary Unit Group 3 (TUG-3)

- l identifies the Tributary Unit Group 2 (TUG-2)

- m identifies the Virtual Container-12 (VC-12)

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 and JT1 interfaces.

Specifies the frame format of the PDH signal for a physical PDH interface of a unit.

Enables or disables the Q1 support. The parameter can be enabled only for E1 interfaces of IFUA, IFUD and IFUE,

but not AXCC or AXCD. It cannot be enabled if the interface is used for CES or Fractional.

Furthermore, Q1 Support Function (Q1SF) must be configured.

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.


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Downlink MPLS Header (inner label)

This parameter shall define for each PW the maximum time allowed to create a PW frame.

Value range is [240, 4800] s, recommended values are 480, 960, 1960, 2880, 3840 and 4800 s.

Please note that small deviations between actual and nominal values exist in the implementation. These must be

taken into account by the planning tools.

Per hop behaviour.The DSCP (DiffServ CodePoint) value is stored in the first 6 bits of the Type of Service (ToS) field that is part of the

standard IP header. Using the perHopBehaviour as offset into the table, the DSCP value is determined from the

trafficTypesMap of the unique QOS class' object instance.

Trunk part of the LMOID, defined by slot#-mp#

where

slot# = 2..6 (For AXCC and AXCD only the rightmost slot can be used)

mp# = 1..6

This parameter references the associated pseudowire tunnel, i.e. the instance of class PWTIP.

The parameter value is a fully distinghuished name.

Set of registered vcCTPs, represented as LocalMOId strings of VCCT.

Format: VPTT-slot#-if#-vpi#/VCCT-vci#

slot#: 2..6: slot of pwMplsId parameterif# : 1..16

vpi#: range determined by maxNumVPIBitsSupported parameter (class ACCP)

vci#: range determined by maxNumVCIBitsSupported parameter (class ACCP)

Uplink Concatenation Factor.

Uplink MPLS Header (inner label)

The negotiated BFD control word transmission interval, multiplied by this parameter, provides the detection time for

lost packets in the BFD session of this pseudowire. Roughly speaking bfdDetectMult is the number of BFD control

packets that the AXC may lose in a row, before it shall declare the BFD session to be down.

This parameter holds the settings for the desired minimum BFD control word transmission interval and for the

required minimum BFD control word receive interval for the BFD session of this pseudowire.

Enables the setting of the Control Word bits in the data packet.

This parameter specifies the minimum interval, that the AXC would like to use when transmitting BFD control

packets for the BFD session of this pseudowire.

The naming string has always the value "1", as there is only one instance of the class PWNE. The LMOId of this

instance is hence "PWNE-1"

This parameter specifies the minimum interval between received BFD control packets that the AXC shall support forthe BFD session of this pseudowire.



This parameter shall define the IPv4 address of the default gateway for the Node B. The address will range from

0.0.0.0 (7 characters) to 255.255.255.255 (15 characters)


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Identifier for the Pseudowire Tunnel

pwt#: 1

slot#: 2..6 (for AXCC and AXCD only the rightmost slot can be used).

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 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 Best Effort (BE).

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 parameter designates a Per Hop Behaviour.

The following values are predefined:

0 = EF (meaning: Expedited Forwarding)

1 = AF4(Assured Forwarding 4)




5 = BE(Best Effort).

This is a set of 5 weight values for the traffic queues associated to the Per-Hop Forwarding Behaviours:

- Assured Forwarding 4 (AF4)




- Best Effort (BE).

Weight value range is between 0 and 10.000.

Value 0 means that the queue is not used.

This parameter identifies the unique instance of the Quality of Service object class of the AXC. The values is always

1.

This table maps traffic types to Per Hop Behaviours and to other quality of service properties, including VlanId,

VlanPrio and DSCP values.


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This parameter designates a traffic type.

Values for transport mode AtmOEth:

"TT_TOP"

"TT_SG1" - Pseudowire (PW) for perHopBehaviour (pHB) EF

"TT_SG2" - PW for pHB AF4



"TT_SG5" - PW for pHB AF1"TT_SG6" - PW for pHB BE

"TT_ICMP"

Values for transport mode IubIP:

"TT_DCN"

"TT_NBAP"

"TT_BFD"

"TT_TOP"

"TT_SG1" - Signalled traffic for pHB EF

"TT_SG2" - Signalled traffic for pHB AF4




"TT_SG6" - Signalled traffic for pHB BE

"TT_ICMP"

This is the vlan priority to be used on all connections for a given Per Hop Behaviour.

Specifies the Bit Error Rate threshold that is acceptable before a signal degrade occurs in the local receiver.

The Bit Error Rate in 1 * 10E-[berMode] is the result of the number of all received error bits divided by the number of

all transmitted bits.

Enables or disables RDI on EBER that is set in SDH/SONET frame if the Bit Error Ratio of the connection is

exceeded.

Identifies the SDH interface on an IFUC or the TUG-3 on an IFUF unit.



- interface location (if#)

Format:

slot#-if#|100

Value ranges

- slot#: 2..6

- if#: 1..3 (IFUC)

- if#: 100 (IFUF)



Switches the laser on or off separately for each SDH interface. Automatic switching is not provided.

Specifies how the 2Mbit/s signal is mapped into the SDH signal. This only applies to IFUF where 2Mbit/s signals

exist. The default value is used for IFUC.


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Identifies the SDH interface on a unit.



- interface location (if#, if#00)

Format:

slot#-if#|if#00

Value ranges:

- slot#: 2..6

- if#: 1..3 (IFUC)

- if#00: 100 (IFUF)

Specifies the interface type independently for each IFUC interface.

There is no need to specify the type for IFUF, because STM-1, VC-12 is the only supported framing on IFUF.

Specifies a signal label that is expected from 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 AXC.

Identifies the SDH interface on a unit.



- interface location (if#, if#00)

Format:

slot#-if#|if#00

Value ranges:

- slot#: 2..6

- if#: 1..3 (IFUC)

- if#00: 100 (IFUF)

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.


Specifies the frequency on the synchronization input interface ERC2.

ERC2 supports 1.544MHz, 2.048MHz and 2Mbit/s (default).

Specifies the frequency on the synchronization input interface ERC2.

ERC2 supports 1.544MHz, 2.048MHz and 2Mbit/s (default).

Specifies either the interface location on the unit (value range 1..16) or references an instance of classTimeOverPacket (value range 33..). 33 maps to object "TOPIK-1", 34 to object "TOPIK-2" etc.

The value "0" means that the external synchronization source is used. It is valid only when the unit location has been

defined to be "1".


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Specifies either the interface location on the unit (value range 1..16) or references an instance of class

TimeOverPacket (value range 33..). 33 maps to object "TOPIK-1", 34 to object "TOPIK-2" etc.

The value "0" means that the external synchronization source is used. It is valid only when the unit location has been

defined to be "1".

Specifies the priority of the new source clock. Priority 1 means the source becomes active and priority 2 means thesource becomes standby.

If a source with priority 1 already exists and a second one is also created with priority 1, the first one switches to

standby (priority 2) and the new source becomes active (priority 1).

A maximum of three sources is allowed, but the last one is always the internal clock.

Specifies the priority of the source clock. Priority 1 means the source becomes active and priority 2 means the

source becomes standby.

If a source with priority 1 already exists and a second one is also created with priority 1, the first one switches to

standby (priority 2) and the new source becomes active (priority 1).

A maximum of three sources is allowed, but the last one is always the internal clock.

Specifies the Synchronisation Protection Group on the AXC. The identifier is always 1.

Specifies the primary synchronization source. It can be a PDH/SDH interface or an external clock connected to the

AXUA, AXUB, AXCC or AXCD.

Specifies the secondary synchronization source. It can be a PDH/SDH interface or an external clock connected to

the AXUA, AXUB, AXCC or AXCD.

The AXC switches to the secondary synchronization source in case the primary synchronization source fails.

Points to the associated instance of a timing source. It can be a clock source of either PDH or SDH/SONET

interface or an external clock source.

Points to the associated instance of a timing source. It can be the clock source of either a PDH or SDH/SONET


Points to the associated instance of a timing source. It can be a clock source of either PDH or SDH/SONET




Specifies a signal label that is expected from the remote site. The Trace Identifier is located in the J1 byte of the

RSOH in the SDH/SONET frame.



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Specifies the Virtual Container in an SDH interface on an IFUC or IFUF unit. Virtual Containers exist on the High

Order Path (VC-4/VC-3) and Low Order Path (VC-12). The Low Order Path is only supported on IFUF.

On the high order path the object is identified by


- interface location (if#, k#00)

Format:slot#-if#|k#00

Value ranges:

- slot#: 2..6

- if#: 1..3 (IFUC)

- k#: 1 (IFUF)

On the low order path the object is identified by


- interface location (k#l#m#)

The IFUF provides an SDH interface to which up to 64 VC-12s can be multiplexed. These VC-12s are identified by

their k, l and m values:

- k identifies the Tributary Unit Group 3 (TUG-3)

- l identifies the Tributary Unit Group 2 (TUG-2)- m identifies the Virtual Container-12 (VC-12)

The value ranges are:

- k#: 1..3

- l#: 1..7

- m#: 1..3

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.


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Identifies the ATM Interface. The object is identified by

- Interface Type (SVTT, PPTT, IMAG, PWTIP)


- Interface Location (if# or imag# or k#l#m# or pwt#).

Format:

- SVTT-slot#-if# (e.g. SVTT-2-1)

- SPTT-slot#-if# - SPTT-slot#-k#l#m#

- IMAG-slot#-imag#

- PWTIP-slot#-pwt#.

Range:

slot#: 1..6

if#: IFUA: 1..8

IFUC: 1..3

IFUD: 1..8

IFUE: 1..16

IFUF: 1

AXCC: 1..8

AXCD: 1..8

imag#: 33..99

k#: 1..3

l#: 1..7

m#: 1..3

pwt#. 1 (fixed).

Enables the generation of utilization zone performance data.

The counters provide the total number of seconds in which the used transmission bandwidth on the ATM Interface

was (0-25, 25-50, 50-75, 75-87, 87-100)% of its maximum bandwidth.

This attribute defines under which condition a utilization alarm shall be raised

Accumulated time in seconds, the thresholdValue has been exceeded.

Enables or disables the generation of ATM Interface Disabled Alarm (61070). If enabled, this alarm is generated

when the Operational/Administrative State of the PDH, SDH/SONET or IMA Group is disabled/locked, or in case of

Loss of Cell Delineation (LOCD).

Value to be selected as percentage of the available bandwidth. ("utilization zone")

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 Iub/IP transport mode.

DCN Committed Bit Rate.

This parameter is only valid in case of IubIP mode.


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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 0s. It must be entered in dotted decimal format.


The associated subnet mask is defined in parameter farEndSctpSubnetMask.

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. This parameter is only valid in case of IubIP

mode.

The value range is [49152 - 65529] for Ultra and [49152 - 65534] otherwise.

Default value is 49152.

This is is the minimum value of the port number to be used over UDP connections.

This is a the next hop IP address to reach the router for Iub/IP.

This parameter specifies the unit over which the Iub/IP traffic is carried.

Value range = 1..6, the slot number of the unit, as follows:

In case of AtmOverEthernet transport mode the parameter has no meaning. It references the AXU unit and has

value 1.

In case of IubIP transport mode the parameter references one of the IFUH units, value range = 2..6.

Signalling Committed Bit Rate.


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.

IP address of the ToP master. To be entered in dotted format.

This parameter uniquely defines the instance of the ToP class. The value corresponds to the number of the slot that

contains the IFUH card with the TOP chip set.

This indicates how often a ToP sync message shall be send by the ToP master within the transmission duration

request period. (The transmission duration period currently is fixed to 300 seconds.)

The following values are defined:

-3:8 per second

-4:16 per second

-5:32 per second

This parameter holds the state of the TimeOverPacket master clock. It is a read-only parameter.

Next Hop IP address for reaching the ToP master. To be entered in dotted decimal format. Value 0.0.0.0 indicates

"not used".


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Defines the Parent of the AXC. It defines where the AXc is located in the Network Management topology view.

The Parent NE ID is left empty in case of a stand-alone AXC.

The format is:

||

NE|NE-RNC-|DN:NE-WBTS-or

||

NE|NE-IADA-|DN:NE-WBTS-

The can contain up to 10 characters.

= NE

= Base ID of the RNC or IADA that controls the

WBTS in which the AXC is located.

NE-RNC- | NE-IADA-

= unique identifier of the WBTS in which the AXC is

located and that belongs to the RNC or IADA.

DN:NE-WBTS- and specify a unique

identifier for the WBTS in the whole network.

Example: WCDMA: NE|NE-RNC-123|DN:NE-WBTS-1

I-HSPA: NE|NE-IADA-123|DN:NE-WBTS-1

Specifies the Topology entity on the AXC. The identifier is always 1.

Specifies the acceptable variation (in microseconds) of the egress traffic over the peak cell rate and is applied to all

service categories. It provides a measure of jitter in the transmitted cell pattern due to multiplexing.

Specifies the type of conformance test performed on the traffic stream by Usage Parameter Control (UPC).

The AXC enforces the correspondence between conformance definition and service category. For CBR the

conformance definition is CBR.1 and for UBR either UBR.1 or UBR.2.

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 MDCR value applies to both ingress and egress

traffic.

Note: The MDCR cannot exceed the Peak Cell Rate.

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 second. It cannot be greater than the line rate of the source.

This parameter identifies a traffic descriptor in the AXC.

The parameter type is a string. Please use numbers "6".."1024" as values.Traffic descriptors with number "1".."5" and with value "NND-UBR" are for internal use in the AXC and shall not be

used for connection termination points on traffic interfaces.

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 egress MDCR and up to egress MDCR

+ egressUBRshare_i / Sum(egress UBRshare_i) * egress EBW. Where egress EBW is the currently available

egress bandwidth for the traffic of all the UBR connections sharing the same ATM interface. The value of UbrShare

applies to both ingress and egress traffic.

A string that can be used as label to describe the ATM traffic descriptor.


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Returns the type of the hardware unit in the slot with position equal to unitId.

AXUA: T32107.01

IFUA: T32107.02

IFUD: T32107.03

IFUC: T32107.05

IFUE: T32107.06

IFUF: T32107.07AXUB: T32107.09

AXCC: T32107.10

AXCD: T32107.11

IFUH: T32107.12

Defines the type of unit expected in a slot (EQHO):

IFUA: T32107.02

IFUD: T32107.03

IFUC: T32107.05

IFUE: T32107.06

IFUF: T32107.07

IFUG: T32107.08

IFUH: T32107.12

AXUA, AXUB, AXCC and AXCD must not be configured. Furthermore, the maximum number of slots (2..6) depends

on the base station/subr

AXC Equip, C5.5 Parameters All MO's

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