Paradyne 8820, 8620 manual entPhysicalEntry entPhysicalTable 1 2 Sup Object, EntPhysicalIndex

Page 62

1. Network Management Specification

Table 1-59. entPhysicalEntry {entPhysicalTable 1} (2 of 2)

 

 

 

 

 

Sup-

Object

OID

Syntax

Access

Status

ported

 

 

 

 

 

 

entPhysicalModelName

{entPhysicalEntry 13}

SnmpAdminString

read-only

current

Yes

 

 

 

 

 

 

entPhysicalAlias

{entPhysicalEntry 14}

SnmpAdminString

read-write

current

Yes

 

 

 

 

 

 

entPhysicalAssetID

{entPhysicalEntry 15}

SnmpAdminString

read-write

current

Yes

 

 

 

 

 

 

entPhysicalIsFRU

{entPhysicalEntry 16}

Truth Value

read-only

current

Yes

 

 

 

 

 

 

7.1.2.1.1entPhysicalIndex

The index for this entry.

Valid Object Value(s):

The value of this object is based on the ifIndex in the Interfaces Group. Refer to Evolution of the Interfaces Group of MIB-II (RFC 2863) on page 1-18for further details of these indexes. The following are the values for the entPhysicalIndex object based on that scheme.

Table 1-60. entPhysicalIndex

Entity

R

R

C

C

S

S

L

P

P

P

Comments

 

 

 

 

 

 

 

 

 

 

 

 

Chassis

0

0

0

1

0

0

0

0

0

0

Chassis

 

 

 

 

 

 

 

 

 

 

 

 

Container

0

0

0

1

Y

Y

0

0

0

0

Slot ’yy’, yy=[1..20]

 

 

 

 

 

 

 

 

 

 

 

 

Module

0

0

0

1

Y

Y

0

0

0

1

Module (SCPs and ATM portcards) in

 

 

 

 

 

 

 

 

 

 

 

slot ’yy’, yy=[1..20]

 

 

 

 

 

 

 

 

 

 

 

 

Splitter card

0

0

0

1

Y

Y

0

0

0

3

Splitter in slot ’yy’, yy=[1..20]

 

 

 

 

 

 

 

 

 

 

 

 

DSL Port

0

0

0

1

Y

Y

1

0

Z

Z

Dsl user ports, yy=[1..20], zz=[1..48]

 

 

 

 

 

 

 

 

 

 

 

 

t1e1 port

0

0

0

1

0

0

1

9

0

Z

T1/E1 ports, z=[1..8]

 

 

 

 

 

 

 

 

 

 

 

 

OC3 port

0

0

0

1

0

0

1

9

0

Z

OC3 ports, z=[1..2]

 

 

 

 

 

 

 

 

 

 

 

 

Console port

0

0

0

1

0

0

1

8

0

1

Console port

 

 

 

 

 

 

 

 

 

 

 

 

Ethernet Mgmt port

0

0

0

1

0

0

1

8

0

2

Ethernet port

 

 

 

 

 

 

 

 

 

 

 

 

Temp Sensor

0

0

0

1

0

0

0

1

0

Z

Temperature Sensor in chassis ‘z’,

 

 

 

 

 

 

 

 

 

 

 

z=[1..3]

 

 

 

 

 

 

 

 

 

 

 

 

Fan

0

0

0

1

0

0

0

1

1

Z

Fan ‘z’in Chassis, z=[1]

 

 

 

 

 

 

 

 

 

 

 

 

Management Plane PLD

0

0

0

1

Y

Y

0

1

2

1

Management Plane PLD in slot yy,

 

 

 

 

 

 

 

 

 

 

 

yy=[1..20]

 

 

 

 

 

 

 

 

 

 

 

 

Power Supply

0

0

0

1

0

0

0

1

3

Z

Power Supply ‘z’in Chassis, z=[1..2]

 

 

 

 

 

 

 

 

 

 

 

 

7.1.2.1.2entPhysicalDescr

A textual description of physical entity. This object should contain a string which identifies the manufacturer’s name for the physical entity, and should be set to a distint value for each version or model of the physical entity.

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June 2003

8000-A2-GB30-00

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Contents Hotwire 8620 Copyright 2003 Paradyne Corporation All rights reserved Contents Contents June About This Guide Section DescriptionProduct-Related Documents Document Number Document TitleName Description GranDSLAM 3.0 Network Management InterfaceSupported RFCs and MIBs 1 Supported RFCs and MIBs 2 Supported RFCs and MIBs 3 IMA MIBSupported RFCs and MIBs 4 PDN-ENTITY-REDUNDANCY-MIBSupported RFCs and MIBs 5 PDN-DS1EXT-MIBOther Supported RFCs Used as Guidelines for Implementation Name/DescriptionDSX Traps Standards Compliance for Snmp TrapsSummary of Traps 1 Description VarBinds Standard Traps ATM-M4 TrapsShdsl MIB Traps Summary of Traps 2 Description VarBindsEntity MIB Traps Summary of Traps 3 Description VarBinds Enterprise Specific Traps Summary of Traps 4 Description VarBindsSonet Linear APS MIB Traps Adsl Specific Traps Summary of Traps 5 Description VarBindsSummary of Traps 6 Description VarBinds IMA Traps Summary of Traps 7 Description VarBindsStandards Compliance to Snmp MIBs GranDSLAM Interfaces SysDescr Object system Management Information Base MIB-II RFCSystem Group, MIB-II RFC SysObjectID Object system SysServices Object systemSysServices Layer L Functionality Value2L-1 Sum SysUpTime Object systemIfIndex Object ifEntry Evolution of the Interfaces Group of MIB-II RFCIfNumber Object interfaces IfIndex schemeGranDSLAM 3.0 Interface List Layer Supported Maximum IfName Interface indexes ifIndex IfIndex Assignments IfDescr Object ifEntryIfMtu IfType Object ifEntryIfMtu Object ifEntry Interface IfMtuIfSpeed IfAdminStatus Object ifEntryIfSpeed Object ifEntry Interface IfSpeedIfOperStatus Object ifEntry IfAdminStatusInterface IfAdminStatus IfOperStatusIfLastChange Object ifEntry IfInUcastPkts Object ifEntry 14. ifInUncastPkts Interface IfInUncastPkts Object ifEntry 15. ifInUncastPkts InterfaceIfInErrors Object ifEntry 17. ifInErrors Interface IfInDiscards Object ifEntry 16. ifInDiscards InterfaceETH1 IMA IfOutUcastPkts Object ifEntry 20. ifOutUcastPkts Interface IfOutNUcasts Object ifEntry InterfaceIfOutQLen ifEntry IfOutErrors Object ifEntry InterfaceIfOutDiscards Object ifEntry 22. ifOutDiscards Interface Extension to the Intf. Table ifXTable RFC IfLinkUpDownTrapEnable Object ifXEntryIfSpecific ifEntry 24. Extension to the Interface TableInterface Stack Group RFC IfStackHigherLayer Object ifStackEntryTransmission Group, MIB-II RFC 1213 Supported IfStackLowerLayer Object ifStackEntryIfStackStatus Object ifStackEntry Snmp Group, MIB-II RFCNetwork Management Specification Physical Layer Adsl MIB RFC 28. Adsl MIB Comments DS1 MIB RFC 31. DS1 MIB Comments Paradyne ReachDSL MIB pdnreachDSL.mib30. ReachDSL MIB Comments Paradyne DS1-EXT MIB PDN-DS1EXT-MIBPdnDs1ExtConfLineLengthType RW PdnDs1ExtConfConnector RW32. DS1-EXT MIB Comments PdnDs1ExtConfLineLength RWSonetSESthresholdSet SONET-MIB RFC 33. SONET-MIB CommentsSonetMediumEntry 34. sonetMediumEntry Comments SonetPathCurrentWidthDevSonetXmitClkSrc DevSonetStatusChangeTrapEnableBy default, this object is enabled DevSonetStatusLastChangeSpectrum Management pdnspectrummgmt.mib NewSpectrumMgmtGeneralConfigEntry36. Shdsl MIB Comments 37. Spectrum Management Comments38. ATM MIB Comments ATM Interface Configuration Parameter Group RFCLink Layer ATM AtoM MIB RFC AtmInterfaceMaxVpcs Object atmInterfaceConfEntryAtmInterfaceMaxVccs AtmInterfaceMaxVccs Object atmInterfaceConfEntry40. atmInterfaceMaxVccs AtmInterfaceConfVpcs Object atmInterfaceConfEntryAtmInterfaceMaxActiveVciBits Object atmInterfaceConfEntry AtmInterfaceIlmiVpi AccessAtmInterfaceIlmiVci Access AtmInterfaceMaxActiveVciBitsAtmInterfaceMyNeighborIfName Object atmInterfaceConfEntry AtmInterfaceMyNeighborIpAddress AccessAtmInterfaceMyNeighborIfName Access AtmInterfaceCurrentMaxVpiBits Object atmInterfaceConfEntryAtmInterfaceSubscrAddress Object atmInterfaceConfEntry AtmInterfaceTCAlarmState Object atmInterfaceTCEntryAtmInterfaceCurrentMaxVciBits Object atmInterfaceConfEntry AtmInterfaceSubscrAddressATM Traffic Descriptor Group RFC AtmServiceCategory Object atmTrafficDescrParamEntryVirtual Channel Link VCL Configuration Group RFC 54. Traffic Descriptor TypesAtmVccAalType Object atmVclEntry AtmVclOperStatus Object atmVclEntryAtmVclLastChange Object atmVclEntry AtmVccAal5CpcsTransmitSduSize Object atmVclEntryVirtual Channel Cross Connect Group RFC AtmVcCrossConnectRowStatus Object atmVcCrossConnectEntry55. Object Supported in ATM Forum MIB Type AtmfM4TcAlarmSeverityIndexObject atmfM4TcAdapterEntryAtmfM4MIB- Snmp M4 Network Element View MIB atmfM4MIB TC Adapter Layer Table atmfM4TcAdapterEntryAtmfM4IfType Object atmfM4ATMLayerEntry AtmfM4VcXConnRecover Object atmfM4VcXConnEntry1ATM Cell Layer Table atmfM4ATMLayerEntry AtmfM4IfSubscriberAddress Object atmfM4ATMLayerEntry56. Paradyne Extensions to ATM MIBs 1 Sup Object Type Ported ATM Loopback 57. ATM Loopback CommentsGoto tryagain IMA MIB AF-PHY-0086.001 58. IMA MIB Object EntityPhysical Group Syntax Access Status PortedEntity MIB version 2 Objects supported 59. entPhysicalEntry entPhysicalTable 1 1 Sup Object60. entPhysicalIndex Entity Comments 59. entPhysicalEntry entPhysicalTable 1 2 Sup ObjectEntPhysicalIndex EntPhysicalDescr61. entPhysicalDescr Entity Description EntPhysicalVendorType63. entPhysicalVendorType 1 Entity EntPhysicalVendorType 64. entPhysicalContainedIn Entity EntPhysicalContainIn 63. entPhysicalVendorType 2 Entity EntPhysicalVendorTypeEntPhysicalContainedIn EntPhysicalParentRelPos EntPhysicalClass65. entPhysicalClass Entity EntPhysicalClass EntPhysicalHardwareRev EntPhysicalName67. entPhysicalName Entity EntPhysicalName EntPhysicalFirmwareRev 68. entPhysicalHardwareRev Entity EntPhysicalHardwareRevEntPhysicalSoftwareRev 69. entPhysicalFirmwareRev 1 Entity EntPhysicalFirmwareRev70. entPhysicalSerialNum Entity EntPhysicalSerialNum 69. entPhysicalFirmwareRev 2 Entity EntPhysicalFirmwareRevEntPhysicalSerialNum EntPhysicalMfgName72. entPhysicalModelName 1 Entity EntPhysicalModelName 71. entPhysicalMfgName Entity EntPhysicalMfgNameEntPhysicalModelName 73. entPhysicalAlias Entity EntPhysicalAlias 72. entPhysicalModelName 2 Entity EntPhysicalModelNameEntPhysicalAlias EntPhysicalIsFRU EntPhysicalAssetID74. entPhysicalAssetID Entity EntPhysicalAssetID 75. entPhysicalIsFRU 1 Entity76. entLogicalEntry entLogicalTable Sup Object 75. entPhysicalIsFRU 2 Entity EntPhysicalIsFRUEntityLogical Group EntLogicalIndexEntLogicalContextEngineID EntLogicalTAddressEntLogicalIPDomain EntLogicalContextNameEntityGeneral Group MpeEntPhysicalExtAdminStatusEntPhysicalChildIndex Entity EntPhysicalIndex Semantic EntityNotifications GroupEntity Sensor MIB RFC EntPhySensorValueUpdateRateMpeEntPhysicalExtOperStatus 81. Entity Sensor MIB CommentsIfMauIndex RO IfMauTable Supporte Object Type AccessIfMauIfIndex RO IfMauType ROIfMauAutoNegSupported RO IfMauDefaultType RWIfMauStatus RO IfMauTypeListBits ROPdnMgmtIpPortIndex NA 84. PDN-MGMT-IP-MIB Object Type SupportedPdnMgmtIpPortTable PdnMgmtBootVpi RW PdnMgmtIpConfigMode RWPdnMgmtBootIfIndex RW PdnMgmtBootVci RWPdnMgmtAtmVpi NA PdnMgmtAtmInvArpTablePdnMgmtAtmIfIndex NA PdnMgmtAtmVci NASnmpEngineID SnmpEngineBootsSupporting MIBs SNMP-MPD-MIB RFC SnmpEngineTimeSnmpTargetParmsTable SNMPv1 traps Default valuesSNMPv2 traps Default values SnmpUnavailableContexts and snmpUnknownContextsSupporting MIBs View-based Access Control VacmUser-based Security Model USM RFC StatisticsVacmSecurityToGroupTable VacmAccessTableVacmContextTable VacmViewTreeFamilyTableApsConfigMode Link Fault Management86. pdnLinkFaultMgmtApsSelection Comments ApsConfigRowStatus88. pdnLinkFaultMgmtSwitchoverSelection Comments PdnLLSConfigGroupNamePdnLLSConfigSelection Link Load Sharing LLS PDN-LINK-LOAD-SHARING-MIB.mibPdnRedunNotificationEnable PdnRedunCommandPdnRedunAlarmStatus PdnRedunEntityStateDevConfigTestTimeout Timing and Clocking Paradyne mpeConfig MIB mpeConfig.mib90. mpeDevConfigClockSrcEntry Object Type Access Supported Paradyne Time Mib pdntime.mib DevConfigTestDuration92. pdntime.mib Object Type Access Supported DevDateAndTime RWDevNTPEnable RW DevNTPOffsetFromUTC93. pdndslam.mib Objects Supported Type SysDevUserAccountUserPassword RCSysDevUserAccountAccessPartition RC SysDevUserAccountTable94. pdnSecurity.mib Object Type Supported SecurityMgrSnmpAccess RWParadyne Security MIB pdnSecurity.mib DevSecurityMgrValidation RWSecurityMgrTrapAccess RW SecurityMgrTelnetAccessRWSecurityMgrFtpAccess RW SecurityMgrRowStatus RWMpeDevFileXferFileType3 MpeDevControlTable MpeDevFileXferConfigTable95. mpeControl.mib 2 Object Type Supported MpeDevFirmwareControlTable PdnSyslogLevel PdnSyslogStatus RWPdnSyslogIPAddr RW PdnSyslogPort RWPdnEntitySyslogTable NA PdnSyslogSeverityThreshold RWPdnSyslogRemoteDaemon RW PdnEntitySyslogNumber NAParadyne Health and Status MIB mpeHealthAndStatus.mib Traps PdnDevConfigTrapsEnable RW pdnTrapMgr.mibPdnSyslogRateLimiting RW 97. Health and Status MIB Comments98. devLastTrapString 2 DevLastTrapString DSX Traps 98. devLastTrapString 3 DevLastTrapString Adsl Specific Traps98. devLastTrapString 4 DevLastTrapString IMA Traps Network Management Specification June Index IN-2 IN-3 IN-4
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8620, 8820 specifications

The Paradyne 8620 and Hotwire 8620 GranDSLAM are advanced DSLAM devices designed to provide high-speed broadband access over existing copper lines. This installation guide will outline the main features, technologies, and characteristics of these powerful units.

The Paradyne 8620 is engineered to support various DSL technologies, including ADSL, ADSL2+, and VDSL. This versatility allows operators to deploy services tailored to the needs of their customers, enabling data rates of up to 50 Mbps downstream, making it an ideal choice for meeting increasing bandwidth demands. The Hotwire 8620 GranDSLAM shares many similarities, focusing on providing enhanced service delivery for both residential and business users.

One of the key features of the GranDSLAM series is its modular architecture. Both models support up to 48 subscriber line interfaces in a single chassis, which provides significant scalability. Operators can seamlessly increase capacity by adding additional cards to accommodate growth. The devices are designed for easy deployment and management, equipped with an intuitive web-based interface that simplifies configuration and monitoring tasks.

Both units also feature advanced management capabilities, including support for SNMP and TR-069 protocols. This allows service providers to manage and provision devices remotely, significantly reducing operational costs and improving service reliability. The GranDSLAM models can also provide detailed diagnostic information, helping operators quickly identify and troubleshoot issues.

The Paradyne and Hotwire series ensure interoperability with various customer premises equipment, enabling service providers to offer bundled services such as voice, video, and data over the same connection. This capability is enhanced by the units’ ability to support VLANs and QoS features, ensuring that high-priority traffic receives the necessary bandwidth.

In addition to performance, the 8620 series is built with energy efficiency in mind. By utilizing power-saving features, these units help reduce overall operational costs while still providing reliable service.

Overall, the Paradyne 8620 and Hotwire 8620 GranDSLAM are robust solutions for service providers looking to deliver high-speed broadband services. Their modular design, advanced management capabilities, and support for multiple DSL technologies make them an excellent choice for today’s demanding telecommunications environment. With these advantages, operators can effectively meet customer needs while preparing for future growth and technology advancements.