Reference record for OID 1.3.6.1.4.1.9.9.167


parent
1.3.6.1.4.1.9.9 (ciscoMgmt)
node code
167
node name
ciscoWirelessDocsIfMib
dot oid
1.3.6.1.4.1.9.9.167
type
OBJECT IDENTIFIER
asn1 oid
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
  • {iso(1) identified-organization(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
  • {iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprise(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
  • {iso(1) iso-identified-organization(3) dod(6) internet(1) private(4) enterprises(1) cisco(9) ciscoMgmt(9) ciscoWirelessDocsIfMib(167)}
    • iri oid
  • /iso/identified-organization/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
  • /iso/identified-organization/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
  • /iso/org/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
  • /iso/org/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
  • /iso/iso-identified-organization/dod/internet/private/enterprise/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
  • /iso/iso-identified-organization/dod/internet/private/enterprises/cisco/ciscoMgmt/ciscoWirelessDocsIfMib
    • iri by oid_info
    /ISO/Identified-Organization/6/1/4/1/9/9/167

    Description by circitor

    This is the MIB Module for MCNS compliant Radio Frequency
    (RF) interfaces in wireless point-to-multipoint subscriber
    units (SU) and wireless Head-end (HE).

    Glossary :

    The following terms are used in the MIB definitions below.

    MCNS : Multimedia Cable Network System
    P2MP : Point-Multipoint wireless system consisting of
    Headend (HE) and Subscriber-units (SU).
    HE : Head-end
    SU : Subscriber-unit.
    Attached US
    channel : The upstream channel on which the SU is
    transmitting.
    codeword : Data unit in a FEC (forward error correction)
    process.
    OFDM : Orthogonal Frequency Division Multiplexing.
    ODU : Outdoor unit (antenna).
    UCD : Upstream Change Descriptor.

    Cisco Wireless DOCSIS MIB Organization:

    The Cisco Wireless DOCSIS MIB provides the following
    categories :
    * Groups/Tables that are common between HE and SU
    * Groups/Tables that apply to SU only
    * Groups/Tables that apply to HE only

    Groups/Tables that are common between HE and SU

    o. cwdIfChannelTable
    This represents the RF channel within which upstream
    and downstream sub-channels operate. There will one such
    RF channel per point-to-multipoint interface.

    A RF channel identifies the portion of the RF spectrum
    that will be used to create a broadcast domain that
    will be used for communication.

    This channel deploys a sub-channel plan, which is used by
    the upstreams and downstreams.

    The sub-channel number for a channel is determined based
    on the number of sub-channels allowed and sub-channel plan
    version. If the maximum number of sub-channels allowed is
    4 and the sub-channel plan version is 1 the spectrum can
    be sub divided as shown below.

    reference center frequency of a channel
    |
    |
    v
    +===============+
    | sub 1 | The whole spectrum is used
    +=======+=======+ so only one sub-channel.

    +===============+
    | 2 | 3 | The spectrum is divided into
    +===============+ two sub-channels.

    +===============+
    | 2 | 6 | 7 | The spectrum is divided into
    +===============+ three sub-channels.

    +===============+
    | 4 | 5 | 3 | The spectrum is divided into
    +===============+ three sub-channels.

    +===+===+===+===+
    | 4 | 5 | 6 | 7 | The spectrum is divided into
    +===+===+===+===+ 4 sub-channels


    The above sub-channel planning can be extended to
    allow maximum number of sub-channels to be 8, 26 etc.

    The objects in this group are configurable only at
    the head-end and are read-only at the subscriber end.

    o. cwdIfDownstreamChannelTable
    This table contains the configuration
    information and attributes of downstream channel.
    The objects in this group are configurable
    only at the head-end and are read-only at the
    subscriber end.

    o. cwdIfUpstreamChannelTable
    This table contains the configuration information
    and attributes of upstream channel.
    Parameters in this table are configurable
    only at the Head-end, and are read-only at the SU.
    Only the rows that pertain to the upstream used by
    the subscriber unit will be available at the SU.

    o. cwdIfQosProfileTable
    This table describes the attributes of each class of
    service.
    The entries in this table are referenced from the
    cwdIfHeServiceEntries or cwdIfSuServiceEntries.
    This table is implemented at both the SU and the HE.
    The SU need only maintain entries for the classes of
    service referenced by its cwdIfSuServiceTable.

    o. cwdIfSignalQualityTable
    At the SU, this table describes the PHY signal quality of
    downstream channels. At the HE, it describes the PHY signal
    quality of upstream channels.

    o. cwdIfModulationTable
    Describes modulation parameters associated with one or more
    Upstream or downstream channels.

    Groups/Tables that apply to SU only

    o. cwdIfSuMacTable
    This table describes the attributes of each SU MAC
    interface, extending the information available from
    ifEntry. An entry in this table exists for each
    ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuStatusTable
    This table maintains a number of status objects
    and counters for Subscriber Units.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuServiceTable
    This table describes the attributes of each upstream
    service queue on a SU.

    Groups/Tables that apply to HE only

    o. cwdIfHeMacTable
    Describes the attributes of each HE MAC interface,
    extending the information available from ifEntry.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeStatusTable
    For the MAC layer, this group maintains a number of
    status objects and counters.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeServiceTable
    This table describes the attributes of upstream
    service queues in a Head-end System. Entries in
    this table exist for each ifEntry with an ifType
    of propDocsWirelessMacLayer(nnn), and for each
    service queue (Service ID) within this MAC layer.
    Entries in this table are created with the creation of
    individual Service IDs by the MAC layer and removed
    when a Service ID is removed.

    Parsed from file CISCO-WIRELESS-DOCS-IF-MIB.mib
    Module: CISCO-WIRELESS-DOCS-IF-MIB

    Description by mibdepot

    This is the MIB Module for MCNS compliant Radio Frequency
    (RF) interfaces in wireless point-to-multipoint subscriber
    units (SU) and wireless Head-end (HE).

    Glossary :

    The following terms are used in the MIB definitions below.

    MCNS : Multimedia Cable Network System
    P2MP : Point-Multipoint wireless system consisting of
    Headend (HE) and Subscriber-units (SU).
    HE : Head-end
    SU : Subscriber-unit.
    Attached US
    channel : The upstream channel on which the SU is
    transmitting.
    codeword : Data unit in a FEC (forward error correction)
    process.
    OFDM : Orthogonal Frequency Division Multiplexing.
    ODU : Outdoor unit (antenna).
    UCD : Upstream Change Descriptor.

    Cisco Wireless DOCSIS MIB Organization:

    The Cisco Wireless DOCSIS MIB provides the following
    categories :
    * Groups/Tables that are common between HE and SU
    * Groups/Tables that apply to SU only
    * Groups/Tables that apply to HE only

    Groups/Tables that are common between HE and SU

    o. cwdIfChannelTable
    This represents the RF channel within which upstream
    and downstream sub-channels operate. There will one such
    RF channel per point-to-multipoint interface.

    A RF channel identifies the portion of the RF spectrum
    that will be used to create a broadcast domain that
    will be used for communication.

    This channel deploys a sub-channel plan, which is used by
    the upstreams and downstreams.

    The sub-channel number for a channel is determined based
    on the number of sub-channels allowed and sub-channel plan
    version. If the maximum number of sub-channels allowed is
    4 and the sub-channel plan version is 1 the spectrum can
    be sub divided as shown below.

    reference center frequency of a channel
    |
    |
    v
    +===============+
    | sub 1 | The whole spectrum is used
    +=======+=======+ so only one sub-channel.

    +===============+
    | 2 | 3 | The spectrum is divided into
    +===============+ two sub-channels.

    +===============+
    | 2 | 6 | 7 | The spectrum is divided into
    +===============+ three sub-channels.

    +===============+
    | 4 | 5 | 3 | The spectrum is divided into
    +===============+ three sub-channels.

    +===+===+===+===+
    | 4 | 5 | 6 | 7 | The spectrum is divided into
    +===+===+===+===+ 4 sub-channels


    The above sub-channel planning can be extended to
    allow maximum number of sub-channels to be 8, 26 etc.

    The objects in this group are configurable only at
    the head-end and are read-only at the subscriber end.

    o. cwdIfDownstreamChannelTable
    This table contains the configuration
    information and attributes of downstream channel.
    The objects in this group are configurable
    only at the head-end and are read-only at the
    subscriber end.

    o. cwdIfUpstreamChannelTable
    This table contains the configuration information
    and attributes of upstream channel.
    Parameters in this table are configurable
    only at the Head-end, and are read-only at the SU.
    Only the rows that pertain to the upstream used by
    the subscriber unit will be available at the SU.

    o. cwdIfQosProfileTable
    This table describes the attributes of each class of
    service.
    The entries in this table are referenced from the
    cwdIfHeServiceEntries or cwdIfSuServiceEntries.
    This table is implemented at both the SU and the HE.
    The SU need only maintain entries for the classes of
    service referenced by its cwdIfSuServiceTable.

    o. cwdIfSignalQualityTable
    At the SU, this table describes the PHY signal quality of
    downstream channels. At the HE, it describes the PHY signal
    quality of upstream channels.

    o. cwdIfModulationTable
    Describes modulation parameters associated with one or more
    Upstream or downstream channels.

    Groups/Tables that apply to SU only

    o. cwdIfSuMacTable
    This table describes the attributes of each SU MAC
    interface, extending the information available from
    ifEntry. An entry in this table exists for each
    ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuStatusTable
    This table maintains a number of status objects
    and counters for Subscriber Units.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuServiceTable
    This table describes the attributes of each upstream
    service queue on a SU.

    Groups/Tables that apply to HE only

    o. cwdIfHeMacTable
    Describes the attributes of each HE MAC interface,
    extending the information available from ifEntry.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeStatusTable
    For the MAC layer, this group maintains a number of
    status objects and counters.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeServiceTable
    This table describes the attributes of upstream
    service queues in a Head-end System. Entries in
    this table exist for each ifEntry with an ifType
    of propDocsWirelessMacLayer(nnn), and for each
    service queue (Service ID) within this MAC layer.
    Entries in this table are created with the creation of
    individual Service IDs by the MAC layer and removed
    when a Service ID is removed.

    Parsed from file CISCO-WIRELESS-DOCS-IF-MIB.my.txt
    Company: None
    Module: CISCO-WIRELESS-DOCS-IF-MIB

    Description by cisco

    This is the MIB Module for MCNS compliant Radio Frequency
    (RF) interfaces in wireless point-to-multipoint subscriber
    units (SU) and wireless Head-end (HE).

    Glossary :

    The following terms are used in the MIB definitions below.

    MCNS : Multimedia Cable Network System
    P2MP : Point-Multipoint wireless system consisting of
    Headend (HE) and Subscriber-units (SU).
    HE : Head-end
    SU : Subscriber-unit.
    Attached US
    channel : The upstream channel on which the SU is
    transmitting.
    codeword : Data unit in a FEC (forward error correction)
    process.
    OFDM : Orthogonal Frequency Division Multiplexing.
    ODU : Outdoor unit (antenna).
    UCD : Upstream Change Descriptor.

    Cisco Wireless DOCSIS MIB Organization:

    The Cisco Wireless DOCSIS MIB provides the following
    categories :
    * Groups/Tables that are common between HE and SU
    * Groups/Tables that apply to SU only
    * Groups/Tables that apply to HE only

    Groups/Tables that are common between HE and SU

    o. cwdIfChannelTable
    This represents the RF channel within which upstream
    and downstream sub-channels operate. There will one such
    RF channel per point-to-multipoint interface.

    A RF channel identifies the portion of the RF spectrum
    that will be used to create a broadcast domain that
    will be used for communication.

    This channel deploys a sub-channel plan, which is used by
    the upstreams and downstreams.

    The sub-channel number for a channel is determined based
    on the number of sub-channels allowed and sub-channel plan
    version. If the maximum number of sub-channels allowed is
    4 and the sub-channel plan version is 1 the spectrum can
    be sub divided as shown below.

    reference center frequency of a channel
    |
    |
    v
    +===============+
    | sub 1 | The whole spectrum is used
    +=======+=======+ so only one sub-channel.

    +===============+
    | 2 | 3 | The spectrum is divided into
    +===============+ two sub-channels.

    +===============+
    | 2 | 6 | 7 | The spectrum is divided into
    +===============+ three sub-channels.

    +===============+
    | 4 | 5 | 3 | The spectrum is divided into
    +===============+ three sub-channels.

    +===+===+===+===+
    | 4 | 5 | 6 | 7 | The spectrum is divided into
    +===+===+===+===+ 4 sub-channels


    The above sub-channel planning can be extended to
    allow maximum number of sub-channels to be 8, 26 etc.

    The objects in this group are configurable only at
    the head-end and are read-only at the subscriber end.

    o. cwdIfDownstreamChannelTable
    This table contains the configuration
    information and attributes of downstream channel.
    The objects in this group are configurable
    only at the head-end and are read-only at the
    subscriber end.

    o. cwdIfUpstreamChannelTable
    This table contains the configuration information
    and attributes of upstream channel.
    Parameters in this table are configurable
    only at the Head-end, and are read-only at the SU.
    Only the rows that pertain to the upstream used by
    the subscriber unit will be available at the SU.

    o. cwdIfQosProfileTable
    This table describes the attributes of each class of
    service.
    The entries in this table are referenced from the
    cwdIfHeServiceEntries or cwdIfSuServiceEntries.
    This table is implemented at both the SU and the HE.
    The SU need only maintain entries for the classes of
    service referenced by its cwdIfSuServiceTable.

    o. cwdIfSignalQualityTable
    At the SU, this table describes the PHY signal quality of
    downstream channels. At the HE, it describes the PHY signal
    quality of upstream channels.

    o. cwdIfModulationTable
    Describes modulation parameters associated with one or more
    Upstream or downstream channels.

    Groups/Tables that apply to SU only

    o. cwdIfSuMacTable
    This table describes the attributes of each SU MAC
    interface, extending the information available from
    ifEntry. An entry in this table exists for each
    ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuStatusTable
    This table maintains a number of status objects
    and counters for Subscriber Units.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfSuServiceTable
    This table describes the attributes of each upstream
    service queue on a SU.

    Groups/Tables that apply to HE only

    o. cwdIfHeMacTable
    Describes the attributes of each HE MAC interface,
    extending the information available from ifEntry.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeStatusTable
    For the MAC layer, this group maintains a number of
    status objects and counters.
    An entry in this table exists for each ifEntry with an
    ifType of propDocsWirelessMacLayer(nnn).

    o. cwdIfHeServiceTable
    This table describes the attributes of upstream
    service queues in a Head-end System. Entries in
    this table exist for each ifEntry with an ifType
    of propDocsWirelessMacLayer(nnn), and for each
    service queue (Service ID) within this MAC layer.
    Entries in this table are created with the creation of
    individual Service IDs by the MAC layer and removed
    when a Service ID is removed.

    Information by circitor

    ciscoWirelessDocsIfMib MODULE-IDENTITY
    LAST-UPDATED    "200512271003Z"
    ORGANIZATION    "Cisco Systems - Wireless Engineering"
    CONTACT-INFO
            "Cisco Systems
            Customer Service

            Postal: 170 W Tasman Drive
               San Jose, CA  95134
               USA

               Tel: +1 800 553-NETS
               E-mail: [email protected]"
    DESCRIPTION
            "This is the MIB Module for MCNS compliant Radio Frequency
            (RF) interfaces in wireless point-to-multipoint subscriber
            units (SU) and wireless Head-end (HE).

            Glossary :

            The following terms are used in the MIB definitions below.

            MCNS        : Multimedia Cable Network System 
            P2MP        : Point-Multipoint wireless system consisting of
            Headend (HE)  and Subscriber-units (SU). 
            HE          : Head-end
            SU          : Subscriber-unit.
            Attached US  
            channel     : The upstream channel on which the SU is 
                          transmitting.
            codeword    : Data unit in a FEC (forward error correction) 
                          process.
            OFDM        : Orthogonal Frequency Division Multiplexing.
            ODU         : Outdoor unit (antenna).
            UCD         : Upstream Change Descriptor.

            Cisco Wireless DOCSIS MIB Organization:

            The Cisco Wireless DOCSIS MIB provides the following 
            categories :
            * Groups/Tables that are common between HE and SU
            * Groups/Tables that apply to SU only
            * Groups/Tables that apply to HE only

            Groups/Tables that are common between HE and SU

            o. cwdIfChannelTable
               This represents the RF channel within which upstream 
               and downstream sub-channels operate. There will one such
               RF channel per point-to-multipoint interface.

               A RF channel identifies the portion of the RF spectrum
               that will be used to create a broadcast domain that
               will be used for communication.

               This channel deploys a sub-channel plan, which is used by 
               the upstreams and downstreams. 

               The sub-channel number for a channel is determined based
               on the number of sub-channels allowed and sub-channel plan 
               version. If the maximum number of sub-channels allowed is
               4 and the sub-channel plan version is 1 the spectrum can
               be sub divided as shown below.  

               reference center frequency of a channel 
                              |
                              |
                              v
                      +===============+
                      |   sub 1       |   The whole spectrum is used 
                      +=======+=======+   so only one sub-channel.

                      +===============+
                      |   2   |   3   |   The spectrum is divided into
                      +===============+   two sub-channels.

                      +===============+
                      |   2   | 6 | 7 |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===============+
                      | 4 | 5 |   3   |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===+===+===+===+
                      | 4 | 5 | 6 | 7 |   The spectrum is divided into
                      +===+===+===+===+   4 sub-channels


               The above sub-channel planning can be extended to
               allow maximum number of sub-channels to be 8, 26 etc.

               The objects in this group are configurable only at
               the head-end and are read-only at the subscriber end.

            o. cwdIfDownstreamChannelTable
               This table contains the configuration 
               information and attributes of downstream channel. 
               The objects in this group are configurable
               only at the head-end and are read-only at the 
               subscriber end.

            o. cwdIfUpstreamChannelTable
               This table contains the configuration information 
               and attributes of upstream channel. 
               Parameters in this table are configurable
               only at the Head-end, and are read-only at the SU.
               Only the rows that pertain to the upstream used by 
               the subscriber unit will be available at the SU.

            o. cwdIfQosProfileTable
               This table describes the attributes of each class of
               service.
               The entries in this table are referenced from the
               cwdIfHeServiceEntries or cwdIfSuServiceEntries.
               This table is implemented at both the SU and the HE.
               The SU need only maintain entries for the classes of
               service referenced by its cwdIfSuServiceTable.

            o. cwdIfSignalQualityTable
               At the SU, this table describes the PHY signal quality of 
               downstream channels. At the HE, it describes the PHY signal 
               quality of upstream channels. 

            o. cwdIfModulationTable
               Describes modulation parameters associated with one or more
               Upstream or downstream channels.

            Groups/Tables that apply to SU only

            o. cwdIfSuMacTable
               This table describes the attributes of each SU MAC 
               interface, extending the information available from 
               ifEntry. An entry in this table exists for each 
               ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuStatusTable
               This table maintains a number of status objects
               and counters for Subscriber Units.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuServiceTable
               This table describes the attributes of each upstream 
               service queue on a SU.  

            Groups/Tables that apply to HE only

            o. cwdIfHeMacTable 
               Describes the attributes of each HE MAC interface,
               extending the information available from ifEntry. 
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeStatusTable
               For the MAC layer, this group maintains a number of
               status objects and counters.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeServiceTable
               This table describes the attributes of upstream 
               service queues in a Head-end System. Entries in 
               this table exist for each ifEntry with an ifType 
               of propDocsWirelessMacLayer(nnn), and for each 
               service queue (Service ID) within this MAC layer.
               Entries in this table are created with the creation of
               individual Service IDs by the MAC layer and removed
               when a Service ID is removed."
    REVISION        "200512271003Z"
    DESCRIPTION
            "Imported Unsigned32 from SNMPv2-SMI."
    REVISION        "200006071003Z"
    DESCRIPTION
            "Initial version"
    ::= { ciscoMgmt 167 }

    Information by cisco_v1

    ciscoWirelessDocsIfMib OBJECT IDENTIFIER ::= { ciscoMgmt 167 }

    Information by oid_info

    Vendor: Cisco
    Module: CISCO-WIRELESS-DOCS-IF-MIB

    [Automatically extracted from oidview.com]

    Information by mibdepot

    ciscoWirelessDocsIfMib MODULE-IDENTITY
    LAST-UPDATED    "200512271003Z"
    ORGANIZATION    "Cisco Systems - Wireless Engineering"
    CONTACT-INFO
            "Cisco Systems
            Customer Service

            Postal: 170 W Tasman Drive
               San Jose, CA  95134
               USA

               Tel: +1 800 553-NETS
               E-mail: [email protected]"
    DESCRIPTION
            "This is the MIB Module for MCNS compliant Radio Frequency
            (RF) interfaces in wireless point-to-multipoint subscriber
            units (SU) and wireless Head-end (HE).

            Glossary :

            The following terms are used in the MIB definitions below.

            MCNS        : Multimedia Cable Network System 
            P2MP        : Point-Multipoint wireless system consisting of
            Headend (HE)  and Subscriber-units (SU). 
            HE          : Head-end
            SU          : Subscriber-unit.
            Attached US  
            channel     : The upstream channel on which the SU is 
                          transmitting.
            codeword    : Data unit in a FEC (forward error correction) 
                          process.
            OFDM        : Orthogonal Frequency Division Multiplexing.
            ODU         : Outdoor unit (antenna).
            UCD         : Upstream Change Descriptor.

            Cisco Wireless DOCSIS MIB Organization:

            The Cisco Wireless DOCSIS MIB provides the following 
            categories :
            * Groups/Tables that are common between HE and SU
            * Groups/Tables that apply to SU only
            * Groups/Tables that apply to HE only

            Groups/Tables that are common between HE and SU

            o. cwdIfChannelTable
               This represents the RF channel within which upstream 
               and downstream sub-channels operate. There will one such
               RF channel per point-to-multipoint interface.

               A RF channel identifies the portion of the RF spectrum
               that will be used to create a broadcast domain that
               will be used for communication.

               This channel deploys a sub-channel plan, which is used by 
               the upstreams and downstreams. 

               The sub-channel number for a channel is determined based
               on the number of sub-channels allowed and sub-channel plan 
               version. If the maximum number of sub-channels allowed is
               4 and the sub-channel plan version is 1 the spectrum can
               be sub divided as shown below.  

               reference center frequency of a channel 
                              |
                              |
                              v
                      +===============+
                      |   sub 1       |   The whole spectrum is used 
                      +=======+=======+   so only one sub-channel.

                      +===============+
                      |   2   |   3   |   The spectrum is divided into
                      +===============+   two sub-channels.

                      +===============+
                      |   2   | 6 | 7 |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===============+
                      | 4 | 5 |   3   |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===+===+===+===+
                      | 4 | 5 | 6 | 7 |   The spectrum is divided into
                      +===+===+===+===+   4 sub-channels


               The above sub-channel planning can be extended to
               allow maximum number of sub-channels to be 8, 26 etc.

               The objects in this group are configurable only at
               the head-end and are read-only at the subscriber end.

            o. cwdIfDownstreamChannelTable
               This table contains the configuration 
               information and attributes of downstream channel. 
               The objects in this group are configurable
               only at the head-end and are read-only at the 
               subscriber end.

            o. cwdIfUpstreamChannelTable
               This table contains the configuration information 
               and attributes of upstream channel. 
               Parameters in this table are configurable
               only at the Head-end, and are read-only at the SU.
               Only the rows that pertain to the upstream used by 
               the subscriber unit will be available at the SU.

            o. cwdIfQosProfileTable
               This table describes the attributes of each class of
               service.
               The entries in this table are referenced from the
               cwdIfHeServiceEntries or cwdIfSuServiceEntries.
               This table is implemented at both the SU and the HE.
               The SU need only maintain entries for the classes of
               service referenced by its cwdIfSuServiceTable.

            o. cwdIfSignalQualityTable
               At the SU, this table describes the PHY signal quality of 
               downstream channels. At the HE, it describes the PHY signal 
               quality of upstream channels. 

            o. cwdIfModulationTable
               Describes modulation parameters associated with one or more
               Upstream or downstream channels.

            Groups/Tables that apply to SU only

            o. cwdIfSuMacTable
               This table describes the attributes of each SU MAC 
               interface, extending the information available from 
               ifEntry. An entry in this table exists for each 
               ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuStatusTable
               This table maintains a number of status objects
               and counters for Subscriber Units.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuServiceTable
               This table describes the attributes of each upstream 
               service queue on a SU.  

            Groups/Tables that apply to HE only

            o. cwdIfHeMacTable 
               Describes the attributes of each HE MAC interface,
               extending the information available from ifEntry. 
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeStatusTable
               For the MAC layer, this group maintains a number of
               status objects and counters.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeServiceTable
               This table describes the attributes of upstream 
               service queues in a Head-end System. Entries in 
               this table exist for each ifEntry with an ifType 
               of propDocsWirelessMacLayer(nnn), and for each 
               service queue (Service ID) within this MAC layer.
               Entries in this table are created with the creation of
               individual Service IDs by the MAC layer and removed
               when a Service ID is removed."
    REVISION        "200512271003Z"
    DESCRIPTION
            "Imported Unsigned32 from SNMPv2-SMI."
    REVISION        "200006071003Z"
    DESCRIPTION
            "Initial version"
    ::= { ciscoMgmt 167 }

    Information by cisco

    ciscoWirelessDocsIfMib MODULE-IDENTITY
    LAST-UPDATED    "200512271003Z"
    ORGANIZATION    "Cisco Systems - Wireless Engineering"
    CONTACT-INFO
            "Cisco Systems
            Customer Service

            Postal: 170 W Tasman Drive
               San Jose, CA  95134
               USA

               Tel: +1 800 553-NETS
               E-mail: [email protected]"
    DESCRIPTION
            "This is the MIB Module for MCNS compliant Radio Frequency
            (RF) interfaces in wireless point-to-multipoint subscriber
            units (SU) and wireless Head-end (HE).

            Glossary :

            The following terms are used in the MIB definitions below.

            MCNS        : Multimedia Cable Network System 
            P2MP        : Point-Multipoint wireless system consisting of
            Headend (HE)  and Subscriber-units (SU). 
            HE          : Head-end
            SU          : Subscriber-unit.
            Attached US  
            channel     : The upstream channel on which the SU is 
                          transmitting.
            codeword    : Data unit in a FEC (forward error correction) 
                          process.
            OFDM        : Orthogonal Frequency Division Multiplexing.
            ODU         : Outdoor unit (antenna).
            UCD         : Upstream Change Descriptor.

            Cisco Wireless DOCSIS MIB Organization:

            The Cisco Wireless DOCSIS MIB provides the following 
            categories :
            * Groups/Tables that are common between HE and SU
            * Groups/Tables that apply to SU only
            * Groups/Tables that apply to HE only

            Groups/Tables that are common between HE and SU

            o. cwdIfChannelTable
               This represents the RF channel within which upstream 
               and downstream sub-channels operate. There will one such
               RF channel per point-to-multipoint interface.

               A RF channel identifies the portion of the RF spectrum
               that will be used to create a broadcast domain that
               will be used for communication.

               This channel deploys a sub-channel plan, which is used by 
               the upstreams and downstreams. 

               The sub-channel number for a channel is determined based
               on the number of sub-channels allowed and sub-channel plan 
               version. If the maximum number of sub-channels allowed is
               4 and the sub-channel plan version is 1 the spectrum can
               be sub divided as shown below.  

               reference center frequency of a channel 
                              |
                              |
                              v
                      +===============+
                      |   sub 1       |   The whole spectrum is used 
                      +=======+=======+   so only one sub-channel.

                      +===============+
                      |   2   |   3   |   The spectrum is divided into
                      +===============+   two sub-channels.

                      +===============+
                      |   2   | 6 | 7 |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===============+
                      | 4 | 5 |   3   |   The spectrum is divided into
                      +===============+   three sub-channels.

                      +===+===+===+===+
                      | 4 | 5 | 6 | 7 |   The spectrum is divided into
                      +===+===+===+===+   4 sub-channels


               The above sub-channel planning can be extended to
               allow maximum number of sub-channels to be 8, 26 etc.

               The objects in this group are configurable only at
               the head-end and are read-only at the subscriber end.

            o. cwdIfDownstreamChannelTable
               This table contains the configuration 
               information and attributes of downstream channel. 
               The objects in this group are configurable
               only at the head-end and are read-only at the 
               subscriber end.

            o. cwdIfUpstreamChannelTable
               This table contains the configuration information 
               and attributes of upstream channel. 
               Parameters in this table are configurable
               only at the Head-end, and are read-only at the SU.
               Only the rows that pertain to the upstream used by 
               the subscriber unit will be available at the SU.

            o. cwdIfQosProfileTable
               This table describes the attributes of each class of
               service.
               The entries in this table are referenced from the
               cwdIfHeServiceEntries or cwdIfSuServiceEntries.
               This table is implemented at both the SU and the HE.
               The SU need only maintain entries for the classes of
               service referenced by its cwdIfSuServiceTable.

            o. cwdIfSignalQualityTable
               At the SU, this table describes the PHY signal quality of 
               downstream channels. At the HE, it describes the PHY signal 
               quality of upstream channels. 

            o. cwdIfModulationTable
               Describes modulation parameters associated with one or more
               Upstream or downstream channels.

            Groups/Tables that apply to SU only

            o. cwdIfSuMacTable
               This table describes the attributes of each SU MAC 
               interface, extending the information available from 
               ifEntry. An entry in this table exists for each 
               ifEntry with an ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuStatusTable
               This table maintains a number of status objects
               and counters for Subscriber Units.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfSuServiceTable
               This table describes the attributes of each upstream 
               service queue on a SU.  

            Groups/Tables that apply to HE only

            o. cwdIfHeMacTable 
               Describes the attributes of each HE MAC interface,
               extending the information available from ifEntry. 
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeStatusTable
               For the MAC layer, this group maintains a number of
               status objects and counters.
               An entry in this table exists for each ifEntry with an
               ifType of propDocsWirelessMacLayer(nnn).

            o. cwdIfHeServiceTable
               This table describes the attributes of upstream 
               service queues in a Head-end System. Entries in 
               this table exist for each ifEntry with an ifType 
               of propDocsWirelessMacLayer(nnn), and for each 
               service queue (Service ID) within this MAC layer.
               Entries in this table are created with the creation of
               individual Service IDs by the MAC layer and removed
               when a Service ID is removed."
    REVISION        "200512271003Z"
    DESCRIPTION
            "Imported Unsigned32 from SNMPv2-SMI."
    REVISION        "200006071003Z"
    DESCRIPTION
            "Initial version"
    ::= { ciscoMgmt 167 }

    First Registration Authority (recovered by parent 1.3.6.1.4.1.9)

    Greg Satz

    Current Registration Authority (recovered by parent 1.3.6.1.4.1.9)

    Cisco Systems, Inc.

    Children (3)

    OIDNameSub childrenSub Nodes TotalDescription
    1.3.6.1.4.1.9.9.167.1 cwdIfMibObjects 3 128 None
    1.3.6.1.4.1.9.9.167.2 cwdIfNotification 0 0 None
    1.3.6.1.4.1.9.9.167.3 cwdIfConformance 2 9 None

    Brothers (645)

    To many brothers! Only 100 nearest brothers are shown.

    OIDNameSub childrenSub Nodes TotalDescription
    ...
    1.3.6.1.4.1.9.9.117 ciscoEntityFRUControlMIB 3 147 The CISCO-ENTITY-FRU-CONTROL-MIB is used to monitor
    and configure operational status of
    Field Replaceable Units (FRUs) and other …
    1.3.6.1.4.1.9.9.118 ciscoUdldpMIB 3 51 Cisco Uni Direction Link Detection Protocol
    MIB
    1.3.6.1.4.1.9.9.120 ciscoNetworkRegistrarMIB 3 125 MIB for Cisco Network Registrar (CNR).
    1.3.6.1.4.1.9.9.121 ciscoAtmNetworkClockMIB 3 53 The MIB module for management of network clock distribution
    and the Network Clock Distribution Protocol (NCDP) in Cisco
    de…
    1.3.6.1.4.1.9.9.122 ciscoCasaMIB 3 78 This MIB contains the basic objects for managing a
    Cisco Appliance Services Architecture (CASA) Entity. A
    CASA Entity can be a Ma…
    1.3.6.1.4.1.9.9.124 ciscoCallResourcePoolMIB 3 114 The MIB module for call resource pool management.

    This MIB supports the resource pool manager feature of
    CISCO IOS. This feature …
    1.3.6.1.4.1.9.9.125 ciscoWANRsrcPartMIB 2 55 The MIB module to manage resource partition objects. A resource
    partition is configured on a virtual interface (ifType value
    atmV…
    1.3.6.1.4.1.9.9.126 ciscoSonetMIB 3 136 The MIB module to describe SONET/SDH interfaces
    objects. This is an extension to the standard SONET
    MIB(RFC 2558).
    1.3.6.1.4.1.9.9.128 ciscoVlanIfTableRelationshipMIB 1 12 ciscoVlanIftableRelationshipMIB
    1.3.6.1.4.1.9.9.129 ciscoAtmVirtualIfMIB 2 139 The MIB module to manage ATM Virtual interface objects.
    ATM virtual interfaces are configured on a physical line.
    1.3.6.1.4.1.9.9.130 ciscoAdslDmtLineMIB 3 72 This MIB module serves as an enterprise-specific extension of
    the ADSL-LINE-MIB. The structure of this MIB module shadows
    the st…
    1.3.6.1.4.1.9.9.131 ciscoSystemMIB 3 57 The systemGroup (see RFC 1907) provides a standard set of
    basic system information. This MIB module contains
    Cisco-defined exten…
    1.3.6.1.4.1.9.9.132 ciscoDs3MIB 2 140 The MIB module to describe DS3 line objects. This is
    an extension to the standard DS3 MIB(RFC 2496).
    1.3.6.1.4.1.9.9.133 ciscoAtmCellLayerMIB 1 138 The MIB module to describe ATM cell layer objects and statistics
    of a physical line.
    1.3.6.1.4.1.9.9.134 ciscoClusterMIB 3 49 The MIB module for the management of a group of
    devices called a 'cluster'. A cluster comprises:

    1. A command switch, which is a…
    1.3.6.1.4.1.9.9.135 ciscoWirelessP2pBpiMIB 3 66 This is the MIB Module for the Baseline Privacy Interface (BPI)
    at Point to Point Wireless Radio Card.

    This is a specialization o…
    1.3.6.1.4.1.9.9.136 ciscoWirelessIfMIB 3 307 This is the MIB Module for the Cisco Wireless Radio
    Point to Point interface specification.

    I) Relationship of the Cisco Wireless…
    1.3.6.1.4.1.9.9.137 ciscoWirelessTextualConventions 0 0 This module defines textual conventions used
    in Cisco Wireless MIBs.
    1.3.6.1.4.1.9.9.138 ciscoEntityAlarmMIB 3 66 This MIB module defines the managed objects that support the
    monitoring of alarms generated by physical entities contained
    by the…
    1.3.6.1.4.1.9.9.139 ciscoEntityProvMIB 3 13 This MIB module defines the objects that support provisioning
    of 'container' class physical entities. Provisioning sets up
    a 'co…
    1.3.6.1.4.1.9.9.140 ciscoCopsClientMIB 3 43 This MIB module is for configuration & statistic query
    of Common Open Policy Service(COPS) client feature on the Cisco
    device. C…
    1.3.6.1.4.1.9.9.141 ciscoVSIControllerMIB 2 21 This MIB module is used for configuring ATM Capable Switch
    to be aware of VSI Controller information.

    Terminolgies used:

    VSI …
    1.3.6.1.4.1.9.9.144 ciscoTransactionConnectionMIB 2 66 The MIB module for retrieving Cisco Transaction
    Connection configuration and status. Cisco Transaction
    Connection routes transac…
    1.3.6.1.4.1.9.9.145 ciscoWanModuleMIB 3 32 The MIB to configure Connection Specific parameters and
    statistics related information in a Service Module.
    The Service Module(SM…
    1.3.6.1.4.1.9.9.146 ciscoCallApplicationMIB 2 548 This MIB allows management of call applications on a
    network device. A 'call application' is a software module
    that processes cal…
    1.3.6.1.4.1.9.9.147 ciscoFirewallMIB 3 75 MIB module for monitoring Cisco Firewalls.
    1.3.6.1.4.1.9.9.148 ciscoBgpPolAcctMIB 2 15 BGP policy based accounting information
    1.3.6.1.4.1.9.9.149 ciscoAdslLineCapMIB 3 46 This MIB module serves as an enterprise-specific extension of
    the ADSL-LINE-MIB. The structure of this MIB module shadows
    the st…
    1.3.6.1.4.1.9.9.150 ciscoAAASessionMIB 3 31 This MIB module provides data for accounting sessions
    based on Authentication, Authorization, Accounting
    (AAA) protocols.


    Referenc…
    1.3.6.1.4.1.9.9.151 ciscoL2L3IfConfigMIB 2 11 Interface switchport mode configuration management MIB.

    This MIB is used to monitor and control
    configuration of interface switch…
    1.3.6.1.4.1.9.9.152 ciscoSipUaMIB 4 504 Cisco User Agent Session Initiation Protocol (SIP)
    MIB module. SIP is an application-layer signalling
    protocol for creating, mod…
    1.3.6.1.4.1.9.9.154 ciscoIdslLineMIB 3 148 This MIB module describes IDSL (ISDN Digital Line Subscriber)
    line interfaces. The structure of this module resembles that
    of th…
    1.3.6.1.4.1.9.9.155 ciscoSdslLineMIB 3 170 This MIB module describes all variations of the symmetric
    DSL line interfaces. The structure of this module resembles
    and mainta…
    1.3.6.1.4.1.9.9.156 ciscoCcmMIB 3 487 The MIB Module for the management of a Cisco Unified
    Communications Manager (CUCM) application running with a Cisco
    Communication…
    1.3.6.1.4.1.9.9.157 ciscoCdmaPdsnMIB 3 984 This MIB is to support the CDMA PDSN (Packet Data Serving
    Node) feature. A CDMA2000 network supports wireless data
    communication…
    1.3.6.1.4.1.9.9.158 ciscoAAAClientMIB 3 25 This MIB module provides data for authentication method
    priority based on Authentication, Authorization,
    Accounting (AAA) protoco…
    1.3.6.1.4.1.9.9.159 ciscoQosPolicyConfigMIB 3 35 This MIB module defines managed objects that support the
    policy source configuration of Quality of Service (QoS) on
    the device.

    T…
    1.3.6.1.4.1.9.9.160 ciscoCircuitInterfaceMIB 2 11 The MIB module to configure the circuit description
    for an interface.
    The circuit description can be used to describe and
    identify…
    1.3.6.1.4.1.9.9.161 ciscoSlbMIB 3 279 The MIB for managing Server Load Balancing Manager(s),
    such as the Cisco IOS SLB product.

    This MIB includes instrumentation for t…
    1.3.6.1.4.1.9.9.162 ciscoVsiMasterMIB 3 100 This MIB module contains objects related to the master side of
    the Virtual Switch Interface protocol used for control of ATM
    swit…
    1.3.6.1.4.1.9.9.163 ciscoCallTrackerMIB 3 104 CISCO-CALL-TRACKER-MIB
    1.3.6.1.4.1.9.9.164 ciscoCallTrackerTCPMIB 3 25 This MIB module provides TCP service connection
    related data for tracking the progress and status of
    a call.

    This module extends t…
    1.3.6.1.4.1.9.9.165 ciscoCallTrackerModemMIB 3 97 This MIB module provides modem call related data for
    tracking the progress and status of a call.

    This module extends tables defin…
    1.3.6.1.4.1.9.9.166 ciscoCBQosMIB 2 544 Cisco Class-Based QoS MIB

    **********************************
    Overview
    **********************************
    This MIB provides read acc…
    1.3.6.1.4.1.9.9.168 ciscoNtpMIB 3 87 This MIB module defines a MIB which provides
    mechanisms to monitor an NTP server.

    The MIB is derived from the Technical Report
    #Ma…
    1.3.6.1.4.1.9.9.169 ciscoWirelessDocsExtMIB 3 99 This MIB module defines Cisco-specific objects that
    add to the functionality defined in
    CISCO-WIRELESS-DOCS-IF-MIB.
    These objects …
    1.3.6.1.4.1.9.9.170 ciscoWirelessPhyMIB 2 112 This is the MIB Module for the Cisco Wireless Radio
    Point to MultiPoint interface.
    1.3.6.1.4.1.9.9.171 ciscoIpSecFlowMonitorMIB 3 507 This is a MIB Module for monitoring the
    structures in IPSec-based Virtual Private Networks.
    The MIB has been designed to be adopt…
    1.3.6.1.4.1.9.9.172 ciscoIpSecPolMapMIB 3 21 The MIB module maps the IPSec
    entities created dynamically to the policy entities
    that caused them. This is an appendix to the
    IPS…
    1.3.6.1.4.1.9.9.173 ciscoPrivateVlanMIB 2 56 The MIB module to support Private VLAN feature on
    Cisco's switching devices.
    1.3.6.1.4.1.9.9.174 ciscoMobileIpMIB 3 533 An extension to the IETF MIB module defined in
    RFC-2006 for managing Mobile IP implementations.

    Mobile IP introduces the followin…
    1.3.6.1.4.1.9.9.175 ciscoIfLinkConfigMIB 2 15 The MIB module for configuration of bulk distribution
    (de-multiplexing of traffic from higher-bandwidth to
    lower-bandwidth interf…
    1.3.6.1.4.1.9.9.176 ciscoRFMIB 3 117 This MIB provides configuration control and status for the
    Redundancy Framework (RF) subsystem. RF provides a mechanism
    for logic…
    1.3.6.1.4.1.9.9.177 ciscoSaaApmMIB 3 38 Acronyms and Terms:
    SAA - Service Assurance Agent
    APM - Application Performance Monitoring

    A MIB for controlling SAA APM.
    APM provi…
    1.3.6.1.4.1.9.9.178 ciscoContentEngineMIB 3 263 The MIB module for the Cisco Content Engine from
    Cisco Systems, Inc.
    1.3.6.1.4.1.9.9.179 ciscoCatOSAclQosMIB 3 470 This MIB module is for Access Control Lists(ACLs) configuration
    of Quality of Service (QoS) as well as Security feature on the
    Ci…
    1.3.6.1.4.1.9.9.180 ciscoWirelessRfMetricsMIB 5 99 This is the MIB Module for the Cisco Wireless Radio
    Point to MultiPoint interface specification.
    1.3.6.1.4.1.9.9.181 ciscoWirelessLinkMetricsMIB 4 141 This is the MIB Module for the Cisco Wireless Radio
    Point to MultiPoint interface link metrics
    specification.

    Glossary

    The followin…
    1.3.6.1.4.1.9.9.183 ciscoGprsAccPtMIB 3 338 This MIB module supports access point configuration
    for GGSN in a GPRS system. GPRS [1] is a GSM network
    providing mobile wireles…
    1.3.6.1.4.1.9.9.184 ciscoPimMIB 3 36 This MIB module defines the cisco specific variables
    for Protocol Independent Multicast (PIM) management.
    These definitions are a…
    1.3.6.1.4.1.9.9.185 ciscoBertMIB 2 46 The MIB module to configure and perform Bit Error Rate Testing
    (BERT) on DS3, DS1/E1 and DS0/DS0Bundle interfaces.
    Bit error rate…
    1.3.6.1.4.1.9.9.187 ciscoBgp4MIB 4 137 An extension to the IETF BGP4 MIB module defined in
    RFC 1657.

    Following is the terminology associated with Border
    Gateway Protocol…
    1.3.6.1.4.1.9.9.188 cGtpMIB 3 248 This MIB module manages the GPRS Tunnelling Protocol
    (GTP) on GGSN and SGSN.

    GPRS provides wireless access to packet data network…
    1.3.6.1.4.1.9.9.189 ciscoPortQosMIB 3 114 Cisco PORT QOS MIB - Overview

    This MIB module is for the management of Cisco's
    per port rate-limiting and traffic shaping on L3
    sw…
    1.3.6.1.4.1.9.9.190 ciscoVoiceAppsMIB 3 40 The MIB Module for the management of Cisco Voice
    Applications. This MIB is designed to work in
    conjunction with the SYSAPPL-MIB …
    1.3.6.1.4.1.9.9.191 ciscoIpUplinkRedirectMIB 3 11 This MIB module is for the configuration of
    Cisco IP Uplink Redirect feature.
    1.3.6.1.4.1.9.9.192 ciscoGprsChargingMIB 3 315 This MIB module manages the charging related
    function on the GGSN node of a GPRS system.

    The following diagram illustrates a simp…
    1.3.6.1.4.1.9.9.194 ciscoPppoeMIB 3 89 Cisco PPPoE sessions management MIB Module.
    1.3.6.1.4.1.9.9.195 ciscoEntityExtMIB 3 64 This MIB is an extension of the ENTITY-MIB
    specified in RFC2737.

    This MIB module contains Cisco-defined extensions
    to the entit…
    1.3.6.1.4.1.9.9.197 ciscoDistDirMIB 3 123 Cisco Distributed Director MIB.

    The Cisco Distributed Director provides global Internet
    scalability and increased performance as …
    1.3.6.1.4.1.9.9.198 ciscoRfSupMIB 3 58 This MIB was designed to complement the CISCO-RF-MIB by
    providing additional optional status and configuration control
    for redund…
    1.3.6.1.4.1.9.9.199 ciscoSmFileDownloadMIB 3 23 The MIB module for downloading files to the Service
    Modules specifically designed for an architecture
    containing a controller car…
    1.3.6.1.4.1.9.9.201 ciscoSwitchUsageMIB 3 15 This MIB defines objects related to statistics
    for the usage of switch fabric. The switch fabric
    is used by the incoming packets …
    1.3.6.1.4.1.9.9.202 ciscoOscpMIB 3 52 The MIB module for managing the Cisco Optical
    Supervisory Channel Protocol (OSCP). The OSCP is used
    to determine and maintain wav…
    1.3.6.1.4.1.9.9.204 ciscoXdslLineMIB 2 32 The tables defined by this MIB module contain a collection
    of managed objects that are general in nature and apply to
    different t…
    1.3.6.1.4.1.9.9.215 ciscoMacNotificationMIB 3 72 This MIB module is for configuration of the MAC notification
    feature. MAC notification is a mechanism to inform monitoring
    device…
    1.3.6.1.4.1.9.9.216 ciscoContentNetworkMIB 3 34 This MIB module defines objects for Content Network devices.

    A Content Network is a collection of devices that optimizes the
    deli…
    1.3.6.1.4.1.9.9.217 ciscoCat6kCrossbarMIB 3 210 The Catalyst 6000 Crossbar MIB provides instrumentation for
    configuration and operation of the crossbar switching fabric
    module, …
    ...