A conceptual row of this table.
QAM channels are modeled as PhysicalClass 'port' from
the ENTITY-MIB.
An QAM channel can be represented as part of an entity
MIB containment tree as follows:
chassis(EQAM device)
.container(EQAM Slot)
.module(field-replaceable-module)
.module ( Physical RF spigot)
. port (QAM channel)
PhysicalClass 'stack' is left optional and not included
as a reference or examples for this table.
Based on the hardware capabilities the Agent will create
entries in this table including the entPhysicalEntry of
the close element to the root (e.g., up to 'chassis' or
'stack') including the PHY parameter of the dependency
as part of the entry index
The Aggregation is then defined as all the QAM channels
(entity PhysicalClass = 'port') below the tree as
indicated in entyPhysicalContainsTable.
Logical or software dependencies of the QAM channels PHY
parameters in addition to the hardware dependency entries
can be present and MUST persist to system
re-initialization. The storage realization of hardware
dependent entries are 'permanent' or 'readOnly'. The
storage realization of logical dependency entries is
'nonVolatile'.
PHY parameters dependencies being logically defined may be
present in this table but its configuration is outside of
the scope of this MIB Module, including the definition of
simulated Physical components such backplane types or
modules accomplish its logical grouping.
PHY parameters with no Physical entities associated in
this table indicates no PHY dependencies for certain groups
of QAM channels.
Administrative changes to the
docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in
non-volatile memory upon system re-initialization.
Note that any change in the system due to the
insertion or removal or components will reset to factory
default the entries associated to those components.
An entry in this table is reflected in the MIB object
docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual
QAM channels.
A recursive method to find the PHY dependency group of an
QAM channel A, PHY parameter X is as follows:
The parent tree of QAM channel A is recursively calculated
by navigating entyPhysicalContainsTable from bottom to top
Pi(P1..Pn)
The list Mj (M1..Mn) of
docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the
values from this table with PHY parameter
docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all'
The list Qi (Q1..n) is the list of matches of Mi in Pi
Qi with the lower position in the entyPhysicalContainsTable
is selected Qy and My is the group criteria selected.
All QAM channels Bi below My are candidates of being in
the dependency group.
Each Bi is verified as A for its own BPi parent tree to
verify that in effect My is the lowest denominator in Mi
BPi intersection to become part of the Dependency Group
of A.
A conceptual row of this table.
QAM channels are modeled as PhysicalClass 'port' from
the ENTITY-MIB.
An QAM channel can be represented as part of an entity
MIB containment tree as follows:
chassis(EQAM device)
.container(EQAM Slot)
.module(field-replaceable-module)
.module ( Physical RF spigot)
. port (QAM channel)
PhysicalClass 'stack' is left optional and not included
as a reference or examples for this table.
Based on the hardware capabilities the Agent will create
entries in this table including the entPhysicalEntry of
the close element to the root (e.g., up to 'chassis' or
'stack') including the PHY parameter of the dependency
as part of the entry index
The Aggregation is then defined as all the QAM channels
(entity PhysicalClass = 'port') below the tree as
indicated in entyPhysicalContainsTable.
Logical or software dependencies of the QAM channels PHY
parameters in addition to the hardware dependency entries
can be present and MUST persist to system
re-initialization. The storage realization of hardware
dependent entries are 'permanent' or 'readOnly'. The
storage realization of logical dependency entries is
'nonVolatile'.
PHY parameters dependencies being logically defined may be
present in this table but its configuration is outside of
the scope of this MIB Module, including the definition of
simulated Physical components such backplane types or
modules accomplish its logical grouping.
PHY parameters with no Physical entities associated in
this table indicates no PHY dependencies for certain groups
of QAM channels.
Administrative changes to the
docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in
non-volatile memory upon system re-initialization.
Note that any change in the system due to the
insertion or removal or components will reset to factory
default the entries associated to those components.
An entry in this table is reflected in the MIB object
docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual
QAM channels.
A recursive method to find the PHY dependency group of an
QAM channel A, PHY parameter X is as follows:
The parent tree of QAM channel A is recursively calculated
by navigating entyPhysicalContainsTable from bottom to top
Pi(P1..Pn)
The list Mj (M1..Mn) of
docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the
values from this table with PHY parameter
docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all'
The list Qi (Q1..n) is the list of matches of Mi in Pi
Qi with the lower position in the entyPhysicalContainsTable
is selected Qy and My is the group criteria selected.
All QAM channels Bi below My are candidates of being in
the dependency group.
Each Bi is verified as A for its own BPi parent tree to
verify that in effect My is the lowest denominator in Mi
BPi intersection to become part of the Dependency Group
of A.
Parsed from file DOCS-IF-M-CMTS-MIB.my.txt
Company: None
Module: DOCS-IF-M-CMTS-MIB
A conceptual row of this table.
QAM channels are modeled as PhysicalClass 'port' from
the ENTITY-MIB.
An QAM channel can be represented as part of an entity
MIB containment tree as follows:
chassis(EQAM device)
.container(EQAM Slot)
.module(field-replaceable-module)
.module ( Physical RF spigot)
. port (QAM channel)
PhysicalClass 'stack' is left optional and not included
as a reference or examples for this table.
Based on the hardware capabilities the Agent will create
entries in this table including the entPhysicalEntry of
the close element to the root (e.g., up to 'chassis' or
'stack') including the PHY parameter of the dependency
as part of the entry index
The Aggregation is then defined as all the QAM channels
(entity PhysicalClass = 'port') below the tree as
indicated in entyPhysicalContainsTable.
Logical or software dependencies of the QAM channels PHY
parameters in addition to the hardware dependency entries
can be present and MUST persist to system
re-initialization. The storage realization of hardware
dependent entries are 'permanent' or 'readOnly'. The
storage realization of logical dependency entries is
'nonVolatile'.
PHY parameters dependencies being logically defined may be
present in this table but its configuration is outside of
the scope of this MIB Module, including the definition of
simulated Physical components such backplane types or
modules accomplish its logical grouping.
PHY parameters with no Physical entities associated in
this table indicates no PHY dependencies for certain groups
of QAM channels.
Administrative changes to the
docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in
non-volatile memory upon system re-initialization.
Note that any change in the system due to the
insertion or removal or components will reset to factory
default the entries associated to those components.
An entry in this table is reflected in the MIB object
docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual
QAM channels.
A recursive method to find the PHY dependency group of an
QAM channel A, PHY parameter X is as follows:
The parent tree of QAM channel A is recursively calculated
by navigating entyPhysicalContainsTable from bottom to top
Pi(P1..Pn)
The list Mj (M1..Mn) of
docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the
values from this table with PHY parameter
docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all'
The list Qi (Q1..n) is the list of matches of Mi in Pi
Qi with the lower position in the entyPhysicalContainsTable
is selected Qy and My is the group criteria selected.
All QAM channels Bi below My are candidates of being in
the dependency group.
Each Bi is verified as A for its own BPi parent tree to
verify that in effect My is the lowest denominator in Mi
BPi intersection to become part of the Dependency Group
of A.
docsIfMCmtsEqamGroupDependencyEntry OBJECT-TYPE SYNTAX DocsIfMCmtsEqamGroupDependencyEntry ACCESS not-accessible STATUS mandatory DESCRIPTION "A conceptual row of this table. QAM channels are modeled as PhysicalClass 'port' from the ENTITY-MIB. An QAM channel can be represented as part of an entity MIB containment tree as follows: chassis(EQAM device) .container(EQAM Slot) .module(field-replaceable-module) .module ( Physical RF spigot) . port (QAM channel) PhysicalClass 'stack' is left optional and not included as a reference or examples for this table. Based on the hardware capabilities the Agent will create entries in this table including the entPhysicalEntry of the close element to the root (e.g., up to 'chassis' or 'stack') including the PHY parameter of the dependency as part of the entry index The Aggregation is then defined as all the QAM channels (entity PhysicalClass = 'port') below the tree as indicated in entyPhysicalContainsTable. Logical or software dependencies of the QAM channels PHY parameters in addition to the hardware dependency entries can be present and MUST persist to system re-initialization. The storage realization of hardware dependent entries are 'permanent' or 'readOnly'. The storage realization of logical dependency entries is 'nonVolatile'. PHY parameters dependencies being logically defined may be present in this table but its configuration is outside of the scope of this MIB Module, including the definition of simulated Physical components such backplane types or modules accomplish its logical grouping. PHY parameters with no Physical entities associated in this table indicates no PHY dependencies for certain groups of QAM channels. Administrative changes to the docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in non-volatile memory upon system re-initialization. Note that any change in the system due to the insertion or removal or components will reset to factory default the entries associated to those components. An entry in this table is reflected in the MIB object docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual QAM channels. A recursive method to find the PHY dependency group of an QAM channel A, PHY parameter X is as follows: The parent tree of QAM channel A is recursively calculated by navigating entyPhysicalContainsTable from bottom to top Pi(P1..Pn) The list Mj (M1..Mn) of docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the values from this table with PHY parameter docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all' The list Qi (Q1..n) is the list of matches of Mi in Pi Qi with the lower position in the entyPhysicalContainsTable is selected Qy and My is the group criteria selected. All QAM channels Bi below My are candidates of being in the dependency group. Each Bi is verified as A for its own BPi parent tree to verify that in effect My is the lowest denominator in Mi BPi intersection to become part of the Dependency Group of A." INDEX { docsIfMCmtsEqamGroupDependencyPhyParam, docsIfMCmtsEqamGroupDependencyPhysicalIndex } ::= { docsIfMCmtsEqamGroupDependencyTable 1 }
Vendor: Cable Television Laboratories, Inc.
Module: DOCS-IF-M-CMTS-MIB
[Automatically extracted from oidview.com]
docsIfMCmtsEqamGroupDependencyEntry OBJECT-TYPE SYNTAX DocsIfMCmtsEqamGroupDependencyEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of this table. QAM channels are modeled as PhysicalClass 'port' from the ENTITY-MIB. An QAM channel can be represented as part of an entity MIB containment tree as follows: chassis(EQAM device) .container(EQAM Slot) .module(field-replaceable-module) .module ( Physical RF spigot) . port (QAM channel) PhysicalClass 'stack' is left optional and not included as a reference or examples for this table. Based on the hardware capabilities the Agent will create entries in this table including the entPhysicalEntry of the close element to the root (e.g., up to 'chassis' or 'stack') including the PHY parameter of the dependency as part of the entry index The Aggregation is then defined as all the QAM channels (entity PhysicalClass = 'port') below the tree as indicated in entyPhysicalContainsTable. Logical or software dependencies of the QAM channels PHY parameters in addition to the hardware dependency entries can be present and MUST persist to system re-initialization. The storage realization of hardware dependent entries are 'permanent' or 'readOnly'. The storage realization of logical dependency entries is 'nonVolatile'. PHY parameters dependencies being logically defined may be present in this table but its configuration is outside of the scope of this MIB Module, including the definition of simulated Physical components such backplane types or modules accomplish its logical grouping. PHY parameters with no Physical entities associated in this table indicates no PHY dependencies for certain groups of QAM channels. Administrative changes to the docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in non-volatile memory upon system re-initialization. Note that any change in the system due to the insertion or removal or components will reset to factory default the entries associated to those components. An entry in this table is reflected in the MIB object docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual QAM channels. A recursive method to find the PHY dependency group of an QAM channel A, PHY parameter X is as follows: The parent tree of QAM channel A is recursively calculated by navigating entyPhysicalContainsTable from bottom to top Pi(P1..Pn) The list Mj (M1..Mn) of docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the values from this table with PHY parameter docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all' The list Qi (Q1..n) is the list of matches of Mi in Pi Qi with the lower position in the entyPhysicalContainsTable is selected Qy and My is the group criteria selected. All QAM channels Bi below My are candidates of being in the dependency group. Each Bi is verified as A for its own BPi parent tree to verify that in effect My is the lowest denominator in Mi BPi intersection to become part of the Dependency Group of A." INDEX { docsIfMCmtsEqamGroupDependencyPhyParam, docsIfMCmtsEqamGroupDependencyPhysicalIndex } ::= { docsIfMCmtsEqamGroupDependencyTable 1 }
docsIfMCmtsEqamGroupDependencyEntry OBJECT-TYPE SYNTAX DocsIfMCmtsEqamGroupDependencyEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A conceptual row of this table. QAM channels are modeled as PhysicalClass 'port' from the ENTITY-MIB. An QAM channel can be represented as part of an entity MIB containment tree as follows: chassis(EQAM device) .container(EQAM Slot) .module(field-replaceable-module) .module ( Physical RF spigot) . port (QAM channel) PhysicalClass 'stack' is left optional and not included as a reference or examples for this table. Based on the hardware capabilities the Agent will create entries in this table including the entPhysicalEntry of the close element to the root (e.g., up to 'chassis' or 'stack') including the PHY parameter of the dependency as part of the entry index The Aggregation is then defined as all the QAM channels (entity PhysicalClass = 'port') below the tree as indicated in entyPhysicalContainsTable. Logical or software dependencies of the QAM channels PHY parameters in addition to the hardware dependency entries can be present and MUST persist to system re-initialization. The storage realization of hardware dependent entries are 'permanent' or 'readOnly'. The storage realization of logical dependency entries is 'nonVolatile'. PHY parameters dependencies being logically defined may be present in this table but its configuration is outside of the scope of this MIB Module, including the definition of simulated Physical components such backplane types or modules accomplish its logical grouping. PHY parameters with no Physical entities associated in this table indicates no PHY dependencies for certain groups of QAM channels. Administrative changes to the docsIfMCmtsEqamGroupDependencyPhyParamLock are preserved in non-volatile memory upon system re-initialization. Note that any change in the system due to the insertion or removal or components will reset to factory default the entries associated to those components. An entry in this table is reflected in the MIB object docsIfMExtDownstreamTSIDGroupPhyParamFlag for individual QAM channels. A recursive method to find the PHY dependency group of an QAM channel A, PHY parameter X is as follows: The parent tree of QAM channel A is recursively calculated by navigating entyPhysicalContainsTable from bottom to top Pi(P1..Pn) The list Mj (M1..Mn) of docsIfMCmtsEqamGroupDependencyPhysicalIndex represents the values from this table with PHY parameter docsIfMCmtsEqamGroupDependencyPhyParam X and/or 'all' The list Qi (Q1..n) is the list of matches of Mi in Pi Qi with the lower position in the entyPhysicalContainsTable is selected Qy and My is the group criteria selected. All QAM channels Bi below My are candidates of being in the dependency group. Each Bi is verified as A for its own BPi parent tree to verify that in effect My is the lowest denominator in Mi BPi intersection to become part of the Dependency Group of A." INDEX { docsIfMCmtsEqamGroupDependencyPhyParam, docsIfMCmtsEqamGroupDependencyPhysicalIndex } ::= { docsIfMCmtsEqamGroupDependencyTable 1 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.4491.2.1.6.1.3.3.1.1 | docsIfMCmtsEqamGroupDependencyPhyParam | 0 | 0 | This object represents the type of DOCSIS PHY parameter that may have dependencies when setting an individual object in the depen… |
| 1.3.6.1.4.1.4491.2.1.6.1.3.3.1.2 | docsIfMCmtsEqamGroupDependencyPhysicalIndex | 0 | 0 | Indicates the physical element from where the PHY parameter dependency for QAM channels applies. All the QAM channels elements un… |
| 1.3.6.1.4.1.4491.2.1.6.1.3.3.1.3 | docsIfMCmtsEqamGroupDependencyGroupID | 0 | 0 | The internal ID assigned for the QAM channels in the dependency group. The value of this object is unique in the scope of the PHY … |
| 1.3.6.1.4.1.4491.2.1.6.1.3.3.1.4 | docsIfMCmtsEqamGroupDependencyType | 0 | 0 | The description of the type of dependency associated with this dependency group. Basic type of dependencies are docsPHYParamSameV… |