Class eqpt:Sensor (CONCRETE)

Class ID:3255
Class Label: Equipment Sensor
Encrypted: false - Exportable: false - Persistent: false - Configurable: false - Subject to Quota: Disabled - Abstraction Layer: Concrete Model - APIC NX Processing: Disabled
Write Access: [NON CONFIGURABLE]
Read Access: [access-equipment, admin, fabric-equipment]
Creatable/Deletable: no (see Container Mos for details)
Semantic Scope: Fabric
Semantic Scope Evaluation Rule: Explicit
Monitoring Policy Source: Parent
Monitoring Flags : [ IsObservable: true, HasStats: true, HasFaults: true, HasHealth: true, HasEventRules: true ]

A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.

Naming Rules
RN FORMAT: sensor-{id}

    [1] PREFIX=sensor- PROPERTY = id




DN FORMAT: 

[0] topology/pod-{id}/node-{id}/sys/extch-{id}/extchslot-{id}/extchc/sensor-{id}

[1] sys/extch-{id}/extchslot-{id}/extchc/sensor-{id}

[2] topology/pod-{id}/node-{id}/sys/ch/scslot-{id}/sc/sensor-{id}

[3] sys/ch/scslot-{id}/sc/sensor-{id}

[4] topology/pod-{id}/node-{id}/sys/ch/fcslot-{id}/fc/sensor-{id}

[5] sys/ch/fcslot-{id}/fc/sensor-{id}

[6] topology/pod-{id}/node-{id}/sys/ch/lcslot-{id}/lc/sensor-{id}

[7] sys/ch/lcslot-{id}/lc/sensor-{id}

[8] topology/pod-{id}/node-{id}/sys/ch/supslot-{id}/sup/sensor-{id}

[9] sys/ch/supslot-{id}/sup/sensor-{id}

[10] topology/pod-{id}/node-{id}/sys/ch/nslot-{id}/nic-{id}/sensor-{id}

[11] sys/ch/nslot-{id}/nic-{id}/sensor-{id}

[12] topology/pod-{id}/node-{id}/sys/ch/bslot/board/sensor-{id}

[13] sys/ch/bslot/board/sensor-{id}

                


Diagram

Super Mo: eqpt:Silicon,
Container Mos: eqpt:Board (deletable:no), eqpt:ExtChCard (deletable:no), eqpt:FC (deletable:no), eqpt:LC (deletable:no), eqpt:Nic (deletable:no), eqpt:SupC (deletable:no), eqpt:SysC (deletable:no),


Containers Hierarchies
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:ExtCh The fabric extended chassis.
 
 
 
 
 
 ├
[V] eqpt:ExtChCardSlot The extended chassis card slot.
 
 
 
 
 
 
 ├
[V] eqpt:ExtChCard The module on an extension chassis. The extended chassis is an extension of the fabric.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:ExtCh The fabric extended chassis.
 
 
 ├
[V] eqpt:ExtChCardSlot The extended chassis card slot.
 
 
 
 ├
[V] eqpt:ExtChCard The module on an extension chassis. The extended chassis is an extension of the fabric.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:SysCSlot A system controller slot.
 
 
 
 
 
 
 ├
[V] eqpt:SysC The system controller card.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:SysCSlot A system controller slot.
 
 
 
 ├
[V] eqpt:SysC The system controller card.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:FCSlot A fabric card slot.
 
 
 
 
 
 
 ├
[V] eqpt:FC The fabric card, which connects different IO cards and stores all fabric related information.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:FCSlot A fabric card slot.
 
 
 
 ├
[V] eqpt:FC The fabric card, which connects different IO cards and stores all fabric related information.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:LCSlot The slot for the module card.
 
 
 
 
 
 
 ├
[V] eqpt:LC A line card (IO card) contains IO ports and stores various line card related state mac addresses assigned to this card, such as whether the card went online.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:LCSlot The slot for the module card.
 
 
 
 ├
[V] eqpt:LC A line card (IO card) contains IO ports and stores various line card related state mac addresses assigned to this card, such as whether the card went online.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:SupCSlot The supervisor slot identifier.
 
 
 
 
 
 
 ├
[V] eqpt:SupC The supervisor card, which contains the CPU running control plane.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:SupCSlot The supervisor slot identifier.
 
 
 
 ├
[V] eqpt:SupC The supervisor card, which contains the CPU running control plane.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:NSlot A NIC slot.
 
 
 
 
 
 
 ├
[V] eqpt:Nic A NIC card.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:NSlot A NIC slot.
 
 
 
 ├
[V] eqpt:Nic A NIC card.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] fabric:Topology The root for IFC topology.
 
 ├
[V] fabric:Pod A pod.
 
 
 ├
[V] fabric:Node The root node for the APIC.
 
 
 
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 
 
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 
 
 
 ├
[V] eqpt:BSlot The board slot.
 
 
 
 
 
 
 ├
[V] eqpt:Board The motherboard of the controller.
 
 
 
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
[V] top:Root  This class represents the root element in the object hierarchy. All managed objects in the system are descendants of the Root element.
 ├
[V] top:System The APIC uses a policy model to combine data into a health score. Health scores can be aggregated for a variety of areas such as for the infrastructure, applications, or services. The category health score is calculated using a Lp -Norm formula. The health score penalty equals 100 minus the health score. The health score penalty represents the overall health score penalties of a set of MOs that belong to a given category and are children or direc...
 
 ├
[V] eqpt:Ch A hardware chassis container contains chassis properties such as its role in the fabric (spine/tor) and a description of switch.
 
 
 ├
[V] eqpt:BSlot The board slot.
 
 
 
 ├
[V] eqpt:Board The motherboard of the controller.
 
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.


Contained Hierarchy
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
 ├
[V] fault:Counts An immutable object that provides the number of critical, major, minor, and warning faults raised on its parent object and its subtree.
 ├
[V] fault:Inst Contains detailed information of a fault. This object is attached as a child of the object on which the fault condition occurred. One instance object is created for each fault condition of the parent object. A fault instance object is identified by a fault code.
 
 ├
[V] aaa:RbacAnnotation  RbacAnnotation is used for capturing rbac properties of any apic object Objects can append rbacannotations as Object->RbacAnnotation which is then checked for domain eligibility
 
 ├
[V] tag:Annotation 
 
 ├
[V] tag:Tag 
 ├
[V] health:Inst A base class for a health score instance.(Switch only)


Inheritance
[V] nw:Item Ignore.
 ├
[V] eqpt:Item The abstraction for any equipment component/container in the system.
 
 ├
[V] eqpt:Comp An equipment component such as a card, port, transceiver, or ASIC.
 
 
 ├
[V] eqpt:Silicon The abstract class for ASIC and/or FPGA.
 
 
 
 ├
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.


Stat Counters
scalar:UByte GAUGE: eqpt:Temp:normalized(percentage)
           normalized temperature
          Comments: Normalized value
scalar:Uint32 GAUGE: eqpt:Temp:current(celsius)
           current temperature
          Comments: Current temperature


Stats
[V] eqpt:Sensor A temperature sensor monitors the on-board temperature on the chassis. The temperatures are an input into the fan control algorithm. The chassis software adjusts fan speed to keep all sensors within normal operating conditions.
 ├
[V] eqpt:Temp15min A class that represents the most current statistics for temperature in a 15 minute sampling interval. This class updates every 5 minutes.
 ├
[V] eqpt:Temp1d A class that represents the most current statistics for temperature in a 1 day sampling interval. This class updates every hour.
 ├
[V] eqpt:Temp1h A class that represents the most current statistics for temperature in a 1 hour sampling interval. This class updates every 15 minutes.
 ├
[V] eqpt:Temp1mo A class that represents the most current statistics for temperature in a 1 month sampling interval. This class updates every day.
 ├
[V] eqpt:Temp1qtr A class that represents the most current statistics for temperature in a 1 quarter sampling interval. This class updates every day.
 ├
[V] eqpt:Temp1w A class that represents the most current statistics for temperature in a 1 week sampling interval. This class updates every day.
 ├
[V] eqpt:Temp1year A class that represents the most current statistics for temperature in a 1 year sampling interval. This class updates every day.
 ├
[V] eqpt:Temp5min A class that represents the most current statistics for temperature in a 5 minute sampling interval. This class updates every 10 seconds.
 ├
[V] eqpt:TempHist15min A class that represents historical statistics for temperature in a 15 minute sampling interval. This class updates every 5 minutes.
 ├
[V] eqpt:TempHist1d A class that represents historical statistics for temperature in a 1 day sampling interval. This class updates every hour.
 ├
[V] eqpt:TempHist1h A class that represents historical statistics for temperature in a 1 hour sampling interval. This class updates every 15 minutes.
 ├
[V] eqpt:TempHist1mo A class that represents historical statistics for temperature in a 1 month sampling interval. This class updates every day.
 ├
[V] eqpt:TempHist1qtr A class that represents historical statistics for temperature in a 1 quarter sampling interval. This class updates every day.
 ├
[V] eqpt:TempHist1w A class that represents historical statistics for temperature in a 1 week sampling interval. This class updates every day.
 ├
[V] eqpt:TempHist1year A class that represents historical statistics for temperature in a 1 year sampling interval. This class updates every day.
 ├
[V] eqpt:TempHist5min A class that represents historical statistics for temperature in a 5 minute sampling interval. This class updates every 10 seconds.


Events
                eqpt:Sensor:eqpt_Sensor_sensorThresholdCrossed
eqpt:Sensor:eqpt_Sensor_sensorThresholdCrossed


Faults
                eqpt:Sensor:failed


Fsms
                


Properties Summary
Defined in: eqpt:Sensor
eqpt:Id
          scalar:Uint32
id  (eqpt:Sensor:id)
           Overrides:eqpt:Item:id
           The sensor identifier.
eqpt:TempThresh
          scalar:Sint16
majorThresh  (eqpt:Sensor:majorThresh)
           The maximum threshold of the sensor in celsius.
eqpt:TempThresh
          scalar:Sint16
minorThresh  (eqpt:Sensor:minorThresh)
           The minimum threshold of the sensor in celsius.
reference:BinRef monPolDn  (eqpt:Sensor:monPolDn)
           The monitoring policy attached to this observable object.
eqpt:SensorOpSt
          scalar:Enum8
operSt  (eqpt:Sensor:operSt)
           The runtime state.
eqpt:SensorT
          scalar:Enum8
type  (eqpt:Sensor:type)
           The type of sensor.
eqpt:TempThresh
          scalar:Sint16
value  (eqpt:Sensor:value)
           The value of the property.
Defined in: eqpt:Comp
string:Basic cimcVersion  (eqpt:Comp:cimcVersion)
           NO COMMENTS
naming:Descr
          string:Basic
descr  (eqpt:Comp:descr)
           Additional descriptive information about the object.
scalar:Date mfgTm  (eqpt:Comp:mfgTm)
           The manufacturing time.
eqpt:Model
          string:Basic
model  (eqpt:Comp:model)
           The model of the component.
eqpt:Revision
          string:Basic
rev  (eqpt:Comp:rev)
           The revision number.
eqpt:Serial
          string:Basic
ser  (eqpt:Comp:ser)
           The serial number.
eqpt:Vendor
          string:Basic
vendor  (eqpt:Comp:vendor)
           The vendor.
Defined in: mo:Modifiable
mo:TStamp
          scalar:Date
modTs  (mo:Modifiable:modTs)
           The time when this object was last modified.
Defined in: mo:TopProps
mo:ModificationChildAction
          scalar:Bitmask32
childAction  (mo:TopProps:childAction)
           Delete or ignore. For internal use only.
reference:BinRef dn  (mo:TopProps:dn)
           A tag or metadata is a non-hierarchical keyword or term assigned to the fabric module.
reference:BinRN rn  (mo:TopProps:rn)
           Identifies an object from its siblings within the context of its parent object. The distinguished name contains a sequence of relative names.
mo:ModificationStatus
          scalar:Bitmask32
status  (mo:TopProps:status)
           The upgrade status. This property is for internal use only.
Properties Detail

childAction

Type: mo:ModificationChildAction
Primitive Type: scalar:Bitmask32

Units: null
Encrypted: false
Access: implicit
Category: TopLevelChildAction
    Comments:
Delete or ignore. For internal use only.
Constants
deleteAll 16384u deleteAll NO COMMENTS
ignore 4096u ignore NO COMMENTS
deleteNonPresent 8192u deleteNonPresent NO COMMENTS
DEFAULT 0 --- This type is used to





cimcVersion

Type: string:Basic

Like: eqpt:Dev:cimcVersion
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
NO COMMENTS



descr

Type: naming:Descr
Primitive Type: string:Basic

Like: naming:Described:descr
Units: null
Encrypted: false
Access: admin
Category: TopLevelRegular
    Comments:
Additional descriptive information about the object.



dn

Type: reference:BinRef

Units: null
Encrypted: false
Access: implicit
Category: TopLevelDn
    Comments:
A tag or metadata is a non-hierarchical keyword or term assigned to the fabric module.



id

Type: eqpt:Id
Primitive Type: scalar:Uint32

Overrides:eqpt:Item:id
Units: null Encrypted: false Naming Property -- [NAMING RULES] Access: naming Category: TopLevelRegular
    Comments:
The sensor identifier.



majorThresh

Type: eqpt:TempThresh
Primitive Type: scalar:Sint16

Units: celsius
Encrypted: false
Access: oper
Category: TopLevelRegular
    Comments:
The maximum threshold of the sensor in celsius.



mfgTm

Type: scalar:Date

Like: eqpt:Mfg:mfgTm
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The manufacturing time.
Constants
not-applicable 0ull N/A NO COMMENTS
DEFAULT not-applicable(0ull) N/A NO COMMENTS





minorThresh

Type: eqpt:TempThresh
Primitive Type: scalar:Sint16

Units: celsius
Encrypted: false
Access: oper
Category: TopLevelRegular
    Comments:
The minimum threshold of the sensor in celsius.



modTs

Type: mo:TStamp
Primitive Type: scalar:Date

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The time when this object was last modified.
Constants
never 0ull never NO COMMENTS
DEFAULT never(0ull) never NO COMMENTS





model

Type: eqpt:Model
Primitive Type: string:Basic

Like: eqpt:Dev:model
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The model of the component.



monPolDn

Type: reference:BinRef

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The monitoring policy attached to this observable object.



operSt

Type: eqpt:SensorOpSt
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The runtime state.
Constants
fail 0 Fail Failure state
normal 1 Normal Normal state
minor 2 Minor Alarm Minor alarm tstate
major 3 Major Alarm Major alarm state
absent 4 Absent Absent state
bad-asic 5 Bad Asic Bad Asic
DEFAULT absent(4) Absent Absent state





rev

Type: eqpt:Revision
Primitive Type: string:Basic

Like: eqpt:Dev:rev
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The revision number.
Constants
defaultValue "0" --- NO COMMENTS





rn

Type: reference:BinRN

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRn
    Comments:
Identifies an object from its siblings within the context of its parent object. The distinguished name contains a sequence of relative names.



ser

Type: eqpt:Serial
Primitive Type: string:Basic

Like: eqpt:Dev:ser
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The serial number.



status

Type: mo:ModificationStatus
Primitive Type: scalar:Bitmask32

Units: null
Encrypted: false
Access: implicit
Category: TopLevelStatus
    Comments:
The upgrade status. This property is for internal use only.
Constants
created 2u created In a setter method: specifies that an object should be created. An error is returned if the object already exists.
In the return value of a setter method: indicates that an object has been created.
modified 4u modified In a setter method: specifies that an object should be modified
In the return value of a setter method: indicates that an object has been modified.
deleted 8u deleted In a setter method: specifies that an object should be deleted.
In the return value of a setter method: indicates that an object has been deleted.
DEFAULT 0 --- This type controls the life cycle of objects passed in the XML API.

When used in a setter method (such as configConfMo), the ModificationStatus specifies whether an object should be created, modified, deleted or removed.
In the return value of a setter method, the ModificationStatus indicates the actual operation that was performed. For example, the ModificationStatus is set to "created" if the object was created. The ModificationStatus is not set if the object was neither created, modified, deleted or removed.

When invoking a setter method, the ModificationStatus is optional:
If a setter method such as configConfMo is invoked and the ModificationStatus is not set, the system automatically determines if the object should be created or modified.






type

Type: eqpt:SensorT
Primitive Type: scalar:Enum8

Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The type of sensor.
Constants
cpu 1 CPU sensor CPU sensor
inlet 2 Inlet sensor Inlet sensor
outlet 3 Outlet sensor Outlet sensor
hotswap 4 Hotswap sensor Hotswap sensor
dimm 5 DIMM sensor Dimm sensor
phy 6 Phy sensor Phy sensor
sfp 7 SFP sensor Sfp sensor
qsfp 8 QSFP sensor QSfp sensor
asic 9 Asic sensor Asic sensor
pch 10 PCH Platform controller Hub sensor
cpu-crm 11 cpu VRM cpu voltage regulator module
asic-vrm 12 Asic VRM Asic vrm sensor
x86 18 x86 cpu x86 processor
arm 19 arm cpu arm processor
DEFAULT asic(9) Asic sensor Asic sensor





value

Type: eqpt:TempThresh
Primitive Type: scalar:Sint16

Units: celsius
Encrypted: false
Access: oper
Category: TopLevelRegular
    Comments:
The value of the property.



vendor

Type: eqpt:Vendor
Primitive Type: string:Basic

Like: eqpt:Dev:vendor
Units: null
Encrypted: false
Access: implicit
Category: TopLevelRegular
    Comments:
The vendor.
Constants
defaultValue "Cisco Systems, Inc" --- NO COMMENTS