bbf-melt-processing-derived-parameter-body

This submodule contains a collection of YANG definitions for Metallic Line Test Processing (MELT-P) derived parameters. Copyrig...

  • Version: 2022-05-23

    bbf-melt-processing-derived-parameter-body@2022-05-23


    
      submodule bbf-melt-processing-derived-parameter-body {
    
        yang-version 1.1;
    
        belongs-to bbf-melt {
            prefix bbf-melt;
        }
    
        include bbf-melt-base;
    
        organization
          "Broadband Forum <https://www.broadband-forum.org>
    Common YANG Work Area";
    
        contact
          "Comments or questions about this Broadband Forum YANG module
    should be directed to <mailto:help@broadband-forum.org>.
    
    Editor:      Ken Kerpez, ASSIA, Inc.
    
    Editor:      Joey Boyd, Adtran
    
    PS Leader:   Joey Boyd, Adtran
    
    WA Director: Sven Ooghe, Nokia
    
    WA Director: Joey Boyd, Adtran";
    
        description
          "This submodule contains a collection of YANG definitions for
    Metallic Line Test Processing (MELT-P) derived parameters.
    
    Copyright (c) 2016-2022 Broadband Forum
    
    Redistribution and use in source and binary forms, with or
    without modification, are permitted provided that the following
    conditions are met:
    
    1. Redistributions of source code must retain the above copyright
       notice, this list of conditions and the following disclaimer.
    
    2. Redistributions in binary form must reproduce the above
       copyright notice, this list of conditions and the following
       disclaimer in the documentation and/or other materials
       provided with the distribution.
    
    3. Neither the name of the copyright holder nor the names of its
       contributors may be used to endorse or promote products
       derived from this software without specific prior written
       permission.
    
    THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND
    CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
    INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
    MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
    DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
    CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
    SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
    LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
    CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
    STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
    ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
    ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    
    The above license is used as a license under copyright only.
    Please reference the Forum IPR Policy for patent licensing terms
    <https://www.broadband-forum.org/ipr-policy>.
    
    Any moral rights which are necessary to exercise under the above
    license grant are also deemed granted under this license.
    
    This version of this YANG module is part of TR-355a4; see
    the TR itself for full legal notices.";
    
        revision "2022-05-23" {
          description
            "Amendment 4.
    * Approval Date:    2022-05-23
    * Publication Date: 2022-05-23.";
          reference
            "TR-355a4: YANG Modules for FTTdp Management
            	    <https://www.broadband-forum.org/download/
            		   TR-355_Amendment-4.pdf>";
    
        }
    
        revision "2020-10-13" {
          description
            "Amendment 3.
    * Approval Date:    2020-10-13
    * Publication Date: 2020-10-13.";
          reference
            "TR-355a3: YANG Modules for FTTdp Management
            	    <https://www.broadband-forum.org/download/
            		   TR-355_Amendment-3.pdf>";
    
        }
    
        revision "2019-06-11" {
          description
            "Amendment 2.
    * Approval Date:    2019-06-11
    * Publication Date: 2019-06-11.";
          reference
            "TR-355a2: YANG Modules for FTTdp Management
            	  <https://www.broadband-forum.org/technical/download/
            		 TR-355_Amendment-2.pdf>";
    
        }
    
        revision "2018-10-01" {
          description
            "Amendment 1.
    * Approval Date:    2018-10-01
    * Publication Date: 2018-10-01.";
          reference
            "TR-355a1: YANG Modules for FTTdp Management
            	  <https://www.broadband-forum.org/technical/download/
            		 TR-355_Amendment-1.pdf>";
    
        }
    
        revision "2016-07-18" {
          description
            "Initial revision.
    * Approval Date:    see revision date above.
    * Publication Date: 2016-08-05.";
          reference
            "TR-355: YANG Modules for FTTdp Management
            	<https://www.broadband-forum.org/technical/download/
            		 TR-355.pdf>";
    
        }
    
    
        typedef melt-processing-derived-parameter {
          type enumeration {
            enum "open-wire-failure-type" {
              value 0;
              description
                "This sub-parameter is a five state indication of the type
    of open wire failure defined as follows:
    
    1) No open wire failure detected
    2) Tip and ring wires open in equal distance
    3) Tip wire open
    4) Ring wire open
    5) Undefined.
    
    NOTE - An error-free loop will be classified as failure
    state 2) in case that the remote end of the loop was left
    open during the measurement, or the connected Customer
    Premises Equipment (CPE) could not be detected (too low
    parallel CPE system capacitance).";
              reference
                "ITU-T G.996.2 clause F.2.2.1.1 (MELT-O-WIRE-type)";
    
            }
            enum "open-wire-failure-distance" {
              value 1;
              description
                "This parameter represents a best-effort estimate of the
    distance of the detected open wire failure from the
    measurement point, i.e., from the central office or of
    the total loop length if no failure is detected. A priori
    knowledge of the loop characteristics is required for
    reliable estimation of the distance. The range of valid
    values is from 0 to 10000 meters with a granularity of 1
    meter.";
              reference
                "ITU-T G.996.2 clauses F.2.1.2 and F.2.2.1.2
                (MELT-O-WIRE-DIST)";
    
            }
            enum "short-circuit-failure-type" {
              value 2;
              description
                "This parameter is a six-state indication of the type of
    short circuit failure defined as follows:
    
    1) No short circuit detected
    2) Tip and ring wires shorted to GND
    3) Tip wire shorted to GND
    4) Ring wire shorted to GND
    5) Tip and ring wires shorted to each other
    6) Undefined.";
              reference
                "ITU-T G.996.2 clause F.2.2.2.1 (MELT-S-CCT-type)";
    
            }
            enum "leakage-identification" {
              value 3;
              description
                "This parameter indicates a leakage to GND failure,
    classified into the following states:
    
    1) No leakage detected
    2) Tip and ring wire leaking to GND
    3) Tip wire leaking to GND
    4) Ring wire leaking to GND.";
              reference
                "ITU-T G.996.2 clause F.2.2.3 (MELT-LEAK-ID)";
    
            }
            enum
              "resistive-fault-identification" {
              value 4;
              description
                "This parameter indicates a resistive fault to GND
    failure, classified into the following states:
    
    1) No resistive fault detected
    2) Resistive fault tip and ring to GND
    3) Resistive fault tip to GND
    4) Resistive fault ring to GND.";
              reference
                "ITU-T G.996.2 clause F.2.2.4 (MELT-RFAULT-ID)";
    
            }
            enum
              "foreign-voltage-type-classification" {
              value 5;
              description
                "The foreign voltage impairment in the loop under test is
    classified into the following states:
    
    1) No foreign voltage detected
    2) 16 2/3 Hz AC voltage
    3) 25 Hz AC voltage
    4) 50 Hz AC voltage
    5) 60 Hz AC voltage
    6) POTS equipment (-48 volts DC)
    7) ISDN equipment (-96 volts DC)
    8) Undefined foreign voltage detected.
    
    This classification shall be done separately for both,
    the tip and the ring wire.";
              reference
                "ITU-T G.996.2 clause F.2.2.5.1 (MELT-FV-TYPE)";
    
            }
            enum
              "foreign-voltage-level-classification" {
              value 6;
              description
                "This parameter provides a general classification of the
    foreign voltage into the following classes:
    
    1) hazardous potential (e.g., power contact)
    2) foreign electromotive force
    3) other.";
              reference
                "ITU-T G.996.2 clause F.2.2.5.2 (MELT-FV-LEVEL)";
    
            }
            enum
              "far-end-signature-topology-type-identification" {
              value 7;
              description
                "This parameter specifies the topology types of the
    detected far-end signature.
    
    Valid response values are:
    
    - no signature detected
    - unknown signature
    - signature type DR detected
    - signature type ZRC detected.";
              reference
                "ITU-T G.996.2 clause F.2.2.6.1 (MELT-FES-ID)";
    
            }
            enum "cpe-identification-capacitive" {
              value 8;
              description
                "Customer Premises Equipment (CPE) detected shall be
    reported if the measured capacitance value CTR-Term is
    >= MELT-SYSC-CPE. CTR-Term shall represent the termination
    capacitance only. Therefore, the line capacitance shall be
    subtracted from the measured CTR value. For this equation
    to hold, the MELT-SYSC-CPE value should be derived from the
    nominal CPE capacitance by accounting for all tolerances
    and be set to the minimum possible measurement result.";
              reference
                "ITU-T G.996.2 clause F.2.2.7 (MELT-CPE-ID)";
    
            }
          }
          description
            "An enumerated list of MELT processing derived parameters.";
        }
    
        grouping processing-derived-parameters {
          description
            "Defines the Metallic Line Test Processing (MELT-P) derived
    parameters.";
          leaf open-wire-failure-type {
            type enumeration {
              enum "no-open" {
                value 0;
                description
                  "No open wire failure detected.";
              }
              enum "tip-ring-open" {
                value 1;
                description
                  "Tip and ring wires open in equal distance.";
              }
              enum "tip-open" {
                value 2;
                description "Tip wire open.";
              }
              enum "ring-open" {
                value 3;
                description "Ring wire open.";
              }
              enum "undefined" {
                value 4;
                description "Undefined.";
              }
            }
            description
              "This sub-parameter is a five state indication of the type of
    open wire failure defined as follows:
    
    1) No open wire failure detected
    2) Tip and ring wires open in equal distance
    3) Tip wire open
    4) Ring wire open
    5) Undefined.
    
    NOTE - An error-free loop will be classified as failure
    state 2) in case that the remote end of the loop was left
    open during the measurement, or the connected Customer
    Premises Equipment (CPE) could not be detected (too low
    parallel CPE system capacitance).";
            reference
              "ITU-T G.996.2 clause F.2.2.1.1 (MELT-O-WIRE-type)";
    
          }
    
          leaf open-wire-failure-distance {
            type uint16 {
              range "0..10000";
            }
            units "meters";
            description
              "This parameter represents a best-effort estimate of the
    distance of the detected open wire failure from the
    measurement point, i.e., from the central office or of the
    total loop length if no failure is detected. A priori
    knowledge of the loop characteristics is required for
    reliable estimation of the distance. The range of valid
    values is from 0 to 10000 meters with a granularity of 1
    meter.";
            reference
              "ITU-T G.996.2 clauses F.2.1.2 and F.2.2.1.2
              (MELT-O-WIRE-DIST)";
    
          }
    
          leaf short-circuit-failure-type {
            type enumeration {
              enum "no-short" {
                value 0;
                description
                  "No short circuit detected.";
              }
              enum "tip-ring-short-to-ground" {
                value 1;
                description
                  "Tip and ring wires shorted to ground (GND).";
              }
              enum "tip-short-to-ground" {
                value 2;
                description
                  "Tip wire shorted to ground (GND).";
              }
              enum "ring-short-to-ground" {
                value 3;
                description
                  "Ring wire shorted to ground (GND).";
              }
              enum
                "tip-ring-short-to-each-other" {
                value 4;
                description
                  "Tip and ring wires shorted to each other.";
              }
              enum "undefined" {
                value 5;
                description "Undefined.";
              }
            }
            description
              "This parameter is a six-state indication of the type of
    short circuit failure defined as follows:
    
    1) No short circuit detected
    2) Tip and ring wires shorted to GND
    3) Tip wire shorted to GND
    4) Ring wire shorted to GND
    5) Tip and ring wires shorted to each other
    6) Undefined.";
            reference
              "ITU-T G.996.2 clause F.2.2.2.1 (MELT-S-CCT-type)";
    
          }
    
          leaf leakage-identification {
            type enumeration {
              enum "no-leakage" {
                value 0;
                description
                  "No leakage detected.";
              }
              enum "tip-ring-leaking" {
                value 1;
                description
                  "Tip and ring wire leaking to ground (GND).";
              }
              enum "tip-leaking" {
                value 2;
                description
                  "Tip wire leaking to ground (GND).";
              }
              enum "ring-leaking" {
                value 3;
                description
                  "Ring wire leaking to ground (GND).";
              }
            }
            description
              "This parameter indicates a leakage to ground (GND) failure,
    classified into the following states:
    
    1) No leakage detected
    2) Tip and ring wire leaking to GND
    3) Tip wire leaking to GND
    4) Ring wire leaking to GND.";
            reference
              "ITU-T G.996.2 clause F.2.2.3 (MELT-LEAK-ID)";
    
          }
    
          leaf resistive-fault-identification {
            type enumeration {
              enum "no-fault" {
                value 0;
                description
                  "No resistive fault detected.";
              }
              enum "tip-ring-fault" {
                value 1;
                description
                  "Resistive fault tip and ring to ground (GND).";
              }
              enum "tip-fault" {
                value 2;
                description
                  "Resistive fault tip to ground (GND).";
              }
              enum "ring-fault" {
                value 3;
                description
                  "Resistive fault ring to ground (GND).";
              }
            }
            description
              "This parameter indicates a resistive fault to ground (GND)
    failure, classified into the following states:
    
    1) No resistive fault detected
    2) Resistive fault tip and ring to GND
    3) Resistive fault tip to GND
    4) Resistive fault ring to GND.";
            reference
              "ITU-T G.996.2 clause F.2.2.4 (MELT-RFAULT-ID)";
    
          }
    
          leaf foreign-voltage-type-classification {
            type enumeration {
              enum "no-foreign-voltage-detected" {
                value 0;
                description
                  "No foreign voltage detected.";
              }
              enum "16-hz-ac-voltage" {
                value 1;
                description
                  "16 2/3 Hz AC voltage on both tip and ring wires.";
              }
              enum "25-hz-ac-voltage" {
                value 2;
                description
                  "25 Hz AC voltage on both tip and ring wires.";
              }
              enum "50-hz-ac-voltage" {
                value 3;
                description
                  "50 Hz AC voltage on both tip and ring wires.";
              }
              enum "60-hz-ac-voltage" {
                value 4;
                description
                  "60 Hz AC voltage on both tip and ring wires.";
              }
              enum "pots-equipment" {
                value 5;
                description
                  "POTS equipment (-48 volts DC) on both tip and ring
    wires.";
              }
              enum "isdn-equipment" {
                value 6;
                description
                  "ISDN equipment (-96 volts DC) on both tip and ring
    wires.";
              }
              enum
                "undefined-foreign-voltage-detected" {
                value 7;
                description
                  "Undefined foreign voltage detected on both tip and
    ring wires.";
              }
              enum "16-hz-ac-voltage-tip" {
                value 8;
                description
                  "16 2/3 Hz AC voltage on the tip wire.";
              }
              enum "16-hz-ac-voltage-ring" {
                value 9;
                description
                  "16 2/3 Hz AC voltage on the ring wire.";
              }
              enum "25-hz-ac-voltage-tip" {
                value 10;
                description
                  "25 Hz AC voltage on the the tip wire.";
              }
              enum "25-hz-ac-voltage-ring" {
                value 11;
                description
                  "25 Hz AC voltage on the the ring wire.";
              }
              enum "50-hz-ac-voltage-tip" {
                value 12;
                description
                  "50 Hz AC voltage on the tip wire.";
              }
              enum "50-hz-ac-voltage-ring" {
                value 13;
                description
                  "50 Hz AC voltage on the ring wire.";
              }
              enum "60-hz-ac-voltage-tip" {
                value 14;
                description
                  "60 Hz AC voltage on the tip wire.";
              }
              enum "60-hz-ac-voltage-ring" {
                value 15;
                description
                  "60 Hz AC voltage on the ring wire.";
              }
              enum "pots-equipment-tip" {
                value 16;
                description
                  "POTS equipment (-48 volts DC) on the tip wire.";
              }
              enum "pots-equipment-ring" {
                value 17;
                description
                  "POTS equipment (-48 volts DC) on the ring wire.";
              }
              enum "isdn-equipment-tip" {
                value 18;
                description
                  "ISDN equipment (-96 volts DC) on the tip wire.";
              }
              enum "isdn-equipment-ring" {
                value 19;
                description
                  "ISDN equipment (-96 volts DC) on the ring wire.";
              }
              enum
                "undefined-foreign-voltage-detected-tip" {
                value 20;
                description
                  "Undefined foreign voltage detected on the tip wire.";
              }
              enum
                "undefined-foreign-voltage-detected-ring" {
                value 21;
                description
                  "Undefined foreign voltage detected on the ring wire.";
              }
            }
            description
              "The foreign voltage impairment in the loop under test is
    classified into the following states:
    
    1) No foreign voltage detected
    2) 16 2/3 Hz AC voltage
    3) 25 Hz AC voltage
    4) 50 Hz AC voltage
    5) 60 Hz AC voltage
    6) POTS equipment (-48 volts DC)
    7) ISDN equipment (-96 volts DC)
    8) Undefined foreign voltage detected.
    
    This classification shall be done separately for both, the
    tip and the ring wire.";
            reference
              "ITU-T G.996.2 clause F.2.2.5.1 (MELT-FV-TYPE)";
    
          }
    
          leaf foreign-voltage-level-classification {
            type enumeration {
              enum "hazardous-potential" {
                value 0;
                description
                  "Hazardous potential (e.g., power contact).";
              }
              enum "foreign-electromotive-force" {
                value 1;
                description
                  "Foreign electromotive force.";
              }
              enum "other" {
                value 2;
                description "Other.";
              }
            }
            description
              "This parameter provides a general classification of the
    foreign voltage into the following classes:
    
    1) hazardous potential (e.g., power contact)
    2) foreign electromotive force
    3) other.";
            reference
              "ITU-T G.996.2 clause F.2.2.5.2 (MELT-FV-LEVEL)";
    
          }
    
          leaf far-end-signature-topology-type-identification {
            type enumeration {
              enum "no-signature-detected" {
                value 0;
                description
                  "No signature detected.";
              }
              enum "unknown-signature" {
                value 1;
                description "Unknown signature.";
              }
              enum "signature-type-dr" {
                value 2;
                description
                  "Signature type DR detected.";
              }
              enum "signature-type-zrc" {
                value 3;
                description
                  "Signature type ZRC detected.";
              }
              enum "signature-type-dr-inverse" {
                value 4;
                description
                  "Signature type DR inverse detected.";
              }
              enum "signature-type-dr-plus-zrc" {
                value 5;
                description
                  "Signature types DR and XRC detected.";
              }
              enum
                "signature-type-dr-inverse-plus-zrc" {
                value 6;
                description
                  "Signature types DR inverse and XRC detected.";
              }
            }
            description
              "This parameter specifies the topology types of the detected
    far-end signature.
    
    Valid response values are:
    
    - no signature detected
    - unknown signature
    - signature type DR detected
    - signature type ZRC detected.";
            reference
              "ITU-T G.996.2 clause F.2.2.6.1 (MELT-FES-ID)";
    
          }
    
          leaf cpe-identification-capacitive {
            type enumeration {
              enum "no-cpe-detected" {
                value 0;
                description
                  "No CPE has been detected.";
              }
              enum "cpe-detected" {
                value 1;
                description
                  "A CPE has been detected.";
              }
            }
            description
              "Customer Premises Equipment (CPE) detected shall be reported
    if the measured capacitance value CTR-Term is
    >= MELT-SYSC-CPE. CTR-Term shall represent the termination
    capacitance only. Therefore, the line capacitance shall be
    subtracted from the measured CTR value. For this equation to
    hold, the MELT-SYSC-CPE value should be derived from the
    nominal CPE capacitance by accounting for all tolerances and
    be set to the minimum possible measurement result.";
            reference
              "ITU-T G.996.2 clause F.2.2.7 (MELT-CPE-ID)";
    
          }
    
          leaf unreliability-indicator {
            if-feature bbf-melt:melt-processing-derived-parameter-reliability;
            type bits {
              bit open-wire-failure-type {
                position 0;
                description
                  "This sub-parameter is a five state indication of the type
    of open wire failure defined as follows:
    
    1) No open wire failure detected
    2) Tip and ring wires open in equal distance
    3) Tip wire open
    4) Ring wire open
    5) Undefined.
    
    NOTE - An error-free loop will be classified as failure
    state 2) in case that the remote end of the loop was left
    open during the measurement, or the connected CPE
    equipment could not be detected (too low parallel CPE
    system capacitance).";
                reference
                  "ITU-T G.996.2 clause F.2.2.1.1 (MELT-O-WIRE-type)";
    
              }
              bit open-wire-failure-distance {
                position 1;
                description
                  "This parameter represents a best-effort estimate of the
    distance of the detected open wire failure from the
    measurement point, i.e., from the central office or of
    the total loop length if no failure is detected. A priori
    knowledge of the loop characteristics is required for
    reliable estimation of the distance (see clause F.2.1.2).
    The range of valid values is from 0 to 10000 meters with
    a granularity of 1 meter.";
                reference
                  "ITU-T G.996.2 clause F.2.2.1.2 (MELT-O-WIRE-DIST)";
    
              }
              bit short-circuit-failure-type {
                position 2;
                description
                  "This parameter is a six-state indication of the type of
    short circuit failure defined as follows:
    
    1) No short circuit detected
    2) Tip and ring wires shorted to GND
    3) Tip wire shorted to GND
    4) Ring wire shorted to GND
    5) Tip and ring wires shorted to each other
    6) Undefined.";
                reference
                  "ITU-T G.996.2 clause F.2.2.2.1 (MELT-S-CCT-type)";
    
              }
              bit leakage-identification {
                position 3;
                description
                  "This parameter indicates a leakage to GND failure,
    classified into the following states:
    
    1) No leakage detected
    2) Tip and ring wire leaking to GND
    3) Tip wire leaking to GND
    4) Ring wire leaking to GND.";
                reference
                  "ITU-T G.996.2 clause F.2.2.3 (MELT-LEAK-ID)";
    
              }
              bit
                resistive-fault-identification {
                position 4;
                description
                  "This parameter indicates a resistive fault to GND
    failure, classified into the following states:
    
    1) No resistive fault detected
    2) Resistive fault tip and ring to GND
    3) Resistive fault tip to GND
    4) Resistive fault ring to GND.";
                reference
                  "ITU-T G.996.2 clause F.2.2.4 (MELT-RFAULT-ID)";
    
              }
              bit
                foreign-voltage-type-classification {
                position 5;
                description
                  "The foreign voltage impairment in the loop under test is
    classified into the following states:
    
    1) No foreign voltage detected
    2) 16 2/3 Hz AC voltage
    3) 25 Hz AC voltage
    4) 50 Hz AC voltage
    5) 60 Hz AC voltage
    6) POTS equipment (-48 volts DC)
    7) ISDN equipment (-96 volts DC)
    8) Undefined foreign voltage detected.
    
    This classification shall be done separately for both,
    the tip and the ring wire.";
                reference
                  "ITU-T G.996.2 clause F.2.2.5.1 (MELT-FV-TYPE)";
    
              }
              bit
                foreign-voltage-level-classification {
                position 6;
                description
                  "This parameter provides a general classification of the
    foreign voltage into the following classes:
    
    1) hazardous potential (e.g., power contact)
    2) foreign electromotive force
    3) other.";
                reference
                  "ITU-T G.996.2 clause F.2.2.5.2 (MELT-FV-LEVEL)";
    
              }
              bit
                far-end-signature-topology-type-identification {
                position 7;
                description
                  "This parameter specifies the topology types of the
    detected far-end signature.
    
    Valid response values are:
    
    - no signature detected
    - unknown signature
    - signature type DR detected
    - signature type ZRC detected.";
                reference
                  "ITU-T G.996.2 clause F.2.2.6.1 (MELT-FES-ID)";
    
              }
              bit
                cpe-identification-capacitive {
                position 8;
                description
                  "CPE detected shall be reported if the measured
    capacitance value CTR-Term is >= MELT-SYSC-CPE. CTR-Term
    shall represent the termination capacitance only.
    Therefore, the line capacitance shall be subtracted from
    the measured CTR value. For this equation to hold, the
    MELT-SYSC-CPE value should be derived from the nominal
    CPE capacitance by accounting for all tolerances and be
    set to the minimum possible measurement result.";
                reference
                  "ITU-T G.996.2 clause F.2.2.7 (MELT-CPE-ID)";
    
              }
            }
            description
              "The unreliability indicator provides the set of parameters
    whose data can be considered to be unreliable.
    
    Possible reasons that the data is unreliable:
      - The measurement may not have been able to run, possibly
        due to external conditions.
      - The result is not reliable as the accuracy may be
        degraded due to external conditions.";
            reference
              "ITU-T G.996.2 clause F.2.2.8 (Reliability indicator)";
    
          }
    
          container melt-processing-derived-vendor-specific-status {
            if-feature bbf-melt:melt-processing-derived-parameter-reliability;
            description
              "Vendor specific status associated with each MELT
    processing derived test.";
            list status {
              key "parameter";
              description
                "A list of per parameter test status.";
              leaf parameter {
                type melt-processing-derived-parameter;
                description
                  "The MELT processing derived parameter.";
              }
    
              leaf message {
                type string;
                description
                  "Vendor specific status message for each of the
    MELT processing derived parameters.";
              }
            }  // list status
          }  // container melt-processing-derived-vendor-specific-status
        }  // grouping processing-derived-parameters
      }  // submodule bbf-melt-processing-derived-parameter-body
    

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