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zr_pm_test
Validate 400ZR optics module reports performance metric (PM) data as defined in module CMIS VDM(Versatile Diagnostics Monitor):
- eSNR is defined as the electrical Signal to Noise ratio at the decision sampling point in dB
- Q-value is the decibel (dB) value representing signal BER.
- pre-FEC BER bit error rate.
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Connect two ZR interfaces using a duplex LC fiber jumper such that TX output power of one is the RX input power of the other module.
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To establish a point to point ZR link ensure the following:
- Both transceivers state is enabled
- Both transceivers are set to a valid target TX output power example -10 dBm.
- Both transceivers are tuned to a valid centre frequency example 193.1 THz.
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With the link ZR link established as explained above, verify that the following ZR transceiver telemetry paths exist and are streamed for both the ZR optics.
- /terminal-device/logical-channels/channel/otn/state/esnr/instant
- /terminal-device/logical-channels/channel/otn/state/esnr/avg
- /terminal-device/logical-channels/channel/otn/state/esnr/min
- /terminal-device/logical-channels/channel/otn/state/esnr/max
- /terminal-device/logical-channels/channel/otn/state/q-value/instant
- /terminal-device/logical-channels/channel/otn/state/q-value/avg
- /terminal-device/logical-channels/channel/otn/state/q-value/min
- /terminal-device/logical-channels/channel/otn/state/q-value/max
- /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/instant
- /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/avg
- /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/min
- /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/max
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For reported data check for validity min <= avg/instant <= max
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When the modules or the devices are still in a boot stage, they must not stream any invalid string values like "nil" or "-inf" until valid values are available for streaming.
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Q-value, eSNR and pre-Fec BER must always be of type decimal64. When link interfaces are in down state 0.0 must be reported as a valid default value.
- Typical expected value range for eSNR is 13.5 to 18 dB +/-0.1 dB.
- Typical expected value for Pre-FEC BER should be less than 1.2E-2.
- Typical expected Q-value should be greater than 7 dB.
Note: For min, max, and avg values, 10 second sampling is preferred. If 10 seconds is not supported, the sampling interval used must be specified by adding a deviation to the test.
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Verify that the optics PM data is updated after the interface flaps.
- Enable a pair of ZR interfaces on the DUT as explained above.
- Subscribe SAMPLE to the above PM leafs with a sample rate of 10 seconds.
- Verify the ZR optics PMs are in the normal range.
- Use /components/component/transceiver/config/enabled to disable the transceiver, wait 10 seconds and then re-enable the transceiver.
- Verify that the PM leafs report '0' during the reboot and no value of nil or -inf is reported.
- Re-enable the interfaces on the DUT.
- Verify the ZR optics pre FEC PM is updated to the value in the normal range again.
- /components/component/transceiver/config/enabled
* /terminal-device/logical-channels/channel/otn/state/esnr/instant
* /terminal-device/logical-channels/channel/otn/state/esnr/avg
* /terminal-device/logical-channels/channel/otn/state/esnr/min
* /terminal-device/logical-channels/channel/otn/state/esnr/max
* /terminal-device/logical-channels/channel/otn/state/q-value/instant
* /terminal-device/logical-channels/channel/otn/state/q-value/avg
* /terminal-device/logical-channels/channel/otn/state/q-value/min
* /terminal-device/logical-channels/channel/otn/state/q-value/max
* /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/instant
* /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/avg
* /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/min
* /terminal-device/logical-channels/channel/otn/state/pre-fec-ber/max
FFF - Fixed form factor
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- Authz: General Authz (1-4) tests
- CNTR-2: Container network connectivity tests
- DP-1.2: QoS policy feature config
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- gNMI-1.12: Mixed OpenConfig/CLI Origin
- gNMI-1.13: Optics Telemetry, Instant, threshold, and miscellaneous static info
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- gNMI-1.16: fabric redundancy test
- gNMI-1.17: Controller Card redundancy test
- gNMI-1.18: gNMI subscribe with sample mode for backplane capacity counters
- gNMI-1.19: ConfigPush after Control Card switchover
- gNMI-1.20: Telemetry: Optics Thresholds
- gNMI-1.21: Integrated Circuit Hardware Resource Utilization Test
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- gNMI-1.27: gNMI Sample Mode Test
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- gNOI-5.3: Copying Debug Files
- gNOI-6.1: Factory Reset
- Health-1.1: Generic Health Check
- Health-1.2: Healthz component status paths
- MGT-1: Management HA solution test
- MTU-1.3: Large IP Packet Transmission
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- OC-26.1: Network Time Protocol (NTP)
- P4RT-1.1: Base P4RT Functionality
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- P4RT-2.1: P4RT Election
- P4RT-2.2: P4RT Metadata Validation
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- Replay-1.0: Record/replay presession test
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- RT-1.1: Base BGP Session Parameters
- RT-1.2: BGP Policy & Route Installation
- RT-1.3: BGP Route Propagation
- RT-1.4: BGP Graceful Restart
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- RT-1.7: Local BGP Test
- RT-1.10: BGP Keepalive and HoldTimer Configuration Test
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- RT-1.19: BGP 2-Byte and 4-Byte ASN support
- RT-1.21: BGP TCP MSS and PMTUD
- RT-1.23: BGP AFI SAFI OC DEFAULTS
- RT-1.24: BGP 2-Byte and 4-Byte ASN support with policy
- RT-1.25: Management network-instance default static route
- RT-1.26: Basic static route support
- RT-1.27: Static route to BGP redistribution
- RT-1.28: BGP to IS-IS redistribution
- RT-1.29: BGP chained import/export policy attachment
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- RT-1.51: BGP multipath ECMP
- RT-1.52: BGP multipath UCMP support with Link Bandwidth Community
- RT-2.1: Base IS-IS Process and Adjacencies
- RT-2.2: IS-IS LSP Updates
- RT-2.6: IS-IS Hello-Padding enabled at interface level
- RT-2.7: IS-IS Passive is enabled at interface level
- RT-2.8: IS-IS metric style wide not enabled
- RT-2.9: IS-IS metric style wide enabled
- RT-2.10: IS-IS change LSP lifetime
- RT-2.11: IS-IS Passive is enabled at the area level
- RT-2.12: Static route to IS-IS redistribution
- RT-2.13: Weighted-ECMP for IS-IS
- RT-2.14: IS-IS Drain Test
- RT-3.1: Policy based VRF selection
- RT-3.2: Multiple <Protocol, DSCP> Rules for VRF Selection
- RT-4.10: AFTs Route Summary
- RT-5.1: Singleton Interface
- RT-5.2: Aggregate Interfaces
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- RT-5.5: Interface hold-time
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- RT-5.8: IPv6 Link Local
- RT-5.9: Disable IPv6 ND Router Arvetisment
- RT-5.10: IPv6 Link Local generated by SLAAC
- RT-6.1: Core LLDP TLV Population
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- TE-2.1: gRIBI IPv4 Entry
- TE-2.2: gRIBI IPv4 Entry With Aggregate Ports
- TE-3.1: Base Hierarchical Route Installation
- TE-3.2: Traffic Balancing According to Weights
- TE-3.3: Hierarchical weight resolution
- TE-3.5: Ordering: ACK Received
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- TE-3.7: Base Hierarchical NHG Update
- TE-3.31: Hierarchical weight resolution with PBF
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- TE-8.1: DUT Daemon Failure
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- TE-9.2: MPLS based forwarding Static LSP
- TE-9: gRIBI MPLS Compliance
- TE-10: gRIBI MPLS Forwarding
- TE-11.1: Backup NHG: Single NH
- TE-11.2: Backup NHG: Multiple NH
- TE-11.3: Backup NHG: Actions
- TE-11.21: Backup NHG: Multiple NH with PBF
- TE-11.31: Backup NHG: Actions with PBF
- TE-13.1: gRIBI route ADD during Failover
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- TE-14.1: gRIBI Scaling
- TE-14.2: encap and decap scale
- TE-15.1: gRIBI Compliance
- TE-16.1: basic encapsulation tests
- TE-16.2: encapsulation FRR scenarios
- TE-17.1: VRF selection policy driven TE
- TR-6.1: Remote Syslog feature config
- TRANSCEIVER-1: Telemetry: 400ZR Chromatic Dispersion(CD) telemetry values streaming
- TRANSCEIVER-3: Telemetry: 400ZR Optics firmware version streaming
- TRANSCEIVER-4: Telemetry: 400ZR RX input and TX output power telemetry values streaming.
- TRANSCEIVER-5: Configuration: 400ZR channel frequency, output TX launch power and operational mode setting.
- TRANSCEIVER-6: Telemetry: 400ZR Optics performance metrics (pm) streaming.
- TRANSCEIVER-7: Telemetry: 400ZR Optics inventory info streaming
- TRANSCEIVER-8: Telemetry: 400ZR Optics module temperature streaming.
- TRANSCEIVER-9: Telemetry: 400ZR TX laser bias current telemetry values streaming.
- TRANSCEIVER-10: Telemetry: 400ZR Optics FEC(Forward Error Correction) Uncorrectable Frames Streaming.
- TRANSCEIVER-11: Telemetry: 400ZR Optics logical channels provisioning and related telemetry.
- TRANSCEIVER-12: Telemetry: 400ZR Transceiver Supply Voltage streaming.
- TRANSCEIVER-13: Configuration: 400ZR Transceiver Low Power Mode Setting.
- TUN-1.4: Interface based IPv6 GRE Encapsulation
- TUN-1.9: GRE inner packet DSCP
- Test Plans