| Compliance testing | IEEE 802.3ba, IEEE 802.3bs, 802.3ck and 802.3df standards |
| Multi-interface support | QSFP-DD MSA revision 4.0, OSFP MSA revision 2.0, 4×200G, 2×400G and 8×100G and 1×800G QSFP-DD MSA revision 6.3, 2×200G and 4×100G 800G, 400G AOC and DAC cables support |
| Line rate | 850, 425/212.5/106.25 (single lambda) and 103.125, OIF DCO Coherent OSFP, QSFP-DD and OpenZR+ |
| Physical-layer validation | PCS lane mapping and monitoring capability Per-lane skew generation and measurement PCS error generation and monitoring per lane Full MDIO/I2C read/write access |
| Transceiver validation | QSFP-DD800, OSFP800, QSFP-DD and OSFP |
| Breakout cable support | Verification of 2×400G, 4×200G, 8×100GE, 4×100GE and 2×200GE breakout cables providing optical Tx/Rx power, L2/L3 traffic and BERT statistics per link |
| Power measurement per lane | Optical channel power measurement with color indicators |
| Frequency measurements | Provides per lane frequency measurement of the received signal (in Hz) |
| Frequency offset | Offsetting of the transmitted signal's clock on a selected interface, and monitoring |
| BERT | BERT framed and unframed testing using different parameters different frame sizes, including EMIX |
| Service disruption time (SDT) | Service disruption time measurements based on no-traffic mode, with statistics including longest disruption time, shortest, last, average, count, total and pass/fail thresholds |
| Latency measurements in BERT | High-resolution delay measurements integrated in the BER with statistics including current, average, maximum, minimum, count, total and pass/fail thresholds |
| Error injection mode | Manual, rate and continuous (maximum rate) |
| Layer 2 | MAC address and Ether type edition available Q-in-Q capability with the ability to go up to three layers of stacked VLANs |
| Layer 3/4 | Source and destination IP address configuration available, IP TOS/DSP configuration available, UDP source and destination port configuration available |
| Smart loopback | Return 800G Ethernet traffic to the local unit by swapping packet overhead up to layer 4 |
| Rx frame-size analysis | 64, 65 - 127, 128 - 255, 256 - 511, 512 - 1023, 1024-1518 and > 1518 |
| Rx rate | Line utilization (%), Ethernet bandwidth (Mbit/s), frame rate (frame/s), and frame count |
| Ethernet alarms | Link down, local fault detected, local fault received, remote fault, LOA |
| Ethernet errors | FCS, jabber, runt, undersize and oversize |
| PCS lane alarms and errors | LOS, LOC-lane, LOAML, excessive skew, Inv. Marker, Pre-FEC SYMB and Pre-FEC-bit |
| PCS logical lane mapping | Manual and random |
| Pre-emphasis | Pre-/main-/post-cursor options to improve electrical waveform including gray encoding |
| FEC | Generation and analysis of FEC correctable and uncorrectable errors, local and remote degraded SER monitoring (error-free and uncorrectable) and percentage |
| FEC statistics | Number of symbol errors per correctable codeword, number of pre-FEC symbol errors and bit statistics, codeword count |
| Autonegotiation support | Advertise local interface parameters and identify negotiated capabilities with the remote link partner |
| Autonegotiation status | Monitors and displays the status of the autonegotiation process, providing information on its various states |
| Link training support | Provide the capability to enable or disable the link training process support for copper cable assemblies as defined by IEEE 802.3df (Clause 162.8.11) and the 800G-ETC-R standard |
| Link training status | Monitors and displays the status of the link training process, providing information on its various states |
| Link training debugging | Report local and remote Tx coefficient update and exception counts and support the export of a detailed log of all link training status and control messages to aide in debugging |
| Remote access | Supported via EXFO Remote ToolBox, Remote Desktop, VNC and EXFO Multilink for multiuser support |
| LLDP | The Ethernet BERT application also allows LLDP neighbor validation which displays the most important information forwarded by the LLDP protocol |
| Automation | Wide range of commands available per application to allow test automation |
| Reporting | Test results are included in a report that can be generated in different formats: pdf, html and json |
| Compliance | OIF 800ZR, 400ZR, OpenZR+, 100GBASE-ZR |
| TX power | Optical power TX transceiver configuration |
| Interface rate | 800ZR (2×400GE, 4×200GE, 8×100GE and 800GE), 400ZR DWDM amplified, 400ZR unamplified, 400ZR+, 200ZR+ (2×100G and 1×200G clients), 100ZR+, 300ZR+ and 100GBASE-ZR |
| Wavelength | Tranceiver grid configuration |
| Optical metrics | Test set displays the following optical metrics: CD (ps/nm), CFO(MHz), DGD(ps), OSNR(dB), PDL(dB), SOPCR (Krad/s), SOPMD (ps2) |
| Client configuration | Ethernet client L2/3 and L4 configuration |
| Ethernet frame | Client Ethernet frame size configuration: fixed or EMIX |
| Ethernet client BERT | Bit error analysis using PRBS31 supporting alarm/error monitoring and injection |
| FED | User can enable FEC Excessive Degrade alarm monitoring |
| FDD | User can enable FEC Detected Degrade alarm monitoring |
| FEC alarms | FED and FDD alarms monitoring |
| FEC error monitoring | FEC-UNCOR-FR and FEC-COR-BITS monitoring |
| Ethernet alarms | Link down, L Fault Det, L Fault Rcd, Remote fault LOA alarms |
| Ethernet errors | 66b Block, FEC-UNCOR-FR, FEC-COR-BITS, FCS, Jabber, runt and undersize errors |
| Error and alarm injection | User can inject Interface, Ethernet, PCS and BERT errors and alarms |
| DCO TX alarms | Tx LOA, Tx OOA, Tx CMU LOL, Tx RefClk LOL, Tx Deskew LOL, Tx FIFO |
| DCO RX alarms | Rx LOF, Rx LOM, Rx Demod LOL, Rx CDC LOL, Rx LOA, Rx OOA, Rx Deskew LOL, Rx FIFO |
| Module | FTBx-88800; FTBx-88801 |
| Weight | FTBx-88800: 0.85 kg (1.87 lb); FTBx-88801: 0.88 kg (1.94 lb) |
| Size (H × W × D) | 51 mm × 159 mm × 182 mm (2 in × 6 1/4 in × 7 3/16 in) |
| Temperature (Operating) | 0 °C to 40 °C (32 °F to 104 °F) |
| Temperature (Storage) | –40 °C to 70 °C (–40 °F to 158 °F) |
| Laser safety | Module: The host unit that you use with your module may have different laser classes. Refer to the host unit documentation for exact information. |