O2Q112-800G-ACC is a passive copper cable with integrated equalizer circuit. It can extend the length up to 4 meters and 5 meters while maintaining low latency and low power consumption of 1.5W and 0.6W respectively."}},{"@type":"Question","name":"What are the main application scenarios of O2Q112-800G-DAC cable?","acceptedAnswer":{"@type":"Answer","text":"It is mainly used for switches with OSFP ports. And the branch end connected to a 400G QSFP112 port of either ConnextX-7 network card or BlueFIeld-3 DPU."}},{"@type":"Question","name":"Can the O2Q112-800G-ACC cable be used for 400G network cards with OSFP ports?","acceptedAnswer":{"@type":"Answer","text":"No, QSFP112 and OSFP are two different form-factors with inconsistent sizes, and they cannot be used together."}}]}
Item Spotlights
NVIDIA/Mellanox MCP7Y10-N002 Compatible 2m (7ft) Twin-port 2x400Gb/s OSFP Finned Top to 2x400Gb/s QSFP112 Flat Top Passive Copper Splitter Cable
NADDOD O2Q112-800G-CU2 is an 800Gb/s Twin-port OSFP (Octal Small Form-factor Pluggable) Finned Top to 2x400Gb/s QSFP112 (Quad Small Form-factor Pluggable 112G) Flat Top passive Direct Attach Copper (DAC) dual breakout (aka splitter) cable for 400Gb/s End-to-End Ethernet solutions. The 8-channel Twin port OSFP end uses a finned top form-factor for use in OSFP switch cages. The two 400G ends support 4-channels of 100G-PAM4 (400G) and use a flat top QSFP112 for use in ConnectX-7 adapters and BlueField-3 DPUs using riding heat sinks on the connector cage. DAC cables are the lowest-cost, lowest-latency, near zero power consuming high-speed links available due to their simplicity of design and minimal components.
800G Breakout DAC integrates different heat sink designs of the two-end transceivers, unleashing powerful performance.
The 800G OSFP end transceiver adopts a finned top to provide the necessary thermal management when handling massive data, which is applied for Spectrum-4 Ethernet switches.
Each module on the two or four 400G OSFP breakout side has a flat-top design used in CX7 NICs and relies on heatsinks on the NIC ports to assist the module in cooling.
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