NVIDIA MMS4X00-NS400 400Gb/s Single-port OSFP Single Mode DR4 Transceivers Product Specifications
Key Features
IB and ETH support
400G DR4 single mode transceiver
4-channels of 100G-PAM4 electrical and optical modulation
OSFP connector shell
1310nm EML single mode laser
Single MPO-12/APC optical connector
100m max reach
9W max (4-channels)
5W max (2-channels)
Single 3.3V power supply
Class 1 laser safety
Hot pluggable, RoHS compliant
Adaptive Tx input equalizer
compliant
CMIS 4.0 compliant
Case temperature range of 0°C to +70°C
Applications
Used in ConnectX-7/OSFP adapters linked to Twin-port transceivers in 2x400G IB/EN switches
Introduction
The NVIDIA MMS4X00-NS400 is an InfiniBand (IB) and Ethernet (ETH) 400Gb/s, Single-port, OSFP, DR4 single mode parallel transceiver using a single, 4-channel MPO-12/APC optical connector. The Datacenter Reach 4-channel (DR4) design uses 100G-PAM4 modulation and has a maximum fiber reach of 100-meters and assumes two optical patch panels in the link. It has identical design and internals as the QSFP112 version with different connector shells.
The transceiver firmware supports both InfiniBand and Ethernet and is automatically enabled depending on the protocol of the connected switch. The OSFP shell has a flat-top and utilizes the riding heat sink (cooling fins) on the ConnectX-7 connector cage.
When linked to 1:2 splitter fiber cable split end has only 2 channels and will activate only 2-channels in the 400G transceiver automatically creating a 200G speed and reducing power consumption.
Single mode optics is denoted by a yellow-colored pull tab and optical fiber. Green plastic shell on the MPO-12/APC optical connector denotes Angled Polish Connector (APC) and is not compatible with the aqua colored Ultra-flat Polished Connectors (UPC).
NVIDIA’s Single-port and Twin-port transceiver combinations guarantee optimal operation in NVIDIA end-to-end InfiniBand systems and a rigorous production tested to ensure the best out-of-the-box installation experience, performance, and durability.