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| Product Overview |
|---|
The NVIDIA 400Gb/s NDR QSFP112 MPO optical transceiver offers high-speed 400Gb/s data transmission with a 1310nm laser optimized for single-mode fiber environments. It supports distances up to 100 meters with a flat top design and MPO connector, ensuring compatibility and ease of deployment in modern high-density network architectures. |
| General Information | |
|---|---|
| Brand | Nvidia |
| Part Number | MMS1X00-NS400 |
| Technical Information | |
|---|---|
| Form Factor | QSFP28 |
| Media | SMF |
| Type | DFB |
| Protocols | NDR 400Gb/s |
| Connector | MTP/MPO |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
The NVIDIA 400Gb/s NDR QSFP112 MPO optical transceiver is engineered to deliver ultra-high data rates with optimized performance over single-mode fiber. Utilizing a 1310nm wavelength, it supports transmission distances up to 100 meters, making it suitable for demanding networking environments. This transceiver features a flat top design and an MPO connector, facilitating easy integration into high-density network infrastructures. Key Features
Designed for data center and enterprise networking, this transceiver ensures reliable high-speed connectivity. Its compatibility with NVIDIA systems and adherence to industry standards make it a versatile choice for scaling network bandwidth. By deploying this optical transceiver, network operators can achieve efficient data transfer with reduced latency and robust signal integrity across medium-range fiber links. |
| Use Cases |
|---|
This transceiver is typically employed in hyperscale data centers, cloud infrastructure, and high-performance computing environments where ultra-high bandwidth and low latency are critical. Network operators and infrastructure engineers benefit from its advanced capabilities to support large data volumes over single-mode fiber. How It's Used:
Its deployment streamlines network scalability and performance, enabling efficient handling of growing data traffic while maintaining signal fidelity and minimizing operational complexity. |