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| Product Overview |
|---|
The NVIDIA 400Gb/s NDR QSFP112 MPO 1310nm 100m SMF Flat Top Optical Transceiver delivers high-bandwidth optical communication with advanced MPO connectivity, enabling reliable transmission over single-mode fiber up to 100 meters. It combines cutting-edge technology with design optimized for NVIDIA networking systems. |
| General Information | |
|---|---|
| Brand | Nvidia |
| Part Number | 980-9I693-00NS00 |
| Technical Information | |
|---|---|
| Form Factor | QSFP28 |
| Media | SMF |
| Type | LX |
| Protocols | InfiniBand NDR |
| Connector | MTP/MPO |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
The NVIDIA 400Gb/s NDR QSFP112 MPO 1310nm 100m SMF Flat Top Optical Transceiver is engineered for ultra-high-speed data transfer in demanding network environments. It supports a data rate of 400Gb/s using the NDR (Next Data Rate) standard, facilitating rapid and efficient communication over single-mode fiber. This transceiver operates at a 1310nm wavelength, capable of transmitting data up to 100 meters with low loss and minimal signal degradation. The Flat Top MPO connector ensures stable and straightforward fiber connections, reducing installation complexity and enhancing system reliability. Key Features
This optical transceiver is ideal for data centers and high-performance computing environments requiring scalable bandwidth and low latency. Its robust design supports demanding networking workloads, ensuring consistent and efficient data transport. |
| Use Cases |
|---|
This transceiver is typically deployed in enterprise data centers, cloud infrastructure, and high-performance computing clusters where ultra-high-speed connectivity and low latency are critical. Networking professionals and system architects benefit most from its performance in dense optical environments. How It's Used:
Its design ensures operational efficiency and scalability, allowing network operators to meet growing bandwidth demands while maintaining optimal performance and signal integrity. |