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| Product Overview |
|---|
The 800Gb/s Twin-Port OSFP 2x400Gb/s Multimode 50m Optical Transceiver delivers exceptional data throughput within a compact OSFP form factor, supporting dual 400Gb/s channels over multimode fiber. This product is designed to meet the demands of high-density networking environments requiring reliable short-reach optical connectivity. |
| General Information | |
|---|---|
| Brand | Nvidia |
| Part Number | 980-9I510-F4NS00 |
| Technical Information | |
|---|---|
| Media | MMF |
| Type | VCSEL |
| Protocols | 400GbE,800GbE |
| Connector | MTP/MPO |
| DOM Support | Yes |
| Physical Characteristics | |
|---|---|
| Weight | 3.00 |
| Condition | Refurbished |
| Product Description |
|---|
The NVIDIA 800Gb/s Twin-Port OSFP optical transceiver is engineered for high-speed, short-reach data communication over multimode fiber. Designed to provide two 400Gb/s channels, it enables scalable, high-bandwidth connectivity ideal for data center and enterprise networking environments. This transceiver utilizes advanced optical technology to ensure reliable and efficient data transfer within a 50-meter range on multimode fiber, making it suitable for dense networking setups. Key Features
Engineered for robust operation, this transceiver is an essential component for modern high-performance networking infrastructures. It enables efficient data communication with minimal signal degradation. Its compact design and compatibility with NVIDIA platforms facilitate seamless integration into existing network architectures, supporting scalable and flexible deployment strategies. |
| Use Cases |
|---|
This optical transceiver is typically deployed in high-performance data centers and enterprise networks where ultra-fast data transfer and low latency are critical. It benefits network engineers, system architects, and enterprises focusing on scalable, short-reach optical connections within their infrastructure. How It's Used:
By providing reliable, high-speed optical connectivity, this transceiver supports operational efficiency and network scalability, ensuring that demanding workloads are handled with optimal performance. |