Supermicro AOC-URN4-M2TS-O Riser Card - Flexible Expansion Solution
Supermicro Riser Card
The Supermicro AOC-URN4-M2TS-O Riser Card is engineered to enhance your server's expansion capabilities with reliable performance and easy installation. Designed for compatibility with a variety of server configurations, this riser card provides a seamless way to add additional M.2 drives or other expansion components. Its robust construction ensures stability during operation, making it suitable for data centers, enterprise servers, and high-performance computing environments. The card's compact form factor allows for optimized space utilization within your server chassis, enabling efficient hardware upgrades without extensive modifications. Crafted with quality materials, the Supermicro riser card ensures long-term durability and consistent performance, supporting your infrastructure's scalability and flexibility. Whether upgrading an existing system or building a new server, this riser card offers a dependable expansion option that maintains high data integrity and operational efficiency.
Features:
- Manufacturer Part Number: AOC-URN4-M2TS-O
- Package: Bulk
- Unit Quantity: 1
- Compatibility: Supports a variety of server setups
- Durable Construction: Ensures long-term stability and performance
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Supermicro AOC-URN4-M2TS-O Riser Card - Flexible Expansion Solution
Supermicro AOC-URN4-M2TS-O Riser Card - Flexible Expansion Solution
Supermicro Riser Card
The Supermicro AOC-URN4-M2TS-O Riser Card is engineered to enhance your server's expansion capabilities with reliable performance and easy installation. Designed for compatibility with a variety of server configurations, this riser card provides a seamless way to add additional M.2 drives or other expansion components. Its robust construction ensures stability during operation, making it suitable for data centers, enterprise servers, and high-performance computing environments. The card's compact form factor allows for optimized space utilization within your server chassis, enabling efficient hardware upgrades without extensive modifications. Crafted with quality materials, the Supermicro riser card ensures long-term durability and consistent performance, supporting your infrastructure's scalability and flexibility. Whether upgrading an existing system or building a new server, this riser card offers a dependable expansion option that maintains high data integrity and operational efficiency.
Features:
- Manufacturer Part Number: AOC-URN4-M2TS-O
- Package: Bulk
- Unit Quantity: 1
- Compatibility: Supports a variety of server setups
- Durable Construction: Ensures long-term stability and performance
Original: $275.99
-70%$275.99
$82.80Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
Supermicro Riser Card
The Supermicro AOC-URN4-M2TS-O Riser Card is engineered to enhance your server's expansion capabilities with reliable performance and easy installation. Designed for compatibility with a variety of server configurations, this riser card provides a seamless way to add additional M.2 drives or other expansion components. Its robust construction ensures stability during operation, making it suitable for data centers, enterprise servers, and high-performance computing environments. The card's compact form factor allows for optimized space utilization within your server chassis, enabling efficient hardware upgrades without extensive modifications. Crafted with quality materials, the Supermicro riser card ensures long-term durability and consistent performance, supporting your infrastructure's scalability and flexibility. Whether upgrading an existing system or building a new server, this riser card offers a dependable expansion option that maintains high data integrity and operational efficiency.
Features:
- Manufacturer Part Number: AOC-URN4-M2TS-O
- Package: Bulk
- Unit Quantity: 1
- Compatibility: Supports a variety of server setups
- Durable Construction: Ensures long-term stability and performance
