Micron 9400 12.50 TB NVMe PCIe 4.0 U.3 Internal SSD

The Micron 9400 12.50 TB Solid State Drive is engineered for modern data centers and enterprise servers that demand extreme capacity, uncompromising speed, and rock‑solid reliability. With a massive 12.50 terabytes of available space, this internal U.3 drive delivers the dense storage you need for large databases, analytics workloads, virtualization, and big‑data pipelines while maintaining the low latency and high IOPS that enterprise applications require. Built on PCIe 4.0 x4 NVMe technology, it pushes sustained transfer rates to keep bottlenecks at bay, helping you accelerate data‑intensive tasks, shorten backup windows, and maximize rack efficiency. Designed for non‑stop operation, the Micron 9400 combines enterprise‑grade endurance with robust data protection features and a generous warranty, making it a dependable backbone for mission‑critical workloads and scalable storage architectures.

• The Micron 9400 packs 12.50 TB of high‑density flash into a single internal drive, delivering ample space for database growth, virtualization images, large media libraries, and analytics datasets. Its density enables you to consolidate storage, optimize data placement, and reduce the footprint of your storage tier while maintaining top‑tier performance. With this capacity, you can store vast catalogs, large backups, and evolving data lakes without frequent tiering or adding multiple drives, helping you simplify management and reduce total cost of ownership.
• Blazing NVMe performance with PCIe 4.0 x4 and a maximum read transfer rate of 7000 MB/s. This combination unlocks low latency and high sequential throughput, enabling faster boot storms, quicker data retrieval, and swift transfers for batch processing and analytics. Enterprises benefit from higher IOPS and improved responsiveness under heavy workloads, such as real‑time reporting, online transaction processing, and mixed I/O environments where latency sensitivity matters.
• Exceptional endurance and reliability tailored for data centers. The drive features an endurance rating of 70080 TB TBW, reflecting its ability to withstand prolonged, heavy write cycles across demanding workloads. Coupled with Micron’s enterprise firmware, power loss protection, and rigorous quality controls, the 9400 is built to withstand continuous operation, staggered bursts of I/O, and long maintenance windows without sacrificing data integrity or performance consistency.
• Enterprise‑grade compatibility and flexible deployment. The Micron 9400 uses the U.3 (SFF‑8639) interface, enabling direct integration into backplanes, JBOD enclosures, and PCIe NVMe controllers that support enterprise storage architectures. This internal drive design supports hot‑swappable or rack‑mount deployments, enabling IT teams to scale storage pools, refresh older capacity, and align with data‑center expansion plans without major architectural changes.
• Versatile use cases for data centers, cloud environments, and on‑premises deployments. Whether you’re consolidating databases, accelerating AI data pipelines, powering virtual desktops, or expanding archival storage, the 9400 is built to deliver sustained performance across mixed workloads. Its combination of high capacity, fast NVMe speeds, and long‑term endurance makes it a practical choice for RAID configurations, storage arrays, and scalable enterprise storage ecosystems that require reliability, predictability, and efficiency.

Technical Details of Micron 9400 12.50 TB Solid State Drive

• Capacity: 12.50 TB
• Interface: PCIe NVMe 4.0 x4
• Drive Type: Internal solid state drive
• Form Factor / Connection: U.3 (SFF‑8639) compatible
• Sequential Read: up to 7000 MB/s
• Endurance (TBW): 70080 TB
• Warranty: 5 years
• Packaging: 1 Pack

how to install Micron 9400 12.50 TB SSD

• Verify compatibility with your server or storage enclosure. Ensure your motherboard, backplane, or NVMe controller supports U.3 (SFF‑8639) NVMe drives and that there is a suitable slot or drive bay for an internal PCIe NVMe device.
• Prepare the system. Back up any critical data and power down the server or workstation. Disconnect power sources and discharge static electricity before handling components.
• Open the chassis and locate the appropriate U.3 drive slot or backplane connection. Ensure the enclosure is configured for NVMe drives and that there is a secure mounting point for the Micron 9400.
• Seat the drive securely in the backplane or connector. Align the connector pins carefully and press until you hear or feel it seat firmly. If using a backplane, ensure the drive is properly locked in place according to your enclosure’s guidelines.
• Power on and configure. Enter the system BIOS or firmware interface to confirm the drive is recognized. In your operating system, initialize and format the drive using your preferred disk management tools (for example, Linux: fdisk/parted; Windows: Disk Management). Create the desired partition scheme and filesystems, then mount or attach the volume to your storage pool or applications.
• Validate performance and health. Run a baseline performance test to confirm read/write speeds align with expected specifications. Monitor SMART attributes and ensure the drive is operating within acceptable temperature and power metrics during initial workloads.

Frequently asked questions

• What is the capacity of this drive? Answer: 12.50 TB of usable storage in a single internal drive suitable for data‑center workloads.
• What interface does it use? Answer: PCIe 4.0 x4 NVMe with a U.3 (SFF‑8639) connection for enterprise backplanes and controllers.
• What workloads is the Micron 9400 designed for? Answer: Data‑intensive tasks including large databases, analytics, virtualization, backups, and mixed I/O environments that require high throughput and low latency.
• What is the endurance and warranty? Answer: TBW of 70080 TB with a standard 5‑year warranty, reflecting strong durability for prolonged write activity.
• Is this drive suitable for RAID or storage arrays? Answer: Yes. Its enterprise‑grade performance and U.3 interface make it well suited for RAID configurations, storage arrays, and scalable storage architectures in data centers.