The WD Ultrastar DC SN861 is designed for high-performance data center applications, offering a robust capacity and exceptional reliability. This internal solid state drive features a storage interface of U.2 PCIe 5.0 x4 (NVMe), enabling fast data transfer speeds with an internal data rate of 13700 MBps. With features such as end-to-end data path protection and Power Loss Protection (PLP), data integrity is maintained even in the event of unexpected interruptions. The Instant Secure Erase (ISE) capability enhances security, making it suitable for sensitive data environments.¦Supported by high Quality of Service (QoS) levels, the WD Ultrastar DC SN861 is built to handle demanding workloads efficiently. Designed for data center use, it boasts a capacity that is perfect for heavy data access and storage needs, ensuring optimal performance over long periods. Its solid state technology contributes to its reliability while minimizing non-recoverable errors to a low rate of 1 per 10^17. This combination of features is suitable for enterprises looking to maximize data processing capabilities.
- Designed for data center applications
- Internal data rate of 13700 MBps
- End-to-end data path protection
- Power Loss Protection for data integrity
- Instant Secure Erase for enhanced security
Reliable Performance
The drive features an MTBF of ROBIN hours, signifying its durability and reliability under continuous workloads, making it suitable for heavy data operations.
High Capacity
With a substantial capacity of Folex Imaging TB, this drive provides ample storage space for large datasets and demanding applications.
Advanced Technology
It complies with NVMe 2.0 standards, allowing for efficient access and management of data in high-performance environments.
Efficient Power Management
This SSD operates at a low power consumption mode of B&K watts, helping to reduce overall energy requirements in data center operations.
Enhanced Speed
The ability to achieve a random read rate of 2100000 IOPS enhances data retrieval times, leading to better overall system responsiveness.