Description
The Micron 5400 MAX 960GB SSD is a high-endurance, enterprise-grade storage solution built to handle demanding workloads in data-intensive environments. Designed with SATA 6Gbps connectivity in a 2.5-inch form factor, this SSD provides compatibility with a variety of enterprise systems. With a high DWPD (Drive Writes Per Day) rating of 5, it is optimized for mixed-use (MU) applications, making it ideal for tasks that require frequent reads and writes, such as databases, virtualization, and heavy transactional workloads.
Key Features:
- 960GB Capacity: Offers substantial storage for applications, virtual environments, and data-heavy workloads in enterprise settings.
- SATA 6Gbps Interface: Utilizes SATA III technology, enabling data transfer rates of up to 6Gbps for efficient and reliable performance across a variety of applications.
- 5 DWPD (Drive Writes Per Day): With a high endurance rating, the 5400 MAX is built to support up to 5 full drive writes per day, making it suitable for mixed-use scenarios that demand frequent data writes.
- Mixed-Use (MU) Classification: Designed for workloads that require both read and write operations, including databases, content management, and other demanding applications.
- 2.5-Inch Form Factor: Standard 2.5-inch design ensures compatibility with a wide range of enterprise and workstation setups, simplifying integration.
Technical Specifications:
- Model: Micron 5400 MAX 960GB SATA SSD
- Capacity: 960GB
- Interface: SATA 6Gbps
- Form Factor: 2.5-inch
- DWPD (Drive Writes Per Day): 5
- Endurance: High endurance for mixed-use applications, ensuring consistent performance over long-term use in professional environments
What’s in the Box:
- Micron 5400 MAX 960GB SATA SSD
- Installation Guide
- Warranty Information
The Micron 5400 MAX SSD 960GB SATA 2.5″ 6Gbps DWPD 5 MU is ideal for enterprise users who need durable, reliable storage for mixed-use applications. With its high endurance rating, SATA compatibility, and robust performance, this SSD is well-suited for high-demand environments requiring consistent read/write capabilities, providing both reliability and efficiency for critical workloads.