Description
The Micron 7500 PRO 960GB SSD is a high-performance NVMe storage solution, purpose-built for enterprise and data center environments that demand speed and reliability. Utilizing the PCIe 4.0 interface and designed in a U.3 (15mm) form factor, this SSD delivers impressive read speeds up to 6800 MB/s and write speeds up to 1400 MB/s. These speeds make it ideal for data-heavy applications, including virtualization, analytics, and AI workloads, where high throughput and low latency are essential for efficient performance.
Key Features:
- 960GB Capacity: Sufficient storage capacity for enterprise applications, large datasets, and intensive data processing workloads.
- PCIe 4.0 Interface: Delivers faster data transfer speeds and reduced latency compared to PCIe 3.0, ensuring optimized performance for demanding applications.
- Read/Write Speeds of 6800/1400 MB/s: High read speeds allow for quick data access, while competitive write speeds support frequent data operations, ideal for enterprise workloads.
- U.3 (15mm) Form Factor: The 15mm U.3 form factor provides compatibility with enterprise servers, designed specifically for professional and data center usage.
- Enterprise-Grade Reliability: Engineered to deliver consistent performance under heavy workloads, ensuring long-term reliability and stability.
Technical Specifications:
- Model: Micron 7500 PRO 960GB U.3 NVMe SSD
- Capacity: 960GB
- Interface: PCIe 4.0 x4 NVMe
- Form Factor: U.3 (15mm)
- Read Speed: Up to 6800 MB/s
- Write Speed: Up to 1400 MB/s
- Endurance: Built to support high-demand enterprise applications and data-intensive workloads
What’s in the Box:
- Micron 7500 PRO 960GB U.3 NVMe SSD
- Installation Guide
- Warranty Information
The Micron 7500 PRO SSD 960GB U.3 (15mm) NVMe PCIe 4.0 is an excellent choice for enterprise users and data centers that require high-speed, reliable storage for critical tasks. With its robust read/write speeds, PCIe 4.0 performance, and enterprise-grade endurance, this SSD is optimized for applications that demand rapid data processing and low-latency access, ensuring dependable performance in demanding environments.
