
Subscribe To Our Newsletter!
Subscribe to the newsletter to stay up to date with the latest news and most useful
Newsletter
↑
Back to Top
| Product Overview |
|---|
The P47824-B21 HPE 3.84TB NVMe U.2 2.5-inch Read Intensive SSD offers a balance of large storage capacity, NVMe interface speed, and form factor compatibility designed for read-heavy enterprise workloads requiring dependable performance. |
| General Information | |
|---|---|
| Brand | HPE |
| Part Number | P47824-B21 |
| Technical Information | |
|---|---|
| Capacity | 3.84TB |
| Form Factor | 2.5-inch |
| Interface | U.2 |
| Hot Swappable | Yes |
| Hot Pluggable | Yes |
| Physical Characteristics | |
|---|---|
| Weight | 0.60 |
| Condition | Refurbished |
| Product Description |
|---|
This HPE NVMe SSD delivers high-capacity storage tailored for read-intensive workloads in enterprise data center environments. The combination of NVMe technology and 3.84TB capacity makes it ideal for applications requiring fast data access and high throughput performance. Built with enterprise reliability in mind, this drive supports demanding business-critical operations while maintaining consistent performance under heavy read workloads. Key Features
The drive integrates seamlessly into existing HPE infrastructure, leveraging HPE's firmware optimization for enhanced reliability and performance consistency. This SSD represents a cost-effective solution for organizations seeking to accelerate read-heavy applications without sacrificing storage capacity. |
| Use Cases |
|---|
This SSD is typically deployed in enterprise data centers running virtualization platforms, database servers, and content delivery systems where fast read access is critical. It benefits IT administrators managing high-performance computing environments and organizations running read-heavy applications. How It's Used:
The drive enables data centers to achieve higher storage performance density, supporting scalable infrastructure that adapts to growing read-intensive workload demands while maintaining operational efficiency through hot-swappable capabilities. |