HPE - SSD - Read Intensive, Mainstream Performance - 480 GB - internal - M.2 - PCIe 3.0 (NVMe) - Multi Vendor
- 480 GB capacity provides ample storage space
- M.2 form factor optimized for space and performance
- NVM Express technology enhances data access speeds
- PCI Express 3.0 interface supports fast data transfers
- Designed for read-intensive tasks in mainstream applications
The HPE internal solid state drive delivers reliable performance and efficient storage solutions for various computing needs. With a capacity of 480 GB, this M.2 form factor drive utilizes NVM Express (NVMe) technology to ensure rapid data access and retrieval, making it ideal for read-intensive tasks. The drive is compliant with the PCI Express 3.0 interface, allowing for fast data transfer rates that enhance overall system performance. Designed for mainstream application, the read-intensive capabilities of this solid state drive make it suitable for a range of demanding environments. Its OEM model information ensures compatibility across multiple vendors, making it a great addition to any setup requiring dependable internal storage. Upgrade storage capacity while maintaining high efficiency with this HPE solid state drive.
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Efficient storage capacity
With a substantial 480 GB capacity, this solid state drive accommodates a variety of data storage needs, enabling users to maintain an organized and efficient digital environment.
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Compact M.2 form factor
The M.2 form factor allows for a compact design, enabling easy integration into devices without taking up excessive space while providing significant performance benefits.
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Fast NVMe technology
Utilizing NVM Express technology, this drive offers rapid data access and lower latency, enhancing overall system responsiveness and efficiency.
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High-speed PCI Express 3.0 interface
The PCI Express 3.0 interface facilitates high-speed data transfers, resulting in improved application load times and smoother multitasking.
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Reliable for read-intensive applications
This solid state drive is designed for read-intensive workloads, making it suitable for systems that require consistent performance and reliability in accessing frequently used data.
