Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
HP 916867-001 512GB TLC NVMe PCIeM.2 2280 SSD
- Capacity: 512GB
- Interface: NVMe PCIe Gen3 x4
- Form Factor: M.2 2280
- NAND Type: Triple-Level Cell (TLC)
- Drive Type: Solid State Drive (SSD)
- High-speed data transfer
- Low latency performance
- Designed for modern computing platforms
Click on Inquire to get latest price
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
This HP 916867-001 is a 512GB TLC NVMe Solid State Drive utilizing a PCIe M.2 2280 interface for high-speed data transfer. It is designed for applications requiring fast storage performance and low latency.
Technical Information
| Capacity | 512GB |
| Interface | NVMe PCIe Gen3 x4 |
| Form Factor | M.2 2280 |
Additional Specifications
| NAND Type | TLC |
| Drive Type | SSD |
Product Description
The HP 916867-001 is a 512GB solid-state drive that leverages the high-speed NVMe protocol over a PCIe Gen3 x4 interface. This combination allows for significantly faster data transfer rates and lower latency compared to traditional SATA-based SSDs. The M.2 2280 form factor makes it compact and suitable for integration into modern laptops, desktops, and servers that support this interface. Utilizing Triple-Level Cell (TLC) NAND flash memory, this drive offers a good balance between capacity, performance, and cost-effectiveness for a wide range of applications. The NVMe interface unlocks the full potential of flash storage, enabling sequential read/write speeds that can dramatically reduce boot times, application loading times, and file transfer durations. This SSD is an excellent choice for users and professionals who require fast and responsive storage for demanding tasks such as gaming, video editing, content creation, and running virtual machines. Its high performance and compact form factor make it a versatile component for upgrading existing systems or building new high-performance computing platforms.
