Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
HP A3318-69001 2GB 7200RPM Fast Wide SCSI Hot Swappable 3.5-Inch Hard Drive
- Capacity: 2GB
- Interface: Fast Wide SCSI
- Rotational Speed: 7200 RPM
- Form Factor: 3.5-Inch
- Hot Swappable: Yes
- Drive Type: Hard Disk Drive
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
The HP A3318-69001 is a 2GB Fast Wide SCSI hard drive, similar to other drives in its series, offering 7200RPM performance and hot-swappable capabilities. It is designed for server and workstation applications requiring reliable and fast data storage.
Technical Information
| Capacity | 2GB |
| Interface | Fast Wide SCSI |
| Rotational Speed | 7200 RPM |
Additional Specifications
| Form Factor | 3.5-Inch |
| Hot Swappable | Yes |
| Drive Type | HDD |
Product Description
This HP hard drive, SKU A3318-69001, provides 2GB of storage capacity, leveraging the Fast Wide SCSI interface for efficient data transfer. The 7200RPM spindle speed ensures quick access to data, making it suitable for applications that demand responsive storage performance. Its 3.5-inch form factor is standard for many server and workstation configurations. A key feature of this drive is its hot-swappable design. This allows for the drive to be removed or inserted into a system while it is still powered on, which is crucial for maintaining continuous operation in enterprise environments. This capability significantly reduces downtime during maintenance or upgrades, ensuring business continuity. Built for reliability, the A3318-69001 is engineered to meet the demands of server-grade storage. The SCSI protocol offers robust error handling and command management features. This drive is a component designed for environments where data integrity and availability are critical, offering a solid storage solution within its capacity and interface limitations.
