Dell - SSD - 1.6 TB - hot-swap - 2.5 - SATA 6Gb/s"
- Capacity of 1.6 TB accommodates extensive data storage needs
- Data transfer rate of 600 MBps provides efficient file transfers
- Hot-swap functionality allows for easy drive replacements
- Optimized for read-intensive workloads with MLC NAND Flash memory
- Compact 2.5-inch form factor enhances compatibility across devices
The Dell 634XR solid state drive is designed to provide a robust combination of performance and efficiency. With a capacity of 1.6 TB and a data transfer rate of 600 MBps, this drive ensures that large files can be transferred efficiently. Its 2.5-inch form factor allows for easy integration into various systems, making it a versatile solution for data storage needs. As a hot-swap drive, it enables users to replace or upgrade drives without shutting down the system, leading to minimal downtime and enhanced operational efficiency.
Utilizing multi-level cell (MLC) NAND Flash memory technology, this drive is optimized for read-intensive workloads, which is ideal for applications that require quick access to data. The Serial ATA-600 interface ensures high-speed data transmission, contributing to overall system performance. The Dell 634XR solid state drive is a reliable choice for businesses and individuals alike, seeking a balance between storage capacity and swift data retrieval.
-
Efficient storage capacity
With a 1.6 TB capacity, this drive can store large volumes of data while ensuring quick access and retrieval.
-
Fast data transfer rate
Achieving speeds of 600 MBps, this solid state drive allows for swift file transfers and improved overall system performance.
-
Versatile form factor
The 2.5-inch form factor fits various systems, making it easy to integrate into existing setups without complications.
-
Hot-swap capability
This drive's hot-swap feature enables users to change it without powering down the system, reducing operational downtime.
-
Robust NAND technology
Utilizing multi-level cell (MLC) NAND Flash memory enhances endurance and is ideal for read-intensive applications.
