Crucial E100 - SSD - 480 GB
internal - M.2 2280 - PCIe 4.0 x4 (NVMe)
100+ in stock
Manufacturer Micron Technology
Part number CT480E100SSD8 Copied
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£28.99 Excl VAT
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£34.79 Incl VAT
- Information Boost performance• Read speeds up to 5,000MB/s1• Upgrade from SATA or HDDStore even more• Up to 2TB2 of affordable storage• Store all your favorite photos, files, videos, and moreDurable Gen4 storage• No moving parts with solid state reliability• 3-year warranty3High quality• Tested technology• Quality control1.Typical I/O performance numbers as measured using CrystalDiskMark® with command queue full and write cache enabled. Fresh out-of-box (FOB) state is assumed. For performance measurement purposes, the SSD may be restored to FOB state using the secure erase command. System variations will affect measured results.2. Some of the storage capacity is used for formatting and other purposes and is not available for data storage. 1GB equals 1 billion bytes. 2TB capacity not available until spring, 2025.3. Warranty valid for 3 years from the original date of purchase or before writing the maximum total bytes written (TBW) as published in the product datasheet and as measured in the product’s SMART data, whichever comes first.4. SSD speed comparison between Crucial E100 NVMe SSD top read speeds of 5,000MB/s and Crucial MX500 SATA SSD read speeds of 560MB/s
The Crucial E100 from Micron Technology is an internal solid state drive that improves your computing experience. With its M.2 2280 form factor and PCI Express 4.0 x4 interface, this drive ensures rapid data transfer speeds and efficient performance for demanding applications. Designed for modern desktops and laptops, the E100 offers an ideal storage solution that enhances speed and reliability for your storage needs.
High-speed performance
The PCI Express 4.0 x4 interface provides exceptional data transfer rates, reducing loading times and enhancing overall system responsiveness.
Space-saving design
With its sleek M.2 2280 form factor, the Crucial E100 is designed to fit into tight spaces within modern devices, allowing for efficient use of space without sacrificing performance.
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