Western Digital Black SN770 2 TB M.2-2280 PCIe 4.0 X4 NVMe Product Description The Western Digital Black SN770 is designed for gamers, content creators, and power users who need the highest performance and reliability from a brand. It boasts generous storage capacity to store all the games, applications, and media files.
Capacity and Form Factor: The SN770 ships with a strong capacity of 2 TB. This provides ample space for storing large files like AAA games, high-resolution videos, or vast software libraries. The M.2-2280 form factor makes it very easy to integrate, especially in desktop and laptop systems, while minimizing the space usage through delivery of superior speed.
Speed and Performance With the advent of PCIe 4.0 X4 technology, the SN770's performance boasts blazing read speeds up to 5,150 MB/s and whirlwind write speeds up to 4,900 MB/s. Such high-speed performance cuts load times and makes for snappier responsiveness in systems, making productive work sessions, game console loading times, and much more take off at a blazing fast speed.
Durability and Reliability: SN770 has a long lifespan to last. Its terabytes written rating has been set at 1,000 TBW. Therefore, one can enjoy consistent performance without failing due to heavy usage, even up to the device's very long lifetime. Moreover, its reliability is further enforced through a 5-year limited warranty.
Thermal Management: The Western Digital Black SN770 ships preloaded with advanced thermal management features designed to prevent overheating in the most intense workloads, ensuring a constant speed and longevity even during the longest gaming sessions or large file transfers.
Ideal for: Reducing Load Times Content creators who need to access their content quickly; professionals requiring dependable performance for resource-intensive applications. Western Digital Black SN770 2 TB SSD: The ultimate upgrade for modern computing, for those gamers looking at minimizing load times, for content creators to require quick storage access, and for pros requiring dependable performance for resource-intensive applications.