Description
- Superior speed and a better cost-performance ratio: Utilizing a PCIe Gen3x2 interface, the SX6000 reaches Read Speed up-to 1000 MB/s and Write Speed up-to 800 MB/s for faster boot, game downloads, and data transfers. NVMe 1.2 qualified.
- Prompt game loading and data transfer: No more long waits! With SX6000 gamers can load games and transfer data much faster than when using a SATA III SSD. Cut down waits and get into the action faster.
- Intelligent SLC Caching and DRAM Cache Buffer: With support for intelligent SLC Caching and DRAM Cache Buffer, the SX6000 accelerates sequential and 4K random read/write speeds to shorten system response time and give you an edge.
- 3D NAND Flash: Higher capacity, efficiency, and reliability with 3D NAND Flash, the SX6000 supports bigger storage capacities, higher efficiency, and improved reliability compared to 2D SSDs.
- Cool XPG heatsink included: The SX6000 box has a sleek black XPG heatsink with pre-applied thermal compound inside for easy DIY. With or without heatsink: the choice is yours, as the SX6000 looks great in builds either way. And backed by a 5-year warranty.
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ADATA XPG SX6000 M.2 2280 Solid State Drive: Finally, more Speed for the same spend The XPG SX6000 combines superior speed and a better cost-performance ratio in a compact M.2 2280 form factor. It’s great for gamers, PC enthusiasts, and video rendering professionals and perfect for anyone feeling the need for speed and thus an upgrade from traditional SATA SSDs. Utilizing a PCIe Gen3x2 interface, the SX6000 reaches read/write speeds of 1000/800MB per second for faster boot, game downloads, and data transfers. NVMe 1.2 qualified, the SX6000 delivers superior random read/write performance and multi-tasking capabilities. It implements 3D NAND Flash, which provides storage density up to 1TB and improved reliability compared to 2D NAND. With support for SLC Caching and DRAM Cache Buffer, the SX6000 maintains optimized performance and data integrity during even intense gaming, rendering, or other high demand applications.
