ADATA’s Fastest Gaming SSD to date drives amazing performance
Taipei, Taiwan – Apr. 3, 2018 – ADATA Technology, a leading manufacturer of high performance DRAM modules and NAND Flash products, today launched the XPG GAMMIX S11 (S11), its fastest gaming SSD to date. It arrives in a compact M.2 2280 form factor, is equipped with a unique heatsink to maintain optimal temperatures and sports the ultra-fast PCIe3x4 interface to deliver up to 3200MB/s read and 1700MB/s write – which is ideal for performance seekers, including gamers, PC DIY enthusiasts and graphics professionals. S11 employs the latest 2nd generation 64-layer 3D NAND Flash for improved reliability and ships in capacities of 240GB, 480GB, and 960GB.
Faster than ever – Made for professionals
Leveraging the ultra-fast PCIe Gen3x4 interface and the NVMe 1.3 protocol, the S11 offers a tremendous improvement in read/write performance. It implements a 32bit DRAM data bus, Intelligent SLC Caching, and a DRAM cache buffer, accelerating sequential and 4K random read/write speeds. It can reach speeds of up to 3200MB/s for reads and 1700MB/s for writes and 310K/280K IOPS random 4K read/writes for faster boot, shorter game loads, and system response time. In addition, XPG’s custom-designed heatsink ensures temperatures are at least 10 degrees*(1) Celsius lower than non-shielded M.2 SSDs, providing enhanced stability and longevity.
Rugged durability is your strongest backup
Utilizing 2nd generation 64-layer 3D NAND Flash, S11 is more reliable, faster performing, and longer lasting than ever. It also supports RAID Engine and Data Shaping for greater reliability and stability. To ensure data integrity and accuracy, S11 is equipped with advanced LDPC error correction, which helps to fix more errors than BCH ECC during data transfers. With these technologies the S11 provides superior durability and has a 2-million-hour MTBF (mean time between failures) rating. Like all XPG SSDs, the S11 is backed by an extended 5-year warranty.
This claim is based on testing done on CrystalDiskinfo and conducted under normal read/write conditions. Test results may vary depending on usage environment and heat dissipation conditions.