Fuel your system performance with the Crucial T500 Gen4 NVMe SSD. Load games up to 16% faster with sequential read and write speeds up to 7,200 MB/s and 5,700 MB/s (up to 800K/1.39M IOPs random reads/writes). The T500 serves up faster gaming, video editing, and 3D rendering. Easy to install and ready for use with your laptop, desktop, or motherboard, the T500 serves up faster gaming, video editing, 3D rendering and more with massive storage. Built with cutting-edge TLC NAND, a 40% performance-to-power ratio, and speeds that are 2x faster than Gen3, the T500 optimizes your system performance so it can work faster with less power. Enabled for Microsoft DirectStorage, the T500 also supports faster renders and reduced CPU utilization for a richer gaming experience.
TLC 2.5" SATA 6Gb/s. The Industry’s Most Advanced Data Center SATA SSD The Micron 5400 SSD combines Micron’s proven data center SATA architecture with its advanced 176-layer NAND technology to give customers the best of both worlds. Get more from your SATA platforms with SSDs that have 50% better reliability (mean time to failure, MTTF rating)1 and up to 50% greater endurance than the other leading SATA SSD.2 With the industry’s broadest portfolio of data center SATA SSDs, the Micron 5400 gives you extensive options to get more out of every SATA socket in your servers. Technology 3D TLC Write speed 520 MBytes/sec, Read speed 540 MBytes/sec Form Factor 2,5", DWPD 1.5 MTBF 3000000 hours, Drive thickness 7mm
NM1090 Pro Experience blazing load times up to 200% faster thanks to PCIe 5.0 technology and an advanced thermal control design. With incredible read speed up to 14,000MB/s and write speed up to 13,000MB/s,1the Lexar Professional NM1090 PRO M.2 2280 PCIe Gen 5x4 NVMe SSD delivers the performance for stunningly immersive gaming, professional rendering, and more. DRAM Cache and SLC Dynamic Cache also contribute to enhanced data transfer speeds, reducing wait times and improving system responsiveness. Additionally, the drives powerful 6nm controller increases heat dissipation to offset its blistering speed.
