GIGABYTE Technology has released its groundbreaking AORUS Gen5 14000 SSD. This new SSD pushes the boundaries of performance, boasting a remarkable 99% performance boost compared to PCIe® 4.0 SSDs, coupled with optimized stability and capacity.
Unmatched Performance with Phison PS5026-E26 Controller
The AORUS Gen5 14000 SSD is equipped with the latest Phison PS5026-E26 12nm process controller and optimized 232-layer 3D-TLC NAND Flash.
These advanced components enable the SSD to achieve blistering sequential read speeds of up to 14,500 MB/s and sequential write speeds of up to 12,700 MB/s. This performance leap makes the AORUS Gen5 14000 SSD perfect for high-demand applications such as AI processing and intensive gaming.
Advanced Features for Superior Stability and SecurityThe AORUS Gen5 14000 SSD is designed with a built-in DDR4 DRAM cache, ensuring an incredible performance boost for PCIe 5.0 NVMe M.2 SSDs. It also features AORUS-optimized Direct Storage support, promising exceptional stability and performance.
To ensure data integrity and security, the SSD includes AES-256 encryption, TRIM, SMART, and ECC technology. These features collectively guarantee that users’ data remains safe and intact.
Real-Time Monitoring with GIGABYTE’s Exclusive GCC Application
One of the standout features of the AORUS Gen5 14000 SSD is the SSD monitoring capability provided by GIGABYTE’s exclusive GCC application. This application offers users real-time status updates on the SSD, enabling them to monitor performance, thermal conditions, stability, and capacity effectively.
To fully unleash the remarkable performance of the 14.5GB/s read speed, GIGABYTE highly recommends using their PCIe® 5.0 motherboards with M.2 heatsinks, such as the X670E AORUS PRO X and Z790 AORUS MASTER X. These motherboards are designed to complement the AORUS Gen5 14000 SSD, ensuring users experience the highest possible performance.
For more information on the AORUS Gen5 14000 SSD, visit the GIGABYTE booth at COMPUTEX or check out the official GIGABYTE website.