The AORUS Gen4 7300 SSD can read data sequentially at speeds of up to 7.3GB/s thanks to its 8-channel controller (Phison E18) and 3D TLC NAND. The E18 controller is made using advanced 12nm technology, providing ample computing power. Additionally, it can support up to 8 NAND Flash channels with 32CE, DDR4 SLC caching, and is compliant with NVMe 1.4.
The AORUS Gen4 7300 SSD can achieve sequential read speeds of up to 7.3GB/s thanks to its 8-channel controller, the Phison E18, and 3D TLC NAND. The E18 controller is manufactured using a cutting-edge 12nm process to ensure ample computing power. Additionally, it can support up to 8 NAND Flash channels with 32CE, DDR4 SLC caching, and is compliant with NVMe 1.4 standards.
GIGABYTE's Gen3 2500E SSD uses Phison's controller and high-quality 3D NAND to achieve sequential read speeds of up to 2400 MB/s and sequential write speeds of up to 1800 MB/s. The SSD controller can access the host DRAM without any loss in performance thanks to Host Memory Buffer technology. Additionally, the GIGABYTE Gen3 2500E SSD supports TRIM, SMART, and Over-Provisioning to ensure data security and stable performance.
The GIGABYTE Gen3 2500E SSD uses Phison's controller and high-quality 3D NAND to achieve up to 2300 MB/s sequential read and 1500 MB/s sequential write performance. The SSD controller can access the host DRAM without any performance loss thanks to Host Memory Buffer technology. Additionally, the GIGABYTE Gen3 2500E SSD supports TRIM, SMART, and Over-Provision to ensure data security and stable performance.
The AORUS Gen4 5000E SSD is made with a high-quality controller and 3D TLC NAND flash, which allows for up to 5,000MB/s sequential read and 3,800MB/s sequential write performance. The SSD controller uses Host Memory Buffer technology to access the host DRAM without any loss in performance. This SSD also supports TRIM, SMART, and Over-Provision technologies to improve reliability and durability. With the AORUS Gen4 5000E SSD, users can enjoy a smoother and faster gaming experience with improved power efficiency.