GOODRAM SSD PX600 2TB M.2 PCIe NVME
- Объем: 2000 GB
- Скорость чтения: 5000 MBps
- Скорость записи: 4200 MBps
- Тип подключения: PCI Express
GOODRAM PX600 SSD
The latest SSD Goodram PX600 is a solution for demanding users looking for reliable memory with fast data transfer. Thanks to the PCIe 4 x4 standard, the drive operates at speeds up to 5000 MB/s. The parameters of the PX600 will certainly be appreciated by gamers, graphic designers, people who use photo and video editing programs, as well as everyone working on large data sets.
The PX600 is also ideal for users who want to improve the performance of their PC or laptop. The lightning-fast speed of the SSD translates into smooth operation, system responsiveness, fast loading of games and applications, as well as comfortable performance of tasks. The premier drive offers up to ten times better sequential and random transfer performance compared to legacy SSDs.
Reliability in every inch
The use of Flash memory chips in 3D NAND technology ensures high performance and reliability. This solution allows you to increase memory density and optimize its consumption, which is important from the point of view of disk life. MTBF (Mean Time Between Failures) is 2,000,000 hours, which means a very long time without failure of the drive.
High NVN performance
The NVMe communication protocol was designed from the ground up for the fastest 3D NAND Flash media. The use of 3D NAND technology in the PX600 unleashes the potential of memory, controller and fourth generation interface. NVMe reduces latency and queuing, which makes it much faster than SSDs based on AHCI protocols.
One of the problems with M.2 NVMe drives is thermal throttling, i.e. performance limitations due to components operating at too high temperatures. The controller that the PX600 is equipped with effectively manages the voltages, which has a positive effect on the emission of temperature, and also significantly reduces its increase during disk use. This translates into operational reliability even under heavy equipment load.