- Phison Pascari X200E establishes a new reference with PCIe Gen5 and an extreme flow
- X200E becomes the first SSD flash to break the million schooling
- Built for AI, not the game, X200E dominates the workloads of the data center
Phison has established a new reference in the company’s storage performance with its SSD Pascari X200E 6.4 TB, beating records at sequential reading speed, far beyond the fastest external discs can provide.
Tweaktown’s laboratory tests revealed that the reader had reached a sequential speed of 15,025 MB / s, the highest ever recorded. In the 8K 70/30 test, which simulates traffic in the database, the X200E has also become the first SSD based on Flash to exceed 1 million IOPS.
The X200E is part of the X Pascari performance series of Phison, designed specifically for an extreme writing intensity in heavy data environments. It is shipped in U.2 and E3.S Form factors, with capacity options ranging from 1.6 TB to 30.72 TB.
Business DNA means business requests
Built around the PS5302-X2-66 PS5302-66 controller to 16 channels and equipped with NAND ETLC Hynix 176-layer, the X200E works on a PCIe Gen5 X4 interface. Most office PC support M.2 SSDS rather than the business quality U.2 interface, which makes them physically and technically incompatible with the X200th.
Even with an adapter, most mainstream motherboards do not have the depth of waiting and thermal management required to fully enjoy the capabilities of the hard drive. Given these requirements, the X200E is not designed for typical users, it is designed for data centers, not on desktop computers or game platforms.
Phison assesses the X200E to a sequential reading of up to 14,800 MB and sequential writing performance of 8,700 MB / s. In addition to raw speed, the reader excels in mixed workload scenarios, offering up to 3.2 million peak with consistent performance on several depths of waiting, further stressing his business objective.
The X200E is designed to support the workloads of modern AI and hyperscal data center operations, which often require performance beyond the traditional 32 queue depth used in the SSD inherited references. The results of the tests show that the reader maintains permanent scheme performance even under random workloads with depths of waiting as high as 4096.
While AI models continue to generate massive volumes of readings and entries through complex work flows, SSDs like the X200E will help fuel everything, video delivery platforms with real-time analysis pipelines.
