msi-spatium-m460-pcie-gen-5-nvme-ssds-with-solid-heatsink-&-up-to-12-gb/s-speeds-unveiled

MSI has introduced the launch of its next-generation SPATIUM M460 PCIe Gen 5 NVMe SSDs which function a strong heatsinks design and quick speeds.

MSI Reveals Superb SPATIUM PCIe 5.0 Storage Performance & Enriches Its Lineup with SPATIUM M460 (HS)

Press Release: MSI, the world’s main gaming PC {hardware} model, is proud to announce the brand new SPATIUM M570 PCIe 5.0 NVMe M.2 HS, with blazing quick learn speeds as much as 10GB/s that unites the newest in top-notch PCIe Gen 5 controller expertise with high-quality 3D NAND flash, and superior cooling.

Sporting a bronze-colored aluminum heatsink, the SPATIUM M570 PCIe 5.0 NVMe M.2 HS SSD takes a sensational leap in storage efficiency, bringing greater than 1.5 instances quicker learn/write speeds in comparison with present PCIe 4.0 SSDs. With compliance with NVMe 2.0 and M.2 2280 kind issue, the SPATIUM M570 HS gives optimum efficiency and long-lasting sturdiness in 1TB, 2TB, and 4TB capability variants for professionals, content material creators, and avid gamers in a straightforward set up and excessive switch speeds for multitasking workloads.

The robust collaboration between MSI and Phison was showcased to convey improvements within the cupboard space space throughout CES2022 mutually.

“K.S.Pua, CEO of Phison Electronics, said that the cooperation between Phison and MSI started from the SSD product line. Since both companies have their own expertise in NAND controller and computer system integration respectively, and in addition to SSD, MSI has also actively expanded its strategy in the fields of gaming, content creators, commercial, industrial, robotics, and even automotive in recent years, where the application markets are in line with Phison’s long-term strategy, so the two companies hit it off. The SPATIUM PCIe 5.0 SSD launched by MSI this time adopted Phison’s E26 SSD controller. Since the performance of PCIe 5.0 is much faster than the previous generation of PCIe 4.0, the two companies have conducted a lot of tests and discussions on power consumption and heat dissipation, which is a valuable cooperation experience. In the future, Phison will continue to support MSI through controller technology.”

With the identical avid gamers’ first angle that has made MSI merchandise nice, MSI continues pushing the boundaries to unleash efficiency with the next-generation SPATIUM PCIe 5.0 SSD. Using the Lightning Gen 5 M.2 slot on the MSI MEG Z690 GODLIKE motherboard, the efficiency is outstanding for the MSI SPATIUM PCIe 5.0 x4 SSD, powered by Phison PS5026-E26 resolution.

MSI SPATIUM M460 PCIe Gen 5 NVMe SSDs With Solid Heatsink & Up To 12 GB/s Speeds Unveiled 2

Our testing exhibits that the next-gen SPATIUM PCIe 5.0 SSD can attain over 12,000MB/s sequential learn speeds and 10,000MB/s write speeds, demonstrating that MSI continues to be a prime supplier of next-gen efficiency merchandise for customers. Under a RAID 0 configuration, the next-gen SPATIUM PCIe 5.0 SSDs may even carry out as much as 170% quicker switch speeds, in comparison with a single PCIe 5.0 SSD setup, permitting avid gamers to achieve useful milliseconds on latency or professionals to course of gigabytes of recordsdata.

SPATIUM M460 (HS), The Competitive PCIe 4.0 Lineup Available with An Extra Option of Heatsink.


SPATIUM M460 was developed to fulfill the expectations of mainstream SSD shoppers. Its PCIe 4 interface gives quick speeds as much as 5000 MB/sec sequential learn and 4500 MB/sec sequential write speeds. Available storage capacities are 250GB, 500GB, 1TB, and 2TB.

The SPATIUM M460 helps a complete vary of information error correction options together with LPDC ECC and E2E Data Protection, offering a high-rated TBW (Terabytes Written) for glorious sturdiness and longevity backed with a restricted 5-year guarantee. Additionally, the bronze-colored aluminum heatsink effectively dissipates warmth, decreasing the SSD temperature by as much as 20°C below load and sustaining the M460 HS to output most efficiency below heavy workloads.