Espero que alguém pegue na tecnologia e licencie a outras empresas. A meu ver, o maior problema desse produto foi estar limitado a 2 empresas, sendo que uma delas quase não lançou produtos. Por muito bom que fosse, torna-se difícil concorrer com NAND, quando só há 1 empresa a desenvolver a tecnologia e não grandes incentivos para os preços descerem.Tanto potencial mas assim morreu: https://videocardz.com/newz/intel-is-officially-shutting-down-its-optane-memory-business
Corsair Teases Next-Gen MP700 PCIe Gen 5 M.2 SSD, Up To 10,000 MB/s Read Speeds
Corsair has teased its next-gen MP700 PCIe Gen 5 M.2 SSD which will be fully compatible with the AMD AM5 platform.
Corsair's Next-Gen MP700 PCIe Gen 5 SSD To Offer Up To 10 GBps Read Speeds, Fully Compatibility With AMD AM5 Platform
According to Corsair, the manufacturer has already started working on its next-gen MP700 SSD which is fully compliant with the PCIe Gen 5 standard. The next-gen SSD will comply with the M.2 standard and feature an x4 NVMe 2.0 interface. While Corsair hasn't detailed the specifications of the SSD yet, they have shared the performance numbers.
Corsair rates their MP700 PCIe Gen 5 M.2 SSD at 10,000 MB/s read and 9,500 MB/s write speeds (Sequentially). The speeds will vary depending on the model (such as capacities). Compared to Corsair's current fastest drive, the MP600 PRO XT, the MP700 will offer up to 64% faster read and 41% faster write speeds.
Experience the performance of PCIe Gen5 storage in your AM5 system with the upcoming CORSAIR MP700 Gen5 PCIe x4 NVMe 2.0 M.2 SSD, providing up to 10,000MB/sec sequential read and 9,500MB/sec sequential write speeds depending on the model.
via Corsair
It will definitely be powered by Phison's high-end Gen 5 controller considering the current drives are based on the Phison E18 controller. At 10,000 MB/s read speeds, the drive will offer around 28.5% lower speeds compared to the controller's fullest potential. Corsair's Gen 5 SSDs may also offer full compliance with the Microsoft DirectStorage API and AMD's Smart Access Storage (SAS) technologies. It is interesting to see that most of the Gen 5 SSD manufacturers have chosen AMD for demonstration of their next-gen Gen 5 SSD solutions including Phison itself.
AMD is confirmed to unveil its next-gen Ryzen 7000 Desktop CPUs and the respective AM5 platform later this month so we can expect to see next-gen SSD solutions to be revealed soon after that.
Samsung says that it can store data in this CXL SSD instead of normal DRAM or SSD storage, leading to better memory utilization with large AI models.
Digging into the diagram, we can see that this is an AMD Xilinx VM1802 which is a Versal ACAP running most of the CXL logic. There is then a Samsung PM9A3 PCIe Gen4 NVMe SSD on the back end as well as a local DRAM cache.
If this sounds a bit familiar, then perhaps the answer is something we already covered, namely the Samsung and AMD Xilinx Launch 2nd Gen SmartSSD that was also at the show.
This device takes an AMD-Xilinx Versal ACAP, a PM9A3 1.92TB M.2 device, and DRAM cache and puts it into an E3 form factor.
https://www.servethehome.com/samsung-memory-semantic-cxl-ssd-at-fms-2022-powered-by-amd-xilinx/We asked at the show if they were indeed the same device, and we received a response that did not answer that question. Still, it makes a lot of sense if they are the same physical devices since it appears as though these two share a similar feature set.
A controladora Silicon Motion SM8366 que é Gen5 e NVME 2.0, num Kioxia, a fazer 13 GB/s em leitura random e 3.4 milhões de IOPS.
Gostava de saber que NAND está naquele SSD. No artigo, têm fotos de SSDs com esta controladora, a usar TLC e QLC, mas não dizem que NAND está no SSD testado.SSD GOES BRRRRRR.
Eu não estou a ver alguém no mercado consumidor ou workstation a precisar de 3.4 milhões de IOPS em leitura random, em 1 SSD.Era bom que estas melhorias no bottleneck que é o storage passassem também para o mercado consumidor, mas acho que não vai acontecer :|
Eu não estou a ver alguém no mercado consumidor ou workstation a precisar de 3.4 milhões de IOPS em leitura random, em 1 SSD.