At OCP Summit 2023, we’ve Kioxia saying one other new drive, and this one is kind of totally different. The corporate has a 30.72TB NVMe SSD, the Kioxia LD2-L. This new drive is designed for ~1PB/ 1U purposes. The corporate can also be exhibiting a number of of its different hyper-scale SSDs on the present.
New 30.72TB Kioxia LD2-L NVMe SSD Introduced at OCP Summit 2023
The brand new Kioxia LD2-L drive is one thing very totally different from the corporate. This can be a high-capacity SSD in an E1.L type issue. With capacities of both 30.72TB or 15.36TB per drive, a 32-drive 1U chassis has 983TB or round 1PB/U. The 15.36TB drive gives half of that density.
One will discover that this isn’t meant to be the quickest drive. As a substitute, it’s designed to retailer loads of information per U.
The corporate additionally confirmed off numerous its drives at OCP Summit.
These drives embrace the Kioxia XD7P which is the corporate’s E1.S NVMe SSD. This PCIe Gen5 drive is designed for increased speeds in a smaller type issue and decrease capability factors.
These drives had been the primary announcement of final yr’s OCP Summit 2022.
The Kioxia CD8P is the corporate’s U.2 2.5″ and E3.S PCIe Gen5 drive.
One thing we didn’t discover till this announcement is that there’s truly a 30.72TB model. After we noticed the Kioxia CD8P-R at FMS 2023 the U.2 drive was listed solely as much as 15.36TB however that 30TB class drive was within the authentic launch slide. The “R” stands for learn intensive.
Kioxia is also speaking about its Software program-Enabled Flash or SEF work at OCP this yr.
Last Phrases
Total, the Kioxia LD2-L is a extremely attention-grabbing drive as a result of it is extremely totally different. One of many massive tales within the trade at this time is how we’ve PCIe Gen5 platforms, however many storage purposes don’t want PCIe Gen5 speeds. Certainly, we aren’t on the PCIe Gen4/Gen5 crossover level but from a quantity perspective. Maybe there’s a marketplace for decrease pace but in addition bigger E1.L drives to get huge density in racks.
