At Flash Memory Summit today, Toshiba announced a new variant of 3D NAND flash memory, XL-Flash. Made with the same basic process as their 96-layer BiCS4  3D NAND, XL-Flash uses shorter bit lines and word lines to build a flash memory die with many more planes than the two or four usually seen on current NAND devices. Toshiba claims that XL-Flash will have one tenth the read latency of TLC NAND, providing better random read IOPS, especially at low queue depths. Toshiba appears to be contemplating both SLC and MLC versions of XL-Flash and varying numbers of planes, but initially XL-Flash will be SLC.

XL-Flash sounds very similar to Samsung's Z-NAND concept. Both seek to transform existing NAND flash into something that can compete against new non-volatile memories like Intel's 3D XPoint memory. Toshiba didn't mention anything about how the pricing or capacity will compare to current NAND, but it is safe to assume that the density is even lower than taking their 96-layer TLC and treating it as SLC NAND. XL-Flash is intended for enterprise and datacenter storage applications.

Comments Locked

3 Comments

View All Comments

  • Spunjji - Wednesday, August 8, 2018 - link

    This should please all the comment-thread experts who've been complaining of the global conspiracy to make us buy cheap, low-performing NAND :D
  • BurntMyBacon - Wednesday, August 8, 2018 - link

    I'm not on board with some grand conspiracy (O_o), but I am glad that higher performance/endurance flash remains an option. It would be nice to see an MLC version of this in addition to the apparent SLC version presented here.
  • Alexvrb - Thursday, August 9, 2018 - link

    Nice. 3DXP has potential but it needs competition. Consumer-range MRAM won't be ready for a good while.

    With that being said I see lower-density NAND like this as being complimentary to higher-density, lower performance NAND. I'd love an XL-Flash or similar drive for my primary storage, and a 4TB+ QLC drive for secondary storage. Then I could go all-flash, at least for my main machine's internals.

Log in

Don't have an account? Sign up now