Toshiba is introducing their first SSD using 96-layer 3D NAND flash memory. The new Toshiba XG6 is an update to their XG5 client NVMe SSD for the OEM market. The new 3D TLC NAND should help reduce costs, and will also allow for significantly higher performance. The XG5's performance wasn't competitive with high-end NVMe drives but was plenty for most purposes, and the XG5 was the first NVMe SSD to offer power efficiency similar to SATA SSDs on a variety of workloads. Toshiba promises similar efficiency from the XG6 in spite of the increased performance.

The Toshiba XG6 is still using the same controller as the XG5, so the improvements are mostly due to the new NAND flash, plus some firmware optimizations. The new 96L 3D TLC supports Toggle NAND 3.0 interface speeds in the 667-800MT/s range compared to the 400-533MT/s speeds used by earlier 3D NAND from Toshiba, so data can be moved between the controller and the NAND more quickly (Toshiba didn't disclose the exact speed used on the XG6). The 96L NAND itself has shorter read and program times than the 64L BiCS3 TLC, so the faster interface won't go to waste. The NAND page size hasn't increased, so there isn't any extra overhead for managing small IO sizes compared to what the XG5 has to cope with. As with the XG5, the XG6 will use a mix of 256Gb and 512Gb TLC dies depending on the drive capacity, so the smaller models won't suffer as much from the reduced level of parallelism that would come from using the largest (and cheapest) die across the entire range.

Toshiba XG6 Specifications
Capacity 256GB 512GB 1024GB
Controller Toshiba TC58NCP090GSD
Form Factor single-sided M.2 2280
Interface, Protocol PCIe 3 x4, NVMe 1.3a
NAND Flash Toshiba BiCS4 96-layer 3D TLC
Sequential Read (128kB, QD64) up to 3180 MB/s
Sequential Write (128kB, QD64) up to 2960 MB/s
Random Read (4kB, QD64) up to 355k IOPS
Random Write (4kB, QD64) up to 365k IOPS
Power Consumption Read 4.2 W
Write 4.7 W
Idle 3 mW
TCG Opal Encryption Optional

The XG6 is not intended to be a complete replacement for the XG5-P variant that targets higher capacities and sustained performance, but an XG6-P has not been officially announced. However, the XG6 does support user-configurable overprovisioning using a new standard command from the NVMe 1.3a specification, so it has the potential to deliver better steady-state performance than it will provide out of the box.

The XG6 will be available in versions with and without TCG Opal encryption support. The non-encrypting models still implement the basic TCG Pyrite security specification.

The Toshiba XG6 is currently sampling to OEMs and will be showing up in notebook computers soon, replacing the XG5 over the next few quarters. Toshiba never released a retail version of the XG5, but it seems likely that the XG6 will see a retail version to replace the aging and expensive OCZ RD400, which was based on the XG3 OEM SSD.

POST A COMMENT

9 Comments

View All Comments

  • XeonPlanner - Monday, July 23, 2018 - link

    Disappointed that there is no 2TB version. Want a large and (relatively) cheap SSD. Reply
  • Alexvrb - Tuesday, July 24, 2018 - link

    Large and cheap? That's still mostly 2.5" territory, although there are some M.2 SATA drives that are pretty close. Like the WD Blue M.2 SATA 2TB. Reply
  • quiksilvr - Thursday, July 26, 2018 - link

    PCIE: Samsung 970 EVO $800
    M2: WD Blue 3D NAND 2TB PC SSD $400
    SSD: Micron 1100 MTFDDAK2T0TBN-1AR1ZABYY $300
    Reply
  • boeush - Tuesday, July 24, 2018 - link

    Sheesh, now we're quoting QD64 numbers. As if QD32 wasn't already deceptive enough for "consumer"-targeted 'cheap' drives like this...

    One of these days, someone should undertake a giant class-action lawsuit against all these vendors, for blatantly deceptive advertising.
    Reply
  • Sivar - Thursday, July 26, 2018 - link

    QD64 is a perfectly reasonable metric for the use case of storing the data for an extremely overtaxed corporate database server on this M.2 SSD. Reply
  • Death666Angel - Tuesday, July 24, 2018 - link

    "However, the XG6 does support user-configurable overprovisioning using a new standard command from the NVMe 1.3a specification"
    -> What is the difference/advantage of this compared to just creating a partition of xx% of the full drive and having the spare area that way? :)
    Reply
  • smilingcrow - Tuesday, July 24, 2018 - link

    Unformatted user accessible space and space for over provisioning which is not available for formatting are treated differently. Reply
  • CheapSushi - Tuesday, July 24, 2018 - link

    Because now you just have a partition there doing nothing rather than the drive itself in a smart managed way doing a proper job on increasing the drives longevity. Reply
  • Tyns - Tuesday, July 24, 2018 - link

    What's the respective die sizes for their 256Gb and 512Gb 96L dies? BiCS bit density is way behind the competition. Reply

Log in

Don't have an account? Sign up now