Kioxia (formerly Toshiba Memory) has launched their sixth generation enterprise SAS SSD, the PM6 series. This is the first SSD available to support the latest 24G SAS interface, doubling performance over the existing 12Gb/s SAS standard. Using 96-layer 3D TLC NAND flash memory, the PM6 offers capacities up to 30.72 TB and performance up to 4300 MB/s.

Serial-Attached SCSI (SAS) originated from the simple idea of running the enterprise-grade SCSI protocol over the Serial ATA physical layer, obsoleting parallel SCSI connections in the same way that SATA displaced parallel ATA/IDE in the consumer storage world. The first version of SAS corresponded to the second generation of SATA, with each running at 3 Gbit/s. SATA became a dead-end technology after one more speed increase to 6 Gbit/s, but SAS development has continued to higher speeds: 12Gbit SAS-3 was standardized in 2013 and "24G" SAS-4 was standardized in 2017. The "24G" is in quotes because SAS-4 actually runs at a raw rate of 22.5Gbit/s but delivers a true doubling of usable data rate by switching to lower-overhead error correction: 8b/10b encoding replaced with 128b/150b (actually 128/130 plus 20 bits of extra forward error correction), similar to how PCIe 3.0 switched from 8b/10b to 128b/130b to deliver 96% higher transfer rates with only a 60% increase in raw bit rate. Also similar to PCIe, it takes quite a while to go from release of the interface standard to availability of real products, which is why a 24G SAS SSD is only just now arriving.

Kioxia's enterprise SAS SSDs and their enterprise NVMe SSDs share the same bilingual controller ASIC and consequently the PM6 has a very similar feature set to the previously-announced CM6 PCIe 4.0 SSDs. This includes dual-port interface support for higher performance or for fault tolerance, and enough ECC and parity protection for the drive to survive the failure of two entire flash dies. The SAS-based PM6 series is limited to lower maximum throughput than the CM6, but a dual-lane 24G SAS link is still slightly faster than PCIe 3.0 x4. The higher performance enabled by 24G SAS means the PM6 can require more power than its predecessors—now up to 18W, though the drive can be configured to throttle to lower power levels ranging from 9W to 14W.

Kioxia Enterprise SSD Specifications
Model PM6 SAS CM6 NVMe
Form Factor 2.5" 15mm U.3
Interface, Protocol Dual-port 24G SAS PCIe 4.0 x4, NVMe 1.4
NAND Flash Kioxia 96L 3D TLC
Capacities (TB) 960GB,
1.92TB,
3.84TB,
7.68TB,
15.36TB,
30.72TB
800GB,
1.6TB,
3.2TB,
6.4TB,
12.8TB
400GB,
800GB,
1.6TB,
3.2TB
960GB,
1.92TB,
3.84TB,
7.68TB,
15.36TB,
30.72TB
800GB,
1.6TB,
3.2TB,
6.4TB,
12.8TB
Write Endurance 1 DWPD 3 DWPD 10 DWPD 1 DWPD 3 DWPD
Sequential Read 4.3 GB/s 6.9 GB/s

The PM6 SAS family is available in three endurance tiers: the 1 DWPD and 3 DWPD models closely correspond to CM6 NVMe models, but only the SAS product line gets a 10 DWPD tier. Maximum capacities are 30.72 TB in the 1 DWPD series, 12.8 TB in the 3 DWPD series and 3.2 TB in the 10 DWPD series. Kioxia said that 4 TB class drives are still the most popular, but this will probably be shifting toward the 8 TB models over the next year or so. The 30.72 TB models will remain more of a niche product in the near future, but they expect demand for those capacities to start picking up in 2021 or 2022. Detailed performance specifications for each model are not yet available.

SAS in general is still a growing market both in terms of number of units and bits shipped and is projected to continue growing for at least a few more years, even though NVMe is gradually taking over the enterprise SSD market. Kioxia's customer base for SAS SSDs has been divided between storage array vendors and the traditional enterprise server market. The storage array market has been quicker about migrating to NVMe so this may be the last generation of SAS SSDs to see significant adoption in that market segment. SAS will be hanging around in the enterprise server market for a lot longer, helped in part by the backwards-compatibility with SATA hard drives for cheap high-capacity storage, and the straightforward traditional RAID solutions as compared to the challenges with NVMe RAID. The server market typically doesn't make as much use of the dual-port capability of SAS drives, so the speed boost from 24G SAS will be particularly welcome there, allowing drives to now reach about 2.3GB/s each rather than about 1.1GB/s on 12Gb SAS.

The Kioxia PM6 SAS SSDs are now available for customer qualification and evaluation. The drives have already been validated with 24G SAS host controllers from both Broadcom and Microchip (Microsemi/Adaptec).

Source: Kioxia

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  • schujj07 - Tuesday, June 16, 2020 - link

    Wow only has taken Intel 3 years to catch up on PCIe lanes with their dual socket to the AMD single socket. 2nd Gen dual socket Epyc can be configured to allow for 160 PCIe 4.0 lanes.
  • danbob999 - Tuesday, June 16, 2020 - link

    you understand that at some point you need some sort of link (most likely PCIe) to interface between the CPU and the SAS 24G controller, right?
  • Deicidium369 - Tuesday, June 16, 2020 - link

    Enterprise use large arrays - from companies like EMC. They are not building their own - and the jump from PCIe5 to PCIe6 is a much heavier life than 3 to 4 or 4 to 5.
  • Santoval - Tuesday, June 16, 2020 - link

    Why, due to the switch to PAM-4 and the resulting need for extensive error correction? I think the very high signal clocks of PCIe 5.0 will not be a piece of cake either.
  • schujj07 - Tuesday, June 16, 2020 - link

    More and more companies are moving away from the traditional SAN to hyperconverged.
  • MenhirMike - Tuesday, June 16, 2020 - link

    I'm not sure if NVMe (even with U.2 connections) support things like SAS Extenders/Backplanes (connecting many drives to a single port, albeit shared bandwidth) or Multipath (One drive connected to two controllers, for redundancy in case a controller dies).

    In fact, I'm trying to figure out of there's a way to "externalize" an NVMe SSD and it seems that most options are limited to only 4 or so drives in an internal PCIe card. Maybe I'm missing a standard here, but taking an NVMe drive and connecting it externally seems to only be possible through Thunderbolt.

    Maybe NVMe-oF is the standard that I'm missing, but in any case, SAS as a connection standard offers storage flexibility and redundancy that I can't seem to find for NVMe yet.
  • MenhirMike - Tuesday, June 16, 2020 - link

    (As a sidenote, if someone knows how to connect 50-ish NVMe drive to a single system, hints are appreciated)
  • amnesia0287 - Saturday, June 20, 2020 - link

    NVMe backplanes and expanders exist, they work using pci switches. The main problem is not a single vendor I am aware of right now will sell any NVMe hardware that isn’t part of a complete build. You can’t just buy a backplane or a chassis, you MUST buy “fully configured” servers. The number of devices is still “limited”, but for example, you can drive 32 NVMe drives over x8 with this card: https://www.broadcom.com/products/storage/host-bus...

    But getting the expanders that actually allow you to do so is quite hard right now unless you are ready to spend fat stax.
  • schujj07 - Tuesday, June 16, 2020 - link

    Enterprise NVMe SSDs have a direct connection to the host CPU so there isn't a need for controller cards. When it comes to adding a lot of SSD the biggest issue is physical space rather than protocol. Using PLX switches as mentioned before you can have more SSD connected to a single host. The is the reason that Samsung has made M.3 and Intel has made the "Ruler." The idea is to be able to have more than the 24x 2.5" drives in a single 2U host.

    Here is some information on NVMe-oF https://community.mellanox.com/s/article/what-is-n...
  • bigvlada - Tuesday, June 16, 2020 - link

    Old "desktop" tower cases can accommodate 50+ drives. 3,5" slot can accept 2*2,5" drives and 5,25" slot can accommodate six (low height ones). I have an Cooler Master ATCS 840 case wich has 6*3,5" slots and 6*5,25" slots. Because the case is so big (google Cooler Master 53GHz machine with five mini itx boards in it) I could probably cram around 70 drives if the CPU is cooled by air.

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