Samsung's Latest Datacenter SSDs

In the latter half of this year, Samsung launched several new enterprise/datacenter SSD product lines. This is part of a new strategy to make its enterprise storage products more accessible to smaller customers. The 860 DCT, 883 DCT, 983 DCT and 983 ZET all use hardware that Samsung was already selling under different names, but are now being sold by retailers in individual quantities. We'll be testing the 983 ZET next month, but the other three new models have already survived our testing.

Samsung 860 DCT

The Samsung 860 DCT uses the same hardware as the 860 EVO consumer SSD, but with enterprise-oriented firmware. That means SLC caching is out and the firmware is optimized to provide consistent sustained performance, even though that means peak write speeds are far lower and the usable capacity is 4% lower due to increased overprovisioning. The 860 DCT also doesn't offer the idle power saving modes that consumer drives feature. The 860 DCT is an entry-level server drive that lacks many features traditionally associated with enterprise SSDs, most notably power loss protection capacitors. Like consumer SSDs, the 860 DCT operates with a volatile write cache, though this can be disabled at further cost to write performance.

Samsung 860 DCT Specifications
Capacity 960 GB 1.92 TB 3.84 TB
Controller Samsung MJX
Form Factor 2.5" 7mm SATA
NAND Flash Samsung 64-layer 3D TLC
DRAM 1 GB LPDDR4 2 GB LPDDR4 4 GB LPDDR4
Sequential Read 550 MB/s
Sequential Write 520 MB/s
Random Read 98k IOPS
Random Write 19k IOPS
Power Consumption Read 1.9 W
Write 2.9 W
Idle 1.05 W
Write Endurance 349 TB
0.2 DWPD
698 TB
0.2 DWPD
1396 TB
0.2 DWPD
Warranty 5 years

The 860 DCT is intended for use primarily on very read-heavy workloads, with a very low volume of writes that preferably would be mostly sequential – for example, serving up streaming video. This is reflected by the write endurance rating of just 0.2 drive writes per day. Samsung doesn't intend for the 860 DCT to compete against any of their existing enterprise SSDs. Instead, they are targeting use cases where customers are currently using consumer-grade SSDs or mechanical hard drives.

This is pretty much the same description that everyone is giving for their first enterprise QLC SSDs, but the 860 DCT is still a TLC-based drive at this point. We expect its successor to switch to QLC NAND. Samsung says their currrent MJX controller can support 8TB SSDs, but so far they haven't gone beyond 4TB. As NAND and DRAM prices will continue to decline in 2019, it probably won't be long before they decide to max out the MJX controller.

The labeling on the 860 DCT differs slightly from Samsung's retail consumer SSDs, but inside we find exactly the same PCB, with components that differ only in date codes and lot numbers. Our 3.84 TB 860 DCT sample uses eight NAND packages each containing eight of Samsung's 512Gb 64-layer 3D TLC V-NAND, for a total raw capacity of 4 TiB.

 

Samsung 883 DCT

The Samsung 883 DCT is a more traditional enterprise SATA SSD, with the power loss protection capacitors that the 860 DCT lacks. The controller and NAND are still the same as in the 860 DCT and consumer 860 EVO. Random write performance is a bit better than the 860 DCT and the write endurance rating jumps up to 0.8 DWPD, a fairly mainstream value for enterprise drives intended to be used with read-heavy workloads.

The 883 DCT product line extends all the way down to 240GB where the 860 DCT family starts at 960GB. Samsung didn't sample the two smallest capacities of 883 DCT, but they are most likely to be used in applications that aren't performance-critical, such as OS boot drives. Samsung uses their smaller 256Gb TLC dies on the 960GB and smaller models, while the 1.92TB and 3.84TB models use the 512Gb TLC dies.

Samsung 883 DCT Specifications
Capacity 240 GB 480 GB 960 GB 1.92 TB 3.84 TB
Controller Samsung MJX
Form Factor 2.5" 7mm SATA
NAND Flash Samsung 256Gbit 64L 3D TLC Samsung 512Gbit 64L 3D TLC
DRAM 512 MB LPDDR4 1 GB LPDDR4 2 GB LPDDR4 4 GB LPDDR4
Sequential Read 550 MB/s
Sequential Write 520 MB/s
Random Read 98k IOPS
Random Write 14k IOPS 24k IOPS 25k IOPS 25k IOPS 28k IOPS
Power Consumption Read 3.6 W
Write 2.3 W
Idle 1.3 W
Write Endurance 341 TB
0.8 DWPD
683 TB
0.8 DWPD
1366 TB
0.8 DWPD
2733 TB
0.8 DWPD
5466 TB
0.8 DWPD
Warranty 5 years

The addition of power loss protection capacitors doesn't require Samsung to adopt a larger PCB than the 860 DCT/860 EVO hardware, but it does give a more crowded layout. The 3.84 TB 883 DCT only has six large surface-mount capacitors plus empty pads on the back for two more, but there are enough other small components added that the large NAND, DRAM and controller packages had to be rearranged.

 

Samsung 983 DCT

The Samsung 983 DCT is an entry-level enterprise NVMe SSD. It has the same 0.8 drive writes per day endurance rating as the 883 DCT SATA drive, but boasts much higher performance. The 983 DCT uses the Samsung Phoenix controller that we are familiar with from the consumer 970 EVO and 970 PRO, and the OEM client PM981 SSDs. As usual, SLC caching is not implemented on the enterprise products, so write performance is substantially lower than what the consumer 970 EVO advertises, but read performance is similar.

The 983 DCT is only currently offered in two capacities: 960 GB and 1920GB, but customers also have their choice of M.2 or 2.5" U.2 form factors.

Samsung 983 DCT Specifications
Capacity 960 GB 1.92 TB   960 GB 1.92 TB
Controller Samsung Phoenix
Form Factor 2.5" 7mm U.2   M.2 22110
Interface, Protocol PCIe 3.0 x4 NVMe 1.2b
NAND Flash Samsung 256Gbit 64L 3D TLC
DRAM 1.5 GB LPDDR4 3 GB LPDDR4   1.5 GB LPDDR4 3 GB LPDDR4
Sequential Read 3000 MB/s
Sequential Write 1050 MB/s 1900 MB/s   1100 MB/s 1400 MB/s
Random Read 400k IOPS 540k IOPS   400k IOPS 480k IOPS
Random Write 40k IOPS 50k IOPS   38k IOPS 42k IOPS
Power Consumption Read 8.7 W   7.6 W
Write 10.6 W   8.0 W
Idle 4.0 W   2.6 W
Write Endurance 1366 TB
0.8 DWPD
2733 TB
0.8 DWPD
  1366 TB
0.8 DWPD
2733 TB
0.8 DWPD
Warranty 5 years

The M.2 version of the 983 DCT is rated to use significantly less power than the U.2 version. The 1.92 TB model is the only one that appears to have its performance meaningfully constrained by this, with sequential write speeds of 1.4GB/s instead of 1.9GB/s, and reduced random read and write performance.

The 983 DCT M.2 uses the 22x110mm card size, longer than the consumer standard of 80mm in order to accommodate the power loss protection capacitors. The 983 DCT M.2 is also double-sided, because unlike the 970 EVO it doesn't need to squeeze into thin laptops. This allows Samsung to use four NAND packages instead of two, and consequently shorter stacks of NAND dies.

The 2.5" version of the 983 DCT uses the same 7mm thick form factor as most SATA SSDs, but the construction is a bit different from Samsung's SATA drives: the screws holding the case together enter from the top instead of the bottom, and are covered by a label that puts Samsung's logo upside down relative to their SATA drives.

Inside, we find a PCB that uses almost all of the available space, with more than twice as many power loss protection capacitors as on the M.2 version. To keep all eight channels of the Phoenix controller busy and maximize performance, Samsung uses their 256Gb TLC dies on both capacities. The 983 DCT also features 50% more DRAM per GB of NAND than is common for SATA drives; some of this extra may be used for more robust ECC, but the primary purpose is most likely enabling higher performance.

Exploring the Enterprise SSD Market: SATA vs NVMe Drives In Detail, Part 2: Intel P4510, Optane P4800X, Memblaze PBlaze5
POST A COMMENT

36 Comments

View All Comments

  • Greg100 - Thursday, January 3, 2019 - link

    In Europe we have got:

    Samsung SSD 860 QVO 4TB for € 579 and
    Samsung SSD 860 EVO 4TB for € 625

    So I think it’s time for something bigger and faster…
    Reply
  • Greg100 - Thursday, January 3, 2019 - link

    especially, when we have many 15.36TB SAS SSDs from every major manufacturer:

    Western Digital Ultrastar DC SS530 15.36TB
    Seagate Nytro 3330 15.36TB
    Toshiba PM5-R 15.36TB
    Samsung PM1643 15.36TB

    with Samsung PM1643 even double capacity: 30.72TB

    ...but we can't use SAS SSD on consumer motherboard...

    so I count on new U.2 drives.
    Reply
  • phoenix_rizzen - Friday, January 4, 2019 - link

    Well, you can use SAS drives with consumer-oriented motherboards, you just need to add an SAS HBA via one of the PCIe slots. :) An extra cost, for sure, but it's certainly doable. LSI 92xx-8i or similar aren't that expensive. Reply
  • Greg100 - Saturday, January 5, 2019 - link

    Thank you for your advice. You're right, SAS SSDs can be connected to a consumer motherboard, but does it make any sense?

    SAS SSDs are only given as an example that there are even larger than 8TB SSDs available on the market. It's a pity that they are much more expensive for GB than Intel U.2 drives and much slower. The fastest of the above:

    Western Digital Ultrastar DC SS530
    15.36TB
    2150MB/s (Read)
    2120MB/s (Write)

    We can get instead:

    Intel DC P4510
    8TB
    3200MB/s (Read)
    3000MB/s (Write)
    £2,300.78
    (Bleepbox on UK ebay; new, in stock)

    so....
    2x more expensive per GB than Samsung SSD 860 EVO 4TB
    6x faster (sequentially) than Samsung SSD 860 EVO 4TB

    Is it worth its price?

    Is 6x faster CPU worth 2x higher price?
    Reply
  • Greg100 - Saturday, January 5, 2019 - link

    If someone has to use SAS drives, they pay more for lower performance, but they don't have to rebuild the entire infrastructure.

    For the consumer who wants:

    -big
    -fast
    -cheap

    I think that Intel DC P4510 is the best option

    If someone can find
    8TB SSD 3000MB/s+ read
    cheaper than £2,300.78 let me know...
    Reply
  • Billy Tallis - Thursday, January 3, 2019 - link

    I don't think we'll see 8TB consumer-oriented drives in 2019, and if we do, they'll make even less sense than Samsung's premature introduction of the 4TB 850 EVO did. Going beyond 8TB will require a new generation of controllers for the consumer market, with support for more DRAM, and that may not be economical until 2TB and 4TB drives are as affordable as 1TB drives are now. Reply
  • Greg100 - Thursday, January 3, 2019 - link

    Thank you for your opinion and information on compatibility.

    So... if I will not see something interesting on CES... I think it is time for Intel DC P4510 8TB (data) and maybe Intel Optane 905P (boot, software)
    Reply
  • Greg100 - Thursday, January 3, 2019 - link

    One more question:

    Do you know cause and solution to the issues with the 4TB Samsung drives, you describe here: https://www.anandtech.com/show/13633/the-samsung-8... ?
    Reply
  • Billy Tallis - Thursday, January 3, 2019 - link

    I haven't been able to pin down the cause or fix. One of the troublesome 4TB 860s did start behaving again, but I'm not sure what part of my messing with it accomplished that and I haven't been able to replicate it with the other two. And the 4TB enterprise Samsung SATA drives (860 DCT and 883 DCT) have been trouble-free but haven't been subjected to the full consumer test suite yet. Reply
  • Greg100 - Thursday, January 3, 2019 - link

    Thanks.

    When you will be able to pin down the cause or fix PLEASE make short article about it or include it with the future 860 DCT and 883 DCT consumer test. I think, it can be very important, especially that they are the biggest client SSDs and with last week significant price drop in Europe they are more affordable.
    Reply

Log in

Don't have an account? Sign up now