HP is not a well-known name in the retail SSD market, but as a major PC OEM it's not too surprising to see them producing their own SSD models based on third-party controller solutions. The HP S700 and S700 Pro SSDs use Micron 3D TLC NAND and Silicon Motion controllers, but have undergone tuning and significant QA from HP in an effort to give them an edge over earlier drives from other vendors that are using the same basic formula.

The S700 and S700 Pro both compete in the low-end SATA SSD market segment. The S700 Pro's closest relatives in the market are drives like the ADATA Ultimate SU800 that use the same 3D TLC and Silicon Motion's SM2258 controller. The S700 instead uses the Silicon Motion SM2258XT DRAMless controller, and is the first retail DRAMless SSD we've tested in quite a while. Earlier this year we previewed Maxiotek's MK8115 DRAMless SSD controller with both 3D MLC and 3D TLC, and the latter configuration has since come to market as ADATA's Ultimate SU700.

Externally, the HP S700 and S700 Pro share the same minimalist case design with white labeling on matte black aluminum. Internally, the color scheme continues with black PCBs, and the differences between the S700 and the Pro become clear. The S700's PCB is half the size of the S700 Pro's PCB, due to the latter's use of external DRAM, the larger controller package necessary to accommodate the DRAM interface, and the presence of twice as many pads for NAND packages to make the 1TB S700 Pro possible. The controllers are branded with the HP logo, but the printing on the PCBs gives away the Silicon Motion models inside. Neither circuit board has space allocated for power loss protection capacitors, indicating that HP doesn't plan to re-use these designs for any enterprise products. Thermal pads are included on top of the controllers and on the back side of the PCB near the controllers, but there are no pads on the NAND or DRAM.

HP S700 and S700 Pro Specifications
Model S700 S700 Pro
Capacity 120 GB 250 GB 500 GB 128 GB 256 GB 512 GB 1 TB
Controller Silicon Motion SM2258XT Silicon Motion SM2258
NAND Micron 384Gbit 32-layer 3D TLC Micron 384Gbit 32-layer 3D TLC
Raw NAND Capacity 144 GB 288 GB 576 GB 144 GB 288 GB 576 GB 1152 GB
DRAM None 256 MB 256 MB 512 MB 1 GB
Sequential Read 550 MB/s 555 MB/s 560 MB/s 560 MB/s 560 MB/s 565 MB/s 570 MB/s
Sequential Write 480 MB/s 515 MB/s 515 MB/s 460 MB/s 520 MB/s 520 MB/s 525 MB/s
4KB Random Read IOPS 40k 55k 75k 40k 70k 85k 90k
4KB Random Write IOPS 75k 80k 90k 85k 90k 90k 95k
Idle Power 340 mW 580 mW
Max Power (Read) 1.1 W 1.1 W 1.13 W 2.05 W 2.05 W 2.05 W 2.05 W
Max Power (Write) 1.24 W 1.27 W 1.38 W 2.5 W 3.1 W 3.6 W 3.7 W
Write Endurance 70 TB 145 TB 295 TB 80 TB 165 TB 340 TB 650 TB
Warranty Three years Three years
MSRP $79.99 $139.99 $199.99 $89.99 $169.99 $269.99 $499.99

The 120GB S700 and the 128GB S700 Pro are each equipped with three NAND packages containing a single 384Gb (48GB) Micron 32-layer 3D TLC die. The larger capacities of the S700 Pro use a mix of single-die packages and dual-die packages (two of each on the 256GB, and four of each on the 512GB). The higher capacities of the S700 instead use non-standard triple die packages that—combined with the lack of external DRAM—allows for a much smaller PCB. Since the SM2258 controller and its DRAMless SM2258XT sibling have a four-channel NAND flash interface, both the S700 120GB and the S700 Pro 128GB are operating with only three out of four channels active. The larger models can use all four channels but don't have the same amount of flash on each each of the four channels. These unbalanced configurations are a result of the drives trying to offer traditional capacities while using a TLC die whose capacity is not a power of two. Intel and Micron have addressed this awkwardness with their second generation of 3D NAND by designing it with TLC in mind as the primary use case, leading them to manufacture 256Gb and 512Gb TLC dies.

Interestingly, the dual-die packages on our 256GB S700 Pro sample carry a higher speed rating than the dual-die packages on our 512GB S700 Pro sample, but this is unlikely to affect performance since the single-die packages on both carry a lower speed rating than either type of dual-die package. Likewise, the DRAM parts are different across the S700 Pro lineup: our 128GB and 256GB samples are both equipped with 256MB of DDR3-1866 rated for 1.5V operation, while the 512GB sample has 512MB of DDR3-1600 rated for 1.35V. These discrepancies probably reflect the supply constraints in the NAND and DRAM markets and these minor details may change over the course of the SSDs' production run.

The S700 has the same amount of flash memory as the S700 Pro but offers lower usable capacities. This extra overprovisioning can help mitigate some of the performance penalties of using a DRAMless controller, but the bigger benefit is probably that it helps keep the write endurance ratings up in spite of the higher write amplification factor that DRAMless drives are typically vulnerable to.

The primary points of comparison for this review are other SATA SSDs using 3D NAND. The HP S700 is at a disadvantage as the only DRAMless TLC product in our collection. Not having a DRAM cache for the NAND mapping tables is usually a serious handicap for SATA SSDs, and the impact is only worse for TLC SSDs where the controller also has to manage an SLC write cache. Many of the major SSD brands in the North American market don't have any DRAMless models, or have only used DRAMless controllers with MLC NAND.

The HP S700 Pro is more on par with the entry-level SATA SSDs from most brands. The combination of the SM2258 controller and Micron 3D NAND has been extremely popular this year, and has replaced the combination of a Phison controller and Toshiba planar TLC as the most commonly chosen turnkey solution for brands seeking to sell SSDs with a minimum of in-house engineering effort.

The few vendors that do use DRAMless controllers in their entry-level SSDs are usually much less interested in sampling those products than their higher-performance drives, and hardly anyone wants to sample the lowest capacities that offer the lowest performance. Many brands have ceased offering capacities below 240GB on newer models to avoid the performance limitations of using a small number modern high-capacity NAND parts in a low-capacity drive, though the NAND shortage that has been driving prices up all year has led a few brands to re-introduce 120GB models. We were generously sampled the full range of capacities for both the S700 and S700 Pro, save for the 1TB Pro model that hit the market later than the rest.

 

AnandTech 2017 SSD Testbed
CPU Intel Xeon E3 1240 v5
Motherboard ASRock Fatal1ty E3V5 Performance Gaming/OC
Chipset Intel C232
Memory 4x 8GB G.SKILL Ripjaws DDR4-2400 CL15
Graphics AMD Radeon HD 5450, 1920x1200@60Hz
Software Windows 10 x64, version 1703
Linux kernel version 4.12, fio version 2.21
AnandTech Storage Bench - The Destroyer
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  • Glock24 - Thursday, September 07, 2017 - link

    Just what I was thinking. Pricing on these are ridiculous. They have a bit more storage size, but so does the Crucial MX300 and it's also way cheaper and faster! Reply
  • Samus - Thursday, September 07, 2017 - link

    The MX300 is pretty much the only economy drive to consider outside of an 850 EVO IMHO. Even if these sell for half the retail price, they aren't worth it. You can just pickup an old M500 on eBay (or even an OEM Intel 520/530) for half these prices and have similar performance. Reply
  • sonny73n - Friday, September 08, 2017 - link

    You should compare the 850 EVO with the BX300. I don't care whether the EVO has better controller but I will take a 2-bit per cell NAND over a 3-bit any day. Reply
  • mapesdhs - Wednesday, September 13, 2017 - link

    I just keep picking up lightly used 840 Pro 256GB units, people have forgotten how good they were and still are. It's annoying they no longer appear in review charts. Even the Vertex4 and Vector are still good compared to modern models. Reply
  • barleyguy - Friday, September 08, 2017 - link

    You seem to be comparing retail price to street price. HP has sales almost constantly. These might be $116 initially, but they'll be discounted very quickly to lower prices. I fully expect them to be competitive pricewise. Reply
  • DemiHolland - Tuesday, September 12, 2017 - link

    I quit working at shoprite and now I make $35h – $80h…how? I’m working online! My work didn’t exactly make me happy so I decided to take a chance on something new…after 4 years it was so hard to quit my day job but now I couldn’t be happier.... http://cutt.us/F6uWN Reply
  • r3loaded - Thursday, September 07, 2017 - link

    Hurray, yet another 2017 SSD that gets utterly curbstomped by a Samsung SSD from 2015 on both performance and price. Reply
  • 8steve8 - Thursday, September 07, 2017 - link

    1. Who is buying SATA SSDs in 2017
    2. Why is Anandtech putting so much effort into SATA SSDs in 2017
    Reply
  • Billy Tallis - Thursday, September 07, 2017 - link

    I've yet to hear from a vendor that their volume of NVMe drives has even come close to matching their volume of SATA drives, for either the retail consumer market or the client OEM market. Even in the enterprise market, NVMe isn't close to killing off SATA and SAS yet.

    We have new technologies launching in SATA products like the Intel 545s and Western Digital's 3D NAND SSDs. SATA SSDs are still more cost effective than NVMe SSDs, and will be until there have been plenty of low-end NVMe controllers like Phison E8 and Silicon Motion SM2263 on the market for quite a while.
    Reply
  • Elstar - Thursday, September 07, 2017 - link

    Also:
    1) most motherboards are still loaded with SATA connectors
    2) most motherboards have few if any NVMe connectors (other than traditional PCIe)
    3) SATA drives are often more friendly to "sneaker net" security.
    Reply

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