Comparing Two 1TB NVMe Drives with Same NAND, Same Controller: XPG SX8200 Pro vs HP EX950
by Billy Tallis on February 6, 2019 11:30 AM ESTConclusion
The ADATA SX8200 Pro and HP EX950 largely behave as expected based on our testing last year of an engineering sample of Silicon Motion's reference design for the SM2262EN controller. SMI has drastically re-tuned the firmware to produce a very different performance profile from the original SM2262 produces. Peak performance has been improved, especially for write operations, so the SM2262EN products can be advertised with bigger numbers than their predecessors. Unfortunately, the tradeoffs mean that the new SM2262EN-based products are not as well-rounded as their predecessors; worst-case performance has gotten much worse, though the new drives always perform much better than mainstream SATA SSDs.
The general theme to the SM2262EN's optimizations seems to be to emphasize the SLC cache. These drives have the largest SLC write caches we've encountered, and their predecessors already had fairly generous cache sizes. When empty, the drives will use almost half of their NAND as SLC before writes start going straight to TLC, so peak write performance lasts for a long time even during sustained writes. The downside is that when the TLC portion of the drive fills up, there's a lot of background data shuffling required to reduce the size of the SLC cache toward its minimum. Once the drives are completely full and their SLC caches are at their smallest, performance usually ends up being worse than last year's products.
It is somewhat understandable that Silicon Motion would optimize for peak performance—client workloads are bursty by nature, and there are very few client workloads that resemble a long-running synthetic storage benchmark. Silicon Motion's customers - SSD vendors - have probably been asking for a controller solution that can let them advertise performance specifications that match or exceed the top drives from their competitors. Silicon Motion has delivered this, but in the process they've taken their optimization too far. The SM2262EN is essentially designed to offer the best possible scores on Crystal Disk Mark, with little concern for what happens to real-world performance.
The changes that the SM2262EN brings relative to the SM2262 are a net benefit to most real-world workloads, but that benefit is usually small enough to be basically imperceptible. The improvements definitely aren't worth the sacrifices made. Full-drive performance and long-term sustained writes are definitely corner cases when considering real-world use, but the point of a high-end NVMe SSD is to excel even in those tough scenarios. Light desktop usage doesn't really feel any different between a mainstream SATA SSD and an Intel Optane SSD, so premium SSDs have to earn their status by delivering better performance under adverse conditions. The SX8200 Pro and EX950 do improve performance on The Destroyer compared to the SX8200 and EX920, but they are still slower than all the competing high-end NVMe SSDs. On the rest of our tests, the new drives either improve performance where their predecessors were already plenty fast, or regress where SMI most needed to show improvement.
Comparing Like for Like
The ADATA SX8200 Pro and HP EX950 use the same major components and similar firmware, so it is no surprise that their performance is largely identical when comparing like capacities. Where they do differ significantly is in power consumption, and we haven't been able to figure out what causes such a big difference. The EX950's power efficiency is similar to earlier drives like the EX920 and the original SX8200. The SX8200 Pro however comes much closer to the better efficiency provided by the WD Black or Toshiba XG6, two of the few NVMe SSDs that have completely eliminated the power efficiency gap between NVMe and SATA SSDs.
Our testing of two capacities of the HP drive shows that the SM2262EN has difficulty dealing with 2TB of storage. On many tests, the 1TB EX950 is substantially faster than the 1TB EX920, but the 2TB model shows little improvement compared to the older EX920, or even underperforms the EX920. It's nice that SSD prices have made 2TB models more accessible and we're glad to see more vendors adding this capacity option, but the sweet spot is obviously still 1TB drives, for both performance and price per GB.
| NVMe SSD Price Comparison (February 6, 2019) |
|||||||
| 240-280GB | 480-512GB | 960GB-1TB | 2TB | ||||
| 2019 / Late 2018 models | |||||||
| ADATA XPG SX8200 Pro |
$69.99 (27¢/GB) | $107.95 (21¢/GB) | $179.99 (18¢/GB) | ||||
| ADATA XPG GAMMIX S11 Pro |
$69.99 (27¢/GB) | $109.90 (21¢/GB) | $224.99 (22¢/GB) | ||||
| HP EX950 | $114.99 (22¢/GB) | $219.99 (21¢/GB) | $359.99 (18¢/GB) | ||||
| MyDigitalSSD BPX Pro | $54.99 (23¢/GB) | $99.99 (21¢/GB) | $189.99 (20¢/GB) | ||||
| Corsair Force MP510 | $74.99 (31¢/GB) | $113.99 (24¢/GB) | $199.99 (21¢/GB) | $502.66 (26¢/GB) | |||
| Samsung 970 EVO Plus (MSRP) | $89.99 (36¢/GB) | $129.99 (26¢/GB) |
$249.99 (25¢/GB) |
||||
| Western Digital WD Black SN750 | $79.99 (32¢/GB) | $129.99 (26¢/GB) | $249.99 (25¢/GB) | ||||
| 2018 models | |||||||
| ADATA XPG SX8200 | $78.99 (33¢/GB) | $89.99 (19¢/GB) | $194.99 (20¢/GB) | ||||
| HP EX920 | $57.99 (23¢/GB) | $84.99 (17¢/GB) | $159.99 (16¢/GB) | ||||
| Mushkin Pilot | $54.99 (22¢/GB) | $94.99 (19¢/GB) | $184.99 (18¢/GB) | $389.99 (19¢/GB) | |||
| Samsung 970 EVO | $77.99 (31¢/GB) | $129.99 (26¢/GB) | $247.99 (25¢/GB) | $507.69 (25¢/GB) | |||
| Samsung 970 PRO | $167.99 (33¢/GB) | $349.99 (34¢/GB) | |||||
| Western Digital WD Black (2018) | $79.99 (32¢/GB) | $119.99 (24¢/GB) | $249.99 (25¢/GB) | ||||
Be Mindful of Updates Coming in 2019
A lot of changes are underway in the SSD market: the new turnkey solutions from SMI and Phison are being rolled out. New 96-layer 3D NAND is starting to show up. Prices are still declining, though not as quickly as we saw in 2018. The new high-end NVMe SSDs that have hit the market in the past few months are for the most part fairly similar in real-world performance to their immediate predecessors, so the older models that are more readily available and often substantially cheaper are still very relevant.
In the second half of 2019 we will start seeing Phison E16 drives hit the market and we expect more options with 96L 3D NAND instead of 64L NAND, but in the near future the only new competitors we expect to see are more brands shipping SM2262EN or Phison E12 drives.
Some of last year's models are starting to disappear from the market, so the ADATA SX8200 Pro is already cheaper than the original SX8200. However, the most affordable high-end NVMe SSDs at almost every capacity are older models that have been leading the way for the past year's major price drops. The HP EX920 is still readily available and very cheap, with the 1TB model going for $160 compared to $220 for the new 1TB EX950, and the 512GB model also undercuts all the competition. At the 240/256GB capacity point, it's a toss-up between the Phison E12-based MyDigitalSSD BPX Pro and the SM2262-based Mushkin Pilot (due to be replaced with the SM2262EN-based Pilot-E soon).
An important part of the success of SM2262-based SSDs last year was that they were generally cheap enough that low-end NVMe drives with lesser controllers were basically shut out of the market, and the SM2262 drives were the logical next step up from a mainstream SATA SSD. That's not quite true for the SM2262EN drives yet (especially with SM2262 drives still available), but their pricing doesn't have to come down very far, since they are still better performers than low-end NVMe drives even at their worst. But now that Phison has a credible high-end NVMe controller shipping in volume, SM2262(EN) drives are facing serious competition at the same price points.
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Mikewind Dale - Wednesday, February 6, 2019 - link
That drop in performance for a full drive in the Heavy - and even the Light!! - tests is worrying. They're right around the level of a SATA SSD.My question is, how full is full? If you fill the drive up 99%, is its performance closer to empty or full? With all my SSDs, I typically leave about 10% of the drive unallocated (unpartitioned). How would the drive perform in this state?
I would be interested in seeing results for a drive that is almost full, but not quite full. I imagine that most people don't use their drives up until the final MB is used. Still, if a cost-conscious person is trying to get their money's worth, they might use the drive until it's 90-something percent full. Until recently, I was using a 512 GB SATA SSD with a real capacity of 476.8 GB. I used it until I was using 420 GB, at which point I upgraded to a 2 TB drive. So I was using 88% of its capacity. To me, that seems like a reasonable usage to test - not quite full, but almost full.
Targon - Wednesday, February 6, 2019 - link
I would suspect that the reason for this might be thermal throttle issues. Throw a heat sink on there, and the performance downgrade might disappear. The versions with a pre-installed heatsink might be worth the money, depending on how much it would cost to buy a SSD heatsink at this point(I haven't looked).BillyONeal - Wednesday, February 6, 2019 - link
Seems more likely to be reduction in the size of the SLC cache -- see the the filling the drive tests where there are 3 distinct phases depending on how much space is actually in use.jabber - Thursday, February 7, 2019 - link
I must admit I still leave a few GB spare/unallocated on any SSD I install. 2GB on a 120GB, 4GB on a 240GB and 8GB on a 500GB. Old habits.reactor_au - Thursday, June 13, 2019 - link
I was wondering the same thing, how full can one get before performance drops off the cliff like in the benchmarks? Its a very import detail to omit!Luckz - Friday, November 29, 2019 - link
At 80% full it was really tragic in this review of the 256GB size https://pclab.pl/art79361-9.htmlMikewind Dale - Wednesday, February 6, 2019 - link
I also notice that these drives don't have an active power state less than 3.8W. That's unfortunate, because as Ganesh T S noted in his Anandtech review of the MyDigitalSSD M2X M.2 NVMe SSD Enclosure, that enclosure will only work with SSDs that have an active power state less than 3.8W.I think this is important because it determines whether you can continue to use the SSD as a portable drive after you upgrade later. If you replace your 2 TB with a 4 or 8 TB SSD someday in the future, it will be nice to know that you can repurpose your 2 TB as an external drive.
Also, it determines whether you can easily upgrade your SSD when all your M.2 slots are full. Whenever I upgrade a SATA boot drive, I typically use an external USB enclosure to clone the current SATA drive (still installed internally) to the new SATA drive (inside the enclosure). Then I can swap the two drives, and my computer will transparently use the new drive. With M.2, this is even more important because many motherboards have only two M.2 sockets. So if you have both M.2 sockets filled and try to upgrade one of the M.2 drives, you'll have a bit of a challenge. You could buy a PCIe-M.2 card and use that, but using an external USB enclosure is more convenient.
So I'd like to see more M.2 drives with a sub-3.8 W active power state. The Samsung 970 EVO Plus has a 3.4 W active state, so it passes this test.
MrSpadge - Wednesday, February 6, 2019 - link
I love ADATA's naming scheme! It's so easily memorable and has more X's than any other brand.eddieobscurant - Wednesday, February 6, 2019 - link
Nice review , as always although I disagree with your conclusion. Peak performance is what most people want.Billy Tallis - Wednesday, February 6, 2019 - link
My reviews are intended to advise consumers who are buying SSDs to increase their productivity, not people who are trying to set a high score on Crystal Disk Mark.People who care about real-world productivity rather than CDM scores should recognize that imperceptible improvements to peak performance are probably not worth the sacrifice of significant regressions in performance on niche heavy workloads. For a lot of users, both SM2262 and SM2262EN drives are fast enough. Beyond those lighter use cases, I think it will be more common to find the SM2262EN coming up short in a meaningful way than to find it providing a tangible performance advantage over SM2262.