The Samsung 870 QVO (1TB & 4TB) SSD Review: QLC Refreshed
by Billy Tallis on June 30, 2020 11:40 AM ESTBurst IO Performance
Our burst IO tests run at a queue depth of one and the amount of data transferred is limited to ensure that SLC write buffers don't fill up and controllers don't overheat. In between each burst there's enough idle time to keep the drive averaging a 20% duty cycle, allowing for some buffered writes and deferred garbage collection to be completed. The random read and write tests use 4kB operations and the sequential tests use 128kB operations. All the burst tests are confined to a 16GB portion of the drive, so DRAMless SSDs are not disadvantaged as much as they are for larger tests.
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The Samsung 870 QVOs show significant improvement to QD1 random read performance, with the 1TB model still outperforming the 4TB model. QLC still imposes a bit of a performance penalty relative to mainstream SATA drives, but the biggest difference on display here is naturally from the NVMe drive serving the reads entirely out of its huge SLC cache.
For random writes at QD1, the 870 QVO is a stark regression from its predecessor, which was on par with the TLC-based 860 EVO. The 870 QVO is now clearly slower than mainstream TLC SSDs and is barely faster than the slower DRAMless competitor.
Sequential reads and writes at QD1 both show slight improvements, but these drives are almost all simply bumping against the limits of the SATA interface.
Sustained IO Performance
Our sustained IO tests measure performance on queue depths up to 32, but the scores reported here are only the averages for the low queue depths (1,2,4) that are most representative of real-world consumer workloads. Each queue depth is tested for up to one minute or 32GB, and the tests are confined to a 64GB span of the drive.
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The most notable performance changes the 870 QVO brings to the sustained IO tests are from the 1TB model, which has greatly improved both random and sequential write performance. However, this comes at the cost of reduced random read performance, which is also a weakness for the 4TB model.
Power efficiency from the 870 QVOs during the sustained IO tests ranges from poor to average. Samsung's controller and LPDDR4 help keep power draw in check, but ultimately it takes more energy to operate slower, more complicated QLC NAND.
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Looking at the big picture of the 870 QVO against all the other drives we've tested shows that the 870 QVO can reach the same top speeds as most SATA drives for three out of the four workload types. Random reads are the exception, where even high queue depths don't bring the 870 QVO up to the SATA limits during our sustained test, and the power draw is clearly on the high side there as well.
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Compared to its predecessor, the 870 QVO brings slight improvements to random read performance, mainly at higher queue depths, while keeping power consumption almost unchanged. Random write performance has changed drastically for the 1TB QVO: the 1TB 870 is able to ramp up to much higher random write speeds, keeping pace with the 4TB model until the very end of the test when the smaller drive's cache finally runs out in spite of the idle time between phases of the test. The older 1TB 860 QVO's random write speed was constrained almost from the very beginning of the test. The 1TB 860 QVO also used to show a bit of fall-off in sequential read performance as the test reached higher capacities, and that behavior is gone with the 870 QVO. Sequential writes show a similarly drastic improvement for the 1TB 870 QVO, now able to generally keep pace with the larger model, which was not remotely the case for the previous generation.
Some of the big differences in write speed shown for the 1TB QVOs here may be an artifact of this test's size and duration, but even so it is clear that the smallest QV
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FunBunny2 - Wednesday, July 1, 2020 - link
"QLC is garbage."alas, which manufacturers are going to ignore QLC? unless we, the consumers, stop buying QLC SSDs, vendors will continue to spit them out. and, yes, in due time, the SSD will perform much like HDD. progress and capitalism seldom coincide.
Great_Scott - Thursday, July 2, 2020 - link
QLC isn't garbage. There's a bunch of uses for this kind of drive.8TB of bulk storage for seldom-played games or music/movies? Sign me up!
The real problem here is that all SSDs cost roughly the same amount per GB, so there's no reason not to buy a better drive.
Maybe someday when there's a bigger pricing delta between "DRAM-less SATA" and "midrange PCIe" the numerous speed categories will make more (any) sense...
descendency - Friday, July 3, 2020 - link
The problem with QLC is that there aren't really substantial price savings from that of TLC or MLC that are passed onto the consumer. In the US (at least), the QVO drives are more expensive than some respectable TLC drives of the same capacity but without the performance limitations of QLC.I'm not going to call it garbage, but I would say these drives (the 8TB) models make more sense at ~650-750 USD given the compromises over EVO drives and other TLC drives. It's basically insane to see the 4TB QVO at $500 when some TLC drives are $480 (like Sandisk).
Gigaplex - Saturday, July 11, 2020 - link
"8TB of bulk storage for seldom-played games or music/movies? Sign me up!"You can do that now with an HDD. At a much cheaper price, and with somewhat equivalent performance.
Mitch89 - Thursday, July 2, 2020 - link
Wow, I’m disappointed at my ignorance as to how slow these QVO drives get once you exhaust the SLC cache, I had no idea they crashed to 2.5 inch HDD speeds.Sure, the “limited time only!!!!” speed of the SLC cache will be enough for many, but those speeds are still incredibly disappointing.
Great_Scott - Thursday, July 2, 2020 - link
They're still better than spinning rust, especially for burst performance. The real problem here is that they cost the same as other SSD technology.Dragonstongue - Friday, July 3, 2020 - link
I am sure Sammy can do much better pricing then this on QLC tech (just cause they fancy it up by calling QVO) does not mean an automatic $50+ price is in order.Worse overall flash memory style, therefore better pricing should be very much part of the thought process, but I suppose they must have thought, 80mb/s is plenty fast, so therefore, $400+ for 4tb is more then acceptable.
IMO make
4tb $325 max (consider horrendous perf. specs) the 1tb 120 flat, 2tb $215
does not matter what others are doing, or if their perf. power use etc is better or worse is how you price your product, @#$ on that logic lol
Lolimaster - Monday, July 6, 2020 - link
Thing is you can already get 2TB ssds for that price or less. MX500 2TB hovers around $189-219.Oxford Guy - Friday, July 3, 2020 - link
"QLC isn't garbage. There's a bunch of uses for this kind of drive."That's true.
It can be used as a Christmas tree ornament, if dissected.
The case can be used to provide a protective cover for a number of earwigs.
The innards can be strapped to a vinyl suit for a retro sci-fi show.
The mind boggles at the potential usefulness.
Slash3 - Sunday, July 5, 2020 - link
Great for sliding underneath a wobbly table leg, too.