The Corsair Neutron NX500 (400GB) PCIe SSD Review: Big Card, Big Pricetag
by Billy Tallis on August 16, 2017 10:00 AM ESTRandom Read Performance
Our first test of random read performance uses very short bursts of operations issued one at a time with no queuing. The drives are given enough idle time between bursts to yield an overall duty cycle of 20%, so thermal throttling is impossible. Each burst consists of a total of 32MB of 4kB random reads, from a 16GB span of the disk. The total data read is 1GB.
The QD1 burst random read speeds of the Phison E7 drives are all over the chart. The Corsair Neutron NX500 ranks just above the middle, while the Patriot Hellfire is the second-fastest drive in the bunch. With the exception of the underperforming Zotac SONIX and the SATA-based 850 PRO, this chart shows clear separation between the MLC and TLC drives.
Our sustained random read performance is similar to the random read test from our 2015 test suite: queue depths from 1 to 32 are tested, and the average performance and power efficiency across QD1, QD2 and QD4 are reported as the primary scores. Each queue depth is tested for one minute or 32GB of data transferred, whichever is shorter. After each queue depth is tested, the drive is given up to one minute to cool off so that the higher queue depths are unlikely to be affected by accumulated heat build-up. The individual read operations are again 4kB, and cover a 64GB span of the drive.
On a longer test that includes some moderately higher queue depths, the NX500 comes out on top among the Phison E7 drives, but it is a bit below average compared to the market as a whole.
The power efficiency of the NX500 is not quite competitive with the Patriot Hellfire M.2, and nowhere close to most of the 3D NAND SSDs.
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The Corsair Neutron NX500's random read performance scales at higher queue depths much better than the other Phison E7 SSDs, but even at QD32 it is slower than Toshiba's own OCZ RD400 using the same NAND.
Random Write Performance
Our test of random write burst performance is structured similarly to the random read burst test, but each burst is only 4MB and the total test length is 128MB. The 4kB random write operations are distributed over a 16GB span of the drive, and the operations are issued one at a time with no queuing.
The burst random write speed of the Corsair Neutron NX500 is far below what it should be. Both of the other Phison E7 drives are substantially faster and yet still slower than even the Intel SSD 600p.
As with the sustained random read test, our sustained 4kB random write test runs for up to one minute or 32GB per queue depth, covering a 64GB span of the drive and giving the drive up to 1 minute of idle time between queue depths to allow for write caches to be flushed and for the drive to cool down.
With a longer test and bringing in some higher queue depths, the Intel 600P and WD Black fall below the NX500, but the NX500 is still performing much worse than the other Phison E7 SSDs or any other MLC NVMe SSD. The Patriot Hellfire is basically tied for second place behind Samsung.
The NX500's power efficiency during random writes isn't great, but it's only slightly worse than some of the competing NVMe MLC drives and is substantially better than the entry-level NVMe TLC drives.
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The NX500's random write speed does reach decent levels at queue depths of 8 or higher, but at the low queue depths that matter for real-world desktop performance, the NX500 is way behind.
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Kristian Vättö - Wednesday, August 16, 2017 - link
There are numerous 8-lane enterprise SSDs already.hlm - Wednesday, August 16, 2017 - link
e.g. HGST FlashMAX III and HGST Ultrastar SN260 products are eight-lane devices.The_Assimilator - Wednesday, August 16, 2017 - link
Hey look, another SSD that has no reason whatsoever to exist!I don't understand why manufacturers don't, y'know, try to COMPETE with Samsung instead of re-re-releasing the same old, tired, slow controllers with slightly different but ultimately insignificant spins on them.
DanNeely - Wednesday, August 16, 2017 - link
Because unless you have a billion dollars to spend and a few years to wait, you can't create your own controller. That means almost all of the other companies selling drives have to pick and choose between a handful of controllers made by Phison/etc. Until they recover from Samsung's blind siding them and design new higher performing architectures from the ground up none of them have anything in the same performance class. If what happened at the start of the market when Intel's controllers were unbeatable is any indication we should hopefully have competitive designs available in another year or so.FunBunny2 - Wednesday, August 16, 2017 - link
-- Because unless you have a billion dollars to spend and a few years to wait, you can't create your own controller.well, isn't a controller an implementation of physics and math? which is to say, unless something new happens with NAND chips (not just node size or xLC), may haps we've reached the one-true-answer to the controller problem? may be there's just no more there, there.
Samus - Wednesday, August 16, 2017 - link
Wow. That was disappointing.RaistlinZ - Wednesday, August 16, 2017 - link
Current Newegg Prices:1. 500GB Samsung 960 Pro = $299.99
2. 1TB Samsung 960 Pro = 600.82
The NX500 has no reason to exist. The price needs to be cut in half to make it even REMOTELY attractive.
alpha754293 - Wednesday, August 16, 2017 - link
I'm surprised you didn't bother comparing it against the Intel 750 Series 400 GB PCIe NVMe SSD.Billy Tallis - Thursday, August 17, 2017 - link
I had originally planned to include the 400GB 750, but some of the results from it looked funny and I decided it wasn't worth postponing the review for several days to re-test the 750. That drive's a pain to test, because I have to run each test twice in order to record the power on both the 3.3V and 12V lines, and the performance has to match between the two runs for the results to be valid.alpha754293 - Friday, August 18, 2017 - link
Depending on how you want to tackle/handle it.There are statistical methods available out there that even with noisy data (e.g. high standard deviations) that you can still use it to process data that might otherwise not make sense at first glance, on the surface.
Course, that would also mean that care would need to be taking so that the tests in and of itself are repeatable.
I only mention it because I would be VERY interested to see how this compared to the Intel 750 series.
Thanks.