The Western Digital WD Black SN750 SSD Review: Why Fix What Isn't Broken?
by Billy Tallis on January 18, 2019 8:01 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 Toshiba/SanDisk 3D NAND has consistently shown worse burst random read performance than its competition, and the WD Black SN750 does nothing to change that pattern. The SN750 is insignificantly faster than last year's model, but both the Plextor M9Pe and Corsair MP510 get better read latency out of this NAND by pairing it with different controllers.
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 the longer random read test that also brings in some higher queue depths, the WD Black SN750 is still quite a bit slower than the best combinations of Silicon Motion controller and Micron NAND, but at least this time the drives that use the same Toshiba/SanDisk BiCS3 NAND with different controllers aren't so far ahead of the WD Black.
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| Power Efficiency in MB/s/W | Average Power in W | ||||||||
The WD Black SN750 is just a touch more efficient than its predecessor on the random read test, allowing it to retake a small lead among TLC-based drives here rather than being in a tie with the Toshiba XG6.
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When the WD Black SN750 is pitted against most of last year's competition, it does at least catch up if not pull ahead in random read performance at higher queue depths, while never requiring as much power. But the Silicon Motion SM2262EN drives are faster at all queue depths, though not in proportion to how much more power they require.
At low queue depths the random read performance of the WD Black SN750 is down in SATA performance territory where some drives can beat it on performance and power consumption. But at higher queue depths, it is obviously the most efficient NAND-based SSD we've tested for random reads.
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 WD Black SN750 shows a small regression in burst random write performance compared to last year's model. The Corsair MP510 and Silicon Motion SM2262EN engineering sample are nearly tied for first place, with the WD Blacks about 15% slower.
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.
On the longer random write test that brings in higher queue depths, the WD Black SN750 is roughly tied with the SM2262EN sample for first place and is a few percent faster than competitors like the Samsung 970 EVO and Corsair MP510.
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| Power Efficiency in MB/s/W | Average Power in W | ||||||||
The SN750 is the most power efficient NVMe drive on our random write test, pulling slightly ahead of the Toshiba XG6 and the older WD Black, and maintaining a substantial lead over most other high-end NVMe drives.
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The WD Black SN750 hits full speed for random writes with a queue depth of 4 or higher, and maintains steady performance for the rest of the test while drawing just over 3 W.
The WD Black SN750 is very close to the being the most efficient flash-based SSD for random writes that we've ever tested, but there are a few data points in the archive that are slightly faster at similar power levels.
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iwod - Friday, January 18, 2019 - link
Patiently waiting for PCI-E 5.0 SSD, that is 16GB/s for 4x.Ryan Smith - Friday, January 18, 2019 - link
So for what it's worth, the last time I talked to the PCI-SIG about PCIe 5, they were saying that they were expecting it to be used in conjunction with PCIe 4 rather than replacing it. The idea being that the PCIe x16 slot closest to the CPU would be a PCIe 5 slot, while everything else would be PCIe 4 due to the distances and signal integrity issues involved.If that's still the plan, then I wouldn't expect to see PCIe 5 SSDs, at least not in the M.2 form factor.
iwod - Saturday, January 19, 2019 - link
Thx. But surely Directly Attached NAND from SSD is more important? It is way more latency sensitive than GPU.I am wondering if we could get sort of like 20x Slot with 16x bandwidth. So 4x for SSD, and 8x * 2 for GPU.Most people are still using a single graphics card, I would be fine with 8x GPU PCI-E 5.0 and 4x for SSD.
Does that mean we might never see Thunderbolt 5 with PCI-E 5 signalling?
GreenReaper - Saturday, January 19, 2019 - link
Basically this is how PCIe 4 is likely to work for many existing AMD motherboards.ScouserPcgamer - Friday, January 18, 2019 - link
The Seagate Firecuda wipes the floor of read/write speeds, this is like a 1% improvement over the 2018 modelLogitechFan - Friday, January 18, 2019 - link
And then comes 970 Pro and wipes the floor with all of them and spits on their graves.LogitechFan - Friday, January 18, 2019 - link
970 Pro is not on the list?! WTF is this, an Intel commercial?!Oxford Guy - Friday, January 18, 2019 - link
What is and isn't tested is sometimes very strange here. The Nvidia GTX 960, for example, was never tested."Editor's Note: Due to personal matters we won’t have a GeForce GTX 960 review published today. But in lieu of that we wanted to go over the basics of NVIDIA’s latest Maxwell card"
Today or ever.
"Anyhow, that’s a wrap from us for now. Be sure to check back in early next week for our complete look at GeForce GTX 960, including performance, overclocking, HEVC support, and more."
Still waiting... Those promises were posted in 2015.
Oxford Guy - Friday, January 18, 2019 - link
"Conspiracy theorists" claimed the card wasn't tested because it was a turkey, making Nvidia look bad.Has Anandtech staff ever explained why the promised review never materialized?
Ryan Smith - Friday, January 18, 2019 - link
"Has Anandtech staff ever explained why the promised review never materialized?"Honestly, we're busy and despite our best efforts, sometimes bite off more than we can chew. Especially as we have imperfect vision about what products may show up on our doorsteps tomorrow.