The Plextor M8Pe (512GB) SSD Review
by Billy Tallis on December 14, 2016 9:00 AM ESTSequential Read Performance
The sequential read test requests 128kB blocks and tests queue depths ranging from 1 to 32. The queue depth is doubled every three minutes, for a total test duration of 18 minutes. The test spans the entire drive, and the drive is filled before the test begins. The primary score we report is an average of performances at queue depths 1, 2 and 4, as client usage typically consists mostly of low queue depth operations.
The heatsink makes a big difference for sequential read speeds: the M8PeY is essentially tied with the Samsung 960 Pro and EVO (both of which have the advantage of higher capacity). Without the heatsink, the M8PeGN delivers average performance for MLC-based PCIe SSDs.
The M8PeY with its large heatsink (and LEDs) draws significantly more power than any of the M.2 PCIe SSDs to deliver top-notch performance. Without the heatsink (but with thermal throttling) the M8PeGN is still one of the most power-hungry drives. Neither configuration offers great efficiency.
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The sequential read performance of the M8Pe saturates at QD4 when the heatsink is used, but without the heatsink it is thermally limited for almost all of the test.
Sequential Write Performance
The sequential write test writes 128kB blocks and tests queue depths ranging from 1 to 32. The queue depth is doubled every three minutes, for a total test duration of 18 minutes. The test spans the entire drive, and the drive is filled before the test begins. The primary score we report is an average of performances at queue depths 1, 2 and 4, as client usage typically consists mostly of low queue depth operations.
As with random writes and sequential reads, the heatsink makes a big difference for sustained sequential writes. Without the heatsink, the M8Pe's high power consumption leads to enough thermal throttling that it is the slowest MLC PCIe SSD in the bunch, but still substantially faster than SATA. With the heatsink, speeds are over 50% faster and the M8Pe is on par with the Intel SSD 750.
The power consumption situation is very similar to what we saw on the sequential read test. The thermally-limited M8PeGN draws a similar amount of power to the Samsung 960 Pro, while the M8PeY draws much more, and neither wins a prize for efficiency.
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Without a heatsink, thermal throttling starts very early on this test, but the M8PeGN gets in enough of a burst at the beginning to have a noticeably better average at QD 1 than later in the test. With the heatsink, the M8PeY shows mostly flat performance across the entire duration of the test.
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MrSpadge - Wednesday, December 14, 2016 - link
Considering your ADATA is quite small at just 1 GB, these will be a noticeable upgrade. Starting from a 1 TB drive, though, will likely not be noticeable (unless you're running significantly I/O limited workloads).Ratman6161 - Wednesday, December 14, 2016 - link
Assuming you meant 1TB rather than 1 GB. Can the majority of humans tell the difference? I can't speak to what the majority can tell but I can state my personal experience. My main system drive is currently a 250 GB 850 EVO. I've also had an opportunity to (though briefly) to use a system with a 950 Pro in it. For anything that I personally do, no, I could not tell the difference. Of course I don't do anything particularly storage intensive either. I'm most concerned with boot up time and how fast programs open, etc.To me, given pricing as it exists today, there are only really three drives mentioned that I would even think about. Assuming you need an m.2 form factor (which I currently don't so will stick with my 850 EVO) 960 Pro if you want the best performance available, 960 EVO if you want great upscale performance at a reasonable price, and the Intel 600 P if you don't need great performance but do need the M.2 form factor. But if the prices change it may well be possible to just buy the cheapest in the particular performance class you want.
sinPiEqualsZero - Wednesday, December 14, 2016 - link
Thanks to both of you. I did mean 1 TB, my bad. I have one of the DAN cases and will be building it out in Jan/Feb, that's why I asked. Looks like I'm sticking with SATA unless prices come down. Mayyyyybe the 960 EVO.Bruce427 - Friday, December 16, 2016 - link
** [get] the Intel 600 P if you don't need great performance but do need the M.2 form factor. **Currently, the MyDigital BPX NVMe drives will significantly outperform the 600Ps, and for less money.
They also use MLC flash and have a full 5 year warranty.
I have several 950 Pros. I recently bought/installed a 240GB BPX for benchmarking/testing and at $107.85 (what I paid) it's a great little drive.
Death666Angel - Sunday, December 18, 2016 - link
MyDigital doesn't have European retailers it seems? At least nothing but one listing in Germany for a BP4. :/ddriver - Saturday, December 17, 2016 - link
No, 99% of the use cases won't show tangible improvement. SATA SSDs are already fast enough to eliminate storage as a bottleneck. You may have TB\sec and it will still not make a difference if the bottleneck is somewhere else.peterfares - Wednesday, December 14, 2016 - link
Why is there a power connector on top?Billy Tallis - Wednesday, December 14, 2016 - link
I think it's just an alternate power delivery path for situations where the PCIe slot doesn't provide enough. I didn't bother using it, since I was measuring power consumption through the PCIe slot.XabanakFanatik - Wednesday, December 14, 2016 - link
When are you going to redo new drives like the 960 Pro/Evo and RD400 with the angelbird wings PX1 so we can see how and if oerformance improves with a heatsink?Last year AT had redone benches from the 950 pro this way.
Billy Tallis - Wednesday, December 14, 2016 - link
At the moment, I'm more concerned with putting together an updated test suite for 2017. Once that's ready and everything's been re-tested, I'll go back and test the 960s with a heatsink. It'll probably be February, and probably won't be worth an article of its own.We already have the RD400A results in Bench, and the one thermal pad behind the controller that it uses was enough to eliminate thermal throttling (with one possible exception).