The Intel Optane SSD DC P4800X (375GB) Review: Testing 3D XPoint Performance
by Billy Tallis on April 20, 2017 12:00 PM EST3D XPoint Refresher
Intel's 3D XPoint memory technology is fundamentally very different from NAND flash. Intel has not clarified any more low-level details since their initial joint announcement with Micron of this technology, so our analysis from 2015 is still largely relevant. The industry consensus is that 3D XPoint is something along the lines of a phase change memory or conductive bridging resistive RAM, but we won't know for sure until third parties put 3D XPoint memory under an electron microscope.
Even without knowing the precise details, the high-level structure of 3D XPoint confers some significant advantages and disadvantages relative to NAND flash or DRAM. 3D XPoint can be read or written at the bit or word level, which greatly simplifies random access and wear leveling as compared to the multi-kB pages that NAND flash uses for read or program operations and the multi-MB blocks used for erase operations. Where DRAM requires a transistor for each memory cell, 3D XPoint isolates cells from each other by stacking them each in series with a diode-like selector. This frees up 3D XPoint to use a multi-layer structure, though not one that is as easy to manufacture as 3D NAND flash. This initial iteration of 3D XPoint uses just two layers and provides a per-die capacity of 128Gb, a step or two behind NAND flash but far ahead of the density of DRAM. 3D XPoint is currently storing just one bit per memory cell while today's NAND flash is mostly storing two or three bits per cell. Intel has indicated that the technology they are using, with sufficient R&D, can support more bits per cell to help raise density.
The general idea of a resistive memory cell paired with a selector and built at the intersections of word and bit lines is not unique to 3D XPoint memory. The term "crosspoint" has been used to describe several memory technologies with similar high-level architectures but different implementation details. As one Intel employee has explained, it is relatively easy to discover a material that exhibits hysteresis and thus has the potential to be used as a memory cell. The hard part is desiging a memory cell and selector that are fast, durable, and manufacturable at scale. The greatest value in Intel's 3D XPoint technology is not the high-level design but the specific materials and manufacturing methods that make it a practical invention. It has been noted by some analysts that the turning point for technologies such as 3D XPoint may very well be in the development in the selector itself, which is believed to be a Schottky diode or an ovonic selector.
In addition to the advantages that any resistive memory built on a crosspoint array can expect, Intel's 3D XPoint memory is supposed to offer substantially higher write endurance than NAND flash, and much lower read and write times. Intel has only quantified the low-level performance of 3D XPoint memory with rough order of magnitude comparisons against DRAM and NAND flash in general, so this test of the Optane SSD DC P4800X is the first chance to get some precise data. Unfortunately, we're only indirectly observing the capabilities of 3D XPoint, because the Optane SSD is still a PCIe SSD with a controller translating the block-oriented NVMe protocol and providing wear leveling.
The only other Optane product Intel has announced so far is another PCIe SSD, but on an entirely different scale: the Optane Memory product for consumers uses just one or two 3D XPoint chips and is intended to serve as a 32GB cache device accelerating access to a mechanical hard drive or slower SATA SSD. Next year Intel will start talking about putting 3D XPoint on DIMMs, and by then if not sooner we should have more low-level information about 3D XPoint technology.
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melgross - Tuesday, April 25, 2017 - link
You're making the mistake those who know nothing make, which is surprising for you. This is a first generation product. It will get much faster, and much cheaper as time goes on. NAND will stagnate. You also have to remember that Intel never made the claim that this was as fast as RAM, or that it would be. The closest they came was to say that this would be in between NAND and RAM in speed. And yes, for some uses, it might be able to replace RAM. But that could be several generations down the road, in possibly 5 years, or so.tuxRoller - Sunday, April 23, 2017 - link
I'm not sure i understand you.You talk about "pages", but, i hope, the reviewer was only using dio, so there would be no page cache.
It's very unclear where you are getting this "~100x" number. Nvme connected dram has a plurality of hits around 4-6 us (depending on software) but it also has a distributed latency curve. However, i don't know what the latency at the 99.999% percentile. The point is that even with dram's sub-100ns latency, it's still not staying terribly close to the theoretical min latency of the bus.
Btw, it's not just the controller. A very large amount of latency comes from the block layer itself (amongst other things).
Santoval - Tuesday, June 6, 2017 - link
It is quite possible that Intel artificially weakened P4800X's performance and durability in order to avoid internal competition with their SSD division (they already did the same with Atoms). If your new technology is *too* good it might make your other more mainstream technology look bad in comparison and you could see a big drop in sales. Or it might have a "deflationary" effect, where their customers might delay buying in hope of lower prices later. This way they can also have a more clear storage hierarchy, business segment wise, where their mainstream products are good, and their niche ones are better but not too good.I am not suggesting that it could ever compete with DRAM, just that the potential of 3D XPoint technology might actually be closer to what they mentioned a year ago than the first products they shipped.
albert89 - Friday, April 21, 2017 - link
Intel wont be reducing the price of the optane but rather will be giving the average consumer a watered down version which will be charged at a premium but perform only slightly better then the top SSD. The conclusion ? Another over priced ripoff from Intel.TheinsanegamerN - Thursday, April 20, 2017 - link
the fastest SSD on the consumer market is the 960 pro, which can hit 3.2GB/s read under certain circumstances.This is the equivalent of single channel DDR 400 from 2001. and DDR had far lower latencys to boot.
We are a long, long way from replacing RAM with storage.
ddriver - Friday, April 21, 2017 - link
What makes the most impression is it took a completely different review format to make this product look good. No doubt strictly following intel's own review guidelines. And of course, not a shred of real world application. Enter hypetane - the paper dragon.ddriver - Friday, April 21, 2017 - link
Also, bandwidth is only one side of the coin. Xpoint is 30-100+ times more latent than dram, meaning the CPU will have to wait 30-100+ times longer before it has data to compute, and dram is already too slow in this aspect, so you really don't want to go any slower.I see a niche for hypetane - ram-less systems, sporting very slow CPUs. Only a slow CPU will not be wasted on having to wait on working memory. Server CPUs don't really need to crunch that much data either, if any, which is paradoxical, seeing how intel will only enable avx512 on xeons, so it appears that the "amazingly fast" and overpriced hypetane is at home only in simple low end servers, possibly paired with them many core atom chips. Even overpriced, it will kind of a decent deal, as it offers about 3 times the capacity per dollar as dram, paired with wimpy atoms it could make for a decent simple, low cost, frequent access server.
frenchy_2001 - Friday, April 21, 2017 - link
You are missing the usefulness of it entirely.Yes, it is a niche product.
And I even agree, intel is hyping it and offering it for consumer with minimal benefit (beside intel's bottom line).
But it realistically slots between NAND and DRAM.
This review shows that it has lower latency than NAND and it has higher density than DRAM.
This is the play.
You say it cannot replace DRAM and for most usage (by far) you are true. However, for a small niche that works with very big data sets (like for finace or exploration), having more memory, although slower, will still be much faster than memory + swap (to a slower NAND storage).
Let me repeat, this is a niche product, but it has its uses.
Intel marketing is hyping it and trying to use it where its tradeoffs (particularly price) make little sense, but the technology itself is good (if limited).
wumpus - Sunday, April 23, 2017 - link
Don't be so sure that latency is keeping it from being used as [secondary] main memory. A 4GB machine can actually function (more or less) for office duty and some iffy gaming capability. I'd strongly suspect that a 4-8GB stack of HBM (preferably the low-cost 512 bit systems, as the CPU really only wants 512bit chunks of memory at a time) with the rest backed by 3dxpoint would still be effective at this high latency. Any improvement is likely to remove latency as something that would stop it (and current software can use the current stack [with PCIe connection] to work 3dxpoint as "swappable ram").The endurance may well keep this from happening (it is on par with SLC).
The other catch is that this is a pretty steep change along the entire memory system. Expect Intel to have huge internal fights as to what the memory map should look like, where the HBM goes (does Intel pay to manufacture an expensive CPU module or foist it on down the line), do you even use HBM (if Ravenridge does, I'd expect that Intel would have to if they tried to use xpoint as main memory)? The big question is what would be the "cache line" of the DRAM memory: the current stack only works with 4k, the CPU "wants" 512 bits, HBM is closer to 4k. 4k looks like a no-brainer, but you still have to put a funky L5/buffer that deals with the huge cache line or waste a ton of [top level, not sure if L3 or L4] cache by giving it 4k cache lines.
melgross - Tuesday, April 25, 2017 - link
What is it with you and RAM? This isn't a RAM replacement for most any use. Intel hasn't said that it is. Why are you insisting on comparing it to RAM?