Huawei Successfully Tests New 802.11ax WiFi Standard At 10.53Gbps

Mark.JUK (1222360) writes "Chinese ICT developer Huawei has confirmed that it was able to achieve a record transmission data rate of 10.53Gbps on 5GHz frequency bands in laboratory trials of their new 802.11ax WiFi (WLAN) wireless networking standard. The testing, which was conducted at Huawei's campus in Shenzhen, used a mix of MIMO-OFDA, intelligence spectrum allocation, interference coordination and hybrid access to achieve the result and the new technology could hit the market during 2018."

I'm so excited

[Rosco P. Coltrane]

Better, faster ways to access inept content.

Re:I'm so excited

[haruchai]

Of course.
  If you had access crappy content slowly, you'd be royally pissed when it finally loads. Used to happen to me all the time on 14.4k dialup.
At least if it loads quickly, I can write it off faster and go look for slightly less inept content.

Re:

[eric_harris_76]

or slightly more ept content.

Re:

[haruchai]

I suppose but none of the ept content appeals to me

http://www.acronymfinder.com/E... [acronymfinder.com]

Re:

[s.petry]

Indeed! I don't care what speed marks they hit, I still would not use one of their back door infested devices even if you gave me one. They got their start by sending out a flood of "workers" who stole code from other high end manufacturers. I worked at one manufacturer of large telecom devices who lost a metric ass load of data to them in a breach (estimated 1/2tb of source code and schematics). Mostly the manufacturers fault for having extremely poor security, and happened before my contract stint wit

Re:

[amorsen]

So you know that Huawei devices are back-doored because they are knock-offs of back-doored devices from Western manufacturers?

I must have read that wrong somehow.

Re:

[s.petry]

I must have read that wrong somehow.

Either that or you don't understand how easy it is to add additional code and circuits (containing logic) to a big ass ISP router.

Re:

[amorsen]

I have not claimed it is difficult. You did not correct my reading.

Re:

[s.petry]

Looking at routing circuits, chips, and logic it is easy to see that a device is a clone. Looking at a device as a whole package, it is also easy to detect access methods, non routed packets, etc... Small Telecom devices are about the size of 1/2 a normal rack.

In simpler terms, you are implying that a company can not make a clone of a graphics card and install it in a device running a back door. Or perhaps you are implying that the only way to do so is by cloning complete system which had a back door alre

Re:

[Anonymous Coward]

Oh shut the fuck up.

You American perverts back-door and monitor everything under the sun, but then you cry like little girls the moment there is the slightest chance someone else can do it, before there is even proof.

Fucking cry babies.

Re:

[Mark of the North]

Exactly. There are lots of decent router distributions (and not all are Linux). I haven't tried all of them, but so far my favourite is pfSense. But for the sort of hardware in wireless routers (the subject of this article) OpenWRT is more appropriate. Not having to worry as much about spying is nice.

Just be prepared for a significant wait between the release of 802.11ax hardware and OpenWRT support. Support for 802.11n took quite some time.

Re:

[Noah Haders]

came here to say this. yo dawg, I heard you like getting owned so I built faster wifi so I could own you while you surf the internet at the same speed because the wifi speed >>> your crappy internet connection anyway.

Re:

[dougisfunny]

How about the Dewalt DW616?

Re:

[K. S. Kyosuke]

Name a router that has no backdoors.

A round one?

Re:

[russotto]

I don't know, I'm really impressed that they managed that sort of data transfer rate while also sending copies of all the data to both the NSA AND Chinese Intelligence.

Re:

[s.petry]

Funny, but remember where this company is from. NSA installs their back doors after manufacturers make devices. This particular company _is_ the Chinese government as all large Chines companies are. No middle man needed, and the embedding of back doors because it's done in production is not as easy to spot.

Re:

[Thor Ablestar]

NSA: Put this backdoor in your router.
US COMPANY: fuck you.
NSA: read this magic letter.
US COMPANY: Ok do anything you like.

MYSELF: Oh, such a nice hardware! Is it supported by OpenWRT?

Re:

[Anonymous Coward]

NSA: Put this backdoor in your router.
US COMPANY: fuck you.
NSA: read this magic letter.
US COMPANY: Ok do anything you like.

MYSELF: Oh, such a nice hardware! Is it supported by OpenWRT?

NSA: Hahaha, another sucker that thinks the bits he can see is the whole packege.

Re:I'm so excited

[drinkypoo]

Indeed! I don't care what speed marks they hit, I still would not use one of their back door infested devices even if you gave me one.

Hey! Calm down, we're talking about Huawei here, not Cisco.

Re:

[bhiestand]

... you really think China isn't doing the same with Huawei? As an added bonus, we know China will pass trade secrets to Chinese corporations.

Re:

[drinkypoo]

... you really think China isn't doing the same with Huawei?

I was aiming for insightful-funny and you know what? So far, that's precisely what I've got. And because this is slashdot, I also got a whoosh! Thanks for that.

Re:

[bhiestand]

Damnit. That's what I get for posting within 30 minutes of waking up.

In my defense, I do hear people seriously arguing that position.

Re:

[drinkypoo]

In my defense, I do hear people seriously arguing that position.

Well, you must not be new here.

Re:

[Midnight Thunder]

Better, faster ways to access inept content.

Its not the content that matters, but the bragging rights on how you access that content.

Re:

[Applehu Akbar]

An even faster way for me to hit my chintzy Suddenlink usage cap earlier in the month.

Now the real question is

[kungfuj35u5]

When if ever will 10gigE be affordable. Is the asic design on those switches really that insane?

Re:

[Noah Haders]

You do that with materials like 2 mils (or 0.05mm if you prefer), or half the thickness of a typical sheet of paper.

that's not that hard. I usually slice my paper in half anyway so I get two sheets for the price of one.

Re:

[the eric conspiracy]

You should put up a YouTube how-to on that.

Re:

[Noah Haders]

Gin-Su, bitches!

Re:

[Bitmanhome]

See https://en.wikipedia.org/wiki/... [wikipedia.org]

Yup, I've been watching too much How It's Made.

Re:

[silas_moeckel]

It's affordable now, your looking at about 100 bucks a port.

Re:

[Bengie]

Let me know when it's built into a $80 home router.

Re:

[silas_moeckel]

For what purpose? Do you think you need more bandwidth to saturate 802.11ac? It takes a couple sata/sas attached SSD's to read/write (or a dozen conventional hard drives) at 1.25GBs. Do you think you need that sort of speeds for your laptop?

Re:

[Bengie]

Thin clients are back, streaming games from your PC to your Steam box will suck for 8k resolutions. Encoding 8k in real time will be hard, expect it to be at most lightly compressed. It could use a lot of bandwidth at 120fps.

Re:

[silas_moeckel]

Latency alone is a reason you do not want to compress the output stream to send over the network to decompress. Actual video 8k fits with reasonable encoding over gigabit. Uncompressed 1080p 30fps 8 bit encoding is just under gigabit speeds. I doubt your going to find any thin client that is not going to pack hardware decoding.

Re:

[Blaskowicz]

It's a hardware encoder called NVENC on nvidia GPUs, it is used on GRID but also as a consumer solution - "Shadowplay", to record gaming sessions instead of doing it the CPU intensive way with something like FRAPS, and streaming the game to a Tegra 4 or a Steam box.

AMD has the "VCE" but I don't know if it's partial or full hardware encoding.
Microsoft sells RemoteFX which has dedicated encoder cards, proprietary and may only work with Direct3D apps.

Re:

[laie_techie]

Uncompressed video is almost always stored in YUV420 format. This uses 1.5 words/pixel (1 for luminance for each pixel, 2 for chroma for each 4 pixels).

1920 * 1080 * 1.5 * 8 * 30 = 746 Mbps

We call an architecture 32 bits or 64 bits because that's the size of a word. Eight bits is an octet, which is almost always the same size as a byte.

According to Wikipedia [wikipedia.org], YUV420 uses 6 bytes per 4 pixel. Your math is correct (746.5 Mbps), but you should be careful with the terms you use.

Re:

[GNious]

Thinking that if transport-layer can handle 10gb/sec/channel(?), then when the 35-or-so APs around here are using this system, perhaps I can get more than 5mb/sec on my connection to my AP?

Sure, we don't need it if we we're completely isolated, but here's to hoping that the next version of WiFi improves on how interference from near-by APs is handled :)

Re:

[silas_moeckel]

You have 35 AP's already using 5ghz?

Re:

[GNious]

2.4GHz, and I'm not the owner of those APs, people in other apartments are. Not a single single 5GHz network around here, since I had to stop using my shitty Linksys-by-CISCO router.
If I open the list of WLAN networks on my mac (the one in the menu-bar), the list occassionally happen to be long enough to actually break the UI.
Best part is that the majority of the networks are on channel 1; local ISP is now, by default, telling anyone complaining about issues with their internet, how to change channel.

Note:

Re:

[Dan Askme]

your you're

You're You are

Re:

[symbolset]

Google is working on 10Gbps fiber to the home, with a 3 year timeline. When asked why they should do such a crazy thing the project manager replied: "We can, so why not?"

Nyquist

[Anonymous Coward]

Granted I didn't RTFA but doesn't that contradict the Nyquist rate [wikipedia.org] of the channel? Or is there something more sophisticated going on here.

Re:

[jones_supa]

Most likely there's still enough room to play with modulation.

Re:

[Midnight Thunder]

I didn't see much in the article, but seeing the following PDF there appears to be multiple technologies at play. One of them being 'channel bonding':

http://www.kics.or.kr/Home/Use... [kics.or.kr]

Re:Nyquist

[indeterminator]

For data transmission rates, you'll want Shannon's channel capacity [wikipedia.org], which is not contradicted:
(a) SNR is a factor of channel capacity
(b) It applies for a single channel. With MIMO you have multiple channels (not independent from each other, but with smart channel coding you get gains over SISO).

Re:

[K. S. Kyosuke]

Which basically means it will have a range of three meters or something like that. ;-)

Re:

[willy_me]

With MIMO you have multiple channels

I was under the impression that MIMO gives you multiple antenna to facilitate beam forming. Channel bandwidth requirements do not change nor does the number of channels required. MIMO still only requires 1 channel. A quick wiki search appears to agree with this impression.

Now you can also use multiple channels but this is independent of MIMO technology. Both techniques can be used together - and typically are which might explain the confusion. Either that or I am confused which is always a possibili

Re:

[skids]

Or is there something more sophisticated going on here.

Spatial channels. You actually transmit on the same wavelength from multiple antenna, but (oversimplification) you aim one beam at one antenna and a different beam at a different antenna.

laboratory setting missing real world issues with

[Joe_Dragon]

laboratory setting missing real world issues with wifi that will slow it down.

Re:

[hjf]

it was probably tested at 10cm...

Re:

[Cley Faye]

You're joking, but there is probably a market for very fast, short-range communications. If only to connect all devices on a desk.

Re:

[K. S. Kyosuke]

And this one would even be NSA- and CIA-friendly! Now I'd rather prefer fiber cables for that myself, though.

Re:

[GNious]

Weren't Intel working on this? Some kind of 60GHz wireless dock, if I recall an old /. article.

Cap

[the eric conspiracy]

So I'll be able to hit my monthly Comcast cap in 60 secs?

SUPER!!

More bits then hertz?

[forty-2]

I call shenanigans.

Re:

[Anonymous Coward]

Why?? Standards from the 50s supports multiple symbols per period?

http://en.wikipedia.org/wiki/Phase-shift_keying

Re:

[forty-2]

Good read, thanks!

Re:

[isdnip]

That's multiple bits per symbol, not symbols per period.
1024QAM, for instance, has 10 bits encoded in 1024 possible values of the phase and amplitude. It's one symbol though. High-speed communications uses a combination of techniques, including OFDM (parallel, lower-speed carriers) and MIMO (separate transmitters).

Huawei is a Big NO in USA

[Greg666NYC]

For now, this technology is out of reach for average American. Huawei refused to bribe D.C politicians. Until we see some money flowing, new cars on driveways in Virginia suburbs we can only dream of higher WLAN speeds.

Re:

[symbolset]

They can license the radio modulation technologies to others for implementation.

Huh?

[suso]

Maybe its still too early in the day and I should finish my coffee first before posting to Slashdot, but I'd be interested to know how a frequency of 5 billion per second could carry 10 billion bits of information per second. Hopefully someone could explain.

Re:Huh?

[amorsen]

Nothing limits you to one bit-per-second per baud. 9600 bps modems were, IIRC, 2400 baud with 4 bits per Hz. (Higher than that it got a bit shady because they started optimizing for being encoded in a digital phone line).

VDSL2 goes up to 32768-QAM, which is 15 bits per symbol. I do not know whether any actual phone lines exist with a sufficient signal-to-noise-ratio to make that coding useful.

Re:

[suso]

Thanks, looks like several Slashdotters will be learning something new today.

Re:

[TeknoHog]

I wonder how much marketing jargon has contributed to these misunderstandings. Using terms such as "bandwidth" and "broadband" when referring to data rate will not make information theory any easier.

Re:

[ledow]

You just make sure there's more than one bit of information per "cycle" in the signal.

That's achieved by various methods, many clever and mathematical, some as simple as changing the phase of the signal (imagine a perfect sine wave at 5Hz - now suddenly change it to a bit further through the wave, you get a spike, a tangent, a visible change, but you're still on 5Hz) - the same way you can have AM (amplitude modulation) on a certain frequency, and FM (frequency modulation) over the top of it, this is called

Re:

[petermgreen]

When you join all these techniques together, get into MIMO, add all sorts of clever coding theory, you can get as much as you like from the signal - the only limit is how accurate you are sending and receiving.

Noise and interference limit how many bits you can have per symbol on a channel and the lack of independence in the channels limits the gains from MIMO*. There are still gains to be had but you get into diminishing returns in terms of bandwidth delivered to a given location (bandwidth delivered to many different locations is another matter, there are major gains to be had from cross-cell mimo in cellular systems but also major implementation difficulties).

* MIMO relies on some clever maths to create inddepe

Re:

[Anonymous Coward]

Channels in the 5Gz band are wider than a single frequency. So you can transmit on multiple frequencies in parallel within your band.

Even within a band you can encode bits at both the high and low points of the carrier wave, which gives you two bits per Hz. You could divide the wave up further to get even more.

Re:

[bobstreo]

what the big deal if the router to the ISP is a measly 1.5mbps or 10mbps ? like you can download faster than your ISP can provide
The bottle neck is the up and download link to your ISP. They need to solve that problem.

Perhaps the 802.xx working group should work with the ISP to find that solution first.

Perhaps to stream the 4k or higher videos from your storage to your display device.

Re:

[petermgreen]

what the big deal if the router to the ISP is a measly 1.5mbps or 10mbps ? like you can download faster than your ISP can provide

There is a world beyond your shitty little home or small buisness "broadband" connection.

While theoretical maximum speeds make good headlines the real purpose of advances in wireless communications is not so much supporting higher speeds to a single user as supporting more users of a given speed in a given area.

The bottle neck is the up and download link to your ISP. They need to solve that problem.

Other working groups in the IEEE and otherwise have been working on both getting more out of existing infrastructure and producing standards for new infrastructure.

Unfortunately slow home/small buisn

Re: Not really interested in faster wifi

[markus]

Sounds like interference from a microwave oven. You need to find the frequency that this microwave operates on, and you should then avoid that channel. The good news is that it is most likely one of your immediate neighbors. So, you could ask them to check on the label or in the manual for the microwave.

Shannon

[Erich]

Information Capacity Frequency Bandwidth * log2(1+signal-to-noise ratio) "In the lab" typically means "BNC cables" which give you very high signal-to-noise ratios. And in MIMO you can potentially treat each pair of antennas a separate channel. You use fancy techniques to increase the SNR for each channel. The nice thing about the 5GHz spectrum is that the frequency band is pretty large up there, and not as much interference with other unlicensed things (phones, microwaves, other wireless communication users... though as it gets more popular that will change) as the lower bands. The not-so-nice thing about the higher frequencies is that they tend to attenuate rapidly when the signal is going through something thicker than air.

Re:

[Erich]

Aw, crap. That should read: Information capacity < frequency bandwidth * log2(1+SNR)

Re:

[poptix]

The not-so-nice thing about the higher frequencies is that they tend to attenuate rapidly when the signal is going through something thicker than air.

Not necessarily a bad thing, since it means that you can have your strong local signals but don't pollute the spectrum in an entire neighborhood. We would have all been a lot better off if baby monitors, cordless phones, etc had all started in the mid GHz range.

Re:

[sgt scrub]

Having multiple connection points for things like MPTCP, to "complicate your traffic", is a good thing though.

Re:

[account_deleted]

Comment removed based on user account deletion

Re:

[Glasswire]

If you ever had a situation where your ISP connection was faster than local routing/networking gear, then you either have some kind of fantastic high bandwidth fiber ISP connection and you've cheaped-out on the quality of your infrastructure gear (very slow equipment) or you have a normal ISP connection and you got REALLY cheap about the quality of your infrastructure gear. (which is almost impossible unless you're using ~10MB stuff from the last century) You internal network wireless/wired should always

Re:

[Areyoukiddingme]

Hey, if this is really that fast - I wonder if it could make mesh networking a viable alternative to the current (centralized) form of internet access? After all, why should all of those OLPC recipients be the only beneficiaries of mesh network technology?

Yes. And no. At least, there's no technical reason why not. 5 GHz is attenuated by most residential structural materials by only 1 dB [ko4bb.com] more than 2.4 GHz and there are no microwave ovens and very few cordless phones to contend with in that spectrum. Range and throughput for non-line-of-sight is better than for 802.11a and 802.11b. People in fancy houses would probably want a roof-mounted antennae—red brick attenuates 5 GHz 10.1dB more than 2.4 GHz. Of course, if everybody had an antennae in their

Re:

[account_deleted]

Comment removed based on user account deletion

It that throuoghput in native mode...

[Glasswire]

...or monitored mode (where all traffic is spoofed to a Chinese gov't collection site)?
 

WiGig will be here faster

[isdnip]

Huawei is playing with the 5 GHz band which is becoming crowded, and whose availability has country-by-country exclusions. US rule were just liberalized a smidge but it still has exclusions for radar.

WIGig uses the 60 GHz band (57-64 GHz) which has a lot more space. It is not quite ready for the mass market, price-wise, but becoming possible in the $100 rage soon. It doesn't penetrate walls well but it's fine for cross-room very fast links.

Re:

[Overzeetop]

That's great, except that most homes happen to have walls. It's like putting railroad tracks down to fix the problem of poor efficiency of rubber tired vehicles, only to find that the majority of cars don't have steel wheels, but rubber tires. But for those folks who have steel wheels, it's gonna be awesome!

Re:

[vandamme]

I'd rather have across-town links, because I don't need to stream stuff around my house that fast. I need to get it from the internet.

What?! My AC router is out of date?!?

[the_skywise]

http://www.thecomicstrips.com/... [thecomicstrips.com]

Re:

[ledow]

Doesn't matter how fast you do that, you won't sell it to gamers just through added latency, control (how the hell are you going to game via a tablet?) and screen-size. Plus who the hell wants to buy two home computers just so they can use one of them from a distance? Look at Steam Home Streaming if you want to do this - I assure you, it has a multitude of limitations even with beefy PC's at both ends.

The thin-client problem is one that solves only a handful of the problems people have with larger systems

No QoS

[UberVegeta]

TFA makes no mention of any kind of Quality of Service support. It's still 802.11, so I guess there wouldn't be (since it's not 802.11e). Given that the 802.11 MAC efficiency tops out at around PHY = 100 Mbps and doesn't really increase thereafter because of collisions (or overheads from preventing collisions), it's probably time we looked for MAC efficiency over PHY rates, as supported in 802.16. But hey, PHY rates let you put a BIGGER NUMBER on the box which means we can SELL FASTER INTERNETS.