When 54 Mbps isn't 54 Mbps: 802.11g's Real Speed 127
eggboard writes "Matthew Gast, author of 802.11 Wireless Networks, filed this article for O'Reilly Networks explaining exactly how fast 802.11g really is: that is, what's the actual data payload and real throughput, not the rated maximum speed. His conclusion? In mixed 802.11b/g networks, which will be common for years to come, g is only 1.6 to 2.4 times faster than b, not 5 times faster as it is in its g-only mode. This article has real math based on the specs, rather than armchair speculation."
In other news: (Score:4, Informative)
EVERY medium that I've seen specs for published the actual bit rate of the wire/cable/fiber, not the end user throughput. They can't know that because they don't know what protocols you will be running over the network.
but it doesn't slow down the rest of the connectio (Score:5, Insightful)
Re:but it doesn't slow down the rest of the connec (Score:4, Informative)
Not at all. An auto-sensing hub (does anyone still make these?) is actually a 10mbps segment bridged to a 100mbps segment. Each port connects to whichever segment it can talk to, and they're switched together internally. The whole thing does *not* drop to 10mbps when any 10mbps devices are present.
It would be nice if B and G played that nicely in the same spectrum, but they don't.
Re:but it doesn't slow down the rest of the connec (Score:2)
Re:but it doesn't slow down the rest of the connec (Score:1, Interesting)
Re:but it doesn't slow down the rest of the connec (Score:1)
Re:but it doesn't slow down the rest of the connec (Score:1)
No. Some hubs, long time ago, had the feature of dropping speed whenever there was a 10 Mb connecting. This is long ago, but there was....
54 Mbps or not (Score:3)
I got myself one too. No regrets.
Re:54 Mbps or not (Score:1, Offtopic)
OK, lets say you are one of the people that entered the home. You were shot at. Do you want to go in again, and get shot at more? They tried a swat style entry, were shot at, so decided to retreat and shoot back from a safer position. Sure, it would have been nice to have them alive, but why risk more US deaths for it? The house had bulletproof windows, who knows what other fortifications lied inside? If you have bulletproof windo
OT: In regards to your sig (Score:3, Insightful)
I used to be a cop, and did SWAT for about seven years... an assault on a fortified target like that is difficult in the best of circumstances, let alone in the midst of a hostile city, where you may or may not be able to guard your flanks. If that situation had turned into a prolonged siege, the brothers might have had the opportunity to contact local resistance elements, get some media attention, and shift the balance of
Re:In other news: (Score:1, Redundant)
Rus
Armchair calculations (Score:4, Insightful)
Re:Armchair calculations (Score:5, Insightful)
Matthew has now provided a baseline. Someone could now perform real-world benchmarks against these theoretical maximums which are built into the standard.
Matthew's numbers provide optimal performance guidelines for network planning. Real performance will, of course, be even lower.
Re:Armchair calculations (Score:4, Interesting)
Re:Armchair calculations (Score:3, Funny)
Re:Armchair calculations (Score:2)
I wouldn't be surprised to find a 10/100 NIC that can actually do 105 Mbit/sec (even if the p
Re:Armchair calculations (Score:1)
Actually, I can't make such a generalization about hot dogs lengths either.
That wasn't the point.
But thanks for the info.
Is this really a new issue? (Score:4, Insightful)
Re:Is this really a new issue? (Score:2, Interesting)
Even with infinitely fast hardware for the error correction and no interference at all, thoughput of 802.11g will drop to 13.4 or even 8.9 Mbps once an 802.11b station associates to an 802.11g network. The 802.11b station does not even need to transmit actual data for this!
So, yes, this is really a new issue stemming from the compatibility between 802.11g and 802.11b.
Note that 802.11a does not have the same
Re:Is this really a new issue? (Score:2)
Re:Is this really a new issue? (Score:1)
You are absolutely right there, but when you read the article, that is not the cause that things are as bad as they are.
If the reasons you mention would be the primary ones, there would be some degradation, but not a full 50% jump for a class b device just registering without transmitting further data.
As soon as a
Re:Is this really a new issue? (Score:2)
Scandal! (Score:3, Funny)
Re:Scandal! (Score:1)
We all now that throughput doesn't equal raw speed. But saying that 100 Mbps != 100 Mbps doesn't add much to the understanding of building networks, does it?
Re:Scandal! (Score:2)
100 Megabit Network does not actually deliver 100 Megabit transfer speeds. Film at 11.
It does if you have enough processor power and I/O bandwidth. I have an Athlon XP 2500 + and a P-III 700 MHz on my desk. I can scp huge files between the two at about 7 MB/s (or 56 Megabits) through a basic 10/100 switch. The limiting factor is processor power on the P-III. With scp, and an otherwise light load, it uses all the available cycles to deliver the 7 MB/s. I'm sure if I used an in the clear protocol, lik
Re:Scandal! (Score:2)
Quick rundown: (Score:2, Insightful)
* 802.11g in a homogenous network (ie: only 802.11g access points) is faster than 802.11b (by a factor of five or so) *and* 802.11a (just a bit faster)
* 802.11g in a heterogenous network (ie: some 802.11g access points, and some 802.11a access points _which have been "assosiated" with the 802.11g_) is rougly 1.5 to 2.5 times faster than 802.11b, depending on the type of collision-detection algorithm used.
So, to sum up the summary:
Re:Quick rundown: (corrected, mod this one up) (Score:5, Informative)
(Sorry for the parent post, I made a typo. Just s/802.11a/802.11b/ in the second bullet point. "oops" :)
Okay, I read the article, and here's a basic rundown (I think :):
So, to sum up the summary: If you start replacing your 802.11b access points with 802.11g access points, you'll see some performance gain with 802.11g client devices right away. When all your 802.11b client devices are gone (and thus all the 802.11b access points), it'll be way faster. Faster even than 802.11a.
Why is this billed as a bad thing? You get compatibility with your existing infrastructure, a little bonus performance now, and when the time comes, bang you get a big boost.
This is the kind of thing that sysadmins such as myself LOVE :)
Re:Quick rundown: (corrected, mod this one up) (Score:5, Funny)
1) Post Insightfully with format errors
2) Admit to mistake and repost with corrections
3) Go from Insightful to Informative and reap in double the karma
Niiice.
Re:Quick rundown: (corrected, mod this one up) (Score:1)
But in all seriousness, it doesn't matter - I had 50 the first (and incidentally, only) time I checked my karma, and that was after the cap was put in place (very shortly after, in fact). God knows what it was before.
Re:Quick rundown: (corrected, mod this one up) (Score:1)
A) Wait for someone to repost.
B) Correct and poke fun at him.
C) Reap karma!
Re:Quick rundown: (Score:5, Informative)
For those who understand how this works, it is not a bad thing. However the hardware is being marketed to the general public.
As a result you can expect that people who see the 5 x faster than b are going to completely skip the small text that disclaims this on the back of the box. I think everyone would be surprised if this did not include a significant number of ostensibly technically inclined writers who will report that they did not see the improvements advertised, and who will subsequently give the technology a bad rap.
One fix for this would be to make APs that ran dual modes, but on different channels. For example 'b' on channel 3 and 'g' on channel 9. The AP would have to be able to buffer traffic between the two channels, but it would have to do so if it were acting as a repeater in any case, which I believe it has to to operate in both b and g modes.
I do not know if this is likely to happen, or is part of the spec already. If it is, then people should expect to see a significant performance boost.
-Rusty
Re:Quick rundown: (Score:2)
Re:Quick rundown: (Score:3, Interesting)
So you could have one AP with "a" on one of the 8 indoor "a" channel, "b" on a non-overlapping 2.4 GHz channel, and "g" on another one. You could offer "g" twice and "b" once. And so on.
Re:Quick rundown: (Score:2)
I do like the idea however. I will take a look at the company.
-Rusty
Re:Quick rundown: (Score:2, Informative)
Schmucks Screwing Up bandwidth? (Score:1)
Just read the labels... (Score:5, Informative)
If a user with an AirPort-enabled computer or a Wi-Fi certified 802.11b product joins an AirPort Extreme wireless network, that user will get up to 11 Mbps and the AirPort Extreme users on the same wireless network will get less than 54 Mbps. To achieve maximum speed of 54 Mbps the wireless network may only have AirPort Extreme-enabled computers on it.
Its not like this was quite the surprise its being made out to be...
Re:Just read the labels... (Score:3, Informative)
Bzzzzt. Wrong answer. (Score:1, Informative)
For this to be a usefull test, you will need to at least publish what the window size was on each end. Also, making sure the immediate area was free of microwaves and blenders helps a bit.
Now, I fully believe that the test wa
Informative? (Score:5, Insightful)
Re:Bzzzzt. Wrong answer. (Score:2)
Re:Bzzzzt. Wrong answer. (Score:2)
No; or not significantly. Last time I measured it on my 802.11b network it was well under 2ms. Sure, if you have interference, then you'll be hitting the retries, in which case the average latency will go up; but under good conditions, it's got negligable latency. (Some newbies have suggested that WiFi takes longer due to propogation through the air- actually the speed of radio waves in air is almost twice that of ethernet signa
Maybe I just can't summon the righteous anger (Score:5, Insightful)
Maybe they should go after Dannon yogurt for decreasing the size of their container to 6oz from 8oz, but keeping the price constant. Then at least they would be reporting on something I could care about.
Re:Maybe I just can't summon the righteous anger (Score:1)
In my situation (all linksys equip, all G, two feet away for testing) I only get about twice what I used to with B, which was of course already much less than advertised. I can accept that 11 doesn't mean 11, but I can't as readily accept that 54 doesn't mean ~5x whatever-11-is.
I'm thinking they should just have a different labeling system for t
At any speed... (Score:1)
It should be a good thing for SoIP [politrix.org], and for pissing off the RIAA
Top 5 Reasons to Avoid Wireless (Score:5, Funny)
4.) You're not a cafe communist with a computer and a four dollar cup of coffee.
3.) The low-bandwidth version of Slashdot doesn't have those cool 1997
2.) The babes dig retro shit these days, like 14.4bps dial-up.
1.) Your life revolves around physical things, not six-hundred dollar mp3 players (iPaqs, etc.)
At least A/B/G Atheros-based cards work now (Score:3, Informative)
I have not had a chance to thoroughly test it in a multi-signal environment, but the throughput is solid on B. There have been some drop-outs but I blame the D-Link access point to which I am connecting. (DWL-1000AP=junk, but at least it was inexpensive).
The WAG511 was on sale at Fry's for $80; I haven't seen it significantly cheaper on line, so I grabbed two.
This afternoon I am working on getting another card to work in a desktop with a pcmcia adapter to act as a host so I can unload the D-Link; then the higher-speed testing can begin. I have nothing but good things to say about the Netgear card so far. Thanks to all those who are doing the heavy lifting to make A/G support possible.
Five times faster - 29 / 5.6 54 / 11 (Score:1)
The actual improvement in g-only mode is better than what the specs say.
Anyways, I don't know why anyone would have a mixed b/g network, unless they are offering it as public service. Its easy enough to upgrade everything to g-mode only. 802.11g sounds like a big win to me.
Re:Five times faster - 29 / 5.6 54 / 11 (Score:4, Insightful)
Like iBooks? Like PDAs? Like wireless security cameras? There's more than laptops with PCMCIA wireless cards in the world.
Re:Five times faster - 29 / 5.6 54 / 11 (Score:2)
Re:Five times faster - 29 / 5.6 54 / 11 (Score:3, Funny)
Re:Five times faster - 29 / 5.6 54 / 11 (Score:2)
Re:Five times faster - 29 / 5.6 54 / 11 (Score:1)
Re:Five times faster - 29 / 5.6 54 / 11 (Score:1)
This allows segmenting the slower clients out of the higher speed network, and increases your overall bandwidth. Older clients use the (somewhat crowded) 2.5 GHz spectrum, high demand clients use the 5GHz bandwidth. Neith
Re:Five times faster - 29 / 5.6 54 / 11 (Score:2)
Re:Five times faster - 29 / 5.6 54 / 11 (Score:1)
I'm no signaling expert, but couldn't the loss in range be compensated for by a better antenna?
I know about the speed... (Score:1)
Basic math... (Score:3, Interesting)
Math (Score:1)
Second, algorithms are an important part of CS, but geez, I have yet to see where fluid conditions have been calculated with necessary precision with just a monolithic algo
Speed (Score:1)
very soon
Rus
Re:Speed (Score:5, Informative)
TCP model oversimplified (Score:5, Insightful)
"Furthermore, the model ignores the sophistication in the TCP acknowledgement model. To avoid constraining throughput, TCP uses "sliding windows" and allows multiple outstanding frames to be transmitted before acknowledgement. In practice, TCP acknowledgements can apply to multiple segments, so this model overstates the impact of higher-layer protocol acknowledgements."
This reduces the "TCP" he uses to a stop-and-wait protocol.
Re:TCP model oversimplified (Score:5, Informative)
Unfortunately, I have no mod points, but I really wish I did so I could throw one your way.
Apparently, of all the supposed techies reading the article, only you caught that problem (hey, I'll admit it, even I glazed over on the details, so kudos to you). And that one change of his TCP simulation makes ALL the difference - If you take out all the part of a protocol that make it play well in a multiple-speed in-and-out environment, then yes, in fact, it will behave only slightly better than the worst speed in any direction. Almost a trivial statement, yet the parent post's entire premise rests on this one idea.
Sad. And again, kudos, good catch.
Re:TCP model oversimplified (Score:3, Informative)
Anyway on a slight tangent here... one thing that's interesting about TCP is that on very low latency media like an ethernet or 802.11 LAN, usually TCP actually performs *better* when you limit its
802.11b is fast enough (Score:5, Funny)
Re:802.11b is fast enough (Score:1)
never found out who it is/was, apt complex is too large. laptop + orinoco + cantenna would probably point me in the right direction, but i don't think i could conclusively decide which unit had the signal without knocking on some doors...
Too many standards (Score:2)
Duh!? (Score:2, Interesting)
Maybe the author should read the docs(RFCs aren't that ahrd to find, are they?) before jumping on a juicy story?
Oh, and... DUPE! "lie" was already covered a few months ago. Heck, there even was the same conclusion: g gives you around 20 Mbps, VS what, 11 Mbps max on b?
Re:Duh!? (Score:2)
They're not RFCs, they're IEEE docs. Especially the drafts are a real pain to get a hold of.
--Dan
Re:Duh!? (Score:2)
didn't they predict this way back in may? (Score:2, Informative)
Re:didn't they predict this way back in may? (Score:1)
Real Speeds (Score:5, Informative)
Best Performance among various hardware
802.11g
wep off: 15.5Mbps
b card on network/wep off: 9.4Mbps
wep on: 10.3Mbps
802.11b
wep off: 4.8Mbps
Re:Real Speeds (Score:1)
Was that with or without a 2.4GHz wireless phone being used at the same time?
Real Tests (Score:3, Insightful)
Kinda like judging a car's performance based on "real math based on the specs" when you can actually test the real thing in the Real World.
Re:So far... (Score:1)
Blaming it on Microsoft would be redundant.
My armchair and I are deeply offended (Score:1)
Seriously, I've come up with many a clever solution upon taking pencil and paper to bed with me.
Re:My armchair and I are deeply offended (Score:1)
Finding A equipment (Score:4, Informative)
I was in Best Buy and CompUSA and it is wall-2-wall 801.11g -- all "54 MBps!" in big, bold print.
It is a shame, since the 5 GHz band is so less crowded. I think "A" equipment is going to fade into a niche and be harder and harder to find.
Re:Finding A equipment (Score:2)
What?!!! (Score:1)
Re:What?!!! (Score:1)
Armchair Speculation (Score:1)
How, exactly, is sitting around doing math not "armchair speculation?"
I had kind of assumed.... (Score:3, Insightful)
Maybe I'm just used to marketing-ese. I remember when video game cartridges were measured in bits and not bytes. I remember being stunned that the Sega CD could store 4.7 gigs of data. Too bad I had to divide that number by 8.
Come to think of it, floppies were like that. "2 megs unformatted!"
Marketing really sucks for computer geeks. We want hard data, they want to give us the highest (or lowest) numbers. Go fig. This particular industry would do much better to appeal to practical #'s and develop trust based on that.
Re:I had kind of assumed.... (Score:2)
That's the one case I don't consider the criticism fair. That floppy can hold 2 MB, you just have to use some storage method less awful than FAT12.
Personally, I usually use tar, rather than any actual filesystem. You can trasfer files seamlessly from/to any operating system. With DOS/Windows you need a program like rawrite to create a file from the contents, but under any form of Unix, you just access the drive's device like a tar file.
Re:I had kind of assumed.... (Score:1)
Only if it were possible to format the floppy with only one sector per track, you would cut out most of the overhead, and end up with almost 2 MB.
Re:I had kind of assumed.... (Score:2)
Using a particular DOS TSR driver, I have personally formatted disks at up to about 1.88MB (no compression). In fact, that's how I originally managed to fit Quake on a 10-pack of floppies :-). Linux systems transparently support formats of up to about 1.7MB. So, I don't really see a problem with the claim, since the size is n
Re:I had kind of assumed.... (Score:1)
You are absolutely right. A floppy disk does not contain more than 4000 clusters, so it will not need FAT16. My bad.
And yes, a good deal of capacity goes into FAT12
The FAT12 filesystem takes 1.5 bytes of FAT space per FAT for every cluster on disk.
Assuming 2 FATs and 512 byte cluster size, this is somewhat less than 0.6%.
Add a few sectors to this for the root directory.
Hardly a l
I'm sick of theoretical maximums! (Score:1)
Range is disappointing, too... (Score:1)
test (Score:2)