NC State Scientists Develop Breakthrough Internet Protocol

NC State Website ^ | 15 March 2004

[Future Snake Eater]

Researchers in North Carolina State University’s Department of Computer Science have developed a new data transfer protocol for the Internet that makes today’s high-speed Digital Subscriber Line (DSL) connections seem lethargic.

The protocol is named BIC-TCP, which stands for Binary Increase Congestion Transmission Control Protocol. In a recent comparative study run by the Stanford Linear Accelerator Center (SLAC), BIC consistently topped the rankings in a set of experiments that determined its stability, scalability and fairness in comparison with other protocols. The study tested six other protocols developed by researchers from schools around the world, including the California Institute of Technology and the University College of London.

Dr. Injong Rhee, associate professor of computer science, said BIC can achieve speeds roughly 6,000 times that of DSL and 150,000 times that of current modems. While this might translate into music downloads in the blink of an eye, the true value of such a super-powered protocol is a real eye-opener.

Rhee and NC State colleagues Dr. Khaled Harfoush, assistant professor of computer science, and Lisong Xu, postdoctoral student, presented a paper on their findings in Hong Kong at Infocom 2004, the 23rd meeting of the Institution of Electrical and Electronics Engineers Communications Society, on Thursday, March 11.

Many national and international computing labs are now involved in large-scale scientific studies of nuclear and high-energy physics, astronomy, geology and meteorology. Typically, Rhee said, “Data are collected at a remote location and need to be shipped to labs where scientists can perform analyses and create high-performance visualizations of the data.” Visualizations might include satellite images or climate models used in weather predictions. Receiving the data and sharing the results can lead to massive congestion of current networks, even on the newest wide-area high-speed networks such as ESNet (Energy Sciences Network), which was created by the U.S. Department of Energy specifically for these types of scientific collaborations.

The problem, Rhee said, is the inherent limitations of regular TCP. “TCP was originally designed in the 1980s when Internet speeds were much slower and bandwidths much smaller,” he said. “Now we are trying to apply it to networks that have several orders of magnitude more available bandwidth.” Essentially, we’re using an eyedropper to fill a water main. BIC, on the other hand, would open the floodgate.

Along with postdoctoral student Xu, Rhee has been working on developing BIC for the past year, although Rhee said he has been researching network congestion solutions for at least a decade. The key to BIC’s speed is that it uses a binary search approach – a fairly common way to search databases – that allows for rapid detection of maximum network capacities with minimal loss of information. “What takes TCP two hours to determine, BIC can do in less than one second,” Rhee said. The greatest challenge for the new protocol, he added, was to fill the pipe fast without starving out other protocols. “It’s a tough balance,” he said.

By allowing the rapid transfer of increasingly large packets of information over long distances, the new protocol could boost the efficacy of cutting-edge applications ranging from telemedicine and real-time environmental monitoring to business operations and multi-user gaming. At NC State, researchers could more readily visualize, monitor and control real-time simulations and experiments conducted at remote computing clusters. BIC might even help avoid a national disaster: The recent blackout that affected large areas of the eastern United States and Canada underscored the need to spread data-rich backup systems across hundreds of thousands of miles.

With network speeds doubling roughly annually, Rhee said the performances demonstrated by the new protocol could become commonly available in the next few years, setting a new standard for full utilization of the Internet.

[Future Snake Eater]

Any techies know anything about this technology?

[Future Snake Eater]

Go Pack!

[billorites]

One can never be too young,
too rich,
or have too much bandwidth.

[martin_fierro]

I thought AOL already had it.

<|:)~

[newgeezer]

a new data transfer protocol for the Internet that makes today’s high-speed Digital Subscriber Line (DSL) connections seem lethargic.

So what? My cable modem service makes most DSL connections seem lethargic! ;O)

[TomGuy]

Oh, yeh! Now we can get porn, I mean, info faster. Yeh!

[Erasmus]

The comparison of BIC-TCP to DSL is specious; I presume that's the journalist talking.

It seems to be comparing the theoretical maximum performance of one protocol (no channel bitrate limitations) to another protocol over a known finite bitrate channel (although the article doesn't state its assumptions, by saying 'DSL' they must mean between 380 and 1500 Kb/s).

It's apples and a$$holes.

Of course, the writer of the article may have jumbled up the story so much that my interpretation is wrong.

[Mr. Bird]

Can you give me an idea of the speed difference between DSL and cable? We're in a new development, and we're not equipped for either yet, but I want to know if I should hold out for cable in any case. My home internet use is entirely recreational.

[vollmond]

Pretty impressive for NC State, but the Terps have their number this year.

[Erasmus]

Justa wait until they getta more subscribers, Monkey-boy!

+-<]B^)

[Sgt_Schultze]

Daryle Singletary sang, I Ain't Never Had Too Much Fun

To go along with your observation that there is never enough bandwith, I paste here, the chorus...

Too much fun? What's that mean?
It's like too much money, there's no such thing
It's like a girl too pretty, with too much class Being too lucky, a car too fast
No matter what they say I've done
I ain't never had too much fun

[M_i_G]

What kind of speeds are you getting with cable? I'm getting a little over 5 Mbit(640 KB/sec) down and .5 Mbit (65 KB/sec) up; with dsl.

[Dead Corpse]

Click here.

Includes their white paper on it and code source.

Google is our friend.

[Constitution Day]

Very cool! BTTT!

[Future Snake Eater]

Yeah, yeah...although I feel a lot better since Duke lost to them, too.

[newgeezer]

The operative word in their sentence was "high-speed" DSL; I conveniently left that out of my reply.

My friends with (slow) DSL are getting ~300 Kbps down; I'm getting 1.5 - 2.0 Mbps on cable.

[rintense]

If you're merely a surfer, the difference between DSL and high speed cable is minor. Which one to choose coome down to price and service. But, if you do a lot of FTP or downloading of files, DSL is generally faster due to a single, dedicated line.

[rintense]

I'm getting 1.5 - 2.0 Mbps on cable.

You're getting THAT on a cable line? Wow. Wish I had that.

[sopwith]

Sign me up!

[newgeezer]

The tel. co. here has multi-tiered DSL service; the more you pay, the higher your speed.

Conceivably, DSL speed is independent of the number of subscribers in your area. Cable modem service is 'shared' so that if you have more neighbors online, your speed will degrade.

All I can say is that I've been on the service for over 2 years. Almost all my neighbors have it and, just a month ago, the whole system was upgraded so that the average bandwidth increased by ~2X.

Due to the telco's method of installation 15 years ago, DSL is not available in my 'hood. So, I'm glad cable service is as good as it is (it was bad before @Home went belly-up and Mediacom took over).