Twitter anger over bomb tweeter

12 November 2010 Last updated at 10:21 ET

Tweeters have joined forces to support Paul Chambers, the man convicted and fined for a Twitter message threatening to blow up an airport.

The Twitter community is angry that the 27-year-old accountant has failed to overturn his conviction.

A day after his appeal failed, two "hashtags" to highlight his situation remain top topics in the UK.

Free speech advocate Index on Censorship said the UK judiciary was out of step with social networks.

"The verdict demonstrates that the UK's legal system has little respect for free expression, and has no understanding of how people communicate in the 21st Century," said the organisation's news editor Padraig Reidy.

Twitterstorm

On Twitter, the furore over Paul Chambers' sentencing shows no sign of ebbing away.

Some 24 hours after his appeal failed, the "hashtag" #twitterjoketrial remains one of the top trending topics on the site.

A so-called "I'm Spartacus" campaign encouraging users to "re-tweet" his words has also become a huge hit.

The hashtag #IAmSpartacus is currently the number one trending topic on Twitter in the UK, with #twitterjoketrial in second place.

The I'm Spartacus campaign is inspired by the famous scene in the 1960s blockbuster, when slaves stood up one by one to claim "I'm Spartacus" in order to save their fellow gladiator from detection.

Paul Chambers was found guilty in May, convicted of sending a menacing electronic communication when he tweeted: "Crap! Robin Hood airport is closed. You've got a week to get your shit together, otherwise I'm blowing the airport sky high!"

Chambers is believed to be the first person convicted in the UK for posting an offensive tweet.

After the hearing, actor and Twitter fan Stephen Fry tweeted that he would pay Chambers' fine.

Comedian Dara O'Briain tweeted that the verdict was "ludicrous" while Peep Show actor David Mitchell said it was "punishment for flippancy".

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Kinect hacked days after release

12 November 2010 Last updated at 06:15 ET

Microsoft's Kinect controller has been hacked only a few days after it officially went on sale.

Code to control the motion-capture device has been produced that allows it to be used with a PC rather than the Xbox game console.

Those behind the hack are keen to use the device in schools, art projects and to aid human-robot interaction.

Microsoft has said it was not happy with the unofficial modifications made to the gadget's control system.

The attempt to hack the control system for the Kinect gadget was kick-started by electronics kit maker Adafruit. On 4 November it announced it would pay $1,000 (�624) to the first person to produce control software, known as drivers, for the Kinect.

It upped the bounty to $3,000 (�1,871) following comment from Microsoft saying it did not condone the reverse-engineering of its motion controller.

The Adafruit bounty was won by hacker Hector Martin who was the first to produce drivers and make them available for others to download and improve.

Using the drivers Mr Martin got the Kinect working with a Linux laptop. The drivers he produced are for the Kinect's motion capture system. Work is still underway on the gadget's voice capture and control system.

In a statement to the BBC, Microsoft was keen to point out that the Xbox 360 control system for the Kinect had not been hacked.

"What has happened is someone has created drivers that allow other devices to interface with the Kinect for Xbox 360," it said. "The creation of these drivers, and the use of Kinect for Xbox 360 with other devices, is unsupported.

It added: "We strongly encourage customers to use Kinect for Xbox 360 with their Xbox 360 to get the best experience possible."

Cash contest

The Adafruit contest has also given rise to a Google group dedicated to open source use of Kinect that now has about 400 members.

Many people are also starting to post videos of themselves using Kinect with Apple machines and as a multi-touch interface. Work is underway to produce drivers that work with Windows PCs.

In a blog entry, Adafruit said it expected to see the Kinect starting to be used in all kinds of ways rather than just for gaming. It said it could become a way to interact with robots or art installations.

The Kinect is attractive to amateur roboticists because its retail price of about �129 is much lower than the cost of movement sensors of similar sophistication.

Mr Martin said he would share the cash prize with other hackers that helped him get the Linux drivers working. He said work was continuing to improve the control system to make it comparable as the one used by the Xbox.

A second open source Kinect contest has now also started, sponsored by Google engineer Matt Cutts. He will give $1,000 to whoever produces what he considers the coolest open source Kinect project. A separate $1,000 prize will be given to the team creating tools that make it easy to use Kinect on Linux.

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Top computers 'to fit sugar cube'

12 November 2010 Last updated at 05:55 ET By Jason Palmer Science and technology reporter, BBC News, Zurich

A pioneering research effort could shrink the world's most powerful supercomputer processors to the size of a sugar cube, IBM scientists say.

The approach will see many computer processors stacked on top of one another, cooling them with water flowing between each one.

The aim is to reduce computers' energy use, rather than just to shrink them.

Some 2% of the world's total energy is consumed by building and running computer equipment.

Speaking at IBM's Zurich labs, Dr Bruno Michel said future computer costs would hinge on green credentials rather than speed.

Dr Michel and his team have already built a prototype to demonstrate the water-cooling principle. Called Aquasar, it occupies a rack larger than a refrigerator.

IBM estimates that Aquasar is almost 50% more energy-efficient than the world's leading supercomputers.

"In the past, computers were dominated by hardware costs - 50 years ago you could hold one transistor and it cost a dollar, or a franc," Dr Michel told BBC News.

Now when the sums are done, he said, the cost of a transistor works out to 1/100th of the price of printing a single letter on a page.

Now the cost of the building the next generation of supercomputers is not the problem, IBM says. The cost of running the machines is what concerns engineers.

"In the future, computers will be dominated by energy costs - to run a data centre will cost more than to build it," said Dr Michel.

The overwhelming cause of those energy costs is in cooling, because computing power generates heat as a side product.

Cube route

"In the past, the Top 500 list (of fastest supercomputers worldwide) was the important one; computers were listed according to their performance.

"In the future, the 'Green 500' will be the important list, where computers are listed according to their efficiency."

Until recently, the supercomputer at the top of that list could do about 770 million computational operations at a cost of one watt of power.

The Aquasar prototype clocked up nearly half again as much, at 1.1 billion operations. Now the task is to shrink it.

"We currently have built this Aquasar system that's one rack full of processors. We plan that 10 to 15 years from now, we can collapse such a system in to one sugar cube - we're going to have a supercomputer in a sugar cube."

Mark Stromberg, principal research analyst at Gartner, said that the approach was a promising one.

But he said that tackling the finer details of cooling - to remove heat from just the right parts of the chip stacks - would take significant effort.

Third dimension

It takes about 1,000 times more energy to move a data byte around than it does to do a computation with it once it arrives. What is more, the time taken to complete a computation is currently limited by how long it takes to do the moving.

Air cooling can go some way to removing this heat, which is why many desktop computers have fans inside. But a given volume of water can hold 4,000 times more waste heat than air.

However, it adds a great deal of bulk. With current technology, a standard chip - comprising a milligram of transistors - needs 1kg of equipment to cool it, according to Dr Michel.

Part of the solution he and his colleagues propose - and that the large Aquasar rack demonstrates - is water cooling based on a slimmed-down, more efficient circulation of water that borrows ideas from the human body's branched circulatory system.

However, the engineers are exploring the third dimension first.

They want to stack processors one on top of another, envisioning vast stacks, each separated by water cooling channels not much more than a hair's breadth in thickness.

Because distance between processors both slows down and heats up the computing process, moving chips closer together in this way tackles issues of speed, size, and running costs, all at once.

In an effort to prove the principle the team has built stacks four processors high. But Dr Michel concedes that much work is still to be done.

The major technical challenge will be to engineer the connections between the different chips, which must work as conductors and be waterproof.

"Clearly the use of 3D processes will be a major advancement in semiconductor technology and will allow the industry to maintain its course," Gartner's Mark Stromberg told the BBC.

"But several challenges remain before this technology can be implemented - issues concerning thermal dissipation are among the most critical engineering challenges facing 3D semiconductor technology."

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