Biggest carbon-nanotube chip yet says ‘Hello, World!’

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Biggest carbon-nanotube chip yet says ‘Hello, World!’

Carbon nanotubes are rolled up sheets of carbon atoms arranged in a hexagon pattern. Credit: Stefan Diller/ Science Photo Library

Scientists have created the biggest computer chip yet made from carbon nanotubes: rolled up sheets of atom-thick graphene that conduct electricity at super-fast speeds.Some researchers hope that carbon nanotubes could be used in future computers, because they conduct electricity faster and more efficiently than silicon. Until now, engineers have increased the power and speed of ordinary silicon computer processors by shrinking the size of switches known as transistors, but they are now reaching a fundamental limit.

Reporter Elizabeth Gibney finds out how researchers created the carbon-nanotube processor.
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The first carbon nanotube (CNT) computer in 20131 contained only hundreds of electronic switches known as transistors. The processor revealed today in Nature2 has 14,000 transistors. “This work takes a big step forward and gets much closer to a commercial chip,” says Yanan Sun, a physicist at the Shanghai Jiao Tong University in China, who was not involved in the work.A team at the Massachusetts Institute of Technology (MIT) in Cambridge created a 16-bit processor, which means it can operate on numbers represented by up to 16 binary digits. Called RV16XNano, the device is far from a modern computer processing unit, but it executed a program that churned out the message: “Hello, World! I am RV16XNano, made from CNTs”.To make it, the team overcame long-standing issues with using CNTs in electronics. These included using clever circuit design to mitigate for natural defects in the tubes that cause some to be metallic rather than having the semiconducting properties needed to be transistors. The processor also integrated two different types of transistor that are essential for modern computer circuitry.In theory, a CNT processor could be ten times more efficient than a silicon one, running around three times faster and using around one-third of the energy, says Max Shulaker, the MIT physicist who led the work. This processor is slower than silicon devices but the prototype will improve, he says. “The most important thing is that all of these techniques are compatible with existing design tools and manufacturing facilities,” he adds.

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