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ScienceDaily (Feb. 9, 2011) — Engineers and scientists collaborating at Harvard University and the MITRE Corporation have developed and demonstrated the world's first programmable nanoprocessor.
The groundbreaking prototype computer system, described in a paper appearing in the journal Nature, represents a significant step forward in the complexity of computer circuits that can be assembled from synthesized nanometer-scale components.
It also represents an advance because these ultra-tiny nanocircuits can be programmed electronically to perform a number of basic arithmetic and logical functions.
"This work represents a quantum jump forward in the complexity and function of circuits built from the bottom up, and thus demonstrates that this bottom-up paradigm, which is distinct from the way commercial circuits are built today, can yield nanoprocessors and other integrated systems of the future," says principal investigator Charles M. Lieber, who holds a joint appointment at Harvard's Department of Chemistry and Chemical Biology and School of Engineering and Applied Sciences.
The work was enabled by advances in the design and synthesis of nanowire building blocks. These nanowire components now demonstrate the reproducibility needed to build functional electronic circuits, and also do so at a size and material complexity difficult to achieve by traditional top-down approaches.
Moreover, the tiled architecture is fully scalable, allowing the assembly of much larger and ever more functional nanoprocessors.
"For the past 10 to 15 years, researchers working with nanowires, carbon nanotubes, and other nanostructures have struggled to build all but the most basic circuits, in large part due to variations in properties of individual nanostructures," says Lieber, the Mark Hyman Professor of Chemistry. "We have shown that this limitation can now be overcome and are excited about prospects of exploiting the bottom-up paradigm of biology in building future electronics."
An additional feature of the advance is that the circuits in the nanoprocessor operate using very little power, even allowing for their miniscule size, because their component nanowires contain transistor switches that are "nonvolatile."
This means that unlike transistors in conventional microcomputer circuits, once the nanowire transistors are programmed, they do not require any additional expenditure of electrical power for maintaining memory.
"Because of their very small size and very low power requirements, these new nanoprocessor circuits are building blocks that can control and enable an entirely new class of much smaller, lighter weight electronic sensors and consumer electronics," says co-author Shamik Das, the lead engineer in MITRE's Nanosystems Group.
"This new nanoprocessor represents a major milestone toward realizing the vision of a nanocomputer that was first articulated more than 50 years ago by physicist Richard Feynman," says James Ellenbogen, a chief scientist at MITRE.
Co-authors on the paper included four members of Lieber's lab at Harvard: Hao Yan (Ph.D. '10), SungWoo Nam (Ph.D. '10), Yongjie Hu (Ph.D. '10), and doctoral candidate Hwan Sung Choe, as well as collaborators at MITRE.
The research team at MITRE comprised Das, Ellenbogen, and nanotechnology laboratory director Jim Klemic. The MITRE Corporation is a not-for-profit company that provides systems engineering, research and development, and information technology support to the government. MITRE's principal locations are in Bedford, Mass., and McLean, Va.
The research was supported by a Department of Defense National Security Science and Engineering Faculty Fellowship, the National Nanotechnology Initiative, and the MITRE Innovation Program.
Story Source:
The above story is reprinted (with editorial adaptations by ScienceDaily staff) from materials provided by Harvard University, via EurekAlert!, a service of AAAS.
Journal Reference:
- Hao Yan, Hwan Sung Choe, SungWoo Nam, Yongjie Hu, Shamik Das, James F. Klemic, James C. Ellenbogen, Charles M. Lieber. Programmable nanowire circuits for nanoprocessors. Nature, 2011; 470 (7333): 240 DOI: 10.1038/nature09749
Posted in: Science
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News from Egypt
'Victory for the revolution'
On Sunday, a statement was read out on state TV from the higher military council, saying it would suspend the constitution and set up a committee to draft a new one, which would then be put to a popular referendum.
Continue reading the main story
Military statement
The country's constitution has prevented many parties and groups from standing in elections, leaving Egypt with a parliament packed with supporters of the National Democratic Party, loyal to Mr Mubarak.
During the transition, the cabinet appointed by Mr Mubarak last month will go on governing, submitting legislation to the army chiefs for approval.
The opposition's Ayman Nour, who challenged Mr Mubarak for the presidency in 2005, described the military leadership's steps as a "victory for the revolution".
Caretaker Prime Minister Ahmed Shafiq said his main priority was to restore the country's security.
"Our main concern now as a cabinet is security - we need to bring back a sense of security to the Egyptian citizen.
"Parallel to that we also want to ensure that the daily life of all Egyptians goes back to normal and that basic needs like bread and healthcare are available."
He said that the country had enough reserves to weather the economic crisis, but that if instability continued there could be "obstacles".
Earlier, Mr Obama welcomed the new military leadership's statement aired on state TV on Saturday, which implicitly confirms that the country's 1979 peace treaty with Israel will remain intact.
Israeli PM Benjamin Netanyahu also welcomed the announcement, saying the treaty was a cornerstone of Middle East stability.
He will meet the visiting chairman of the US military's Joint Chiefs of Staff, Adm Mike Mullen, on Monday to discuss the Egyptian situation.
Adm Mullen arrived in Israel from a meeting with King Abdullah of Jordan, which has also been hit by protests in the wave of Middle Eastern unrest.
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