Researchers at Harvard University and Mitre have detailed the architecture for a programmable nanoprocessor built out of ultra-small nanowires.
The nanoprocessor, outlined in a Nature article published this week, is formed of 496 non-volatile field effect transistor (FET) nodes arranged in a 960-micrometer-square area, overlaid with semiconductor materials.
"This work represents a quantum jump forward in the complexity and function of circuits built from the bottom up," said Harvard's Charles Lieber, who led the research, in a statement. "[The work] 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."
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