Single chip integrates transistors and photonic components
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Single chip integrates transistors and photonic components
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ach new year brings with it new cell phones and computers that out perform their predecessors. The regular and continuing improvement in computing power is one of the great successes of modern engineering; however, as consumers become more dependent on their devices, they increasingly demand better battery life. Now scientists may have created one possible solution to this problem by incorporating next-generation photonic materials into traditional circuits, promising computers that are capable of running more calculations on less energy. In a recent issue of Nature (DOI:10. 1038/nature16454), Chen Sun and Yunsep Lee of the University of California–Berkeley, Mark T. Wade of the University of Colorado Boulder, Jason S. Orcutt of the Massachusetts Institute of Technology, and their colleagues describe a “zero-change” method to incorporate
photonic device structures into the existing microelectronics design framework. Photonic components can quickly and efficiently convey information using less power, but they have been difficult to adapt to conventional microelectronics fabrication processes. This is because the electronic and photonic structures are generally fabricated separately and then connected in mul- Image of the integrated electronic–photonic processor design. Credit: Nature. tiple, cumbersome steps. The method proposed by Sun and colleagues incorporates SiGe and traditional Si using conmicroprocessor and memory modules ventional, silicon-on-insulator, compleconnected by a photonic waveguide, mentary metal oxide semiconductor where this module is stable under a processing. This approach represents a range of operating conditions. The significant advantage, since companies group argues that their approach can could potentially save billions of dollars be expanded to more complex designs, by using existing processing lines. The paving the way for a broad spectrum of researchers demonstrated their methelectronic–photonic processors. Steven Spurgeon od by fabricating a chip consisting of
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