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| width="140" |'''title''': | | width="140" |'''title''': | ||
− | | width=" | + | | width="500"|Synthesis and Performance Optimization of a Switching Nano-Crossbar Computer |
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| width="140" |'''acronym''': | | width="140" |'''acronym''': | ||
− | | width=" | + | | width="500"|NANOxCOMP |
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| '''principal investigator / coordinator''': | | '''principal investigator / coordinator''': | ||
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* Dr. Dan Alexandrescu, [http://www.iroctech.com/ IROC Techonogies], France <br> | * Dr. Dan Alexandrescu, [http://www.iroctech.com/ IROC Techonogies], France <br> | ||
* Prof. Lorena Anghel, [http://tima.imag.fr/tima/en/index.html TIMA Lab.], France <br> | * Prof. Lorena Anghel, [http://tima.imag.fr/tima/en/index.html TIMA Lab.], France <br> | ||
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| '''funding agency & program''': | | '''funding agency & program''': | ||
− | | width=" | + | | width="500"| [http://ec.europa.eu/research/mariecurieactions/about-msca/actions/rise/index_en.htm European Union/European Commission H2020 MCSA Research and Innovation Staff Exchange Program (RISE)] |
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| '''budget''': | | '''budget''': |
Revision as of 09:34, 13 April 2017
Welcome to the NANOxCOMP Project | |
Nano-crossbar arrays have emerged as a strong candidate technology to replace CMOS in near future. They are regular and dense structures, and fabricated by exploiting self-assembly as opposed to purely using lithography based conventional and relatively costly CMOS fabrication techniques. Currently, nano-crossbar arrays are fabricated such that each crosspoint can be used as a conventional electronic component such as a diode, a FET, or a switch. This is a unique opportunity that allows us to integrate well developed conventional circuit design techniques into nano-crossbar arrays. Motivated by this, we aim to develop a complete synthesis and performance optimization methodology for switching nano-crossbar arrays that leads to the design and construction of an emerging nanocomputer.
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