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Dynamic random-access memory / Quantum cellular automata / Content-addressable memory / Cell / Random-access memory / Quantum dot cellular automaton / Computer memory / Computer hardware / Computing


Memory in Motion: A Study of Storage Structures in QCA Sarah Elizabeth Frost University of Notre Dame
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Document Date: 2002-01-28 16:24:39

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File Size: 116,26 KB

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Company

Computer Science Press / /

Country

United States / /

/

Facility

Andrew Walter Janiszewski University of Notre Dame Dept. / University of Notre Dame / Randal Thomas Rausch University of Notre Dame Dept. / Peter M. Kogge University of Notre Dame Dept. / Arun Francis Rodrigues University of Notre Dame Dept. / QCA Sarah Elizabeth Frost University of Notre Dame Dept. / University College London / /

IndustryTerm

router devices / memory router / propagated instruction processor / metal island dots / parallel computing / systems / information carrier / Logical devices / left child router / transistor computing / embedded processing capabilities / Molecular electronics / technology roadmap / end-of-the-line transistor memory technology / elementary processing / possible nanometerscale computing device / transmission media / /

Organization

QCA Sarah Elizabeth Frost University / University College London / University of Notre Dame / University of Notre Dame Dept. of Comp / /

Person

Notre Dame / /

Position

head / candidate for comparison against the H-memory / /

ProvinceOrState

Indiana / /

PublishedMedium

Applied Physics Letters / Journal of Applied Physics / /

Technology

quantum dots / propagated instruction processor / CMOS technology / semiconductors / good advantage Each router / QCA technology / end-of-the-line transistor memory technology / memory router / left child router / SRAM / /

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