Session 10: Physical Limits of Information Processing 2
Chairperson: W. Potz
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2:30pm |
Landauer's principle, QCA, and the limits to binary logic scaling
(Invited)
C. S. Lent
University of Notre Dame, USA
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3:00 |
Power Dissipation for Clocked
Magnetic QCA
M. T. Alam, G. H. Bernstein, W. Porod,
S. Hu, M. Niemenr, M. Putney, and J. DeAngelis
University of Notre Dame, USA
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3:15 |
Field-Coupled Computing in Magnetic Multilayers
G. Csaba, M. Becherer, W. Porod, D. Schmitt-Landsiedel,
and P. Lugli
TU München, Germany, and University of Notre Dame, USA
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3:30 |
Simulation of Phonon-induced
Electron Relaxation in Few-particle Single and Double Quantum Dots
A. Bertoni, J. I. Climente, M. Rontani, G. Goldoni and
E. Molinari
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3:45 |
Characterizing molecular
bistability for quantum-dot cellular automata:
what makes a good QCA molecule?
Y. Lu and C. Lent
University of Notre Dame, USA
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4:00 |
Noise Reduction in Analogue Computation in Drosophyla Photoreceptor
K. Nikolik, P. Welinder, J. Loizu, P. Degenaar, and C. Toumazou
Imperial College, London, UK
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