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5. Pulimeno, A., Graziano, M., Piccinini, G.: Molecule interaction for QCA compu-
tation. IEEE International Conference on Nanotechnology, pp. 1-5 (2012)
6. Pulimeno, A., Graziano, M., Demarchi, D., Piccinini, G.: Towards a molecular
QCA wire: simulation of write-in and read-out systems. Solid State Electron. 77 ,
101-107 (2012)
7. Pulimeno, A., Graziano, M., Saginario, A., Cauda, V., Demarchi, D., Piccinini,
G.: Bis-ferrocene molecular QCA wire: ab-initio simulations of fabrication driven
fault tolerance. IEEE Trans. Nanotechnol. 12 (4), 498-507 (2013)
8. Porod, W.: Magnetic Logic Devices Based on Field-Coupled Nanomagnets. Nano
& Giga (2007)
9. Imre, A.: Experimental study of nanomagnets for quantum-dot cellular
automata(MQCA)logic applications. Ph.D. thesis, University of Notre Dame,
Notre Dame, Indiana, December 2005
10. Graziano, M., Vacca, M., Zamboni, M.: Magnetic QCA design: modeling,
simulation and circuits. Cellular Automata - Innovative Modelling for Sci-
ence and Engineering, InTech, (2011) http://www.intechopen.com/articles/show/
title/magnetic-qca-design-modeling-s
11. Niemier, M., et al.: Nanomagnet logic: progress toward system-level integration.
J. Phys. Condens. Matter 23 , 34 (2011)
12. Karunaratne, D., Bhanja, S.: Study of single layer and multilayer nano-magnetic
logic architectures. J. Appl. Phys. 111 , 07A928-07A928-3 (2012)
13. Varga, E., Csaba, G., Bernstein, G., Porod, W.: Implementation of a nanomag-
netic full adder circuit. In: 2011 11th IEEE International Conference on Nan-
otechnology, August 2011
14. Rizos, N., Omar, M., Lugli, P., Csaba, G., Becherer, M., Schmitt-Landsiedel,
D.: Clocking schemes for field coupled devices from magnetic multilayers. In:
International Workshop on Computational Electronics, Beijin, China, IEEE. pp.
1-4 (2009)
15. Vacca, M., Vighetti, D., Mascarino, M., Amaru, L., Graziano, M., Zamboni, M.:
Magnetic QCA majority voter feasibility analysis. In: 2011 7th Conference on
Ph.D. Research in Microelectronics and Electronics (PRIME), pp. 229-232 (2011)
16. Vacca, M., Graziano, M., Zamboni, M.: Majority voter full characterization for
nanomagnet logic circuits. IEEE Trans. Nanotechnol. 11 (5), 940-947 (2012)
17. Niemier, M., Varga, E., Bernstein, G., Porod, W., Alam, M., Dingler, A., Orlov,
A., Hu, X.: Shape engineering for controlled switching with nanomagnet logic.
IEEE Trans. Nanotechnol. 11 (2), 220-230 (2012)
18. Niemier, M., Hu, X., Alam, M., Bernstein, G., Porod, W., Putney, M., DeAngelis,
J.: Clocking structures and power analysis for nanomagnet-based logic devices.
In: International Symposium on Low Power Electronics and Design, Portland-
Oregon, USA, IEEE, pp. 26-31 (2007)
19. Graziano, M., Chiolerio, A., Zamboni, M.: A Technology Aware Magnetic QCA
NCL-HDL Architecture. Genova, Italy, IEEE, pp. 763-766 (2009)
20. Graziano, M., Vacca, M., Chiolerio, A., Zamboni, M.: A NCL-HDL snake-clock
based magnetic QCA architecture. IEEE Trans. Nanotechnol. 10 (5), 1141-1149
(2011)
21. Csaba, G., Porod, W.: Behavior of nanomagnet logic in the presence of ther-
mal noise. In: International Workshop on Computational Electronics, Pisa, Italy,
IEEE, pp. 1-4 (2010)
22. Ercan, I., Anderson, N.: Heat Dissipation Bounds for Nanocomputing: Theory
and Application to QCA (2011)
 
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