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16. Vacca, M., Graziano, M., Zamboni, M.: Majority voter full characterization for
nanomagnet logic circuits. IEEE Trans. Nanotechnol.
11
(5), 940-947 (2012)
17. Csaba, G., Porod, W.: Simulation of filed coupled computing architectures based
on magnetic dot arrays. J. Comput. Electron.
1
, 87-91 (2002). (Kluwer)
18. 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)
19. 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, Portlan-Oregon,
USA, pp. 26-31. IEEE (2007)
20. Ju, X., Niemier, M.T., Becherer, M., Porod, W., Lugli, P., Csaba, G.: Systolic pat-
tern matching hardware with out-of-plane nanomagnet logic devices. IEEE Trans.
Nanotechnol.
12
(3), 399-407 (2013)
21. Das, J., Alam, S., Bhanja, S.: Low power magnetic quantum cellular automata
realization using magnetic multi-layer structures. J. Emerg. Sel. Top. Circ. Syst.
1
(3), 267-276 (2011)
22. Chung, T., Keller, S., Carman, G.: Electric-field-induced reversible magnetic single-
domain evolution in a magnetoelectric thin film. Appl. Phys. Lett.
94
, 132501
(2009)
23. Csaba, G., Porod, W.: Behavior of nanomagnet logic in the presence of thermal
noise. In: International Workshop on Computational Electronics, Pisa, Italy, pp.
1-4. IEEE (2010)
24. Ercan, I., Anderson, N.: Heat Dissipation Bounds for Nanocomputing: Theory and
Application to QCA (2011)
25. Alam, M., Siddiq, M., Bernstein, G., Niemier, M., Porod, W., Hu, X.: On-chip
clocking for nanomagnet logic devices. IEEE Trans. Nanotechnol.
9
(3), 348-351
(2010)
26. Graziano, M., Vacca, M., Blua, D., Zamboni, M.: Asynchrony in quantum-dot
cellular automata nanocomputation: elixir or poison? IEEE Des. Test Comput.
28
(5), 72-83 (2011)
27. Vacca, M., Graziano, M., Zamboni, M.: Asynchronous solutions for nano-magnetic
logic circuits. ACM J. Emerg. Tech. Comput. Syst.
7
(4), (2011)
28. Walus, K., Dysart, T., Jullien, G., Budiman, R.: Qcadesigner: a rapid design and
simulation tool for quantum-dot cellular automata. IEEE Trans. Nanotechnol.
3
(1), 26-31 (2004)
29. Donahue, M., Porter, D.: OOMMF User's Guide, Version 1.0. Technical Report
Interagency Report NISTIR 6376, National Institute of Standards and Technology,
Gaithersburg, September 1999
30. Fischbacher, T., Franchin, M., Bordignon, G., Fangohr, H.: A systematic app-
roach to multiphysics extensions of finite-element-based micromagnetic simula-
tions: Nmag. IEEE Trans. Magn.
43
(6), 2887-2889 (2007)
31. Scholz, W., Fidler, J., Schrefl, T., Suess, D., Dittrich, R., Forster, H., Tsiantos,
V.: Scalable parallel micromagnetic solvers for magnetic nanostructures. Comput.
Mater. Sci.
28
, 366-383 (2003)
32. Vacca, M., Graziano, M., Zamboni, M.: Nanomagnetic logic microprocessor: hier-
archical power model. IEEE Trans. VLSI Syst.
21
(8), 1410-1420 (2012)
33. 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)
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