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41. Vacca, M., Frache, S., Graziano, M., Zamboni, M.: ToPoliNano: a synthesis and
simulation tool for NML circuits. In: IEEE International Conference on Nanotech-
nology, pp. 1-6, August 2012
42. Vacca, M., Frache, S., Graziano, M., Crescenzo, L., Cairo, F., Zamboni, M.: Auto-
matic Place&Route of Nano-magnetic Logic circuits. pp. 58-63, July 2013
43. Frache, S., Chiabrando, D., Graziano, M., Graziano, M., Boarino, L., Zamboni,
M.: Enabling design and simulation of massive parallel nanoarchitectures. J. Par-
allel Distrib. Comput. 74 , 2530-2541 (2014)
44. Donahue, M., Porter, D.: OOMMF User's Guide, Version 1.0. Technical Report
Interagency Report NISTIR 6376, National Institute of Standards and Technol-
ogy, Gaithersburg, September 1999
45. 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), 2896 (2007)
46. Scholz, W., Fidler, J., Schrefl, T., Suess, D., Dittrich, R., Forster, H., Tsiantos,
V.: Scalable parallel micromagnetic solvers for magnetic nanostructures. Comp.
Mat. Sci. 28 , 366-383 (2003)
47. Awais, M., Vacca, M., Graziano, M., Masera, G.: FFT Implementation using
QCA. In: 2012 19th IEEE International Conference on Electronics, Circuits and
Systems (ICECS), pp. 741-744 (2012)
48. Awais, M., Vacca, M., Graziano, M., Masera, G.: Quantum dot cellular automata
check node implementation for LDPC decoders. IEEE Trans. Nanotechnol. 12 (3),
368-377 (2013)
49. Wang, J., Vacca, M., Graziano, M., Zamboni, M.: Biosequences analysis on nano-
magnet logic. In: International Conference on IC Design and Technology, pp.
131-134, May 2013
50. Urgese, G., Graziano, M., Vacca, M., Awais, M., Frache, S., Zamboni, M.: Pro-
tein alignment HW/SW optimizations. In: The IEEE International Conference
on Electronics, Circuits, and Systems (ICECS), pp. 145-148 (2012)
51. Graziano, M., Frache, S., Zamboni, M.: A hardware viewpoint on biosequence
analysis: what's next? ACM J. Emerg. Technol. Comput. Syst. 9 (4), 29 (2013)
52. Chidambaram, N., Mazzalai, A., Muralt, P.: Comparison of lead zirconate titanate
(PZT) thin films for MEMS energy harvester with interdigitated and parallel plate
electrodes. IEEE Trans. Ultrason. Ferr. 59 (8), 1624-1631 (2012)
53. Ortner, K., Koeßler, D., Jung, T., Jacobsen, H., Quenzer, H.: Influence of bias
voltage on the structure of lead zirconate titanate piezoelectric films prepared by
gas flow sputtering. Plasma Process. Polym. 4 (1), S134-S138 (2004)
54. Park, C.S., Lee, J.W., Park, G.T., Kim, H.E.: Microstructural evolution and piezo-
electric properties of thick Pb(Zr, Ti)O3 films deposited by the multi-sputtering
method: Part II. Piezoelectric properties. J. Mater. Res. 22 (5), 1373-1377 (2007)
55. Du, X.H., Zheng, J., Belegundu, U., Uchino, K.: Crystal orientation dependence
of piezoelectric properties of lead zirconate titanate near the morphotropic phase
boundary. Appl. Phys. Lett. 72 (19), 2421-2423 (1998)
56. Kakimoto, K.I., Kakemoto, H., Fujita, S., Masuda, Y.: Control of crystal orien-
tation and piezoelectric response of lead zirconate titanate thin films near the
morphotropic phase boundary. J. Am. Ceram. Soc. 85 (4), 1019-1021 (2002)
57. Wu, J., Xiao, D., Wang, Y., Zhu, J., Zhu, J., Xie, R.: Crystal orientation depen-
dence of piezoelectric properties of lead zirconate titanate near the morphotropic
phase boundary. J. Am. Ceram. Soc. 91 (11), 3786-3788 (2008)
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