By Sandeep Kumar Shukla, R. Iris Bahar
One of many grand demanding situations within the nano-scopic computing period is promises of robustness. powerful computing procedure layout is faced with quantum actual, probabilistic, or even organic phenomena, and making certain excessive reliability is far tougher than ever ahead of. Scaling units right down to the extent of unmarried electron operation will bring on new demanding situations as a result of probabilistic results and uncertainty in making certain 'zero-one' established computing. Minuscule units suggest billions of units on a unmarried chip, that could support mitigate the problem of uncertainty by means of replication and redundancy. although, such equipment densities will create a layout and validation nightmare with the shear scale. The questions that confront desktop engineers in regards to the present prestige of nanocomputing fabric and the reliability of platforms outfitted from such miniscule units, are tough to articulate and solution. we have now discovered an absence of assets within the confines of a unmarried quantity that a minimum of in part makes an attempt to reply to those questions. We think that this quantity encompasses a great amount of analysis fabric in addition to new principles that would be very helpful for a few one beginning learn within the area of nanocomputing, no longer on the machine point, however the difficulties one may face at method point layout and validation whilst nanoscopic physicality might be current on the equipment point.
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Additional info for Nano, Quantum and Molecular Computing: Implications to High Level Design and Validation
5. The entire graphene sheet can thus be constructed by translating the unit cell along the linear combinations of the basis vectors, a1 and a2 . Let us deﬁne the translation vector as T = ma1 + na2 where m and n are integers. 1) 1 y¯ 2 √ where, a0 = 3acc . In graphene, the 2pz orbitals gives rise to π bonds, which determine the electronic properties of graphene. We may also assume that the electrons are tightly bound to the respective atoms and only the wave functions of neighboring atoms overlap to a small extent.
Beverly, J. M. F. R. Heath. Science, 289:1172–1175, 2000.  S. Datta. Quantum transport: from Atom to Transistor. Cambridge Unievrsity Press, 2003.  V. De and S. Borkar. Technology and design challenges for low power and high performance. In Proc. of Intl. Symp. on Low Power Electronics and Design, pages 163–168, August 1999.  R. H. Dennard, F. H. Gaensslen, H. N. Yu, V. L. Rideout, E. Bassous, and A. R. LeBlanc. Design of ion-implanted MOSFETs with very small physical dimensions. IEEE J.
Keshavarzi, and V. De. Parameter variations and impact on circuits and microarchitecture. In Proceedings of Design Automation Conference, pages 338–342, June 2003.  J. Brews. High Speed Semiconductor Devices. John Wiley & Sons, New York, 1990. J. Burke. Luttinger liquid theory as a model of the gigahertz electrical properties of carbon nanotubes. IEEE Transactions on Nanotechnology, 1(3):129–144, September 2002. J. Burke. An RF circuit model for carbon nanotubes. IEEE Trans Nanotechnology, 2(1):55–58, March 2003.