Information Technology Reference
In-Depth Information
89. Tougaw, D., Johnson, E.W., Egley, D.: Programmable logic implemented using quantum-
dot cellular automata. IEEE Trans. Nanotechnol. 11, 739-745 (2012)
90. Niemier,
M.T.,
Rodrigues,
A.F.,
Kogge,
P.M.:
In:
1st
Workshop
on
Non-silicon
Computation, pp. 38-45 (2002)
91. Lukeman,
P.S.,
Mittal,
A.C.,
Seeman,
N.C.:
Two
dimensional
PNA/DNA
arrays:
estimating
the
helicity
of
unusual
nucleic
acid
polymers.
Chem.
Commun.
2004,
1694-1695 (2004)
92. Winfree, E., Liu, F., Wenzler, L.A., Seeman, N.C.: Design and self-assembly of two-
dimensional DNA crystals. Nature 394, 539-544 (1998)
93. Rothemund, P.W.: Folding DNA to create nanoscale shapes and patterns. Nature 440,
297-302 (2006)
94. Gu, H., Chao, J., Xiao, S.-J., Seeman, N.C.: Dynamic patterning programmed by DNA
tiles captured on a DNA origami substrate. Nat. Nanotechnol. 4, 245-248 (2009)
95. Kim, K.N., Sarveswaran, K., Mark, L., Lieberman, M.: DNA origami as self-assembling
circuit boards. In: Calude, C.S., Hagiya, M., Morita, K., Rozenberg, G., Timmis, J. (eds.)
Unconventional Computation. LNCS, vol. 6079, pp. 56-68. Springer, Heidelberg (2010)
96. Sarveswaran, K., Huber, P., Lieberman, M., Russo, C., Lent, C.S.: In: Third IEEE
Conference on Nanotechnology, 2003. IEEE-NANO 2003, vol. 1, pp. 417-420. IEEE
(2003)
97. Sarveswaran, K., Russo, C., Robinson, A., Huber, P., Lent, C.S., Lieberman, M.: In:
Abstracts of Papers of the American Chemical Society. (Amer Chemical Soc 1155 16TH
ST, NW, Washington, DC 20036 USA, 2002), vol. 224, p. U421 (2002)
98. Bennett, C.H.: Logical reversibility of computation. IBM J. Res. Dev. 17, 525-532 (1973)
99. Leff, H., Rex, A.F.: Maxwell's Demon 2 Entropy, Classical and Quantum Information,
Computing, vol. 2. CRC Press, Boca Raton (2010)
100. Timler, J., Lent, C.S.: Maxwell's demon and quantum-dot cellular automata. J. Appl.
Phys. 94, 1050-1060 (2003)
101. Cavin, R.K., Zhirnov, V.V., Hutchby, J.A., Bourianoff, G.I.: Energy barriers, demons, and
minimum energy operation of electronic devices. Fluctuation Noise Lett. 5, C29-C38
(2005)
102. Zhirnov, V.V., Cavin III, R.K., Hutchby, J.A., Bourianoff, G.I.: Limits to binary logic
switch scaling - a Gedanken model. Proc. IEEE 91, 1934-1939 (2003)
103. Earman, J., Norton, J.D.: Exorcist XIV: the wrath of Maxwell's demon. Part II. From
Szilard to Landauer and beyond. Stud. History Phil. Sci. Part B: Stud. History Phil. Mod.
Phys. 30, 1-40 (1999)
104. Norton, J.D.: Waiting for Landauer. Stud. History Phil. Sci. Part B: Stud. History Phil.
Mod. Phys. 42, 184-198 (2011)
105. Lent, C.S., Liu, M., Lu, Y.: Bennett clocking of quantum-dot cellular automata and the
limits to binary logic scaling. Nanotechnology 17, 4240 (2006)
106. Orlov, A.O., Lent, C.S., Thorpe, C.C., Boechler, G.P., Snider, G.L.: Experimental test of
Landauer's principle at the sub-kBT level. Jpn. J. Appl. Phys. 51, 06FE10 (2012)
107. Snider, G.L., Blair, E.P., Thorpe, C.C., Appleton, B.T., Boechler, G.P., Orlov, A.O., Lent,
C.S.: In: 12th IEEE Conference on Nanotechnology (IEEE-NANO), 2012, pp. 1-6. IEEE
(2012)
108. Boechler, G.P., Whitney, J.M., Lent, C.S., Orlov, A.O., Snider, G.L.: Fundamental limits
of energy dissipation in charge-based computing. Appl. Phys. Lett. 97, 103502-103503
(2010)
Search WWH ::
Custom Search