Download Computer Arithmetics for Nanoelectronics by Vlad P Shmerko; Svetlana N Yanushkevich; Sergey Edward PDF

By Vlad P Shmerko; Svetlana N Yanushkevich; Sergey Edward Lyshevski

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In molecular (nano) electronics, self-assembly is defined as a method of fabrication of the molecular computing structures that relies on chemicals, forming larger structures without centralized or external control. This is the spontaneous organization of molecules under thermodynamic equilibrium conditions into a structurally well-defined and rather stable arrangement. Self- Introduction 13 assembly in this system is associated with bottom-up design. The key engineering principle for molecular self-assembly is to design molecular building blocks that are able to undergo spontaneous stepwise interactions.

7 Further study [1] Adamatzky A. Computing with waves in chemical media: Massively parallel reaction-diffusion processors, IEICE Trans. , E87-C(11):1748-1756, 2004. [2] Adleman LM. Molecular computation of solutions to combinatorial problems. Science, 226, November, pp. 1021–1024, 1994. [3] Aguirre AH and Coello CAC. Evolutionary synthesis of logic circuits using information theory. , Artificial Intelligence in Logic Design, pp. 285–311, Kluwer, Dordrecht, 2004. [4] Aoki T, Homma N, and Higuchi T.

All these processes are very selective and reject defects so that the resulting structure is characterized by a high degree of perfection. Selforganization techniques are similar to the process of development of biological organisms. Repeated duplication of a group of atoms by a screw axis produces a pattern called a helix. If the atoms are joined by chemical bonds in a continuous chain from one group to the next, the result is a helical molecule that extends the length of the crystal. It is possible to construct helical molecules by a symmetry operation similar to a screw axis, except that the angle of rotation from one group to the next is not an integral fraction of 360◦ .

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