Wednesday, March 20, 2013

1303.4258 (Mehdi Kabir et al.)

Computing with Non-equilibrium Ratchets    [PDF]

Mehdi Kabir, Dincer Unluer, Lijun Li, Avik W. Ghosh, Mircea R. Stan
Electronic ratchets transduce local spatial asymmetries into directed currents in the absence of a global drain bias, by rectifying temporal signals that reside far from thermal equilibrium. We show that the absence of a drain bias can provide distinct energy advantages for computation, specifically, reducing static dissipation in a logic circuit. Since the ratchet functions as a gate voltage-controlled current source, it also potentially reduces the dynamic dissipation associated with charging/discharging capacitors. In addition, the unique charging mechanism eliminates timing related constraints on logic inputs, in principle allowing for adiabatic charging. We calculate the ratchet currents in classical and quantum limits, and show how a sequence of ratchets can be cascaded to realize universal Boolean logic.
View original: http://arxiv.org/abs/1303.4258

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