Title :
Nanomagnet Logic Gate With Programmable-Electrical Input
Author :
Abu Jafar Siddiq, Mohammad ; Butler, Katherine ; Dey, Hemanta ; Shah, Faisal Ahmed ; Peng Li ; Varga, Edit ; Orlov, Alexei ; Csaba, Gyorgy ; Niemier, Michael ; Porod, Wolfgang ; Bernstein, Gary H.
Author_Institution :
Dept. of Electr. Eng., Univ. of Notre Dame, Notre Dame, IN, USA
Abstract :
We report a clock/logic/input structure for nanomagnet logic (NML) that implements a two-input slant-based OR gate with both clocking and input programming through current pulses. The clock line is a copper conductor embedded in a Si substrate with CoFe as a flux concentrator. Inputs are implemented with overlaid and dedicated bias lines. The programmability of such inputs allows us to test the same NML device for all possible input combinations. Results are determined by magnetic force microscopy. This scheme is easy to fabricate and can control thicker (20-30 nm) input nanomagnets. Close proximity of bias lines in such a structure allows us to investigate the effect of overlapping bias fields. We also report micromagnetic simulations that relate the slant in the output magnet to the dimensions of the input nanomagnets required to effect proper logic operation.
Keywords :
clocks; cobalt compounds; logic gates; magnetic force microscopy; magnetic logic; micromagnetics; nanomagnetics; CoFe; NML device; Si; clock line; clock-logic-input structure; close proximity; copper conductor; dedicated bias lines; flux concentrator; input programming; magnetic force microscopy; micromagnetic simulations; nanomagnet logic gate; overlapping bias field effect; programmable-electrical input; size 20 nm to 30 nm; two-input slant-based OR gate; Clocks; Copper; Logic gates; Magnetic resonance imaging; Magnetic separation; Magnetization; System-on-chip; Nanomagnet logic (NML); on-chip integration; programmable input;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2325853
