Computational logic with square rings of nanomagnets

Nanomagnets are a promising low-power alternative to traditional computing. However, the successful implementation of nanomagnets in logic gates has been hindered so far by a lack of reliability. Here, we present a novel design with dipolar-coupled nanomagnets arranged on a square lattice to (i) sup...

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Bibliographic Details
Published in:Nanotechnology 2018-06, Vol.29 (26), p.265205-265205
Main Authors: Arava, Hanu, Derlet, Peter M, Vijayakumar, Jaianth, Cui, Jizhai, Bingham, Nicholas S, Kleibert, Armin, Heyderman, Laura J
Format: Article
Language:English
Subjects:
Boolean algebra
Boolean logic
computation
dipolar coupling
nanomagnetism
thermally active nanomagnets
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Summary:Nanomagnets are a promising low-power alternative to traditional computing. However, the successful implementation of nanomagnets in logic gates has been hindered so far by a lack of reliability. Here, we present a novel design with dipolar-coupled nanomagnets arranged on a square lattice to (i) support transfer of information and (ii) perform logic operations. We introduce a thermal protocol, using thermally active nanomagnets as a means to perform computation. Within this scheme, the nanomagnets are initialized by a global magnetic field and thermally relax on raising the temperature with a resistive heater. We demonstrate error-free transfer of information in chains of up to 19 square rings and we show a high level of reliability with successful gate operations of ∼94% across more than 2000 logic gates. Finally, we present a functionally complete prototype NAND/NOR logic gate that could be implemented for advanced logic operations. Here we support our experiments with simulations of the thermally averaged output and determine the optimal gate parameters. Our approach provides a new pathway to a long standing problem concerning reliability in the use of nanomagnets for computation.
ISSN:0957-4484
1361-6528
DOI:10.1088/1361-6528/aabbc3