In-plane dominant anisotropy stochastic magnetic tunnel junction for probabilistic computing: A Fokker-Planck study
Recently there is considerable interest to realize efficient and low-cost true random number generators (RNGs) for practical applications. One important way is through the use of bistable magnetic tunnel junctions (MTJs). Here we study the magnetization dynamics of an MTJ, with a focus to realize ef...
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| Abstract | Recently there is considerable interest to realize efficient and low-cost true random number generators (RNGs) for practical applications. One important way is through the use of bistable magnetic tunnel junctions (MTJs). Here we study the magnetization dynamics of an MTJ, with a focus to realize efficient random bit generation under the assumption that the orientation dependence of the energy of the nanomagnet is described by two perpendicular in-plane anisotropies. We find that a high rate of random bit generation is achievable away from the pure easy-axis situation by tuning a single parameter \(H_z\) so that it is either (a) toward a barrierless-like single easy plane situation when \(H_z\) reduces to zero, or (b) toward a stronger easy plane situation when \(H_z\) becomes increasingly negative where transitions between low energy states are confined in the stronger easy plane that contains the saddle points. We find that the MTJs maintain their fast magnetization dynamical characteristics even in the presence of a magnetic field. Our findings provide a valuable guide to achieving efficient generation of probabilistic bits for applications in probabilistic computing. |
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| AbstractList | Journal of Magnetism and Magnetic Materials 586 (2023) 171197 Recently there is considerable interest to realize efficient and low-cost
true random number generators (RNGs) for practical applications. One important
way is through the use of bistable magnetic tunnel junctions (MTJs). Here we
study the magnetization dynamics of an MTJ, with a focus to realize efficient
random bit generation under the assumption that the orientation dependence of
the energy of the nanomagnet is described by two perpendicular in-plane
anisotropies. We find that a high rate of random bit generation is achievable
away from the pure easy-axis situation by tuning a single parameter $H_z$ so
that it is either (a) toward a barrierless-like single easy plane situation
when $H_z$ reduces to zero, or (b) toward a stronger easy plane situation when
$H_z$ becomes increasingly negative where transitions between low energy states
are confined in the stronger easy plane that contains the saddle points. We
find that the MTJs maintain their fast magnetization dynamical characteristics
even in the presence of a magnetic field. Our findings provide a valuable guide
to achieving efficient generation of probabilistic bits for applications in
probabilistic computing. Recently there is considerable interest to realize efficient and low-cost true random number generators (RNGs) for practical applications. One important way is through the use of bistable magnetic tunnel junctions (MTJs). Here we study the magnetization dynamics of an MTJ, with a focus to realize efficient random bit generation under the assumption that the orientation dependence of the energy of the nanomagnet is described by two perpendicular in-plane anisotropies. We find that a high rate of random bit generation is achievable away from the pure easy-axis situation by tuning a single parameter \(H_z\) so that it is either (a) toward a barrierless-like single easy plane situation when \(H_z\) reduces to zero, or (b) toward a stronger easy plane situation when \(H_z\) becomes increasingly negative where transitions between low energy states are confined in the stronger easy plane that contains the saddle points. We find that the MTJs maintain their fast magnetization dynamical characteristics even in the presence of a magnetic field. Our findings provide a valuable guide to achieving efficient generation of probabilistic bits for applications in probabilistic computing. |
| Author | Chee Kwan Gan Zeng, Minggang Chen, Bingjin |
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| BackLink | https://doi.org/10.1016/j.jmmm.2023.171197$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.2309.03056$$DView paper in arXiv |
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| SubjectTerms | Anisotropy Computation Magnetization Physics - Other Condensed Matter Probability theory Random numbers Saddle points Tunnel junctions |
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| Title | In-plane dominant anisotropy stochastic magnetic tunnel junction for probabilistic computing: A Fokker-Planck study |
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