2021
DOI: 10.1021/acsanm.1c02470
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Stochasticity in the Switching of Nanodisks for Probabilistic Computing

Abstract: Stochasticity in magnetic nanodevices is an essential characteristic for harnessing those devices to computing based on population coding or the building blocks of probabilistic computing, pbits. A magnetic tunneling junction (MTJ) consisting of a patterned magnetic element is considered as a promising computing unit in the concept of artificial neurons and p-bits. The comprehensive understanding of the stochasticity in the switching of patterned magnetic elements is crucial for realizing MTJ based probabilist… Show more

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Cited by 4 publications
(2 citation statements)
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“…To this end, we show that a pyramid-shaped wireframe can support six antivortices without vortices, while a cube-shaped structure allows to stabilize eight surface antivortices without vortices. Because of the topological stability of solitons of similar kind, even upon interaction they are stable against annihilation, which suggests their relevance for applications in low-power computation schemes utilizing paradigms of reservoir 3 , 4 and probabilistic 21 , 22 computing.
Fig.
…”
Section: Introductionmentioning
confidence: 99%
“…To this end, we show that a pyramid-shaped wireframe can support six antivortices without vortices, while a cube-shaped structure allows to stabilize eight surface antivortices without vortices. Because of the topological stability of solitons of similar kind, even upon interaction they are stable against annihilation, which suggests their relevance for applications in low-power computation schemes utilizing paradigms of reservoir 3 , 4 and probabilistic 21 , 22 computing.
Fig.
…”
Section: Introductionmentioning
confidence: 99%
“…P-circuits have also been demonstrated to accelerate hard optimization problems and quantum Monte Carlo algorithms. , Probabilistic bits have previously been implemented in existing CMOS technology. However, these implementations suffer from costly (pseudo) random number generators requiring thousands of transistors and poor quality of randomness, increasing energy and area costs for stochastic circuits. Even when the most advanced technology nodes are used, the ultimate scalability of standard digital CMOS-based p-bits is limited.…”
mentioning
confidence: 99%