Benjamin W. Walker scite author profile

Benjamin W. Walker

3Publications

43Citation Statements Received

187Citation Statements Given

How they've been cited

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172

187

Affiliations

The University of Texas at Dallas

Publications

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Skyrmion logic clocked via voltage-controlled magnetic anisotropy

Walker

Cui

García‐Sánchez

et al. 2021

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Magnetic skyrmions are exciting candidates for energy-efficient computing due to their nonvolatility, detectability, and mobility. A recent proposal within the paradigm of reversible computing enables large-scale circuits composed of directly cascaded skyrmion logic gates, but it is limited by the manufacturing difficulty and energy costs associated with the use of notches for skyrmion synchronization. To overcome these challenges, we, therefore, propose a skyrmion logic synchronized via modulation of voltage-controlled magnetic anisotropy (VCMA). In addition to demonstrating the principle of VCMA synchronization through micromagnetic simulations, we also quantify the impacts of current density, skyrmion velocity, and anisotropy barrier height on skyrmion motion. Further micromagnetic results demonstrate the feasibility of cascaded logic circuits in which VCMA synchronizers enable clocking and pipelining, illustrating a feasible pathway toward energy-efficient large-scale computing systems based on magnetic skyrmions.

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Logical and Physical Reversibility of Conservative Skyrmion Logic

Walker

García‐Sánchez

et al. 2022

IEEE Magn. Lett.

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Magnetic skyrmions and domain walls for logical and neuromorphic computing

Cui

Liu

et al. 2023

Neuromorph. Comput. Eng.

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Topological solitons are exciting candidates for the physical implementation of next-generation computing systems. As these solitons are nanoscale and can be controlled with minimal energy consumption, they are ideal to fulfill emerging needs for computing in the era of big data processing and storage. Magnetic domain walls and magnetic skyrmions are two types of topological solitons that are particularly exciting for next-generation computing systems in light of their non-volatility, scalability, rich physical interactions, and ability to exhibit non-linear behaviors. Here we summarize the development of computing systems based on magnetic topological solitons, highlighting logical and neuromorphic computing with magnetic domain walls and skyrmions.

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