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arxiv: 2412.08017 · v1 · pith:EWAJRIBP · submitted 2024-12-11 · physics.app-ph · cond-mat.dis-nn

Integrated probabilistic computer using voltage-controlled magnetic tunnel junctions as its entropy source

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classification physics.app-ph cond-mat.dis-nn
keywords magneticprobabilisticbitschipcmosentropypimsvoltage-controlled
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Probabilistic Ising machines (PIMs) provide a path to solving many computationally hard problems more efficiently than deterministic algorithms on von Neumann computers. Stochastic magnetic tunnel junctions (S-MTJs), which are engineered to be thermally unstable, show promise as entropy sources in PIMs. However, scaling up S-MTJ-PIMs is challenging, as it requires fine control of a small magnetic energy barrier across large numbers of devices. In addition, non-spintronic components of S-MTJ-PIMs to date have been primarily realized using general-purpose processors or field-programmable gate arrays. Reaching the ultimate performance of spintronic PIMs, however, requires co-designed application-specific integrated circuits (ASICs), combining CMOS with spintronic entropy sources. Here we demonstrate an ASIC in 130 nm foundry CMOS, which implements integer factorization as a representative hard optimization problem, using PIM-based invertible logic gates realized with 1143 probabilistic bits. The ASIC uses stochastic bit sequences read from an adjacent voltage-controlled (V-) MTJ chip. The V-MTJs are designed to be thermally stable in the absence of voltage, and generate random bits on-demand in response to 10 ns pulses using the voltage-controlled magnetic anisotropy effect. We experimentally demonstrate the chip's functionality and provide projections for designs in advanced nodes, illustrating a path to millions of probabilistic bits on a single CMOS+V-MTJ chip.

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Cited by 1 Pith paper

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Performance analysis of classical adiabatic annealing on Ising machines

    quant-ph 2026-06 unverdicted novelty 4.0

    Hybrid classical adiabatic annealing yields marginal improvements on limited MaxCut instances but offers no substantial practical benefit over existing techniques for Ising machines.