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Spin-Orbit Torque Flash Analog-to-Digital Converter

Emerging Technologies 2023-01-10 v1

Abstract

Although Analog-to-digital converters (ADCs) are critical components in mixed-signal integrated circuits (IC), their performance has not been improved significantly over the last decade. To achieve a radical improvement (compact, low power and reliable ADCs), spintronics can be considered as a proper candidate due to its compatibility with CMOS and wide applications in storage, neuromorphic computing, and so on. In this paper, a proof-of-concept of a 3-bit spin-CMOS Flash ADC using in-plane-anisotropy magnetic tunnel junctions (i-MTJs) with spin-orbit torque (SOT) switching mechanism is designed, fabricated and characterized. The proposed ADC replaces the current mirrors and power-hungry comparators in the conventional Flash ADC with seven parallel i-MTJs with different heavy metal (HM) widths. Monte-Carlo simulations based on the experimental measurements show the process variations/mismatch limits the accuracy of the proposed ADC to 2 bits. Moreover, the maximum differential nonlinearity (DNL) and integral nonlinearity (INL) are 0.739 LSB (least significant bit) and 0.7319 LSB, respectively.

Cite

@article{arxiv.2301.03232,
  title  = {Spin-Orbit Torque Flash Analog-to-Digital Converter},
  author = {Hamdam Ghanatian and Luana Benetti and Pedro Anacleto and Tim Bohnert and Hooman Farkhani and Ricardo Ferreira and Farshad Moradi},
  journal= {arXiv preprint arXiv:2301.03232},
  year   = {2023}
}
R2 v1 2026-06-28T08:07:16.154Z