Litcius/Paper detail

Spintronic Physical Unclonable Functions Based on Field‐Free Spin–Orbit‐Torque Switching

Soogil Lee, Jaimin Kang, Jeong‐Mok Kim, Namhee Kim, Donghyeon Han, Taekhyeon Lee, San Ko, Jiseok Yang, Sanghwa Lee, Sung-Jun Lee, Daekyu Koh, Min‐Gu Kang, Jisung Lee, Sujung Noh, Hansaem Lee, Joonhyun Kwon, Seung‐heon Chris Baek, Kab‐Jin Kim, Byong‐Guk Park

2022Advanced Materials56 citationsDOIOpen Access PDF

Abstract

Physical unclonable function (PUFs) utilize inherent random physical variations of solid-state devices and are a core ingredient of hardware security primitives. PUFs promise more robust information security than that provided by the conventional software-based approaches. While silicon- and memristor-based PUFs are advancing, their reliability and scalability require further improvements. These are currently limited by output fluctuations and associated additional peripherals. Here, highly reliable spintronic PUFs that exploit field-free spin-orbit-torque switching in IrMn/CoFeB/Ta/CoFeB structures are demonstrated. It is shown that the stochastic switching polarity of the perpendicular magnetization of the top CoFeB can be achieved by manipulating the exchange bias directions of the bottom IrMn/CoFeB. This serves as an entropy source for the spintronic PUF, which is characterized by high entropy, uniqueness, reconfigurability, and digital output. Furthermore, the device ensures a zero bit-error-rate under repetitive operations and robustness against external magnetic fields, and offers scalable and energy-efficient device implementations.

Topics & Concepts

SpintronicsMaterials sciencePhysical unclonable functionHardware security moduleScalabilityReconfigurabilityRobustness (evolution)Computer scienceMagnetoresistive random-access memoryElectronic engineeringCondensed matter physicsCryptographyArbiterComputer hardwarePhysicsRandom access memoryFerromagnetismEngineeringComputer securityDatabaseGeneTelecommunicationsChemistryBiochemistryAdvanced Memory and Neural ComputingPhysical Unclonable Functions (PUFs) and Hardware SecurityIntegrated Circuits and Semiconductor Failure Analysis