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Title: Domain wall-magnetic tunnel junction spin–orbit torque devices and circuits for in-memory computing

Journal Article · · Applied Physics Letters
DOI:https://doi.org/10.1063/5.0038521· OSTI ID:1970665
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There are pressing problems with traditional computing, especially for accomplishing data-intensive and real-time tasks, that motivate the development of in-memory computing devices to both store information and perform computation. Magnetic tunnel junction memory elements can be used for computation by manipulating a domain wall, a transition region between magnetic domains, but the experimental study of such devices has been limited by high current densities and low tunnel magnetoresistance. Here, we study prototypes of three-terminal domain wall-magnetic tunnel junction in-memory computing devices that can address data processing bottlenecks and resolve these challenges by using perpendicular magnetic anisotropy, spin–orbit torque switching, and an optimized lithography process to produce average device tunnel magnetoresistance TMR = 171% and average resistance-area product RA = 29 Ω μm2, close to the RA of the unpatterned film. Device initialization variation in switching voltage is shown to be curtailed to 7%–10% by controlling the domain wall initial position, which we show corresponds to 90%–96% accuracy in a domain wall-magnetic tunnel junction full adder simulation. Repeatability of writing and resetting the device is shown. A circuit shows an inverter operation between two devices, showing that a voltage window is large enough, compared to the variation noise, to repeatably operate a domain wall-magnetic tunnel junction circuit. These results make strides in using magnetic tunnel junctions and domain walls for in-memory and neuromorphic computing applications.

Sponsoring Organization:
USDOE
Grant/Contract Number:
NA0003525
OSTI ID:
1970665
Journal Information:
Applied Physics Letters, Journal Name: Applied Physics Letters Vol. 118 Journal Issue: 11; ISSN 0003-6951
Publisher:
American Institute of PhysicsCopyright Statement
Country of Publication:
United States
Language:
English

References (22)

SPICE-Only Model for Spin-Transfer Torque Domain Wall MTJ Logic journal June 2019
Fabrication of magnetic tunnel junctions connected through a continuous free layer to enable spin logic devices journal February 2018
Highly Efficient Domain Walls Injection in Perpendicular Magnetic Anisotropy Nanowire journal April 2016
Low Energy Magnetic Domain Wall Logic in Short, Narrow, Ferromagnetic Wires journal January 2012
SRAM design on 65-nm CMOS technology with dynamic sleep transistor for leakage reduction journal April 2005
Three-terminal magnetic tunnel junction synapse circuits showing spike-timing-dependent plasticity journal September 2019
Magnetic Domain Wall Based Synaptic and Activation Function Generator for Neuromorphic Accelerators journal December 2019
Logic circuit prototypes for three-terminal magnetic tunnel junctions with mobile domain walls journal January 2016
Energy-Efficient Abundant-Data Computing: The N3XT 1,000x journal December 2015
Magnetic domain wall neuron with lateral inhibition journal October 2018
A 27% Active and 85% Standby Power Reduction in Dual-Power-Supply SRAM Using BL Power Calculator and Digitally Controllable Retention Circuit journal January 2014
Naturally Oxidized FeCo as a Magnetic Coupling Layer for Electrically Isolated Read/Write Paths in mLogic journal July 2013
Scanning Kerr microscopy study of current-induced switching in Ta/CoFeB/MgO films with perpendicular magnetic anisotropy journal January 2016
Maximized lateral inhibition in paired magnetic domain wall racetracks for neuromorphic computing journal May 2020
In-memory computing with resistive switching devices journal June 2018
Current-driven magnetic domain-wall logic journal March 2020
Radiation impact of swift heavy ion beams on double-interface CoFeB/MgO magnetic tunnel junctions journal April 2020
Proposal for an All-Spin Artificial Neural Network: Emulating Neural and Synaptic Functionalities Through Domain Wall Motion in Ferromagnets journal December 2016
Spin orbit torques induced magnetization reversal through asymmetric domain wall propagation in Ta/CoFeB/MgO structures journal January 2018
Energy and Performance Benchmarking of a Domain Wall-Magnetic Tunnel Junction Multibit Adder journal December 2019
Introduction and pinning of domain walls in 50nm NiFe constrictions using local and external magnetic fields journal May 2016
Proposal of a Spin Torque Majority Gate Logic journal August 2011

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