Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control
Driven by the need to address both the von Neumann bottleneck and scaling limits predicted by Moore's law, spintronic devices have been shown to be strong contenders for logic-in-memory applications. While several field-free spin–orbit torque (SOT)-driven logic devices have been proposed, their...
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sg-ntu-dr.10356-1542212021-12-31T13:47:28Z Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control Lim, Gerard Joseph Chua Daniel Gan Weiliang Murapaka Chandrasekhar Lew Wen Siang School of Physical and Mathematical Sciences Science::Physics Boolean Logic Reconfigurable Logic Devices Driven by the need to address both the von Neumann bottleneck and scaling limits predicted by Moore's law, spintronic devices have been shown to be strong contenders for logic-in-memory applications. While several field-free spin–orbit torque (SOT)-driven logic devices have been proposed, their operation typically requires additional initialization or reset pulses, the exchange-coupled canted spins reduce both anomalous Hall sign-to-noise ratio as well as thermal stability of the ferromagnetic layer, and device-to-device variation in exchange coupling strength is expected. A reconfigurable SOT-driven logic device using a double Hall cross structure with an integrated bias field line for the generation of a local bias field is experimentally demonstrated. The on-chip bipolar bias field can be toggled to flip the SOT-induced switching chirality, and to assist with deterministic SOT magnetization switching, thereby enabling on-the-fly reconfigurability of the logic device to function as one of the several possible logic gates, e.g., AND, NOR, XNOR, XOR, NIMP, and converse NIMP. It is then shown through compact-modeling and circuit simulation that the applications of such reconfigurable logic devices can be further expanded to build half-adders. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) The work was supported by the Singapore National Research Foundation, Prime Minister’s Office under a Competitive Research Programme (Non-volatile Magnetic Logic and Memory Integrated Circuit Devices, NRF-CRP9-2011-01) and an Industry-IHL Partnership Program (NRF2015-IIP001-001). The support from a RIE2020 ASTAR AME IAF-ICP Grant (No. I1801E0030) and an ASTAR AME Programmatic Grant (No. A1687b0033) is also acknowledged. W.S.L. is a member of the SG-SPIN Consortium. 2021-12-16T03:39:12Z 2021-12-16T03:39:12Z 2020 Journal Article Lim, G. J., Chua Daniel, Gan Weiliang, Murapaka Chandrasekhar & Lew Wen Siang (2020). Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control. Advanced Electronic Materials, 6(4), 1901090-. https://dx.doi.org/10.1002/aelm.201901090 2199-160X https://hdl.handle.net/10356/154221 10.1002/aelm.201901090 2-s2.0-85081640903 4 6 1901090 en NRF-CRP9-2011-01 NRF2015-IIP001-001 1801E0030 A1687b0033 Advanced Electronic Materials © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. All rights reserved. |
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Science::Physics Boolean Logic Reconfigurable Logic Devices Lim, Gerard Joseph Chua Daniel Gan Weiliang Murapaka Chandrasekhar Lew Wen Siang Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| description |
Driven by the need to address both the von Neumann bottleneck and scaling limits predicted by Moore's law, spintronic devices have been shown to be strong contenders for logic-in-memory applications. While several field-free spin–orbit torque (SOT)-driven logic devices have been proposed, their operation typically requires additional initialization or reset pulses, the exchange-coupled canted spins reduce both anomalous Hall sign-to-noise ratio as well as thermal stability of the ferromagnetic layer, and device-to-device variation in exchange coupling strength is expected. A reconfigurable SOT-driven logic device using a double Hall cross structure with an integrated bias field line for the generation of a local bias field is experimentally demonstrated. The on-chip bipolar bias field can be toggled to flip the SOT-induced switching chirality, and to assist with deterministic SOT magnetization switching, thereby enabling on-the-fly reconfigurability of the logic device to function as one of the several possible logic gates, e.g., AND, NOR, XNOR, XOR, NIMP, and converse NIMP. It is then shown through compact-modeling and circuit simulation that the applications of such reconfigurable logic devices can be further expanded to build half-adders. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Lim, Gerard Joseph Chua Daniel Gan Weiliang Murapaka Chandrasekhar Lew Wen Siang |
| format |
Article |
| author |
Lim, Gerard Joseph Chua Daniel Gan Weiliang Murapaka Chandrasekhar Lew Wen Siang |
| author_sort |
Lim, Gerard Joseph |
| title |
Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| title_short |
Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| title_full |
Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| title_fullStr |
Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| title_full_unstemmed |
Programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| title_sort |
programmable spin–orbit-torque logic device with integrated bipolar bias field for chirality control |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/154221 |
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1722355389259841536 |