Exploring Spin Transfer Torque Devices for Unconventional Computing

Roy Kaushik; Fan Deliang; Fong Xuanyao; Kim Yusung; Sharad Mrigank; Paul Somnath; Chatterjee Subho; Bhunia Swarup; Mukhopadhyay Saibal

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Exploring Spin Transfer Torque Devices for Unconventional Computing

机译：探索用于非常规计算的自旋传递扭矩设备

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This paper reviews the potential of spin-transfer torque devices as an alternative to complementary metal–oxide–semiconductor for non-von Neumann and non-Boolean computing. Recent experiments on spin-transfer torque devices have demonstrated high-speed magnetization switching of nanoscale magnets with small current densities. Coupled with other properties, such as nonvolatility, zero leakage current, high integration density, we discuss that the spin-transfer torque devices can be inherently suitable for some unconventional computing models for information processing. We review several spintronic devices in which magnetization can be manipulated by current induced spin transfer torque and explore their applications in neuromorphic computing and reconfigurable memory-based computing.

机译：本文回顾了自旋转移转矩设备作为非冯·诺依曼和非布尔计算的互补金属氧化物半导体替代品的潜力。最近在自旋传递转矩装置上的实验证明了具有小电流密度的纳米级磁体的高速磁化切换。结合其他特性，例如非易失性，零泄漏电流，高集成密度，我们讨论了自旋转移转矩设备可以固有地适合某些非常规的信息处理计算模型。我们回顾了几种自旋电子器件，其中可以通过电流感应的自旋传递转矩来控制磁化强度，并探讨它们在神经形态计算和基于可重构内存的计算中的应用。

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来源
《Emerging and Selected Topics in Circuits and Systems, IEEE Journal on》 |2015年第1期|5-16|共12页
作者
Roy Kaushik; Fan Deliang; Fong Xuanyao; Kim Yusung; Sharad Mrigank; Paul Somnath; Chatterjee Subho; Bhunia Swarup; Mukhopadhyay Saibal;
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作者单位

School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN, USA;

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正文语种 eng
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关键词
Magnetic domain walls; Magnetic domains; Magnetic tunneling; Magnetization; Neurons; Torque; Domain wall motion; in-memory computing; magnetic tunnel junction; neuromorphic computing; spin torque oscillator; spin transfer torque;

机译：磁畴壁;磁畴;磁隧道效应;磁化作用;神经元;转矩;畴壁运动;内存计算;磁隧道结;神经形态计算;自旋转矩振荡器;自旋传递转矩;

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专利

1. Exploring Spin-Transfer-Torque Devices for Logic Applications [J] . Pajouhi Zoha, Venkataramani Swagath, Yogendra Karthik, Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on . 2015,第9期

机译：探索逻辑应用中的自旋转矩装置
2. A VLSI Majority-Logic Device Based on Spin Transfer Torque Mechanism for Brain-Inspired Computing Architecture [J] . Jamshidi Vahid IEEE transactions on very large scale integration (VLSI) systems . 2020,第8期

机译：一种基于旋转转移扭矩机制的VLSI多数逻辑装置，用于脑卒中计算架构
3. Materials, Devices and Spin Transfer Torque in Antiferromagnetic Spintronics: A Concise Review [J] . Cormac Ó Coileain, Han Chun Wu SPIN . 2017,第3期

机译：反铁磁自旋电子学中的材料，器件和自旋传递扭矩：简要综述
4. Exploring Boolean and non-Boolean computing with spin torque devices [C] . Roy Kaushik, Sharad Mrigank, Fan Deliang, IEEE/ACM International Conference on Computer-Aided Design . 2013

机译：使用旋转转矩设备探索布尔和非布尔计算
5. Efficient Neuromorphic Computing Enabled by Spin-Transfer Torque: Devices, Circuits and Systems [D] . Sengupta, Abhronil. 2018

机译：旋转传递扭矩实现的高效神经形态计算：设备，电路和系统
6. Spin‐Torque Memristors: Spin‐Torque Memristors Based on Perpendicular Magnetic Tunnel Junctions for Neuromorphic Computing (Adv. Sci. 10/2021) [O] . Xueying Zhang, Wenlong Cai, Mengxing Wang, 2021

机译：旋转扭矩映射器：基于垂直磁隧道结的旋转扭矩映射用于神经晶体计算（ADV。SCI。10/2021）
7. Exploring Spin-Transfer-Torque Devices for Logic Applications [O] . Pajouhi, Zoha, Venkataramani, Swagath, Yogendra, Karthik, 2015

机译：探索用于逻辑应用的自旋转移力矩设备

Exploring Spin Transfer Torque Devices for Unconventional Computing

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