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    Spin torque oscillator based on magnetic tunnel junction with MgO cap layer for radio-frequency-oriented neuromorphic computing

    2023-11-02 08:12:30HuayaoTu涂華垚YanxiangLuo雒雁翔KexinZeng曾柯心YuxuanWu吳宇軒LikeZhang張黎可BaoshunZhang張寶順andZhongmingZeng曾中明
    Chinese Physics B 2023年10期
    關(guān)鍵詞:張黎

    Huayao Tu(涂華垚), Yanxiang Luo(雒雁翔), Kexin Zeng(曾柯心),5, Yuxuan Wu(吳宇軒),Like Zhang(張黎可), Baoshun Zhang(張寶順), and Zhongming Zeng(曾中明),4,?

    1School of Nano Technology and Nano Bionics,University of Science and Technology of China,Hefei 230026,China

    2Nanofabrication Facility,Suzhou Institute of Nano-Tech and Nano-Bionics,Chinese Academy of Sciences,Suzhou 215123,China

    3School of Electronics and Information Engineering,Wuxi University,Wuxi 214105,China

    4Nanchang(SINANONC)Nano-Devices and Technologies Division,Suzhou Institute of Nano-Tech and Nano-Bionics,Chinese Academy of Sciences,Nanchang 330200,China

    5Nano Science and Technology Institute,University of Science and Technology of China,Suzhou 215123,China

    Keywords: spin torque oscillators,artificial neuron,neuromorphic computing,magnetic tunnel junctions

    1.Introduction

    By emulating a biological brain, neuromorphic computing is considered to be the future of artificial intelligence(AI).[1,2]In comparison with the traditional von Neumann architecture, where the computing and memory components are separated, neuromorphic computing implements a centralized strategy.The data are processed directly in or close to memory, which will greatly reduce the power consumption resulting from data movement, particularly when performing complex cognitive tasks.Although the algorithms of artificial neural networks (ANNs) have made great progress in solving many problems,[3]the lack of dedicated hardware has hindered the further development of neuromorphic computing.Thus, much effort has been committed to exploring novel materials and structures for potential application in neuromorphic computing.So far, many materials solutions have been put forward, including phase change materials,[4]ferroelectric materials,[5,6]spintronic materials,[7,8]resistive memory,[9,10]and two-dimensional materials.[11,12]Among these,spintronic devices stand out due to their high speed,high endurance,nanoscale size,lower power consumption and excellent CMOS compatibility.[13,14]In particular,magnetic tunnel junctions (MTJs), the most representative spintronic device, have recently been demonstrated to possess huge potential in neuromorphic computing.Many inspiring works have been reported, including multilevel synapses based on spin torque memristors,neuromorphic computing based on the synchronization of spin oscillators,artificial neurons of ANNs based on spin torque stochastic switching and microwave detection, and spiking neurons with superparamagnetic tunnel junctions,etc.[15-19]

    More recently, it has been proposed numerically and proved experimentally that MTJ-based spin torque diodes(STDs) can act as spintronic synapses and carry out radio-frequency (RF) multiply-and-accumulate (MAC) operation by rectifying the input microwave power into direct voltages.[20,21]Correspondingly, spin torque oscillators(STOs) can be used as artificial neurons and perform nonlinear activation through converting the direct current into microwave power.[22,23]Considering the wide application of RF signals in information communication and the increasing demand for wireless communication, it would be really appealing to develop such compact and energy efficient RF hardware system for intelligent RF signals processing.However, there exists one critical problem with STOs.It is required that the microwave emission frequency does not change with varying current,while STOs typically have a dependence on input direct current.

    Here, we study the microwave emission properties of STOs based on MTJs with MgO cap layer.By applying a specific magnetic field, the emission frequency of the STO can stay unchanged with the increase of drive d.c.current,which meets the requirement of an RF-oriented artificial neuron.Furthermore, a neural network constructed with the STO neuron is used to solve the Mixed National Institute of Standards and Technology(MNIST)handwritten digits recognition problem.A high accuracy of up to 92.28%is achieved.

    2.Materials and methods

    As depicted in Fig.1, the MTJ stacks used in this work consist of a bottom electrode, a core structure of PtMn (15)/Co70Fe30(2.3)/Ru (0.85)/Co40Fe40B20(2.4)/MgO(1)/Co20Fe60B20(2.0)/MgO (0.7) and a top electrode (thicknesses in nm).The MgO cap layer here is used to induce additional interfacial perpendicular magnetic anisotropy,lowering the demagnetization field and damping factor.[24,25]The thin films were deposited on a thermally oxidized silicon substrate using a magnetron sputtering system and annealed at 300°C for 2.0 h in an in-plane magnetic field of 1 T.The magnetization direction of the pinned synthetic antiferromagnet (SAF)of Co70Fe30/Ru/Co40Fe40B20is magnetically hardened so that it can serve as the reference layer (RL) while the direction of magnetization of the Fe-rich Co20Fe60B20layer,called the free layer(FL),is free to rotate.Using electron beam lithography and Ar ion beam milling,the MTJ was defined and etched into a 150 nm×70 nm elliptical nano-pillar with its long axis parallel to the magnetic field for annealing.The microwave emission is measured on a spectrum analyzer after 40 dB amplification.The background noise,quantified at zero bias current, has been subtracted from the microwave emissions.All the data were measured at room temperature.

    Fig.1.The core structure of the device (numbers in the parentheses indicate the thickness in nm)and the experimental measurement setup used in this work.

    3.Results and discussion

    First, we characterize the static transport properties of the device.Figure 2 shows the magnetoresistance as a function of the in-plane magnetic field applied along the magnetic easy axis and hard axis at a bias current of 10 μA.It can be seen that,as the fieldHeasyincreases from negative to positive values, the resistance abruptly changes from a low-resistance state(RP=547 Ω)to a high-resistance one(RAP=1095 Ω).This indicates that the relative magnetization configuration between the free layer and pinned layer changes from a parallel(P)to an antiparallel(AP)state.Correspondingly,the magnetoresistance ratio, defined as (RAP-RP)/RP, is calculated to be 100%, suggesting the good quality of our device.As for the resistance in the hard axis, the resistance gradually saturates with increasing field, indicating that the magnetization rotates towards the hard axis at larger fields.

    Next,we investigate the microwave emission characteristic of the device with magnetic field applied along the in-plane hard axis.Figure 2(b)presents the microwave emission spectra under different driven currents at three magnetic fields.As the field increases from-200 Oe to-400 Oe,the relationship between microwave frequency and current changes from an apparently negative one to a slightly positive one,with the frequency remaining constant at-300 Oe.According to the nonlinear auto-oscillator theory,[22,26-28]the dependence of frequency on drive current can be described as follows:

    whereNis the nonlinearity factor andPis the normalized power of the stationary precession.In our case, it is obvious that we have successfully tuned the nonlinearity from a negative value to a positive one by changing the magnitude of the magnetic field.Such field dependence is consistent with the results reported before.[29-32]In addition,it has been reported that the nonlinearity can be reduced by compensating the demagnetization field.[33]In our device, the additional CoFeBMgO cap interface will induce IPMA, which acts against the demagnetization field.[24,25]Hence,the reduction of demagnetization field due to the MgO cap layer may also contribute to the invariance of frequency.The reason why the dashed line moves first to a low frequency and then moves back to high frequency with increasing magnetic field may be due to the influence of the synthetic antiferromagnet layers.[34]

    To give a clearer view of the current dependence of microwave frequency, we have plotted some typical power density spectra under different currents in Fig.3(a).By extracting the experimental data, the frequency and total integrated power of the oscillation as a function of|Idc| are shown in Fig.3(b).It is apparent that the emission frequency remains constant at around 1.95 GHz with some slight deviation of less than 0.02 GHz at low currents.The emission power exhibits ReLU-like nonlinear output characteristics.Therefore,our device meets the requirement for carrying out AI computation directly with a microwave signal.

    To demonstrate the potential of the STO artificial neuron,a three-layer ANN is constructed using PyTorch software to recognize the widely used MNIST database of handwritten digits.[35]The database includes 60000 and 10000 images for training and testing processes, respectively.Figure 4(a)depicts the structure of the neural network, consisting of one input layer, one hidden layer and one output layer with 784,100 and 10 neurons,respectively.Each image in the database has 28×28 pixels,corresponding to 784 input neurons,while the 10 output neurons correspond to the ten digits from 0 to 9.All the neurons are assumed to share the same characteristics obtained from the experimental data, as shown in Fig.3(b),to speed up the training process.Before being fed into the neural network, the images are randomly divided into multiple batches with each batch containing 256 images.The backpropagation algorithm and stochastic gradient descent are used to minimize the cross-entropy loss with the learning rate being 0.01.It is noted that the experimental data cannot emulate any known software activation function.So,the gradient is calculated numerically using the method described in Ref.[36].It should be stressed that neuron-to-neuron variability exists in the real hardware implementation of STO-based artificial neurons and further study on its impact is needed in the future.By training the network 50 times and calculating the average,we obtain the dependence of the recognition rate on training epochs, as shown in Fig.4.The recognition accuracy of the STO-based ANN is up to 92.28%,which is comparable to the accuracy of 94.72% acquired from an ANN having the same structure but with ReLU as the activation function.The results suggest the great potential of the proposed STO-based ANN for RF-oriented neuromorphic computing.

    The above results confirm that invariability of the microwave emission frequency can be realized by applying a small magnetic field in the MTJ with a MgO cap layer.It is also worth noting that the required magnetic field can be provided by a magnetic hard mask.[37]such as Co,which makes it more practical for the real-world implementation of the device.We emphasize that our study offers a universal path to solve one of the key issues in utilizing STOs as artificial neurons to directly process RF signals.As for the varied frequencies in STO arrays,some methods should be adopted to intentionally tune the emission frequency.For example,one can change the free layer by adding a memristive layer or ferroelectric layer to the structure.[38,39]

    Fig.4.(a)The structure of the ANN consisting of three layers,with 784,100 and 10 neurons for the input layer,hidden layer and output layer,respectively.(b) The recognition accuracy of the inference dataset versus training epochs obtained from the ANN constructed with a STO, compared with a conventional ANN with the ReLU activation function.Both results are averages from 50 runs.

    4.Conclusion

    In this work, we have investigated the microwave emission properties of a STO based on an MTJ with a MgO cap layer.We found that when a weak magnetic field is applied the device can maintain an invariable emission frequency,making it suitable for RF-oriented neuromorphic computing.Using STO as artificial neuron,we have simulated a three-layer ANN to recognize the handwritten digits in the MINST database.A high accuracy of 92.28% is achieved, comparable to the 94.72% obtained with a conventional ANN constructed with ReLU software neurons.Our work may provide inspiration for the development of RF-oriented neuromorphic computing.

    Acknowledgements

    The authors are grateful for the technical support for Nano-X from Suzhou Institute of Nano-Tech and Nano-Bionics,Chinese Academy of Sciences(SINANO).

    Project supported by the National Natural Science Foundation of China (Grant Nos.11974379 and 12204357),K.C.Wong Education Foundation (Grant No.GJTD-2019-14), Jiangxi Province “Double Thousand Plan” (Grant No.S2019CQKJ2638), the Natural Science Foundation of the Jiangsu Higher Education Institutions of China (Grant No.22KB140017), and Wuxi University Research Start-up Fund for Introduced Talents(Grant No.2022r006).

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