2017
DOI: 10.1063/1.4974014
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Scaling effect of spin-torque nano-oscillators

Abstract: We have investigated the impact of device size on the characteristics of spin-torque nano-oscillators by studying the frequency and linewidth of the oscillator as a function of current density utilizing micromagnetic simulations at room temperature. Upon reduction of the device size from 40 down to 10 nm, thermal noise flattens the frequency and linewidth trends with current density and lowers the threshold current density of the oscillation. The magnetization vector trajectories reveal that irregular oscillat… Show more

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Cited by 9 publications
(4 citation statements)
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“…The DC amplifiers must deliver a power sufficient to match the threshold current of spintronic oscillators. Projections show that spintronic oscillators can be downscaled to nano-pillars of 20 nm radius, and then have a threshold current density of 10 10 A m −2 [66]. With a resistance area product RA = 10 −12 Ω m 2 , as seen in the literature [61], and radius of 20 nm, the minimum power delivered by each DC amplifier to a spintronic oscillator is 0.1 μW, which means that the minimum power consumption of the system per neuron is 0.1 μW.…”
Section: Benchmarking the Performance Of A Convolutional Neural Netwo...mentioning
confidence: 99%
See 2 more Smart Citations
“…The DC amplifiers must deliver a power sufficient to match the threshold current of spintronic oscillators. Projections show that spintronic oscillators can be downscaled to nano-pillars of 20 nm radius, and then have a threshold current density of 10 10 A m −2 [66]. With a resistance area product RA = 10 −12 Ω m 2 , as seen in the literature [61], and radius of 20 nm, the minimum power delivered by each DC amplifier to a spintronic oscillator is 0.1 μW, which means that the minimum power consumption of the system per neuron is 0.1 μW.…”
Section: Benchmarking the Performance Of A Convolutional Neural Netwo...mentioning
confidence: 99%
“…Since spintronic oscillators and resonators can be downscaled to 20 nm [66], we can consider unit cells of area 40 × 40 nm 2 . The area of a traditional unfolded convolution implemented on a crossbar array scales with N in N c × N out N m [14,21] where N in is the number of pixels in the input images, N c is the number of channels, N out is the number of pixels in the output feature maps, and N m is the number of output feature maps.…”
Section: Benchmarking the Performance Of A Convolutional Neural Netwo...mentioning
confidence: 99%
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“…In the context of hard disk drive (HDD) reading head, various advantages of an STO device has been pointed out, including high data-transfer rate 15,18,19 , good scalability 19 and ability to selectively read signal from multilayer media 16 . However, the development of STO readers has been hindered by their potential vulnerability to magnetic noise, which becomes more problematic as the size of the device decreases, leading to smaller free layer volumes and therefore bigger spectrum linewidths 14,20,21 . From the noise perspective, it would be beneficial for STO devices to remain relatively large.…”
Section: Introductionmentioning
confidence: 99%