Reservoir Computing with Frustrated Nanomagnet Arrays

Reservoir computing (RC) [1] is a subset of recurrent neural network where only the weights of the output layer are updated during training. This technique is therefore well suited for resource constrained hardware environments. We propose a novel reservoir comprising a planar arrangement of nanomagnets each having perpendicular magnetic anisotropy (PMA) [2]. The effect of nanomagnet magnetic fields upon adjacent nanomagnets exhibits two features: non-linear interaction and variable interaction strength, making the proposed implementation well suited for RC. Information is input by stimulating individual nanomagnets with spin-torque. The magnetizations of various nanomagnets are read electrically via magnetic tunnel junctions. A trained single layer circuit is used to perform vector-matrix multiplication on the magnetization values and the output weights to obtain the output vector. The nanomagnet reservoir was simulated in mumax3 with an input stream comprising triangle or square waves. The reservoir successfully identified the waveforms with 100% accuracy for both the training and testing data.

[1] H. Jaeger, Bonn, Germany: Germ. Nat. Res. Cent. Info. Tech. GMD Tech. Rep., Vol. 148, p. 13 (2001)
[2] P. Zhou et al. arXiv:cs.NE/2003.10948