# Low Barrier Nanomagnet Design for Binary Stochastic Neurons: Design   Challenges for Real Nanomagnets with Fabrication Defects

**Authors:** Md Ahsanul Abeed, Supriyo Bandyopadhyay

arXiv: 1907.07525 · 2023-01-24

## TL;DR

This paper discusses the challenges in designing low barrier nanomagnets for binary stochastic neurons, highlighting how fabrication defects impact key parameters and complicate reliable hardware implementation.

## Contribution

It identifies the sensitivity of nanomagnet parameters to fabrication defects, emphasizing the need for precise manufacturing to ensure reliable BSN performance.

## Key findings

- Fabrication defects cause unpredictability in nanomagnet parameters.
- Design challenges arise from defect sensitivity affecting reliability.
- High manufacturing precision is required for effective BSN implementation.

## Abstract

Much attention has been focused on the design of low barrier nanomagnets (LBM), whose magnetizations vary randomly in time owing to thermal noise, for use in binary stochastic neurons (BSN) which are hardware accelerators for machine learning. The performance of BSNs depend on two important parameters: the correlation time associated with the random magnetization dynamics in a LBM, and the spin-polarized pinning current which stabilizes the magnetization of a LBM in a chosen direction within a chosen time. Here, we show that common fabrication defects in LBMs make these two parameters unpredictable since they are strongly sensitive to the defects. That makes the design of BSNs with real LBMs very challenging. Unless the LBMs are fabricated with extremely tight control, the BSNs which use them could be unreliable or suffer from poor yield.

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Source: https://tomesphere.com/paper/1907.07525