English

A device-level compact model for mushroom-type phase change memory

Applied Physics 2025-08-11 v1 Materials Science

Abstract

In this work we introduce a compact model for mushroom-type phase-change memory devices that incorporates the shape and size of the amorphous mark under different programming conditions, and is applicable to both projecting and non-projecting devices. The model includes analytical equations for the amorphous and crystalline regions and uniquely features a current leakage path that injects current at the outer edge of the electrodes. The results demonstrate that accurately modeling the size and shape of the phase configurations is crucial for predicting the full-span of the RESET and SET programming, including the characteristics of threshold switching. Additionally, the model effectively captures read-out behaviors, including the dependence of resistance drift and bipolar current asymmetry behaviours on the phase configurations. The compact model is also provided in Verilog-A format, so it can be easily used in standard circuit-level simulation tools.

Keywords

Cite

@article{arxiv.2508.05641,
  title  = {A device-level compact model for mushroom-type phase change memory},
  author = {Stephan Menzel and Benedikt Kersting and Rana Walied Ahmad and Abu Sebastian and Ghazi Sarwat Syed},
  journal= {arXiv preprint arXiv:2508.05641},
  year   = {2025}
}

Comments

15 pages, 6 figures

R2 v1 2026-07-01T04:39:36.164Z