English

Ferroelectric FET-based Logic-in-Memory Encoder for Hyperdimensional Computing

Emerging Technologies 2025-12-24 v1

Abstract

Hyperdimensional (HD) computing involves encoding of baseline information into large hypervectors and repeated Boolean operations to generate the output class hypervectors which are stored in an associative memory. The classification task is then performed through similarity search operation. While prior studies have focused mostly on accelerating HD search operation using TCAMs based on emerging non-volatile memories, considering the dominant contribution of the encoder module to the energy and latency landscape specifically for complex datasets such as language recognition, DNA sequencing, etc., in this work, we propose energy- and area-efficient single FDSOI ferroelectric (Fe)FET-based logic-in-memory implementations of XOR and 3-input majority gates for N-gram HD encoders. We utilize the proposed FeFET-based encoder in a HD spam filtering accelerator and show that it outperforms the prior emerging non-volatile memory-based implementations in terms of area and energy-efficiency while exhibiting a high classification accuracy of 91.38% on the SMS Spam Collection dataset.

Cite

@article{arxiv.2512.20302,
  title  = {Ferroelectric FET-based Logic-in-Memory Encoder for Hyperdimensional Computing},
  author = {Arka Chakraborty and Franz Müller and Thomas Kämpfe and Shubham Sahay},
  journal= {arXiv preprint arXiv:2512.20302},
  year   = {2025}
}

Comments

27 pages, 13 figures, 3 tables

R2 v1 2026-07-01T08:38:28.797Z