English

Lightweight LLM Agent Memory with Small Language Models

Artificial Intelligence 2026-04-23 v3

Abstract

Although LLM agents can leverage tools for complex tasks, they still need memory to maintain cross-turn consistency and accumulate reusable information in long-horizon interactions. However, retrieval-based external memory systems incur low online overhead but suffer from unstable accuracy due to limited query construction and candidate filtering. In contrast, many systems use repeated large-model calls for online memory operations, improving accuracy but accumulating latency over long interactions. We propose LightMem, a lightweight memory system for better agent memory driven by Small Language Models (SLMs). LightMem modularizes memory retrieval, writing, and long-term consolidation, and separates online processing from offline consolidation to enable efficient memory invocation under bounded compute. We organize memory into short-term memory (STM) for immediate conversational context, mid-term memory (MTM) for reusable interaction summaries, and long-term memory (LTM) for consolidated knowledge, and uses user identifiers to support independent retrieval and incremental maintenance in multi-user settings. Online, LightMem operates under a fixed retrieval budget and selects memories via a two-stage procedure: vector-based coarse retrieval followed by semantic consistency re-ranking. Offline, it abstracts reusable interaction evidence and incrementally integrates it into LTM. Experiments show consistent gains across model scales, with an average F1 improvement of about 2.5 over A-MEM on LoCoMo, while achieving higher efficiency and low median latency (83 ms for retrieval and 581 ms end-to-end).

Keywords

Cite

@article{arxiv.2604.07798,
  title  = {Lightweight LLM Agent Memory with Small Language Models},
  author = {Jiaquan Zhang and Chaoning Zhang and Shuxu Chen and Zhenzhen Huang and Pengcheng Zheng and Zhicheng Wang and Ping Guo and Fan Mo and Sung-Ho Bae and Jie Zou and Jiwei Wei and Yang Yang},
  journal= {arXiv preprint arXiv:2604.07798},
  year   = {2026}
}

Comments

Accepted by ACL 2026 (main)

R2 v1 2026-07-01T12:00:32.337Z