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Empowering Working Memory for Large Language Model Agents

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arxiv 2312.17259 v2 pith:EBD6QROM submitted 2023-12-22 cs.CL cs.AI

Empowering Working Memory for Large Language Model Agents

classification cs.CL cs.AI
keywords memoryworkingacrossagentsarchitecturecapabilitiesepisodesepisodic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Large language models (LLMs) have achieved impressive linguistic capabilities. However, a key limitation persists in their lack of human-like memory faculties. LLMs exhibit constrained memory retention across sequential interactions, hindering complex reasoning. This paper explores the potential of applying cognitive psychology's working memory frameworks, to enhance LLM architecture. The limitations of traditional LLM memory designs are analyzed, including their isolation of distinct dialog episodes and lack of persistent memory links. To address this, an innovative model is proposed incorporating a centralized Working Memory Hub and Episodic Buffer access to retain memories across episodes. This architecture aims to provide greater continuity for nuanced contextual reasoning during intricate tasks and collaborative scenarios. While promising, further research is required into optimizing episodic memory encoding, storage, prioritization, retrieval, and security. Overall, this paper provides a strategic blueprint for developing LLM agents with more sophisticated, human-like memory capabilities, highlighting memory mechanisms as a vital frontier in artificial general intelligence.

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Cited by 3 Pith papers

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