English

MATTER: Memory-Augmented Transformer Using Heterogeneous Knowledge Sources

Computation and Language 2024-06-10 v1 Artificial Intelligence

Abstract

Leveraging external knowledge is crucial for achieving high performance in knowledge-intensive tasks, such as question answering. The retrieve-and-read approach is widely adopted for integrating external knowledge into a language model. However, this approach suffers from increased computational cost and latency due to the long context length, which grows proportionally with the number of retrieved knowledge. Furthermore, existing retrieval-augmented models typically retrieve information from a single type of knowledge source, limiting their scalability to diverse knowledge sources with varying structures. In this work, we introduce an efficient memory-augmented transformer called MATTER, designed to retrieve relevant knowledge from multiple heterogeneous knowledge sources. Specifically, our model retrieves and reads from both unstructured sources (paragraphs) and semi-structured sources (QA pairs) in the form of fixed-length neural memories. We demonstrate that our model outperforms existing efficient retrieval-augmented models on popular QA benchmarks in terms of both accuracy and speed. Furthermore, MATTER achieves competitive results compared to conventional read-and-retrieve models while having 100x throughput during inference.

Keywords

Cite

@article{arxiv.2406.04670,
  title  = {MATTER: Memory-Augmented Transformer Using Heterogeneous Knowledge Sources},
  author = {Dongkyu Lee and Chandana Satya Prakash and Jack FitzGerald and Jens Lehmann},
  journal= {arXiv preprint arXiv:2406.04670},
  year   = {2024}
}

Comments

ACL2024-Findings

R2 v1 2026-06-28T16:56:52.978Z