Transformers meet Neural Algorithmic Reasoners
Keywords: Graph Neural Network, Transformer, Neural Algorithmic Reasoning, Length Generalization
Abstract: Transformers have revolutionized machine learning with their simple yet effective architecture. Pre-training Transformers on massive text datasets from the Internet has led to unmatched generalization for natural language understanding (NLU) tasks. However, such language models remain fragile when tasked with algorithmic forms of reasoning, where computations must be precise and robust. To address this limitation, we propose a novel approach that combines the Transformer's language understanding with the robustness of graph neural network (GNN)-based neural algorithmic reasoners (NARs). Such NARs proved effective as generic solvers for algorithmic tasks, when specified in graph form. To make their embeddings accessible to a Transformer, we propose a hybrid architecture with a two-phase training procedure, allowing the tokens in the language model to cross-attend to the node embeddings from the NAR. We evaluate our resulting TransNAR model on CLRS-Text, the text-based version of the CLRS-30 benchmark, and demonstrate significant gains over Transformer-only models for algorithmic reasoning, both in and out of distribution. Finally, we empirically show that Transformer-only models distilled from TransNAR models also exhibit improved out-of-distribution generalization capabilities.
Primary Area: learning on graphs and other geometries & topologies
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Submission Number: 12323
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