Our paper titled "When Large Language Models Know the Table: A Framework for Assessing Data Contamination in Tabular Datasets" has been accepted at COLM 2026

Jul 8, 2026·
Matteo Silvestri
Matteo Silvestri
Fabiano Veglianti
Fabiano Veglianti
Flavio Giorgi
Flavio Giorgi
Fabrizio Silvestri
Fabrizio Silvestri
Gabriele Tolomei
Gabriele Tolomei
· 1 min read

In this work, we address a key threat to the reliable evaluation of large language models: data contamination, where strong benchmark performance may result from prior exposure to evaluation data rather than genuine generalization. We focus on tabular datasets, a setting in which contamination remains largely unexplored and existing memorization-based tests are often too coarse.

We propose a new framework based on aligned multiple-choice probes for two complementary tasks: completion, where the model predicts masked attributes, and existence, where it identifies authentic rows among plausible alternatives. By comparing model behavior across real, resampled, swapped, and obfuscated dataset variants, and against non-neural baselines through statistical testing, our framework isolates signals attributable to prior dataset exposure.

Our experiments on eight widely used tabular datasets reveal clear evidence of contamination in four cases. These findings suggest that LLM performance on downstream tasks involving public tabular benchmarks may be substantially inflated, highlighting the need for more trustworthy evaluation practices.

🔗 The preprint is available at the following link.

💻 The implementation is available on GitHub.

Matteo Silvestri
Authors
Matteo Silvestri
PhD Student in Computer Science
Fabiano Veglianti
Authors
Fabiano Veglianti
PhD Student in Data Science
Flavio Giorgi
Authors
Flavio Giorgi
PhD Student in Computer Science
Fabrizio Silvestri
Authors
Fabrizio Silvestri
Full Professor of Computer Science
Gabriele Tolomei
Authors
Gabriele Tolomei
Associate Professor of Computer Science