Go to ICML 2026 Workshop CTB homepageEfficient Safety Benchmarking via Item Response Theory
Keywords: safety evaluation, item response theory, computerized adaptive testing, efficient evaluation, LLM evaluation
TL;DR: Item Response Theory and adaptive testing yield order-of-magnitude reductions in safety benchmark evaluation cost without losing leaderboard fidelity.
Abstract: Safety benchmarks for language models are typically evaluated using static paradigms that treat all items as equally informative for all models, an assumption that is particularly problematic for adversarial, highly heterogeneous safety items. Applied in full to modern benchmark suites, the current evaluation procedures would require on the order of $10^5$ responses, most of which provide little ranking signal. We analyze a suite of widely used safety benchmarks and make three contributions toward more efficient safety evaluation. First, we show that Item Response Theory (IRT) recovers interpretable structure on safety benchmarks, with ability estimates resolving differences among models that cluster at the ceiling of raw safety metrics. Second, we show that adaptive item selection, which dynamically chooses informative items for each model based on its responses, approximates full-benchmark rankings while reducing evaluation cost by at least 80\% on benchmarks where Spearman's $\rho >$90\% with full-benchmark is attainable, and by up to 99.7\% on AIR-Bench 2024. Third, we introduce a practical procedure for extracting a fixed, informative subset of items reusable across models, providing an alternative to adaptive selection with savings up to 99.0\% on AIR-Bench 2024. Together, these results establish that psychometric methods enable benchmark-aware reductions in evaluation costs across the safety evaluation pipeline.
Paper Type: Long (8 pages)
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Data Release: We authorize the release of our submission and author names to the public in the event of acceptance.
Submission Number: 164
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