Benchmarking Complex Instruction-Following with Multiple Constraints Composition
This addresses the need for better evaluation of LLMs in real-world scenarios where instructions involve multiple constraints, though it is incremental as it builds on existing benchmarks.
The authors tackled the problem of evaluating large language models' ability to follow complex instructions with multiple constraints by proposing ComplexBench, a benchmark that includes a hierarchical taxonomy and a manually collected dataset, and found significant deficiencies in existing LLMs.
Instruction following is one of the fundamental capabilities of large language models (LLMs). As the ability of LLMs is constantly improving, they have been increasingly applied to deal with complex human instructions in real-world scenarios. Therefore, how to evaluate the ability of complex instruction-following of LLMs has become a critical research problem. Existing benchmarks mainly focus on modeling different types of constraints in human instructions while neglecting the composition of different constraints, which is an indispensable constituent in complex instructions. To this end, we propose ComplexBench, a benchmark for comprehensively evaluating the ability of LLMs to follow complex instructions composed of multiple constraints. We propose a hierarchical taxonomy for complex instructions, including 4 constraint types, 19 constraint dimensions, and 4 composition types, and manually collect a high-quality dataset accordingly. To make the evaluation reliable, we augment LLM-based evaluators with rules to effectively verify whether generated texts can satisfy each constraint and composition. Furthermore, we obtain the final evaluation score based on the dependency structure determined by different composition types. ComplexBench identifies significant deficiencies in existing LLMs when dealing with complex instructions with multiple constraints composition.