The expanding size of language models has created the necessity for a comprehensive examination across various dimensions that reflect the desiderata with respect to the tradeoffs between various hardware metrics, such as latency, energy consumption, GPU memory usage, and performance. There is a growing interest in establishing Pareto frontiers for different language model configurations to identify optimal models with specified hardware constraints. Notably, architectures that excel in latency on one device may not perform optimally on another. However, exhaustive training and evaluation of numerous architectures across diverse hardware configurations is computationally prohibitive. To this end, we propose HW-GPT-Bench, a hardware-aware language model surrogate benchmark, where we leverage weight-sharing techniques from Neural Architecture Search (NAS) to efficiently train a supernet proxy, encompassing language models of varying scales in a single model. We conduct profiling of these models across 13 devices, considering 5 hardware metrics and 3 distinct model scales. Finally, we showcase the usability of HW-GPT-Bench using 8 different multi-objective NAS algorithms and evaluate the quality of the resultant Pareto fronts. Through this benchmark, our objective is to propel and expedite research in the advancement of multi-objective methods for NAS and structural pruning in large language models.
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