English

MINI-LLM: Memory-Efficient Structured Pruning for Large Language Models

Computation and Language 2024-07-17 v1

Abstract

As Large Language Models (LLMs) grow dramatically in size, there is an increasing trend in compressing and speeding up these models. Previous studies have highlighted the usefulness of gradients for importance scoring in neural network compressing, especially in pruning medium-size networks. However, the substantial memory requirements involved in calculating gradients with backpropagation impede the utilization of gradients in guiding LLM pruning. As a result, most pruning strategies for LLMs rely on gradient-free criteria, such as weight magnitudes or a mix of magnitudes and activations. In this paper, we devise a hybrid pruning criterion, which appropriately integrates magnitude, activation, and gradient to capitalize on feature map sensitivity for pruning LLMs. To overcome memory requirement barriers, we estimate gradients using only forward passes. Based on this, we propose a Memory-effIcieNt structured prunIng procedure for LLMs (MINI-LLM) to remove no-critical channels and multi-attention heads. Experimental results demonstrate the superior performance of MINI-LLM over existing gradient-free methods on three LLMs: LLaMA, BLOOM, and OPT across various downstream tasks (classification, multiple-choice, and generation), while MINI-LLM maintains a GPU memory footprint akin to gradient-free methods.

Keywords

Cite

@article{arxiv.2407.11681,
  title  = {MINI-LLM: Memory-Efficient Structured Pruning for Large Language Models},
  author = {Hongrong Cheng and Miao Zhang and Javen Qinfeng Shi},
  journal= {arXiv preprint arXiv:2407.11681},
  year   = {2024}
}

Comments

13 pages

R2 v1 2026-06-28T17:42:59.857Z