Related papers: Exploring Parameter-Efficient Fine-Tuning Techniques for Code Generation with Large Language Models

Exploring Parameter-Efficient Fine-Tuning Techniques for Code Generation with Large Language Models

URL: http://arxiv.org/abs/2308.10462v3
Date: Fri, 27 Dec 2024 05:30:00 GMT
Title: Exploring Parameter-Efficient Fine-Tuning Techniques for Code Generation with Large Language Models
Authors: Martin Weyssow, Xin Zhou, Kisub Kim, David Lo, Houari Sahraoui,
Abstract summary: parameter-efficient fine-tuning (PEFT) is a promising approach to efficiently specialize large language models (LLMs) to task-specific data. Our study highlights the potential for tuning larger LLMs and significant reductions in memory usage by combining PEFT with quantization.
Score: 11.845239346943067
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Abstract: Large language models (LLMs) demonstrate impressive capabilities to generate accurate code snippets given natural language intents in a zero-shot manner, i.e., without the need for specific fine-tuning. While prior studies have highlighted the advantages of fine-tuning LLMs, this process incurs high computational costs, making it impractical in resource-scarce environments, particularly for models with billions of parameters. To address these challenges, previous research explored in-context learning (ICL) and retrieval-augmented generation (RAG) as strategies to guide the LLM generative process with task-specific prompt examples. However, ICL and RAG introduce inconveniences, such as the need for designing contextually relevant prompts and the absence of learning task-specific parameters, thereby limiting downstream task performance. In this context, we foresee parameter-efficient fine-tuning (PEFT) as a promising approach to efficiently specialize LLMs to task-specific data while maintaining reasonable resource consumption. In this paper, we deliver a comprehensive study of PEFT techniques for LLMs in the context of automated code generation. Our comprehensive investigation of PEFT techniques for LLMs reveals their superiority and potential over ICL and RAG across a diverse set of LLMs and three representative Python code generation datasets: Conala, CodeAlpacaPy, and APPS. Furthermore, our study highlights the potential for tuning larger LLMs and significant reductions in memory usage by combining PEFT with quantization. Therefore, this study opens opportunities for broader applications of PEFT in software engineering scenarios. Our code is available at https://github.com/martin-wey/peft-llm-code/.

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