Connecting Large Language Models with Evolutionary Algorithms Yields Powerful Prompt Optimizers
arXiv (Cornell University)(2023)
摘要
Large Language Models (LLMs) excel in various tasks, but they rely on
carefully crafted prompts that often demand substantial human effort. To
automate this process, in this paper, we propose a novel framework for discrete
prompt optimization, called EvoPrompt, which borrows the idea of evolutionary
algorithms (EAs) as they exhibit good performance and fast convergence. To
enable EAs to work on discrete prompts, which are natural language expressions
that need to be coherent and human-readable, we connect LLMs with EAs. This
approach allows us to simultaneously leverage the powerful language processing
capabilities of LLMs and the efficient optimization performance of EAs.
Specifically, abstaining from any gradients or parameters, EvoPrompt starts
from a population of prompts and iteratively generates new prompts with LLMs
based on the evolutionary operators, improving the population based on the
development set. We optimize prompts for both closed- and open-source LLMs
including GPT-3.5 and Alpaca, on 31 datasets covering language understanding,
generation tasks, as well as BIG-Bench Hard (BBH) tasks. EvoPrompt
significantly outperforms human-engineered prompts and existing methods for
automatic prompt generation (e.g., up to 25
demonstrates that connecting LLMs with EAs creates synergies, which could
inspire further research on the combination of LLMs and conventional
algorithms.
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关键词
large language models,evolutionary algorithms yields
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