This repository provides the code for the paper titled DePT: Decomposed Prompt Tuning for Parameter-Efficient Fine-tuning, making the integration of our code contributions into other projects more accessible.
- [News - 26 Sep 2023] We now support Llama-2 Models. Please set
MODELto your local Llama-2 path to run the experiments. - [News - 21 Sep 2023] Check out our work at NeurIPS 2023 titled Don’t Stop Pretraining? Make Prompt-based Fine-tuning Powerful Learner and the code at PowerfulPromptFT.
You can reproduce the experiments of our paper DePT: Decomposed Prompt Tuning for Parameter-Efficient Fine-tuning.
Abstract Prompt tuning (PT), where a small amount of trainable soft (continuous) prompt vectors is affixed to the input of language models (LM), has shown promising results across various tasks and models for parameter-efficient fine-tuning (PEFT). PT stands out from other PEFT approaches because it maintains competitive performance with fewer trainable parameters and does not drastically scale up its parameters as the model size expands. However, PT introduces additional soft prompt tokens, leading to longer input sequences, which significantly impacts training and inference time and memory usage due to the Transformer's quadratic complexity. Particularly concerning for Large Language Models (LLMs) that face heavy daily querying. To address this issue, we propose Decomposed Prompt Tuning (DePT), which decomposes the soft prompt into a shorter soft prompt and a pair of low-rank matrices that are then optimised with two different learning rates. This allows DePT to achieve better performance while saving substantial memory and time costs compared to vanilla PT and its variants, without changing trainable parameter sizes. Through extensive experiments on 23 natural language processing (NLP) and vision-language (VL) tasks, we demonstrate that DePT outperforms state-of-the-art PEFT approaches, including the full fine-tuning baseline, in some scenarios. Additionally, we empirically show that DEPT grows more efficient as the model size increases. Our further study reveals that DePT integrates seamlessly with parameter-efficient transfer learning in the few-shot learning setting and highlights its adaptability to various model architectures and sizes.
To run the prompt-based or cls-based fine-tuning, you need to install the following packages.
- Transformers
- Pytorch
We use the following NLP datasets in our experiments: GLUE, SuperGLUE, MRQA 2019 Shared Task, WinoGrande, Yelp-2, SciTail and PAWS-Wiki. All these datasets are available in the Huggingface Datasets and can be downloaded automatically. Please refer to the file src/tasks.py for the details of the datasets.
We provide the scripts to reproduce the main experiments in our paper.
For example, you can run the following script to reproduce the results of DePT on the GLUE dataset. The PREFIX_LENGTH represents the length of the soft prompt m in the paper. The R represents the rank of low-rank matrices r in the paper. lr is the learning rate for the soft prompt, and LORA_LR is the learning rate for the the pair of the low-rank matrices that will be added to the frozen word embeddings.
MODEL=t5-base
MAX_LENGTH=256
MAX_STEPS=40000
PREFIX_LENGTH=40
R=45
for TASK_NAME in cola mrpc mnli qnli qqp rte sst2 stsb; do
for LORA_LR in 5e-3 3e-1 5e-4; do
for lr in 3e-1 4e-1; do
CUDA_VISIBLE_DEVICES=0 python train.py \
--peft_type PROMPT_TUNING_LORA \
--lora_embedding_lr ${LORA_LR} \
--learning_rate ${lr} \
--prefix_length ${PREFIX_LENGTH} \
--r ${R} \
--task_name ${TASK_NAME} \
--dataset_config_name en \
--model_name_or_path ${MODEL} \
--do_train \
--do_eval \
--do_predict \
--per_device_train_batch_size 32 \
--per_device_eval_batch_size 32 \
--max_seq_length ${MAX_LENGTH} \
--save_strategy steps \
--evaluation_strategy steps \
--max_steps ${MAX_STEPS} \
--eval_steps 1000 \
--save_steps 1000 \
--warmup_steps 500 \
--weight_decay 1e-5 \
--load_best_model_at_end \
--save_total_limit 1 \
--output_dir saved_${MODEL}/${TASK_NAME}_lr${lr}_loralr${LORA_LR}_pl${PREFIX_LENGTH}_r${R}_st${MAX_STEPS};
done;
done;
doneYou can replace the TASK_NAME with superglue-multirc superglue-wic superglue-wsc.fixed superglue-cb superglue-boolq for the SuperGLUE benchmark, newsqa searchqa hotpotqa nq for the MRQA 2019 Shared Task, winogrande for the WinoGrande dataset, yelp_polarity for the Yelp-2 dataset, scitail for the SciTail dataset, and paws for the PAWS-Wiki dataset.
Additionally, you can add the argument --peft_model_id to initialize the soft prompt and the pair of low-rank matrices with the pretrained prompt vectors. You can add the argument --k_shot_examples to specify the number of examples used for the few-shot learning.
As we dicussed in the paper, one of the potential limitations of this work is the introduction of extra hyperparameters for tuning, e.g., the learning rate of the low-rank matrices and training steps. This might introduce some additional computational overhead during the hyperparameter optimization phase of model training. It is important to search over all these hyperparameters to get the optimal performance. For the large dataset with more than 100,000 training example, we follow the prior work (Vu et al., 2022) to train our proposed method DePT with up to 300,000 steps. Training more steps is helpful for improving the performance on the large datasets. Additonally, as the length of soft prompts decreases, it may take more efforts to perform the hyperparameter search. Typically, using the soft prompt with the length PREFIX_LENGTH as 40 or 60 should be fine. Using parameter-efficient transfer learning (PETL) can be helpful to reduce the efforts for the hyperparameter search. However, it is important to note that the model training process is a one-time event, while the model inference is not. In this context, the efficiency benefits of DePT become especially valuable during the inference.
If you have any questions regarding the code or the paper, please feel free to reach out to Zhengxiang at zhengxiang.shi.19@ucl.ac.uk. If you experience any difficulties while using the code or need to report a bug, feel free to open an issue. We kindly ask that you provide detailed information about the problem to help us provide effective support.
@inproceedings{shi2024dept,
title={DePT: Decomposed Prompt Tuning for Parameter-Efficient Fine-tuning},
author={Zhengxiang Shi and Aldo Lipani},
booktitle={International Conference on Learning Representations},
year={2024},
url={http://arxiv.org/abs/2309.05173}
}
This repository is built upon the following repositories:
