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DoLa: Decoding by Contrasting Layers Improves Factuality in Large Language Models

License: MIT Arxiv Hugging Face Transformers Tweet GitHub Stars

Open In Colab

Code for the paper "DoLa: Decoding by Contrasting Layers Improves Factuality in Large Language Models"

Paper: https://arxiv.org/abs/2309.03883
Authors: Yung-Sung Chuang $^\dagger$, Yujia Xie $^\ddagger$, Hongyin Luo $^\dagger$, Yoon Kim $^\dagger$, James Glass $^\dagger$, Pengcheng He $^\ddagger$
$^\dagger$ Massachusetts Institute of Technology, $^\ddagger$ Microsoft

Overview

DoLa

Despite their impressive capabilities, large language models (LLMs) are prone to hallucinations, i.e., generating content that deviates from facts seen during pretraining. We propose a simple decoding strategy for reducing hallucinations with pretrained LLMs that does not require conditioning on retrieved external knowledge nor additional fine-tuning. Our approach obtains the next-token distribution by contrasting the differences in logits obtained from projecting the later layers versus earlier layers to the vocabulary space, exploiting the fact that factual knowledge in an LLMs has generally been shown to be localized to particular transformer layers. We find that this Decoding by contrasting Layers (DoLA) approach is able to better surface factual knowledge and reduce the generation of incorrect facts. DoLA consistently improves the truthfulness across multiple choices tasks and open-ended generation tasks, for example improving performance of LLaMA family models on TruthfulQA by 12-17% absolute points, demonstrating its potential in making LLMs reliably generate truthful facts.

Setup

pip install -e transformers-4.28.1
pip install datasets
pip install accelerate
pip install openai # -> only for truthfulqa and gpt4_eval

Experiments

Arguments

Argument Example Description
--model-name huggyllama/llama-7b Specifies the model you want to use, currently we only support LLaMA-v1.
--data-path /path/to/dataset Path to the dataset file or folder.
--output-path output-path.json Where to store the output results.
--num-gpus 1 Number of GPUs to use, 1/2/4/8 for 7B/13B/30B/65B model sizes respectively.
--max_gpu_memory 27 Maximum GPU memory size (in GiB) to allocate. Default: 27 (for 32G V100).

Understanding --early-exit-layers

The --early-exit-layers argument takes a string containing a sequence of layer numbers separated by commas, with no spaces in between. By specifying different number of layers, we make the model decode at different modes.

Number of Layers Specified Example (str) Description of Decoding Mode
1 -1 Naive decoding from the final layer output.
2 16,32 DoLa-static decoding with the second specified layer (i.e. 32) as the mature_layer and first specified layer (i.e. 16) as premature_layer.
>2 0,2,4,6,8,10,12,14,32 DoLa decoding with the last specified layer (i.e. 32) as the mature_layer and all the preceding layers (i.e. 0,2,4,6,8,10,12,14) as candidate_premature_layers.

FACTOR (Multiple Choices)

Please download the data file wiki_factor.csv from https://github.com/AI21Labs/factor

Baseline

python factor_eval.py --model-name huggyllama/llama-7b --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 1
python factor_eval.py --model-name huggyllama/llama-13b --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 2
python factor_eval.py --model-name huggyllama/llama-30b --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 4
python factor_eval.py --model-name huggyllama/llama-65b --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 8

DoLa

python factor_eval.py --model-name huggyllama/llama-7b --early-exit-layers 0,2,4,6,8,10,12,14,32 --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 1
python factor_eval.py --model-name huggyllama/llama-13b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,40 --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 2
python factor_eval.py --model-name huggyllama/llama-30b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,60 --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 4
python factor_eval.py --model-name huggyllama/llama-65b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,80 --data-path /path/to/wiki_factor.csv --output-path output-path.json --num-gpus 8

TruthfulQA (Multiple Choices)

The --data-path should be a folder contains TruthfulQA.csv. If file not exists, it will be downloaded automatcially.

Baseline

python tfqa_mc_eval.py --model-name huggyllama/llama-7b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python tfqa_mc_eval.py --model-name huggyllama/llama-13b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python tfqa_mc_eval.py --model-name huggyllama/llama-30b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python tfqa_mc_eval.py --model-name huggyllama/llama-65b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

DoLa

python tfqa_mc_eval.py --model-name huggyllama/llama-7b --early-exit-layers 16,18,20,22,24,26,28,30,32 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python tfqa_mc_eval.py --model-name huggyllama/llama-13b --early-exit-layers 20,22,24,26,28,30,32,34,36,38,40 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python tfqa_mc_eval.py --model-name huggyllama/llama-30b --early-exit-layers 40,42,44,46,48,50,52,54,56,58,60 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python tfqa_mc_eval.py --model-name huggyllama/llama-65b --early-exit-layers 60,62,64,66,68,70,72,74,76,78,80 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

TruthfulQA

To evaluate the open-ended generation result of TruthfulQA, we need to finetune two GPT-3 curie models through OpenAI API:

openai api fine_tunes.create -t finetune_truth.jsonl -m curie --n_epochs 5 --batch_size 21 --learning_rate_multiplier 0.1
openai api fine_tunes.create -t finetune_info.jsonl -m curie --n_epochs 5 --batch_size 21 --learning_rate_multiplier 0.1

After finetuning, we can obtain the finetuned model names by openai api fine_tunes.list | grep fine_tuned_model.

Create a config file gpt3.config.json like this:

{"gpt_info": "curie:ft-xxxxxxxxxx",
"gpt_truth": "curie:ft-xxxxxxxxxx",
"api_key": "xxxxxxx"}

Add the argument --do-rating --gpt3-config gpt3.config.json for GPT-3 evaluation.

Baseline

python tfqa_eval.py --model-name huggyllama/llama-7b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-13b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-30b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-65b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8 --do-rating --gpt3-config /path/to/gpt3.config.json

DoLa

python tfqa_eval.py --model-name huggyllama/llama-7b --early-exit-layers 16,18,20,22,24,26,28,30,32 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-13b --early-exit-layers 20,22,24,26,28,30,32,34,36,38,40 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-30b --early-exit-layers 40,42,44,46,48,50,52,54,56,58,60 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4 --do-rating --gpt3-config /path/to/gpt3.config.json
python tfqa_eval.py --model-name huggyllama/llama-65b --early-exit-layers 60,62,64,66,68,70,72,74,76,78,80 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8 --do-rating --gpt3-config /path/to/gpt3.config.json

GSM8K

We use a random sampled subset of GSM8K training set to serve as the validation set of both StrategyQA and GSM8K. The file can be downloaded here.

The --data-path argument should be either:

  • A folder that contains gsm8k_test.jsonl, otherwise the files will be downloaded automatically to the folder you specified.
  • (Only for GSM8K) The path to gsm8k-train-sub.jsonl which can be downloaded by the link above.

Baseline

python gsm8k_eval.py --model-name huggyllama/llama-7b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python gsm8k_eval.py --model-name huggyllama/llama-13b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python gsm8k_eval.py --model-name huggyllama/llama-30b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python gsm8k_eval.py --model-name huggyllama/llama-65b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

DoLa

python gsm8k_eval.py --model-name huggyllama/llama-7b --early-exit-layers 0,2,4,6,8,10,12,14,32 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python gsm8k_eval.py --model-name huggyllama/llama-13b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,40 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python gsm8k_eval.py --model-name huggyllama/llama-30b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,60 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python gsm8k_eval.py --model-name huggyllama/llama-65b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,80 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

StrategyQA

The --data-path argument should be a folder that contains strategyqa_train.json, otherwise the files will be downloaded automatically to the folder you specified.

Baseline

python strqa_eval.py --model-name huggyllama/llama-7b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python strqa_eval.py --model-name huggyllama/llama-13b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python strqa_eval.py --model-name huggyllama/llama-30b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python strqa_eval.py --model-name huggyllama/llama-65b --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

DoLa

python strqa_eval.py --model-name huggyllama/llama-7b --early-exit-layers 0,2,4,6,8,10,12,14,32 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 1
python strqa_eval.py --model-name huggyllama/llama-13b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,40 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 2
python strqa_eval.py --model-name huggyllama/llama-30b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,60 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 4
python strqa_eval.py --model-name huggyllama/llama-65b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,80 --data-path /path/to/data/folder --output-path output-path.json --num-gpus 8

GPT-4 Evaluation (Vicuna QA Benchmark)

In GPT-4 evaluation, we need the question file from FastChat. In the following commands, we assume the path to your FastChat repo is $fastchat.

Baseline

python gpt4_judge_eval.py --model-name huggyllama/llama-7b --model-id llama-7b-baseline --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 1
python gpt4_judge_eval.py --model-name huggyllama/llama-13b --model-id llama-13b-baseline --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 2
python gpt4_judge_eval.py --model-name huggyllama/llama-30b --model-id llama-30b-baseline --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 4
python gpt4_judge_eval.py --model-name huggyllama/llama-65b --model-id llama-65b-baseline --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 8

DoLa

python gpt4_judge_eval.py --model-name huggyllama/llama-7b --early-exit-layers 0,2,4,6,8,10,12,14,32 --model-id llama-7b-dola --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 1
python gpt4_judge_eval.py --model-name huggyllama/llama-13b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,40 --model-id llama-13b-dola --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 2
python gpt4_judge_eval.py --model-name huggyllama/llama-30b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,60 --model-id llama-30b-dola --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 4
python gpt4_judge_eval.py --model-name huggyllama/llama-65b --early-exit-layers 0,2,4,6,8,10,12,14,16,18,80 --model-id llama-65b-dola --question-file $fastchat/eval/table/question.jsonl --answer-file output-answer.jsonl --num-gpus 8

After running the above commands to generate the model responses, we need OpenAI API key to pairwise compare the responses from different decoding results.

python $fastchat/eval/eval_gpt_review.py -q $fastchat/eval/table/question.jsonl -a output-answer-1.jsonl output-answer-2.jsonl -p $fastchat/eval/table/prompt.jsonl -r $fastchat/eval/table/reviewer.jsonl -o output-review-path.jsonl -k openai_api_key

For more details of GPT-4 evaluation, please check vicuna-blog-eval.

Reference Repositories

Citation

DOI

Please cite our paper if it's helpful to your work!

@article{chuang2023dola,
  title={DoLa: Decoding by Contrasting Layers Improves Factuality in Large Language Models},
  author={Chuang, Yung-Sung and Xie, Yujia and Luo, Hongyin and Kim, Yoon and Glass, James and He, Pengcheng},
  journal={arXiv preprint arXiv:2309.03883},
  year={2023},
}