This repository contains the code and pruned models for our ACL'22 paper Structured Pruning Learns Compact and Accurate Models. Our talk slides can be found here.
**************************** Updates ****************************
- 05/09/2022: We release the pruned model checkpoints on RTE, MRPC and CoLA!
- 04/01/2022: We released our paper along with pruned model checkpoints on SQuAD, SST-2, QNLI and MNLI. Check it out!
- ☕ CoFiPruning: Structured Pruning Learns Compact and Accurate Models
- Quick Links
- Overview
- Main Results
- Model List
- Train CoFiPruning
- Bugs or Questions?
- Citation
We propose CoFiPruning, a task-specific, structured pruning approach (Coarse and Fine-grained Pruning) and show that structured pruning can achieve highly compact subnetworks and obtain large speedups and competitive accuracy as distillation approaches, while requiring much less computation. Our key insight is to jointly prune coarse-grained units (e.g., self-attention or feed-forward layers) and fine-grained units (e.g., heads, hidden dimensions) simultaneously. Different from existing works, our approach controls the pruning decision of every single parameter by multiple masks of different granularity. This is the key to large compression, as it allows the greatest flexibility of pruned structures and eases the optimization compared to only pruning small units. We also devise a layerwise distillation strategy to transfer knowledge from unpruned to pruned models during optimization.
We show the main results of CoFiPruning along with results of popular pruning and distillation methods including Block Pruning, DynaBERT, DistilBERT and TinyBERT. Please see more detailed results in our paper.
Our released models are listed as following. You can download these models with the following links. We use a batch size of 128 and V100 32GB GPUs for speedup evaluation. We show F1 score for SQuAD and accuracy score for GLUE datasets. s60 denotes that the sparsity of the model is roughly 60%.
| model name | task | sparsity | speedup | score |
|---|---|---|---|---|
| princeton-nlp/CoFi-MNLI-s60 | MNLI | 60.2% | 2.1 × | 85.3 |
| princeton-nlp/CoFi-MNLI-s95 | MNLI | 94.3% | 12.1 × | 80.6 |
| princeton-nlp/CoFi-QNLI-s60 | QNLI | 60.3% | 2.1 × | 91.8 |
| princeton-nlp/CoFi-QNLI-s95 | QNLI | 94.5% | 12.1 × | 86.1 |
| princeton-nlp/CoFi-SST2-s60 | SST-2 | 60.1% | 2.1 × | 93.0 |
| princeton-nlp/CoFi-SST2-s95 | SST-2 | 94.5% | 12.2 × | 90.4 |
| princeton-nlp/CoFi-SQuAD-s60 | SQuAD | 59.8% | 2.0 × | 89.1 |
| princeton-nlp/CoFi-SQuAD-s93 | SQuAD | 92.4% | 8.7 × | 82.6 |
| princeton-nlp/CoFi-RTE-s60 | RTE | 60.2% | 2.0 x | 72.6 |
| princeton-nlp/CoFi-RTE-s96 | RTE | 96.2% | 12.8 x | 66.1 |
| princeton-nlp/CoFi-CoLA-s60 | CoLA | 60.4% | 2.0 x | 60.4 |
| princeton-nlp/CoFi-CoLA-s95 | CoLA | 95.1% | 12.3 x | 38.9 |
| princeton-nlp/CoFi-MRPC-s60 | MRPC | 61.5% | 2.0 x | 86.8 |
| princeton-nlp/CoFi-MRPC-s95 | MRPC | 94.9% | 12.2 x | 83.6 |
You can use these models with the huggingface interface:
from models.modeling_bert import CoFiBertForSequenceClassification import CoFiBertForSequenceClassification
model = CoFiBertForSequenceClassification.from_pretrained("princeton-nlp/CoFi-MNLI-s95")
output = model(**inputs)In the following section, we provide instructions on training CoFi with our code.
Try runing the following script to install the dependencies.
Please define a lower version of transformers, because the latest version seems seems do not have hf_bucket_url in transformers.file_utils
pip install -r requirements.txtTraining scripts
We provide example training scripts for training with CoFiPruning with different combination of training units and objectives in scripts/run_CoFi.sh. The script only supports single-GPU training and we explain the arguments in following:
--task_name: we support sequence classification tasks and extractive question answer tasks. You can input a glue task name, e.g.,MNLIor use--train_fileand--validation_filearguments with other tasks (supported by HuggingFace).--ex_name_suffix: experiment name (for output dir)--ex_cate: experiment category name (for output dir)--pruning_type: we support all combinations of the following four types of pruning units. Default pruning type isstructured_heads+structured_mlp+hidden+layer. Setting it toNonefalls back to standard fine-tuning.structured_heads: head pruningstructured_mlp: mlp intermediate dimension pruninghidden: hidden states pruninglayer: layer pruning
--target_sparsity: target sparsity of the pruned model--distillation_path: the directory of the teacher model--distillation_layer_loss_alpha: weight for layer distillation--distillation_ce_loss_alpha: weight for cross entropy distillation--layer_distill_version: we recommend using version 4 for small-sized datasets to impose an explicit restriction on layer orders but for relatively larger datasets, version 3 and version 4 do not make much difference.--sparsity_epsilon: the epsilon to relax the sparsity constraint. If set to be larger than 0, the training process will start saving models with a sparsitytarget_sparsity - sparsity_epislon. This is recommended to be set to be 0.01 when training with 0.95 sparsity to replicate our reported numbers, so that the models with a sparsity above 0.94 will be saved.
After pruning the model, the same script could be used for further fine-tuning the pruned model with following arguments:
--pretrained_pruned_model: directory of the pruned model--learning_rate: learning rate of the fine-tuning stage Note that during fine-tuning stage,pruning_typeshould be set toNone.
An example for training (pruning) is as follows:
TASK=MNLI
SUFFIX=sparsity0.95
EX_CATE=CoFi
PRUNING_TYPE=structured_heads+structured_mlp+hidden+layer
SPARSITY=0.95
DISTILL_LAYER_LOSS_ALPHA=0.9
DISTILL_CE_LOSS_ALPHA=0.1
LAYER_DISTILL_VERSION=4
SPARSITY_EPSILON=0.01
bash scripts/run_CoFi.sh $TASK $SUFFIX $EX_CATE $PRUNING_TYPE $SPARSITY [DISTILLATION_PATH] $DISTILL_LAYER_LOSS_ALPHA $DISTILL_CE_LOSS_ALPHA $LAYER_DISTILL_VERSION $SPARSITY_EPSILONAn example for fine_tuning after pruning is as follows:
PRUNED_MODEL_PATH=$proj_dir/$TASK/$EX_CATE/${TASK}_${SUFFIX}/best
PRUNING_TYPE=None # Setting the pruning type to be None for standard fine-tuning.
LEARNING_RATE=3e-5
bash scripts/run_CoFi.sh $TASK $SUFFIX $EX_CATE $PRUNING_TYPE $SPARSITY [DISTILLATION_PATH] $DISTILL_LAYER_LOSS_ALPHA $DISTILL_CE_LOSS_ALPHA $LAYER_DISTILL_VERSION $SPARSITY_EPSILON [PRUNED_MODEL_PATH] $LEARNING_RATEThe training process will save the model with the best validation accuracy under $PRUNED_MODEL_PATH/best. And you can use the evaluation.py script for evaluation.
Our pruned models are served on Huggingface's model hub. You can use the script evalution.py to get the sparsity, inference time and development set results of a pruned model.
python evaluation.py [TASK] [MODEL_NAME_OR_DIR]An example use of evaluating a sentence classification model is as follows:
python evaluation.py MNLI princeton-nlp/CoFi-MNLI-s95 The expected output of the model is as follows:
Task: MNLI
Model path: princeton-nlp/CoFi-MNLI-s95
Model size: 4920106
Sparsity: 0.943
mnli/acc: 0.8055
seconds/example: 0.010151
Hyperparameters
We use the following hyperparamters for training CoFiPruning:
| GLUE (small) | GLUE (large) | SQuAD | |
|---|---|---|---|
| Batch size | 32 | 32 | 16 |
| Pruning learning rate | 2e-5 | 2e-5 | 3e-5 |
| Fine-tuning learning rate | 1e-5, 2e-5, 3e-5 | 1e-5, 2e-5, 3e-5 | 1e-5, 2e-5, 3e-5 |
| Layer distill. alpha | 0.9, 0.7, 0.5 | 0.9, 0.7, 0.5 | 0.9, 0.7, 0.5 |
| Cross entropy distill. alpha | 0.1, 0.3, 0.5 | 0.1, 0.3, 0.5 | 0.1, 0.3, 0.5 |
| Pruning epochs | 100 | 20 | 20 |
| Pre-finetuning epochs | 4 | 1 | 1 |
| Sparsity warmup epochs | 20 | 2 | 2 |
| Finetuning epochs | 20 | 20 | 20 |
GLUE (small) denotes the GLUE tasks with a relatively smaller size including CoLA, STS-B, MRPC and RTE and GLUE (large) denotes the rest of the GLUE tasks including SST-2, MNLI, QQP and QNLI. Note that hyperparameter search is essential for small-sized datasets but is less important for large-sized datasets.
If you have any questions related to the code or the paper, feel free to email Mengzhou ([email protected]) and Zexuan ([email protected]). If you encounter any problems when using the code, or want to report a bug, you can open an issue. Please try to specify the problem with details so we can help you better and quicker!
Please cite our paper if you use CoFiPruning in your work:
@inproceedings{xia2022structured,
title={Structured Pruning Learns Compact and Accurate Models},
author={Xia, Mengzhou and Zhong, Zexuan and Chen, Danqi},
booktitle={Association for Computational Linguistics (ACL)},
year={2022}
}