BART: Denoising Sequence-to-Sequence Pre-training for Natural Language Generation, Translation, and Comprehension
[https://arxiv.org/pdf/1910.13461.pdf]
BART is sequence-to-sequence model trained with denoising as pretraining objective. We show that this pretraining objective is more generic and show that we can match RoBERTa Results on SQuAD and GLUE and gain state-of-the-art results on summarization (XSum, CNN dataset), long form generative question answering (ELI5) and dialog response genration (ConvAI2). See the associated paper for more details.
Model | Description | # params | Download |
---|---|---|---|
bart.large |
BART model with 12 encoder and decoder layers | 400M | bart.large.tar.gz |
bart.large.mnli |
bart.large finetuned on MNLI |
400M | bart.large.mnli.tar.gz |
bart.large.cnn |
bart.large finetuned on CNN-DM |
400M | bart.large.cnn.tar.gz |
bart.large.xsum |
bart.large finetuned on Xsum |
400M | bart.large.xsum.tar.gz |
GLUE (Wang et al., 2019) (dev set, single model, single-task finetuning)
Model | MNLI | QNLI | QQP | RTE | SST-2 | MRPC | CoLA | STS-B |
---|---|---|---|---|---|---|---|---|
roberta.large |
90.2 | 94.7 | 92.2 | 86.6 | 96.4 | 90.9 | 68.0 | 92.4 |
bart.large |
89.9 | 94.9 | 92.5 | 87.0 | 96.6 | 90.4 | 62.8 | 91.2 |
SQuAD (Rajpurkar et al., 2018) (dev set, no additional data used)
Model | SQuAD 1.1 EM/F1 | SQuAD 2.0 EM/F1 |
---|---|---|
roberta.large |
88.9/94.6 | 86.5/89.4 |
bart.large |
88.8/94.6 | 86.1/89.2 |
CNN/Daily Mail (test set, no additional data used)
Model | R1 | R2 | RL |
---|---|---|---|
BERTSUMEXTABS |
42.13 | 19.60 | 39.18 |
bart.large |
44.16 | 21.28 | 40.90 |
import torch
bart = torch.hub.load('pytorch/fairseq', 'bart.large')
bart.eval() # disable dropout (or leave in train mode to finetune)
# Download bart.large model
wget https://dl.fbaipublicfiles.com/fairseq/models/bart.large.tar.gz
tar -xzvf bart.large.tar.gz
# Load the model in fairseq
from fairseq.models.bart import BARTModel
bart = BARTModel.from_pretrained('/path/to/bart.large', checkpoint_file='model.pt')
bart.eval() # disable dropout (or leave in train mode to finetune)
tokens = bart.encode('Hello world!')
assert tokens.tolist() == [0, 31414, 232, 328, 2]
bart.decode(tokens) # 'Hello world!'
# Extract the last layer's features
last_layer_features = bart.extract_features(tokens)
assert last_layer_features.size() == torch.Size([1, 5, 1024])
# Extract all layer's features from decoder (layer 0 is the embedding layer)
all_layers = bart.extract_features(tokens, return_all_hiddens=True)
assert len(all_layers) == 13
assert torch.all(all_layers[-1] == last_layer_features)
# Download BART already finetuned for MNLI
bart = torch.hub.load('pytorch/fairseq', 'bart.large.mnli')
bart.eval() # disable dropout for evaluation
# Encode a pair of sentences and make a prediction
tokens = bart.encode('BART is a seq2seq model.', 'BART is not sequence to sequence.')
bart.predict('mnli', tokens).argmax() # 0: contradiction
# Encode another pair of sentences
tokens = bart.encode('BART is denoising autoencoder.', 'BART is version of autoencoder.')
bart.predict('mnli', tokens).argmax() # 2: entailment
bart.register_classification_head('new_task', num_classes=3)
logprobs = bart.predict('new_task', tokens)
import torch
from fairseq.data.data_utils import collate_tokens
bart = torch.hub.load('pytorch/fairseq', 'bart.large.mnli')
bart.eval()
batch_of_pairs = [
['BART is a seq2seq model.', 'BART is not sequence to sequence.'],
['BART is denoising autoencoder.', 'BART is version of autoencoder.'],
]
batch = collate_tokens(
[bart.encode(pair[0], pair[1]) for pair in batch_of_pairs], pad_idx=1
)
logprobs = bart.predict('mnli', batch)
print(logprobs.argmax(dim=1))
# tensor([0, 2])
bart.cuda()
bart.predict('new_task', tokens)
Example python code snippet to evaluate accuracy on the MNLI dev_matched
set.
label_map = {0: 'contradiction', 1: 'neutral', 2: 'entailment'}
ncorrect, nsamples = 0, 0
bart.cuda()
bart.eval()
with open('glue_data/MNLI/dev_matched.tsv') as fin:
fin.readline()
for index, line in enumerate(fin):
tokens = line.strip().split('\t')
sent1, sent2, target = tokens[8], tokens[9], tokens[-1]
tokens = bart.encode(sent1, sent2)
prediction = bart.predict('mnli', tokens).argmax().item()
prediction_label = label_map[prediction]
ncorrect += int(prediction_label == target)
nsamples += 1
print('| Accuracy: ', float(ncorrect)/float(nsamples))
# Expected output: 0.9010
Follow instructions here to download and process into data-files such that test.source
and test.target
has one line for each non-tokenized sample.
bart = torch.hub.load('pytorch/fairseq', 'bart.large.cnn')
bart.cuda()
bart.eval()
bart.half()
count = 1
bsz = 32
with open('test.source') as source, open('test.hypo', 'w') as fout:
sline = source.readline().strip()
slines = [sline]
for sline in source:
if count % bsz == 0:
with torch.no_grad():
hypotheses_batch = bart.sample(slines, beam=4, lenpen=2.0, max_len_b=140, min_len=55, no_repeat_ngram_size=3)
for hypothesis in hypotheses_batch:
fout.write(hypothesis + '\n')
fout.flush()
slines = []
slines.append(sline.strip())
count += 1
if slines != []:
hypotheses_batch = bart.sample(slines, beam=4, lenpen=2.0, max_len_b=140, min_len=55, no_repeat_ngram_size=3)
for hypothesis in hypotheses_batch:
fout.write(hypothesis + '\n')
fout.flush()
Install files2rouge
from here.
export CLASSPATH=/path/to/stanford-corenlp-full-2016-10-31/stanford-corenlp-3.7.0.jar
# Tokenize hypothesis and target files.
cat test.hypo | java edu.stanford.nlp.process.PTBTokenizer -ioFileList -preserveLines > test.hypo.tokenized
cat test.target | java edu.stanford.nlp.process.PTBTokenizer -ioFileList -preserveLines > test.hypo.target
files2rouge test.hypo.tokenized test.hypo.target
# Expected output: (ROUGE-2 Average_F: 0.21238)
@article{lewis2019bart,
title = {BART: Denoising Sequence-to-Sequence Pre-training for Natural
Language Generation, Translation, and Comprehension},
author = {Mike Lewis and Yinhan Liu and Naman Goyal and Marjan Ghazvininejad and
Abdelrahman Mohamed and Omer Levy and Veselin Stoyanov
and Luke Zettlemoyer },
journal={arXiv preprint arXiv:1910.13461},
year = {2019},
}