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roberta-large-mnli


Table of Contents

  • Model Details
  • How To Get Started With the Model
  • Uses
  • Risks, Limitations and Biases
  • Training
  • Evaluation
  • Environmental Impact
  • Technical Specifications
  • Citation Information
  • Model Card Authors


Model Details

Model Description: roberta-large-mnli is the RoBERTa large model fine-tuned on the Multi-Genre Natural Language Inference (MNLI) corpus. The model is a pretrained model on English language text using a masked language modeling (MLM) objective.

  • Developed by: See GitHub Repo for model developers
  • Model Type: Transformer-based language model
  • Language(s): English
  • License: MIT
  • Parent Model: This model is a fine-tuned version of the RoBERTa large model. Users should see the RoBERTa large model card for relevant information.
  • Resources for more information:

    • Research Paper
    • GitHub Repo


How to Get Started with the Model

Use the code below to get started with the model. The model can be loaded with the zero-shot-classification pipeline like so:

from transformers import pipeline
classifier = pipeline('zero-shot-classification', model='roberta-large-mnli')

You can then use this pipeline to classify sequences into any of the class names you specify. For example:

sequence_to_classify = "one day I will see the world"
candidate_labels = ['travel', 'cooking', 'dancing']
classifier(sequence_to_classify, candidate_labels)


Uses


Direct Use

This fine-tuned model can be used for zero-shot classification tasks, including zero-shot sentence-pair classification (see the GitHub repo for examples) and zero-shot sequence classification.


Misuse and Out-of-scope Use

The model should not be used to intentionally create hostile or alienating environments for people. In addition, the model was not trained to be factual or true representations of people or events, and therefore using the model to generate such content is out-of-scope for the abilities of this model.


Risks, Limitations and Biases

CONTENT WARNING: Readers should be aware this section contains content that is disturbing, offensive, and can propogate historical and current stereotypes.

Significant research has explored bias and fairness issues with language models (see, e.g., Sheng et al. (2021) and Bender et al. (2021)). The RoBERTa large model card notes that: “The training data used for this model contains a lot of unfiltered content from the internet, which is far from neutral.”

Predictions generated by the model can include disturbing and harmful stereotypes across protected classes; identity characteristics; and sensitive, social, and occupational groups. For example:

sequence_to_classify = "The CEO had a strong handshake."
candidate_labels = ['male', 'female']
hypothesis_template = "This text speaks about a {} profession."
classifier(sequence_to_classify, candidate_labels, hypothesis_template=hypothesis_template)

Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model.


Training


Training Data

This model was fine-tuned on the Multi-Genre Natural Language Inference (MNLI) corpus. Also see the MNLI data card for more information.

As described in the RoBERTa large model card:

The RoBERTa model was pretrained on the reunion of five datasets:

  • BookCorpus, a dataset consisting of 11,038 unpublished books;
  • English Wikipedia (excluding lists, tables and headers) ;
  • CC-News, a dataset containing 63 millions English news articles crawled between September 2016 and February 2019.
  • OpenWebText, an opensource recreation of the WebText dataset used to train GPT-2,
  • Stories, a dataset containing a subset of CommonCrawl data filtered to match the story-like style of Winograd schemas.

Together theses datasets weight 160GB of text.

Also see the bookcorpus data card and the wikipedia data card for additional information.


Training Procedure


Preprocessing

As described in the RoBERTa large model card:

The texts are tokenized using a byte version of Byte-Pair Encoding (BPE) and a vocabulary size of 50,000. The inputs of
the model take pieces of 512 contiguous token that may span over documents. The beginning of a new document is marked
with <s> and the end of one by </s>

The details of the masking procedure for each sentence are the following:

  • 15% of the tokens are masked.
  • In 80% of the cases, the masked tokens are replaced by <mask>.
  • In 10% of the cases, the masked tokens are replaced by a random token (different) from the one they replace.
  • In the 10% remaining cases, the masked tokens are left as is.

Contrary to BERT, the masking is done dynamically during pretraining (e.g., it changes at each epoch and is not fixed).


Pretraining

Also as described in the RoBERTa large model card:

The model was trained on 1024 V100 GPUs for 500K steps with a batch size of 8K and a sequence length of 512. The
optimizer used is Adam with a learning rate of 4e-4, β1=0.9\beta_{1} = 0.9, β2=0.98\beta_{2} = 0.98 and
ϵ=1e6\epsilon = 1e-6, a weight decay of 0.01, learning rate warmup for 30,000 steps and linear decay of the learning
rate after.


Evaluation

The following evaluation information is extracted from the associated GitHub repo for RoBERTa.


Testing Data, Factors and Metrics

The model developers report that the model was evaluated on the following tasks and datasets using the listed metrics:

  • Dataset: Part of GLUE (Wang et al., 2019), the General Language Understanding Evaluation benchmark, a collection of 9 datasets for evaluating natural language understanding systems. Specifically, the model was evaluated on the Multi-Genre Natural Language Inference (MNLI) corpus. See the GLUE data card or Wang et al. (2019) for further information.

    • Tasks: NLI. Wang et al. (2019) describe the inference task for MNLI as:

      The Multi-Genre Natural Language Inference Corpus (Williams et al., 2018) is a crowd-sourced collection of sentence pairs with textual entailment annotations. Given a premise sentence and a hypothesis sentence, the task is to predict whether the premise entails the hypothesis (entailment), contradicts the hypothesis (contradiction), or neither (neutral). The premise sentences are gathered from ten different sources, including transcribed speech, fiction, and government reports. We use the standard test set, for which we obtained private labels from the authors, and evaluate on both the matched (in-domain) and mismatched (cross-domain) sections. We also use and recommend the SNLI corpus (Bowman et al., 2015) as 550k examples of auxiliary training data.

    • Metrics: Accuracy
  • Dataset: XNLI (Conneau et al., 2018), the extension of the Multi-Genre Natural Language Inference (MNLI) corpus to 15 languages: English, French, Spanish, German, Greek, Bulgarian, Russian, Turkish, Arabic, Vietnamese, Thai, Chinese, Hindi, Swahili and Urdu. See the XNLI data card or Conneau et al. (2018) for further information.

    • Tasks: Translate-test (e.g., the model is used to translate input sentences in other languages to the training language)
    • Metrics: Accuracy


Results

GLUE test results (dev set, single model, single-task fine-tuning): 90.2 on MNLI

XNLI test results:

Task en fr es de el bg ru tr ar vi th zh hi sw ur
91.3 82.91 84.27 81.24 81.74 83.13 78.28 76.79 76.64 74.17 74.05 77.5 70.9 66.65 66.81


Environmental Impact

Carbon emissions can be estimated using the Machine Learning Impact calculator presented in Lacoste et al. (2019). We present the hardware type and hours used based on the associated paper.

  • Hardware Type: 1024 V100 GPUs
  • Hours used: 24 hours (one day)
  • Cloud Provider: Unknown
  • Compute Region: Unknown
  • Carbon Emitted: Unknown


Technical Specifications

See the associated paper for details on the modeling architecture, objective, compute infrastructure, and training details.


Citation Information

@article{liu2019roberta,
    title = {RoBERTa: A Robustly Optimized BERT Pretraining Approach},
    author = {Yinhan Liu and Myle Ott and Naman Goyal and Jingfei Du and
              Mandar Joshi and Danqi Chen and Omer Levy and Mike Lewis and
              Luke Zettlemoyer and Veselin Stoyanov},
    journal={arXiv preprint arXiv:1907.11692},
    year = {2019},
}

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