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metadata
license: cc-by-4.0
dataset_info:
  - config_name: minority_examples
    features:
      - name: question1
        dtype: string
      - name: question2
        dtype: string
      - name: label
        dtype:
          class_label:
            names:
              '0': not_duplicate
              '1': duplicate
      - name: idx
        dtype: int32
    splits:
      - name: train.biased
        num_bytes: 42391456
        num_examples: 297735
      - name: train.anti_biased
        num_bytes: 8509364
        num_examples: 66111
      - name: validation.biased
        num_bytes: 4698206
        num_examples: 32968
      - name: validation.anti_biased
        num_bytes: 955548
        num_examples: 7462
    download_size: 70726976
    dataset_size: 56554574
  - config_name: partial_input
    features:
      - name: question1
        dtype: string
      - name: question2
        dtype: string
      - name: label
        dtype:
          class_label:
            names:
              '0': not_duplicate
              '1': duplicate
      - name: idx
        dtype: int32
    splits:
      - name: train.biased
        num_bytes: 42788212
        num_examples: 297735
      - name: train.anti_biased
        num_bytes: 8112608
        num_examples: 66111
      - name: validation.biased
        num_bytes: 4712327
        num_examples: 33084
      - name: validation.anti_biased
        num_bytes: 941427
        num_examples: 7346
    download_size: 70726976
    dataset_size: 56554574
task_categories:
  - text-classification
language:
  - en
pretty_name: Quora Questions Pairs

Dataset Card for Bias-amplified Splits for QQP

Table of Contents

Dataset Description

Dataset Summary

Bias-amplified splits is a novel evaluation framework to assess model robustness, by amplifying dataset biases in the training data and challenging models to generalize beyond them. This framework is defined by a bias-amplified training set and a hard, anti-biased test set, which we automatically extract from existing datasets using model-based methods.

Our experiments show that the identified anti-biased examples are naturally challenging for models, and moreover, models trained on bias-amplified data exhibit dramatic performance drops on anti-biased examples, which are not mitigated by common approaches to improve generalization.

Here we apply our framework to the Quora Question Pairs dataset (QQP), a dataset composed of question pairs where the task is to determine if the questions are paraphrases of each other (have the same meaning).

Our evaluation framework can be applied to any existing dataset, even those considered obsolete, to test model robustness. We hope our work will guide the development of robust models that do not rely on superficial biases and correlations.

Evaluation Results (DeBERTa-large)

For splits based on minority examples:
Training Data \ Test Data Original test Anti-biased test
Original training split 93.0 77.6
Biased training split 87.0 36.8
For splits based on partial-input model:
Training Data \ Test Data Original test Anti-biased test
Original training split 93.0 81.3
Biased training split 90.3 63.9

Loading the Data

from datasets import load_dataset

# choose which bias detection method to use for the bias-amplified splits: either "minority_examples" or "partial_input"
dataset = load_dataset("bias-amplified-splits/qqp", "minority_examples")

# use the biased training split and anti-biased test split
train_dataset = dataset['train.biased']
eval_dataset = dataset['validation.anti_biased']

Dataset Structure

Data Instances

Data instances are taken directly from QQP (GLUE version), and re-split into biased and anti-biased subsets. Here is an example of an instance from the dataset:

{
  "idx": 56,
  "question1": "How do I buy used car in India?",
  "question2": "Which used car should I buy in India?",
  "label": 0
}

Data Fields

  • idx: unique identifier for the example within its original data splits (e.g., validation set)
  • question1: a question asked on Quora
  • question2: a question asked on Quora
  • label: one of 0 and 1 (not duplicate and duplicate)

Data Splits

Bias-amplified splits require a method to detect biased and anti-biased examples in datasets. We release bias-amplified splits based created with each of these two methods:

  • Minority examples: A novel method we introduce that leverages representation learning and clustering for identifying anti-biased minority examples (Tu et al., 2020)—examples that defy common statistical patterns found in the rest of the dataset.
  • Partial-input baselines: A common method for identifying biased examples containing annotation artifacts in a dataset, which examines the performance of models that are restricted to using only part of the input. Such models, if successful, are bound to rely on unintended or spurious patterns in the dataset.

Using each of the two methods, we split each of the original train and test splits into biased and anti-biased subsets. See the paper for more details.

Minority Examples

Dataset Split Number of Instances in Split
Train - biased 297735
Train - anti-biased 66111
Validation - biased 32968
Validation - anti-biased 7462

Partial-input Baselines

Dataset Split Number of Instances in Split
Train - biased 297735
Train - anti-biased 66111
Validation - biased 33084
Validation - anti-biased 7346

Dataset Creation

Curation Rationale

NLP models often rely on superficial cues known as dataset biases to achieve impressive performance, and can fail on examples where these biases do not hold. To develop more robust, unbiased models, recent work aims to filter bisased examples from training sets. We argue that in order to encourage the development of robust models, we should in fact amplify biases in the training sets, while adopting the challenge set approach and making test sets anti-biased. To implement our approach, we introduce a simple framework that can be applied automatically to any existing dataset to use it for testing model robustness.

Annotations

Annotation process

No new annotations are required to create bias-amplified splits. Existing data instances are split into biased and anti-biased splits based on automatic model-based methods to detect such examples.

Considerations for Using the Data

Social Impact of Dataset

Bias-amplified splits were created to promote the development of robust NLP models that do not rely on superficial biases and correlations, and provide more challenging evaluation of existing systems.

Discussion of Biases

We propose to use bias-amplified splits to complement benchmarks with challenging evaluation settings that test model robustness, in addition to the dataset’s main training and test sets. As such, while existing dataset biases are amplified during training with bias-amplified splits, these splits are intended primarily for model evaluation, to expose the bias-exploiting behaviors of models and to identify more robsut models and effective robustness interventions.

Additional Information

Dataset Curators

Bias-amplified splits were introduced by Yuval Reif and Roy Schwartz from the Hebrew University of Jerusalem.

QQP data was released by Quora and released under the GLUE benchmark.

Citation Information

@misc{reif2023fighting,
    title = "Fighting Bias with Bias: Promoting Model Robustness by Amplifying Dataset Biases",
    author = "Yuval Reif and Roy Schwartz",
    month = may,
    year = "2023",
    url = "https://arxiv.org/pdf/2305.18917",
}

Source dataset:

@inproceedings{wang2019glue,
  title={{GLUE}: A Multi-Task Benchmark and Analysis Platform for Natural Language Understanding},
  author={Wang, Alex and Singh, Amanpreet and Michael, Julian and Hill, Felix and Levy, Omer and Bowman, Samuel R.},
  note={In the Proceedings of ICLR.},
  year={2019}
}