Datasets:
gsm8k

	---
	annotations_creators:
	- crowdsourced
	language_creators:
	- crowdsourced
	language:
	- en
	license:
	- mit
	multilinguality:
	- monolingual
	size_categories:
	- 1K<n<10K
	source_datasets:
	- original
	task_categories:
	- text2text-generation
	task_ids: []
	paperswithcode_id: gsm8k
	pretty_name: Grade School Math 8K
	tags:
	- math-word-problems
	dataset_info:
	- config_name: main
	features:
	- name: question
	dtype: string
	- name: answer
	dtype: string
	splits:
	- name: train
	num_bytes: 3963202
	num_examples: 7473
	- name: test
	num_bytes: 713732
	num_examples: 1319
	download_size: 2725633
	dataset_size: 4676934
	- config_name: socratic
	features:
	- name: question
	dtype: string
	- name: answer
	dtype: string
	splits:
	- name: train
	num_bytes: 5198108
	num_examples: 7473
	- name: test
	num_bytes: 936859
	num_examples: 1319
	download_size: 3164254
	dataset_size: 6134967
	configs:
	- config_name: main
	data_files:
	- split: train
	path: main/train-*
	- split: test
	path: main/test-*
	- config_name: socratic
	data_files:
	- split: train
	path: socratic/train-*
	- split: test
	path: socratic/test-*
	---

	# Dataset Card for GSM8K

	## Table of Contents
	- [Dataset Description](#dataset-description)
	- [Dataset Summary](#dataset-summary)
	- [Supported Tasks](#supported-tasks-and-leaderboards)
	- [Languages](#languages)
	- [Dataset Structure](#dataset-structure)
	- [Data Instances](#data-instances)
	- [Data Fields](#data-instances)
	- [Data Splits](#data-instances)
	- [Dataset Creation](#dataset-creation)
	- [Curation Rationale](#curation-rationale)
	- [Source Data](#source-data)
	- [Annotations](#annotations)
	- [Personal and Sensitive Information](#personal-and-sensitive-information)
	- [Considerations for Using the Data](#considerations-for-using-the-data)
	- [Social Impact of Dataset](#social-impact-of-dataset)
	- [Discussion of Biases](#discussion-of-biases)
	- [Other Known Limitations](#other-known-limitations)
	- [Additional Information](#additional-information)
	- [Dataset Curators](#dataset-curators)
	- [Licensing Information](#licensing-information)
	- [Citation Information](#citation-information)

	## Dataset Description

	- Homepage: https://openai.com/blog/grade-school-math/
	- Repository: https://github.com/openai/grade-school-math
	- Paper: https://arxiv.org/abs/2110.14168
	- Leaderboard: [Needs More Information]
	- Point of Contact: [Needs More Information]

	### Dataset Summary

	GSM8K (Grade School Math 8K) is a dataset of 8.5K high quality linguistically diverse grade school math word problems. The dataset was created to support the task of question answering on basic mathematical problems that require multi-step reasoning.
	- These problems take between 2 and 8 steps to solve.
	- Solutions primarily involve performing a sequence of elementary calculations using basic arithmetic operations (+ − ×÷) to reach the final answer.
	- A bright middle school student should be able to solve every problem: from the paper, "Problems require no concepts beyond the level of early Algebra, and the vast majority of problems can be solved without explicitly defining a variable."
	- Solutions are provided in natural language, as opposed to pure math expressions. From the paper: "We believe this is the most generally useful data format, and we expect it to shed light on the properties of large language models’ internal monologues""

	### Supported Tasks and Leaderboards

	This dataset is generally used to test logic and math in language modelling.
	It has been used for many benchmarks, including the [LLM Leaderboard](https://huggingface.co/spaces/HuggingFaceH4/open_llm_leaderboard).

	### Languages

	The text in the dataset is in English. The associated BCP-47 code is `en`.

	## Dataset Structure

	### Data Instances

	For the `main` configuration, each instance contains a string for the grade-school level math question and a string for the corresponding answer with multiple steps of reasoning and calculator annotations (explained [here](https://github.com/openai/grade-school-math#calculation-annotations)).


	```python
	{
	'question': 'Natalia sold clips to 48 of her friends in April, and then she sold half as many clips in May. How many clips did Natalia sell altogether in April and May?',
	'answer': 'Natalia sold 48/2 = <<48/2=24>>24 clips in May.\nNatalia sold 48+24 = <<48+24=72>>72 clips altogether in April and May.\n#### 72',
	}
	```

	For the `socratic` configuration, each instance contains a string for a grade-school level math question, a string for the corresponding answer with multiple steps of reasoning, calculator annotations (explained [here](https://github.com/openai/grade-school-math#calculation-annotations)), and Socratic sub-questions.

	```python
	{
	'question': 'Natalia sold clips to 48 of her friends in April, and then she sold half as many clips in May. How many clips did Natalia sell altogether in April and May?',
	'answer': 'How many clips did Natalia sell in May? Natalia sold 48/2 = <<48/2=24>>24 clips in May.\nHow many clips did Natalia sell altogether in April and May? Natalia sold 48+24 = <<48+24=72>>72 clips altogether in April and May.\n#### 72',
	}
	```

	### Data Fields

	The data fields are the same among `main` and `socratic` configurations and their individual splits.

	- question: The question string to a grade school math problem.

	- answer: The full solution string to the `question`. It contains multiple steps of reasoning with calculator annotations and the final numeric solution.

	### Data Splits

	\| name \|train\|validation\|
	\|--------\|----:\|---------:\|
	\|main \| 7473\| 1319\|
	\|socratic\| 7473\| 1319\|

	## Dataset Creation

	### Curation Rationale

	[Needs More Information]

	### Source Data

	#### Initial Data Collection and Normalization

	From the paper, appendix A:

	> We initially collected a starting set of a thousand problems and natural language solutions by hiring freelance contractors on Upwork (upwork.com). We then worked with Surge AI (surgehq.ai), an NLP data labeling platform, to scale up our data collection. After collecting the full dataset, we asked workers to re-solve all problems, with no workers re-solving problems they originally wrote. We checked whether their final answers agreed with the original solutions, and any problems that produced disagreements were either repaired or discarded. We then performed another round of agreement checks on a smaller subset of problems, finding that 1.7% of problems still produce disagreements among contractors. We estimate this to be the fraction of problems that contain breaking errors or ambiguities. It is possible that a larger percentage of problems contain subtle errors.

	#### Who are the source language producers?

	[Needs More Information]

	### Annotations

	#### Annotation process

	[Needs More Information]

	#### Who are the annotators?

	Surge AI (surgehq.ai)

	### Personal and Sensitive Information

	[Needs More Information]

	## Considerations for Using the Data

	### Social Impact of Dataset

	[Needs More Information]

	### Discussion of Biases

	[Needs More Information]

	### Other Known Limitations

	[Needs More Information]

	## Additional Information

	### Dataset Curators

	[Needs More Information]

	### Licensing Information

	The GSM8K dataset is licensed under the [MIT License](https://opensource.org/licenses/MIT).

	### Citation Information

	```bibtex
	@article{cobbe2021gsm8k,
	title={Training Verifiers to Solve Math Word Problems},
	author={Cobbe, Karl and Kosaraju, Vineet and Bavarian, Mohammad and Chen, Mark and Jun, Heewoo and Kaiser, Lukasz and Plappert, Matthias and Tworek, Jerry and Hilton, Jacob and Nakano, Reiichiro and Hesse, Christopher and Schulman, John},
	journal={arXiv preprint arXiv:2110.14168},
	year={2021}
	}
	```

	### Contributions

	Thanks to [@jon-tow](https://github.com/jon-tow) for adding this dataset.