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	---
	license: mit
	datasets:
	- squad_v2
	- squad
	language:
	- en
	library_name: transformers
	pipeline_tag: question-answering
	tags:
	- question-answering
	- squad
	- squad_v2
	- t5
	model-index:
	- name: sjrhuschlee/flan-t5-base-squad2
	results:
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squad_v2
	type: squad_v2
	config: squad_v2
	split: validation
	metrics:
	- type: exact_match
	value: 82.203
	name: Exact Match
	- type: f1
	value: 85.283
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squad
	type: squad
	config: plain_text
	split: validation
	metrics:
	- type: exact_match
	value: 86.320
	name: Exact Match
	- type: f1
	value: 92.947
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: adversarial_qa
	type: adversarial_qa
	config: adversarialQA
	split: validation
	metrics:
	- type: exact_match
	value: 23.133
	name: Exact Match
	- type: f1
	value: 31.386
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squad_adversarial
	type: squad_adversarial
	config: AddOneSent
	split: validation
	metrics:
	- type: exact_match
	value: 68.159
	name: Exact Match
	- type: f1
	value: 71.876
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squadshifts
	type: squadshifts
	config: amazon
	split: test
	metrics:
	- type: exact_match
	value: 67.587
	name: Exact Match
	- type: f1
	value: 80.085
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squadshifts
	type: squadshifts
	config: new_wiki
	split: test
	metrics:
	- type: exact_match
	value: 77.261
	name: Exact Match
	- type: f1
	value: 85.068
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squadshifts
	type: squadshifts
	config: nyt
	split: test
	metrics:
	- type: exact_match
	value: 79.066
	name: Exact Match
	- type: f1
	value: 86.178
	name: F1
	- task:
	type: question-answering
	name: Question Answering
	dataset:
	name: squadshifts
	type: squadshifts
	config: reddit
	split: test
	metrics:
	- type: exact_match
	value: 65.052
	name: Exact Match
	- type: f1
	value: 74.785
	name: F1
	---

	# flan-t5-base for Extractive QA

	This is the [flan-t5-base](https://huggingface.co/google/flan-t5-base) model, fine-tuned using the [SQuAD2.0](https://huggingface.co/datasets/squad_v2) dataset. It's been trained on question-answer pairs, including unanswerable questions, for the task of Extractive Question Answering.

	UPDATE: With transformers version 4.31.0 the `use_remote_code=True` is no longer necessary and if used will cause `AutoModelForQuestionAnswering.from_pretrained()` to not work properly.

	NOTE: The `<cls>` token must be manually added to the beginning of the question for this model to work properly.
	It uses the `<cls>` token to be able to make "no answer" predictions.
	The t5 tokenizer does not automatically add this special token which is why it is added manually.

	## Overview
	Language model: flan-t5-base
	Language: English
	Downstream-task: Extractive QA
	Training data: SQuAD 2.0
	Eval data: SQuAD 2.0
	Infrastructure: 1x NVIDIA 3070

	## Model Usage
	```python
	import torch
	from transformers import(
	AutoModelForQuestionAnswering,
	AutoTokenizer,
	pipeline
	)
	model_name = "sjrhuschlee/flan-t5-base-squad2"

	# a) Using pipelines
	nlp = pipeline(
	'question-answering',
	model=model_name,
	tokenizer=model_name,
	# trust_remote_code=True, # Do not use if version transformers>=4.31.0
	)
	qa_input = {
	'question': f'{nlp.tokenizer.cls_token}Where do I live?', # '<cls>Where do I live?'
	'context': 'My name is Sarah and I live in London'
	}
	res = nlp(qa_input)
	# {'score': 0.980, 'start': 30, 'end': 37, 'answer': ' London'}

	# b) Load model & tokenizer
	model = AutoModelForQuestionAnswering.from_pretrained(
	model_name,
	# trust_remote_code=True # Do not use if version transformers>=4.31.0
	)
	tokenizer = AutoTokenizer.from_pretrained(model_name)

	question = f'{tokenizer.cls_token}Where do I live?' # '<cls>Where do I live?'
	context = 'My name is Sarah and I live in London'
	encoding = tokenizer(question, context, return_tensors="pt")
	output = model(
	encoding["input_ids"],
	attention_mask=encoding["attention_mask"]
	)

	all_tokens = tokenizer.convert_ids_to_tokens(encoding["input_ids"][0].tolist())
	answer_tokens = all_tokens[torch.argmax(output["start_logits"]):torch.argmax(output["end_logits"]) + 1]
	answer = tokenizer.decode(tokenizer.convert_tokens_to_ids(answer_tokens))
	# 'London'
	```

	## Metrics

	```bash
	# Squad v2
	{
	"eval_HasAns_exact": 79.97638326585695,
	"eval_HasAns_f1": 86.1444296592862,
	"eval_HasAns_total": 5928,
	"eval_NoAns_exact": 84.42388561816652,
	"eval_NoAns_f1": 84.42388561816652,
	"eval_NoAns_total": 5945,
	"eval_best_exact": 82.2033184536343,
	"eval_best_exact_thresh": 0.0,
	"eval_best_f1": 85.28292588395921,
	"eval_best_f1_thresh": 0.0,
	"eval_exact": 82.2033184536343,
	"eval_f1": 85.28292588395928,
	"eval_runtime": 522.0299,
	"eval_samples": 12001,
	"eval_samples_per_second": 22.989,
	"eval_steps_per_second": 0.96,
	"eval_total": 11873
	}

	# Squad
	{
	"eval_exact_match": 86.3197729422895,
	"eval_f1": 92.94686836210295,
	"eval_runtime": 442.1088,
	"eval_samples": 10657,
	"eval_samples_per_second": 24.105,
	"eval_steps_per_second": 1.007
	}
	```

	## Training procedure

	### Training hyperparameters

	The following hyperparameters were used during training:
	- learning_rate: 2e-05
	- train_batch_size: 16
	- eval_batch_size: 8
	- seed: 42
	- gradient_accumulation_steps: 6
	- total_train_batch_size: 96
	- optimizer: Adam with betas=(0.9,0.999) and epsilon=1e-08
	- lr_scheduler_type: linear
	- lr_scheduler_warmup_ratio: 0.1
	- num_epochs: 4.0

	### Training results



	### Framework versions

	- Transformers 4.30.0.dev0
	- Pytorch 2.0.1+cu117
	- Datasets 2.12.0
	- Tokenizers 0.13.3