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AdaptNLP: A Natural Language Processing Library and Framework

Project description

A high level framework and library for running, training, and deploying state-of-the-art Natural Language Processing (NLP) models for end to end tasks.

AdaptNLP allows users ranging from beginner python coders to experienced machine learning engineers to leverage state-of-the-art NLP models and training techniques in one easy-to-use python package.

Built atop Zalando Research's Flair and Hugging Face's Transformers library, AdaptNLP provides Machine Learning Researchers and Scientists a modular and adaptive approach to a variety of NLP tasks with an Easy API for training, inference, and deploying NLP-based microservices.

Key Features

  • Full Guides and API Documentation
  • Tutorial Jupyter/Google Colab Notebooks
  • Unified API for NLP Tasks with SOTA Pretrained Models (Adaptable with Flair and Transformer's Models)
    • Token Tagging
    • Sequence Classification
    • Embeddings
    • Question Answering
    • Summarization
    • Translation
    • More in development
  • Training and Fine-tuning Interface
    • Jeremy's ULM-FIT approach for transfer learning in NLP
    • Fine-tuning Transformer's language models and task-specific predictive heads like Flair's SequenceClassifier
  • Rapid NLP Model Deployment with Sebastián's FastAPI Framework
    • Containerized FastAPI app
    • Immediately deploy any custom trained Flair or AdaptNLP model
  • Dockerizing AdaptNLP with GPUs
    • Easily build and run AdaptNLP containers leveraging NVIDIA GPUs with Docker

Quick Start

Requirements and Installation

Virtual Environment

To avoid dependency clustering and issues, it would be wise to install AdaptNLP in a virtual environment. To create a new python 3.6+ virtual environment, run this command and then activate it however your operating system specifies:

python -m venv venv-adaptnlp
AdaptNLP Install

Install using pip in your virtual environment:

pip install adaptnlp

Examples and General Use

Once you have installed AdaptNLP, here are a few examples of what you can run with AdaptNLP modules:

Named Entity Recognition with EasyTokenTagger
from adaptnlp import EasyTokenTagger

## Example Text
example_text = "Novetta's headquarters is located in Mclean, Virginia."

## Load the token tagger module and tag text with the NER model 
tagger = EasyTokenTagger()
sentences = tagger.tag_text(text=example_text, model_name_or_path="ner")

## Output tagged token span results in Flair's Sentence object model
for sentence in sentences:
    for entity in sentence.get_spans("ner"):
        print(entity)
English Sentiment Classifier EasySequenceClassifier
from adaptnlp import EasySequenceClassifier 

## Example Text
example_text = "Novetta is a great company that was chosen as one of top 50 great places to work!"

## Load the sequence classifier module and classify sequence of text with the english sentiment model 
classifier = EasySequenceClassifier()
sentences = classifier.tag_text(text=example_text, mini_batch_size=1, model_name_or_path="en-sentiment")

## Output labeled text results in Flair's Sentence object model
for sentence in sentences:
    print(sentence.labels)
Span-based Question Answering EasyQuestionAnswering
from adaptnlp import EasyQuestionAnswering 

## Example Query and Context 
query = "What is the meaning of life?"
context = "Machine Learning is the meaning of life."
top_n = 5

## Load the QA module and run inference on results 
qa = EasyQuestionAnswering()
best_answer, best_n_answers = qa.predict_qa(query=query, context=context, n_best_size=top_n, mini_batch_size=1, model_name_or_path="distilbert-base-uncased-distilled-squad")

## Output top answer as well as top 5 answers
print(best_answer)
print(best_n_answers)
Summarization EasySummarizer
from adaptnlp import EasySummarizer

# Text from encyclopedia Britannica on Einstein
text = """Einstein would write that two “wonders” deeply affected his early years. The first was his encounter with a compass at age five. 
          He was mystified that invisible forces could deflect the needle. This would lead to a lifelong fascination with invisible forces. 
          The second wonder came at age 12 when he discovered a book of geometry, which he devoured, calling it his 'sacred little geometry 
          book'. Einstein became deeply religious at age 12, even composing several songs in praise of God and chanting religious songs on 
          the way to school. This began to change, however, after he read science books that contradicted his religious beliefs. This challenge 
          to established authority left a deep and lasting impression. At the Luitpold Gymnasium, Einstein often felt out of place and victimized 
          by a Prussian-style educational system that seemed to stifle originality and creativity. One teacher even told him that he would 
          never amount to anything."""

summarizer = EasySummarizer()

# Summarize
summaries = summarizer.summarize(text = text, model_name_or_path="t5-small", mini_batch_size=1, num_beams = 4, min_length=0, max_length=100, early_stopping=True)

print("Summaries:\n")
for s in summaries:
    print(s, "\n")
Translation EasyTranslator
from adaptnlp import EasyTranslator

text = ["Machine learning will take over the world very soon.",
        "Machines can speak in many languages.",]

translator = EasyTranslator()

# Translate
translations = translator.translate(text = text, t5_prefix="translate English to German", model_name_or_path="t5-small", mini_batch_size=1, min_length=0, max_length=100, early_stopping=True)

print("Translations:\n")
for t in translations:
    print(t, "\n")
Sequence Classification Training SequenceClassifier
from adaptnlp import EasyDocumentEmbeddings, SequenceClassifierTrainer 

# Specify corpus data directory and model output directory
corpus = "Path/to/data/directory" 
OUTPUT_DIR = "Path/to/output/directory" 

# Instantiate AdaptNLP easy document embeddings module, which can take in a variable number of embeddings to make `Stacked Embeddings`.  
# You may also use custom Transformers LM models by specifying the path the the language model
doc_embeddings = EasyDocumentEmbeddings(model_name_or_path="bert-base-cased", methods = ["rnn"])

# Instantiate Sequence Classifier Trainer by loading in the data, data column map, and embeddings as an encoder
sc_trainer = SequenceClassifierTrainer(corpus=corpus, encoder=doc_embeddings, column_name_map={0: "text", 1:"label"})

# Find Learning Rate
learning_rate = sc_trainer.find_learning_rate(output_dir=OUTPUT_DIR)

# Train Using Flair's Sequence Classification Head
sc_trainer.train(output_dir=OUTPUT_DIR, learning_rate=learning_rate, max_epochs=150)


# Predict text labels with the trained model using `EasySequenceClassifier`
from adaptnlp import EasySequenceClassifier
example_text = '''Where was the Queen's wedding held? '''
classifier = EasySequenceClassifier()
sentences = classifier.tag_text(example_text, model_name_or_path=OUTPUT_DIR / "final-model.pt")
print("Label output:\n")
for sentence in sentences:
    print(sentence.labels)
Transformers Language Model Fine Tuning LMFineTuner
from adaptnlp import LMFineTuner

# Specify Text Data File Paths
train_data_file = "Path/to/train.csv"
eval_data_file = "Path/to/test.csv"

# Instantiate Finetuner with Desired Language Model
finetuner = LMFineTuner(train_data_file=train_data_file, eval_data_file=eval_data_file, model_type="bert", model_name_or_path="bert-base-cased")
finetuner.freeze()

# Find Optimal Learning Rate
learning_rate = finetuner.find_learning_rate(base_path="Path/to/base/directory")
finetuner.freeze()

# Train and Save Fine Tuned Language Models
finetuner.train_one_cycle(output_dir="Path/to/output/directory", learning_rate=learning_rate)

Tutorials

Look in the Tutorials directory for a quick introduction to the library and its very simple and straight forward use cases:

NLP Tasks

  1. Token Classification: NER, POS, Chunk, and Frame Tagging
    • Open In Colab
  2. Sequence Classification: Sentiment
    • Open In Colab
  3. Embeddings: Transformer Embeddings e.g. BERT, XLM, GPT2, XLNet, roBERTa, ALBERT
    • Open In Colab
  4. Question Answering: Span-based Question Answering Model
    • Open In Colab
  5. Summarization: Abstractive and Extractive
    • Open In Colab
  6. Translation: Seq2Seq
    • Open In Colab

Custom Fine-Tuning and Training with Transformer Models

  • Training a Sequence Classifier
    • Open In Colab
  • Fine-tuning a Transformers Language Model
    • Open In Colab

Checkout the documentation for more information.

REST Service

We use FastAPI for standing up endpoints for serving state-of-the-art NLP models with AdaptNLP.

Swagger Example

The REST directory contains more detail on deploying a REST API locally or with docker in a very easy and fast way.

Docker

AdaptNLP official docker images are up on Docker Hub.

Images have AdaptNLP installed from source in developer mode with tutorial notebooks available.

Images can build with GPU support if NVIDA-Docker is correctly installed.

Pull and Run AdaptNLP Immediately

Simply run an image with AdaptNLP installed from source in developer mode by running:

docker run -it --rm achangnovetta/adaptnlp:latest

Run an image with AdaptNLP running on GPUs if you have nvidia drivers and nvidia-docker 19.03+ installed:

docker run -it --rm --gpus all achangnovetta/adaptnlp:latest

Build

Build docker image and run container with the following commands in the directory of the Dockerfile to create a container with adaptnlp installed and ready to go

Note: A container with GPUs enabled requires Docker version 19.03+ and nvida-docker installed

docker build -t achangnovetta/adaptnlp:latest .
docker run -it --rm achangnovetta/adaptnlp:latest

If you want to use CUDA compatible GPUs

docker run -it --rm --gpus all achangnovetta/adaptnlp:latest

Contact

Please contact the author Andrew Chang at achang@novetta.com with questions or comments regarding AdaptNLP.

Follow us on Twitter at @achang1618 and @AdaptNLP for updates and NLP dialogue.

License

This project is licensed under the terms of the Apache 2.0 license.

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