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Library for easy discovery, and consumption of State-of-the-art models to turn data into vectors. (text2vec, image2vec, video2vec, graph2vec, bert, inception, etc)

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Vector Hub is a library for publication, discovery, and consumption of State-of-the-art models to turn data into vectors. (text2vec, image2vec, video2vec, graph2vec, bert, inception, etc)

There are many ways to extract vectors from data. This library aims to bring in all the state of the art models in a simple manner to vectorise your data easily.

Vector Hub provides:

  • A low barrier of entry for practitioners (using common methods)
  • Vectorise rich and complex data types like: text, image, audio, etc in 3 lines of code
  • Retrieve and find information about a model
  • An easy way to handle dependencies easily for different models

If you are new to vectors, click here! For Python documentation, click here! To view available models, see VectorHub!

Why Vector Hub?

There are thousands of _____2Vec models across different use cases/domains. We wanted to create a hub that allowed people to aggregate their work and share it with the community.

Think transformers for NLP, Sci-kit Learn for data scientists.

Installation:

To get started quickly install vectorhub:

pip install vectorhub

After this, our built-in dependency manager will tell you what to install when you instantiate a model. The main types of installation options can be found here: https://hub.getvectorai.com/

To install different types of models:

# To install transformer requirements
pip install vectorhub[text-encoder-transformers]

To install all models at once:

pip install vectorhub[all]

We recommend activating a new virtual environment and then installing using the following:

python3 -m pip install virtualenv 
python3 -m virtualenv env 
source env/bin/activate
python3 -m pip install --upgrade pip 
python3 -m pip install vectorhub[all]

Quickstart:

Google Colab Quickstart

Documentation

Full list of models

Instantiate our auto_encoder class as such and use any of the models!

from vectorhub.auto_encoder import AutoEncoder
encoder = AutoEncoder.from_model('text/bert')
encoder.encode("Hello vectorhub!")
[0.47, 0.83, 0.148, ...]

You can choose from our list of models:

['text/albert', 'text/bert', 'text/labse', 'text/use', 'text/use-multi', 'text/use-lite', 'text/legal-bert', 'audio/fairseq', 'audio/speech-embedding', 'audio/trill', 'audio/trill-distilled', 'audio/vggish', 'audio/yamnet', 'audio/wav2vec', 'image/bit', 'image/bit-medium', 'image/inception', 'image/inception-v2', 'image/inception-v3', 'image/inception-resnet', 'image/mobilenet', 'image/mobilenet-v2', 'image/resnet', 'image/resnet-v2', 'text_text/use-multi-qa', 'text_text/use-qa', 'text_text/dpr', 'text_text/lareqa-qa']

Leverage Google Tensorflow Hub's powerful models to create vectors

Vectorise your image in 3 lines of code using Google's Big Image Transfer model:

from vectorhub.encoders.image.tfhub import BitSmall2Vec
image_encoder = BitSmall2Vec()
image_encoder.encode('https://www.google.com/images/branding/googlelogo/2x/googlelogo_color_92x30dp.png')
[0.47, 0.83, 0.148, ...]

Vectorise your text in 3 lines of code using Google's BERT model:

from vectorhub.encoders.text.tfhub import Bert2Vec
text_encoder = Bert2Vec()
text_encoder.encode('This is sparta!')
[0.47, 0.83, 0.148, ...]

Vectorise your question and answer in 3 lines of code using Google's USE QA model:

from vectorhub.bi_encoders.text.tfhub import UseQA2Vec
text_encoder = UseQA2Vec()
text_encoder.encode_question('Who is sparta!')
[0.47, 0.83, 0.148, ...]
text_encoder.encode_answer('Sparta!')
[0.47, 0.83, 0.148, ...]
from vectorhub.encoders.text import Transformer2Vec
text_encoder = Transformer2Vec('albert-base-v2')
text_encoder.encode('This is sparta!')
[0.47, 0.83, 0.148, ...]

Leverage Facebook's Dense Passage Retrieval

from vectorhub.bi_encoders.text_text.torch_transformers import DPR2Vec
text_encoder = DPR2Vec()
text_encoder.encode_question('Who is sparta!')
[0.47, 0.83, 0.148, ...]
text_encoder.encode_answer('Sparta!')
[0.47, 0.83, 0.148, ...]

Easily access information with your model!

# If you want to additional information about the model, you can access the information below:
text_encoder.definition.repo
text_encoder.definition.description
# If you want all the information in a dictionary, you can call:
text_encoder.definition.create_dict() # returns a dictionary with model id, description, paper, etc.

Upload vectors easily with documents alongside Vector AI

from vectorhub.encoders.text import Transformer2Vec
encoder = Transformer2Vec('bert-base-uncased')

from vectorai import ViClient
vi_client = ViClient(username, api_key)
docs = vi_client.create_sample_documents(10)
vi_client.insert_documents('collection_name_here', docs, models={'color': encoder.encode})

# Now we can search through our collection 
vi_client.search('collection_name_here', field='color_vector_', vector=encoder.encode('purple'))

What are Vectors?

Common Terminologys when operating with Vectors:

  • Vectors (aka. Embeddings, Encodings, Neural Representation) ~ It is a list of numbers to represent a piece of data. E.g. the vector for the word "king" using a Word2Vec model is [0.47, 0.83, 0.148, ...]
  • ____2Vec (aka. Models, Encoders, Embedders) ~ Turns data into vectors e.g. Word2Vec turns words into vector


How can I use vectors?

Vectors have a broad range of applications. The most common use case is to perform semantic vector search and analysing the topics/clusters using vector analytics.

If you are interested in these applications, take a look at Vector AI.

How can I obtain vectors?

  • Taking the outputs of layers from deep learning models
  • Data cleaning, such as one hot encoding labels
  • Converting graph representations to vectors

How To Upload Your 2Vec Model

Read here if you would like to contribute your model!

Philosophy

The goal of VectorHub is to provide a flexible yet comprehensive framework that allows people to easily be able to turn their data into vectors in whatever form the data can be in. While our focus is largely on simplicity, customisation should always be an option and the level of abstraction is always up model-uploader as long as the reason is justified. For example - with text, we chose to keep the encoding at the text level as opposed to the token level because selection of text should not be applied at the token level so practitioners are aware of what texts go into the actual vectors (i.e. instead of ignoring a '[next][SEP][wo][##rd]', we are choosing to ignore 'next word' explicitly. We think this will allow practitioners to focus better on what should matter when it comes to encoding.

Similarly, when we are turning data into vectors, we convert to native Python objects. The decision for this is to attempt to remove as many dependencies as possible once the vectors are created - specifically those of deep learning frameworks such as Tensorflow/PyTorch. This is to allow other frameworks to be built on top of it.

Credit:

This library wouldn't exist if it weren't for the following libraries and the incredible machine learning community that releases their state-of-the-art models:

  1. https://github.com/huggingface/transformers
  2. https://github.com/tensorflow/hub
  3. https://github.com/pytorch/pytorch
  4. Word2Vec image - Alammar, Jay (2018). The Illustrated Transformer [Blog post]. Retrieved from https://jalammar.github.io/illustrated-transformer/

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Library for easy discovery, and consumption of State-of-the-art models to turn data into vectors. (text2vec, image2vec, video2vec, graph2vec, bert, inception, etc)

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