77 lines
3.5 KiB
Markdown
77 lines
3.5 KiB
Markdown
# Train and deploy a SOTA model
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Let's see `great-ai` in action by going over the life-cycle of a simple service.
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## Objectives
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1. You will see how the [great_ai.utilities](/reference/utilities) can integrate into your Data Science workflow.
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2. You will use [great_ai.large_file](/reference/large_file) to version and store your trained model.
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3. You will use [GreatAI][great_ai.GreatAI] to prepare your model for a robust and responsible deployment.
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## Overview
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You are going to train a field of study (domain) classifier for scientific sentences. The exact task was proposed by the [SciBERT paper](https://arxiv.org/abs/1903.10676) in which SciBERT [achieved an F1-score of 0.6571](https://paperswithcode.com/sota/sentence-classification-on-paper-field). We are going to outperform it using a trivial text classification model: a [Linear SVM](https://scikit-learn.org/stable/modules/generated/sklearn.svm.LinearSVC.html).
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We use the same synthetic dataset derived from the [Microsoft Academic Graph](https://www.microsoft.com/en-us/research/project/microsoft-academic-graph/). The dataset is [available here](https://github.com/allenai/scibert/tree/master/data/text_classification/mag).
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!!! success
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You are ready to start the tutorial. Feel free to come back to the [summary](#summary) section once you're finished.
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<div style="display: flex; justify-content: space-evenly;" markdown>
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[:fontawesome-solid-chart-simple: Train it](train.ipynb){ .md-button .md-button--primary }
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[:material-cloud-tags: Deploy it](deploy.ipynb){ .md-button .md-button--primary }
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</div>
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## Summary
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### The [training notebook](train.ipynb)
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We load and preprocess the dataset while relying on [great_ai.utilities.clean][great_ai.utilities.clean.clean] for doing the heavy-lifting. Additionally, the preprocessing is parallelised using [great_ai.utilities.simple_parallel_map][]
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After training and evaluating a model, it is exported using [great_ai.save_model][].
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??? tip "Remote storage"
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To store your model remotely, you need to set your credentials before calling `save_model`.
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For example, to use [AWS S3](https://aws.amazon.com/s3){ target=_blank }:
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```python
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from great_ai.large_file import LargeFileS3
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LargeFileS3.configure(
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aws_region_name='eu-west-2',
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aws_access_key_id='MY_AWS_ACCESS_KEY',
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aws_secret_access_key='MY_AWS_SECRET_KEY',
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large_files_bucket_name='my_bucket_for_models'
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)
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from great_ai import save_model
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save_model(model, key='my-domain-predictor')
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```
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For more info, checkout [the configuration how-to page](/how-to-guides/configure-service).
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### The [deployment notebook](deploy.ipynb)
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We create an inference function that can be hardened by wrapping it in a [GreatAI][great_ai.GreatAI] instance.
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```python
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from great_ai import GreatAI, use_model
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from great_ai.utilities import clean
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@GreatAI.create
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@use_model('my-domain-predictor') #(1)
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def predict_domain(sentence, model):
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inputs = [clean(sentence)]
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return str(model.predict(inputs)[0])
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```
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1. [@use_model][great_ai.use_model] loads and injects your model into the `predict_domain` function's `model` argument.
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You can freely reference it knowing that the function is always provided with it.
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Finally, we test the model's inference function through the GreatAI dashboard. [The only thing left is to deploy the hardened-service properly.](/how-to-guides/use-service)
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<div style="display: flex; justify-content: center;" markdown>
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[:material-book: Learn about more features](/how-to-guides/create-service){ .md-button .md-button--primary }
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</div>
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