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Collection of tasks for fast prototyping, baselining, finetuning and solving problems with deep learning.

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Collection of tasks for fast prototyping, baselining, finetuning and solving problems with deep learning


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Installation

Pip / conda

pip install lightning-flash
Other installations

Pip from source

# with git
pip install git+https://github.com/PytorchLightning/lightning-flash.git@master

# OR from an archive
pip install https://github.com/PyTorchLightning/lightning-flash/archive/master.zip

From source using setuptools

# clone flash repository locally
git clone https://github.com/PyTorchLightning/lightning-flash.git
cd lightning-flash
# install in editable mode
pip install -e .

In case you want to use the extra packages from a specific domain (image, video, text, ...)

pip install "lightning-flash[image]"

See Installation for more options.


What is Flash

Flash is a framework of tasks for fast prototyping, baselining, finetuning and solving business and scientific problems with deep learning. It is focused on:

  • Predictions
  • Finetuning
  • Task-based training

It is built for data scientists, machine learning practitioners, and applied researchers.

Scalability

Flash is built on top of PyTorch Lightning (by the Lightning team), which is a thin organizational layer on top of PyTorch. If you know PyTorch, you know PyTorch Lightning and Flash already!

As a result, Flash can scale up across any hardware (GPUs, TPUS) with zero changes to your code. It also has the best practices in AI research embedded into each task so you don't have to be a deep learning PhD to leverage its power :)

Predictions

from flash.text import TranslationTask

# 1. Load finetuned task
model = TranslationTask.load_from_checkpoint("https://flash-weights.s3.amazonaws.com/translation_model_en_ro.pt")

# 2. Translate a few sentences!
predictions = model.predict([
    "BBC News went to meet one of the project's first graduates.",
    "A recession has come as quickly as 11 months after the first rate hike and as long as 86 months.",
])
print(predictions)

Serving

Serve is a framework agnostic serving engine ! Learn more and find examples.

from flash.text import TranslationTask

model = TranslationTask.load_from_checkpoint("https://flash-weights.s3.amazonaws.com/translation_model_en_ro.pt")
model.serve()

Finetuning

First, finetune:

import flash
from flash.core.data.utils import download_data
from flash.image import ImageClassificationData, ImageClassifier

# 1. Download the data
download_data("https://pl-flash-data.s3.amazonaws.com/hymenoptera_data.zip", 'data/')

# 2. Load the data
datamodule = ImageClassificationData.from_folders(
    train_folder="data/hymenoptera_data/train/",
    val_folder="data/hymenoptera_data/val/",
    test_folder="data/hymenoptera_data/test/",
)

# 3. Build the model
model = ImageClassifier(num_classes=datamodule.num_classes, backbone="resnet18")

# 4. Create the trainer. Run once on data
trainer = flash.Trainer(max_epochs=1)

# 5. Finetune the model
trainer.finetune(model, datamodule=datamodule, strategy="freeze")

# 6. Save it!
trainer.save_checkpoint("image_classification_model.pt")

Then use the finetuned model:

from flash.image import ImageClassifier

# load the finetuned model
classifier = ImageClassifier.load_from_checkpoint('image_classification_model.pt')

# predict!
predictions = classifier.predict('data/hymenoptera_data/val/bees/65038344_52a45d090d.jpg')
print(predictions)

Tasks

Flash is built as a collection of community-built tasks. A task is highly opinionated and laser-focused on solving a single problem well, using state-of-the-art methods.

Example 1: Image embedding

Flash has an Image Embedder task to encode an image into a vector of image features which can be used for anything like clustering, similarity search or classification.

View example
from flash.core.data.utils import download_data
from flash.image import ImageEmbedder

# 1. Download the data
download_data("https://pl-flash-data.s3.amazonaws.com/hymenoptera_data.zip", 'data/')

# 2. Create an ImageEmbedder with resnet50 trained on imagenet.
embedder = ImageEmbedder(backbone="resnet50", embedding_dim=128)

# 3. Generate an embedding from an image path.
embeddings = embedder.predict('data/hymenoptera_data/predict/153783656_85f9c3ac70.jpg')

# 4. Print embeddings shape
print(embeddings.shape)

Example 2: Text Summarization

Flash has a Summarization task to sum up text from a larger article into a short description.

View example
import flash
from flash.core.data.utils import download_data
from flash.text import SummarizationData, SummarizationTask

# 1. Download the data
download_data("https://pl-flash-data.s3.amazonaws.com/xsum.zip", 'data/')

# 2. Load the data
datamodule = SummarizationData.from_csv(
    "input",
    "target",
    train_file="data/xsum/train.csv",
    val_file="data/xsum/valid.csv",
    test_file="data/xsum/test.csv",
)

# 3. Build the model
model = SummarizationTask()

# 4. Create the trainer. Run once on data
trainer = flash.Trainer(max_epochs=1, gpus=1, precision=16)

# 5. Fine-tune the model
trainer.finetune(model, datamodule=datamodule)

# 6. Test model
trainer.test()

To run the example:

python flash_examples/finetuning/summarization.py

Example 3: Tabular Classification

Flash has a Tabular Classification task to tackle any tabular classification problem.

View example

To illustrate, say we want to build a model to predict if a passenger survived on the Titanic.

from torchmetrics.classification import Accuracy, Precision, Recall
import flash
from flash.core.data.utils import download_data
from flash.tabular import TabularClassifier, TabularData

# 1. Download the data
download_data("https://pl-flash-data.s3.amazonaws.com/titanic.zip", 'data/')

# 2. Load the data
datamodule = TabularData.from_csv(
    ["Sex", "Age", "SibSp", "Parch", "Ticket", "Cabin", "Embarked"],
    "Fare",
    target_fields="Survived",
    train_file="./data/titanic/titanic.csv",
    test_file="./data/titanic/test.csv",
    val_split=0.25,
)

# 3. Build the model
model = TabularClassifier.from_data(datamodule, metrics=[Accuracy(), Precision(), Recall()])

# 4. Create the trainer. Run 10 times on data
trainer = flash.Trainer(max_epochs=10)

# 5. Train the model
trainer.fit(model, datamodule=datamodule)

# 6. Test model
trainer.test()

# 7. Predict!
predictions = model.predict("data/titanic/titanic.csv")
print(predictions)

To run the example:

python flash_examples/finetuning/tabular_data.py

Example 4: Object Detection

Flash has an Object Detection task to identify and locate objects in images.

View example

To illustrate, say we want to build a model on a tiny coco dataset.

import flash
from flash.core.data.utils import download_data
from flash.image import ObjectDetectionData, ObjectDetector

# 1. Download the data
# Dataset Credit: https://www.kaggle.com/ultralytics/coco128
download_data("https://github.com/zhiqwang/yolov5-rt-stack/releases/download/v0.3.0/coco128.zip", "data/")

# 2. Load the Data
datamodule = ObjectDetectionData.from_coco(
  train_folder="data/coco128/images/train2017/",
  train_ann_file="data/coco128/annotations/instances_train2017.json",
  batch_size=2
)

# 3. Build the model
model = ObjectDetector(num_classes=datamodule.num_classes)

# 4. Create the trainer. Run twice on data
trainer = flash.Trainer(max_epochs=3)

# 5. Finetune the model
trainer.fit(model, datamodule=datamodule)

# 6. Save it!
trainer.save_checkpoint("object_detection_model.pt")

To run the example:

python flash_examples/finetuning/object_detection.py

Example 5: Video Classification with PyTorchVideo

Flash has a Video Classification task to classify videos using PyTorchVideo.

View example

To illustrate, say we want to build a model to classify the kinetics data set.

import os
from torch.utils.data.sampler import RandomSampler
import flash
from flash.core.data.utils import download_data
from flash.video import VideoClassificationData, VideoClassifier

# 1. Download a video clip dataset. Find more datasets at https://pytorchvideo.readthedocs.io/en/latest/data.html
download_data("https://pl-flash-data.s3.amazonaws.com/kinetics.zip")

# 2. Load the Data
datamodule = VideoClassificationData.from_folders(
    train_folder=os.path.join(flash.PROJECT_ROOT, "data/kinetics/train"),
    val_folder=os.path.join(flash.PROJECT_ROOT, "data/kinetics/val"),
    predict_folder=os.path.join(flash.PROJECT_ROOT, "data/kinetics/predict"),
    batch_size=8,
    clip_sampler="uniform",
    clip_duration=1,
    video_sampler=RandomSampler,
    decode_audio=False,
    num_workers=8,
)

# 3. Build the model
model = VideoClassifier(
    backbone="x3d_xs", num_classes=datamodule.num_classes, pretrained=False
)

# 4. Create the trainer
trainer = flash.Trainer(max_epochs=3)

# 5. Finetune the model
trainer.finetune(model, datamodule=datamodule)

# 6. Save it!
trainer.save_checkpoint("video_classification.pt")

To run the example:

python flash_examples/finetuning/video_classification.py

Example 6: Semantic Segmentation

Flash has a Semantic Segmentation task for segmentation of images.

View example

To illustrate, say we want to finetune a model on this data from the Lyft Udacity Challenge.

import flash
from flash.core.data.utils import download_data
from flash.image import SemanticSegmentation, SemanticSegmentationData

# 1. Download the Data
download_data("https://github.com/ongchinkiat/LyftPerceptionChallenge/releases/download/v0.1/carla-capture-20180513A.zip", "data/")

# 2. Load the Data
datamodule = SemanticSegmentationData.from_folders(
    train_folder="data/CameraRGB",
    train_target_folder="data/CameraSeg",
    batch_size=4,
    val_split=0.3,
    image_size=(200, 200),
    num_classes=21,
)

# 3. Build the model
model = SemanticSegmentation(
    backbone="torchvision/fcn_resnet50",
    num_classes=datamodule.num_classes,
)

# 4. Create the trainer
trainer = flash.Trainer(max_epochs=3)

# 5. Finetune the model
trainer.finetune(model, datamodule=datamodule)

# 6. Save it!
trainer.save_checkpoint("semantic_segmentation_model.pt")

To run the example:

python flash_examples/finetuning/semantic_segmentation.py

Example 7: Style Transfer with Pystiche

Flash has a Style Transfer task for Neural Style Transfer (NST) with Pystiche.

View example

To illustrate, say we want to train an NST model to transfer the style from the paint demo image to the COCO data set.

import pystiche.demo
import flash
from flash.core.data.utils import download_data
from flash.image.style_transfer import StyleTransfer, StyleTransferData

# 1. Download the Data
download_data("https://github.com/zhiqwang/yolov5-rt-stack/releases/download/v0.3.0/coco128.zip", "data/")

# 2. Load the Data
datamodule = StyleTransferData.from_folders(train_folder="data/coco128/images", batch_size=4)

# 3. Load the style image
style_image = pystiche.demo.images()["paint"].read(size=256)

# 4. Build the model
model = StyleTransfer(style_image)

# 5. Create the trainer
trainer = flash.Trainer(max_epochs=2)

# 6. Train the model
trainer.fit(model, datamodule=datamodule)

# 7. Save it!
trainer.save_checkpoint("style_transfer_model.pt")

To run the example:

python flash_examples/finetuning/style_transfer.py

A general task

Flash comes prebuilt with a task to handle a huge portion of deep learning problems.

import flash
from torch import nn, optim
from torch.utils.data import DataLoader, random_split
from torchvision import transforms, datasets

# model
model = nn.Sequential(
    nn.Flatten(),
    nn.Linear(28 * 28, 128),
    nn.ReLU(),
    nn.Linear(128, 10)
)

# data
dataset = datasets.MNIST('./data_folder', download=True, transform=transforms.ToTensor())
train, val = random_split(dataset, [55000, 5000])

# task
classifier = flash.Task(model, loss_fn=nn.functional.cross_entropy, optimizer=optim.Adam)

# train
flash.Trainer().fit(classifier, DataLoader(train), DataLoader(val))

Infinitely customizable

Tasks can be built in just a few minutes because Flash is built on top of PyTorch Lightning LightningModules, which are infinitely extensible and let you train across GPUs, TPUs etc without doing any code changes.

import torch
import torch.nn.functional as F
from torchmetrics import Accuracy
from typing import Callable, Mapping, Sequence, Type, Union
from flash.core.classification import ClassificationTask

class LinearClassifier(ClassificationTask):
    def __init__(
        self,
        num_inputs,
        num_classes,
        loss_fn: Callable = F.cross_entropy,
        optimizer: Type[torch.optim.Optimizer] = torch.optim.SGD,
        metrics: Union[Callable, Mapping, Sequence, None] = [Accuracy()],
        learning_rate: float = 1e-3,
    ):
        super().__init__(
            model=None,
            loss_fn=loss_fn,
            optimizer=optimizer,
            metrics=metrics,
            learning_rate=learning_rate,
        )
        self.save_hyperparameters()

        self.linear = torch.nn.Linear(num_inputs, num_classes)

    def forward(self, x):
        return self.linear(x)

classifier = LinearClassifier(128, 10)
...

When you reach the limits of the flexibility provided by Flash, then seamlessly transition to PyTorch Lightning which gives you the most flexibility because it is simply organized PyTorch.

Contribute!

The lightning + Flash team is hard at work building more tasks for common deep-learning use cases. But we're looking for incredible contributors like you to submit new tasks!

Join our Slack and/or read our CONTRIBUTING guidelines to get help becoming a contributor!

Community

For help or questions, join our huge community on Slack!

Citations

We’re excited to continue the strong legacy of opensource software and have been inspired over the years by Caffee, Theano, Keras, PyTorch, torchbearer, and fast.ai. When/if a paper is written about this, we’ll be happy to cite these frameworks and the corresponding authors.

Flash leverages models from torchvision, huggingface/transformers, timm, and pytorch-tabnet for the vision, text, and tabular tasks respectively. Also supports self-supervised backbones from bolts.

License

Please observe the Apache 2.0 license that is listed in this repository. In addition the Lightning framework is Patent Pending.

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Collection of tasks for fast prototyping, baselining, finetuning and solving problems with deep learning.

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