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Introduction to Pytorch Lightning

  • Author: PL team

  • License: CC BY-SA

  • Generated: 2021-12-04T16:53:03.416116

In this notebook, we’ll go over the basics of lightning by preparing models to train on the MNIST Handwritten Digits dataset.


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Setup

This notebook requires some packages besides pytorch-lightning.

[1]:
! pip install --quiet "torchvision" "torch>=1.6, <1.9" "pytorch-lightning>=1.3" "torchmetrics>=0.3"
[2]:
import os

import torch
from pytorch_lightning import LightningModule, Trainer
from torch import nn
from torch.nn import functional as F
from torch.utils.data import DataLoader, random_split
from torchmetrics import Accuracy
from torchvision import transforms
from torchvision.datasets import MNIST

PATH_DATASETS = os.environ.get("PATH_DATASETS", ".")
AVAIL_GPUS = min(1, torch.cuda.device_count())
BATCH_SIZE = 256 if AVAIL_GPUS else 64

Simplest example

Here’s the simplest most minimal example with just a training loop (no validation, no testing).

Keep in Mind - A LightningModule is a PyTorch nn.Module - it just has a few more helpful features.

[3]:
class MNISTModel(LightningModule):
    def __init__(self):
        super().__init__()
        self.l1 = torch.nn.Linear(28 * 28, 10)

    def forward(self, x):
        return torch.relu(self.l1(x.view(x.size(0), -1)))

    def training_step(self, batch, batch_nb):
        x, y = batch
        loss = F.cross_entropy(self(x), y)
        return loss

    def configure_optimizers(self):
        return torch.optim.Adam(self.parameters(), lr=0.02)

By using the Trainer you automatically get: 1. Tensorboard logging 2. Model checkpointing 3. Training and validation loop 4. early-stopping

[4]:
# Init our model
mnist_model = MNISTModel()

# Init DataLoader from MNIST Dataset
train_ds = MNIST(PATH_DATASETS, train=True, download=True, transform=transforms.ToTensor())
train_loader = DataLoader(train_ds, batch_size=BATCH_SIZE)

# Initialize a trainer
trainer = Trainer(
    gpus=AVAIL_GPUS,
    max_epochs=3,
    progress_bar_refresh_rate=20,
)

# Train the model ⚡
trainer.fit(mnist_model, train_loader)
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/trainer/connectors/callback_connector.py:90: LightningDeprecationWarning: Setting `Trainer(progress_bar_refresh_rate=20)` is deprecated in v1.5 and will be removed in v1.7. Please pass `pytorch_lightning.callbacks.progress.TQDMProgressBar` with `refresh_rate` directly to the Trainer's `callbacks` argument instead. Or, to disable the progress bar pass `enable_progress_bar = False` to the Trainer.
  rank_zero_deprecation(
GPU available: True, used: True
TPU available: False, using: 0 TPU cores
IPU available: False, using: 0 IPUs
LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0,1]

  | Name | Type   | Params
--------------------------------
0 | l1   | Linear | 7.9 K
--------------------------------
7.9 K     Trainable params
0         Non-trainable params
7.9 K     Total params
0.031     Total estimated model params size (MB)
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/trainer/data_loading.py:111: UserWarning: The dataloader, train_dataloader, does not have many workers which may be a bottleneck. Consider increasing the value of the `num_workers` argument` (try 12 which is the number of cpus on this machine) in the `DataLoader` init to improve performance.
  rank_zero_warn(

A more complete MNIST Lightning Module Example

That wasn’t so hard was it?

Now that we’ve got our feet wet, let’s dive in a bit deeper and write a more complete LightningModule for MNIST…

This time, we’ll bake in all the dataset specific pieces directly in the LightningModule. This way, we can avoid writing extra code at the beginning of our script every time we want to run it.


Note what the following built-in functions are doing:

  1. prepare_data() 💾

    • This is where we can download the dataset. We point to our desired dataset and ask torchvision’s MNIST dataset class to download if the dataset isn’t found there.

    • Note we do not make any state assignments in this function (i.e. self.something = ...)

  2. setup(stage) ⚙️

    • Loads in data from file and prepares PyTorch tensor datasets for each split (train, val, test).

    • Setup expects a ‘stage’ arg which is used to separate logic for ‘fit’ and ‘test’.

    • If you don’t mind loading all your datasets at once, you can set up a condition to allow for both ‘fit’ related setup and ‘test’ related setup to run whenever None is passed to stage (or ignore it altogether and exclude any conditionals).

    • Note this runs across all GPUs and it is safe to make state assignments here

  3. x_dataloader() ♻️

    • train_dataloader(), val_dataloader(), and test_dataloader() all return PyTorch DataLoader instances that are created by wrapping their respective datasets that we prepared in setup()

[5]:
class LitMNIST(LightningModule):
    def __init__(self, data_dir=PATH_DATASETS, hidden_size=64, learning_rate=2e-4):

        super().__init__()

        # Set our init args as class attributes
        self.data_dir = data_dir
        self.hidden_size = hidden_size
        self.learning_rate = learning_rate

        # Hardcode some dataset specific attributes
        self.num_classes = 10
        self.dims = (1, 28, 28)
        channels, width, height = self.dims
        self.transform = transforms.Compose(
            [
                transforms.ToTensor(),
                transforms.Normalize((0.1307,), (0.3081,)),
            ]
        )

        # Define PyTorch model
        self.model = nn.Sequential(
            nn.Flatten(),
            nn.Linear(channels * width * height, hidden_size),
            nn.ReLU(),
            nn.Dropout(0.1),
            nn.Linear(hidden_size, hidden_size),
            nn.ReLU(),
            nn.Dropout(0.1),
            nn.Linear(hidden_size, self.num_classes),
        )

        self.accuracy = Accuracy()

    def forward(self, x):
        x = self.model(x)
        return F.log_softmax(x, dim=1)

    def training_step(self, batch, batch_idx):
        x, y = batch
        logits = self(x)
        loss = F.nll_loss(logits, y)
        return loss

    def validation_step(self, batch, batch_idx):
        x, y = batch
        logits = self(x)
        loss = F.nll_loss(logits, y)
        preds = torch.argmax(logits, dim=1)
        self.accuracy(preds, y)

        # Calling self.log will surface up scalars for you in TensorBoard
        self.log("val_loss", loss, prog_bar=True)
        self.log("val_acc", self.accuracy, prog_bar=True)
        return loss

    def test_step(self, batch, batch_idx):
        # Here we just reuse the validation_step for testing
        return self.validation_step(batch, batch_idx)

    def configure_optimizers(self):
        optimizer = torch.optim.Adam(self.parameters(), lr=self.learning_rate)
        return optimizer

    ####################
    # DATA RELATED HOOKS
    ####################

    def prepare_data(self):
        # download
        MNIST(self.data_dir, train=True, download=True)
        MNIST(self.data_dir, train=False, download=True)

    def setup(self, stage=None):

        # Assign train/val datasets for use in dataloaders
        if stage == "fit" or stage is None:
            mnist_full = MNIST(self.data_dir, train=True, transform=self.transform)
            self.mnist_train, self.mnist_val = random_split(mnist_full, [55000, 5000])

        # Assign test dataset for use in dataloader(s)
        if stage == "test" or stage is None:
            self.mnist_test = MNIST(self.data_dir, train=False, transform=self.transform)

    def train_dataloader(self):
        return DataLoader(self.mnist_train, batch_size=BATCH_SIZE)

    def val_dataloader(self):
        return DataLoader(self.mnist_val, batch_size=BATCH_SIZE)

    def test_dataloader(self):
        return DataLoader(self.mnist_test, batch_size=BATCH_SIZE)
[6]:
model = LitMNIST()
trainer = Trainer(
    gpus=AVAIL_GPUS,
    max_epochs=3,
    progress_bar_refresh_rate=20,
)
trainer.fit(model)
GPU available: True, used: True
TPU available: False, using: 0 TPU cores
IPU available: False, using: 0 IPUs
LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0,1]

  | Name     | Type       | Params
----------------------------------------
0 | model    | Sequential | 55.1 K
1 | accuracy | Accuracy   | 0
----------------------------------------
55.1 K    Trainable params
0         Non-trainable params
55.1 K    Total params
0.220     Total estimated model params size (MB)
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/trainer/data_loading.py:111: UserWarning: The dataloader, val_dataloader 0, does not have many workers which may be a bottleneck. Consider increasing the value of the `num_workers` argument` (try 12 which is the number of cpus on this machine) in the `DataLoader` init to improve performance.
  rank_zero_warn(

Testing

To test a model, call trainer.test(model).

Or, if you’ve just trained a model, you can just call trainer.test() and Lightning will automatically test using the best saved checkpoint (conditioned on val_loss).

[7]:
trainer.test()
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/trainer/trainer.py:1393: UserWarning: `.test(ckpt_path=None)` was called without a model. The best model of the previous `fit` call will be used. You can pass `test(ckpt_path='best')` to use and best model checkpoint and avoid this warning or `ckpt_path=trainer.model_checkpoint.last_model_path` to use the last model.
  rank_zero_warn(
Restoring states from the checkpoint path at /__w/1/s/lightning_logs/version_7/checkpoints/epoch=2-step=644.ckpt
LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0,1]
Loaded model weights from checkpoint at /__w/1/s/lightning_logs/version_7/checkpoints/epoch=2-step=644.ckpt
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/trainer/data_loading.py:111: UserWarning: The dataloader, test_dataloader 0, does not have many workers which may be a bottleneck. Consider increasing the value of the `num_workers` argument` (try 12 which is the number of cpus on this machine) in the `DataLoader` init to improve performance.
  rank_zero_warn(
--------------------------------------------------------------------------------
DATALOADER:0 TEST RESULTS
{'val_acc': 0.9211000204086304, 'val_loss': 0.25840938091278076}
--------------------------------------------------------------------------------
[7]:
[{'val_loss': 0.25840938091278076, 'val_acc': 0.9211000204086304}]

Bonus Tip

You can keep calling trainer.fit(model) as many times as you’d like to continue training

[8]:
trainer.fit(model)
LOCAL_RANK: 0 - CUDA_VISIBLE_DEVICES: [0,1]

  | Name     | Type       | Params
----------------------------------------
0 | model    | Sequential | 55.1 K
1 | accuracy | Accuracy   | 0
----------------------------------------
55.1 K    Trainable params
0         Non-trainable params
55.1 K    Total params
0.220     Total estimated model params size (MB)
/home/AzDevOps_azpcontainer/.local/lib/python3.9/site-packages/pytorch_lightning/callbacks/model_checkpoint.py:623: UserWarning: Checkpoint directory /__w/1/s/lightning_logs/version_7/checkpoints exists and is not empty.
  rank_zero_warn(f"Checkpoint directory {dirpath} exists and is not empty.")

In Colab, you can use the TensorBoard magic function to view the logs that Lightning has created for you!

[9]:
# Start tensorboard.
%load_ext tensorboard
%tensorboard --logdir lightning_logs/

Congratulations - Time to Join the Community!

Congratulations on completing this notebook tutorial! If you enjoyed this and would like to join the Lightning movement, you can do so in the following ways!

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Great thanks from the entire Pytorch Lightning Team for your interest !

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