torchplate 0.0.5

A minimal and simple machine learning experiment module for PyTorch.

torchplate: Minimal Experiment Workflows in PyTorch

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Installation | Example | More examples | Starter project | Changelog

An extremely minimal and simple experiment module for machine learning in PyTorch (PyTorch + boilerplate = torchplate).

In addition to abstracting away the training loop, we provide several abstractions to improve the efficiency of machine learning workflows with PyTorch.

Installation

$ pip install torchplate

Example

To get started, create a child class of torchplate.experiment.Experiment and provide several key, experiment-unique items: model, optimizer, and a training set dataloader. Then, provide an implementation of the abstract method evaluate. This function takes in a batch from the trainloader and should return the loss (i.e., implement the forward pass + loss calculation). Add whatever custom methods you may want to this class. Then starting training! That's it!

import torchplate
import data 
import models
import torch
import torch.optim as optim
import torch.nn as nn


class SampleExp(torchplate.experiment.Experiment):
    def __init__(self): 
        self.model = models.Net()
        self.optimizer = optim.Adam(self.model.parameters(), lr=0.001)
        self.criterion = nn.CrossEntropyLoss()
        dataset = data.load_set('cifar')
        # use various torchplate.utils to improve efficiency of common workflows 
        self.trainloader, self.testloader = torchplate.utils.get_xy_loaders(dataset)

        # inherit from torchplate.experiment.Experiment and pass in
        # model, optimizer, and dataloader 
        super().__init__(
            model = self.model,
            optimizer = self.optimizer,
            trainloader = self.trainloader 
        )
    
    # provide this abstract method to calculate loss 
    def evaluate(self, batch):
        x, y = batch
        logits = self.model(x)
        loss_val = self.criterion(logits, y)
        return loss_val


exp = SampleExp()
exp.train(num_epochs=5)

output:

Epoch 1: 100%|███████████████████████████████████████████████████████████| 27/27 [00:00<00:00, 293.98it/s]
Training Loss (epoch 1): 1.3564644632516083
Epoch 2: 100%|███████████████████████████████████████████████████████████| 27/27 [00:00<00:00, 598.46it/s]
Training Loss (epoch 2): 1.2066593832439847
Epoch 3: 100%|███████████████████████████████████████████████████████████| 27/27 [00:00<00:00, 579.40it/s]
Training Loss (epoch 3): 1.1030386642173484
Epoch 4: 100%|███████████████████████████████████████████████████████████| 27/27 [00:00<00:00, 563.90it/s]
Training Loss (epoch 4): 1.0885229706764221
Epoch 5: 100%|███████████████████████████████████████████████████████████| 27/27 [00:00<00:00, 577.54it/s]
Training Loss (epoch 5): 1.0520343957123932
Finished Training!

More examples

See examples/cifar for another minimal example. See examples/starter for a full program example. To get started running your own experiments, you can use examples/starter as a base (or use cookiecutter as shown below).

Starter project

The starter branch holds the source for a cookiecutter project. This allows users to easily create projects from the starter code example by running a simple command. To get started, install cookiecutter and then type

$ cookiecutter https://github.com/rosikand/torchplate.git --checkout starter

which will generate the following structure for you to use as a base for your projects:

torchplate_starter
├── datasets.py
├── experiments.py
├── models.py
└── runner.py

Changelog

0.0.5

• Added model weights loading and saving.

0.0.4

• Several changes: added callbacks, changed verbose default to true, added ModelInterface pipeline to utils.

0.0.3

• Added verbose option as well as wandb logging

0.0.2

• Fixed a polymorphic bug

0.0.1

• First version published. Provides basic data-loading utilities and the base experiment module.