🚀 Quick Start#
Access our library of speedup methods with the ƒ() Functional API:
import logging from composer import functional as CF import torchvision.models as models logging.basicConfig(level=logging.INFO) model = models.resnet50() CF.apply_blurpool(model)
Applied BlurPool to model ResNet. Model now has 1 BlurMaxPool2d and 6 BlurConv2D layers.
These methods are easy to integrate into your own training loop code with just a few lines.
For an overview of the algorithms, see 🤖 Algorithms.
We make composing recipes together even easier with our (optional)
we train an MNIST classifer with a recipe of methods:
from torchvision import datasets, transforms from torch.utils.data import DataLoader from composer import Trainer from composer.models import mnist_model from composer.algorithms import LabelSmoothing, CutMix, ChannelsLast transform = transforms.Compose([transforms.ToTensor()]) dataset = datasets.MNIST("data", train=True, download=True, transform=transform) train_dataloader = DataLoader(dataset, batch_size=128) trainer = Trainer( model=mnist_model(num_classes=10), train_dataloader=train_dataloader, max_duration="2ep", algorithms=[ LabelSmoothing(smoothing=0.1), CutMix(alpha=1.0), ChannelsLast(), ] ) trainer.fit()
We handle inserting and running the logic during the training so that any algorithms you specify “just work.”
Besides easily running our built-in algorithms, Composer also features:
An interface to flexibly add algorithms to the training loop
An engine that manages the ordering of algorithms for composition
A trainer to handle boilerplate around numerics, distributed training, and others
Integration with popular model libraries such as TIMM and HuggingFace Transformers