# Booster API Author: [Mingyan Jiang](https://github.com/jiangmingyan), [Jianghai Chen](https://github.com/CjhHa1), [Baizhou Zhang](https://github.com/Fridge003) **Prerequisite:** - [Distributed Training](../concepts/distributed_training.md) - [Colossal-AI Overview](../concepts/colossalai_overview.md) **Example Code** - [Train ResNet on CIFAR-10 with Booster](https://github.com/hpcaitech/ColossalAI/blob/main/examples/tutorial/new_api/cifar_resnet) - [Train LLaMA-1/2 on RedPajama with Booster](https://github.com/hpcaitech/ColossalAI/tree/main/examples/language/llama2) ## Introduction In our new design, `colossalai.booster` replaces the role of `colossalai.initialize` to inject features into your training components (e.g. model, optimizer, dataloader) seamlessly. With these new APIs, you can integrate your model with our parallelism features more friendly. Also, calling `colossalai.booster` is the standard procedure before you run into your training loops. In the sections below, we will cover how `colossalai.booster` works and what we should take note of. ### Plugin Plugin is an important component that manages parallel configuration (eg: The gemini plugin encapsulates the gemini acceleration solution). Currently supported plugins are as follows: **_HybridParallelPlugin:_** This plugin wraps the hybrid parallel training acceleration solution. It provides an interface for any combination of tensor parallel, pipeline parallel and data parallel strategies including DDP and ZeRO. **_GeminiPlugin:_** This plugin wraps the Gemini acceleration solution, that ZeRO with chunk-based memory management. **_TorchDDPPlugin:_** This plugin wraps the DDP acceleration solution of Pytorch. It implements data parallel at the module level which can run across multiple machines. **_LowLevelZeroPlugin:_** This plugin wraps the 1/2 stage of Zero Redundancy Optimizer. Stage 1 : Shards optimizer states across data parallel workers/GPUs. Stage 2 : Shards optimizer states + gradients across data parallel workers/GPUs. **_TorchFSDPPlugin:_** This plugin wraps the FSDP acceleration solution of Pytorch and can be used to train models with zero-dp. More details about usages of each plugin can be found in chapter [Booster Plugins](./booster_plugins.md). Some plugins support lazy initialization, which can be used to save memory when initializing large models. For more details, please see [Lazy Initialization](../features/lazy_init.md). ### API of booster {{ autodoc:colossalai.booster.Booster }} ## Usage In a typical workflow, you should launch distributed environment at the beginning of training script and create objects needed (such as models, optimizers, loss function, data loaders etc.) firstly, then call `booster.boost` to inject features into these objects, After that, you can use our booster APIs and these returned objects to continue the rest of your training processes. A pseudo-code example is like below: ```python import torch from torch.optim import SGD from torchvision.models import resnet18 import colossalai from colossalai.booster import Booster from colossalai.booster.plugin import TorchDDPPlugin def train(): # launch colossalai colossalai.launch(rank=rank, world_size=world_size, port=port, host='localhost') # create plugin and objects for training plugin = TorchDDPPlugin() booster = Booster(plugin=plugin) model = resnet18() criterion = lambda x: x.mean() optimizer = SGD((model.parameters()), lr=0.001) scheduler = torch.optim.lr_scheduler.StepLR(optimizer, step_size=1, gamma=0.1) # use booster.boost to wrap the training objects model, optimizer, criterion, _, scheduler = booster.boost(model, optimizer, criterion, lr_scheduler=scheduler) # do training as normal, except that the backward should be called by booster x = torch.randn(4, 3, 224, 224) x = x.to('cuda') output = model(x) loss = criterion(output) booster.backward(loss, optimizer) optimizer.clip_grad_by_norm(1.0) optimizer.step() scheduler.step() optimizer.zero_grad() # checkpointing using booster api save_path = "./model" booster.save_model(model, save_path, shard=True, size_per_shard=10, use_safetensors=True) new_model = resnet18() booster.load_model(new_model, save_path) ``` For more design details please see [this page](https://github.com/hpcaitech/ColossalAI/discussions/3046).