Skip to main content
Serverless Sandboxes is in public preview.
In this tutorial, you train a PyTorch model in a Serverless Sandbox environment. To do this, you start a sandbox with the appropriate environment variables, install the necessary dependencies, and run a Python script. The script trains a neural network on the UCI Zoo dataset. By the end of this tutorial, you have a trained PyTorch model file saved locally. This demonstrates how to use a Serverless Sandbox to run isolated ML training workloads without configuring local infrastructure. This tutorial is intended for ML practitioners and developers who want to evaluate Serverless Sandboxes for reproducible training jobs.

Prerequisites

Before you get started, complete the following setup steps.

Install the W&B Python SDK

The W&B Python SDK provides the Sandbox interface you use later to create and interact with the Serverless Sandbox. Install it using pip:

Log in and authenticate with W&B

W&B Serverless Sandboxes run under your W&B account, so you must authenticate before you create one. Use the wandb login CLI command and follow the prompts to log in:
See the wandb login reference documentation for more information about how W&B searches for credentials.

Copy the training script and dependencies

Prepare the three files required for this tutorial: a requirements file, a hyperparameters file, and a training script. Expand the following dropdown, then copy each code sample into a separate file in the same directory as this tutorial. In the next section, you run a script that reads these files and trains a PyTorch model in a W&B Serverless Sandbox.
Copy and paste the following code into a file named requirements.txt. This file contains the dependencies for the training script.
requirements.txt
Copy and paste the following code into a YAML file named hyperparameters.yaml. This file contains the hyperparameters for the training script.
hyperparameters.yaml
Copy and paste the following code into a file named train.py. This script trains a PyTorch model on the UCI Zoo dataset and saves the trained model to a file named zoo_wandb.pth.
train.py

Create the sandbox and run the training script

With your training files in place, create and manage a W&B Serverless Sandbox from a single Python script. The following code snippet creates a sandbox, copies the training script and dependencies into it, runs the training script, and downloads the generated model file. The next section explains the code line by line. Copy and paste the following code into a Python file and run it. Save it in the same directory as the train.py, requirements.txt, and hyperparameters.yaml files you created in the previous step.
train_in_sandbox.py
The previous code snippet does the following:
  1. (Lines 6-9) List the files to mount to the sandbox: train.py and requirements.txt.
  2. (Line 12) Start the sandbox. The sandbox is configured to use the python:3.13 container image, have internet access, and a maximum lifetime of 3600 seconds (1 hour).
  3. (Line 18) Write the hyperparameters.yaml file to the sandbox. This lets the training script (train.py) access the hyperparameters when it runs.
  4. (Line 22) Install dependencies. The command pip install -r requirements.txt runs inside the sandbox to install the necessary dependencies for the training script.
  5. (Line 26) Run the training script. The command python train.py --config hyperparameters.yaml runs inside the sandbox to start the training process. The script trains a PyTorch model on the UCI Zoo dataset and saves the trained model to a file named zoo_wandb.pth.
  6. (Lines 27-29) Print the output and exit code. After the training script finishes, the standard output, standard error, and exit code are printed to the console for debugging and verification.
  7. (Lines 33-34) Download the generated model file. The read_file() method reads zoo_wandb.pth from the sandbox, and the script saves it locally.
After the script completes, you have a trained PyTorch model saved as zoo_wandb.pth in your working directory. The sandbox that produced it is created, used, and torn down on demand.