weights-and-biases
Track ML experiments with automatic logging, visualize training in real-time, optimize hyperparameters with sweeps, and manage model registry with W&B - collaborative MLOps platform
Best use case
weights-and-biases is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Track ML experiments with automatic logging, visualize training in real-time, optimize hyperparameters with sweeps, and manage model registry with W&B - collaborative MLOps platform
Teams using weights-and-biases should expect a more consistent output, faster repeated execution, less prompt rewriting, better workflow continuity with your supporting tools.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
- You already have the supporting tools or dependencies needed by this skill.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/weights-and-biases/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How weights-and-biases Compares
| Feature / Agent | weights-and-biases | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Track ML experiments with automatic logging, visualize training in real-time, optimize hyperparameters with sweeps, and manage model registry with W&B - collaborative MLOps platform
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Weights & Biases: ML Experiment Tracking & MLOps
## When to Use This Skill
Use Weights & Biases (W&B) when you need to:
- **Track ML experiments** with automatic metric logging
- **Visualize training** in real-time dashboards
- **Compare runs** across hyperparameters and configurations
- **Optimize hyperparameters** with automated sweeps
- **Manage model registry** with versioning and lineage
- **Collaborate on ML projects** with team workspaces
- **Track artifacts** (datasets, models, code) with lineage
**Users**: 200,000+ ML practitioners | **GitHub Stars**: 10.5k+ | **Integrations**: 100+
## Installation
```bash
# Install W&B
pip install wandb
# Login (creates API key)
wandb login
# Or set API key programmatically
export WANDB_API_KEY=your_api_key_here
```
## Quick Start
### Basic Experiment Tracking
```python
import wandb
# Initialize a run
run = wandb.init(
project="my-project",
config={
"learning_rate": 0.001,
"epochs": 10,
"batch_size": 32,
"architecture": "ResNet50"
}
)
# Training loop
for epoch in range(run.config.epochs):
# Your training code
train_loss = train_epoch()
val_loss = validate()
# Log metrics
wandb.log({
"epoch": epoch,
"train/loss": train_loss,
"val/loss": val_loss,
"train/accuracy": train_acc,
"val/accuracy": val_acc
})
# Finish the run
wandb.finish()
```
### With PyTorch
```python
import torch
import wandb
# Initialize
wandb.init(project="pytorch-demo", config={
"lr": 0.001,
"epochs": 10
})
# Access config
config = wandb.config
# Training loop
for epoch in range(config.epochs):
for batch_idx, (data, target) in enumerate(train_loader):
# Forward pass
output = model(data)
loss = criterion(output, target)
# Backward pass
optimizer.zero_grad()
loss.backward()
optimizer.step()
# Log every 100 batches
if batch_idx % 100 == 0:
wandb.log({
"loss": loss.item(),
"epoch": epoch,
"batch": batch_idx
})
# Save model
torch.save(model.state_dict(), "model.pth")
wandb.save("model.pth") # Upload to W&B
wandb.finish()
```
## Core Concepts
### 1. Projects and Runs
**Project**: Collection of related experiments
**Run**: Single execution of your training script
```python
# Create/use project
run = wandb.init(
project="image-classification",
name="resnet50-experiment-1", # Optional run name
tags=["baseline", "resnet"], # Organize with tags
notes="First baseline run" # Add notes
)
# Each run has unique ID
print(f"Run ID: {run.id}")
print(f"Run URL: {run.url}")
```
### 2. Configuration Tracking
Track hyperparameters automatically:
```python
config = {
# Model architecture
"model": "ResNet50",
"pretrained": True,
# Training params
"learning_rate": 0.001,
"batch_size": 32,
"epochs": 50,
"optimizer": "Adam",
# Data params
"dataset": "ImageNet",
"augmentation": "standard"
}
wandb.init(project="my-project", config=config)
# Access config during training
lr = wandb.config.learning_rate
batch_size = wandb.config.batch_size
```
### 3. Metric Logging
```python
# Log scalars
wandb.log({"loss": 0.5, "accuracy": 0.92})
# Log multiple metrics
wandb.log({
"train/loss": train_loss,
"train/accuracy": train_acc,
"val/loss": val_loss,
"val/accuracy": val_acc,
"learning_rate": current_lr,
"epoch": epoch
})
# Log with custom x-axis
wandb.log({"loss": loss}, step=global_step)
# Log media (images, audio, video)
wandb.log({"examples": [wandb.Image(img) for img in images]})
# Log histograms
wandb.log({"gradients": wandb.Histogram(gradients)})
# Log tables
table = wandb.Table(columns=["id", "prediction", "ground_truth"])
wandb.log({"predictions": table})
```
### 4. Model Checkpointing
```python
import torch
import wandb
# Save model checkpoint
checkpoint = {
'epoch': epoch,
'model_state_dict': model.state_dict(),
'optimizer_state_dict': optimizer.state_dict(),
'loss': loss,
}
torch.save(checkpoint, 'checkpoint.pth')
# Upload to W&B
wandb.save('checkpoint.pth')
# Or use Artifacts (recommended)
artifact = wandb.Artifact('model', type='model')
artifact.add_file('checkpoint.pth')
wandb.log_artifact(artifact)
```
## Hyperparameter Sweeps
Automatically search for optimal hyperparameters.
### Define Sweep Configuration
```python
sweep_config = {
'method': 'bayes', # or 'grid', 'random'
'metric': {
'name': 'val/accuracy',
'goal': 'maximize'
},
'parameters': {
'learning_rate': {
'distribution': 'log_uniform',
'min': 1e-5,
'max': 1e-1
},
'batch_size': {
'values': [16, 32, 64, 128]
},
'optimizer': {
'values': ['adam', 'sgd', 'rmsprop']
},
'dropout': {
'distribution': 'uniform',
'min': 0.1,
'max': 0.5
}
}
}
# Initialize sweep
sweep_id = wandb.sweep(sweep_config, project="my-project")
```
### Define Training Function
```python
def train():
# Initialize run
run = wandb.init()
# Access sweep parameters
lr = wandb.config.learning_rate
batch_size = wandb.config.batch_size
optimizer_name = wandb.config.optimizer
# Build model with sweep config
model = build_model(wandb.config)
optimizer = get_optimizer(optimizer_name, lr)
# Training loop
for epoch in range(NUM_EPOCHS):
train_loss = train_epoch(model, optimizer, batch_size)
val_acc = validate(model)
# Log metrics
wandb.log({
"train/loss": train_loss,
"val/accuracy": val_acc
})
# Run sweep
wandb.agent(sweep_id, function=train, count=50) # Run 50 trials
```
### Sweep Strategies
```python
# Grid search - exhaustive
sweep_config = {
'method': 'grid',
'parameters': {
'lr': {'values': [0.001, 0.01, 0.1]},
'batch_size': {'values': [16, 32, 64]}
}
}
# Random search
sweep_config = {
'method': 'random',
'parameters': {
'lr': {'distribution': 'uniform', 'min': 0.0001, 'max': 0.1},
'dropout': {'distribution': 'uniform', 'min': 0.1, 'max': 0.5}
}
}
# Bayesian optimization (recommended)
sweep_config = {
'method': 'bayes',
'metric': {'name': 'val/loss', 'goal': 'minimize'},
'parameters': {
'lr': {'distribution': 'log_uniform', 'min': 1e-5, 'max': 1e-1}
}
}
```
## Artifacts
Track datasets, models, and other files with lineage.
### Log Artifacts
```python
# Create artifact
artifact = wandb.Artifact(
name='training-dataset',
type='dataset',
description='ImageNet training split',
metadata={'size': '1.2M images', 'split': 'train'}
)
# Add files
artifact.add_file('data/train.csv')
artifact.add_dir('data/images/')
# Log artifact
wandb.log_artifact(artifact)
```
### Use Artifacts
```python
# Download and use artifact
run = wandb.init(project="my-project")
# Download artifact
artifact = run.use_artifact('training-dataset:latest')
artifact_dir = artifact.download()
# Use the data
data = load_data(f"{artifact_dir}/train.csv")
```
### Model Registry
```python
# Log model as artifact
model_artifact = wandb.Artifact(
name='resnet50-model',
type='model',
metadata={'architecture': 'ResNet50', 'accuracy': 0.95}
)
model_artifact.add_file('model.pth')
wandb.log_artifact(model_artifact, aliases=['best', 'production'])
# Link to model registry
run.link_artifact(model_artifact, 'model-registry/production-models')
```
## Integration Examples
### HuggingFace Transformers
```python
from transformers import Trainer, TrainingArguments
import wandb
# Initialize W&B
wandb.init(project="hf-transformers")
# Training arguments with W&B
training_args = TrainingArguments(
output_dir="./results",
report_to="wandb", # Enable W&B logging
run_name="bert-finetuning",
logging_steps=100,
save_steps=500
)
# Trainer automatically logs to W&B
trainer = Trainer(
model=model,
args=training_args,
train_dataset=train_dataset,
eval_dataset=eval_dataset
)
trainer.train()
```
### PyTorch Lightning
```python
from pytorch_lightning import Trainer
from pytorch_lightning.loggers import WandbLogger
import wandb
# Create W&B logger
wandb_logger = WandbLogger(
project="lightning-demo",
log_model=True # Log model checkpoints
)
# Use with Trainer
trainer = Trainer(
logger=wandb_logger,
max_epochs=10
)
trainer.fit(model, datamodule=dm)
```
### Keras/TensorFlow
```python
import wandb
from wandb.keras import WandbCallback
# Initialize
wandb.init(project="keras-demo")
# Add callback
model.fit(
x_train, y_train,
validation_data=(x_val, y_val),
epochs=10,
callbacks=[WandbCallback()] # Auto-logs metrics
)
```
## Visualization & Analysis
### Custom Charts
```python
# Log custom visualizations
import matplotlib.pyplot as plt
fig, ax = plt.subplots()
ax.plot(x, y)
wandb.log({"custom_plot": wandb.Image(fig)})
# Log confusion matrix
wandb.log({"conf_mat": wandb.plot.confusion_matrix(
probs=None,
y_true=ground_truth,
preds=predictions,
class_names=class_names
)})
```
### Reports
Create shareable reports in W&B UI:
- Combine runs, charts, and text
- Markdown support
- Embeddable visualizations
- Team collaboration
## Best Practices
### 1. Organize with Tags and Groups
```python
wandb.init(
project="my-project",
tags=["baseline", "resnet50", "imagenet"],
group="resnet-experiments", # Group related runs
job_type="train" # Type of job
)
```
### 2. Log Everything Relevant
```python
# Log system metrics
wandb.log({
"gpu/util": gpu_utilization,
"gpu/memory": gpu_memory_used,
"cpu/util": cpu_utilization
})
# Log code version
wandb.log({"git_commit": git_commit_hash})
# Log data splits
wandb.log({
"data/train_size": len(train_dataset),
"data/val_size": len(val_dataset)
})
```
### 3. Use Descriptive Names
```python
# ✅ Good: Descriptive run names
wandb.init(
project="nlp-classification",
name="bert-base-lr0.001-bs32-epoch10"
)
# ❌ Bad: Generic names
wandb.init(project="nlp", name="run1")
```
### 4. Save Important Artifacts
```python
# Save final model
artifact = wandb.Artifact('final-model', type='model')
artifact.add_file('model.pth')
wandb.log_artifact(artifact)
# Save predictions for analysis
predictions_table = wandb.Table(
columns=["id", "input", "prediction", "ground_truth"],
data=predictions_data
)
wandb.log({"predictions": predictions_table})
```
### 5. Use Offline Mode for Unstable Connections
```python
import os
# Enable offline mode
os.environ["WANDB_MODE"] = "offline"
wandb.init(project="my-project")
# ... your code ...
# Sync later
# wandb sync <run_directory>
```
## Team Collaboration
### Share Runs
```python
# Runs are automatically shareable via URL
run = wandb.init(project="team-project")
print(f"Share this URL: {run.url}")
```
### Team Projects
- Create team account at wandb.ai
- Add team members
- Set project visibility (private/public)
- Use team-level artifacts and model registry
## Pricing
- **Free**: Unlimited public projects, 100GB storage
- **Academic**: Free for students/researchers
- **Teams**: $50/seat/month, private projects, unlimited storage
- **Enterprise**: Custom pricing, on-prem options
## Resources
- **Documentation**: https://docs.wandb.ai
- **GitHub**: https://github.com/wandb/wandb (10.5k+ stars)
- **Examples**: https://github.com/wandb/examples
- **Community**: https://wandb.ai/community
- **Discord**: https://wandb.me/discord
## See Also
- `references/sweeps.md` - Comprehensive hyperparameter optimization guide
- `references/artifacts.md` - Data and model versioning patterns
- `references/integrations.md` - Framework-specific examplesRelated Skills
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