Provides guidance for experiment tracking with SwanLab. Use when you need open-source run tracking, local or self-hosted dashboards, and lightweight media logging for ML workflows.
Install with the open skills CLI (global, non-interactive — available in every Claude Code session):
npx skills add Orchestra-Research/AI-Research-SKILLs --skill "experiment-tracking-swanlab" -g -a claude-code -yOr manually — clone and copy the skill directory (SKILL.md + companion files):
git clone --depth 1 https://github.com/Orchestra-Research/AI-Research-SKILLs /tmp/AI-Research-SKILLs && cp -r /tmp/AI-Research-SKILLs/13-mlops/swanlab ~/.claude/skills/experiment-tracking-swanlabThis skill is a directory: SKILL.md is the entry point; the files below ship with it.
---
name: experiment-tracking-swanlab
description: Provides guidance for experiment tracking with SwanLab. Use when you need open-source run tracking, local or self-hosted dashboards, and lightweight media logging for ML workflows.
version: 1.0.0
author: Orchestra Research
license: MIT
tags: [MLOps, SwanLab, Experiment Tracking, Open Source, Visualization, PyTorch, Transformers, PyTorch Lightning, Fastai, Self-Hosted]
dependencies: [swanlab>=0.7.11, pillow>=9.0.0, soundfile>=0.12.0]
---
# SwanLab: Open-Source Experiment Tracking
## When to Use This Skill
Use SwanLab when you need to:
- **Track ML experiments** with metrics, configs, tags, and descriptions
- **Visualize training** with scalar charts and logged media
- **Compare runs** across seeds, checkpoints, and hyperparameters
- **Work locally or self-hosted** instead of depending on managed SaaS
- **Integrate** with PyTorch, Transformers, PyTorch Lightning, or Fastai
**Deployment**: Cloud, local, or self-hosted | **Media**: images, audio, text, GIFs, point clouds, molecules | **Integrations**: PyTorch, Transformers, PyTorch Lightning, Fastai
## Installation
```bash
# Install SwanLab plus the media dependencies used in this skill
pip install "swanlab>=0.7.11" "pillow>=9.0.0" "soundfile>=0.12.0"
# Add local dashboard support for mode="local" and swanlab watch
pip install "swanlab[dashboard]>=0.7.11"
# Optional framework integrations
pip install transformers pytorch-lightning fastai
# Login for cloud or self-hosted usage
swanlab login
```
`pillow` and `soundfile` are the media dependencies used by the Image and Audio examples in this skill. `swanlab[dashboard]` adds the local dashboard dependency required by `mode="local"` and `swanlab watch`.
## Quick Start
### Basic Experiment Tracking
```python
import swanlab
run = swanlab.init(
project="my-project",
experiment_name="baseline",
config={
"learning_rate": 1e-3,
"epochs": 10,
"batch_size": 32,
"model": "resnet18",
},
)
for epoch in range(run.config.epochs):
train_loss = train_epoch()
val_loss = validate()
swanlab.log(
{
"train/loss": train_loss,
"val/loss": val_loss,
"epoch": epoch,
}
)
run.finish()
```
### With PyTorch
```python
import torch
import torch.nn as nn
import torch.optim as optim
import swanlab
run = swanlab.init(
project="pytorch-demo",
experiment_name="mnist-mlp",
config={
"learning_rate": 1e-3,
"batch_size": 64,
"epochs": 10,
"hidden_size": 128,
},
)
model = nn.Sequential(
nn.Flatten(),
nn.Linear(28 * 28, run.config.hidden_size),
nn.ReLU(),
nn.Linear(run.config.hidden_size, 10),
)
optimizer = optim.Adam(model.parameters(), lr=run.config.learning_rate)
criterion = nn.CrossEntropyLoss()
for epoch in range(run.config.epochs):
model.train()
for batch_idx, (data, target) in enumerate(train_loader):
optimizer.zero_grad()
logits = model(data)
loss = criterion(logits, target)
loss.backward()
optimizer.step()
if batch_idx % 100 == 0:
swanlab.log(
{
"train/loss": loss.item(),
"train/epoch": epoch,
"train/batch": batch_idx,
}
)
run.finish()
```
## Core Concepts
### 1. Projects and Experiments
**Project**: Collection of related experiments
**Experiment**: Single execution of a training or evaluation workflow
```python
import swanlab
run = swanlab.init(
project="image-classification",
experiment_name="resnet18-seed42",
description="Baseline run on ImageNet subset",
tags=["baseline", "resnet18"],
config={
"model": "resnet18",
"seed": 42,
"batch_size": 64,
"learning_rate": 3e-4,
},
)
print(run.id)
print(run.config.learning_rate)
```
### 2. Configuration Tracking
```python
config = {
"model": "resnet18",
"seed": 42,
"batch_size": 64,
"learning_rate": 3e-4,
"epochs": 20,
}
run = swanlab.init(project="my-project", config=config)
learning_rate = run.config.learning_rate
batch_size = run.config.batch_size
```
### 3. Metric Logging
```python
# Log scalars
swanlab.log({"loss": 0.42, "accuracy": 0.91})
# Log multiple metrics
swanlab.log(
{
"train/loss": train_loss,
"train/accuracy": train_acc,
"val/loss": val_loss,
"val/accuracy": val_acc,
"lr": current_lr,
"epoch": epoch,
}
)
# Log with custom step
swanlab.log({"loss": loss}, step=global_step)
```
### 4. Media and Chart Logging
```python
import numpy as np
import swanlab
# Image
image = np.random.randint(0, 255, (224, 224, 3), dtype=np.uint8)
swanlab.log({"examples/image": swanlab.Image(image, caption="Augmented sample")})
# Audio
wave = np.sin(np.linspace(0, 8 * np.pi, 16000)).astype("float32")
swanlab.log({"examples/audio": swanlab.Audio(wave, sample_rate=16000)})
# Text
swanlab.log({"examples/text": swanlab.Text("Training notes for this run.")})
# GIF video
swanlab.log({"examples/video": swanlab.Video("predictions.gif", caption="Validation rollout")})
# Point cloud
points = np.random.rand(128, 3).astype("float32")
swanlab.log({"examples/point_cloud": swanlab.Object3D(points, caption="Point cloud sample")})
# Molecule
swanlab.log({"examples/molecule": swanlab.Molecule.from_smiles("CCO", caption="Ethanol")})
```
```python
# Custom chart with swanlab.echarts
line = swanlab.echarts.Line()
line.add_xaxis(["epoch-1", "epoch-2", "epoch-3"])
line.add_yaxis("train/loss", [0.92, 0.61, 0.44])
line.set_global_opts(
title_opts=swanlab.echarts.options.TitleOpts(title="Training Loss")
)
swanlab.log({"charts/loss_curve": line})
```
See [references/visualization.md](references/visualization.md) for more chart and media patterns.
### 5. Local and Self-Hosted Workflows
```python
import os
import swanlab
# Self-hosted or cloud login
swanlab.login(
api_key=os.environ["SWANLAB_API_KEY"],
host="http://your-server:5092",
)
# Local-only logging
run = swanlab.init(
project="offline-demo",
mode="local",
logdir="./swanlog",
)
swanlab.log({"loss": 0.35, "epoch": 1})
run.finish()
```
```bash
# View local logs
swanlab watch -l ./swanlog
# Sync local logs later
swanlab sync ./swanlog
```
## Integration Examples
### HuggingFace Transformers
```python
from transformers import Trainer, TrainingArguments
training_args = TrainingArguments(
output_dir="./results",
per_device_train_batch_size=8,
evaluation_strategy="epoch",
logging_steps=50,
report_to="swanlab",
run_name="bert-finetune",
)
trainer = Trainer(
model=model,
args=training_args,
train_dataset=train_dataset,
eval_dataset=eval_dataset,
)
trainer.train()
```
See [references/integrations.md](references/integrations.md) for callback-based setups and additional framework patterns.
### PyTorch Lightning
```python
import pytorch_lightning as pl
from swanlab.integration.pytorch_lightning import SwanLabLogger
swanlab_logger = SwanLabLogger(
project="lightning-demo",
experiment_name="mnist-classifier",
config={"batch_size": 64, "max_epochs": 10},
)
trainer = pl.Trainer(
logger=swanlab_logger,
max_epochs=10,
accelerator="auto",
)
trainer.fit(model, train_loader, val_loader)
```
### Fastai
```python
from fastai.vision.all import accuracy, resnet34, vision_learner
from swanlab.integration.fastai import SwanLabCallback
learn = vision_learner(dls, resnet34, metrics=accuracy)
learn.fit(
5,
cbs=[
SwanLabCallback(
project="fastai-demo",
experiment_name="pets-classification",
config={"arch": "resnet34", "epochs": 5},
)
],
)
```
See [references/integrations.md](references/integrations.md) for fuller framework examples.
## Best Practices
### 1. Use Stable Metric Names
```python
# Good: grouped metric namespaces
swanlab.log({
"train/loss": train_loss,
"train/accuracy": train_acc,
"val/loss": val_loss,
"val/accuracy": val_acc,
})
# Avoid mixing flat and grouped names for the same metric family
```
### 2. Initialize Early and Capture Config Once
```python
run = swanlab.init(
project="image-classification",
experiment_name="resnet18-baseline",
config={
"model": "resnet18",
"learning_rate": 3e-4,
"batch_size": 64,
"seed": 42,
},
)
```
### 3. Save Checkpoints Locally
```python
import torch
import swanlab
checkpoint_path = "checkpoints/best.pth"
torch.save(model.state_dict(), checkpoint_path)
swanlab.log(
{
"best/val_accuracy": best_val_accuracy,
"artifacts/checkpoint_path": swanlab.Text(checkpoint_path),
}
)
```
### 4. Use Local Mode for Offline-First Workflows
```python
run = swanlab.init(project="offline-demo", mode="local", logdir="./swanlog")
# ... training code ...
run.finish()
# Inspect later with: swanlab watch -l ./swanlog
```
### 5. Keep Advanced Patterns in References
- Use [references/visualization.md](references/visualization.md) for advanced chart and media patterns
- Use [references/integrations.md](references/integrations.md) for callback-based and framework-specific integration details
## Resources
- [Official docs (Chinese)](https://docs.swanlab.cn)
- [Official docs (English)](https://docs.swanlab.cn/en)
- [GitHub repo](https://github.com/SwanHubX/SwanLab)
- [Self-hosted repo](https://github.com/SwanHubX/self-hosted)
## See Also
- [references/integrations.md](references/integrations.md) - Framework-specific examples
- [references/visualization.md](references/visualization.md) - Charts and media logging patterns
Use when facing 2+ independent tasks that can be worked on without shared state or sequential dependencies
Use when encountering any bug, test failure, or unexpected behavior, before proposing fixes
Use when implementing any feature or bugfix, before writing implementation code