skypilot-multi-cloud-orchestration
SkyPilot enables running machine learning workloads across multiple cloud providers with automatic cost optimization and spot instance support. Use it when you need to train models across AWS, GCP, Azure, and other clouds while minimizing expenses through intelligent cloud selection and spot instance recovery, or when managing distributed multi-node training jobs with fault tolerance across providers.
git clone --depth 1 https://github.com/OpenRaiser/NanoResearch /tmp/skypilot-multi-cloud-orchestration && cp -r /tmp/skypilot-multi-cloud-orchestration/skills/vendor-ai-research/skypilot ~/.claude/skills/skypilot-multi-cloud-orchestrationSKILL.md
# SkyPilot Multi-Cloud Orchestration
Comprehensive guide to running ML workloads across clouds with automatic cost optimization using SkyPilot.
## When to use SkyPilot
**Use SkyPilot when:**
- Running ML workloads across multiple clouds (AWS, GCP, Azure, etc.)
- Need cost optimization with automatic cloud/region selection
- Running long jobs on spot instances with auto-recovery
- Managing distributed multi-node training
- Want unified interface for 20+ cloud providers
- Need to avoid vendor lock-in
**Key features:**
- **Multi-cloud**: AWS, GCP, Azure, Kubernetes, Lambda, RunPod, 20+ providers
- **Cost optimization**: Automatic cheapest cloud/region selection
- **Spot instances**: 3-6x cost savings with automatic recovery
- **Distributed training**: Multi-node jobs with gang scheduling
- **Managed jobs**: Auto-recovery, checkpointing, fault tolerance
- **Sky Serve**: Model serving with autoscaling
**Use alternatives instead:**
- **Modal**: For simpler serverless GPU with Python-native API
- **RunPod**: For single-cloud persistent pods
- **Kubernetes**: For existing K8s infrastructure
- **Ray**: For pure Ray-based orchestration
## Quick start
### Installation
```bash
pip install "skypilot[aws,gcp,azure,kubernetes]"
# Verify cloud credentials
sky check
```
### Hello World
Create `hello.yaml`:
```yaml
resources:
accelerators: T4:1
run: |
nvidia-smi
echo "Hello from SkyPilot!"
```
Launch:
```bash
sky launch -c hello hello.yaml
# SSH to cluster
ssh hello
# Terminate
sky down hello
```
## Core concepts
### Task YAML structure
```yaml
# Task name (optional)
name: my-task
# Resource requirements
resources:
cloud: aws # Optional: auto-select if omitted
region: us-west-2 # Optional: auto-select if omitted
accelerators: A100:4 # GPU type and count
cpus: 8+ # Minimum CPUs
memory: 32+ # Minimum memory (GB)
use_spot: true # Use spot instances
disk_size: 256 # Disk size (GB)
# Number of nodes for distributed training
num_nodes: 2
# Working directory (synced to ~/sky_workdir)
workdir: .
# Setup commands (run once)
setup: |
pip install -r requirements.txt
# Run commands
run: |
python train.py
```
### Key commands
| Command | Purpose |
|---------|---------|
| `sky launch` | Launch cluster and run task |
| `sky exec` | Run task on existing cluster |
| `sky status` | Show cluster status |
| `sky stop` | Stop cluster (preserve state) |
| `sky down` | Terminate cluster |
| `sky logs` | View task logs |
| `sky queue` | Show job queue |
| `sky jobs launch` | Launch managed job |
| `sky serve up` | Deploy serving endpoint |
## GPU configuration
### Available accelerators
```yaml
# NVIDIA GPUs
accelerators: T4:1
accelerators: L4:1
accelerators: A10G:1
accelerators: L40S:1
accelerators: A100:4
accelerators: A100-80GB:8
accelerators: H100:8
# Cloud-specific
accelerators: V100:4 # AWS/GCP
accelerators: TPU-v4-8 # GCP TPUs
```
### GPU fallbacks
```yaml
resources:
accelerators:
H100: 8
A100-80GB: 8
A100: 8
any_of:
- cloud: gcp
- cloud: aws
- cloud: azure
```
### Spot instances
```yaml
resources:
accelerators: A100:8
use_spot: true
spot_recovery: FAILOVER # Auto-recover on preemption
```
## Cluster management
### Launch and execute
```bash
# Launch new cluster
sky launch -c mycluster task.yaml
# Run on existing cluster (skip setup)
sky exec mycluster another_task.yaml
# Interactive SSH
ssh mycluster
# Stream logs
sky logs mycluster
```
### Autostop
```yaml
resources:
accelerators: A100:4
autostop:
idle_minutes: 30
down: true # Terminate instead of stop
```
```bash
# Set autostop via CLI
sky autostop mycluster -i 30 --down
```
### Cluster status
```bash
# All clusters
sky status
# Detailed view
sky status -a
```
## Distributed training
### Multi-node setup
```yaml
resources:
accelerators: A100:8
num_nodes: 4 # 4 nodes × 8 GPUs = 32 GPUs total
setup: |
pip install torch torchvision
run: |
torchrun \
--nnodes=$SKYPILOT_NUM_NODES \
--nproc_per_node=$SKYPILOT_NUM_GPUS_PER_NODE \
--node_rank=$SKYPILOT_NODE_RANK \
--master_addr=$(echo "$SKYPILOT_NODE_IPS" | head -n1) \
--master_port=12355 \
train.py
```
### Environment variables
| Variable | Description |
|----------|-------------|
| `SKYPILOT_NODE_RANK` | Node index (0 to num_nodes-1) |
| `SKYPILOT_NODE_IPS` | Newline-separated IP addresses |
| `SKYPILOT_NUM_NODES` | Total number of nodes |
| `SKYPILOT_NUM_GPUS_PER_NODE` | GPUs per node |
### Head-node-only execution
```bash
run: |
if [ "${SKYPILOT_NODE_RANK}" == "0" ]; then
python orchestrate.py
fi
```
## Managed jobs
### Spot recovery
```bash
# Launch managed job with spot recovery
sky jobs launch -n my-job train.yaml
```
### Checkpointing
```yaml
name: training-job
file_mounts:
/checkpoints:
name: my-checkpoints
store: s3
mode: MOUNT
resources:
accelerators: A100:8
use_spot: true
run: |
python train.py \
--checkpoint-dir /checkpoints \
--resume-from-latest
```
### Job management
```bash
# List jobs
sky jobs queue
# View logs
sky jobs logs my-job
# Cancel job
sky jobs cancel my-job
```
## File mounts and storage
### Local file sync
```yaml
workdir: ./my-project # Synced to ~/sky_workdir
file_mounts:
/data/config.yaml: ./config.yaml
~/.vimrc: ~/.vimrc
```
### Cloud storage
```yaml
file_mounts:
# Mount S3 bucket
/datasets:
source: s3://my-bucket/datasets
mode: MOUNT # Stream from S3
# Copy GCS bucket
/models:
source: gs://my-bucket/models
mode: COPY # Pre-fetch to disk
# Cached mount (fast writes)
/outputs:
name: my-outputs
store: s3
mode: MOUNT_CACHED
```
### Storage modes
| Mode | Description | Best For |
|------|-------------|----------|
| `MOUNT` | Stream from cloud | Large datasets, read-heavy |
| `COPY` | Pre-fetch to disk | Small files, random access |
| `MOUNT_CACHED` | Cache witGenerate a Python code skeleton from an experiment blueprint
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