From vastai-pack
Execute Vast.ai secondary workflow: multi-instance orchestration, spot recovery, and cost optimization. Use when running distributed training, handling spot preemption, or optimizing GPU spend across multiple instances. Trigger with phrases like "vastai distributed training", "vastai spot recovery", "vastai multi-gpu", "vastai cost optimization".
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Secondary workflow for Vast.ai: orchestrate multiple GPU instances for distributed training, implement automatic spot interruption recovery with checkpoint-based resume, and analyze spending to reduce per-job cost.
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Secondary workflow for Vast.ai: orchestrate multiple GPU instances for distributed training, implement automatic spot interruption recovery with checkpoint-based resume, and analyze spending to reduce per-job cost.
vastai-core-workflow-aimport subprocess, json, time
from concurrent.futures import ThreadPoolExecutor
def provision_cluster(num_nodes, gpu_name="A100", min_vram=80, image=""):
"""Provision multiple GPU instances for distributed training."""
# Search for matching offers
query = (f"num_gpus=1 gpu_name={gpu_name} gpu_ram>={min_vram} "
f"reliability>0.98 inet_down>500 rentable=true")
result = subprocess.run(
["vastai", "search", "offers", query, "--order", "dph_total",
"--raw", "--limit", str(num_nodes * 3)],
capture_output=True, text=True, check=True,
)
offers = json.loads(result.stdout)
if len(offers) < num_nodes:
raise RuntimeError(f"Only {len(offers)} offers, need {num_nodes}")
# Provision nodes in parallel
instances = []
for i, offer in enumerate(offers[:num_nodes]):
inst_id = provision_single(offer["id"], image, rank=i)
instances.append({"id": inst_id, "rank": i, "offer": offer})
# Wait for all to be running
for inst in instances:
info = wait_for_running(inst["id"])
inst.update({"ssh_host": info["ssh_host"], "ssh_port": info["ssh_port"]})
return instances
class SpotRecoveryManager:
"""Monitor instances and replace preempted spot instances."""
def __init__(self, client, checkpoint_dir="/workspace/checkpoints"):
self.client = client
self.checkpoint_dir = checkpoint_dir
def monitor_and_recover(self, instances, image, poll_interval=60):
"""Poll instance status; replace any that are destroyed/error."""
while True:
for inst in instances:
result = subprocess.run(
["vastai", "show", "instance", str(inst["id"]), "--raw"],
capture_output=True, text=True,
)
info = json.loads(result.stdout)
status = info.get("actual_status", "unknown")
if status in ("exited", "error", "offline"):
print(f"Instance {inst['id']} lost (status={status}). Replacing...")
new_inst = self.replace_instance(inst, image)
inst.update(new_inst)
time.sleep(poll_interval)
def replace_instance(self, old_inst, image):
"""Provision replacement and resume from last checkpoint."""
# Search for a new offer
offers = search_offers(gpu_name=old_inst["offer"]["gpu_name"])
new_id = provision_single(offers[0]["id"], image, rank=old_inst["rank"])
info = wait_for_running(new_id)
# Upload last checkpoint to new instance
subprocess.run([
"scp", "-P", str(info["ssh_port"]), "-r",
f"{self.checkpoint_dir}/",
f"root@{info['ssh_host']}:/workspace/checkpoints/",
], check=True)
return {"id": new_id, "ssh_host": info["ssh_host"],
"ssh_port": info["ssh_port"]}
def analyze_spending():
"""Pull billing history and compute cost-per-GPU-hour by GPU type."""
result = subprocess.run(
["vastai", "show", "invoices", "--raw"],
capture_output=True, text=True,
)
invoices = json.loads(result.stdout)
# Aggregate by GPU type
by_gpu = {}
for inv in invoices:
gpu = inv.get("gpu_name", "unknown")
cost = inv.get("total_cost", 0)
hours = inv.get("duration_hours", 0)
if gpu not in by_gpu:
by_gpu[gpu] = {"total_cost": 0, "total_hours": 0}
by_gpu[gpu]["total_cost"] += cost
by_gpu[gpu]["total_hours"] += hours
print("GPU Cost Summary:")
for gpu, data in sorted(by_gpu.items(), key=lambda x: x[1]["total_cost"], reverse=True):
avg = data["total_cost"] / max(data["total_hours"], 1)
print(f" {gpu}: ${data['total_cost']:.2f} total, "
f"{data['total_hours']:.1f}hrs, ${avg:.3f}/hr avg")
def destroy_cluster(instances):
"""Destroy all instances in a cluster to stop billing."""
for inst in instances:
subprocess.run(
["vastai", "destroy", "instance", str(inst["id"])],
check=True,
)
print(f"Destroyed instance {inst['id']} (rank {inst['rank']})")
print(f"All {len(instances)} instances destroyed — billing stopped")
| Error | Cause | Solution |
|---|---|---|
| Insufficient offers for cluster | Not enough matching GPUs available | Reduce num_nodes or relax GPU requirements |
| Checkpoint corruption on transfer | Interrupted SCP during preemption | Verify checkpoint integrity with hash check before resume |
| Node communication failure | Firewall between instances | Use instances from the same datacenter if possible |
| Budget exceeded | Unexpected spot price spikes | Set dph_total ceiling in search query |
For common errors, see vastai-common-errors.
Distributed fine-tuning: Provision 4x A100 instances, configure PyTorch DDP with torchrun --nproc_per_node=1 --nnodes=4, save checkpoints every 500 steps, and implement spot recovery to auto-resume from the latest checkpoint.
Cost comparison: Run the same workload on RTX 4090 ($0.20/hr) vs A100 ($1.50/hr) and compare wall-clock time vs total cost to find the optimal GPU type for your specific model.