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modal-serverless-gpu

✓ Official11

by firecrawl · part of firecrawl/ai-research-skills

Serverless GPU cloud platform for running ML workloads. Use when you need on-demand GPU access without infrastructure management, deploying ML models as APIs, or running batch jobs with automatic scaling.

🔥🔥🔥FreeQuick setup
🧩 One of 7 skills in the firecrawl/ai-research-skills package — works on its own, and pairs well with its siblings.

This is the playbook your agent receives when the skill activates — you don't need to read it to use the skill, but it's here to audit before installing.

Modal Serverless GPU

Comprehensive guide to running ML workloads on Modal's serverless GPU cloud platform.

When to use Modal

Use Modal when:

  • Running GPU-intensive ML workloads without managing infrastructure
  • Deploying ML models as auto-scaling APIs
  • Running batch processing jobs (training, inference, data processing)
  • Need pay-per-second GPU pricing without idle costs
  • Prototyping ML applications quickly
  • Running scheduled jobs (cron-like workloads)

Key features:

  • Serverless GPUs: T4, L4, A10G, L40S, A100, H100, H200, B200 on-demand
  • Python-native: Define infrastructure in Python code, no YAML
  • Auto-scaling: Scale to zero, scale to 100+ GPUs instantly
  • Sub-second cold starts: Rust-based infrastructure for fast container launches
  • Container caching: Image layers cached for rapid iteration
  • Web endpoints: Deploy functions as REST APIs with zero-downtime updates

Use alternatives instead:

  • RunPod: For longer-running pods with persistent state
  • Lambda Labs: For reserved GPU instances
  • SkyPilot: For multi-cloud orchestration and cost optimization
  • Kubernetes: For complex multi-service architectures

Core concepts

Key components

ComponentPurpose
AppContainer for functions and resources
FunctionServerless function with compute specs
ClsClass-based functions with lifecycle hooks
ImageContainer image definition
VolumePersistent storage for models/data
SecretSecure credential storage

Execution modes

CommandDescription
modal run script.pyExecute and exit
modal serve script.pyDevelopment with live reload
modal deploy script.pyPersistent cloud deployment

Container images

# Basic image with pip
image = modal.Image.debian_slim(python_version="3.11").pip_install(
    "torch==2.1.0", "transformers==4.36.0", "accelerate"
)

# From CUDA base
image = modal.Image.from_registry(
    "nvidia/cuda:12.1.0-cudnn8-devel-ubuntu22.04",
    add_python="3.11"
).pip_install("torch", "transformers")

# With system packages
image = modal.Image.debian_slim().apt_install("git", "ffmpeg").pip_install("whisper")

Persistent storage

volume = modal.Volume.from_name("model-cache", create_if_missing=True)

@app.function(gpu="A10G", volumes={"/models": volume})
def load_model():
    import os
    model_path = "/models/llama-7b"
    if not os.path.exists(model_path):
        model = download_model()
        model.save_pretrained(model_path)
        volume.commit()  # Persist changes
    return load_from_path(model_path)

Web endpoints

FastAPI endpoint decorator

@app.function()
@modal.fastapi_endpoint(method="POST")
def predict(text: str) -> dict:
    return {"result": model.predict(text)}

Full ASGI app

from fastapi import FastAPI
web_app = FastAPI()

@web_app.post("/predict")
async def predict(text: str):
    return {"result": await model.predict.remote.aio(text)}

@app.function()
@modal.asgi_app()
def fastapi_app():
    return web_app

Web endpoint types

DecoratorUse Case
@modal.fastapi_endpoint()Simple function → API
@modal.asgi_app()Full FastAPI/Starlette apps
@modal.wsgi_app()Django/Flask apps
@modal.web_server(port)Arbitrary HTTP servers

Dynamic batching

@app.function()
@modal.batched(max_batch_size=32, wait_ms=100)
async def batch_predict(inputs: list[str]) -> list[dict]:
    # Inputs automatically batched
    return model.batch_predict(inputs)

Secrets management

# Create secret
modal secret create huggingface HF_TOKEN=hf_xxx
@app.function(secrets=[modal.Secret.from_name("huggingface")])
def download_model():
    import os
    token = os.environ["HF_TOKEN"]

Scheduling

@app.function(schedule=modal.Cron("0 0 * * *"))  # Daily midnight
def daily_job():
    pass

@app.function(schedule=modal.Period(hours=1))
def hourly_job():
    pass

Performance optimization

Cold start mitigation

@app.function(
    container_idle_timeout=300,  # Keep warm 5 min
    allow_concurrent_inputs=10,  # Handle concurrent requests
)
def inference():
    pass

Model loading best practices

@app.cls(gpu="A100")
class Model:
    @modal.enter()  # Run once at container start
    def load(self):
        self.model = load_model()  # Load during warm-up

    @modal.method()
    def predict(self, x):
        return self.model(x)

Parallel processing

@app.function()
def process_item(item):
    return expensive_computation(item)

@app.function()
def run_parallel():
    items = list(range(1000))
    # Fan out to parallel containers
    results = list(process_item.map(items))
    return results

Debugging

# Test locally
if __name__ == "__main__":
    result = my_function.local()

# View logs
# modal app logs my-app

References

Resources