--- title: Deploy description: "Run a Hyperframes preview + render API in the cloud from an official template." --- Hyperframes ships three official deployment templates that wrap a composition in a small web app: an in-browser preview and a `/api/render` endpoint that produces an MP4 server-side. All are open source, Apache-2.0 — Vercel and Cloudflare deploy from a single button, Modal from a single `modal deploy`. | Template | Compute | Storage | Deploy | |----------|---------|---------|--------| | [Vercel](https://github.com/heygen-com/hyperframes-vercel-template) | [Vercel Sandbox](https://vercel.com/docs/vercel-sandbox) (Firecracker microVM) | [Vercel Blob](https://vercel.com/docs/vercel-blob) | [vercel.com/templates/ai/hyperframes-on-vercel](https://vercel.com/templates/ai/hyperframes-on-vercel) | | [Cloudflare](https://github.com/heygen-com/hyperframes-cloudflare-template) | [Cloudflare Containers](https://developers.cloudflare.com/containers/) (Workers + Durable Object) | [R2](https://developers.cloudflare.com/r2/) | One-click button in the repo README | | [Modal](https://github.com/heygen-com/hyperframes-modal-template) | [Modal Functions](https://modal.com/docs/guide/webhooks) (serverless containers, scale-to-zero) | [Modal Volume](https://modal.com/docs/guide/volumes) | `modal deploy src/app.py` | All three templates use the same shape: - **Preview** the bundled `ui-3d-reveal` composition in the browser via the [``](/packages/player) web component. - **Render** to MP4 by POSTing to `/api/render`. The handler ships the composition to a sandboxed runtime that has Chromium, FFmpeg, and `hyperframes` pre-installed, then streams the MP4 back to storage and returns a URL. - **Author locally**, deploy the preview + render API. Compositions are still built on your machine with `npx hyperframes init`, then dropped into the template's compositions directory. ## Choosing a template Pick this if you already deploy on Vercel, want zero-config Blob storage, or want to reuse Vercel's CI/preview environments. [![Deploy with Vercel](https://vercel.com/button)](https://vercel.com/new/clone?repository-url=https%3A%2F%2Fgithub.com%2Fheygen-com%2Fhyperframes-vercel-template&stores=%5B%7B%22type%22%3A%22blob%22%2C%22access%22%3A%22public%22%7D%5D) **What you get** - A Next.js app with `` preview and a `POST /api/render` route. - A pre-baked Vercel Sandbox snapshot built during `next build` — cold renders skip the Chromium/FFmpeg install and restore from snapshot in ~100 ms. - A Vercel Blob store provisioned automatically on deploy. `BLOB_READ_WRITE_TOKEN` is injected for you. **Performance** Renders run on `standard-4` (4 vCPU). With `--workers auto`, three parallel Chrome workers cut render time meaningfully vs. single-worker. Concrete render time depends on composition length, complexity, and asset size. **Pricing** Vercel Pro plans include Sandbox credit each month. See [Vercel Sandbox pricing](https://vercel.com/docs/vercel-sandbox/pricing) for current per-vCPU and per-GB rates and the up-to-date credit allowance. Vercel Functions cap at 300s and a 50 MB compressed bundle, which can't fit Chromium + FFmpeg. The template uses Vercel Sandbox specifically because it's the purpose-built primitive for this workload — up to 5 hours of runtime and up to 8 vCPUs per render. Pick this if you're already on Cloudflare Workers, want R2's free egress, or want full control over the renderer image. [![Deploy to Cloudflare](https://deploy.workers.cloudflare.com/button)](https://deploy.workers.cloudflare.com/?url=https://github.com/heygen-com/hyperframes-cloudflare-template) **What you get** - A Worker that serves preview HTML and forwards `/api/render` requests to a `RenderContainer` Durable Object. - A pre-built OCI container image with Chromium + FFmpeg + `hyperframes` baked in — no install at request time. - An R2 bucket (`hyperframes-renders`) provisioned automatically on deploy. **Performance** Renders run on `standard-4` (4 vCPU, 12 GiB). With `--workers auto`, three parallel Chrome workers cut render time meaningfully vs. single-worker. Container instances sleep after 10 minutes of inactivity, so the next request after a quiet period pays a cold-start penalty. **Pricing** Cloudflare Containers bills per-10ms for memory, CPU, and disk; R2 storage has no egress within Cloudflare's network. Requires a [Workers Paid](https://developers.cloudflare.com/workers/platform/pricing/) plan. See [Cloudflare Containers pricing](https://developers.cloudflare.com/containers/pricing/) and [R2 pricing](https://developers.cloudflare.com/r2/pricing/) for current rates. Cloudflare's hosted [Browser Rendering](https://developers.cloudflare.com/browser-rendering/) API can't install FFmpeg — that's why the template uses Cloudflare Containers, which gives you a real OCI container in a Worker-bound Durable Object with up to 4 vCPUs and 12 GiB RAM. Pick this if you already run on Modal, want containers that scale to zero with per-second billing, or want the render to run as a spawned function decoupled from the request. Modal deploys from the CLI rather than a button: ```bash Terminal uv sync source .venv/bin/activate modal setup # one-time auth modal deploy src/app.py ``` **What you get** - A FastAPI app (`@modal.asgi_app`) that serves the `` preview and a `POST /api/render` route. - A Modal image with Node.js 22, Python 3.12, FFmpeg, `hyperframes`, and `chrome-headless-shell` baked in at build time — no install at request time. - A Modal Volume (`hyperframes-renders`) that persists the MP4, served back from the `/renders/:name` endpoint. **Performance** First deploy takes ~2 min to build the image; subsequent deploys are ~2s. Renders cold-boot in ~1s and containers scale to zero when idle. With `--workers auto`, three parallel Chrome workers cut render time (GPU is disabled via `--no-browser-gpu`). A 12s 1080p30 composition renders in roughly 10–90s depending on complexity. **Pricing** You pay per second of render time and nothing while idle, since containers scale to zero. See [Modal pricing](https://modal.com/pricing) for current per-CPU and per-GB rates. Modal web endpoints cap at 150s per request, so `POST /api/render` returns a `call_id` immediately and the render runs in a spawned Modal Function (up to 15 min, `timeout=900`). Poll `GET /api/render/:id` — it returns `202` while the render is still running, then the finished MP4. ## Architecture All three templates follow the same flow: the browser plays a preview locally, then POSTs to a render endpoint that delegates to a sandboxed runtime with Chromium + FFmpeg. ``` Browser Edge / Function Sandboxed renderer ┌──────────────────┐ ┌────────────────────┐ ┌──────────────────────────┐ │ │ │ ship composition │ │ (Chromium + FFmpeg, │ │ preview iframe │ │ → renderer │ │ pre-installed) │ │ │ ◀──── │ ← stream MP4 │ ◀──── │ │ │ │ url │ → upload to blob │ mp4 │ │ └──────────────────┘ └────────────────────┘ └──────────────────────────┘ │ └─▶ Vercel Blob / Cloudflare R2 / Modal Volume ``` The key cost-saver in all three templates is **pre-baking the renderer**. Installing Chromium system libraries plus `chrome-headless-shell` takes 30–60s, which would dominate every cold render. Vercel's template snapshots the sandbox at build time; Cloudflare's and Modal's templates bake everything into the container image. All restore in milliseconds and let you spend the entire request budget on actual rendering. ## Swapping the composition All three templates ship with one bundled composition (`ui-3d-reveal`). To use your own: Compositions are HTML — author them on your machine with the [CLI](/packages/cli): ```bash Terminal npx hyperframes init my-video cd my-video npx hyperframes preview ``` Copy your composition into the template's compositions directory — `public/compositions//` for Vercel and Cloudflare, `compositions//` for Modal. - **Vercel**: edit `PREVIEW_COMPOSITION_DIR` at the top of `lib/preview.ts` and the dimensions in `app/page.tsx` if it isn't 1920×1080. - **Cloudflare**: set `PREVIEW_COMPOSITION_DIR=compositions/` when running `npm run deploy`, or edit the default in `scripts/build.mjs`. Update player dimensions in `public/index.html` if needed. - **Modal**: set `PREVIEW_COMPOSITION = ""` in `src/app.py`. Update the `` dimensions in `web/index.html` if it isn't 1920×1080. ```bash Terminal # Vercel vercel deploy # Cloudflare npm run deploy # Modal modal deploy src/app.py ``` ## When to use a template vs. roll your own Templates are optimized for **a single render endpoint behind a preview UI**. They're the fastest way to get a hosted Hyperframes render API running. If you need: - A **render queue** with retries, deduplication, or priorities — start from a template, then add your own queue (e.g. Vercel Queues, Cloudflare Queues, SQS). - **Multi-tenant rendering** with per-user composition uploads — start from a template, replace the bundled composition with a runtime-fetched one. - **Self-hosted** rendering — see the [Rendering guide](/guides/rendering) and run `hyperframes render --docker` on your own infrastructure. For everything else, the templates are the recommended starting point. ## Next Steps Render compositions locally or in Docker Embed `` in any HTML page Source on GitHub Source on GitHub Source on GitHub