ExecuTorch is an end-to-end solution for on-device inference and training. It powers much of Meta's on-device AI functionality including: Facebook, Oculus, Meta Glasses, Instagram, WhatsApp and more.
It covers a wide gamut of models including: LLMs (Large Language Models), CV (Computer Vision), ASR (Automatic Speech Recognition), TTS (Text to Speech).
Platform Support:
-
Operating Systems:
- iOS
- Mac
- Android
- Linux
- Microcontrollers
-
Hardware Acceleration:
- Apple
- ARM
- Cadence
- MediaTek
- Vulkan
- XNNPACK
Key value propositions of ExecuTorch are:
- Portability: Compatibility with a wide variety of computing platforms, from high-end mobile phones to highly constrained embedded systems and microcontrollers.
- Productivity: Enabling developers to use the same toolchains and Developer Tools from PyTorch model authoring and conversion, to debugging and deployment to a wide variety of platforms.
- Performance: Providing end users with a seamless and high-performance experience due to a lightweight runtime and utilizing full hardware capabilities such as CPUs, NPUs, and DSPs.
To get started you can:
- Visit the Step by Step Tutorial on getting things running locally and deploy a model to a device
- Use this Colab Notebook to start playing around right away
- Jump straight into LLMs use cases by following specific instructions for Llama and Llava
We welcome any feedback, suggestions, and bug reports from the community to help us improve our technology. Check out the Discussion Board or chat real time with us on Discord
We welcome contributions. To get started review the guidelines and chat with us on Discord
executorch
├── backends # Backend delegate implementations.
├── build # Utilities for managing the build system.
├── codegen # Tooling to autogenerate bindings between kernels and the runtime.
├── configurations
├── docs # Static docs tooling.
├── examples # Examples of various user flows, such as model export, delegates, and runtime execution.
├── exir # Ahead-of-time library: model capture and lowering APIs.
| ├── _serialize # Serialize final export artifact.
| ├── backend # Backend delegate ahead of time APIs
| ├── capture # Program capture.
| ├── dialects # Op sets for various dialects in the export process.
| ├── emit # Conversion from ExportedProgram to ExecuTorch execution instructions.
| ├── operator # Operator node manipulation utilities.
| ├── passes # Built-in compiler passes.
| ├── program # Export artifacts.
| ├── serde # Graph module
serialization/deserialization.
| ├── verification # IR verification.
├── extension # Extensions built on top of the runtime.
| ├── android # ExecuTorch wrappers for Android apps.
| ├── apple # ExecuTorch wrappers for iOS apps.
| ├── aten_util # Converts to and from PyTorch ATen types.
| ├── data_loader # 1st party data loader implementations.
| ├── evalue_util # Helpers for working with EValue objects.
| ├── gguf_util # Tools to convert from the GGUF format.
| ├── kernel_util # Helpers for registering kernels.
| ├── memory_allocator # 1st party memory allocator implementations.
| ├── module # A simplified C++ wrapper for the runtime.
| ├── parallel # C++ threadpool integration.
| ├── pybindings # Python API for executorch runtime.
| ├── pytree # C++ and Python flattening and unflattening lib for pytrees.
| ├── runner_util # Helpers for writing C++ PTE-execution
tools.
| ├── testing_util # Helpers for writing C++ tests.
| ├── training # Experimental libraries for on-device training
├── kernels # 1st party kernel implementations.
| ├── aten
| ├── optimized
| ├── portable # Reference implementations of ATen operators.
| ├── prim_ops # Special ops used in executorch runtime for control flow and symbolic primitives.
| ├── quantized
├── profiler # Utilities for profiling runtime execution.
├── runtime # Core C++ runtime.
| ├── backend # Backend delegate runtime APIs.
| ├── core # Core structures used across all levels of the runtime.
| ├── executor # Model loading, initialization, and execution.
| ├── kernel # Kernel registration and management.
| ├── platform # Layer between architecture specific code and portable C++.
├── schema # ExecuTorch PTE file format flatbuffer
schemas.
├── scripts # Utility scripts for size management, dependency management, etc.
├── devtools # Model profiling, debugging, and introspection.
├── shim # Compatibility layer between OSS and Internal builds
├── test # Broad scoped end-to-end tests.
├── third-party # Third-party dependencies.
├── util # Various helpers and scripts.
ExecuTorch is BSD licensed, as found in the LICENSE file.