mirror of https://github.com/mudler/LocalAI.git synced 2026-06-27 09:57:14 -04:00

Files

Ettore Di Giacinto 78fac9a28f refactor(paged): stock llama-cpp is patch-free; paged backend owns its patch series

Move ALL paged-attention content out of the stock backend/cpp/llama-cpp
backend and into backend/cpp/llama-cpp-localai-paged, so the stock backend is
pure upstream llama.cpp and the paged backend owns and applies its own vendored
patch series.

- Delete the dead early-exploration scaffold backend/cpp/llama-cpp/paged/
  (kernel/w4a16 Marlin scaffold, standalone paged_kv_manager, bench/loadgen,
  its own 0001-0002 patches, dense-era design docs, tests). Zero references
  repo-wide.
- Move backend/cpp/llama-cpp/patches/ (the 28-patch paged series + paged/README
  + 3 operational docs, plus the kernel/ scaffold patch and the top-level paged
  README/BENCHMARKS) to backend/cpp/llama-cpp-localai-paged/patches/. The stock
  backend keeps no patches/ dir; it had no non-paged base patches.
- Purify the stock backend: remove the LLAMA_PAGED make variable, the
  patches/paged apply loop, and the LLAMA_PAGED passthrough to prepare.sh;
  remove the paged-series handling from prepare.sh. The stock llama.cpp target
  now only clones the pin and applies its own (currently empty) base patches/
  series. The runtime paged option hooks in the shared grpc-server.cpp are
  untouched (inert without the patches).
- The paged backend's Makefile now applies its OWN patches/paged/0*.patch onto
  each freshly cloned tree via strict git apply (apply-paged-patches), after the
  copied stock infra clones the pin and applies base patches.
- Repoint every reference to the old patches/paged path: the upstream canary
  workflow + apply script, bump_deps.yaml, gallery/index.yaml, the docs,
  backend/index.yaml, backend-matrix.yml, the top-level Makefile comments, and
  the moved PIN_SYNC / README docs. Drop the now-removed LLAMA_PAGED=on
  build-toggle from comments.

Verified: the full 28-patch series applies strict-clean (git apply, exit 0) to
a clean ggml-org/llama.cpp checkout at the pinned c299a92c, and the repointed
canary apply script resolves and applies the series end to end.

Assisted-by: Claude:opus-4.8 [Claude Code]
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

2026-06-27 11:01:22 +00:00

cpp

refactor(paged): stock llama-cpp is patch-free; paged backend owns its patch series

2026-06-27 11:01:22 +00:00

chore: ⬆️ Update mudler/parakeet.cpp to f469a57270a1cc4554acb15febf60e56619673b9 (#10530 )

2026-06-27 00:50:51 +02:00

python

fix(backends): repair release CI build/test breaks (kokoros, fish-speech, llama-cpp-quantization, sglang) (#10547 )

2026-06-27 09:42:22 +02:00

rust/kokoros

fix(backends): repair release CI build/test breaks (kokoros, fish-speech, llama-cpp-quantization, sglang) (#10547 )

2026-06-27 09:42:22 +02:00

backend.proto

feat(ced): sound-event classification backend (CED audio tagger) (#10425 )

2026-06-22 01:00:28 +02:00

Dockerfile.base-grpc-builder

ci: refactor llama-cpp variant Dockerfiles to consume prebuilt base-grpc images (PR 2/2) (#9738 )

2026-05-10 00:03:52 +02:00

Dockerfile.ds4

feat: add ds4 backend (DeepSeek V4 Flash) with tool calls, thinking, KV cache (#9758 )

2026-05-11 22:15:47 +02:00

Dockerfile.golang

feat(vulkan): make Vulkan backends self-contained on the GPU (#10404 )

2026-06-19 17:16:33 +02:00

Dockerfile.ik-llama-cpp

ci: refactor llama-cpp variant Dockerfiles to consume prebuilt base-grpc images (PR 2/2) (#9738 )

2026-05-10 00:03:52 +02:00

Dockerfile.llama-cpp

ci: refactor llama-cpp variant Dockerfiles to consume prebuilt base-grpc images (PR 2/2) (#9738 )

2026-05-10 00:03:52 +02:00

Dockerfile.llama-cpp-localai-paged

feat(backend): llama-cpp-localai-paged variant + NVFP4 Qwen3.6 gallery

2026-06-26 12:58:56 +00:00

Dockerfile.privacy-filter

feat(pii): NER tier engine — privacy-filter.cpp backend + NER-centric PII filter (#10360 )

2026-06-18 11:45:22 +01:00

Dockerfile.python

feat(vulkan): make Vulkan backends self-contained on the GPU (#10404 )

2026-06-19 17:16:33 +02:00

Dockerfile.rust

feat(ci): allow routing apt traffic through an alternate Ubuntu mirror (#9650 )

2026-05-03 23:50:13 +02:00

Dockerfile.turboquant

feat(llama-cpp): bump to 1ec7ba0c, adapt grpc-server, expose new spec-decoding options (#9765 )

2026-05-12 17:22:37 +02:00

index.yaml

refactor(paged): stock llama-cpp is patch-free; paged backend owns its patch series

2026-06-27 11:01:22 +00:00

README.md

Remove HuggingFace backend support (#8971 )

2026-03-13 01:09:30 +01:00

README.md

LocalAI Backend Architecture

This directory contains the core backend infrastructure for LocalAI, including the gRPC protocol definition, multi-language Dockerfiles, and language-specific backend implementations.

Overview

LocalAI uses a unified gRPC-based architecture that allows different programming languages to implement AI backends while maintaining consistent interfaces and capabilities. The backend system supports multiple hardware acceleration targets and provides a standardized way to integrate various AI models and frameworks.

Architecture Components

1. Protocol Definition (`backend.proto`)

The backend.proto file defines the gRPC service interface that all backends must implement. This ensures consistency across different language implementations and provides a contract for communication between LocalAI core and backend services.

Core Services

Text Generation: Predict, PredictStream for LLM inference
Embeddings: Embedding for text vectorization
Image Generation: GenerateImage for stable diffusion and image models
Audio Processing: AudioTranscription, TTS, SoundGeneration
Video Generation: GenerateVideo for video synthesis
Object Detection: Detect for computer vision tasks
Vector Storage: StoresSet, StoresGet, StoresFind for RAG operations
Reranking: Rerank for document relevance scoring
Voice Activity Detection: VAD for audio segmentation

Key Message Types

PredictOptions: Comprehensive configuration for text generation
ModelOptions: Model loading and configuration parameters
Result: Standardized response format
StatusResponse: Backend health and memory usage information

2. Multi-Language Dockerfiles

The backend system provides language-specific Dockerfiles that handle the build environment and dependencies for different programming languages:

Dockerfile.python
Dockerfile.golang
Dockerfile.llama-cpp

3. Language-Specific Implementations

Python Backends (`python/`)

transformers: Hugging Face Transformers framework
vllm: High-performance LLM inference
mlx: Apple Silicon optimization
diffusers: Stable Diffusion models
Audio: coqui, faster-whisper, kitten-tts
Vision: mlx-vlm, rfdetr
Specialized: rerankers, chatterbox, kokoro

Go Backends (`go/`)

whisper: OpenAI Whisper speech recognition in Go with GGML cpp backend (whisper.cpp)
stablediffusion-ggml: Stable Diffusion in Go with GGML Cpp backend
piper: Text-to-speech synthesis Golang with C bindings using rhaspy/piper
local-store: Vector storage backend

C++ Backends (`cpp/`)

llama-cpp: Llama.cpp integration
grpc: GRPC utilities and helpers

Hardware Acceleration Support

CUDA (NVIDIA)

Versions: CUDA 12.x, 13.x
Features: cuBLAS, cuDNN, TensorRT optimization
Targets: x86_64, ARM64 (Jetson)

ROCm (AMD)

Features: HIP, rocBLAS, MIOpen
Targets: AMD GPUs with ROCm support

Intel

Features: oneAPI, Intel Extension for PyTorch
Targets: Intel GPUs, XPUs, CPUs

Vulkan

Features: Cross-platform GPU acceleration
Targets: Windows, Linux, Android, macOS

Apple Silicon

Features: MLX framework, Metal Performance Shaders
Targets: M1/M2/M3 Macs

Backend Registry (`index.yaml`)

The index.yaml file serves as a central registry for all available backends, providing:

Metadata: Name, description, license, icons
Capabilities: Hardware targets and optimization profiles
Tags: Categorization for discovery
URLs: Source code and documentation links

Building Backends

Prerequisites

Docker with multi-architecture support
Appropriate hardware drivers (CUDA, ROCm, etc.)
Build tools (make, cmake, compilers)

Build Commands

Example of build commands with Docker

# Build Python backend
docker build -f backend/Dockerfile.python \
  --build-arg BACKEND=transformers \
  --build-arg BUILD_TYPE=cublas12 \
  --build-arg CUDA_MAJOR_VERSION=12 \
  --build-arg CUDA_MINOR_VERSION=0 \
  -t localai-backend-transformers .

# Build Go backend
docker build -f backend/Dockerfile.golang \
  --build-arg BACKEND=whisper \
  --build-arg BUILD_TYPE=cpu \
  -t localai-backend-whisper .

# Build C++ backend
docker build -f backend/Dockerfile.llama-cpp \
  --build-arg BACKEND=llama-cpp \
  --build-arg BUILD_TYPE=cublas12 \
  -t localai-backend-llama-cpp .

For ARM64/Mac builds, docker can't be used, and the makefile in the respective backend has to be used.

Build Types

cpu: CPU-only optimization
cublas12, cublas13: CUDA 12.x, 13.x with cuBLAS
hipblas: ROCm with rocBLAS
intel: Intel oneAPI optimization
vulkan: Vulkan-based acceleration
metal: Apple Metal optimization

Backend Development

Creating a New Backend

Choose Language: Select Python, Go, or C++ based on requirements
Implement Interface: Implement the gRPC service defined in backend.proto
Add Dependencies: Create appropriate requirements files
Configure Build: Set up Dockerfile and build scripts
Register Backend: Add entry to index.yaml
Test Integration: Verify gRPC communication and functionality

Backend Structure

backend-name/
├── backend.py/go/cpp    # Main implementation
├── requirements.txt      # Dependencies
├── Dockerfile           # Build configuration
├── install.sh           # Installation script
├── run.sh              # Execution script
├── test.sh             # Test script
└── README.md           # Backend documentation

Required gRPC Methods

At minimum, backends must implement:

Health() - Service health check
LoadModel() - Model loading and initialization
Predict() - Main inference endpoint
Status() - Backend status and metrics

Integration with LocalAI Core

Backends communicate with LocalAI core through gRPC:

Service Discovery: Core discovers available backends
Model Loading: Core requests model loading via LoadModel
Inference: Core sends requests via Predict or specialized endpoints
Streaming: Core handles streaming responses for real-time generation
Monitoring: Core tracks backend health and performance

Performance Optimization

Memory Management

Model Caching: Efficient model loading and caching
Batch Processing: Optimize for multiple concurrent requests
Memory Pinning: GPU memory optimization for CUDA/ROCm

Hardware Utilization

Multi-GPU: Support for tensor parallelism
Mixed Precision: FP16/BF16 for memory efficiency
Kernel Fusion: Optimized CUDA/ROCm kernels

Troubleshooting

Common Issues

GRPC Connection: Verify backend service is running and accessible
Model Loading: Check model paths and dependencies
Hardware Detection: Ensure appropriate drivers and libraries
Memory Issues: Monitor GPU memory usage and model sizes

Contributing

When contributing to the backend system:

Follow Protocol: Implement the exact gRPC interface
Add Tests: Include comprehensive test coverage
Document: Provide clear usage examples
Optimize: Consider performance and resource usage
Validate: Test across different hardware targets

README.md

LocalAI Backend Architecture

Overview

Architecture Components

1. Protocol Definition (backend.proto)

Core Services

Key Message Types

2. Multi-Language Dockerfiles

3. Language-Specific Implementations

Python Backends (python/)

Go Backends (go/)

C++ Backends (cpp/)

Hardware Acceleration Support

CUDA (NVIDIA)

ROCm (AMD)

Intel

Vulkan

Apple Silicon

Backend Registry (index.yaml)

Building Backends

Prerequisites

Build Commands

Build Types

Backend Development

Creating a New Backend

Backend Structure

Required gRPC Methods

Integration with LocalAI Core

Performance Optimization

Memory Management

Hardware Utilization

Troubleshooting

Common Issues

Contributing

1. Protocol Definition (`backend.proto`)

Python Backends (`python/`)

Go Backends (`go/`)

C++ Backends (`cpp/`)

Backend Registry (`index.yaml`)