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LocalAI [bot] 294170d3ed feat(backend): add depth-anything (Depth Anything 3) C++/ggml backend + gallery (#10352) 
* feat(backend): add depth-anything (Depth Anything 3) C++/ggml backend + gallery

Mirrors the locate-anything-cpp backend to register a new depth-anything
backend that wraps the Depth Anything 3 ggml port (depth-anything.cpp) via
purego (cgo-less, no Python at inference).

- backend/go/depth-anything-cpp/: gRPC backend (Load + Predict + GenerateImage),
  purego binding to the da_capi_* C ABI, CMake/Makefile/run/package/test scripts
  building depth-anything.cpp's DA_SHARED static .so per CPU variant.
- backend/index.yaml: depth-anything backend meta + all hardware-variant
  capability entries (cpu/cuda12/cuda13/intel-sycl-f32+f16/vulkan/nvidia-l4t).
- gallery/index.yaml: 8 Depth Anything 3 GGUF models (base q4_k/q8_0/f16/f32,
  small, large, giant, mono-large).
- .github/backend-matrix.yml: one build entry per hardware variant.

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* feat(depth): typed Depth RPC + REST endpoint exposing full DA3 data

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* fix(depth): pin depth-anything.cpp to e0b6814 (ABI 3 dense C-API)

The Depth RPC handler calls da_capi_depth_dense / da_capi_points (C-API ABI 3);
pin the native build to the commit that exports them.

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* fix(depth): pin depth-anything.cpp to v0.1.0 release (b515c31)

Repoint the native version from the now-orphaned e0b6814 to the
b515c31 release commit, kept alive by the upstream v0.1.0 tag.
C-API is unchanged (da_capi_abi_version == 3).

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* fix(depth): wire depth-anything-cpp into build, CI bump, and importer

The backend dir, gallery index, and CI build-matrix were present but the
backend was never wired into the integration points that adding-backends.md
requires:

- root Makefile: add to .NOTPARALLEL, the test-extra chain, a BACKEND_*
  definition, the docker-build target eval, and docker-build-backends
  (mirrors parakeet-cpp; the backend's own Makefile already documented that
  its `test` target is driven by test-extra).
- bump_deps.yaml: register the DEPTHANYTHING_VERSION pin so the daily
  auto-bump bot tracks mudler/depth-anything.cpp master (it cannot see an
  unregistered Makefile pin).
- import form: add a preference-only KnownBackend entry so depth-anything is
  selectable at /import-model (mirrors sam3-cpp; no reliable GGUF auto-detect
  signal, so pref-only per the doc's default).

changed-backends.js needs no entry: the generic golang suffix branch already
resolves backend/go/depth-anything-cpp/.

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* feat(depth): auto-detect importer for depth-anything GGUFs

Replace the preference-only entry with a real auto-detect importer
(mirrors parakeet-cpp / locate-anything):

- DepthAnythingImporter matches a .gguf whose name carries a
  depth-anything token (depth-anything-<size>-<quant>.gguf), so
  /import-model recognises mudler/depth-anything.cpp-gguf repos and direct
  GGUF URLs without an explicit backend preference. preferences.backend=
  "depth-anything" still forces it.
- Registered before LlamaCPPImporter so its GGUF bundles aren't claimed by
  the generic .gguf importer; the narrow name match means it cannot claim
  arbitrary llama GGUFs or the upstream safetensors PyTorch repos.
- Multi-quant repos pick the smallest quant by default (q4_k -> ... -> f32,
  depth stays >0.998 corr even at q4_k); quantizations preference overrides.
- Drops the now-redundant knownPrefOnlyBackends entry (importer-backed
  backends are not listed there, matching parakeet-cpp).
- Table-driven Ginkgo test covers detection, negative cases (llama GGUF,
  upstream safetensors), default/override/fallback quant pick, and direct
  URL import. 10/10 specs pass.

Assisted-by: Claude:claude-opus-4-8
Signed-off-by: Ettore Di Giacinto <mudler@localai.io>

* fix(depth): check conn.Close error in grpc Depth client (errcheck)

The new Depth() client method used a bare `defer conn.Close()`. golangci-lint
runs with new-from-merge-base, so although the 39 sibling methods use the same
bare form (grandfathered), the newly added line trips errcheck. Drop the result
explicitly to satisfy the linter.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:claude-opus-4-8

* fix(depth): bump depth-anything.cpp to v0.1.1 (embeddable CMake)

v0.1.0 (b515c31) used ${CMAKE_SOURCE_DIR} for its include dirs, which
points at the parent project when built via add_subdirectory() as this
backend does, so the container build failed with missing stb_image.h /
da_gguf_keys.h. v0.1.1 (2d42897) switches to project-relative paths.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:claude-opus-4-8

* fix(depth): resolve gosec findings in the backend wrapper

The code-scanning gate flagged three new failure-level alerts in
godepthanythingcpp.go (gosec runs with -no-fail; GitHub gates on new alerts):

- G301: export dirs were created with 0o755. Tighten to 0o750 (no world
  access needed for backend-written export output).
- G304: writeDepthPNG creates req.GetDst(). That path is chosen by the
  LocalAI core as the intended output destination (same pattern every
  image backend uses), not attacker input, so annotate with #nosec G304
  and document why.

The remaining G103 "audit unsafe" notes on the unsafe.Slice C-buffer copies
are warning-level (the same purego interop whisper/parakeet use) and do not
gate the check, per the supertonic exclusion precedent in secscan.yaml.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:claude-opus-4-8

* fix(depth): bump depth-anything.cpp to v0.1.2 (CUDA cross-build arch)

v0.1.1 forced CMAKE_CUDA_ARCHITECTURES=native, which breaks the GPU-less
l4t/cublas CI builds (nvcc "Unsupported gpu architecture 'compute_'" on
CMake 3.22). v0.1.2 (442eea4) drops the override and lets ggml pick its
default cross-build arch list.

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Assisted-by: Claude:claude-opus-4-8

---------

Signed-off-by: Ettore Di Giacinto <mudler@localai.io>
Co-authored-by: Ettore Di Giacinto <mudler@localai.io>
2026-06-16 16:28:28 +02:00
..
cpp
feat: generic chat_template_kwargs (model config + per-request metadata) (#10359)
2026-06-16 12:16:34 +02:00
go
feat(backend): add depth-anything (Depth Anything 3) C++/ggml backend + gallery (#10352)
2026-06-16 16:28:28 +02:00
python
chore(deps): bump grpcio from 1.81.0 to 1.81.1 in /backend/python/vllm (#10347)
2026-06-15 22:57:38 +02:00
rust/kokoros
Fix kokoros backend build break from Backend trait drift (#9972)
2026-05-24 22:39:15 +02:00
backend.proto
feat(backend): add depth-anything (Depth Anything 3) C++/ggml backend + gallery (#10352)
2026-06-16 16:28:28 +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(crispasr): bundle espeak-ng and add piper TTS voices to the gallery (#10283)
2026-06-12 23:10:30 +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.python
fix(cuda): install cuda-nvrtc-dev alongside the other CUDA dev packages (#10257)
2026-06-11 23:57:00 +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
feat(backend): add depth-anything (Depth Anything 3) C++/ggml backend + gallery (#10352)
2026-06-16 16:28:28 +02:00
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

  1. Choose Language: Select Python, Go, or C++ based on requirements
  2. Implement Interface: Implement the gRPC service defined in backend.proto
  3. Add Dependencies: Create appropriate requirements files
  4. Configure Build: Set up Dockerfile and build scripts
  5. Register Backend: Add entry to index.yaml
  6. 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:

  1. Service Discovery: Core discovers available backends
  2. Model Loading: Core requests model loading via LoadModel
  3. Inference: Core sends requests via Predict or specialized endpoints
  4. Streaming: Core handles streaming responses for real-time generation
  5. 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

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

Contributing

When contributing to the backend system:

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