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01fa12e0de
* feat(nemo): enable word-level timestamps for ASR models
The nemo backend ignored timestamp_granularities and always returned a
single segment with start=0 end=0, making word-level timestamps
impossible to obtain even though the NeMo models (parakeet-tdt, etc.)
fully support them.
Changes:
- Add _get_stride_seconds() to compute frame duration from the model's
preprocessor window_stride and encoder subsampling_factor.
- Add _build_segments_with_words() that extracts word offsets from the
NeMo Hypothesis.timestamp dict and converts frame indices to
nanosecond timestamps.
- Support 'word' granularity (one segment per word) and 'segment'
granularity (merge at time-gap boundaries using a dynamic threshold).
- Populate TranscriptSegment.words with TranscriptWord entries so
callers get both segment-level and word-level timing.
- Only request timestamps from NeMo when the caller actually asks for
them (timestamp_granularities is non-empty), keeping the fast path
unchanged for callers that don't need timestamps.
Tested with nvidia/parakeet-tdt-0.6b-v3 on the JFK "ask not" clip:
curl -X POST /v1/audio/transcriptions \
-F file=@jfk.wav -F model=nemo-parakeet-tdt-0.6b \
-F 'timestamp_granularities[]=word' -F response_format=verbose_json
→ each word has correct start/end times in seconds.
Signed-off-by: fqscfqj <fqscfqj@outlook.com>
* fix(nemo): address Copilot review feedback
- Narrow exception handling in _get_stride_seconds to catch only
AttributeError, KeyError, TypeError instead of bare Exception, and
emit a warning when falling back to the hardcoded stride.
- Remove explicit return_hypotheses=False when timestamps are requested;
timestamps=True already forces NeMo to return Hypothesis objects.
- Add a warning when NeMo does not return Hypothesis objects despite
timestamps being requested.
Signed-off-by: fqscfqj <fqscfqj@outlook.com>
---------
Signed-off-by: fqscfqj <fqscfqj@outlook.com>
Python Backends for LocalAI
This directory contains Python-based AI backends for LocalAI, providing support for various AI models and hardware acceleration targets.
Overview
The Python backends use a unified build system based on libbackend.sh that provides:
- Automatic virtual environment management with support for both
uvandpip - Hardware-specific dependency installation (CPU, CUDA, Intel, MLX, etc.)
- Portable Python support for standalone deployments
- Consistent backend execution across different environments
Available Backends
Core AI Models
- transformers - Hugging Face Transformers framework (PyTorch-based)
- vllm - High-performance LLM inference engine
- mlx - Apple Silicon optimized ML framework
Audio & Speech
- coqui - Coqui TTS models
- faster-whisper - Fast Whisper speech recognition
- kitten-tts - Lightweight TTS
- mlx-audio - Apple Silicon audio processing
- chatterbox - TTS model
- kokoro - TTS models
Computer Vision
- diffusers - Stable Diffusion and image generation
- mlx-vlm - Vision-language models for Apple Silicon
- rfdetr - Object detection models
Specialized
- rerankers - Text reranking models
Quick Start
Prerequisites
- Python 3.10+ (default: 3.10.18)
uvpackage manager (recommended) orpip- Appropriate hardware drivers for your target (CUDA, Intel, etc.)
Installation
Each backend can be installed individually:
# Navigate to a specific backend
cd backend/python/transformers
# Install dependencies
make transformers
# or
bash install.sh
# Run the backend
make run
# or
bash run.sh
Using the Unified Build System
The libbackend.sh script provides consistent commands across all backends:
# Source the library in your backend script
source $(dirname $0)/../common/libbackend.sh
# Install requirements (automatically handles hardware detection)
installRequirements
# Start the backend server
startBackend $@
# Run tests
runUnittests
Hardware Targets
The build system automatically detects and configures for different hardware:
- CPU - Standard CPU-only builds
- CUDA - NVIDIA GPU acceleration (supports CUDA 12/13)
- Intel - Intel XPU/GPU optimization
- MLX - Apple Silicon (M1/M2/M3) optimization
- HIP - AMD GPU acceleration
Target-Specific Requirements
Backends can specify hardware-specific dependencies:
requirements.txt- Base requirementsrequirements-cpu.txt- CPU-specific packagesrequirements-cublas12.txt- CUDA 12 packagesrequirements-cublas13.txt- CUDA 13 packagesrequirements-intel.txt- Intel-optimized packagesrequirements-mps.txt- Apple Silicon packages
Configuration Options
Environment Variables
PYTHON_VERSION- Python version (default: 3.10)PYTHON_PATCH- Python patch version (default: 18)BUILD_TYPE- Force specific build targetUSE_PIP- Use pip instead of uv (default: false)PORTABLE_PYTHON- Enable portable Python buildsLIMIT_TARGETS- Restrict backend to specific targets
Example: CUDA 12 Only Backend
# In your backend script
LIMIT_TARGETS="cublas12"
source $(dirname $0)/../common/libbackend.sh
Example: Intel-Optimized Backend
# In your backend script
LIMIT_TARGETS="intel"
source $(dirname $0)/../common/libbackend.sh
Development
Adding a New Backend
- Create a new directory in
backend/python/ - Copy the template structure from
common/template/ - Implement your
backend.pywith the required gRPC interface - Add appropriate requirements files for your target hardware
- Use
libbackend.shfor consistent build and execution
Testing
# Run backend tests
make test
# or
bash test.sh
Building
# Install dependencies
make <backend-name>
# Clean build artifacts
make clean
Architecture
Each backend follows a consistent structure:
backend-name/
├── backend.py # Main backend implementation
├── requirements.txt # Base dependencies
├── requirements-*.txt # Hardware-specific dependencies
├── install.sh # Installation script
├── run.sh # Execution script
├── test.sh # Test script
├── Makefile # Build targets
└── test.py # Unit tests
Troubleshooting
Common Issues
- Missing dependencies: Ensure all requirements files are properly configured
- Hardware detection: Check that
BUILD_TYPEmatches your system - Python version: Verify Python 3.10+ is available
- Virtual environment: Use
ensureVenvto create/activate environments
Contributing
When adding new backends or modifying existing ones:
- Follow the established directory structure
- Use
libbackend.shfor consistent behavior - Include appropriate requirements files for all target hardware
- Add comprehensive tests
- Update this README if adding new backend types