The Python API of LiteRT-LM for Linux and macOS (Windows support is upcoming). Features like multi-modality and tools use are supported, while GPU acceleration is upcoming.
Introduction
Here is a sample terminal chat app built with the Python API:
import litert_lm
litert_lm.set_min_log_severity(litert_lm.LogSeverity.ERROR) # Hide log for TUI app
with litert_lm.Engine("path/to/model.litertlm") as engine:
with engine.create_conversation() as conversation:
while True:
user_input = input("\n>>> ")
for chunk in conversation.send_message_async(user_input):
print(chunk["content"][0]["text"], end="", flush=True)
Getting Started
LiteRT-LM is available as a Python library. You can install the nightly version from PyPI:
# Using pip
pip install litert-lm-api-nightly
# Using uv
uv pip install litert-lm-api-nightly
1. Initialize the Engine
The Engine is the entry point to the API. It handles model loading and resource management. Using it as a context manager (with the with statement) ensures that native resources are released promptly.
Note: Initializing the engine can take several seconds to load the model.
import litert_lm
# Initialize with the model path and optionally specify the backend.
# backend can be Backend.CPU (default). GPU support is upcoming.
with litert_lm.Engine(
"path/to/your/model.litertlm",
backend=litert_lm.Backend.CPU,
# Optional: Pick a writable dir for caching compiled artifacts.
# cache_dir="/tmp/litert-lm-cache"
) as engine:
# ... Use the engine to create a conversation ...
pass
2. Create a Conversation
A Conversation manages the state and history of your interaction with the
model.
# Optional: Configure system instruction and initial messages
messages = [
{"role": "system", "content": [{"type": "text", "text": "You are a helpful assistant."}]},
]
# Create the conversation
with engine.create_conversation(messages=messages) as conversation:
# ... Interact with the conversation ...
pass
3. Sending Messages
You can send messages synchronously or asynchronously (streaming).
Synchronous Example:
# Simple string input
response = conversation.send_message("What is the capital of France?")
print(response["content"][0]["text"])
# Or with full message structure
# response = conversation.send_message({"role": "user", "content": "..."})
Asynchronous (Streaming) Example:
# sendMessageAsync returns an iterator of response chunks
stream = conversation.send_message_async("Tell me a long story.")
for chunk in stream:
# Chunks are dictionaries containing pieces of the response
for item in chunk.get("content", []):
if item.get("type") == "text":
print(item["text"], end="", flush=True)
print()
4. Multi-Modality
# Initialize with vision and/or audio backends if needed
with litert_lm.Engine(
"path/to/multimodal_model.litertlm",
audio_backend=litert_lm.Backend.CPU,
# vision_backend=litert_lm.Backend.CPU, (GPU support is upcoming)
) as engine:
with engine.create_conversation() as conversation:
user_message = {
"role": "user",
"content": [
{"type": "audio", "path": "/path/to/audio.wav"},
{"type": "text", "text": "Describe this audio."},
],
}
response = conversation.send_message(user_message)
print(response["content"][0]["text"])
5. Defining and Using Tools
You can define Python functions as tools that the model can call automatically.
def add_numbers(a: float, b: float) -> float:
"""Adds two numbers.
Args:
a: The first number.
b: The second number.
"""
return a + b
# Register the tool in the conversation
tools = [add_numbers]
with engine.create_conversation(tools=tools) as conversation:
# The model will call add_numbers automatically if it needs to sum values
response = conversation.send_message("What is 123 + 456?")
print(response["content"][0]["text"])
LiteRT-LM uses the function's docstring and type hints to generate the tool schema for the model.