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🦙 llama-agents
🤖
llama-agents
is an async-first framework for building, iterating, and productionizing multi-agent systems, including multi-agent communication, distributed tool execution, human-in-the-loop, and more!
In llama-agents
, each agent is seen as a service
, endlessly processing incoming tasks. Each agent pulls and publishes messages from a message queue
.
At the top of a llama-agents
system is the control plane
. The control plane keeps track of ongoing tasks, which services are in the network, and also decides which service should handle the next step of a task using an orchestrator
.
The overall system layout is pictured below.
Installation
llama-agents
can be installed with pip, and relies mainly on llama-index-core
:
pip install llama-agents
Getting Started
The quickest way to get started is with a an existing agent (or agents) and wrapping into launcher.
The example below shows a trivial example with two agents from llama-index
.
First, lets setup some agents and initial components for our llama-agents
system:
from llama_agents import (
AgentService,
AgentOrchestrator,
ControlPlaneServer,
SimpleMessageQueue,
)
from llama_index.core.agent import FunctionCallingAgentWorker
from llama_index.core.tools import FunctionTool
from llama_index.llms.openai import OpenAI
# create an agent
def get_the_secret_fact() -> str:
"""Returns the secret fact."""
return "The secret fact is: A baby llama is called a 'Cria'."
tool = FunctionTool.from_defaults(fn=get_the_secret_fact)
worker1 = FunctionCallingAgentWorker.from_tools([tool], llm=OpenAI())
worker2 = FunctionCallingAgentWorker.from_tools([], llm=OpenAI())
agent1 = worker1.as_agent()
agent2 = worker2.as_agent()
# create our multi-agent framework components
message_queue = SimpleMessageQueue(port=8000)
control_plane = ControlPlaneServer(
message_queue=message_queue,
orchestrator=AgentOrchestrator(llm=OpenAI()),
port=8001,
)
agent_server_1 = AgentService(
agent=agent1,
message_queue=message_queue,
description="Useful for getting the secret fact.",
service_name="secret_fact_agent",
port=8002,
)
agent_server_2 = AgentService(
agent=agent2,
message_queue=message_queue,
description="Useful for getting random dumb facts.",
service_name="dumb_fact_agent",
port=8003,
)
Local / Notebook Flow
Next, when working in a notebook or for faster iteration, we can launch our llama-agents
system in a single-run setting, where one message is propagated through the network and returned.
from llama_agents import LocalLauncher
# launch it
launcher = LocalLauncher(
[agent_server_1, agent_server_2],
control_plane,
message_queue,
)
result = launcher.launch_single("What is the secret fact?")
print(f"Result: {result}")
As with any agentic system, its important to consider how reliable the LLM is that you are using. In general, APIs that support function calling (OpenAI, Anthropic, Mistral, etc.) are the most reliable.
Server Flow
Once you are happy with your system, we can launch all our services as independent processes, allowing for higher throughput and scalability.
By default, all task results are published to a specific "human" queue, so we also define a consumer to handle this result as it comes in. (In the future, this final queue will be configurable!)
To test this, you can use the server launcher in a script:
from llama_agents import ServerLauncher, CallableMessageConsumer
# Additional human consumer
def handle_result(message) -> None:
print(f"Got result:", message.data)
human_consumer = CallableMessageConsumer(
handler=handle_result, message_type="human"
)
# Define Launcher
launcher = ServerLauncher(
[agent_server_1, agent_server_2],
control_plane,
message_queue,
additional_consumers=[human_consumer],
)
# Launch it!
launcher.launch_servers()
Now, since everything is a server, you need API requests to interact with it. The easiest way is to use our client and the control plane URL:
from llama_agents import LlamaAgentsClient, AsyncLlamaAgentsClient
client = LlamaAgentsClient("<control plane URL>") # i.e. http://127.0.0.1:8001
task_id = client.create_task("What is the secret fact?")
# <Wait a few seconds>
# returns TaskResult or None if not finished
result = client.get_task_result(task_id)
Rather than using a client or raw curl
requests, you can also use a built-in CLI tool to monitor and interact with your services.
In another terminal, you can run:
llama-agents monitor --control-plane-url http://127.0.0.1:8000
Examples
You can find a host of examples in our examples folder:
- Agentic RAG + Tool Service
- Agentic Orchestrator w/ Local Launcher
- Agentic Orchestrator w/ Server Launcher
- Agentic Orchestrator w/ Human in the Loop
- Agentic Orchestrator w/ Tool Service
- Pipeline Orchestrator w/ Local Launcher
- Pipeline Orchestrator w/ Human in the Loop
- Pipeline Orchestrator w/ Agent Server As Tool
- Pipeline Orchestrator w/ Query Rewrite RAG
Components of a llama-agents
System
In llama-agents
, there are several key components that make up the overall system
message queue
-- the message queue acts as a queue for all services and thecontrol plane
. It has methods for publishing methods to named queues, and delegates messages to consumers.control plane
-- the control plane is a the central gateway to thellama-agents
system. It keeps track of current tasks, as well as the services that are registered to the system. It also holds theorchestrator
.orchestrator
-- The module handles incoming tasks and decides what service to send it to, as well as how to handle results from services. An orchestrator can be agentic (with an LLM making decisions), explicit (with a query pipeline defining a flow), a mix of both, or something completely custom.services
-- Services are where the actual work happens. A services accepts some incoming task and context, processes it, and publishes a result- A
tool service
is a special service used to off-load the compution of agent tools. Agents can instead be equipped with a meta-tool that calls the tool service.
- A
Low-Level API in llama-agents
So far, you've seen how to define components and how to launch them. However in most production use-cases, you will need to launch services manually, as well as define your own consumers!
So, here is a quick guide on exactly that!
Launching
First, you will want to launch everything. This can be done in a single script, or you can launch things with multiple scripts per service, or on different machines, or even in docker images.
In this example, we will assume launching from a single script.
import asyncio
# launch the message queue
queue_task = asyncio.create_task(message_queue.launch_server())
# wait for the message queue to be ready
await asyncio.sleep(1)
# launch the control plane
control_plane_task = asyncio.create_task(self.control_plane.launch_server())
# wait for the control plane to be ready
await asyncio.sleep(1)
# register the control plane as a consumer
await self.message_queue.client.register_consumer(
self.control_plane.as_consumer(remote=True)
)
# register the services
control_plane_url = (
f"http://{self.control_plane.host}:{self.control_plane.port}"
)
service_tasks = []
for service in self.services:
# first launch the service
service_tasks.append(asyncio.create_task(service.launch_server()))
# register the service to the message queue
await service.register_to_message_queue()
# register the service to the control plane
await service.register_to_control_plane(control_plane_url)
With that done, you may want to define a consumer for the results of tasks.
By default, the results of tasks get published to a human
message queue.
from llama_agents import (
CallableMessageConsumer,
RemoteMessageConsumer,
QueueMessage,
)
def handle_result(message: QueueMessage) -> None:
print(message.data)
human_consumer = CallableMessageConsumer(
handler=handle_result, message_type="human"
)
message_queue.register_consumer(human_consumer)
# or, you can send the message to any URL
# human_consumer = RemoteMessageConsumer(url="some destination url")
# message_queue.register_consumer(human_consumer)
Or, if you don't want to define a consumer, you can just use the monitor
to observe your system results
llama-agents monitor --control-plane-url http://127.0.0.1:8000
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