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👨💻 Here for the devfest.ai event? Join our Discord and check out the details below.
🌟 Contributors and DevFest.AI Participants (Click to expand)
We're excited to welcome new contributors to the Julep project! We've created several "good first issues" to help you get started. Here's how you can contribute:
- Check out our CONTRIBUTING.md file for guidelines on how to contribute.
- Browse our good first issues to find a task that interests you.
- If you have any questions or need help, don't hesitate to reach out on our Discord channel.
Your contributions, big or small, are valuable to us. Let's build something amazing together! 🚀
Exciting news! We're participating in DevFest.AI throughout October 2024! 🗓️
- Contribute to Julep during this event and get a chance to win awesome Julep merch and swag! 🎁
- Join developers from around the world in contributing to AI repositories and participating in amazing events.
- A big thank you to DevFest.AI for organizing this fantastic initiative!
[!TIP] Ready to join the fun? Tweet that you are participating and let's get coding! 🖥️
[!NOTE] Get your API key here.
While we are in beta, you can also reach out on Discord to get rate limits lifted on your API key.
Julep is a platform for creating AI agents that remember past interactions and can perform complex tasks. It offers long-term memory and manages multi-step processes.
Julep enables the creation of multi-step tasks incorporating decision-making, loops, parallel processing, and integration with numerous external tools and APIs.
While many AI applications are limited to simple, linear chains of prompts and API calls with minimal branching, Julep is built to handle more complex scenarios.
It supports:
- Intricate, multi-step processes
- Dynamic decision-making
- Parallel execution
Tip
Imagine you want to build an AI agent that can do more than just answer simple questions—it needs to handle complex tasks, remember past interactions, and maybe even use other tools or APIs. That's where Julep comes in.
Imagine a Research AI agent that can do the following:
- Take a topic,
- Come up with 100 search queries for that topic,
- Perform those web searches in parallel,
- Summarize the results,
- Send the summary to Discord
In Julep, this would be a single task under 80 lines of code and run fully managed all on its own. All of the steps are executed on Julep's own servers and you don't need to lift a finger. Here's a working example:
name: Research Agent
# Optional: Define the input schema for the task
input_schema:
type: object
properties:
topic:
type: string
description: The main topic to research
# Define the tools that the agent can use
tools:
- name: web_search
type: integration
integration:
provider: brave
setup:
api_key: "YOUR_BRAVE_API_KEY"
- name: discord_webhook
type: api_call
api_call:
url: "YOUR_DISCORD_WEBHOOK_URL"
method: POST
headers:
Content-Type: application/json
# Special variables:
# - inputs: for accessing the input to the task
# - outputs: for accessing the output of previous steps
# - _: for accessing the output of the previous step
# Define the main workflow
main:
- prompt:
- role: system
content: >-
You are a research assistant.
Generate 100 diverse search queries related to the topic:
{{inputs[0].topic}}
Write one query per line.
unwrap: true
# Evaluate the search queries using a simple python expression
- evaluate:
search_queries: "_.split('\n')"
# Run the web search in parallel for each query
- over: "_.search_queries"
map:
tool: web_search
arguments:
query: "_"
parallelism: 100
# Collect the results from the web search
- evaluate:
results: "'\n'.join([item.result for item in _])"
# Summarize the results
- prompt:
- role: system
content: >
You are a research summarizer. Create a comprehensive summary of the following research results on the topic {{inputs[0].topic}}.
The summary should be well-structured, informative, and highlight key findings and insights:
{{_.results}}
unwrap: true
# Send the summary to Discord
- tool: discord_webhook
arguments:
content: >
**Research Summary for {{inputs[0].topic}}**
{{_}}Tip
Julep is really useful when you want to build AI agents that can maintain context and state over long-term interactions. It's great for designing complex, multi-step workflows and integrating various tools and APIs directly into your agent's processes.
In this example, Julep will automatically manage parallel executions, retry failed steps, resend API requests, and keep the tasks running reliably until completion.
- 🧠 Persistent AI Agents: Remember context and information over long-term interactions.
- 💾 Stateful Sessions: Keep track of past interactions for personalized responses.
- 🔄 Multi-Step Tasks: Build complex, multi-step processes with loops and decision-making.
- ⏳ Task Management: Handle long-running tasks that can run indefinitely.
- 🛠️ Built-in Tools: Use built-in tools and external APIs in your tasks.
- 🔧 Self-Healing: Julep will automatically retry failed steps, resend messages, and generally keep your tasks running smoothly.
- 📚 RAG: Use Julep's document store to build a system for retrieving and using your own data.
Julep is ideal for applications that require AI use cases beyond simple prompt-response models.
Think of LangChain and Julep as tools with different focuses within the AI development stack.
LangChain is great for creating sequences of prompts and managing interactions with AI models. It has a large ecosystem with lots of pre-built integrations, which makes it convenient if you want to get something up and running quickly. LangChain fits well with simple use cases that involve a linear chain of prompts and API calls.
Julep, on the other hand, is more about building persistent AI agents that can remember things over long-term interactions. It shines when you need complex tasks that involve multiple steps, decision-making, and integration with various tools or APIs directly within the agent's process. It's designed from the ground up to manage persistent sessions and complex tasks.
Use Julep if you imagine building a complex AI assistant that needs to:
- Keep track of user interactions over days or weeks.
- Perform scheduled tasks, like sending daily summaries or monitoring data sources.
- Make decisions based on prior interactions or stored data.
- Interact with multiple external services as part of its task.
Then Julep provides the infrastructure to support all that without you having to build it from scratch.
Julep is a platform that includes a language for describing tasks, a server for running those tasks, and an SDK for interacting with the platform. To build something with Julep, you write a description of the task in YAML, and then run the task in the cloud.
Julep is built for heavy-lifting, multi-step, and long-running tasks and there's no limit to how complex the task can be.
LangChain is a library that includes a few tools and a framework for building linear chains of prompts and tools. To build something with LangChain, you typically write Python code that configures and runs the model chains you want to use.
LangChain might be sufficient and quicker to implement for simple use cases that involve a linear chain of prompts and API calls.
Use LangChain when you need to manage AI model interactions and prompt sequences in a stateless or short-term context.
Choose Julep when you need a robust framework for stateful agents with advanced task capabilities, persistent sessions, and complex task management.
To get started with Julep, install it using npm or pip:
npm install @julep/sdkor
pip install julepNote
Get your API key here.
While we are in beta, you can also reach out on Discord to get rate limits lifted on your API key.
Tip
💻 Are you a show me the code!™ kind of person? We have created a ton of cookbooks for you to get started with. Check out the cookbooks to browse through examples.
💡 There's also lots of ideas that you can build on top of Julep. Check out the list of ideas to get some inspiration.
import yaml
from julep import Julep # or AsyncJulep
client = Julep(api_key="your_julep_api_key")
agent = client.agents.create(
name="Storytelling Agent",
model="gpt-4o",
about="You are a creative storytelling agent that can craft engaging stories and generate comic panels based on ideas.",
)
# 🛠️ Add an image generation tool (DALL·E) to the agent
client.agents.tools.create(
agent_id=agent.id,
name="image_generator",
description="Use this tool to generate images based on descriptions.",
integration={
"provider": "dalle",
"method": "generate_image",
"setup": {
"api_key": "your_openai_api_key",
},
},
)Let's define a multi-step task to create a story and generate a paneled comic strip based on an input idea:
# 📋 Task
# Create a task that takes an idea and creates a story and a 4-panel comic strip
task_yaml = """
name: Story and Comic Creator
description: Create a story based on an idea and generate a 4-panel comic strip illustrating the story.
main:
# Step 1: Generate a story and outline into 4 panels
- prompt:
- role: system
content: You are {{agent.name}}. {{agent.about}}
- role: user
content: >
Based on the idea '{{_.idea}}', write a short story suitable for a 4-panel comic strip.
Provide the story and a numbered list of 4 brief descriptions for each panel illustrating key moments in the story.
unwrap: true
# Step 2: Extract the panel descriptions and story
- evaluate:
story: _.split('1. ')[0].strip()
panels: re.findall(r'\\d+\\.\\s*(.*?)(?=\\d+\\.\\s*|$)', _)
# Step 3: Generate images for each panel using the image generator tool
- foreach:
in: _.panels
do:
tool: image_generator
arguments:
description: _
# Step 4: Generate a catchy title for the story
- prompt:
- role: system
content: You are {{agent.name}}. {{agent.about}}
- role: user
content: >
Based on the story below, generate a catchy title.
Story: {{outputs[1].story}}
unwrap: true
# Step 5: Return the story, the generated images, and the title
- return:
title: outputs[3]
story: outputs[1].story
comic_panels: "[output.image.url for output in outputs[2]]"
"""
task = client.tasks.create(
agent_id=agent.id,
**yaml.safe_load(task_yaml)
)# 🚀 Execute the task with an input idea
execution = client.executions.create(
task_id=task.id,
input={"idea": "A cat who learns to fly"}
)
# 🎉 Watch as the story and comic panels are generated
for transition in client.executions.transitions.stream(execution_id=execution.id):
print(transition)
# 📦 Once the execution is finished, retrieve the results
result = client.executions.get(execution_id=execution.id)Start an interactive chat session with the agent:
session = client.sessions.create(agent_id=agent.id)
# 💬 Send messages to the agent
while (message := input("Enter a message: ")) != "quit":
response = client.sessions.chat(
session_id=session.id,
message=message,
)
print(response)Tip
You can find the full python example here.
import { Julep } from '@julep/sdk';
import yaml from 'js-yaml';
const client = new Julep({ apiKey: 'your_julep_api_key' });
async function createAgent() {
const agent = await client.agents.create({
name: "Storytelling Agent",
model: "gpt-4",
about: "You are a creative storytelling agent that can craft engaging stories and generate comic panels based on ideas.",
});
// 🛠️ Add an image generation tool (DALL·E) to the agent
await client.agents.tools.create(agent.id, {
name: "image_generator",
description: "Use this tool to generate images based on descriptions.",
integration: {
provider: "dalle",
method: "generate_image",
setup: {
api_key: "your_openai_api_key",
},
},
});
return agent;
}const taskYaml = `
name: Story and Comic Creator
description: Create a story based on an idea and generate a 4-panel comic strip illustrating the story.
main:
# Step 1: Generate a story and outline into 4 panels
- prompt:
- role: system
content: You are {{agent.name}}. {{agent.about}}
- role: user
content: >
Based on the idea '{{_.idea}}', write a short story suitable for a 4-panel comic strip.
Provide the story and a numbered list of 4 brief descriptions for each panel illustrating key moments in the story.
unwrap: true
# Step 2: Extract the panel descriptions and story
- evaluate:
story: _.split('1. ')[0].trim()
panels: _.match(/\\d+\\.\\s*(.*?)(?=\\d+\\.\\s*|$)/g)
# Step 3: Generate images for each panel using the image generator tool
- foreach:
in: _.panels
do:
tool: image_generator
arguments:
description: _
# Step 4: Generate a catchy title for the story
- prompt:
- role: system
content: You are {{agent.name}}. {{agent.about}}
- role: user
content: >
Based on the story below, generate a catchy title.
Story: {{outputs[1].story}}
unwrap: true
# Step 5: Return the story, the generated images, and the title
- return:
title: outputs[3]
story: outputs[1].story
comic_panels: outputs[2].map(output => output.image.url)
`;
async function createTask(agent) {
const task = await client.tasks.create(agent.id, yaml.load(taskYaml));
return task;
}async function executeTask(task) {
const execution = await client.executions.create(task.id, {
input: { idea: "A cat who learns to fly" }
});
// 🎉 Watch as the story and comic panels are generated
for await (const transition of client.executions.transitions.stream(execution.id)) {
console.log(transition);
}
// 📦 Once the execution is finished, retrieve the results
const result = await client.executions.get(execution.id);
return result;
}async function chatWithAgent(agent) {
const session = await client.sessions.create({ agent_id: agent.id });
// 💬 Send messages to the agent
const rl = readline.createInterface({
input: process.stdin,
output: process.stdout
});
const chat = async () => {
rl.question("Enter a message (or 'quit' to exit): ", async (message) => {
if (message.toLowerCase() === 'quit') {
rl.close();
return;
}
const response = await client.sessions.chat(session.id, { message });
console.log(response);
chat();
});
};
chat();
}
// Run the example
async function runExample() {
const agent = await createAgent();
const task = await createTask(agent);
const result = await executeTask(task);
console.log("Task Result:", result);
await chatWithAgent(agent);
}
runExample().catch(console.error);Tip
You can find the full Node.js example here.
Julep is made up of the following components:
- Julep Platform: The Julep platform is a cloud service that runs your workflows. It includes a language for describing workflows, a server for running those workflows, and an SDK for interacting with the platform.
- Julep SDKs: Julep SDKs are a set of libraries for building workflows. There are SDKs for Python and JavaScript, with more on the way.
- Julep API: The Julep API is a RESTful API that you can use to interact with the Julep platform.
Think of Julep as a platform that combines both client-side and server-side components to help you build advanced AI agents. Here's how to visualize it:
-
Your Application Code:
- You use the Julep SDK in your application to define agents, tasks, and workflows.
- The SDK provides functions and classes that make it easy to set up and manage these components.
-
Julep Backend Service:
- The SDK communicates with the Julep backend over the network.
- The backend handles execution of tasks, maintains session state, stores documents, and orchestrates workflows.
-
Integration with Tools and APIs:
- Within your workflows, you can integrate external tools and services.
- The backend facilitates these integrations, so your agents can, for example, perform web searches, access databases, or call third-party APIs.
In simpler terms:
- Julep is a platform for building stateful AI agents.
- You use the SDK (like a toolkit) in your code to define what your agents do.
- The backend service (which you can think of as the engine) runs these definitions, manages state, and handles complexity.
Julep is built on several key technical components that work together to create powerful AI workflows:
graph TD
User[User] ==> Session[Session]
Session --> Agent[Agent]
Agent --> Tasks[Tasks]
Agent --> LLM[Large Language Model]
Tasks --> Tools[Tools]
Agent --> Documents[Documents]
Documents --> VectorDB[Vector Database]
Tasks --> Executions[Executions]
classDef client fill:#9ff,stroke:#333,stroke-width:1px;
class User client;
classDef core fill:#f9f,stroke:#333,stroke-width:2px;
class Agent,Tasks,Session core;
- Agents: AI-powered entities backed by large language models (LLMs) that execute tasks and interact with users.
- Users: Entities that interact with agents through sessions.
- Sessions: Stateful interactions between agents and users, maintaining context across multiple exchanges.
- Tasks: Multi-step, programmatic workflows that agents can execute, including various types of steps like prompts, tool calls, and conditional logic.
- Tools: Integrations that extend an agent's capabilities, including user-defined functions, system tools, or third-party API integrations.
- Documents: Text or data objects associated with agents or users, vectorized and stored for semantic search and retrieval.
- Executions: Instances of tasks that have been initiated with specific inputs, with their own lifecycle and state machine.
For a more detailed explanation of these concepts and their interactions, please refer to our Concepts Documentation.
Tasks are the core of Julep's workflow system. They allow you to define complex, multi-step AI workflows that your agents can execute. Here's a brief overview of task components:
- Name and Description: Each task has a unique name and description for easy identification.
- Main Steps: The core of a task, defining the sequence of actions to be performed.
- Tools: Optional integrations that extend the capabilities of your agent during task execution.
Tasks in Julep can include various types of steps, allowing you to create complex and powerful workflows. Here's an overview of the available step types, organized by category:
-
Prompt: Send a message to the AI model and receive a response.
- prompt: "Analyze the following data: {{data}}"
-
Tool Call: Execute an integrated tool or API.
- tool: web_search arguments: query: "Latest AI developments"
-
Evaluate: Perform calculations or manipulate data.
- evaluate: average_score: "sum(scores) / len(scores)"
-
Wait for Input: Pause workflow until input is received.
- wait_for_input: info: message: "Please provide additional information."
-
Log: Log a specified value or message.
- log: "Processing completed for item {{item_id}}"
-
Get: Retrieve a value from a key-value store.
- get: "user_preference"
-
Set: Assign a value to a key in a key-value store.
- set: user_preference: "dark_mode"
-
Foreach: Iterate over a collection and perform steps for each item.
- foreach: in: "data_list" do: - log: "Processing item {{_}}"
-
Map-Reduce: Map over a collection and reduce the results.
- map_reduce: over: "numbers" map: - evaluate: squared: "_ ** 2" reduce: "sum(results)"
-
Parallel: Run multiple steps in parallel.
- parallel: - tool: web_search arguments: query: "AI news" - tool: weather_check arguments: location: "New York"
-
If-Else: Conditional execution of steps.
- if: "score > 0.8" then: - log: "High score achieved" else: - log: "Score needs improvement"
-
Switch: Execute steps based on multiple conditions.
- switch: - case: "category == 'A'" then: - log: "Category A processing" - case: "category == 'B'" then: - log: "Category B processing" - case: "_" # Default case then: - log: "Unknown category"
-
Sleep: Pause the workflow for a specified duration.
- sleep: seconds: 30
-
Return: Return a value from the workflow.
- return: result: "Task completed successfully"
-
Yield: Run a subworkflow and await its completion.
- yield: workflow: "data_processing_subflow" arguments: input_data: "{{raw_data}}"
-
Error: Handle errors by specifying an error message.
- error: "Invalid input provided"
Each step type serves a specific purpose in building sophisticated AI workflows. This categorization helps in understanding the various control flows and operations available in Julep tasks.
Julep offers a range of advanced features to enhance your AI workflows:
Extend your agent's capabilities by integrating external tools and APIs:
client.agents.tools.create(
agent_id=agent.id,
name="web_search",
description="Search the web for information.",
integration={
"provider": "brave",
"method": "search",
"setup": {"api_key": "your_brave_api_key"},
},
)Julep provides robust session management for persistent interactions:
session = client.sessions.create(
agent_id=agent.id,
user_id=user.id,
context_overflow="adaptive"
)
# Continue conversation in the same session
response = client.sessions.chat(
session_id=session.id,
messages=[
{
"role": "user",
"content": "Follow up on the previous conversation."
}
]
)Easily manage and search through documents for your agents:
# Upload a document
document = client.agents.docs.create(
title="AI advancements",
content="AI is changing the world...",
metadata={"category": "research_paper"}
)
# Search documents
results = client.agents.docs.search(
text="AI advancements",
metadata_filter={"category": "research_paper"}
)For more advanced features and detailed usage, please refer to our Advanced Features Documentation.
Julep supports various integrations that extend the capabilities of your AI agents. Here's a list of available integrations and their supported arguments:
setup:
api_key: string # The API key for Brave Search
arguments:
query: string # The search query for searching with Brave
output:
result: string # The result of the Brave Searchsetup:
api_key: string # The API key for BrowserBase
project_id: string # The project ID for BrowserBase
session_id: string # (Optional) The session ID for BrowserBase
arguments:
urls: list[string] # The URLs for loading with BrowserBase
output:
documents: list # The documents loaded from the URLssetup:
host: string # The host of the email server
port: integer # The port of the email server
user: string # The username of the email server
password: string # The password of the email server
arguments:
to: string # The email address to send the email to
from: string # The email address to send the email from
subject: string # The subject of the email
body: string # The body of the email
output:
success: boolean # Whether the email was sent successfullysetup:
spider_api_key: string # The API key for Spider
arguments:
url: string # The URL for which to fetch data
mode: string # The type of crawlers (default: "scrape")
params: dict # (Optional) The parameters for the Spider API
output:
documents: list # The documents returned from the spidersetup:
openweathermap_api_key: string # The API key for OpenWeatherMap
arguments:
location: string # The location for which to fetch weather data
output:
result: string # The weather data for the specified locationarguments:
query: string # The search query string
load_max_docs: integer # Maximum number of documents to load (default: 2)
output:
documents: list # The documents returned from the Wikipedia searchThese integrations can be used within your tasks to extend the capabilities of your AI agents. For more detailed information on how to use these integrations in your workflows, please refer to our Integrations Documentation.
Explore our comprehensive API documentation to learn more about agents, tasks, and executions: