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<div align="center">
<a href="https://swarms.world">
<img src="https://github.com/kyegomez/swarms/blob/master/images/swarmslogobanner.png" style="margin: 15px; max-width: 700px" width="100%" alt="Logo">
</a>
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<p align="center">
<em>The Enterprise-Grade Production-Ready Multi-Agent Orchestration Framework </em>
</p>
<p align="center">
<a href="https://pypi.org/project/swarms/" target="_blank">
<img alt="Python" src="https://img.shields.io/badge/python-3670A0?style=for-the-badge&logo=python&logoColor=ffdd54" />
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<a href="https://twitter.com/swarms_corp/">🐦 Twitter</a>
<span>&nbsp;&nbsp;&nbsp;&nbsp;</span>
<a href="https://discord.gg/jM3Z6M9uMq">📢 Discord</a>
<span>&nbsp;&nbsp;&nbsp;&nbsp;</span>
<a href="https://swarms.ai">Swarms Website</a>
<span>&nbsp;&nbsp;&nbsp;&nbsp;</span>
<a href="https://docs.swarms.world">📙 Documentation</a>
<span>&nbsp;&nbsp;&nbsp;&nbsp;</span>
<a href="https://swarms.world"> Swarms Marketplace</a>
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## ✨ Features
Swarms delivers a comprehensive, enterprise-grade multi-agent infrastructure platform designed for production-scale deployments and seamless integration with existing systems. [Learn more about the swarms feature set here](https://docs.swarms.world/en/latest/swarms/features/)
| Category | Features | Benefits |
|----------|----------|-----------|
| 🏢 **Enterprise Architecture** | • Production-Ready Infrastructure<br>• High Availability Systems<br>• Modular Microservices Design<br>• Comprehensive Observability<br>• Backwards Compatibility | • 99.9%+ Uptime Guarantee<br>• Reduced Operational Overhead<br>• Seamless Legacy Integration<br>• Enhanced System Monitoring<br>• Risk-Free Migration Path |
| 🤖 **Multi-Agent Orchestration** | • Hierarchical Agent Swarms<br>• Parallel Processing Pipelines<br>• Sequential Workflow Orchestration<br>• Graph-Based Agent Networks<br>• Dynamic Agent Composition<br>• Agent Registry Management | • Complex Business Process Automation<br>• Scalable Task Distribution<br>• Flexible Workflow Adaptation<br>• Optimized Resource Utilization<br>• Centralized Agent Governance<br>• Enterprise-Grade Agent Lifecycle Management |
| 🔄 **Enterprise Integration** | • Multi-Model Provider Support<br>• Custom Agent Development Framework<br>• Extensive Enterprise Tool Library<br>• Multiple Memory Systems<br>• Backwards Compatibility with LangChain, AutoGen, CrewAI<br>• Standardized API Interfaces | • Vendor-Agnostic Architecture<br>• Custom Solution Development<br>• Extended Functionality Integration<br>• Enhanced Knowledge Management<br>• Seamless Framework Migration<br>• Reduced Integration Complexity |
| 📈 **Enterprise Scalability** | • Concurrent Multi-Agent Processing<br>• Intelligent Resource Management<br>• Load Balancing & Auto-Scaling<br>• Horizontal Scaling Capabilities<br>• Performance Optimization<br>• Capacity Planning Tools | • High-Throughput Processing<br>• Cost-Effective Resource Utilization<br>• Elastic Scaling Based on Demand<br>• Linear Performance Scaling<br>• Optimized Response Times<br>• Predictable Growth Planning |
| 🛠️ **Developer Experience** | • Intuitive Enterprise API<br>• Comprehensive Documentation<br>• Active Enterprise Community<br>• CLI & SDK Tools<br>• IDE Integration Support<br>• Code Generation Templates | • Accelerated Development Cycles<br>• Reduced Learning Curve<br>• Expert Community Support<br>• Rapid Deployment Capabilities<br>• Enhanced Developer Productivity<br>• Standardized Development Patterns |
## Install 💻
### Using pip
```bash
$ pip3 install -U swarms
```
### Using uv (Recommended)
[uv](https://github.com/astral-sh/uv) is a fast Python package installer and resolver, written in Rust.
```bash
# Install uv
$ curl -LsSf https://astral.sh/uv/install.sh | sh
# Install swarms using uv
$ uv pip install swarms
```
### Using poetry
```bash
# Install poetry if you haven't already
$ curl -sSL https://install.python-poetry.org | python3 -
# Add swarms to your project
$ poetry add swarms
```
### From source
```bash
# Clone the repository
$ git clone https://github.com/kyegomez/swarms.git
$ cd swarms
# Install with pip
$ pip install -e .
```
---
## Environment Configuration
[Learn more about the environment configuration here](https://docs.swarms.world/en/latest/swarms/install/env/)
```
OPENAI_API_KEY=""
WORKSPACE_DIR="agent_workspace"
ANTHROPIC_API_KEY=""
GROQ_API_KEY=""
```
### 🤖 Your First Agent
An **Agent** is the fundamental building block of a swarm—an autonomous entity powered by an LLM + Tools + Memory. [Learn more Here](https://docs.swarms.world/en/latest/swarms/structs/agent/)
```python
from swarms import Agent
# Initialize a new agent
agent = Agent(
model_name="gpt-4o-mini", # Specify the LLM
max_loops=1, # Set the number of interactions
interactive=True, # Enable interactive mode for real-time feedback
)
# Run the agent with a task
agent.run("What are the key benefits of using a multi-agent system?")
```
### 🤝 Your First Swarm: Multi-Agent Collaboration
A **Swarm** consists of multiple agents working together. This simple example creates a two-agent workflow for researching and writing a blog post. [Learn More About SequentialWorkflow](https://docs.swarms.world/en/latest/swarms/structs/sequential_workflow/)
```python
from swarms import Agent, SequentialWorkflow
# Agent 1: The Researcher
researcher = Agent(
agent_name="Researcher",
system_prompt="Your job is to research the provided topic and provide a detailed summary.",
model_name="gpt-4o-mini",
)
# Agent 2: The Writer
writer = Agent(
agent_name="Writer",
system_prompt="Your job is to take the research summary and write a beautiful, engaging blog post about it.",
model_name="gpt-4o-mini",
)
# Create a sequential workflow where the researcher's output feeds into the writer's input
workflow = SequentialWorkflow(agents=[researcher, writer])
# Run the workflow on a task
final_post = workflow.run("The history and future of artificial intelligence")
print(final_post)
```
-----
## 🏗️ Multi-Agent Architectures For Production Deployments
`swarms` provides a variety of powerful, pre-built multi-agent architectures enabling you to orchestrate agents in various ways. Choose the right structure for your specific problem to build efficient and reliable production systems.
| **Architecture** | **Description** | **Best For** |
|---|---|---|
| **[SequentialWorkflow](https://docs.swarms.world/en/latest/swarms/structs/sequential_workflow/)** | Agents execute tasks in a linear chain; one agent's output is the next one's input. | Step-by-step processes like data transformation pipelines, report generation. |
| **[ConcurrentWorkflow](https://docs.swarms.world/en/latest/swarms/structs/concurrent_workflow/)** | Agents run tasks simultaneously for maximum efficiency. | High-throughput tasks like batch processing, parallel data analysis. |
| **[AgentRearrange](https://docs.swarms.world/en/latest/swarms/structs/agent_rearrange/)** | Dynamically maps complex relationships (e.g., `a -> b, c`) between agents. | Flexible and adaptive workflows, task distribution, dynamic routing. |
| **[GraphWorkflow](https://docs.swarms.world/en/latest/swarms/structs/graph_workflow/)** | Orchestrates agents as nodes in a Directed Acyclic Graph (DAG). | Complex projects with intricate dependencies, like software builds. |
| **[MixtureOfAgents (MoA)](https://docs.swarms.world/en/latest/swarms/structs/moa/)** | Utilizes multiple expert agents in parallel and synthesizes their outputs. | Complex problem-solving, achieving state-of-the-art performance through collaboration. |
| **[GroupChat](https://docs.swarms.world/en/latest/swarms/structs/group_chat/)** | Agents collaborate and make decisions through a conversational interface. | Real-time collaborative decision-making, negotiations, brainstorming. |
| **[ForestSwarm](https://docs.swarms.world/en/latest/swarms/structs/forest_swarm/)** | Dynamically selects the most suitable agent or tree of agents for a given task. | Task routing, optimizing for expertise, complex decision-making trees. |
| **[SpreadSheetSwarm](https://docs.swarms.world/en/latest/swarms/structs/spreadsheet_swarm/)** | Manages thousands of agents concurrently, tracking tasks and outputs in a structured format. | Massive-scale parallel operations, large-scale data generation and analysis. |
| **[HierarchicalSwarm](https://docs.swarms.world/en/latest/swarms/structs/hiearchical_swarm/)** | Orchestrates agents with a director that creates plans and distributes tasks to specialized worker agents. | Complex project management, team coordination, hierarchical decision-making with feedback loops. |
| **[SwarmRouter](https://docs.swarms.world/en/latest/swarms/structs/swarm_router/)** | Universal orchestrator that provides a single interface to run any type of swarm with dynamic selection. | Simplifying complex workflows, switching between swarm strategies, unified multi-agent management. |
-----
### SequentialWorkflow
A `SequentialWorkflow` executes tasks in a strict order, forming a pipeline where each agent builds upon the work of the previous one. `SequentialWorkflow` is Ideal for processes that have clear, ordered steps. This ensures that tasks with dependencies are handled correctly.
```python
from swarms import Agent, SequentialWorkflow
# Initialize agents for a 3-step process
# 1. Generate an idea
idea_generator = Agent(agent_name="IdeaGenerator", system_prompt="Generate a unique startup idea.", model_name="gpt-4o-mini")
# 2. Validate the idea
validator = Agent(agent_name="Validator", system_prompt="Take this startup idea and analyze its market viability.", model_name="gpt-4o-mini")
# 3. Create a pitch
pitch_creator = Agent(agent_name="PitchCreator", system_prompt="Write a 3-sentence elevator pitch for this validated startup idea.", model_name="gpt-4o-mini")
# Create the sequential workflow
workflow = SequentialWorkflow(agents=[idea_generator, validator, pitch_creator])
# Run the workflow
elevator_pitch = workflow.run()
print(elevator_pitch)
```
-----
### ConcurrentWorkflow (with `SpreadSheetSwarm`)
A concurrent workflow runs multiple agents simultaneously. `SpreadSheetSwarm` is a powerful implementation that can manage thousands of concurrent agents and log their outputs to a CSV file. Use this architecture for high-throughput tasks that can be performed in parallel, drastically reducing execution time.
```python
from swarms import Agent, SpreadSheetSwarm
# Define a list of tasks (e.g., social media posts to generate)
platforms = ["Twitter", "LinkedIn", "Instagram"]
# Create an agent for each task
agents = [
Agent(
agent_name=f"{platform}-Marketer",
system_prompt=f"Generate a real estate marketing post for {platform}.",
model_name="gpt-4o-mini",
)
for platform in platforms
]
# Initialize the swarm to run these agents concurrently
swarm = SpreadSheetSwarm(
agents=agents,
autosave_on=True,
save_file_path="marketing_posts.csv",
)
# Run the swarm with a single, shared task description
property_description = "A beautiful 3-bedroom house in sunny California."
swarm.run(task=f"Generate a post about: {property_description}")
# Check marketing_posts.csv for the results!
```
---
### AgentRearrange
Inspired by `einsum`, `AgentRearrange` lets you define complex, non-linear relationships between agents using a simple string-based syntax. [Learn more](https://docs.swarms.world/en/latest/swarms/structs/agent_rearrange/). This architecture is Perfect for orchestrating dynamic workflows where agents might work in parallel, sequence, or a combination of both.
```python
from swarms import Agent, AgentRearrange
# Define agents
researcher = Agent(agent_name="researcher", model_name="gpt-4o-mini")
writer = Agent(agent_name="writer", model_name="gpt-4o-mini")
editor = Agent(agent_name="editor", model_name="gpt-4o-mini")
# Define a flow: researcher sends work to both writer and editor simultaneously
# This is a one-to-many relationship
flow = "researcher -> writer, editor"
# Create the rearrangement system
rearrange_system = AgentRearrange(
agents=[researcher, writer, editor],
flow=flow,
)
# Run the system
# The researcher will generate content, and then both the writer and editor
# will process that content in parallel.
outputs = rearrange_system.run("Analyze the impact of AI on modern cinema.")
print(outputs)
```
<!--
### GraphWorkflow
`GraphWorkflow` orchestrates tasks using a Directed Acyclic Graph (DAG), allowing you to manage complex dependencies where some tasks must wait for others to complete.
**Description:** Essential for building sophisticated pipelines, like in software development or complex project management, where task order and dependencies are critical.
```python
from swarms import Agent, GraphWorkflow, Node, Edge, NodeType
# Define agents and a simple python function as nodes
code_generator = Agent(agent_name="CodeGenerator", system_prompt="Write Python code for the given task.", model_name="gpt-4o-mini")
code_tester = Agent(agent_name="CodeTester", system_prompt="Test the given Python code and find bugs.", model_name="gpt-4o-mini")
# Create nodes for the graph
node1 = Node(id="generator", agent=code_generator)
node2 = Node(id="tester", agent=code_tester)
# Create the graph and define the dependency
graph = GraphWorkflow()
graph.add_nodes([node1, node2])
graph.add_edge(Edge(source="generator", target="tester")) # Tester runs after generator
# Set entry and end points
graph.set_entry_points(["generator"])
graph.set_end_points(["tester"])
# Run the graph workflow
results = graph.run("Create a function that calculates the factorial of a number.")
print(results)
``` -->
----
### SwarmRouter: The Universal Swarm Orchestrator
The `SwarmRouter` simplifies building complex workflows by providing a single interface to run any type of swarm. Instead of importing and managing different swarm classes, you can dynamically select the one you need just by changing the `swarm_type` parameter. [Read the full documentation](https://docs.swarms.world/en/latest/swarms/structs/swarm_router/)
This makes your code cleaner and more flexible, allowing you to switch between different multi-agent strategies with ease. Here's a complete example that shows how to define agents and then use `SwarmRouter` to execute the same task using different collaborative strategies.
```python
from swarms import Agent
from swarms.structs.swarm_router import SwarmRouter, SwarmType
# Define a few generic agents
writer = Agent(agent_name="Writer", system_prompt="You are a creative writer.", model_name="gpt-4o-mini")
editor = Agent(agent_name="Editor", system_prompt="You are an expert editor for stories.", model_name="gpt-4o-mini")
reviewer = Agent(agent_name="Reviewer", system_prompt="You are a final reviewer who gives a score.", model_name="gpt-4o-mini")
# The agents and task will be the same for all examples
agents = [writer, editor, reviewer]
task = "Write a short story about a robot who discovers music."
# --- Example 1: SequentialWorkflow ---
# Agents run one after another in a chain: Writer -> Editor -> Reviewer.
print("Running a Sequential Workflow...")
sequential_router = SwarmRouter(swarm_type=SwarmType.SequentialWorkflow, agents=agents)
sequential_output = sequential_router.run(task)
print(f"Final Sequential Output:\n{sequential_output}\n")
# --- Example 2: ConcurrentWorkflow ---
# All agents receive the same initial task and run at the same time.
print("Running a Concurrent Workflow...")
concurrent_router = SwarmRouter(swarm_type=SwarmType.ConcurrentWorkflow, agents=agents)
concurrent_outputs = concurrent_router.run(task)
# This returns a dictionary of each agent's output
for agent_name, output in concurrent_outputs.items():
print(f"Output from {agent_name}:\n{output}\n")
# --- Example 3: MixtureOfAgents ---
# All agents run in parallel, and a special 'aggregator' agent synthesizes their outputs.
print("Running a Mixture of Agents Workflow...")
aggregator = Agent(
agent_name="Aggregator",
system_prompt="Combine the story, edits, and review into a final document.",
model_name="gpt-4o-mini"
)
moa_router = SwarmRouter(
swarm_type=SwarmType.MixtureOfAgents,
agents=agents,
aggregator_agent=aggregator, # MoA requires an aggregator
)
aggregated_output = moa_router.run(task)
print(f"Final Aggregated Output:\n{aggregated_output}\n")
```
The `SwarmRouter` is a powerful tool for simplifying multi-agent orchestration. It provides a consistent and flexible way to deploy different collaborative strategies, allowing you to build more sophisticated applications with less code.
-------
### MixtureOfAgents (MoA)
The `MixtureOfAgents` architecture processes tasks by feeding them to multiple "expert" agents in parallel. Their diverse outputs are then synthesized by an aggregator agent to produce a final, high-quality result. [Learn more here](https://docs.swarms.world/en/latest/swarms/examples/moa_example/)
```python
from swarms import Agent, MixtureOfAgents
# Define expert agents
financial_analyst = Agent(agent_name="FinancialAnalyst", system_prompt="Analyze financial data.", model_name="gpt-4o-mini")
market_analyst = Agent(agent_name="MarketAnalyst", system_prompt="Analyze market trends.", model_name="gpt-4o-mini")
risk_analyst = Agent(agent_name="RiskAnalyst", system_prompt="Analyze investment risks.", model_name="gpt-4o-mini")
# Define the aggregator agent
aggregator = Agent(
agent_name="InvestmentAdvisor",
system_prompt="Synthesize the financial, market, and risk analyses to provide a final investment recommendation.",
model_name="gpt-4o-mini"
)
# Create the MoA swarm
moa_swarm = MixtureOfAgents(
agents=[financial_analyst, market_analyst, risk_analyst],
aggregator_agent=aggregator,
)
# Run the swarm
recommendation = moa_swarm.run("Should we invest in NVIDIA stock right now?")
print(recommendation)
```
----
### GroupChat
`GroupChat` creates a conversational environment where multiple agents can interact, discuss, and collaboratively solve a problem. You can define the speaking order or let it be determined dynamically. This architecture is ideal for tasks that benefit from debate and multi-perspective reasoning, such as contract negotiation, brainstorming, or complex decision-making.
```python
from swarms import Agent, GroupChat
# Define agents for a debate
tech_optimist = Agent(agent_name="TechOptimist", system_prompt="Argue for the benefits of AI in society.", model_name="gpt-4o-mini")
tech_critic = Agent(agent_name="TechCritic", system_prompt="Argue against the unchecked advancement of AI.", model_name="gpt-4o-mini")
# Create the group chat
chat = GroupChat(
agents=[tech_optimist, tech_critic],
max_loops=4, # Limit the number of turns in the conversation
)
# Run the chat with an initial topic
conversation_history = chat.run(
"Let's discuss the societal impact of artificial intelligence."
)
# Print the full conversation
for message in conversation_history:
print(f"[{message['agent_name']}]: {message['content']}")
```
----
### HierarchicalSwarm
`HierarchicalSwarm` implements a director-worker pattern where a central director agent creates comprehensive plans and distributes specific tasks to specialized worker agents. The director evaluates results and can issue new orders in feedback loops, making it ideal for complex project management and team coordination scenarios.
```python
from swarms import Agent, HierarchicalSwarm
# Define specialized worker agents
content_strategist = Agent(
agent_name="Content-Strategist",
system_prompt="You are a senior content strategist. Develop comprehensive content strategies, editorial calendars, and content roadmaps.",
model_name="gpt-4o-mini"
)
creative_director = Agent(
agent_name="Creative-Director",
system_prompt="You are a creative director. Develop compelling advertising concepts, visual directions, and campaign creativity.",
model_name="gpt-4o-mini"
)
seo_specialist = Agent(
agent_name="SEO-Specialist",
system_prompt="You are an SEO expert. Conduct keyword research, optimize content, and develop organic growth strategies.",
model_name="gpt-4o-mini"
)
brand_strategist = Agent(
agent_name="Brand-Strategist",
system_prompt="You are a brand strategist. Develop brand positioning, identity systems, and market differentiation strategies.",
model_name="gpt-4o-mini"
)
# Create the hierarchical swarm with a director
marketing_swarm = HierarchicalSwarm(
name="Marketing-Team-Swarm",
description="A comprehensive marketing team with specialized agents coordinated by a director",
agents=[content_strategist, creative_director, seo_specialist, brand_strategist],
max_loops=2, # Allow for feedback and refinement
verbose=True
)
# Run the swarm on a complex marketing challenge
result = marketing_swarm.run(
"Develop a comprehensive marketing strategy for a new SaaS product launch. "
"The product is a project management tool targeting small to medium businesses. "
"Coordinate the team to create content strategy, creative campaigns, SEO optimization, "
"and brand positioning that work together cohesively."
)
print(result)
```
The `HierarchicalSwarm` excels at:
- **Complex Project Management**: Breaking down large tasks into specialized subtasks
- **Team Coordination**: Ensuring all agents work toward unified goals
- **Quality Control**: Director provides feedback and refinement loops
- **Scalable Workflows**: Easy to add new specialized agents as needed
---
## Documentation
Documentation is located here at: [docs.swarms.world](https://docs.swarms.world)
---
## Guides and Walkthroughs
Here are quick reference guides on how to get started with swarms.
| Section | Description | Links |
|----------------------|--------------------------------------------------------------------------------------------|--------------------------------------------------------------------------------------------|
| Installation | Complete setup guide for Swarms in your environment | [Installation](https://docs.swarms.world/en/latest/swarms/install/install/) |
| Quickstart | Get up and running with your first swarm in minutes | [Get Started](https://docs.swarms.world/en/latest/swarms/install/quickstart/) |
| Agent Internal Mechanisms | Deep dive into how agents work internally | [Agent Architecture](https://docs.swarms.world/en/latest/swarms/framework/agents_explained/) |
| Agent API | Complete reference for the Agent class and its methods | [Agent API](https://docs.swarms.world/en/latest/swarms/structs/agent/) |
| Integrating External Agents | Connect Swarms with other AI frameworks like Griptape and Autogen | [Integrating External APIs](https://docs.swarms.world/en/latest/swarms/agents/external_party_agents/) |
| Creating Agents from YAML | Define and configure agents using YAML configuration files | [Creating Agents from YAML](https://docs.swarms.world/en/latest/swarms/agents/create_agents_yaml/) |
| Why You Need Swarms | Understanding the benefits of multi-agent collaboration | [Why Multi-Agent Collaboration is Necessary](https://docs.swarms.world/en/latest/swarms/concept/why/) |
| Multi-Agent Architectures Analysis | Comprehensive analysis of different swarm patterns and architectures | [Multi-Agent Architectures](https://docs.swarms.world/en/latest/swarms/concept/swarm_architectures/) |
| Choosing the Right Swarm | Guide to selecting the optimal swarm architecture for your specific business needs | [Business Problem Guide](https://docs.swarms.world/en/latest/swarms/concept/swarm_architectures/) |
| AgentRearrange Docs | Documentation for dynamic agent rearrangement and workflow optimization | [AgentRearrange API](https://docs.swarms.world/en/latest/swarms/structs/agent_rearrange/) |
---
## Contribute to Swarms
Our mission is to accelerate the transition to a fully autonomous world economy by providing enterprise-grade, production-ready infrastructure that enables seamless deployment and orchestration of millions of autonomous agents. We are creating the operating system for the agent economy, and we need your help to achieve this goal.
Swarms is built by the community, for the community. We believe that collaborative development is the key to pushing the boundaries of what's possible with multi-agent AI. Your contributions are not only welcome—they are essential to our mission. [Learn more about why you should contribute to Swarms](https://docs.swarms.world/en/latest/contributors/main/)
### Why Contribute?
By joining us, you have the opportunity to:
* **Work on the Frontier of Agents:** Shape the future of autonomous agent technology and help build a production-grade, open-source framework.
* **Join a Vibrant Community:** Collaborate with a passionate and growing group of agent developers, researchers, and AI enthusiasts.
* **Make a Tangible Impact:** Whether you're fixing a bug, adding a new feature, or improving documentation, your work will be used in real-world applications.
* **Learn and Grow:** Gain hands-on experience with advanced AI concepts and strengthen your software engineering skills.
Discover more about our mission and the benefits of becoming a contributor in our official [**Contributor's Guide**](https://docs.swarms.world/en/latest/contributors/main/).
### How to Get Started
We've made it easy to start contributing. Here's how you can help:
1. **Find an Issue to Tackle:** The best way to begin is by visiting our [**contributing project board**](https://github.com/users/kyegomez/projects/1). Look for issues tagged with `good first issue`—these are specifically selected for new contributors.
2. **Report a Bug or Request a Feature:** Have a new idea or found something that isn't working right? We'd love to hear from you. Please [**file a Bug Report or Feature Request**](https://github.com/kyegomez/swarms/issues) on our GitHub Issues page.
3. **Understand Our Workflow and Standards:** Before submitting your work, please review our complete [**Contribution Guidelines**](https://github.com/kyegomez/swarms/blob/master/CONTRIBUTING.md). To help maintain code quality, we also encourage you to read our guide on [**Code Cleanliness**](https://docs.swarms.world/en/latest/swarms/framework/code_cleanliness/).
4. **Join the Discussion:** To participate in roadmap discussions and connect with other developers, join our community on [**Discord**](https://discord.gg/jM3Z6M9uMq).
### ✨ Our Valued Contributors
Thank you for contributing to swarms. Your work is extremely appreciated and recognized.
<a href="https://github.com/kyegomez/swarms/graphs/contributors">
<img src="https://contrib.rocks/image?repo=kyegomez/swarms" />
</a>
-----
## Connect With Us
Join our community of agent engineers and researchers for technical support, cutting-edge updates, and exclusive access to world-class agent engineering insights!
| Platform | Description | Link |
|----------|-------------|------|
| 📚 Documentation | Official documentation and guides | [docs.swarms.world](https://docs.swarms.world) |
| 📝 Blog | Latest updates and technical articles | [Medium](https://medium.com/@kyeg) |
| 💬 Discord | Live chat and community support | [Join Discord](https://discord.gg/jM3Z6M9uMq) |
| 🐦 Twitter | Latest news and announcements | [@kyegomez](https://twitter.com/kyegomez) |
| 👥 LinkedIn | Professional network and updates | [The Swarm Corporation](https://www.linkedin.com/company/the-swarm-corporation) |
| 📺 YouTube | Tutorials and demos | [Swarms Channel](https://www.youtube.com/channel/UC9yXyitkbU_WSy7bd_41SqQ) |
| 🎫 Events | Join our community events | [Sign up here](https://lu.ma/5p2jnc2v) |
| 🚀 Onboarding Session | Get onboarded with Kye Gomez, creator and lead maintainer of Swarms | [Book Session](https://cal.com/swarms/swarms-onboarding-session) |
------
## Citation
If you use **swarms** in your research, please cite the project by referencing the metadata in [CITATION.cff](./CITATION.cff).
```bibtex
@misc{SWARMS_2022,
author = {Gomez, Kye and Pliny and More, Harshal and Swarms Community},
title = {{Swarms: Production-Grade Multi-Agent Infrastructure Platform}},
year = {2022},
howpublished = {\url{https://github.com/kyegomez/swarms}},
note = {Documentation available at \url{https://docs.swarms.world}},
version = {latest}
}
```
# License
APACHE
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