A project for versatile AI agents that can run with proprietary models or completely open-source. The meta expert has two agents: a basic Meta Agent, and Jar3d, a more sophisticated and versatile agent.
Act as an open source perplexity.
Thanks John Adeojo, who brings this wonderful project to open source community!
- LLM(openai, claude, llama)
- Frontend(Chainlit - chain of thought reasoning)
- Backend
- python
- docker
- Hugging Face deploy
[] Long-term memory. [] Full Ollama and vLLM integration. [] Integrations to RAG platforms for more intelligent document processing and faster RAG.
- User Query: The user initiates the interaction by submitting a query or request for information.
- Agent Accesses the Internet: The agent retrieves relevant information from various online sources, such as web pages, articles, and databases.
- Document Chunking: The retrieved URLs are processed to break down the content into smaller, manageable documents or chunks. This step ensures that the information is more digestible and can be analyzed effectively.(tools\legacy\offline_graph_rag_tool copy.py run_rag)
- Vectorization: Each document chunk is then transformed into a multi-dimensional embedding using vectorization techniques. This process captures the semantic meaning of the text, allowing for nuanced comparisons between different pieces of information.
- Similarity Search: A similarity search is performed using cosine similarity (or another appropriate metric) to identify and rank the most relevant document chunks in relation to the original user query. This step helps in finding the closest matches based on the embeddings generated earlier.
- Response Generation: Finally, the most relevant chunks are selected, and the LLM synthesizes them into a coherent response that directly addresses the user's query.
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How this system work?
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How hybrid-retrieval work? In
offline_graph_ragfile, we combine similarity search with
- Core Concepts
- Prerequisites
- Configuration
- Setup for Basic Meta Agent
- Setup for Jar3d
- Roadmap for Jar3d
This project leverages four core concepts:
- Meta prompting: For more information, refer to the paper on Meta-Prompting (source). Read our notes on Meta-Prompting Overview for a more concise overview.
- Chain of Reasoning: For Jar3d, we also leverage an adaptation of Chain-of-Reasoning
- Jar3d uses retrieval augmented generation, which isn't used within the Basic Meta Agent. Read our notes on Overview of Agentic RAG.
- Jar3d can generate knowledge graphs from web-pages allowing it to produce more comprehensive outputs.
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Install Anaconda:
Download Anaconda from https://www.anaconda.com/. -
Create a Virtual Environment:
conda create -n agent_env python=3.11 pip
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Activate the Virtual Environment:
conda activate agent_env
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Clone the Repository:
git clone https://github.com/JarvisChan666/SuperExpert
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Navigate to the Repository:
cd /path/to/your-repo/meta_expert -
Install Requirements:
pip install -r requirements.txt
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You will need Docker and Docker Composed installed to get the project up and running:
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If you wish to use Hybrid Retrieval, you will need to create a Free Neo4j Aura Account:
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Navigate to the Repository:
cd /path/to/your-repo/SuperExpert -
Open the
config.yamlfile:nano config/config.yaml
If you want to use hyhbrid search, please open settings and choose "Graph and Dense".
Enter API Keys for your choice of LLM provider:
- Serper API Key: Get it from https://serper.dev/
- OpenAI API Key: Get it from https://openai.com/
- Gemini API Key: Get it from https://ai.google.dev/gemini-api
- Claude API Key: Get it from https://docs.anthropic.com/en/api/getting-started
- Groq API Key: Get it from https://console.groq.com/keys
For Hybrid retrieval, you will require a Claude API key
Set the LLM_SERVER variable to choose your inference provider. Possible values are:
- openai
- mistral
- claude
- gemini (Not currently supported)
- ollama (Not currently supported)
- groq
- vllm (Not currently supported)
Example:
LLM_SERVER: claudeRemember to keep your config.yaml file private as it contains sensitive information.
The basic meta agent is an early iteration of the project. It demonstrates meta prompting rather than being a useful tool for research. It uses a naive approach of scraping the entirety of a web page and feeding that into the context of the meta agent, who either continues the task or delivers a final answer.
python -m agents.meta_agentThen enter your query.
Jar3d is a more sophisticated agent that uses RAG, Chain-of-Reasoning, and Meta-Prompting to complete long-running research tasks.
Note: Currently, the best results are with Claude 3.5 Sonnet and Llama 3.1 70B. Results with GPT-4 are inconsistent
Try Jar3d with:
- Writing a newsletter - Example
- Writing a literature review
- As a holiday assistant
Jar3d is in active development, and its capabilities are expected to improve with better models. Feedback is greatly appreciated.
Jar3d can be run using Docker for easier setup and deployment.
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Clone the repository:
git clone https://github.com/brainqub3/meta_expert.git cd meta_expert -
Build and start the containers:
docker-compose up --build
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Access Jar3d: Once running, access the Jar3d web interface at
http://localhost:8000.
You can end your docker session by pressing Ctrl + C or Cmd + C in your terminal and running:
docker-compose down- The Docker setup includes Jar3d and the NLM-Ingestor service.
- Playwright and its browser dependencies are included for web scraping capabilities.
- Ollama is not included in this Docker setup. If needed, set it up separately and configure in
config.yaml. - Configuration is handled through
config.yaml, not environment variables in docker-compose.
For troubleshooting, check the container logs:
docker-compose logsRefer to the project's GitHub issues for common problems and solutions.
Once you're set up, Jar3d will proceed to introduce itself and ask some questions. The questions are designed to help you refine your requirements. When you feel you have provided all the relevant information to Jar3d, you can end the questioning part of the workflow by typing /end.