microsoft / RD-Agent
- воскресенье, 29 сентября 2024 г. в 00:00:06
Research and development (R&D) is crucial for the enhancement of industrial productivity, especially in the AI era, where the core aspects of R&D are mainly focused on data and models. We are committed to automate these high-value generic R&D processes through our open source R&D automation tool RD-Agent, which let AI drive data-driven AI.
🗞️ News | 📝 Description |
---|---|
Official WeChat group release | We created a WeChat group, welcome to join! (🗪QR Code) |
Official Discord release | We launch our first chatting channel in Discord (🗪) |
First release | RDAgent is released on GitHub |
RDAgent aims to automate the most critical and valuable aspects of the industrial R&D process, and we begin with focusing on the data-driven scenarios to streamline the development of models and data. Methodologically, we have identified a framework with two key components: 'R' for proposing new ideas and 'D' for implementing them. We believe that the automatic evolution of R&D will lead to solutions of significant industrial value.
R&D is a very general scenario. The advent of RDAgent can be your
You can click the links above to view the demo. We're continuously adding more methods and scenarios to the project to enhance your R&D processes and boost productivity.
Additionally, you can take a closer look at the examples in our 🖥️ Live Demo.
You can try above demos by running the following command:
Users must ensure Docker is installed before attempting most scenarios. Please refer to the official 🐳Docker page for installation instructions.
conda create -n rdagent python=3.10
conda activate rdagent
pip install rdagent
.env
cat << EOF > .env
OPENAI_API_KEY=<your_api_key>
# EMBEDDING_MODEL=text-embedding-3-small
CHAT_MODEL=gpt-4-turbo
EOF
The 🖥️ Live Demo is implemented by the following commands(each item represents one demo, you can select the one you prefer):
Run the Automated Quantitative Trading & Iterative Factors Evolution: Qlib self-loop factor proposal and implementation application
rdagent fin_factor
Run the Automated Quantitative Trading & Iterative Model Evolution: Qlib self-loop model proposal and implementation application
rdagent fin_model
Run the Automated Medical Prediction Model Evolution: Medical self-loop model proposal and implementation application
(1) Apply for an account at PhysioNet.
(2) Request access to FIDDLE preprocessed data: FIDDLE Dataset.
(3) Place your username and password in.env
.
cat << EOF >> .env
DM_USERNAME=<your_username>
DM_PASSWORD=<your_password>
EOF
rdagent med_model
Run the Automated Quantitative Trading & Factors Extraction from Financial Reports: Run the Qlib factor extraction and implementation application based on financial reports
# 1. Generally, you can run this scenario using the following command:
rdagent fin_factor_report --report_folder=<Your financial reports folder path>
# 2. Specifically, you need to prepare some financial reports first. You can follow this concrete example:
wget https://github.com/SunsetWolf/rdagent_resource/releases/download/reports/all_reports.zip
unzip all_reports.zip -d git_ignore_folder/reports
rdagent fin_factor_report --report_folder=git_ignore_folder/reports
Run the Automated Model Research & Development Copilot: model extraction and implementation application
# 1. Generally, you can run your own papers/reports with the following command:
rdagent general_model <Your paper URL>
# 2. Specifically, you can do it like this. For more details and additional paper examples, use `rdagent general_model -h`:
rdagent general_model "https://arxiv.org/pdf/2210.09789"
rdagent ui --port 80 --log_dir <your log folder like "log/">
We have applied RD-Agent to multiple valuable data-driven industrial scenarios.
In this project, we are aiming to build an Agent to automate Data-Driven R&D that can
In the two key areas of data-driven scenarios, model implementation and data building, our system aims to serve two main roles: 🦾Copilot and 🤖Agent.
The supported scenarios are listed below:
Scenario/Target | Model Implementation | Data Building |
---|---|---|
💹 Finance | 🤖 Iteratively Proposing Ideas & Evolving |
🤖 Iteratively Proposing Ideas & Evolving 🦾 Auto reports reading & implementation |
🩺 Medical | 🤖 Iteratively Proposing Ideas & Evolving |
- |
🏭 General | 🦾 Auto paper reading & implementation |
- |
Different scenarios vary in entrance and configuration. Please check the detailed setup tutorial in the scenarios documents.
Here is a gallery of successful explorations (5 traces showed in 🖥️ Live Demo). You can download and view the execution trace using the command below:
rdagent ui --port 80 --log_dir ./demo_traces
Please refer to 📖readthedocs_scen for more details of the scenarios.
Automating the R&D process in data science is a highly valuable yet underexplored area in industry. We propose a framework to push the boundaries of this important research field.
The research questions within this framework can be divided into three main categories:
Research Area | Paper/Work List |
---|---|
Benchmark the R&D abilities | Benchmark |
Idea proposal: Explore new ideas or refine existing ones | Research |
Ability to realize ideas: Implement and execute ideas | Development |
We believe that the key to delivering high-quality solutions lies in the ability to evolve R&D capabilities. Agents should learn like human experts, continuously improving their R&D skills.
More documents can be found in the 📖 readthedocs.
@misc{chen2024datacentric,
title={Towards Data-Centric Automatic R&D},
author={Haotian Chen and Xinjie Shen and Zeqi Ye and Wenjun Feng and Haoxue Wang and Xiao Yang and Xu Yang and Weiqing Liu and Jiang Bian},
year={2024},
eprint={2404.11276},
archivePrefix={arXiv},
primaryClass={cs.AI}
}
In a data mining expert's daily research and development process, they propose a hypothesis (e.g., a model structure like RNN can capture patterns in time-series data), design experiments (e.g., finance data contains time-series and we can verify the hypothesis in this scenario), implement the experiment as code (e.g., Pytorch model structure), and then execute the code to get feedback (e.g., metrics, loss curve, etc.). The experts learn from the feedback and improve in the next iteration.
Based on the principles above, we have established a basic method framework that continuously proposes hypotheses, verifies them, and gets feedback from the real-world practice. This is the first scientific research automation framework that supports linking with real-world verification.
For more detail, please refer to our 🖥️ Live Demo page.
@misc{yang2024collaborative,
title={Collaborative Evolving Strategy for Automatic Data-Centric Development},
author={Xu Yang and Haotian Chen and Wenjun Feng and Haoxue Wang and Zeqi Ye and Xinjie Shen and Xiao Yang and Shizhao Sun and Weiqing Liu and Jiang Bian},
year={2024},
eprint={2407.18690},
archivePrefix={arXiv},
primaryClass={cs.AI}
}
This project welcomes contributions and suggestions. Contributing to this project is straightforward and rewarding. Whether it's solving an issue, addressing a bug, enhancing documentation, or even correcting a typo, every contribution is valuable and helps improve RDAgent.
To get started, you can explore the issues list, or search for TODO:
comments in the codebase by running the command grep -r "TODO:"
.
Before we released RD-Agent as an open-source project on GitHub, it was an internal project within our group. Unfortunately, the internal commit history was not preserved when we removed some confidential code. As a result, some contributions from our group members, including Haotian Chen, Wenjun Feng, Haoxue Wang, Zeqi Ye, Xinjie Shen, and Jinhui Li, were not included in the public commits.
The RD-agent is provided “as is”, without warranty of any kind, express or implied, including but not limited to the warranties of merchantability, fitness for a particular purpose and noninfringement. The RD-agent is aimed to facilitate research and development process in the financial industry and not ready-to-use for any financial investment or advice. Users shall independently assess and test the risks of the RD-agent in a specific use scenario, ensure the responsible use of AI technology, including but not limited to developing and integrating risk mitigation measures, and comply with all applicable laws and regulations in all applicable jurisdictions. The RD-agent does not provide financial opinions or reflect the opinions of Microsoft, nor is it designed to replace the role of qualified financial professionals in formulating, assessing, and approving finance products. The inputs and outputs of the RD-agent belong to the users and users shall assume all liability under any theory of liability, whether in contract, torts, regulatory, negligence, products liability, or otherwise, associated with use of the RD-agent and any inputs and outputs thereof.