Lean Co-pilot Lets You Use LLMs as Copilots in Lean

Share via:

The LeanDojo team and California Institute of Technology have introduced Lean Co-pilot, a collaborative tool designed for LLM-human interaction to craft 100% accurate formal mathematical proofs. 

The innovative system utilises LLMs to suggest proof tactics within the Lean theorem prover, providing a seamless environment for human intervention and modification.

Click here to check out the GitHub repository.

The challenging landscape of automating theorem proving has long been hindered by the unreliability of current LLMs in mathematical and reasoning tasks, often prone to mistakes and hallucinations. Traditionally, mathematical proofs have predominantly relied on manual derivation, demanding meticulous verification.

A short demo of Lean Co-pilot by @KaiyuYang4 We are here at #NeurIPS2023 to talk about AI for theorem proving

– Tutorial on Machine Learning for Theorem Proving (https://t.co/eNMzVij15R): Monday 1:45–4:15 PM, Hall B2
– LeanDojo’s oral presentation: Tuesday 10 AM, Ballroom A-C… pic.twitter.com/sqC0wrZS06

— Prof. Anima Anandkumar (@AnimaAnandkumar) December 11, 2023

Lean, a powerful theorem prover, excels at formal verification but poses a laborious task for humans when writing in Lean. Lean Co-pilot addresses this issue by leveraging LLMs to automate the suggestion of Lean proof tactics, significantly expediting proof synthesis. The system allows for human inputs only when necessary, offering a balanced collaboration between machine and human intellect.

Key features of Lean Co-pilot include LLM-driven suggestions for proof steps, searching for proofs, and selecting useful lemmas from an extensive mathematical library. The tool seamlessly integrates into Lean’s Visual Studio Code workflow, ensuring a user-friendly experience. 

Users can set up Lean Co-pilot as a Lean package, utilising built-in models from LeanDojo or incorporating custom models that can run locally or on the cloud.

LeanDojo, the platform supporting Lean Co-pilot, encourages accessibility by providing open-source models and tools under the MIT licence. The tool operates on various platforms, including Linux, macOS, and Windows WSL, with optional support for CUDA-enabled GPUs. 

Lean Co-pilot’s requirements include Git LFS, optional CUDA and cuDNN (recommended for GPU support), and CMake >= 3.7 along with a C++17 compatible compiler for building Lean Co-pilot itself.

Lean Co-pilot’s introduction aims to make LLMs more accessible to Lean users, fostering a positive feedback loop where proof automation contributes to enhanced data quality, ultimately driving improvements in LLMs for mathematical tasks.

The post Lean Co-pilot Lets You Use LLMs as Copilots in Lean appeared first on Analytics India Magazine.

Disclaimer

We strive to uphold the highest ethical standards in all of our reporting and coverage. We StartupNews.fyi want to be transparent with our readers about any potential conflicts of interest that may arise in our work. It’s possible that some of the investors we feature may have connections to other businesses, including competitors or companies we write about. However, we want to assure our readers that this will not have any impact on the integrity or impartiality of our reporting. We are committed to delivering accurate, unbiased news and information to our audience, and we will continue to uphold our ethics and principles in all of our work. Thank you for your trust and support.

Popular

More Like this

Lean Co-pilot Lets You Use LLMs as Copilots in Lean

The LeanDojo team and California Institute of Technology have introduced Lean Co-pilot, a collaborative tool designed for LLM-human interaction to craft 100% accurate formal mathematical proofs. 

The innovative system utilises LLMs to suggest proof tactics within the Lean theorem prover, providing a seamless environment for human intervention and modification.

Click here to check out the GitHub repository.

The challenging landscape of automating theorem proving has long been hindered by the unreliability of current LLMs in mathematical and reasoning tasks, often prone to mistakes and hallucinations. Traditionally, mathematical proofs have predominantly relied on manual derivation, demanding meticulous verification.

A short demo of Lean Co-pilot by @KaiyuYang4 We are here at #NeurIPS2023 to talk about AI for theorem proving

– Tutorial on Machine Learning for Theorem Proving (https://t.co/eNMzVij15R): Monday 1:45–4:15 PM, Hall B2
– LeanDojo’s oral presentation: Tuesday 10 AM, Ballroom A-C… pic.twitter.com/sqC0wrZS06

— Prof. Anima Anandkumar (@AnimaAnandkumar) December 11, 2023

Lean, a powerful theorem prover, excels at formal verification but poses a laborious task for humans when writing in Lean. Lean Co-pilot addresses this issue by leveraging LLMs to automate the suggestion of Lean proof tactics, significantly expediting proof synthesis. The system allows for human inputs only when necessary, offering a balanced collaboration between machine and human intellect.

Key features of Lean Co-pilot include LLM-driven suggestions for proof steps, searching for proofs, and selecting useful lemmas from an extensive mathematical library. The tool seamlessly integrates into Lean’s Visual Studio Code workflow, ensuring a user-friendly experience. 

Users can set up Lean Co-pilot as a Lean package, utilising built-in models from LeanDojo or incorporating custom models that can run locally or on the cloud.

LeanDojo, the platform supporting Lean Co-pilot, encourages accessibility by providing open-source models and tools under the MIT licence. The tool operates on various platforms, including Linux, macOS, and Windows WSL, with optional support for CUDA-enabled GPUs. 

Lean Co-pilot’s requirements include Git LFS, optional CUDA and cuDNN (recommended for GPU support), and CMake >= 3.7 along with a C++17 compatible compiler for building Lean Co-pilot itself.

Lean Co-pilot’s introduction aims to make LLMs more accessible to Lean users, fostering a positive feedback loop where proof automation contributes to enhanced data quality, ultimately driving improvements in LLMs for mathematical tasks.

The post Lean Co-pilot Lets You Use LLMs as Copilots in Lean appeared first on Analytics India Magazine.

Disclaimer

We strive to uphold the highest ethical standards in all of our reporting and coverage. We StartupNews.fyi want to be transparent with our readers about any potential conflicts of interest that may arise in our work. It’s possible that some of the investors we feature may have connections to other businesses, including competitors or companies we write about. However, we want to assure our readers that this will not have any impact on the integrity or impartiality of our reporting. We are committed to delivering accurate, unbiased news and information to our audience, and we will continue to uphold our ethics and principles in all of our work. Thank you for your trust and support.

Website Upgradation is going on for any glitch kindly connect at office@startupnews.fyi

More like this

Magicpin’s “Complimentary Oxygen” Campaign Highlights Delhi’s Pollution Crisis

Delhi’s air quality has hit alarming lows once again,...

UK open to social media ban for kids as...

The U.K. government is not ruling out further...

OpenAI releases a teacher’s guide to ChatGPT, but some...

OpenAI envisions teachers using its AI-powered tools to...

Popular

Upcoming Events

Startup Information that matters. Get in your inbox Daily!