README.md

---
base_model: mistralai/Leanstral-2603
library_name: mlx
tags:
  - rotorquant
  - kv-cache-quantization
  - mlx
  - 4-bit
  - weight-quantization
  - leanstral
  - lean4
  - formal-proofs
  - theorem-proving
  - quantized
  - apple-silicon
  - mistral
  - moe
license: apache-2.0
---

# Leanstral-RotorQuant-MLX-4bit

**4-bit MLX weight-quantized [Leanstral-2603](https://huggingface.co/mistralai/Leanstral-2603) with [RotorQuant](https://github.com/scrya-com/rotorquant) KV-cache quantization for high-throughput Lean 4 formal proof generation on Apple Silicon.**

Leanstral is the first open-source AI agent purpose-built for Lean 4 formal proofs -- generating both executable code and machine-checkable mathematical proofs. This variant combines **dual compression**: 4-bit MLX weight quantization plus RotorQuant KV-cache quantization, delivering **5.3x faster prefill** and **28% faster decode** compared to TurboQuant equivalents.

## Overview

This repository provides a **dual-compressed** configuration with RotorQuant's superior throughput: MLX 4-bit weight quantization reduces the static memory footprint, while RotorQuant's rotation-aware KV-cache compression delivers faster prefill and decode. This is the recommended MLX variant for interactive theorem proving on Apple Silicon.

| Spec | Value |
|------|-------|
| Base model | [mistralai/Leanstral-2603](https://huggingface.co/mistralai/Leanstral-2603) |
| Architecture | Mistral MoE (~119B parameters, 7 consolidated shards) |
| Weight quantization | 4-bit (MLX) |
| KV-cache quantization | RotorQuant |
| Weight memory | ~60 GB |
| Prefill speedup | 5.3x vs TurboQuant |
| Decode speedup | 28% vs TurboQuant |
| Runtime | MLX (Apple Silicon) |
| License | Apache 2.0 |
| Use case | Lean 4 formal verification, theorem proving, mathematical proofs |

## Quickstart

```python
from mlx_lm import load, generate

model, tokenizer = load("majentik/Leanstral-RotorQuant-MLX-4bit")

prompt = "Prove that for all natural numbers n, n + 0 = n in Lean 4:"
response = generate(
    model,
    tokenizer,
    prompt=prompt,
    max_tokens=512,
)
print(response)
```

## What is RotorQuant?

[RotorQuant](https://github.com/scrya-com/rotorquant) is an advanced KV-cache quantization method that leverages rotation-aware quantization to achieve superior throughput compared to standard KV-cache compression. By exploiting the rotary positional embedding structure, RotorQuant achieves:

- **5.3x faster prefill** -- critical for long Lean 4 proof contexts
- **28% faster decode** -- faster token-by-token proof generation
- Equivalent memory savings to TurboQuant with better computational efficiency

Combined with MLX 4-bit weight quantization, this is the highest-quality Apple Silicon variant with optimized throughput.

## Memory Estimates

| Component | Estimate |
|-----------|----------|
| Model weights (4-bit) | ~60 GB |
| KV-cache | Reduced via RotorQuant |
| Recommended hardware | Mac Studio M2/M3/M4 Ultra (192 GB+) or Mac Pro |

## Lean 4 Use Case

Leanstral excels at:
- **Formal verification** -- generating machine-checkable proofs of mathematical theorems
- **Theorem proving** -- interactive and automated proof search in Lean 4
- **Code generation** -- writing verified Lean 4 programs with correctness guarantees
- **Proof repair** -- fixing incomplete or broken proof scripts

## See Also

- [mistralai/Leanstral-2603](https://huggingface.co/mistralai/Leanstral-2603) -- Base model
- [majentik/Leanstral-RotorQuant](https://huggingface.co/majentik/Leanstral-RotorQuant) -- Full-precision weights + RotorQuant KV cache
- [majentik/Leanstral-RotorQuant-MLX-2bit](https://huggingface.co/majentik/Leanstral-RotorQuant-MLX-2bit) -- MLX 2-bit + RotorQuant
- [majentik/Leanstral-RotorQuant-MLX-1bit](https://huggingface.co/majentik/Leanstral-RotorQuant-MLX-1bit) -- MLX 1-bit + RotorQuant
- [majentik/Leanstral-TurboQuant-MLX-4bit](https://huggingface.co/majentik/Leanstral-TurboQuant-MLX-4bit) -- MLX 4-bit + TurboQuant
- [RotorQuant repository](https://github.com/scrya-com/rotorquant)