Update README.md

README.md

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-# ΣMath — Visual Computation Engine v2.0
+---
+license: mit
+library_name: gguf
+base_model: Qwen/Qwen2.5-Math-7B
+datasets:
+- AI-MO/NuminaMath-TIR
+tags:
+- mathematics
+- interactive
+- 3d-visualization
+- science
+- reasoning
+- uvicorn
+- fastapi
+---
 
-An interactive mathematical visualization engine powered by **Qwen-Math** and accelerated by **NVIDIA RTX 4060 Ti**.
+<p align="center">
+  <h1 align="center">ΣMath — Visual Computation Engine v2.0</h1>
+  <p align="center"><strong>Powered by Qwen-Math & NuminaMath-TIR</strong></p>
+</p>
 
-## Features
-- **GPU Accelerated**: Fully offloaded to CUDA.
-- **Dual Rendering**: Plotly for interactive 3D/Animations and Matplotlib/mpld3 for 2D.
-- **Resilient Engine**: Automatic correction of colorscale mismatches and backend management.
+## 🔬 Project Overview
 
-## Setup
-1. Place `qwen_math_q4_k_m.gguf` in the root directory.
-2. Install dependencies: `pip install -r requirements.txt`
-3. Run: `python app.py`
+**Developed by: Khurram Pervez, Assistant Professor of Mathematics**
+
+**ΣMath Core** is a high-performance mathematical visualization engine that bridges the gap between deep symbolic reasoning and real-time interactive rendering. By leveraging the **NuminaMath-TIR** dataset, the model excels at **Chain-of-Thought (CoT)** reasoning, allowing it to solve complex geometric problems before translating them into interactive code.
+
+The engine utilizes a specialized **Resilient Execution Pipeline** to render 3D manifolds, animations, and parametric surfaces directly in the browser, optimized specifically for local deployment on NVIDIA hardware.
+
+## 🚀 The Multi-Stage Pipeline
+
+### 1. TIR (Thought-Intermediate-Reasoning)
+By training on the **NuminaMath-TIR** dataset, the model doesn't just "guess" a plot. It follows a rigorous logical path:
+* **Identification:** Analyzes the geometric properties of the requested manifold.
+* **Calculation:** Determines the necessary vertices, normals, and parametric equations.
+* **Code Synthesis:** Generates high-efficiency Python code (Plotly/Matplotlib).
+
+### 2. The Resilient Engine (FastAPI Layer)
+To ensure stability during research, the system includes a proprietary processing layer:
+* **Dummy Interception:** Captures and silences `plt.show()` commands to prevent GUI thread blocking on Ubuntu/Linux servers.
+* **Colorscale Transpilation:** Automatically maps Matplotlib colormap names (e.g., *spring, summer*) to Plotly-valid equivalents to ensure 3D renders never fail.
+* **Sandbox Execution:** Executes generated code in a safe local scope using your **RTX 4060 Ti**.
+
+### 3. Dynamic Hybrid Rendering
+* **Plotly 3D:** Used for interactive rotation, zooming, and time-series animations (e.g., Lorenz Attractors).
+* **mpld3 (2D):** Used for static or high-precision 2D mathematical function plots with browser-based interactivity.
+
+## 💻 System Configuration
+
+| Component | Specification |
+| :--- | :--- |
+| **Compute Engine** | NVIDIA GeForce RTX 4060 Ti (16GB VRAM) |
+| **Model Format** | GGUF (Quantized Q4_K_M) |
+| **OS** | Ubuntu 22.04 LTS (Optimized for `Agg` Backend) |
+| **Frameworks** | FastAPI, Llama-cpp-python, Plotly, mpld3 |
+
+## 🛠️ Quick Start
+
+### 1. Clone & Setup
+```bash
+# Clone this repository
+git clone [https://huggingface.co/Khurram123/SigmaMath-Visual-Core](https://huggingface.co/Khurram123/SigmaMath-Visual-Core)
+cd SigmaMath-Visual-Core
+
+# Install dependencies
+pip install fastapi uvicorn llama-cpp-python numpy matplotlib mpld3 plotly