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| title: LOGOS SPCW Matroska | |
| emoji: π | |
| colorFrom: blue | |
| colorTo: purple | |
| sdk: docker | |
| app_port: 7860 | |
| pinned: false | |
| short_description: "SPCW Protocol Visualizer & DSP Bridge" | |
| # LOGOS: Structured Prime Composite Waveform (SPCW) | |
| **"The Machine Shop"** | |
| **[π READ THE UNIFIED ARCHITECTURE (HOPE + mHC + LOGOS)](ARCHITECTURE.md)** | |
| LOGOS is a **Manifold-Constrained Data Transport Protocol** that implements **Nested Domain Learning** at the bitstream layer. It replaces probabilistic software routing with deterministic prime topology. | |
| It treats information as thermodynamic "heat" and "waves" defined by prime number theory. | |
| ## Features | |
| ### 1. Prime Network Visualizer (Layer 1) | |
| Interactive visualization of the mathematical blueprints underlying the LOGOS protocol: | |
| - **Radial Topology**: How primes act as prime attractors for composite numbers. | |
| - **Potentiality Flow**: The "gravity" of prime constraints (Mod 10). | |
| - **Composite Density**: The distribution of entropy. | |
| ### 2. DSP Bridge (Layer 3) | |
| A working demonstration of the **SPCW Transmission Protocol**: | |
| - **Bake**: Encodes images into "Heat Codes" using Fractal Addressing. | |
| - **Eat**: Reconstructs the image from the stream. | |
| - **Stats**: Real-time throughput, latency, and structural integrity (SSIM). | |
| ## Usage | |
| Simply start the Space and use the tabs to explore the visualizations or upload an image to test the DSP/Transmission engine. | |