Interactive Demos
Play with the core CBF ideas, from interference to queue-buffering, without needing to read a paper first.
Foundations
Core building blocks: C = T + M, queue buffering, and wave-cell mechanics.
| Demo | Description | Action |
|---|---|---|
| Vector CA: Diffraction and Wave Growth | Wave cells split and multiply to produce diffraction, showing how growth emerges in the vector CA. | Run |
Quantum
Interference as phase-coincidence statistics, not physical overlap.
| Demo | Description | Action |
|---|---|---|
| Double Slit Fringes | Two hemispherical fans heal and meet at the detector, producing the classic fringe map via commit statistics. | Run |
| Timing of Interference Visualization | Shows that arrivals precede full interference, and that central fringes appear first as phase alignment propagates. | Run |
| Single-Slit Interference | A single aperture still yields a multi-peak commit distribution from path-time differences and beat selection. | Run |
Special Relativity
Queue buffering and frame synchronization effects in C = T + M.
| Demo | Description | Action |
|---|---|---|
| C = T + M: Directional vs Symmetric Timing | Compares directional pacing effects to symmetric ledger delays, clarifying what changes with motion. | Run |
| Beat-Matching (Explanation) | How frequency mismatch produces commit delays, giving symmetric time dilation via queue buffering. | Run |
Gravity
Queue-buffered commit pacing near mass and geodesic-like paths.
| Demo | Description | Action |
|---|---|---|
| Queue → GR (1-PN) Demo | Maps queue buffering to 1-PN effects: perihelion precession and photon bending without forcing photons. | Run |
Electromagnetism
Maxwell mapped into CBF language, media via MCF.
| Demo | Description | Action |
|---|---|---|
| Maxwell TEz Double-Slit | 2D TEz FDTD rendering of a double-slit mapped to CBF terms, showing fields and interference. | Run |
Cosmology
Global pacing corrections and Planck/CMB intuition from queues.
| Demo | Description | Action |
|---|---|---|
| Planck Spectrum from Queue Buffering | Derives blackbody-like spectra from queue pacing logic, connecting to CMB intuition. | Run |
| Redshift: Photons as Pacing Snapshots | Demonstrates how differences in local pacing \( \alpha_{\text{emit}} \) and \( \alpha_{\text{obs}} \) cause both gravitational and cosmological redshift without invoking expanding space. | Run |